##gff-version 3
sequence01	MetaGeneAnnotator	CDS	475	1707	.	-	0	ID=MGA_2;product=transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933230.1;translation=MKIYIYETRSSSEKLSPICSNRPVFDLKCGAFSILERVKKLFPNDKIVLFVRKEIKDIVGEKNELIVNPKEVDDGLWLNSNVLWNTSLVEQIKNKNNILCYKNKNLGFYLTEKQSNEWILNGGPVEKEYKNLDSQINKILISKNDYFEYLWDLLIKNDYMLKNDSKYFRMRQIESNINEKFHLINERNIFISKNTEIRTGAILDAKLGPIIISKNVTIEPGAYLQGPVFLDENVIIKPFAKILKNTSIGRGCKVGGEISECIFQGWSNKQHDGYLGHSYIGEWVNFGAGTNNSDLKNNYSNVKIYIKNKLLNTKQLFIGVFVGDYSKFAISTRFNTGTVVGMCSNIVSNAIPPKNIRAFSWIFDDKVSLHDYKKFIQTAKITKSRRDKIFTQNEQDFYLNYFQQSEIDVD;locus_tag=LOCUS_00010;note=WP_010933230.1 transferase (Chlorobium tepidum TLS) [pid:34.4%25%2C q_cov:94.1%25%2C s_cov:95.6%25%2C Eval:3.6e-55],MGA_2
sequence01	MetaGeneAnnotator	CDS	1704	2252	.	-	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYINPLRTSILITWFKFTQQLNQPNSTGKISINVKNTKKILMIFPDGKSNSRIAGHFLKSFDKNINETKIDFLINKSIYHSYQFNLPNDIKTYNDNQINWFRVPKKSFINSIIHEKYDAVIDLQPKFNFFSAYLTLKSRANTRIGFLSKYSYLFYNLEIDRKNTEFLEQSYLYLKKLLNL;locus_tag=LOCUS_00020;note=MGA_3
sequence01	MetaGeneAnnotator	CDS	2456	3091	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKKFNFFFVLSFFITSCGQQTAPPVMQNDINEISKTDEDANDRLAMDQNDSEINFEDGGPSLDLSIPQPDAIREAPISDLNLTSWDTYMILPGDFLIKIAKKEYGNYQKWKEIYNWNKEEIGNNPNLIYPYHYLSLKKKEMVEEFKPGFSAYKVNEGETLWDIASKLYGDPVAWIILYLDNAENLNGNSNNLSPGTILQVRDQIDPKA;locus_tag=LOCUS_00030;note=MGA_4
sequence01	MetaGeneAnnotator	CDS	3158	3940	.	+	0	ID=MGA_5;product=bifunctional ligase/repressor BirA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I0V9;translation=MLFPQLIKVNLKTKSFGKVIEYFQKLNSTNKEAFDLINKNKVSSGSIILTDFQYDGKGRNNKKWFSSSGKSITFSLVIEPTFHPKKLPLLSLAVGISIANTIKKLNLNASLKWPNDIFIKNKKCGGILIESKILQNRIKYLIIGIGINVNENEFDSSLQNISTSLFIEKKSPIQRELIIAWILNELELLIKLLNQENSVDIINSWTNLCNHINKKVSFLHNKKTKEGIFKGINNNGEAIIQFDNNEIVLNQTQIFDVFKS;locus_tag=LOCUS_00040;gene=birA;note=A5I0V9 bifunctional ligase/repressor BirA (Clostridium botulinum A str. ATCC 3502) [pid:33.6%25%2C q_cov:95.0%25%2C s_cov:75.5%25%2C Eval:4.5e-33],MGA_5
sequence01	MetaGeneAnnotator	CDS	3943	4914	.	-	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEDINFPSGSIKCLDKGFVRLVDSMGGDNAIVQAARVSYGKGTTKKSQDRGLIRYLMRHRHSTPFEMVEFKFHAKMPIFVARQWVRHRTANINEYSLRYSEARDDFYFPEFENIKFQSSINKQGRGKQVSKKIREKVINYFKEISNRSFEIYDELNNDGVARELARAILPVNLYTEWYWKNDLHNLLHFIGLRSDSHAQYEIQVYSDAMSLSVKNVAPFAWEAYEDYRISGMYFSKLDQDIFKKNLPNRILNDIIEDINYQLIATMNEIKPRKEDDLFNLYVEQGGEDIKEDFIIKWNSGKINKSNIRELKELKQKINKMKK;locus_tag=LOCUS_00050;note=F9Y9L5 flavin-dependent thymidylate synthase (Ketogulonicigenium vulgare WSH-001) [pid:56.1%25%2C q_cov:72.1%25%2C s_cov:78.7%25%2C Eval:7.4e-74%2C partial hit],MGA_6
sequence01	MetaGeneAnnotator	CDS	4931	5722	.	-	0	ID=MGA_7;product=3'(2')%2C5'-bisphosphate nucleotidase CysQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010968835.1;translation=MINEYKIAKSAVLKAGEILLDYYSLNYRISNKNLDKNGNYNPVTDADKASDEYLRDKLTSAFPDYGWFSEESKDSNERFKKERVWIVDPLDGTKEYINKIPMWVVSVALVENKKPILGILYNPVKKQVFSAIEGKGSKLNNKTIFCTKNYKISDMTILNSITETKDGLWLPFKNTFGKLQEVGSVAYKLGLVAAGKADLFATLRPKNEWDICAGHCIINEAGGKMLDLNGKNIFYNKKNSLITPGMLAGYSKSVDNAITILNY;locus_tag=LOCUS_00060;note=WP_010968835.1 3'(2')%2C5'-bisphosphate nucleotidase CysQ (Sinorhizobium meliloti 1021) [pid:32.7%25%2C q_cov:94.3%25%2C s_cov:88.6%25%2C Eval:7.6e-36],MGA_7
sequence01	MetaGeneAnnotator	CDS	6082	7614	.	+	0	ID=MGA_8;product=ribonuclease G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943853.1;translation=MEKQIFVSEMATERRIAVHEDNKLVEFYIEKPGETGMVGNIYKGIIENVLPGMQAAFVDIGFGLNAFLPFTEINNPELLKDASTSEDEDNNGKKREKKEIDKEIQVDLEKNQEILVQVIKEPFSGKGPRITTNIAIPGHLVVLVPNSNFIGISKKIWDKYEKRRIRKSIKNFLPNDIGIIVRTEAEGKSEKLIKKDFDNLLKQWRTLSRKSKKAESPSLLYEDLETVSTIMRDILDDSVDKFLLDSKKLFRQTKTYLQNVSPNLVEKLEIFRGKSPLFSHFNIDDQISKSTKRHVWIKSGAYLIIEHTEAMVVIDVNSGRFVGKGNHESNSLKINLQAAKAAAEQLRLRDIGGLVVIDFIDMNQEANRKKVYIEMKKQLKKDRAKVAVSQISEFGLLEMTRQRIRLSLRDSISEVCNICNGSGRNLSKDAVISEIDTWIRKYKKQKKDFRLILKVHSNVYNYLEKSKKNILRKFMWKNFIHIKTVPDDTLKPSEFHFFSRKNNKEIILEV;locus_tag=LOCUS_00070;gene=cafA;note=WP_010943853.1 ribonuclease G (Geobacter sulfurreducens PCA) [pid:38.0%25%2C q_cov:95.3%25%2C s_cov:97.6%25%2C Eval:3.6e-95],MGA_8
sequence01	MetaGeneAnnotator	CDS	7674	8039	.	+	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAIVEIAGKQFLTEVGKELKIPHQKDVEINKKISFDKVLLIVEDDDITIGKPIIPNSKVEVKVINHFRDKKVTVFKKKRRKGYKVKNTHRQEFTIIQCLSIKKLNSNSKTKKKTSTKPKK;locus_tag=LOCUS_00080;note=A6H1P9 50S ribosomal protein L21 (Flavobacterium psychrophilum JIP02/86) [pid:51.5%25%2C q_cov:84.3%25%2C s_cov:47.9%25%2C Eval:3.6e-19%2C partial hit],MGA_9
sequence01	MetaGeneAnnotator	CDS	8060	8308	.	+	0	ID=MGA_10;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NME2;translation=MAHKKGMGSTKNGRDSNSKRLGVKAYGGQTVKAGSIIVKQRGTKIHPGLNVGIGNDDSLFAKISGIVQFTTKTKNRKIANII;locus_tag=LOCUS_00090;gene=rpmA;note=Q7NME2 50S ribosomal protein L27 (Gloeobacter violaceus PCC 7421) [pid:65.4%25%2C q_cov:98.8%25%2C s_cov:85.3%25%2C Eval:1.5e-25],MGA_10
sequence01	MetaGeneAnnotator	CDS	8393	9328	.	+	0	ID=MGA_11;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3M9U0;translation=MKRNKIALIGGGQIGGILALICAQKELGDVVIVDVPKSEGMVKGKALDIIESNPHDGYDVKITGSSKLSDIKDANVVAITAGVPRKPGMSREDLLEINVNIISNIANNVKKYCPNAFVIVVSNPLDAIVYAFHRISGLPKNQVVGMAGALDNARFKAFIAMETGLSVQDISCIVLGGHGPTMIPLISSASIGGVPLLDILDSTQINKIVNRVQHAGTELVQLYGNGSAFFSPATAIVEMIEANIKDKKRVIPSAALCEGEYGINNLFIGVPTVIGKDGIEKIIEVKLNNDEKKALQETIKTVKKTVSEIKF;locus_tag=LOCUS_00100;gene=mdh;EC_number=1.1.1.37;note=C3M9U0 malate dehydrogenase (Sinorhizobium fredii NGR234) [pid:49.2%25%2C q_cov:97.1%25%2C s_cov:95.0%25%2C Eval:8.7e-85],MGA_11
sequence01	MetaGeneAnnotator	CDS	9297	9782	.	-	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLYLILHFIFGALLILSSLYINYICYQIKKNYNLKNQNKIKIISEFSDKTEMLFIFFLPMLAILYLTTNQELLNHLNLYFKFILYIILIIIFLKSRIILKNMITGEIVLKKNLIKIRKFYLYRQLYLFVLFITFFYTPVNNGLIKTLKLFKILFRSQFS;locus_tag=LOCUS_00110;note=MGA_12
sequence01	MetaGeneAnnotator	CDS	9788	10621	.	-	0	ID=MGA_13;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDFIYLFIFILLITFFIVVIKIFGASEKKDNKINYDNSDLTIANTIYSILLYPIWFVIFIFTCFTFFPIVMLTKPKFISPIVRAFGRLLLFGFGVILKIEGKEKLKRKKPYLLLFNHSSIIDIFILPSITFKQVTALAASYQFKLPIWGPIIKKYGIIPVERKNKNSAIKSVKYAQEKLKQGISVFISPEGTRTTSGQLNPFKKGPFHLAKGSKADILVVVFKGAFLAKRKTDWRIKPGVIEVMVGDFIYYRDYKNLSVEDLKKLSWKKMNNLLDK;locus_tag=LOCUS_00120;note=Q747Z9 1-acyl-sn-glycerol-3-phosphate acyltransferase (Geobacter sulfurreducens PCA) [pid:31.7%25%2C q_cov:51.3%25%2C s_cov:60.7%25%2C Eval:4.2e-16%2C partial hit],MGA_13
sequence01	MetaGeneAnnotator	CDS	10618	11712	.	-	0	ID=MGA_14;product=A/G-specific adenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404847.1;translation=MYNTIKNIDFSNELINWFNKNKRKLPWRNTKDPYKIWLSEVMLQQTKVETVIPYYNKWIIKFPTIEDVAKSKTDLLLKYWEGLGYYRRCINFQKSCQIIFHEKNSKVPRNLDEFLKLPGVGLYTASAVLSISYNYPIPLIDGNVNRVISRVLALNNVVKGKKNSFIIYLNKIISKKTPGSFNEALMELGSQICKNINPLCCDCPINGFCKSKMMGVQEKFPEKIIRKATPLIRVSTGIIWKNEKFYIQKRLNKNHLSNLWEFPGGKVKNNENLKNALKRKVFEELGVNIIIKKKIKKIRHNYSSFSIELTLFNCIIDGIIKNDFHEYKWIKPSEINSFAFPKVNIKLFNYIEKKGWKKLLKDFK;locus_tag=LOCUS_00130;gene=mutY;note=WP_011404847.1 A/G-specific adenine glycosylase (Salinibacter ruber DSM 13855) [pid:37.8%25%2C q_cov:91.8%25%2C s_cov:95.8%25%2C Eval:1.9e-68],MGA_14
sequence01	MetaGeneAnnotator	CDS	11713	12135	.	-	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSGEIINELFFSLNFFHRKNICSNKNDSLAQCLTILSIPKKGVPMNVVTKKLGIDKSTLTRLIENLEKLELVYRKKNNIDKRSVKVYLTEEGFSQSQKYRSRLDILGNQILNDNIPNKRELKNALENLIWELWKYNLNI;locus_tag=LOCUS_00140;note=MGA_15
sequence01	MetaGeneAnnotator	CDS	12178	12708	.	-	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVYSCFLVLFISVNNNIYSQKKTFFEFVDSFDLKIYEYVNSKKLMSTKNSQFLDNYGKIYIYPLVVYSELKYNKNQKFLLNPLVLTISSTYFLKYITKRERPNKKNKMSFPSGHTSGSFVSALILNNNYGLSIGLPALFLASVVGIQRLESNNHWFSDVMSGAIIGLFFGIIK;locus_tag=LOCUS_00150;note=WP_011261826.1 PAP2 family phosphoesterase (Vibrio fischeri ES114) [pid:45.0%25%2C q_cov:45.5%25%2C s_cov:44.0%25%2C Eval:7.7e-15%2C partial hit],MGA_16
sequence01	MetaGeneAnnotator	CDS	12705	13787	.	-	0	ID=MGA_17;product=peptidase M24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000172812.1;translation=MNYFTNRLEKIKLSLNQNNLDGIIITNLKNIRYISGFSGSSATCLIINESEYFISDGRYKIQSEIEVKNMEIFIDDESNFDIIKKQKLINNKKLKLGFESDKTTHDELQSLKLLFPQVNWVPIKNIIENISKIKDKQEIQCMRQAVEITDEVFDQIIPDLRIGLNEKEIAAKISFALKILGADEDAFRPIVAGGPNSALPHAFPSSRELQKGDFLILDFGAKYNGYHADMTRTVVIKECSEKQKEIYNIVSESQKLGIKNISDNTDCKYIDSICRDYIKNSGYGDNFIHSTGHGLGLEIHENPRFSKNSKDKIYSNYIMTVEPGIYIPNLGGVRIEDDVIVKKTNSEILNKSTKELIVID;locus_tag=LOCUS_00160;gene=pepQ;EC_number=3.4.13.9;note=WP_000172812.1 peptidase M24 ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:42.0%25%2C q_cov:98.6%25%2C s_cov:99.2%25%2C Eval:5.5e-73],MGA_17
sequence01	MetaGeneAnnotator	CDS	13784	14470	.	-	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINNINELEDYFQDNPSSNLFPILSEYYLLNKKIDRAQEICELGLKLNPKSLDGLYVLSRILILKKDFIKSEKTLKKIIKEDPNFFNAYILLSQIYWNQNKTVELKRILNKILLFDSNNTYANEGLKKILILETNHKKTLTKQKKTTNISKINSSVELVNDENINTIPITKDIATFTMVEIFKSQKLYKEALGVLSVMKTKKNSNLKDIKTKQSELTELLKKQNANK;locus_tag=LOCUS_00170;note=WP_012546646.1 hypothetical protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:23.8%25%2C q_cov:84.6%25%2C s_cov:32.3%25%2C Eval:7.6e-07%2C partial hit],MGA_18
sequence01	MetaGeneAnnotator	CDS	14556	16079	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNFNLKKCQNMNYKILVLINIIFINSFLFGGTIDVKFISDPNRIESIKSFKNGNHSYISSTDLIRILDAGTFKNIPRGKIVIYLGGHRIKISNQSSFIVINENVFQMNSFVISDGIDMYLPLESFLKIIKENVEQGISYNQNSNNIIIDLVSQNVKNLTIEEKANGTLIRIGTTQQFDAKSITGWSSSNRWFYLTISGGIADSISIKKSKLGGSIRSLSIDQNPTSVQIAFQLINDIENFEIYQNNEPSEIVLTLRNPLSISAEKIKKIRNSWFIDTIVIDPGHGGKDPGATGKYGLREKFVNLDIAKRLGRLIEKNTNIKVIYTRDEDVFVPLWKRTQIANNSGGKLFVSIHANANENRRVKGFETYILRPGKTQDAVEVAERENNAIKLEEEESRYENLIEDNFIIASLMQNSFMKESEDFAGMIQNHLRKSIPSPDRGVKQAGFYVLIGASMPHALLEVGFLSNPLEEKQLRKPGYRQSIAEATFNGIIKFKDKYEKTLTSEN;locus_tag=LOCUS_00180;note=WP_010931748.1 N-acetylmuramoyl-L-alanine amidase (Chlorobium tepidum TLS) [pid:36.4%25%2C q_cov:69.0%25%2C s_cov:66.8%25%2C Eval:1.3e-52%2C partial hit],MGA_19
sequence01	MetaGeneAnnotator	CDS	16101	17363	.	+	0	ID=MGA_20;product=tetrahydrofolate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002319749.1;translation=MKQKNNDFLFSLNRYGIKVGLHRTKALLKKCGDPHKKINFIHIAGTNGKGSTASFIANILKYNNLKVGLYTSPHLINFNERIRINGKSIPNETIDNFIIDHNEDIKKLGSTFFETTTALMFDYFYKENIDIGIIETGLGGKLDATNVIIPKISVITNIDYDHMELLGNSIESITKEKCGIIKTKTPVVIQHQKNKVKHIIKNEAHKKNSKLVDSSKLYPINNIQSSYMNTSFNIKNLKLKIPFFGQHQLLNVQTAIATILEFDPSIDNKKIIKGLKSAKWPGRFQKVSNKPKVIYDVGHNEKSIKNTIITLKEKFPNKKINGILTLKKTKELKGIINLIDNNFNQIILLFPPDKNDFYSQNYLKKNLINTTLKISTTKSIKKIFDGLKNESNELWLIFGSHYIAKEVFTYFNFPFEKGKI;locus_tag=LOCUS_00190;gene=folC;EC_number=6.3.2.12,6.3.2.17;note=WP_002319749.1 tetrahydrofolate synthase (Enterococcus faecium DO) [pid:37.5%25%2C q_cov:81.7%25%2C s_cov:81.4%25%2C Eval:1.7e-60],MGA_20
sequence01	MetaGeneAnnotator	CDS	17450	18697	.	+	0	ID=MGA_21;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KFQ8;translation=MDVTQLQGLKIKDLTKLAQEMEVPSYSGLKKQELIMKILETSAQKEGKLFASGVLEVMQEGYGFLRSQDYNYLPGPDDIYVSPSQIKRFNLKTGHQVAGQIRPPKDNERFYALLKVETVNNEAPDKVKNTILFDNLTPLYPEKRVNLGKNSKDFSMRTLDLMAPIGKGQRGLIVAQPKTGKTVLLQQIANAAIETHPEIKIIVLLIAERPEEVTDMQRSVDAEVVSSTFDEPPERHVQVADMALEKAKRMVEYGHDVMILLDSITRLGRAHNAVIPHSGKILSGGVDANALHRPRRLFGAARNTEEKGSLTIIATALIDTGSRMDDVIFEEFKGTGNMELVLDRRLSDRRLFPAFDLIKSGTRKEDLLLSKKELSRVWILRKFLNDMTPVEAMEFLLDRMKRTKDNDEFLDAMNN;locus_tag=LOCUS_00200;gene=rho;EC_number=3.6.4.-;note=Q8KFQ8 transcription termination factor Rho (Chlorobium tepidum TLS) [pid:63.6%25%2C q_cov:99.8%25%2C s_cov:97.7%25%2C Eval:3.2e-152],MGA_21
sequence01	MetaGeneAnnotator	CDS	18817	19608	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELPKEKFVPHINGKYRFDFLYPRIQVKILNEKIYLIGIKEGVEPILELNEKLEKMNFGNITFNVENIKYEVYKKNFEEKNQLFHYKFLNPWVALNQMNMKKFKTIKNNEKEMFLNKLLGQNIAFLAKEFNVEIKKSIYIDISLDKLDVETMEDGKTGSFEGSFKTNIILPNLIGVGNGITKGYGVITSNINYPEFCDFLDDNEKKISSEKLPEDWESKSISPSDIPLSKRKKKKKKKEKKIEKNKKIEPNFNSAKYHSKTH;locus_tag=LOCUS_00210;note=MGA_22
sequence01	MetaGeneAnnotator	CDS	19621	20799	.	+	0	ID=MGA_23;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YIN0;translation=MISKRVEKIQPSFTLEMTSKAADLRRKGIDVINLGVGEPDFNTPVNIREAAIQAMNEGHTKYTPGKGTYEVREAICKKLKRDNNVNYNSNQIIVSSGAKHSLSTLFQAILNPGDEVIIFSPYWVSFPDIIRLADGNPITVETNPNENFSPNWNDFHSKISNKTKAVLINSPSNPTGSVWNNEIIEEILKISKKNNWIVVSDECYEKLVYDSDYECTELINKQNKIGANVITVQSMSKTYAMTGWRIGYTACDENIINAMSKIQGQATSCPNSIGQKAAIEALIGDQKEINDMKKIFKQRRDIMINRLNKIPKVNCQLPGGAFYAFPDISYYLNDKISNSFILSDYILDKANTVTVAGAGFGMDGFIRLSYATDVEIFLEGINRIENTLLNLN;locus_tag=LOCUS_00220;EC_number=2.6.1.-;note=B5YIN0 aminotransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:47.7%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.2e-101],MGA_23
sequence01	MetaGeneAnnotator	CDS	20808	21011	.	+	0	ID=MGA_24;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q73MK4;translation=MKSKVHPKYDISTIKCACGSAFKIRSSVGDIDVEICSSCHPFFTGQQKLIDTAGRIEKFKKKYGNKK;locus_tag=LOCUS_00230;gene=rpmE;note=Q73MK4 50S ribosomal protein L31 (Treponema denticola ATCC 35405) [pid:63.6%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:3.0e-21],MGA_24
sequence01	MetaGeneAnnotator	CDS	21070	22140	.	+	0	ID=MGA_25;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZT29;translation=MINKLKEIIQRYDQVTDLLGQNEIASNPTKYNELAKEHHELEPVAKKGSTYLESVKELNEYEQIIKENDEDLKSIALEEIDSLKKKTNELEEQIKLLLLPKDPLDKKNTIMEIRAGTGGEEAALFAADLYRMYSYLAEQNNWENNIIEANATGNGGYKEIICSFKGNSIFGILKYEGGVHRVQRVPQTESNGRVHTSAATVAVLPEADEVDIEINPQDLRIDTYRASGAGGQHVNKTESAIRITHIPSDTVVTCQDEKSQHKNRVAAMKVLRSRLLANEIEKQQSERAKVRKNMVSTGDRSAKIRTYNFPQGRVTDHRINLTLYKLEEIMNGQLNELIKQLKIADQIEELKTANLS;locus_tag=LOCUS_00240;gene=prfA;note=Q5ZT29 peptide chain release factor 1 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:55.6%25%2C q_cov:95.2%25%2C s_cov:93.9%25%2C Eval:3.3e-110],MGA_25
sequence01	MetaGeneAnnotator	CDS	22137	23018	.	+	0	ID=MGA_26;product=release factor glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q180Y4;translation=MTKVQSNKINFNNLKTLIEHGEKELKKKEIKESHIKVKWLLSHILSIPIKNLSLYYKLKLNIEQVERFNKYIKRLLNHEPVQYVIKETEFYGLDFELNNNVLIPRIETERLVDFAIDIIKEYNYKFILDIGSGSGIIGICIAKSLNKNISIIGIDSNKNALKIAKKNAIKHAIDSKIQFLYLDILKNKLNRKYDLIISNPPYISINEYHKLDKDIKLFEPKSALTDYDKGILFYEKYSIEGFKWLNKNGSMILEVGGNNHSKKIKDIFLKTGWKNIELINDYNGDSRVLIVKN;locus_tag=LOCUS_00250;gene=hemK;EC_number=2.1.1.297;note=Q180Y4 release factor glutamine methyltransferase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:35.3%25%2C q_cov:90.8%25%2C s_cov:94.7%25%2C Eval:1.8e-36],MGA_26
sequence01	MetaGeneAnnotator	CDS	23066	23851	.	+	0	ID=MGA_27;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979498.1;translation=MISCLTLVLVSISIGTKLYNENLLYGLLVISFFTGGANVINDSLDYKTDIINNPKRPIPKGEISSFKAMAFSIYLFLAGIGFSLFLNQNSIFVSVFIGLPLIIFYSFYFKNTPIYGNIIVSLIISLAFIFIGSLNNNYKLIIPISLLGFSFTFVRELIKDVADYEGDKNSNINTFPVIYGIKLSIKIIVILLILLIFGILSPYFFGIFSIRYLLITLFGISIPLFFIIILLINSPTSKTCEISSKLIKLLFLVGLIAIYFK;locus_tag=LOCUS_00260;note=WP_010979498.1 MFS transporter (Sulfolobus tokodaii str. 7) [pid:33.0%25%2C q_cov:82.8%25%2C s_cov:76.3%25%2C Eval:1.0e-21],MGA_27
sequence01	MetaGeneAnnotator	CDS	23858	27289	.	+	0	ID=MGA_28;product=DNA-directed DNA polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E0S8;translation=MKSEFIHLHNHSDYSLLDGAQKIDELLDTITNLNMDSVGLTEHGNMFSAISFYKAAKKHGIKPILGCEVYVAQGSRFDKTPKKDGGWGNNHLVLIAQNYTGYKNLMKLSTAGYLEGFYYRPRIDKELLKEFNEGIICLSGCLKGEIQEFIVKGDYNKAKKTALEFSEIFPERFYLELHNHGIPEEDVVREQLLKISKELNLPLVATNDCHYSLKQNWEAHDVMFCLGTGKDRDDPKRQRYATQEFYFKSQDEMWKLFKNYPGAIENSRLISDSCNIELPLGEYLLPKFPIPEKYNSHSPDDYLKVCCEKGLKNVYSKINDEIINRLDFELDVIKKMGFAGYFLIVMDFVDYSKKNNIPVGPGRGSVAGSLVAYTLGITTIDPIKYNLLFERFLNPERISMPDIDIDFCYERRLEVIDYIKERYGEESVTQIITFGKLKARQVVRDVGRVLGISLSEVDKIAKSIPNTPGVSLDEAIKINNDLKDLSNKNNINKDLINFSKTLEGMNRHVSTHAAGVVITPGNLSEYIPLYKSSQGDITSQYDMKNLEDLGLLKMDFLGLRNLTVINDTIQLLKKRGININIEKIPLDDKKVFKLFSRGNTIGVFQFESNGMREYLKKLKPTSIQDLIAMNALYRPGPMENIDEFIKRKHGKKQIKYIDPILKDILNETYGIIVYQEQVMQIANNIAGFSLAQADMMRRAMGKKQKKLMKDQREEFVKGAIKKGTNKEKSIEIFDLIEKFAKYGFNKSHSTAYAYIAYQTAYLKTYYPSEFMAANLTSEMINTNRIVTLLNECQKLKIKINPPDVNESEINFKAIDEKTISFGLNAIKNVGFKALRNIIDNRKKSGKSKTMYDFCKNLDLRLVNKKVLESLIAAGAMDSIDGNRAQKYSIVEITLKSAQKEQTESKNNQFTIFNNNENNTDFTNYVKLPEIDDWNENKKLDFEKELMGFYLSGHPLLEYSKTLEKFSNYDFSEKNEDLERIKIGGIITELKHHFDKKNQEMAFCKLECIGGTVDLLIFHDTFSKFKSLIVEGGLIFVKGKPTSGINENILKVIVDSIESLDDVQGKNPSIMNIVLEVNKMNENDVDELYNLINNHQGNSKIFFHLYDELGENKKFYSKKLKVSNDDKFINKLKSIYGEENIWIE;locus_tag=LOCUS_00270;EC_number=2.7.7.7;note=B8E0S8 DNA-directed DNA polymerase (Dictyoglomus turgidum DSM 6724) [pid:47.3%25%2C q_cov:92.4%25%2C s_cov:92.8%25%2C Eval:1.5e-286],MGA_28
sequence01	MetaGeneAnnotator	CDS	27341	28153	.	+	0	ID=MGA_29;product=chemotaxis protein MotA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010937361.1;translation=MDLGTAFGLLIGMLIIIFTVLTKNGDPIWFMDFGSVLIVLGGTLSATLVNYPLRNVQALLRILRAAFKRQSIEHLNIIEQLIDKADISRKKGILALEPELESINDKFLKDGLDLAINERDSQRLRTYLELEMSNIERRHSLGQEIFLYMGAYAPAFGMLGTVLGLIIMMKNFASSDPSDLGALEFSVAERFAELLGGMGLALITTFYGVLLSNLVFLPLAGKLKRKSEEELMVKDIMIEGIIGIHSKDHPIILREKLLTFVPQSNRKEKK;locus_tag=LOCUS_00280;gene=motA-1;note=WP_010937361.1 chemotaxis protein MotA (Desulfovibrio vulgaris str. Hildenborough) [pid:40.2%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:2.3e-51],MGA_29
sequence01	MetaGeneAnnotator	CDS	28155	28877	.	+	0	ID=MGA_30;product=chemotaxis protein MotB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860943.1;translation=MPRKVNKISFSEGKARSTAWAVTFGDMVTLLLTFFILIIVIMNEAEKQIDQIIDMLLDETYKELKIELSDDNVQVDRVTKGVKITMGSNQLFQSADAELKKEVLPTLNQIGILIKNSRILTLEKDSTFQKFVKAIEKNNKNLNIEIRTEGHTDNLPLPLKLQKKWKSNWELSTARALNVVTLLSEYSGLPQNKFSAMGYGEFRPLYKNQTIDGRSRNRRVEIYLDAFVTINIQKENLNPL;locus_tag=LOCUS_00290;note=WP_011860943.1 chemotaxis protein MotB (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:29.4%25%2C q_cov:88.8%25%2C s_cov:90.7%25%2C Eval:2.9e-20],MGA_30
sequence01	MetaGeneAnnotator	CDS	28864	29211	.	-	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNKKNIFLKRRKSSRRLVTPVQNKSFFYKIIFIVIAILILIFILDDHGLYSFYEVNDTKRKLNKEIDDLRNEKLELESKKNKLENDIDFIEDLAREKLRMAKPGEKVIKVIKD;locus_tag=LOCUS_00300;note=MGA_31
sequence01	MetaGeneAnnotator	CDS	29219	30508	.	-	0	ID=MGA_32;product=enolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RLT8;translation=MSKISKILGRQILDSRGNPTIEVDVILTDGTIGRSAVPSGASTGKYEAVELRDNDENIFLGKGVSKALTNLDKHLAPAVIGLDILDQRKIDDNLIQCDGTPNKGKIGANAILGVSMATIHAAANYKKVSLFESLKNTNKISLPIPMMNILNGGSHANNSVDIQEFMVFPLGASTFSNALRMGTEIFHKLKSVLNKMDMNTAVGDEGGFAPNLQSNEEAIEVIMEATELAGYTPGKEIFLALDVAASELYDGNNKKYNLQSEGKVLSSDEMIKYYIDLVDKYPIISIEDGLDEDDWNGWVNLNNKLGNKVQIVGDDLTVTNMKRLEKAIDLSAMNTILIKLNQVGTVSETIDTINLAKKNQMGAIISHRSGETEDTTIADLSVAMGMGQIKTGSASRTDRICKYNQLLRIEENLGENAILAKSNILGFNS;locus_tag=LOCUS_00310;gene=eno;EC_number=4.2.1.11;note=Q2RLT8 enolase (Moorella thermoacetica ATCC 39073) [pid:62.1%25%2C q_cov:97.4%25%2C s_cov:97.2%25%2C Eval:4.5e-144],MGA_32
sequence01	MetaGeneAnnotator	CDS	30927	31103	.	-	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCDKESKNNMKEEILNNCLYIMLLKKNKLNCSEKININNDKKILEQKFKKKAVEKIDF;locus_tag=LOCUS_00320;note=MGA_33
sequence01	MetaGeneAnnotator	CDS	31270	32103	.	+	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVIISSFNSFQIILKINYVKKFLKFGLPFLPAGIASITMESIDRYILSIMTNNYIVGIYTAGYKLGIFMLIFSTAFNYAWQPFFLNSNKNKKTKKLFSKIFTFFTSIAITIWLIISLFIEEIITIQIFEFSLLGKEYIRSINIVPLILLSYIFQGAYYNFLPGIYFKEKTKIIPPIIIFSAIINIFTNIILIPIYGIIGSAIATLLGHFTMAVLTYFYSRKLFLVKYEWLKIFIIFFIASLLIIISQIMFISIFLKTLICILFFIFIFKSKMISFQ;locus_tag=LOCUS_00330;note=WP_011964538.1 polysaccharide biosynthesis protein (Flavobacterium psychrophilum JIP02/86) [pid:24.4%25%2C q_cov:75.5%25%2C s_cov:42.4%25%2C Eval:2.3e-14%2C partial hit],MGA_34
sequence01	MetaGeneAnnotator	CDS	32100	33071	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKIKVFLFSTFKTSFIEDDFHYIKKNYISKWISDSGINAIFHIISNCFNYQVYIVWFASTYSALIVFLSKIFNKKSIIIVGGADIIFDKNLKYGLLQKKWKFPIIKFALNNADYLIASSKYIEENIIKICKKRPKNLFVIYPGVNIDLWKISNKKNETKNILTVAVCNNKTRFNIKGIDIFINLAKKIKDVNFTIVGIDKKLLKNITFPKNVLVIPKLNQKELLKYYNKANIYCQFSRRESFGLACAEAILCGCVPIVSNVGGLKEIVQNSDLVVDLNNFSNIIKTVKQTLNESKKIDLKKFQHRFSSFSRYKKLDTIIHK;locus_tag=LOCUS_00340;note=WP_053240438.1 hypothetical protein (Pyrobaculum islandicum DSM 4184) [pid:22.9%25%2C q_cov:60.4%25%2C s_cov:54.9%25%2C Eval:1.8e-11%2C partial hit],MGA_35
sequence01	MetaGeneAnnotator	CDS	33068	34462	.	+	0	ID=MGA_36;product=peptide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868271.1;translation=MKKIFQNIFFLGSSDLISRFLSFLSIIFLARNFGPEGMGLLAASLSFLTIGNVLSELGLPIWGTKIISRLNKNSKDLLIKIFKIRFSLSIIIYIIFVIILKIYFFQSKLYLLSLIYLFALIPTSFLTEWVFQGLQNFKIIFKGRILASTTYFFLIILFINEKSELTLIPIAWVVSILIQVLYLGIKNFKSLKIKQEKIAYSDFEILKKALPLGLSTIIAQVIIQFPPIYLGYFNSYEGGLFNIAFRVIILLLIINRIIYSLFFPTITRLIHTDKIMFETYFNIILKCTVFFSIIIGVFSIQIPSSFFSFIFGVDFKSSANIFQILCYYFIFSLINSILTYTLIGLDNEKTYLRSLIIGGLGCIFFFLFVDIDLAIKSSFSLVVFQFISLLIMLIQLIKKIKFNFFRSITLPFILLFIFSYFQFAFDSNHSNYLLFIKLIFFPLILFFIINISKKDRVFLINNIK;locus_tag=LOCUS_00350;note=WP_010868271.1 peptide-binding protein (Pyrococcus abyssi GE5) [pid:19.4%25%2C q_cov:75.6%25%2C s_cov:86.4%25%2C Eval:4.5e-12],MGA_36
sequence01	MetaGeneAnnotator	CDS	34459	36012	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLTIGITNLNTTWDIVLSQIGPPYLHINNSSFNTLKKHACIIINSNSSLIKDDIYRYINEGGGVIIESEIAKKLFKISTRNLFVQYVNTKYDKIFSRVTSGIINSTLIVSKKSRFLKDQYGRFLVDTLNIGKGYVIIIPSGLINCIKSIENKRKNFPTCNNFFPNERVSTVSKRTLREIIYISLLEIYNKKNIPFLSLNCFPNENKTIFNFRVDTDFAEKKQIEKLYSLCKKFNINASWFIETKSSENWINTYKSMQNQEIGLHCYRHKVFNNFRKNNLNLQKGVSILKKNGIENLGFASPFGVWNTTLSDSINKLNFKYSSEFGLDYDNLPFFPIMNKNKFSNVLQIPIHPICVGSLKNSKHNSEKIKKYFENIIKNHTSNNLPIFIYDHPKQFEEKILKWLFNKINELNFPSLTLQDYAEWWKQRLKIKWKAKIKNNKIILDYENWNESVFLKVSKLNMKSIILNKNNLPDIKNFKWEIDNPILSLNNIEELNKINRKIITNNILQFYWKNKL;locus_tag=LOCUS_00360;note=MGA_37
sequence01	MetaGeneAnnotator	CDS	36009	37043	.	+	0	ID=MGA_38;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808446.1;translation=MNISIASYHTVDIKHGGPRTQILQTKKNLEKLGVKVELFNMWNNNPFKKTDIFHIFSSNFGIFDFARYLNSEKKKFVVSPIFFTRQSPLSMKIVIKSNNFINNFVPGIWTDYNISKKICHWSDAVLPNTDKEKLLIKNGFGIKSNKISIIPNGVEKRFLNADPKKFINKYGIKDFILNVGHIGIERKNTLSLIKALSKIDHPAVIIGKVYKTSEGLKCINEAKKNKNLIIIDGLDHNSDMLESAYAASKVFVLPAKYETPGIAALEAGLTGSKILITKYGGTKYYFKEFATYVNPYSINNIRSEIKKNLQEPNSNKLSNHIKNNFLWEKVAEKTVSIYEKILNQ;locus_tag=LOCUS_00370;note=WP_005808446.1 glycosyl transferase (Desulfitobacterium hafniense Y51) [pid:29.0%25%2C q_cov:94.8%25%2C s_cov:93.5%25%2C Eval:9.6e-27],MGA_38
sequence01	MetaGeneAnnotator	CDS	37040	37960	.	+	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNASVIISVYNCEDIINKTIPKILDQNYPNEKFEIIVVNDSSTDNSYNLLKNYNHHNNFTIINHKENKGRCATRNSGIKVAKSDIIIFLDCDIEVSKDFVLFHVSFHKNENIIGLLSNVIPYTTENKTKYHKFLNFKKRGAKRYGDQVPLHYKYFIFTATSVKKVAIDKTGLLNEELKGYGIDLHYSYRLWKNYSENLFFESSILVKQYKLKDFNMALNDFKDYGSRNLPIVLNSFPELHKDIGLSLFHSNSIFSVIARKLIFNQFTKYFCDISIILLPSNLCNPFFKIRLLLELVDGYKQNIYNK;locus_tag=LOCUS_00380;note=WP_000064007.1 beta1%2C3-glucosyltransferase (Escherichia coli IAI39) [pid:27.8%25%2C q_cov:69.0%25%2C s_cov:67.6%25%2C Eval:4.9e-16%2C partial hit],MGA_39
sequence01	MetaGeneAnnotator	CDS	37957	38883	.	+	0	ID=MGA_40;product=phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931793.1;translation=MKIASVDLGSNSLSILIAEIHDNKIIPVFEKIYLIRLAQGIKNNNLLHQEAKKRCLNAFKKIDELLKIYNPDHILGVGTAALRNSLDGKKFSKVIFNNFNIPIRVISGNDEANLTFLATINEFKKYNNNIYMIDIGGASTEIVFGNLKKIHWKISLDIGSVALTEEFIKSDPPSQDELKQMQLKIKTILNQKIDFTLNKDKIPLGIGVAGTVTTLKAIDLNIKNYDSEIIHESELKLANLIKIKNMLCKFNIKDRLKLNGITEKRVDIIPTGSIILQLTMEKLNLKSIYINDKGLRWGLIYNFINKKN;locus_tag=LOCUS_00390;note=WP_010931793.1 phosphatase (Chlorobium tepidum TLS) [pid:28.6%25%2C q_cov:99.0%25%2C s_cov:92.1%25%2C Eval:5.8e-33],MGA_40
sequence01	MetaGeneAnnotator	CDS	38880	39572	.	-	0	ID=MGA_41;product=rhomboid family intramembrane serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933874.1;translation=MFQLFGIVPSNTFFNLMIWQPFTYLFFHGGVWHVFINMFVLWMFGSELEKIWGKKYFLKYYFLTGVGSGIITVLLSLNSLIPVVGASGAIYGILLAYGLIFPNRKVYLYFLIPIKVKFFVLFIGIIAFFSSFGSNDGISHLTHLSGMIIGFIYLKSNFQIDFLKKMILKYKSRLKNNLNYKERQYEDDLRFEVDSILDKINKQGYDNLSEKEKIFLYEASKKLSQTQYRN;locus_tag=LOCUS_00400;note=WP_010933874.1 rhomboid family intramembrane serine protease (Chlorobium tepidum TLS) [pid:41.5%25%2C q_cov:90.9%25%2C s_cov:78.9%25%2C Eval:2.6e-47],MGA_41
sequence01	MetaGeneAnnotator	CDS	39710	40453	.	-	0	ID=MGA_42;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GWB0;translation=MGLESTSGIVLKTFSYGETSKIIRCYTKDFGKISLIAKGVKTSKTLQTGYLEPINCISINLYYNSKRQLQIFSKAEFDQPFLSIKSNIKKLSYSFAVIELIDKTVNGEESHHQLFNLTKNILSAINDNKGKINILFWFFQLKLLALLGFKPNLSNCSNCQDSLNSANFLSGELFCSECSNSTGIKLSKNALSLLKKINEIEINDIPKLKISIFERKEIGEFLKQYYSYHIDGLREIKSLRVMESILN;locus_tag=LOCUS_00410;gene=recO;note=A6GWB0 DNA repair protein RecO (Flavobacterium psychrophilum JIP02/86) [pid:24.2%25%2C q_cov:98.0%25%2C s_cov:98.3%25%2C Eval:1.6e-16],MGA_42
sequence01	MetaGeneAnnotator	CDS	40457	41932	.	-	0	ID=MGA_43;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8A988;translation=MSKKVTPKSIDHSKWYTDVILKADLADYGPVKGTMVIKPYGYSIWTLIKESIDLKLKKTGHSNAYFPLFIPKSFLSKEAEHVEGFAKECAVITHHRLKTDPNSNDLIVDPDSKLEEEVIVRPTSETVIWSMYKKWIQSYRDLPILLNQWANVVRWEMRTRLFLRTTEFLWQEGHTAHSNEIEAKKEAIDILNLYKNVSENIMAIPVLTGIKSEAEKFAGAEITYCIESMMGDKKALQAGTSHYLGQNFAKAFDVKFQTKNNKEDYVYATSWGVSTRLIGSAIMVHGDDKGLRLPPKIAPHQIVIIPIGKSDDDVKKILNFFKEHIKNFKDSGLRVLIDDREDLSPGFKFNEWEMKGVPIRIEVGFRDLNNDQVTIARRDTNKKEVVSISKVNERIHNLIDEIQISLFEQALDFMNSNIFEVSSYEEFKKLMSENKGFIKCGWDGNSKTELIIKEETKATIRCIPFEQNIKNKKCIFSGTPAKFEVIFAKSY;locus_tag=LOCUS_00420;gene=proS;EC_number=6.1.1.15;note=Q8A988 proline--tRNA ligase (Bacteroides thetaiotaomicron VPI-5482) [pid:56.6%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:7.1e-165],MGA_43
sequence01	MetaGeneAnnotator	CDS	42028	42783	.	+	0	ID=MGA_44;product=rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808211.1;translation=MISKKELKYISSLELKKFRNENKKYLVEGKRLIIEGLKAGVITNIYYSPEKCSFNNFSSLKPYINNKIEAKEIDEKTFNIFSNTITSQGLIGIALINNPKFENCIKTKFNWIYLDKIKDPGNLGTILRTAEWFGIKNIGLSPECVDPYNSKVVRSGMGAHFNLNIISNIPLNIIKDHNIRMLLADKLGEPISKSDSLNKWCLILGSEADGASSINHLIADKIITIQGKGKIESLNVAVSCGIIMNELTKNH;locus_tag=LOCUS_00430;note=WP_005808211.1 rRNA methyltransferase (Desulfitobacterium hafniense Y51) [pid:31.7%25%2C q_cov:98.8%25%2C s_cov:96.3%25%2C Eval:4.1e-28],MGA_44
sequence01	MetaGeneAnnotator	CDS	42780	45470	.	-	0	ID=MGA_45;product=pyruvate dehydrogenase E1 component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UU96;translation=MPDEKKIIESLNSKILSDSNKEETIEWIESLDQIVKFGGRERGKFIVQKLIERAHELGAQLPFNANTPYVNSIAKIDQPKFPGDRVIERKIKSINRWNALALVVKANKKHDGLGGHIATFQSAATLYQIGFNHFFKGKGDGFDGDQVFFQGHASPGMYAQAFLEGRLTEVNMNNFRQELQKGGGLSSYPHPWLMPNFWEFPTVSMGLSPLSAIYQARFNHYLTDRGIKDTNNQQVWSFLGDGELDEPESLGAITLASREALGNLNFVINCNLQRLDGPVRGNGKVIQELETVFRGAGWNVIKVVWGSEWDPILEKDNSGLLVQRMTEVVDGDYQKYVVEDGSYFREHFFGKYPEVLNLVNNINDHDLKHLKRGGHDPEKVYAAFKNAYDCKNKPSVILAKTVKGYGMGDAGEGKNITHQQKKLTIDQLKLFRDRFDIPVSDKEIDEIPFYRPKEGSEELNYLLECRNDLGGFVPQRKTLTKGMDLPKSESYDEFFTGSERPVSTTMACVRLMSVLLKDKKVGKRIVPIVPDEARTFGMESFFRDVGIYSHIGQLYKPVDSDTFLYYKEAKDGQILEEGITEAGSMASFTAAGTAYSTHGVDMIPFFIYYSMFGFQRIGDFIWAFGDLRGRGFLLGATAGRTTLNGEGLQHQDGHSHILASTVPNIVAYDPSFACEIAVIIKDGLKRMYQEREDIFYYLTLHNENYPMPPLKKDSEDGILKGLYKFKSSTKKTIKAHIFGSGAIMNEVLKAQNILEKEYNISADVWSATSYKQLRQDALSTERWNLLNPNKPSKKPYLTKLLENEKGPFIAVSDYMKLISDQISKWVPGGIKSLGTDGFGRSDTREALRRHFEVDHGMIVVTVLYELLIRKEISIDLLNKAMKEFKINSKKLDPLFL;locus_tag=LOCUS_00440;EC_number=1.2.4.1;note=Q7UU96 pyruvate dehydrogenase E1 component (Rhodopirellula baltica SH 1) [pid:58.7%25%2C q_cov:98.0%25%2C s_cov:97.1%25%2C Eval:4.9e-314],MGA_45
sequence01	MetaGeneAnnotator	CDS	45624	45836	.	-	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRTDFKIETFELYNNKNKGITNRVSPISKAKGNKVFSVESDKRRIIEVTKPEKRREDITTVNAPLGVCI;locus_tag=LOCUS_00450;note=MGA_46
sequence01	MetaGeneAnnotator	CDS	45733	46404	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPLALLIGETLLVIPLFLLLYNSKVSILKSVRLNSISKNNLINSFLISFGIVFISDEIDRLIGIIIPPPDILNNINSTMSIDNPIALFLLFISAVPIASFAEEIMFRGYLQQILEKEWKNITKAVLISSLFFAIVHLIPFWLIQIYLLGMIMGYLSWRTNSIYPSMVLHAVNNTMAFLSANWKSFFEGWYVMNGHVSPLVLIVSFLLVYFGFKNLNKSFNIK;locus_tag=LOCUS_00460;note=WP_011087856.1 abortive infection protein (Bradyrhizobium diazoefficiens USDA 110) [pid:32.3%25%2C q_cov:43.5%25%2C s_cov:38.7%25%2C Eval:5.4e-10%2C partial hit],MGA_47
sequence01	MetaGeneAnnotator	CDS	46417	47808	.	+	0	ID=MGA_48;product=magnesium transporter MgtE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q182C2;translation=MINNSIEKSMLGKEISVLLETFRRLIRRKANANIKKLLNKTHSADLAQLFRYFNNNEKTFLFNLLQKNNEATGELLSELDESIISDLLLPLEPLEVANILRKMGSDDIADILNLLDEDKAQLILEKLKNKESEELEELMSYPDDSAGGLMSFDVFSLPESTKAIDAITSIQNYKQAEMVFYLYITDENSHLTGVVSLRDLVTAPPNSILKSFMEDDVVFVSSDTDQEEVAKLVSKYNLLAIPVIDSNRTLLGIITVDDVVDVIREEATEDFLQMAGIGKDREILMKSTFDNVKLRLPWLFASWIGGTVAAYIIGTFEPFLESMIALAAFIPVIIGMGGNVGTQSSTIIVRGFATGRLELSKVGIVIWKEMRVGLILGIFYGLLLGVVSMFQFINAPPELGLVVGLSICVSMIIATSIGTLVPIFLRKLDVDPAIASGPFVTTAIDILGILAYFLIAISLMSKI;locus_tag=LOCUS_00470;note=Q182C2 magnesium transporter MgtE (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:33.1%25%2C q_cov:96.3%25%2C s_cov:97.0%25%2C Eval:3.0e-69],MGA_48
sequence01	MetaGeneAnnotator	CDS	47813	48934	.	+	0	ID=MGA_49;product=glycosyl transferase family 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963583.1;translation=MFLLSIILIISYSLIIIFFFIGLFIYREKRISEKKFVSVVIPTLNEENNIKNIISDLKKQSYPTNLFEIIIIDDNSKDNTVKIIRSYQQDMNNLKLFSSNDDKHSKLNFKKKPLNIGINNAQGEIILLTDADCRVPQKWIETMSSYFTDEVGFVIGHSQLKTFYKKQEKFEALDFLLLSSAGRSSSQLNFPLACTGQNIAYKKKAFYDVNGFNDFADALGGDDTFLMELIKKNTSWKIVYAVDKDSHVKTNPCNNWKEFCSQRKRWASDALFFKNENPFFFIMMLITFFSNLLPLILFLSSFINSNYIILLFYVLFIKMSVELLLTLKATSLFQVKELRLSFLFWFFLQIPYVVYMSMNTLFFNNKQWGGRHI;locus_tag=LOCUS_00480;EC_number=2.4.1.-;note=WP_011963583.1 glycosyl transferase family 2 (Flavobacterium psychrophilum JIP02/86) [pid:30.0%25%2C q_cov:79.6%25%2C s_cov:80.5%25%2C Eval:3.5e-25],MGA_49
sequence01	MetaGeneAnnotator	CDS	48931	49656	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFFIFINNFILSTEDESLKYIISFLTIPSVELSMSNRVIDKNTSTIIFSAKSISLLDNFFKIDNYYSTIYNVNTFKMLEYTSNINQPNANYDFKIKWDDENKQYDYLDISYERPKETNNIFSLLQRVRYQPIDKIDTIWIPIDHEGSLFNARYLWIDSVDVTIDSVSIKTNHFKIDLEKKENSRKKLKEISDVFNWGITLDNSIRQIWVERVEPYRIIKAEVDVRGLKFKASLKNSN;locus_tag=LOCUS_00490;note=MGA_50
sequence01	MetaGeneAnnotator	CDS	49658	50005	.	-	0	ID=MGA_51;product=phosphoribosyl-AMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97KH7;translation=MSLDDVKLKINEINFKLDSNNLIPAIIQDYENNEVLMIAYMSMESLAISIHEKRTCFWSRSRKCLWRKGETSGHRQTIKSIFYDCDKDALLIKVEQIGAACHNGTRTCFMDQIDN;locus_tag=LOCUS_00500;gene=hisI;EC_number=3.5.4.19;note=Q97KH7 phosphoribosyl-AMP cyclohydrolase (Clostridium acetobutylicum ATCC 824) [pid:64.8%25%2C q_cov:79.1%25%2C s_cov:79.1%25%2C Eval:2.9e-29],MGA_51
sequence01	MetaGeneAnnotator	CDS	50012	50398	.	-	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSFGYGCKKKKNSWYVYTHAGTNNTKIDAIDWAKEAVDRGCGEILLTSMDADGTQKGIDDDITSMISDLVDVPIIASGGIGKLIHFKDAIINGKADAVLAASVFHRDIFSIDEIKDYLNNQRIPIRK;locus_tag=LOCUS_00510;note=Q2RGW2 imidazole glycerol phosphate synthase subunit HisF (Moorella thermoacetica ATCC 39073) [pid:51.3%25%2C q_cov:88.3%25%2C s_cov:44.8%25%2C Eval:6.6e-29%2C partial hit],frameshifted%2C insertion/deletion at around 50373,MGA_52
sequence01	MetaGeneAnnotator	CDS	50314	50766	.	-	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKRIIPCLDVKDGKVVKGVNFKNLVEEGDPIEFAKKYSDQGADELTFLDISATLESRKNVIELVKEVAKKVFIPFTVGGGIKSPDDIGSILEAGADKVSINSSAIYNPNLLNDSAKIFGSQCIVLAMDVKKKKIHGMCIPMLVQIIQK;locus_tag=LOCUS_00520;note=O66567 imidazole glycerol phosphate synthase subunit HisF (Aquifex aeolicus VF5) [pid:60.4%25%2C q_cov:89.3%25%2C s_cov:53.0%25%2C Eval:8.5e-42%2C partial hit],frameshifted%2C insertion/deletion at around 50373,MGA_53
sequence01	MetaGeneAnnotator	CDS	50760	51482	.	-	0	ID=MGA_54;product=1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GY76;translation=MKNQFKIVPALDIIDGKCVRLFKGDYSKKTVYNKDPEDLAKFFLNNGFELLHMVDLDGAKNGYPVNLSTLEKVAKTGIKIEFGGGLRTKKDLKEVNDCGANFLILGSSLLSNIEEIRSWESDFKNKLVAGIDSKNNLVYTHGWEAESKFSISTTLKKISGINFSHLICTDINKDGTLKGPNFKQLKEISNLTNIPIFASGGVSNIDDIKKIKQLKNGITGVIVGKAFYEGKIKIEEMLEC;locus_tag=LOCUS_00530;gene=hisA;EC_number=5.3.1.16;note=A6GY76 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase (Flavobacterium psychrophilum JIP02/86) [pid:42.6%25%2C q_cov:96.7%25%2C s_cov:96.7%25%2C Eval:5.7e-48],MGA_54
sequence01	MetaGeneAnnotator	CDS	51466	52059	.	-	0	ID=MGA_55;product=imidazole glycerol phosphate synthase subunit HisH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66943;translation=MIGIIDYGVGNIGSIRNGLEFLNIPHIISHNTKDLSSCEGIILPGVGAFESAIKKLKSYDLIDFIKDYTLKNKKLLGICLGMQLLLEKSYEGGEHKGLGLIEGRVEKIKNAPRKIHIGWNKVESKQSNKDFKSGYGYFVHSYKCVLKNQKLIVGETFYGEKITAVFKYNNILGIQFHPEKSQKYGLSILKNFYEKSI;locus_tag=LOCUS_00540;gene=hisH;EC_number=2.4.2.-;note=O66943 imidazole glycerol phosphate synthase subunit HisH (Aquifex aeolicus VF5) [pid:41.4%25%2C q_cov:98.0%25%2C s_cov:95.7%25%2C Eval:2.3e-40],MGA_55
sequence01	MetaGeneAnnotator	CDS	52056	52631	.	-	0	ID=MGA_56;product=imidazoleglycerol-phosphate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18C69;translation=MIKISRNTNETKSDLTLNINGTGKVQIETGIGFFNHMIELLAFWAEWDLKLICKGDLHVDTHHTVEDVGLILGKAFNQEWIKNKSIDRISYSFCPLDEALSRVVVDLCNRPFCSFKANFNVEKVGSFETEMTEHFFRSFAQEARITIHVESICGNNSHHIIETMFKALGVAIKNSLKIRNDKITSSTKGKL;locus_tag=LOCUS_00550;gene=hisB;EC_number=4.2.1.19;note=Q18C69 imidazoleglycerol-phosphate dehydratase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:46.0%25%2C q_cov:99.0%25%2C s_cov:97.9%25%2C Eval:1.2e-46],MGA_56
sequence01	MetaGeneAnnotator	CDS	52628	53428	.	-	0	ID=MGA_57;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903949.1;translation=MKYDAYIFDVDGVLIDHSNSFIPSIVLAVRTILNDDNFNQEHVFEIKSFKNFNNDWDTAIAGYCWRKFHSSKKLFDYLKIINEFGSGINGVRKTSNKLTFQVEKNIIRLVKESYGGTTACKKLYGFDPVTILNKGFWNNEISMVSYEKIKPLLDKSAIFTGRNKEEMELGFEILKWRIDDKMLAVSDLPELNKPNPKKLIPLVEKLSCKNPLYIGDSEDDSQLVLNYKKNTGKPLDFCLIESSLNVQNYNFSCSSTLELINKIGKL;locus_tag=LOCUS_00560;note=WP_010903949.1 haloacid dehalogenase (Halobacterium salinarum NRC-1) [pid:25.3%25%2C q_cov:86.1%25%2C s_cov:83.8%25%2C Eval:7.0e-13],MGA_57
sequence01	MetaGeneAnnotator	CDS	53425	54489	.	-	0	ID=MGA_58;product=histidinol-phosphate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2C4;translation=MKISESIKLIKQKIRDQAEYNVTIPKHNIKLNQNESPYDWSNDLKLKILSKLEKTPWNRYPDLKANNLMEKIAQILNCSSNQIVLGKGSNEVIQSIITSIISTNDKVCVLNPTFPIYKMITNQNDGIIIESKLDEEFKINEKDLLEKALQSKITILCNPNSPTGSLISLDIIEKILKSIKGFLVVDEAYVDFSKSTCLSLLSKNSNLIVTRTFSKAFGLAAFRLGYAVMHSKVAAEIQKCMLPFNIDKPSIIAGNIILSDYKKIIEYSDKIINERENLIFRINQLDDLKAFKSRANFFLLESKISPQKLFNKLLINGILVRDVSNYYLCKNKIRISIGSQDENEVLFNILSNVT;locus_tag=LOCUS_00570;gene=hisC;EC_number=2.6.1.9;note=B8E2C4 histidinol-phosphate aminotransferase (Dictyoglomus turgidum DSM 6724) [pid:36.4%25%2C q_cov:94.4%25%2C s_cov:95.7%25%2C Eval:2.1e-53],MGA_58
sequence01	MetaGeneAnnotator	CDS	54486	55754	.	-	0	ID=MGA_59;product=histidinol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHM2;translation=MFKIIKDKNIFEKIINDRIKFSFSKSSIVDEILSKIKNGGDSELIKFTKKFDKVNIDKIRVSQKIIEESIDNVDSELIKSILEAKENIENFHKKQKPKNFELIQKDKTKIYFEHRPIKRVGVYIPGGRFPLFSTALMNIIPAKIAGVNEIILCSPPQSSGYPNDIILSIAKIMGISEVYNIGGAQAIAAMAYGTDSIKKVDKITGPGNIFVSKAKQFVSDIVGIDMIAGPTEQLVVADDSADPLIIASDLICQAEHDVNSWSVLITDSIKIVNQVNDIINENFKSNKISQVAKESIVNNGFIYLVNSRKEFIESINKISPEHLSLQIKNSRSIISKIIAGVIFLGNNTSPAWGDYWAGPNHTLPTSGQSRFKSALSVNDFMVSYSIIESTNKALKTKGKVVMSLAKAEGLLAHSESIKVRIK;locus_tag=LOCUS_00580;gene=hisD;EC_number=1.1.1.23;note=B5YHM2 histidinol dehydrogenase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:45.5%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:3.9e-92],MGA_59
sequence01	MetaGeneAnnotator	CDS	55754	56629	.	-	0	ID=MGA_60;product=ATP phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KB10;translation=MNNLISLGLPKGSLQDTTFNLLKRAGWHFSITNRSYKPFSDDSEIDALLIRAQEMPLYVEQGVFDVGITGKDWIVENRSDVVEICELVYAKAYMRPVKWVLAVPQNSNVKSVKDLEGKNLSTEVVNITKDYLAKNKVKADVEFSWGATEVKPGLLTDAIVEVTETGSSLKANNLRIIDTVMESTTRLIANKNAYKDKWKKNKIDNIARMLKSAIMATNRVGLKMNVKNDKLNNLIKILPAMRTPTINQLFNEEGVAIEVIIEEKIVRDLIPLLIDNGASDIIEYPLNKVIP;locus_tag=LOCUS_00590;gene=hisG;EC_number=2.4.2.17;note=Q8KB10 ATP phosphoribosyltransferase (Chlorobium tepidum TLS) [pid:58.5%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:1.8e-92],MGA_60
sequence01	MetaGeneAnnotator	CDS	56808	57824	.	-	0	ID=MGA_61;product=acetyl-lysine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257089.1;translation=MRLVEKLVRIPSVSGSESKAVNLFIDEMSNLGFETEIDKVGNAIGTFGNGPILIYLIGHIDTVEGDIPVKVEKNLLFGRGSVDAKGCLSAFAESVGRSKDLSNEITFKVIGCVAEETDSKGCLHVINSFKEPNYIIIGEPSGWSGITLGYKGCFNIFYENRVPISHSGASEKTSAELAFNFFNYLNHYTKDNGVEFNKLSFRLSKINTFFDGTHSTVKMQVNVRTPSGFNFKEFSKLLNQKFDSSIFKITDLISPIITSKRNRLVSSFLNSIRNSDGKPSFKYKTGTSDMNLVGSWDCPILAYGPGDSSLDHTPNEHLSLDEYDKSINVLTKVFTKLI;locus_tag=LOCUS_00600;note=WP_012257089.1 acetyl-lysine deacetylase (Chloroflexus aurantiacus J-10-fl) [pid:38.1%25%2C q_cov:98.2%25%2C s_cov:96.8%25%2C Eval:4.3e-64],MGA_61
sequence01	MetaGeneAnnotator	CDS	57811	58986	.	-	0	ID=MGA_62;product=aspartate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870226.1;translation=MNNWLEIEEKHSSGAYGGWPMTIVRGNGSYLWDSDDNKYLDLSTGIGVASLGHSNINIKNALTEQSGKLISASHGYYGNDVRALYLKRLAEISPKNLNRIFLCNSGTEAVEGAIKLARSVSKKSKILSCVRGYHGRTLGALSATWKEAMKAPFNPIVPNFEHVPFGKIDPIKNKDLDNVAAILIEPIQGEGGVYSASKSYLKELKNLCLENDILLIFDEVQCGFGRTGEWFASQYFDVEPDIISIAKAQGGGVPIGAVIFNDNLKFEKKMHGSTYGGNPLACAVGLSVIEFIMDNGVLNNVKKMGEYFKTELHNILNDYPNILKDVRGVGLMIALQFRGPAGPALMGLLDKGVLALTAGKPNLRFLPPYIIKKDEIDFAITSLKEVLSEVS;locus_tag=LOCUS_00610;note=WP_010870226.1 aspartate aminotransferase family protein (Methanocaldococcus jannaschii DSM 2661) [pid:43.2%25%2C q_cov:99.2%25%2C s_cov:98.5%25%2C Eval:1.9e-85],MGA_62
sequence01	MetaGeneAnnotator	CDS	58979	59773	.	-	0	ID=MGA_63;product=putative acetylglutamate kinase-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9RUG6;translation=MFVVKVGGSEGIDYDAFITDLSNHNNYIIVHGGSSELNQVSTKLGHPPKFVESVSGYTSRFTDRKTMDIFNMIYAGKMNKMIVEKMQQININAIGLSGIDGRLIEGKKKKSLKVIENGKKKILRGDMSGMIEKINHSLIELLLQNGYIPVITPPAISYEGEAINVDGDRCAGQIAVSVKADQLIILSNIPGLLKDPLDESSLIKNIKIEDIDYNIQNYAKGRMKKKLLGAQEAINGGVKKVILGDARIDNSISAALNGKGTIIE;locus_tag=LOCUS_00620;note=Q9RUG6 putative acetylglutamate kinase-like protein (Deinococcus radiodurans R1) [pid:58.8%25%2C q_cov:99.6%25%2C s_cov:91.1%25%2C Eval:1.5e-87],MGA_63
sequence01	MetaGeneAnnotator	CDS	59786	60829	.	-	0	ID=MGA_64;product=N-acetyl-gamma-glutamyl-phosphate/N-acetyl-gamma-aminoadipyl-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9RVQ9;translation=MSKKIKVGVVGGSGYTGGELLRILYGHPFVDIVGVTSRKYLGKPISRTHPNLRKISKLKFISIESMPDVDVLFLGLPHHAVMDYIDDFLKKTDLLIDLSSDFRLSNPDDYIKYYGHEHSRPELLKEFVYGMPELHREKIINSKFIAVPGCTATAAILPLKPIVDNLNPKIIVVDSKVGSSAAGAAYSLSTHHPERSNVVRSFKPSMHRHLAEMNQELNKDASISLNFSPHAVEMIRGIQSTIHVFLDEDYTSQDIWQIYLQAYKEEPFIRLVREKFGIYRFPEPKLVLGTNICEIGFEKDESTGRLIIMSAIDNLMKGAAGQGVQSMNVALGFEETIGINSIGFHPV;locus_tag=LOCUS_00630;gene=argC1;EC_number=1.2.1.-,1.2.1.38;note=Q9RVQ9 N-acetyl-gamma-glutamyl-phosphate/N-acetyl-gamma-aminoadipyl-phosphate reductase (Deinococcus radiodurans R1) [pid:44.5%25%2C q_cov:96.5%25%2C s_cov:96.3%25%2C Eval:3.6e-82],MGA_64
sequence01	MetaGeneAnnotator	CDS	60833	61672	.	-	0	ID=MGA_65;product=lysine biosynthesis enzyme LysX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256241.1;translation=MSIKIGLLLSRVRQEEKLLLKEAENRNLKIIKIDSRYLKLGLNDNYNFDILLEREISHSRAIYALNMFNGAGVKTVNSYDVAMICGNKVITSKALIDNNVPTPKIKVAFTKESALEAIEQMGYPVVLKPVVGSWGRLIAKVTDRAGAEAILEHKEYLGAYYHSIFYIQEYVDKPGRDIRAFVIGGETIGAVYRSSEHWITNTAKGAKTSKCELSSELNEICQKAGNAIGKGVLAIDLMESKNGFLVNEINYTVEFRNSIEPTGVNIPGKIIDYVISEAR;locus_tag=LOCUS_00640;note=WP_012256241.1 lysine biosynthesis enzyme LysX (Chloroflexus aurantiacus J-10-fl) [pid:58.4%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:5.3e-91],MGA_65
sequence01	MetaGeneAnnotator	CDS	61683	62513	.	-	0	ID=MGA_66;product=lysine biosynthesis enzyme LysX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256241.1;translation=MKIGILFSKIRVEEKLLIEEVKKRRNVTLKLIDSRKLIITPEDDLGIDVLLDREIASSKALHVVEMLKNSAVRCINSYDVIRICGDKVFTSRWLSKKGVPTPKVKVAFTKESALEAIEEMGYPVVLKPVDGSWGRLIAKIENKNSALAILEHKSYLSSFYHSIFYLQEYINKPDRDIRVLMIDEEPICASYRKSSDWLTNVSKGATTEECIITPELEKISIMASKAVGGGALAIDIMETADGFTVNEINCSMEFKGSMHAVKKNIPSIIIDYCLKD;locus_tag=LOCUS_00650;note=WP_012256241.1 lysine biosynthesis enzyme LysX (Chloroflexus aurantiacus J-10-fl) [pid:46.4%25%2C q_cov:99.6%25%2C s_cov:97.9%25%2C Eval:1.8e-67],MGA_66
sequence01	MetaGeneAnnotator	CDS	62547	62717	.	-	0	ID=MGA_67;product=alpha-aminoadipate carrier protein LysW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SH22;translation=MSQGKCEECGTEIELESGTVENEIIDCDDCGAELEVISLDPVKLEPAPEEQEDWGE;locus_tag=LOCUS_00660;gene=lysW;note=Q5SH22 alpha-aminoadipate carrier protein LysW (Thermus thermophilus HB8) [pid:62.3%25%2C q_cov:94.6%25%2C s_cov:96.3%25%2C Eval:1.6e-14],MGA_67
sequence01	MetaGeneAnnotator	CDS	62923	64098	.	-	0	ID=MGA_68;product=argininosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_229578.1;translation=MNKIWDKGLKLDKKVEKFTVGNDFLIDMKLINYDCKASIIHAKMLNKIGVLSKVELKKIVDVLNEIINSNDFVINIEDEDCHTAIENYLIEKIGDIGKKIHTARSRNDQVLTALRLYYLDNINNCDYLQKEWIKSLKKFKKKFGTINFPGYTHFRKAMPSSIAMWSEAFIESSLDNAKLLKVSRKIMNKSPLGTAAGYGVPMKIDREFTAKEMGFGSNQNPIYAQISRGKFEKILIHSLVQIMYDINKISSDLILFSMDELGYFQIPEKFCTGSSIMPQKNNPDVLELLRAKYNNVRSYESEVLNISSNLPSGFHRDFQLTKEPTIKAIETTLDCIKMITMLFNELIVNEKKCNDALSGEIYATEKAYKLVEKGVPFRSAYKIIAKELSKK;locus_tag=LOCUS_00670;gene=argH;note=NP_229578.1 argininosuccinate lyase (Thermotoga maritima MSB8) [pid:48.5%25%2C q_cov:86.2%25%2C s_cov:86.0%25%2C Eval:3.7e-94],MGA_68
sequence01	MetaGeneAnnotator	CDS	64091	65365	.	-	0	ID=MGA_69;product=argininosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9X2A1;translation=MKKIVLAYSGGLDTSVILKWLSNSGFEVFCFIGNVGQKENFQEIEEKALKTGASDVTTYDLRKEFVTDFIFPALKGNALYEGRYLLGTSLARPILAKAQIEMAKDLNAEYVGHGSTGKGNDQVRFELAYYALNPDIKVIAPWKDVVFLDQFKGRNDLISYAKKYNIPIGVSKKRPYSEDENLMHISHEAGMLEDPNYRPEESVFSHTSSLNNTPNSEEIIIISFKNGIPTKVINESKKIEITDSLKLFLYLNDLGSKHGIGRLDMVENRFIGIKSRGIYETPAGKILWTAHRDIEGLAMDKEVMHIRDSLIPKFSELIYNGLWYSPEMDFIMSAFNKSQEEIDGDVTLSLFKGNVTTIGRKSPTSLYDQDFSSMDKEGGFDAIDAKGFINIHSIRLKAHNLLIKKKKKSEKNSKPFGWRNNTDE;locus_tag=LOCUS_00680;gene=argG;EC_number=6.3.4.5;note=Q9X2A1 argininosuccinate synthase (Thermotoga maritima MSB8) [pid:66.0%25%2C q_cov:92.9%25%2C s_cov:96.3%25%2C Eval:7.2e-155],MGA_69
sequence01	MetaGeneAnnotator	CDS	65553	68729	.	-	0	ID=MGA_70;product=carbamoyl phosphate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878769.1;translation=MPKRKDLDSILIIGAGPIIIGQACEFDYSGTQACKALKEEGYRIILVNSNPATIMTDPEMADATYIEPLTLESLTSIIEKENPNAILPTVGGQTALNLAVELKEAGVLKKNKVELIGANIKAIQKAEDREKFKEAMESINIDIAHGGFAKTLNESKKIIQKMGFPIIIRPSFTLGGTGGAIAYNYEEFLELAEKGIESSPISEILIEESLLGWKEFELEVIRDKNDNVIIICSIENVDPMGVHTGDSITVAPAQTLTDQEYQLMRDSAIKCIREIGVDTGGSNVQFAVNPKNGRMVIIEMNPRVSRSSALASKATGFPIAKIAAKLAVGYSLDELNNDITGKTLAAFEPTIDYVVTKIPRWDFEKFPSASGQLGVQMQSVGEVMSIGRNFRESLQKAFRSLEIGLYGLDPKEGHRSLNMSNLTYATTFRLLKIRQAFVEGKSIEEIYELTKIDKWFLRNIQQIVFDSQLVDIDLKKIKYLKQEGFSDFQIAKLFKKTEEEIRLIRKKNQIIPTYKVVDTCAAEFEAKTPYCYSTYEQENEIKPLKGKKIVILGGGPNRIGQGIEFDYCCVQAVFAAKALGWKAIMINCNPETVSTDFDITDRLYFEPVTFEDVMNIIDLEKPDGVLVQFGGQTPLNIAKKLLDAGAPILGTSPHAIDLAENREKFGLILDRLNIPKPEYGTAFSTDEAKEVAKRIGYPVLVRPSYVLGGRAMEIVYDDKHLINYVQRAADISPEHPILVDAFLEDAFEFDVDAICDGSEVYIAGVMQHIEEAGIHSGDSSCVLPPYWLSKECLEKIENYTRQLSIEVGVKGLVNIQFAEKNGVVYVIEVNPRASRTVPFVSKATNVPLAQIATGIALGKKLKDYNLKKWSTNKHIAVKKPVFPFNKFPNENIFLGPEMKSTGEVMGIAPEFGDAFSKAIMGDGNQLPIKGKAFISVNDFDKPKLIPIVKDLLNIGFKIIATKGTAEFLKKENLTVDTIYKVGEGRPNTLDGIKNKEISLVINTPLGAQSRFDENSIGIAAIQSRIPVLTTLSAAQALIKAIKSTNKNQVRTIQEIHNA;locus_tag=LOCUS_00690;gene=carB;note=WP_010878769.1 carbamoyl phosphate synthase large subunit (Archaeoglobus fulgidus DSM 4304) [pid:60.1%25%2C q_cov:99.8%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_70
sequence01	MetaGeneAnnotator	CDS	68722	69843	.	-	0	ID=MGA_71;product=carbamoyl-phosphate synthase small chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74DP3;translation=MQKIMSFVNFLKQKPAILLLEDGREFEGFSLGAEGETSGEICFNTGMSGYQEIITDPSYSGQLVAMTYPHIGNYGTNNQDVESSKIQVSGFIIKEETVIPSNFRSNASLRSYLKEVGVVGIQGIDTRALTIHLRKEGLMNGIISTIDFNKSSLMEKVKKVPQMNGLDLVKNVSTDKKYFYASKNNSKNNKIVAIDFGIKSNILRLLSHYECDIEIVPANTNAEEILNLNPDGIFLSNGPGDPSAIDYGIKTIKKLIGKKPIFGICLGHQLLALALGAKTYKLKFGHHGINHPVKNLNKNTIEITSQNHGFAVDPDSLPNDTKITHINLNDNTVEGFESNSCKAFCVQYHPESGPGPHDSRYLFKKFKNLMKNA;locus_tag=LOCUS_00700;gene=carA;EC_number=6.3.5.5;note=Q74DP3 carbamoyl-phosphate synthase small chain (Geobacter sulfurreducens PCA) [pid:54.3%25%2C q_cov:95.4%25%2C s_cov:98.4%25%2C Eval:2.5e-108],MGA_71
sequence01	MetaGeneAnnotator	CDS	70021	70452	.	+	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILIIYGPNFNLIGVKSALLDKKITLDKINKEIKNKIKNHKINLKTLQSNDVGKTINFLHKNRNWSNAILISPSSWSVNQFDLLETLQIFDKPLVDVYLDEKYDQNKFFKKSIFTSISLKTFVGDPIEIFKNGIEEILNLEK;locus_tag=LOCUS_00710;note=MGA_72
sequence01	MetaGeneAnnotator	CDS	70449	71480	.	+	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFKILPIFFLFFIACSSKPEIILNEIEQNENLIITTTNENKYVNFNFPKNFNANDTIINQELKKFSKKINYFELLNTQDSSFVNKIYSYFNKENQHPYRMFELNLSDTLKQVKFKIDSNKIHLLLQILQDDKTDINKKEIELIDDFSYIEDGQLLFPCPNIEIPLSLNLLPNASRKYRSGIHQGIDFAGNYDSEVRSVFDGVIIRSDLDYYEVSNEFRNDLLKKASIIQRTPSDIFVNILYGRTVMIDHGFSFTKDKRIISIYAHLSKINPKIKVGKNISRGDIIGNVGNSGTSDGAKGNRKSAHLHFELIIQDKNGERYLGKNIYNEELLKLLNRVFSHK;locus_tag=LOCUS_00720;note=WP_000483173.1 peptidase M23 (Leptospira interrogans serovar Lai str. 56601) [pid:33.5%25%2C q_cov:53.4%25%2C s_cov:47.6%25%2C Eval:2.8e-18%2C partial hit],MGA_73
sequence01	MetaGeneAnnotator	CDS	71483	71641	.	-	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFDKKITKKTTPKFKKSLTSSTNRIPSTYVEGNKNKYDRKKLKLELKKNID;locus_tag=LOCUS_00730;note=MGA_74
sequence01	MetaGeneAnnotator	CDS	71642	73279	.	-	0	ID=MGA_75;product=gamma-glutamyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001254471.1;translation=MFTCKNKTIAFNKANSVVSSIHPIASEIGINILNENGNAIDAAIGTGLALGVLDQFNSGLGGGAFIMIRLSNGEIFSIDGREKAPGKATRNMYNIDGKTNLYYSQNGPLSVAVPGLPAAYVKALNLAGTKTLEELIKPSINIAKKGFKLDDDYIRRYKINIEELKKDSSSRKIYFNRQGKEFKKGDIFIQKDLSSTYQKFGKNGIDYFYKGEFANKLVKLMKEREGLITHDDMRNYKAIQREPIQGKYKNYNVYGMGPPSSGGINVLQMLNMIEISGILNGKKELDKESIYYISLIMSEVFQSRSNDLGDPDFNNINIKNLISKSYAQKKLLDIESKEKKIKNNSNQNFNSGHTTNLCVIDKWGNVVVINQTVNHTFGSKVTVPGTGVILNNEMDDFSIESGLPNAFGLTGGEINSIEGNKRPLSSMSPTIITKNDKPIIIVGGAGGPRIITSVLQSIINILDFNLSVENAISKPRFHQQFIPDAIYVEKGFSNEIINYLEEKDYEIIEKEKLGIVNIIAWDSTKNIYTGASDVRVRQGKASRGN;locus_tag=LOCUS_00740;note=WP_001254471.1 gamma-glutamyltransferase (Helicobacter pylori 26695) [pid:39.8%25%2C q_cov:94.7%25%2C s_cov:92.2%25%2C Eval:2.9e-106],MGA_75
sequence01	MetaGeneAnnotator	CDS	73338	75296	.	-	0	ID=MGA_76;product=peptidase M1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962262.1;translation=MKNIVKFLFIYIFFQVFIYTQNIPHKYICKKPHFFSNLNQLNKKINHQSHIDVNFYDIYLKIDLRNKTLNGNVLTKLTKISESNDKILFDLSNYLKVEEVTINDSLIDFFHNDDILEIEIPSSLEEKNLNVEIKYNGTPFQGNNSGITFLDRFDQKLNYTSKHLYTLSEPYAGKDWWPGIHNPSDKADSVYIRVTTEKGQMVVSNGLLDDVDSTSNENLITFQWKERYPIATYLVSLAIYPYDFWEQSFQSNSGKILPIHHYVFPDQKEYFENNYNKTPEVLKVLSDFFGEYPFIEEKYGHVSFLWPGGMEHQTISSMCCPDMYLIVHEAAHQWWGDMVTCKDFNNIWLNEGFATYSQALWHEKKEGVETRNKFMKSIEYFGKGSVYINNPETVYDIFIYDLVYAKAAWVLHMLRRVVTDEIFWKILKNYRTKYMYSSANTEDFKEIAEETSGIDLENFFKQWIYGEDFPEYDIELIKINDSESFLNITQTQNNNIFDMPLDLLIITNVDSFEISIDNNKRKQLVEINHSGRNIKSVILDPNNWILKKVNYIGIENESIPNEFLIEKLFPNPFNNIVSIDINIPTKGNLDITIYDLLGKKIKQIYNGKTGVGKYSFNWDGKNEMGLQVHSGLYLFKVEFDGNIKTKKSVYLK;locus_tag=LOCUS_00750;EC_number=3.4.11.-;note=WP_011962262.1 peptidase M1 (Flavobacterium psychrophilum JIP02/86) [pid:31.0%25%2C q_cov:87.4%25%2C s_cov:89.3%25%2C Eval:7.3e-67],MGA_76
sequence01	MetaGeneAnnotator	CDS	75376	76611	.	+	0	ID=MGA_77;product=dicarboxylate:amino acid:cation symporter DAACS family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071202.1;translation=MFNLKLHWQVLIAMIGGAFVAMIFGERALIFSPLGTIFMKLLKMVIVPLILFSVTSGVTSIGDSNTLGRMGVKVFGYYMLTSILAILVGLSLTNLLQPGRGINFSVDSNKFDPSTLSQPNSLADIIIRMIPSNPIKAMADGEILALIFWSIVLGIAITQISDKPKKAIIKGFDYGFELMMKLTQGIISFLPIGVFGLIINAIVNSGIDLFKVIGFYWITIAIGLSIHWLIILPLVFYSFTKINPIKHWKAMSSAFITAFSTSTSLGTLPVTMNCLKKNIGVSNKTSSFVLPLGATINMDGTALYECAGVLFISQVLGAELEIYQQFIIVITAFLASIGTAAIPSAGLVMIFIVLDAVGLSNNPEVPIIVGAMLAVDRPLDMFRTVINITSDSIGAVILAKSENEKNLYKKL;locus_tag=LOCUS_00760;note=WP_011071202.1 dicarboxylate:amino acid:cation symporter DAACS family protein (Shewanella oneidensis MR-1) [pid:40.9%25%2C q_cov:97.8%25%2C s_cov:89.3%25%2C Eval:3.1e-78],MGA_77
sequence01	MetaGeneAnnotator	CDS	76685	77068	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKHINIFLSTLSLLFILGCNNNPNRHFELGNWYYEKGLIDEAILEYREVIRLYPNETKLMNREDLELASKAHFNLAIAYSQKGWFEYALKEAETTFNMYPTKENYEMVELLKKRKSLDLIEINSDS;locus_tag=LOCUS_00770;note=MGA_78
sequence01	MetaGeneAnnotator	CDS	77080	77862	.	-	0	ID=MGA_79;product=short-chain dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957337.1;translation=MKPWVLVLGCSTGHGGETSRKLAEKGYGIIGFHFDRGEIKVEAEKLSDELKELNDGRVHFFNKNAADVNIMDEYIPVIKEITNGNYLKMLLHSIAFGTTTNFFGSKPVTQKQMDMTVHVMGNSLLYWVQKLFKEDLIGEGSRVFGLTSEGNYLAMEGYGPVSVAKVALESITRQIGWELGSYGITANCIQAGITPTRALTKITDKWEEWVDKTKKRNPMGRTTEPKDVANIISLMLEPEADFINCSIIYTDGGEHRSGTF;locus_tag=LOCUS_00780;EC_number=1.1.1.100;note=WP_010957337.1 short-chain dehydrogenase (Coxiella burnetii RSA 493) [pid:32.7%25%2C q_cov:96.5%25%2C s_cov:95.8%25%2C Eval:2.2e-32],MGA_79
sequence01	MetaGeneAnnotator	CDS	77956	78501	.	+	0	ID=MGA_80;product=3-hydroxydecanoyl-[acyl-carrier-protein] dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KS00;translation=MKMKKKENYNKSELFQFSDGAFGSEISKLPLPPMLMIDRISKISEDGGKYNKGQIIAEMEINPKLWFFDCHFKDDPVMPGCLGLDALWQLTGFYLTWLGGTGKGRALGCGEVKFKGQIRPHHKLIKYKIDIKKIIKKPIWMGMTDATLEVSNKTIYFAKNLQVGLFDNLTYPPSKGEEEPF;locus_tag=LOCUS_00790;gene=fabA;EC_number=4.2.1.59;note=Q9KS00 3-hydroxydecanoyl-[acyl-carrier-protein] dehydratase (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:52.7%25%2C q_cov:90.6%25%2C s_cov:95.9%25%2C Eval:1.1e-46],MGA_80
sequence01	MetaGeneAnnotator	CDS	78503	79720	.	+	0	ID=MGA_81;product=beta-ketoacyl-[acyl-carrier-protein] synthase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011072970.1;translation=MKRVVITGIGIVSSIGNNVNEVLKSLQLEKSGISFNKEQADLGFRSHVCGDISADIKKLVPRKDLRFMGDGAAYSHISMAEAINDSKLSQDEISNNRTGLIVGSGASSGLPIVEMSDVLRSKGARRVNPFFVPKIMSSCNSANLATAFKIKGFNYSISSACATSSHCLGNAFHTIQNGLQDRMFVGGGDEITYIITLPFDAMGALSANFNDIPEKASRPYDKDRDGFVVSGGGGTIILEEYEIAKNRGAKIYCEVTGYGLSSDGFDMVRPSGEGAEFCMKMATKDLKEPIDYLNAHGTSTPAGDITELKAIKNAFSDKGYMPLISSTKSLTGHSLGAAGVHESIYSILMLKNSFIPASVNIDNLDPEAEGFPIVQEGIQNQVLNNVMSNSFGFGGTNCSLVFSRI;locus_tag=LOCUS_00800;gene=fabB;EC_number=2.3.1.41;note=WP_011072970.1 beta-ketoacyl-[acyl-carrier-protein] synthase I (Shewanella oneidensis MR-1) [pid:58.7%25%2C q_cov:99.8%25%2C s_cov:97.6%25%2C Eval:1.9e-133],MGA_81
sequence01	MetaGeneAnnotator	CDS	79721	80821	.	+	0	ID=MGA_82;product=ribosome-binding ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NGZ7;translation=MSLQCGIVGLPNVGKSTLFNALTSSDIPAENYPFCTVDPNVGIVNIDDKRLNNIISFFNPKKIVKNTIEFVDIAGLVKGASKGEGLGNQFLSQIRQVETIIHVVRCFDNDNITHVEQSVDPIRDVELINTELLIKDIETIDKKLIKAQKDSRSGSKESKQRLDFYNSLSQHCNQGKTANLFHVPDEMNEEMKQLQLLSNKRILYVANVDEQEITNDNDNEYSKKLIHYSKSQGNDTIKLCCKLEQDLSVLDESEKKEFLKEFNLKEIGLNKLISKAYQLLNLETFFTGGPEEVRAWTIKKGSTAPEAAGKIHTDFQRGFIKAETYHYSDMLNYNNEISLKEAGKIRVEGKNYIVKDGDIIFFKFNV;locus_tag=LOCUS_00810;gene=engD;note=Q5NGZ7 ribosome-binding ATPase YchF (Francisella tularensis subsp. tularensis SCHU S4) [pid:51.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-109],MGA_82
sequence01	MetaGeneAnnotator	CDS	80830	81315	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFFMILIYLLSFTSLILLVLSGFEGVFKLNIYGGLFPTPLGFITALVYLFTEVLVMFFFVGTGVSIKEFVENNKLDKSFHERSFHIKRKLYPPTLLNVLLIMTVFIIGGGVDTKVIPYWVHGGLFYISFFHYLKVKLVQNKCFKDNTSIILDMTGVSKKK;locus_tag=LOCUS_00820;note=MGA_83
sequence01	MetaGeneAnnotator	CDS	81401	82705	.	+	0	ID=MGA_84;product=adenylosuccinate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97D87;translation=MSDTLNQLTTIVGAQWGDEGKGKITDYFAGNSDYVVRFQGGNNAGHTVIVNGNEYHLHHIPSGVLYKHPVSVISNGVVINPKELINEINSLIDKGITPNLKISDRAHLIMPYHIVMDECLTLHQGELAAGSTKRGIAPVYADKAYRHGIRIGDILEPAIFEEKLKRSYDFNKKVVTQAFGKKFDLDINDIYTDYVEYGNILNDYIIDTQVALYKEYKLNKTFLFEGAQGMTLDVDHGLYPHTTSSNTIAGQVNVGTGIEFNDKKRIIGVAKCYVSRVGVSPFPTEINGEESDFLRQKGKEFGTTTGRPRRVGHLDLVQLKQAVRVNGFTEIAFTKLDILSGIKEIKICDSYQILGKKYDETPGSLGKIRLAKPNYISMEGWESMDQASIEKISKKGFDFLPNALKEYIYFIEDKINCPIKIISIGPQRHQTILR;locus_tag=LOCUS_00830;gene=purA;EC_number=6.3.4.4;note=Q97D87 adenylosuccinate synthetase (Clostridium acetobutylicum ATCC 824) [pid:48.4%25%2C q_cov:97.2%25%2C s_cov:97.7%25%2C Eval:5.2e-108],MGA_84
sequence01	MetaGeneAnnotator	CDS	82709	85048	.	+	0	ID=MGA_85;product=phosphoribosylformylglycinamidine synthase subunit PurL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZUW4;translation=MSFINEIFDFNSLSNSEIKKVLKKNNIALSNEEVLRIQNKILKRPPTLSECILWSIQGSEHCSYKSSRIHLNELITDGPNIILGPKEDAGIVSVAIDNQGKRYGIVISHESHNHPSQIVPYEGAATGVGGNVRDVSCMGAKVIGISDSLRFGDISSAKTKWIKEGVISGIAGYGNPLGIPNIGGDLYFDEEYNDNCLVTIVTIGIVREDQVIHSMAPKNSAGYDIILIGKPTDNSGFGGASFASLELNEEEKELKKAAVQEPNAFLERHILKATYSLFDKLRHDKLDKLVGFKDLGAGGIACASVELADSAGLGAEIFLDNAHVSQKNLHPSVVLCSETQERFMWVAHPDISQMIVDHYNLKFELPEVSHNAKATIIGKIRSDDKYIVHSKNEILINAKTQDITKGFIYNRKTKEPKTVFSEPNIKKLNNLKSIFLKVLSHENVSSREPIFEYYDKQVQGRTILESGEADSGVLQPFNNDNYPQEIRNVGIAISTDHNPRFGKISPYWCAINAIVEAIQNVVSVGATPQALTDCLCFGNPEKPEQMWQFVESIKGIKYACEKLKLIEHPNHSIPIISGNVSFYNESKNGPIPSSPIISCVGKINDIENVLSKDFKKKNSIILLIGKRKDELGGSVYYNLFNEIGKNLPKPDLNQVQSQIVAISKCIENKLLLSCHDISDGGLAVTIAEMMFKNKIGCNINLEDELSFTKQLFSETGGYIIEIEKKLFNNAVKILNQNNVYYKKIGETNHSSLLNINSEMIIPIQELYESWKFGLREKLK;locus_tag=LOCUS_00840;gene=purL2;EC_number=6.3.5.3;note=Q5ZUW4 phosphoribosylformylglycinamidine synthase subunit PurL (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:58.4%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:2.9e-275],MGA_85
sequence01	MetaGeneAnnotator	CDS	85048	86082	.	+	0	ID=MGA_86;product=phosphoribosylformylglycinamidine cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZUW5;translation=MKMNYKKAGVNIDAGNEAVDQIKNEVKKTFSKNVLTNLGSFGSLYDISDIKNNYTHPVMVQSIDGVGTKTIIARKLRKFDTIGIDLLSACSNDIIVMGAKPLTFLDYIANDKLDPFIIKEIVSGMVKACNENNVSLVGGETAEMPDTYHKGEHDLVGIITGMVEKEKIITGNNIKEGDILLGLESNGLHTNGYSLARKLFFEIGKFNVEDKIPEFHKNIGLTLLEPHINYTKHVFSLINNNINVKGIAHITGGGLIENIPRIIPSQFGVEIYKKSWSPLPVFDVMKNLGKISDIEMFRTFNMGIGLVIIINQNDQKLVKTILSNFCKVFEIGIVNNNKKKIELI;locus_tag=LOCUS_00850;gene=purM;EC_number=6.3.3.1;note=Q5ZUW5 phosphoribosylformylglycinamidine cyclo-ligase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:59.9%25%2C q_cov:99.4%25%2C s_cov:96.1%25%2C Eval:4.2e-115],MGA_86
sequence01	MetaGeneAnnotator	CDS	86087	87346	.	+	0	ID=MGA_87;product=phosphoribosylformylglycinamidine synthase subunit PurQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZUW6;translation=MKNIAIVQFPGSNTERETSMACKRVGLNPIDFLWNEKKAFLSDFDGYIIIGGFSYEDRSRAGILAALDPIIEMIKLESEKGKPVLGICNGAQILVESGLVPGINNYNISIALSKNKRIFNNEVLGVGYYNNWSNLKMIVDSKRSAFTRHFKKNELFNAPFAHGEGRFIINNDLLKKMIENQQVLFQYCNNDGDAINEFPTNPNGSVFNISAVSNLNGNIMAMMPHPERTINGDKIFSSMKEFIEKKNPIFSTDINLKPNNLEIKKYIKPKQHLELIISTIITDNESVSVQKKLNQLNCNISISKQIHWEIQIEKQSESILSEIIESGELFNSNKEFLTKVNNKEKNYKFLIREKDDIYARSKFQSLKNRFEIDEILSLKHGVLWTISSKLTNFESEIQKVLDTNILLNPLGQECYEITN;locus_tag=LOCUS_00860;gene=purQ;EC_number=6.3.5.3;note=Q5ZUW6 phosphoribosylformylglycinamidine synthase subunit PurQ (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:45.9%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:5.0e-108],MGA_87
sequence01	MetaGeneAnnotator	CDS	87330	88304	.	+	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLPINYEHEIKSSLNNTITETKIKTGEKLTGKVRDQYDIGEKIILLTTDRQSAFDRVLASIPFKGQVLNQTSAWWFEKTKEIIPNHVIDIPDPNITLAKKCKVFPIEFVVRGYITGSTSTSLWTVYKNGDRQYCGNFLEEGMKKNQKLTNNMLTPTTKEKDHDRPISPEDIVKEGWMSQKHWDYCSKKALELFSFGQKLADSNGLILVDTKYEMGIDNNGEIVLIDEIHTPDSSRYWIKESYHERLKNNLEPENIDKEFLRLWFVDNCDPYNDVNLPDAPDDLIIELSKRYIYLFETITGEKFTFPNHEPIQNRLNNNLKGII;locus_tag=LOCUS_00870;note=Q5NGF1 phosphoribosylaminoimidazolesuccinocarboxamide synthase (Francisella tularensis subsp. tularensis SCHU S4) [pid:67.3%25%2C q_cov:90.1%25%2C s_cov:38.2%25%2C Eval:1.7e-115%2C partial hit],MGA_88
sequence01	MetaGeneAnnotator	CDS	88301	88687	.	+	0	ID=MGA_89;product=phosphoribosylaminoimidazole carboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DYW9;translation=MKVVIIMGSSSDENHASKITKHLDEFKIPWSQHVASAHKQPLKVLEILNDNQNEKKLIYITIAGRSNALSGFVAANSNHPTLGCPPFSDKADMLVNIHSTLQMPSNTPVMTVIDPQNCALAVKRIFGE;locus_tag=LOCUS_00880;gene=purE;EC_number=4.1.1.21;note=B8DYW9 phosphoribosylaminoimidazole carboxylase (Dictyoglomus turgidum DSM 6724) [pid:52.0%25%2C q_cov:97.7%25%2C s_cov:78.3%25%2C Eval:1.7e-29],MGA_89
sequence01	MetaGeneAnnotator	CDS	88677	90029	.	+	0	ID=MGA_90;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZXD1;translation=MVNKNLLNLSPLDGRYANDLIDLNSFFSEMSLMQYRIKIEVEYLIALSSEKKIQNIEPLNKKEIHDLRKIYLDFDFSEAKKIKKIEKETNHDVKAVEYYLHTRIKKELHAWIHFGLTSEDINNLCYTLMWKDAIESQYIKTLIKVCDELTLLSKKYKNISMLSLTHGQPASPTTVGKEFAVFSHRITKSLKSLRKHSFEAKFSGATGNWSAHSVSFKEVNWIEFSKRFLISFDLQPNLITTQIEPNDSLAESFHQIIRINTILTDFCQDIWLYICRGVFKQKKVSSEVGSSTMPHKINPINFENAEGNLGLGSTILNHLSMKLSISRMQRDLSGSTVIRNHGVGLAHSYLALKNILKGLKRLSINEKVLESELNEHWEILAEPIQTILRKYGKENAYEELKEITRGETINSNSIKDFIMDLDLNDEDREILLNLSPESYIGLAPILTEKL;locus_tag=LOCUS_00890;gene=purB;EC_number=4.3.2.2;note=Q5ZXD1 adenylosuccinate lyase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:46.7%25%2C q_cov:97.8%25%2C s_cov:97.6%25%2C Eval:7.8e-115],MGA_90
sequence01	MetaGeneAnnotator	CDS	90029	91504	.	+	0	ID=MGA_91;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZUW8;translation=MCGIAGIHSQNNVASDLFDCLVHLQHRGQDAAGIMTYDDTHMHKAKGMGLARDVFNEKKMSELQGKVGVAHNRYPTHGGFGHGEIQPFWTNVPYGIALAHNGNITNYSDLVNLISEKDKRYLNTSSDTEVLMNLFADQLHSAKKVNSEEEFFNLLCKSIEYIYENVKGSYSIVGMIVGKGLIAFRDPQGIRPLVYGKRTSKKGSDYIFASENSMFYSLEFEPKGNVLPGELYYISESGKKFKRRIKKVSFNPCVFEYVYFSRPDSNLNDVSVYRSRLRMGQNLARSWKNKFPDIEPDIIIPAPSTANTAALSFAHELGVRYSEGLFKNPFIGRTFIMPEQKERRKSLKYKLVPQETEIRGKKVLILDDSIVRGNTSREIVRMLRDFGAKKVYFAVSCPPIKFPCYYGVDMPTREELIANNKSIDEIKKFLEVDEILYQDIDQLIEAVTRKGDHHIDRPCMACLDGNYVAKDIDNKKILELELSRKNDRNGN;locus_tag=LOCUS_00900;gene=purF;EC_number=2.4.2.14;note=Q5ZUW8 amidophosphoribosyltransferase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:55.2%25%2C q_cov:99.6%25%2C s_cov:98.2%25%2C Eval:2.7e-164],MGA_91
sequence01	MetaGeneAnnotator	CDS	91485	92810	.	+	0	ID=MGA_92;product=phosphoribosylamine--glycine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZUW9;translation=MIEMEINVLVIGSGAREHAICKSIRKSSIKNKIFCFASNYNPGIEKICHNISIGNINDKKNVLEYALENNIEIAIIGPENPLEVGITDLLDLNNILVVGPKKNLAQLETSKIFTRNLLIKYNINGCPKYKAFNKINGLEEYLKELGNEFVVKYDGLAGGKGVKVSGEHLKSHDETLEYCKNIINKNGEFIIEEKLYGEEFSLMSFSDGKKLKHMPIVQDHKRAYEGDLGPNTGGMGSYSCENHTLPFLSESHVIEAKKINNQILIALKNEFNDFYKGILYGGFMLTKNGIKVIEYNARFGDPEVMNVLQILKSDFLEICLAICNQNLDDVEVEFENLATVCKYAVPNGYPDNPVKGEKIEISQLQDKKNLYFGSLDQINDELIEAGSRTVAYVGVGKSLSEAEKLAEKSISSIQGPLFHRKDIGTQELILKKVNKIKSLKL;locus_tag=LOCUS_00910;gene=purD;EC_number=6.3.4.13;note=Q5ZUW9 phosphoribosylamine--glycine ligase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:54.4%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:1.4e-132],MGA_92
sequence01	MetaGeneAnnotator	CDS	92812	93405	.	+	0	ID=MGA_93;product=phosphoribosylglycinamide formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZUX0;translation=MSLKIGVLGSSNGTDLDAIIDSIEKKYLDAEIKLIISNVKTALILEKAKNNNIKSLYISHKKKSREIFDNELSGHFKNEKVDLILLIGFMRILSSNFCNEWNNKILNVHPSLLPKYSGLMDLNIHKKVIENNESETGCTIHFVTKDLDKGPILVQKKCFVSFDETPLSLKKKVQKLEGISFIEAIKIFKKELITNEN;locus_tag=LOCUS_00920;gene=purN;EC_number=2.1.2.2;note=Q5ZUX0 phosphoribosylglycinamide formyltransferase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:45.9%25%2C q_cov:93.9%25%2C s_cov:96.4%25%2C Eval:5.2e-48],MGA_93
sequence01	MetaGeneAnnotator	CDS	93395	94804	.	+	0	ID=MGA_94;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKIYILSSLFIIISCASNTKNISSESDFQFDVKILDQNLNEPMEFDIFDNDEIIFIERSGYIKLYDPKIEKTKIITKFDVEMSSDTTNDKTPLEDGLLGIAIDPNYNINNWVYLFYSPKGSIPKQHVSRFVFKNHRLDKDSEKILLEIPLQRDQCCHSAGSLEFGPNGNLFISVGDNTNPFDSDGFSPSDESKNRTAWDAQRSSSNTNDLTGKILRIKPEDDGTYSIPDGNLFKVGTPNTKPEIYVMGNRNPFRISIDKKTNFLYWGEVGPDSHEDSEERGPKGYDEINQAKKPGYFGWPLFVADNKAYNDYSFEKKTSGPRFNSLNVINNSVNNTGLKKLPNAQPAFIWYPYSESDEFPLVLSGPRNAMAGPVFYYDEKTFSEKSIPKYYDEKLFIYEFEREWIFTVTMDELGNFVSMERFMENLDLNHPIDMLISKKGELYILEYGSTWYTQNKDAQIIKITTK;locus_tag=LOCUS_00930;note=WP_011031012.1 glycosyl hydrolase (Streptomyces coelicolor A3(2)) [pid:39.5%25%2C q_cov:91.3%25%2C s_cov:35.0%25%2C Eval:1.1e-82%2C partial hit],MGA_94
sequence01	MetaGeneAnnotator	CDS	94801	96354	.	+	0	ID=MGA_95;product=bifunctional purine biosynthesis protein PurH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HPA0;translation=MKITNINEKPVVIKRALISVFDKTGVVEIAKKLDSLNVEIISTGGTASTLKKANVNVINVSDFTGFPEVMDGRVKTINPLIEGGILGLRDRHQIEASNVKIKWIDLVICNLYPFQKIINEENVSISKVYENIDIGGPTMIRSAAKNIGWVSVLTNHKDYDDYILELSEKKCISFETRKKLSIKAFKTSANYESTIHNYLNDEKFPDSFTLNLKKHSDLRYGENPHQLAAAYKIDGKESINILSSEIIQGKKLSYNNLMDSNANLNCLFEFNQPSCVIIKHANPCGVAIGKNIKDSFLKAFNCDSLSAFGGIVGVNEICDEDLAKEMNKIFFEVILAPGYTNKAIKVLSKKKNLRLIKFNKEYSSNNSLELRDLNGGVLIQEFDSLNISENNLQVVTKVKPEKKHIEDMLFGWKVLKHIKSNGILIVKNFKTIGIGAGQVSRIDSVDIAINKSKKDLNNSVLCSDAFFPFRDSIDKIAKTGIKTIIQPGGSIKDEEVIQACDEHKISMVFTGNRCFKH;locus_tag=LOCUS_00940;gene=purH;EC_number=3.5.4.10,2.1.2.3;note=Q6HPA0 bifunctional purine biosynthesis protein PurH ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:46.2%25%2C q_cov:97.5%25%2C s_cov:99.6%25%2C Eval:1.3e-132],MGA_95
sequence01	MetaGeneAnnotator	CDS	96392	96976	.	+	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRHLNFLSNSFTTYKVYSITYSIFQILSFALLIGFSAQMKIQLPFTPIPITLQTFFVILSGAYLGFSKGVFSNILYIFAGLSGLPIFAGFGSGIIHLFGPTGGYIFGFVFAAGIAGFLKDKDWTRNFKMSLLLMILSTIIIYLIGVLWLGFYVGFNNIVKIGVIPFLPGDILKIIIGSFILSNSKKLFNQTTLH;locus_tag=LOCUS_00950;note=WP_012259416.1 biotin transporter BioY (Chloroflexus aurantiacus J-10-fl) [pid:46.4%25%2C q_cov:78.4%25%2C s_cov:67.4%25%2C Eval:8.3e-35%2C partial hit],MGA_96
sequence01	MetaGeneAnnotator	CDS	96963	97298	.	-	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKIKINEYLPFFYAGASGDFNQIHIDDKIAKKTGLKGIVLQGLCTMGIVSNYFLGDKNPKIIKKIKVRFSKPVYPNDELNIQFKENKFVVLNQFNEEVISKGEITINEE;locus_tag=LOCUS_00960;note=YP_001701132.1 hypothetical protein (Mycobacterium abscessus) [pid:39.2%25%2C q_cov:68.5%25%2C s_cov:27.9%25%2C Eval:2.9e-08%2C partial hit],MGA_97
sequence01	MetaGeneAnnotator	CDS	97291	97728	.	-	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLSVVGKKYPVFIYEVGSEKIIEYAKATLSKNPYSIKKMKGKILIAPPTFVATYAFKALRYVFDDKELGMNVPNVMHAEQTFEFGEVVKSGDIISTKVELKNGFSKENKNGDKIDFLVVISESKNQKKQIVCNGRWVLVEKYNV;locus_tag=LOCUS_00970;note=Q9L0M4 UPF0336 protein (Streptomyces coelicolor A3(2)) [pid:41.4%25%2C q_cov:64.1%25%2C s_cov:66.0%25%2C Eval:9.9e-13%2C partial hit],MGA_98
sequence01	MetaGeneAnnotator	CDS	97843	100539	.	+	0	ID=MGA_99;product=pyruvate%2C phosphate dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941243.1;translation=MKTVYFFGDSNSDGKADMKNLLGGKGANLAEMTNIGIPVPPGFTITTEVCTYYYDNNSQFPKELEKQVLEAINKNEKIMGKKFGDSSNPLLMSVRSGARISMPGMMETVLNIGLTSKTIPGLIEKTGNPTFVYDAYRRLIMMYSDVVMEKSAGKEPKDGISIRERLEELIEKRKEEKGVSEDTDLDANDWKELSNKFKSTVKNVLGNEFPDDPHEQLWGGIKAVFQSWMGKRAIAYRKIEDIPVEWGTAVNVQSMVFGNMGQECATGVGFTRNPATGENYFYGEWLRNAQGEDVVAGIRTPNPINKWGRTDKNKELETLDEAMPSIYDELEGIRSKLELHYKDMQDIEFTIENNRLWMLQTRSGKRNGVAAVKVATDMLSENLITKEIAINRVKPSQLDELLHPMVDPIAEQKGVKLAEGLPAGPGGATGQIVFTSEDAEIWAKEGKKVILVRNETSPEDVHGMHASEAILTAKGGMTSHAALVARGWGKCCIVGCSSLNIDSINKKIEVDGHTLFEGDIITLNGTKGNVYLGEILLSQIDPGKNESFNILMKLANEFKTLGIRTNAERPEDASQAKSFGAEGIGLCRTEHMFFDPERILAIREMIIADNTNDRREAIMKLLPYQKEDFYQILKAMEGYPVTIRLLDPPLHEFVTLDENQIVELANQLQIDKEKLSKRIDALHELNPMLGHRGCRLGIAYPEITEMQARAIFEATAQLTKENIKVFPEVMIPLVGTYTEFEHQEKIVREEANKVKSNTMVDFNYLVGTMIEVPRACLTANEIAKKAEFFSFGTNDLTQTTYGFSRDDIGGFLPTYLESGILPQDPFQSLDQSGVGQLVEIGVKKGRKINENIKIGICGEHGGDPESIYFCHETGLNYVSCSPFRIPIAILAAAQANLK;locus_tag=LOCUS_00980;gene=ppdK;note=WP_010941243.1 pyruvate%2C phosphate dikinase (Geobacter sulfurreducens PCA) [pid:57.6%25%2C q_cov:99.9%25%2C s_cov:99.3%25%2C Eval:2.2e-306],MGA_99
sequence01	MetaGeneAnnotator	CDS	100577	101509	.	-	0	ID=MGA_100;product=flagellar motor switch protein FliG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P52610;translation=MITEYYKLSGIDKVAVLFSVIGESVAVRLLKTLSESDIRRIRARSREMDTVSVSLKKQILDEFYLAVMSQKLKNEGESESKKPFDFIHDLADEQLIALLEVEEPRIIAIALAQVKSEQQIKVLDRLSPEIKGNVLMQLGSLDNIPLEGIVNVASQLKIKSQYLPKGVDFARGGGKSVADILGKMTPFEEEKFLESISQENPELAEEIKKYHLTFEDVINNFPDNLLRDIMNSIELDTIALALKGRNQQDVDKVINNLPQKKQAMYEPVENAVPKRDVDQAKKAIVEAARQMEKDGKFTLEDILGSSDMVE;locus_tag=LOCUS_00990;gene=fliG;note=P52610 flagellar motor switch protein FliG (Borrelia burgdorferi B31) [pid:24.7%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:1.6e-25],MGA_100
sequence01	MetaGeneAnnotator	CDS	101515	103119	.	-	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISTKKKENVMVKMRIIVKQIIVFALMINLSAQESTYLAQKIMLENNMRSRIESALQKIMDDHRYVLDISVDLKFTPTVTEEVTFRPSTDEKTKNAVLSGREDASESVPLTSNENQTTSTMTGIPIPGFDFQIIGGDNSIDEPEILEDNEIIEDINPTRTQGSQILSQSYTDTKASMPIIEKVDISCILPEGSAPELIENVRQIIMVASHFDRSRGDVLSVMTASFRQRKDERTAESIILRSIAKKIDELEERQSDAEAQVAEDWKSELEGWKNEETRRREEERAIWRSELDRIENERIAREFQNERKSLIERDSIRMNQLTQEISQLKDVLSGSQLSEEQEDEFNETVSTKEEEREELDSIIAEKLAMLEQTQSELENMSGGMNNLPIYLMSAISLLAVLALAAVILFNGRSSKPSYVMPPPWMMPPPQQSQQKKKVKNNSTDNMEPVQTSISRPQVTKNVAFEEDPSVIQSEMIKTKDSLVSMSVGEPEVATNVVKDWLQQEAPPAPVESKPEPSVSDQESEDNNKKSKKKK;locus_tag=LOCUS_01000;note=MGA_101
sequence01	MetaGeneAnnotator	CDS	103119	103907	.	-	0	ID=MGA_102;product=OmpA/MotB protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392303.1;translation=MAATPQERKKFISTGEKKVDEGLPGWFGTFADMMTLLFAFFVLLAAISTVDPVKLQQLADGMGKSVGSKKDIENQAMSLADVKKAADKMVEEMGTNPETGEKPVEVTTGPKGVTIGISSDISFQSGSASLKQEIVEVLDKIVPTIENSYFDVAVEGHTDNDPLPKSFQSKYPSNWELSSARASAVVRQLINMNVNPIRLQAVGYAEYIPRDRPTDRVIDNQLIAELNLNNELKSRNRRVEITFLASGVNNEIDGSYKESLNN;locus_tag=LOCUS_01010;note=WP_011392303.1 OmpA/MotB protein (Moorella thermoacetica ATCC 39073) [pid:32.3%25%2C q_cov:85.5%25%2C s_cov:95.7%25%2C Eval:5.6e-23],MGA_102
sequence01	MetaGeneAnnotator	CDS	103908	104681	.	-	0	ID=MGA_103;product=motility protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081090.1;translation=MDIATIAGIILGLVAIIGSIFLLPGSNFGMFISVPSFFIVFGGLIASVSVAFPLKDVLQLIPAILAVFKGGKDSLGNLVDEAVEVADIARKGTAELEKQVESIDSFFFRDGVQMVVDGYSLEELTEILNTRIDNREIRENTQAGLFKSMGTMAPAWGMVGTLLGLVVMLAGFGSGGGTDALGSGMSAALITTLYGAIFANLLFLPMSDKIKTRIIFSSTAQNLQLEAARLIHQRKHPLIVREKLNSYIPPKEWKKED;locus_tag=LOCUS_01020;note=WP_004081090.1 motility protein A (Thermotoga maritima MSB8) [pid:36.0%25%2C q_cov:94.6%25%2C s_cov:93.1%25%2C Eval:1.5e-33],MGA_103
sequence01	MetaGeneAnnotator	CDS	104686	105963	.	-	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPTTFIARSPYLFTSGFTTEVHNFAPFNTTKGVFFNIDFSDRFTFGFSSGQGADTSAVEKILSSTYIPPVEFGFHTQYKVFVRQDMSVSIGLHDIIFENDANEGLRLDPKQLSFFAAVGSVKDFGEYTARTFMGFGTGGFSITPESINSTSSTDTSLSQGFNAGVFAGVYLNTPLMPKWGGLDFVGEFDGTGINVGLRIPLTSDYRLGLGFTHIENLPEFSNKYSEKHPGIVFNFTMAIPKTAPSLPGIPGAPSPLPDRLIGKNNSFMDSTLIAADGAVSSLRDSLKLSRHQVKNLSTQVSLLKQKSVSLSDSVYSLNLDKNISQKNINMAMRHLSRSLRYFHSGDYREALQEVETALDLNPNLALAYARRGSIYYQLGDPQRATINWNLALQMDPEYDDVRNILKALHENRLKTTSFSRGEK;locus_tag=LOCUS_01030;note=MGA_104
sequence01	MetaGeneAnnotator	CDS	106072	107019	.	-	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINLNFFFFLFFMSSFNAFSQESNEKDAFFLDLGVVIEPSTGKEKVDHLVKAPPSKVSFFLDKKPSGSVFMASTKEIALMLEDIQQKIDNIPTNFSKDLMVEERNNYKKISARLNRVEKSLDKKLNELEIQNNELKQIISEYLGSKNKFNALNDNDYQKYYISDNLVSNLEDYEISLIQTPGKSLVENNSKKIFNNLYVNGVIAYQKGDYNLAIENFNQLNIDNYSVITKGNVLYWLAESFYNLKKYENALKTLDKLVILKESDKQDDGIILKGIIFKNLGNFSNAREAYTEIVDFFPKSEYLRLAKIELSKKY;locus_tag=LOCUS_01040;note=MGA_105
sequence01	MetaGeneAnnotator	CDS	107019	108212	.	-	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYICHTKSEVDYTKKSEVVLKRLTKNTLLFLVMFFLVNFTFAKNYKISGNVLDITGENISNAIVVLFNDSNEEIANEKTNKKGSFQFKKIQAGKYLLRANKDTETANLNINVEASDLEGIELTIGPETTSQSNDNQGQKSLSEQPNLDSEERVPQDQYVLTEISFELKKMGAEIDNLSSQLRDLQARSEMWVNPLSIYQKEIILNNGSTVFGKIVYQDEETLKVETLVGFLVIDRSNVVRIIENVMAQEDQEYVPEQIRESYSPPPMPKLAEPRYVSDSSSNRVSSRERAANIVLVGNIAEKKDKSNNVTFTGQVKNVGGQRADFVKVNFVLRKNWSGETRTLTSFVGGSYYTFDSGITTDSSLLPGASGEFELIVPSDIGSFLGYSYTIDWEEYE;locus_tag=LOCUS_01050;note=MGA_106
sequence01	MetaGeneAnnotator	CDS	108374	111073	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTIFLISIILFTRPIFSEKLDISQQHSTSVPVDLIKVPEGLEVTIWAKSPLFYNPTNIDIDRFGRIWVAEGVRYRFNWNRQKKGDRIVVLEDLNFDGLADTSYVFLQDSSLVAPLGIAVIDNKVVVSQPPHLIIYTDVDRNLKFEENIDNKEILLSGFSGINHDHSLHSVTVGPSGKWYFNSGNCGAMFTDKSGKTFRIGSPYNPKPIGPFEFPINPLDIAGKKSDDGHIYVGGFVAKMNDDGSNVEIIGHNFRNSYEQSITSFGDVFHSDNDDPPASRVTHVLEYGNAGFASANGKKTWQADKRPYQTIPEAEWRQDDPGVMPSGDVYGGGSPTGNVFYENGSLGKKWEGMFLACEAGKNVVFGYFPKLSGSTFTLERFNFITSNEENEFAGTDFLGGSKSVNNEEIKTLFRPSDVAVGPDGAIYVSDWYDGRVGGHQDLDESKSGTIYRIAPKGFTPKIDNFELNTLKGSISALKSPAVNVRNLGHELIKKNHKKSIKELNKLLKNKNKYLAARAVWLLVDLGNEGQEKVFTLLDSKDEELRLVAYRALRDNNIDLLKIAKKMSKDISPAVRREVATSLRDVNPIKKLPILISIAEQYNGNDKTYLEALGIGSFGVEEELFMNLLEKIGDSNSLLWSDKFSDIAWRLHPPSSIDFHLQRVLSESLKFNERRQSLDAIAFTMDYKAAKVMIDLSIRENFLLSKEAHWWILNRAFSEWKEYDLLKELAEKEIYNPQKIELFEMISENSEDFLNEYPSINDLSKFEGDYDKGKIVAQKCIACHKIENNGSDLGPNLDGWAKNQSKESIYRSIILPNETIAHGYEAYEIILNDGRKIHGKGIKMSNPYIITSIGDFTQIVPEEKIKKINRLKHSLMLSAYQLNIDANELVDLVEFLKNN;locus_tag=LOCUS_01060;note=WP_011120000.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:30.9%25%2C q_cov:78.3%25%2C s_cov:43.8%25%2C Eval:1.2e-89%2C partial hit],MGA_107
sequence01	MetaGeneAnnotator	CDS	111127	112563	.	-	0	ID=MGA_108;product=tetracycline efflux Na+/H+ antiporter family transporter Tet(35);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005480402.1;translation=MELNHHEIFSVLPPIFALIIAIWKKQIYLSLLVGIWFGWLILENWNPFFASAATINGIVDVFSSNSNTKIILYSLGVGSILNLLNSSGGIQAFIDWIEKRKIVQNGFQAQLIPFLIGVFITIESSITALISGTVGKPLIDKHKICREKLAYICDSTSAPICILFPFNGWGAFIIGLLVVQGIENPVLFLFSSIKYNFYPIVTILILFISIYFNLNIGPMRVAQNKFLNKRKLNKKKSNIVIDSFNNSSDIIIKNSKIIKFILPIFSMIFLMILSMLFTGIGNSPDGINSELWKILSNADGSTSVLWSVIGTLILIGCLNRQLFHSGVFFDLIFKGMAKMFPVVTLLLLAFSMGEVINQLGTGIYISTLIPPFLNEKIIIISLFLTSCLIAFSTGSSWGTFAIMVPISITISQNFPDSQAIFLSSVLGGGIFGDHCSPISDTTIISSMAAGSNHIDHVRTQLPYALISAFISIILYIIV;locus_tag=LOCUS_01070;note=WP_005480402.1 tetracycline efflux Na+/H+ antiporter family transporter Tet(35) (Vibrio parahaemolyticus RIMD 2210633) [pid:35.7%25%2C q_cov:95.6%25%2C s_cov:88.6%25%2C Eval:2.9e-70],MGA_108
sequence01	MetaGeneAnnotator	CDS	112569	112952	.	-	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088521.1;translation=MNYYFQKTIEKDFEYINSKIRDNLLKNGFGVLTEINIQKAFKEKLGVDFKKFIILGTCNPALAHQAVSKEPEVGVMMPCNVVLWENKDKSVTVSAIDAVKMLSICLNDLNDIGEKANILLKSSIDEL;locus_tag=LOCUS_01080;note=WP_011088521.1 hypothetical protein (Bradyrhizobium diazoefficiens USDA 110) [pid:35.9%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:4.3e-20],MGA_109
sequence01	MetaGeneAnnotator	CDS	112949	113557	.	-	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFFIKSFFFILLNIGIVLKSENIEFILTSSDTLKGFEFMKIEKDKIILKSSFSNYILNIKDLSSIDRLSSKIIKPHKKNIIYNSATGLVLGNFMGNLMGNVLIWWIKNEELGTLNLFESKPNDLNRGEKFIKSTAVNLMTSLGFYAGYKINNQKLILRKKYELIDMTVDQKTNIINKIFALTEKEKFSLIKNLKNRKRKK;locus_tag=LOCUS_01090;note=MGA_110
sequence01	MetaGeneAnnotator	CDS	113554	114441	.	-	0	ID=MGA_111;product=diacylglycerol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000977671.1;translation=MKKLIIIFNPNSGPKPSNKIIDLITPILKKNNFELNIITTEYPGHERLIANTIDLYDVSGICIVGGDGTIHQVVNGMLSRKDNVKLPLGIIPAGTGNSFMHDIGILNPEQAVNNIIKEKIRFIDVAKIQMVDKIIFSINIIGWGLVTDINISAEKLRWLGSQRYNITTLLHVFTNKKRLAKLFLNGKEFNQKFSFIIACNTIHTGKGMKIAPKAKLDDGLLDLIVVPETQTLKLLNIFPKIFDGSHVEHEVLKYYQVKEFSLRPNFNESLNLDGEVYGKTPIDVSVLKQALSIYA;locus_tag=LOCUS_01100;note=WP_000977671.1 diacylglycerol kinase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:26.6%25%2C q_cov:99.7%25%2C s_cov:96.7%25%2C Eval:2.3e-23],MGA_111
sequence01	MetaGeneAnnotator	CDS	114528	115523	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRLIITIIFLLISSSYGKKVNIKLATLAGNGSPWDLRLREMGQNWKDESNGEVRLTIYPGGVAGDESSVIRKMRIGQLNAASISTEGLSKIVPDFAAISHIPLLYNSDEEKDYVTQKMSPDLISKLDEKGFKFIHWGEIGWVRYFAKSPVLIPDDLKKHKMFVWANESQDLEMHRKLGFNPVPLAATDLTVALQTGMVTTFNTTPIVALGNQWFAAAKHMTNYKWAPLMGATIIKNETWSAIPVKIQNLILSASKKAEIDLTNEIRRLDDEIIDVMTDYGLVSHDLNQDQIEKWEEFVDLIYPYIRGKVVPSESFDRAIKYRDEFRSSK;locus_tag=LOCUS_01110;note=MGA_112
sequence01	MetaGeneAnnotator	CDS	115524	117134	.	-	0	ID=MGA_113;product=NAD-dependent malic enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011089209.1;translation=MKNKTNKKIIKSNFELLNDPNLNKGTSFTLEERKIFNLNGLLPPKISNLKDQINRAYENFKKKPNNLEKYIFLTELQSRNETLYYRLILDNIEEMMPIIYTPTVGEACQHYGHIYRRPKGLYISYNFRRKVKSLLRNWNNKNIEIIVCTDGERILGLGDLGANGMGIPVGKLVLYTICAGVNPNKCLPVTIDVGTDNQKLIDDPMYLGLPHKRIKGSEYKNFIDEIISSFEEVFPKAVIQFEDFGNKNASNFLQKYKNKYRMFNDDIQGTGCVVLAGILSAMRKLKTTISEQRILFYGAGSASIGIANLICKQISQDGQSIKEARKKIFLFDSNGLVVNDRKNLNREKQLYMKDLQVEKNLLDCIKKIKPTILIGASGVKNAFTPKILQQMLKINDLPIIFALSNPTSNSECTARDVFLNTKGKAIFSSGSPFKTIISGEKEFHTSQANNAYVFSGIGLGVLLSKIDIITDEIFLNAAHTLSKMTSQDDLKNGKIYPSINEIRKISTNIAYSIASNFNKKITYEDVENEIYYPNYK;locus_tag=LOCUS_01120;note=WP_011089209.1 NAD-dependent malic enzyme (Bradyrhizobium diazoefficiens USDA 110) [pid:47.4%25%2C q_cov:93.1%25%2C s_cov:94.0%25%2C Eval:1.2e-136],MGA_113
sequence01	MetaGeneAnnotator	CDS	117255	117509	.	+	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKQKKTFKYLVTMRWYVETDEELISGAIETDNKLLNLVQHRSNGEPCNDESPTKNFQGYAVLPHHDFMGEKPIYMSKDKIKG;locus_tag=LOCUS_01130;note=MGA_114
sequence01	MetaGeneAnnotator	CDS	117517	118068	.	+	0	ID=MGA_115;product=NADH-quinone oxidoreductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEC2;translation=MTSEKSDKNGLGDIIVAPLNKLVNWGRAASPWYFQFGLACCAIEMMATAAARHDLERIGMFPRSSPRQADVMIVAGTVTMKMATRVKRLYEQMADPKYVVSMGSCATSGGPYWQYGYHVLKGVDLVVPVDVYVPGCPPRPEALIEGLLKLQEQILLETPIQDTVTKNLRQLFKKTNKTKKISA;locus_tag=LOCUS_01140;gene=nuoB;EC_number=1.6.5.11;note=Q8KEC2 NADH-quinone oxidoreductase subunit B (Chlorobium tepidum TLS) [pid:64.8%25%2C q_cov:79.2%25%2C s_cov:76.7%25%2C Eval:1.7e-52],MGA_115
sequence01	MetaGeneAnnotator	CDS	118119	119399	.	+	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSNDIKPLLKNYLLSNLKSRKNLSIGIEIENILYDYNLKRINPDLSSIISTEALQKQLIENDNLNISIEPGGQIEYASSPNSNLKTLHNEILIYRKKLIEICNDEKIIISDFGVDSIYKHDQVPITNRKKYQLMYKLFSKKGRLSHEMMLNTASIQLSLDYSSLEEAETLAFLSDNIHPLLSIIFSNSPFWHSNTTNKKNIRELIWSQTDSDRCNSLVEHGIIHKQNLINNYIDFLLSVPTIFQESYNNISDFNGSLEKYLNQLKNNNEINNEKIKSVLRQIFTNVRFKDILEIRGADTPPFGYELAPVSFLKGLFRNEKSLEKLFDLCNNWKINDRLNLIELSKNLNLNEVWNGKKIVSWCEDLISIAIDGLDSDEHIYLNSFTNEFLKNGPFSLSIQKSYNKNNLSIKEFVKRRWFEKKEIFE;locus_tag=LOCUS_01150;note=WP_010921243.1 glutamate--cysteine ligase (Caulobacter crescentus NA1000) [pid:26.8%25%2C q_cov:75.8%25%2C s_cov:73.7%25%2C Eval:1.4e-25%2C partial hit],MGA_116
sequence01	MetaGeneAnnotator	CDS	119403	120155	.	-	0	ID=MGA_117;product=succinate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962275.1;translation=MKLIKLYLKIWRQENVESKGYFESHKIENINSHMSFLEMLDVLNEDLIKNKKDPIAFEHDCREGICGTCSMTINGKPHGPLKGTTACQLHMFNFEDGDTITIEPWRAKPFKIIKDLVVDRSSFDRIIQEGGFISINTGSAPDGNAIPISQETAKEAFDAAACIGCGACVASCKNSSASLFVSAKIAQLSLLPQGHPERQKRVINMVDQMDAEGFGHCSNTGACESECPKEISIKNIAKMNQEYIKATLLD;locus_tag=LOCUS_01160;gene=sdhB;EC_number=1.3.99.1;note=WP_011962275.1 succinate dehydrogenase (Flavobacterium psychrophilum JIP02/86) [pid:62.9%25%2C q_cov:98.8%25%2C s_cov:97.6%25%2C Eval:2.0e-91],MGA_117
sequence01	MetaGeneAnnotator	CDS	120155	122086	.	-	0	ID=MGA_118;product=succinate dehydrogenase flavoprotein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933916.1;translation=MNEKKKKLNSNVPDGELEKKWTKYRSSLPLVSPANKKKLSVIVVGTGLAGASASASLAEMGYNVKAYCFQDSPRRAHSIAAQGGINAAKNYQNDGDSIYRLFYDTIKGGDYRSREANVYRLAEVSGNIIDQCVAQGVPFAREYGGTLDNRSFGGVQVSRTFYARGQTGQQLLLGAYSALSRQIAKKNVIMNTKHEMLDVVVINGKAKGIITRNLINGNIKSHYADAVVLATGGYGNVYYLSTNAMGSNVTALWKAYKKGAMIANPCFTQIHPTCIPVSGDYQSKLTLMSESLRNDGRIWVPKKKNDERSPENIPEEERDYYLERKYPAFGNLVPRDIASRAAKERCDEGYGVGSTKQAVYLDFRDAINNFGKDVVSSRYGNLFDMYSKITGENPYLTPMRIYPAVHYTMGGLWVDYNLMTTLPGLFAIGECNFSDHGANRLGASALMQGLADGYFILPYTIGTYLSSEISNEKFSVNHSEFKLTEEKVKDKLNNLISNNGTKTVESFHKKLGKIMWDFCGMSRNKNDLEKAISLIKDLKEDFWKNVTVPGKLNTINLEIEKAGRVADLIELGEVMMRDALDRNESCGGHFRNEYQTKEGEALRDDEKYDYVSAWEYEGKNNEPKINREKLNFTSVKPSQRSYK;locus_tag=LOCUS_01170;gene=sdhA;EC_number=1.3.5.1;note=WP_010933916.1 succinate dehydrogenase flavoprotein subunit (Chlorobium tepidum TLS) [pid:66.9%25%2C q_cov:99.1%25%2C s_cov:99.7%25%2C Eval:7.3e-261],MGA_118
sequence01	MetaGeneAnnotator	CDS	122108	122788	.	-	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYILDLVKKILKFYNSTIGKKLVVATTGILFSLFLVVHFINNLIVFAGRDVFNKLVTTLEAVRPLIILIEIVLALIIFLHVYNSIQLNIQNRKKTFEVKNKSKKTSFFSNYMVVSGSIIFIFMTIHLSTFWFNFRDNHEHNYYYLVTSSSIGFGNIFITILYLLSMILLGAHLKHGYQSALQTFGIKNTRIGNILFSISSIFWLFIPGGFFFIAFWFGVLRNFLY;locus_tag=LOCUS_01180;note=MGA_119
sequence01	MetaGeneAnnotator	CDS	122842	123486	.	-	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRKKESISLKLRYPIIVRITTLVSILLLITLLVAYPRFVAKEFLEKEISIEIEQFDIPQTQQFELPPPPSRPSIPVESENEDLADDVTIEETELDDFVEWDSPPPPPNQGPKVRFIPYDDPPVPVGGYGAIQRNIRYPEIAQEAGIEGTVVIQAFVDEKGKVTETVVLKGIPNTGLDEAAMTAIKKTKFKPAKQRDRSVGVWISIPVNFRLQG;locus_tag=LOCUS_01190;note=WP_011142399.1 cell envelope biogenesis protein TonB (Gloeobacter violaceus PCC 7421) [pid:41.0%25%2C q_cov:54.7%25%2C s_cov:40.6%25%2C Eval:5.5e-17%2C partial hit],MGA_120
sequence01	MetaGeneAnnotator	CDS	123486	123899	.	-	0	ID=MGA_121;product=biopolymer transporter ExbD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404423.1;translation=MKFKAKTKAESKIPTSSMPDIIFMLLIFFMVTTVLREYEGLNVFLPQARKIERLESKRHTSHVFISKDGLISIDDKIIPMQNVKHVMYDKRVSDPQITVSLKADKEASMQLIGDIHNELREADALKINYSSKTAAPL;locus_tag=LOCUS_01200;note=WP_011404423.1 biopolymer transporter ExbD (Salinibacter ruber DSM 13855) [pid:42.7%25%2C q_cov:97.1%25%2C s_cov:93.5%25%2C Eval:1.3e-24],MGA_121
sequence01	MetaGeneAnnotator	CDS	123899	124288	.	-	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRIKAGEIPSGSMADIAFLLLIFFLVTTTIDMDKGLGLVLPPKGEEKEIPKKNISNILLNSRGEVLLDKEPIPMRDLRSVITEKMIANDKLIFSVKTHPKAKYQSYVEVLDQLKMANATRISIAETN;locus_tag=LOCUS_01210;note=WP_011404424.1 biopolymer transporter ExbD (Salinibacter ruber DSM 13855) [pid:36.6%25%2C q_cov:84.5%25%2C s_cov:60.9%25%2C Eval:9.9e-17%2C partial hit],MGA_122
sequence01	MetaGeneAnnotator	CDS	124300	124911	.	-	0	ID=MGA_123;product=flagellar motor protein MotA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404426.1;translation=MVQYFLDGGPFMYPILGLLIFGLGFGLERVYTLFRASINTTTFMEEIKVALKEGGTEKAMEVCSNTNGPVAEIFHAGLSRSHRGIETVEKSIENAGTIEMAFLEKNMVWLSTVVVLAPMLGFTGTVAGMIQAFDDIKAANDISPAVVAGGISIALLTTLFGLVVAIIIQTFQNFLITRVDKLIIDMEENSVLLIDELVDRDKG;locus_tag=LOCUS_01220;note=WP_011404426.1 flagellar motor protein MotA (Salinibacter ruber DSM 13855) [pid:51.2%25%2C q_cov:100.0%25%2C s_cov:83.9%25%2C Eval:1.1e-56],MGA_123
sequence01	MetaGeneAnnotator	CDS	124992	126569	.	-	0	ID=MGA_124;product=peptidase S41;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962632.1;translation=MKKISLIALFSILSIFSIAFIFPSATEKTVNIYDKIKVLNQIISLVNDNYVDNVDWDEALDGAFEGMLEKLDPHSSYISRDKLENVNEQFYGKFEGIGIEFDLLGGYITVISPIVDSPSDKVGLQPGDKIISIDGKDAFEITREEVFNTLRGPKGSPVSLTIRRPGLDETFEVKIIRDQIPIYSLISSFMINKEIGYMRLTRFASTTYDEVSKAVNDLRSKGMNKLIFDLRTNSGGYLEQAVNISDLFITSNDTIVYTSGRKNKITDSFKASPRRGFNDFSLIILINRWSASASEIVAGAVQDLDRGLILGETSFGKGLVQRQWPLRDGSAVRVTIARYYTPSGRLIQRPYNDGLRNYYQELNNEDREEILDSLRKDQKKFKTKKGRIVYGGGGITPDVFLPVFEYDSTLSKIVNNPQRLAFNWATTFSKNLNKKWNNISDFTEKFVITDLILSDFFEYVKNKGLNIDDSLDLDNNNYLKSILKSEIAGAKWGRAGYYQVFISNDSQVVSAISYFDDAKKFITFN;locus_tag=LOCUS_01230;EC_number=3.4.21.102;note=WP_011962632.1 peptidase S41 (Flavobacterium psychrophilum JIP02/86) [pid:41.8%25%2C q_cov:90.3%25%2C s_cov:91.2%25%2C Eval:1.4e-94],MGA_124
sequence01	MetaGeneAnnotator	CDS	126576	127460	.	-	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKICKILIFIFTIHLSIFAQEDYYPPESYYGGGVGFSQMFLYQDFSKLGLTSKLPLPFDTNKYDLPLVISGGEGFSSLTQNITIGGFAGTGNTSITYAQQMHQTVGDTIQSRTVRNIARISMIMSGATLEYVFHPFSGLDISIGGMMGFGSFKFGLARTYNNVVWDILPDSTQTEEDFISLFPQTTADQKAGSTYDVNGDGVIDELDQNSIESGRNNPNYYELTITNRFINFQPYIAIKLRLLSRMGLRLTVGYNFADLDKNRWEISNGQRIYDVPETSLGATTIRAMLYFGL;locus_tag=LOCUS_01240;note=MGA_125
sequence01	MetaGeneAnnotator	CDS	127646	129388	.	+	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKINFIRKLHAFKTLLLFKRVLFVLILLGHTYAQKNIVSISKTYDLDNDGLTEFITIEKQNLDDEFGTSAVYYEIDEFGTHIELWRFTTTNQIINASIGDINGDGLSEILVMYYKSFSSVIEIFNWTGFDFSPISYGTLFKSNDFNKDQIPTNFNIIDIDSDRVEEIVFAHNSPNRKISLYYISGSSNLTSIQELKSKSISDGYSKIISYPFKSNTDDFTDLIVISPEINKIRIQLYINDSGNFIESLSGLTKLPFPVLDVIESGIIDVDIDNDGKKEIIIPQKNFKSIAIKKLISSYQIIPLSSDIQKLFVFDKPLDDDDINLLLTDRSKLSTKKNKIKQIAIKRNNSKSDLITENKENVNTLKTNIDTLNQSINPINISPLNISLVDTNPSSPKKQFEQLSEINLKSIKPSSSVIDSIDTLFQKSQIKPIEEALLTSLKSDTVDIIKDSVDNSNANKIKSIELNTLGVTPFESSQSQDIIDTLFINEPFTLSVKPTKGTIISFNPENLPMGAKFEQISKTITWIPVLSQIGLQSIKYSLIVEGAAKPSIEEIPGESLTATPSSSTETFEFKFFIKER;locus_tag=LOCUS_01250;note=MGA_126
sequence01	MetaGeneAnnotator	CDS	129389	133072	.	+	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIILTLLYFLLIDTNFSFSQELKIRFMDGVFDLDNDDLVEFISFESEKVNVESASRIAYYEIDELGYPQLLWSLSAPKDIEGSIISANIADFDGSGIPEMVISINKPFPDKPVFSQALLYVYEWKGSTFSSNPMVSIALTDEESMQYIKNVSVLDLNADGKDEIAVALSGSEPIISILGITGNETPEFYEIQSFLMESFLTTPNNINIASLDYNRDGFSELLAFSQDKNILKVQSLINQGGLLSPGSERIKKINGMSNILSKSISNINFNLYDNENIIIPFQSGHIVKVSMFDQNIDISQIQVEAGPLSDLKSADFNQDGYIDLILISGEQGIITVSYGRSQNEPRLNEYFSINGNNNINSPQIFSVIPEIIDQIYLGTVIAGGWNGEENELFYFELGYVPEYPEEILVDTYIPQIATPDTAKIIDDIIPSEGIPLPMGILPSYILPVHQTFAYTIPEDDEKEFFSFRWIDSPPRGMYFHYDTKSIEWVPDEMQLGAYQLSFMLKMKVGERVDIITTDDDGVVTYQVVPELATIESRFWIYVNDPPQIVSYPEITEFVAGDLFQYKIHTFDNNEDAFIRYTLEEAPEGMEINQQGGLRWQTNKSHINIYDVRIVSSDGFDRDVQSFKLYSRGQVAITSIPESFGTVNEEYFYQLEVSMPEDKSNELKYSLVDGPYGMKIDSTGRVTWTPQTTQIDTQRFVVSTNHGVAVDTQHVKLFINHPPVFSNTPASMNKITVNDTFDFQLGINDPNEFDIIRYEPIIMPDGMRIDPSSGRILWIPTQDNLDFSYAEIEISDGHTTKIEKYDFFVNSPVKIISDPPILGTVGEVFNYKIKLKDHNSGSLMLFDNITAINEIKESRVFSVEIEDDLFVENIERYIGEFKSKKSILIDNEDNKTNEEQLIEETISRINLKKYVQNIFWENNKLIVIINTIDAKTPKLQDVLFHFFDGNKGKPPKVNVERIPFKQYSLLDFPDGMFVNENTGEINWTPSNSQFDNHKVTFMVSDGYSRDEQSFELYINHPPTIISTAPKSARVGDLYGYSVVVEDKNSDRNLTYKLTKSPKGMQISRDGKISWKPKESQINGNIFEVETSDGLVSDFQETRLFVNISPTIITQPKPVALSNFEYRYRMVTEDLNNDNVQLRAIKIPKYAKFNPDNGMLRWKPRLTQRGVNNIIIAAIDERGATTSHEFSIHVYDDPSSQQFISSSWPLLLAFVGTMFSVGVATSN;locus_tag=LOCUS_01260;note=WP_010942715.1 sulfurtransferase (Geobacter sulfurreducens PCA) [pid:29.4%25%2C q_cov:17.4%25%2C s_cov:12.6%25%2C Eval:5.4e-16%2C partial hit],MGA_127
sequence01	MetaGeneAnnotator	CDS	133064	134071	.	-	0	ID=MGA_128;product=tetraacyldisaccharide 4'-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67572;translation=MIGFNRIKLLIFYFLRFFYCLITLIRNFFYDIKLIKIKKFNKPVIGVGNITTGGTGKTPMVIEIAKILIKLNKRPIIISRGYKRRSKGTVIVSDNNNILESVDNSGDEPFLIAKKLKNIPIIVDKNRYRAIQISSQKFNFDVVILDDSFQHRKIFKDLNLVMINYQEKDKNYSLLPVGRLRETYSSLKRADLIMWSKYKKDYETSNFNKRIIKSSREQLFTTIGLKNSFDKKCNILVFCAIGDPQSFINLLHSKKLNIVHKIIFKDHKKLSVKKLYELIELKNKYKADYIVTTEKDWVKLPEVFQKNKVFKFLELEIKFKNNDKDLLISKIKKLI;locus_tag=LOCUS_01270;gene=lpxK;EC_number=2.7.1.130;note=O67572 tetraacyldisaccharide 4'-kinase (Aquifex aeolicus VF5) [pid:34.2%25%2C q_cov:94.0%25%2C s_cov:96.8%25%2C Eval:3.4e-37],MGA_128
sequence01	MetaGeneAnnotator	CDS	134058	134687	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE57;translation=MSFKLRLYSILGYFILKFIFWSNKKEIFGLDNLIKIKSEKRPVMICSWHGRLLFPVFNLNKLNFYALAGLHKDAEIISRICEKLGWKMIRGSSSKGGYKAYKGILNKLSSNSKIYITPDGPKGPIHIIKDGIVEASIKKEALILPISGISSKNWKIKNWDLFLIPKPFGKILNIYGDIIDTKTIKNSQDLKIKITQELNKIEKKTNDWF;locus_tag=LOCUS_01280;note=Q9ZE57 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:31.5%25%2C q_cov:95.2%25%2C s_cov:93.1%25%2C Eval:1.4e-25],MGA_129
sequence01	MetaGeneAnnotator	CDS	134803	135351	.	-	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLVYFVKLPNVSSFRKRTIGNHYYITYKKHRIITPCNLDIKTFSPSNFNIIKDTLGEDHLIVFEKIKNPNKFIQIVDHINKTGHNPLIGNTPFKDKPRFPDISNIYDKKDYGINQTECTSVGFEMYNKLNNINITEYISVVSIVGSYIGWKITGFGFSDKIIKEDLILDECMRFVEYIVKT;locus_tag=LOCUS_01290;note=MGA_130
sequence01	MetaGeneAnnotator	CDS	135348	136037	.	-	0	ID=MGA_131;product=YggS family pyridoxal phosphate enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546351.1;translation=MINANALSRIKEKIYNSILVNNIPNHKVDIIAVTKTFPKEAIVSAFKEEILNIGENKIQEAEFKFPKLPDLPKLKKRLIGHLQSNKVNKAVKLFDAIDTIDSKKIARRLDNSLNRINQTKEVMLQVNTSGDNAKYGFNLTDEENLLEIISYKQLVVRGLMTIGEFTSDERKTRKTFILLRKLKEKLNDQLENEKKLIDLSMGMSSDYDIAVEEGSTQIRLGTALFGSRT;locus_tag=LOCUS_01300;note=WP_012546351.1 YggS family pyridoxal phosphate enzyme (Thermodesulfovibrio yellowstonii DSM 11347) [pid:35.9%25%2C q_cov:99.6%25%2C s_cov:97.5%25%2C Eval:3.6e-33],MGA_131
sequence01	MetaGeneAnnotator	CDS	136034	138532	.	-	0	ID=MGA_132;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KG27;translation=MNDLTSRDMSVNRDIVDEMKDSYINYSMSVIVSRALPDVRDGLKPIHRRILYGMNELGSQWNRPYKKSARIVGDVMGKYHPHGDSSIYDSLVRMAQYFSMRHELVDGQGNFGSVDGDNAAAMRYTEARMTRFGAEMLRDLDKDTVDWQSNFDETLEEPTVLPTVIPNLLVNGSEGIAVGMATKIPPHNLIEIINSTIALIDNPDISIEGLMEFTKGPDFPTGGTIEGLDGISDAYKTGRGKIRVRANAFIETLKGSKSNIVVNEIPYQVNKASLIEKIADLVRSKKIEGIADIRDESDKDGMRIVIETKRDVVPEVILNQLYVNTQMKDTFGVILLALVDGIPRVLNLKEVIKLFVDHRHDVLIRRTNYELKQAEERAHILEGLKIALENIDKIIDVIKGSKDPKQAKEGLINSFDLSEKQSQAILDMRLQRLTGLEVEKVNQEYKEIIQLISRLKGILESHVQQMTIIKNELSEISEKYGEDRKTEIVPVGTTFSVEDMIVDEDVVLTFTHNGYVKRTAASTYRSQRRGGRGLQGAGAKEEDFVENIFVASTHDHILFFSDKGKCYWLKVHEIPPGGRASRGRAIVNMLGTDPGERIKAFVSVKNFDNDHNIIMATKNGKIKKTSLSAYSKPRKGGIYAIKITDGDELIEARITNGENDIILGTREGKSIRFPETDARPQGRNTQGVTGIKLSSKDDYVVGMVVVRREGTILVATEKGFGKRTDVMAFRVQKRAGMGVMAMRTNEKVGKMVAIMEVVDSDDLMVITDRGVLIRQPIEKIRTIGRVTQGVKLIKLDEGAKISSLSRVIHVEEDGELEPNENAGLKNEENDEG;locus_tag=LOCUS_01310;gene=gyrA;EC_number=5.99.1.3;note=Q8KG27 DNA gyrase subunit A (Chlorobium tepidum TLS) [pid:57.5%25%2C q_cov:97.2%25%2C s_cov:98.1%25%2C Eval:1.4e-278],MGA_132
sequence01	MetaGeneAnnotator	CDS	138550	140523	.	-	0	ID=MGA_133;product=DNA gyrase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RMJ2;translation=MSNQSIEYSAEKISVLKGLEAVRKRPAMYIGDVGKRGLHHLISEIVDNSVDEALAGFCDEIKVVFNKDNSVSVEDNGRGIPVDIHKEEKKPALEVVMTVLHAGGKFDKGSYKVSGGLHGVGVSVVNALSSWLEAEIKRDGKKYHQRYEKGDTVSKLKTIGESKSTGSRVTFLPDPEIFNTVEWDYEIIAERLRELAYLNKKLKIAFLDNREGKNGEEKIFRYKGGLSDYVKFLDSSNSAIHEKVITVIKEDNDVPVDVALRYNDGFNENILTFVNNINTIEGGTHLSGFRSALTRSLNSYAIKNKLVKTNKNEKITLSGEDFREGLTAVISVKVAEPQFEGQTKTKLGNGDVKGIVDAVLYEGIQEFLEQNPSIGKRIIEKALLSARSRAAAKKARELIRRKSALEGGSLPGKLADCSSKDPEMCELFLVEGDSAGGSAKQGRDRTFQAILPLRGKVINAEKARIDKLLSNNEIQSIITALGAGFGGNGDSEELEKPSGAEFDLNKLRYNKIIIMTDADIDGSHIRTLLLTFLYRKMPELITNGNVYIAQPPLYKVKQGKKEQYAYNEEEREFISDRYLKNNKNQKIDLQRYKGLGEMNAEQLWTTTMDPETRTLLKVSVESISEASKLFMDLMGSDVEARREFITSHAKFVVNLDV;locus_tag=LOCUS_01320;gene=gyrB;EC_number=5.99.1.3;note=Q2RMJ2 DNA gyrase subunit B (Moorella thermoacetica ATCC 39073) [pid:58.1%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:2.1e-215],MGA_133
sequence01	MetaGeneAnnotator	CDS	140526	140801	.	-	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSLKKVLKKTLKKTGVKEKLKENSTHLIWREVVGEKISQNVETKEIRNGVLFLKAKTPVWRNEIYLIKNNIIGKLNKKLKNNIIKDLRIR;locus_tag=LOCUS_01330;note=MGA_134
sequence01	MetaGeneAnnotator	CDS	140830	141951	.	-	0	ID=MGA_135;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S6M1;translation=MKIRINRNTLLETLQKLSKAAPNRSTIPILNSFLFSTEINNLQIRATDLEITLISSLGVKIEESGSVAIPQKTLIEITSALPETEMVIEVQENNKVVIKTKEGNYNISGSDSKEFPNIPQIDNKKEINIKSKILKKLITKTVFALSKDDTKPSLMGAYMEVLEKQISLVATDGHRLSYFKNNEFFSDGFEGSLIIPKKFLNLIVPLLETQEMTTIWVGDNHITTTFGNITAFSRLIDAQYPDFRAVIPKNNEKIMVGNKEEILSSVKRVGIFSNRETKQIDFTISENKLMVKTEDAESATKAKEMLDVNYKEENITIGFNANYLSDILNHIETKNFVMKLNSPISATLFSSEENEKKEEEQIMLLMPMRTGVT;locus_tag=LOCUS_01340;gene=dnaN;EC_number=2.7.7.7;note=Q2S6M1 DNA polymerase III subunit beta (Salinibacter ruber DSM 13855) [pid:33.8%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:4.2e-63],MGA_135
sequence01	MetaGeneAnnotator	CDS	142282	143559	.	-	0	ID=MGA_136;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAA2;translation=MIKRVLFFLFFLFLVGKSQENLIDGIAAIVGEHVILKSDVAQLTQMTAVQQNLDPRFDVEKLEKLQKSIVTSLINQKIILEIAEEESIVVEDREVEQSVEQYISQSVAQAGSEENLENMLGKNVNELRREWWEEMREQLITEKYQAQFFGSSKITKDEVVVFYNNYKDSLSFIPNSYHTSHIFFKLVPGEKSRSIAYSLADSIRSVVLDGGEFSSLAETFSDDPGSKMNGGELGFVGRGTFVPSFEQAAYNLGIMDISPIVESDFGFHIIQLLGKLGDKINTRHILISPKVSFEDEENIYQHALNIKDSIKTYSDFNVFAKKYSDDIKTKDIGGSLGWINNQDFPNKDLFSIIPGLDINKCSVPINTEEGVHLLFVSDVKSGGIPNLENNWPIIEQMALNQKKINLFNSMIREKSKSYFIKNYIN;locus_tag=LOCUS_01350;gene=surA;EC_number=5.2.1.8;note=Q8KAA2 peptidylprolyl isomerase (Chlorobium tepidum TLS) [pid:33.1%25%2C q_cov:93.9%25%2C s_cov:92.7%25%2C Eval:2.1e-45],MGA_136
sequence01	MetaGeneAnnotator	CDS	143552	144256	.	-	0	ID=MGA_137;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18BM5;translation=MKSKIKAVFFLITIIVFSCNRKADVLSENKKIKNSVLNKNSDLFFFEYKKNIGGEIDSIEEMISLYGKVLYGNVYLENYLKDKVFVSMKEIREYYLNNKFDFIRKNDQLLVLHFTTENVDEAKKVGLALSKKDGDVKLKTMKEYDIIYSKLKKGDLPKTLDNIVFSSFSKSRVVGPIKTDFGYHVVEVVDYLKKGDYLGLDEVYDQISQNIYNYKRASLLGSLIDSLSVEYKND;locus_tag=LOCUS_01360;EC_number=5.2.1.8;note=Q18BM5 peptidylprolyl isomerase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:25.4%25%2C q_cov:85.9%25%2C s_cov:82.1%25%2C Eval:5.5e-08],MGA_137
sequence01	MetaGeneAnnotator	CDS	144246	147368	.	-	0	ID=MGA_138;product=transcription-repair-coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97E98;translation=MVVSRETKMNFSQVLNLVETSLEKVFGVWGLGSGFKNVSAGLLPFLVFLYARKRVSPTLLVCDDHSLRISLFEHINHFYEEKCLSFIKSNRSELVSGSDLHAISFFKKNNDSIMVCSEDSFDFLKANFLGAKIENKSVLLSSLKTRGSLLDLLRSLKMDLSEKVFSPGFYSIRGSVVDFFLFGDKHPIRVEFDGEEIFSARSFNVETQMQVAVLDVGLVKIQLPSEENLNFESNSSVFYKSLLIKKSLNGCFSISSYGKTGGVDNDLKCVNHFGFKKNPTLLKSLVDSKQAEGFNKFLICLNPDFSHKIKSKNFSDFISSNIRLLTSFSSSVLGLFFLKLSDVYDVPEIIKNKDKTSIKSFNNSPNTFKWKSLVVHENLGVGVYKGLSKVKNGSSVVECVALEYKHGDKVHVPLENLHFLDIYIGNRNEKNITDLRKTSWEREKFKARKSAGEIVDSFVEMYGKRTNESGVAFEKDGELYDELKESFKYTETKDQLIAYQEIKRDMENKLPMDRLLCGDVGFGKTEVAIRSALKALNTNKQVVVLAPTTILSNQLFESFKERLSGFGFNLCQLSRFVSKKLVSEHIAEINSGKTDVVVGTHRVLSKDVKIPKLGLIIIDEEHRFGANHKEKLRIFSNNVDVLSMSATPIPRTMQFALLGIRDITTIKTPPVGRLSVITNQLPFDSSTLKHAALYEKERGGQSFFVFNNVKKIEGMVLKLKKLLPNLSIKHAHGQMKPTDLEKIMNEMFLGQIDLLVCTTIIEAGVDLPNVNTIFIYDSHKYGLSQLYQMRGRVGRSPVQAYCYLLTPNVDLSQEAYERLRTLQYNSVLGSGYNIALRDFEMRGGGNLFGTEQSGHLSNVGLNFYNKMIKEKALLLKSGNVNNDAVEKEPIFKISVNGEALIPGDFMENQDDRLFFYRKLSLSSDCKEVDLVDFEVRDRFGLPPTSLRLLFLIKKIRLLSLNTKLLFLKTNEVGVDLLFNLFKKEDIVGLVKRASSFFNDNNIVFSIQNSSTGLTLKIESSSVEKSLSSVVGLLNFLKNEK;locus_tag=LOCUS_01370;gene=mfd;EC_number=3.6.4.-;note=Q97E98 transcription-repair-coupling factor (Clostridium acetobutylicum ATCC 824) [pid:32.8%25%2C q_cov:93.8%25%2C s_cov:83.6%25%2C Eval:8.4e-132],MGA_138
sequence01	MetaGeneAnnotator	CDS	147369	149261	.	-	0	ID=MGA_139;product=tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJL3;translation=MKQKNKMTNSFDLVIVGGGHAGIEASVAASKLGIKTALITMDKNSIGRMSCNPAIGGLAKGHLVREIDALGGIMGHFADISGIQFKMLNRSKGKAVWSPRAQIDKKIYEKHIQNHVKKQKNIEIIQSEAKKLLIKNNSVKGLVLDKKREILCSSVIITCGTFLNGLIHIGERQIKAGRMGEESSDGLTESLISLGFVSGRLKTGTPPRLVKRSIDWSKLDEFYGDPKPRPFSFSSKNFNPPNTACHFATTNLKTKEIINSNLNQSPMFSGQIKGVGPRYCPSIEDKIFRFSDKDSHLLFLEPEWINSDQIYTNGFSTSLPETIQINALRSVKGLENVEFYRPGYAIEYDFFLPSQLKSSLESKNISGLFMAGQINGTSGYEEAAAQGLIAGINASQFINKKDPLVLSRDESYIGVLIDDLVTKDTFEPYRMFTSRAEYRLLIRHTNADIRLSKYGFNLGLIDKKRYKSVVSKRSFFDFFSNEKSKESLSCEKSNILLQNLGESLLTQKTSLENLLKRPSVSLGLLIEKKLVELDIKSFSKTEREDVLDECETLIKYKGYIDRQNKLIDRLKNNEDSKIPNNFDFNSCKSLSLEAREKLSFVKPETLGQASRISGVSPSDVAVLSVLVSTK;locus_tag=LOCUS_01380;gene=mnmG;note=B5YJL3 tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG (Thermodesulfovibrio yellowstonii DSM 11347) [pid:50.6%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:1.2e-172],MGA_139
sequence01	MetaGeneAnnotator	CDS	149270	150331	.	-	0	ID=MGA_140;product=tRNA modification GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67030;translation=MFLGCEPAEPGEFTKRAFLNGKIDLSQAEAVSDLISSESMLSINANYKILRGDFSIKIKKLKKEILNTISLIESELDFSEDEITATTLTQIKSLVVKTINTNKIILKTYKTGKLISDGATIVITGKPNAGKSSLFNSILSEKRALVSNTAGTTRDAVEVRFQIDGIPVNFVDTAGIRKKATGIEKKGIILTKRFLDKADIIINVIDSTQPKEKCLAQLKNSFKNKKVLHVFNKIDIPNKLDFPKHAFNNKETLFLSALTGKGVNDFIKKILSYLKEDEASYNNTLLVNPRHKDSLEKLNKCLTNTLGLCDQNSPTDIIATELRLGLTNLDDILGLTTPEDILNNIFSKFCIGK;locus_tag=LOCUS_01390;gene=mnmE;EC_number=3.6.-.-;note=O67030 tRNA modification GTPase MnmE (Aquifex aeolicus VF5) [pid:39.2%25%2C q_cov:99.2%25%2C s_cov:77.7%25%2C Eval:1.2e-61],MGA_140
sequence01	MetaGeneAnnotator	CDS	150507	150635	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSLRSFFVILRLFGPLILITEIPPRPGGEETDVIVELILN;locus_tag=LOCUS_01400;note=MGA_141
sequence01	MetaGeneAnnotator	CDS	150639	152297	.	-	0	ID=MGA_142;product=membrane protein insertase YidC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KGG2;translation=MAMPYYYRMIGIAPEEENQVISQNDSLVVKQNNMLQTKNEVEQNTKTEERQYFTENTNEETINIETALFNAIISSNSGGSIKSFILKKYSLNDSTLVNLIVTGLNEKNLVLNYSNFQGENISLDHNWKLISNNYGYNTIKIEDNPLELIFQTTINNSSVNKKIIVYPDKYFIDVDIDFQSLSNSISQQRVNLSWKGGVPMTEPNPKDEGTFYASNISQGNEINKHNKKKDLFLTGATDWVSTRSKYFTTAIIPKSPSNYGEIKSFNDQRIYSNIDNSKLFIDGNVPIYQTSLGFDSNNLIKTTLYLGPLQYDNLKEFNVGLENTMSFGIAPIRGIGRAVLSLLTFLYKYIPNYGLVLIVFSILVKLLVYPLTKKSYQSMKAMTSIQPEVQKLRDKYKNDPQRVSQETLKLYKTHGVNPLGGCLPMLLQMPLLFALFIVFRSTIELRGAPFAFWIDDLSRPDALIGLPFFIPFYGDQISILPFVMGLSMFVQQKMSTVSANPQQKMMTQFMSVFMIVLFNQFPSGLNLYYTLFNILTIFQQRFINRDVPNGPG;locus_tag=LOCUS_01410;gene=yidC;note=Q8KGG2 membrane protein insertase YidC (Chlorobium tepidum TLS) [pid:32.7%25%2C q_cov:88.6%25%2C s_cov:82.4%25%2C Eval:1.7e-69],MGA_142
sequence01	MetaGeneAnnotator	CDS	152929	154299	.	+	0	ID=MGA_143;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HQ03;translation=MDNLKVKPSELWNNLTSNIKTLISEQAYATWFEPIKPVALENESITLEVPSKFYYEWIDSHYGSMLLKKLKELTGENVKIRYSVVVGEPKINSNIVKTKTENDELINSSNDYYDSGSKLNKRYTFDNFVEGANNQLAKAASVSVAQALGETSFNPLLIYGGVGLGKTHLIQAVGNQVIKDKESARVHYTTSEKFTLDFISAIQKNNSSKFSEKYRNADLLLVDDIQFLQKKEQTQEQFFHTFNDLYQRGKQIILTTDRHPSELNGLKDRLLSRFQSGLIVDIQAPSLETRMAILQKKAEDDGLSIPFEITELIATNVRGNIREMEGALIKLLAYSSLSHSDINMPLAKKALHETLGRSQTKKLTIDDVIQSVSDVMEISEKKIIGRSRKMEVVSARQVAMYLSREIVGASLENIGLHFGGRDHSTVIHACKSIKLRMKNKPDFKEQMKSIRTKVEL;locus_tag=LOCUS_01420;gene=dnaA;note=Q6HQ03 chromosomal replication initiator protein DnaA ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:44.4%25%2C q_cov:96.9%25%2C s_cov:98.0%25%2C Eval:1.1e-103],MGA_143
sequence01	MetaGeneAnnotator	CDS	154329	154790	.	+	0	ID=MGA_144;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250006.1;translation=MIKIGKKIKFNILLDKNAKKISFKQKRNKIIFCFPRANTSGCNLEAQEFQTLMPVFDKQNYDIYGLCSDSPKKIKLMSEKCNILYDLLSDENQDFLKFLGVIGIKKMYGKEYEGIIRSTIVCNEENIITHVFDKVSPKGHAEKVAEAIGIKIK;locus_tag=LOCUS_01430;note=WP_011250006.1 peroxiredoxin (Thermococcus kodakarensis KOD1) [pid:41.0%25%2C q_cov:88.9%25%2C s_cov:90.3%25%2C Eval:5.2e-21],MGA_144
sequence01	MetaGeneAnnotator	CDS	154803	156086	.	+	0	ID=MGA_145;product=protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404380.1;translation=MYKNFDKIKQSKDIIEYKHSRNDLSVLLSENHNSPLITFMITYHVGSRNEGIGYTGSTHLLEHLMFKGSKKFNKKNKNAIWDVLQNIGALLNATTWFDRTNYFELVPSEHIEKAIEIEADRMRNAFIREEDKKSEMTVVRNEFERGENDPLEALDKNIWATAYQAHPYHHSTIGWRTDIENVSIDRLKNFYDTFYWPNNATVTVIGDFKTDKILSLIDKHFGKINKSPHKIPLMYTQEPIQEGPRRLQIKRSGELPIIGIAHKTPNGLNNDTYGLYILDRILSYGKSSRFYKKFLDTGKAVDVSISYYPLLDNGLFIAYLFAPKNENIKSFEDEILEEYELIKKNGVSQKELDRVKSQIFSQTTYTRDGSYPVASNLNEAIAIGDWTFYTTFLEKINKVKKQDIQKIANKYLFEDNSTTGFFLPKSI;locus_tag=LOCUS_01440;note=WP_011404380.1 protease (Salinibacter ruber DSM 13855) [pid:44.2%25%2C q_cov:97.9%25%2C s_cov:88.0%25%2C Eval:1.8e-108],MGA_145
sequence01	MetaGeneAnnotator	CDS	156096	157364	.	+	0	ID=MGA_146;product=peptidase M16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404379.1;translation=MQISNKIIHSTPINGLNFYSFNSSVKGFVSFKGSFLGGKLCNIKNKLIPEILVEMLDKGTKNKDKFKIASILENVGAKISFTQGKYRVYFTGQCLTKDILLIFDLIAEQLIQPLVNEKDLQSVKKRNIAELLNLKSDTRSQGMINFLQKLYPKNHPNRPFGIDEEIKQIEKIKTEDLIMFHNQFYGLGNMEICMVGDLDHNEVDKNLSKVFKSWKISPLNKEMMVSNLKSKDLSGKSSVVYIPDKSSADLILGHGIGIDNNHKDYLNLMVGHFILGGNFSSRLMSTIREKEGLTYGIQSSISGVDNGNDGYWNIWGTFSPSDINKAKKLIFQQLELWSEKGVTKKELENKKTTICGMYKVSFDRTLGIVSRMIDTLHKNKPLAFIDEYPNIINDIKLSDVNNVIKKYYSRKKCITITSGTLK;locus_tag=LOCUS_01450;note=WP_011404379.1 peptidase M16 (Salinibacter ruber DSM 13855) [pid:29.6%25%2C q_cov:87.9%25%2C s_cov:93.6%25%2C Eval:6.2e-50],MGA_146
sequence01	MetaGeneAnnotator	CDS	157369	157818	.	+	0	ID=MGA_147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIILIVATTLDGKISKNTQSYVDWSFDLPLFKKQTINNTIIVGSTTFLTLKRPLLNRKIIILNKKMNLGKVLSKVTTSNCFIIGGTKTYSLFLKYITDIYLTPHPFFFGTEAKPLFEGIYFNRKIVFKKKILAHKQKQIYQFQYKVHD;locus_tag=LOCUS_01460;note=MGA_147
sequence01	MetaGeneAnnotator	CDS	157811	158425	.	+	0	ID=MGA_148;product=phospholipase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963235.1;translation=MIELKLNKNNNDMAIIAFHGYGSNPYNMIELLKVLNIEKADCFFPAGNISPFPNDDLSKAWFSIPFTSNLIDEIAISRKIILTKLKSIIESYKKIVLLGFSQGAMISLDIMMNLSKPVSGVISLSGLNVSIDDKIKIEEEYKKIPIFVGHGINDEIIDIKSAKTSFEFISKRGFNLEWNEYNMKHEVIDKELEDIRNFIERLII;locus_tag=LOCUS_01470;note=WP_011963235.1 phospholipase (Flavobacterium psychrophilum JIP02/86) [pid:22.9%25%2C q_cov:98.0%25%2C s_cov:95.3%25%2C Eval:4.7e-15],MGA_148
sequence01	MetaGeneAnnotator	CDS	158418	159512	.	-	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIGITTVLLFLLIYYFVQSTSSEQKIDLNLYSEYVPNKSHVATSIDLDVPIDVIWKYITDLSNYHLWFPWVYSLKVTNNNVTSYTKKHSLLEYDMKVGSYFKIQPFFGLPALNCRFLRLDNQKNLTLEMGFFPFNKEIVNFNLVPYKNCVELNYSSRSNGLFSFITIPMFAWLGKDILNNLKKSLPNIKIEINDESSEEVLLSINEYIKRASDGDSQLINSIPDRSLRAKVKGALLSISTSEYVQKAVDGDKNVIEGIADIKLKTKVKAALIKAKRTGVVIPNFDDDSGSKEVDGKLTKSTKQESTVETPKSEVQKNNNQNEMSVEEYIQKALSGDEEIVNSIENRVLRAKVKAGIVKAKRSK;locus_tag=LOCUS_01480;note=MGA_149
sequence01	MetaGeneAnnotator	CDS	159650	160165	.	+	0	ID=MGA_150;product=flavodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NNV1;translation=MAKIGMFWGSNNGNQEEAAGFLKDYLIEEGCEIDEFNIASTDPKKMLEYEKLIIGCPTWNVGELQDDWDSIFSSYKELDFSGKTAAFFGCGDQVGYSDNFLDAIGLLAKPFMEKGGTLIGRWPTDGYEFDESLALDNGEFLGLGLDNDNQEDETEERLLIWAELIREEFGI;locus_tag=LOCUS_01490;gene=isiB;note=Q7NNV1 flavodoxin (Gloeobacter violaceus PCC 7421) [pid:46.7%25%2C q_cov:98.8%25%2C s_cov:98.2%25%2C Eval:9.7e-44],MGA_150
sequence01	MetaGeneAnnotator	CDS	160196	162064	.	+	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKLYWLAIFVSLYWAYCLFWGIKGAKSSKTSEDYFLAGRNIGLWVFVLAATATSFSGWTFVGHPGKIFTDGLPYAFASFYALTIPFTGVLFIRRQWILGKAYKYITPGEMYSDYYGGNAIRLLTVLVAFLFSVPYLGVQLRASGDLFNVLTDGLIPVNFGMIALSTVVVIYVASGGLRSVAYVDSAQCILLAVGICVIGITTIYFIGGWNNFIMGFHEIVNKDLINKNNLTPSGHSSLVAIPGSIQMVSSGSKSIGGSWTGMMCLTYMFALMGIQASPAFSMWAFSNKNSNAFRWQQVVASSLIIGIILFTFTIIQGIGGQVLILNNIIDNVNDKNLVPKLINLLSFSFPWLVGLLAVCALAAMQSTGSAYMSTFSAMVTKDIYLKFFKPNASDKTQKNGGRLIVILVAILAIFVAANTSSAIVMLGGLAVAYGFQMYPALLGLCYFKWFSTKGIVWGLISGLIAVTLTDKTSVWFGLPWGSYPLTIHSAGWGIFVNLVVTITISFFIKDNKNRQKIKYNRHEFLSKVSVLSNNKKKLIPLAWILTVIWFLVGFGPFATIGNTFFSNPNETVTWNPFGIPSIWVWQLLFLAYGIFVMWFLAFYMELSKPVKQETIEKYIN;locus_tag=LOCUS_01500;note=WP_010903305.1 sodium:solute symporter (Halobacterium salinarum NRC-1) [pid:23.1%25%2C q_cov:69.8%25%2C s_cov:82.8%25%2C Eval:8.1e-23%2C partial hit],MGA_151
sequence01	MetaGeneAnnotator	CDS	162057	163040	.	-	0	ID=MGA_152;product=tRNA-dihydrouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q181F5;translation=MQIGNLKLSSPIFLAPMAGVTDYACRILSKKMGAGLVYSEFVSADGIIRENQKSFDLIKFYPEERPIGIQIFGNSADVMSKAARMIYDKFKPDIIDINYGCPVPKVTKRGAGSAALKDLCIMDEITSAVVSEVPEIPVTVKMRAGWNDQKIVIPEAGQRLEKLGVKAITLHPRTTVQSYSGKANWQLIKELKKAVTIPVIGNGDVDHPEKILKMFNQTNCDAIMIGRGALGNPWFFQEANAILNNQKLPNQCSINDRIKMCDEHFKLILSDRGEIWGMNLMRKHFGWYIKGFPEASLFREKLVRATSIKEMRMELDRLIKLSESLSN;locus_tag=LOCUS_01510;gene=dusB;EC_number=1.3.1.-;note=Q181F5 tRNA-dihydrouridine synthase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:39.9%25%2C q_cov:96.6%25%2C s_cov:97.5%25%2C Eval:3.8e-70],MGA_152
sequence01	MetaGeneAnnotator	CDS	163112	163627	.	+	0	ID=MGA_153;product=superoxide dismutase [Cu-Zn];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8PDZ3;translation=MKSLYYLSIFIFLLSCNSTQNDYQKAVAVIQPGNDSNVRGSVVFKQDKKNVIVTVSVSGLNSSSFHGFHIHEFGDISSLDGKSAGGHYNPEGHPHGLPPEKKRHAGSFGNLISDLNGNVDTTFIDDTFSISGDFNPVIGRAVVIHAKRDDGGQPTGNAGARIGFGVIGIAK;locus_tag=LOCUS_01520;gene=sodC2;EC_number=1.15.1.1;note=Q8PDZ3 superoxide dismutase [Cu-Zn] (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:42.1%25%2C q_cov:83.0%25%2C s_cov:87.9%25%2C Eval:5.0e-24],MGA_153
sequence01	MetaGeneAnnotator	CDS	163639	164301	.	+	0	ID=MGA_154;product=DUF5020 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005790377.1;translation=MLKKIVFILSFLSLSNNIKSQNLQLHYDFLEDENYFTSTLEMFRVNDKGATFWFVDFDYLSDTKGSASSGYMEFAKYFNLGNSNKYTFTLQFNDGVAYWGNLGQAYLAGPTFNLSLGNFSLSTELLYMYKQKNDPNGQLTFVFYMPLLNGKAELTGFADIWTIDKENSNSKDVVFMSQPQFWYLLSEKISIGGEMRITNNFYPVNGWKYTATFGLKWNME;locus_tag=LOCUS_01530;note=WP_005790377.1 DUF5020 domain-containing protein (Bacteroides fragilis YCH46) [pid:32.9%25%2C q_cov:97.3%25%2C s_cov:96.6%25%2C Eval:1.6e-27],MGA_154
sequence01	MetaGeneAnnotator	CDS	164302	164829	.	-	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLITFFILFSSLGAYGFFLLSQNYPLAIVSITLGFILWLILMGVFKSRISGLHFILILFGIFVSLAFFIGYAIEQDMWGGYHFNTEISLLSIGLMLLLILPGVYLFYKNSNEPVLIAPTDKSGVFSNENSINQNLNDFQNNNNFQNEFENSMMEYDPELLNSYYQYYYGENDK;locus_tag=LOCUS_01540;note=MGA_155
sequence01	MetaGeneAnnotator	CDS	164940	165929	.	+	0	ID=MGA_156;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964014.1;translation=MKKRELSIGVVGVGHLGKRHLENVIKSDMVRCSGFYEIDKEKSKKIINENGIKSHASLDALLKESDAIIIAVPTTEHFKIAKECLNKRKNIFIEKPICKTLKEADALIKLSDENNCFIQVGHIERLNPAIFTLKKEKIKLNPRYIEIQRLAPFNSRGTDVPVVLDLMIHDLDILLSLIDSTVEKIDATGISIMTNSIDIANARIKFKNGCVANITSSRIAQDYVRKLKVFEKNRYITVDFLKGLTEIYKVLDLEEKIKSNSITTPFIRNGKEKRIVYEKPHQNKFDALEMELENFIESNKKISKPIVSGKDGREALNLAITIQKKIEED;locus_tag=LOCUS_01550;note=WP_011964014.1 oxidoreductase (Flavobacterium psychrophilum JIP02/86) [pid:41.2%25%2C q_cov:98.2%25%2C s_cov:99.7%25%2C Eval:1.2e-60],MGA_156
sequence01	MetaGeneAnnotator	CDS	165934	166518	.	+	0	ID=MGA_157;product=lipid A Kdo2 1-phosphate O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001173879.1;translation=MDIRNFIFKNRGVIPVPIVLYLIFSSNPGINFYSFLGFVLILLGESLRINSVRYAGGKTRSVHLKSSDLATNGPYAYVRNPIYIGNTIIWCGAVLLSNAPFLLPTVFFIFFFFCLEYNVIISLEEEYLSKEYGNQYIKYKKNVPKLIPRFSKWDGGENFYKNNLVDTIKIEKSTLQGLGLFFLIIIMKSIYFIN;locus_tag=LOCUS_01560;gene=ste14;note=WP_001173879.1 lipid A Kdo2 1-phosphate O-methyltransferase (Leptospira interrogans serovar Lai str. 56601) [pid:29.0%25%2C q_cov:96.9%25%2C s_cov:78.0%25%2C Eval:2.1e-14],MGA_157
sequence01	MetaGeneAnnotator	CDS	166518	167630	.	+	0	ID=MGA_158;product=lipid-A-disaccharide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q83DS5;translation=MKEKNILIIAGETSADIHGANLVLALKLMDDDLRFFGIGGNRLKESGVEIIQDNKQMSIVGFVEVLKYYFFFKNIFNKIVNFCKNKKPIRAILIDYPGFNLRLAKELKKLNIPITYYISPQVWAWKENRVKIIKDCVDQMLCIFPFEEEWYKLRGIKAKYVGHPFSTIKIVNNKSKLDFHKKHKINPSSKIVALMPGSRQEEVNRHLDIMIESVKKIHKNNNLVPIIGLAPNINLPKIETDIIKIEVDNPIDVLKNSDVAILSSGTISLEAGLYGIPSIVIYKMNLISWLIAKNLAKVKFVSMTNILLEKEIFKEFLQNEINTKTISEQILKLLNNNRNEILNNLSELKTIIGKKKPAFEAAKMILGEIN;locus_tag=LOCUS_01570;gene=lpxB;EC_number=2.4.1.182;note=Q83DS5 lipid-A-disaccharide synthase (Coxiella burnetii RSA 493) [pid:33.8%25%2C q_cov:95.7%25%2C s_cov:92.8%25%2C Eval:2.8e-59],MGA_158
sequence01	MetaGeneAnnotator	CDS	167824	170091	.	+	0	ID=MGA_159;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011402954.1;translation=MSSGTLEVVVSIIGYEMITTQVSISEQENKRLDFRLTPIILEGESIDVFGEIQKIRDLVEPSRISLDLRTLETAPAFVESDLFRTVQMLPGVQTLNDFSSALYVRGSTPDQNLVMMDGVTIYNPYHFGGIFSTFNTDAITEADFHAGGFPSKFGGRMGSIIDIINKEGNTENFQGVANISALSSKVLLEGPIPSSLIKGSWMIAGRRTYFDKIINFFINRSAEGRDSGFEFPYYFYDYQIKINIDVSQDHRLTYSRFYGDDVLKLSTNDKKEYYDVELDYYESMQDNFSIEWPWGNRTQSFTWRWLINPKLVAKTVLANSYYRFTFNTIFESFGDWTSGQYLFGDYRDYFSFNFYDTIDDNTFETEFSWHSSSKHKLSSGLQIKKVKYNLGMDIEYSTLDTSFFWNPLKMKDITQETSLFIQDKWNFSSKILFQIGSRFSHYSLHDKIYFDPRFGMKYLISNNLSFKIALGRYHQFLTIANPEDETFRIVDFWLGLPKDKKAMFSDHVILGAEYLSIDNWLFRVETYYKHFENLLTLQQGSIITTNSNDESDNQTTFSPFNEFYDTKGFAHGLELLFKKTSGKIKGWVGYTFANTKRHIDKHGWFNPKFDRRHTLNIVGDISVPIIKKTYLSIAVQASSGQPYTPPLGTYEQWQTSNSAYYTNWWSNQQYIVGNKNSRRLDSYFRLDIGLKQEKVIFGKPYERFIQVINATNHVNPLTYQYRTKTNQLTNETMGLERAAIPMFPLMITFGWRIEF;locus_tag=LOCUS_01580;note=WP_011402954.1 TonB-dependent receptor (Salinibacter ruber DSM 13855) [pid:28.9%25%2C q_cov:98.9%25%2C s_cov:90.7%25%2C Eval:3.1e-80],MGA_159
sequence01	MetaGeneAnnotator	CDS	170091	171026	.	+	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKLYIFLLFTSCNIVPPTISWEDLNEDYEPQLNILGVITSSTNDSLNTSFIKVHRSLKVDEARDSLIRYIDENEESRVVYESRYIVKDAEVILSNSDKDYKFNFYEEKYIGSDSILYKNSYFYDGFDFVPKPEELWDLTVSTSSGLLATGKTIIPPNPIIYTENLPDTFNIIENIFFEWLPMKENNQILNISNFLSYTGLSFFYGIDEEDTCGFTKEFLIKDEVKIEYDLGSCKYLLNDEWPNDDFLMINLMSLDSNYYNYFIDENNQDNEFSNLIIGEGGVPKAYGLQNAIGVFGSIAFDKHYIKIR;locus_tag=LOCUS_01590;note=MGA_160
sequence01	MetaGeneAnnotator	CDS	171029	172594	.	-	0	ID=MGA_161;product=citramalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932299.1;translation=MIEIFDTTLRDGSQAEGVNLSVNDKLKIAKYLDDFGVDFIEGGWPGSNPKDEEFFKKAKNITFQNSKLCAFGATSLNISNIKSDTNLNALLAAETPVVCIFGKAWRFHAENALGLTDEQNKELIYQSIEFLKSEGRFVIFDAEHFFDGYKDDPSFSLSMLNSAKNAGADILVLCDTNGGCLPNEIGNITKKVKKIINTKLGIHAHNDSGLGVANSLAAVDNGAEHIQGTMNGVGERCGNANLASIIPNLIIKMNKQTNSNIDLTKLTTLCSKIYENMNLIPNSRAPFIGKSAFAHKGGIHVSAVLKDSTMYEHINPSLVGSSQRVLVSDLSGKSNIKYKLEELGIKNENLISKEMNKNIVSKIKELEHDGLQFEGAEGSFELLVRKFTGEFKPFFERIDSKVIISSSDNLNSKSEAILKIKVNDNIEHTASEGVGPVHALNMALKKALLNFYPQIKDLKLIDYKVRVLNTNEGSISKVRVLVESKFKDISWTCVGLSDNIIEASWQAISDSLNYVLFKINN;locus_tag=LOCUS_01600;gene=leuA-1;note=WP_010932299.1 citramalate synthase (Chlorobium tepidum TLS) [pid:55.3%25%2C q_cov:99.2%25%2C s_cov:96.4%25%2C Eval:3.9e-169],MGA_161
sequence01	MetaGeneAnnotator	CDS	172591	173247	.	-	0	ID=MGA_162;product=3-isopropylmalate dehydratase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5F8T3;translation=MEKFISHSGIVAPIDIPNVDTDAIIPKQFLKSIYRTGFGDYLFDEWRYLDQGQPGMDCKNRPLNEDFVLNQKRYKKSTILLTRENFGCGSSREHAPWALNQYGFRVLISSSFADIFYNNCFKNAMLPIVLKNKIIDNLFKLVSENQGFSLDVNLSDQIILLPNKKSIEFDIDASLKSNLLEGLDEIGTTLKIFDKIKTYEVNRMKNSPWLFNRPKLKK;locus_tag=LOCUS_01610;gene=leuD;EC_number=4.2.1.33;note=Q5F8T3 3-isopropylmalate dehydratase small subunit (Neisseria gonorrhoeae FA 1090) [pid:60.4%25%2C q_cov:97.2%25%2C s_cov:99.5%25%2C Eval:5.2e-71],MGA_162
sequence01	MetaGeneAnnotator	CDS	173251	174657	.	-	0	ID=MGA_163;product=3-isopropylmalate dehydratase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0C6P0Y9;translation=MIKQTLYEKIWNDHVVHSYDNGTDLLYIDMQLLHEVTSPQAFEGVKINKRNLWRKESHLAVPDHNVSTKNRSKATDPLSALQIKTLDDNCDDFGITEFPLNDLRQGIVHVIGPEQGATLPGMTIVCGDSHTSTHGAFGVLAFGIGTSEVEHVLSTQCLVQKKTKTLLIDINGKLKKGVTPKDLILYIIGEIGTNGGTGFAIEYAGETIRSLSMEGRMTLCNMTIEAGARAGLIGVDDKTLNYIYNRPLAPKNKMWDLAVNKWKTLQTEEGAIFDKTVSIDASKIEPQVTWGTSPEMVASINSVVPDPDLEEDGVKRFSMKRALEYMGLKPGTRIKDIKVEKIFLGSCTNSRIEDLTAAAKILKGKKISSNIKQAIVVPGSGLVKKEAESLGLDKIFKDAGFEWRNAGCSMCLAMNDDRLNPRERCASTSNRNFEGRQGYLGRSHLVSPIMVASAAIEGKFVDVRKYLD;locus_tag=LOCUS_01620;gene=leuC;EC_number=4.2.1.33;note=A0A0C6P0Y9 3-isopropylmalate dehydratase large subunit (Bordetella bronchiseptica 253) [pid:65.5%25%2C q_cov:98.9%25%2C s_cov:97.3%25%2C Eval:3.0e-181],MGA_163
sequence01	MetaGeneAnnotator	CDS	174680	176233	.	-	0	ID=MGA_164;product=2-isopropylmalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RG97;translation=MKNNKILIFDTTLRDGEQSPGASLNVYEKLEIAKQLEKLNVDIIEAGFPVSSKVQFEGVKRVAGEINVKIASLARAIENDIQKAYDAVKDAKDFRIHTFLGTSDVHLKGKFSNNKYGTSLKNKRNTILKMGIDAVAFARSLCDDVEFSPEDAGRTEINFLCEIIEAAIEAGATTINIPDTTGYTLPQEFGEKIYQIIKRVPNINKAIISTHCHNDLGLAVANSLEGIKNGARQIECTINGIGERAGNASLEEIVMTLNVRKDLLNFHTDIKTEEIYKTSTMVSSHTGMIVQPNKAIVGENAFAHESGIHQDGFLKLRETYEIMTPESVGKSTSKIVLGRHSGRHGLQARLEELGYKINANSVDKIYNDFVELADKKKEIFDDDLRIMMGDANFKELKNYHLDYLNVVLGTNTIPTATIVIIHKDKKLEESATGDGPVDACFNAIDKALNTKANIESYQVRSVTIGRQAQGEVLVRIKKDNQSFIGKGFSTDIIEASAKAYLSALDEQFRTLDKSVFL;locus_tag=LOCUS_01630;gene=leuA;EC_number=2.3.3.13;note=Q2RG97 2-isopropylmalate synthase (Moorella thermoacetica ATCC 39073) [pid:54.1%25%2C q_cov:97.1%25%2C s_cov:95.6%25%2C Eval:1.0e-145],MGA_164
sequence01	MetaGeneAnnotator	CDS	176223	177224	.	-	0	ID=MGA_165;product=3-isopropylmalate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P59028;translation=MKNSFKIISLPGDGIGPEIMNSAVNVLELVAKKFQFSFELSECLFGGISIDKYGIPLTDQTINACKNSDAILLGAVGGPKWDSLSHDIKPEAGLLKIRKELELFTNLRPAINTNNGLDIMILRELTSGIYFGQPRGYKNDKAWNTLLYTKKEVERIAHVGFKLAQKRNKKLTSVHKSNVLESSQLWKDVVHDISKDYVDVIVEDMYVDNAAMQLVQNPFQFDVILTQNLFGDILSDLSATLCGHIGLLPSASIGENIGLYEPVHGSAPDIAGKDLANPVGMILSLGMMFEHSFELLEAKEYIFNKTYEYMKRLNDEDFTIKKINSFCDFLNEE;locus_tag=LOCUS_01640;gene=leuB;EC_number=1.1.1.85;note=P59028 3-isopropylmalate dehydrogenase (Chlorobium tepidum TLS) [pid:56.9%25%2C q_cov:89.8%25%2C s_cov:88.9%25%2C Eval:2.6e-98],MGA_165
sequence01	MetaGeneAnnotator	CDS	177233	178231	.	-	0	ID=MGA_166;product=ketol-acid reductoisomerase (NADP(+));inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KER7;translation=MIKTYYEDDADINYLKDKKIAVIGYGSQGHAHALNLKDSGLNVCVGLRENSSSIKNAKEDGLDVKSTSDAASWANVIMILVPDQIQKKVFENEIKPYLNQGDTLAFAHGFNIHFNQITPEASINVMMIAPKSPGHLVRRSFEKGSGVPCLFAIHQDPSGTTKNLALAWAKGLGGTKAGVIETNFKDETETDLFGEQAVLCGGSAELVKAGFETLVEAGYAPELAYFECMHELKLIVDLYYEGGLSRMNFSVSDTAEYGGMSRGPKIINNDTKIAMKKILSDIQDGSFAKEWLKENESGQPVMNKLRNETKEHLIEKVGSKLRKMMKWLPAEK;locus_tag=LOCUS_01650;gene=ilvC;EC_number=1.1.1.86;note=Q8KER7 ketol-acid reductoisomerase (NADP(+)) (Chlorobium tepidum TLS) [pid:69.1%25%2C q_cov:97.6%25%2C s_cov:98.2%25%2C Eval:3.2e-133],MGA_166
sequence01	MetaGeneAnnotator	CDS	178252	178710	.	-	0	ID=MGA_167;product=acetolactate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003095069.1;translation=MKQTYVALVENSPGVLNRVVNNFRRRSINVESLSVAPCEKEGVSRITLVANNINEDRKNLFVHVLNNLVNVIKADVVSGDSHITREIMIIKIDINEKNKINQILNENIRIVKSKSSKILIEVIGSSEELDDFLEKNSNLKVLEIVRSGKVAL;locus_tag=LOCUS_01660;gene=ilvH;EC_number=2.2.1.6;note=WP_003095069.1 acetolactate synthase small subunit (Pseudomonas aeruginosa PAO1) [pid:31.8%25%2C q_cov:97.4%25%2C s_cov:92.0%25%2C Eval:8.7e-13],MGA_167
sequence01	MetaGeneAnnotator	CDS	178711	180456	.	-	0	ID=MGA_168;product=acetolactate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023692.1;translation=MHNNKIITGAEIIWESLIKEGVDVIFGYPGGAILPAYDALTKYSDKIHHVLVRHEQGATHMADGYARANGKVGVAMATSGPGATNMVTGLATAMLDSSPIVCITGQVPLSVIGTDAFQEIDVTGITLPITKHSYLVTDVNEIAETIKNAFHIARSGRPGPVVVDIPKDIQNAKATFTYPKKIKALPGLLPKENPSQTEINEAAELINNSKKPVILAGHGVLLSGATKELINFAEKGKIPVSPTLLGIGGFPGSHILNMGWMGMHGNASANNAIQNADLLIACGMRFDDRVTGKLDTYSPNSKKIHIDIDSSELNKNVKVNVGIHGDLKNVLQKLINNINQTNRSSWFNQIQKWQSEVENLEIINKSTDVYIAAQAIKNIWQGTEGNAVVISDVGQHQMLEAQYYEHNEPRTLITSGGLGTMGFALPAGIGAYFAQKEKEIWVVVGDGGIQMTLMELATAVQENININIAIINNGYLGMVRQWQQLFYDSRYSETPIYSPDYVKLAEAYRLPGYRVFSEKEAQSAIQDARKVKGPSLIEFVVDQHDMVYPMVPAGANLDAMIRRPEKINNSNEKSITLEKQT;locus_tag=LOCUS_01670;gene=ilvB;EC_number=2.2.1.6;note=WP_011023692.1 acetolactate synthase (Methanosarcina acetivorans C2A) [pid:50.9%25%2C q_cov:95.5%25%2C s_cov:97.7%25%2C Eval:1.3e-155],MGA_168
sequence01	MetaGeneAnnotator	CDS	180467	182146	.	-	0	ID=MGA_169;product=dihydroxy-acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KER4;translation=MRSDQIKKGIEHAPHRSLLKATGVIQSEDDFKKPFIGIANSYIDLIPGHVHLDELGAIAKQSIREAGGVPFEFNTIGVDDGIAMGHIGMRYSLPSRELITDSVESVVEAHRLDGVVCIANCDKIVPGMLMAMVRMNVPAIFVSGGPMKAGIRPSGEKVDLVSVFEGVGKYQAGKIDEKELKEIEDLSCPTCGSCSGMFTANSMNCLAEALGIAFPGNGSILAVDNRRRDLIKSASKEILNLVKKDLKPRDIINKNSILNAFALDMAMGGSTNTVLHTLAIANEAEIKFDLDELNTLSKKTPYLCKVSPATQNVHMEDVELAGGVSAILNELSKTKNLLDLDRPTVTGKTLGQNIKNAKIKNKTVIRQVNDPFSKTGGLSVLFGNLAPKGAIVKTAAVNSKLLKFSGPAKIYESQDEALTGILNKEIEPGCVVVIRYEGPKGGPGMPEMLAPTSTIMGLGLGDKVALITDGRFSGGTRGACVGHISPEAAEKGPIAAIQNGDLITIDIPNNSIQVNLSDKEIKNRLDKLPKFKQNIKSSYLRRYSKLVTSANTGAILKSN;locus_tag=LOCUS_01680;gene=ilvD;EC_number=4.2.1.9;note=Q8KER4 dihydroxy-acid dehydratase (Chlorobium tepidum TLS) [pid:67.8%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:3.1e-228],MGA_169
sequence01	MetaGeneAnnotator	CDS	182558	184327	.	+	0	ID=MGA_170;product=long-chain-fatty-acid--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011729678.1;translation=MTTPQKLIRNNEKYPDEIAISYLSHGQWNSMTWSGFYNYTLRIAKSLSSLGFKPNDKISIYSYNRLEWYASYLAAQLNRGVAVGVYHTSSPEEIDWIINNSDSKFVFVGHNPLDDNDIEKMPYYRFMKIIDKLNKVEKVVLMENIPKLDHLKISSWENFLDYGLNVDDNDIINNLNLSTLEETASIIYTSGTTGNPKGVELTHGNWSFEVESPDKAFLFQQGEKYISWLPLAHSLGQFVDIHYWIDKAMHLYIAESPLTLVDSAKEIQPHLFTSVPRLYEKIYSNVKSQLDSKPILKVLLKIPIISNLIQKKIKTAIGMSRCRYALTGAAPINQEILILFQSLNIPLFEGYGMTEDSAGASINYFEKNKIGTVGPALPGTEIKILSDGEIVIKGPHVMKGYYNNPEATKEVLKDGWLHTGDVGKIDEDGFLTIIGRKKEIYVTSGGKNIAPLNIEESMKSISLISQCFLVGDGRNFCSALFTLDPSVILRDKLNIEIDEIPKNPSQQINKLKELGHSLEEYTQSDEIKEEIQIAVNLINETFSSPEQVKKFEILPRDFSVDEKELTPTLKLRRKHILKNWKMVIDKIYE;locus_tag=LOCUS_01690;note=WP_011729678.1 long-chain-fatty-acid--CoA ligase (Mycobacterium smegmatis str. MC2 155) [pid:32.2%25%2C q_cov:97.5%25%2C s_cov:95.0%25%2C Eval:8.5e-83],MGA_170
sequence01	MetaGeneAnnotator	CDS	184367	184816	.	-	0	ID=MGA_171;product=heat-shock protein Hsp20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546164.1;translation=MSLVKWSPIRTFSNKYVDDNPYFQMDNLINYIFNDRFIDDNSSLNWNPNVDIFNNDKEYEINIETPGMKKNDFKINLTNQVLHVSGEKKSKNSSKNYIESKHGVFYKKFKLDEDILAKNIKASYVQGILKITIPKSKSSKIKNIEIEVK;locus_tag=LOCUS_01700;note=WP_012546164.1 heat-shock protein Hsp20 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:27.5%25%2C q_cov:85.2%25%2C s_cov:85.2%25%2C Eval:7.9e-08],MGA_171
sequence01	MetaGeneAnnotator	CDS	185070	186083	.	+	0	ID=MGA_172;product=galactitol-1-phosphate 5-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003384594.1;translation=MKKVLIDGPYSTKIQQVDKPKALKDWALVKIHSAPICTEYKFFTEGTMPDYPLGHEASGEVVELCDDSSLNIGDRVVVMPQYPCGKCNLCQSGEYIHCLDTFDIESFTGISEGGSTLAEYIVKPSWLLPKIPHELTYDQASMICCGLGPTYGAIDRLDLSQNDTVLIAGMGPVGLGGIINIKDFGAKVIVTGHNEYRNNLAKNLGADLIINPKNDNALKLIKEFTNGLGVDKAIDCAGSVDSQRLCIDATKRNGSIAFVGESNDLKINVSNDLIRNGLTLVGVWHYNYKLINDLIKIAIRSKDKLDTLITHKFKIEDIHDAFHLQLTRNCGKVVIIP;locus_tag=LOCUS_01710;EC_number=1.1.1.14;note=WP_003384594.1 galactitol-1-phosphate 5-dehydrogenase (Clostridium botulinum A str. ATCC 3502) [pid:30.5%25%2C q_cov:99.4%25%2C s_cov:98.3%25%2C Eval:2.5e-32],MGA_172
sequence01	MetaGeneAnnotator	CDS	186086	187570	.	+	0	ID=MGA_173;product=ribose import ATP-binding protein RbsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q81HW8;translation=MKNILLQMESISKSFPGVDALTNVNLNLDYGKVLALVGENGAGKSTLMKILGGAIQPNSGKIKIEGEIKKIINPQLSQKNGVSVIYQEFNLIKDLKVHENIFLGRETTKNGVIDTNLEKKLSIKQFKNLGVSINPNIVCSKLSIAEQQIVEIAKALTLDSKIIVMDEPSAVLTEKEVKNLMRIIKDLIKKNIGVIYISHRLDEIIEISDDILILRDGFHVDQIKTKTTSKKKLIENMVGKSLSTDFPKRNSAIGKEVLKVKGLCKKNSFSEINFELYQGEVLGFAGLLGSGRTDIMRSIFGVDDIEKGKIFKYSKELKINNPRDAIKNKICLLTEDRKREGLILNHSSQNNFSLPNLKNFSKNLFVDNLKELKSFKNYINDIQIKINSPQQLAKNLSGGNQQKLVLAKWLESNADIIIFDEPTRGIDVAGKREIYELINTLSLEGKSIIFVSSDLEEIIGMCDRIIIIHEGKIKGNVNVDKKLSQEKVLSLALS;locus_tag=LOCUS_01720;gene=rbsA;EC_number=3.6.3.17;note=Q81HW8 ribose import ATP-binding protein RbsA (Bacillus cereus ATCC 14579) [pid:42.5%25%2C q_cov:98.6%25%2C s_cov:98.4%25%2C Eval:1.5e-117],MGA_173
sequence01	MetaGeneAnnotator	CDS	187585	188919	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFINNYGMIFILGGLCILFSFLTLKEQTPNAKNIKNQFVEKIQSTNNKDITILSVGGQNTKSAEIAKDLEIALKEEGFSNTFSVVGTPADLKYKLKIMMENLNYPEFIIMNEQISTWDVLGSLKNENMKYQSTQEFYPKSYLFPDFLKKTNLIAIVDRIVVIAILAIGMTFVIITGGIDLSVGSLIAVSAVVGTSVMKSMGGVDASSGVVFIGFIIGILSTAFIGGLGGLIVAFFKVPSFITTLAIMLIGRGLAFMITDGFSIYRVPQSLTWLGQASSFGLPNTVIFLIILYLIAHFFLSKTKIGRYIYAVGGNEEAARLSGVPVNFIKIFVFLICGFTAGLGGCIQASQLNSGTPNMGIMYELYVIAAVVVGGTTLSGGSGKILGTLIGVFVISVIQNGMNLIGIESYTQQVVLGLVILIAVVIDKSKSNNIFSKYFNKRG;locus_tag=LOCUS_01730;note=WP_011392151.1 sugar ABC transporter permease (Moorella thermoacetica ATCC 39073) [pid:41.9%25%2C q_cov:64.9%25%2C s_cov:86.4%25%2C Eval:5.6e-57%2C partial hit],MGA_174
sequence01	MetaGeneAnnotator	CDS	189024	189872	.	+	0	ID=MGA_175;product=D-ribose ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013399393.1;translation=MDLTNPFFKLIANVMQEEALKKGFQLVALSGDQDPAKQNNQIIDFAVQGYDAIFLNPVDSKSSGEGVKKAHSLGVPVFTFDVQVTDEEAKKLIFSHIGSDNYQGGELAAKSMMNVIGDVGDIAILSLPRITSCKLRVDGFRDYLKKNNSRIRIVTELSGEGSRDEGFRVTTDILQAHPDIAGIFAINDPSALGAYAAVKKAGKSDQIKIVGFDASPAGKQAVFEKQIVDSPQQFPRKMAIGTVNAFFEYLKGNSLSKNLFIPCEHYFYENSINDKSRINEKW;locus_tag=LOCUS_01740;gene=rbsB;note=WP_013399393.1 D-ribose ABC transporter substrate-binding protein (Gardnerella vaginalis ATCC 14019) [pid:36.2%25%2C q_cov:90.4%25%2C s_cov:79.9%25%2C Eval:3.5e-34],MGA_175
sequence01	MetaGeneAnnotator	CDS	190133	193390	.	+	0	ID=MGA_176;product=SusC/RagA family TonB-linked outer membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404904.1;translation=MKILRVAFIFMVVFVFGNLYSQSSISGIISDENGSPLPYADIIVIGTNYGSSANDNGEYSINLPDNFVQGQNITLSAQFIGYIKSEKTIVLSSGEILENFTLEADVIGMDQVVVTGLGISKEKKAVGYSVQDVTAEELNMVPQSNIADALSGKVAGVQVLGSAGAAIGGSAKIRLRGANGLTDAQPLWVIDGTPIDNRSFSGAYDGRDYGNLANDINMNDVESISVLKGASASALYGTRAANGVILVTTKKGGSNKDGIGFSYSSTSSYDDILILPVYQNEYAGGYTQSWLTEIDPEDGLEYNVLNYAADESWGPKMDGTMYRPWWSWIHDDFDGDGVDDYGTQIPLEAQPDNVKNFLNQGINQIHNFALDGGNDISSFRLSFKIEDGKGVIPNSKLNKSALGFNGSLDLTGKLSSSVSFNYANTQGFGRPASGYSPLVGNPVQSFNQWFQRQLDMDKLRKYKGDDGSIYSWNLRSATNLRPLYWDSPYFSYFENVSEDERNRLYGNFSLIYKATPNLSLMGVVRSDQYDFLVEDRIASGGLEQDWYSMAKRSQNEMNYEFTANYNQNLGFLSFSALVGGNIMNREYSSNISQTSGGLSLPGYYNIDASVDRPSTTTYTEEKEIRSIFGSSTLNFGGVYYLDATIRNDISSSLPSSNNSYNYYSLSNSFIFTSLFNIPFLSFGKIRASVAQVGSDTDPYSVGLTYSVGTPYGANPTLAVPNTLPNPDLKPSINSDTEFGIDLRFLNNLFRLDITSYTQEKKDDIIPLTVPGSSGYSTTLVNAGKFTTTGTEYLIGFNPIRTKDLDLDFTLNYATSESQVDELAEGMEARQLFRAYWGTFLFAKVGEEWGAIKGAGYQQHENGERIITDGNYVTENNKWLGYVLPDATGGFRIDAKFKGLSIGAFFDFQVGGQFYSLTRQWGIYSGMTSNTIGDNELGNPVRDPVLTSDGTEVTWVDYDDAASNSGGVVLEGVDEDGNAVKVLRDAVSVAANSYYKRSEENLLDASYTRFREFRVGYDIPSSVLESLPLSNLNLSVSIRNVAMLSSAEEGIDPTTASNGHGDGYSYWEGGVLPSTRTVSFNVNVKF;locus_tag=LOCUS_01750;note=WP_011404904.1 SusC/RagA family TonB-linked outer membrane protein (Salinibacter ruber DSM 13855) [pid:31.9%25%2C q_cov:97.9%25%2C s_cov:96.6%25%2C Eval:1.6e-149],MGA_176
sequence01	MetaGeneAnnotator	CDS	193408	194805	.	+	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405561.1;translation=MKNLTSKFLILFFLIIGCSDDFGDMNVDPNNPSTAIPDLLLTQSITQMSGVAGAVTPVLYVQYMSETQYTEDSRYNTIQFDFNPWYTGPLADLQSIIDSEDATANYKAAAKILKGYYLSMMTDRWGMIPYSEALKGGDNFSPIYDSQESIYKGIITDITKAVTEFDENSSLNGDILFNGVTSDWQKFGNTLRMIMALRLSDVDESYASDEFSNAIDAGVIDSDVMYYHLAEDANASPWYVRFITRTDYAISNTMADTMQAFNDSRLTAFADPAPDLDDGDATTTLDEIVGMTYGISNNEAGAITNSEISFPGASIRSQDSPLPIYTVAQVHFSIAEAIERGWIAGDAKSEYESGITASWSQWGVGDPSEYLIQDGVSYSSDDWDKLIGYQKWIAAFPSGYEAWSEWRRLDYPQLEPAPGADQNLNIPLRHAYPTSETELNATNYDNAISSQGADDLYTKMWWDTK;locus_tag=LOCUS_01760;note=WP_011405561.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:32.8%25%2C q_cov:95.7%25%2C s_cov:93.7%25%2C Eval:5.4e-58],MGA_177
sequence01	MetaGeneAnnotator	CDS	194925	198377	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFYITLILLFTSCSNNELKFTQQQIDQLFMSKNLGLAYIEESKLEDAEKEFEKILNINPNEAMGYGNLALIYFRLGQLDKAKFLIKKSENLNDENSDIKLINSEILLAENKYEEAIKILEKSLIDSPKNIRVLFKLAEIYGLLFQINNNEDDLIARTEYLKKIIDLEYINLAILIQYIESNFRIGNLKNAKYYFESLYQLLPELNNRESNLVTQIYNEIFEENVDKALRFYIGFSNLMKTKNRYQADLDEIKSQGLTLVGFPIENFLSKDFIFDISKSNSFNINFENSILIDLSNRFDIIEDFLIEDLNFDGINEIFVTGKFENKIKSEILSFKNYKNPSIVFEETTSSKINSFNFNDLDNNGFLDLIISFNNETRIYYNNGELKFSEKFILSKGFSTNKSIFGDFDHDGDLDIFQLNNGKNVFLRNNSDGTFLDNSQNLNIKIDDMNTIDGDISDFDHDGDLDLVLINSNGTINLLSNERHGKFVDKGKNLTLDSNLSFIQTQDLDNDGFFDFLIQTENKIKIFKNFGNWNFINSINLSNNLQSFNFDKINIYDFNNDSKLDILNSAKNSIFHLETDETYNIYNLTDFNNYKNNSSQILDFDLDGKIDLVFSKDKKIEIFRNTSKNLNKYINVKLNGLRVGSGKNNYFGIGSKIEIKSGTTYQTKIVKNNNTHFGLNDDQLDVMRIVWTNGYPQNVINPELNQYIVEKQELKGSCPYLYAWNGTKFEFVKDIFWRNALGMPLGIMSSGDMAYAFHHSTDEYVKIPGKYLKTKDENYFLKVSMELWETAYYDNIRLHVIDHPKDTYIYVDEKFLPYPKLEKKIFSFSNKKYPISVFDDKGNDLLKYIIKKDYNFISNLTPSKYQGTTKLHDLIIDLGKVENKNDIKLYLHGWLFPTDASLNVKISQEKTFSIKSPSIQVLDENNEWVTIEENIFFPNGKDKTCIIDLSNKFVSDKYKIKISTSMAIYWDEIFFTENDNNIELVETILNPIKTELEYRGYSKKYLQSNISGLDYPSFYEVEKFPKWRDLKGNYTKYGDVNSLVIESDNKYVIMNSGDVMTIKFPTNFIPKLKDGWTRDFLLYSDGWLKDGDMNTLTGNTSNPMPFHQMKGFPDDSSKYFFSDELIEYNKNFNTRIIDDTNFRNHIKKDD;locus_tag=LOCUS_01770;note=WP_011120599.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:28.7%25%2C q_cov:62.2%25%2C s_cov:57.3%25%2C Eval:3.3e-76%2C partial hit],MGA_178
sequence01	MetaGeneAnnotator	CDS	198374	199204	.	-	0	ID=MGA_179;product=branched chain amino acid aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583718.1;translation=MNSKNIFYVNGKWVSKNDANISHEDAGFQRGYGLFETIRFQNKKLFKPDKHYERLSNGLSSIKINFNQSYEHILSLLKQIIKKNKINNGLIRITITIGNIKDDPWDFNSELNIYISIRNVIFPLMNPVKVKFYPEENFPIVRFNPQIKSLNYLGNMLAKREAKKDGFFEPVFYNQNEIITECAVRNIFFIKDKIIYTPTTKLGVLPGIMRETVLETAKDLNYEVSLKNIYYKDINKMDEAFITSTAVGVLPCFWKNWKSKYKICLEIKDSIQKNYF;locus_tag=LOCUS_01780;EC_number=2.6.1.42;note=WP_012583718.1 branched chain amino acid aminotransferase (Dictyoglomus turgidum DSM 6724) [pid:34.6%25%2C q_cov:88.8%25%2C s_cov:85.1%25%2C Eval:3.2e-32],MGA_179
sequence01	MetaGeneAnnotator	CDS	199267	200469	.	-	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNLTKLISEKGYPDALIDHHHKFSPNYAIYGFEEEFIINHNGISMVNDEELKGNPLINFQKTLDSWKKVGGNISAFGFISYDIKNLIYPNLNFKKIDSSFPLLWFGKPKKIFPYKIMGSEKIIKKCSLTLKDEFISFKNYEKKIKIIKDHLYKGNCYQINFTHPFYYKTDDDAFELYMNLRKKVKPLYGCFLNNKNYSILSFSPENFIKTNKNIIQSYPMKGTIKRSNNKIIDDQLLNKLKNSSKDKAENLMIVDLIRNDLGKICKNNSIKVDSLFKIESFPTVHQMTSKISGELKKDNIDEAKIIFSLFPGGSITGAPKQKSVEIIDCLENYNRGIYTGCMGYITNKGDINLNIAIRTLKIINQIGIYPVGGGIVWDSVAKNEWLEAIQKRKILSLLN;locus_tag=LOCUS_01790;note=WP_001217385.1 aminodeoxychorismate synthase%2C component I (Leptospira interrogans serovar Lai str. 56601) [pid:39.3%25%2C q_cov:80.0%25%2C s_cov:53.3%25%2C Eval:1.2e-55%2C partial hit],MGA_180
sequence01	MetaGeneAnnotator	CDS	200498	202174	.	+	0	ID=MGA_181;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007330113.1;translation=MKKFKLMTIKIILFMFFLNMNIFSQNIFFIDETKNQKINFKHYNGEVGEKFYTESVGAGCCILDYNNDGFMDIFFVQGNSHSSKIESMETSNMLFENNKNGFVNVTVNSGLKNYDYGIGCAIADYNNDGFDDIFVTNFGNDILYKNLQNGKFQDVTNKSGIKNNLWSSSATFFDYDKDGFLDLYITNYVNFNINENPWCGDEKNNERKYCDPDVFEGLPDILYKNNGDGTFLDISNMSNISKSKGKGLGVVAADFDNDDDLDIYVANDKVMNHMFINNGDGTFLEEGLFLGVGFNENGKAEAGMGVDVGDYNNDGWFDLFVTNFSGESNTLYKNEKNGFFTDVTFASGLGQPSLDLLSWGTKFLDLDLDGDLDIFTVNGHINENVKYFSSNYFYRQPKQVFINQGNGKFLNNSKDFGVAIEKKEVSRGAAFADIDNDGDSDIIISNNNSFSTLIINENNNENNWIGLILEGKSINKDAIGAKIKVNSENKNQYFFINPGSSYLSSNDKRVQIGLGKDSKINYIEINWLNNKKPELFKNFELNNYYKLTEGGKIEKISY;locus_tag=LOCUS_01800;note=WP_007330113.1 RNA-binding protein (Rhodopirellula baltica SH 1) [pid:32.6%25%2C q_cov:90.9%25%2C s_cov:85.4%25%2C Eval:1.4e-74],MGA_181
sequence01	MetaGeneAnnotator	CDS	202189	203682	.	+	0	ID=MGA_182;product=Na+-dependent transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010882938.1;translation=MISHRGNSRFSSRLTFLISAIGVAVGTGNIWRFPRIMALNSGENGAGSFLIPWIIFLFIWSIPLIISEYIIGRKFRNGTIRSYYNLVGKNFGWMGGFIGFVTFMISCYYAVVVGWCLYYFIYFIFNILPIQTSESWLIWNNFQSSFYPLICNFVVIFFGGAIISKGVFSIERVNKIIIPTLLFILLICFVRSLTLPNSITGIKFFFSIDFDELLKPKLWLDALTQNAWDTGAGWGLFLTYAIYIKYKFGVVKNAFITAIGNNFISLIAGVMIFSTVFSILIIDGQSQDFIIKTLRDSGPASTGLTFIWIPQLFNEIPLGRYLSIIFFLGLLIAGISSFISMIELSCSNLIDLGFSRKKSIMFICSAIFLLGIPSASNTSFFSNQDFVWGIGLIISGIIISIGVIRYGANKLKSEEIENNSFDWKLDSRWKFIIKYIVPILGTVLVCWWLFLSLSIYEKEYWYNPFYTYSLMTCIIQWFLVVVILKFYDKKLKQKFKL;locus_tag=LOCUS_01810;note=WP_010882938.1 Na+-dependent transporter (Chlamydophila pneumoniae CWL029) [pid:41.6%25%2C q_cov:96.6%25%2C s_cov:95.7%25%2C Eval:3.9e-94],MGA_182
sequence01	MetaGeneAnnotator	CDS	203699	203935	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEWKESDKYLIKSFSFKKYLDGIAFVDKVAMISEEKNHHPEIEILWCKVIIKLTSHDAGKITERDIKLAHEIDKLFN;locus_tag=LOCUS_01820;note=O66462 putative pterin-4-alpha-carbinolamine dehydratase (Aquifex aeolicus VF5) [pid:46.6%25%2C q_cov:93.6%25%2C s_cov:73.7%25%2C Eval:1.9e-12%2C partial hit],MGA_183
sequence01	MetaGeneAnnotator	CDS	203946	204794	.	+	0	ID=MGA_184;product=pyrroline-5-carboxylate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GVR3;translation=MKENKIKKISIIGAGRLGFSIAKGLIKSKQYKPSDITLNRRNVELLKESNSYGFQIESNQQSAIEKSDLIILSIRPKDLKSFFKNNSININSSQILASTIAGVSIEDIEKEYLIANKQIKFSIFRVMPNIAVELCESMTCISMKNNSDNNDYQRDLMNRKNLLNIFSKLGMAKVIDEELIGAATALCGSGLAFFLRSIRAAAHGGTEIGFHADEALELAAQTAKGAASLVNDSNDHPELQIDKVTTPKGITISGLNEMDHSGFSSAMIHAIVKSAEKLNKIK;locus_tag=LOCUS_01830;gene=proC;EC_number=1.5.1.2;note=A6GVR3 pyrroline-5-carboxylate reductase (Flavobacterium psychrophilum JIP02/86) [pid:39.9%25%2C q_cov:96.1%25%2C s_cov:98.8%25%2C Eval:5.3e-46],MGA_184
sequence01	MetaGeneAnnotator	CDS	204797	207553	.	-	0	ID=MGA_185;product=phosphoenolpyruvate carboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S6D5;translation=MKNNLKNLIKLSAEKLLTKSLTKRVLYISSILDEIYTENSIKEYDILRTTLFDIIIKSNFKYNYNNIQTLFKKWSVNQIDFSLKFFSTFFHLLNQAELQEINSINKKRSENANESKPLSDSIQESIKLYKESNISLEKTLDYINKINIIPTFTAHPTEARRQSLLDKQQSLTFDIEKLLFTLMSKNEKEYLNEKIKRSLTMLLLTDDLRTTRVTVNDEIKNTIYHCTRSLWNAIPELHKNLSNSMKLYYNYELQTKDFIKFRTWVGGDRDGNPNVTNEITQNAITLQKITILEKYKNSLTEVYRDLSLKIEKSEKNIDLFESIQNDLTKIKISNHVIERLRFEPIRLKINCIQLKIDILISDIKKNKSQLSYSSLDFQKDLNIIYITLKKLNYSILYKNGPLNDLIIRSKTFGFILMSLDIRQHSNNHEIAIHEIFSNFNIIDNYTELNEIDKSKILNKEFFNFKIKIDKTSSFNFSDETIQLIKTLKTIKSELKKDSSCISSYIISMTHSKSDILEVLFLLKLFDLILIKNNKMISYLDVIPLYETIDDLYNAPNLLLELIDDNIYNKYLKSRNNFQEVMLGYSDSNKDGGMGMATWALNESQEKIAKLFNKKNINHRLFHGRGGSVSRGGGRTNLAILSLPKECQNGTIRMTEQGEVISYRYGSGAIAKRHLEQIVNAVLKGLISKSNISKKDEINLLSKIARSSEEIYKNKIFSKECWDFFINISPIKHISRLPIASRPASRSTLESFNDLRAIPWVFSWIQTRYNIPGWFGLGSALYKISDQKQDINVLINLYENSSIFKHLLDKMSFEMARAQLPISKLYTNLTLDKDFHSIIQNEFDLCVEMYQLITKNKSLLQRSPVIENSIKFRNPIADLVNLIQIELLTRWKDGNKEKEIQKSIFASINAIAASMQTTG;locus_tag=LOCUS_01840;gene=ppc;EC_number=4.1.1.31;note=Q2S6D5 phosphoenolpyruvate carboxylase (Salinibacter ruber DSM 13855) [pid:34.4%25%2C q_cov:91.1%25%2C s_cov:91.2%25%2C Eval:2.4e-146],MGA_185
sequence01	MetaGeneAnnotator	CDS	207556	208827	.	-	0	ID=MGA_186;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933690.1;translation=MKYRSILNDKNLVSFSEALFEGLANDGSLFVPNEIPNYNLKKKYVNYFNLAQDIIYPFVKENINLNELKKICEESFNFEVPLKKLDDNIYILELFHGPTLAFKDFAARFLARSFSLLNKNKLTILVATSGDTGGAVANGFSGVKGINVVILYPSKRVTEIQELQLTRVKKNVKTIEVSGTFDDCQKLVKMAFSDKKLRNNVNLTSANSINIGRLIPQITYYIWAKNKLNESSNPVFCVPSGNLGNLTGGILAKLSGIKIKSFLAATNSNDSLVRYLKNGSFKIESTIKTISNAMDVGNPSNLERIKFLYNFNLNNIKNDIKSISINDSTTIKMIKKIKNKYNYTICPHTAVGLANIEKRGIKQNPVIYLATAHPLKFKNIIEPIIEEKIELPDTIKSLYKKQKKSIKMDPFYDKFKSFLLKNF;locus_tag=LOCUS_01850;gene=thrC;EC_number=4.2.3.1;note=WP_010933690.1 threonine synthase (Chlorobium tepidum TLS) [pid:41.6%25%2C q_cov:96.2%25%2C s_cov:95.5%25%2C Eval:5.6e-91],MGA_186
sequence01	MetaGeneAnnotator	CDS	208831	209760	.	-	0	ID=MGA_187;product=homoserine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496725.1;translation=MKNKIKVRASASIANISCGFDCLGLSIKEPYDEVTLEFNNSKKLSITVSGKKSSLIPVNPEKNTAGKAILSFLHSIGEKKGLNIHIKKGIPPGSGIGSSASSAAAAVFGINELFGNPYKLEKLIFHGMAGEEVASGSFHADNIAPAILGGIRLIRSYEPLEILNLPIPKKLMCVVVLPDFSINTYDARNMLPKRVPLKSAVEQAGNLAGFTIALYQENYELMQRSMVDLFAEPVRGKLIPGYKKIQNLLKKENVIGCGISGSGPAIFALANDIDVSKKIKTLIINEFKKIGIDSIGYISKVQTLPPQII;locus_tag=LOCUS_01860;note=WP_064496725.1 homoserine kinase (Methanocaldococcus jannaschii DSM 2661) [pid:40.7%25%2C q_cov:87.1%25%2C s_cov:89.9%25%2C Eval:5.9e-49],MGA_187
sequence01	MetaGeneAnnotator	CDS	209757	210857	.	-	0	ID=MGA_188;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963889.1;translation=MKSKIKVSVLGGTGMVGQIYISLLLNHPWFQIVDIAASKKSSGKSFKEVLKNRWKIKTNFPDQINNLVLRDIFDFNSIPNDVQIVFTAAELEDKIKTQELEFKYANHGYSVVSNTSANRWTDDVPMIIPEINSDHLEIIEKQQKKRNFPKNGFVVSKSNCSIQSFLVAIDALNKSGFNVNKINVTTMQALSGGGIKIINDKNYQNNLIPFINGEEEKTENEPLKIFGKVQDNKIIKSKNLSINAFCSRVPIIDGHSAVVQLQFDNKVPKISEILHIWENYKSIPQFLKLPTAPEFPIKYLYEDDRPQTSLDIFNDKGMAVSIGRLKNDKIFDVKFFSLSHNTIRGAAGGAILVAELLYKQNFLKNL;locus_tag=LOCUS_01870;gene=asd;EC_number=1.2.1.11;note=WP_010963889.1 aspartate-semialdehyde dehydrogenase (Clostridium acetobutylicum ATCC 824) [pid:47.7%25%2C q_cov:99.2%25%2C s_cov:99.7%25%2C Eval:1.3e-90],MGA_188
sequence01	MetaGeneAnnotator	CDS	210867	213254	.	-	0	ID=MGA_189;product=bifunctional aspartate kinase/homoserine dehydrogenase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005784545.1;translation=MKILKFGGSSISSSERISSVCEIIQKENEDKSIVVSAIGGVTDLLLSITEEQNKKNHLNIIGKLKTKHLECVKELKLKKIDFIDDYFLKLKKVVEQKDKNLNRKKDQILSFGELLSSKIISTCLSENFNIQAEQLDARKLIKTNEAFGNAFVYYEKSAYLIKKHFANVDKLQIITGFLGSSENGYSTTLGRSGSDYTASIFGSALKVKLIEIWTDVNGILSANPKIVNNAINIPQLNYEEAMELAHAGAKVIFPPTMIPALYNDIPIRVKNTFNLKNKGSLISNHILKNKKNPIIGISSLSNIILIRLEGAGLVGVKGIIGRIFSKLAQYEINIILISMSFSEHSVCFAIKPEFEKIALSCLKKEFYYEIENKQVDKISSEKNLSIIGVVGDGMRKVPGISGDLFKTLGNNNINVVAIAQGSSERNISFITKQKDLEKTINVLHNKFFDSDEKNPNIYLLGVGNIGQELLNMICKSKIKFNLKLIANSKNYIDEIKVKSKSELILELKNSNKKFNIDFLLSKKLSTKSKNIIIDCTASKIIAKKYSEFFKNGFSVIAANKNANTLSQSYYNQLKKNKNNHNVNFRYETNVGAGLPMVSTIKSLYTSNDKIISFEGILSGTLSYLFKIYDGKKKFADILMKAHKKGYTEPDPRLDLNGLDVAKKMLILLRENGIKCELGDIQIQSLIPNSIDSTISIKDFFYELKRNESFFKSKLEQAKIKNEVLRYIGSWNGKKATVKLRSVPISNPFYEIKEKENILVIKSENYKEVPIIIRGPGAGIKVTSAGVFNDLNLILK;locus_tag=LOCUS_01880;note=WP_005784545.1 bifunctional aspartate kinase/homoserine dehydrogenase I (Bacteroides fragilis YCH46) [pid:35.0%25%2C q_cov:99.4%25%2C s_cov:99.3%25%2C Eval:1.7e-137],MGA_189
sequence01	MetaGeneAnnotator	CDS	213303	214088	.	-	0	ID=MGA_190;product=homoserine O-succinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I2Z8;translation=MKILVLNLMPNKIETENQISKVCENKNFEISFTFLRTESYKSKNTDFSYLKNHYKVFDEISSLNFDGFICTGAPVEKMDFDQVIYWDELTNIFKWVRKNLIPSYYICWGAQAALKIFYEIEKFTLNQKLSGIFNQVIMKKNRILKNLKKPISIPVSRFTGTKIEDVYKKRDLEIVLYSKKTGPCLISNKKYNEFYNFNHFEYSTETLNNEYKRDKKNNLKINIPENYFLNDNPSYKPINCWNENAMIFYNNWLNEIFFHNK;locus_tag=LOCUS_01890;gene=metA;EC_number=2.3.1.46;note=A5I2Z8 homoserine O-succinyltransferase (Clostridium botulinum A str. ATCC 3502) [pid:43.3%25%2C q_cov:96.9%25%2C s_cov:85.2%25%2C Eval:1.0e-56],MGA_190
sequence01	MetaGeneAnnotator	CDS	214173	215552	.	-	0	ID=MGA_191;product=O-acetylhomoserine aminocarboxypropyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403257.1;translation=MNILKKIQSDIKNFFNKYINKKGEFKMSDKPKHFDTLQVHAGQEVDKTTNSRAVPIYATSSYTFNDTDHAANLFAGKEFGNIYSRIMNPTNDVLEKRIAALEGGLAALSTSSGQSAQFLALQQIAKAGDNIISTSFLYGGTYNQFKLSFPRLGIDVKFADGDNPDSIKSLIDDKTKAIYLETMGNPKYNIPDFESISKIAKENGIPLVVDNTFGMAGYICKPIDFGADIVVASTTKWIGGHGNTVGGIIIDAGTFPWNNGKFPEFTDPSPYYNGISFWEVFGPEGVLGANVAFIIRARFEGLRDFGPSQNPFGSFLSLQGLETLSLRGERHNQNTLELANWLNEHDNVEWVSYPGLSNHPSHENAKKYLTNGFGAVLSFGVKGGAESGKNFIHNVKLASHLANVGDAKTLVIHPNSTTHSQLTEEEQLSAGVTPDLIRVSVGIEHIDDIKNDFSQAFNS;locus_tag=LOCUS_01900;gene=cysD;note=WP_011403257.1 O-acetylhomoserine aminocarboxypropyltransferase (Salinibacter ruber DSM 13855) [pid:70.4%25%2C q_cov:94.6%25%2C s_cov:92.8%25%2C Eval:3.0e-186],MGA_191
sequence01	MetaGeneAnnotator	CDS	215991	216854	.	+	0	ID=MGA_192;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011118351.1;translation=MVQRYISSEEVSNILGVNVSTIKRWTDSGKLDCVITAGGHRKFLMRHVSAFLNDNSKYRTKLNVLPYNSSEERQLNQLILTGQISQLKEIFLDKALLGNRELCSQIMTGLYLSGISLDKIYDDLVSPVFKHIGSEWHAGRLPIYKEHIATNTLQTCVHGIYSIINKPSKNKGLSVCIGIRGDMHDIPLMIIEQILLSKGFEVINTGINTPLDKIETLFDVSHPNRIYISCTWIQNESHVIEDLNKIFEINEKINAEIFLCGPLLNKLKLSKDYNYRSIKSFTELLSY;locus_tag=LOCUS_01910;note=WP_011118351.1 DNA-binding protein (Rhodopirellula baltica SH 1) [pid:22.8%25%2C q_cov:85.0%25%2C s_cov:75.9%25%2C Eval:1.1e-17],MGA_192
sequence01	MetaGeneAnnotator	CDS	216877	217815	.	+	0	ID=MGA_193;product=NADH dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880030.1;translation=MKVAVFGGTGYVGSYIIEELINQGHTPRLLVRPGSEKKIMKPRKCEVFKGEVSDFEAVEKVISGSEAVIYLIAVIREFPRKGITWEKLQFNGATTCIDISKKNNIKRFLLMSANGVKPHGTNYQKTKFMADEYLKNSGLNYTIFRPTSLFGDPRGNGRPEFNTQILNDMLSLPIPAPLFHHGLIPNNSGEFAFNPIHVKDVASIFVKSIDNENMFNKIFRLGGLDKVSWKEMIKTISKAVGKKKLAIPAPVMVVKTIATFFKYFKWFPVTPEQLTMIMEDNTCESKELFDNLKINPISYNAENLSYLKINKN;locus_tag=LOCUS_01920;gene=nueM;note=WP_010880030.1 NADH dehydrogenase (Aquifex aeolicus VF5) [pid:29.6%25%2C q_cov:90.7%25%2C s_cov:87.0%25%2C Eval:6.8e-29],MGA_193
sequence01	MetaGeneAnnotator	CDS	217812	218342	.	+	0	ID=MGA_194;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263586.1;translation=MISFIKKLYNAFGFYMSWWACVMGVINYNQPYFGPLVMFIYIFFHFLMIKNKKNEIIFLFIAALIGFFVDSVKAFTGFITYNGAYFEYFAPIWIIAMWVGFAATINHSGSWVKNRYLVAIFLGIIFGPLNYLVGHRLEALSLNMDFPQNLIILSIVWGISVPLLYYISNQINSKIK;locus_tag=LOCUS_01930;note=WP_011263586.1 membrane protein (Vibrio fischeri ES114) [pid:29.2%25%2C q_cov:96.0%25%2C s_cov:85.2%25%2C Eval:6.3e-17],MGA_194
sequence01	MetaGeneAnnotator	CDS	218339	219010	.	+	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLVVIYLMINILFAQSNEFIFSQLYIPYGWVQINNSRNQNDSPSIYTKEIFGADYQALMIKDTISAESKKIINIINNVESYDNIFTSSKLVSTSVISRKNNFVDAYQHLPVPIPFISDRHYIFRMNGFENRSNVVRWILLNRKDSEYSNYISQKEDSLSSVIYLDTGVGIWEVNKLESNISEISYRLYMDTGGRLPKFLVEWLNKTAVNNVFTDIKNASLN;locus_tag=LOCUS_01940;note=MGA_195
sequence01	MetaGeneAnnotator	CDS	219012	219902	.	+	0	ID=MGA_196;product=steroid 5-alpha reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905448.1;translation=MKIDFKDIFNVLIILTLSIVFAFFANPKLIDIQNIPIFILIMSSIYFIHWIVFLPSFIIRSEKYFDITGTFAYLFSLSLIFYFLITTQNVIKLRSLTVFMLISIWSIRLGCFLFSRIIREKQDKRFANLKKSFSKFFVTWTVSGMWVFTTSLNGLTVIVNNVSYYNDFFYFIGLIIWIVGFLIEVISDEQKRRFKINVENKNKFISTGLWKISRHPNYFGEMLIWIGIALISFPTLVGFQYFTLISPIFVIWLLTNISGINLLEEKADLKWGQITSYVEYKENTPILIPFAKTFKS;locus_tag=LOCUS_01950;gene=yfhH;note=WP_010905448.1 steroid 5-alpha reductase (Lactococcus lactis subsp. lactis Il1403) [pid:32.8%25%2C q_cov:85.8%25%2C s_cov:96.5%25%2C Eval:1.3e-29],MGA_196
sequence01	MetaGeneAnnotator	CDS	219899	220417	.	+	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001201520.1;translation=MKRILSIFLFFNLLTNCNGQQMEDLKPVKNVDIQRFMGKWYVIAIIPNWIEKNPYNSIEEYSLNEKGYIDVKYTFNQDGFDGKKRILKQKAFIKNLETKSEWEIQPFWPLRFPYYIIDLDENYSYTVIGYPNRKLLWIMSREKTISNENFKLIDQNLLNQGYDLNYIKIPHN;locus_tag=LOCUS_01960;note=WP_001201520.1 hypothetical protein (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:27.9%25%2C q_cov:94.8%25%2C s_cov:94.7%25%2C Eval:3.1e-13],MGA_197
sequence01	MetaGeneAnnotator	CDS	220437	221162	.	+	0	ID=MGA_198;product=2-deoxy-D-gluconate 3-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010945965.1;translation=MANFAIFGCTGGIGLSITQKLLNQGHRIFGVARNLEKLDDLKSKNQNIITHSIENPNFDEIEDSFKLADNYFENFSGIINCIGSLVLKPAHITNQTDWDNIILTNLTSSMSILRSSVKRISKEGGSIIFFSSSAGLIGLPNHEAIASAKAGIIGLTKSAAATYAKKNIRVNCIAPGLVNTPLSNRIINNKIALETSLKLHPLNKIGEPDVIAECIEWLISEKNNWTTGQVISLDGGLTSVK;locus_tag=LOCUS_01970;note=WP_010945965.1 2-deoxy-D-gluconate 3-dehydrogenase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:39.4%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:3.8e-44],MGA_198
sequence01	MetaGeneAnnotator	CDS	221186	222433	.	+	0	ID=MGA_199;product=amine oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005460050.1;translation=MKIAIIGSGISGLTCAYLLYKKHNITIYESNNYVGGHTNTISINDDNKDYNIDTGFIVYNNDTYPNFVKILNKLKVETQPSTMSFSLTCQQSGLEYGTGSLSSLFGNKSNIINLKFYKLLFGIITYFKNAKIFLNDNNNFSYTVLDFIKESKTNIFTYEKFILPMASAIWSTNFNEIEQMPAKYLFEFYKNHDLLSINPTKKWRVIKGGSKQYVSKLTKPFYDKIRLNTNVLSIQRKNDAVFIKTDSNEQEKFDSVIIACHSDQALKILKDLTSEEKKILSNIPYQSNQAILHTDISVLPKNKKMWSSWNSFIPKEEESKVSLTYNMNILQSLKSEKTFCVSINMEKYINPSKVIKKINYSHPTFNKMSVEAQSKKNKISGKNNTYFAGAYWRYGFHEDGVMSALEVCKNFGVKI;locus_tag=LOCUS_01980;note=WP_005460050.1 amine oxidase (Vibrio parahaemolyticus RIMD 2210633) [pid:46.5%25%2C q_cov:99.8%25%2C s_cov:96.7%25%2C Eval:3.8e-108],MGA_199
sequence01	MetaGeneAnnotator	CDS	222437	223180	.	+	0	ID=MGA_200;product=DUF1365 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942965.1;translation=MKSAIYSGSIFHSRKEPFNHEFKYSLYMAYINLKEINNLLPNSFFWGFNKKALISFNRSDYLDRPEKNLIDAVKNLVFERIGKKIKGPIYLLAHLRTLGHCFNPVSFYYCFDKSEKKIDAIIAEVTNTPWKERYSYVIDCENSEKNNLFKNIQKKELHVSPFFGMNHQYHFSISKPGNLISIKIDNFKKGVKVHEASLSLNKEEFSKKSLIRSLINYPLMTIKVVTAIHWQAIKLWFRGAKFFNNPN;locus_tag=LOCUS_01990;note=WP_010942965.1 DUF1365 domain-containing protein (Geobacter sulfurreducens PCA) [pid:40.2%25%2C q_cov:99.2%25%2C s_cov:86.6%25%2C Eval:5.8e-51],MGA_200
sequence01	MetaGeneAnnotator	CDS	223190	224470	.	+	0	ID=MGA_201;product=cyclopropane-fatty-acyl-phospholipid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942966.1;translation=MKSIKNKYSINNLADKKNETIIAPFTIRFMKDVLLKKIKKLDYGFLSITDGAENFSFGDSASKIKSKITINSSKFYSKVFSRGSMGATESYIDGDWFCDDLVSLCQILIKNKITSDNLEKGFVFLTKPLIWVFMRLSPNTRFGSRKNIIAHYDLSNEFFNLFLDKTMTYSCAYFKDVNNSLEDAQVEKFDRLCRKLNLKENDKVLEIGSGWGGFAIHAVSKYKCHVTTTTISNEQYDYTFQKIKKLGLENKITLLKKDYRDLDGQFDKIISIEMIEAVGANYVSKYLNKCDSLLKNDGMMALQGITINDQGFESYIKGTDFLRKYIFPGGSLISISQITKHLKNHTKMKIVHLEDISLHYALTLNKWRENFFKKIEEVQSLGFSQSFINLWDFYLASCEAAFLEQHTGDYQIIFSKPNNKTFNINY;locus_tag=LOCUS_02000;note=WP_010942966.1 cyclopropane-fatty-acyl-phospholipid synthase (Geobacter sulfurreducens PCA) [pid:43.1%25%2C q_cov:91.5%25%2C s_cov:92.6%25%2C Eval:3.9e-100],MGA_201
sequence01	MetaGeneAnnotator	CDS	224470	225504	.	+	0	ID=MGA_202;product=cyclopropane-fatty-acyl-phospholipid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942955.1;translation=MIQQLISLAEKRFLPDFIVRTGIKYFLNQKLNIEKKKFGDNPKSEKNKWIEEMKKSPIALFTNKANEQHYEVPPEFFRISLGPNLKYSCAYWDTEINNLADAEEKMFKIYIERSGIKNGMSILDLGCGWGSFSLYLAKKFPNSKILAVSNSNDQGQYIKAESKKYKLNNINYLKLNMSDFKINQKFDRIVSIEMFEHMRNYEILLHKISKLLNENGKLFLHFFCHKKYVYPYEVKSNSDWMTKYFFYGGMMPSYDILSFFENDLKLIKSWKVNGNHYKKTCRAWLKNQDQNKNKIMNIFEKCYEKDSTTWFNRWRIFWMSCEELFGYKNGSEWYVGHFLMTRKK;locus_tag=LOCUS_02010;note=WP_010942955.1 cyclopropane-fatty-acyl-phospholipid synthase (Geobacter sulfurreducens PCA) [pid:43.2%25%2C q_cov:98.3%25%2C s_cov:94.2%25%2C Eval:2.2e-92],MGA_202
sequence01	MetaGeneAnnotator	CDS	225543	226961	.	+	0	ID=MGA_203;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403254.1;translation=MLLIFTNNCSSPKEYNNNLLEGEVPNTWTKPLPKTEEYTGLWWISFGDEEMVEYLENFQKNSPNIKSILSQLESAKQLARINSAVSFPNIQAGMSGSRSGQNLAGFGFSDLFSGAFGDQDSSNNNQVISFESDNYGLNLSLQWELDIWGKALNARRAAYADFNSSNYDLVYLSFSTMIQFVQTYYYTVESKLQYELSLKTTESFREVLNIVESRYKEGLTSSLDYRLAESSLAVSKVDMESKKIQFLSRLRNLEILLGFYPSGKLKLSDELPKKLPPIPSSLPADLLTRRPDLKSALEKVKSAGYKLAEAKRSKLPSFSLTTSGGTSSEELKDVLNGDYGIWSRILNISAPIFQGGRLDANVKLNKSQLTQSEINLVNKSLMAFMEVEQLLNSENSIELQLKSLNIAVSQSKAAYDLSKARYESGLIDFVTVLNSQNQWFNSQSQYFSIERTKIDNRLQLILALGGSLESLN;locus_tag=LOCUS_02020;note=WP_011403254.1 transporter (Salinibacter ruber DSM 13855) [pid:25.7%25%2C q_cov:90.0%25%2C s_cov:86.7%25%2C Eval:7.0e-37],MGA_203
sequence01	MetaGeneAnnotator	CDS	226971	228155	.	+	0	ID=MGA_204;product=RND transporter MFP subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073161.1;translation=MNLKRFFMNILRTTILNKRYIPFFIILIGFIGLVVLIRFKPTVIGEESKYVPPLVETMKVENRDVQIIVKSQGEVIPRTEINLTSEVSGKIIWVSENFSSGGTFTKGDTLIKLDSRDYELALVTAESNLSQSKVALQREIAESNIAKQEWDKVSDGEASDLALRKPQLAQANAFFAASEATYEQAKRNLNRTSILAPFDGRVRKKNTDLGAIISPGIPLGMIYATDYVEVRLPIANVDLSFLDIPLDGTLIELYKQPQVKLFSKIGNKTYEWTGKIIRSEAEIDPLSRMLSVVARVSEPYDRSINKIPLKVGLYVNANIFGKKFKNVYVVPRHVISNNNFIWTTNKEGILFQQQVDVLRTENDYAYINSGLNSNDEILITKLGFIINGMQIRTN;locus_tag=LOCUS_02030;note=WP_011073161.1 RND transporter MFP subunit (Shewanella oneidensis MR-1) [pid:23.2%25%2C q_cov:78.2%25%2C s_cov:79.4%25%2C Eval:2.0e-10],MGA_204
sequence01	MetaGeneAnnotator	CDS	228157	231327	.	+	0	ID=MGA_205;product=acriflavin resistance protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071225.1;translation=MNKIINWFVNNTVAANLSMVIIIVSGIFTIPNLDLEVFPSIEPQVITVSVTYPGASPSDIEEGICIPIEENLQGLDGVKKISSNSSENIGTVTLELLPEIDRKEALADVKAQVDAIDNLPLDAERPVVKQFVVVGDVMSVAVSGDLDDESLLNITKEIRDEITSLPGITLTTIKGNKPREISIEVSESSLSKYSLSFDQVSNAIRFSSLDIPGGSVETSTGEILIRSKGQSYSKFDFEKIPILARPDGTILLLGDIAEVVDGFSDIDLEQKFNNEKALLITVFRVGKQNALDISSSVTSYISDKRKQLPNGISITPWNDESKLLRGRIDLMLKNAYFGLFLVVIVLALFLKPRLAFWVSLGIPISFMGGFWLLPLAGVSINMISLFVFILVLGIVVDDAIIVGENIFMWRERGLNSVEAAKKGASQVATPVIFAVLTTMATFSPMLSVAGEIGKIWKIIPSVTIAVLIWSLFESLTILPAHLAHIQDKPIKNKLLNRLGKKWEIFQSYLIKGLDDFKNNIYLPVLKKALSRRITTIAVAISIFFLTVGYIGGGWIKFTFFPALEADVVIGILEYPAGTPVSITSKGLNDLEKSAQKLKKQLDDEFPGEIIFLNDLATVGDQPFRLRTSQGPGSLNLSFFASHLAEYVLELSPGENRVISAAEVGKRWRELTGPIQGVKDLSFSSTFISAGDPINFQLTGTNIADLQEATMIIKEEMASYNGVFDIKDSFSSGKDEMKLSLRDEAKNYGLNNVYLANQVRQAFYGEEVQNFQRGRDQVKVMLRYPKNERRSIGNLENMQIRTPQGQEIPLKQVAQMTMTKGFSSISRVDRQRSVNITADVDLSVTSGNEVISSLVANEFPEILKDYPSVSYSLEGEQREQSENLASIGRNFIIALFVVYALLAIPFRSYFQPLVVMTAIPFGLTGALIGHIIMGIDFSMISLIGIVALSGVVVNDSLVLVDFINKYRKEGGNTAFKAAMLAGPRRFRPIILTSITTLVGLLPLLLEKSIQAKFLIPMAVSLAFGVLFATLITLILVPTSYLVLDDFLNFFKKSKTVE;locus_tag=LOCUS_02040;note=WP_011071225.1 acriflavin resistance protein (Shewanella oneidensis MR-1) [pid:39.3%25%2C q_cov:98.6%25%2C s_cov:95.3%25%2C Eval:2.7e-218],MGA_205
sequence01	MetaGeneAnnotator	CDS	231334	231927	.	+	0	ID=MGA_206;product=glutathione peroxidase homolog BsaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P52035;translation=MKKKIIRGLFVMVFFLTPFLLLRSFLFGVTSDINKLISPKKSIYDISAKLLDGKTVRLEQFIGKKILLVNVASNCGYTYQYEELQKLHEKYGDKVYVVGFPSNDFAFQEPGSDSDIKEFCETNYGITFTMFSKIKVIGKNKHPIYEWLSNPELNGWNKQAPTWNFCKYLIDKEGRLIRFYNSNIKPMSEEIINDINS;locus_tag=LOCUS_02050;gene=bsaA;EC_number=1.-.-.-;note=P52035 glutathione peroxidase homolog BsaA (Bacillus subtilis subsp. subtilis str. 168) [pid:42.6%25%2C q_cov:78.2%25%2C s_cov:95.6%25%2C Eval:3.3e-34],MGA_206
sequence01	MetaGeneAnnotator	CDS	231911	232357	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011118347.1;translation=MILTVDIMEAILFFHFFLTFFMTGIIWLIQLIHYPSFSFIDKNMYSKFQTFHMNRISFLVGPIMILELLSGFYLLLFFYSESNFFVINFILNILILTMTIIVFGTIHKKLIEGFKFSLFAKLISMNWIRTILWSMKSIFIFLYKLNIV;locus_tag=LOCUS_02060;note=WP_011118347.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:25.8%25%2C q_cov:87.8%25%2C s_cov:88.6%25%2C Eval:5.1e-12],MGA_207
sequence01	MetaGeneAnnotator	CDS	232357	233064	.	+	0	ID=MGA_208;product=1-acyl-sn-glycerol-3-phosphate acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8P3Q9;translation=MNYFRILWICLNMAVAFLLLAPFDIVFSIIFIKKRPWFLAWIWSKWIFFISGINYTIEGKENLKSNENYVFMSNHTHEVDIGLLFMALKRDLNFIIKKEFKNVPFAGWYANLKGHLFVDRSNPRKAQMTLNDGVERLKKRPRSIIIFPEGTYHKDRKIRKFRPGGAVLALKTGLKIVPIAIHSKADLSGLFVKNTWKNPLNVIIGEPFSVKNLNFDDRYQIADNTRQKVLQLIKS;locus_tag=LOCUS_02070;gene=plsC;EC_number=2.3.1.51;note=Q8P3Q9 1-acyl-sn-glycerol-3-phosphate acyltransferase (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:31.3%25%2C q_cov:83.0%25%2C s_cov:78.3%25%2C Eval:7.2e-24],MGA_208
sequence01	MetaGeneAnnotator	CDS	233076	235445	.	+	0	ID=MGA_209;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011402954.1;translation=MNYFTIFLSRIAILFLTMSSTVFSQSNTRISGFITDKESGEVLVGANVFLLETGKGMATDRNGYYVLDNILPGNYTFIISYLGYEEYNEKIDFVEDLVIKKDIELSTIVLESEEVVISGERIQRKINIQPSKVSLSPRQIKNYPALAEPDIFRAIQALPGVLTSSEFSTGLIIRGGNTDQNLILLDGITVYNPSHLGGLFSNFILDAVKDAELIKGGYNAEYGGRLSAVLNVTSREGNRKEFQGTANISLLAAQTTLEGPFYKGAWVLSMRRTYIDQALKFANNLNLTNATVPYYFYDLQGHMFSDISPKDRLSISFYGGLDDFYFDDLGFNAEWGNRTFSLAYRRLFNDLLIGNFLVANSQFETFFGLGGESGIRDNNLIDDQTFSANFSYFQSQDLTWKFGLQGKILGFDYTSSFSDTVLFRIDRSPYELAAYLKTKVPLGNSFIIEPGIRFNTYSDQNNNFFPELRVGLKYLINDDRYINFAIGNYHQFIQTAQDDFNPSIIDFWIAIDKSVDAGASQQIVLGYEEYIDSRFKIQVEGYYKNIQNTLTFIDSRSSTDEILENSSVGDNFTMSDGYAYGLEIFTQKLTGKFTGWISYTYSISRKSIEESYFFNNWDRRHAFSLIGNYSLTKKWEMNWNWAYQSGQAYTPILGYFLEDLDYGISDPANMKFRTIPGIRNSGRYPAFHRLDFSLIRSIRTKRFEKMDFYIQIINAYNRKNIFRYIYGSGNVYNGIDDDGDWDKDKNDTNENNVPDRGETNVDEPDEARISRSDISIFPLIPTFGITIDF;locus_tag=LOCUS_02080;note=WP_011402954.1 TonB-dependent receptor (Salinibacter ruber DSM 13855) [pid:31.4%25%2C q_cov:90.6%25%2C s_cov:95.9%25%2C Eval:4.7e-103],MGA_209
sequence01	MetaGeneAnnotator	CDS	235445	236524	.	+	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLISFFFIVFSCIDEKAAEYEEKLIVFSSITGGLSMGVGGDTCVVSLSNEITNDVDPQSLFISNALVIISENGSDTADTLFPVQNRPGRYLTKPDVVFKNGKTYSLDVTWNNFSVSSETTIPDSIKISSPNNEYYICDGEQLKVDSVETDNFNTDLLPVLSFEELIPYINLNNISTAYYKDDGCYIGSFASFPLFLIDFEAQNSKTIQIFSQALERWTRGLEPDSDDNNSISFWDYNKNGIQDSSFTNLIYDTSFVYSIWKGDYLRFENGEPFRINPGMWQVSLTPTPMSWLYFDYYGMHLITIAATDDNYYNYYAGDPAANNQYLLPNSNINNGYGLFFSKASKSFLVNIAPEE;locus_tag=LOCUS_02090;note=MGA_210
sequence01	MetaGeneAnnotator	CDS	236564	237007	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIFGILSSILIWFFSIYISFHLKIPSINISDIFWWILFSYFVTDFFITIIWSLIHLPPHKQGKKLIMSGPYSWTRHPVYSSVIWSGTGIITLIWNSWIVMFSVIPVSFVWSWIAMKEEIVLYEIFGERYKKYLTKTGVFYPKFHK;locus_tag=LOCUS_02100;note=MGA_211
sequence01	MetaGeneAnnotator	CDS	237052	237918	.	+	0	ID=MGA_212;product=EamA family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878017.1;translation=MSITFAFAPIAAKDIVMSVSPFTVAFYRFILTSITLYIILKISGRKIQIEKVDYWRFVTLALLAVPINQITFLIGMQYTPASHPAMLYATTPAWVLILTVYLGVEKARWWKWIGISFALAGVFILFYGEILSFRKNTFFGDSLILIAVISWSLYTALGKPIVERYGSLESTFIIMTFGMLMYFPIGIISAITNDYSVFTINNFIALLILGIFVSGIGSYLWYWLLERIRPSQVAIMSCAQPPLVAFIEWFVYGLAPTANVIIGSIIIVLSVFMMIGYGGEKRSIPSNK;locus_tag=LOCUS_02110;note=WP_010878017.1 EamA family transporter (Archaeoglobus fulgidus DSM 4304) [pid:25.8%25%2C q_cov:93.8%25%2C s_cov:91.3%25%2C Eval:4.4e-19],MGA_212
sequence01	MetaGeneAnnotator	CDS	237919	238941	.	-	0	ID=MGA_213;product=endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008767132.1;translation=MLKIYPHILILLITLNLSFSKNFVISFYNVENLFDIYDSDNTNDIEFTPEGRKKYTQKVYNNRLKNISFVISKIGNDFSDNGPDIIGLAEIENRTVLEDLIKHPNIIKKNYSVVHYDSPDNRGIDVALLYKPTKFDFEESKNFKIQFLNNNGKFVNSRDILLVSGKLEKEKTHVIVNHWPSRYGGKLRTENFRKKAALVAKSIIDSILIQNPNDHIIIMGDFNDDPTDESLIKILNAVQTDNPSYDKLLNLYIDIHKKGIGTSLYKGNWNLFDQIIISKSLIKSRRSKKIKVKKVGIYNEPYLFQKIGKYKGYPFRAFGGDTYIGGYSDHFPVYIILETK;locus_tag=LOCUS_02120;note=WP_008767132.1 endonuclease (Bacteroides thetaiotaomicron VPI-5482) [pid:40.2%25%2C q_cov:97.6%25%2C s_cov:97.1%25%2C Eval:5.7e-64],MGA_213
sequence01	MetaGeneAnnotator	CDS	238978	239409	.	-	0	ID=MGA_214;product=3-dehydroquinate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WYI4;translation=MKILIINGPNLNLLGNREPDIYGNDSLKDIKEWIESQTELDTIDLEWFQSNHEGKIIDKLHNSINKKNGIIINAGGLTHYSYSLRDAISSINIPTVEVHLSDINKRESFRKKSVIKDVCINQISGKGKHGYLLAIEFLIDKFK;locus_tag=LOCUS_02130;gene=aroQ;EC_number=4.2.1.10;note=Q9WYI4 3-dehydroquinate dehydratase (Thermotoga maritima MSB8) [pid:49.7%25%2C q_cov:100.0%25%2C s_cov:97.9%25%2C Eval:1.2e-36],MGA_214
sequence01	MetaGeneAnnotator	CDS	239406	240506	.	-	0	ID=MGA_215;product=3-dehydroquinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHI4;translation=MQSNYSKNSKMINIPVKLGEKSYGIYIQNELIKSIPIILKKEVNPKNIIIISQDIIIQNYGKELLENFNKNNLTCEIISIANSENAKSLNEYDKVIKKLFDFKCDRSSIILALGGGVVGDLAGFVASTFMRGIKYYQIPTTLLSMVDSSIGGKTGINTKEGKNLIGSYHQPKAVLIDPYFLNSLPKEEVYSGLGEIVKYGFIKNIEFLEKVDYWLDDIKNFPFIEAITESCKIKAEIVSKDEMESGLRRILNFGHTIGHAIEAHVGYNKIRHGEAIAYGMLCAGWISEKNNFLNLNEFEKLVKIIKKLPLPKIPQMQKDDLLPYILKDKKNEKNKFNFIVLDKLGNAISTDKISINKILESLIILS;locus_tag=LOCUS_02140;gene=aroB;EC_number=4.2.3.4;note=B5YHI4 3-dehydroquinate synthase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:40.0%25%2C q_cov:91.5%25%2C s_cov:94.7%25%2C Eval:3.0e-58],MGA_215
sequence01	MetaGeneAnnotator	CDS	240473	240970	.	-	0	ID=MGA_216;product=shikimate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NFS0;translation=MKRIFLIGMMGTGKSTVGKSLSQQLNKTFIDIDQKIEKDEQISINKIFNKNGEKYFRKIESKTLLESTADIVSCGGGIILNKGNRDFLKENGFNIHLKCSIDNIIKRIENTSSRPLLKNGSLKNILYQIKKKRMEYYKNLANITVLTDNIEADEVCNQIIQKIQK;locus_tag=LOCUS_02150;gene=aroK;EC_number=2.7.1.71;note=Q5NFS0 shikimate kinase (Francisella tularensis subsp. tularensis SCHU S4) [pid:36.4%25%2C q_cov:95.8%25%2C s_cov:92.0%25%2C Eval:2.3e-23],MGA_216
sequence01	MetaGeneAnnotator	CDS	240967	242127	.	-	0	ID=MGA_217;product=chorismate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y5X5;translation=MLVRLKFLTAGESHGQGLLGILDGMPSNLDISEEYINIQLARRQMGHGRGGRMKIEKDKGELWCGVRHGKTLGAPIGILVKNNDWVNWTKKMSISPIDKEIRKVTLPRPGHADLAGMQKYGFDDIRNVLERSSARETTMRVALGTVCRKLLEDIGIFVGSHVTQIHHAKNTISYDRSISPVELNKKADASPVRCLDKKAEKEMITIIDDAKKAGDSVGGIFEVIATGLPYGLGSPMQWDRKLQAKITSMMMSVNAFKGIDIGGGMNESEKWGSEVHDEIGWENNKYIRYSNNAGGLEGGMTNAQPIVLKMAMKPIATLIKPLRSVDMNTKESKDAHKERTDSCAVPAASVIAESMLCFVLVDALLEKFGGDSMEQLKAHIKATSKY;locus_tag=LOCUS_02160;gene=aroC;EC_number=4.2.3.5;note=Q8Y5X5 chorismate synthase (Listeria monocytogenes EGD-e) [pid:52.5%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:3.3e-111],MGA_217
sequence01	MetaGeneAnnotator	CDS	242121	242912	.	-	0	ID=MGA_218;product=shikimate dehydrogenase (NADP(+));inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HDI8;translation=MKKFAVIGNPIEHSLSPALHMEIYNQLNFKAKFFLEKITSNKLDFFIKNNNYDGVNITIPHKENALKIVKKVDDSAKIIGAVNCLKKDYGFNTDWIGFLYSMKVNDVNLENKNCLILGAGGVARAILYSLSTSNVRGIKIEGRNNIKVKLLQNWINNLYPKNSNFEIPDLIINCTPLGMHPYIEDIPIKINKLYKETILVDTIYNPLKTKWLFEGKKIGLETIGGLDMFIAQGIISAEKWFNKKIFDKLDLQAIRKKLRKQLC;locus_tag=LOCUS_02170;gene=aroE;EC_number=1.1.1.25;note=Q6HDI8 shikimate dehydrogenase (NADP(+)) ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:36.8%25%2C q_cov:90.1%25%2C s_cov:91.3%25%2C Eval:9.9e-36],MGA_218
sequence01	MetaGeneAnnotator	CDS	242909	244156	.	-	0	ID=MGA_219;product=3-phosphoshikimate 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YH68;translation=MNLKGEIFFPGDKSISHRSLMFAALCNGKSKISNLSTGKDVESTKNCLKDCGINIYNENSYHIIIGGKFKNPTKELDCGNSGTTARLLSGLLAGQNINATLIGDSSLSNRPMKRIIEPLKSMGLKCSSRDFKLPLTIKSSELNGINYNSPIASAQVKSAIILAAIGSNKPTSFTEPILSRNHTEIMLKNIGVSINSNQLKTTVSKVKTNLQPFNFLVPGDPSSAAFFAGAASMIKNSSLILKNISGNETRLGIFSILKRMGATILKSNQRNILGEKIIDITVKNKTLNGVSISKDEIPSIIDEIPIIAIVASQAKGRTKITGAKELRFKESDRISSVVLNLKKMGADITELEDGMIINGPKKLNGTFIKTYHDHRIAMAFEIASLVAKNNNKLDSIDCVDISYPEFFETLNKIIK;locus_tag=LOCUS_02180;gene=aroA;EC_number=2.5.1.19;note=B5YH68 3-phosphoshikimate 1-carboxyvinyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:46.9%25%2C q_cov:99.5%25%2C s_cov:97.7%25%2C Eval:1.2e-93],MGA_219
sequence01	MetaGeneAnnotator	CDS	244156	245499	.	-	0	ID=MGA_220;product=phospho-2-dehydro-3-deoxyheptonate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9CIV3;translation=MKDWKINSWRKFNAKHIPEYPDQRKLNESEKTLKGFPPLVFAGEVRQLKQRLSNASDGNAFLLQGGDCAESFAEFGADNIRDSFRVLLQMAIILTAGINLPVIKIGRIAGQFAKPRSSEIEERKNIKLPSYKGDIINGINFNENSRIPNPERMIKAYSQSASTLNLLRAFADGGFANLRHLQSWNMGFVKSGPVGKRYRHLANKIQESLDFMEALGVSPSNTPELNQVEHFTSHEALLLPYEEALTRIDSTSGEIYDTSAHFLWIGDRTRFKGSAHVEFCRGIKNPLGIKCGPSLDPNNLIELLDILNPKDESGRITLITRFGHNEISKFLPKLIQKIKSEGRTVLWSCDPMHGNTIKSNNGIKTRPFENILSEVKENIKIHKSEGTHAGAIHLEMTGQDVTECTGGLHDIKEDNLSDRYRTHCDPRLNANQAIELAFLIADELINT;locus_tag=LOCUS_02190;gene=dhs;EC_number=2.5.1.54;note=A9CIV3 phospho-2-dehydro-3-deoxyheptonate aldolase (Agrobacterium fabrum str. C58) [pid:63.4%25%2C q_cov:99.1%25%2C s_cov:96.5%25%2C Eval:1.1e-169],MGA_220
sequence01	MetaGeneAnnotator	CDS	245501	246223	.	-	0	ID=MGA_221;product=prephenate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957934.1;translation=MNSVGIIGFGRFGKVLANLLKKGFQVKVFDNNSNVYLPGTQFVDKKTILSEKTIFVAVPIRNFESVIKEISNDLFEGQTIIDVCSVKMYPINIMKKHLPNNINIIGTHPMFGPDSFESNSKLKMMLNNVRSNVKIFQFWKQYFNDQKIQILEMSPNEHDILAAKSQGITHFLGRTLKEFGINKTSLDTQGFRDLLDLVDQTCNDSLELFKDLQCFNPHTKEMINKLMKATKTIEKELNKN;locus_tag=LOCUS_02200;EC_number=1.3.1.12;note=WP_010957934.1 prephenate dehydrogenase (Coxiella burnetii RSA 493) [pid:46.0%25%2C q_cov:98.8%25%2C s_cov:91.5%25%2C Eval:3.4e-61],MGA_221
sequence01	MetaGeneAnnotator	CDS	246220	246792	.	-	0	ID=MGA_222;product=chorismate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948233.1;translation=MIQIGIQGAMGSFSEQAAKKFVENQKIKNYSIQYLISSEGVLNAVENEKVDFGIFAMENAQGGVVLESVEALCKYTCKIVEMFHIPIKQNLLVKEGMKIENISEIHSHRQALRQCKEYLVENFWSKPLIQEDDTAEAARRLSEGKISNSAGVIASEYCASKYGLKILEENIHDLKNNLTLFISIKKSDNK;locus_tag=LOCUS_02210;note=WP_010948233.1 chorismate mutase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:40.8%25%2C q_cov:96.8%25%2C s_cov:94.3%25%2C Eval:3.8e-29],MGA_222
sequence01	MetaGeneAnnotator	CDS	246789	247559	.	-	0	ID=MGA_223;product=tryptophan synthase alpha chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GWZ0;translation=MNRIQKLFSKPKEKVIPFVTAGYPNKNSTVNLVLEMAKAGADMIEIGIPFSDPQADGPIIQYSSEIALKNKINIEFIFSQISTIRKKTNIPIALFSYFNPILQYGEEKFLNDCLKHGVDGIILPDLPLEESKKFCKNALILNLSPILLVAPNTSDERIKTISKTANHLIYAVTILGITGGKLSSTIEISNYLNRVRKNSTSPFIVGFGISSRKDVIWFNQYSDGAVVGSACIKKIKNNNDPESTINQYVKELKGKL;locus_tag=LOCUS_02220;gene=trpA;EC_number=4.2.1.20;note=A6GWZ0 tryptophan synthase alpha chain (Flavobacterium psychrophilum JIP02/86) [pid:40.6%25%2C q_cov:98.4%25%2C s_cov:99.6%25%2C Eval:5.2e-50],MGA_223
sequence01	MetaGeneAnnotator	CDS	247552	248766	.	-	0	ID=MGA_224;product=tryptophan synthase beta chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7VE26;translation=MNKKIKKYSLPDSSGHFDKYGGKYVPETLIPALNQLEKEYFKAKNQNSFQKELRNLLEHFGGRETPLYYASRISKELGFEVFLKREDLLHTGAHKLNSALGQIILAKQMGKKRIIAETGAGQHGVATATVCAHFGIECVIYMGETDIKRQEFNVFRMELLGAKIKPATTGSKTLKDATNEAIRDWVTNVESTYYLLGSAVGPHPYPMIVRDFQSVIGIETKKQFFKMTKSRLPDRLVACVGGGSNAIGMFYPFLDDKKVKIIGVEAAGHGLDSDQHAATLSKGNFGVLHGSASYLIQDTNGQITLPHSISAGLDYPGVGPEHSYLKDIGRINYVAVNDNEALNAFKWLSEKEGIIPALETSHALAYLKHKNSNIKKDEKVVLCLSGRGDKDLGIIFDEMEKINE;locus_tag=LOCUS_02230;gene=trpB;EC_number=4.2.1.20;note=Q7VE26 tryptophan synthase beta chain (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:61.6%25%2C q_cov:97.3%25%2C s_cov:95.4%25%2C Eval:1.1e-141],MGA_224
sequence01	MetaGeneAnnotator	CDS	248759	249394	.	-	0	ID=MGA_225;product=N-(5'-phosphoribosyl)anthranilate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74AH7;translation=MIPFKICGITNIKDALAAIEHKASAIGFIFVKDSPREISFETATEISKKIGNKISKIGVFVNQEKKIIEKAIKSIPLNMIQLHGDENPLFCSSFSIPVIKAIQIKNDESINKVREYNVDAILFDTYKKNVRGGTGSSFDWNILSNQKYDKPIILSGGLNKKNVLEAINSINPNAIDVNSGVEVRPGIKSHLKVKKFYNTINQTKNTGFQFE;locus_tag=LOCUS_02240;gene=trpF;EC_number=5.3.1.24;note=Q74AH7 N-(5'-phosphoribosyl)anthranilate isomerase (Geobacter sulfurreducens PCA) [pid:40.3%25%2C q_cov:92.9%25%2C s_cov:96.6%25%2C Eval:5.5e-38],MGA_225
sequence01	MetaGeneAnnotator	CDS	249391	250155	.	-	0	ID=MGA_226;product=indole-3-glycerol phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8AAD6;translation=MNILNKIIENKKNEILNIQDIKKVQNSQFIHRSLHKCLQEKKISVIAEIKMKSPSEGDIFKDCDYIQIAKEYESAGASAISVLTDYKFFGGNIKILQEVRNSVNIPVIRKDFIIDNLQIIETLNFEGDAFLLIAEALKPNELKSLYDYGKSVGLESLIEVHDIKNISFVNQLNPTIVGVNCRDLSKMTIDVKNFETMFDFLPKNSLKIAESGIKNNSDLKYINDIGYDGVLVGSSLMKTKNPGKALELLLKGIV;locus_tag=LOCUS_02250;gene=trpC;EC_number=4.1.1.48;note=Q8AAD6 indole-3-glycerol phosphate synthase (Bacteroides thetaiotaomicron VPI-5482) [pid:36.0%25%2C q_cov:95.3%25%2C s_cov:92.7%25%2C Eval:1.4e-39],MGA_226
sequence01	MetaGeneAnnotator	CDS	250152	251147	.	-	0	ID=MGA_227;product=anthranilate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_083774558.1;translation=MKLLLEQLLNKEDLSFEIAFQTMSEIMSGNYTDIEISGFLIALRSKGESIDEIAGFAKAMREKMIKVILTKPAIDMCGTGGDSSGTFNISTASSFVVAGSGINVAKHGNRSMTSKSGSADVLEALGINVNNNPEESAKNIDQIGLDFLFAPAYHPAMKFAIPSRKGLAVRTVFNILGPLCNPANVTSQTMGVFHKDYISVQAKVLKALKSKNVMVFHGKDGLDEISTTANTLICEMRNGTEITNYELNPEKFGIKKVQLNDLKGGSPEQNAKIIINILNGDKSPMRDIVLINAASGIIVGNKAKNFNEAIDIARESIDSGKAKNILEKLST;locus_tag=LOCUS_02260;note=WP_083774558.1 anthranilate phosphoribosyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:50.8%25%2C q_cov:99.4%25%2C s_cov:97.9%25%2C Eval:1.3e-81],MGA_227
sequence01	MetaGeneAnnotator	CDS	251144	251713	.	-	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFVIDNYDSFTYNLVQYIGLIKKDIKVSRNDKFTLKDISKLNPTHIVISPGPGRPEDAGLTIDVINTFGKVIPILGVCLGHQAITMAFGGKIINCNEIVHGKTSEIYHYGSLLFKNLSNPFLGTRYHSLIAESKSFPECLNITAELKDGVIMGLQHERYPIHGVQFHPESIGTDNGPKIIQNFFEMTS;locus_tag=LOCUS_02270;note=Q08654 bifunctional protein TrpGD (Thermotoga maritima MSB8) [pid:58.0%25%2C q_cov:98.4%25%2C s_cov:31.9%25%2C Eval:1.3e-61%2C partial hit],frameshifted%2C insertion/deletion at around 251152,MGA_228
sequence01	MetaGeneAnnotator	CDS	251710	253194	.	-	0	ID=MGA_229;product=anthranilate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546555.1;translation=MDKINLDFKKFSQLAKKHTTIPVYKSFLADLISPVAAWTRLNQKSDYGFMFESVEKGNQYSRYSYLGINPSKILKSENNTISIIEDNVEKKVNTNFFDLMKKEQKKYFSKTIEGMPPFTGGFVGFLGYETISWFENVPTNINYPVDIPDSIFMLFKEIIAFDHLKGSALVISNVSIDSSKKKLSSLYNESIKKIDEIGQLLHSDIDYQTPSVTSRSKVKSNFKKSDFTNAVLKTKDYITKGDIFQLVLSQRFERKTKIKPTTLYRSLRTINPSPYMFHLKLKDFNIIGASPEILVKVEDKTVEIMPIAGTRPRGKTKQEDEKFSKDLFADEKERAEHLMLVDLGRNDVGRVSTTGSIKIKNMMNIEKFSHVMHMVSNIRGKLLPNKDSFDALIGGFPAGTVSGAPKIRAMEIINELENDKRGIYSGAVGYYDFYGNLNTCIAIRTFVMKDDKVFFQAGAGIVHDSDPEKEFNETIHKAKALMKALDLAEDGLIQ;locus_tag=LOCUS_02280;gene=trpE;EC_number=4.1.3.27;note=WP_012546555.1 anthranilate synthase component I (Thermodesulfovibrio yellowstonii DSM 11347) [pid:45.3%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:1.6e-119],MGA_229
sequence01	MetaGeneAnnotator	CDS	253321	253605	.	-	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNDKMIYLRDKIDIIDDKITDLLVERFNIVKEIGAIKLNSRTEITNISREKSIISRIFKRTNENISHNDLSEIFNSIFEISKKIQNSIKNEK;locus_tag=LOCUS_02290;note=MGA_230
sequence01	MetaGeneAnnotator	CDS	253713	254519	.	+	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSAILFLFNFFVISSLMSQNIVLNEFLAGTDTCCDDGTGEIEDFIELFNPGTTAVDIGGWYATDDASELTKHQIPSDSSNTIIPAGGYLVLWASGETSRGALHVDFKLKKGGEFIGLVLSDGLTVVDSLTFGSQTDDISYGRVPDGGSSWSDITTPTPGTSNAALFVEDNISLPSDFQLQQNYPNPFNPTTSINFSVANSEFIELNIFDILGNKITTLMNNHIAPGNYNVQWNGKDFNGKIVSGGVYLYQLKSKSFNKTKKMIFIK;locus_tag=LOCUS_02300;note=WP_011403140.1 alpha-amylase (Salinibacter ruber DSM 13855) [pid:29.1%25%2C q_cov:41.8%25%2C s_cov:8.6%25%2C Eval:7.4e-10%2C partial hit],MGA_231
sequence01	MetaGeneAnnotator	CDS	254516	255580	.	+	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKPVHLFIITIFFGCSNNEKINSESFVFKDRNYDHLISQNNIKIAFGSCFDQSKSFSIFEAIKNTYPDMLIMLGDNVYGDDHSGELTKLKFAYEKQKDNFSLIDLEFPIEAIWDDHDYGINDGGADFINKEESKDLFLDFWDIPESDIRNQRDGIYYDQIIQLNNSKIHLIYLDTRYFRGPLLKTDSFGFKGKERYLPSYDESSSMLGLTQWKWLDERLSLESDIKIIVSAIQFLAVGHGWESWSMLPLEREKLINIIDKYDLDNVVFLTGDRHRGGIYKMKTKNENMIFDITSSPINSSTYPGEEDGIYRLGNTYTETNFGLVSINLISKSTSLELKDMFGNSVISEKLLH;locus_tag=LOCUS_02310;note=WP_000671775.1 alkaline phosphatase (Leptospira interrogans serovar Lai str. 56601) [pid:26.7%25%2C q_cov:96.0%25%2C s_cov:72.0%25%2C Eval:2.2e-21%2C partial hit],MGA_232
sequence01	MetaGeneAnnotator	CDS	255611	258418	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLKILILFFLINSINAQFYFGRNKIQFHQFNWNVLETEHFQIYYYEQEKELALAGAKYVEDAYEDISKKINFSLIEPVPLIFYSSHLHFQQTNTINRLLPEGVGGFFEFIKGRVVIPYSGNNNQFKNVIKHELVHVMMHQKINKSLSLHNVQTYRSPPLWFTEGIAEYWSSVWDSRTEMVIRDAIVNEYLGSLDNYSSMASGFLLYKAGQSFFRYVDETYGEWKILEILENMWRFTDFNLLLEYTFNTSYSTLMKEWKYFYKKQMYPILEEYDSPSSISNQITSRGINVSPAINIENNEIYFLTNRMGYSDIYSKTLSTEHNSTLVLKGERTANLESLHLLNSNLDIQENELLVSAKSGSSDAINIIDVESKKIKNSLQFSNVVSISSPKWNFDKTKIVFSASSWNGNKDIYLYDFKNKLLRQLTDDYFLDINPIFSPDGQIILFESDRGEFGFDGYTNLFLLKINDQKIFQLTNGKFKDSHPHWSKINNNILFSSDRDGSVNIWKFDSVEVDKIYRSLNNKKFENLNITRHTNSISNAIEPHWADKDSKKVIFTSFENYSFQIYSIDNIEEKIFNEIEINPVTDEFKMWERIYYDVQKIKNIPSYKKKFTLDISQTSIAYDQTFGLLGGAQFALSDVLGNHHYNFLLFNTSETSSDLLSRMNFAVSKIDLSKRVNIGYGIFHFAGDYYNFSNGYFFEKRQGVQLSLSYPFSIFKRIEMMNSLIDSERDSYIEDYYFDGFLFSNSFSYVFDNSIWGSLGPVDGTAYRISVNQSYDILKNKLHSTGISTDIRKYFRLSFRTLYAVRLMTSIRKGQSHFNSYIGGSWGLRGYYRRSVSGTSFFMLNNELRLPFADHLVMRFGSRNIGFAPIRSALFLDFGNAWDDKLDDILGSAGIGLRGNFLGGLVLRLDIGRTFDLSNNWGDTFTQFFFGWNY;locus_tag=LOCUS_02320;note=F9YAK4 protein TolB (Ketogulonicigenium vulgare WSH-001) [pid:26.6%25%2C q_cov:16.5%25%2C s_cov:33.3%25%2C Eval:4.0e-08%2C partial hit],MGA_233
sequence01	MetaGeneAnnotator	CDS	258422	259501	.	+	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFILRYSFLINVLISSVLISQDLKSSTNIKVLKKWSKEFISGVSFPVIKNDNKLITPLLDGNIQILDFNTGQRINRYNLGKGPILEMSHFNSNLTFIMPFERKSLRTYNIDSEKYILKKKIKFSPKYSIQNKSDSLIFGNNYRIGSINKFDGEENWFVKFEIPLVSKPYILNNQIIILNENNEILILSFNNGEIISKSKINKEVLSKKLLRGLSLEKDDNLYVTSYLGNFFSFNLIENKNNWLVKLNNYIYVSPIINEGNVFVCDASGKVISLNASNGYLNWEFDTKLLINQDPMIINNELMIITEVGKIFFLDQLKGDMLSSSEIDGRVMFAKKIDEFKILVANDSKKISLFEIKNN;locus_tag=LOCUS_02330;note=MGA_234
sequence02	MetaGeneAnnotator	CDS	231	944	.	-	0	ID=MGA_236;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919230.1;translation=MIKKIIFFLFFTLLFSNENNHQIDYSILNDNSRPEKERIQDPYRKALEVYSFLGIKEEMVVADIDPGGGYNTHLLSKIVKNNGKVICILNTHGGGEMPYDLRKIIKKRIKNANLSNVKVYRKINEVPKNLIDVVVCIRNYHDNKPPRDKFLSNLLKIVKPGGIVGIVEVATNKLGWDEETHRLNEQVVIDEFQSNGFKLLDKSNILKNYKDDYSISGFDEGRYKMDRYLLKFIKPYD;locus_tag=LOCUS_02340;note=WP_010919230.1 methyltransferase (Caulobacter crescentus CB15) [pid:29.3%25%2C q_cov:87.8%25%2C s_cov:89.3%25%2C Eval:7.3e-16],MGA_236
sequence02	MetaGeneAnnotator	CDS	941	1168	.	-	0	ID=MGA_237;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P61688;translation=MAKEKPLSIDGTIKEALPNSMFRVEIEIGDKNHEVLAYVSGKMRKFFIKILPGDTVTLEMSPYDLTRGRIVYRHK;locus_tag=LOCUS_02350;gene=infA;note=P61688 translation initiation factor IF-1 (Geobacter sulfurreducens PCA) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-22],MGA_237
sequence02	Aragorn:1.2.38	tRNA	1188	1262	.	-	.	ID=Aragorn_1;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence02	MetaGeneAnnotator	CDS	1277	1501	.	-	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNKKTSRESPFVNWSFKKINYILFITGLSLVIFGYILMATGEVNSFQSLTLAPMMLFIGYLVVIPLSILIKK;locus_tag=LOCUS_02360;note=MGA_238
sequence02	MetaGeneAnnotator	CDS	1617	2651	.	+	0	ID=MGA_239;product=aminodeoxychorismate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583236.1;translation=MNLKAKQNKIDIIGFIFSLIILSSVAFYSLVVFWPLNNKVNSINFEVKKGSSLKEIASNLIEKKIIEDSETFVLAATMMGHEKNIRAGIFSLTNFNSNYNLITQLVKGNPVLEKITFPEGLTIFQMSDLLEKKLNINKQSFLDLCYNQKFIKSFNIKSPSLEGFLFPETYYFQKNENPSIIVSKMIKEYKNFFKEKIKYRLKEINFTELELLTLASIIEGEALYDIERTVISSVYHNRLNKNMRLQADPTIQYIIDDSPRRLYNKDLKIPSPYNTYLNKGLPPGPINNPGRESMLAVLEPDSTDFLFFVADGRGYHVFTRNESEHNIAKKRFKEFRKSMKLKKN;locus_tag=LOCUS_02370;note=WP_012583236.1 aminodeoxychorismate lyase (Dictyoglomus turgidum DSM 6724) [pid:37.0%25%2C q_cov:93.3%25%2C s_cov:98.2%25%2C Eval:2.1e-53],MGA_239
sequence02	MetaGeneAnnotator	CDS	2654	4825	.	+	0	ID=MGA_240;product=DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y6C9;translation=MKKFKLNKVQKEAVESIEKPSLIFAGAGTGKTRVLTHKIAFLIDQKGYDPSEILAVTFTNKAAQEMQNRVKLIIGNNIKSPNIGTFHSICARFLREEINLLGFNSNFAIYDTSDQDMLIKSIINSQKIPTNGVTVPTFRSQISYFKSKLINPISFLEKSNNPFDISLSKIFPHYMKELKENNAVDFSDLLLFPLQIFEKFPKTLNKYQNKFKYILVDEYQDTNEPQFHFVKYLSEKHKNITVVGDDDQSIYGWRGADISNILNFEKTFPNSDVFKLEQNYRSSGNILAVATNVVANNLVRSKKTLWTEKEDGDKIGLMETFDELEEIDGVIELIQKEIHQNKRSFSDFVILYRTNAQSRAIEDGLRRKAISYEIVGGIKFYERKEIKDLLAYLRVLVNPSDTISLKRIMNFPPRGIGAKTIEKCEYLAFNKNLPLLEILKTPEEMNLKGQQAAGLIQFHQIIKKYSELKDKFDASELASVLVEELGLINFYNEQNTEDAKERLRNIQELLTTIHQFCEKNTNSTISEFLEEVSLLTSIDSWNDSTNHITLMTVHSAKGLEFPIVFITGLEDGLFPLSNSFDDPKKMEEERRLFYVAVTRAEEKAFLHYATNRRRSSGASGLGQPSRFVNEISSNFIERLNFQSAMTRRLVKEKNSDKYKLKYIRTITSFNEFERGDKVEHPIFGKGMILAVDGSGDNQKITVVFQGNIEKRLIGKYANLKPLK;locus_tag=LOCUS_02380;gene=pcrA;EC_number=3.6.4.12;note=Q8Y6C9 DNA helicase (Listeria monocytogenes EGD-e) [pid:41.0%25%2C q_cov:98.9%25%2C s_cov:98.5%25%2C Eval:1.2e-158],MGA_240
sequence02	MetaGeneAnnotator	CDS	4829	5701	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKINLFLYILNFLINCNLIANENLNIWNIETKTYLLKQISNNESAYQSYERIIHSMESYDIKPDYIKQIFLDDRVKFDINIIKRFENQSEKLSYEKYKKIFITNNRIKNGVKFYNKNKDMLELVNSKYGVDAFLLVSLSGVESNYGVNNSSNLVFTSLHTQIHDEKRKLWAEKEMTEFIKYCYENNIDPFSLRGSYAGAFGFGQFIPSSFRAYAVDFDGDEIIEPFDWLDVFASMSNYLIKNGYKNNSNDFSYKTSNWNSIYRYNHSKNYVNVILELRKEIIKELSIQ;locus_tag=LOCUS_02390;note=WP_003132500.1 soluble lytic transglycosylase B (Pseudomonas aeruginosa PAO1) [pid:36.2%25%2C q_cov:71.4%25%2C s_cov:61.2%25%2C Eval:7.5e-27%2C partial hit],MGA_241
sequence02	MetaGeneAnnotator	CDS	5740	6549	.	+	0	ID=MGA_242;product=phthiotriol/phenolphthiotriol dimycocerosates methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9CD86;translation=MLGSIWRSIKFLTPSFNRALSKFGYEMAAKNFQFEDWRFMNFGYVYENDKDSPVLEKTDELDRYFIQLYDHLIKDLNVENKKILEVGSGRGGGANYISKYYKPLSYVGIDISQNAIDFSNRVNNIDTLSFEQGDAENLSFKDQTFDIVINVESSHCYGSFDKFLSEVFRVLPSDGYFAFTDIMTISKWNEIEKIINNSKFRKIYEKDISQNALNSLTKVSEWRKTWLEDKFPSFVRGVAEDISAVKGTRPYNKLESGKLIYKTYLFVKD;locus_tag=LOCUS_02400;EC_number=2.1.1.-;note=Q9CD86 phthiotriol/phenolphthiotriol dimycocerosates methyltransferase (Mycobacterium leprae TN) [pid:33.7%25%2C q_cov:94.8%25%2C s_cov:94.1%25%2C Eval:1.4e-40],MGA_242
sequence02	MetaGeneAnnotator	CDS	6532	7176	.	-	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREIFKKIHEPSSSISDFILSLFCFFWFYDLWKLFLIHKLNIHFLSSILFFVLAISSILGSFFHMFAKMISNKLIGFNFKIAVFTIGLVLLLISFIYIDILLEHNLKFIVGCFFLFLIIYFYYQCVSKNFNKLIISLLPIILFIIFGIYIELTNNYIGSKETLFGFLIIFLGLIVWKSGFSIHKNFNKNDIFHYISIIGLWFLYQGYKLSIFHK;locus_tag=LOCUS_02410;note=MGA_243
sequence02	MetaGeneAnnotator	CDS	7192	7896	.	-	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQSIISIHDIMPHTLDKIKIIIKKLEKIKCSPPTLLVVPGKNWNKNDINFLKTIQKYGYEIAGHGWYHETKNISTIYHKLHSNFISRNVAEHLSLSNEEIIILMNDCLEWFEKNQFQKPITYVPPAWALGKITKKDISNSSYKIIETLSGIYFEGKFKRMPLVGYETDNLFRVITVSFINFLSEKISVYTNTPLRISIHPNDFSYQLKSKLEKILNSDRNFYGYRDYYLKFKE;locus_tag=LOCUS_02420;note=MGA_244
sequence02	MetaGeneAnnotator	CDS	7900	9015	.	-	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTKSKINKKSNLKVMIVLDVLPDRNGAGSYYRDLVEHITPLVKNLILFGPSKNNDINTLFTVPMPGDNTQKLYIPKYYHLSKYIEDFKPNIIILPTPGFYGLTALKKAKEINIPICPVLHNDYEGLASFYWGGFIGFIINKIFVWLNRLFFKTANITLIMNKEMNELAKKMGAKKIVSIGTPLAKEFLDKPLKPINNKIRRVLFAGRLAPEKRIDKVLESAKNLPNIKFAFAGDGPLKGLVVKKEKELNNIKYLGWLKRRELIKELDDSEILVLPSSLETFGTAAFEGMSRGRIVIVSPEAGITNWSDLSSYLFKTSTEKTLTKTLEEIISLPNSKIKKISTDSSKIARKLTKETIKEWIKTINKISKIN;locus_tag=LOCUS_02430;note=WP_014208336.1 glycosyl transferase (Acinetobacter pittii PHEA-2) [pid:24.4%25%2C q_cov:77.6%25%2C s_cov:71.3%25%2C Eval:1.3e-16%2C partial hit],MGA_245
sequence02	MetaGeneAnnotator	CDS	9027	10169	.	-	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNYNFLLILKLSFKTIFLNNYVQNFSLKRLVVLFLFIPTFLLIQLSNRIFLFLDNFFFRGYKKVAIKKPLFIVGIPRSGTTYIHNVISKNSSIFTTFSLWELIFAPSICQKQIFHFFIKVDTLFGKPLTKVLNLIEKKAFKDINSMHKTTLSSPEEDFFLFTSIGACFLLIIPFPFKEIWDLGFFNSKINPTSKIKILTFYKSMIKRHLYFYGQEKIYLSKNASFSPWVKDLLNFFPNSNYISCFRKPEETIPSQLSILAEGWKIFNNKFENEFFKDPIINIFENYYKELIKLSKLKNQNQFIVLKIQDIKLDFKLKITNIFNTFNYEIPPEFETILDEEDQKNKNYKSSHNYKLDNFNININDLKNRFQFVYKYFNNF;locus_tag=LOCUS_02440;note=MGA_246
sequence02	MetaGeneAnnotator	CDS	10170	11312	.	-	0	ID=MGA_247;product=acylneuraminate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023668.1;translation=MEKIVAFIPARSGSKSIPNKNIKFFAGKPLIHWVINAALDCIYFDKVYVSTDGKEIQKIANQISNPKLKIIGRPKSTAEDSSTTESAMIDFASRFDFEDIVLIQATSPFLKSIDLDRGINKYLNNNFDSLISIVRQKRFIWSKNNELINPYNYSPEKRPRRQDFNGFFVENGAFYITSKKLLLKSNCRISGKISYYEMNQNSYFEIDEEIDWKIGENLIEKNNLNIPIKIKLFCTDVDGVLTDSGMYYTENGDELKKFNTRDGKGIEILKKHKIKTAIVTSENTSIVKKRGNKIGVDFIFQGIQNKLELVKKLCEEQKIKLSEVAFIGDDLNDLNLLKHVGFSACPSDAVDKIKNISDYICSKKGGDGCMREFAEKFIQD;locus_tag=LOCUS_02450;note=WP_011023668.1 acylneuraminate cytidylyltransferase (Methanosarcina acetivorans C2A) [pid:53.8%25%2C q_cov:99.5%25%2C s_cov:98.7%25%2C Eval:2.8e-115],MGA_247
sequence02	MetaGeneAnnotator	CDS	11300	12169	.	-	0	ID=MGA_248;product=N-acetylneuraminate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023669.1;translation=MRPKVIAEIGCNHKGNMDIAKEMIITAKIFCKVDIVKFQKRNPKELLSEKEYKIPHPVKSKSYGNTYGQHREFLELSIEDHIELKKLCDDINIEYSSSVWDISSAKDIISINPKFIKIPSACNMDMNLLEILCKEYHGQIHLSLGMTTHAEEKKIINFFEKHNRNDDLIIYSCTSGYPVPFKDICIKEISRLKKLYEERVNSIGFSGHHLGIAIDLGAFMLGAKWIERHFTLDRTWKGTDHAASLEPGGMRKLVRDLDSLNESLSEKNNEILEIELSQRKKLKKIKWKK;locus_tag=LOCUS_02460;note=WP_011023669.1 N-acetylneuraminate synthase (Methanosarcina acetivorans C2A) [pid:65.9%25%2C q_cov:95.5%25%2C s_cov:96.5%25%2C Eval:6.6e-108],MGA_248
sequence02	MetaGeneAnnotator	CDS	12188	13297	.	-	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYFNQFMLLKFSLNMKNSSIFFVSTPLHVLNSLIIALGEYESNDCILVFIDQPKDRENHYYNILKNWEKSPFKKILYFQSSGNLNKYQHRKNIFKDIYIELNKINFSKIYTSNDRRIEFIYAYKLLKKLNKNIKCIYIDDGIMSYVIHKYSWESPLEILVKKLYYGFWYNRTRIVGSSKFINSSIVAFPKFVHHYLKKSNPILLKSEYFKKNIYLDFLKKILYSFKQNSNIHNLKYILILPHQIELKKYWNFYNKLKDDLIDNNESSHKIGIKYHPFQNGDPLNFKNDNNFTIINSDIAFECIVPFLKKETTIIGDVSTAMIYAKLIKKNLNVVLIRNKNDIRLNKLRPLLNEIGVIEFDSIKNYLNK;locus_tag=LOCUS_02470;note=MGA_249
sequence02	MetaGeneAnnotator	CDS	13318	14502	.	+	0	ID=MGA_250;product=nicotinate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WYU5;translation=MMKNLYLQNYSLNEIRIGYRSDKYFKRSKIILENKNDLRKVKIQIFQREKSILCGIKESIEILKQCVGFYSDKKKSIKLFKNYLRIKKSDKYKDLRCLQKDLFEVEKELDNIWVNTFNDIEIFSLNDGDIINPWETVMTIEGSLSYFVNLETIYLGILSRRTKIATNVNKVVLAANKKPILFFPARFDHFSLQEGDGYAAIIGGADSISTDAQGEWINIEGVGTIPHAFISAFNGNTVKAAELFNQNFPDIKLIVVVDYDNDSVKTSIDVAKRLGEKLWAVRIDTSSNMVDQSIISSMGNFIPTGVNQNLVMNVRDGLDKNGFKQVKIIVSGGFDFKKIKLFEKNNVPVDIYGVGSSILKHNIDFTADIVTLNGIASSKKGRKINKNSRLKLNN;locus_tag=LOCUS_02480;EC_number=6.3.4.21;note=Q9WYU5 nicotinate phosphoribosyltransferase (Thermotoga maritima MSB8) [pid:39.6%25%2C q_cov:96.4%25%2C s_cov:94.9%25%2C Eval:9.4e-77],MGA_250
sequence02	MetaGeneAnnotator	CDS	14514	15080	.	+	0	ID=MGA_251;product=bifunctional pyrazinamidase/nicotinamidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880618.1;translation=MNETALIIVDVQNDFCDNGSLPVPNAEQIIPGINKIIEYFHSSFLPVYATRDWHPIDHCSFKSNGGLWPMHCVQQTKGSQIHSELLIDSRVTIINKGTDKDKEAYSGFDGTDFSQELRKRNISKVIITGLATDYCINWTTIGALNNGFSATVISDLIRGIDLKPGDCKNAINEMSKSGAKFINSFELN;locus_tag=LOCUS_02490;gene=pncA;note=WP_010880618.1 bifunctional pyrazinamidase/nicotinamidase (Aquifex aeolicus VF5) [pid:49.7%25%2C q_cov:94.7%25%2C s_cov:90.4%25%2C Eval:5.0e-50],MGA_251
sequence02	MetaGeneAnnotator	CDS	15122	15550	.	+	0	ID=MGA_252;product=ribonuclease H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NH79;translation=MIEVYTDGACKGNPGPGGWGVVIIDSNSEKYLKGFHPETTNNIMELKAVIEALKQINLKTKIRIYTDSKYVKLGITEWIFNWKKNGWKTSSKKDVKNKNFWIELDHLVGQNEIVWEWVKGHSGNKYNDKVDELANQAISENL;locus_tag=LOCUS_02500;gene=rnhA;EC_number=3.1.26.4;note=Q5NH79 ribonuclease H (Francisella tularensis subsp. tularensis SCHU S4) [pid:57.4%25%2C q_cov:95.8%25%2C s_cov:85.0%25%2C Eval:4.5e-44],MGA_252
sequence02	MetaGeneAnnotator	CDS	15560	16216	.	-	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKKKPNNNTDHFKSELGWREFSYNLLYFNHDLSTKNFQQKFDLFPWKYDQKKFSAWKKGLTGFPIVDAGMRELWETGYMHNRVRMIVGSFLVKNLLIDWRYGERWFWNCLVDADLANNSASWQWVAGSGADAAPYFRIFNPVIQGFKFDEDGKYTKKFVPELKNIPNKFLFNPWECPDEILEKSGIKLGDNYPKPIIDLKNSRNDALLSYQQIKK;locus_tag=LOCUS_02510;note=A9CJC9 deoxyribodipyrimidine photo-lyase (Agrobacterium fabrum str. C58) [pid:55.1%25%2C q_cov:99.1%25%2C s_cov:45.1%25%2C Eval:2.8e-72%2C partial hit],frameshifted%2C insertion/deletion at around 16208,MGA_253
sequence02	MetaGeneAnnotator	CDS	16164	16961	.	-	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLHWFKNDLRLYENPSLYEASKDSKIITIYILDTFVDNHFQLGEASKWWLHHSLKKLNESLNNNLCFYKGDPNKIIFEIVEKYKIKKVFWNRSYEPWQIKRDTKIKENLFKNNIEIKTFNSSLLWEPESIKKDDSTPYKVFTPFYKKGCLNSNPPKRPLNNQPNLNCFKDDNSQTLNSLNLLTNFKWYSKLEKHWEVGEESAKKSLKTFINTGLSNYKKGRNFPAKKNVSKLSPHIHFGEISINKIWYEIEKKKTKQQYRSFQK;locus_tag=LOCUS_02520;note=WP_010945973.1 deoxyribodipyrimidine photo-lyase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:41.4%25%2C q_cov:90.9%25%2C s_cov:51.0%25%2C Eval:2.6e-44%2C partial hit],frameshifted%2C insertion/deletion at around 16187,MGA_254
sequence02	MetaGeneAnnotator	CDS	16968	19037	.	-	0	ID=MGA_255;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963575.1;translation=MTPRITLCTIFLLSNFHFSKANNELIINRVVDSNGKIIPFTSIYSDENKSELITTSNEKGKFIISKNEFEDSNIIISHSNFNDLKVTLDDLKLNKVIKLDKKIFFFDPIIVFGNKYNFESDNLPLKHEKINSIDFPSHGNSLGEKLDRFGLSIRDYGGTAGLKTISSQTGFSEHILVLIDGFEINSPQNGTVDFSGLPGDFFSHAEYYYGQGSSIYGSNAVGGILNLIPSSKPNYVKLKSGSMGEQGISLNGNINSKNSNFSLLINNYKNENDFRKNNKFEQLSSGLNFNFNSKSWDISSNLIYLDTDRRIPGSLTYPSINAFKTNNDILFTFKATTVSKFGYSSISAGNHSTSENYVDPDWMTDSNHEVQTNRLKFGHRFKLQKKITNIFTLDFANMNIQSDDTGNHKMNTIGSTYLLNYNIFKNLRISPSIRFDWDDHSNNSSSSSNFAFILNTNSLIKKFTFNGGTSFRNPTFNDLFWLDSGFSKGNPNLKPETGSSFQGEVSIKSLLNNQLNFSLYSSFFKTINLIQWSPDENFVYSPQNVLDSQSSNFGIKSKIKLNDFPFEVNSGFSQINSKVLSEGENKGMELLYVPSNSSWSELKIKFNNFSSLISYRNLQNKRYSYYGENSIIKNYERVDFSVSLNLNILSKTVNLDIGARNLLDKKNIQSVYDYSEPGRSLFMNTLINF;locus_tag=LOCUS_02530;note=WP_011963575.1 TonB-dependent receptor (Flavobacterium psychrophilum JIP02/86) [pid:25.4%25%2C q_cov:77.2%25%2C s_cov:87.6%25%2C Eval:1.1e-28],MGA_255
sequence02	MetaGeneAnnotator	CDS	19421	19900	.	+	0	ID=MGA_256;product=HNH endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403943.1;translation=MICTAKRAISLAFLGKVKVVENYKQRVSSPSLTINLPSVVKLDKFVNVRNNKIVLSRKNILKRDQHQCQYCLKTGVPMTIDHIIPKEKKGPDSWENLVACCHKCNIKKGNRNLEQSEMKLIRKPKQPTRIHYIRQFVKRDQSSWKPYLYMGNKELRAIA;locus_tag=LOCUS_02540;note=WP_011403943.1 HNH endonuclease (Salinibacter ruber DSM 13855) [pid:43.3%25%2C q_cov:93.7%25%2C s_cov:89.8%25%2C Eval:1.7e-33],MGA_256
sequence02	MetaGeneAnnotator	CDS	19897	20877	.	+	0	ID=MGA_257;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001221812.1;translation=MKNKRILSGIQPSGQVHIGNYFGMMKQMIDLQNDNKLLCFIPNYHALTSQNFGENLSYNTLDTAANFLSLGLNPDKSIFWVQSDIPEVAELNWILSNFVSVSSLERSTSYKDKISKGLKPNHGLFSYPILMAADILLFGAEVVPVGKDQKQHLEITRDIVSKFNSVFGDLLIKPKPLITELTGLVLGTDGQKMSKSYNNFIEIFCDKNELSKKVMRIKTDNSSLDQPKKTTGNPLFEIYSLFINENEKINLEKRFKTPGLKYSDVKNELIELFWNYFSIAREKKNTVYSDKELIIKILKDGSEKAKELSSPIINRIRKETGLKYTN;locus_tag=LOCUS_02550;gene=trpS;note=WP_001221812.1 tryptophan--tRNA ligase (Leptospira interrogans serovar Lai str. 56601) [pid:46.2%25%2C q_cov:97.5%25%2C s_cov:98.8%25%2C Eval:2.3e-83],MGA_257
sequence02	MetaGeneAnnotator	CDS	20877	21596	.	+	0	ID=MGA_258;product=segregation and condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HEA8;translation=MSHQINLESFSGPLDLLLFFIKRDEIDIMDIPISKITSDYLNAIKDLEQINLSNAGDFIYMASSLMRIKAKMLLPLTNDNNEEEFDDPRIDLANKLIEYQKFKNISNDLKNMYTQQLNFFPFNFKYIQKEKDYNNFNLEKISLFEFASLFKTLIEKKPIQINYDLKKEKIRVKEKISFILKQLFDLPKIFFSKLFNRKSQKDDIVVTFVAILELIQNKRIKVTQKSNFDEILIEKIKIK;locus_tag=LOCUS_02560;gene=scpA;note=Q6HEA8 segregation and condensation protein A ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:34.6%25%2C q_cov:97.5%25%2C s_cov:97.2%25%2C Eval:1.1e-35],MGA_258
sequence02	MetaGeneAnnotator	CDS	21599	22129	.	+	0	ID=MGA_259;product=segregation and condensation protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YFR3;translation=MDDLRIIEALLFSCEDILTQKKVDLCFDNLKPPELDKIVKILNREYEKSNRSFLIQKISSGYRIVTHPIYSKWIKKMFRESSSLSQPALETLAIIAYKGPVTRSDIESIRGVGCVGVLKTLLEKKLIKINGRSKDMGKPLIYGITNEFLIAFGVDSISDLPKLKEVNEIINQTSTI;locus_tag=LOCUS_02570;gene=scpB;note=B5YFR3 segregation and condensation protein B (Thermodesulfovibrio yellowstonii DSM 11347) [pid:42.2%25%2C q_cov:93.2%25%2C s_cov:90.2%25%2C Eval:5.5e-29],MGA_259
sequence02	MetaGeneAnnotator	CDS	22137	22853	.	+	0	ID=MGA_260;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I2T5;translation=MIRLVKFLSNSGIASRRKCEVIIKDGRVRVNKILNKNPFFEINSNDLVELDDKIVLPVLKKKIIKLNKPVNIITSTKDTHNRKTVLDLISEEEKLFPIGRLDKDTTGVLLLTNDGDLAYKLTHPKFKVFKIYLAISLKKFNLTQIKKIKNGINIGDEELGHAEIISQKNINEFFEIKLKLFHGKKREIRRIFKVMNIKLISLKRLSFAGIYVDDLKLGEYKNLTKAEIELLKSNVKND;locus_tag=LOCUS_02580;gene=rluB;EC_number=5.4.99.-;note=A5I2T5 pseudouridine synthase (Clostridium botulinum A str. ATCC 3502) [pid:39.1%25%2C q_cov:96.2%25%2C s_cov:97.5%25%2C Eval:1.1e-38],MGA_260
sequence02	MetaGeneAnnotator	CDS	22919	23572	.	+	0	ID=MGA_261;product=cytidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8RII8;translation=MIIAIDGPAGSGKSSTAKGVSKKLGFFYLDTGAMYRAVTLGLIKSSIKFDEFEKIENFIDNCSINFNFDGSKINLNGKNISREIRENLVTSNVSEVSSIKLIRDKMVYLQKKIVKNDNFVVEGRDIGTIVFPEAEFKFFLNANIKQRAIRRKNQNFKQGIEKNLNEIILELKARDKKDSTRENSPLVRANDAISIDTSNVTLNDQISLICNYIYNFN;locus_tag=LOCUS_02590;gene=cmk;EC_number=2.7.4.25;note=Q8RII8 cytidylate kinase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:48.4%25%2C q_cov:98.2%25%2C s_cov:96.8%25%2C Eval:1.9e-52],MGA_261
sequence02	MetaGeneAnnotator	CDS	23593	25509	.	+	0	ID=MGA_262;product=30S ribosomal protein S1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_661192.2;translation=MSIDKKDNQLNNNIDESIDANDLVEESVSGEKMEAENLVEDSISNELDETNVSIDTKKTISSEKEKNESSKIKIEIKNYLDKNLFDDIKIIEESEVFKDEEYVVDDKEMNKYISTFSDIAQNQIINGKVIGQNEKEIIMDIGFKSEGIIPRTEFSTISIPDLGDNMDVYLEKIEDKNGQTILSVEKAIWMKGWMKLMKIQKEDKTVMGKVIRRIKGGVIVDVEGIQAFLPGSQIDVRPVQDFDDLLGKELEFKIVKINQLRKNVVLSRKALLSNSMKEQRDQLFENIKEGQIMQGVVKNITDFGVFVDLGGLDGLLHITDLSWGRVNHPSEITSIGETINVKIIEIDSNKQRISLGLKQLVPHPWDNVEEKFPVASKIKGKVVSLTNYGAFVELDTGVEGLVHVSEMSWTRNIRRPDEVVQLGEEVEAQVLSIDLSERKIALGFKQLQNDPWQEVQDKYQVGSILKGEVRNLTQFGAFVELQDGIDGLIHVSDLSWTKNVNHPKEILKKGENVEVKVLEVSKENHRIALGLKQMSEDPWDDIKSNFSTGSKINGKVLKKIEKGIILDLDLNTEGIIKTHEMSDENKVIFEESIEIGQVVECKVLDINQDDKKIILNFSDEKKLIEQLKNDIEKSSKEK;locus_tag=LOCUS_02600;gene=rpsA;note=NP_661192.2 30S ribosomal protein S1 (Chlorobium tepidum TLS) [pid:43.9%25%2C q_cov:82.6%25%2C s_cov:90.7%25%2C Eval:2.6e-141],MGA_262
sequence02	MetaGeneAnnotator	CDS	25548	26522	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNLQNSKKGLLSTSLGAFFFAIILWLFVISEKNYSYVFEMPIEVRNIREGKTLGGEVSPTADVRFRATGRELLKALLLKSISDFKLVLDLERVNTNYDFYLNDYFEKYNQKVVIPNSFNIEYVEIIRPESIQISLDDYMVKMVKVKPLISVEVSPGYTIVGKFNILPELLEFKGPKEIIENLDFIETISKKFKSVKAPINAKVPVSFNFTRVIESSDSLITFQANIQSIGERILSEIPVKILNIPDNIQAFPNPSTVSLNISGGVEFIASLQPTDIDVYIDYNDFTKNEISNEPRIQVPNDVIEWRDLSPKFIELTIRRLPE;locus_tag=LOCUS_02610;note=MGA_263
sequence02	MetaGeneAnnotator	CDS	26519	27520	.	+	0	ID=MGA_264;product=tRNA N6-adenosine threonylcarbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I738;translation=MNVLGFETSCDETAVSICSNGKIVSSIVASQQNHSKFGGVVPEVASRMHEKLLLTTMKKCLDDSKISKKKIDAIAVTIGPGLMGALLTGVSFAKGLSVGLNIPLIGVNHMEAHLFSNFIEYPDLEFPFLCLLVSGGHTQIWKVKNFRDYILLGDTRDDAAGEAFDKGARLLGLSYPGGIEIEKQSKNGNSNKYKFPLALYNSKEIEFSFSGLKSSLLRFSQKFNGEIPKNIISDVAASYQKAIVDSLLNKLKLAEQKTKISTIVIGGGVAANQSLREKTSIIFKNSRVLFPSLQLCTDNAAMIAFLGEKLIKKGFKSNISVGVYPNLKLNDLK;locus_tag=LOCUS_02620;gene=tsaD;EC_number=2.3.1.234;note=A5I738 tRNA N6-adenosine threonylcarbamoyltransferase (Clostridium botulinum A str. ATCC 3502) [pid:47.2%25%2C q_cov:99.4%25%2C s_cov:98.5%25%2C Eval:4.6e-79],MGA_264
sequence02	MetaGeneAnnotator	CDS	27523	29652	.	+	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPIFNPWYFLFILIITSLIIYFSYRSLLISLKKHFLFLFLVRFFIISIILFLLLNISIFQTKILDKIPVTKVYFDNSISAQYHQSISKESLINSYNDILFLLKSNDVNLKFKPNIKSYSFGEKVSLIDSPLDMKIDESSTDFSSIISTFDENSVFEDLQNIIILTDGQSTLGDDPFNSFNKIKTPVYTIGIGENYKLVDLKINKVNVPTYAIEGDPVTAEVILNFKGEINQRINVSLENNKELIGTQIISSGRDGSNKIVRFQFNANQNGLNEYLIKVSTVRDEINIDNNIYRFNMNIIKKKFNIAILTGSASFNTRLIKLVLSDESKYSIDHYVNSSKFWNNPISNFWKKKYDLIILDNFPTLLIPERWSSDLNRKINNENSSLAFFPGNNTNNNDLKSYLKIFELEINESILVKNDDLTKYPIVGNNSFNNNPLIISQTNWELMPSISPKFNLNYNQEGMYSPAFFDQEDLLNPIFLIGKDSNNDFKKFIVNSSDLWTLYFKHHDDGLKKNINLYFKEVFKWLVSISGEDNRYFRLSNQSSIQIGEEIVLEGNFLDISDEFLKNNIWWRILLPSNKVRLVPLVQEEDGVWRGRFITTEKGEHNYWVVFENEEYNSLNSSTFNVNEGLLELKNVFLNKEILEDISSKTNGTYISWKDKNKISEMINYSAKKEKISNKISFSHLKEFLFLLLILLTLEWVVRRKIGLQ;locus_tag=LOCUS_02630;note=MGA_265
sequence02	MetaGeneAnnotator	CDS	29717	31039	.	+	0	ID=MGA_266;product=UDP-glucose 6-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545232.1;translation=MKKITIIGTGYVGLVSGAGLADFGNDVTCLDINLERIKILLEGKIPFFEPGLSELVERNVDAKRLHFSTDFSRSINDSEVIFIAVGTPMNSSGISDISAVKKVAIDIAQNISSSKVVAIKSTVPIGTCVELESLINSKLKKNVNVHVVSNPEFLREGAAVRDFLIPDRVVIGSSSKIPIDIMKEVYRPLFLNETPQIITNLPTAETIKYASNSFLAVKISFINEIANLCDEIGADVHVVARAMGLDGRISPKFLHPGPGFGGSCFPKDTEALINVGKQNNVDLKVVKAASDSNKIQIKKIIQKLDKHIKNYNNKKIGILGLAFKANTDDVRESKSIDIIKYLISNQAEIAAYDPAAIENMRNIFPNVNYKYTIDEVVKNASAILIMTDWNEFRGLDLQKAAKIMKEKIIVDARNLLSREDLFENNFIFEGVGRPFLKNYD;locus_tag=LOCUS_02640;EC_number=1.1.1.22;note=WP_012545232.1 UDP-glucose 6-dehydrogenase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:51.0%25%2C q_cov:97.7%25%2C s_cov:99.3%25%2C Eval:9.4e-121],MGA_266
sequence02	MetaGeneAnnotator	CDS	31032	31511	.	+	0	ID=MGA_267;product=spore coat polysaccharide biosynthesis protein SpsL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7WY56;translation=MIEGVKIKNLIVHQDIPDIKDENSEKGFLIEILRNDDDLLTKFGQSTFTIAYQNTIKAFHWHKKQDDLWFISSGKAFVVLYDLREKSFTYGKKQIISAGKNDFKLILIPHGVCHGYKVVSKEPVALFYHTTESYDINDPDEFRIPFDDKKINVDWDSLK;locus_tag=LOCUS_02650;gene=spsL;note=Q7WY56 spore coat polysaccharide biosynthesis protein SpsL (Bacillus subtilis subsp. subtilis str. 168) [pid:46.5%25%2C q_cov:98.7%25%2C s_cov:98.0%25%2C Eval:8.7e-38],MGA_267
sequence02	MetaGeneAnnotator	CDS	31508	32512	.	+	0	ID=MGA_268;product=dTDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023679.1;translation=MKTYLITGGLGFIGSNYIRKLISEDEQCKIINLDKMTYAGNPDNLNDFKNFNNYVFIHGDICDKQIVKEIFTKYSPNIIINFAAETHVDRSIDNPEEFISTDIFGVYNLLDNAYKHNIELFIQISTDEVYGSIESGSFDEQDNLLPSSPYSASKCGGDRLAYSYFKTYDLPVIITRASNNFGPYQYPEKLIPLFVTNAINDSKLPVYGNGLNVRDWLYVDDHCDAINFLIKKGKFGEVYNIGGNNEFSNLDITYRILDQLNKSRELIQFVDDRKGHDLRYSLDCSKIHELGWSPKNSFDNALKKSIQWYFQNKSWWGPIKSGDFKKYYKNQYKI;locus_tag=LOCUS_02660;gene=rfbB;note=WP_011023679.1 dTDP-glucose 4%2C6-dehydratase (Methanosarcina acetivorans C2A) [pid:55.7%25%2C q_cov:94.6%25%2C s_cov:98.7%25%2C Eval:5.3e-107],MGA_268
sequence02	MetaGeneAnnotator	CDS	32509	33552	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLNTFLLILLFSSNLFTQVNTQRSLLPNGGDQLEKSLLYREYDTVPFALEGPIDPKNYILGPGDRLRINISGGVFEKPTTNEWSSENIDNYILVDPTGNLIIPRFGSINVLNTTIENLEKKLNQISKERVYKDAIIGVNLIRLRSFRILVYGAVNQPGFVTVTSVTRLLDCLRYAKGLNKYANINLVQLIRNNKKLEIDPKLFLLDGNLKSNPIVQEGDKIYIPFNQNIKNKKENLVEYSSTDIIVTGFVRSPKRFSHITGYTARDYIALAGGTLDIGNERNSKIIQPDGNQINNALDTLVKPGDIINVPEASRSKLFKNMGAIQSLTSVASLILAWMAIDQRAN;locus_tag=LOCUS_02670;note=WP_012582972.1 polysaccharide biosynthesis protein (Dictyoglomus turgidum DSM 6724) [pid:31.4%25%2C q_cov:81.8%25%2C s_cov:48.6%25%2C Eval:7.5e-27%2C partial hit],MGA_269
sequence02	MetaGeneAnnotator	CDS	33554	34921	.	+	0	ID=MGA_270;product=polysaccharide chain length determinant protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942498.1;translation=MNTLTDHEKKILNLIKENPRIISDRVFREKIAKVNNISEKTLRNRIAEFKRFGLIQNESFEKSEKYQNFLILWSKRYLILVNCFCITFFSIIISLLMPKWYESKAVILSSSAGKINLASAFSDLPLNQFGFSPVSEDISSFISILVSRNVKQKMVEKFNLIELYDSRDVEYAIQDFESNMNLKVTDEGALSISILDKNPILAKKMVAECLVLLDSINRELSREQGLFNRKFLEKRLNENKQDLAIAEEELKIFQQRTGVVDVLTQVTSQMEAFSQLHSQELQAYTTLYSSRAQTKVQLNTLKATLSKDNPSIKHYQVMYDEQNKELDELRTKLDKELEGLLLDSDEKTKNDKVWVSMSSFPDLAMTSARLLREVTVQSKLLEILVPQYEQARMEENKNVPTLQILDEPKIPLNKSKPKRLYIVLGSLFMSIIFSVLLIFLEYYSRDLRKSIASYN;locus_tag=LOCUS_02680;note=WP_010942498.1 polysaccharide chain length determinant protein (Geobacter sulfurreducens PCA) [pid:24.7%25%2C q_cov:79.8%25%2C s_cov:84.5%25%2C Eval:3.1e-26],MGA_270
sequence02	MetaGeneAnnotator	CDS	34905	36296	.	+	0	ID=MGA_271;product=O-antigen polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582956.1;translation=MLPIINFKKQLFLISSLIFFQLTTIFFALKLNSLLLFLVPISIILLYYLIIKPQISLLLIGFISIIKSFFIEQFEFFQMVDLTLLLIVLIWLSLIFYFLKGELVIPNWSIKILISFFLFTIFITFSGLYSASPNYGWLKILRFSILSSTIFITPIIFLKNSRDSKSMLNYFKIISVIILVGMLMNLIFLFLSGELISYLIRVSILGANPIALSRTLAAIAAMVTVIGIRRKGFQQFLSLIILIPILLAIVSTGSRGPLLSYFLGMIIFTILFELKNFKFRSFFSISTSILFVIILFNILPENLTSRFVNIAQGDNILSSAGLENVNTINSRLDFYLMSINTWISDFKTFAVGLGSGGFSSLFLWRDFRWYPHNIFLEILVEFGIIGIFLILTFMFFSIKQLITYKKYNYLSENSAVWISGTLVMFFSAQFSGDLNDNRILLMFLAISLSSINLDKNPELEKIV;locus_tag=LOCUS_02690;note=WP_012582956.1 O-antigen polymerase (Dictyoglomus turgidum DSM 6724) [pid:27.4%25%2C q_cov:79.5%25%2C s_cov:82.9%25%2C Eval:6.0e-17],MGA_271
sequence02	MetaGeneAnnotator	CDS	36289	37710	.	+	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKKLSIKNDFIVTFFNGLATVIGVFIITGIIARNFGLEQLGEFLLIRRIITASVGIILIGSNISLPSIFPRNQDSSYIIISLIPFFLVSVPLIFIISYLLNFYINDSGNFFPYFFYLFGFTVVTLSYSLYRSQMKIVGANLIQFLSLTLVSLVCVFLTDNIQNLFLLMGIFMIVFGFLFFYFGLPSLNQLKIKQEKILEFFYFGFVRTPGIIFQFILIAGIPMISISFLSLTNQAFLNAGISLVRIFLVIVGPLGIILLPRISKDFKLNKNNFKLSGNLSILLKTTFYYSLITTFVLILINNQILNIWLGSFTSETNLNITIILSSVPFFVLAAVLRSPIDALSNYGYNSIIYGIATTIMIFCFFFLMIFEINPFLVGSLSFWLGNFVSGMLSFYYIKKLMNVNFLDSKSLLELLFILFFLYIIIEIIKFYLSDILIIFFSISSLFIFLILHFSYSNLKWIFLLRTLIFKK;locus_tag=LOCUS_02700;note=MGA_272
sequence02	MetaGeneAnnotator	CDS	37707	38819	.	+	0	ID=MGA_273;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582957.1;translation=MKKKKILFASSIHRFNDVRIYHKEIFSLYNDYNIDLIATKSNFKTNDNLKISIKLLPNPSNFFLRIYNNIQILLVGLRRQYDGFHFHDPELIIVAFILKIFKKKIIFDIHEDNLNVIKMRKWIPSSLKPVIIKLFSHLEKFAVKSFDGIILAEDSYKKNFFKSKKIITVRNYVKLLPNPIQTNFKNKNILYVGSITIERGILDLIKSLGLLQKNNKKIGLYLIGTISKIDKSIINNQISLLPYPENVEIINYCNYDELKKYVQKSKIGVSPLKNNENYQYSIPTKILDYMNWGLPYVFSELKLSKKLFKKKSGGISYEVNDTYDLFKKLSKLLNDDQLCYKLSVDGRKKIKDFEWKKESIKLTNLYKKIF;locus_tag=LOCUS_02710;note=WP_012582957.1 glycosyl transferase (Dictyoglomus turgidum DSM 6724) [pid:28.3%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:6.4e-32],MGA_273
sequence02	MetaGeneAnnotator	CDS	38878	39873	.	+	0	ID=MGA_274;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000096185.1;translation=MSIYNSVSIVIPMRNESKHIKKCLDSLLDQDWIDSKIEIIVVDGESDDNSYEIVKKTLLNHSNFKILHNPKKITPISLNIGVKAATGDVIIILGSHSYVAKDFVSKNIHFLNTMEVDCVGGSISPIGDSYQGNAIALAMSSPIGVGNAFYRYSKVQRLVDTVQFGAYKREVFNRIGYFDEELVRNQDFELNHRIVSTGGKILLAPQVNGYYIVRSTIIKLFKQYFDYGYWKTRVVSKEIGAFRLRYQIPPIFILTLLISGFLGIFISIIMKFFIFIIFLYSFLVTITSLRISMNSNFKYFPILPLAFISLHFGFGLGLITSWIKKILKKKM;locus_tag=LOCUS_02720;note=WP_000096185.1 glycosyl transferase (Streptococcus pneumoniae R6) [pid:28.0%25%2C q_cov:97.9%25%2C s_cov:84.4%25%2C Eval:5.5e-32],MGA_274
sequence02	MetaGeneAnnotator	CDS	39881	40990	.	+	0	ID=MGA_275;product=glutamine--scyllo-inositol aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257503.1;translation=MKIPLVNLSAQYFSIKEEIDNTINQVINETAFIKGKYLNQFEEEFAKANDAKFCIGVGNGTDALYIALKALEINQGDEVITTSLSWISTAEAILQCGAIPVFVDINPKTFNIDVKKIESKISKKTKAILPVHLYGQPSEIQQIKDICIKNKIALVEDCAQAHFAEYNNKKVGTFGQIGTFSFYPGKNLGAFGDGGALITNDLRLSERIRRIANHGALNKHDHLIEGINSRLDGIQAGILSVKLKYINDWNLKRLDTAKLYSNLLKNIGDIETPFIDNSTKHIFHIYAIKTSYRDELKTFLSKKGISTGIHYPKALPFLKPFSNLEHSIELFENSFNITNQILSLPMYPELKKNEIEYIVGLIKSFFQSN;locus_tag=LOCUS_02730;EC_number=2.6.1.50;note=WP_012257503.1 glutamine--scyllo-inositol aminotransferase (Chloroflexus aurantiacus J-10-fl) [pid:43.3%25%2C q_cov:98.9%25%2C s_cov:98.1%25%2C Eval:5.0e-85],MGA_275
sequence02	MetaGeneAnnotator	CDS	41072	42478	.	+	0	ID=MGA_276;product=undecaprenyl-phosphate glucose phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461019.1;translation=MTFKKITLIKQIKNNLKYWLVVLVLLLADFFASFFSLILSFNDNETIFNLRIIFLLNFLILTLIFYANGRYKADPTISRFKEIQSLFRITLSYTIVLIIINEIFPRIFFIESAILLTIWFYLVVGLTINRLLIRRIQKTLLAKGYGKKNTLIIGSGEKAMNIIKHLDSFSNSHNLLGFVKSSEEDSFNLNIKLPILGNIDELTGIIENYNINEIVIALEKTNHSLLLDILTKANGSSISLRIIPDMYEVISGLAKTEELYGLPLVDINPEILSVQQKFAKRIIDIIFSFIILVGLSPIWFLVSLIIKIESKGPILYRQKRVGQNGKVFIINKFRSMKNEAENTTGPVWAKEKDPRTTKVGSFLRKYRIDEIPQFINVFFGDMSVVGPRPERPFFVEKLIKEFPFYYRRHKIRPGITGWAQIKQSYDSSLSDVKEKLKYDFFYIENMSLSLDLQIMNRTLIVMVSAKGH;locus_tag=LOCUS_02740;note=WP_011461019.1 undecaprenyl-phosphate glucose phosphotransferase (Desulfitobacterium hafniense Y51) [pid:33.2%25%2C q_cov:84.6%25%2C s_cov:85.1%25%2C Eval:2.7e-57],MGA_276
sequence02	MetaGeneAnnotator	CDS	42482	44059	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFKLLFFLIVIFSEITLSQNLILSSKENIYDKELNSIKRGKINNYLSLRYFYEWNNNKNKNNLLISKLGKNFLRNQRFKIFPEFNFKSTLNGGFIDNRNQFLDLFPRITFLTKYNFTKNKNFSILFWSSIEKHSLISRNNFSLNKYQGRPIIDNDFSSNQAVGYTDFSGDDFSWIEYRIGDGGILLNYPGGDISFSKNLPIWSSGYNGQLWLSEKPTSFPFLSLRHNISNNWSFSYLHGSLNSNIRDSSFAIYYNSALPMISKKISVHRLDFFPTQYIRLSIGESIIYASRNFEMNYSIPFLPFWTAQSDLSNSDNLQLIFDGEYIKKKIGRIYGTLFIDEWDFVDTFNKKKNRNWFAFLIGSSVNLKSNSNFNPIIRFEFSRISPYVYIHKSSINNFSHHDMTLGHWSGSNSQNIFFSYEGKLKSKLWMQIYFSYAERGEVNNYTINSQYNHEQVSFLYKEYEGDPENRTVYGIRVSLNLASNIRVTFNSFKSDWRNHIEYNSSIRNNTFKIDSILNLSIGL;locus_tag=LOCUS_02750;note=MGA_277
sequence02	MetaGeneAnnotator	CDS	44056	45186	.	+	0	ID=MGA_278;product=glycosyl transferase family 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963583.1;translation=MIYFSIIIILIYLIYILWLSSSFKSYRNKLSSIKPKVSVIVAARNEESKIVKLLNCLLNQTYPKEQLEFILIDDHSDDNTKKIIKDFIKKDNRIFLLNSKKIPNKISPKKWALKQGVNKSKGEILLFTDADCFFGSKWVSEMTSFFDDSKIGMVLGPSPLGVSNNFWSKTIYVDSIGLDSIMAASALRNMPLTASGRNMAIRKKVFDLINGYDSINKFISGDDDLIMHLIQNKGYKIFPCCNKEGIVMSPAPSNFYSFIKQRLRFASKGKSYYGLNFVKMDFKLSLILIYITNFLVLISQFNYLISFKIIWLIPFLVKTLVDFFFLKSYSKLLKIKFENFIYLFNSLWHPIYIVVFGLFGPFIEIDWKGRKAKPIG;locus_tag=LOCUS_02760;EC_number=2.4.1.-;note=WP_011963583.1 glycosyl transferase family 2 (Flavobacterium psychrophilum JIP02/86) [pid:30.1%25%2C q_cov:97.9%25%2C s_cov:98.1%25%2C Eval:2.0e-28],MGA_278
sequence02	MetaGeneAnnotator	CDS	45250	46512	.	+	0	ID=MGA_279;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66647;translation=MIQLREIRDNPEHFINGTNNKFESVDIKKILDLDFKWRSLVQKSEKRKSTRNNINQQISDLKKNKKNTNTLIDKMKTLSKEIKNFDQEISSINNEINEILKWIPNPPHVSVPIGKDSSSNEIVKIWGEKPKFNFKPKNHIEIATQNNLINFAAGSKIAGSGFPLYTDQGAKLERSLINFMIEHNVNKGYKEMFIPFLALEKSLYGTGQLPKLEEDMYFVNKDNLYLIPTAEVPLTNIHREEILNIDDLPIKYTSYSPCFRREAGSYGKETRGLLRVHQFNKIEMVKFVHPNESYNELENLLKDAESILQTLGLHYRVLSLCSGDLSFAASKCYDIEVWSPSENDWLEVSSCSNFESFQAKRSQIKFKNNSNKIDYVHTLNGSGLATPRLMISLLETYQTRNGSINLPKSIQEYFGNNTIS;locus_tag=LOCUS_02770;gene=serS;EC_number=6.1.1.11;note=O66647 serine--tRNA ligase (Aquifex aeolicus VF5) [pid:48.1%25%2C q_cov:99.8%25%2C s_cov:99.3%25%2C Eval:1.4e-115],MGA_279
sequence02	MetaGeneAnnotator	CDS	46513	47232	.	+	0	ID=MGA_280;product=1-acyl-sn-glycerol-3-phosphate acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAW5;translation=MIKSIFFIINVVFWTFLLGSLAILLGFIDRKGKLISFGIRLWSKILIFFSGVKIKIIGLDNLEKNKNYIFASNHESNFDIPLIFSSLNYHLVSIAKKELKKIPIFGWAMKSGQHIFIDRFNKIDALKSLKLAKKSINRNPRSIIIFPEGTRSFDGKIQQFKKGGISIAYDLEMDVVPIAVCGTRNVLKRGAIFIKPFPIELRIGKPLNIKSWKNKKKEDFANYIHEKVVEMKKEWNNGN;locus_tag=LOCUS_02780;gene=plsC;EC_number=2.3.1.51;note=Q8KAW5 1-acyl-sn-glycerol-3-phosphate acyltransferase (Chlorobium tepidum TLS) [pid:35.2%25%2C q_cov:90.8%25%2C s_cov:92.7%25%2C Eval:2.2e-28],MGA_280
sequence02	MetaGeneAnnotator	CDS	47222	47716	.	+	0	ID=MGA_281;product=glycerol-3-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016760.1;translation=MVTKKKILSDQIKYQIEEYKKLNKKIVFTNGCFDLLHKGHKFSLDFASNQGDYLVVGLNSDKSIKRLKGKSRPIQNQKIRFKNLKNLKNVDLVIIFDDDTPENLIKEIKPNILIKGKDYEKKDVVGKNYVESYGGKLVFSPILSGFSTTNIVKNESKKKIKQLD;locus_tag=LOCUS_02790;EC_number=2.7.7.39;note=WP_011016760.1 glycerol-3-phosphate cytidylyltransferase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:52.4%25%2C q_cov:87.2%25%2C s_cov:89.4%25%2C Eval:5.5e-38],MGA_281
sequence02	MetaGeneAnnotator	CDS	47762	49558	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLKQYKNLSFFFIFFIFLQNYIFSDSTSTEVDEISFEEFQGVDNRFPLILSDAKSFFSEAIIADYHGDSLEVLFLLDKIIELLNAAEQLGDMTEDDQIEFNRFEKTLIHSYQNNFNTVDKTSAPIATASLREELSKYLTPIEIEINGSSFKVIDDREGHIPLVINSRVERAISFFQNRARDSFERWLTRYPYYYPMIKKILDSHELPEELIYHSMVESGLNPRAYSRAKAVGMWQFIFSTAKIYGLDRDWWVDERRDPEKATDAAAKYLKDLYLEFDDWYLALAAYNAGAGRINRAIRIHQTRDFWALNTLPKETKNHVPTVLATAIIAKNPTQYGFEIPKNEKIYNFDKVEVKNSTDLNVLAKCAGISVDELRQYNPELRQHATPSGRAYILKIPSGLKNEFLTSYNLLDDRQRFAPEYMIHVVKSGHNLSWIADKYGVKVHQIASFNKIKNYNRLSIGQKLTIPISGNLSNSRNLPQNKQTNSVVYTVRSGDTLGHIAMRYSSTARKIRQLNGLSYGSVIYPNQKLKVPINNKVNLKENSINTVKEIYTVKSGDTLSHISERYRVGMSKIRKWNGISKSDLIIPGQKLVIYVKQG;locus_tag=LOCUS_02800;note=WP_010941675.1 lytic transglycosylase (Geobacter sulfurreducens PCA) [pid:39.1%25%2C q_cov:62.5%25%2C s_cov:76.7%25%2C Eval:2.3e-67%2C partial hit],MGA_282
sequence02	MetaGeneAnnotator	CDS	49573	49872	.	+	0	ID=MGA_283;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404129.1;translation=MIELENKTVTKAEIIEEVSSAIGLTKVETEAILNAVISKIRKSLELKRRVEIRGFGTFGIKKREPRKARNPGTGETVFLPERYVPVFKPSSLLKKNIND;locus_tag=LOCUS_02810;note=WP_011404129.1 DNA-binding protein (Salinibacter ruber DSM 13855) [pid:39.6%25%2C q_cov:91.9%25%2C s_cov:91.0%25%2C Eval:1.0e-16],MGA_283
sequence02	MetaGeneAnnotator	CDS	50232	51479	.	+	0	ID=MGA_284;product=exodeoxyribonuclease 7 large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q83C85;translation=MLKNQENDELVNPKNNIYTVSDFSNRLKNLIEKNFSFISIKGEISNISQPSSGHIYFTLKDEKAEIKAVMFRGYNNNVNFNLQDGMEVIATGDVSVYNLRGYHQLIVKNIEIAGKGSLFLAFEKLKTKLSDKGIFSEIHKKQLPKFPLEIGIITSATGAAVEDMINILSRRAPHIQLNLRPTIVQGIEASNDIIQAINEFDKNENIELIILGRGGGSFEDLWCFNEEKLIYKIFECHTPIITGIGHETDFTLSDFVSDLRAPTPSAAAELASISLDELENKLMNFKNRFSELLNISLNNSWQRLDNILLRYGFQKPSLLVDSKKQYLIEKSEQMRKNFKNSLNLKSYNLESIKSKLHIIDPKLILKRGYSIVYKNSKTKIVKSIQEIKNEENIFVKMSDGELQTQIKKIIKNEKK;locus_tag=LOCUS_02820;gene=xseA;EC_number=3.1.11.6;note=Q83C85 exodeoxyribonuclease 7 large subunit (Coxiella burnetii RSA 493) [pid:38.8%25%2C q_cov:96.9%25%2C s_cov:96.1%25%2C Eval:1.3e-84],MGA_284
sequence02	MetaGeneAnnotator	CDS	51466	51669	.	+	0	ID=MGA_285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKKINFEDSMNRLEDIVNLLEDQSTTLEQSIDLFEEGMLLTNSCKEILKKTESRIKNLLKEEKN;locus_tag=LOCUS_02830;note=MGA_285
sequence02	MetaGeneAnnotator	CDS	51666	52550	.	+	0	ID=MGA_286;product=NAD kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H1D1;translation=MKIGIFANIKKPGFWKIIPDLIDWLINNKVEIHLMHNIIENEYYYLKSNNFKNYDPIKTNKDFKKIDFLIALGGDGTILSASRSVGQSGTPIFGVHLGSLGFLAESKIENLYKSLQLIFNKKNKIFPRMLAQAIIKKNNKKNKFFALNDVVINSNGGTRLISCSLFLDGKYITSYSADGLIIATPTGSTAYNLSAGGPIITPWLSLFTITPICPHSLSSRPIVLPGDSNLKIAFPSNETLHLSADGQVNYEIQPDSEIFITKSPHFINMITLEENEYFETLRTKMGWGQKNINN;locus_tag=LOCUS_02840;gene=nadK;EC_number=2.7.1.23;note=A6H1D1 NAD kinase (Flavobacterium psychrophilum JIP02/86) [pid:36.3%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.0e-47],MGA_286
sequence02	MetaGeneAnnotator	CDS	52614	54563	.	+	0	ID=MGA_287;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963575.1;translation=MNLKFKHILIFIFFVSVIKSQVVYELEPITVSATRIPTLKSESGKSITIINSNEIKNLPINSIDELFRFLGGVNVNTRNDFGVQVDVGIRGSTFSQVLFLIDNISLNDPLTGHFNANIPLPISEIESIEIIRGPASASYGSNAVGGVIHIKTKSYSLRKNVDSGKINSSFQIGKNNLKTIDLGFSKSYQNLFFSGSSRITSSDGEVILNPNYLLGTSSDSLYNTDFKIMTNTLSLAYFFKPNIKYYFRIGNDKRDFNAKYFYTTSSYDESYEKISSYWIQSGLKINQGENVFEFNFGNKILNDEFIFNPLFSINNHKTYKNSYLLSYYMPFSNRLKFAFGGQYVYKKINSSDRGNHSNDSKGLFGIVHLNLFHNVNQSLSLRLENDSYVDEIIPLFQHNIAYEIKSLVFRSSIGMAFRSPDFTERYISSMIDSLSPGRNLGNPNLKSEKSISYDVGIDLQMKKNLKISNTIFYRSSNDLIDYTMTNSSSITNNKNLYSNEDYFYAKNIFYSNVFGLEFNFDKKFQLNKTLIDIKLNYTQLKTSSTQNELSKYLSNHPRKMLGFNTSFRRKNLHIIFLSNYIERKEEINELINAKISQYYILNNVKINYFINETVSINLKINNLNNIKYQDILGSALPKRWPSIGIMYSN;locus_tag=LOCUS_02850;note=WP_011963575.1 TonB-dependent receptor (Flavobacterium psychrophilum JIP02/86) [pid:22.5%25%2C q_cov:97.2%25%2C s_cov:96.8%25%2C Eval:7.7e-16],MGA_287
sequence02	MetaGeneAnnotator	CDS	54641	55078	.	+	0	ID=MGA_288;product=NADH-quinone oxidoreductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEC3;translation=MYNDFGTAFIFVIIGVILIAVPLILQWILSPKNKSYDKLTTYECGEDVEGPAWVKFNIRFYVVALIFIIFDVEAVFFFPWAVVYKELGLFAFIEMLIFMTILSLGLAYVWVKGDLEWVKVTVPYGRGRYRKLNIVDEEIEDLKNE;locus_tag=LOCUS_02860;gene=nuoA;EC_number=1.6.5.11;note=Q8KEC3 NADH-quinone oxidoreductase subunit A (Chlorobium tepidum TLS) [pid:58.1%25%2C q_cov:80.7%25%2C s_cov:81.8%25%2C Eval:4.4e-37],MGA_288
sequence02	MetaGeneAnnotator	CDS	55071	55562	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNTEIINKIKSSFKNISIDENHSDRIISTPKEWEELSKFLRNDYDLFFDSMMCITGIDEGVDSNNLGVVYNLHSMKYNHKIEVYIPVDKKTPNIFSVEKIWRMAEWFEREIYDMYGIVFDGHSDLRRILLPDDWDGFPLRKDYEFPKTWHGIVVDKIKDGWE;locus_tag=LOCUS_02870;note=Q8KEC1 NADH-quinone oxidoreductase subunit C (Chlorobium tepidum TLS) [pid:46.8%25%2C q_cov:75.5%25%2C s_cov:71.1%25%2C Eval:3.0e-28%2C partial hit],MGA_289
sequence02	MetaGeneAnnotator	CDS	55553	56701	.	+	0	ID=MGA_290;product=NADH-quinone oxidoreductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEC0;translation=MGIKINNQNTHNSSDEEMVLNIGPQHPSTHGVLRLKTITDGEIIKKITPYIGYLHRCFEKHCENLTYEQAIPFVDRCDYIGSMNNDFGYAIAVEKLMDIQVPEKVEYIRVIVAEMNRIASHLLAVGVFGLDVGAVTPFVYCFRDRERILDLFEMLCGARLLYNYIWVGGVSHDFPVGWVEKTYEFLDYFEPKIIETNDLLTYNKIFIERTADVGVIPPEVAISYGVTGPNLRGSGVKWDLRKNETYSIYDKFDFDIPIGTGAMGTIGDCWDRYYVRIRELEESLKIVRQALDQMPRQGDIYESMPKKIRPNAGHIYSRTESPRGDLGFYIESDGSATPSRLKLRSPAFTALSCMDEISKGWMLADMLTILGSLDIVLGEIDR;locus_tag=LOCUS_02880;gene=nuoD;EC_number=1.6.5.11;note=Q8KEC0 NADH-quinone oxidoreductase subunit D (Chlorobium tepidum TLS) [pid:56.5%25%2C q_cov:96.1%25%2C s_cov:92.5%25%2C Eval:9.1e-130],MGA_290
sequence02	MetaGeneAnnotator	CDS	56703	57785	.	+	0	ID=MGA_291;product=NADH-quinone oxidoreductase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEB9;translation=MVDFYINLFSSIEFIKSYQSSIFIISVLLAGIPIFGFMAVNALVAVYVERKVSAFMQDRLGPMGHGVGLHAGKWGVLQTLADAIKLLTKEDIIPDSADKKLFLLAPCIIFIGSFVAFAGFPFNEFLVAADFNLGLFYILAMSSVGVIGIILAGYSSNNKWSLYGSMRSAAQIVSYEIPAALSLLPVVMLSGSLAFKDIVFAQTGSTLGILPNWFIFNNPFMVVAFWLFFIAGVAEVNRTPFDLPEAESELVAGWMTEYSGMRWAFFFLAEYANMFIVAGVATIGFLGGWLSPIPGYFDGNIWGVFWLVSKTSFLIFVMMWFRWTFPRLRTDQLMRMCWKFFLPGSFFVIIGVGLWDLIMR;locus_tag=LOCUS_02890;gene=nuoH;EC_number=1.6.5.11;note=Q8KEB9 NADH-quinone oxidoreductase subunit H (Chlorobium tepidum TLS) [pid:52.7%25%2C q_cov:91.4%25%2C s_cov:91.6%25%2C Eval:1.3e-98],MGA_291
sequence02	MetaGeneAnnotator	CDS	57790	58353	.	+	0	ID=MGA_292;product=4Fe-4S ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932453.1;translation=MNYFLSIFQTISTLIIGMSVTLGHMLKIRKGNVTLQYPVERWPRPERDIGFSPDSYNVIRSRLTVDMDDCIGCLKCERACPVDCIKIETHKVEKGEDITEANHTGVTSNGTTKRLLLTRFDIDMSECCYCNLCTYPCPEECIFMVGGPNSTRHEIDYEFSEYDRNDMIYRFSKVPPDILQSYVQENK;locus_tag=LOCUS_02900;gene=ndhI;note=WP_010932453.1 4Fe-4S ferredoxin (Chlorobium tepidum TLS) [pid:35.4%25%2C q_cov:92.0%25%2C s_cov:76.4%25%2C Eval:1.0e-23],MGA_292
sequence02	MetaGeneAnnotator	CDS	58371	58865	.	+	0	ID=MGA_293;product=NADH-quinone oxidoreductase subunit J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932454.1;translation=MTGINLIFWFIALMTIISASIVVLSNNLIYSAVSLLFTLLGIAGLYVFLWADFIAITQILIYVGGILVLIIFGIMLTHRITDVTLSQSSNQQMLGGGIILIIFLGLSYMMLNTPWFQDTAVEPQETINQIGYLLMIDYLLPFEVASILLLVALIGAALLSRSSK;locus_tag=LOCUS_02910;gene=ndhG;note=WP_010932454.1 NADH-quinone oxidoreductase subunit J (Chlorobium tepidum TLS) [pid:43.2%25%2C q_cov:98.2%25%2C s_cov:93.6%25%2C Eval:1.2e-29],MGA_293
sequence02	MetaGeneAnnotator	CDS	58865	59167	.	+	0	ID=MGA_294;product=NADH-quinone oxidoreductase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEB6;translation=MDLNSYLIISSILFSLGLFGVITRRNGVAVLMSIELILNAANINFIAFSRFSGMDLSGHIFSLFVIILAAAEAAVALAIILNIFNNFGSINIDDANKMSH;locus_tag=LOCUS_02920;gene=nuoK;EC_number=1.6.5.11;note=Q8KEB6 NADH-quinone oxidoreductase subunit K (Chlorobium tepidum TLS) [pid:43.7%25%2C q_cov:87.0%25%2C s_cov:80.4%25%2C Eval:5.0e-16],MGA_294
sequence02	MetaGeneAnnotator	CDS	59170	61215	.	+	0	ID=MGA_295;product=NADH-quinone oxidoreductase subunit L;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932456.1;translation=MINYGIAILLLPLLSFIIMIFVGKKLPNRGDWLSIGSIAITLCLSLALFSMMLLKYDPYFKVEEIWTWFNLGTLDVKIGILIDNITIIMLLVVSLVSTLVHIYSTAYMKEDPRYSRYFAFLSLFTFSMNGIILSNNLLGIYIFWELVGLSSYLLIGFWFEKESAANASKKAFLVNRVGDIGMFIGIMLFFSTIGSFLFKDLYLGVSKGLFSVDTLTIAGLCLFAGAIGKSAQFPLHIWLPDAMEGPTPVSALIHAATMVAAGVYLAFRLFPIFTPQALTIIAYIGGVTAVFAAIIAITQNDIKKVLAYSTVSQLGYMVLAVGVGAYTYGFFHLVTHAAFKAGLFLCSGSVIHAMHHAYHKIDDHKSDPQDMRNMGGIKDKMPITFYTMLFCTIALSGIPFTSGFLSKDAVLAGTLAFSSQFPNHFLLSLFAFSAALFTAFYMFRLIFMTFYGKPNSKKVFENIHESPIQMTTPLIILSSLSFFLFFTFPNFNPLAYDGWFMTLVKSKDSLVPGYLNPTAYQIKEEISQAHNLAMLLSLSVAALGIGFAFLTYYSKLISSDVVYKRLRFMYNLSYNKFFIDEILKKYIIDPFLKFSRYIAIFDWDIYDKYFINGIGKTTERFSKVVGNLWDYKFLDQKIIDGFGHFTKFSGSKLRLIQSGKIQNYLILVLVGLIIIYVFQAI;locus_tag=LOCUS_02930;gene=ndhF;note=WP_010932456.1 NADH-quinone oxidoreductase subunit L (Chlorobium tepidum TLS) [pid:42.3%25%2C q_cov:98.8%25%2C s_cov:97.9%25%2C Eval:7.1e-153],MGA_295
sequence02	MetaGeneAnnotator	CDS	61238	62782	.	+	0	ID=MGA_296;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932457.1;translation=MDFNILSWLIWTPVIGAILIVILPKNKIHLIKWIAVLFTGIQLLLSILLWFNFDNNTQGFQFMEKSPWIPSFNITYMLGVDGLSLPMVGLTALLSFLCVFVSWKIEKAPKGYFSLFLLLDAGMMGVFLSLDFFLFYIFWEVMLLPMYFLIGIWGGPNREYAAIKFFLYTLFGSVLMLIAVLALYFSSGRTFDMIELMSTAPTTLSQISWWGFSGIKVVWLLLFIGFAIKVPIFPFHTWLPLAHVEAPTAISVILAGVLLKMGTYGILRINFPMIPDGTVWFAGILAFLALINIIWGGMCALAQTDLKKMVAYSSINHMGYVMLGMSAVVAAGSKYDSNIAAAELGMNGAVLQMFNHGTITAMLFILVGVVYDRAHHRDINGFGGLASKTPIYAAIVALAWFAGLGLPGLSGFISEAMTFLGAFPVYRNIVILSTIGILLNAAYFLRSYQKIFLGKLNEKYKDLPEINTREIMILIPLAILVIFLGIYPTPLLDVMKTTMSEIIFRVEVSELLAK;locus_tag=LOCUS_02940;gene=ndhD;note=WP_010932457.1 oxidoreductase (Chlorobium tepidum TLS) [pid:50.4%25%2C q_cov:97.1%25%2C s_cov:97.8%25%2C Eval:3.6e-143],MGA_296
sequence02	MetaGeneAnnotator	CDS	62787	64283	.	+	0	ID=MGA_297;product=NADH-quinone oxidoreductase subunit N;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEB3;translation=MDNIQSTVFFIPELILVVTVALCLITDLFLNKKNSFNVAYVALIGIFLSGLSLWFSSPLTNTSLFLNTIVLDPFSRIFKFIFLISSFITILISLDTSELKNRGLGEYFTLITAMIFGLILMVSSVDLIMIYLSIELVSIISFILAGYLRYKMISNEAAIKYVIYGAFSSGLMLYGFSLLYGLTGTTKLFEMNQVLFSHDALDINLSLIISFILIIAGLGYKIAIAPFHFWTPDVYEGSPTPITAFFSVAPKAAGFALMLRFLNSLFGDMNPLNSQNWISIEGVPWQEILLVLSALTMIVGNLVAIQQENVKRLLAYSSIAHAGYILMGVPLLSKDGIFAVVFYIIVYLFMQLGAFYISIIIADKYKTEKIEEYAGIGWQSPILGILMSLFMFSLTGLPPTAGFIGKFYLFAAVINAGAQYYWIAIIGVLNSVISLYYYMRIVKVMYFNEKNIQNSFIPSQFSILLLLALGIPTIYFGVQWTYIHEWVDSALKFFIPNF;locus_tag=LOCUS_02950;gene=ndhB;EC_number=1.6.5.11;note=Q8KEB3 NADH-quinone oxidoreductase subunit N (Chlorobium tepidum TLS) [pid:42.0%25%2C q_cov:94.4%25%2C s_cov:91.6%25%2C Eval:1.7e-105],MGA_297
sequence02	MetaGeneAnnotator	CDS	64335	65690	.	+	0	ID=MGA_298;product=Na(+)-translocating NADH-quinone reductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87MA6;translation=MAEIKIRKGHNLNIKGQPEKKIDNIHNFDNIAIYPSDFRYVKPRLLVKEGDQVKIGSAIFYDKLVPNVKWPSPACGKISEIQYGSRKIIEKISIEVNGNENEIVNPSLSAFSLKSLKKEKILNDLINSNFFPFIKSRPFNKVANPDENPRDIFISGINSGPLSCDLEFVLSESLPEFQAGLDILSNLTEGKVHLTLKEDSIFISSLENVELHSISGPHPCGNVGIQIHHISPLKPDEIIWTIDPQHVVILGKLFLTGKFDPSILVSIGGPIFSNPKYIRTKIGASIKSSVIGQELTNNYRLISGNILNGITSSINENLHFYDTCLSGIIQTEERKFLGMIYPGNSDTHYSLTNTFINFDKKPFNFSTLTNGSERPIYPLGYWEDVLPMDILPNELYRSIISEDIELMESLGILECDEEDFSLCTFSCASKIDVGLEIRKGLDMIWKEKNQT;locus_tag=LOCUS_02960;gene=nqrA;EC_number=1.6.5.8;note=Q87MA6 Na(+)-translocating NADH-quinone reductase subunit A (Vibrio parahaemolyticus RIMD 2210633) [pid:35.1%25%2C q_cov:98.4%25%2C s_cov:99.6%25%2C Eval:2.5e-76],MGA_298
sequence02	MetaGeneAnnotator	CDS	65687	66862	.	+	0	ID=MGA_299;product=Na(+)-translocating NADH-quinone reductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5E6X5;translation=MKFLRKILDSLEPKFQKGGQFERLYPLYEATDTFLFTPNIQTTSGPHVRDNVDLKRVLILVVVALVPCYIFGAINLGYLNSISEGISRGWIGNLLFGLKYILPILVVTLAVGGFWEVLFSIIRKHEITEGFLVTSALIPLISPPNLPLWMLAVGTTFGIVVGKEVFGGTGMNIFNPAMTTRAFIYFAYPTEMSGDKIWMIGPDGYSGATALSLPAAITDGNSVEILNNFSQFDYSWLNMFIGFIPGSIGETNKILIILAGMFLIYTKVASWRIIIGCLIGLIVTAFIFNLLSPFSSNSMLTIPPHYHIVMGSFLFGTVFMATEPVTSAHTNKGKWIYGIMIGFLTVIIRSINPAYPEGVMLAILLMNAFAPAIDYFVVKENIANRLKKYAK;locus_tag=LOCUS_02970;gene=nqrB;EC_number=1.6.5.8;note=Q5E6X5 Na(+)-translocating NADH-quinone reductase subunit B (Vibrio fischeri ES114) [pid:45.8%25%2C q_cov:99.2%25%2C s_cov:99.5%25%2C Eval:1.9e-106],MGA_299
sequence02	MetaGeneAnnotator	CDS	66852	67583	.	+	0	ID=MGA_300;product=Na(+)-translocating NADH-quinone reductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64UR9;translation=MRSNTYTLIFTSLITLILGFLLSFTYTQLKSMQEENLAVDIRKNILRALDIREEKNEEWSNEKVQDLFNKYIKAEVVSKNGLILNNINIENIDAEYDSINFPIYYKLNDNQIDGYAIPVIGRGLWSTLYGYLALEPDASTVKGIQFYSHKETPGLGAEIEKDWFTNNFIGKKIVNPNGELVSIEVLRGKVDELSNEAYHQVDGISGATMTTKGVTQFLLEDLQKYEPFFKKIRTEVKEITWLY;locus_tag=LOCUS_02980;gene=nqrC;EC_number=1.6.5.8;note=Q64UR9 Na(+)-translocating NADH-quinone reductase subunit C (Bacteroides fragilis YCH46) [pid:35.7%25%2C q_cov:93.0%25%2C s_cov:96.4%25%2C Eval:7.1e-30],MGA_300
sequence02	MetaGeneAnnotator	CDS	67571	68197	.	+	0	ID=MGA_301;product=Na(+)-translocating NADH-quinone reductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5E6X3;translation=MAILSKKSRSALYDPLVKTNPISLSVLGICSALAVTIRVDQALIMTGAVIFVLSTSNTIISVIRKYIPSRTRIIIQLAIIAGLVSLIDQVLMAYMYNMSKQLSVFVSLIVTNCIVMGRADAYAMQNPAGNSFLDGLGNGFGYGAILIAVAFFRELFGSGTIYGISIIPEFVYNLGYENLGLMVLSPGAFIVLGLIVWFQKEIWKEKVK;locus_tag=LOCUS_02990;gene=nqrD;EC_number=1.6.5.8;note=Q5E6X3 Na(+)-translocating NADH-quinone reductase subunit D (Vibrio fischeri ES114) [pid:51.0%25%2C q_cov:98.1%25%2C s_cov:97.1%25%2C Eval:1.2e-56],MGA_301
sequence02	MetaGeneAnnotator	CDS	68201	68815	.	+	0	ID=MGA_302;product=Na(+)-translocating NADH-quinone reductase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9HZL0;translation=MGFEHYLSLLIKAVFIENIVLAYFLGMCSFLAISKQVETSIGLGFAVIFVLSITAPINWLITTYLLKDGALAWIGLPEINLSYLNLIVFIAVIAAVVQLVEMFLDRFSPTLYQSLGIYLPLIAVNCSILGGSLFLVERKYTFIESSVFGFGSGLGFFLAIVALASIRHRMKYSNVPEQLKGVGMAMLLTGLISMAFMAFSGIDI;locus_tag=LOCUS_03000;gene=nqrE;EC_number=1.6.5.8;note=Q9HZL0 Na(+)-translocating NADH-quinone reductase subunit E (Pseudomonas aeruginosa PAO1) [pid:58.2%25%2C q_cov:98.5%25%2C s_cov:99.5%25%2C Eval:8.5e-65],MGA_302
sequence02	MetaGeneAnnotator	CDS	68812	70047	.	+	0	ID=MGA_303;product=Na(+)-translocating NADH-quinone reductase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9K0M8;translation=MILETTIAGMIVFTGVIMALVLILNFAGNKLLPQGEVNILINEDNDSKLKTKPGSTLLGALSNQDLFLPSACGGQGTCAMCKCQVIEGGGDILPTETAYISRSEAKNNWRLACQVKIKNDMEIKIPDEVFSIKKWDCKVVSNNSVATFIKELVIDLPKGDNLDFKAGGYIQIDIPEYSGLKYSDFDIEKQYHPDWDQYKIWDLVANNDESIFRAYSMANHPAEGNRVMLNVRIATPPPKLWNDVPPGVASSYIYGLKPGDKVTISGPYGEFFIKDTNKEMVYIGGGAGMAPMRSHLFHLFNTLKTGRKVSFWYGARSKREMFYDEEFKKIAKKFPNFKYVVALSEPLPEDKWDGATGFIHQVVNDNYLSDHEDPTELEFYMCGPPPMITACENMLFDLGVEEDQIAYDVFG;locus_tag=LOCUS_03010;gene=nqrF;EC_number=1.6.5.8;note=Q9K0M8 Na(+)-translocating NADH-quinone reductase subunit F (Neisseria meningitidis MC58) [pid:56.8%25%2C q_cov:98.5%25%2C s_cov:99.0%25%2C Eval:9.1e-139],MGA_303
sequence02	MetaGeneAnnotator	CDS	70056	70283	.	-	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLIEIYSKIVLNFYMELILSIIILIIAFIGLSVGVIFDNKPLKGTCGGLNDFRECSICGGNPENCDNDSITQP;locus_tag=LOCUS_03020;note=WP_003091178.1 hypothetical protein (Pseudomonas aeruginosa PAO1) [pid:42.6%25%2C q_cov:58.7%25%2C s_cov:62.7%25%2C Eval:9.3e-07%2C partial hit],MGA_304
sequence02	MetaGeneAnnotator	CDS	70331	71761	.	+	0	ID=MGA_305;product=sodium:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939629.1;translation=MRKYIIIFMLFVSNVIFAAGNENNYHLNGADMSIFWTIPFAGILLSIAIIPLIAPHFWHKNFGKISAFWALILILPMLFSYGLSITIYEILHVYLLEYFPFIILLLALYTISGGVRIKGSLRGTPVVNLIILIIGTFLASWMGTTGAAMLLIRPIIRANAWRKHKTHIIVFFIFLVANVGGSLTPLGDPPLFLGFLKGVNFFWTTKAMFLPMMLVVTLLLIVFYFYDVYYLNKEDSKVAPIEKNEKEPLSLEGSFNLILLFLAVVAVLQSGIDSPIKGKVIFNPMGIHIEFQNLIRDFLLLLLTVLSWTLTSKKIRKENQFTWFPIQEVAKLFAGIFTTIIPAIAILKAGNDGDMKSIIGAVSTSSGEPINMAYFWLTGILSSFLDNAPTYLVFFNTAGGDPSILTTIKYDTLLAISAGAVFMGANTYIGNAPNFMVKSIAESQNIEMPSFFGYMFKYSIPILIPIFIIVSLIFFL;locus_tag=LOCUS_03030;note=WP_010939629.1 sodium:proton antiporter (Desulfovibrio vulgaris str. Hildenborough) [pid:56.9%25%2C q_cov:93.9%25%2C s_cov:93.1%25%2C Eval:2.0e-140],MGA_305
sequence02	MetaGeneAnnotator	CDS	71766	72305	.	+	0	ID=MGA_306;product=ATP--cobalamin adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011036032.1;translation=MRITKVYTKTGDNGTTSLSDGSRVKKNSLRIISIGSVDELNASLGMVLSTRPVEIISKLLRKIQNDLFNLGGEISTKDLNLKLVSIDDIKLLEESINELNSDLPALKEFIMPRGTDIVSRLHFSRTICRRAEVDLVNLSQIEKINSIHLTYLNRLSDYLFVSARYQNNYDENNEIFWDK;locus_tag=LOCUS_03040;note=WP_011036032.1 ATP--cobalamin adenosyltransferase (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:45.2%25%2C q_cov:98.3%25%2C s_cov:94.6%25%2C Eval:9.7e-37],MGA_306
sequence02	MetaGeneAnnotator	CDS	72330	72641	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFLYAQSSSDSSFLSFLPFILMVMVIYFLMLRPQMKQQKERKKMLENLKKGDKIITSGGIYGTIAGFKGNNSIVILDIDKNVTIKISKSAISGSQSIDEKKD;locus_tag=LOCUS_03050;note=WP_012545404.1 preprotein translocase subunit YajC (Thermodesulfovibrio yellowstonii DSM 11347) [pid:50.0%25%2C q_cov:75.7%25%2C s_cov:65.5%25%2C Eval:1.3e-16%2C partial hit],MGA_307
sequence02	MetaGeneAnnotator	CDS	72641	73138	.	+	0	ID=MGA_308;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Z1W9;translation=MSVQGLVKFDNPILRKVLKPVKNFEDVENIISNMYDTMYENDGIGLAANQIGIDLNIIIVDLSHIDSNFHPKTYINGKILEKTGSKIMEEGCLSLPKIKLEVNRAEKIYFYYEDKNGNPFKEDLNGLLSTVIQHEMDHVNGRLIIDYASKIQKQQFLKTLQKLHE;locus_tag=LOCUS_03060;gene=def;EC_number=3.5.1.88;note=Q8Z1W9 peptide deformylase (Salmonella enterica subsp. enterica serovar Typhi str. CT18) [pid:42.7%25%2C q_cov:98.8%25%2C s_cov:95.9%25%2C Eval:1.9e-30],MGA_308
sequence02	MetaGeneAnnotator	CDS	73155	74090	.	+	0	ID=MGA_309;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74GW4;translation=MNSARILFIGNPEFSIPSLNNIVYSHHKLVGVVTSIDKMKGRGKKFSETSISERSKELNLPLYKPKNLNDKNFLNQIKKLDIDFIIVVAFRILPDSLLRIPKYGSINLHPSLLPRYRGAAPLQWSIINSETYSGITTFLVSNKLDKGDVLKSTPFIIFPDDDYGSLYFRSSKIGSKLLLKTIDEFINKEIFPIPQKNENSTKAPKIFPNDCKINWNISANKIKNKTLAFSPYPGAYTFFKNKRLKIFSSLPSLKNYKKKYGEIIEINKNSFLVQCKNSSLKIYQVQYEGRKKMKSSEFILGNKLEIGDFFE;locus_tag=LOCUS_03070;gene=fmt;EC_number=2.1.2.9;note=Q74GW4 methionyl-tRNA formyltransferase (Geobacter sulfurreducens PCA) [pid:38.0%25%2C q_cov:98.7%25%2C s_cov:96.5%25%2C Eval:7.0e-58],MGA_309
sequence02	MetaGeneAnnotator	CDS	74083	75420	.	+	0	ID=MGA_310;product=ribosomal RNA small subunit methyltransferase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q182R9;translation=MNNKIQPREHVIKICETFDNHGLKLSIIMNDYFSKNKVSKSKRPEITFLVQEIMRKKNYLDFLINKTFKGDYFKSHSFLKNTLRLGSYEIIYRSHIPDFAVVNEAVAIIKKKLGKSPAGLVNAILRKIKNIDNGINKSLSQKSSINDLSIILSHPKWILKKWKNNFGWEKMISLCEWNNKIPDLTLRINTNKIDVDTFKNYLNKKNFLFKDSEILPEFLIIKNGSLLRNSSMFKEGFFSFQDISSGLISNLVDIKIKDSFIDACAAPGGKCSFLAEKTNSKLSIQAFDIDSNRIKLLHQTIDRLNIKSITISKKDASCDSFPVSNKILIDVPCTGTGVMSKRADLRWRRKPNHLNEMIEIQKKILNNMSKFIGIGGEIIYSTCSLEKEENWDIIDDFLSRTDKFKFISSKNLVPSNFIDHRGALSTFPSIHKIDGVFGVKLKRIL;locus_tag=LOCUS_03080;gene=rsmB;EC_number=2.1.1.-;note=Q182R9 ribosomal RNA small subunit methyltransferase B (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:33.3%25%2C q_cov:96.4%25%2C s_cov:96.6%25%2C Eval:6.6e-66],MGA_310
sequence02	MetaGeneAnnotator	CDS	75417	76178	.	+	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYYQIIMLFFVFSMGMLIFDKLIMPFYIRENLDRNLPNVKGYSFVRAKETLESEGFHVKKGDIQYTNKFSEGTIIDQFPDPTRRVKPGRTIHLTIAQREKMVLIPDLIGKSIRSGRLELTDSGLLIDTLIAEFDPDIPIDVIRWQYPRAGDYLRKGSGLKIIISKGKPPNFYEVPQLFGLSMDKGEKLLNKSKLYLGKVNYRQNEDLVPYTILEQSIVSGTILDKPQSIDVTVSILELDDLYNQLTNPIE;locus_tag=LOCUS_03090;note=MGA_311
sequence02	MetaGeneAnnotator	CDS	76180	76758	.	+	0	ID=MGA_312;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933377.1;translation=MNFKNELYRKLIHLASVIIPMSYYFFFSREIILLILFFVSICFIIIEILRINNLLINQIFFKVFGLMIRKSEKKKFTGATITFISCFFLIMIFEKNIAVYSMLILCISDAIAAIVGKKWGKNKIFDKTFEGSLAFFLVSTLIGLLFLDIKIIGLFISSIIATVAELIPSPINDNIIVPFSVGSTISFYYLFV;locus_tag=LOCUS_03100;note=WP_010933377.1 membrane protein (Chlorobium tepidum TLS) [pid:31.2%25%2C q_cov:93.8%25%2C s_cov:83.2%25%2C Eval:1.5e-17],MGA_312
sequence02	MetaGeneAnnotator	CDS	76755	78791	.	+	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLSPNILWALIFAFIPLIIHIFNKLTTKTINFSSIQFLKKLETSKIKFFKIKELVLLLLRTLIIIFLVLAFSRPVISGYFTITGSSNQSSHIAIIIDNSASMSYEDNQISFFDKSKNNAYELLTKLNNNFFLDVYQTTPFKRVASERIINQKRIMEILNKISISGGKDNIYDVINSSLKSSDKLNKVFGDIPNKELYIFSDFPASILKNEKIDLMGWRTYLFMMDEFKKNIRINEAKVNNLIKYPNQLLSIETNISNSSSLEIKDLEVELFANDIKSGQLVSNLKPNIKKNFEFKVYSGQNNISNGWFKIPNDDFDLDNKKFFQFRLTKKIKILFFHNENEFSGPIKYVFSSINHSNDYLEIENYSYNSFGYNRMSDKDLIIFYNPIDFNDEQISLIRNYQKSEKSFLIFLGDSNTNLFSDLNYETSFNDNGDDFFSLNTINFENPIFKNFPIKNLIDEMPKIKKYNPILNMSDYTKLLNLSNGDPFLFEINQNGNKSIVFTSLMNLDWSDLPINGIFIPLIHRIIVYLSNFNLQEFKVDMGDSLFIPLSRGNLSKEIILEDPNGLKSKLKPDFENERLILSDLNLLGIYKIFVDTKFHTSFITHLSELENPSKRISKNALSKVFQLNNVKIVNFDENHIQSVDETRKGKELWYFFIIISLILIIFESFYSRSKSI;locus_tag=LOCUS_03110;note=WP_011405130.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:21.0%25%2C q_cov:78.5%25%2C s_cov:74.5%25%2C Eval:2.6e-30%2C partial hit],MGA_313
sequence02	MetaGeneAnnotator	CDS	78757	80082	.	+	0	ID=MGA_314;product=GTPase HflX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCN0;translation=MNHFIVEVNQYKNLIVLKERAFLVGVITGDETYEKVKSNLNELSLLADTAGAVAVELIISKINRISPKYFVGKGKAEQIINQAKALNVNLIIFDDDLSPTQSRNFHKISDKIKIIDRTGLILDIFTNNAKTTESKTQVELARLQYILPRLTRMWTHLERQMGGIGTRAGAGETQIEIDRRLIRTKISKLKRQIKSIEKERITQSIRRKEKFRVSLVGYTNAGKSTLLNTLTGAQVYAKNKLFATLDTTVKSLKIEKNNEILLSDSVGFIRKLPHDLVASFKSTLKEVVESDLLLIVVDSSSQNLDDELLTVKEVLNSIKVKTDNSLIVLNKIDLVKSSKLNGLKNRFPEGVFISAKNRLMINHLLNEINSFIKKNYITYNLTLKFSQIKFLDKIFNLVDVIKCNYEKDFVSLKVRGKPIIIKKIISDIKKSLKHDINGTPI;locus_tag=LOCUS_03120;gene=hflX;note=Q8KCN0 GTPase HflX (Chlorobium tepidum TLS) [pid:45.4%25%2C q_cov:90.2%25%2C s_cov:90.5%25%2C Eval:3.4e-86],MGA_314
sequence02	MetaGeneAnnotator	CDS	80297	81727	.	+	0	ID=MGA_315;product=sodium:proline symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003103073.1;translation=MIYIISVFIYLIFLTIIGLKKYNKINNQNDFALAGKNLTSPILLGTMLATWIGTGSILGNAGKTYEIGISAIILPLGGVLGIYVLSKIATKVRTLNKVTVPEIIGSKYGKLAQILSLISLIASYMVIVGYQFNAGGIVLNMIFTNENGSSIISIETATIIAASFIIIYTMLAGLLSVAFTDVVNGIIMTIILIIAFPLLWFESGGLNNIENSFLKLGKIENYNFLSNVSFLDIINFCLPSFLLVLGDANMYQRFSASKNIQGLKKSTNILIFAVLLIEILIILIAWVGSTMIPETESGRYIMIYIGYKILPPLIGAVMLTTIVGIIISTADSYLLVPSNAIMNDIFLKYINNNLTGKQIVFYSRIIVLILGIIAFFMSNLFSKSTTIFEKALYAYTIYGVSITPSLMATFFWKKVTKEGVISSIISGALTILLWKNERLMLTFFPESIYYNIDEVIPGIIISTSSLILISLIYKRK;locus_tag=LOCUS_03130;gene=putP;note=WP_003103073.1 sodium:proline symporter (Pseudomonas aeruginosa PAO1) [pid:23.3%25%2C q_cov:91.0%25%2C s_cov:86.8%25%2C Eval:1.5e-31],MGA_315
sequence02	MetaGeneAnnotator	CDS	81738	84032	.	+	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLFNKIVSLQILYPYRFLSILLLITIFFIIQLFFLKFDFTIENLFPENDKEVEQYYNFRNEFGREDNIISLTYNCDDPFLLKNFLLAQKYTKSLSEIDGISSVFSITNLGIELDFLEMSFDDQNLIQKQIEVLKNYIFQSSIFINNLISEDGSIASIILEVDENLNNHPGRLQIMKDIQAIINDSNWEWYETGIPVLRTKYVQYMIGDFIKFFPPVTIILLLVLYIMFKSIKIVLLPILTIFISVVWVLGLMSLFNFSINIITYIVPTLVMIVGVADSVHILIKFNEEIRKSNNSKESIKKTIESIGNAILLTSLTTSIGFLSLLSTNIVMIKEFGFLVSIGVLIAFLVSILLIPSLIILMGKSYPIKTTSVKNGIRQYFLKKIVMINNNYQSTILIISSILIFLFIYFASKVESNSALMDDLNKGNELFDDMKFAEEKMGAVFPFEVIISVKDQNDNLIENGIANSNFISQVSKIQKKLNSIPEIRKTISIVDYIEIIHDNLTEKTKEKSYLQDDLIFQYIVLNEDVFQNLINFDYSKTRISARIKDINSTRAKEIIEEINIWKSKNISDEVSISLTGTTLMALKVNDYLVNNLIISFLIAFGVIFISMGFLFKSIKLAIFSMIPNLIPILFMAAIMGLFNIKLRPTTAMTFAIAFGIAVDDTIHYLVRFRQELFNNNGNYMKASSATIFSTGNAIISTSLILGCGFLVMVSSNFLPSRDFGFLSAITMFGAIIGDLFFLPAMLRFIRPKNNKLKERNSNY;locus_tag=LOCUS_03140;note=WP_014208107.1 RND transporter (Acinetobacter pittii PHEA-2) [pid:23.8%25%2C q_cov:82.2%25%2C s_cov:51.2%25%2C Eval:1.9e-48%2C partial hit],MGA_316
sequence02	MetaGeneAnnotator	CDS	84006	85310	.	-	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSNKTKSVITCDMEGRVETFNKGAEKIFGYSSDEAIGKMRVSNFSPGNVVLSHVANWLKIASEKGEYNSESTFVHKDGSLIPAKIKITPNYKNIKGKKVQVGYCGQTTRIDNKTPEETMPANPWWFKLLSGLVITRLPFLSATWIPVILASVWAYNGGIELSAPFNWALFSIVFAGASFLHLSANTFNDYFDWKSGADKINNDYFLQYSGGSRAIELGLISVKGLFFLASVFLALASFCGFIIMFLYPSKIFGLFTYGLIGAAGGIFYTAPPFRFSSRKGLGELSIGLLFGPIMTMGVVFALTGIHSIEAFYIGIPLGLLTTAILWVNQFPDTPSDIATGKIHLVATLGTKNARWGYLLLIASSFSTIYFLFSNQILPSGSLLMMYSIPVGIYLIKKVFDDFEKRELASTCANTIYFHMLAGLLLIIGISFF;locus_tag=LOCUS_03150;note=A9WBE2 1%2C4-dihydroxy-2-naphthoate octaprenyltransferase (Chloroflexus aurantiacus J-10-fl) [pid:29.6%25%2C q_cov:69.1%25%2C s_cov:94.4%25%2C Eval:1.8e-23%2C partial hit],MGA_317
sequence02	MetaGeneAnnotator	CDS	85410	85979	.	-	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINQTIGEVNKTEFIPIASSPLNFKIELVKTIGFDDLPQLIIISDHLVKEYTQNVRLTKTSIKKYFNYPNTLPFVLRQSEVIIGYIIGVPLEYFSNDPSFQNDNNIGRKNTLYTYAFVILEKYKKNGYAKTLKKVYISWAKKKGFKFVSGHVKEGISQYFKYEVEVLQKFNNWHGTNKKFEYYRRLI;locus_tag=LOCUS_03160;note=MGA_318
sequence02	MetaGeneAnnotator	CDS	86065	86859	.	+	0	ID=MGA_319;product=orotidine 5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931823.1;translation=MKVKSFSQILRESIKKNKSQLCVGLDIDPNKMSLKSTDSLNNLKKITKNLIDQTIDNVVAYKLNLAFFEVFGSKGYKWLEDTIKYIDGKKLLIGDGKRGDIGNTTNKYANSLFDHFGFDAITVSPYMGQDSIVPFIKYKNKGIFVLCLTSNPSARDIQLKEASGLSVFRRVISMVRDIDDNKNLGLVIGATKPEQIADIRLEAGDLPFLIPGIGAQGGNLEESLLAGNNENGLAIINVSRSIIYSKDPSFSSRDYNEKINNIIS;locus_tag=LOCUS_03170;gene=pyrF;note=WP_010931823.1 orotidine 5'-phosphate decarboxylase (Chlorobium tepidum TLS) [pid:41.8%25%2C q_cov:91.7%25%2C s_cov:89.1%25%2C Eval:1.8e-48],MGA_319
sequence02	MetaGeneAnnotator	CDS	86872	87441	.	+	0	ID=MGA_320;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460653.1;translation=MNEMMSLMRETNTILNGRFRLTSGKCSEVYIEKFRLLEDPKILNQIGKLFYKELNNLSPDIVLGAAVGGILLSSVVAKQFGTIGIFAERNEGDMILKRDFNIKKNSRVLIVEDIVTTGGSIDELIKIVEEKNAICIGITCLVDRSKNGLENFKYPFFPLMKYPSKTWEQKDCPLCEQDNPCSPRGRTGK;locus_tag=LOCUS_03180;EC_number=2.4.2.10;note=WP_011460653.1 orotate phosphoribosyltransferase (Desulfitobacterium hafniense Y51) [pid:36.6%25%2C q_cov:96.8%25%2C s_cov:90.5%25%2C Eval:6.8e-31],MGA_320
sequence02	MetaGeneAnnotator	CDS	87438	88085	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILNEIFVKLFFLSMIFVVFSCATIKDEKYAIIETGKGKMIVKFFPDIAPKHVESFKALIEQDYFNGTTFHRVIPGFVIQGGDPNSKDDDRSNDGMGGHAGKYFGIGDENNPETWTVPAEFNEKPHKRGILSMARSQNPDSGGSQFFVCVDNVPQLDNNYTVFGEVISGLEVIDKIVNSSTPGTQNPSYRGPDRDNPLEAVKMNISLISASELDL;locus_tag=LOCUS_03190;note=E8TB07 peptidyl-prolyl cis-trans isomerase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:43.2%25%2C q_cov:71.6%25%2C s_cov:86.5%25%2C Eval:5.3e-28%2C partial hit],MGA_321
sequence02	MetaGeneAnnotator	CDS	88102	88659	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNKKIILFGFLIIFIFGFFLIFLGNNNTSSTVKVDNSNLSGKNNTSNENLAPNFTLLDTDGNNISLSDYRGKVVIINFWTTWCGPCRYEIPDLVQLYEEYNKDLIVLGISLDYDGPSVVPQFEERIGGVNYPLLYGDNNISNLYGGVTGVPTTFIIDRNMQVFKKYLGYRSPDVIEQDINELL;locus_tag=LOCUS_03200;note=WP_011405522.1 thioredoxin (Salinibacter ruber DSM 13855) [pid:40.7%25%2C q_cov:71.9%25%2C s_cov:55.4%25%2C Eval:4.2e-22%2C partial hit],MGA_322
sequence02	MetaGeneAnnotator	CDS	88727	90109	.	+	0	ID=MGA_323;product=serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933114.1;translation=MNKIILYTFLLFSFLSSQSAKYYSDTFANVVKKVNAAVVTINSEKIVSNERRNPFEEFFYEDFGYGYPNRERTTRALGSGVIVDAKRGHIITNNHVVEGADQISIVLMDEREFDAEILATDPKSDLAILKIDGKNLTQVTLGNSDNLDVGEWVLAIGSPFSSNLSHTVTAGIVSAKGRTNVIGGIDYEDFIQTDAAINPGNSGGALVNLDGELIGINTAIATGGYMRSNAGVGFAIPSNLASVIMNDLISEGRVIRSWLGVFIQDVDDAISNNLKLPDRQGALVTDIVDGSPAEKAGFKIKDVIIDFSGNKIRNSSHLKNVVSSTRPKTIPNVKIIRDGKEKFLKVELVELPQEDEIFARNSSSLPSSLGMRVENISQAMLNRFGLENIDNGVIVIDILNSSIASKSGIMIGDIISRVGDTEVNSVSEFGVAINNIKDQKSVLFLIKRRGGSIFIPLEIN;locus_tag=LOCUS_03210;note=WP_010933114.1 serine protease (Chlorobium tepidum TLS) [pid:43.2%25%2C q_cov:93.3%25%2C s_cov:85.3%25%2C Eval:4.0e-90],MGA_323
sequence02	MetaGeneAnnotator	CDS	90249	90458	.	-	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLYKVYFVINFFKHFYIFENNFKMRVKKILNNAQVEIGIYREKLFLDTLISPGKLPNFDIIGILNPK;locus_tag=LOCUS_03220;note=MGA_324
sequence02	MetaGeneAnnotator	CDS	90411	93710	.	+	0	ID=MGA_325;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O51773;translation=MLKKVNNKVDFIELEHEVLDFWKKKNIFEKRKKMNEGLKKWSFIDGPITANNPMGVHHAWGRTLKDLYNRYKSMTKHELRYQQGFDCQGLWVEVEVEKELGFKSKKDVENYGIEKFVKKCKDRVKKFSDIQTNQSKRLGYWMDWDNSYYTMSDENNYTIWSLLKKLHQSGKIYRGSDVVPWSGRSGTSYSQMEIIEGRKLVSHRAVFIRFPIKNKKNEFLLVWTTTPWTLTSNVVVGVNIKLEYVKIKSSDGSIYYSANENLNFKRLEKQFKEKKQWIKNIPKLKTISQIFKEKGGYEIIGKVKGEDMIGWEYDGPFDNLKAQNEIGGYPFPNHNLVEKGVSARLQHKVINPGKDSMGKDIVVSGEGTGIVHMAPGCGDIDNKVGKKQNLINISPLDEESKFTSYFGWLKGKRATDKSTIDLILDYLKQNDYLVYIEEYPHVYPHCWRSGDELVFRLVDEWYINMDWRNQIKNILDDIDWIPSWGKERENEWLDNMGDWMISKKRFWGLALPIWIFEDESFYVVGSKEELKKLSVEGWEEFEKNSPHRPWIDKVKIKHPDTGLIGTRIKDVGNPWLDAGIVPFSTLGYESNKEYWKEWFPGDFITESFPGQFRNWFYSLLAMSTFLENKAPFKTLLGHALVKDEHGKDMHKSTGNAIWFDDAAEDIGVDVMRWMYASQNPENNLLFGYGIAEDIRKKIITLWNVYSFFVTYARLDKFDPSINLNKKNFTQLDLWILSKMNKLIKIAEDSFENYRIDKFMKHLDLFLDDLSNWYVRRNRRRFWKAENDNDKNAAYQTLYNVLKKLIFILSPIAPFVTEKIYQNLVRNLEFDSKESVHLNDFPISNKNEIDEDLIHSMDGLVKIVELGRFARNKASIKIRQPLSRLCIFLKDENIKKLILQNENQIKEELNVKNIEFVKNQNDLIIREFSPNFVSIREKFQDKINLVLPLIKKLNFEQYNKKINNNGYIKVSDSDNDFELNKNDFLIKEKSVKNFSSVCEGDIVVGIYTSLNDELIEEGIIRDLIRNIQNFRKELNFNVEDRIYVKIKAPKNIQNAINNFKEYFSNEILANELYFEGELGQKNKELKINNQLMSISLSRKK;locus_tag=LOCUS_03230;gene=ileS;EC_number=6.1.1.5;note=O51773 isoleucine--tRNA ligase (Borrelia burgdorferi B31) [pid:34.4%25%2C q_cov:98.9%25%2C s_cov:98.7%25%2C Eval:2.1e-173],MGA_325
sequence02	MetaGeneAnnotator	CDS	93725	94111	.	+	0	ID=MGA_326;product=DnaK suppressor protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932004.1;translation=MIKVKLTKKELDNYFKIINSMREKAIDEMDNIKENSINESGNLDSGARDSNYAYHMADVGTDSHEREKSYLLYSRENKFIQHLDQALERIKRGTYGICMKCNEKIPHDRLIEVPHTKLCIKCKTKNSI;locus_tag=LOCUS_03240;note=WP_010932004.1 DnaK suppressor protein (Chlorobium tepidum TLS) [pid:36.6%25%2C q_cov:96.1%25%2C s_cov:81.6%25%2C Eval:1.4e-18],MGA_326
sequence02	MetaGeneAnnotator	CDS	94116	94595	.	+	0	ID=MGA_327;product=lipoprotein signal peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_833613.2;translation=MNPIFFTAFIVIIDQLSKFIARSNMNLYSPSIELLGNFFKFTYVENSGIAFGINFNNGPIVFTILASIATIFIIWYLFKSKKESYLFRLSLSFILGGAIGNLIDRYLFGKVVDFFHLSIGQFSWPVFNVADSFVTIGMALYIYSIYIDEKSQSTLNEKN;locus_tag=LOCUS_03250;gene=lspA;EC_number=3.4.23.36;note=NP_833613.2 lipoprotein signal peptidase (Bacillus cereus ATCC 14579) [pid:40.8%25%2C q_cov:89.3%25%2C s_cov:92.1%25%2C Eval:6.7e-22],MGA_327
sequence02	MetaGeneAnnotator	CDS	94582	95550	.	+	0	ID=MGA_328;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WYT3;translation=MRKINILSNVSNIRIDKFLAEEINLISRSKIKEFIILKNIKVNGKYVKPSFKLSLGEIININLPPIESSFLKPEKIFFQIIFEDDDIIIINKPSNLVVHPGAGNKSGTLVNGLVFHFKNLSEVNGEIRPGIIHRLDKDTTGIIIIAKNDHSHKFIANQFEKRTISKKYIALVWGLVKKNFGKIQTPIIRDNKKRTLFKTGKNGRDALTEYKVLERFEHLTLVELYPKTGRTHQIRVHMSSIGHPIFSDTNYGGGANKAKEFQPKIANDFSKLLKGINRQALHAISISFYHPKTNKKETYIAPIPEDISKIISEVRLEHETFE;locus_tag=LOCUS_03260;EC_number=5.4.99.-;note=Q9WYT3 pseudouridine synthase (Thermotoga maritima MSB8) [pid:44.6%25%2C q_cov:93.5%25%2C s_cov:93.2%25%2C Eval:7.8e-68],MGA_328
sequence02	MetaGeneAnnotator	CDS	95534	96424	.	+	0	ID=MGA_329;product=tyrosine recombinase XerC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YFZ8;translation=MKHLNEFLIYIYKIKMYSQNTIDAYKIDLNQFINFLTKELMISIIDLNKISKKEIKSYLLFLSERNLSEKSINRKLASIKSFFRYLLKQKLVKSNPTTNINGLKIPQKLPRFIQNDVLFKVLEHNINDDWQIIRDKTILELFFSTGIRLRELIFLDLKDLEMEDKILKVVGKGNKERIVPFGKKVFESLVKYLKFRNKYISRDLKDFPLFISKKGIRISPRTVQSRLKKLFNKVSLNEFTPHLMRHTFASQMINNGADIRAVQEILGHSSLSSTQIYTHLKKKKLKEFFDKAHPHA;locus_tag=LOCUS_03270;gene=xerC;note=B5YFZ8 tyrosine recombinase XerC (Thermodesulfovibrio yellowstonii DSM 11347) [pid:41.9%25%2C q_cov:98.6%25%2C s_cov:96.0%25%2C Eval:5.5e-57],MGA_329
sequence02	MetaGeneAnnotator	CDS	96532	97686	.	+	0	ID=MGA_330;product=S-adenosylmethionine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P54419;translation=MNNTIFSSESVTEGHPDKVCDQISDAILDDILSQDPEARVACETLTTTGLVLVSGEVTTSCYSDFQKIIRNTLKKIGYTNPEYGLDHQDCSVLTSIHEQSPDIAQGVDSSFKKEQGAGDQGLMFGYACDETDVLMPLPITLAHRLAKKLSELRKNGVLPWSRPDGKTQVSIRYENGIPVGVDKVVIAIQHDPDIKNEEIHSSIKENVIKPVCGNWLNDNTEFFINSTGVFIKGGPEADTGLTGRKIIVDTYGGYGRHGGGAFSGKDPSKVDRSASYMARYIAKNIVAAKIAKKCELQLAYSIGEANPVSVYVNTFGTGQIDDEKITTIIKDNFPLKPKEIIDHLNLKRPIYFNTASYGHFGRENESGFPWEKCDKVSELKKYIN;locus_tag=LOCUS_03280;gene=metK;EC_number=2.5.1.6;note=P54419 S-adenosylmethionine synthase (Bacillus subtilis subsp. subtilis str. 168) [pid:58.8%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:2.4e-130],MGA_330
sequence02	MetaGeneAnnotator	CDS	97705	98961	.	+	0	ID=MGA_331;product=adenosylhomocysteinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHE1;translation=MSEFDVKDLKLSKLGKERILWADRSMPVLKSIRNRFKNEKPLDGIRISACLHVTAETANLMRTLEEGGADTLLCASNPLSTQDDVAASLVNDFNVKTYSINGEDNDTYYSHIKSALNHHPHITFDDGADLVSMLHSDYENQISEVKCSMEETTTGVIRLEAMKEDGALRIPVVAVNDANSKHLFDNRYGTGQSTIDGIIRATDILIAGKKFVVGGYGMCGRGLATRAKGMGAHVIVTEVNPLRALEAAMDGFEVMSMNEASKSADIFCTVTGNTTILAKEHFLNMKDGAIVANSGHFNVEVDLESLKNISKKVNLGVREFVDEYILENGNRIYVLGDGRLINLVAAEGHPASVMDMSFSVQALMAEYTTQNDLEISVHTVPKKIDELVAKLKLDSMGISIDTLTSKQTKYLASWQEGT;locus_tag=LOCUS_03290;gene=ahcY;EC_number=3.3.1.1;note=B5YHE1 adenosylhomocysteinase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:63.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-149],MGA_331
sequence02	MetaGeneAnnotator	CDS	98978	101830	.	+	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRSIWIVACFLVFLQFGCDFQNPSDFKTPKWNVNLTLPLLDNFYPFSEIASNDIIKSSGDSLLIDFDGELTETTITRDYLIVPETNPDAVSQSINVPSVSDILTVPLSYDSSFGFSADLPSSIPVPGVTGGDVWKSQVLAVLEPNVNDAFPQKIASIPLNNAFSSIDFASVDGIIIKGSEDDNYFKTTVNVQNFPDNAGINDVTIKLTSGPSNSELISQIHSNGDFNNPIQSSLVGKKLLDGDLNFDLSIDWMRPGDTQVVTITGTPTITVLFDLKLTNPDSVTINVSDGISIVDSDVLTLPKFSDNTSDMGGCGVSSLFGGTIVPDSEKAFNASNKFTFKDVTSTFPFPVQLQIHFKNFFPETGSTDSVKIDEEVFGDDWVDIVKTIAGHQFKHSSGNDTISIDEFDVDFDIKTKGGTYGFLIDGSQPTWQFNFGMNVGKMEFKTLKAKIDCPFPEVKQEMPAMGSGLPGMSFEGIQMDFEFINQIRAPVDMTFNLKGTSPLGEVVEVPLDYVTIATPANLGDSAKTIIRMNASGYSVINYNPWTGPLTPITSETNYLKSSDSTIVKLLSSGPQSINVNASAGITDKTAASLDLGSKIKGTFKLIAPFEIKMEEIAWVPEKATSIDEWEHDTRAKLRNFVKESVLTTRVINGLPIGGELAILFSDNTIFPYGRSELALTTLKDDFVTNQEPGKNKWSSSDTISIITKCSELVNQSVYLSNVIYDMKNCSENSGFIVQRKVGAKDTLISYVDTLFKLILPRPESWVNIPPNSVDISADSTTISILDTSKMNLLTDIGKHYIKPRILFKGTINKVPDVISFSMRDTLRIQSYIGFLLQSDGFTTKSKDEFILKYPNGGETLQNFQSINVKWIALGDSIPEENINLYKSNNSLPDISDESIWDKINLIGNPSGKDSTANWTPSSVQDTVWLKICNQDNSVCDMTMSWFKVE;locus_tag=LOCUS_03300;note=MGA_332
sequence02	MetaGeneAnnotator	CDS	101909	103237	.	+	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGMGGAYTTQADGIYAVGVNPANLNYQHGKPFMWQIGTFNFGLINNFLSLENTLGLSGENLEANNQRGKNQIYDQIRDGLRFSQHAHISIPMLSFASGNMAVTNDIVEIADLNMPRGIFQFILEGNQVGIPIDLEFQRESMVVSEHTFSFAVPLESFSWGITMKYLGGIIYSGTDPDSSFAVFNTDPTNFNLQTKYFYRQGVGGNGFAFDFGLATKEVNGFRVGASIINAFGSIKWNEPSLFGEELSQALAKLTPGILENGGKWGPYTLEKNQALVHEIIADSVTLIDLTSGKWDETFVEKKYTVSDLDVDGNPKSFKVRYPGHFRLGISKQVDKDLLISSDLIAGFTNRLGMYQNWQLSAGIQFNRLKSIPLRVGYMYGGKYIKELGFGAGFHAGPIIYDFAFSFRNGVWVHNMKGISVSLGIALTSFKSRKDKSKDNES;locus_tag=LOCUS_03310;note=MGA_333
sequence02	MetaGeneAnnotator	CDS	103239	104330	.	-	0	ID=MGA_334;product=LPS export ABC transporter permease LptG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942568.1;translation=MKKIDIYILNQFLNLLLISILGFIILFVLVDYVENIDKFIDSKIPINSIINYYFYSIPWFISIGLPMSMLVSTIFTIGLLLKRNELTAMKAAGVSLYRIATPIVILSIIISISGFYFDNFLVTYGNKKCKEIETKFAMKSRNSTFSLKKKNIFLSKANQSQIAIDKYSAKTNIASGVAIQYMKNGKLNKRIDAHKMTWDNKLKKWVLNAYAIRIFNNQGFENKVFISRNDTIIETGYIPDDLAKEAIAPQEKNYADLKVFIKELNQSGIETTRWEVNLHAKLAFSFINMIVVLFAIPLVAFRPSTELAFGAGISVFLIFAYYAFIRFGVTLGYKDILNPLLSAWFGNIIFSSGGLILMILAKK;locus_tag=LOCUS_03320;gene=lptG;note=WP_010942568.1 LPS export ABC transporter permease LptG (Geobacter sulfurreducens PCA) [pid:24.2%25%2C q_cov:92.3%25%2C s_cov:92.2%25%2C Eval:5.5e-28],MGA_334
sequence02	MetaGeneAnnotator	CDS	104327	105562	.	-	0	ID=MGA_335;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009888861.1;translation=MIEYILATIGLILSALFSGAEITFHKLHSNIIQISVWKEQGNLIAKKAENLIKNPEKYITTILLGLNLSNVLVSSFTTIILYKMQIPELYILIIISLIILIFGEILPKSFCHEYPNKFALFFTKFFQISDFLLKPVVWIFRNYTKQISISEKQTNYSRKELAILFEEIELGDDLEKDEKEVITNIFEFGQQSVKNSMTPKHDIIGIEQDRKISDAIDIIISSGLSKIVQFEKDLNNINGIIYLNDLLNEPKNLSDIIHNPLFIHENMSSSDALKELRKYRLSMAIIVESSGKTLGLVTIEDLIEEIFGEFEDIFDKETKKIIKLSDNSFIIDGRIYINELIKYKIFLPKGNYETIGGYIIEKLGKIPEKGNTLNSEFYKIRVLKASSTQVQRIQIIKKSKIESFKVLPKNK;locus_tag=LOCUS_03330;note=WP_009888861.1 membrane protein (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:27.7%25%2C q_cov:96.1%25%2C s_cov:97.8%25%2C Eval:1.6e-42],MGA_335
sequence02	MetaGeneAnnotator	CDS	105658	106557	.	+	0	ID=MGA_336;product=N-acetylmuramic acid 6-phosphate etherase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CRD9;translation=MKLSSTEKQNPISKNLDTKPIKEILKIINNEDSKIAGAVNKILPEIEKTINFAVETIKNGKNIFYVGAGTSGRLGVLDAAECVPTFSVPENYFQGIIAGGNDALVKSIENSEDDLLSAENDLKKVKVSSGDLVIGIASSGTTPYVLQALKYSKKNGCKTVFLICNKSFKNSFDFDVIILVDVGQEVIAGSTRMKSGTATKMILNMISTTTMVKIGKVYDNLMIDLKVVNNKLFNRAIRIINTITGLDEKESKKILIKAKNEVKVAIVMHNHNFSYKVAKTYLQKHNGSLREVLSLKFEK;locus_tag=LOCUS_03340;gene=murQ;EC_number=4.2.1.126;note=Q8CRD9 N-acetylmuramic acid 6-phosphate etherase (Staphylococcus epidermidis ATCC 12228) [pid:44.8%25%2C q_cov:97.0%25%2C s_cov:98.3%25%2C Eval:2.4e-68],MGA_336
sequence02	MetaGeneAnnotator	CDS	106557	107672	.	+	0	ID=MGA_337;product=anhydro-N-acetylmuramic acid kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HIP4;translation=MDVFKQYKMIGLMTGTSMDGLDLCASKITFFNQSINIDVIKNGYVEFPQKIKLDIENSLNLEKENVEKCNKTLGQFMAEKTYQFLKKNKIFNIDGVGMHGQTIQHISGIKSLQIGDPKYLFNKLNVPIISNFRNLDIKSGGTGAPLVPFLDKILFQEEKNAVLCLNIGGISNITYLPSLKTNDQIIGFDTGPGMSLIDEASKIFFNKKFDKDGTLSINGKAHLELVEDWMNDKYIISSYPKSTGRKEFGLRWLKKNMNILNKIEKRDILPTLALFTSSSIIYNCKNFTNYNKLKKIIVSGGGIYNQAIMRNLKRDFKDILFYRCENFGIDSDSKEALCFALLGAAFLNNTPSNIPSVTGAKKSIVLGEITK;locus_tag=LOCUS_03350;gene=anmK;EC_number=2.7.1.170;note=Q6HIP4 anhydro-N-acetylmuramic acid kinase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:34.8%25%2C q_cov:97.6%25%2C s_cov:98.4%25%2C Eval:2.5e-60],MGA_337
sequence02	MetaGeneAnnotator	CDS	107682	109052	.	+	0	ID=MGA_338;product=phosphomannomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012544969.1;translation=MKFNPYVFRKYDIRGVVEEDFSDNFVISLGKSFATKVKRVGIKEIAISGDVRLSTNNLKDNFIEGVLSTGVDIIDLGILPTPTNYYSMWKLDVKASVQVTGSHNPANMNGFKFSVNKQAFFGDKIQKLKNMIEVNDFDKGNGTLVKHNILDDYIEMIIKKIKFHKKMNLIMDCGNATACVAAPQIFKELNANVKNIYSNVDPTFPNHHPDPSDEKNLKEIISVLKVGDFDAGLAFDGDADRIGIIDDNGKLVFPDQLMALMLPEILKKGDNIVFDVKCSKTLEDEILRLGGNPIIWKTGHSYIKQKMKEISCNFAGEMSGHIFIGDNYYGFDDGIYVGARFIEMLSKQNIKLSDLVQQLPKYFSTPEMRIECISDKEKFRINDEISEFFKNNYDCLDIDGVRITFPNGWGLVRASNTQPVLVCRFEGESEEKMNEIKDLVLKKLMSIGDIKIPENE;locus_tag=LOCUS_03360;EC_number=5.4.2.8,5.4.2.2;note=WP_012544969.1 phosphomannomutase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:43.7%25%2C q_cov:96.7%25%2C s_cov:97.6%25%2C Eval:2.3e-106],MGA_338
sequence02	MetaGeneAnnotator	CDS	109045	110016	.	+	0	ID=MGA_339;product=polyprenyl synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931948.1;translation=MNKNFINEHESFVQKLNLHLKNYVKRSDFPSLYDPIQYILSSEGKRLRPFLLYLSSKVYDIDDDKILPLALSVEMLHCFSLVHDDIMDQDDLRRGKQTIHKKWDLSTAILVGDAIFALAYKNINELYNIRDILNVISEETTKLCEGQSLDKTFESKDNISIDDYLHMVELKTGSLLSLSCKLGGILGNGTESEITKLGKFGNLIGKAFQIQDDILEIYSDSLIMGKSLGSDIIFSKKTFLTCFANEFNSNEWKLLNNQIIDMDLKSYVLPKLREFFDNNEVKTIAENKIKDLLNEALSYIDYLPKDKNYVFSNYINMILKRKN;locus_tag=LOCUS_03370;note=WP_010931948.1 polyprenyl synthetase (Chlorobium tepidum TLS) [pid:36.1%25%2C q_cov:97.5%25%2C s_cov:96.1%25%2C Eval:8.8e-51],MGA_339
sequence02	MetaGeneAnnotator	CDS	110020	111060	.	+	0	ID=MGA_340;product=phosphate starvation-inducible protein PsiE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583631.1;translation=MDLKNIDTSNMLKEIESLPFQIEESLDIMNDYKFKIKNFEKINNVVIVGMGGSGIGGDIVNSIISDKTPIPFYVVRDYNLPSWVDENSLVICVSYSGNTEETISCFEEALHRKSYIVGITSGGILQEKLNRFNLDLISIPKNKPPRASIGYISILILLVLEKNNLIGNLSEKNLLETSSKLKILTNTFNKMENKNPTFFLAKQIFKTVPIIYGDFKYTSSIALRWRGQIEENSKMISFHNILPEMNHNEIVGYENNNNLFDKLSIIWLKDKNIHPRTSLRQKYSLQLLSENISNQFEVESHGESLIERIFYLIYWGDWLSFWLAICHGTDPTPVKRIEKLKKKLVR;locus_tag=LOCUS_03380;note=WP_012583631.1 phosphate starvation-inducible protein PsiE (Dictyoglomus turgidum DSM 6724) [pid:33.1%25%2C q_cov:99.1%25%2C s_cov:96.1%25%2C Eval:4.5e-48],MGA_340
sequence02	MetaGeneAnnotator	CDS	111086	111640	.	+	0	ID=MGA_341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404857.1;translation=MIPVKIINLSYHHSFKGYAIELEELNNQNRKISIFVGPFEAQSIALAMENIISPRPLTHDLIVNLILKMNQHIKSVVINDIKEGAFYALLKVRIDDLKSIEIDCRPSDAIAIALRTDSPIFVTQKVMDKAKDSDKVNFYDEASSKSLNENRRKVLQDKLNNAIESEEYELAAELRDQLLELENI;locus_tag=LOCUS_03390;note=WP_011404857.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:40.5%25%2C q_cov:83.7%25%2C s_cov:91.5%25%2C Eval:1.2e-27],MGA_341
sequence02	MetaGeneAnnotator	CDS	111626	112357	.	-	0	ID=MGA_342;product=ribonuclease 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P56118;translation=MFRIKKVFKNIFFLKNKNKKIFDLQKSIGYFFKNESLLQKAITHKSFNTKVSNNYEQLEFLGDAILDEIISDLLLKKFPNATEGYLTQKRSSLVRKSFLSKIGKKFSLIEYLRADNSLDLNDEKVIENQTANMFEAIIAAIKLDSGNAACYSFIKKTLWKNKNIAWESINYKGLLIEFCQSNEFGSPKFITSNTSGPDHEKTFNIIVKIGEKIKSTASGKTKKSAEQKASKKIMDQIKKSNIF;locus_tag=LOCUS_03400;gene=rnc;EC_number=3.1.26.3;note=P56118 ribonuclease 3 (Helicobacter pylori 26695) [pid:33.2%25%2C q_cov:91.8%25%2C s_cov:93.7%25%2C Eval:9.3e-30],MGA_342
sequence02	MetaGeneAnnotator	CDS	112403	112633	.	-	0	ID=MGA_343;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CPI2;translation=MSSFDKVKEVILDKLGPDEDSITLDASFVDDLGADSLDTVELIMQLEEEFGIEIPDEEAEKLTTVKAAVEYIDSNS;locus_tag=LOCUS_03410;gene=acpP;note=Q8CPI2 acyl carrier protein (Staphylococcus epidermidis ATCC 12228) [pid:64.9%25%2C q_cov:97.4%25%2C s_cov:96.1%25%2C Eval:3.9e-21],MGA_343
sequence02	MetaGeneAnnotator	CDS	112646	113383	.	-	0	ID=MGA_344;product=3-oxoacyl-[acyl-carrier-protein] reductase FabG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P51831;translation=MKNNQIAFITGASKGIGYSIAKAFALNGTTVACASRNLEDLNKTVEKLKSLGGNAIAVQLDVSNLSNFKSAIDYTIEKFEKIDILVNNAGIVKDNLILRMKEEDWDSVIDVNLKGTFNGVKSVTPYMMKKKYGRIINISSVSGLMGNYGQINYSAAKSGIIGLTKTTARELASRNITVNAVAPGYIQTDMVSDLNDKFKDELLKMIPLGRIGNPDEIAATVLFLSSENAGYITGETISVNGGLYI;locus_tag=LOCUS_03420;gene=fabG;EC_number=1.1.1.100;note=P51831 3-oxoacyl-[acyl-carrier-protein] reductase FabG (Bacillus subtilis subsp. subtilis str. 168) [pid:54.5%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:5.5e-70],MGA_344
sequence02	MetaGeneAnnotator	CDS	113380	114306	.	-	0	ID=MGA_345;product=malonyl CoA-acyl carrier protein transacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WZQ5;translation=MTKKNLIFPGQGSQKVGMGLDLYNNYKLAKEYFDLANKIMGKNISEICFNGPNEELKLTENTQPGIFIIECILFDLINKKEIEPNYVAGHSLGEYSALYAAGIFDFETGLILVKSRSLAMKKAGKQNSGSMAAIIGLDSEELIKICDSISNVDDIVVPANFNSPSQIVISGTKIAVKKTMEVCKEMGAKKTIELNVSGAFHSPLMKEAKNEMKEKIEQLKFKTPRCPIIMNVTGEETIDENKIKINLINQLDHPVRWLETINRFNKLGISNFIEVGPNRVLRGLNNRINSEINTVNIENSNHIEEMKI;locus_tag=LOCUS_03430;EC_number=2.3.1.39;note=Q9WZQ5 malonyl CoA-acyl carrier protein transacylase (Thermotoga maritima MSB8) [pid:45.0%25%2C q_cov:97.4%25%2C s_cov:97.6%25%2C Eval:3.6e-67],MGA_345
sequence02	MetaGeneAnnotator	CDS	114303	115292	.	-	0	ID=MGA_346;product=3-oxoacyl-[acyl-carrier-protein] synthase 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAP2;translation=MKATITAASHYLPENIISNSDMEKFVETSDEWIQSRTGIKQRHKVKNGEATSSMGIKVANDILEKKKINAKEIDVIITATITPDMLFPSTASIIQKEIGAINAWAFDLNAACSGFLFSLETAQSLIESKKYKKILVIGGDTMSSIIDYNDRATCVLFGDGAGAILLEPSSHENGIIDSVLFTDGTGGDRLYMPGGGSLFPSSKKTIDSKFHYLKQDGREVYKSAVRGMTEAALEILKRNSLSSNDIKLFIPHQANKRIIEACSQRLNLNSEQVYINIDRFANTTGGTIPICISEAVQKNLLSEGDLILLAAFGAGFTWGATLIKWGNFN;locus_tag=LOCUS_03440;gene=fabH;EC_number=2.3.1.180;note=Q8KAP2 3-oxoacyl-[acyl-carrier-protein] synthase 3 (Chlorobium tepidum TLS) [pid:50.3%25%2C q_cov:98.8%25%2C s_cov:99.7%25%2C Eval:1.0e-94],MGA_346
sequence02	MetaGeneAnnotator	CDS	115295	116308	.	-	0	ID=MGA_347;product=phosphate acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272448.1;translation=MKIIVDAMGGDQAPSEIVKGAIDASIENDDLDLILIGDEKKIKKTLPKNKKLAKYKIHHSSQSVEMNDRPSQIVKQKPDSSIVSGLNLLKSKKAHAFVSAGSTGAILAASLLLLGRIDGVKRPALGVFFPVGEKGIVLCDAGANTEAKPAHLVQFSVMASKYMTQIRGIKNPLTGLLNIGEEETKGTESYIEGHKLMKKCIPSFIGNIESRYLFDGRAQIIVCDGFLGNNIVKIAEGWINHVNNDVSTKLIKNIQSIEEKNKIKSIFAEIMKDFDYEEYGGVPLLGVNGTVIKCHGRSSAKAIKNAILVAKKCVKENLINSIKNDISSTFSIIKELI;locus_tag=LOCUS_03450;note=WP_041272448.1 phosphate acyltransferase (Desulfitobacterium hafniense Y51) [pid:45.3%25%2C q_cov:96.7%25%2C s_cov:97.6%25%2C Eval:6.4e-68],MGA_347
sequence02	MetaGeneAnnotator	CDS	116314	116502	.	-	0	ID=MGA_348;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813398.1;translation=MALPKRKQSKSRGRKRRTHWKSNIISSINCPQDGCGEKMRPHHACTKCGYYRDRQVIVAIKK;locus_tag=LOCUS_03460;note=WP_005813398.1 50S ribosomal protein L32 (Desulfitobacterium hafniense Y51) [pid:47.4%25%2C q_cov:91.9%25%2C s_cov:93.2%25%2C Eval:1.0e-08],MGA_348
sequence02	MetaGeneAnnotator	CDS	116535	116990	.	-	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILRHELDGTQGNLKKITNFSDLKIDFLKSNRNEIEIFLNFSKTQNSIDIKGEINSDYFEICDRCINNFNNDKTAKFRVILTQNENLMNNNDSEFILFDDSKNEIDLSNIVRDTLLLEKPMKSICDEKCKGLCSTCGNNLNFETCKCIEN;locus_tag=LOCUS_03470;note=WP_003419111.1 hypothetical protein (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:34.3%25%2C q_cov:71.5%25%2C s_cov:62.1%25%2C Eval:1.9e-12%2C partial hit],MGA_349
sequence02	MetaGeneAnnotator	CDS	117072	117839	.	-	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKIFSTFSIIFLFLFGCQTNKTNNGTTGNTYSIRVEENLNLNNLSYGWYIITTPIESKLISKDLFIKNFGKEMSFKPDIPGDYVFELIVFNNNGKSIKRNTYEFNINLLSTTKINVDSTSTLNQNNNNDNLKKIKKKQDLSEKKSIKKQNKKKTKLIKKKLMTANQIESFNGNYTIQMFSEKTPREAEEKMLELKNKGLDSYIQKAYFEKTDQLWYRVRVGNFVSKDEANEAAKEISDFTNFKTWVDKVRVE;locus_tag=LOCUS_03480;note=MGA_350
sequence02	MetaGeneAnnotator	CDS	117847	118263	.	-	0	ID=MGA_351;product=nucleoside diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S3M6;translation=MKTEYSLGIIKPDSFRKKTYGKIINEILSNDFEIIKMKIDQLDKERAGKFYLIHKDKKFFPDLINFMISGPIIPIIIKKNNAVDSFRELIGSTNPIEAKKGTIRNQFAENIQENAIHGSDSTKNAIKEIVFFFPSFQI;locus_tag=LOCUS_03490;gene=ndk;EC_number=2.7.4.6;note=Q2S3M6 nucleoside diphosphate kinase (Salinibacter ruber DSM 13855) [pid:44.9%25%2C q_cov:100.0%25%2C s_cov:97.2%25%2C Eval:1.6e-30],MGA_351
sequence02	MetaGeneAnnotator	CDS	118268	119137	.	-	0	ID=MGA_352;product=succinate--CoA ligase [ADP-forming] subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7CH48;translation=MSILLDDKTKVIVQGFTGKEGSFHAEQMIDYGTNIVGGVTPKKGGQMHLDLPVFNTVKDCVLETRATASVIFVPPPFASDAIMEAIDSDIKLIICITEGIPTKDMTKIKYFLKESGSRMIGPNCPGIISPGKAKIGIMPGFIHKKGNVGVISRSGTLTYEAVFQLTELGIGQSTCIGIGGDPIIGSSFIDLLKLFNEDKQTEGIILIGEIGGSSEEEAADWIKSSEFKKPIVGFIAGQTAPPGKRMGHAGAIIAGGKGTADEKMKILSNAGVKVVSSPSKIGIEMKKLL;locus_tag=LOCUS_03500;gene=sucD;EC_number=6.2.1.5;note=Q7CH48 succinate--CoA ligase [ADP-forming] subunit alpha (Yersinia pestis CO92) [pid:63.3%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:2.1e-98],MGA_352
sequence02	MetaGeneAnnotator	CDS	119134	120330	.	-	0	ID=MGA_353;product=succinate--CoA ligase [ADP-forming] subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KFE7;translation=MNKTKNFTLSPMKIHEYQGKDIFKSNGVPVPKGQPAFSPKEAIEVAKQIGGNKWVIKAQIHAGGRGKGGGIKIAKSLKEVEDFSTLLLGKKLITHQTGPEGKEVNRLLIEEGIDIKRELYTSIVLDRSKEKFVFMVSTEGGVDIEETATNSPNKILKIWIDPNIGLTPFLSRQLCFSLGLVENEINNGSKMFLSLWDTFVKYDCSLLEINPLVITKNQEIIALDSKINFDENSLFRHPEIESLRDFSEELPVETEASKNNLNYIKLEGEVGCMVNGAGLAMATMDIIKISGGEPANFLDVGGVANPDTISKGFKLILSDKNVKSILINIFGGIVRCDRVAKGVIQAINNLNVKIPIIVRLEGTNSKEASILLKNSSLDFIVAKNLEEAAKKAVMESKR;locus_tag=LOCUS_03510;gene=sucC;EC_number=6.2.1.5;note=Q8KFE7 succinate--CoA ligase [ADP-forming] subunit beta (Chlorobium tepidum TLS) [pid:57.0%25%2C q_cov:95.5%25%2C s_cov:98.0%25%2C Eval:1.8e-120],MGA_353
sequence02	MetaGeneAnnotator	CDS	120376	120732	.	-	0	ID=MGA_354;product=arsenate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q92R44;translation=MSNKKITVYHNPKCKTSRDVLEVLKNNNFNIQIINYIKNPLNHKELNLLIKKLSMRPKEVIRKRESIFKELKLVDFLNDDEYLINKMVEFPKLIERPIVIIGKNTKICRPSKIIYDLI;locus_tag=LOCUS_03520;gene=arsC;EC_number=1.20.4.1;note=Q92R44 arsenate reductase (Sinorhizobium meliloti 1021) [pid:36.3%25%2C q_cov:95.8%25%2C s_cov:80.7%25%2C Eval:4.8e-19],MGA_354
sequence02	MetaGeneAnnotator	CDS	120860	121888	.	+	0	ID=MGA_355;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404386.1;translation=MNLLSNNLQPNNWVSGEMAMDLGTANTLIWVKSKGVIVNEPSIIARNINNGNVIAVGEEASAMVGKTHRDIETVFPLRDGVIADFEATDGMIQGFVKKINFSPIARFKMVICVPSGVTEVERKAVRDSAERANAKEIYLIDEPVAAAIGIGIDISKPVGNMIVDIGGGTSEIAVIALNGVVTKEAIKVAGREMDSDIVKWFRNEHKLEIGLPTSEKIKVEVGTAMRMEQSPIQVKGRDMVSGIPKTVEVSADEIRQALKESVTQIVDAIKRALENTPPELAVDILNRGIVLTGGGSMLKGLDQNIRERTNLPANMSERPLTDVVRGTGTVLMNIKKYTDVLM;locus_tag=LOCUS_03530;note=WP_011404386.1 rod shape-determining protein (Salinibacter ruber DSM 13855) [pid:52.1%25%2C q_cov:95.9%25%2C s_cov:98.5%25%2C Eval:8.7e-97],MGA_355
sequence02	MetaGeneAnnotator	CDS	121895	122677	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIVSYIIDNRDYATFFIAIILSLLILTNNKSENIQTIKSKFGFINYYINLPKTFFNDILYLKQKNKLLNEQIVDINLRNSKLEHLIFENSRLKSLLQYKENSSLSLLTSKVINFGISPFLNSINIDLGSNNNIIPNLPVIDLNGVVGKTINSYSETSTVQLMTDYNFRLSVRLESSGSIGILRYKQDNLFEIWEIPKTTNVSINERVLTSGFSDIFPSNLFVGKVVKIIDEPNFIDKIILVESFTDFSNLEYVFVIKE;locus_tag=LOCUS_03540;note=Q73N06 cell shape-determining protein MreC (Treponema denticola ATCC 35405) [pid:25.7%25%2C q_cov:75.4%25%2C s_cov:71.8%25%2C Eval:8.3e-11%2C partial hit],MGA_356
sequence02	MetaGeneAnnotator	CDS	122685	123179	.	+	0	ID=MGA_357;product=rod shape-determining protein MreD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002671465.1;translation=MYNFLKIIFFGLIILFLELLIFDIITIKNIRPDFLILYILYISLIHGRLKGLLCGFLLGILEDFITGSIFFGLSALTKTISGFLFGSLSGKFKKINPIFYFSYILFILGINFFIFFYVTNQNIFNDNKSLFLNIYFYAFIYTLVFLFVLNYIKPINSLDNIEDR;locus_tag=LOCUS_03550;gene=mreD;note=WP_002671465.1 rod shape-determining protein MreD (Treponema denticola ATCC 35405) [pid:28.8%25%2C q_cov:82.9%25%2C s_cov:84.3%25%2C Eval:7.0e-09],MGA_357
sequence02	MetaGeneAnnotator	CDS	123181	124935	.	+	0	ID=MGA_358;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932253.1;translation=MLKTKIYQNNFKRDFSFFIISILFFILFAKFFQIQILRYEKYQILADANRIRAVSTPAPRGNIFTSDGKIIASNKSIYSVSLIKDELIDQDLEIKKLSEYLNKDEDIILKNLNKYYQGKYLPALVAKNVSIEGLSLIEEHRYELPGVFYSNFPIRYYPNKEKINLSHTLGYLREINSSELKELGKDIYSNGDYIGFQGIEKYYEKKLKGKKGINYHQVDALGRDVGILMDRNPVPSIPGKDIYLNIDYDLQSRAENLLDGQKGAIVIIDSKTGKVLSLVSKPDFSLEDFSAGMDSEIWNGYSQDSSRPLFNRALQGVYPPGSSFKLLTVIIALENNLIDVEKKFFCSGKYEFGDREFGCWMETGHGNLNLSSAIIQSCNIYFYELAQKVSIDLWSNYANKFMFGKSTNIDFPAESKGLVANRDYMNQKYGRWGWAGGSLLHLSIGQGDLLVTPLQMAMFASVLASKGNYIHPQIVNEEKKNNSLNIIKLKESTWAYLHKTMFDVVNEKKGTAYDPSLMKLKIKSYGKTGTAENAHGDPHAWFVGFAEKNNRNISISVIVENSGTGGSVAAPISSKLIREYFKKF;locus_tag=LOCUS_03560;gene=mrdA;note=WP_010932253.1 penicillin-binding protein 2 (Chlorobium tepidum TLS) [pid:35.8%25%2C q_cov:94.5%25%2C s_cov:88.0%25%2C Eval:9.9e-92],MGA_358
sequence02	MetaGeneAnnotator	CDS	124948	126165	.	+	0	ID=MGA_359;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931982.1;translation=MKLKNKIIRAPKYWLIISSILNIFGLIALYSISQDEVVLSFSSRFTKFLFWFFPAISVFILFFYVPIKIIHDYSYIALFTIFVLLFIPYFFDPIAGTHRWISLGYLRFQPAEIMKWVAVLGLSRYLSDQKLKLKKISTIIYPIIFTLIPFFVIAKQPDLGSAIIVIAPLIPLLFWVGVDTFHIIFILAPILSILTAFHIFSFTIWIGLFAIILYLYKKSLIVNLNVFFGNIFLGLLSPLIWNSLTSYQQGRILVFLDVSKDPLGAAYQVIQSQTAIGSGGFWGKGFGNGSQTHLKFLPEQETDFIFSVIGEEFGFLVVSIILILFSILILDMVQKSFKLSERFPSLVLFGIAVIFMCHVFVNIGMTVNLLPVKGLPLPFLSYGGTFLVSCYAMLGLAMNMAVEEK;locus_tag=LOCUS_03570;gene=rodA;note=WP_010931982.1 rod shape-determining protein RodA (Chlorobium tepidum TLS) [pid:33.3%25%2C q_cov:95.8%25%2C s_cov:95.4%25%2C Eval:1.8e-59],MGA_359
sequence02	MetaGeneAnnotator	CDS	126244	127023	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFKIFFTIFFLLGILNTLLCQSSSESEENRISNLENQINQLMGIVIPDMQNAMQSMVKSKAQSDSTSILLINRINTLQNTIRILESKATYTDSINFQLLQQLMMIENKIITLTRSFNELYDLKVEPESISSGKYNDDYKSNYIDALSFYNDGKYNEAIQSFASLVLNNPNHKLSDNSQFWLGESYYALKNYKRAIVEFEKVFQFTEEDKWDDAQLKLGICFQKIGNYSRARLEFEKLINHYPGSEYYKRAQQYLRQL;locus_tag=LOCUS_03580;note=WP_010939216.1 tol-pal system protein YbgF (Desulfovibrio vulgaris str. Hildenborough) [pid:37.4%25%2C q_cov:44.0%25%2C s_cov:36.9%25%2C Eval:4.5e-17%2C partial hit],MGA_360
sequence02	MetaGeneAnnotator	CDS	127042	127866	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYFLTPEIFPFSNTSFLSMFSKFVPINLQKNNHDIRLTSPKYGFISERKYTLREVIRLREINTKIGEGFEVASAKSAFIPKTRVQVYFMEHENFFQPLTPLLYKAKNGRPLPDNGDRFGFFSKMSLEMLVNLFWSPNLIICNDWHSSFVPIVYEQLFSNQDFYKNIKTIQIIHNLDDYNNVPSSLYSELGVTLPEDFKDDEINSIMVGSYFADLVIAIDNKNKSISKEIIKNKKFHNKIKNKFHIIDLNNEDEESCEIISDQINDLIKETFE;locus_tag=LOCUS_03590;note=WP_011403556.1 glycogen synthase (Salinibacter ruber DSM 13855) [pid:31.6%25%2C q_cov:62.0%25%2C s_cov:64.3%25%2C Eval:2.4e-19%2C partial hit],MGA_361
sequence02	MetaGeneAnnotator	CDS	127859	129067	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFFLNRFYIIIFLITISCENKSFFSEDILNVDELSVVSSNQMKFSTYQITPSIGNSEIISVGNKGLFKNLTTFIEFKDYHQHEILNMKIDSALIKIKFLNNQNLDYLKPEDLSIGFIEKPIEYNELTTNYDNISWLNDEYYKINSNVEIDSNGLRDLVFNLDSNFISMLSDSTFKPLFILEELYNEDEILSFYSSNDLSNKPFLNLFTSSDSDTSYDSSFVIDAFSDVTIFEYPKLNEEFSDSNFNYLSIAAGLNTIIKPTFENLALPNTASIIKANLNIEIDTLIALDSLTINFQAFSLEDSVIDWNWGEVMMYDPYNSISNIFSQSLVSSIENSILSLDITNYIQSIISQRLINGNILVNSGLKIDIINSNSLFDIVVFKNNSNSNDNVHLEIFYENN;locus_tag=LOCUS_03600;note=MGA_362
sequence02	MetaGeneAnnotator	CDS	129054	130253	.	+	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKLLLLILFFNLTILVSQSPLNSLGHGTIIHSPDASSLGLSSTGLIPSGNNSFSLNNPTTWTELNFTYLSVNFNSNYVNSQNYNLFKSFLSGISFLVPIRNKYGFGLGIRPYSRKDFKIFSTKENINFDNELYTLSRAYSGSGGISSFFNSLSFKISEKHTIASQIEFLFGTYNEERTSFVSTKEFNFNQMIGYKSTMVSLFYKLKNSFNNRDFYFFSAYNFPIGKKYITQKNDYEFIGQINSADSSFILPSNLRIGFLYNLASSIFISSEFSNIKFPSNKPMYSNIFEHEIKSSNRLSLSVQRMKKTNSRDFFERIQYRVGFFTMGHYIRLPETNINETGFSFGIGLPFGISDNQIDIGFRFSKRNGINQNDELLSQFSIGMLIGDLWLIKGKRR;locus_tag=LOCUS_03610;note=MGA_363
sequence02	MetaGeneAnnotator	CDS	130258	131541	.	+	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFFLKVKFYNQTFLFLCYLVFSCAPPASTLEETSQSIEPVSEMQCLRLLSSAAEYYKNKDWESTSRVYGDLVNLNCDKGNEEEVFQYWAIAFENMAKFDSSEYVLLQGLKRLPDNINLRKRLAFAYKKLGDKDKEIFEYENLIDLVPGDIESLNSLNELYMEAERYEDQIFTLNRILEIDENNKNAQGDLAIAYKNTGRDPIDVYRKRFQDNPENISFGIDLSDQLIDDNRTDEAIEVLEELYESGKSTSSVSIKLVLQKLANAHFSIDNLNLASNAYENLFDIDNRDFKTAIEIVKINISLFNFEKALYWSESAIKIAPDNGQTYASKGDVYYSAFNECRSNLPNVNDKVVSALALKYFKIAEGNGYRRNIRDRKYLEDNADDLVFGKADWFMLDDNVKRKGSIAVKDDCYSWISESIKKELDW;locus_tag=LOCUS_03620;note=MGA_364
sequence02	MetaGeneAnnotator	CDS	131557	132864	.	+	0	ID=MGA_365;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KC36;translation=MSIKVPKINSIKQNDPDIFSFVDNELKRQNEQLELIASENFVSRDILEVVGSILTNKYAEGYPGKRYYGGCEWVDKAENLAIQRGKKLFSCEHINVQPHSGSQANSAVFLSFLKPGDTILGLDLAHGGHLTHGSNVNYSGKIYNSVFYQVEKDTGRVDFNKLLDLAKKTLPKLIICGGSAYPRFVEFEKFREIADKVGSYLMADIAHPSGLVAAKLHPSPWPHCHIATSTTHKTLRGPRGGIILIGTDWENKWNIVAPKSGRVKKISEIIDANVMPGIQGGPLMHVIAAKAIAFREALNSDFKLYAENIVKNAKHMAQKLINKNYKLITDGTDTHVILIDLTNKNISGKKAEICLEKAGITVNKNMVPYDNKSPFITSGIRIGTAAMTTRGMGVNEMEKIVDLMDYILSDPDNENKITQVFEEVKEICSDFPLYV;locus_tag=LOCUS_03630;gene=glyA;EC_number=2.1.2.1;note=Q8KC36 serine hydroxymethyltransferase (Chlorobium tepidum TLS) [pid:59.6%25%2C q_cov:97.2%25%2C s_cov:97.3%25%2C Eval:9.8e-147],MGA_365
sequence02	MetaGeneAnnotator	CDS	132857	133765	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNIKILKISFFLFFSCYFTGCSVKQIVINNLLNSSTNGVSSIYLTENDPELVRESLPTNIKLIELLIQQSPNSSGLLISASQVLTVYSYAFILKDAEYVLDEDFKKSRILTQRGKKLLFRARQYAIDAIETKHKDFFSNFSKDYEKYLLDLDKDDLDEIYWLAASWALLISISQDDPKMLAELPKIGLLIDRGIQINENYENGSFYDVKFSYDLARPDISDEIAIQSYEKAIELANGSRASLYLSYAESISLKNQNKTEFLKLINQVLTYDTEKYPNQRLSNILAQERAQWLKSRIDLLFF;locus_tag=LOCUS_03640;note=MGA_366
sequence02	MetaGeneAnnotator	CDS	133793	135595	.	+	0	ID=MGA_367;product=TRAP transporter subunit DctM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002682335.1;translation=MQTIKNFIKTLENSLAIVILLLMAFLPTFMVFSRLIGINGISATTLIVQNLTLWIAFVGAIIATRENKLLSLLNPIEVETKINFNFKFLFSRIITLLVTFFLALSSFLLVKVEFEYGTDNLIGIPIWFIQSIMPIGFLFIFFELLKPFNFKQNFKILSSIGFFLSLIYITVNYLNFDYRNNFILWFNLILLLSSIILGAPIFVGLGGLALLFFWFDSVPIAAIPTEMYRIVVSPTLPTIPLFTLSGYLLANGGASKRLIEVFKSWFSWIPGGTPVVVTLVCGFFTALTGGSGVTILALGGLLLPMLIAENYPKDFSSGLITVSGSLGLLFPPSLAVIIYGVTAGVPINQIFIGGIIPGLLLIIMVSIWGIRQGFIAKVTRQKFNYKDAFKSLWEAKWEVFIPLFILIGIFGGFTTLVEVSAFTVVYVLLIEMFVYKDLNLKELPKVIIDCATLIGGVLIILGVAMGFTSYLVDAQIPILALDWVRENIQSKYVFLFALNILLLLAGCLMDIFSAIIVLVPLIKPMANYFEVDPIHLAVIFIANLELGYLTPPVGMNLFLSAYRFEKDMSDIYKSVLPFFIILLFTVLAITYIPALSLLFL;locus_tag=LOCUS_03650;note=WP_002682335.1 TRAP transporter subunit DctM (Treponema denticola ATCC 35405) [pid:34.6%25%2C q_cov:98.8%25%2C s_cov:99.8%25%2C Eval:1.6e-84],MGA_367
sequence02	MetaGeneAnnotator	CDS	135675	137018	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKIKKYLKVVFISIFFVSSPSLLFAGSEAGALFLLISPGARAGGMGEAQVGVANDAYASYWNPAGLAFLEGSEAALMHVNWLPGLVSDMYYEFLAFRHNVPSLGTLGGHMIFLNLGEQQRTDEQGENLGTFNSFMFALAGSYGTFISKDAAVGLNIKIIHQKLAEIGAGAEEGKGVTTDFAFDLAFLQKNFISNKLDIGATITNIGPKVAFIDEAQADPMPTNFSFGLKYDLVKSEYNKLSFVMDFDKLLVSSYPDMDWDNDGIVGNYDKSGNLIGPSGDYNKKGRIEKAHSDPIYLGIFTSWFDDWLLGGDLDRPGRSGVPDGKIGGYTLDSESGNFIATNVEWGEAGYGKYNDAGDLEVGTGDQRTISSEFDELVFNFGAEYWYSSYFALRAGYYYDKVGKIHNPTFGVGLRFSGYGFDAGFTLGEPGHPLTNTMRFSLNIEF;locus_tag=LOCUS_03660;note=WP_011403960.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:33.3%25%2C q_cov:58.8%25%2C s_cov:77.4%25%2C Eval:1.7e-37%2C partial hit],MGA_368
sequence02	MetaGeneAnnotator	CDS	137055	139895	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRFFVLLFVFLNITNAQLIHEKSSVSILGIRVSFLEDNDVFSTGNGNFLYDIEDNKCGDYTIDPPPHNRDYFKSQLNALNNYFYSISKNQFEIDLLNSEIYPLENNKSYQLDSTIASYYPYDDTINQDLGVAKLFQESIIKAFEQDSINFDNYDLIVIFHAGIGQDFSLPFIDPTPSDIPSSYIDSDFLYNQLGINQIKLNNDLSIFSGIILPESQNHLLYDISEEIFFGVDKPCDYQFGLTGTFAFMVGLAIGLPSLYDFENEKSSIGVFGLMDQGSNNGRGLIPAPPNPFTRIWAGWENPKEINPSNFHQIISRDSASSEILKINISKNEYFLIENRNNWIKKNVDIDSLVLKEFSEQNSRTYFEIIFDSSGIIRDNFTKVVTKVPNYDYGLPGSGILIWHIDEKIIFKDEFNFNSINNNIFKKGIDLEEADGAQDIGFESQFLFADPSLGLWSDFWYQNNSQFFIANQVLQIDSVLFNSESFPNSNSNLGADSHISLTNFSKPDRTMSFEFKNQYLIDEFQNYDHKLIFSYDFDNDYIEEIIGVKDSIWWTSAEKFLPKNFFEIDNNSKYLTTLTNINNDPEFGIVFLNKNQLNIVVMEYNGFFKLKWSNKIDLSYLPERISGKNDSSIIQLHYKDKIIDVSIDLINQIVLDETTYDEFQTINWIDSKNNSFGTVNLLRDGGIKSEVNENIFLNFEDIKFNSLSVIDLNLDGNINFLSLSEDGSLYVLNKNLTLQNEFPIKGNFTGNIFSLNLINDKFPEIIVKDIFGKINILDINGKVELTFPSDSSNSIIMIGKFMGKNSIITDSEIFSFNQFDNDQNKWNMVHGNYINERIFEILNQNFITDNFENFNKNQSFVYPNPVLNGITRFRLAIQKADQISINIFDISGLLIEKIDINQISENQITEFNWNVSAIESGVYFANVQVILDGKINNKIIPISIIN;locus_tag=LOCUS_03670;note=WP_011110095.1 metalloprotease (Bacillus cereus ATCC 14579) [pid:22.9%25%2C q_cov:41.2%25%2C s_cov:46.8%25%2C Eval:2.4e-08%2C partial hit],MGA_369
sequence02	MetaGeneAnnotator	CDS	139918	142857	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFFLIFFLIFTFASSQTKYNHNELQWNTFETLNFRIHYHDGLDRTALEGSRIAESIYQTITSLYKYFPDKKTEIVFIDTDDYSNGIAYFYENKIEIWASPLDFNLRGSHNWLNNVITHEFTHIISMGASMKYKSTFPSAYFQMISYENEKREDVLYGFPNIIMSYPLPGIAVPPWYAEGIAQYMFKNSKFDTWDSHRDMVLRDLVKNDRLLSINQMNTFGKTGIGNELIYNTGYAFTHYLVYKFGEEILFSISKNLSQKNNYSIKKAIETSTNMNMDSIYLDYKNNLLSRYSTVNNTINEKKINGKILQKNSSGNFYPKWHPFERKFAYLSNDGNDFLNQTNLIVYSFEDSSNTTISKNVYSRPSWSSEGDKIFFSKKSKSDKYGSRWFDIYFYDFVEKKENQLTKSARAFSPLVLDGDSLLAYISTNDGTQNIFLINLKNKQSSQLTNFSDGKQITTLSYNSKNNLIMFDYTNNHFRNIAALSLIDTSFGDIFSFDLWDDRDISSNEMGDLIYSTDRSGIFNLYYSNDDASNQGYISNVNGGAFMPDINLNGEILFSLYENQEFRIAYLDSIRLLTETDVGYSPNNFLKNENLYDNSSTEKEHFTKPIKTKYQDSFTKMFISPRLLIDYGMFMPGFYFQSSEVLNRLNISGSFGINRFSDLDLSLFFELNTLFPTLYSEVFFMTRHLNNKSKLWDVIDIDQNIKYRLFRIENGIKIPIGSLTNWNLYISYENYRTNQLWWIPGEKLFGKQGIDYFSGFHLGTNFKIKSFTPSYNYNINPNNGFDINFDSKYERNNFFSPEESLTNTVFKKYNFFRTKLSSSLFLKIPYMKNWTLSNQIQLGYISSDNIDSFFNFFAGGRPGIKGYPYYSIEGNKMAILTSSLRLPLALNYHFNIASFTLQNIFLGFMYQLGDAWTIKNDFQTKGSYGVELRVGGFSYYNFPTAISFELHKGLNSFKINEYVYGNDLRFYLSLLFGF;locus_tag=LOCUS_03680;note=MGA_370
sequence02	MetaGeneAnnotator	CDS	142860	143720	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILYIFLIILIFFNQLKTESNLIKYNSSYHGELIGSFKMNDSFQTAKENKINNQILSLIFPGYAHWKLNKKKKAIFFSSMELLFISSWLHYDKKANRLENNFKRFADDNWNLERWWINTPMLTSQYGDVVCEGTHHLNIFLSGQQSTISSDDLCSNEWIEGLELVKDHDFYENIGKYDQFVAGWSDLFNLDGSQNWWEKNKLVGNSTEIIIMTEKKSKYVNQRKESNSAYSIASYMITGLMFNHFISSIDIFLIKKNNERNISSNIKINSLIYNNYKGLVINYRW;locus_tag=LOCUS_03690;note=MGA_371
sequence02	MetaGeneAnnotator	CDS	143714	144469	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLKYIYFIFLIFFGCATNQIDLSIDDIQERFNKGMNLINKKKYYRAQQHFEYVLLRGKHTEIGDDAQFYLAESYFLNKEYETAIVEYDKLIRQMSFSPNVNTARYRICESYEKTSPKFYFQQDATNRAIQKYQEFIEDYPNSKHTSEASSKIKNLRNKLSLKIYETAVLYVKLEEYEASLNYLNDLLDIYFDTSSADNARLLMIETMITMGKEEEASIFFKDNKENFLNRSIYDKAELIISRIELNKST;locus_tag=LOCUS_03700;note=MGA_372
sequence02	MetaGeneAnnotator	CDS	144472	145044	.	+	0	ID=MGA_373;product=putative nicotinate-nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q182L2;translation=MKTCFFGGTFDPPHIGHLIIAESIMEWGDFDKVIFIPSYKPPHKLENISSVYHRINMLKIIIKNKSFFEFSLIDIERKGITYTIDTILELKKKYVDEKKIFFLVGSDSILDFHKWKDYKSILNSCQIVVAPRPKFKIDKISKDIATKIMVADIPMLDISSSEINERLKKKLSITNFVTKEIEDYIFSNLL;locus_tag=LOCUS_03710;gene=nadD;EC_number=2.7.7.18;note=Q182L2 putative nicotinate-nucleotide adenylyltransferase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:40.1%25%2C q_cov:100.0%25%2C s_cov:85.6%25%2C Eval:1.3e-32],MGA_373
sequence02	MetaGeneAnnotator	CDS	145044	145970	.	+	0	ID=MGA_374;product=sodium:calcium antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011070719.1;translation=MESFIIFISLLSGMTLLYLGGDFIVSGSTRLAKKLGISKLVIGLTIVAFGTSLPELVVTLVATFSGSDEIAIGNIIGSNIANIGLIIGLTCTIFNISISSKAFKNDLNIMIFVSFIFLLFLYDSFLSRIEGIILFLGIIFYLIYKFFIMNDEKSSNDESFSFLKNFILISFGIVALYFGSNLFVDGSISLARNFGISESIIGITIVSYGTSLPELATSLIAGFKKEGDISIGNIIGSNLFNLMGVLGLVTIISPIVIILDEILYELVVMFLFSFSLYLILFMKNKISKNYSIFILISYIIFIISLFLV;locus_tag=LOCUS_03720;gene=yrbG;note=WP_011070719.1 sodium:calcium antiporter (Shewanella oneidensis MR-1) [pid:40.6%25%2C q_cov:81.5%25%2C s_cov:81.0%25%2C Eval:1.3e-48],MGA_374
sequence02	MetaGeneAnnotator	CDS	145967	146617	.	+	0	ID=MGA_375;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002263537.1;translation=MIHFKKVLFEFNNGNGIKNTTFNIESGEYVCIIGPTGAGKTTLLKLIYMDIFPQKGEIIVDQYNSKKIKNKDIAHLRRKVGMVFQNSQLLSDRSVFENIAIPLHIQGVGLKYIKSEVNEVLLKLGIEDKKNHFPNQLSGGEKQIISLARELVKNPIVILADEPTGNLDPASSLKVLRMLEEINSEGTAVLMATHNFTLVEDRGYQFMQIKDGEVTL;locus_tag=LOCUS_03730;gene=ftsE;note=WP_002263537.1 ABC transporter ATP-binding protein (Streptococcus mutans UA159) [pid:43.3%25%2C q_cov:99.1%25%2C s_cov:93.5%25%2C Eval:2.1e-48],MGA_375
sequence02	MetaGeneAnnotator	CDS	146614	147480	.	+	0	ID=MGA_376;product=cell division protein FtsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S167;translation=MIDRVLYLFSEGIRGVLRTKITAIATIITIGITSSFVMITAQFGENISKFVEIVRGQYELQIFFKENVDEIKALEIINELNAFEEINSTKLITKDQAAKIFEDEFGENIFDVLDYNPLPYGSVVEISPHNDNSFNVSLLSGKILNIDGVDEVRYQGRLISLVERYYRFFYIFLTLISCLILFATIILISNTIRLTIFARKDLIKVLKLSGATNNFIKLPFLLEGIFEGILGSIIASLISFLSFETINYFLSIFSNYTFSWSFNLNLILVFTIIFFSWIGSVRAVKKFI;locus_tag=LOCUS_03740;note=Q2S167 cell division protein FtsX (Salinibacter ruber DSM 13855) [pid:25.7%25%2C q_cov:97.9%25%2C s_cov:87.9%25%2C Eval:2.7e-21],MGA_376
sequence02	MetaGeneAnnotator	CDS	147574	148155	.	+	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKKNRLKNSKSIKKTVRKNSPIKKNILDKQSKSKENELLIQNANQLEEKYLRLRAEYENFRKRNEKEISRILKYEGEEILKSFLSILDDLDRVIDSSNNQKNKFIADFIDGVKLIKEKLKNKLDAFKVNTFDSKGAKFDPELHDAMMTKESKDYDDGVIIEEFEKGYKYKDKVIRHSKVIVNSIELKENKS;locus_tag=LOCUS_03750;note=Q73Q17 protein GrpE (Treponema denticola ATCC 35405) [pid:36.5%25%2C q_cov:79.8%25%2C s_cov:63.2%25%2C Eval:8.5e-24%2C partial hit],MGA_377
sequence02	MetaGeneAnnotator	CDS	148152	149270	.	+	0	ID=MGA_378;product=chaperone protein DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCD8;translation=MKRDYYEILGVEKNASENDIKKAYRKMAMKYHPDKNPGNKDAESKFKEAAQAYSVLSDSQKKNQYDQFGHAFDGSGNDFQGGFSGADFDLSDALRTFMDGFGGGGFEDFFSGTQRNTTQSRGSDLKVTLNLSLEEISEGIEKKIKLKRFEPCADCDSTGCRKGSLPVRCQTCNGSGQVRKISRSMFGQFVNVGICSNCGGKGEIVSDPCRSCSGDGVNKKSVDVKIKVPAGVASGNYMTLKSQGNATSMKNPRGDLIVFFEEIEHKYFTRNDDDIIVEIQLSLTQAILGDKIEIPTLSGFAQLKIPSGIQSGQVLRMRGKGLQNLRGSSRGDMLVKVQLITPNKISNEEKILYEKLKFNEKNKKIILNKIKL;locus_tag=LOCUS_03760;gene=dnaJ;note=Q8KCD8 chaperone protein DnaJ (Chlorobium tepidum TLS) [pid:45.2%25%2C q_cov:94.6%25%2C s_cov:92.1%25%2C Eval:4.3e-92],MGA_378
sequence02	MetaGeneAnnotator	CDS	149328	150092	.	+	0	ID=MGA_379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKETVKKYKWWVVRDLLEVAIVLSLVGVLSVIYIPRQIWDEEELIKSQSQFNIEHSYDILSYYNRITGERTINGDWAIRLVNAARDSITADSNFIGNQEIILDGKITKVDLFENFSTVYDTSFGFLKTRKDTIQDTIMTVILFNQEELVNDTSYVRKDMLNPYLIDSTFVGISDTSYSSHVEVISYYDNFTPKNDLLICPLTSDRYLITLTEEDYKIESPIIGNYKERRYLIFSFNSKSHGKIEDGDKSWARF;locus_tag=LOCUS_03770;note=MGA_379
sequence02	MetaGeneAnnotator	CDS	150100	150981	.	+	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAVSFSNGWIRCVKSKKENNAFKITDLKSQKIPDEINNHSLFSNEYKNFFLTTFNNLFSSIKYNENENISICMDSNWIETKILPLDIQLNNEVKKKYLYWYLNQRHGDLIKNSRVFFKNLNFIDEKKSLVLCSIIPNTILDLLKISTSKNFLRPIFLEPSIISIERIISNNTTIVFENFKLTKIQLYDKGSIVGEGQCKIKSNSIELDFFSGNVDKVKFIIKTINENISDKKIDVLCSNDFSKESSQFFNLRKNFLSKINPFISNKSKIEFELNNKKEDLSVFSELFGLMFR;locus_tag=LOCUS_03780;note=MGA_380
sequence02	MetaGeneAnnotator	CDS	150986	151252	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDLNLLGKEGFQEKRSNSSLNKNINKEILSSNTITSDNEYSKKNKIRNFFFILIIVIFLMFLINYLYHFFLIDVKILENNTIINEKY;locus_tag=LOCUS_03790;note=MGA_381
sequence02	MetaGeneAnnotator	CDS	151239	151769	.	+	0	ID=MGA_382;product=N6-adenine-specific methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012544958.1;translation=MKNTNFSIMSGKYKGLKISGKLSKSVRPTSSLVRKSMFDTLRNIENLHVLDLFAGSGILGFEALSRGAASITFVEKELSQIKFIKNNSLKFKNEEINIFKNDVFKFLKSNNLMYNLIFADPPYYKINLNDFYKIVQNYIVDGGTLILECSVKEKFLNNVVKEKKFGNTKIIFLKNE;locus_tag=LOCUS_03800;note=WP_012544958.1 N6-adenine-specific methylase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:40.3%25%2C q_cov:83.0%25%2C s_cov:84.2%25%2C Eval:1.0e-22],MGA_382
sequence02	MetaGeneAnnotator	CDS	151762	152256	.	+	0	ID=MGA_383;product=phosphopantetheine adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I4S1;translation=MNKSEKIAIYPGSFDPITLGHIDVIKRARKLFDRLIITVGNHKTKNPLFKTNERIDMIKKSTQSFENIEVLSSKKLIIELAHEKKAIALIRGIRFMSDMEFEFQLAWMNRHLNSEIITVFLMTDAKYTHLNSSIIKEVSELGGNIDDFVTSEVSKKLKKKLKLQ;locus_tag=LOCUS_03810;gene=coaD;EC_number=2.7.7.3;note=A5I4S1 phosphopantetheine adenylyltransferase (Clostridium botulinum A str. ATCC 3502) [pid:48.6%25%2C q_cov:90.2%25%2C s_cov:90.2%25%2C Eval:1.5e-35],MGA_383
sequence02	MetaGeneAnnotator	CDS	152376	152582	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDEVLKLCPKCKKNDLERLIGAGSGLIFKGSGFYITDYVKKKNNSDTNKNENKPKNKKEKVVNKNNE;locus_tag=LOCUS_03820;note=WP_007325406.1 FmdB family transcriptional regulator (Rhodopirellula baltica SH 1) [pid:66.7%25%2C q_cov:57.4%25%2C s_cov:42.4%25%2C Eval:3.1e-10%2C partial hit],MGA_384
sequence02	MetaGeneAnnotator	CDS	152575	153795	.	+	0	ID=MGA_385;product=isocitrate dehydrogenase (NADP(+));inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878150.1;translation=MNDFGEKITFENEKINVPENPIIPFIEGDGIGPDIWKASVKVFDSAVSKVFQNRKKIFWKELMVGEKSFKETGEWLPQDSIDSIQEYKVAIKGPLTTPVGGGIRSLNVTLRQVLDLYACVRPIKWIKGVPSPVKNPENVDLVVFRENTEDVYAGIEWESSSEESKRIIEFFKSNFKKNIRKNSGIGIKPISAFGTKRIVRKSIDYALSNSKESVTLMHKGNIMKFTEGAFKDWGYEIAKDEFPEKTITEDNLWNNFNGVIPKDKLIIKDRIADSMFQQILLRPNEYDVITTPNLNGDYISDAAAAQVGGLGMAPGANMGDEIALFEATHGTAPKYANLNKINPSSVILSGVMMFEYLGWNEVSKIIVDAMEKTITQKKVTYDLARQMDGSIKLSTSDYAETIISNL;locus_tag=LOCUS_03830;note=WP_010878150.1 isocitrate dehydrogenase (NADP(+)) (Archaeoglobus fulgidus DSM 4304) [pid:58.7%25%2C q_cov:99.0%25%2C s_cov:96.6%25%2C Eval:3.3e-141],MGA_385
sequence02	MetaGeneAnnotator	CDS	153804	155189	.	-	0	ID=MGA_386;product=cryptochrome/photolyase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877378.1;translation=MFENFDIQNIKPHKQKILLHLLSMKNYKSFIEKLGYSVELIDYKTISKKDFYELFIIENNIKSLHLCKVDNKILEKKITDLASKLRFNIFWYDSPKFLLNESELNDYFIKNKNLRMSSFYIYQRKKFNVLLENNKPIGGKWSFDKSNRKPIPKNFVIPKIKKINFKDQIHPFAKKIKDTYTKNLGEVNSFNYPTSFEQAEKFFDDFLDKRFHLFGDYEDAISSNNNFLFHSILTPYLNLGLITPHKVVEKTLYFLKHNKIPINSSEGFLRQIIGWREFIRMVYFFHGEKEKKSNFWSFNKPIPKSFYDGTTGILPLDHCIKNALKNGYSHHIERLMIIGNFMVLCRFSPYHVYKWFMEMYIDAYEWVMVPNVFGMSQFSDGGIFSTKPYISGSNYILKMSNFKRDKWSIIWDSLYWNFINDKRDFFNKNPRMKMMVTLYDKKDNITKEKYISEANKFLKNL;locus_tag=LOCUS_03840;note=WP_010877378.1 cryptochrome/photolyase family protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.1%25%2C q_cov:95.9%25%2C s_cov:88.6%25%2C Eval:2.5e-95],MGA_386
sequence02	MetaGeneAnnotator	CDS	155386	155601	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDKIEKGLIDRVGVGVFISIFISLLGTVLFQNYVMEYVSQFLGMFVALSIIVLGMLIVWNLKVELEKNES;locus_tag=LOCUS_03850;note=MGA_387
sequence02	MetaGeneAnnotator	CDS	155831	156043	.	+	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNNWYLAMIISIFIAVLAFVFGTNLFNYESTHQARQVGIFIGLWAPTFGALGIRAQLLESSRPQIYDN;locus_tag=LOCUS_03860;note=MGA_388
sequence02	MetaGeneAnnotator	CDS	156062	156751	.	+	0	ID=MGA_389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFLQPTDIVGFTYFATFMALVATTVFLLFERTNVNPKWQTSLTIAALVTGIAAFHYYYMKEVWVETGTSPIVFRYIDWIITVPLQIVEFYFILAAVSAVSGLIFYRLLIPSIIMLLGGYFGETGILDPTVGFVIGMIGWLIIIYEIFAGEASKINSSSANESSQYAFKTVRAIVTFGWAIYPIGYALGYFTQGDWENTLNIVYNVADFVNKIAFSLVIYQAAKMDTK;locus_tag=LOCUS_03870;note=WP_011140202.1 xanthorhodopsin (Gloeobacter violaceus PCC 7421) [pid:24.0%25%2C q_cov:91.3%25%2C s_cov:74.8%25%2C Eval:6.8e-16%2C partial hit],MGA_389
sequence02	MetaGeneAnnotator	CDS	156838	157806	.	+	0	ID=MGA_390;product=GTPase Obg;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAF0;translation=MFIDFAKIYVSAGSGGNGCVSFRREKFIPKGGPDGGDGGNGGNVIIVVDSNLNTLQDFKYKKKYIAENGLNGSNSNKKGGNGKDIIIKVPAGTVIKKHGMDEVFADLVDINSKKIIAYGGKGGKGNAKFATSTNQSPRKFEKGIKGDFDNFELELKLLADVGLVGLPNAGKSTLLAKVTSAKPKIADYPFTTINPNLGIVKFENFNSFLMVDIPGIIAGASSGKGMGIQFLRHIERTLFLLIIIDITNNNPKKILNTILDELKKHNPQLIKRQRIIVFSKVDLISKNFKLPKINNEEVISISSATGEGIKKLISLISAKLKH;locus_tag=LOCUS_03880;gene=obg;EC_number=3.6.5.-;note=Q8KAF0 GTPase Obg (Chlorobium tepidum TLS) [pid:48.4%25%2C q_cov:95.3%25%2C s_cov:91.9%25%2C Eval:9.9e-79],MGA_390
sequence02	MetaGeneAnnotator	CDS	157859	158878	.	+	0	ID=MGA_391;product=1-pyrroline-5-carboxylate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965110.1;translation=MNNSKNRWLNIDNLINNSKNILLSTHVNPDGDGLGSQLALTNYLRKKNKKYKILNPSLVPNDLSYLNDYEKFHQYDDFTHREEVKNFDLAIILDIGDFKRLGELANELLNTENKIISIDHHPHKEEHYFDEFIHDTSVSSTGYLIYEFLNFKNELDIQSGNGLYLAIMTDTGSFSYSNTDSKTHLMASHLIELGVDTNDIHKKVYQSVPYEKLKLMGEILQNINFNLNGKLAWFIIDQDMLKLSNSNIEHLGGFTDTIRSIKGVEVAIMLHEYSQYKTRINFRSKGNVKIHKLAQRFGGGGHPFASGAMINQSIKIVREAVVSATVSEINKQIYGKDVI;locus_tag=LOCUS_03890;note=WP_010965110.1 1-pyrroline-5-carboxylate dehydrogenase (Clostridium acetobutylicum ATCC 824) [pid:33.3%25%2C q_cov:92.9%25%2C s_cov:97.2%25%2C Eval:1.3e-44],MGA_391
sequence02	MetaGeneAnnotator	CDS	158875	159732	.	+	0	ID=MGA_392;product=4-hydroxy-3-methylbut-2-enyl diphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q749Y8;translation=MKITIAKDAGYCFGVRDAVNIAYDTSKVQGDVYMLGDIVHNEKVVADLSKVGTKVVESIDDIPNDKPVLFRAHGTSEKIWKEAKDKNIDIIDATCPLVKEIHEEVERLEKDGRQIFIIGDHGHDEVVGIESHSKKPIVISNTKEAEQLRRYKRAGVVSQSTQTIENVQKIINILMTKVYDLHFINTICFPTKRNQSQIKELAKDNDLMIIIGSFTSANSKRLTELSININPNTFQVNGAKDLKQKWFRNVKSVGISAGASTPDYLIDEVQAEINKISNGKKETNL;locus_tag=LOCUS_03900;gene=ispH;EC_number=1.17.7.4;note=Q749Y8 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Geobacter sulfurreducens PCA) [pid:39.4%25%2C q_cov:98.6%25%2C s_cov:99.6%25%2C Eval:3.2e-59],MGA_392
sequence02	MetaGeneAnnotator	CDS	159729	160610	.	+	0	ID=MGA_393;product=pyridoxal 5'-phosphate synthase subunit PdxS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E121;translation=MKKKSFELKVGLAEMLKGGVIMDVTNVEQAKIAEDAGAVSVMALERIPADIRADGGIARMSNPKMIKDIQKAVSIPVMAKCRIGHFAEAQILESLKVDFIDESEVLTPADEHNHINKHNFKVPFVCGCRNLGEALRRIGEGAALIRTKGEAGSGNIVEAVRHMRQLQSEIKSLTTLNDEEIMAKAKNLGAPYELVSSISKTGKLPVPNFAAGGVATPADASLMMQLGAETVFVGSGIYKSEDPASRAKAIVSAVTFFNDPKKLAEVSNDLKDAMEGIDISEIPKEKRLQERGW;locus_tag=LOCUS_03910;gene=pdxS;EC_number=4.3.3.6;note=B8E121 pyridoxal 5'-phosphate synthase subunit PdxS (Dictyoglomus turgidum DSM 6724) [pid:71.1%25%2C q_cov:98.0%25%2C s_cov:97.3%25%2C Eval:1.1e-113],MGA_393
sequence02	MetaGeneAnnotator	CDS	160610	161194	.	+	0	ID=MGA_394;product=pyridoxal 5'-phosphate synthase subunit PdxT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NHE5;translation=MIVIGILNLQGAFNKHRKILNQIGVENIYVNKAAELKHCSGLIIPGGESTTLSKLIDKENLFNSIKDFSIKFPIFGTCAGLILMAKTNNDNRIKSLNLIDVEVSRNAYGRQIDSFINNIKLNLEKKIISTKAIFIRAPKIDKVGKNVTILSSYKGNPIFVQHGHHFASTFHPELTEDKTIHEFFVSKVRKFTFE;locus_tag=LOCUS_03920;gene=pdxT;EC_number=4.3.3.6;note=Q5NHE5 pyridoxal 5'-phosphate synthase subunit PdxT (Francisella tularensis subsp. tularensis SCHU S4) [pid:43.7%25%2C q_cov:94.3%25%2C s_cov:97.2%25%2C Eval:4.7e-38],MGA_394
sequence02	MetaGeneAnnotator	CDS	161187	163064	.	+	0	ID=MGA_395;product=1-deoxy-D-xylulose-5-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67036;translation=MSNKNKILDRINSPKDLKKLNKKEINSLCKEIRELIIQVVSKNGGHFSSPLGVVDLTVSLHKVFDAPKDLILWDVGHQSYPHKILTGRKNEFNTLRQSDGISGFCKIDESEYDVFGAGHASTSISAAVGMARARDLKKQDHKVVAIIGDGSMTGGLAYEGLNNAGILPSQFLLVLNDNQMSISPTVGSLSKYLTRVVTNPIYNRVREIIWDLTGKLPNIPKKVLRRFAHSIQDSLKKFLVPGMIFEELGLRYFGPIDGHNIDEMNETFENLKKSNFPAVVHIITKKGVGSENSEYDPLKYYSLSGKKSSKVKDLCPDYSNVFGKSVINLAQNDEKIVCCVAAMREGTGLKEFAERFPNRFFDGGIAEGHTTTFAAGLSYSGIKPIVAIYSTFLQRSYDMIIHDIALQKLPVLFCIDRAGIVGPDGPTHHGVFDISYLRTIPNIIICAPKDGNELKNLMFTGINHLDGPFAIRYPKTSSINYNELLSPQKIKIGTWETIKKGKKIAILAVGSMVGETEKALFKNTDKTLNPELINARFVKPIDKIKLNEISKKFSSILTIEEGSLEGGFGSAVLSYLTEINYKGNFYKLGIPDNFIEHGDRNELLNKLGLSSSKIISKIQQISKKT;locus_tag=LOCUS_03930;gene=dxs;EC_number=2.2.1.7;note=O67036 1-deoxy-D-xylulose-5-phosphate synthase (Aquifex aeolicus VF5) [pid:47.9%25%2C q_cov:97.4%25%2C s_cov:97.0%25%2C Eval:4.3e-165],MGA_395
sequence02	MetaGeneAnnotator	CDS	163066	164781	.	+	0	ID=MGA_396;product=carbon starvation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67304;translation=MNSSLLLITGIFAYIIAYFFYSKWLSKNLFHFKENFKTPSQEFNDGIDYFPTPKRILIGHHFTSIAGAAPIIGPCIAAYWGWLPAFLWIVLGTIFIGAVHDFGALVISVREKGKTIADISSFVISKNARIIFLIFIMMLGWLVLSVFAMAISDLFVSVPTTVVPINIQIILAFIVGFLIYKKNVNTLLISIISLIIVYFFVWVGTFIPISFESIGFTKSESISIWILILFLYSAIASLLPVWVLLQPRDYINSNQLILGIIFIFIGVFLSQPSIEAPVLRIESDKGAPSLFPFFFITVACGAISGFHGLIASGTTSKQVKYFKDARDIGFGSMLGEGSLALASLIAAVAGITLVSEANLPSHGLVENLSWHIYYDSWAHASMNKATAFVLGGGALIQQLGFSVKVSNTIIAVLVIAFAATTLDTVTRIQRFVLSEIGFATNLNLLKNRFFATLLAIIPALILSLLNFYNPETGSSMKIGWILWPIFGMSNQMLAGLTLMVLSIYFHKKNKSILPVFIPMIFIFFITFMSLVLKSIDFYSSNIILFFINVILICLVLWMIYEGFKSLKKNLN;locus_tag=LOCUS_03940;gene=cstA;note=O67304 carbon starvation protein A (Aquifex aeolicus VF5) [pid:40.5%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:8.9e-122],MGA_396
sequence02	MetaGeneAnnotator	CDS	164871	165284	.	+	0	ID=MGA_397;product=cytochrome c biogenesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001021980.1;translation=MNRKFSIVIIVFSLLLIIWLGMGIGSNELPYVTIDELSENYSDKPGKRFRIGGIVHDGSVIVDERDPLLINFILEQEKKFMKVSYHQITPDMFKDGSEVIVEGIYDGEVFFADNLMTKCASKYEGDLRDAAQSSEKI;locus_tag=LOCUS_03950;gene=ccmE;note=WP_001021980.1 cytochrome c biogenesis protein (Leptospira interrogans serovar Lai str. 56601) [pid:34.1%25%2C q_cov:92.0%25%2C s_cov:95.4%25%2C Eval:8.3e-08],MGA_397
sequence02	MetaGeneAnnotator	CDS	165291	167261	.	+	0	ID=MGA_398;product=cytochrome c biogenesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000997623.1;translation=MPIFGDLTLSISLGLSFITIFLSAIYVYTNDKRFFFTSERAILSVCFLVFLSTFSLFSSLINSDFNVDYVARYSSIETPIIYKFTAIWAGQSGSLLFWLFILSVYVAIVVIQNKNKHQKLMPFVIITLSSIQLFFLILVNFVANPFMPAEANFVIENGLGLNPLLQNPTMAIHPPILYLGYVGFSVPFAFAIAALCSKELDTSWLQTIRRWTLFTWLALGIGILLGGWWAYNELGWGGYWAWDPVENASLMPWLTATAFIHSIIIQEKKNMLKMWNMILILITFTLCIFGTFLTRSGIVSSVHSFTASSLGPIFLTYVFLILFVCIYLLITRSKYLKSEKKLESFVSRESGFLFNNVIFVSICFAVFWGTMFPVFSEAFTGSQITVGPPFFNQIIIPISLILLFLSGVGPLLAWRKTSKESLVRNFSIPTILALSIVLISILVGLVGLYPIITTFLCSFVFFTIAIEFWRGIKVRRNKYKENILIALLTMINKNRSRYGGYIVHLGIVVMFIGFIGKAFDIEKESSIRIGESILLSNYKITLLNLRENERPNHYAWIADLEVQKDGKIISTLAPEKRVYFHKNENPDRRQPHSELSIFSTWREDVYSIFGGIDTEQGLLSIKIMINRLVKLVWLGGYFVLFGTVIALWPKKSLKKI;locus_tag=LOCUS_03960;gene=ccmF;note=WP_000997623.1 cytochrome c biogenesis protein (Leptospira interrogans serovar Lai str. 56601) [pid:33.8%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:1.6e-109],MGA_398
sequence02	MetaGeneAnnotator	CDS	167266	167559	.	+	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYELIQIIQKFLPHMMIIFTFSLVLIFSIQPLFWNINKVNFNDSNKIDSLELRKLSIYEQIKELELEFDMGNISNDDFKSNRLELINEVSEIIEKIK;locus_tag=LOCUS_03970;note=MGA_399
sequence02	MetaGeneAnnotator	CDS	167561	168211	.	+	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRIENLSKSFGLKNILNKVNFQINRNESIGLSGNNGIGKSTFLKILVDLINYENGTIFFNEKQIKNQINFKSKILYLGHQPTFYPSLTAKENLLFISRMYKIDKKNIFDNIKNSLKIVGLSKSINLPVFHFSSGMLKRLSVSKAVLLENIWKILLLDEPNDGLDFEGQEMLSNLISSWRKNKLNDFKSLLIVSHDEQWLKNHTDRVVNLIDGKIN;locus_tag=LOCUS_03980;note=WP_000074567.1 bacitracin ABC transporter ATP-binding protein ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:32.9%25%2C q_cov:99.5%25%2C s_cov:67.3%25%2C Eval:1.8e-23%2C partial hit],MGA_400
sequence02	MetaGeneAnnotator	CDS	168285	168881	.	+	0	ID=MGA_401;product=heme ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065118.1;translation=MVSFGVSVILLFSFSFRASPAQINFFAPGLLWMIFIFISIILLNRIYNLEMENKSYEILFSSPIDKSNIYLSKCISSLIFLIFSQIIVTPIFFLFLQINYPENLFYFLMIIFFVDLGICSLGSIISGSIMKIRANEILLPILFFPMITPLIISAVKSTDLIFNNHPFIDWKIWFQLILSFSIVFFSSGFLLYPYVTNE;locus_tag=LOCUS_03990;note=WP_048065118.1 heme ABC transporter permease (Methanosarcina acetivorans C2A) [pid:24.8%25%2C q_cov:100.0%25%2C s_cov:89.4%25%2C Eval:9.5e-18],MGA_401
sequence02	MetaGeneAnnotator	CDS	168865	169566	.	+	0	ID=MGA_402;product=cytochrome c biogenesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228656.1;translation=MLQMNSKNKFFHENNYNKLYGLLIIFLWLLLSYLVLFVTRIDPSQEMAQKIFYFHVPSAWIAGVSYLVVMISGVNYLRTKNNYWDYVSYSSAEIGTIFCALVLITGPIWATPIWGTSWSWEPRLTTVLIMFLIYLGYFSVRNFGKSLTMIKSICATIGILAFLNVPIIYFSVKFWAEEVQLHPQPEMLEQPTDIYYTFIFSLIVFFMIYLYLLNYRIHILKIKSKFENVLEND;locus_tag=LOCUS_04000;note=WP_011228656.1 cytochrome c biogenesis protein (Thermus thermophilus HB8) [pid:38.4%25%2C q_cov:75.1%25%2C s_cov:78.1%25%2C Eval:2.2e-33],MGA_402
sequence02	MetaGeneAnnotator	CDS	169690	171057	.	+	0	ID=MGA_403;product=tRNA(Ile)-lysidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97EB0;translation=MKNLTDIFTSFLNENPIFKKKTKGLVAVSGGVDSVVLLHLFNKLKIKFDFQIAIIHLNHSTREKQSDIDELFVKNLAKIYKNKFFSKKWESTIKSNFEELARNARYDFFFEIQKKESYDWVATGHHLNDQAETILMRFIQGNSYRGLNGIPKSHNFLVRPLLEVSKDMIIKYAKKNSLNFMEDETNKDLKFLRNKLRNRIIPKINEINPNFIQSIQNLKNNFNEISNWVDYNIDTFKKNFSFIDENNNIIINQKELSNYPIFIQQEIIKSFVSFNNKWRKHIWEKLKNFLLFSKTGEYLILDKSFQILKDRKKIIIISTNNKSFDLSLKFNLENSISKKIGNYNFNLNKLNNFKTFTSNSSKELIDFDLIEKTSLILRPWKNGDKMIPLGMNNFKKISDILIDSKINRFEKRNKYLLCSNDKIIWLCGLKLDERFKVTSKTKSFAEVKWKNDFYD;locus_tag=LOCUS_04010;gene=tilS;EC_number=6.3.4.19;note=Q97EB0 tRNA(Ile)-lysidine synthase (Clostridium acetobutylicum ATCC 824) [pid:30.9%25%2C q_cov:96.0%25%2C s_cov:97.2%25%2C Eval:3.0e-45],MGA_403
sequence02	MetaGeneAnnotator	CDS	171050	171571	.	+	0	ID=MGA_404;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005785529.1;translation=MIELISKKKIQNSVNKMAIKISSDFKNKNPLFISVLSGSFIFLSDLIRKINIDLEVDFIKVNSYENLESRGKINFKFDISSRIKNRNIILIEDIIDTGLTINSLYDYFNKLTPKSISVATLLFKKGKSQLNFNVDYIGFNIPSEFVVGYGLDYNQKLRNLDSIFLLEKKDLTT;locus_tag=LOCUS_04020;note=WP_005785529.1 hypoxanthine phosphoribosyltransferase (Bacteroides fragilis YCH46) [pid:42.5%25%2C q_cov:92.5%25%2C s_cov:89.9%25%2C Eval:5.4e-34],MGA_404
sequence02	MetaGeneAnnotator	CDS	171568	173553	.	+	0	ID=MGA_405;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74C66;translation=MTNNKPKKETPSKNKNDNSNFQWKQAGRTSFIWILIFISAILLSNLFSSRTRGEQKIQFFEYKEFLYNGIISEAEIIGNEFHGKLTEPQELFNNNQKVSEYSKFVVTLPFIDDSVLSEWDQYNLKYSFQERKVDWTSYLLSMAPWLLLIVFWLFIMRRMQGGMGGGIFNFGKSKARLWVEDKPKITFKKVAGCEEAKFELSEIITFLKNPKKFQKLGGRIPKGVLLLGPPGTGKTLLAKAVAGEAKVPFFSLSGADFVEMFVGVGASRVRDLFEQGKKNAPSIIFIDEIDAVGRHRGAGLGGGHDEREQTLNALLVEMDGFESTTNIILIAATNRADVLDSALLRPGRFDRQVVVDIPDIKGRKGILEVHTADIPLSKDVDLEIVAKGTPGLVGADLENLVNEASLLAARDGKSKVFMEDLESAKDKVMMGVERKSMILSDEEKELTAYHEAGHALIAKILPKADPVHKVSIIPRGRALGVTAQLPMDEKHNYSESYINARLRVLLAGRSAEQLVFNEVTTGAGNDIEVGTDMVRKMVCEWGMSRLMGPLKYGQKDQEVFLGRDIAKNRDYSDETAKRIDEEIHRIINEAEKDTDKILKENQKILHEIAKALLKFETIDGKDLDKIFLGKQIRRKTNKIKQVSKNSKVKNLKSNSKDKVLS;locus_tag=LOCUS_04030;gene=ftsH-2;EC_number=3.4.24.-;note=Q74C66 ATP-dependent zinc metalloprotease FtsH (Geobacter sulfurreducens PCA) [pid:56.1%25%2C q_cov:90.0%25%2C s_cov:95.4%25%2C Eval:9.4e-187],MGA_405
sequence02	MetaGeneAnnotator	CDS	173677	174402	.	+	0	ID=MGA_406;product=dihydropteroate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJQ5;translation=MDSAIAQSKKMIDQGATIIDVGGESSRPFSKSISVQEEIKRVVPVIEALKSETKITLSVDTSKYEVAKECLKAGATIINDISALRSDDRMSSLVAENNVHVVLMHMKGSPQNMQINPIYKNLIKEIKSFLKDRILFAKEKGISSEKLIIDPGLGFGKSVKHNYVILNKLSEFLDLNCPILIGSSRKSFIGKTLGSNSNRLFGTAATIAISILKGAKIFRVHDVKQIQEVIAISEAITSAKE;locus_tag=LOCUS_04040;gene=folP;EC_number=2.5.1.15;note=B5YJQ5 dihydropteroate synthase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:49.4%25%2C q_cov:96.7%25%2C s_cov:84.5%25%2C Eval:4.1e-62],MGA_406
sequence02	MetaGeneAnnotator	CDS	174406	175179	.	+	0	ID=MGA_407;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545037.1;translation=MILFKIGFLSITIIDLIDILLVTWLFVKLYNYFKGTRAGQMLLGLIIILISSFVFRAIGMSGMSWIINQIQTVWVVAFVILFQPELRRLLIYVGTSWFFQRLFRVGNSNTIDSIVDAAIKLKQKGWGGIIVLQRDTGLKNIKEKGTPVKAEVSSPLLISIFNPGSPLHDGAVIIQNNIIESAQCILPLTESDMIDPDMGTRHRAALGISEETDVIAILISEEKKQVSVAINGTFKLNFDKLSLQRFLNENLFLSSGE;locus_tag=LOCUS_04050;note=WP_012545037.1 membrane protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:41.2%25%2C q_cov:92.6%25%2C s_cov:92.9%25%2C Eval:2.3e-45],MGA_407
sequence02	MetaGeneAnnotator	CDS	175279	176301	.	+	0	ID=MGA_408;product=peptide chain release factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P28367;translation=MKNLKLETTNTNFWENNTTAQIILKKISKIEKEIENWNLIDKNKEECEILFSFYKEESTESILNELEAELNKLSSQIDEIEIKIILGNDDDMNDAILTIHPGAGGTESQDWAEMLYRMYIRWVERKNFKFSIIDFQPGDEAGIKDVTIEINGDYAYGLLKAEVGVHRLVRISPYDSSSRRHTSFASVFVYPSTNDDEIDINIKPDEIRIDTYRASGAGGQHVNKTDSAVRITHIETKIVVQCQNERSQHKNKATALKILKAKLKQIKIEEQSESIKELENQKTDIGWGSQIRSYVFHPYTLVKDHRTKFEVGDGKKILDGDLDQFIKSYLLAKSSFEYKN;locus_tag=LOCUS_04060;gene=prfB;note=P28367 peptide chain release factor 2 (Bacillus subtilis subsp. subtilis str. 168) [pid:50.8%25%2C q_cov:96.8%25%2C s_cov:89.6%25%2C Eval:4.9e-92],MGA_408
sequence02	MetaGeneAnnotator	CDS	176312	177805	.	+	0	ID=MGA_409;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCM7;translation=MIEDKEQSLKQIINFRLEKLNKIKKMGINPFPYEFKISHFSDEIKNGFEKLENKNVNISGRIISIRKMGKASFFNVQDKNEKIQVYIKKDLIGEKNYELFELLDIGDIVGIKGKVFKTKTKEISINCSELSLLSKSIRPLPGNKEKNGEVFHGFSDKEQRYRHRYLDLIVNPDVKDDFKKRSKIISSIRNYLDNNNFLEVETPVLQPLYGGASAKPFKTKHNALNQNLFLRISDELYLKRLISGGFDSVYEMSKVFRNEGMDKNHNPEFTMLEFYKANVDYFFLMDFVENLIRSVAERINVKELELSNKKIDLNKPFLRHNYMDLLNDAVNEDLTNFQLEDLIVLCEKLKIKLESKPTLGRIYDVLMRELVEPNLIEPTFVLNYPKIISPLAKISREGNKNIVERFELFVGGDEIANAFSELNDPIDQRNRFEEQVKFQKLGDDEAHNFDEDYLNSMEIGMPPTGGVGIGIDRLVMLLLNKKNIKDVILFPAMRFED;locus_tag=LOCUS_04070;gene=lysS;EC_number=6.1.1.6;note=Q8KCM7 lysine--tRNA ligase (Chlorobium tepidum TLS) [pid:48.8%25%2C q_cov:98.4%25%2C s_cov:96.5%25%2C Eval:1.3e-134],MGA_409
sequence02	MetaGeneAnnotator	CDS	177809	179038	.	+	0	ID=MGA_410;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003028942.1;translation=MKMNRLSFIASRYLTSQNNLKFISNINYLSILGLSIGIAVLIITMGVLNGFENEVKKKIVSFDGHIRVNGYFNNPIFQNSSQLDSIIDNNSEIVNKIEFINHAATIRFKNQTEPVFIEAFGQIKNNNFFELNKNIVFGNFNLNSTNPSKGIVIGKVLYDRLNINLGQKITLMDLKSLGNPGVAPRILQFELRGVYETGLTEYDESIVYINLNDAQTLLKYNNLISGYILSLDQIDNTSKIGNLLNDKLNYPLTSSTWIERHSNLFEWLSLQKYPITIVFAMIALVGILNISSSLTMIVMEKTKSIGVMRAIGFSENDLLKLFFLKGAIIGFSGVFFGLTISLFFAFFQTKFNILSIPQEVYFMGSLPIKIIPINVLIVGSMGIILAIIASIYPARIASKIEPSNAIRYE;locus_tag=LOCUS_04080;gene=lolC;note=WP_003028942.1 ABC transporter substrate-binding protein (Francisella tularensis subsp. tularensis SCHU S4) [pid:28.6%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:4.4e-45],MGA_410
sequence02	MetaGeneAnnotator	CDS	179035	180237	.	+	0	ID=MGA_411;product=lipoprotein-releasing system protein LolC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003706248.1;translation=MRSLYFWLAIKMLLSKKEIVLISWGGFISIIGVSVGFLAIVISLSVLNGFEKKIRNKIINFETDIRLINNKNLQKDKTLEEKLNKFNEIESFSFFINKKAIAISNEKRSLYKIKAIEIKKLESVYNFLDLSVSEEKLNNGFILGSGVAKRLGVNKGDKIKLMNPFDNQIYFNLPKMISGEVIEIFETRILDFDQTYIFISFLNGQKLFNKNNYFNGIDIRLKNNENKFFFKSRINNVLNENFEINFWEDIHKTLFQAMKMEKLVSILVLSLVVIVACFNISSTLTMQTIEKIREIGILKTIGFSNYSIRNIFFFQGIFIGGIGILFGSVLACLIIFFQNKYGIIKLPESVYFIDSLPMYISNFDYFLISLIGILIVIVSIYFPIKNLRKITPNDAIQYEK;locus_tag=LOCUS_04090;note=WP_003706248.1 lipoprotein-releasing system protein LolC (Neisseria gonorrhoeae FA 1090) [pid:25.0%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:4.9e-33],MGA_411
sequence02	MetaGeneAnnotator	CDS	180234	180917	.	+	0	ID=MGA_412;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021673.1;translation=MILSAKNIFKSYKNGNKVLSILKNVNFHVKSGDLISIMGPSGCGKSTLLNLLGTLDRPDSGELIVGDKNILNLNDNKLSLLRAKYIGFVFQFHHLLPEFTILENLIIPQRLIGVSENDSRIHASKLLKKVNLFERKNHKPSSISGGERQRVAVLRSLVNKPKIVLADEPTGNLDQKNTDILITMIKSLASEFNQAFIIATHNEKVSKICKKHYTIEGGKIIKLTDKF;locus_tag=LOCUS_04100;note=WP_011021673.1 ABC transporter ATP-binding protein (Methanosarcina acetivorans C2A) [pid:45.2%25%2C q_cov:96.5%25%2C s_cov:96.0%25%2C Eval:5.0e-51],MGA_412
sequence02	MetaGeneAnnotator	CDS	180924	183398	.	+	0	ID=MGA_413;product=ATP-dependent Clp protease ClpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404069.1;translation=MKENFSQTVQKIMKNAKEEAIQLGHSYVGSEHLLLGILREVNCKAKEILEQVISDVEEIRIMIQEMLKNSTSGTLTLGHLPLTRRAERILRNTFAEALVLEEKTADDEHLLLAILKEKEGIAIEVLNAFEINYSTVFELIKESKNLSSSNIKSKKIPNTQKSKTPALDHFSRDITQLARMNKLDPVIGRKNEIERLAQILCRRKKNNPVLIGEPGVGKTAIAEGLAQKITTFDVPRFLYGKRILDLDLAGVVSGTKYRGQFEERVKAIMNEIESSDDIILFIDELHTIIGAGSASGSLDASNMFKPALSRGEIHCIGATTLDEYRKHIEKDGALDRRFQKVNILPPSIKESIEILNGLKINYEKHHNVKFNSNAIKACVELSERYISDKFLPDKAIDVMDEAGSKLHIQNLKVPDSIIDLELKIEKIRSEKDKVISSQQFEKAASLRDKEKLYIMELNEEKKNWSKNVKKNISVVSKNDITDIISMMTGIPLSDIAEKESQKLLKMNETIKEFIIGQDSAIDSLTKAIQLSRTGLKDPNKPIGIFLLLGPTGVGKTETAKILSKQLFPHNDSLVKIDMSEYMERFAVSRLIGAPPGYIGFDEGGELTEVIRRKPYSLILFDEVEKAHPDVFNILLQLFDEGFLTDSMGRKVDFRNTIIILTSNIGTREFGQYKNYGFEKTIAKNNFELIKSEILNQVQKIFSPEFINRLDDSIVYKPLNKKDILKIVSLQLNDLYDNIKAKKIKLFISIAVKNFLLREGYSEKYGARKIRRVIKSLIETPISELILKGKLSSGDYLKVDLVNNKIIFNKNKIKLTQRKKKSKNK;locus_tag=LOCUS_04110;gene=clpC;note=WP_011404069.1 ATP-dependent Clp protease ClpC (Salinibacter ruber DSM 13855) [pid:51.0%25%2C q_cov:96.4%25%2C s_cov:92.6%25%2C Eval:1.3e-241],MGA_413
sequence02	MetaGeneAnnotator	CDS	183525	185444	.	+	0	ID=MGA_414;product=chaperone protein DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P0C922;translation=MSKIIGIDLGTTNSCVAVMESGEPKVITNPEGGRTTPSIVAFSKEGERMVGQPAKRQAVTNPNNTIYSIKRFMGREFSEVSNEISEVPYEVKKGKSGAVEVKINDKNYLPPEISAMVLQKLRQTAEEYLGNKVTEAVITVPAYFNDSQRQATKDAGKIAGLEVKRIINEPTAAALAYGLDKKNDQKVAVFDLGGGTFDISILDIMDIDGEKSIEVNASNGDGHLGGDDFDQKIIEWMASEFKKSDGIDLKEDPMALQRLKEAGESAKRELSSSKKTEINLPFITADSNGPKHLNLTLSRAKFEDLVDDLVERTRKPCLDALKDSGLNPSEIDEVILVGGSSRIPKVQEVVKNIFGKEPNKGVNPDEVVAMGAGIQGGILGGDVEDVLLLDVTPLSLGIETLGNVFTKLIERNTTIPTKKSQIFSTAADNQPSVEIHVLQGERELAAYNKTIGKFHLDGLPSSPRGVPQIEVTFDIDANGILNVGAKDKATNKEQSIRIEGSSGLSNEEVDKMVDDAKKHESEDKQKREEVDIKNQADQLVYQTEKNIKEFDDKLTDEDKKKIDSSLSKLKDVSKGNNLDEIKSSTDELNSTWNEISSKMYQQAKTETETNSNDKNTSEKSSKSNEQEIEDADFEVVDEK;locus_tag=LOCUS_04120;gene=dnaK;note=P0C922 chaperone protein DnaK (Borrelia burgdorferi B31) [pid:61.5%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:4.6e-223],MGA_414
sequence02	MetaGeneAnnotator	CDS	185520	189380	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRNKAILLLLIILALLFGSVAYIVISPNKWTKEIVNYINQSLIKDNSWNLSLGDINGSLFSDIELKDIYFRNQDGTISLFSESVKLNLDYSSIFTGSWGLSNLFFNNVLLSIDSKNEQKLDDINFIGRLAKKELKSKKIAISNSSLILKNKNTENIYKFETDGKLISQNDVLSFEINNFFAKDYYSDNIINLNRGKVRLSSDNISLRNINGKFNQHTISLNGVRNFNLKKNSNFWVQINDLKIKKSISEKIKSDSLAFIDLNIDYLNDKIKIDGSINEVSSSKKIALFSTNISQKINGFNFENVIFQIKNSNLNGTGFLNFNKKLDFNLKIENFDLNTFDFVSDDSKINGLIDLNIRFNDFYKVEKVESKISLQNNNFGSDNFFSSFGKVNYENSQIFLNDPFIFNVGSGSFSLFGDYNLAKEHLNLEMTLNEVELDNFSDLLDISYLPKSKINGSMHLSGLIDNPSIRGNLNFKNIKSKNYTLGNLTSTFSLNSINNSRDGSLFLNGKNINFQNINYEDLEMNFYFLADTIYIAKANLSTKKENTIFSGEIINFNKLNIEQLRSNINGQQIHILEPLRISFENNKFNLGPSKLKVNDGNMEIYAKFKFQQILEGNLDVNNLEIDIINSFLKDEIPVSGILNGKLEAKHINNKINIDGKIEIGNGNYEDFIFKNLITDFSLHENQFYLEKLKIYSDKELKLDLSGYYNMIDSTKDLFKLNQNSEIDFSAYFNNFDLSSFSDFLPDWWNINGFITGSSILSGKLDSSNLKFSLNLKNPTFSLLNADELNISGTYNDKRLFFENIIGYTKKGQYYAEGYIPIDLDIISENKNILILNDPVNLKIHGKSNSLELITPYFSDVDSLNGNINFELTLNGTLNKLIRNGFINLSNGNLFYSHLDLPLSGLNGYAILKENMFIINNLTATSTIPEDTNWGKDLRYNISKVSGGRIFKNKMTNEIQNNLSLTGTMDMTSFFNPNLAFILNGKNIYFRTLLGEIEAIGDVNLAITGKDTINISGDLIPDEAVLRMEFYDENISNRQISNNGTSINYKLNIPINDNLFIQNSQIDAEVSGNMSIFKNGTEPYRYAGELEVVDGKFYYYSDVFDVQDGNLIFDPTQLNPKLNINASTTISGEQILVNLSGFLDDPVLILEHSDNFFSQEDLLQLLTLQKTFNGTADELGRQSAFIFGKFLENEIEKNISRSNPIFNEFDIEGSSAIIDPSNSSEVAVKLGTRVTSNLSLSYKRSFSLLKNNELGVEYRLNRNVSLVASYDEDGQVRLKYRRKYKF;locus_tag=LOCUS_04130;note=MGA_415
sequence02	MetaGeneAnnotator	CDS	189337	191244	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLDLSIEENISFKLFIKKKIYFFLFFYLSINISFSQNINNKYIVGIVSFYGNETINNSELRNIIKLKDTSFFSSVQFNRRSLKIDSFNIRNFYTSKGFLNVTVKDSFNINKDNSVNIFYKINEGLRSTIQSIEISGNKSFENKEIEKILNLRVGKPFNIVDLGNKFSELEFEYHKIGKLYFNLEKEYFSKENIELKLTVDEGPDVFIDKIFLRGLDAVDSLYVFREIGFKSGERYNSEKIILTERHIFETSLFSMVNILPEKSSRMGNWVNVIIDLKELEKRNLLIEPGFAHIPSSSSGGEPISGLEGSFNLVDRNLYNLGIRMRFNSALDFPIDFLNNDFSVPIIFRSSLSLDNNWLFKLRAPNTFRFFIDRSPELLRVDSPILRYGLEWSGLRRFSRKTILRGGLKWTQIFSENNFTLIQNNESQQERSINLKFQHRDLDNLIYPTSGWTFSIDGEVVGWLLGGSQDYYKVEMDLKKFTSLSNGKVLGFRGKVGRMERLFESAPYIPSYDLFYLGGSTSLRGWSSQRYLSEVDDNGIIRPVGGLIKLLFNSEIRIPIYKIIGANLFVDGGALAISIEDLMSQINNWNKGYGWNYGAELTINTPLGPIRLYYAIPLSNPKNSIINLGVPFAF;locus_tag=LOCUS_04140;note=WP_011125570.1 import-associated channel protein (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:28.5%25%2C q_cov:27.4%25%2C s_cov:21.1%25%2C Eval:1.8e-09%2C partial hit],MGA_416
sequence02	MetaGeneAnnotator	CDS	191305	191790	.	+	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYYKNNFFIILFLIGCNSESSIEVLEKSRNLINEQKYSEAISELSSLINKFPNSIEASESQYLIADTYAFLNNYEDAIIAYKLVVEKYSSSKSAINAQFMLGYIYANFLFDYDLARNEYEIFLDKFSSVADSNLVESVKFELKNLGKDLRDIPALKEIS;locus_tag=LOCUS_04150;note=MGA_417
sequence02	MetaGeneAnnotator	CDS	191816	192811	.	+	0	ID=MGA_418;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404896.1;translation=MNNSDLNKLNEKIVEKSKFIDSILVEISKTIVGQDEIINKILIGLFSNGHILLEGVPGLAKTTIIKTLSNLISTKFQRIQFTPDMLPADLIGTLIFNQKNGLFETKKGPIFSNIILADEINRSPAKVQSALLEAMQERQITIGENTFPLDDPFLVFATQNPIEQEGTYPLPEAQVDRFMMKLTINYPNKDQELEILKRNSLLINQTKHKTVIKLSDIKNTRKLINEIYVDQKIQNYVVDIILSSRNPEEYKIGEISNFIKYGASPRATIFLISAAKARAFMKGRGYVIPEDIRYIIYDVLRHRIIPTFEAEAEEVNSEDIIESILSEIEVP;locus_tag=LOCUS_04160;note=WP_011404896.1 ATPase (Salinibacter ruber DSM 13855) [pid:57.8%25%2C q_cov:95.2%25%2C s_cov:95.2%25%2C Eval:1.3e-105],MGA_418
sequence02	MetaGeneAnnotator	CDS	192814	193686	.	+	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761572.1;translation=MISTEVLKKVKKIEIKTRHLVNNLFGGKYQSAFKGQGMIFSEVREYQPGDEIRLIDWNVTAKNNFPYVKIFEEERELSVFLVVDASLSESYGSKLKLKSELGAEIASVLGLSALKNNDKVGLLIFTNIIETFLPPKKGASHILRIISELIKKKPSQKGTDISNALNYILKVINRKSVIFLISDFIDNNFEKSLKILNKKHDVICIKLFDESENNLNDIGLVKLHDSESDEEFWLDTSSQLARNQFQKLRNEKNIEFLNYCKKNNFDIIPISTSSDFVKPIINYLNNRDKK;locus_tag=LOCUS_04170;note=WP_008761572.1 hypothetical protein (Bacteroides thetaiotaomicron VPI-5482) [pid:48.4%25%2C q_cov:96.6%25%2C s_cov:97.2%25%2C Eval:1.2e-72],MGA_419
sequence02	MetaGeneAnnotator	CDS	194000	194593	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISNQNDTAQIIISTDSIKINVISLINNNDYSIKEIKAKEPLPFSIYYKLIFSIISILILLLIIVWMFSKRKIDNQLKNNFNKNIHPYVIAKNKIQLLKLKKPKSQKEAGTFYSDLSFIVKEFIENQFFIKTIEMTTNEIKKNKNMIGFNKNEINEIIKVLERADLTKFAKVFPLENQLKSDLNVIQDFLDNQKIDL;locus_tag=LOCUS_04180;note=MGA_420
sequence02	MetaGeneAnnotator	CDS	194616	195347	.	+	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQINNLTKRYGEFLAVDDISFNVEKGKILGFLGPNGAGKTTTMRIITGFMPPSEGFVTISGHDVSKEPLLTKNKIGYLPETPPLYMDMTVEEYLNFAGLLKQVPNKKIKYAVENACLKVDINDVKNKVIKALSKGYKQRVGLAQAIIHEPEVLILDEPTIGLDPIQIREVRDLIKSLAGNHTIVLSTHILPEVDMTCDEVVIIKKGKIIAQDTPKNLSKKMNKSSLEEIFIDLISESRSEEK;locus_tag=LOCUS_04190;note=WP_011057313.1 ABC transporter ATP-binding protein (Thermosynechococcus elongatus BP-1) [pid:55.0%25%2C q_cov:86.0%25%2C s_cov:64.7%25%2C Eval:1.9e-62%2C partial hit],MGA_421
sequence02	MetaGeneAnnotator	CDS	195344	196126	.	+	0	ID=MGA_422;product=gliding motility-associated ABC transporter permease subunit GldF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963228.1;translation=MKNIITIFNREFRSYFSSPIAYIVIGLFLVLTGVFFYLLTSSFLQYSANLQWQAARMRQAVPPMNVNQMIIRPLFSNISVITLFVVPMITMRTFSDEKKSGTLELLLTSPVTTTQIVVGKFLASFLLYVIMALLTWVYPLVIIIYGNPDILPIGIAYIGIIGMGAASIGIGLWISSMTENQIISAMGTFVILLFLWLVGWFSNFTSGGFSEFFKYLSIIEHFNDFSKGIFDTGHLMYYVSLSGMTLFLAHQSIESLRWRS;locus_tag=LOCUS_04200;gene=gldF;note=WP_011963228.1 gliding motility-associated ABC transporter permease subunit GldF (Flavobacterium psychrophilum JIP02/86) [pid:34.5%25%2C q_cov:96.5%25%2C s_cov:98.4%25%2C Eval:2.0e-33],MGA_422
sequence02	MetaGeneAnnotator	CDS	196123	197688	.	+	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKFSLWKGSTYDGIVIAFLGWLYGTSIITFDALSWLLIIIGLILFILPIIFNYKNVINNLKSKRTQLGANTITIIILVFVIVGLLDYLSIRNSWRVDTTSKKEFSLSEQTISIIKNLDREVDLTAFVSEVEMSQMEDRLIEYSHYSGKFNYEIVDPIKDPDKVREFFGPDQQYLDLPSIIITTDNKREEIKSILEEDISNALIKVTRDQKRKIYFTQGHGEKSIFPDQAGISTNELIKTELINQYFEVDALNLFQKDKVPEDTDVLIISGPIKKFANNEINSIKNFLSSGGNIFLMIDPESESGLKPILEDWNISVNDDLVLETNSSFVLTSTGLNRQSSVSAAPSAAEYGDHMITKNFRYATTFVQASSILKLNENEDKIQTTGLVFTSPNSWGETNLSLLFDEQIAEQDESDFSGPTTLAMAIEKNDSLKTRMVVVGDSDFASDVYVSQAPGNMDFFLNIVSWLAEEEDLIAVRPKEPENRTISLTMKQQNLVLFFLIILLPLVSVRIGIHIYMRRS;locus_tag=LOCUS_04210;note=MGA_423
sequence02	MetaGeneAnnotator	CDS	197696	199057	.	+	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRIFTLFIIAISLGLFVYIYEIEGDKKREEKKNFNESLFKIKNDDIKSVTLKNHSQIIKYIKDDNLWKITKPFNLSVDKNNIDLQINTFVNSKIKRKIGLADELNLINYGLGLSNIELLIETFEGHKINFEIGNESASKGDLFVFNKDSNSVILSSNELKNQVLKTLFELRDKKIIHFDKSNVNQISIITENDSVVIENQDKINQLWRITSHNLFADNSQIDNYLNSLNRYNAIDFIDNPSKNEKSYFKNSSVSIILYLGTDLTKKTLTIGKNKIIDSDTNHYGFESGKSNIFLISDENKKSLMKDHFYFQDKKLINYNENDIKEINILGAHKLSVINEDSLGWYISLDSTIKLEKSDMNRLFSAINGIQAVEFLQYEDQESFGFNEPFIEVLINNSQQNEMGLRIGNSDNSLNRYVKSINSERIYKATNNSIERLTNLINELKGVENTEEL;locus_tag=LOCUS_04220;note=MGA_424
sequence02	MetaGeneAnnotator	CDS	199026	200501	.	-	0	ID=MGA_425;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932316.1;translation=MNFDFFLTKDTSFGLYILFIVGLFIAVSEILFNFFNVKSFITRKFLHFSTGLLLIFSPYLFDSNLIPIILSILFAIINLIFIKYNIFKSIHYTKNKNYGTFFYPIAYLILCLFWWEKTLVFQLSLTILTVSDSAASIVGNILPNSKHYILLRDKKSVNGTITMALSSFILVYFGLLFSKDLNQEMILSNLLFIAFFVSLISTFSEAISINGSDNLSVPIFSAISIDLAQKIILENFIIQTISYVCFLGILCYLFIKIRILKKDGALAAFLIGIILFSIGKWKFLIPISIFFITSSILSKISSYFLNKKKKESNRNLTQVLSNGSIPLLLSFIWFYTSMELFFYSFLASISAVNSDTWATEIGSFSKKNPINSINFKKIKKGESGGITLLGIIGGIGGAFIISIFSIEYGNIFIIISVSGFLACYFDSILGSTLQGKYKCKKCGQNNEIGFHCNQSSELISGIKIFTNNLVNFLCSAFGGIILIALLYFLRL;locus_tag=LOCUS_04230;note=WP_010932316.1 membrane protein (Chlorobium tepidum TLS) [pid:26.1%25%2C q_cov:87.8%25%2C s_cov:97.1%25%2C Eval:7.1e-40],MGA_425
sequence02	MetaGeneAnnotator	CDS	200588	201622	.	+	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDITYFLVFVLGFILGSIIVYLISFQLRNSFSNDSDKAFRKFQDFASEKLNDKIEKADYRFEEKKKLIDNNLEKVSKSLNELMSQSTLLKTKLDESQKETINLRQTTIDLKNILSNSQSRGQWGERMAKDILNMMGLIENVNYTYQDPVISGEKPDFTFNLPKEKKLNMDVKFPLTHYEKFISSKTDFEKEIEKKAFLNDVKNHVNSVGKKGYINSNTVDYVLLFIPNESIYSFILENENTVNILEIAFSKRIVLCSPITLYAVLSLISQAIKSFSAEKNALKLQLMVDEFYKQWSLYSESMNKMGRALNSAKMEYESLSGARTNKLDISLEKIKTMNLSNEKK;locus_tag=LOCUS_04240;note=WP_011072114.1 DNA recombination protein RmuC (Shewanella oneidensis MR-1) [pid:25.6%25%2C q_cov:85.2%25%2C s_cov:55.1%25%2C Eval:4.9e-23%2C partial hit],MGA_426
sequence02	MetaGeneAnnotator	CDS	201656	202576	.	+	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRDFVKKGALISSLPFLNNILYSKTRKIKLSSSNFNLNYAPHFGMFKHHAGDDLIDQIQFMYDNGFRAIEDNGMKSRSKSIQEKISKKLDTLGMSMGVFIGSSIDWEKPTLTTGRKEFENVFLNDLKKSIEVAKRVNATWMTIVPGVIDLKQEIGYQTVNLVETLKRGSELLEPHGLIMVLEPLNWWSNHPGQFLKKIPQAYQICKSVNSPSCKILFDIYHQQISEGNIIPNFEKSWTEIAYIQIGDNPGRNEPTTGEINFKKVFEYLYNKNYNGILGMEHGNSIKGKKGEKKVIESYIEVDSF;locus_tag=LOCUS_04250;note=Q7UG21 hydroxypyruvate isomerase (Rhodopirellula baltica SH 1) [pid:34.4%25%2C q_cov:52.3%25%2C s_cov:61.8%25%2C Eval:2.1e-22%2C partial hit],MGA_427
sequence02	MetaGeneAnnotator	CDS	202577	203116	.	-	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSTVELIQALIETHEQLSLDDCPDEYKNVLIEQEKLITNEIMNKSDSIHWFLTQIDIEENKLNSTIEIHQRELEKLKKKRLTIDRSKDKMKELIMTVVDKIGVNQENGNKILKTDNKKYTIYETDGPLELIDENKIPDRYFKTERKLNRSLLRNDVKKTIKKEEEYAKVSKIKRLKIS;locus_tag=LOCUS_04260;note=MGA_428
sequence02	MetaGeneAnnotator	CDS	203237	203770	.	+	0	ID=MGA_429;product=RNA polymerase sigma factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583208.1;translation=MKNKQNKVLKLIEKFKNGEEKAFDEIVKLHYEPTFNLLFKLVGNKLDADDLCQETFIRVYRYVKKFKGNSKFSTWLYRIAYNVANTYFRKQKIKQIFSFDLNQEILLSKDPVEDDEMNSILMKNINLLPKKQKAILMFRVIEGLPYKEISKIMNISINAAKVNYHHAISSLKKKISN;locus_tag=LOCUS_04270;note=WP_012583208.1 RNA polymerase sigma factor (Dictyoglomus turgidum DSM 6724) [pid:36.9%25%2C q_cov:93.2%25%2C s_cov:79.4%25%2C Eval:2.9e-25],MGA_429
sequence02	MetaGeneAnnotator	CDS	203772	204167	.	+	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIENQIEKLCDLNINNNDKNKFIYELREEINFRKKKSKIRVIYSSMFICLFILSFFSFYILSIEENNNYFFSEEFNIQQKENFDLNNHNIHFESIDYLIENSDLIISECLLSCDLVKNSNTCIVNFTLGI;locus_tag=LOCUS_04280;note=MGA_430
sequence02	MetaGeneAnnotator	CDS	204198	204689	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFNIIFLLFITFLHSNQKQENIKNMKIWLLTDKLSLTEIQAEKFFPKYNIHEENINKNKLLIKKLYQEINSLDPISKNKFQELKLKLFDLEKNNLILRQNFISDMDNILDLKQRIELINFEPWFKDELKRKARKMHEREHLNNHSQNDIQKRKKHKKLNQY;locus_tag=LOCUS_04290;note=MGA_431
sequence02	MetaGeneAnnotator	CDS	204686	207178	.	+	0	ID=MGA_432;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963618.1;translation=MKLNKFFFSHLLLFSIIFSQNSSWQPNQSKSSQKIGELSGTIIDSLTLDPIPYASISIVNSRSNTIISGGISKEDGDFEIKEIPLGKHLIVFEFIGYKKKIIGPLIFLPYGDNKISHQFPKILMVQKILELGEVNVEAEKPIFIQTAEKKTFNIDNNSISSGGSAIDVLRQIPEVEVDMDDNISLRGNSQVNIMIDGKPSAMSGDIKSLLQSISSNNIADIEIMTNPGVKYDPEGLAGIINIKLKENKFSGMNGNFNSSGTSIGGKNFSSQLNLRRDKFNTYVNFGLRDGIRQSSGDSYRIYDFIEYKDILDQKNNNNRTNSSFFLKTGFEYFISPKQNIGISISKNDGNSLKKEDINFIRTYTLYQEYDRFLDNKDNFNGNEFLFQYDRNFTNSKQKLNAFIQFSNGASDNRFEYWTNPIIGFENLFDISEEIDQSLDQNSNNRSDLNIKADYIHPLKNENTLEIGFDSKFRNFDQNVNAFYFDKISSNYLNDERYSNHFIYDEEIISGYAQISSIFRNINFNLGTRYENVLMESRLVDLNQKINNPYNSFFPSFSFSFGSPQKIQFQASYSKRVNRPRSRQINPFEDRVDEYNIRKGNPYLKPEYSDSYEINIGRYSRGISFNIGPYYRYTSDKISRFKSLNDLGVSTATYANIEKEVSKGISLNLNFTNLLDRKLRLIFSGSLFWDEINTDLFGNNEYDKTSQGQRFRTNVMFNMNETTEFMFFMFYMPKRDIAIGKMGSMSWSALSIKKKLFSKKLDFSVKYGDPFNLTGFHFETYGENWSQISNRDFNSQIFTISLNYRFGKMEDRSRYNSRRNNEQSQNDFEIF;locus_tag=LOCUS_04300;note=WP_011963618.1 TonB-dependent receptor (Flavobacterium psychrophilum JIP02/86) [pid:27.2%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.1e-73],MGA_432
sequence02	MetaGeneAnnotator	CDS	207182	208636	.	+	0	ID=MGA_433;product=aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YL60;translation=MKKINSILEKWDPIIGLEVHAQLSTKTKMFCGCINKYGDFPNKNTCPTCLGLPGALPVVNKIAIDYAIKLGLSVGSNITKFSRFARKNYFYPDLTKGYQISQYDEPICEGGKIIIRCDNQIKSIELTRIHLEEDAGKSIHSNNNLGTEVDFNRCGVPLVEIVSEPVIKSGEEAKSYLTRLKQILEYLDICDCNLEKGNLRCDANVSIRPKGQKEFGTKTELKNMNSFRGVERGINSEIERQAEILNNGGKINQVTLLWNEVDQVAEVMRSKEDAHDYRYFPDPDLVPISLQDNDIKKIKSDLIELPFDKEQRFVSEYKIPLKDALILSSDINLSIYYENSISEGANPKVAANWIIGEILSIINESDLEILSFPISPKRFSELLDCLSLELINASTAKEVLRKMLTNNFTAKEIIENENLAQVSDENQLSNVVKTIIKEYPEEVEKYKAGKKTLFGFFMGKVMQTLKGKSNPKILKNVLIEILEN;locus_tag=LOCUS_04310;gene=gatB;EC_number=6.3.5.-;note=B5YL60 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B (Thermodesulfovibrio yellowstonii DSM 11347) [pid:48.9%25%2C q_cov:97.9%25%2C s_cov:99.6%25%2C Eval:8.0e-137],MGA_433
sequence02	MetaGeneAnnotator	CDS	208673	208849	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYVIFRSLQIFALIIVISGLYIGIRDRNLILEVQALSSGAILFYIANWANEKFVNKN;locus_tag=LOCUS_04320;note=MGA_434
sequence02	MetaGeneAnnotator	CDS	208867	209181	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIWDDLKKYGNVAAEKAEELGKVAASKTEELTKIGKIKLEIHQLEKDLFSCYSELGQYVFNSTEKENVSNFSGSDKFFKLISNVKDLKNNISKKDDLVNNIKD;locus_tag=LOCUS_04330;note=MGA_435
sequence02	MetaGeneAnnotator	CDS	209205	210050	.	+	0	ID=MGA_436;product=DNA-directed RNA polymerase sigma-70 factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404684.1;translation=MINKNTNTLGKSLTLYFSEIEKTKPLDPSEEIRLTKLVKNGDRKALNTIIESNLKFVVSVANKYRVTGIPLEDLINEGNIGLVKSAFRFDETRGFKFISYAVWWIRQSILQFIADQGRVVRLPANIANSMTKMKKNSEKLENALERLPTMGEIAELMEISEKEADKLVQFNARSLSTDHPLGEDDKMSMKDLLQSEDSDPDLELMEDSLSKEIKTILKTIPNREAYILEKYFGINLDRPFTLEEIGDELSLTRERIRQLKERAIKRLKSTKKSKSLRLFLD;locus_tag=LOCUS_04340;gene=rpoD;note=WP_011404684.1 DNA-directed RNA polymerase sigma-70 factor (Salinibacter ruber DSM 13855) [pid:46.7%25%2C q_cov:96.4%25%2C s_cov:86.9%25%2C Eval:3.0e-65],MGA_436
sequence02	MetaGeneAnnotator	CDS	210108	211058	.	+	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPFNNILKKSKNFRFVIISDDNDVNVNQWSISSKKLFILSSIIFFLSLILFFVSADYVTKYLYNEKLNNLKNKSNSMLTLIIDLQSTLDEMSLEVNDIEEKDKALRTYANLPLVDKDVRKVGIGGSQLKFSQDFESLIPGVNYKLSNIEMNIDELQRKIRLEKESYNTIYNTIKNNSQKLSSIPSIRPVEGGYLNSGLGYRKDPFTGEKRFHHGLDISANRGTAIYATADGKVVSAGKLGNYGITIKIKHGYGYDTFYGHLHKIFVKRGQNVKRGELIGQVGNTGRSTASHLHYEVHYLGTPQDPEHYFLSRNLK;locus_tag=LOCUS_04350;note=WP_008760911.1 peptidase (Bacteroides thetaiotaomicron VPI-5482) [pid:37.6%25%2C q_cov:75.9%25%2C s_cov:74.5%25%2C Eval:2.2e-38%2C partial hit],MGA_437
sequence02	MetaGeneAnnotator	CDS	211133	212479	.	+	0	ID=MGA_438;product=tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RZF8;translation=MNFTQNKKYYIETYGCQMNVSDSEVVAGLLEKSGFSKTESEKDANIIFLNTCAIREHAEDKIHSRLGRLNKIKKNKPDTIIGILGCMAQHVKDDILENKPYVDFVLGPDSYKRIPKLLERQSILETSIVDTRLSRYEVYENLFPYRNNGVNAWVSIMRGCDKFCTFCIVPFTRGRERSRPLDSIVNEVKKAVDMGFIEITLLGQNVNSYNHNNILFPKLIDTVAKISGVKRIRYTSPHPQDIDEELLFVMRDNHNICNSVHLPLQAGSNKILNKMNRTYTKEKFMILSDKIRNILSNSSITTDIIVGFPGESEKDFNETLDVMNYVKFDSAFTFKYSSRPGTKAAEFDNHISEKLKQYRLSRLVELQQEHTLYRNKLEIGKKVNVLVEKNSKKSKNKLSGRTENNKWVILPKTNTKIGEIIPVKIIDAKGISLFGEKIKKKDENFAII;locus_tag=LOCUS_04360;gene=miaB;EC_number=2.8.4.3;note=Q2RZF8 tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase (Salinibacter ruber DSM 13855) [pid:43.5%25%2C q_cov:97.1%25%2C s_cov:88.3%25%2C Eval:2.2e-109],MGA_438
sequence02	MetaGeneAnnotator	CDS	212457	212786	.	+	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILRLFKTIFSIIILISLLGVLNQNMQPVSIDLFLQKFSNVPLSTVILATLGSGIFIGYVLSISSIMGSKTEARLHRNLNKKLTDEINSLRNISINDENDFVDEDEST;locus_tag=LOCUS_04370;note=MGA_439
sequence02	MetaGeneAnnotator	CDS	212786	213772	.	+	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLNRFFPKKKDSNKLYTEALEALLEGDIENAVFKLKDLVQYDTNNIRAYIRLGDIFRENLKVEQALKIHQSLILRKRLSKALQCEIYMSLARDFFELKKFERVQYYILEILKIDKKNINALNFILDIYILQEKWDEGIKILKKIEKFQGFPTSKKQSELIIKKAKESEKNQLFNDAIKYYKKSILIDSSNFLSHLKIGNIHEKNKNLNDALVEWKIFAEKSFQDGKQIYNKIEKVLFELGRFGEIEEFYRSLLKINSQNSYALLGLVNVLISKGEFDKCLSLIDDLVPDEKSFLLVQLLKIKIHLKKKNEDKLLSILDNILSSLKD;locus_tag=LOCUS_04380;note=Q5E3Z5 lipopolysaccharide assembly protein B (Vibrio fischeri ES114) [pid:20.7%25%2C q_cov:81.7%25%2C s_cov:69.2%25%2C Eval:1.2e-10%2C partial hit],MGA_440
sequence02	MetaGeneAnnotator	CDS	213778	214638	.	+	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFYLILIIINVVISQDLSNYFEDVERGNVDKVKSEISDLLINFPENDGVLFLSALLKDRAEEAVIIYKSIVQNYPNSSYADDSLIKIGEYLYARGLYTQASAELRKIPVKHSKSEHLQRCIDLQINSLLAIGEIDSAKFYINKYSNNFTSLDFNYDFSFETPLISRPLSSNFISKLAEREKTPFLSPSKNNINKTKSNQSPNEIFKPYVVQVGAFGSKKNAIKQSQLINENGFNAEVWPISVNNKDLFAVQIARFATFEEANLIAEKLKDKMKLSFLIINRPLK;locus_tag=LOCUS_04390;note=MGA_441
sequence02	Aragorn:1.2.38	tRNA	214652	214745	.	+	.	ID=Aragorn_2;product=tRNA-SeC;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence02	MetaGeneAnnotator	CDS	214758	216377	.	+	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIKFNFFKKYYLINILIIFSVLIYLNLNKEKIDKSLIILPFLNIQNNAKSNYFSDGLTEDIITKLSIIDELNIISREISLQYEDTKKSFQEIAKKHDINNILIGTILEKKDSIFIICEFHNLQSNKLNWKKEFNGDKNDILELQSKIIKQIANTLNIKLNLSERKIINSSQFINFESYNFYLKGNFEFHKHTFENYDISINYYNKALQLDPFNSKIYSLISNSYAQMFGLNRSEIYKDLAISASERAIKINNKFPDGYLSRANILTLLGRLNEAYDFNKKASEINSLVGGNENNALIAQWKGNLSEALNWYRKIPKKDNQHEGKALVELSNIYYLLGKKQKAKDLMEFGLKNQPNSFHYNKFFVVHESFSKNKNNAKKYIYRLQMLRPNDSRVNTTTGLFYLWFRDYNNSLTYFQKVKYPSIEDKIAIAFILRQKWGKKWSNTILKEVLDECKIRIKNGDEMSLTSYYISMIFAIQEDFDKTFKWLEKSVDQGFLWIDYLNIDPRFDIIRNDERFNSILQKINLKLIEENKEIDFL;locus_tag=LOCUS_04400;note=WP_011144060.1 serine/threonine protein kinase (Gloeobacter violaceus PCC 7421) [pid:21.1%25%2C q_cov:91.5%25%2C s_cov:53.1%25%2C Eval:4.8e-37%2C partial hit],MGA_442
sequence02	MetaGeneAnnotator	CDS	216435	216554	.	+	0	ID=MGA_443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPTIIGATIGLLVCLILVYLTKFLSNTVENADESSTKN;locus_tag=LOCUS_04410;note=MGA_443
sequence02	MetaGeneAnnotator	CDS	216564	217037	.	+	0	ID=MGA_444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLSIILFLIQLIFCQEEKFFWDGKNWNSLNKKQLSIENLFLLKKTYINGLQDGRLYDYFKLWSVDSLIVTKSLKPELDDYLSSSELVRLIDDFYLEPTNAYIPVISTILILNMRARGFSEAQINQYIKESKDWINSLTLESKKKSYFDMMLKKNK;locus_tag=LOCUS_04420;note=MGA_444
sequence02	MetaGeneAnnotator	CDS	217043	217441	.	-	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILLIAFFITNIIFPQQNPLFEIDTRIRIVNDETLYVVIQIDNKSGRRVSQLKGFLTELNNKGNIISEKKITHVNNKGPLLPSNQSSIRALTFPFKKNLDHRFRYNISKIVFQNDSREFIWTKNDGLIRIN;locus_tag=LOCUS_04430;note=MGA_445
sequence02	MetaGeneAnnotator	CDS	217515	218354	.	+	0	ID=MGA_446;product=metalloprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545051.1;translation=MNDIFRKIPYINIFLFFITLITTLLAGVYMEGGNILSFRDIKLGIPFSFTLLTILGFHEFGHYFYAKKNKIKVSLPYFIPAPTFIGTFGALIKIKSPITTKKALLEIGASGPIAGFLVTIPLLVYGLSMSTVVEIYPDSGIILGEPLLMKFFTFLIFPNLSESQDIILHPIGFASWIGLLITMLNLLPIGQLDGGHIAYAVFGKHHQKISKIVFIFLIPLSFLSLNWILWGILIIILMRTLKHPPILDVNTVLTFREKIIGFVCLLIFIVSFIPVPFEI;locus_tag=LOCUS_04440;note=WP_012545051.1 metalloprotease (Thermodesulfovibrio yellowstonii DSM 11347) [pid:44.3%25%2C q_cov:93.2%25%2C s_cov:94.9%25%2C Eval:5.7e-61],MGA_446
sequence02	MetaGeneAnnotator	CDS	218357	220825	.	+	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYLKIIFYLFFNTFLISQSRVGDWKSYPSSIDIRQSLVIDQKIISATSGGILIFDKDSSSFNLITNINGLVETDLNSIDVDVNGHIWIGSNSPNGVVQIYDYKNLRSIKVFDFDVWEISSISISDSNSFVSYSKDGEWGIMEFFLDEKNYNYKQIFNPSENQLEFIYDIEIINDEIYAGSNIGLFKGNFIEYILNYPTNWTTFTNYSNKLVKKILNKNDIIYVLSENEIFSLDENGVLQKNIFSYEDISVIDFIIDVNEKKYIVSKWKLYETNKNGKILNSWQIKYEPNSITEIDDENLIISSKSGLGIFNKINEKFKWYTPNSPYSNVYTSMVVLDDGRLFAAGPTGFSVLDEDGWYNLITSQEKWSIRNHSADEFNFFVSDSSQYISSRVWSVLEDSNGVWISNQGVFPINDEFKNPISGGVIFMPLDNPGGMVVFDTTSINPTNSLGYMNVRGLNIDKRGNIWASNFGSLDPDKKIIVFDRNEYNKNNLFFWHSINQSGLGSNFNILDNPTDIMFANENTALIGSSKDDGLFILKYNLDSDNDGIPDAIDIDSDSDGIPDIDDWDDDGDNIPDNQDIISVDWNNFSTLNGLEDNTIWSLAKTNETNYWILTSKGLQQIYFNNDFSEITPFYFTYFSGVSFGEGSKVIPDVKNNLWISSIDKGLYVLLNNGVPWPDWYGFRKDNSMLLSDEVTSIAIDNKRGIAYIATSKGINSLRIPFAESKLNFSKIKIFPSPYIIPSELPMVIDGLIDESSIKIITLSGDIIKNINFSTDDNSGYQAFWDGKNDNGQYVSSGIYLVVMYSKNGKSSVEKIAIIREQ;locus_tag=LOCUS_04450;note=MGA_447
sequence02	MetaGeneAnnotator	CDS	220839	222707	.	-	0	ID=MGA_448;product=oligopeptide transporter%2C OPT family;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250730.1;translation=MNFEPKKTEITLKAIILGILLSAILAAANAYLGLFAGMTVSASIPAAVISMGVLKLFRNSNILENNIVQTAASAGESLAAGVIFTIPALVLMGYWESFDYFEIAKISAIGGLIGILFTVPLRQVLIVRAKLLYPEGIATAEVLKAGHSSDESKDVKSMSSLKTIGISSLIGSLMKLGQSGFSLWGSAIEGARNFNNIIFGFGCDLSPALVSVGYIVGINISTVVFSGGLISWLFAIPIYTYINGFEGNPFDAAMNIWNSKIRYLGVGTMVIGGIWSLIKLAKPLIEGIKTSFANLNDSKDNKSKDLPINIVLILLLSLFPPVILLYFNILDSLVIAIILSLIMMIFGFLFSAVASYMAGVVGSSNNPISGVTIATILFTSLLLLILLGKNSPNGPAAAILVGAVVCCAAAIGGDNMQDLKTGYILGATPLKQQIMQVIGVLSSSLVLGLVLDILHSAYTIGSPEMSAPQATLMKSVSEGVFLGNLPMEMLIIGSIIGIIIIIIDVFLEKRNSSFRIPVLAAAVGIYLPIQLTFPVFIGGIISYLSIKKMNNKLLQRRGLLLASGLITGEALMGILIALPIFISGEKNWWPSYNNFPEFGMINLGSILFLSILFWFYNSTIKK;locus_tag=LOCUS_04460;note=WP_011250730.1 oligopeptide transporter%2C OPT family (Thermococcus kodakarensis KOD1) [pid:44.9%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:2.7e-135],MGA_448
sequence02	MetaGeneAnnotator	CDS	222880	225219	.	+	0	ID=MGA_449;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011072660.1;translation=MNFLLFFLKILILISSVSAQSTNINLSGNIIDFDTKKPIVGVNIFNLTKGTSSDENGNFNLDIDFGSHLKFTHIGYKSQTKIISDNRLMIQLIPITIEIDDIVISAQLSDESLQNSSSSIKVFTKNDLKNQNESHIQGILNKTPSLTFAGGTSRPRYFQIRGIGELSHYAGEGPPNFSVGFEIDNIELSGLGMIGFSKDIERVEVFRGPQSSVFGSNSLAGHISLKSIEPSDQLMIASEYSVGTDNIKELNFGISNSISKNLSFRLSYFDGSGNGFRNNKFYNSNNSNQRNEKMLKGKFKFLISENSNIITTFIHADLNNKYDAWSPDNNENYLTYSDDQGEDAQQTNALSIKSNLKLKNNFKLISISTFSNSELIHSYDGDWGNNDFWMNEPYNFNSETEGYEYRFFDKNFKNREVITQELRLTYNNNVIGAYVKDLIEIDEATGYLFGGDATNLNSEFNFNIFSLYGKSKIIINDKLFFSSNIRIENNIINYDGTAKGYNSLFEIVDLNSLSNVLDNQMLGWKISSNYITQNSNFFSSFSRGFKGGGINQNPYLTENSRFYNPEYINNFEFGLRRINSSNYFSVVGFYALRKNQQISISRQQKADDPNSFMYFIANATDGYLYGLEFESKIKIFDSHFLELNFAYLKSWVEEFDYELDLGTKLGGRASSNSPELSYNLIYNFDHTSGIYGKIELIGKTEHYFSDSHDQINNGYNLINTSIGYKRNSYFIKFWANNLLDERYSTRGFYFVLEPPNYENKLYLSWADPFRAGITIGYDF;locus_tag=LOCUS_04470;note=WP_011072660.1 TonB-dependent receptor (Shewanella oneidensis MR-1) [pid:28.4%25%2C q_cov:87.5%25%2C s_cov:93.3%25%2C Eval:1.6e-87],MGA_449
sequence02	MetaGeneAnnotator	CDS	225216	225818	.	-	0	ID=MGA_450;product=peptide methionine sulfoxide reductase MsrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F024;translation=MYSSIINRFIIISLIISFNSLKSEEKLNQIEIATLGAGCFWCVEAVFERIDGVLDVISGYTGGETKNPTYKEVISGKTGHVETAQISFDKTKISYNEILEIFWLSHDPTTLNRQGNDVGTQYRSVIFFHNQNQEIIAKKSLNKKIDSKVFKNKIVTTIEKLEVFYEAENYHQDYFNNNPNAPYCQYIILPKLKKLNLIQN;locus_tag=LOCUS_04480;gene=msrA;EC_number=1.8.4.11;note=Q8F024 peptide methionine sulfoxide reductase MsrA (Leptospira interrogans serovar Lai str. 56601) [pid:58.6%25%2C q_cov:78.5%25%2C s_cov:88.6%25%2C Eval:1.8e-51],MGA_450
sequence02	MetaGeneAnnotator	CDS	226228	226719	.	+	0	ID=MGA_451;product=transcriptional regulator MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CSX8;translation=MWGAVGNMPKGKMTIKDNTFTGEYKYSLDNKGRINIPSKFRLSLSKISNDNFVITKGMDSCIVAYPLEEWQVRVEAGLRELSSTSSKNRKLVRSITRFANTVKLDAQGRIQITPNLKEYANLEKEVTIIGVVNKIEIWNPIYLSKMEDITPDDFDDLEDKVIL;locus_tag=LOCUS_04490;gene=mraZ;note=Q8CSX8 transcriptional regulator MraZ (Staphylococcus epidermidis ATCC 12228) [pid:44.8%25%2C q_cov:87.7%25%2C s_cov:96.5%25%2C Eval:3.9e-28],MGA_451
sequence02	MetaGeneAnnotator	CDS	226724	227662	.	+	0	ID=MGA_452;product=ribosomal RNA small subunit methyltransferase H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97H81;translation=MNNKWANTNFHVPVLKDIVIPSLCIKPNGIYLDGTLGFGGHTKLIMNQFTNQGGKVLGFDGDIDAIKYCKINLSSSCIIINDSYSSFQKYLPQFGENKFDGMLLDLGISSYQIDNPKKGFSYQNDGPLDMRFNINQKNNANEILNNWNEQDLINLFKRYGEILKPRNIVRAIIKEREKTRLVSTLQLKKIILNIIGNYKSNKVLSKIFQAIRIEVNKELKCLEFFLNHFIDYLKDEGRIVIISYHSLEDRLVKNFFKKYEKGCICPKNFPKCICDIKPSLKLINSKVIVPNQNELNVNSRAKSAKLRVAERI;locus_tag=LOCUS_04500;gene=rsmH;EC_number=2.1.1.199;note=Q97H81 ribosomal RNA small subunit methyltransferase H (Clostridium acetobutylicum ATCC 824) [pid:41.4%25%2C q_cov:96.8%25%2C s_cov:98.1%25%2C Eval:1.5e-63],MGA_452
sequence02	MetaGeneAnnotator	CDS	227662	227997	.	+	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNKRKRKSMREKEFINSLIFFITVITLVFGSIIYLWVHNETKLIERNNIVLMKTKQLLIEENRKLNGDIARLMRADRITKIAEEKLGLITPSPEKFVVLIDSELYESIK;locus_tag=LOCUS_04510;note=MGA_453
sequence02	MetaGeneAnnotator	CDS	227994	230009	.	+	0	ID=MGA_454;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943700.1;translation=MTKSFSKYRNRISFLSGVFILVWSVLVIRFFHIQVLNGEDFKQKSIKQSTTKRLINPSRGSILDRNGYELASTVTHYSFGIQSQDIEDKENLIKVFSSVTGKSKKYYENKFNSNGFQYLERNMLSEKVKNILELNDKGLIVEKNGYRTYPHKNIGSQIIGFTDTDNKGIEGIEKQYNKALSGEPGWVVLEKDAKQKVRKNRSFPQKLPVNGSNIKLTIDLQYQGILQDELNKRMMKSDARGAMGVLIEPESGKILAISSIPDFDPNEPAIYKSETYRNRPITDQFEPGSTFKIVPAIAALNDRVVNSNEEFHCGDGSYLVGNHEVKDWKKFGLLTFEQIIENSSNIGTVKIAQLVGKDRIYDFGNKLGFGKRTGISFPGEAKGVFKTTSKWSSISLAEISIGYEVAVTSLQLAMAYGALANDGFLMKPHLVEEIITSDGKVQYKAKPKVIKKVASDDAILKLTKMLEMVVSNGTGEKASLPGWNVAGKTGTAKKYESGGYSSKNYIASFAGFFPSENPQVAGVIILDEPKKGLVYGGENSAPVFGSIVKRIVQSDDNLVHFKKNNFKKVKKGKSRLMNLEKQIVEKNNFNSSLNMLSTKGDAFGKSKINEKLDEGYVRIPDLKGKSMRKVINILNELNLKPKIQGSGIVFWQFPKAGQIVKKGIVCKVGLK;locus_tag=LOCUS_04520;gene=ftsI;note=WP_010943700.1 penicillin-binding protein (Geobacter sulfurreducens PCA) [pid:33.4%25%2C q_cov:96.9%25%2C s_cov:96.2%25%2C Eval:1.8e-100],MGA_454
sequence02	MetaGeneAnnotator	CDS	230009	231475	.	+	0	ID=MGA_455;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97H84;translation=MIYLKNLIENIEISNLPKSQIKISDITNDSRKVKPGSAFIAISGYNKNGKKYINEAVKKGASVVITDHTDEKIKIPILKVKNIRKAMSKISANYYDNPSKKMYVIGITGTNGKTTTSFLLNSIINSSNKKSALIGTLGALNEKNLFNTNLTTPDSIELHNILNKFVNDKIEFTILEVSSHALSLNRVDDIDFDMSVFTNISHDHLDFHGNMKNYISSKTKLFSKLKDSGCSIINKDDKEWKTIQKSTNSKVITFSVDKKADIKFINWEMSLDGIKGSVKRKNDIINIDSSLTGYFNLENILTAIACATNLNIPKKCIEEGIKKLTKVPGRAEKIKLQNGSMIVIDYAHTPDAYKKLFSSIKEIVSNNSRLGVLFGCGGGRDIEKRSIMASYVEKYSDMIFVAPDNPRFESQIKINKDIKSGFNKNNHIFFENRKIAIRDSINWLKPNDVLLIVGKGVENYQIVGNEKKYHSDLDSVYEFINESIKNEN;locus_tag=LOCUS_04530;gene=murE1;EC_number=6.3.2.13;note=Q97H84 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase 1 (Clostridium acetobutylicum ATCC 824) [pid:38.4%25%2C q_cov:94.7%25%2C s_cov:95.4%25%2C Eval:1.2e-87],MGA_455
sequence02	MetaGeneAnnotator	CDS	231450	232808	.	+	0	ID=MGA_456;product=UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q182Y9;translation=MKVLKMRIDLPNPKEFSGLFAKLLKIENNFLIKGISIDSRNINKGDLFIALKGDKVDSHNFIDEAILSGCSALLLSKNIKENIKIPKIILKEPKIFLGQIAKKWREKFKLDVVGVTGSNGKTTTKDLLVNIFSYQQNVHSTIGNYNTDLSLPLTLLQLNNSHTISFLEMGANKIGDISYLCNLSKPNIGVITNISYAHLSTFKSLNNIKKAKLELFESIDKNGIVFFNNDDKNIRQNFNILKKITYGFNKNSNFNCEKVINDSGEISLIINDQIIKTKFKNPILCNNILAAVAISFSLGVSWENIKRGVLSFKPPSGRCVTYIKNGILIIDDTYNANLSSTLAAIEYLSKLKSKGKKIMVFGDMLELGSKSKDHHTKVGKEVSNSLIHQLITFGEKSVITHNNTNHIIKNHFTNYKKLLNHLKDEIKDGDAVLFKASRGMNFDLLINKVFKS;locus_tag=LOCUS_04540;gene=murF;EC_number=6.3.2.10;note=Q182Y9 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:31.9%25%2C q_cov:95.1%25%2C s_cov:96.7%25%2C Eval:4.3e-60],MGA_456
sequence02	MetaGeneAnnotator	CDS	232808	233911	.	+	0	ID=MGA_457;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YFT8;translation=MFYHLLYPMSDQFTFLNVFQYITFRAAGSAITALIISFLIAPFIIKKLHQSQIVEQTNNRGPISHKSKDGTPTMGGLIILIALIIPTLLWSNLMNKYIHLILFSTIFMGIVGFIDDYLKKIKKTKKGLVGKYKILGQLILGFIIGSILYFAEGFRELGPITSVPFFKNLEISFGLLYIPWVALVITGSSNAVNLTDGLDGLASGLLTICAISLALISYISGRVDFSDYLNIIYLPSAGELTVFAAALGGSCLGFLWFNASPAQIFMGDTGSLSTGAAIGTLSILLKKELILVILGGVFVIEALSVMIQVGYFHLSKILYGESRRFFLMAPIHHHFELKGWKETQVVIRFWIIGIIFAILTFSTFKIR;locus_tag=LOCUS_04550;gene=mraY;EC_number=2.7.8.13;note=B5YFT8 phospho-N-acetylmuramoyl-pentapeptide-transferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:44.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-90],MGA_457
sequence02	MetaGeneAnnotator	CDS	233908	235302	.	+	0	ID=MGA_458;product=UDP-N-acetylmuramoylalanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q182Y7;translation=MNLISLNKSMKNKKVAVIGAGKSGLSACKLLKKLEAIVFLSEKNKNYNIKELEKNSDRFEFGVHSEKILDNELIVISPGISKNKSIFKKAKDKNIPIISELELSSWFTNFPIIAITGSNGKTTTTKILENIFKETNLNVFVSGNIGIPFSEIVLNNIEKNVKNGLHIIEVSSFQLEDIFDFKPKIAIILNISEDHLDRYHSMKNYINAKMNIAKNMEKNDKLIFNSEDVLIVENIKTKAKSIGFSLKKNIDEFFFIDKNKIYNSKEQKLVSIDDINLLGDHNIQNILAAATAAKVYEISDKNIRNGIQKTYPVDYRLQKVNEINQISFFNDSKSTNVDSIIVAINSFHENLILILGGRDKGGNFKKIITHLKNKVKQIIIFGESKKIIEMQIKEFFPIYIANSMKEAIHFSFKNAKSGDSILLSPGCTSYDMYDNFEHRGKDFNIEVSKLILSQKKIKNINYEL;locus_tag=LOCUS_04560;gene=murD;EC_number=6.3.2.9;note=Q182Y7 UDP-N-acetylmuramoylalanine--D-glutamate ligase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:39.3%25%2C q_cov:95.0%25%2C s_cov:99.3%25%2C Eval:1.3e-80],MGA_458
sequence02	MetaGeneAnnotator	CDS	235342	236478	.	+	0	ID=MGA_459;product=cell division protein FtsW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392361.1;translation=MYINISSQKYDKPLFFITIGLIFIGIVMVFSSTVDRSFNKFDYSTFYISKHLIRVFIGALAMIFGMMLDYNYLKRLAGPFLIFSIFLLLLTKILYLVENGINSDPARWLNIGIFSIQTSDIARLSVIIYLANYIDRKKDNIRDYMDGFLPPLLMVLIVMILIIIQPDFSTAAMIGFIFLIMLFIGRAKFLHLVGTVFFGLIFLIPVMYFREYRVYRITSYFDGFFDLSKASHQLQQSFYSLGNGGINGVGLGSSSGKNLFLPEAHTDFILSIIGEEGGYISILIILTLYLSIFQRTIKISKSCTDTFGIMLSIGLSIQILSYAFLHAGVVTGLFPTTGVQIPLISFGGSGLIINLFSIGIILNISQNKKKIKRNRSYI;locus_tag=LOCUS_04570;note=WP_011392361.1 cell division protein FtsW (Moorella thermoacetica ATCC 39073) [pid:30.3%25%2C q_cov:94.4%25%2C s_cov:97.0%25%2C Eval:1.7e-48],MGA_459
sequence02	MetaGeneAnnotator	CDS	236478	237578	.	+	0	ID=MGA_460;product=UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q812W5;translation=MPDFGKRFVIAGGGTGGHLFPALAIGEGLKKRFPGSTIHFIGSKYGLESNILPTQQNGFTLLPIRGFLRGFNVKSSLRNILFPTRFILSYLKSKKILKKIDPSVVIGTGGYASGLPLIAAISDGIPTLIHEQNSFPGITTKWLSSRVDRVCISYEDSRRHLRNRGGVVTGNPVRKEIIGRNKLQSLQKFGLTNNKPTISILGGSQGSKILNESIDNIIKNLSEFQIIWQTGNIHFDQYNHYSKENIKVVPFIEDMGAFYSSSDLIISRAGALALAEIAACKKPSILIPFAKATDNHQSMNAESLRVAGAAKVLSERDLSSKLLLQEIISLIKNKTLLKKMSTAAKSVSKIEAIDLIIDEIEFISES;locus_tag=LOCUS_04580;gene=murG1;EC_number=2.4.1.227;note=Q812W5 UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase 1 (Bacillus cereus ATCC 14579) [pid:37.6%25%2C q_cov:93.2%25%2C s_cov:94.5%25%2C Eval:1.8e-63],MGA_460
sequence02	MetaGeneAnnotator	CDS	237581	238975	.	+	0	ID=MGA_461;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S527;translation=MILGKIKKVHFIGIGGIGMSGISELLLNLGFKVSGSDIKITPITSQLSKKGAIIWEGHNKKNILDSDLVVYSSAIDDENVELVEARKIQLPIVRRAEMLGELLKLKNTSIAVSGTHGKTSTTSMMGSILTEALFDPTLIIGGVVKNLNANALLGKGDIIVAEADEFDKSFLQLSPTHSIITNIDSDHLDCYGSKENLVKAFNEFANSTAFYGSIILCVDDSLLKSIIPNISRPIITYGFSGDAEFQAVNRKFRDYYSFFDVKHKGEFLGSIELEVPGAHNIKNALATIALSIELGIKFKEIKKGLKNFSGVKRRFEIKGEVNKIIVIDDYAHHPTEVSATLKAIQNGWGEKRIIAIFQPHLFSRTKDFFEDFARSLMISDILIITEIYGAREKPISGVSGELISNVAKSIGHESVYWIKDKNKISNKIFSIVKENDILITMGAGDIYKISDQILNELKKDYVRN;locus_tag=LOCUS_04590;gene=murC;EC_number=6.3.2.8;note=Q2S527 UDP-N-acetylmuramate--L-alanine ligase (Salinibacter ruber DSM 13855) [pid:45.1%25%2C q_cov:98.7%25%2C s_cov:96.4%25%2C Eval:9.0e-122],MGA_461
sequence02	MetaGeneAnnotator	CDS	238962	239888	.	+	0	ID=MGA_462;product=UDP-N-acetylenolpyruvoylglucosamine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q180P9;translation=MLEIKKIVQNFFKGKILWNEPMKKHTSFGIGGPALAIMYPEDEFDLSKLLKTAKKKNINIYFTGSGSNILVNDKGFNGFVISLSKSFKKIDILKNKVFCESGVMMGTFVKKCTSSNLTGMESLIGVPGTVGGAIKMNAGAWGMEISNYIKKIKMMNRDGEIIELKKNQIEFGYRFSSIKNDLIISSNFEFKNSNPENIKKLKLKASNSRKNSQPLKFRSAGSVFKNPENFSAGYLIDKAGLKGMRIGDAEISNKHANFFLNLGNASSKDIVKLIFITKKKIKEKFDIDLELEIKTMGFKEDFFKNEII;locus_tag=LOCUS_04600;gene=murB;EC_number=1.3.1.98;note=Q180P9 UDP-N-acetylenolpyruvoylglucosamine reductase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:39.0%25%2C q_cov:92.5%25%2C s_cov:94.4%25%2C Eval:4.2e-55],MGA_462
sequence02	MetaGeneAnnotator	CDS	239875	240639	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFEKIKKINFYFMIVFIFLFGTKIILFSIQWSEDGERLLPKVFNINGNKILSSKEILDLIKISNNNSLLDIDLKLIQYEIEKHPYIKVAQISRKFPNQLNVNIKERQPLAYLNLKEYLVVDDDGYILPLRNGVIEFNIPTLTGFNNEKSLYPLGLKCLSTKTLEAVNYLNSTKEIFPDLISNISEFKINQSDYYEMILTEKPTKIIFNNSYFSKQIFLLKKFNDIIKNEKVLEDYKYVDLRYKNQIVVKERI;locus_tag=LOCUS_04610;note=MGA_463
sequence02	MetaGeneAnnotator	CDS	240636	241898	.	+	0	ID=MGA_464;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q748E0;translation=MKIKNTLSNNTCVGIDIGTTKICCVVGEVDLDNIDILGIGVSNSNGVKKGSVIDIDKTINSIEEAVNKAEKMSGKKISEATVGISGDHISSMSAQGAIAISKGQPVSDEEEISKSEVEQVLNQARSVSLPSDRQILHLIPQEFVIDHQHGIKNPIGMVGRRLEANFHLISCDTSASKNIKKCVEEAGIKPLRIVYQSLGSAASVLEKHEKDLGVVLIDIGGGTTDICIFFEGEVRHSAVIGLGGDNISNDIAAITQISKQEAELIKRNYGSAKANMVSDELNIELKSKGDEKYRKESERQISNYIEARMTEIFNMVNSEIQRANIKSPYPLKIVLTGGGSLLKNSSILAQEIFNSKVKIGIPKGLNKLDEIKSSPIYSTGIGLINYPELVFDDSMINRKIVPKGISKGVNNILEWFKEFF;locus_tag=LOCUS_04620;gene=ftsA;note=Q748E0 cell division protein FtsA (Geobacter sulfurreducens PCA) [pid:40.8%25%2C q_cov:98.1%25%2C s_cov:98.8%25%2C Eval:6.8e-89],MGA_464
sequence02	MetaGeneAnnotator	CDS	241944	243131	.	+	0	ID=MGA_465;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005811376.1;translation=MLFEFDSLEDQKAKIKVIGVGGAGGNAINRMISSGLSGVEFVAINTDAQDLENNNASTKIQIGKNLTKGLGAGAKSDIGRNAMEDEKDSVANIIEDADMIFVTAGMGGGTGTGAAPIIAQISRELGALTVGVVTKPFNFEGPKRMNRANSGLEEMQKNCDTIIVIPNQKLINIADKNTTLVESFQMADNVLNQATRGISDLINVHGIVNLDFADVDTIMRNKGEAIMGTGVASGDERAVLAAQQAISSPLLDDINMQGAQGVLVNITGGDNLTLMETNEACEIIFEEAGKDANVIFGAVIDPNMGDEMNVTVIATGFNSKTISKNNDILKHENSIPTFKKDADTINDKNNIPAFAKKNVDGNNDSNELKSDLNEKRIYDSTEDDLESPAYFRMQN;locus_tag=LOCUS_04630;note=WP_005811376.1 cell division protein FtsZ (Desulfitobacterium hafniense Y51) [pid:56.6%25%2C q_cov:82.3%25%2C s_cov:91.8%25%2C Eval:7.9e-100],MGA_465
sequence02	MetaGeneAnnotator	CDS	243133	243990	.	-	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTNESTLFFEELKKLRISQDIELSEISNRTKINLEYLESIEKGIFDFLPYIYVRLFLKAYCSEIGSDINDCLKNLDKTMNTTTHIKKEEPKIKINESSTPKSISKINFNNFKFSEFNKKNLANLLFLLLIVFFGIWIARNISKNNINNSNESSFLEDQIPSESNSNKLNRITDSFLISNFLERKNISILDLNSPFELSLKSSENIIIELSIDYTDDQLLTLLNTNNELVKSFNQNFFLRLEKTKGIEIRINDKVIDIVKSNNPKDLIYNTISKELIIVTYLKR;locus_tag=LOCUS_04640;note=MGA_466
sequence02	MetaGeneAnnotator	CDS	244036	244620	.	-	0	ID=MGA_467;product=Maf-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8RFE6;translation=MCKLILASSSQRRKDILKMVKLNFDVIPSNIDENYEKKLNPKQIVKKLSQKKAMAVSNKYPNSYVIGADTIVNVKNKILNKPKNKIEAFKMLKFLSNTEHLVLTGVCLINKKDNVIFNFVEITKVYFYKLDEQLILKYINTESPYDKSGSYGIQDYSACFVKKIEGCYYNVVGFPISKFLNVLRTFPKIESISI;locus_tag=LOCUS_04650;note=Q8RFE6 Maf-like protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:44.2%25%2C q_cov:93.3%25%2C s_cov:93.8%25%2C Eval:6.8e-37],MGA_467
sequence02	MetaGeneAnnotator	CDS	244626	248432	.	-	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNKKLTFLILLIFIANLNFLLSKNITIINEDIENFNFNVFFEDPSENHEIENIILTIGLPSNKAPKITVNPILITENNHFNFNKFYKSIETYAKWERIEKYRDLHIGILIISPTKNLNTNDYAKKLNINIEFEKNLKSNNSIPSTIQAEIYKNKISNWNTAQNWINNSIFKINKKTDDTSIEEVNIDGDWYKIYIENDGVYKIGIDELNEVGINTQSLNPESIHMFTSLSGGRPIDFSIGSEIPKNLTQISIKTNDGNDGNFDNEDEIIFYARGARGFENSGENIFYKKNPFSNYNIIWLLIPFDQNLKGKRIERRNEIIDDPVLINYGIGYSFLDNDIINPFESGLNWVDIGINTSKTHLSSINLHHPLKELKSTAYINLMGNSISDESIFPSHLVEISQTDNENISLKNLSWIGKNLNSTSIDLNSNLLNDGLNLISFKNISSDQSSKVHVDDIVISYYLSLRWDGEQFNFWSPNNLLSTRFGVESINSDVNIFDITSFNTPIEHEITLSGDTGYFEKQFSNSEKNHFIVFNKNELLKVSELVKIENHNFSNLRNSKLGIDHIIIAPEEFLEPAQNLKNHRKNSFFASIESIYDEFSGGNSNPNAIKIFLKYVKNNWKASSGTTFPLYVLLLGDGDYDYRNITGNSNIKIPTYQSNYISGTSSDDRFTYLDAYTPEFSIGRLPAGTLEEAEIMINKIINYESNPNIGLWRKNLTLIADDFSRPNFGPVELTHTKNSEYISNLIPNFLDIKKLYLEDYPEINDGSQFGVVKPSATKNLFEILNNGTSLINYIGHGSEYQWSQENLLSSSRGDILNIQTNEKLPIWIAGTCSWGKYDLLNTNSMSEELLKSNNNGAIAVISTNGLISFNANRNFLIDLFESFFPDGEVSNLPIGSIYSSIKNGSESSEMFHLLGDPGMKIAIPSNQVEINTINPDSVNSLSKGSFSGFLSNEQPNSGKGFINVKEPFKIINKTYVDDNYEEIITYKIPGEDLFKGKISFDDKKFSGSFIVPKDITINGRGKVSVYLYDQNGWEGLGSNENVVFTPSTSSSIDKNGPLISFSNNGRIVETGDNIYNSNSIYLNLSDPLGINLTNDIGHGIMIWYDDDELNKVNITNRFLYDENSFTSGSVEILLKDIDFGNINISSEAWDNANNLSQKQIFFNFNDGNNLKLSNLFNHPNPFTENTNFGFEINEESNIEIKIFTLSGQLINILDPFDIFYGYSRISWNGKDFYNNEIANGVYIYEITAKSIMSEKIISEIGKLAKYK;locus_tag=LOCUS_04660;note=MGA_468
sequence02	MetaGeneAnnotator	CDS	248751	249458	.	+	0	ID=MGA_469;product=clavaldehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545430.1;translation=MNKKVAIITGASEGLGRAIAVKLATKKYITVLASRDIKKLEKTSNEIGKVNGQYLIIQTDVTSEKSVKKLFSKAAKLGQLELLINNAGVGTFNKVEEITLKEWKTMIDVNLTGSFLCSKEAILLMKKQKHGHILFINSLSGKRVLPWGSGYSASKYGLKGFADSIRLELRKSNVKVTSVFPGSIDTTWWDKMNMNFPRDKMLILDDVVDAIYNSISYKGRTVIEEIDLRQVGGDF;locus_tag=LOCUS_04670;note=WP_012545430.1 clavaldehyde dehydrogenase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:37.5%25%2C q_cov:96.2%25%2C s_cov:95.1%25%2C Eval:2.0e-34],MGA_469
sequence03	MetaGeneAnnotator	CDS	493	678	.	-	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEYIYYGFFYVLGIIFFSFFLRIKTNIKKNKKINKKVYSEMAKKIKEDANSHRKLRENKL;locus_tag=LOCUS_04680;note=MGA_472
sequence03	MetaGeneAnnotator	CDS	680	1327	.	-	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLFSIKVLIYYYNIMSFKIIKKGIILIAFLVCGVKCQSNLIGMEFSEKENGTFIILKFDNKIKKHAITAWFQDSGWFYVTVHDVNLDSTKKWPFKKTGNILNIQTRQIGESSQIDFKLKNKIEDFDFFILNENQINLSLRYPLSETLAIIDSVSSDIGIISNLDTRVKNKWFSQNRFTFLLLGSTLVSKGIIRSNDKEIILGFILTLMNYIFLN;locus_tag=LOCUS_04690;note=MGA_473
sequence03	MetaGeneAnnotator	CDS	1395	2996	.	+	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFGAFSDVSVAQNSKKKSSSKSKQVKSSTSSSNKSRAAKFIARGKSRIKQKKYSEALSDFRKAHKLFPSKTSQNYIKRLLPIVKKQQASSTKNKSAKSLASNNKPIPSPYKLSKEFFQISNELESSMRKMKIATMNLKPVNDKTPDEKRKERLKSININIVNRPEDRRIQRDLAIEHERNGDFLEAKNIYLGMIENNPEEPDHHYFLGTLYSKMGQKNNAGFAFKEALNLNPNHKPTLEALSIYGNNSLPQLLVDDLINHSIKNNPDGSAQILNKTREFFNKEDFSGLIEFSLENQKEFSESSSLTYYKGKSLEALGKIEEAKVEYKNAIKIDKSDTRPSIALGDIHFAESNYVYSSIVYNSILENDPMNVSLINKIGLSYFNGFEWAKAATVWEDLLKLSPNHTEVKKLLPEVYYILSLEYDRKGFSDLSRRSFSNALSVNSNSSIWLPSALKTAAKYYTENGFYKLAIKSYHDAMDIIPNDYDSYNGLGATYWYMGEKQMAISAWENSLQLNSSQNAAKGWLLLANKSSN;locus_tag=LOCUS_04700;note=MGA_474
sequence03	MetaGeneAnnotator	CDS	3053	4129	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNNGNDKVWEGINAFYNYEFNKSVKILDEAKNEFPFHPSVHFTWAVSKWLHSRAYDGIDKSYEVLSESLEIIVPTYEVLIEKFPNDKEIHLYYASTLGLKARVHLGKKEWINVVVEGIKGYSSIKSLNSKYPEYNDALFPIGILNYFAGKMSGFTQFFAKIAGVEPDVTLGIRQMTKSVNDGDFAKIESSQTLAYIYLWMDQDFEKAKNLSRNLRDEFPNSIYNQFMYTESLILLGRLDKAKINLELCREILIDLPEFTNIYWHPLLDYQKALIYFINGDLDKSLELVNDCISNYSAELDTQLGYALLLRGNIFDLKNKRSLAELDYKEVIKLDNYTMAIELSKKYLQQPYLNSNN;locus_tag=LOCUS_04710;note=MGA_475
sequence03	MetaGeneAnnotator	CDS	4174	5271	.	+	0	ID=MGA_476;product=4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q818H8;translation=MESKNPIIRRKTKKVKVGNIFIGGDAPISVQSMTVNKTYDIDKTLKEMDSLIEAGCQVIRVTVPDEKSAKAIEVYKKKIDIPIVADIHFNYEMALLAVDYGADKIRINPGNIGNRERVETVLNKVKKHNLPIRIGVNAGSLERDLLEKYGYPTAEAMVESAEKHIKICQEFDFNDIIVSLKASDVRLMIESYQLFSKKYDYPLHLGVTEAGPAKSGSIKSSIGLGSLLKDGIGDTIRVSLTEDSVEEVKVGFEILKSLGLASRGVTIIACPTCGRLEVDLFKIAGEVEQKLAHIKKPMSLALMGCAVNGPGEATHADLGVAFGKDGGLLYKDGKKVGRLKEDEAIDKLVRLIEKEEEEAKISENN;locus_tag=LOCUS_04720;gene=ispG;EC_number=1.17.7.3;note=Q818H8 4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin) (Bacillus cereus ATCC 14579) [pid:55.6%25%2C q_cov:93.2%25%2C s_cov:91.9%25%2C Eval:2.2e-109],MGA_476
sequence03	MetaGeneAnnotator	CDS	5258	5680	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKNFLVIMFFVSIGFSQADYSPIPLYWKTLDKKDKEIYLFAYLTQVYDTHKFLIDDVGRGGFSKYYYEERAELAYNIFDLLDSTPMSKFIIWIDDFYSQPELREFPFPEALKYAYKRSQIKEEDKLLEKFRNNLLDD;locus_tag=LOCUS_04730;note=MGA_477
sequence03	MetaGeneAnnotator	CDS	5696	5893	.	+	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFFSKINNVFDELKKIYKEGGIRLLFKKKGFLIVLIIFFYYLIRDGFLYIILPFFVFKNLTGCF;locus_tag=LOCUS_04740;note=MGA_478
sequence03	MetaGeneAnnotator	CDS	5958	6428	.	+	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRRIFIKKSCQCAAVTAVPLSILNLTGCTDSGNPVSEAEIEEVVVNDRISFIFDLTNESLLPLQTVGLSVVTSGNEIDSSGLLILRISESEIVVFSRSCTHSGASVNSFQDGISLCSSHGSEFNTSGEVVTGPATRSLKKYESTLDGTDLTIFAG;locus_tag=LOCUS_04750;note=WP_011731351.1 Rieske iron-sulfur protein (Mycobacterium smegmatis str. MC2 155) [pid:44.8%25%2C q_cov:37.2%25%2C s_cov:42.0%25%2C Eval:2.3e-08%2C partial hit],MGA_479
sequence03	MetaGeneAnnotator	CDS	6474	7520	.	+	0	ID=MGA_480;product=mechanosensitive ion channel protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942993.1;translation=MDFFNSFDVLYLINIFPSILPLIILPLTGLIFKKYIHSKVKLLVDKTNWKIDNIIFDSFENSILFWFVLFGIYLSLSQLPFQSNILDFALNLNIAVIVLSISISVSNVSVKILELFASNNKSFPSTTMFSNLFRIIIVSMGLLIVFQNFGISIAPVLTALGVGGLAISLALKDTLSDLFAGLHILLSRKVIPGDLVELDTLQRGVIENITWRNTTIRDRTNNMLVVPNSKLSTAIITNFDVPVKHLTARISCGVSYDSDLDKVERVVLDVAKQVINDVEGANKNYKPGVTFLNFGESSIDFRVFIGAIDYSGQWSVTHEFIKRLHKRFKLEGIEIPFPIRTIYNKNEK;locus_tag=LOCUS_04760;note=WP_010942993.1 mechanosensitive ion channel protein (Geobacter sulfurreducens PCA) [pid:40.2%25%2C q_cov:92.2%25%2C s_cov:92.0%25%2C Eval:3.2e-70],MGA_480
sequence03	MetaGeneAnnotator	CDS	7536	7970	.	+	0	ID=MGA_481;product=deoxyuridine 5'-triphosphate nucleotidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q181Y7;translation=MKLKIKPFDNDIKKYYLNHGHFHKGDAGIDLFIPKKIVFEPKQSLPIHMNVSCELEDKPYFLLPRSSISKTPLRLSNSIGLIDAGYRGEIIACCDNISEKKFELEKGRRLFQIMSITGDPLELEIVDKLSDSSRGEGGFGSTGS;locus_tag=LOCUS_04770;gene=dut;EC_number=3.6.1.23;note=Q181Y7 deoxyuridine 5'-triphosphate nucleotidohydrolase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:35.0%25%2C q_cov:97.9%25%2C s_cov:97.2%25%2C Eval:2.3e-14],MGA_481
sequence03	MetaGeneAnnotator	CDS	7967	9271	.	+	0	ID=MGA_482;product=S-adenosyl-L-homocysteine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978302.1;translation=MSKIKDNNLINDGISAIQWAKDNMPILKRIRKKFQKEKPFVGINIGVSMHLDSKTAVFLKTLQAGGADISASSCNPLSTDDGVAAALSENMEIFAWSNETDEEYYNCLESVIRTAPKITLDDGGDLLYRMHFKFPTLLKNFIGGCEETSTGSIRLKAMKEKNELKVPVIDLNNAYSKYLFDNRYGSGQSVIEGIVSATNILIAGKTIVIVGYGRVGRGLATRFRGMGARVIVVETTGLINNKGKSGYHKGLEALYDGNWVSSMEDASNEGDIFITATGSKNVISKHHIKDMKDNAILANAGHFDHEIDVVSLKNMSKSQDQVSPNLVRYKLKNGKSILLLSEGRLVNLSRPTAHGHPIEIMDGSFSLHALCVEYLVKSNSNISSKNLFKTPDVYSVPDNIDEMVARYALEENGIILKSSTFEQKEYLKKAELGT;locus_tag=LOCUS_04780;EC_number=3.3.1.1;note=WP_010978302.1 S-adenosyl-L-homocysteine hydrolase (Sulfolobus tokodaii str. 7) [pid:51.0%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:1.0e-111],MGA_482
sequence03	MetaGeneAnnotator	CDS	9355	9645	.	+	0	ID=MGA_483;product=10 kDa chaperonin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KF03;translation=MALKIQPLSDRVVIEAAPAEEVSSGGIILPDTAQEKPQQGKVVAVGTGKVSDSGTLVKPTLKVGDSILYGKYSGTEVTINGSEYTIMRESDVLAIL;locus_tag=LOCUS_04790;gene=groS;note=Q8KF03 10 kDa chaperonin (Chlorobium tepidum TLS) [pid:58.5%25%2C q_cov:97.9%25%2C s_cov:98.9%25%2C Eval:5.6e-28],MGA_483
sequence03	MetaGeneAnnotator	CDS	9674	11317	.	+	0	ID=MGA_484;product=60 kDa chaperonin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KF02;translation=MAKQIEYDSDARAKLKSGVDKLANAVKVTLGPRGRNVVIEKKFGAPTSTKDGVSVAKEVELEDSVENMGAQMVREVASKTSDVAGDGTTTATILAQAIVREGMKNVTAGASPMEIKRGIDAAVQVVVEGLKSQSKDLPGKTEIAQVASISANNDSEIGNLIADAMEKVGKDGVITVEEAKSTETTLEVVEGMQFDRGYLSPYFITNSDNMESDLEDPAILIYDKKISAMKDLLPILEKTSQAGKALLIIAEDVEGEAIATLVVNKLRGTLKVAAVKAPGFGDRRKAMLEDIAVLTGGTVISEEQGYKLENATMAYLGSAKRIVMDKDNTTVVSGAGDLDKIKARINEIKVQIEKSSSDYDKEKLQERLAKLSGGVAVLNVGASTELEMKEKKARVEDALHATRAAVEEGIVPGGGVALIRTLDKVSKMKLSDEQMVGANIVLRALEEPLRQIAGNAGHEPSIVVQKVKDSKNDEGFNAYSEEYVQMFEAGIIDPTKVTRVAVQNAASISGLLLTTEAVISDIPEKEAPMPPMPGGDMGGMGGMGGMM;locus_tag=LOCUS_04800;gene=groL;note=Q8KF02 60 kDa chaperonin (Chlorobium tepidum TLS) [pid:73.5%25%2C q_cov:96.2%25%2C s_cov:96.9%25%2C Eval:8.6e-215],MGA_484
sequence03	MetaGeneAnnotator	CDS	11432	11782	.	+	0	ID=MGA_485;product=7%2C8-dihydroneopterin aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DZI7;translation=MTIIRMKKIRFFGKHGVSISEKKRGGTFEIDLEFHSDVDKSYLTDDLNHTIDYSKIYKKVYDSFYSSDYNLIETLGNKICDDLISSFPIKEIKLIIRKINPPVNGLIDSVEIEINK;locus_tag=LOCUS_04810;gene=folB;EC_number=4.1.2.25;note=Q8DZI7 7%2C8-dihydroneopterin aldolase (Streptococcus agalactiae 2603V/R) [pid:35.9%25%2C q_cov:100.0%25%2C s_cov:97.5%25%2C Eval:7.2e-15],MGA_485
sequence03	MetaGeneAnnotator	CDS	11798	12289	.	+	0	ID=MGA_486;product=2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001059445.1;translation=MKNNVYLSLGSNIGNSINILNSAIDHLNFNKNCKVNKISSFYDSEPIGFINQKNFVNCVIKIATNLSPIKLLDLLKIIELNHGRKKNKKKNMPRILDIDIIFFNNLIMNSKNLIIPHPEYFKRRFVLEPLLEISSQKKCPNDGIPLINKLNKCKNQKITIINS;locus_tag=LOCUS_04820;gene=folK;EC_number=2.7.6.3;note=WP_001059445.1 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:40.6%25%2C q_cov:84.7%25%2C s_cov:80.1%25%2C Eval:3.7e-23],MGA_486
sequence03	MetaGeneAnnotator	CDS	12286	12927	.	+	0	ID=MGA_487;product=deoxyadenosine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403716.1;translation=MNNLYYLAIEGVIGVGKTSLANLLEEKLKAKLVMEKFDENPFLSEFYNDPERYAFQTQLFFLLSRYRQQNDLRQTNVFNKLVITDYMFIKDRLFASLNLDDKEMSLYDSVAKILEKNIIQPDIVIYLQADTSTLIKRISKRGRDFENKISPDYIEALNEVYNEYFFRYQKSPLLIINTNDIDFVNNKKDLEELISYIRQPVSGTKFFNPSSNF;locus_tag=LOCUS_04830;gene=dck;note=WP_011403716.1 deoxyadenosine kinase (Salinibacter ruber DSM 13855) [pid:40.9%25%2C q_cov:97.2%25%2C s_cov:79.7%25%2C Eval:4.3e-46],MGA_487
sequence03	MetaGeneAnnotator	CDS	12930	13118	.	+	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFILFLIGYLFYRLIKGTFFFIRFNKKNDIKKNTKKFFIKSEDLIEADFDEIKEGDNENE;locus_tag=LOCUS_04840;note=MGA_488
sequence03	MetaGeneAnnotator	CDS	13111	13530	.	+	0	ID=MGA_489;product=quinol oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403203.1;translation=MNEIFEKIIKNRNDLYLLILRIFTAYLMFFYHGLGKVVGGPDRWKSLGGAMEVFGIDFFPTFWGFMAMLSESVGCLFILLGIFAVPSSLILSFTMFVVCVGDIVEGEFPEKPMLYILILFTFVIFGSGKYSLERYFLKK;locus_tag=LOCUS_04850;note=WP_011403203.1 quinol oxidase (Salinibacter ruber DSM 13855) [pid:42.3%25%2C q_cov:86.3%25%2C s_cov:89.7%25%2C Eval:2.5e-23],MGA_489
sequence03	MetaGeneAnnotator	CDS	13527	13880	.	+	0	ID=MGA_490;product=ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000181227.1;translation=MIYDKHIFVCTNYREKESKCSCGTKDSDQIRFKFVQLLKENNLNDQIRSNKSGCFNLCEFGPIVVIYPKGIWYVNVRISDVEEIFKKSILKDEIIKHLLPKENILHQIKEIRNVKKN;locus_tag=LOCUS_04860;note=WP_000181227.1 ferredoxin (Leptospira interrogans serovar Lai str. 56601) [pid:35.9%25%2C q_cov:86.3%25%2C s_cov:95.4%25%2C Eval:1.6e-14],MGA_490
sequence03	MetaGeneAnnotator	CDS	13867	14646	.	-	0	ID=MGA_491;product=short-chain dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867386.1;translation=MKISLKNKKAIVCGSTNGIGYSIAQKFSELGATITLIARNKNKLIKTKESLYGDNHNFICANFSNPNELQKKIIENKINKNYYSILVNNTGGPPPGKISDIKNEDFLDSINKHLICNHILFKAVYRNMKKNDFGRIINIISTSVKEPIPNLGLSNTTRGAVASWSKTLSKEIGKYGITVNNILPNSVNTSRLKNLFSSMAKNENTNYLNIKQKWTENIPTGRIAEPEEIAYLAAFLVSKYASYINGINLPIDGGKLSSF;locus_tag=LOCUS_04870;note=WP_010867386.1 short-chain dehydrogenase (Pyrococcus abyssi GE5) [pid:37.9%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:8.7e-45],MGA_491
sequence03	MetaGeneAnnotator	CDS	14717	15184	.	+	0	ID=MGA_492;product=SsrA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YL97;translation=MKENSKIISINRKAFHDYEIIQKYEAGLELQGSEVKSIREGKINLKDSYAILKKNQIFIIGMHIGQYSHTGFLGHDPYRNRKLLLHKKEILKIFNQVKSKGKTLIPLKLYFSNKYVKLEIAISRSKKNYEKKRVVSERDHLRDLNRELKNKKTIK;locus_tag=LOCUS_04880;gene=smpB;note=B5YL97 SsrA-binding protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:48.6%25%2C q_cov:94.2%25%2C s_cov:98.0%25%2C Eval:1.1e-37],MGA_492
sequence03	MetaGeneAnnotator	CDS	15181	16395	.	+	0	ID=MGA_493;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEW9;translation=MIKFPKISEQIDIISSGTEEIISLDNLEKKISLSFKSKIPLNIKLGCDPSRPDLHIGHSVVLNKLRDFQELGHSAILVIGDFTALIGDPSGRNKTRPKLSIDDVEKYSQTYIDQASKILDIKKLNIVKNAQWLGKMNFYDIINLSSNYTVARMLERDDFEKRYNNQISISIHEFLYPLAQAMDSVKLNADVELGGTDQKFNLLVGRDLQKNYNQDPQIVITSPILEGTDGKKKMSKSYDNYIGITQSPSEIYGRTMSIPDNLIFSYFKLATRADENELIEIKNQLNDNKINPRDLKRKLARKLITIYYNEEKSIEAQNEFDDIFIRSETPKNIDEWKIKDNQNNILIIMIDSGLIKSKGEGKRLINQGAVSINGEKINDINFTINDNSEVVLKVGKRKFLKIFS;locus_tag=LOCUS_04890;gene=tyrS;EC_number=6.1.1.1;note=Q8KEW9 tyrosine--tRNA ligase (Chlorobium tepidum TLS) [pid:52.8%25%2C q_cov:98.8%25%2C s_cov:97.8%25%2C Eval:1.5e-117],MGA_493
sequence03	MetaGeneAnnotator	CDS	16479	16817	.	+	0	ID=MGA_494;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q72B01;translation=MSENVDQIIDISFDEVVLKSNIPFLVDFWAEWCGPCRMVDPIVKELSNEYDGKIKFGKMNVDENPIVPPKYGIRSIPSLLIFHKGNVFEQIVGAVPKENIKLALDRVLTKND;locus_tag=LOCUS_04900;gene=trx;note=Q72B01 thioredoxin (Desulfovibrio vulgaris str. Hildenborough) [pid:57.9%25%2C q_cov:84.8%25%2C s_cov:88.8%25%2C Eval:3.9e-29],MGA_494
sequence03	MetaGeneAnnotator	CDS	16810	17745	.	+	0	ID=MGA_495;product=thioredoxin reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KE48;translation=MINNVIIIGSGPAGLTAAIYCARANLNPIVFEGNQPGGQLTITTEVENFPGFPNGIQGPELMNLFRKQAEKFGAKCYSKNVDNVDFSSNPFVLNIGNDSYKTHSIIISTGASAKLLGIESESKLMGYGVSACATCDGFFFKEKKVIVIGGGDSAMEEALFLTKFAKNVTVVHRRNKLRASQIMQKRAFENPKIDFIWDSTVDKILGTTTKGVEEVVLENLITNKKINYKCDGVFLAIGHKPNTSIFKNKLKLNENGYIITENSSTLTSVKGVFAAGDVQDFTYRQAVSAAGSGCMAAMDAEKYIETIIEEN;locus_tag=LOCUS_04910;gene=trxB;EC_number=1.8.1.9;note=Q8KE48 thioredoxin reductase (Chlorobium tepidum TLS) [pid:57.7%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:9.9e-97],MGA_495
sequence03	MetaGeneAnnotator	CDS	17757	18443	.	+	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHPNQPIYTLNDIKVNFSKKVTLNIPNFKFHRGAIYGITGPISSGKSTFLNLLSFNLNNFSGVLLFEENLFKKKWYKQNSTPEGILYAGSYPKPSNETIKEFLTRVFKEKINVIKKQYFLKENFSSFWDTPLKNLSTGQMKRLSLIYAIEMDPKVLLVDNYGDCFDRNTIIEFNKKLKYNSRSRGTTIILSTSKYKDVIDISNILLFLDKGHLSKIRSQKKINHKRK;locus_tag=LOCUS_04920;note=WP_010965340.1 bacitracin ABC transporter ATP-binding protein (Clostridium acetobutylicum ATCC 824) [pid:27.4%25%2C q_cov:90.8%25%2C s_cov:67.6%25%2C Eval:3.1e-08%2C partial hit],MGA_496
sequence03	MetaGeneAnnotator	CDS	18462	19979	.	+	0	ID=MGA_497;product=2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5HYC2;translation=MSKKFILIIVDGVGIRDKMENNAFKLAKTPTFDKLFSNSPWSTLGASEQFVGLPKGISGNSEIGHMTIGSGRVLKHDLVRINESISNDNLKLNVNLINYFKALKSRDGNLHLIGLVSDGGVHSNLSHIIPIIEIAQSYNVKNIYLHAITDGRDTSPFDGVNYIKELEKNFKKYHNVEIATIIGRYFAMDRDQRWERTEKAYRLFIENKGKIFSSSINAIEESYKNKITDEFIEPIVLEKYKSNRMNPNDGILCFNFRSDRMRQICPSLSDSNFNYFKLNQKPIPLITMTPYHENFNFPVIFPSYEIERKFGQILSENHFKQLRLAETEKYAHVTYFMNGKDEDPYDGEKRILIPSPKVPTYDLQPEMSAIKVMNIALDDINNNISDAIIMNLANPDMVGHTGKLNAAIKAVETSDQVLNKITKLSKIKNIPVFIVSDHGNCELMVNEETGLEHTAHTCNRVPFIIYNGPNNLNLKKGSIADIAPTILDLMDIDIPDEMTGISLVK;locus_tag=LOCUS_04930;gene=gpmI;EC_number=5.4.2.12;note=A5HYC2 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Clostridium botulinum A str. ATCC 3502) [pid:44.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-119],MGA_497
sequence03	MetaGeneAnnotator	CDS	19982	20947	.	+	0	ID=MGA_498;product=ADP-heptose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015825.1;translation=MNHLFKIDNFLNKINKLNVLVIGDVMLDKYIWGDIKRISQEAPIPIIDVNSISHNIGGAGNVASNLVGLGSKVSIASITGIDKESEIISNILKKNNIDDSMVFHLSNRKTTLKTRYLSKSQQVFRVDSEDSSPLIFEEKIKFFETIKSNINKYNGIIIQSYDKGLIDIWFIKELLKLCKKKQIPIYVDPKRKNFFDFLEVKLFKPNLNEVSNAFNINVNKNNIEKIGLELRKKIKCSVLLITQGSEGMSLFDENGFHQIPTKAQSVHDVSGAGDTVISVFILANLCGIDNKFATELSNFAAGKVCEHIGVYSIKKEDFKSF;locus_tag=LOCUS_04940;EC_number=2.7.-.-;note=WP_011015825.1 ADP-heptose synthase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:36.6%25%2C q_cov:96.3%25%2C s_cov:93.5%25%2C Eval:3.2e-53],MGA_498
sequence03	MetaGeneAnnotator	CDS	21244	22611	.	+	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWASSYNNLNYSNDQGKTWYKINNVNFKNIIRIGSDNEYIYCINNYEIIKINNLSGGIIEYMNKINEINEIKWSSYLSLNLFKNKINEFSFSGGWYIQNNNLIGPKVSDNHNISTFYLDRFGDSWLGTNKGYIFKGSNQLLNMELVFQGLSNSYINDLKIWENKLWVSSNTNYNSSSSINLFDYNNFNFETFSSKEQINFNFDSIYKIQRVLNEWYFLSFDGIKIFDPKKENWFFLNKSQKYFDYNYFNSMANDTEYIYLGTKNGINRFLINSFDFNNWSVSQKIGNIPIDHVFWDGRSLWICSGLRIWRWVKDANFLAEYGSNNSIESDFFSLESSIQSSTLSDDKIFFAEKTSLLILDKINFTWKRVKYNRKLISAQIFEIEYFKLNANEELIWFATNKGVFVINISENYQLDFNQDNGLSSDFVTSIEINENEIWFGTSSGICRFNWLNHLK;locus_tag=LOCUS_04950;note=MGA_499
sequence03	MetaGeneAnnotator	CDS	22608	23879	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIFTIIIIIVFNSLSFTQPKKNNDNSGPFFYLNLSRYPTNNIDSTKINLHINIPYSSIQFLKKKDNFEANYELTYTIQSEDDIPITRLSKQYIAKVDDFNDTYSSLITDMVKETIILFNENSKLFVELMDLDTRKIFRKQIDISLDDFKKNDIISDLILIDINKKNSLFENGFPIIPPMISDIDSSINIFYEAISRNTSFNFIYYRISSLANETIISDSIQIANTDLVFNNILNIPISDKIKSNFNVQLSYERIYDDSSNEEFISSITIKSNFMGMTSFVNDIDEAIEQLRYIAFTDELKKIFKNKNITKEEKLKEFWEKRDPTPETKQNELMNEYYRRVSFANNQFQTWQKGWKTSMGMIFILFGPPDNIEKNMSDINGREYQRWNYIRINRSFTFLDYNGFGEFELLDPYNSTYGTRWR;locus_tag=LOCUS_04960;note=MGA_500
sequence03	MetaGeneAnnotator	CDS	23915	24991	.	+	0	ID=MGA_501;product=glucose-1-phosphate thymidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080744.1;translation=MKGLLTAGGHGTRLRPITHTKNKHLIPIANQPMLSYAINYMRKAQIIDIGIIINENDREIENIFGNGEQYGVNLTYIHQNSPLGLAHVIKISEDFIGKDKFLFYLGDNILVGGVSRFIDEFNKFKSNCHLVLSKVNDPERFGVPEIKNNKIISISEKPKNPKSDYAITGIYLYDSSIFEAVNNIKPSERGELEISDAHQYLLEKNKKITFSEITGWWKDTGKPSDLIEANKLVLKNMVKKKNFDYYDKVEFNNKINGKIIYGKDSIIKKSIINGPVIIGNNVVIENSTVGPNVSLSNNCKVINSRIEDSIVMSDTSFLNIKKTIKNSLLGNNIQINQKNEFFNEINLIIGDQGKIEIG;locus_tag=LOCUS_04970;note=WP_004080744.1 glucose-1-phosphate thymidylyltransferase (Thermotoga maritima MSB8) [pid:39.5%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.9e-73],MGA_501
sequence03	MetaGeneAnnotator	CDS	24984	26279	.	+	0	ID=MGA_502;product=tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963271.1;translation=MDNDINKKVSFYTLGCKLNFSESSKIMDDFIDHGYKIIEFSKKSDFYIINTCSVTENANKKCRKIIRQVKKLAPKSKIIIIGCYAQLKPFEISQIDGVDLVLGAGEKFNIIKHLDSLDVKLNKVHSCEIDSVKEFVTSYSTSQRKRSFLKIQDGCDYPCTYCTIPMARGKSRSDTIENILKNAIKILNKGINEIVLTGVNTGDFKNNGLNFFTLIKSLDTIGAKRIRISSIEPNLLTKEIINFISKSNSFVPHFHLPLQSGSDKILKLMKRRYNSLYYIEKIKMIKKIIPYACIGSDVMVGFPGETLSDFNSTKSLILNNEISYLHVFSYSDRDDTESSKMLNKVSLKVINNRSRILRNISKVKKRNFYESCLGNIDSILVENVDNNYFIGYTSNYIKVKSKIKSIDLGQLVNVKLDYVENDYMVGKQFFN;locus_tag=LOCUS_04980;note=WP_011963271.1 tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB (Flavobacterium psychrophilum JIP02/86) [pid:50.6%25%2C q_cov:98.1%25%2C s_cov:98.0%25%2C Eval:9.4e-118],MGA_502
sequence03	MetaGeneAnnotator	CDS	26304	27035	.	+	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIIYLLFVTSIINAKFSIPFSNYELSLDTLHGNYIRIDKLNHFESFNMSISYDSNFIKLGKPIIEASKNQYENFIFKDGSLIIKSNIQNKKINKEEFDESILIPLTINNSNKSFFLSFKDFMFSGVNDKVIELRVLNGKIFIKENIPSTFQLKNNFPNPLRKNFVIRFELPVASIVDLIIYDLNGNRVRILELENDLPAGFYNKPWDGKNDMGANVSEGAYVCSIKINDNYHSMKMLLLR;locus_tag=LOCUS_04990;note=MGA_503
sequence03	MetaGeneAnnotator	CDS	27041	28381	.	+	0	ID=MGA_504;product=Trk system potassium transport protein TrkA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545959.1;translation=MKIIIIGAGEVGFQLAKLLSQEDYDITIIDPDKQKILRAEDNIDVNAIHGNGTNHTILSNAGIEDTDVVVSVTGMDESNLIISKISKNLGCKKVIARLRNIDYSNKNYIINPENFGIDEIIHPEMEAKSEINRLVIQNSANYVYDIDENLKLLGVKINDSSSLINKNLSLIKSNNKSLSFNIIGLTRDEETIVPNGETKIKKGDEGYFLVKKNDIEHLMYILGKQVNQTKNVMILGGGKIGRAVANDFQDDLNVRLVEINKDKADMIASKFNITVLNDDGTDIEFLRLENLEELDSFIAVTENDQTNLMSALLAKHLGVKQNIIHVSHTEYIPAMTMIGLDAVVSKSICTVNKIISYIKTDDNHEIEKIGNTQLESIDYKPKKGSRITFFKSLASEKFPENSIIGCIQHKNGSFSIANGDSIVTSDDIVKVFALPEAIKEVDKFFI;locus_tag=LOCUS_05000;note=WP_012545959.1 Trk system potassium transport protein TrkA (Thermodesulfovibrio yellowstonii DSM 11347) [pid:31.8%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:7.4e-65],MGA_504
sequence03	MetaGeneAnnotator	CDS	28386	29849	.	+	0	ID=MGA_505;product=Trk system potassium transporter TrkH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545413.1;translation=MHLKSILNVVSRIVFALGLTMIFPIIISLLYKDSQALYFLLSGFTAILISIPLFVLTRTKIKFSIKDGFATVSLAWFFAAFFSSLPYLFAGVVDNFTDAFFESMSGVTTTGATIIQSSVNLPDGIESLPKSILFWRSFTQWIGGMGIIVFSVAILPLLGVGGIKLFKAEVPGPITDKIKPRVQETAKILWMVYIGFTFLQTLLLFIAGMTLFDSICHAFTTMPTGGFSTKNASIGAYPNIIIQYIIIFFMFIAGVNFTLHFKALSGNLKGYINDYEFKVYFFIIIFISILIFFNISNSNSELSHNNYIKSLFQTIAILTGTGYSNTDYEIWPFFSQLLLFFMMFFGAMGGSTSGGMKISRIVLLIKFSLTEIRRMIHSRAIIPIKIGNRTINDEIIRNTIGFFLIYVFIFVLTSLILTFFDLDFVSALGASASAIGNIGPAFGDFGPTDTYLSLNVIGKWMLSFCMLLGRLEIFTVLVFINSIISKK;locus_tag=LOCUS_05010;note=WP_012545413.1 Trk system potassium transporter TrkH (Thermodesulfovibrio yellowstonii DSM 11347) [pid:40.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-107],MGA_505
sequence03	MetaGeneAnnotator	CDS	29865	31712	.	+	0	ID=MGA_506;product=UvrABC system protein C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KBI0;translation=MKKNDYIKKKLILLPKKPGVYFFKDIKGNYLYIGKAKLLNRRVRSYFQNNSNLSLKIISMLKRAKDFEWIVTSTEIEALLTEANLIKEHGPHYNVLLRDDKTFPYIRITNENYPRVFITRKLINDGSKYFGPYTDVKQLRFILKVLHKLFPIRSCDFNINNDSISKKKHSICLDYHINKCNGPCEGLIGQSDYNNIIRNVIFFLNGNKTKIIKEISDKMIKASNVMDYVNAGKYKDQIDLIINFTKKQGKSVASFDDRDIIAISSKNNLACGIVIRIREGRISGREKIMLNGAMNEKQSTLISDFIRQFYLITNFIPSEIILSEKPDFFTTLKLWLESKKNKKIKITTPLKGEKLRLLKMCQQNADLVLKQEFLKKSARKELIPKMVNQIKEDLNLVSPPRRIEAFDISNIQGNQPVGSMVCFVDGKPRKKEYRKFSIKTVKGINDFEMIREIVLRRYKRIKNEKGILPDLIIIDGGKGQLNMAVSALKELGLNYIPIASIAKRLEEVFLPGFQEPQNIPKFSSGLILIRRIRDEAHRFAISFHRKKHNKASINSIFDNINGFGPKTKIKLYSKFSDISKIAKSEPNLITKELSINLSLASEIIDVAKNYKKNNE;locus_tag=LOCUS_05020;gene=uvrC;note=Q8KBI0 UvrABC system protein C (Chlorobium tepidum TLS) [pid:39.7%25%2C q_cov:94.0%25%2C s_cov:93.3%25%2C Eval:3.2e-125],MGA_506
sequence03	MetaGeneAnnotator	CDS	31705	32226	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNLNSKILNSNKISKIDKLKKNNFVIENDYIMLLGNLNKTHNIEKKKIVEFLNLFIKYKKIKYSVSTYNIGIANALLIALLTSNNINGIKAHISSSNDIEDLLFYKNFSNYIIFLSEQNIFDVQKKCNSLKISCLAIGRVISGKYLIINDGLINLNIDKENELILTERSI;locus_tag=LOCUS_05030;note=MGA_507
sequence03	MetaGeneAnnotator	CDS	32249	33025	.	-	0	ID=MGA_508;product=inositol monophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546263.1;translation=MNLSQYLKVGVEAAENASDFIKTQTKEVLSINFKGISDLVTNADIKSEQIIVDKITKAFPDHRFLTEESGLISDNSDFCWVIDPIDGTTNFVHGYPFYSISISLFYQGLPILGIVKHISTDEIYYATKSNGAFCNNKKIFVSKINNLSKSLLATGFGYKHEEIWEKNMVLHRKLTHLTQGVRRAGSAALDLCHVARGWLDGYWELDLNAWDIGAGIIIIQEAGGLATKVNGDEITLDDREILSSNGIIHTQIQKNLIN;locus_tag=LOCUS_05040;EC_number=3.1.3.25;note=WP_012546263.1 inositol monophosphatase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:40.6%25%2C q_cov:95.7%25%2C s_cov:94.7%25%2C Eval:5.6e-52],MGA_508
sequence03	MetaGeneAnnotator	CDS	33034	34395	.	-	0	ID=MGA_509;product=putative transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P44917;translation=MEQFIISLDSLTSQISNIIATPLIPILLGSGLIVTISLRFIQVRRLKHSFDVLTGKYDNPADKGDVTHFQALSTALAATIGIGNIAGVAFAIQKGGPGAIFWMWMTAILGMSLKYAESTLALKFRIFDKDGKASGGPMYYIEKGLGKKWKSLAVFFAAFTIIASFCSGNMNQANTIAQTYNDNFGIPFWVSGLILSFFVGLVIIGGIKRISIFAEKLVPTMSLVYVLSAIFILILFHDRIIPSFQLILKEAFSLKAGIGGLFTVIMWGIRRGLYSNEAGQGSAPIAHAAAKTKEPVREGIVALMGPFIDTIIICSMTALIILSTDALNSNYEGALLTKEAFTRGFYFAPFLGATIINLSVLLFAYSTMLAWSYYGDRCVEYLFGATKLNIYRYFYILFVFLGCVLPVNFVWNFGDIALTLMAIPNLLAIILLMNILKDLTNDYFSRKHTKYNK;locus_tag=LOCUS_05050;note=P44917 putative transporter (Haemophilus influenzae Rd KW20) [pid:44.1%25%2C q_cov:97.4%25%2C s_cov:97.1%25%2C Eval:2.0e-102],MGA_509
sequence03	MetaGeneAnnotator	CDS	34488	36290	.	+	0	ID=MGA_510;product=elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCH0;translation=MNIKNIRNFSIIAHIDHGKSTLADRILEATNTLEKREMMNQVLDSMDLERERGITIKSHPIQMHYTNENGLDYVFNLIDTPGHVDFSYEVSRSLIACEGALLLVDASQGVEAQTVSHALLALENDLEIIPVLNKIDLPTSRPDEISQQVIDLIGCRQDEIIQVSAKTGEGVNKLLTEIVNKIPHPKISNENSTRALIFDSNFDSYRGAIPYVRVFNGKISPGMTAKFLSNGKEREITEVGNFVLKRIPSNSIEAGEVGYVVVGLKDVKELKVGDTITTKELESKKPLPGYEEMKPMIFSGLFPTVSEDYEKLRDSIEKLKLNDSSLTFEPETSTALGFGFRCGFLGMLHMDIIKERLEREFNLSLITTIPNVRYEILKTNGDIIEIENPTELPENGLIDELNEPYVLAEIIAPSEFMGSLMKLCQNRRGIFIDTHYFSKFRVQLKYEIPLSEIVFDFYDKLKSVSKGYASFDYNHIGYRSGPLQKLDILIGGDVVDALSIITDKNSSYFKGRELCKNLKEVIPRQMFEVIIQAAIGSKIIARETVRPFKKNVTAKCYGGDITRKRKLWAKQKEGKKRMKQIGKVEVPQEAFLALFKVEKK;locus_tag=LOCUS_05060;gene=lepA;EC_number=3.6.5.n1;note=Q8KCH0 elongation factor 4 (Chlorobium tepidum TLS) [pid:59.5%25%2C q_cov:99.0%25%2C s_cov:98.3%25%2C Eval:4.6e-209],MGA_510
sequence03	MetaGeneAnnotator	CDS	36395	37027	.	+	0	ID=MGA_511;product=CAAX amino protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011402891.1;translation=MVLFLSRNEVSTLRNGADILLRQFMSLFGDIGLYIISTSFFLIFLIIFLLQKKNINETSIKSKYLLFMLFEGLIWGIVLYFFMLFSQTLLMFPTSKELISQIILSIGAGLYEELVFRVLLIMFLTKLIKIIFLWNYLICLLVSMTLSAIVFSYFHFLGPYGDPLSFSVFIYRFLGGFFLGFLYILRGFGITAYAHINYNLIIIFFLTTNE;locus_tag=LOCUS_05070;note=WP_011402891.1 CAAX amino protease (Salinibacter ruber DSM 13855) [pid:26.7%25%2C q_cov:96.7%25%2C s_cov:77.5%25%2C Eval:1.1e-17],MGA_511
sequence03	MetaGeneAnnotator	CDS	37048	37908	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINNILITLLIIINNLFSQNSPFDNFVVSFWPEYDKKGVLVILTGQIKEDNLPLNIKVPIPNEVDSVLSLGHDTSSNDLTLINVTSNSNKSIIDEFYFSKDFQIEFYYNPFDDTFLRNFNYEFRINHYLEDYFLAIQKPLSSKDFVFSETGFDTISDQHGLEYFRKRLFNLDVNEKKLISLSYLNEKEKLSIDILEQSLNNFSNNDVNNINSNVSTMIKRYKLPTYEPYLLLLLTFIIIFILFYFYEKNKKSLKLNIDINFCHSCGKKIKSSVNYCPYCGEKIK;locus_tag=LOCUS_05080;note=MGA_512
sequence03	MetaGeneAnnotator	CDS	37908	38663	.	+	0	ID=MGA_513;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66627;translation=MPYLFEFGPIKIPSYGVMLMTAFLSCYYLLNRELKKKGKDPEMASDAIFWAALGGILGAKLYYLLENYKLVIADPVGMIFSGSGLVFWGGLAGGMIAVLSYLRYKNEDWIEWTDFISPLLILGYSIGRVGCTLVGCDYGLPTNLPWAMTFPNGAPPTLIPVHPTQIYETLLGLIIFSILWNLKYKLKKGYLFSLYIFLAGTERFFIEFIRTNPKYLIGLSGAQIISILMITISLILFFTFNRLNITDTKRS;locus_tag=LOCUS_05090;gene=lgt;EC_number=2.4.99.-;note=O66627 prolipoprotein diacylglyceryl transferase (Aquifex aeolicus VF5) [pid:32.4%25%2C q_cov:94.8%25%2C s_cov:95.2%25%2C Eval:1.6e-27],MGA_513
sequence03	MetaGeneAnnotator	CDS	38686	39540	.	+	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLLKLILLTNFLFGQYVINNLNKVQFPVDLKIEEYFFSKIELNNFNDIYLLDNFSSKIVSFNKNNNNIFQSKGLALSTQINASFADITSSRGLEVFVTDYDNHKIHYFDKKLNFINSINLFELETPIEFPSNIKRNSYGYLWIVSENLFSLNQINLNGKLINKIEGSTFNSFSGIKAFDLNKENQIGLIDNKNIFFNFTENGKSLWKRKFDNNLISVNAYSNGWIIASEKNKFVYIDNDHLKPILIRNNFYFEILDFKIKNNDIYILTKNNLIFNGKINYSPN;locus_tag=LOCUS_05100;note=MGA_514
sequence03	MetaGeneAnnotator	CDS	39512	42859	.	+	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLIIAQIKLIIILLIFIDFIEASSQILKINKFSEELIISPIDSILILSNKFIISGSEKIYIKSKKIENYKLDEIDGKIYLYNMNLNSIEKVFVSYEYLFGLPNKIESIISKLDTIKIDNSETNSNIDNSNDNTQSTSFPIAIDGTLSRKIDFSSNASSSLNGGLKLNIQGKILDDMIINAVLSDQNIPIQPQGNTKNLNEFDKLFIEIITPNSIVKAGDVEFKNSNSNYQNHFKRLEGISFSSDFSNLKINATTGTARGKFNSINFNGIDQNQGPYPLYALDGSRKILITPDSESIWINGLKKIRGESNDYLIDYNNAEIIFTPKNIIDINTRIYVEYEYHDFGFQRDFTSTSLESNNEKLNFKFNFINEKDKALSKNPINFNNFQSEYYELNNSPLNDESLSQIDSLGTYIKKINPDDLNDSIYFYSPNSLNDKYKVTFINYGINGEYSKKVSNEGDIYFEYVNMTNRTDFIELYSPYVKIIQPQKHNVTSLSTNYKINDFSELNLEIATSKFKEDLNLNINPSNGIASNLSFNTKFILPFDIGDLLFESNIKRSGENFFSHQNNNNIEFWRERNLNKNTWYLNINEGLGYKFNDFKITLNKDKKHVSSIIIGDYSDFYQKSNNFDFNSSYKGQFIRLLKLNYTNAKSSSKLSKNSVWDRKKINLKFFKSSLSPVFGYNEESRTNNIKFNESLFGLELERKKIKSNIGFIKRDDFDFVNQAFNQVSSGLLSNLEIKTIQNKKINASLIFKNQIKKFNNHKDDLNYNLSRGFLKYNSKNRNINSSLDFLLERNLYQEKIIVYEFIGKGMGNYRYDSNSKIYLYDQFGDYLSYSLPSGIKTPSTHFLSSFRFNKKFSNLKNKFLQSTSLRFYFKTDYNGSSISHEKILNPSHKIDDLKSSRLTMQTDIRYIPKNSFRRMGFKIIKNHQVIANSLQPFKDESNIEIKINIEEPITNKIIFNSEMTYFNVDYKSSQISLTRKSLGWYIDTGFNFKLLKLINYGIDFVYGNENGSFGLYNDEITTSGLEFTSVIFLKNNARIDANLFFYNIGFNNESFNSLPPELARGFQPGFNTKSSITSIFNINKEVSFNFNLSYLDDIYRKNFFVFSGEIRALL;locus_tag=LOCUS_05110;note=WP_011962474.1 hypothetical protein (Flavobacterium psychrophilum JIP02/86) [pid:25.0%25%2C q_cov:58.7%25%2C s_cov:56.7%25%2C Eval:1.5e-41%2C partial hit],MGA_515
sequence03	MetaGeneAnnotator	CDS	42846	44195	.	+	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYYKLISLIILISNLLICDTDTLKINYDNFSSKNNNLEYFIENWSSENFFNGELRKELLLKSIKRDEKNLILIWSDTLSNPLFIDTVIYKNYNSNELITKIINSNYLGKKATKENLFDLKKKFNYPFIKFLSDPNYMIYDKNNLALFIPIKINFQNYFSGIVGFTPDNGFSGNIDLSLSNIFDLSTTMDFNWMRLNDKSQDIFFQYSIPFIKNFNYGIIFNFSQSLQNNFFVKYSKEFQLTTINSKYGKYSFGIKTTNNNPTNIGFDNGYRSYKTKNISLTNYFDPNQNLSFNQKIIFGDYLQNFQNQIIFNYSFNGLYKYKINNLFNLNFYLKYGKVYINNGISIPDGEKFRFGGAKTFRGYQEFFFISDEFIINQIELIYDINKTSKIFSFVDIAKANIELTNIFSYGLGIIQPISLGYLKLEYAVNEFDKISNGKIHITILSNIK;locus_tag=LOCUS_05120;note=MGA_516
sequence03	MetaGeneAnnotator	CDS	44192	46276	.	+	0	ID=MGA_517;product=ribonuclease R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97L50;translation=MKTKIIETLKNSRKKFLKKREIAKILKINQNQYRTFRIILKKLLNDGMIAKNRKGNFFLLKSKEKKIGSLSLTIHGYGFVSFEDHNEDVYVNHKNLFGALDGDIVEVLILPSNKRHKSEGIIKSIVKRKSNEFIAQIVENKNKIELNIEPVTPSRGVTLENKNKIFNIGDVLRVKVLDWGSQNSPLIVNNKEIIGSLNDPNTDMNIVCQKYDLENKFNDKVIKNSDKWSKIDITKEKPNRKDLTFLNVLTIDPYDARDVDDGVSISKNSNNNYVLGVHIADVSFYVEEGLPIDLEAQKRSNSIYFIEGVIRMIPDNLSANICSLLPNEERLAMSLSIEIDDKMNILNSKLEKSVIKSRKQFTYGEVQKIIDNKSGEFFEDINILNQITKELRIQREKKGSIDFNIPEPFIKLDKNGIPSDIFQKKRYDSHRLIEELMLLANRIIAEKVLIGKNNNNDGFIFRIHPKPNQDDMDNFFNTLIRLSLIKKIPSKITSLSLKKILSNVQDSEYKNLIEKLALRSMSKAIYSTEKNEHFGLAFKHYCHFTSPIRRYSDILVHRYLKKHFLGENKRVLSFKKASKIAEEITRSEIKSLEAEREYLKLKQLRWLSLRLGEKFLAIISGVISSGFFAEINETFVEGFIPVSKLKDDQYFFDEVEISIIGRNYLNKFHLGKEIQIEVIDVDFKTKRAEFAVLD;locus_tag=LOCUS_05130;gene=vacB;EC_number=3.1.13.1;note=Q97L50 ribonuclease R (Clostridium acetobutylicum ATCC 824) [pid:32.0%25%2C q_cov:100.0%25%2C s_cov:96.0%25%2C Eval:5.8e-102],MGA_517
sequence03	MetaGeneAnnotator	CDS	46277	47272	.	+	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLIFIFFLIIVTCDFKPRAEGIENQINVVVSFEDFSEAKAIIDSIFSQAILTPEPESFFDVQYISPDEFNNIKHYHNILVVSILDIPDSTGDKLIYNLLPKNNLQIENNKIFSKNDVFARGQVFSIIYGNDAKDFKNTLRINSKWIYEKYFNFYKNRQEKYLFKRREQKDLSEILFNKYDWKIRIQQDFTIVKDDSLNDFIWLGRAFPFRWLSVHWSDYNYSSTLESLNFDKILYNYSKFYNDDIYFLKNYRKIHIDKIGNFKALKIEGLWEHKTDVKGGPFISYFFYDINLKKFFHINLLVHNPGRKKLPSLLQLEIMAKTFNSRLK;locus_tag=LOCUS_05140;note=MGA_518
sequence03	MetaGeneAnnotator	CDS	47339	48232	.	+	0	ID=MGA_519;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404591.1;translation=MSKQILITGAFGQLGESTLLELQPHFEIIASGKKVPKITNYPCKYIKLDITSKKNVAEAIQTYSPEVIVHLAAITDVDLCETNKELAWNHNVKATENILNNIRGTNCKLIFISTDYVFDGFSGPYSESDNPNPINYYGKSKLASENIIRGSSQPWVIIRTNVLYGNSFINKASFVKWVVDSLSEKKQINVVNDQFGNPTWTAALSEAIKLSMIMNVNDILHYGGSEFISRFEFAKKIAKVFDLDSSLIKPIKTADLNQDAKRPLKSGLFTSKIEDVLGIRTFSLDYCLTKMKNGIIV;locus_tag=LOCUS_05150;note=WP_011404591.1 NAD(P)-dependent oxidoreductase (Salinibacter ruber DSM 13855) [pid:32.7%25%2C q_cov:98.3%25%2C s_cov:96.7%25%2C Eval:4.6e-48],MGA_519
sequence03	MetaGeneAnnotator	CDS	48229	48945	.	+	0	ID=MGA_520;product=dolichyl-phosphate beta-D-mannosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942433.1;translation=MKIFVITPTYNEKKNIQELIEKIYNVNNQINILVVDDNSPDGTHKIVENLKKTYKNLHLLKRLKKDGLGSAYIAGMKYALKEDADIIIQMDADMSHDPESINDLLNKSKNYDLVIGSRYISGINVVNWPIHRLIISYGANLYSRIVTGLPIKDATGGFKCWKREVLENINIHSIQSQGYSFQIEMTYRAWLKKYKICEVPIIFIDRTVGQSKMNKEIMIEAFFMIPKLRFFKFFGKFK;locus_tag=LOCUS_05160;note=WP_010942433.1 dolichyl-phosphate beta-D-mannosyltransferase (Geobacter sulfurreducens PCA) [pid:52.0%25%2C q_cov:96.2%25%2C s_cov:95.8%25%2C Eval:3.6e-63],MGA_520
sequence03	MetaGeneAnnotator	CDS	48954	51023	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLISIIIVNYNVRDYLANCLNSIYSSKYTKNIELIVVDNNSSDNSVQMIKEKYSKINLIENKINYGFSRAVNQGIKISKGEYLLLLNPDTVIEKNTLDILKNYMEENKNVGMCGPKILNSDGTLQLSCKRSFPTPMVAFPKLIGLDKLFPKSKWAGKYNLTYLDENKCHSVDAISGSFMFIRREILKTVGLLDEKFFMFGEDLDLCFRIKKNNFDIHYVPQTQIIHFKGESVKSVPLESIKWFYNAMDLFVNKHFSSKTSLLFTLFLKIGIFLRRISSIFSSNLVILFPFILDIIMIVTSFVIGISIRFNSYEIILQSYIPILIIYLMIWVFIIFIFDLYTKFVLSYNRALIASFLGFLFCVTFTYFLKDFAYSRAVLIYSSFLIFILIPGWRLIFNILRSRGYINYLIEGDKPIFSRPAIIVGIGKEGIRIINKINNRPDTGIYVIGFVESNINSLNLFELKKNNINILGPINKLSELIKLYKIRELIFTSDNLEVKKMVEIMDSLKSLRLTYRVVPKDKDILLGKASVEDISDIPFLNIEYTLYHRINFFSKRLFDIFFSTFLILLFSPILILLFTIFKSKELFIWGLENKKIKIRLIKTNIIFFKELPLLFNIFFGEISFVGSDMVSVQTKEKNMICKPGLTGIYRIKKFKLGDNDKSIYDHYYVQNQSMAFDLEILIRTIFFF;locus_tag=LOCUS_05170;note=WP_010965618.1 glycosyl transferase (Clostridium acetobutylicum ATCC 824) [pid:43.5%25%2C q_cov:36.6%25%2C s_cov:85.6%25%2C Eval:2.1e-59%2C partial hit],MGA_521
sequence03	MetaGeneAnnotator	CDS	51025	51987	.	+	0	ID=MGA_522;product=acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CS67;translation=MTEYHLDFEKPIFELDNQINELIELNSKNDKDLSRQILNLKEEKKKISEKIYSNLTRWQRVQLARFPKRPYTLDYINRISNDFIELHGDRKFADDQALVTGIGSIDQTEVVFIGHQKGKNTKENIKRNFGMAKPEGYRKALRVMKLAVKFNRPIVCFIDTPGAYPGVGAEERGQAQAIANNLIEMSLIPVPIIVIVIGEGASGGALGIGIGDKFIMLENTWFSVISPEGCASILWRDASKAKEAADAMKVSSQDLLEMGICDQIIPEPLGGAHNDYNLMSERVKEVILKEINTLNKINSSALINQRILKYEKIGSWEEND;locus_tag=LOCUS_05180;gene=accA;EC_number=6.4.1.2;note=Q8CS67 acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha (Staphylococcus epidermidis ATCC 12228) [pid:53.5%25%2C q_cov:96.9%25%2C s_cov:98.7%25%2C Eval:4.5e-92],MGA_522
sequence03	MetaGeneAnnotator	CDS	51984	52676	.	+	0	ID=MGA_523;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879601.1;translation=MIMSNEIIFLIQTVIGLFFTLIAFKLGKIWIYAFIASCVILANIFVNKQITLLGLNATGGNVVYGAIFLATDLLSEHYGKREARKGVFIGFFVSLFYLSMTQMILLFKKNSDDWGASEAMEIIFSTSPSIVFASLIAYLISQLNDIWIFHYIKNKTNGKFLWLRNNISTYSSQLIDSIIFSFLAFYIFPFVFNTESLPLNAIIQIVITTYLMKLIVAAIDTPFIYLSKKI;locus_tag=LOCUS_05190;note=WP_010879601.1 membrane protein (Archaeoglobus fulgidus DSM 4304) [pid:45.9%25%2C q_cov:99.1%25%2C s_cov:94.2%25%2C Eval:9.5e-50],MGA_523
sequence03	MetaGeneAnnotator	CDS	52683	54527	.	-	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIMNAMRTRMKVILWILLILFIGSMSVGGLVGGADIVNQLFGRVDPSKAIIVVNGSSISPDLFFSQVDQRLQQARSQGIEYDQGRIDIEREQVYNQIIQSYLIDHELKNRKITVSDDEVYYELLNNPPSEIKTIPDFMTNGQFDDAKYQLALQNPQGDEWQPVEEYIRQYLPRQKLFNEIRSQVLVSENEIMDEYIINNIDFTIDALIINNNNFNDESLKTTDKEIEDYYFLNKDEFKKNEERFLSYILWENKPSKNDTSLTESTVKEILSRIDSGDKFEDLANEFSEDPGNLLQNGVGNNGDLGWFGKGQMVKSFEDAAFSLNKGEISDPIQTNFGIHIIKVNDKRKNENNEDEILASHILLKIEIGPTTRNFIKNKATQFIFDVEDFGFDEALNRNPNFKSNKLPPLLKSSTFVPGLAYFPQASKFAFESTSGSISQVLEANRGFVVLKLDSISPEGTKEIDLVKFEIGNTIKTNKQKEKAQELALVLYDEIIDKNESMENLSIKNNNSKFLNQIKSKLNSSFEIIGKEQSIIGSLLAAEPGEILQPINFSSGTVIIKLVSKEKFNEDDWKIKKDLIKNNLLNTKQNQTITEWVEGLKKEAKIIDNRKFYF;locus_tag=LOCUS_05200;note=Q8KFW7 peptidylprolyl isomerase (Chlorobium tepidum TLS) [pid:26.8%25%2C q_cov:58.3%25%2C s_cov:49.3%25%2C Eval:6.3e-28%2C partial hit],MGA_524
sequence03	MetaGeneAnnotator	CDS	54697	55329	.	+	0	ID=MGA_525;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980489.1;translation=MCKRLVDFREKIAKEKRKQFLSWDYWGKPVPGYGSFSSELLLAGLAPAAHGGNRTGRVFTGDKSADFLVKCLKKVGIANQSFSYNLNDGLILKNTYMTAVLKCVPPQDKPKREELINCSKYLSNELKLLNNLKCIIALGKIAFDSTLKFFNKNKEYKIKDFPFGHGKKYLLKNGIFLIGSYHPSPRNVNTGRLNERMMIELFEEVKEIIK;locus_tag=LOCUS_05210;note=WP_010980489.1 uracil-DNA glycosylase (Sulfolobus tokodaii str. 7) [pid:42.3%25%2C q_cov:98.6%25%2C s_cov:90.8%25%2C Eval:4.5e-40],MGA_525
sequence03	MetaGeneAnnotator	CDS	55376	57481	.	+	0	ID=MGA_526;product=peptidase S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964428.1;translation=MSQKKLSIEQISDNSPFKVASIPNLKWLNDEDSFTYLSKSKSIYKVNLVSNDTTIFLSRKNIKFKKNEIPIVDYQINSTNRYVLIQSEKTKIWRRSFYGTYFIYDNQKKEMIKLTEANDSLRNVKFSPDGNQLSFVRIDNNLYNYDIKKKKQYQLTKSGSENYLNGIFGWVYEEEFSSYDSYKWSPNSKKIIFCEENQSDVPVYTLIDELKLYPQLKNIRYPKAGQNNPKIKVGIVDATGGSINWINLKDNNDYYIPRIYWEKNGKIFLVKIDRSQKNITLLVYDIKSGKIFEGIKDEDTIGWVDLNDDYQFLDNDKLLWISEKSGFRHIHYSDINGNLINSVTKGQWEVNRILNYNQKDNKVYFTANRGSVKESHLFSINLDGSNLIKITNEEGFHRIMISPSKKYFIDSFSSIKSPPKIVLKNMRGNPIRILDKTNLNQYKEYNWSFPFFVNFLSNDKTVLLDGILTLPNDYDKNIKYPMIVYGYGMPGTQIVLNKWGNLINQFLAQEGFIVFSMDCRGMGGRGENFKNLSYGDMSKYLVKDIKAGVNYIINNYSVNANKIGAWGSSGGGYFTALMLTRLSSMFSVGVSISPVVDFRLYDSIYSERSMGNPNFNKAGYDSVSIMSHVDNFKGNLLVMHGTGDDNVHFQNTTQLINSFIDKNKMIDVFIYPNRDHSLSGGTTRYYLNNKLFNYFNEKLKN;locus_tag=LOCUS_05220;gene=pepX1;EC_number=3.4.14.11;note=WP_011964428.1 peptidase S9 (Flavobacterium psychrophilum JIP02/86) [pid:32.3%25%2C q_cov:97.6%25%2C s_cov:95.4%25%2C Eval:2.0e-110],MGA_526
sequence03	MetaGeneAnnotator	CDS	57530	57775	.	-	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLYVGNISYEMSEDDLSNTFAEYGEVTSVKIIKDKFTGRSRGFGFVEINSEDGSKKAIEELNGKDIQGRQLVVNEARPRT;locus_tag=LOCUS_05230;note=WP_011122776.1 RNA-binding protein (Rhodopirellula baltica SH 1) [pid:57.0%25%2C q_cov:97.5%25%2C s_cov:38.3%25%2C Eval:5.2e-21%2C partial hit],MGA_527
sequence03	MetaGeneAnnotator	CDS	57955	64749	.	-	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPPLFYGQNSSDAPDEIRIDLSTMEEGSSFNVLMKNSAGSTLYTKSISKGSPNNFSVSTNYLYANDYGTNDSNKGLYFEASKPFYMRVDIRAGSQTGSISSKGQQGMGTEFRSAHFYQSNISYNAKNTFGSFISMMGTEDNTTITITPNSGVYFLGRSNTVPWSVSLDKGESYVVGINNTISSYDEDVIGTLITSNKNIVVNSGTWSGSINTSSGAKRDMGVDQLVPVDVVGNDYLIIEGESGTHKGVNAIIVATENNTVVTVDGTVRDADLDAGEFYAWSLDNNNNNSLDHINTSKPSLVYYQGYSTDQNDIKNNHGLFILAPLNSSSTASGYNHAHFGDDLDDILGQSGEANFYVLKTGNTGSFVYNNNSQTSSSWDNQSVKNYTVNGTTWELYRKLDWNIGDNDFYISNAGPLYVWFGMGAGERGYFSSIQNFVSSNNAPVANAQTINSNEDTDQTITLSGSDSDNDNLSYIVTSIPSNGTLYQTSDGSTRGNAITSTATTITDSNNRLIFVPDLNENGSNYGNFNFKVNDGTSDSDVASITLNVLAVNDPPVVGNSNVSTNEDTEIAFSISNLNYSDTEGSSISGIRILGFSLNNSHQGTLYLDANNNDSFDNGEQISTNQVVSASNLSNGHLRFYPNTNDNDASTHFASITFEANDGSNYSSSAGNVYIYVQPVDDAPNVANQINNITVSEDASNSIIDLSNIFNDVDNNNSDITKSVTANDGSSNVTASISGNNLTLDFLDNKHGSANITITGTSNGLTVSETFSVTINPVNDAPTDIGLSSTSIADDSNSGTVVGSLTSTDVDQGDSHTYSIIGGADASKFTIDNSNLVTNATIDYHVQQNYVIIIRTTDSAGATYDETITINASDPNNQRPVVTSSQSFNVNENQSSGTVVGTVQGSDADGETLQNWTIESGVNKNHFSINSTSGEIVTSKILNYEDANERNYTLGLKVSDGNEFSSVVNITINVNPINDLSPIVDSDQTFQINENIDIGTTVGTVNATDPDVWPSGTSTTFQNWEIVSGNTDGHFLINSSTGVITSASLLDYETNSSYTLIVRVSDGNNTSNQSSVVISLNDINESPLATNLSETTNEETVKTLTLQGSDPEGSSLSYVITALPKNGVLNQMDETLINAANTTVSSNTDQIKYSPNINFVGKDTLLFKVNDGTNDSQNALFIITVNNVNDSPVAIRDTISILEDNAAIITLNGTDIDNNNLDYSISSKINIGDLYQSNDGINKTTLINSGDNVINSQNKIYFEPQENAFGTDSLTFSVTDGELIDSEKIIVIISPVADNPIAEDGEIVIAQGLEWDYDLSNKISDPDYDLDLSSLSILSSDGGGQYRVPSDTTSILVFDYTDNLNYTGTDSVIYQICDNTNLCDSGKIKISITEGRKPIAISDTLTIDEDADPRSFNVLRNDSDLDNNLDISSLEIISAFKGSFDDSENQSQANTDSTILISMASNFYGNDSLTYRISDDTRLSSEAKVYILVNPAPDPPEVVDPITVFIEEGEPLNDLILNATDADGDTLIYTLCQEASNSILTQFSDTDTLKNGDILLVSSIESPKINITPEIGFYGDDIFRYCVEDQDGNIAEARVIISVVDVPEFPIANNDSIEVFQNSIGRVNVLLNDTDPENDIDYSTLLIFKDKNSNQSFKTTPTNKGGIATVQDSSIKFDYSNLLMFTGIDSIYYSICDFEKLCDTSSVYINVYQDDIPPGVYNISTNKDTLLLENTLARLSSSNDITIKATIKDSLPLESVILKVGKGGSNEYLSYPIDFENGIRMLETEETITIDNLDERGIKFYYFASDILGYASDSEISTIPIKTSNGLIKFPDCIPPNEWILISIPTDLEENRINDVFYNSFGNIDKEKFVIWKFENGNYTEPSTIEPGLSYWIYQKIGEECNLSLGSGVITEIDTLEWELEPGWNLVGNPYPFSFNMGEIDHTLYCGPLEFSSNMGWSDHQDTISPFGGYIICNKTDSTIVFKSSGDSNLNLSRSFLSNNKNNDEKSFFRGKISFKSSKFSDNNNFFGYNKNASGSFDKYDNISEPPLPNNENAFKFDWVLKDINGFNKYLLEDIKNSSDSTFIWDGILKTSKNQSDLQLTVSNLENIYQNKKLILVDRNNGETFNLLNKNNFTIKKGHAKNLGRRFSLIHGPEKWVQDQVDEIIQSIPNEFNLSQNYPNPFNPITTINYQIPLDQMVILKIYNLIGQEIITLVNEEQYAGNYNIIWNGKDKDNKQLSSGTYFYVLKTQNHSVAKKMLLLK;locus_tag=LOCUS_05240;note=WP_011118116.1 cellulosome anchoring protein (Rhodopirellula baltica SH 1) [pid:24.4%25%2C q_cov:54.8%25%2C s_cov:59.9%25%2C Eval:1.4e-65%2C partial hit],MGA_528
sequence03	MetaGeneAnnotator	CDS	64817	65929	.	-	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLFTKLLFLFFLINLLFSQDNTDENSDSLFININSSLSKIAYADDICKSSVYIMNPNIERSQSKKMAKVLAKNLKKNKKNLKIHKSYTQGSCTNLECIQNEIGNTKANHAFVIRNSVNAISDDKGIVMRNLLYDFNSAKLRPEAEIELLTILSLMENNPNISMELASHTDSRGAKSYNLNLSQLRANSVQNWLIDNGIDSNRLNPVGYGEGKPAVVTRQQEQIYNFLTEGDILTELFINSLDSKEKRDIAHELNRRTELFISNDIGNNLLGGSIDLILYNLDKNVVSVEIEDDFIGSSEDLNSRIENLGTQILTNYSYNECRAGLGFILFPIIIVGGGAAGYYAYTEVVENNENLIGTPPSLPEDCCD;locus_tag=LOCUS_05250;note=WP_011962492.1 cell envelope biogenesis protein OmpA (Flavobacterium psychrophilum JIP02/86) [pid:33.3%25%2C q_cov:37.3%25%2C s_cov:17.9%25%2C Eval:7.1e-15%2C partial hit],MGA_529
sequence03	Aragorn:1.2.38	tRNA	65938	66011	.	-	.	ID=Aragorn_3;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence03	MetaGeneAnnotator	CDS	66311	67255	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDGIHPIIIDAGDLFFSKDDPDPLDLAQSKIRAKTIIEGYNSIGCEVMNIGSKDLAAGIEFLNQLKNKANFPFISSNLVGSNDSLLFKSHVIVESNGFSFGITGVTTLKKLSKNIKTKDVISSVNNILNVIDKSTDFNIVLFNGSYKEAMAYRPKFEKADYMFLSGDYQNPIGKQQNPKNGPRMYRLGQQGKSLGILNLKINDSSIPLIDITELKRREAFFKIQLDRLNKKDPTKTLEELYSNDNVQLGRIERIKQGQTQNNSKLIGIKNTSHFDFPPMNKDLKDDSRMLTLVNNSLNECEELATNFKKEDL;locus_tag=LOCUS_05260;note=MGA_530
sequence03	MetaGeneAnnotator	CDS	67260	67766	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKSFINQSLIIVIISIFVSFFFNYVRSSNSLQIIANKNIISGDISTVDSLLSIETMLFEPMLVSLEIAKSMYDKNIVFIDSRDELEYNKSHILNAKLAPANPGEILRWLNEDDPIVTYCSGGECDLSLELARVLMGEDWAFSKVFVYDGGISEWKNAGYPISKSNE;locus_tag=LOCUS_05270;note=MGA_531
sequence03	MetaGeneAnnotator	CDS	67759	68205	.	+	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941174.1;translation=MNNLLSNKWLILIFRLYIGAVFIYAGVIKIIDPVDFASQIQNYQILPYSTTHFFAILLPWVEVFTGTGLILGIFVDGSSFIISGMMFVFILAISQALLRGLSIECGCFGKSGSMVGLNTLFRDIFWFLLSTFICFRKNKSFEILPKSV;locus_tag=LOCUS_05280;note=WP_010941174.1 hypothetical protein (Geobacter sulfurreducens PCA) [pid:37.4%25%2C q_cov:87.8%25%2C s_cov:94.2%25%2C Eval:2.3e-20],MGA_532
sequence03	Aragorn:1.2.38	tRNA	68246	68319	.	+	.	ID=Aragorn_4;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence03	MetaGeneAnnotator	CDS	68330	68509	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHFTIKDRDGILYKIPNIDVFIQHILDFHSKDVSIHEENGHYFVVDDKFREMIFSLKK;locus_tag=LOCUS_05290;note=MGA_533
sequence03	MetaGeneAnnotator	CDS	68581	68940	.	-	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNHESLLKMIDIRSSNFRVGLILLNFMQLGLLALNIFLNTTGLETPLTIFFVALFLGSTLYTERQLNGLGECADDIDDEMSKQMHLKGYKDTPFTFLRGFVVLISIAYLTAQLIILHS;locus_tag=LOCUS_05300;note=MGA_534
sequence03	MetaGeneAnnotator	CDS	68987	69193	.	-	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNLYLKIVDIDRFEDTKVVDEKKATHVVEVDESEYADIVEMFNKYLPKIKLHFPMDPAIMRALEEQG;locus_tag=LOCUS_05310;note=MGA_535
sequence03	Aragorn:1.2.38	tRNA	69314	69388	.	+	.	ID=Aragorn_5;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence03	MetaGeneAnnotator	CDS	69467	69853	.	-	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTTNCFKDQETLDELKIRDIVKGEGEIVENGDTLTVDYQGWLENGTQFDSSIDRGVPFIFTIGIGQVIEGWDEGILGMQVGGIRELIIPPHLGYGNQAIYPIPANSILTFEVQLISIRKSSSNNNQD;locus_tag=LOCUS_05320;note=Q74AS7 peptidyl-prolyl cis-trans isomerase (Geobacter sulfurreducens PCA) [pid:53.7%25%2C q_cov:83.6%25%2C s_cov:69.2%25%2C Eval:8.1e-27%2C partial hit],MGA_536
sequence03	MetaGeneAnnotator	CDS	69995	71350	.	-	0	ID=MGA_537;product=NADH-dependent dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011122113.1;translation=MKKTRRNFIKTAGTYTLGGVLFNSLPVSTLSAMRKNISPNEKVNFGLIGCKGMGSADMRNLLQYDEADCLAICDVDKTVINQRKKDFEDITGHKVKVYSDYRKLLENKDIDAVVIGTPDHWHCLNLIDAVESGKHAYCEKPIANSIYESYAMLNAVKRTNKIVQVGQWQRSGKQYKEALNYLWSGKLGDIRVVKVWAYQGWMKKVINQPDSQPPKGVDYKMWLGPAPKRKFNPNRFHFNFRWYWDYAGGLMTDWGVHEIDIALYGMKAKDPISVVASGGNFGYPNQDIETPDTLQTIFKYDDFTMIWEHAQGIDGGNYGKDEGIAFIGNKGTLVVNRGGWEVIPEIDYSISEEDRFMEAIPYEANYEQNPSPLSLHTKNFLDAIKNNSPESLNCGIESGSVACINAHMGNVSYLTGDKVYWDKDKKLFINNDKANKLIKPTYNNGWKLPKL;locus_tag=LOCUS_05330;note=WP_011122113.1 NADH-dependent dehydrogenase (Rhodopirellula baltica SH 1) [pid:31.8%25%2C q_cov:98.9%25%2C s_cov:92.0%25%2C Eval:8.5e-61],MGA_537
sequence03	MetaGeneAnnotator	CDS	71476	72057	.	+	0	ID=MGA_538;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947316.1;translation=MAETPSSFTLKHNDKAPNFRLNDTNGKSTQLNDFVGKKALVIMFICNHCPFVKHLKNELTTLANDYISKNVGFVAIMSNDVANYPSDSPELMAEDVKNFKYPFPYLYDETQEVAKSYGAACTPDFFILDSHHKVKYTGQFDDSRPGNSIPVSGKDLRKALDLIIDNKTLNFNQIPSLGCNIKWIPGNEPKYYG;locus_tag=LOCUS_05340;note=WP_010947316.1 thioredoxin family protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:58.2%25%2C q_cov:94.8%25%2C s_cov:98.9%25%2C Eval:2.2e-56],MGA_538
sequence03	MetaGeneAnnotator	CDS	72066	73895	.	+	0	ID=MGA_539;product=GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939506.1;translation=MIKNNFRNIAIIAHVDHGKTTLVNAMLKQSGTFHINQEVEDRVMDSLDLEKERGITITAKNTAVKYKNIKINILDTPGHADFGGEVERSLNLVDGALLLVDSSEGPLPQTRFVLKKALDKNLPIILVINKIDRSDSRINEVINEVYDLFIDLDANDDQIEFPIIYTNAKAGIALKNLEDEKNDLEPLFESILKDINGPIVDGSDTPQFLITNLSYDPYVGQLAIGRLNNGELDISKSYSLCSENKITNGHKFSALYTFSGLNKIKVNDLEAGDIIAVAGIEKIKIGDTISSNENPKPLPRIKIDDPTVSMLFYVNSSPFAGIEGDFLTTRHIKERLDKELLSNVSLEIRTRERKDVFEVRGRGELQLAVLIETMRREGFEFMVSKPTVITYKKDGKLMEPMEKVLLDIPEDNVGVITEKLSNRKGRMSNLQNNGHGRVILEFSIPSRGLIGFRSQFLTDTKGAGIMNKLFDGYQPWFGDIPQRINGAIVSDRDGVVTTYASHAMVDRGELFINVGSKVYNGMVIGERNKSGDLSVNITREKKLTNMRSSGSDATVTLRPPRNLSLDQALEFIAEDELVEVTPQSVRLRKMELNEQKRLAISKKIKFQAK;locus_tag=LOCUS_05350;gene=typA;note=WP_010939506.1 GTP-binding protein (Desulfovibrio vulgaris str. Hildenborough) [pid:53.5%25%2C q_cov:97.5%25%2C s_cov:96.9%25%2C Eval:1.5e-186],MGA_539
sequence03	MetaGeneAnnotator	CDS	73910	74944	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLILKFFAIFFIIINILQSEVIRVPSERFKTIQDAIDFSFEGDTIIVKRGKYNEGLAFYGVSVTLASEYFFSKDKKDIEETIIGTEGTAINVMGVDKELNVTGFTISGGASWDGAGGISIDNSNTNFQNMIVKNNLGGIGAISVEGGSAKFKNLYIEGNIGIGTVISINDSANVHFDNVYFANNANLFGRGGFIAISNFSYVEFENFSYLNNYNLHNTKLKDMPVPGFLMNYLKNVKKSDIPRKTAEGIQLFNGSSLIFEKSLIWSDDKQQLYFPVELLLEEEEEDEEETDQNDFILEKSKFSIMNSSYKGNEQSIKINESNSIIEFGDDVINSLSNDFGYIK;locus_tag=LOCUS_05360;note=MGA_540
sequence03	MetaGeneAnnotator	CDS	74956	75216	.	+	0	ID=MGA_541;product=YggT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392380.1;translation=MGSILEILVSNIFSVLQILLVVRVVMSWIPHNSNTDWAKTIYSLTDIILKPIQENLPTRNMGFDFSPVIAFFLLGVIKNIILSIAV;locus_tag=LOCUS_05370;note=WP_011392380.1 YggT family protein (Moorella thermoacetica ATCC 39073) [pid:34.2%25%2C q_cov:91.9%25%2C s_cov:89.8%25%2C Eval:1.4e-10],MGA_541
sequence03	MetaGeneAnnotator	CDS	75221	76129	.	-	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKPIYFKFKTIMILSFIFLNQCENPTESKNDEYHVKLWDNYYSIEETDTLILKNKKLNNQISNEIGKLYNLKYLDLSDNKINGQLPVEFFNLTDLEYLNLSNNRITDTLSTHFSNFKNLEWLILSKNKFNGTIPPSFGELTSLENLLITNNELSGSIPDSIVNLSSLIRLNLDTNELTNQIPNEIRKLKNLEYLSISFNQLSDEIPEFWGMNNLQYLRLRDNNLSGDFPDSIDDLENLVHMDLSNNQITGWITWRICDLKWEWFNIDNNWICNNPSCLDGLMGYQFQENCFWWDDEEDEDE;locus_tag=LOCUS_05380;note=WP_001109422.1 membrane protein (Leptospira interrogans serovar Lai str. 56601) [pid:41.6%25%2C q_cov:51.0%25%2C s_cov:37.1%25%2C Eval:1.0e-18%2C partial hit],MGA_542
sequence03	MetaGeneAnnotator	CDS	76232	78478	.	+	0	ID=MGA_543;product=collagen-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202406.1;translation=MKYLSNLYIIFLFLIFSFNFSQSQNIPSLRGIVLDANTDLPLIGANILIENSLIGTSSDNDGHFELFNLDDDIYTLKIAYIGYMTHMEPDVIVRSNTSDFYTIKLNRNVLEMNSIDVGVSFFTRSNMQDYENVSFTNEEIRRAPGSASEISRILNSLPSVASVGENSQDLMVRGGGPTENGFIIDNIPIPSISHFNQTDGRSNGPIGLINTEMVENIDFYANGFSSIYGNKLSSYADISYREGNRSNFEGNLYLGAGGLGFLIEGPLSKKITFITSLRKSYLDLLADFLNAGGFPAYSDVQGKITYNYNTKNKFTFLSVNGNSLYDRSKEDAIEINDEFFGSNINVQQTFGFNWQRNWLKRGYSKTSVSFSMQEPSAEFFNLNTDTTTFRSINIINFISFRQVNRLKISNFLTIMFGLDIANSNYDYNFLINNIDVRKKIDLSNLGIFFNYKYIFKNNFSLSNGLRVEYNDYEDVYNLSPRFNLEYRFSKKSSIILNSGIYWQSPPALYFTVTPFKTLKSVKSIQNSLSFDYLLSSSTKFSISIFMKNYSNAPILDQAFPYYDPIYLFDELRLYNGIVSKAKSTASGIEFLLEKKRAKNFYGLVGGSIFDATYIDYDGIKRNRNYNYNYLMNIIGGYKPSYKWEVSLRWSIFGGRPYTPINPLDSELSQSQILIINRFNDERTPVYHSLFLRWERRYSLKNTNLVTFFEFWNAYNRKNVEGYFWSNTAGIQEINFFSFLPIGGFELEF;locus_tag=LOCUS_05390;note=WP_011202406.1 collagen-binding protein (Bacteroides fragilis YCH46) [pid:27.4%25%2C q_cov:92.1%25%2C s_cov:91.0%25%2C Eval:2.1e-60],MGA_543
sequence04	MetaGeneAnnotator	misc_feature	1	890	.	+	.	ID=MGA_545;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011403619.1:DNA polymerase III subunit delta',WP_011403619.1 DNA polymerase III subunit delta' (Salinibacter ruber DSM 13855) [pid:25.3%25%2C q_cov:77.3%25%2C s_cov:56.7%25%2C Eval:3.2e-17%2C partial hit],MGA_545;locus_tag=LOCUS_05400
sequence04	MetaGeneAnnotator	CDS	887	2746	.	+	0	ID=MGA_546;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJ14;translation=MNKFYISTPIYYVNDKPHIGHAYTTILADVIARYNRLKNNQVFFLTGLDEHGQKVEEAAKKLGVNPKTHCDEMAPRFIKLWNKLNISNDGFIRTTNSKHISVVKDILKTVYNNGDIYKDVYEGLYSVSEERFITEKEADSGEFRDIKKLKETNYFFKMSKYQNRLINHINENPLFIQPEYRKNEILGFLKKPLNDLCISRPKKRFNWGIDLPFDDNYVTYVWFDALINYISGIGYKDDKNSFENFWPCDFHLIGKDILTTHAVYWPTMLMSAKISLPKTIFAHGWWLYGDEKMSKSKGNVINPLDIIDTYGVDSLRYFLMRDMILGQDSKFTPDIFISRYNSDLANDLGNLVGRISTLIKKYFNNEIPSNNFLENYDKDFIKEANIIDTKVHENISQYNINQSLELIFSLIRSINKYLEVSQPWKHVKNDKNKVASILYTSIETLRIAINLLFPIMPTKIKNIYSMIGLNEQSSKKSMVPGTSLGLFKIPFPKIEQNKNNKKTEDEKMSEDYISIDEFKKVDLRTAKIIKAEKVEKTNKLIKMLVELDGTKRQIVSGIAEHYDVDDLIGKMVVIVANLKPVVIRGEESNGMLLAISNSDNKVIVLTSENEEITSGLRLT;locus_tag=LOCUS_05410;gene=metG;EC_number=6.1.1.10;note=B5YJ14 methionine--tRNA ligase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:47.5%25%2C q_cov:98.1%25%2C s_cov:97.8%25%2C Eval:4.8e-161],MGA_546
sequence04	MetaGeneAnnotator	CDS	2747	3502	.	+	0	ID=MGA_547;product=deoxyribonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435866.1;translation=MYIDTHTHLYYEKIISQLDDILDRAKSNHVSKIICVGTNLENSKKCVDLSKKYDSIFGSVGIHPQDCIVKDKDYLNELEYLSKNKKIVAIGEIGLDYYRDHTSKKVQRDFFSKQLKLAKKLKLPSIIHCRDSQFDVLDIIDDVKNYNVVFHCYSNDLEFAKKIISKGCLISFTGNITFGSKHIELLINEIELSKIMLETDCPFLSPVPNRGKLNEPSNIPYIAKKIADIKNVSLEEVSRITTKNAETFFKI;locus_tag=LOCUS_05420;note=WP_003435866.1 deoxyribonuclease (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:40.8%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.4e-52],MGA_547
sequence04	MetaGeneAnnotator	CDS	3503	4282	.	+	0	ID=MGA_548;product=ribosomal RNA small subunit methyltransferase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57241;translation=MQNLAKKKWGQHFLADKNLLEKLIKIINPKNNEVFVEIGCGEGALTELLINKVKKIIGVEIDSDLVLFLKKKILNQNFDLINDDFLNIDLTKLFKDYKSIRIIGNLPYNISSKILFKIIPELDLIDNCYFMLQKEVVDRIISKSGSKNYGRLSVNIQSICNVDKVLSIPPEVFVPKPKVHSAFVRFSKKKTYINSSKKIEVLKKITKLTFGKRRKILKNTLSSIYNLKPPIDFSLRPEDLSVDQYILLTKWIIDKKIVL;locus_tag=LOCUS_05430;gene=rsmA;EC_number=2.1.1.182;note=P57241 ribosomal RNA small subunit methyltransferase A (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:38.6%25%2C q_cov:98.1%25%2C s_cov:94.9%25%2C Eval:2.3e-45],MGA_548
sequence04	MetaGeneAnnotator	CDS	4383	5219	.	+	0	ID=MGA_549;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002561589.1;translation=MASDANRSLSRYLEEIGKYEPLAPAREIELAQKVKQGDPIALNELTEANLRFVVSVAKDYQGQGLPLTDLINEGNLGLIKAAERFDETRGFKFISYAVWWIRQSILQALAEHSRIVRLPLNRVGTISKITKAAQSLESEYQRPPNEDEIGKQLEMEGEEVTDAIRISRRHHSLHAPFRDGDKNSLMDVIEDDNQRPPESGLMLESLKEEIRQCLDSLKDRERDVIKMYFGIGRDYALTLNEIGEEFNLTRERVRQIKEKAIRRLRHKSRSKSLRNYLG;locus_tag=LOCUS_05440;note=WP_002561589.1 RNA polymerase sigma factor RpoD (Bacteroides thetaiotaomicron VPI-5482) [pid:59.0%25%2C q_cov:97.5%25%2C s_cov:94.4%25%2C Eval:7.9e-87],MGA_549
sequence04	MetaGeneAnnotator	CDS	5238	5402	.	+	0	ID=MGA_550;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KB70;translation=MIEVTVKKGEELERAIRRFKKKYEKAGILREVKKKSFYLKPSAEKQLKRSKTRR;locus_tag=LOCUS_05450;gene=rpsU;note=Q8KB70 30S ribosomal protein S21 (Chlorobium tepidum TLS) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:83.1%25%2C Eval:5.6e-12],MGA_550
sequence04	MetaGeneAnnotator	CDS	5492	6856	.	+	0	ID=MGA_551;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963010.1;translation=MLIESISGVRGISEQDLNDRILISYAKGINEFCKNGKILIARDSRKSGVKILSIIFQIIKQSGRKIKNCGIVPTPTLQYAVKSTNAVAGIMITASHNPSEWNGIKFICEDGCFFNEKQINRLLKLKNEFLNSNNSSFSDVLLDDNSNNEIKLINSHIKKVLGIPFIDFSKIKKRKLKIAVDAVNGAGSIVLPNLLKEVGCNVVEINCKPTGEFTRGTEPIPENLDFLSTTVLKEKCDIGFATDPDGDRLAVIDNDGNPIGEEYTLVLALKYFLESTNYKKTVITNLSTTLAVDKIANQNSVEVIRTKVGEINVVEMMKKQQSSFGGEGNGGVIFGDIHLGRDSLVASILIVALLCNSEKSLSDLMKTLPKFYICKDKVSIEGINQNKLFKKLNDIYKKNKRNNLDGLKILFDDQWIHIRKSNTEPIVRIYAESTSLKKANHLINDIKDIIIKIN;locus_tag=LOCUS_05460;EC_number=5.4.2.-;note=WP_011963010.1 phosphoglucosamine mutase (Flavobacterium psychrophilum JIP02/86) [pid:36.7%25%2C q_cov:97.1%25%2C s_cov:96.5%25%2C Eval:3.0e-82],MGA_551
sequence04	MetaGeneAnnotator	CDS	6853	8271	.	+	0	ID=MGA_552;product=putative RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KGF9;translation=MISNIQKPKIGDEFELIIKDIAFGGKGISTYNNFKIFVRNAIPEQKLLVRLIKRKKSFGEAKILSIIENSKFYQKSSCNHFPVCGGCSFQHLSYDYQVQLKKKQLLYIFNKIGKIEIKKIDYFFPAEKIFNYRNKMDFTFSSRRWLLNEANYSPNDKIFALGLHIPGRFDKILNIDECMIQNPVGNEILCLVQDLAKQNKIPPYDKKTHEGFLRNLIIRRGEKTKEIMINFVTAYENKIILMPIVDELIKNFKNIKSIVNNINSKKSDTSYGEYEILLYGDKFILDRIDKYEFEISSNSFFQTNTNQAENLYSITKKMADLKPSDILFDLYCGTGSISIYMANHLKKVYGFEIIESAIKDAYQNMKRNEIENCKFFQVNLDKDFENILNSKKIPNPNILLLDPPRAGIHPRLLKNLIKLDTNKIIYISCNPTTQARDLNVLLGRGYKLKKLAMIDMFPHTPHIESVALITKK;locus_tag=LOCUS_05470;EC_number=2.1.1.-;note=Q8KGF9 putative RNA methyltransferase (Chlorobium tepidum TLS) [pid:36.2%25%2C q_cov:96.8%25%2C s_cov:95.9%25%2C Eval:1.8e-88],MGA_552
sequence04	MetaGeneAnnotator	CDS	8392	9462	.	+	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675897.1;translation=MLLSGWLISQFEIAPNGEDGLSEGMNPFWWAIVTMTTVGYGDFAPKTFEGRILAIIIMFAGISLTALLTATVSSIFVARRIREDKGLEILKISDHIVICGWNSLVDNIIDSLQNMHENKKLNIVLINNQNDETISTFRNSHKGINFKFVKGDFTREPILDKANVKKAKTVIILPSDYLTSSTGHPDEKTIFATLTIKTSAPNCRVIAFIVDRENLTHIKRANADEIILSDDFSSYMVASSVNEPGVSRTVENLMSLKTKSIFKQLDIPDTFIGKTYDSLFNYFKKMGLILISVYSEDEKIGIGEILSSDTSALDHFIERKLKDAGHSLTEENKMNVIVNPKDEYIIKENEKAIVIK;locus_tag=LOCUS_05480;note=WP_002675897.1 hypothetical protein (Treponema denticola ATCC 35405) [pid:30.1%25%2C q_cov:95.5%25%2C s_cov:79.1%25%2C Eval:7.5e-38],MGA_553
sequence04	MetaGeneAnnotator	CDS	9476	9976	.	+	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNQYEKFKIFNGLNKSQINLFEEKISIIKHSKNDIIFNEGEKGETLFFLLYGEVEITQALTLELSKANFDTREKSILNLKSDQYPIFGEMSIFGTKELRTATVKAISDCKMGEISKFDLLQLCESDKKICYIVLSNICSIITDNLINANANILKLTTAFSLILDK;locus_tag=LOCUS_05490;note=MGA_554
sequence04	MetaGeneAnnotator	CDS	9986	12625	.	+	0	ID=MGA_555;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KC74;translation=MPKEINIPKIYSPLDVEKKWYKHWIQKKYFDAKVDKNKKPYTIVIPPPNITGSLTIGHVLNNTIQDVLIRRSRMMGKSTCWIPGTDHASIATETKVTKMLLKKGIVKKNISREKFIEYSWEWKKQYGSLITEQLKRLGCSCDWKRESFTLNEKYSKAVLHAFVDLYNKGLIYRGNRLVNWCTASQSAISDEEVYFKEINGNLWYVKYPILNSNEKLIVATTRPETILGDTAIAMNPNDKRFLNFKNKYAIEPFTQRKIPIIADNYVDKNFGTGLVKITPAHDPNDFEISKRHNLEIINILNPDGTLNNNVPKSFVGLNIESARKKIVDELNKLNLIYKIEPYKTNIGFSERGNVPVQPYLSKQWFISMKKLASPAINVVKDKHINFYPKHWVKTYEHWMVNIQDWCISRQLWWGHRIPVWYSKKDNNKLHVSLTPPNDKDNWVQDEDVLDTWASSWLWPMAVHDWPEDSEDLEYFHPTDDLVTGPDIIFFWVARMIMASLEFKKEIPFKNVYFTGMVRDMDGRKMSKSLGNSPDPIKLIDDYGADAIRFGIMLVAPQGQDILFSEERIKQGRNFMNKIWNVARFLSFYSNDISILSEDELKNKNLDLSDKWIINKLDLTIESINSNFKNYKFNEIAKCIYEFVWFDYCDWYIEIIKSRLQSDDVEEKIIAFSNALTIFNKVLKLMHPFSPFITEELWNRFKLKNNDLDIVISDWPQIGQFNFDKKINNQFEDLKNLITKLRNLRFEMNIPSSQKSDLLIKSKKSLLIYNNIQLIMDLGNVKKIEFNENIKRPKQSAMIIYNLVEIYIPLDKIVNVEQEKIRIQNKIDGLKSRLEVINLKINNKNFISKAPKQIIKKELNKVKDIKENLIKLNQNIDYLK;locus_tag=LOCUS_05500;gene=valS;EC_number=6.1.1.9;note=Q8KC74 valine--tRNA ligase (Chlorobium tepidum TLS) [pid:43.8%25%2C q_cov:99.3%25%2C s_cov:99.1%25%2C Eval:6.2e-237],MGA_555
sequence04	MetaGeneAnnotator	CDS	12622	13893	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLKFIFLSMVCFAQSNNAFITIYKDNFALIRQPINFQLKSGTSKVMFSNIPHETDFNSILLSMDNVTINYQEFFKNNFGSISYLDSQIEKNISITTQDGKEIKGALINIEKNWLSVKSGGKINFININDISLIESSYKKNYSLTNPTIEWDVTVSSNGKYQGELIYVSNGFNWVSNYQLIMDSDELNATLVSKSEINNSTNLDFKNLKVNLVEGNLKLNNEKAIEDDYVIYNIPKNIFLNKNDKVVTPLFPEKKIKFNRTYTFENTELIKKSEPLLLEISFENDSSQINNIIPTGNFNIYQKNKNGKILFKGENLISQIDIGEKVILKSGRSENVFGKREIVNIDKKKKSEEVTILIELKNNRNEKINVKIIEHIFGNWVIREPSHDYRKTNSNTIEFDISISGLETEAISYTYIKDWL;locus_tag=LOCUS_05510;note=MGA_556
sequence04	MetaGeneAnnotator	CDS	13907	16015	.	+	0	ID=MGA_557;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S5W6;translation=MHKSPKIQSKKYSIKSNLISINNIGSKKIQIFKSLGIETPLDLLYFFPRKHVDRTSFTKIKNLKKGDLVSIIASVEAFGLRRSKKRNFFELIISDKSGIIKCIWFNGSNYMNKIFSIGDKLIVSGKVDFFKGYQLIHPEYDIINLQDMEPLNSGGIIPIYPSNELLKKVGLESRGLRKIIREILLKYNFEDQEFFEKKIINKENLYPLNLALKNIHFSKNLDELKKSIFRLKFNEHFYIQLLMAYRKVKLKNLPGKEFLYKKSLISQILKNIKFELTNAQKRTLKEIFNDMIKAKVMNRLIQGDVGSGKTIVAIISSYLVVKNKSQVAIMVPTEILARQHLSQLLKYLKNLNVSVGLLVGNLKKKNRVSLLDDIKNGKIDIVIGTHAIFQEDVIFKNLGLIVIDEQQRFGVSQRDKLFKKGNNPDILSMTATPIPRSLAIAYHSDMDISLIDEKPNFRKKIITKVISNNQINKVYDFIKNKIKNGEQCIIVFPLINESEKLDLKAAIIGFEELKKIFNNLKVELLHGKMDQSEKEIIMNDFSNNKINILVSTTVIEVGIDVPNATVMLIENSERFGLSQLHQLRGRIGRGSKEGYCILNHTNRNENSIKRMEIMESTNDGFKISDYDLKLRGPGEFYGEMQHGFPKMKIGDIINDLEIIKKAKEVASDLIFKDPELKLRKNKKIRANFFKEFKNYMKVENIL;locus_tag=LOCUS_05520;gene=recG;EC_number=3.6.4.12;note=Q2S5W6 ATP-dependent DNA helicase RecG (Salinibacter ruber DSM 13855) [pid:39.9%25%2C q_cov:96.2%25%2C s_cov:97.1%25%2C Eval:1.9e-145],MGA_557
sequence04	MetaGeneAnnotator	CDS	16015	16914	.	+	0	ID=MGA_558;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011201850.1;translation=MIKIKHCFLCENINLNKIFSAIDYIATKEKFDILECPKCEIRITSPLPEKNQLKKYYESKNYRPHKKKTYSLIDLLYNIIRKYMFFKKRKLIEKHSHLKKGKILDIGCGTGEFASFMKNSGWDVVCVDSSNEARSIAMQRFNLKVLNIDQFFDLRNIRFDVITMWHTLEHVDKPIEYINKVNKILNDDGKFIFAVPNYESFDSKFFGKYWAANDVPRHLYHYSKKSVKKILKKSNLLISNIIGLPFDAYYVSYLSSRYKKTSLLNSLLVGFISNFKAKYTNNMYSSLIYIGKKNMIERE;locus_tag=LOCUS_05530;note=WP_011201850.1 methyltransferase (Bacteroides fragilis YCH46) [pid:35.0%25%2C q_cov:97.7%25%2C s_cov:98.3%25%2C Eval:9.2e-52],MGA_558
sequence04	MetaGeneAnnotator	CDS	16920	17276	.	+	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDKKNDKEDQLLIQIITMFTQQSWISMGKLKNPVTDKTERKLDEASFYIDVIEMMKNKMEGNLNSELSTYIETSLNNLKINYLEELKKTTVKESSNELKNENNSKEKNEKEDINEDK;locus_tag=LOCUS_05540;note=MGA_559
sequence04	MetaGeneAnnotator	CDS	17263	19998	.	+	0	ID=MGA_560;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933665.1;translation=MKINNINYFISGFVFLITFLIYFITMAPTVSYWDCGEFIATSYILGVPHPPGSPLFLIIGRIFSLFPISSDIAFRVNIISPIASALSVMFLYLIVVQLINIYRGKIKNNFDQIIVYGSAFISSLIFAFTDSHWFNAVEAEVYSLSTLSTALVAWLILHWNENSDKQGHERFLLLISYVLGLATGIHLLNLLALPFMGMIFYFKKYSFSIRSFLIMSFITAVIFISVYLGIIKGIPRIASLIGINGLIITIFFLFLITIYVIVKRNNFFSFILSSLLLVIIGYSTYAVLFIRSAQDPAIDENDPETVERAIKYLDREQYGELFTFPRRYEKGTVGSYPHKVSKIGNPLDNSNFSSSQDFRYMFHDFEKQFSFFWDYQFIRMYLRYFLWQFAGRGPAGENYVSNFGAIESRAEDGVNWFQFILPLPFLMGIFGIYHHFKKDPKRAWSVLALFVMTGFALIIYLNQDKFQPRERDYSYVGSFFAFSVWIGIFLESFFDKLFKVIKRKKISNNIFYFICSTFLVIPSVMFSSNYWSHDRSGNFVAWDYSYNILQTCEPNAVIFTNGDNDTFPLWYLQEVEGIRKDVTVANLSLLNTEWYIKQIKDQRTGDNKIISFSEKQIDNQEPIGINPATGNPLLLKVDIWKDTPISIPAINNEKNLEGKVSWTLKPTLGAGGIRVQDLMVLHIIQESKWKIPIYFAVTVSPSNRIGLEDYLQMEGLAFKLNSHKVSSVNFEKLEKNLISDVNDLEWYDKYNTGYKYRNLNNENVYLNPNIQKLLQNYRSAFLQLSMYKYDQINSLTNFSEIDELKGNVIKILDYMSTIMPENVVKIGSPEMKLQIAQLYHGVGDSLDQNKARDIFREFHSSNRPEIIGFLLQTYNEFNYNDDAIEVLEKWLLNNPNDQTAISLLNEWKKRD;locus_tag=LOCUS_05550;note=WP_010933665.1 membrane protein (Chlorobium tepidum TLS) [pid:37.8%25%2C q_cov:86.3%25%2C s_cov:84.7%25%2C Eval:2.8e-152],MGA_560
sequence04	MetaGeneAnnotator	CDS	19976	21049	.	+	0	ID=MGA_561;product=glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932223.1;translation=MNGRKEINIITNEFPLVSIIIPHFNGEEILVECLKSLKKSNYKNLEIIIVDNGSTDNSIVIAREKFSNIKIVNSKYNIGYAGGCNLGARNASGDFLFFLNNDTVQKPNCISELISTFIQDSSVAVVQPKILNYFDKTKFDYAGGCGGHLDIFCFPFVKGRLFHFTEKDYGQYDVDDEIFWASGTAMMITKKDFFDCGGFDELFFAHQEEIDLQWKVHLMNKKIKINPNSIIYHKNAMTLSSGSVKKYYLNHRNSLLMMLTNYSLPNLFFILPIRVLLEFVALFYSLILIDLKHFIAILRSFIWLILNPIKIYKRRKRFTENHKRNDMKIISKMYRKSIVFDFFILRKRNYFDLDIAS;locus_tag=LOCUS_05560;note=WP_010932223.1 glycosyl hydrolase (Chlorobium tepidum TLS) [pid:37.3%25%2C q_cov:76.2%25%2C s_cov:80.2%25%2C Eval:2.7e-51],MGA_561
sequence04	MetaGeneAnnotator	CDS	21022	21888	.	-	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKSTNILIKVFILFCCFNFCNLNAQFKSVKITIDNQRLKEGDKQITSNINESIKNFFLLTNWGDEIQDLQIPLDIQVLFEGIADKGSERLFSAQLLFNTGIDQRYFSKTIQFPYSFGQNINYSPVIFEPLSSALEFYGSTIIAGELDTYEKFGGTSFYEKSREIAMRGMSSQYRRGWSDRLELIDLLTKYRDSRLAKFNFYDGMAYIEENDYDGAELAFSEMINNLNKTFKRFPREHYTTIFLKGHIEDFINLNDEFQYKKIILNKLLIFDPDNLKKYQDAISKSK;locus_tag=LOCUS_05570;note=MGA_562
sequence04	MetaGeneAnnotator	CDS	21994	23409	.	+	0	ID=MGA_563;product=tRNA nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963756.1;translation=MSNIKSLIENKNDFFIIDSARKLSKRLDLEIYIVGGYVRDLFTQTTKESDLDFMVVGDGIKFAQEFKDSLGGSKLVSFSKFGTARFMINNKTIEVASSRIEDYKLNSRNPKIDKTDLSTDILRRDFTINTLAVSVNDHDFGNLFDLFNGIKDINDGLIKTPLDPDKTFSDDPLRILRAIRFASQLGFEIDKKTKLSIQSKVERLSIVSSERIIFEFFKILDSPKPSIGLELLQKLSVMKIILPEISSLYGMEQTPEWHHKDVFYHTLKVVDNISMKTNKTKLRFAALLHDIGKPKTRRLDKNKGWTFHGHDAVGANMINFLSKRLKLSKEMTEYLKKLTLLHLRPISLAKKGVSDSAVRRLMVAAGEDIEDLMILCRADITSKNPNLVKKYLQNFDKVELIMNNVKEKDSFKNFQSPIRGIQIMKECKINEGKIVGLIKKDIENAILDGFIENNYKSSYDYFLKIKEKYIK;locus_tag=LOCUS_05580;gene=cca;EC_number=2.7.7.72;note=WP_011963756.1 tRNA nucleotidyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:45.5%25%2C q_cov:98.9%25%2C s_cov:98.1%25%2C Eval:3.3e-111],MGA_563
sequence04	MetaGeneAnnotator	CDS	23462	24736	.	+	0	ID=MGA_564;product=adeC/adeK/oprM family multidrug efflux complex outer membrane factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005768689.1;translation=MLKILFIFLFFSISFAQEVFSLEDCIKLGIEKNPNLKISRLNLINAKQDKKNSFSSILPQIGVSFNNNQQGSYTSYQYGIRVPESTYFSNSIYLNQKIYDGGNWWNQISLYDKLYNQSYQNTESIKNLVVLNIKKAFFEYLKNKELYEVSKKQLELSEQQLERVQRQFEVEAVAKTDLLKQQVLLGQVKVQLLNQNASLLNSRKILAQTIGFDSNKEFDVIDENPKSNIIEETKEQLWDFVLKKNPDIIQKKNQIIISKIQVKIAKSQFYPSISANMGYGGSADEFDLLYSDVDKYWQGNMGISINLPIFSGRQRSVQVQKSKINLDISNVDFERYLSQTKTIYENYYQLWSNINQTIPIFMETKISAEEDLRLVQERYNLGAATILDLLNAQVSLISANSSLVRSNYDEKILRAELNALANRN;locus_tag=LOCUS_05590;note=WP_005768689.1 adeC/adeK/oprM family multidrug efflux complex outer membrane factor ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:18.8%25%2C q_cov:93.9%25%2C s_cov:81.1%25%2C Eval:5.8e-11],MGA_564
sequence04	MetaGeneAnnotator	CDS	24749	26059	.	+	0	ID=MGA_565;product=RND transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405551.1;translation=MAKKNRRRLIIIGLIIILIIGGFIYRNSSKEDKPIEVFVIPIEAKTIVQKISASGTIQPEKSIDISANISALIMRIFVDDGDSVMMGQNLISLDKTRYEAFAEQAASRLRSAEANLEKTKSLKDREEKLFDQQLISSQALESTRASYESAESEVFSAKAALRSALDEVSKTSLLAPNSGIVTIVRKEEGEMALGSTYSADVIMSIADLSKMQVNVNVNENDIVSISEGDTAEIEIDAYQDKIFYGIVTEIAHISLTNNAGTQNQVTNYPVKVKILNVPDGIRPGMSATANIITHVSKDAISIPIQSLTARSSNFRREEGQKDFKEKEFDKKSFGKNDFENVVFILTDKDNKNITNKNFKTFDENHEFSIRKIPLEVGIFSDTDYEVKTGVKIGQMIITGPYSAISQELEDEKLVTVIQDKPKKYMKSDEKEFEWDF;locus_tag=LOCUS_05600;note=WP_011405551.1 RND transporter (Salinibacter ruber DSM 13855) [pid:31.8%25%2C q_cov:84.2%25%2C s_cov:82.4%25%2C Eval:4.1e-52],MGA_565
sequence04	MetaGeneAnnotator	CDS	26069	26752	.	+	0	ID=MGA_566;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933017.1;translation=MSFIISLKAIERFYDVGGEVVRALDGLDLNISANEYISIMGPSGSGKSTLMNMIGCLDTPTNGTYEFENEYVHEMDEGQLASIRNRKIGFVFQTFNLLPKSSALRNVEVPLIYANISKKERIDRAKESLIDVGLEDRMHHKPNELSGGQRQRVAIARALVNKPSIILADEPTGNLDSKSGVEILNIFNQLHDKGNTIILVTHEEEVAKNAKRMILILDGKVKSDIKN;locus_tag=LOCUS_05610;note=WP_010933017.1 ABC transporter ATP-binding protein (Chlorobium tepidum TLS) [pid:59.5%25%2C q_cov:97.8%25%2C s_cov:96.5%25%2C Eval:1.7e-75],MGA_566
sequence04	MetaGeneAnnotator	CDS	26772	27986	.	+	0	ID=MGA_567;product=ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933018.1;translation=MSSIWQNILISLTSISNNKFRAFLSVLGIVIGVLSVTLMGTMISGLDQTFEKSMANFRSDVLMISRFQWFDGDKEWWQMRNRPRMKPEYVDNLRNRSTMIDAIAPVMERSGEISRNNVETYARFFGTTPEYLKTNEEQKIESGRFFSNIENENGARVVVIGNGIATGLFENENPVNKYVKIGRNKYLVIGVIEKQGSFMGMWSLDNQAIIPFGTYQRNFAKRGWMNLRVKTNSEDINLAKEEITAQMRIIRKLKPLEENNFGINHSSGFEAQYNAIKFTIAGVGFFITALSLIVGGIGIMNIMFVSVKERTREIGIRKALGATPFNIMVQFLTESIIICLMGGVLAIGISFIISDIINDFFPSTMPIKLALFSILISVLIGVISGFIPSSRASKLDPIEALRYE;locus_tag=LOCUS_05620;note=WP_010933018.1 ABC transporter (Chlorobium tepidum TLS) [pid:40.9%25%2C q_cov:98.8%25%2C s_cov:96.9%25%2C Eval:3.0e-78],MGA_567
sequence04	MetaGeneAnnotator	CDS	27979	29241	.	+	0	ID=MGA_568;product=ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933019.1;translation=MNKNKKKSHLKNTIKESFRMSLEAIKDNKLRSILTLIGIAIGVFSVVGVMTAIKTLENHVNSQLDILGSNKFYVMKEPALSFQRSKEYWKRKNITYQDYLDLEKLAKTPHSMSAEMATYEDDISYKDKELTKEIKIYGATFWSVRHHQFLIDYGRSITDDDIRFNRKVVILGPDIVDILFPYEYPIGKKIKIEGIEHLVIGVTGKKGEMFGENQDYMALIPASTFTQYYWDEDESNVEIVLESKSQEELRKTMDEIIGHFRVIRKLKPSEKNNFEIVNNKELANQIDGFTGGIKLFAGAVSVIALLVAGIGIMNIMLVSVSDRIKEIGIRKAIGANRIDILIQFLMEAFFLCQFGGIIGIVLGILLGNLIGIALNVSPVIPIDWAFYGLFICSSIGIGFGIYPAWHAANLDPIDSLRYDK;locus_tag=LOCUS_05630;note=WP_010933019.1 ABC transporter (Chlorobium tepidum TLS) [pid:34.7%25%2C q_cov:96.2%25%2C s_cov:98.3%25%2C Eval:9.9e-64],MGA_568
sequence04	MetaGeneAnnotator	CDS	29305	29607	.	+	0	ID=MGA_569;product=aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S325;translation=MTKQKNVSRDEVIRIAKLSKLHLNEEQIIKYTHDINQILTYMEQLNEVNIIDVEPLSHVLDQSNIVREDIVSESLDTEQILENAPQSSGKHFVVPKVIEK;locus_tag=LOCUS_05640;gene=gatC;EC_number=6.3.5.-;note=Q2S325 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C (Salinibacter ruber DSM 13855) [pid:40.4%25%2C q_cov:94.0%25%2C s_cov:98.9%25%2C Eval:3.5e-17],MGA_569
sequence04	MetaGeneAnnotator	CDS	29610	30341	.	+	0	ID=MGA_570;product=3-deoxy-manno-octulosonate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74BY2;translation=MDDKSGYNFVGVIPARYHSTRFPGKVLEPIDGLPMVVKVYNQVLKSRLKNIIVAVDNKLVEKKLNDLNIPNIMTSNKLNSGTERVAEVATKIDGEIFINIQGDEPFIDPSIINLLINLFNEVKSIKMGTIASTKLSKNELDDINIVKVLIDKDKKAIKFFRKKPEINYHEKVYKHLGIYGFTKEFLIKFSTMSPTIGEKKLKLEQLRALENNIPINIELTNLDSLGVNTPSDLLKLKENFKIE;locus_tag=LOCUS_05650;gene=kdsB;EC_number=2.7.7.38;note=Q74BY2 3-deoxy-manno-octulosonate cytidylyltransferase (Geobacter sulfurreducens PCA) [pid:38.0%25%2C q_cov:96.3%25%2C s_cov:99.6%25%2C Eval:2.2e-39],MGA_570
sequence04	MetaGeneAnnotator	CDS	30334	31962	.	+	0	ID=MGA_571;product=CTP synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462257.1;translation=MNNKKQTKFIFVLGGVISGLGKGIASASIGYLLKGKGLNVTIMKLDPYLNLDPGTMNPYQHGEVFVLDDGSETDLDLGHYERFIDSNMTKNNNTTTGQIYESVLEKERRGDYLGQTIQVIPHITNEIKSKVYSINQSNEFDVVIVEVGGTVGDIESLPFLETIRQIRLEQGRDNVFISHVTLLPYVDASEELKTKPTQHSVMKLREIGLEPDMIFCRTSNEISKSVKEKISLFCSVSPSHVIEASDVKSIYEVPLLFHKQNVEELILSHLKFKKIKSNINKLEKFIDRFKNPVNSVEIALCGKYTELPDAYKSVLEAFIHSGVENNAKVEIKWVKAENLGSEDSVSEQFNNVHGIMVLPGFGDRGIKGKIEAAKFAREFKIPYFGICLGLQIAVIEFAKNVCGIQNASSSEFEDTESSIIDLMLNQKNINKKGATMRLGAYDCNLKINSLAFKAYNSQQILERHRHRYEVNNDYRKVLESNGMIFSGINKKLNLVEIIELENHPWFLGCQFHPELKSRVNKAHPLFREFIKSSIIYKNSNVK;locus_tag=LOCUS_05660;EC_number=6.3.4.2;note=WP_011462257.1 CTP synthetase (Desulfitobacterium hafniense Y51) [pid:56.9%25%2C q_cov:97.4%25%2C s_cov:99.2%25%2C Eval:7.7e-176],MGA_571
sequence04	MetaGeneAnnotator	CDS	31952	32749	.	+	0	ID=MGA_572;product=2-dehydro-3-deoxyphosphooctonate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YH30;translation=MLNKINFNNNSLPIIAGPCVIESKDHVFKMAENLKKIFFKLDVPFIFKSSFDKANRSSIDSFRGPGLEEGLKILDELKKEFDIPILTDIHSSNQAKTLGEIVDIIQIPAFLCRQTDLLVEASKTKKIVNVKKGQFLSPKNIDNIINKIQSTGNNKILITERGTSFGYNNLVVDMRSIPIMQSKGFPVIFDASHSVQLPSSHGDYSGGDRKMIPILAKAAVASGCDGIFLEVHDNPNSAMSDSSTQFPLKDLESLILSLQKIKSAL;locus_tag=LOCUS_05670;gene=kdsA;EC_number=2.5.1.55;note=B5YH30 2-dehydro-3-deoxyphosphooctonate aldolase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:58.7%25%2C q_cov:99.6%25%2C s_cov:97.4%25%2C Eval:4.7e-86],MGA_572
sequence04	MetaGeneAnnotator	CDS	32750	33274	.	+	0	ID=MGA_573;product=3-deoxy-D-manno-octulosonate 8-phosphate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261184.1;translation=MINKIKLIITDVDGVLTDGSLYIGKDGIEYKKFSVLDGAAVKYAKFAKIEIAVISGRYSDATTSRMKELGLNKLCFQDALNKIKPYEEIRKKLDLDHDEIAYIGDDLIDIPVLEKVGLPICSNDAHEYVKKISKFCTESKGGDGVFREVVEYILKGQGRFEETLNSIKEHIYKK;locus_tag=LOCUS_05680;gene=kdsC;EC_number=3.1.3.45;note=WP_011261184.1 3-deoxy-D-manno-octulosonate 8-phosphate phosphatase (Vibrio fischeri ES114) [pid:45.3%25%2C q_cov:91.4%25%2C s_cov:84.9%25%2C Eval:6.7e-32],MGA_573
sequence04	MetaGeneAnnotator	CDS	33271	34254	.	+	0	ID=MGA_574;product=arabinose-5-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942538.1;translation=MSKSKNIKIGKNVIQIEAEALLRIKEKVDNDFNKAVDLCYETKGKIVVIGMGKSGIVGQKITATLASTGTQSQFIHPGEALHGDIGMVSNNDTIITISKSGETYEIIQLIPVLKKMGIPIISLVGKIDSTISKNSDIVLDVSVDREACTLELAPTASTTASLAMGDALAITLLEKRNFNPNDFAKLHPAGSLGKKLLLTVDQIMHSGNELPIVKKTSKISSMLLLISEKRLGLAIVVDEKNNLCGIITDGDIRRGFEKNKNLYNKTAEFLISSKKPNWVASNTLAIDALRLMEKFSITSLLVYEKDFDNSVPQGLIHIHDLIKTGIG;locus_tag=LOCUS_05690;gene=kdsD;note=WP_010942538.1 arabinose-5-phosphate isomerase (Geobacter sulfurreducens PCA) [pid:49.1%25%2C q_cov:96.6%25%2C s_cov:97.8%25%2C Eval:7.2e-85],MGA_574
sequence04	MetaGeneAnnotator	CDS	34251	34772	.	+	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFYIKLFIVIWFLSCTTNEKENDFFQEDISDQKSWNPTIILTRDGIKRSVIRSEKMYQSEKKNEIILELGIDADLFSKDQVHMSNLKSNKAIIFEKSDNLLAIGNVRVFSDSGITLYTDSLLWNNKSERIFSNDSVMLTTNFNDTLYGIGFESNADLTHWKIKKPWGVSSEN;locus_tag=LOCUS_05700;note=MGA_575
sequence04	MetaGeneAnnotator	CDS	34778	35512	.	+	0	ID=MGA_576;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016586.1;translation=MENNITLKSINLEKKYGKKTVVKNVSLELNKGEVVGLLGPNGAGKTTSFYMITGMISPTKGSVYLGDKNITNFPMYKRARLGIGYLSQEPSIFTKLSVEENIKLVLEMTNLSKKERSNRLENLLDDLSINNIRKNIGYQLSGGERRRTEICRALVMKPNFILLDEPFAGIDPIAVEEIQSIINDLKQKDIGVLITDHSVRETLSITDRAYLLYDGKILKDGSAKYLAEDQQTRNLYLGSKFKLN;locus_tag=LOCUS_05710;note=WP_011016586.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:58.8%25%2C q_cov:98.4%25%2C s_cov:99.6%25%2C Eval:5.2e-81],MGA_576
sequence04	MetaGeneAnnotator	CDS	35512	36876	.	+	0	ID=MGA_577;product=RNA polymerase sigma-54 factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403901.1;translation=MSRLVQIQEQKQKLSPQQVVFTTLLELNVNDLEKKIVKELEENPVLELVDLDSNQDLENEDKEIEEKDWDEMSGSDEESPKFNSNKNHSDFIASQKEKNTFTENLIVQLGQLNLPYNETKIAETLIWNINDEGYLLADLELIADRLDVEIFKVEKILKIIQSFEPFGVGSRTLQECLEIQINKKNNNFLSKEIIENHFDDFSNKRFNKIQKNLKCSNQQLKEAIDIISTLNPKPGDGAQNNSNFAIPDLLIDDVDGKLVVSLNDGNFPEIKISPVYKEMFFSKNNKEKKLEKFLRDKIQSANWLIEAIQKREVTIMKVMSAIIKMQSDFFKGKITNIKPLILKNIADEINMDISTISRVTNGKFVQTPWGVYELKYFFSDKITNNFGEKVSTKNIKLLIEQIIKNEDKKNPFSDEIISKLVYKEGFNIARRTISKYREELKIPVARLRRMLVNK;locus_tag=LOCUS_05720;gene=rpoN;note=WP_011403901.1 RNA polymerase sigma-54 factor (Salinibacter ruber DSM 13855) [pid:37.7%25%2C q_cov:98.9%25%2C s_cov:96.8%25%2C Eval:3.7e-88],MGA_577
sequence04	MetaGeneAnnotator	CDS	36892	37830	.	+	0	ID=MGA_578;product=protease modulator HflK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390052.1;translation=MARKIQVGDQEYTIPNFNYGGFIIAIVFLVIWGAMSSFYVVGPDEEGVVRRFGKWVRTEESGLNFKFPYPIEQVDLPKVTQVKEISVGSIIQEAKMLTGDENILLVEVKVQYKIKNARDYLFNLRNVEETIKDATESALRQIIGSHPIDDPLTEKKAEIADEIQVLLQRMLDNYKCGIDVRQVQLQDVNPPKEVDFAFKDVQSAKEEKEQKINQALGYQNDIIPKARGEAEQQIRIAEAYREERITRAQGDVSRFLSVLKEYRKAKDVTETRLYLETMEDILPKVEKIIIDDEVNNMINLLPLGKIDQKEMK;locus_tag=LOCUS_05730;note=WP_011390052.1 protease modulator HflK (Rhodospirillum rubrum ATCC 11170) [pid:45.8%25%2C q_cov:93.9%25%2C s_cov:75.4%25%2C Eval:3.6e-70],MGA_578
sequence04	MetaGeneAnnotator	CDS	37831	38676	.	+	0	ID=MGA_579;product=protein HflC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q72E95;translation=MRSLIFIVLILFGIGFFISAYTIDETEQGIILEFGRPVGSSITKPGLHFKFPWRQLVKLEKRILEYDVEAREILSLDKRRIVVDNYARWKISDPLQFYKSVRTINGGLNRIDPIIYSELRVELGKHNLTEIVDNRRESIMEIVTNQARSKLKEYGIDLVDVRIKRADLSVENEKAVYDRMIAERERQAKQFRSEGEEEALKIRAETDKDKAIILANAFKISQEISGEGDAQALEIYASGYKSDPEFYNFTRTLESYKKIIDTDSKLILTTDSDFLKLLKQK;locus_tag=LOCUS_05740;note=Q72E95 protein HflC (Desulfovibrio vulgaris str. Hildenborough) [pid:46.9%25%2C q_cov:92.9%25%2C s_cov:92.2%25%2C Eval:3.7e-68],MGA_579
sequence04	MetaGeneAnnotator	CDS	38701	39612	.	+	0	ID=MGA_580;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249822.1;translation=MTRNLVNISDFSKVEINEILNIASQLKNEVKNNIKHHHLENKTLIMLFEKPSARTRISFETGMCQLGGNAIFLGPNDLALGKRESIEDLARVLSRYNDIIMARVFDHDHIVKLAKFSTVPVINGLTNYNHPCQILSDGFTILEKFGNIENIKISFIGDGNNVFHSWLYMGQRFPLNINIACPKGYEPNKNLVKKTKEIGISTVKISNDPYEIITDSDIVYTDVWASMGQEKESMIRTNKFSPFQVNERLMKAAGSNSHFFHCLPAHRGKEVTDEIIDGKKSVVFDQAENRLHVQKAIMVFLMK;locus_tag=LOCUS_05750;EC_number=2.1.3.3;note=WP_011249822.1 ornithine carbamoyltransferase (Thermococcus kodakarensis KOD1) [pid:51.2%25%2C q_cov:99.0%25%2C s_cov:96.2%25%2C Eval:5.4e-84],MGA_580
sequence04	MetaGeneAnnotator	CDS	39609	41807	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNCFFIFIIFLQTNFLLSQNFTKDQYQAELKLFLNKVKEAENSFKDIDKELNKRFSSENQKSLYYLVIIEDFNQLKKLVIDLSSSSKNLENYVINYRKSFGVAKAKKDNISADDEIFKKIEKQFNLINDLFKSENENLTKIKNLDELISEKFSEVDEIKELTKKLEREVISFKRDIEKSRVESKKTVDDYNKSSSWLINFPIYADGLVIRDELIGFQENIIELKIKLEENENDLRGLFSGISKNNIKDPYEYYQKLKKNQSDIILQLRNDLQEIPNKRFSLQQFQNDFEVFNKDVLSSRTELEKFMRPTFRNIDQISSNVELVIKNFDDILIDFENFPIVIIAKTINDSIAIMNKNLILTKDSLRTNLKKYERFLSGKYFPKDNVTHFQIFDLINNSVNKLKNQSEIQFIEINSSIESLIDVSKLIEEFKNEIVLMDEKILSLKDNIIINKEIFNIDSIRYNSLINKMPIDFSTEVFPYLELKSSFNKMEKKIFLIDSKYDSLNFFKKSFIEHVATMKGIRNEKEKYDIFKNFVTDFKTVNKSSSEGLVKFQELNINFKNNVKENFKNTVEFWSIVYKTNDSNETNFSENFGYLIDLNRFPIPQYHGQLISDYQIKLIRNKKKYIINFLTSSDFPIKGFQILSSKNEVLIENIFEQWEEIELDNIKYFSCSVDVSINSLDSLIQSEDHILKILFTSMQNKINLTMYETKIYKKYKIPEKRLDVWSNQLNIK;locus_tag=LOCUS_05760;note=MGA_581
sequence04	MetaGeneAnnotator	CDS	41824	43386	.	-	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDLMKKNLFFFILILFGCSGNQSQQTRPSPIETSKNDVEILSNSNQQKLEFFPTANRIREHIASFLIIINDRQNKIFNFLENNIFEEQEKNDLNQIVNQEKNKFSDLIFDLANFITYLPVDSKTYSSINNGTENLKTKYSTFNLSISGSISDQTIDDIEKTAIESNNRALTEELKILESLLPLPPDSLETGSTFIFETDSVDLFFEVVKNVDEISAEMEKLRMTIKEYEISKTEMNSFLEREKKINQELNLNKSKINQLNAKIDTSRNLQNLQKDSLSTIIRQTDSNLKNQLSNLSLSITDSITKQSSQTDSLFFSLGTNMTVFQSQVDSLKSVVRYYDIAEKGLPEIDEDVLNILKLPKLKNKITLKNGTIVVGHKIAENLDIIILETSVGKLVIEKDYILKYDEQFFPGPKVEFLGKYKKVEYPDREEFFGKVKNVGKKRADFVKITFFLWSSTTEALGAGEAMVDGSTTRFETGVISDASLRPGQTGNYHVIVDKQINSTIEYRTNEVSWKDYKGR;locus_tag=LOCUS_05770;note=MGA_582
sequence04	MetaGeneAnnotator	CDS	43379	44530	.	-	0	ID=MGA_583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNHNLILILILCLFIGCAQIKNNINIFSKNKKDLNPEEITLVYIEELRIAYIQGDIGSIEKLIDIYKDKNIKNEIRKSAVRSIAETRHPLALEAISEYVRTSEAIDIDLMIASINVLSKFEEDPIASNSLMESIFTVDKKLREVQSATFKSLKNVKPKNKVLALIDIYERSRAAFYSTATMVSNTLGNMDDDEVIPVLIFISKDLSLDIKVRNRAIEILASNKNDTRVIEMFTEMLTEPSTQNQLKDFAINTMKDIKEERLILALMDTYNQGQASYYSLLGTLLDALGNFNDPVILPTLIQIAMDNDIPRNLRVKSINGLGNFKNSNTFELILPMLEDPSSYEFYPYIIELAHTLGVHEKFKTEIRTAGLIAQEKALEKNNE;locus_tag=LOCUS_05780;note=MGA_583
sequence04	MetaGeneAnnotator	CDS	44527	45255	.	-	0	ID=MGA_584;product=UDP-2%2C3-diacylglucosamine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008767009.1;translation=MKLPIYFISDVHLNLNGKDYDLEKRNSLSNFFHHILQNGGTLFIVGDLFDYWFEYKYFIPKNYFDVISKISQLKSKGVEVNFIPGNHDFWINNFTYNELFANIYPDGAKIQIEGKRFFILHGDGILKKDYGYRVLRKIIRSKLFIFLFKIIHPDLSYELAKFFSRKKHMNLNDNLMKKLKSELSIFAKNKINDNIDYVLLGHYHTKDEINLKNGKLILLGDWIKWKTYAFFDGKDLFLKEWK;locus_tag=LOCUS_05790;note=WP_008767009.1 UDP-2%2C3-diacylglucosamine hydrolase (Bacteroides thetaiotaomicron VPI-5482) [pid:33.6%25%2C q_cov:97.9%25%2C s_cov:96.1%25%2C Eval:1.7e-39],MGA_584
sequence04	MetaGeneAnnotator	CDS	45396	48539	.	+	0	ID=MGA_585;product=peptidase S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405100.1;translation=MKKTFYILISIFISINFLKTQNFGQNKVQYKNFKWNFIQSANFDIYYYDDGQKLAEFTSEAVEKSYNQVSTYLDWKLKKRVSIIVYNSHNDFQQTNVILPYMPEGVGGVTELYKNRIVIPFEGSYEAFRHVIHHELVHAVINDLAYGGRAQNIISNRIQLTIPLWMNEGLCEYLSSQWDTRADMTIRDIAINDVIPTIPQLNYYLAYKGGQSVWKFIVEKYGWQKVAEIFKQAKRTQNVEKAFEKTIGMNFVELTEQWHKYIKKEYWPDINGRSEIKDFSQKITDHKKLSNYFNISPALSPDGNRIALITDRSGYSDVIIISAEDGKEIRTIVKGNRSPDFEELKLLQPGISWSPNGEKIVLASKAGGSDALFLIDVKNGKREKLTFDLSSIFTAKWSPDGQKIAFVGNKSNASDIYVYDFKTKKILNLTKDVFSDSEPSWSFDSKKIVFISDRGENINKIENFDISKHDYSQTDIYIYNLTNNKIERITKSTFSENFPTFSNKENKLIYTSDNKGVWNLYVYDLDENTSFPISNVLTGVFQPSLSRDDSKLVFSGYSNRGWDIYSINNPFKDNNLDVKPSNFILNGTDKDPLDLSTININEIDDNKNLEWSSNSFSNWIFAPEYAHYNDGIFDSTDLKKEEPLKLSSYKNDDGSYVTQSYKTKFGLDLVSGQYMYSNTWGSNGTTIFSFSDILGDHRILIGTEMVMDLSNSDYSFQYNYLKPRNDYAIGISNISNIFGSQWNFLRSRYFLLGLNISRPISRFQRFGIGLSNHSLSNKEYILSGYNQYAEVSNEKLSVLSYSLNWTYDNSQFGLTGPSDGSRGNIQFNQSIAEFGYPMDFKTIQVDARRYFRIGKLYTFAFRSMGGISFGKNPQRFFLGGTQNWLFGNGFSNGVKDNSRWNQESDADIWNRQKSDYLKDLYFSVFVLPVRGARLVEKYGNKVFLTNFEFRFPFVNYLALGFPFRVIFGNINGAIFVDAGAAWEDEFNFSSFNPVSGMNQFDDFIASYGYGLRLNIGYSVLRLDIAKDYLYGGETSPWQYYFSLGADI;locus_tag=LOCUS_05800;note=WP_011405100.1 peptidase S9 (Salinibacter ruber DSM 13855) [pid:26.6%25%2C q_cov:92.2%25%2C s_cov:87.5%25%2C Eval:3.7e-87],MGA_585
sequence04	MetaGeneAnnotator	CDS	48578	49915	.	+	0	ID=MGA_586;product=DNA repair protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18CB3;translation=MKNLIFLCEKCGADFPKWHGRCPNCKEWDTLSEFKKPKNKKTKLNYLNGELPKPINDFSSDLKNQRIKTNIGEFDRVLGGGFINGSLILVGGDPGIGKSTLVLQSVNSSKILSLYISAEENEDQLANRAKRLGVKSKEIFILNENNLEIILNHIDKISPKLVVFDSIQTIYTNDSDSIPGSINQVRDCSQKILELCKKNKIIGIIVGHVTKEGVIAGPRILEHMVDTVLYIEGEKRNDFRILRSIKNRFGSTNEIGVFEMNSNGLNEVKNPSNIFISERQFNEPGSSVFPSIEGSRPILVEIQALVTNCSFGNPQRNVTGFKLRRLSMLLAVLEKKLGFSLGASDIFINIVGGLKIEEPAADLAVVSSIISIKKNLPIKKDLILLGEVGLAGELRSINNLEERLKESANLGFAKAIVPKRNSIKNFNKINLIRCDSVKDAFEKIF;locus_tag=LOCUS_05810;gene=radA;note=Q18CB3 DNA repair protein RadA (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:45.8%25%2C q_cov:97.8%25%2C s_cov:96.5%25%2C Eval:6.5e-114],MGA_586
sequence04	MetaGeneAnnotator	CDS	49922	51052	.	+	0	ID=MGA_587;product=queuine tRNA-ribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q183P1;translation=MSYLVLKKNKNSFARTGQLSTKRGLVYTPAFMPIGTYGPVKSLSPKDLDDLGSQIILGNTYHLYLRPGIELLKKIKGLHNFIGWKKPILTDSGGFQIFSLARLNKITNEGVYFNSTIDGKKHFLTPQLSMEIQKVLGSDIIMSFDQCPPANIEINELEKAIDRTEIWTKKCFEYLNSNDDLNKMKTHFFPIIQGGTNEILRKISFNSIQKYMKNGIAIGGLAVGEDKNAMFDIISYLNTIIPNSKLRYLMGVGKPEDIIEAVSLGVDLFDCVIPTRNARNGQLFTWSGRINIINSRFKNDLKPISENCRCYTCTTFSRAYLRHLFKINDVLGLRLATFHNVFFYMELMKEIRNQIQKDTFFEWSKEIKEIVSSKVQ;locus_tag=LOCUS_05820;gene=tgt;EC_number=2.4.2.29;note=Q183P1 queuine tRNA-ribosyltransferase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:49.5%25%2C q_cov:96.8%25%2C s_cov:96.2%25%2C Eval:2.1e-102],MGA_587
sequence04	MetaGeneAnnotator	CDS	51039	52082	.	-	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIKILNNQIKAQHFRGVPPSEIMVPYPNINSLLESQANFYKNKIFIKIKNEGISYIDFLKKVKQYSNYLIEKKIEKKTFSISESNPIISLIEIFSIWNIGGVIDLDNEKNDDLNFEKIFKNYSTQFFPIQKNKFYDECIQFKNKGENKIYLSHYNILVTTMGMSKNFNPEIENLFMYEYPFKKKLNLILAITLTLYMGSSFEFIDKNHDFNSNKKITLFTEKYFYNKKIDNIILPHNILSIPKKPNFRISLFLSELSGYASMNMKKPKIHLDDFISIGKGMNHSELSIINKDGIKESNNIGKLVVRGHNVFQNIYGNLDIENYFKFGWFHTGLKGISIDDEFFIEL;locus_tag=LOCUS_05830;note=MGA_588
sequence04	MetaGeneAnnotator	CDS	52162	53127	.	+	0	ID=MGA_589;product=cystathionine beta-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948636.1;translation=MKNYKKFNSILESVGNTPVVKLNHIGREFDCEIYVKCEYFNPGGSVKDRIGIKMVQDAEKSGRIKPGDTLIEPTSGNTGIGLAIAAAVKGYRMIITMPEKMSKEKEVILKALGAEIIRTPTEAAFDDPKSHIGVAKSLNKKIPNSHILDQYSNPSNPDAHYNGTAEEILNHFGKELKMIVMGVGTGGTITGVAKKIKEVRKDIQIVGADPYGSILGGGNDIKPYNVEGIGYDFIPDVLENNLVDKYIKTDDKNSFLTARELIKKEGLFIGGSCGSAVWAALQVVGELKKNEVCLVILPDSVRNYMSKFVDDDWMKDNGFFD;locus_tag=LOCUS_05840;EC_number=2.5.1.47;note=WP_010948636.1 cystathionine beta-lyase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:66.8%25%2C q_cov:97.5%25%2C s_cov:99.1%25%2C Eval:4.1e-125],MGA_589
sequence04	MetaGeneAnnotator	CDS	53137	54789	.	+	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFIFNLIIFFGCAAISPPPGGPEDKTPPQLLSSIPESGTYNLKGGFNVKLIFSERLDDNINKSSIRVLPFEKTPLQLKVNKNIIEVLFPDSLKKNQTYQLIISREILDERKNKLDKTYQLAFSTGDSISIGEISGKVFNIKNKPTFVYLFNNYESSDSIFFRKPDFYTETDDSGRYSFKFLENRNYSIIAHQGVLPPNKIDFNRSRYGLYSKSILQLGESNFLDNINLKLKNNITPFSVLSVKMQDKRIGTINFTNGFDLNNQKKNIEIKIYDSQQKNISSVSNFFQDSLSNMLNFYYDKFNDEENYFFEILNLSDTTNQIIDEKLSLINKSEIDSIFPTIISLKNTNNIIFDGFYSIDYKFNQPIIINGELDSVFEIFSDSTKITDFELIYTKPNILSILNKNKIRGINNLSVKILCNQIKSIDNFSMKDSILNISYEVKNKRRLGSISGEIINSNSKNNFLVGYMVDNKKNNFMIKSDSLTNKFIIKNLNEGMWNIYAFEDIDNNSKYSYGEFFPHTPAERFINFNQLIEVRGNWENTENNILFP;locus_tag=LOCUS_05850;note=MGA_590
sequence04	MetaGeneAnnotator	CDS	54796	55881	.	+	0	ID=MGA_591;product=mannose-1-phosphate guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003426511.1;translation=MNFKIKKIYAVIMAGGQGTRFWPLSRKKRPKQLLNIIGDQSMLQITVDRLRKIDLIEDIFIVTNPELASQIKKEIKGINNDNIIIEPYGKNTTPSIALAAIKIKSIDKNAIIGIFPSDHFIIGHKAFLNSLKIASELASDKNLLVTMGIVPKFPHTGYGYIQYDKKISYNKISFNVKTFAENPLESAAIRFIKSGDFLWNSGMFIWKAKTFLNSMKELIPDQYEIIKDISKKINTPEYKDILYEKWENLKSESVDYSILEKAKNICVIKSDFTWSDLGSWNTFFEFLSKDKNENIIKGNGLILKGSNNLIHSNDKFTAVVGIENSIIVNTDDALLVINRSYIDEIKNLLNEIKLYGKEELL;locus_tag=LOCUS_05860;gene=manC;EC_number=2.7.7.22;note=WP_003426511.1 mannose-1-phosphate guanylyltransferase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:35.1%25%2C q_cov:98.3%25%2C s_cov:99.7%25%2C Eval:1.2e-70],MGA_591
sequence04	MetaGeneAnnotator	CDS	55878	56132	.	+	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKKIYEEFEKLAIKMNFKIIHGVGDFDGGLCNFNGDDFIVLNKKKPIEQRLKVLVSIFNKLDLENKFIVPGLREYIKVEQTN;locus_tag=LOCUS_05870;note=MGA_592
sequence04	MetaGeneAnnotator	CDS	56134	56622	.	+	0	ID=MGA_593;product=HIT family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146469.1;translation=MKKLWAPWRMQYIKSERDNGCVFCDKIKSKNDRDSLILYRGSFSFIIMNLFPYNNGHIMILPYLHTAKPQDLDKKTKLEILNLCDKSMDIITLNMNPEGFNFGANFGKSAGAGIAQHLHYHLVPRWNGDTNFMPVLNETKTIIQDLKETYDSLIDQFTKINE;locus_tag=LOCUS_05880;note=WP_048146469.1 HIT family hydrolase (Pyrococcus abyssi GE5) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:96.4%25%2C Eval:2.9e-47],MGA_593
sequence04	MetaGeneAnnotator	CDS	56615	56827	.	+	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDFNLIWLPFIYLYLIGGVFFVLGLFLIIRTNALEVKKINHFKWLLILIIGFFYYCLIHLIFIILATGN;locus_tag=LOCUS_05890;note=MGA_594
sequence04	MetaGeneAnnotator	CDS	56827	58689	.	+	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMDFVIGTNLDRIIILSYFLLVMAFGAYFGKYSKSTSDYFFGGRRFSWWLISISIVATGIGSHSFLKYSTKAYEYGFSSTMTYMNDWFFMPLFMFGWLPIIYYSKVASIPEYFHRRFNSNARLIATFMILLYMIGYVAIQLLTLATVLYKIYSIPLMSTVIIIAIVTTLYTHFGGQTSVIFTDLFQGLILLFSGLLLFYLGINYLGGFSNLNGFNFFWDNLTVSQKLPLANFNSPPDFNFVGIFWQDGIAGSIGFLFMNQGLIMRFMAAKNVNEGRKAAAFNVLIILPISAIVVSNAGWIGRVISNTNPNILPLDMAPNDVFVVITNLVSSPGVFGLIIAALCAALMSTADTLVNASSAVIVNDIYRPITKNKNSDKRELNVARLASILVKIIAVLLVPFFNNFDSIYEAHGWFHSTFTPPLVVGIFLGIFWKRFTSSAIIATFLVGGFLMILGQFYPELIKPFSHGIELRPGKGYSYIGALYNIFVCGIVGVVVSFFTKPPDLKQIKGLTIFDVKDLKKIFKGSEVNLEGGEKILVQWKKSNQTKEFISFSKNDMEKMKAKKGDLVYLTDSRKWLGGLKSIHSIFNKTHNEDGIVYLSNSLIERGLFSKDKTLIAEKEM;locus_tag=LOCUS_05900;note=WP_005422351.1 transporter (Vibrio fischeri ES114) [pid:25.0%25%2C q_cov:73.4%25%2C s_cov:86.4%25%2C Eval:3.6e-39%2C partial hit],MGA_595
sequence04	Aragorn:1.2.38	tRNA	58718	58790	.	+	.	ID=Aragorn_6;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence04	MetaGeneAnnotator	CDS	58800	59834	.	+	0	ID=MGA_596;product=riboflavin biosynthesis protein RibD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I5V2;translation=MRKVITQDKIDEEFMSIAIKEAKKGYNNVHPNPKVGVVITVNNKLISKSYHKKFGGLHAERNAINLISSNFSKATLYTTLEPCSHFGKTSPCAEHIHPSNFDRVVISSLDPNPRVNGKGLLKIKEKGIDIKLGVLEEESKKINTPFFTYFEKKRPYVILKFASTLDGFIAMEDGTSKWITCQKSRNDVHKLRSNCDGILVGRKTADIDNPDLSSHGKGRDPKVLILGSSKKINKSNKVFSKNPLFLSKENLNFSNNKLENISLVLSKLYEEKIQSVLVEGGSETLTSFLESQLFDEIHCYIGPKIFTTGIPIFNSKNSLPNDLLKVESIKEFDDDLRIIYRMKK;locus_tag=LOCUS_05910;gene=ribD;note=A5I5V2 riboflavin biosynthesis protein RibD (Clostridium botulinum A str. ATCC 3502) [pid:39.5%25%2C q_cov:92.4%25%2C s_cov:92.1%25%2C Eval:3.5e-61],MGA_596
sequence04	MetaGeneAnnotator	CDS	59834	60421	.	+	0	ID=MGA_597;product=riboflavin synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_001255364.1;translation=MFTGIIEEIGKIKKFTINDDIVNLEINCKKIIHDLKTGESVSVSGICLTVTKIIKNSFSAQMIPETINKTNAKYWGKNTLVNLERSLKLSERINGHIVQGHVDETFQVKDVNVIKDSWVISFNLNEKLKKFIIYKGSISINGVSLTISSVNKDFFSVSLIPETLKRTNLVNLKSNDLVNVEIDIFAKYIENFLRN;locus_tag=LOCUS_05920;gene=ribB;EC_number=2.5.1.9;note=YP_001255364.1 riboflavin synthase subunit alpha (Clostridium botulinum A str. ATCC 3502) [pid:40.9%25%2C q_cov:99.0%25%2C s_cov:89.4%25%2C Eval:1.1e-39],MGA_597
sequence04	MetaGeneAnnotator	CDS	60425	61621	.	+	0	ID=MGA_598;product=riboflavin biosynthesis protein RibBA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHZ1;translation=MSINLLENVLEDIKLGKFVIVVDDEDRENEGDLVMASQLITPEAVNFMVKEARGLICVSITEEKSKFLNLETMAKNNTSLHETNFTVSVDAAKNTTTGISTKDRCETIKVLASKTSKADDLVRPGHIFPIISKEGGTLRRAGHTEASVDLAKMAGLEPCGVICEILSDDGSMARKKELEEFSKKHDIKIISISDLIKFRRSSEKLVKQIETVDLPTKYGEFKLHLFKDLFDGKEHIALSHGKIKNNQNILVRVHSECLTGDVFHSLRCDCGDQLEQAIKRISQEGSGVIVYLKQEGRGIGLMHKIKAYKLQEQGFDTVEANEKLGFPPDLRDYGVGAQILYSLGVRNMIIMTNNPMKLIGLEGHGLKITDRVSLSIKPNDKNKNYLETKKSKLGHLID;locus_tag=LOCUS_05930;gene=ribBA;note=B5YHZ1 riboflavin biosynthesis protein RibBA (Thermodesulfovibrio yellowstonii DSM 11347) [pid:58.6%25%2C q_cov:99.0%25%2C s_cov:96.8%25%2C Eval:4.5e-135],MGA_598
sequence04	MetaGeneAnnotator	CDS	61625	62059	.	+	0	ID=MGA_599;product=6%2C7-dimethyl-8-ribityllumazine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q186Q5;translation=MIAIIKSKFNKQITNGLLFGCKQALIESKYNEDLIQIIEVPGAFEIPSIAQKLEKKDYSAIICIGAIIKGETDHYHYICDAVSNGVLRVSMNSQIPIIFGIITCQNINYAIKRSSTKDLSKNKGYEVGKSALEMIKVFNENNLS;locus_tag=LOCUS_05940;gene=ribH;EC_number=2.5.1.78;note=Q186Q5 6%2C7-dimethyl-8-ribityllumazine synthase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:47.9%25%2C q_cov:97.9%25%2C s_cov:91.5%25%2C Eval:8.4e-33],MGA_599
sequence04	MetaGeneAnnotator	CDS	62040	63200	.	+	0	ID=MGA_600;product=cysteine desulfurase IscS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD60;translation=MKTIYLDSNATTPLDKRVLEKMIPYFTEKYGNTESHNHFFGWESKEALENSREVIANYINADPNEIIFTSGATESINLGIKGFCQNNFSKKNHIISQVTEHKAVLNTLDQVKNNGWDVTLLPVDEYGFINNNELINAITSKTSLVVLMHANNEIGTMHDIKTIGEICKENDLFFFTDVAQTYGKTKLDVNSMNIDLLSASAHKIYGPKGIGFLYVRKKNKTIDLLPLISGGGQEFGIRSGTTPVPLIVGLLEASKISFENLYEEQKKTKLLRDNFLNEIIQYLPETKINGSMENRLNNNINLSFPNIDAESLLSKLNNIACSTGSACSSNALKSSYVLKAIGLDEELALSSIRVSFGRNNSNKESIFAANEIIKAVKTIRKNHSNF;locus_tag=LOCUS_05950;gene=iscS;EC_number=2.8.1.7;note=Q9ZD60 cysteine desulfurase IscS (Rickettsia prowazekii str. Madrid E) [pid:48.4%25%2C q_cov:97.9%25%2C s_cov:92.0%25%2C Eval:5.9e-100],MGA_600
sequence04	MetaGeneAnnotator	CDS	63375	64376	.	+	0	ID=MGA_601;product=GTP 3'%2C8-cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P59038;translation=MNKRNINNNILDQYGRIFDYARISVNEKCNLRCLYCMPEDGINFLPNDKLLNLKEMKFIIKVLSESGIKKIRFTGGEPLLNKDIFSLIEYSFKTGVESVYLTTNGLLLKQKAKNLKESGLTGINISLDTLDHQKFVQITRREGLDKVLKGLHHCISLGFNSIKLNVVLLKTFNQNEINDFIELTKDNNITVRFIELMPFDSHQIWKTGNFIGIDLIEKLIRSNYSNLEIATGSKTEHRIYKITGYKGKVGIIPAFSRTLCDKCNRIRITADGKLRNCLYSNNEFDLKKLINNGITHEKLALEIKKVMFKKEKDGWIAQNNGKKIRESMTQIGG;locus_tag=LOCUS_05960;gene=moaA;EC_number=4.1.99.22;note=P59038 GTP 3'%2C8-cyclase (Chlorobium tepidum TLS) [pid:41.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-72],MGA_601
sequence04	MetaGeneAnnotator	CDS	64378	65310	.	+	0	ID=MGA_602;product=molybdenum cofactor biosynthesis bifunctional protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P59014;translation=MEKFSHLDENGNVKMVDISDKPISERTAISSAKIKISKEAIELINDDKIPKGNVFSIAKIAGIQAAKKTSDLIPLCHQLNISWIDISFEIHNQNIFVKSFAKTKEATGIEMEVLTATSVACLTIYDMCKSIDKNIEISEIKLDKKTGGKNLFEYYTPKTAILTLSDTRNKKTDSSGQILNQGLEKNGCNIKYYKLIPDDRKKLELEVENLLKKDFDLIVTTGGTGVGPRDITIDTISPMLSQRLNGVEQALHNFGRKKTSTAMLSRLIVGRIRNTFIICLPGSSSAINDALNVLMPHFLHVYPMSKGKKH;locus_tag=LOCUS_05970;gene=moaCB;note=P59014 molybdenum cofactor biosynthesis bifunctional protein (Chlorobium tepidum TLS) [pid:53.2%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:5.8e-89],MGA_602
sequence04	MetaGeneAnnotator	CDS	65360	66058	.	+	0	ID=MGA_603;product=UPF0721 transmembrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:H7C6S5;translation=MYSSVGHGGASGYLAVLSLFAIGQNDIFWLKSNVLVLNILVSSIALYRFSRKGYLNFNFSYPFVLGSVPFAYVGSVINIHHYIYEILLSITLFWMSIKLLFSLKNEATKINPSNFYLRFSIGSFIGFFSGLIGIGGGVFLSPILFFLNWETTKKITGTSTLFVFLNSISGVIGLNSSSNFFLNQNTTLFFACAVIIGTIIGTQFSLSFGSRKNIKIILSFVVFLAAIKRFLI;locus_tag=LOCUS_05980;note=H7C6S5 UPF0721 transmembrane protein (Bradyrhizobium diazoefficiens USDA 110) [pid:23.7%25%2C q_cov:98.3%25%2C s_cov:93.7%25%2C Eval:4.9e-17],MGA_603
sequence04	MetaGeneAnnotator	CDS	66074	67297	.	+	0	ID=MGA_604;product=molybdopterin molybdenumtransferase MoeA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932999.1;translation=MISVNEAKKIINSKIFTLGSEKINIKDSINRILSEHIFAKFSHPRFDNSAMDGFAVKSIDTKGASKEFPVKLNIKGTISAGLNNSNKINHSECYQIMTGAEIPSGADAVVIVENSSGFTESNLVNIFKEVKVNENIRLKAEEIKKNAIILETGQKIGPYELANAISFGYEKISVYKKPKISIFTTGNELVLPGAKLKSGQIYNSNLFLLVELAKNIGLDVEYAEILKDDEDELKNSIINGLKKSDIIISSGGISMGKYDFLKSVYEEIGVEQLFHKISQKPGKPMFCGVSNKKFIFGLPGNPISCLICFLEYIWPLAERMMGNNFEHIYKEAELTNSFPIENNKHRFLLGKVFLHKKKLYASPSKKLGSHMLSSTIDSNAILMSNPCLNKLEKGDKIKFKFFPWMNL;locus_tag=LOCUS_05990;gene=moeA;note=WP_010932999.1 molybdopterin molybdenumtransferase MoeA (Chlorobium tepidum TLS) [pid:36.0%25%2C q_cov:99.8%25%2C s_cov:95.3%25%2C Eval:1.6e-66],MGA_604
sequence04	MetaGeneAnnotator	CDS	67297	68277	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNITPKKLQKLISENSLINIIDLRNDNQKKNNPLKNLKKRDMSFEKIKISDLNENTILICQFGIETEKFIIEKKLSNVYNLIGGAAAWNYYISKREDISRYARQLVLPQVGEKGQKQILDSKISIIGLGGLGTVVAQYLVAAGIGTIKLIDGDIISLTNLHRQPIYPISSIGDSKSEILKKILLELNENCTLISYNKYIDDVNISEILKDTDIIVDATDNINSRLIIDRFCKKSKIPLVYGALYKFEGQVAVFNHNSGISYSDIFSNNKINENCNDVGILGMLPSIIGNIQSLEVLKIILNISPNLSEKLLIYDGLSHTMEKIELI;locus_tag=LOCUS_06000;note=WP_003120269.1 molybdopterin biosynthesis protein MoeB (Pseudomonas aeruginosa PAO1) [pid:36.6%25%2C q_cov:67.8%25%2C s_cov:57.1%25%2C Eval:7.5e-42%2C partial hit],MGA_605
sequence04	MetaGeneAnnotator	CDS	68277	68525	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEIKVKCFAHVKNAVGKDIISLKMKENSTSDDVEKMIRKMTNSKLNNIAFKIAVNQKYVSSNVLLNDGDEVVLISPVQGG;locus_tag=LOCUS_06010;note=MGA_606
sequence04	MetaGeneAnnotator	CDS	68528	68929	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQVEINKKIITPFEDIDFFDLGSELVFNGRVRNIENNQKILGLYYEHYEEMAIKELIKLSNETLDRFPIRHLFCKHRVGEVLSGEVSLFVLVSSSHRKESFEALQWFLTKLKKQLPIWKWMILKNGKRELVK;locus_tag=LOCUS_06020;note=WP_010867291.1 molybdenum cofactor biosynthesis protein MoaE (Pyrococcus abyssi GE5) [pid:43.4%25%2C q_cov:79.7%25%2C s_cov:71.6%25%2C Eval:2.3e-21%2C partial hit],MGA_607
sequence04	MetaGeneAnnotator	CDS	68966	70900	.	+	0	ID=MGA_608;product=acetyl-coenzyme A synthetase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9HV66;translation=MKKLFKPFSEFSKNSKIKSIDEYNNLYENSISDKKNFWNEKAERIDWIEKWDKSYDYDFVNGNIKWFENGKLNVSYNCLDRHVQSGNGDKIAIIWEGNNPNEQKIFTYSKLLKKVEKFSNVLKNNGIKKGDRVCLYLQMIPELPISMLACARIGAIHSVVFGAFSSDSLRDRINDSSCKMLITQDTGIRGNKNNIPMKENADSALKNTKSIESVIVVKRTGSKVQMLPSRDKWWSEEMNLVSSHCPIEKIDSEDPLFVLYTSGSTGKPKGVLHTTGGYLTYVSYTHELIFDYKPDDIYWCTADIGWITGHSYIVYGPLSNCATTVMFEGVPNFPDFGRFWDIVEKHKVNLFYTAPTALRALMKEGNHFVTNKNLSSLRLLGTVGEPIKEPEWIWYHEIVGNSNCPIVDTWWQTETGGILISPLPGAIPTKPGSATLPFFGIEPVLLTEKGEEIQGNNVSGLLAIKSSWPGQMRTVYGDHKRFIETYFKMFPGYYFTGDGAKRDSDGYYWITGRVDDVLNVSGHRIGTAEVEGAIGKTNGVAEAAVVGFPHEIKGQGIYSFVTLMTGVHPNEEIKKNILKSVVKDIGPHSKPDKIQFTESLPKTRSGKIMRRILRKIAEDNVEEMGDISTLADPAVVKSLIDNKV;locus_tag=LOCUS_06030;gene=acsA2;EC_number=6.2.1.1;note=Q9HV66 acetyl-coenzyme A synthetase 2 (Pseudomonas aeruginosa PAO1) [pid:60.5%25%2C q_cov:96.9%25%2C s_cov:96.4%25%2C Eval:1.1e-235],MGA_608
sequence04	MetaGeneAnnotator	CDS	70935	71474	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKGDLINDLSLPSIDGTHFKIQEHKGKKIFLTFYRFAACPFCNLRINEIIKRYDEFGDNFLMVAVFDSPLENLIKHAKKHNAPFPILADENYKYYKKYGLERSFFKFLRAVIFKFPTLIKASIKGFIPIVFKGYVSTLPSDIMINSNGIVEDVYYAKTDTGDHLPFNKIKSFSAKN;locus_tag=LOCUS_06040;note=WP_011963239.1 peroxiredoxin (Flavobacterium psychrophilum JIP02/86) [pid:32.4%25%2C q_cov:56.4%25%2C s_cov:68.0%25%2C Eval:1.0e-09%2C partial hit],MGA_609
sequence04	MetaGeneAnnotator	CDS	71471	72229	.	-	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYYKINKKIFELDKENISYAVATVINVKGSSSGKNGDKAIYNNQGKRIMGYIGGGCIENRIGESAKETIIQRKNKIINLDLNSDKMEMGIPCGGYMSILLEPTIKIPNLMIRGMGRGAEVLCKMAKTLGFKVIIQTSKIEEEHFSKADLIINENKKIPYDKFNLDYFVLVTHHRDDHKISLEAIKNSVPYVAVVASEKKSSLIKNYLIENKLSEEQLSHFHSPAGIKINAKSPEEIALSIMSEIIIHKNN;locus_tag=LOCUS_06050;note=WP_011706024.1 xanthine dehydrogenase accessory factor (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:29.0%25%2C q_cov:94.4%25%2C s_cov:45.8%25%2C Eval:9.8e-22%2C partial hit],MGA_610
sequence04	MetaGeneAnnotator	CDS	72226	72717	.	-	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELVVKTILKANFKPIYAITGFEQNKIYKNLSKFDINCIYNKNWSEGLSTSIQLGILKIEKHFDGTLIALGDMPLISTTTLEKMKKEFLYNNGNFIICPEYKNQIGNPIIIPKKYFHFANDLQGDNGFKKIINKNPNFIKTIKINSNEIFQDFDTRKKIDQL;locus_tag=LOCUS_06060;note=WP_011088405.1 4-diphosphocytidyl-2C-methyl-D-erythritol kinase (Bradyrhizobium diazoefficiens USDA 110) [pid:21.7%25%2C q_cov:98.8%25%2C s_cov:30.1%25%2C Eval:2.4e-14%2C partial hit],MGA_611
sequence04	MetaGeneAnnotator	CDS	72942	74912	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKHLSILSFIFLLFGCEDPLDSVVTKKDSNELFELTLQASNKIVNSENSIDVMARIKRLKDGNSDVSNKVLGVWDLIYDYPDTLDNNILEISYSFFDDKTVSKVETHHFDVVSLGSKILGEWLVTEINESGNIIDLSSSLNKYTFKNDSSLVFNKIDSISEGIDVGLFSTPFLIDIDKDADKDLFIGCQDGTIKFFQNTGTSLSPKYIYLENSDNPLNDIIVNGFATPTFVDIDKDNDFDLFVGQSDGNTSFFQNTGSSTNPSFSELTGSNNPLNSINVGYNASANFFDFDGDDDMDLVIGAYNGEISFYQNIGTSESANFNLVNNSISSISVTAHSTPISVDIDKDEDIDIFLGSQDGVISFFQNQGDNTFVQKNGDENPLNAIDVGQNSFPFFTDIDSDGDMDLYIGEEEGNINYLVNGGSPENPSFVINSENLGFTKSTTRNGGWNYNNSSNELEVAFNDILGGELESGIISFDGHSVITPINAYMTWSTDARNVIMQKVGHVDNFNVPEDSIVTVSGGWSWNLNDTTLAATINDIELSGSLKFDTQGSVVPINGFMYWTTTEQGPLTLKKKTNVSSGSSSYMRLSLDATGGTLDIHHVTSTSSISVLLPDSSNSNFKVEGLFVPKSSAKSGLISAKFQDLFVKMPVTIVDR;locus_tag=LOCUS_06070;note=WP_000052484.1 adhesin (Escherichia coli UMN026) [pid:27.2%25%2C q_cov:29.7%25%2C s_cov:3.0%25%2C Eval:3.9e-07%2C partial hit],MGA_612
sequence04	MetaGeneAnnotator	CDS	74915	76978	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILYILFLIFPFILISQSMKNLEYQVLKLSYVEVDRALAILKTMGYTVVEFKSGKGELAGEYSFVPSPSGGKNINQLAIPPNLPVIIKVPDTETVSLLTQEKGKNAKKGKSELGLDLAGIPMVGTTAGAPQQQLLIGYNPNNFEKVAKLLDLINNKIDIPAAQIQLEALVIEIDSDKLNTLGIDFGASQGGISGQFPPPNSTTGSLNPFTLVFDRTVLGTATDFNTNLQALVSASAAEILSRPSVLVLDGRQARIQVGQQIPIVKTTSTQTAVSKSVDYIPVGIVLNLRPRISQDLTRITIQIETIITETEERLGALATTSGVQEAPVINNRKVQSFVRVANNTPFIVGGLISRKKSEVTGGIPFLSTIPFFGRLFSSSTVETIRKEVIVVIKPHIISEEGANFSRVVPLDSETFNAFGNKLFQNSYRVQNADVYDLSFIGQSPIFKDMLKKLNAESEINKTLKVTQPYKGLLEGEIPGEDILVRRMLYDIIEKQKYYRYINPENVIFFKDNPNDPAGFEINNTNFLIGDAIKNKNKALKLTFSIKEKASAQKPFVRPTATVDYIDASKSFNYKKELQESNIYGKTSEDDVFSIIIKEKNHEERLYETLILRKVLEINPDLKLSINSFKPGIEILFPSPEVLESDSHVVDREIAKYFSEINNYYGMFEKTFNRKTSGVVKLIND;locus_tag=LOCUS_06080;note=P29041 type II secretion system protein D (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:27.1%25%2C q_cov:42.1%25%2C s_cov:41.4%25%2C Eval:1.2e-19%2C partial hit],MGA_613
sequence04	MetaGeneAnnotator	CDS	76999	77583	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIFTLSLLFLINFTSSNIYCQSREDLRRELLNVYRDIEKQLEDEIDLLVININESLNEIRLIKAKAKKIELEADSMKFYNDFKISQINTDVDSLLYDTKKNAEYLISIATELTNYSETLTKITMANIEEIRDKIEDLSLKNDNIFIEKKEESKSLLDNANKLNKNIKKDSDIGSIREHLNFIKDRIKELEEN;locus_tag=LOCUS_06090;note=MGA_614
sequence05	MetaGeneAnnotator	CDS	393	677	.	-	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKVLIITTSLVLFFSACTTHTHIVGNGAQGTSEVSKRQLWVISLVPINDVDTRKMAGGATDYEIQTQGEFIDIIVSGFTSGIVTSRNVTVKK;locus_tag=LOCUS_06100;note=MGA_617
sequence05	MetaGeneAnnotator	CDS	674	1255	.	-	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLLSILLIISGCKGKQADDNFPEFEFRSNLKLLGGFENFGPFSLRLPKNYNQIDLERFTQLKDALKNERNSFFNIELIKAFSAQENSVILISKIDESNVFLKLDDAYLDYLSSMPETVTISKSSFRLNGINTVQYQINGKTLTNIKLLFSIHEKTYCLYYYVTNLLFNDKLSEFESCLSTLKIDMEFIE;locus_tag=LOCUS_06110;note=MGA_618
sequence05	MetaGeneAnnotator	CDS	1363	1758	.	-	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISLIIKIVGTMHLVLGLSLWGIIIFAKDMIAPGASPETVVAVQGTADVVGAHSVGIGLLLIVLSFIKDIESARLVLVGELVLMITLLFIALFNTFHPYWGPEYSGPPPPFWLMLVLNPSLCIYGYYKGT;locus_tag=LOCUS_06120;note=MGA_619
sequence05	Aragorn:1.2.38	tRNA	1996	2072	.	-	.	ID=Aragorn_7;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence05	MetaGeneAnnotator	CDS	2118	4556	.	-	0	ID=MGA_620;product=Lon protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2J0;translation=MFFAINNYIINERQLKMAEQDNSNETYPVMPLRNTVLFPQQVIPTYIGRERSLKLIDDLPMGKKMIVVVAQEDGAQEDPKSDGLYVWGTLAMVLKVFDMPDNSKSAIIQGVDRVKLLSFTDKNPYFKAVVERVEDDEIEGIESEAMAKSIRSVFNDLVKVAPYLTDEHSGVLNSISNPGRLADRVISLVTIPTAEKQEILEELNVKKRLEKATLLLNREIQRINLGEKIQTEVQDEISKSQREYYLREQLKAIRRELGEEDESAEISDLEEKIKDAKMTKEASKVARKEIDRLSKIPPQSPEYSVSRTYLDWLLDLPWSKTTKDRVNIKKAKSILDNDHYGLDDVKERIIEYLAVRKLKEKKTKDGKVKGPILCFVGPPGVGKTSLGKSIAKSMGREFVRISLGGVRDEAEIRGHRRTYIGALPGRIIQSLKKAGTNNPLFMLDEIDKVGSDFRGDPSSALLEVLDPEQNFSFSDHYLEVPFDLSNVMFIATANLKDPIVPALRDRMEILDFSGYIEDEKIQIAKKYLIPKQIEENALSIKDIKFYETGIKELIRSYTRESGVRNLEREISNVLRKIARKQADGSLKKANINKSTVNDFLGAPRFYSEMAERMKTPGVVIGLAWTSVGGEILFIEASKMPGKGSLSLTGKLGDVMKESAQAALTYVRSNAKLLGIDPDFHKKNDIHVHVPAGAIPKDGPSAGTAIFTAIVSLLTDKSVKDTLAMTGEITLRGAVLPVGGIREKVTAAHRSGIREVILPHFNRKDLEEIPQRVAKDMTFHFAKEVTDVIKIAFKNPKINKIKKINSIPQVAEA;locus_tag=LOCUS_06130;gene=lon;EC_number=3.4.21.53;note=B8E2J0 Lon protease (Dictyoglomus turgidum DSM 6724) [pid:53.7%25%2C q_cov:94.0%25%2C s_cov:95.7%25%2C Eval:2.0e-234],MGA_620
sequence05	MetaGeneAnnotator	CDS	4615	5223	.	-	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011121172.1;translation=MINYKYLTNFFIISAGIIMAFILNNNSVQKTNSKPIELLDANVKKDNFIIIGNLSAELPIGWVQEVPKSSMRLTQFKLPSNDSQYSDAELSVFNAIGGSTQDNLDRWYKQFDQIDGITSKEKARVRDFSIAGMKITITDLKGTFTGGGMPMSQSVRKENYRLLAAILETTNEKYYFKLIGHENVIDNWAVSFGEFVGNLRQI;locus_tag=LOCUS_06140;note=WP_011121172.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:25.6%25%2C q_cov:78.7%25%2C s_cov:80.4%25%2C Eval:9.3e-08],MGA_621
sequence05	MetaGeneAnnotator	CDS	5225	6097	.	-	0	ID=MGA_622;product=lipoyl synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KDH2;translation=MKKVHQNTNKKPKWLKTKITVGSNYKELKTMVKNKNLNTVCEEALCPNIYECWERRSATLMILGDVCTRSCGFCSVITGKPIWDDPKEPLRTAQAVKQMGLKHCVITSVNRDELVDGGAKIWSETVKLTHKLNPECSVEVLIPDMKNKDDSLNIIFKSRPEILGHNMETVPRLYKSVRPQAKYNWSLSVLKKSKKFGLKTKTAFMLGLGETSEEVFELINDIYKTGCDILAIGQYLQPTKQHLPVERFVDPDEFKIYKNYGLELGLKWVESGPLVRSSYKADLQAKMSMS;locus_tag=LOCUS_06150;gene=lipA;EC_number=2.8.1.8;note=Q8KDH2 lipoyl synthase (Chlorobium tepidum TLS) [pid:47.3%25%2C q_cov:96.2%25%2C s_cov:96.9%25%2C Eval:1.3e-76],MGA_622
sequence05	MetaGeneAnnotator	CDS	6100	7413	.	-	0	ID=MGA_623;product=dihydrolipoamide acetyltransferase component of pyruvate dehydrogenase complex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64VV7;translation=MLKDIVMPQLGEGITEGTIIQWKKNIGDKIKEDEVLLEIGTDKVDSEIPSPFDGVLKEILAKPNDVFPINEVIARIDVSSLNDKSNQDEIEEKIEEKIEENEEVINEKNNILENKIIKNENNLNDNKKTFFTPLVRSIARKEGLSDDELSSISGSGQFGRVTKNDLMNYLEQKNNQTNHENSENKDFTSQNLKEDSIVNSHQLDEYVEDMDRMRQSIAKHMRDSIDTSAHVYLASECDMTNIVKFVSKNKSDFLKTEGFKLTFTPFLILAAVKTIKSLTQFNSHLNGTKIIHKKNINIGMAVALEKGLIVPVISKCDELNFLGICRKVNDLAVRSRKNQIKPSELSGSTFTVTNFGIFGCVFGLPIINQPNSSILGVGAIKKRPVVIESDNLESIAIRSICNFSLGIDHRLLDGADGGKFLKYFVSTLENLDTSSLF;locus_tag=LOCUS_06160;EC_number=2.3.1.-;note=Q64VV7 dihydrolipoamide acetyltransferase component of pyruvate dehydrogenase complex (Bacteroides fragilis YCH46) [pid:35.1%25%2C q_cov:97.7%25%2C s_cov:98.5%25%2C Eval:2.9e-74],MGA_623
sequence05	MetaGeneAnnotator	CDS	7430	9355	.	-	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIHGFSKKKILDIYKSMYLSRQLDEKLFYLFSNQKLFSSISSSGFEGCQIAAANNLIPSEDWSYLSSRDLAFSIGIGVDLKKILTKFISDSKKINNHNYYNFKIINKGSFLESVILPSIGSAISSINENSNQVVYLSIDFKDMLKGEFFETIQCSCLKKLPIIFHIQKSKNLDLNDQNILNNLSGFENLFTVNIDGVNFFESNLAFQKSVERARMGNGPSVIISNAFSLASHFSSNAKEYDYNKITESNFDNDPLLKLKTNITDFDICDINEFSYLENKIDQDIDNNIALIEQNLFDDDLDFKEKSSNISFNFDFTKNTIDQKINFSQSIYNALFEEFLENQKLLLCYSKIDKDQQKINNRLKKKYSNKRVISLPINSSSLIGACIGFSISGYKPIVKLTSLKDLYSSLKYLNFLFTNQSFLNMPMVLRVPIKDFSNLNDSENLMLNPGILNIPNIKIVYPSNAEDGKGLLKMSCRSNSFVIFFENEKLYQSESSISIEPDENYLHPFGKSSVKKEGNDITFLTYGLMVHKTLEVANILENDFNVDCEVIDLKCLKPLDLNLIEKSIKKSNKIIIIHEELLDQGPGSQLSTIISESFFEFLDGPIIRIGSKVELLKDSSKYIFPKKEEIIQIVTKLTKY;locus_tag=LOCUS_06170;note=Q9ZDR3 pyruvate dehydrogenase E1 component subunit beta (Rickettsia prowazekii str. Madrid E) [pid:28.7%25%2C q_cov:49.5%25%2C s_cov:99.1%25%2C Eval:1.7e-36%2C partial hit],MGA_624
sequence05	MetaGeneAnnotator	CDS	9348	10040	.	-	0	ID=MGA_625;product=octanoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7ND22;translation=MHIMRQYIFKNLKNNNKKLHLINLTKFDYNYAWDKQKKAVENRKLGLIPDTLFFVEHEPVYTLGKNSNQNHLLESRDFNIPIYKIERGGDVTFHGPGQLVGYPILDLHYHRLSISWFMRTLEIVLIETLKKFNIKAHRRSGFTGVWVNDYKIAALGVKLSKWVSMHGFALNINNNLKFYDGIIPCGLFQYDVTSMKSLLQKEVDINKVKKIITKNFVKNFSFDRVKLSNE;locus_tag=LOCUS_06180;gene=lipB;EC_number=2.3.1.181;note=Q7ND22 octanoyltransferase (Gloeobacter violaceus PCC 7421) [pid:45.6%25%2C q_cov:83.5%25%2C s_cov:85.6%25%2C Eval:1.9e-42],MGA_625
sequence05	MetaGeneAnnotator	CDS	10012	11406	.	-	0	ID=MGA_626;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GXI6;translation=MNKFDVLVLGGGPGGYVAAIRASQLGKSVAVIEKDSLGGICLNWGCIPTKSLLKDSEVLHLIKNASQYGIDIKDYSVNFDKTIKRSRSVSKRLSKGIEYLLKKNKIKHIAGSGVIKSTNSIEVITNDGNSELYECQNIIIATGARNKVFPGLETDGKSVISSKEAMILQEIPKRMTIIGAGAIGVEFASFFSEYGTEVNLIEMQSKLLPLEDYEISSILKKSFESRGINIHLSTKVEKIEKLKDGLKINLLDENNNSNHIKSDIALVAIGVQGNIENIGLEKIGIQIESGYIKTNEFYQTSIDNIYAIGDVIGPPWLAHVASAEGRVSAEHINKNNVTKIDYQNIPGCTYCRPQVASIGLTEDAAKKAGFSLKVGRFPLQASGKALAIGEPDGMVKVIFDEKYGELLGCHIIGSEATELIAEAGVVRTLETTQHEILNTIHAHPTISESFMEAVADAYNEAIHI;locus_tag=LOCUS_06190;gene=lpdA2;EC_number=1.8.1.4;note=A6GXI6 dihydrolipoyl dehydrogenase (Flavobacterium psychrophilum JIP02/86) [pid:51.7%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:5.6e-132],MGA_626
sequence05	MetaGeneAnnotator	CDS	11403	12254	.	-	0	ID=MGA_627;product=putative endonuclease 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87SC6;translation=MGLIGAHVSIAGGIENAPNRGTLINANSIQIFTANQNQWFPKEPQKENYLKFKELMDLETPKLSVSHASYLLNMGSPDEKKLKMSRSAFLKELDRCDNLGINYVVFHPGSHMKTDETMCLKRIAESLNYCIENRPKLNVKILIENTAGQGTNVGYKFDHLKTILDNVSKIEKIGVCFDTQHGFASGFDIRTENGWNSTFDEFDKKIGLDNLKVFHVNDSKKECGSRVDRHASIGKGLLTMETFWCLVNDKRFTNLPMILETPDPTIYESEIKLLEQLKGSKKP;locus_tag=LOCUS_06200;gene=nfo;EC_number=3.1.21.2;note=Q87SC6 putative endonuclease 4 (Vibrio parahaemolyticus RIMD 2210633) [pid:45.3%25%2C q_cov:96.8%25%2C s_cov:93.2%25%2C Eval:2.3e-65],MGA_627
sequence05	MetaGeneAnnotator	CDS	12264	12830	.	-	0	ID=MGA_628;product=GTP cyclohydrolase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P51594;translation=MNDSNLKKIEEITKDLLKEIGENTEREGLLKTPLRVAKAWHAFVKGYSQTPKEVVGDAVFEESCDEIVTVKDIDFFSLCEHHLLPFKGIAHVGYLPDKKIIGLSKIPRIVEVYARRLQVQERLTQNVADALQEVLSPKGVVVVIESEHLCMQMRGVEKKSSSMITSAVRGLFRENIQTRQEFFSMIGK;locus_tag=LOCUS_06210;gene=folE;EC_number=3.5.4.16;note=P51594 GTP cyclohydrolase 1 (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:58.9%25%2C q_cov:95.7%25%2C s_cov:94.7%25%2C Eval:2.2e-58],MGA_628
sequence05	MetaGeneAnnotator	CDS	12823	13476	.	-	0	ID=MGA_629;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080883.1;translation=MKYKEKLFLFLSAIFLTALVLGNIIGTTKFVRFYFFTVPAGVLAYPFTFLATDLICELYGKKRAQFLVIVGFTMNFFMLGLMTLGHFLSDANGVSGGTSVFESVYKFMIGNVIASMIAYLIAQTVDVNLFHFWKNLTKGKHLWLRNIFSTTGSQLVDTVSILLILFYASNLGDNVNELSDLIPLIYSSYLFKFFFALFDTPLFYLGVWFFKPKIENE;locus_tag=LOCUS_06220;note=WP_004080883.1 transporter (Thermotoga maritima MSB8) [pid:40.8%25%2C q_cov:94.9%25%2C s_cov:92.9%25%2C Eval:1.3e-34],MGA_629
sequence05	MetaGeneAnnotator	CDS	13466	13876	.	-	0	ID=MGA_630;product=6-carboxy-5%2C6%2C7%2C8-tetrahydropterin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RYU6;translation=MPFVTKIFKFCAAHQYSNSSWDKNKNFQVFGKDHKLHGHNYELEITVTGKINHETGFLVDLGNLKKVVNMKVVDLLDHSTIDQDIEWFKNKQPSTENLVIWIWNQIANDIDVKLYRVRLKETPTIYTDYFGEDIEI;locus_tag=LOCUS_06230;EC_number=4.-.-.-;note=Q2RYU6 6-carboxy-5%2C6%2C7%2C8-tetrahydropterin synthase (Salinibacter ruber DSM 13855) [pid:39.8%25%2C q_cov:95.6%25%2C s_cov:97.1%25%2C Eval:2.1e-22],MGA_630
sequence05	MetaGeneAnnotator	CDS	13970	14311	.	-	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVGLYIDDFQFGTSLADSLSMANFQFKFFDKNDFNCNHFTYIIIDLDDLNNYNEIKLNEYKSAFSEKIVIVTSNDITKDFISSIKKLGWKWVFSKSTLRKNLINILNDVSA;locus_tag=LOCUS_06240;note=MGA_631
sequence05	MetaGeneAnnotator	CDS	14317	14715	.	-	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEFEKIDYLFNKGVELFNKKKFYDAHEEWEEMWSDYYLKDRLFIQGLIQLTVSFYHLSTNNIKGSKNLMERAIKKLTRLGPNNGSWSSNIRGIYASEFISQINVCSESLMKIQNCDEFNWNLVPSIKKIKK;locus_tag=LOCUS_06250;note=MGA_632
sequence05	MetaGeneAnnotator	CDS	14712	15788	.	-	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMNEFLKNIHLKNKPEILKFAKSVVSSSTSLKDFFQDIFIIVASYKDVKINNQNFYDHPLIDLNSLKNIASLNLKNPSYEIVLKAIDVLLNIPSQKINLKNKKVELDSQMLNSPLLTDVFIKSVVQKNHKIAELEAAKIISMSDNPISVLEVLMELSIPNFNLLGPLTYSIYRSGRFANSEFMIFINILIQSNITFNYEKNLNKVNTDPIIFFPILNEENQNFNSLILYAIGLRLWNYESPRQLNFQKNIISFFEKNFKVNQNKNNQFKVSKKSVNSLIEGLDKKDPILISSFLYHSKSSSTWNWTVELVMRYDNNSNMTHKYLFIDSIQFLIKNLNNDYLFLLSEYLISFDKHLSK;locus_tag=LOCUS_06260;note=MGA_633
sequence05	MetaGeneAnnotator	CDS	15775	16479	.	-	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFKKKYLFPFFLLFINCASHPTIADHTLEKGEQYYGYTLSTENIFPVLFYRYGLSEVSDVGLRLGVPVYGSGFDYSRTLYEKEKKRDVLNIGWSLTPNSNLDFTYYKFLDGKKEGSTFYWALRGMLIPHGSYSESGSSSRIGILVGIFRKGKIGIEGGYFHDFASMPISKLYIPSWDKFVAKEENKEKFGRFDLPHVSPGGWPTQHSRLVGLSLRLTFSLNSNESVKKVNVNE;locus_tag=LOCUS_06270;note=MGA_634
sequence05	MetaGeneAnnotator	CDS	16480	17061	.	-	0	ID=MGA_635;product=photosynthetic protein synthase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964210.1;translation=MKLKKYIKYILILVPVFVVLMMNDYFSKKTLPVLGNINNFILYDQNGNEFSKQDLFGNYWISDFIFTTCAGPCPVMSSQFQGFQEKYSDNSNLKLLSISVNPQYDTPNILQNYGERYSADFKKWNFLTGDVNEIHTLALESFKVGDAENPIFHSAFFILIDDQAQIRGYYNSTINEDIDKMYSDINDLMDKKI;locus_tag=LOCUS_06280;gene=ypmQ;note=WP_011964210.1 photosynthetic protein synthase II (Flavobacterium psychrophilum JIP02/86) [pid:32.0%25%2C q_cov:84.5%25%2C s_cov:78.4%25%2C Eval:9.4e-23],MGA_635
sequence05	MetaGeneAnnotator	CDS	17093	18931	.	-	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGLVKSHESGLSVPDWPNTYGEFMFSFPYSKWVGGIFYEHLHRLFASFVGFLILILSFWVWKVESRIWLKKLGFAALFTVVLQGLLGGLTVIFLLPTLISMAHGILAQTFFCITIAISFYLTIKKDSKKNTLLRHHSKFIKLVFVLTLMVYLQLILGALMRHTNSGLAILDFPLSNGQLIPFPNENLLSSINYLRFDLGLNSVNLFQITTHILHRIGAIIVFVTNGILLLHTLKFHRGNDKLLIPVLFITLLVITQIFLAAFVIWTRKSPLITTFHVWTGALILGSSFLLLLKSFNSYQINKSFFSFLFSKDNSKKINKNSITNLFFSFLELSKPRIMWLVVLSTILGYYLGSINNNLFSFNFLKIIYTIIGTMCVCSGASILNQFLEKDLDKNMNRTKNRPLPSSRINPNTARNFGTYISAIGVVIFFIFVDIMVGFIAFLTIFLYVIVYTPLKMKTNLNTWIGAIPGALPPLGGWVAGTGTIELGGLILFSILFFWQIPHFYSIAWIYREDYAKVGFKMLPIYDYNLKKTSFYCVFFTILLIISTSSLTWIGLTDELFLYGSLFIGLIFLYLSIETFSEWTYKKAKRLLIGSIMYLPILLFILILDKTF;locus_tag=LOCUS_06290;note=Q2S012 protoheme IX farnesyltransferase (Salinibacter ruber DSM 13855) [pid:34.2%25%2C q_cov:46.4%25%2C s_cov:98.9%25%2C Eval:2.0e-42%2C partial hit],MGA_636
sequence05	MetaGeneAnnotator	CDS	19031	19981	.	-	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLELLRRSGLPDGFTAQSQSIDSVMSWVHILMLILFVGWGTFFIYTLIKFRKKPNVPADSKGMKNHYSTYSEAAVAIFEIILLVGFSFPVWANRVENVPDPSKSEVIKVVAQQFKWNMRYPGEDGVFGRTSPDLIDDQGLNFIGLDRKDTFASDDIIPTQGHMHLPVNKDITIEMTTRDVIHSFFIPVMRVKQDAIPGISIPFWFTPTKTGSWEIACAQLCGNSHYIMKGYVHVHTQKGFDAYMKALSVIQQIDDYDFTYEVEATLSQVIDFLKKDDSSKAEDLAVFALSQAEQAKIDKESSGGGDDAWDDWGDDW;locus_tag=LOCUS_06300;note=WP_012709066.1 cytochrome-c oxidase (Sinorhizobium fredii NGR234) [pid:33.6%25%2C q_cov:72.2%25%2C s_cov:82.5%25%2C Eval:7.4e-31%2C partial hit],MGA_637
sequence05	MetaGeneAnnotator	CDS	19982	20209	.	-	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKNIIILFLTLIPSLSMACSVCYGANSNDELSQGLNMAIIALIGVTGTVLGGIISFVVFLNKRQKQINKELKGF;locus_tag=LOCUS_06310;note=MGA_638
sequence05	MetaGeneAnnotator	CDS	20206	20400	.	-	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKALHLILISLSTILSFGFSYWALFIANESFFIFGLLGMIFSISLIIYGFWFLKKLKDVSYL;locus_tag=LOCUS_06320;note=MGA_639
sequence05	MetaGeneAnnotator	CDS	20366	20707	.	-	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNSKDIKKEINQYIRIFFALGVLTVITVAIAYIDVGKMWIAVLLAMIVASIKGTLVAGFFMHLFHEKKIIYLFLGITVVLLCSLFFITFGSIYNQVGEIEQGVIKSTSSYTD;locus_tag=LOCUS_06330;note=MGA_640
sequence05	MetaGeneAnnotator	CDS	20709	21311	.	-	0	ID=MGA_641;product=cytochrome oxidase subunit III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939101.1;translation=MEVPYTVKPRLDTGLYNSKLGIWLFLASEVMLFGALFSSYILLRAAAPSWYAGPDVLNVPIGTLNTLILIISSVTILLSWTSIRSKDIQKYKIYMGATILLGALFLFIKIYFEYLPKIDHGHIPSENNFYATYYTITGLHAIHIIGGLIVNLYFLGPGLKMYNKEPERFCNRIETAGLYWHFVDIVWIFLFPTIYLLPGS;locus_tag=LOCUS_06340;note=WP_010939101.1 cytochrome oxidase subunit III (Desulfovibrio vulgaris str. Hildenborough) [pid:34.7%25%2C q_cov:91.0%25%2C s_cov:93.6%25%2C Eval:4.5e-23],MGA_641
sequence05	MetaGeneAnnotator	CDS	21314	23044	.	-	0	ID=MGA_642;product=cytochrome-c oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962550.1;translation=MSDHHNEPFWRKYIFSVDHKIIGIQYGITSLLFLLFGFILMLVMRWNIANPGQAVPFIGGLLSEEGMLTPDKYNSFGAMHGTIMVFLGVVPLAVGAFGNYVVPIQVGAPDMAFPKLNMASYWVYFVGGVIMLSSFFMPSGTASSGWTMYAPLASIANTGETIWLISMLFLITSSLLGSANIIVTVVQLRAPGLTWMRLPFFVWTQFITAFLLLLAFPPLQAAAIFQFMDRVFGTSFFLPSGLYVGGEVLNVAGGGTPLLWQHLFWFLAHPEVYVLILPALGIVAEVLANNSRKPLWGYRSMVYSGIFLGFMSFVVWAHHMFLTGMGTTMAAFFQTTTMIISIPSVIILSSLFISLWGGSIRFNTPMLFALAFLPMFGIGGLTGLPLGLASADIHLHDTYYVIGHFHYVVAPGTIFALIAGIYYWFPKVTGKTTNELLGKIHFYGSLIFMNGIFFPMFFQGLAGVSRRLYDGGESYVHAQGAIQYNDFMAFSSQMLFLFQFFFIFNLIYSLFKGKKASSNPWDATTLEWSAAPSPPLPHLNFKEIPNVYRPAYEYSTEDALKEGIDFVPQNKKSEKV;locus_tag=LOCUS_06350;gene=ctaD;EC_number=1.9.3.1;note=WP_011962550.1 cytochrome-c oxidase (Flavobacterium psychrophilum JIP02/86) [pid:41.5%25%2C q_cov:98.3%25%2C s_cov:94.7%25%2C Eval:4.5e-129],MGA_642
sequence05	MetaGeneAnnotator	CDS	23048	23773	.	-	0	ID=MGA_643;product=methylamine utilization protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011118964.1;translation=MYFLNRFFLIVCLILLKSNFAFAGDVKGNVKYEGGIPKMKPIKMAADPICDGQHAGGPARSEWLLAKDDGSLKNVFVYVEEGLNGKKFEVPSESVVLDQIGCVYVPHVSGVQVGQNIDILNSDGTLHNVHSMPKNKNNKAFNEAMPGARKKITKKFDDAEVMVRMKCDVHPWMGAYIGVVNHPFYAVTDENGNFTIENLPPGEYTLKAWHERLPSKTATIKVDADGETSVDFVMKRPPKKE;locus_tag=LOCUS_06360;note=WP_011118964.1 methylamine utilization protein (Rhodopirellula baltica SH 1) [pid:31.0%25%2C q_cov:90.0%25%2C s_cov:83.7%25%2C Eval:3.6e-18],MGA_643
sequence05	MetaGeneAnnotator	CDS	23801	26785	.	-	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKETHYDIFNLNRLFAMSSLFLFFLILWTFADDYVRSWKDYQKEFRQLESNLTIDLLSDESSRIEELEDYKLALNELEKSQIDLNVKKANIDSIGEIISKLKDDQFKFNQELGFAKSVYDVAKFEYEYAVTYYSSKKIESAKKNMDLLFSDVEKNTLLVQDIEASLLNENNKLSQITASYDQSLSKITQLEMQKNLYDRKLKTVDPNSMTLPNKIANFIRDLPILDLSNPYYKINQVIIPDIKENMIFAEVSRVDRCMTCHLGIDKKGYEDAPQPYTTHPNLDLYVSSASAHSNEEFGCTSCHAGRGRGTDFTTSTHSPSSPEQEEEWVKKYDWKEMHHWQTPMYPSQHYEAGCLKCHSSEASIPESKDLNIGLALFEKASCNGCHYVERYDGNLNQRIGPNLTHLSSKTDKEWTYRWVINPQNFRHNTWMPNFFELMEWENETDSLRTNQEIHAIVDYLFDNSEPFKMENNTLIGDFSNGENLYNNLGCKGCHQIQEEPVEIIHTVATLRQEYGPNLIGLGSKTNKQWLFNWLKNPKNYHPETLMPNLRLSDKQAADLTSYLLEFKNDDFMSTDISPVDEDMQSFIAKEFLSKSNSNKVVEEIVSDMSLEEKIDYNGSKLVQHYGCTGCHVIPGYQDAKRIGVALDGEGSKPLNKLDFGFVKIPHDRISWFKQKIKYPRSFDKNKVAGPYDGLRMPKFGFSDYEAEKITTYILALNNDPNKVPSSTPKKDFIEEGQWVVKQNNCMGCHIMEGRGGDILAHYESNPEYGPPNLNTEGAKVHPDWLLSFFENPKTIRPNIMVRMPSFGLGEKKWNDLISYFQYWDNHTVQYEADYIVDKNNPMFRSGKVIHDMGACNSCHFYGEELPTGDPQTWAPNLALSKKRLRADWLVEWFRNPQQIMPGTKMPKPYIPSKEELSTADASEIFGTDLMQLAGKEDDLLRGLTNYVYTISGKEDISTQISSFFEENGYDFLNPQEETDEYDEFDDWGDDDW;locus_tag=LOCUS_06370;note=WP_011122306.1 large multi-functional protein (Rhodopirellula baltica SH 1) [pid:28.2%25%2C q_cov:17.8%25%2C s_cov:15.1%25%2C Eval:8.3e-12%2C partial hit],MGA_644
sequence05	MetaGeneAnnotator	CDS	26792	27907	.	-	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQFKNFIDYLSQPTIMFTLFFIGFPFFFPINNFFDKWHKRFRLNYLWTNAGLVLVMIGFIGFLLIGLDDPDFQKIVLKPDNVPIVGLLFLAYFFLWLSMKQAVANDNRLESGQKPDEYYPVEQKVLVWPDLVYVEFISLILCTAFMLIWSIGLSAPLEEPANPAATPNPSKAPWYFLGLQEMLVYFDPWIAGVVMPGIIVFGLIAIPYLDRNPEGSGFYQYKNRRLAIFVYLFGWIVLWNLLIIVGTFLRGPNWNFFGPFEYWDTHKLEPLTNINLSEIIYIRFLNQGLPNNILIREIFGFILVFGYFLILPPLFAKTIFKRIYEKIGVFSYAVFVFLALTMISLPIKMYLRWFFNLKYLISIPEYFFNI;locus_tag=LOCUS_06380;note=MGA_645
sequence05	MetaGeneAnnotator	CDS	27923	28708	.	-	0	ID=MGA_646;product=cytochrome b6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272191.1;translation=MSKKKNIFELIQDSQVWKSVFRSGIPKTRRQKMMTVLNSVFLHLHPVRLPRHAVKLKFTWCMGGLTFFLFLVLTISGILLMFYYRPTAEYAYNDIIDMAEQVPLGIMREIHRWGAHAMVITTWLHMFRVFMTGSYKPPREFNWGVGVILLVLTLLLSFTGYLLPWDQLAIWAITVGGNMARATPFLGSEGPGAALLALGDINFVHMGADARFGLIGGRFVGEGALLRFYVLHCIGLPFIVMILMAVHFWRVRKDGGISGPT;locus_tag=LOCUS_06390;note=WP_041272191.1 cytochrome b6 (Desulfitobacterium hafniense Y51) [pid:37.3%25%2C q_cov:82.8%25%2C s_cov:90.6%25%2C Eval:1.4e-34],MGA_646
sequence05	MetaGeneAnnotator	CDS	28727	29290	.	-	0	ID=MGA_647;product=Tat pathway signal sequence domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808186.1;translation=MSSKKLEEKKIGSAPKPSIGLDSNNSTIERRSFISWITFAWITFAAALGGLLTMPLRLFFPNVLFEPPQSFKIGIPSDYEVDVVDLRWQDKFGTWIVRNTEGIYALSTVCTHLGCAPSWLENENKFKCPCHGSGFRKTGIHFEGPAPRPLERYRIVLGDDGQILVDKSRRYQQEKGQWSDPESFLKI;locus_tag=LOCUS_06400;note=WP_005808186.1 Tat pathway signal sequence domain protein (Desulfitobacterium hafniense Y51) [pid:31.1%25%2C q_cov:78.1%25%2C s_cov:96.6%25%2C Eval:9.1e-12],MGA_647
sequence05	MetaGeneAnnotator	CDS	29301	30146	.	-	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNAESEKSTIRVIVHSFFVVPFLIAAFGVLIFFIWSLLTYESKSIEEYIVDIKVGGATKRWQSAYELSRLLNDKDQYPISDRFANEMLSAYEYALLDPNTQVRQYLIRAMGQTKDSRFLDTIKSAINQENENVIADAVYALSFYNEYSNVDLIAKLIYNSSSLVRNRIAVALGEMPKTSGTFALKDLLNDVEPNVRWNAAISLAKHGDSSGKNEILNLLDRNYLNKFESIDRYEKEQVLMVAVKISPLLNDQDIDKAVLSISQKDDNLKLRDEAMKALAL;locus_tag=LOCUS_06410;note=MGA_648
sequence05	Aragorn:1.2.38	tRNA	30247	30330	.	-	.	ID=Aragorn_8;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence05	MetaGeneAnnotator	CDS	30357	31532	.	-	0	ID=MGA_649;product=cystathionine gamma-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05394;translation=MKKNNKKDLNFSTKAIHVGNQPDSDSGSVIPPINLSSTFKLEEIDGVINYDYSRADNPNRRNLEKNLASLEGAEFGIAFSSGMAAIMSLFQLLDSGDHIIISKNVYGGTYRMSSKIMSRHGIQFDWIDTTSSNNIKDSIKPNTKIIFIETPTNPSLEITDIEEVSKISKDLNILLCIDNTFMSPYGQRPITFGADIVMHSTTKSIGGHSDLVGGILLTNNSSIAEKLHFIQKSTGAVPSPFDCWLLLRSVKTLSMRYQKASDSAIKIANWLSNNFNFKIIYPGLENHPQFEIAKKQQINPIGESIFGNMISLDLEKIELRDQFLKKLSLFTLAESLGGVESLICVPNKMTHVSMPEKLKLDMGITPTLIRLSVGIEDSDDLINDLKYSLDI;locus_tag=LOCUS_06420;gene=mccB;EC_number=4.4.1.1;note=O05394 cystathionine gamma-lyase (Bacillus subtilis subsp. subtilis str. 168) [pid:48.5%25%2C q_cov:96.7%25%2C s_cov:98.4%25%2C Eval:6.6e-99],MGA_649
sequence05	MetaGeneAnnotator	CDS	31570	34620	.	-	0	ID=MGA_650;product=protein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KD18;translation=MAINFLKNIFGTKSEREIQKLLPIVDEVNKISKSLENESDDQLVKKTQEFQTLLNSCSEEIKSDKLNQDLSREKISKLEYDAHQEILNEILPEAFAIVKETCRRLVGQEWSVAGQNIKWDMVPYDVQIIGAIILHRGKVAEMKTGEGKTLVASMPLYLNALTGKGVHVITVNDYLAKRDSEWMGEIFRRLGLSVGSILNDMNPDQRREIYSKDITYGTNNEFGFDYLRDNMALSKEEQVQRGHTYAIIDEVDSILIDEARTPLIISGAVDKPTNSTFKDLRPVVQKLIREQNLLVNSLVSDSEELLSKDDKSQAGLKLLQALRGSPKNKRLLKIFQEKGTRKLAVDVESEYLRDKKLHEVDENLFFSIDEQSNVIDLTEKGRVALSPKDPEMFVIPDLGEMLDDIQSKESDVSKINELSEEARLLHSSRSEQIHNITQLLRAYSLYEKDVDYVVQDGKVLIVDEFTGRILSGRRYSEGLHQALEAKENVTIERETQTLATITIQNYFRLYHKLSGMTGTAETESEELHSIYKLDVTVIPTNRDIIRDDRNDLIYKTKREKFNAVIDEIQNCYEKGQPSLVGTISVEASETLSRILKRRGIPHNVLNAKQHQREAEIISMAGNKSAVTIATNMAGRGTDIKLKNDMVDLGGLHIIGTERHESRRIDLQLRGRSGRQGDPGSSVFYLSLEDDLMRLFNSERIASIMDRLGVEEGEVITAGMVTKSIERAQKKVEGRNFSIRKRLLEYDDVMNQQREVVYNRRNEALHGNNIKKEILNIQEDYVDVFLDNIGESEEDSQEWNWDYIENELSSIFTLELNSEIKNSNDKKELKKNILENIEKIYDLRESFVPSDVMRGFERYVTLRTIDEMWRDHLYGMDQLREGINLRAYGQKDPLLEYKSEGFDLFVNFLDEVNKNTLQRLFRTRLHGMDQAPKIINNQKIKTLDSKASQSSIDGMIATPKKPIKNVPNSKIPKDMPIKIEAKLGRNDKIIITNGKETKELKWKKAKPLIDSGKWVKA;locus_tag=LOCUS_06430;gene=secA;note=Q8KD18 protein translocase subunit SecA (Chlorobium tepidum TLS) [pid:50.9%25%2C q_cov:96.9%25%2C s_cov:98.2%25%2C Eval:6.3e-281],MGA_650
sequence05	MetaGeneAnnotator	CDS	34631	35083	.	-	0	ID=MGA_651;product=N utilization substance protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KBS4;translation=MSKNKNITRRISREIVLQALYAYELNKIDSDLDISKSKKNDFLKIILKNHVIDKNGKTFINKLYDLNIEKSKWSREKIEQKLENWDITRVATIDLLILQMMIVEMFFVEEVPLKVSITEGVEIARKFSTDESSSFVNGILDSFYQVLNNE;locus_tag=LOCUS_06440;gene=nusB;note=Q8KBS4 N utilization substance protein B (Chlorobium tepidum TLS) [pid:39.9%25%2C q_cov:94.7%25%2C s_cov:82.3%25%2C Eval:2.0e-19],MGA_651
sequence05	MetaGeneAnnotator	CDS	35083	36123	.	-	0	ID=MGA_652;product=branched-chain-amino-acid transaminase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O31461;translation=MDKNNSNKKIDWNNLSFQAISTKSMFLAKCNEGEAWDDGNLIPYGNLDLPPTAGVLNYGQGVFEGMKAYRTTKNNVVLFRPDMNQKRLKLSSKRLCIPMVDEQLFFRAVEQTVQDNHEFIPPFGKGSLYIRPISLGTGATLGLRNAPSYTFMVYVSPVGNYFKGSKIPCISVEITHEFHRASSKGVGSAKTIGNYASSLYPLNLAKSKGFDEVMYLNAENELLIDELGSANIFIIKDNIIKTPKLTGAILAGVTRDSVIQIAKEILKMDVEETEISISDVLSSDEVFCTGTAVVISPIGKITNNEATTKISDEIGPISLKLREILTDIQLQKREDPFGWIHPVEIN;locus_tag=LOCUS_06450;gene=ilvE;EC_number=2.6.1.42;note=O31461 branched-chain-amino-acid transaminase 1 (Bacillus subtilis subsp. subtilis str. 168) [pid:41.0%25%2C q_cov:96.0%25%2C s_cov:94.9%25%2C Eval:1.3e-66],MGA_652
sequence05	MetaGeneAnnotator	CDS	36169	37098	.	-	0	ID=MGA_653;product=phosphate starvation-inducible protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880868.1;translation=MIKEINIGDLDPSILFGAGDKNIDYIQDFFHCKITLRNSIVTISSNNENNKLISSIFDEMIKVSERKKVLTLIDIKSIIELFESNENVSSLSIEQIILNTKKGKIITKTNDQKKFYDLIQKEDLVFALGPAGTGKTYLSVAFAVAAYKSRRVKKIVLTRPAVESGERLGFLPGDLKEKIDPYLAPLYDALEDMVGIESLKKMLSNKIVEIIPLAYMRGRTLNDAFIILDEAQNCSKIQMKMFLTRIGKSSQAIVNGDSSQMDLFNKNDSGLIEAEKKLKKVSGIGFIYLKNSDVGRHLLVKKIIDAYSN;locus_tag=LOCUS_06460;gene=phoH;note=WP_010880868.1 phosphate starvation-inducible protein (Aquifex aeolicus VF5) [pid:45.6%25%2C q_cov:98.7%25%2C s_cov:91.1%25%2C Eval:1.6e-70],MGA_653
sequence05	MetaGeneAnnotator	CDS	37270	40158	.	-	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYCKYLLSIIAVFSIVLADHENLPVSIQAGNISDNATWSADSVYYLNDQVFVKSGATLTIEAGTTILGKYDANYSASNPAPVLVIEQGAKIDAQGTAANPITFRSELDEGDVSYGNGRGLWGGVIVLGYAPISNEGGTSNVEGLTGIPYGGSDAADNSGIMKYVRIWNGGSAIAPDNEINGLTLAGVGNGTTIEYCEVALNLDDGFEMFGGTVDLKYCSAVMVGDDAFDTDNGYQGRGQFLVVVKGDFSDKSHEMDNATGGDNDSQPRSHPKFANVTSIGGPNADDHLRLREGTGGDFRNYLIVGGDDAFRNDNNGSEVITQDISDTSLSYPDYLYISPNNVAVDLGGDDFKDFDESTDDASLTFSALSTDPGLEIVVDGQGMVIDLNLTPTTNGSAFDNVDDVVADDFFEQTTFKGAIGTVDWLADWSYLYEYGIMTGETVVVQGDITSDQTWSSENTYYLNGQTFVKDGVTLTIQPGTEIIGRYDANYNATNPAPVLVIEQGAKIDAVGTADNPITFRSELQMGDTNYGNGRGLWGGIIILGKAPISNEGGTSNIEGLTGVPYGGNDPADNSGVMKYVRIWNGGCAIAADNEINGLTMGGVGNGTTIEYVEVAFNLDDGFEMFGGTVNLKYCSAVQVGDDSFDTDNGYQGKGQFLFVARALDSDKSHEMDNRTGGDNDSQPRSFPMFSNVTVMGGDTDHLRLREGTGGDFRNYIMLGGTGGIRNDNNGSEDVTQTIPSTECAGNSASTGCDYLYLSPNNVMWDIPPARFYRDVEEDYSARYIDTGIRYLVDDAGFIQYIRTLPTGSGAAFQNVDSPRAGDTFFEATNFKGAFGADQWLKGWSILDELGVLDTWSSLDVVDSDGANLPAKFEIKGNYPNPFNPSTKIRFDIAIQSKVTMVIYDVLGHEIKSFNVGIKRPGTYELTWDGKNNAGAAVPSGAYIYNVTSGQSIATGKMMLMR;locus_tag=LOCUS_06470;note=WP_011403217.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:40.7%25%2C q_cov:29.5%25%2C s_cov:55.1%25%2C Eval:5.9e-47%2C partial hit],MGA_654
sequence05	MetaGeneAnnotator	CDS	40293	43325	.	-	0	ID=MGA_655;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000680902.1;translation=MKKFFVIALLFFSFVFPQNTSSIYGVITDSNSGEPLIGANIIIQGTSIGSATGMIGDFTISNVEDGVYTLIVSYIGYENKIISNVIIDQKKDLELNISLETAVVSGEEVYVQADRRTGTNLEVFERKRIAVEVQDNISAEQISRSGDSHVADAVRRVTGVTIVDNKFLVVRGLGDRYSNAQMNSVGMPSPEADKRSVPLDLFSSSLIDGIDVAKSYTPNLPGTFGGGNVNIRTKLYPSRTTYKIKFGTSVNSNLMPGDAIVQNLNNNSDFMGYDIGRKKALPTEFDNELISYTTIPDTFRTDLTDYFINFIGDTVLNSTPERNNLWFSQVWKRQQSIPNVFLTNTKKASLPQNISGTYGTKFSINPDLEFGFLLDGTFSSKSSRTDDIYKRYTALNDPDYPGEKLLRPSYIDLERIHYSSGSNIGANASIGMTYRDVLRFGLRNVYTHTSKDNFSRASGLSGELVRSYNDDGTIDENGLMFMQSYKEKSINLTTFSIENQFAFGFIDNKIDFKYTYGKSNSYEPFITRSEWEYDSDNGMYSVYNRNGSRPGELITSDGNEKLMDISYDHTLKTYFGDFKFGFKMDRKDRTFGRRSLYLDWAMYPTLQFDSSKSHIDENNINGILGTNYWANSYDENGEIFINEGLYFSEQTSGFDAYNADEDVDAFYIMLNRDLSDKIQLSVGVRSENHIMTMRPYHPIESTNPSFVNTTGDTIGVEIENKSKNLLPAITLNYSLSDKMKIRSSYSETLARAQFREYAPYQFVEFLGADVALGFPYLKNSSIYSTDLRFEYFPSGLELISIGFFHKHFNNPIEESLVGKSGLGYYKSWQNGDYADINGFELEYRKNLNFIPSKFGFLFLNTNLTLSQSEVVVFDSVSVFRLSPSGIPETIPFVNPIDETSRPLQGQSNIVYNFGLNYKSQTGGELNLAFNTFSKRLVTLSGDIAGSIWELPFNSLNIVGSQKFGPFKISLSIKNLLSDDIERAHIFRDEIFTTTKYSPGRSFSIGLQFNN;locus_tag=LOCUS_06480;note=WP_000680902.1 TonB-dependent receptor (Leptospira interrogans serovar Lai str. 56601) [pid:25.5%25%2C q_cov:93.1%25%2C s_cov:92.7%25%2C Eval:3.8e-60],MGA_655
sequence05	MetaGeneAnnotator	CDS	43480	44007	.	+	0	ID=MGA_656;product=phosphatase PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073878.1;translation=MSTIINKITSWDKNLFNKVFELSHKTIKIKKFFRFISWTANGPLYPIISIVLILFNSKIGFEILKIGFFGFLIELPIYLVMKNSIKRQRPTVSKEYQQRFYKIDVFSFPSGHTGGAFLVAYILSSFFPNLSFFFFSWSSLVAISRVYTGVHYPTDVFFGAIWGILCGIVTINLFY;locus_tag=LOCUS_06490;note=WP_011073878.1 phosphatase PAP2 family protein (Shewanella oneidensis MR-1) [pid:33.5%25%2C q_cov:91.4%25%2C s_cov:93.5%25%2C Eval:4.3e-18],MGA_656
sequence05	MetaGeneAnnotator	CDS	44012	45028	.	+	0	ID=MGA_657;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011704825.1;translation=MKILFGIQGTGNGHLTRSRIIIKLLRSKGHEIDVIISGRKKDKLWGIQDLKPYNVFDGLSYESKKGKIQKLKTIKNAGIFQFLEDLKKIKNDNYDLIISDYEPLSAYLAKKWKKTSIGIAHQYAFEYDIPKTGYNLFTHFLMKKYAPVDINIGLHWHHFNQPILPPIIEKIDLHDINEKSDQIMVYLPWEEIKFVSKLLSKIQNITFLIYCNVEKEIVDKNIKYRPLSRKTFLKDLKESEGIITNAGFETPSEALSMGKKVFVKPLKGQFEQLSNAKALKQLNLATVVNKLTKKNIEKWCLKTERKKIKCEGVADQIIYWLEKGDFDRLNELKSKFWN;locus_tag=LOCUS_06500;note=WP_011704825.1 glycosyl transferase (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:39.3%25%2C q_cov:99.7%25%2C s_cov:90.8%25%2C Eval:2.9e-68],MGA_657
sequence05	MetaGeneAnnotator	CDS	45031	46860	.	-	0	ID=MGA_658;product=PAS domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722633.1;translation=MTKSSYHHLPKLSQMMIPQGIILPFIVFLFLGILVDDILEENYLREKQEELRLTSKLIEEPLLNLLEKNKSSKNPNISLLCKKIANTTNTRITIILENGFVLGDSHKNPEVMDNHINRPEVIQALNNSVGTSRRFSDSVNEKMFYFASIIPFENSKLIVRTSFPDTQLKEVLNSARIKLGALIILAVSISGITIFIIGRRIVKPLEEIRIKAERFSEGEFSSKISKQSTFEFGNLAESFNKMSKDLKKRIDRLNEEKNEKTTLISSMVEGLALINSQGKIKLTNQSFLKILKINEPEQNIVNKDFRKVIFSKKLIKIIKLSINTGKSNQFDLNIDKKINSFVQITISPIRELKNKKFDIILVMNDISRLMLLERVRKDFVSNVSHELKTPLTVINGYLETLQNKSVVNPDQKKIFLKTIESNSRRMGSIIDDLLMLSKIESQAEEESINKIITPIKPLLNSSLDDIILKYGNIKEYENFQLKNNINLDCDENLSFPLNIELMRQAISNLIDNAIKYGGLNSNINIKAHIKIDNLHISVKNTGSFIIKDFQTRLFERFYRVDKGRSRNKGGTGLGLAIVKHIALAHNGYVAVESKENDGTCFTIKIPKET;locus_tag=LOCUS_06510;gene=phoR;note=WP_003722633.1 PAS domain-containing sensor histidine kinase (Listeria monocytogenes EGD-e) [pid:29.3%25%2C q_cov:96.4%25%2C s_cov:97.6%25%2C Eval:3.4e-66],MGA_658
sequence05	MetaGeneAnnotator	CDS	46853	47542	.	-	0	ID=MGA_659;product=DNA-binding response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416112.1;translation=MKNILIVDDEPDILQLLAYNLELANYSTKTFENGEDAIIYAREILPDLILLDLMLPGINGLKVCELLKKDKSTSKIPIIMLTAKGEENDIVKGLDIGADDYITKPFSPKVLIARIDAVLRRSAFNQLDKESEVIKFKNLSIHLGKREVNLDDKKIVLTFSEFQILTLLINRPGWVFTRNMIIDALHGENYPVTDRSVDFQIVGLRKKLLHYGNYIKTVRSVGYRFLDND;locus_tag=LOCUS_06520;note=WP_003416112.1 DNA-binding response regulator (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:46.9%25%2C q_cov:96.5%25%2C s_cov:97.4%25%2C Eval:1.0e-48],MGA_659
sequence05	MetaGeneAnnotator	CDS	47728	49287	.	+	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFYLIIIFILFFAAFADLIVGISNDAVNFLNSALGSKASNRVTIMIVASLGVFLGTTFSSGIMEVARKGIFNPEMYVYHEVMIIFLAVMITDIILLDFFNTYALPTSTTVSIVFEILGGAVAIALLNILIYNSNFSLIDYINTSSVFKIVSSIGLSIFFSFIFGFIIQFIIRLWFTFNYEKSIKLIGPIFAGIASAVISYFLLIKGLKGSSLINEFQKIWIENNFSMVITYGFFSFTIFYYFVSFIFNVNVLKITVLLGTFALALAFAANDLVNFIGAPMGALASYNITNSIPNVNPNTFLMDGLNSKVNAETWILLIAGTIMVITLWLSQKAKNVTETEINLGRQSHGVERFGSSVLAKALVTFGIIISKFIYKITPVKISNFVSKRINPKNIPENKKLNNPPAFDMIRASVNLVVASALISIGTSLKLPLSTTFVTFSVAMATSLADKAWGKESAVYRVNGVLTVIGGWIFTAFLAFFACSIFTTLIYFFEYYAIATLILVAGYYYFKSNKIILKK;locus_tag=LOCUS_06530;note=Q64PX3 phosphate transporter (Bacteroides fragilis YCH46) [pid:43.8%25%2C q_cov:99.4%25%2C s_cov:68.2%25%2C Eval:4.2e-115%2C partial hit],MGA_660
sequence05	MetaGeneAnnotator	CDS	49293	50039	.	-	0	ID=MGA_661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIILIFLFLFPIFANDNIDAYQIIKHLKSSFIPNDISIHYSYTLSKTINDLKKEKKREIMIHQKFYNDKEYHFKSLINFIYPKQIKGTSILIWENIDSSKSYRSIFIPGINREKELNLKNKQSFMGLEFNIIEFYDILNNNNYHMLNDKDVNYVDYYRLKSKNDYDNQIIWVSKNNLDLKKIEFFNKSDLMIRSIEVFNLVKIDDIRLLTEFVVYDHLKKTQLTFRTIDYQINSNLSETIFQKKIK;locus_tag=LOCUS_06540;note=MGA_661
sequence05	MetaGeneAnnotator	CDS	50103	51908	.	+	0	ID=MGA_662;product=peptidase M61;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259046.1;translation=MLRKKFIFLLILLSLIKAKENQNIMIRYNLKMPKPSTHYFHVEMEISNIFSDSILVKMPVWAPGSYLVREFSKNVIEFEAKSESQKLVDYKINKNTWEIKTKNINKINISYKVYAYEQTVRTSFLNESRGYLNGSSIFMFLDGKKGLSGEVEITPPKRWKNISTGLPNVKNKKNTFFFQNFDELVDSPFLIGNHKIISFKLKNKLHEIALYGEGNVDEKKLEDDFKKIILTTSEIFGDMPYEKYLFIILMLDNKRGGLEHLNSTTVQADRWIFSEKRLYNKFLSTVAHEYFHTWNIKRIRPIELGPFDYDMENYTTELWVAEGLTSYYDNLLLLRSKILDTSEYFDFLSDDINSFEMKFGKNIQTLSESSFDSWIKYYRQNEESQNTIVSYYSKGSVIGLLLDLTLIIKSNGKLKLDDVFTELYKRYNETPDIGFTKDEFREICEGFAGEKLDYIWKYVDSTDPIDYNYFLKEVGYSFEKKVDQDNQESNTPFMGFEINNSSNPIIKSILRNGPAFQAGLNVFDEIIAINNVRINNVTLPNRINDLEIGKEVNFLISREGILKELTLIPIDFDNSKYNFIKNENASQKNKEMFNIWLGENW;locus_tag=LOCUS_06550;note=WP_012259046.1 peptidase M61 (Chloroflexus aurantiacus J-10-fl) [pid:34.5%25%2C q_cov:93.5%25%2C s_cov:96.9%25%2C Eval:5.1e-99],MGA_662
sequence05	MetaGeneAnnotator	CDS	51902	52525	.	+	0	ID=MGA_663;product=thiamine pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202076.1;translation=MVKFSEEVIVLLNGNFPTHSLPLSYLSSSKTIICADGAGNKAIENSITPDYIIGDMDSLKQNNISKNVILLKDEDQNSTDLEKILNWSIKNRIKEITLLGISGEMEDHSYINLHIMAHFSDRITIKAVTDHFTILHLKNLNKIKCKKNSRISIVKAHDNPIINTKGLFYEIINEHLNLPSQGLSNKSISDSFTINIKEGSIFLFIEN;locus_tag=LOCUS_06560;note=WP_011202076.1 thiamine pyrophosphokinase (Bacteroides fragilis YCH46) [pid:28.4%25%2C q_cov:96.1%25%2C s_cov:95.2%25%2C Eval:5.2e-17],MGA_663
sequence05	MetaGeneAnnotator	CDS	52527	53891	.	+	0	ID=MGA_664;product=sodium:solute symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009898767.1;translation=MELNLSIIDKFLIYGYFILILIIGLLSPAKKNQDDYIVIGRKLSIVPFSISLVATWYGGILGIGEFTFKYGISNWFVFGFPYYIFAILFALFFANKINQEKIITIPDRLRKNFGNTAGFLSAIIISIISSPAPYILSCALLINFIFNISIFLSIILSTILSMIYMYKSGFRSIIRTDIIQFVFMFAGFFLLVLFCLKDYGGINYLYENIPKPHFDLLGGNNIQYILVWFFIGLWTFIDPNFYQRCIAAKNDKTAKYGILISVLFWMIFDFLTLISGLYCVAILSDNINEVLAFPYLGIKILPPFIKGVFFIGLFSTIMSTIDSMGFLSSVTIGRDFFWRITKKYNEEIWTKLSLPITGSISIVIVYFFSSVIEIWYFIGSIMIPGLIIPFIITFSKKITIRKPTYIIIIPIMISILWNVFKDPNKGYIFGIEPFFIGLISSLLLTIIFQKKKII;locus_tag=LOCUS_06570;note=WP_009898767.1 sodium:solute symporter (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:23.9%25%2C q_cov:79.5%25%2C s_cov:79.3%25%2C Eval:4.9e-24],MGA_664
sequence05	MetaGeneAnnotator	CDS	53893	54909	.	-	0	ID=MGA_665;product=fructose-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MIJ3;translation=MNLEQLELNAKKMATKGKGLLAADESTGTIKKRLDTINTESSELNRRKYRDMLFTAKGMEDFISGVIMYDETIRQSTINDEIPFSKLLSDLGVLPGIKVDMGAKPLSCFDGEFITEGLDGLRERLAEYYSLGARFAKWRAVITISDKTPTFASIDANAHALARYSSLCQEANIVPIVEPEILMDGKHSIDTSFDVTTEVLDSVFDALSNLDVYLEGIILKPNMVLSGYDSKDQASVEEVADATVTCFQRTVPAAVPGIMFLSGGQSDLLATEHLDAMNKLDTVKPWELSFSYGRALQTAALNAWSGKDENLEAGKEAFLHRAKCNSAAAKGEYSKDME;locus_tag=LOCUS_06580;gene=fbaB;EC_number=4.1.2.13;note=C3MIJ3 fructose-bisphosphate aldolase (Sinorhizobium fredii NGR234) [pid:59.9%25%2C q_cov:99.1%25%2C s_cov:98.5%25%2C Eval:1.2e-101],MGA_665
sequence05	MetaGeneAnnotator	CDS	54928	56142	.	-	0	ID=MGA_666;product=pyrophosphate--fructose 6-phosphate 1-phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UES2;translation=MSLKNNRKIAFLTAGGIAPCLSASIGALIIEYVKKLPDVEMIGYSHGYKGLLLGNHIPINEKVKQNANILFDFGGSPIGNSRVKLTNTDDCVNRGFIKKGQDPLEVAAQQLVKDNVSILHTIGGDDTNTMAASLVEILDKKGIELTVVGLPKTVDNDVYPIFQTLGASTAAEQSAVFFENIANENTTSHRQLIIHEVMGRNCGWLTAASAQIYRKQLQAKQFLPEFLISKKRWDVHAIYIPESNFDFNKECERLKNIMDDNDCVNIFLSEGAGIDTIIKEKENIGEDVERDAFGHVRLDSINPGNWFANKFGERLKADKILVQKSGYFARSAPANDEDLDLIKKTAVIAVDQALQGKSGVVGLDNDNKGLLGLIDFYKIKGGKPFDANSTWFKAMLAEIGQISN;locus_tag=LOCUS_06590;gene=pfk;EC_number=2.7.1.90;note=Q7UES2 pyrophosphate--fructose 6-phosphate 1-phosphotransferase (Rhodopirellula baltica SH 1) [pid:56.6%25%2C q_cov:98.8%25%2C s_cov:88.1%25%2C Eval:9.8e-130],MGA_666
sequence05	MetaGeneAnnotator	CDS	56272	57522	.	+	0	ID=MGA_667;product=glutamate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9WEM0;translation=MSKDSQKINNFKAFCDQFERAANELGLDKNLADSIMMPDRELSVEVPLNKDDGNLAVFKGYRIQHNNARGPFKGGIRFHQEVDLDEVRSLAALMTFKTALVNIPYGGGKGGITVDPRNLSKRELEQLSRRFFRRISPIIGINTDIPAPDVNTNAQIMAWFMDEYSQNNGYSPAIVTGKPVDLGGSLGREAATGRGVFFTIKEVAKEFELNLDQSSAVIQGFGNVGSYAAQFLDEVGCKILAISDISGAYYDESGIDIKNSIQYIKENGSLEGFKQGKKITNEEILNLKCDFLIPAALASVINKSNAANLNCKFVIEAANGPTTPGGHDILKEMNIPVIPDILTNAGGVVVSYFEWVQNLQQFKWSEEEVNSKLENKISSTYEEVTSVRKEKNVSFRRSAFMVAIDRVSKAELMRGL;locus_tag=LOCUS_06600;note=A9WEM0 glutamate dehydrogenase (Chloroflexus aurantiacus J-10-fl) [pid:49.2%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:7.8e-114],MGA_667
sequence05	MetaGeneAnnotator	CDS	57529	58785	.	-	0	ID=MGA_668;product=citrate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UPW5;translation=MKSTKIELDGKKIDLKIIEGSENEKAIDITNLRKESGYVTYDPGLVNTGSCLSDITFIDGKEGILRYRGYPIEQLAEKASFLDVCYLLIYGDLPTQEKSLDFANNVKHHTMIHEDFKKLFDGYPINAHPMGVLCSTAATLSTFYPSSENQDLDLNVLRLIAKMQTLATFSYKKSIGQPFIYPKNDLKYEENFYHMMFATPSDLYSPNPTLVDALRLLLILHADHEQNCSTSTVRIVGSSGANLYISIAAGIAALSGKLHGGANQKVIEMLRMIQEDGNDFTKYINLAKNKDSNFRLYGFGHRVYKSFDPRAKILKKAADKVLNELKISDPLLDIAKELEEVALTDQYFLDRNLYPNVDFYSGIIYQAIGIPTSMFTVMFALGRLPGWIAQWKELSEDKSQKISRPRQIFTGKTKRNFK;locus_tag=LOCUS_06610;gene=gltA;EC_number=2.3.3.16;note=Q7UPW5 citrate synthase (Rhodopirellula baltica SH 1) [pid:55.3%25%2C q_cov:99.0%25%2C s_cov:84.4%25%2C Eval:6.9e-142],MGA_668
sequence05	MetaGeneAnnotator	CDS	58902	59876	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLKIKKIISIFILISCSHIYCLELSNQIFIQFFKISPNEKSFDERFKLKRGQIKLIKKINKNIFIEFSPDFQSISKSEIKPYLKTGFISWKSNYGLIYTFGYQFSSIYGPLRMNWRNPFIDGVSGVVNDFHEIGDFGLSFKWNIKNDFILKSGIFNGTGYKLNENDKFKKIELLLFKGKEILTNHSNNYGVIFSFEPYENTNSNIFFNYRYGLFFGKSKDLNRIGIEYHLKSNNETKVQKDLFTIYSTNKLRKKINLINRFEFLREFENHNPFFNYSSSNLNYTFGLLISLSPNVSISPSSKFSINKKESFFYYKLNFIIKSS;locus_tag=LOCUS_06620;note=MGA_669
sequence05	MetaGeneAnnotator	CDS	59869	60813	.	-	0	ID=MGA_670;product=ADP-heptose--LPS heptosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880036.1;translation=MALPFLAACKQKHQNDKIICIARQWVSPVLEKNSNIDELIIITKDQDKKIFELIGFLNLLRLKNIDIFYVLSDSWRTAFFAWISGANQRIGFDRYKKSILLTKSVNVNHHEIHRSKKYLSLINKEKIDYEIKSEIELSKEEKLESKKYLNKLKIKTFLGLFVGSNARNRMISVDFWISICNKALDENMKILIFGSKKDEIISSEIIKQLNDKNIFSVCGKISLRETISLISFAKGVIATDSGLGHVSSNLGVPTISLFAAGNPIVTAPVGKKIKVINKNVYCQQCGEKKCKDPLICLNNIDPNSVWESYIKLIN;locus_tag=LOCUS_06630;gene=rfaC2;note=WP_010880036.1 ADP-heptose--LPS heptosyltransferase (Aquifex aeolicus VF5) [pid:27.7%25%2C q_cov:99.7%25%2C s_cov:94.3%25%2C Eval:2.3e-16],MGA_670
sequence05	MetaGeneAnnotator	CDS	60861	61910	.	-	0	ID=MGA_671;product=UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000723418.1;translation=MKNDIEKSNFVLIFFGTRPEVIKLFPIINLLIEKKIQYKLVFTGQHTSLYEDVKHLIPIPDYNFKIDDKKQSLSEKLSLIISKSGELMEKLTPKLIIIQGDTLSSLGPSISAFYKKIPVGHVEAGLRTYNQNSPFPEELHRQIISKTSRFNWAPTFNAKKNLEKEGVENILVTGNTIIDASSYFNFPITYEDKILITIHRRENFGNSIIKIFKDLNKLAKKYKNLEFIFPLHPNPEVVKNKDLLDNINIINPLKYEEFLKLLSKVKFVISDSGGIQEECAFFRKKILICRNETERIEGIDCGLSKLIGTKINENFSWANNNPQWNGNNPYGDGKASERIVDDINRYLKI;locus_tag=LOCUS_06640;note=WP_000723418.1 UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing) (Staphylococcus aureus subsp. aureus N315) [pid:37.9%25%2C q_cov:97.1%25%2C s_cov:97.1%25%2C Eval:2.2e-63],MGA_671
sequence05	MetaGeneAnnotator	CDS	61912	63543	.	-	0	ID=MGA_672;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931909.1;translation=MNQTLKMWSNNLFLDDSAIGTLKRLCYSIFIIFLMKNIFLYFKNYFSGMIQLKIINTLRNSLFNHLNSLSLSFFKKSNTGKLTSIVLNDVDIMKNAFSVSFQKLLVEPINILTFVSLLFFIDWKLALYSLVILPIAFSLMAWVGLSIRRKATRSTKQIAGIVSILQEVLGAIRIVKAFVMEKSEKRKFSKETLKYFNLQRRQIILRLASPPITEMIGVIMGVILLWLGGQAVLIDNSMYPEDFIRFILILFSILKPIKTLNSVNVDMQTAFASAERVFSIIDTKSNIIEIANPIKINQLKSSIEFDKVFFKYEDSSINILENISFSINKGEVVAVVGESGSGKSTMADLIPRFFDVDQGKIKIDGHDIRELEKKSLRSLMGIVPQETILFNDTIANNIGYGKKGINKNDLIKVARVANALNFIENQPMGFNTIIGDRGIKLSGGQRQRISIARALLKNPPILIMDEATSSLDSESEKKVKKAIERLMKNRTVFVIAHRLSTIVNANKIILLKKGKIIETGTHKDLLNNNKDYKKLYDVQFGIG;locus_tag=LOCUS_06650;note=WP_010931909.1 ABC transporter ATP-binding protein (Chlorobium tepidum TLS) [pid:40.1%25%2C q_cov:95.8%25%2C s_cov:84.0%25%2C Eval:4.2e-105],MGA_672
sequence05	MetaGeneAnnotator	CDS	63560	63706	.	+	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSSCAIFKVSKSDKILLIKEAVSQIDNELKKTNARDDKIDNNNKKE;locus_tag=LOCUS_06660;note=MGA_673
sequence05	MetaGeneAnnotator	CDS	63877	64239	.	+	0	ID=MGA_674;product=chaperonin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545317.1;translation=MRLGKRKIIVIGDRILIKPDENSEKTPAGLYLPPTIQDKEDVWAGIVTDVGPGMTISDPNNIEEEPWKTSSENYKFIPTQVEIGDYALFLKKASVELKLDNQKYLILPQSAILVVIRADI;locus_tag=LOCUS_06670;gene=groS1;note=WP_012545317.1 chaperonin (Thermodesulfovibrio yellowstonii DSM 11347) [pid:52.1%25%2C q_cov:96.7%25%2C s_cov:90.7%25%2C Eval:8.4e-32],MGA_674
sequence05	MetaGeneAnnotator	CDS	64303	65169	.	-	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGDMPPMDGDMPPTGGNMPPMDGDMPPMDGDMPPMDGEMMPPMLLSGDWWAHPADDHHGEMSHDGPHDGPHDEFEHDGDMTPVDYVIMGLEGFMEDKIADGDLDEGDAQYMATIVENLEDAVHSEKDGQGDDLAGTELEEAIQWMDENDIDEGIKDKFMNELEKLEWQVHNEYEPTPPPFELIDLDGDELISQEEAKEFLGPQYSDARWDATDVNGDAIVDPDEFAVASSRPPAPTNHYDGNCAALCLGFDEYFVDANGDGWANTSGDDMDEGPFATWEEPSCECPE;locus_tag=LOCUS_06680;note=MGA_675
sequence06	MetaGeneAnnotator	CDS	1043	1633	.	-	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011704776.1;translation=MFNFVNKSFDWVIKWANSKYSLLALIIFSFLESSISPFPIDFLLTAMCISNPRMSFVYASLASLFSVLGGIFSYVIGYLFMESIGLFIINFYGYGIEFESISSSFRNYNFIATLISAFSPVPYKVFAIGAGAVSADFIEFLVASALGRSARFLLNAFLFYVYGEKLKIYIDNNKILLTIIFFIFLILGIILIGVFF;locus_tag=LOCUS_06690;note=WP_011704776.1 hypothetical protein (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:35.3%25%2C q_cov:79.6%25%2C s_cov:81.7%25%2C Eval:1.5e-23],MGA_677
sequence06	MetaGeneAnnotator	CDS	1634	2299	.	-	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870048.1;translation=MKEILILVPNYNGENNILKIFQKINDLNLNNIKILFIDDGSNDKSLQILKNNNIEHIFHKNNKGKGEAIKSGIDHAFKNKFKWIITIDSDLQHSPNKIQDFINLRNKKTIILGWRKSKKNMPILRIFSNVITSLLISLRTKTKILDSQCGFRMFPVNVINDFKCVESGFQYESEFLIRAVMNGYKINHVQIPTIYNNEKSSMRNVPDTFKFITMYLKSFFW;locus_tag=LOCUS_06700;note=WP_010870048.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:26.8%25%2C q_cov:98.2%25%2C s_cov:99.1%25%2C Eval:1.1e-15],MGA_678
sequence06	MetaGeneAnnotator	CDS	2330	2848	.	-	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYLIMSKIKKYYLYIISGILFFGIVYNTPNSNKKEEKNMNKTVKTDKEWKDCLTPEEYKILREKGTEMAFTGKYYKHKEEGVYICAGCGDNLFSSKTKYDSGTGWPSFWEPISGDKIKEEIDKSLPFVRTEILCNNCGGHLGHVFNDGPNPTGLRYCINSVSLDFKPKEDK;locus_tag=LOCUS_06710;note=Q8F7W8 peptide methionine sulfoxide reductase MsrB (Leptospira interrogans serovar Lai str. 56601) [pid:63.4%25%2C q_cov:71.5%25%2C s_cov:93.9%25%2C Eval:3.1e-45%2C partial hit],MGA_679
sequence06	MetaGeneAnnotator	CDS	2882	3733	.	-	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKILFLKMLLISLLFSNKYNFNDNVKEGLKYLRIEFSDNKEPTLVENNNKIFQITINPRRNNYEEAVMMTFSCIGKIINRRLLLNTNNENIFIPSIVIVHCNVPIGRNGTYFKTSSTFIILDSFITGAINASTFWNEIILTTEYLSNELYLNKDPSFFRENVEYENLIASRIAIENKNNPNSANLISMALKSKYIPGLQGQLESMLMKHMKSKHSKLMNDVLGSSPSDEQLLRLGKLIFIHIQKPINELEEIHTMDSIRFLWNGGKYPIAINDFYLRNSNN;locus_tag=LOCUS_06720;note=MGA_680
sequence06	MetaGeneAnnotator	CDS	3730	4317	.	-	0	ID=MGA_681;product=phosphatase PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931701.1;translation=MSEIISVINQLDFNLLFFFNSTLSNPFFNYFFPLITNAKNWIYIILLFYAILIFKYPKKGLLTFSLTLITVIITDAISAQLLKPYFSRIRPSHELYENINLLIGKGGIYSFPSNHAANTMALTFTTSFFFKKSFKYLFTISLLIGFSRIYVGVHYPFDVFFGFIFGLIISKSILHFFSELKIYFIKPRIIHEDQL;locus_tag=LOCUS_06730;note=WP_010931701.1 phosphatase PAP2 family protein (Chlorobium tepidum TLS) [pid:28.5%25%2C q_cov:95.4%25%2C s_cov:97.0%25%2C Eval:1.0e-16],MGA_681
sequence06	MetaGeneAnnotator	CDS	4330	5760	.	-	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSHLNKFIVFFLLFLISCQPKLPDRTSPPESTAINELKLPNISNFTLSNDIPVFLMEKHDVPIVQFIIQINSGTYNDPKDKVGLSSFTASLLDEGAGGLSSLELADEIDYLGANLSSVSNRHSTWISLNIPKSKLNEGLNLLYSTVVNPNLDLVELNRLKEKSLTSLFQEKSQPNAIARRLFNFVLYKDHPFGFSLTESSIKNININDIKKYHSDFYRPNNAKFFIAGDITESEATKSLESLFLNWEKSIIPDSKPIEEYHELNGVKIFLVDKPEAAQSIIRIGHFSESRESPDYFPITIMNTILGGSFTSRLNYNLREKNGFTYGARSYFIMGKDKGPFIALSSVQTNATAKSITEFFNEFKKIKENVTNEEVLGAKNYLALGYPNNFESISDYASQLALLINLNLPLDSFNKYTSNINNVTKDQIINSSIKYIDTNNIIITIVGDKKEILQDIKDLKIGKINELTIEEIFYEN;locus_tag=LOCUS_06740;note=WP_011038616.1 zinc protease (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:29.3%25%2C q_cov:93.7%25%2C s_cov:47.3%25%2C Eval:6.8e-56%2C partial hit],frameshifted%2C insertion/deletion at around 5743,MGA_682
sequence06	MetaGeneAnnotator	CDS	5741	7111	.	-	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTIIIFIISFIFSTINASSINVPYTQLTLKNGLNVILHEDHSLPLISVNIWYHVGSSSEKTGRTGFAHLFEHILFEKSTNVPEGKFIQWIESRGGRFNGSTTQDRTNYFEDIPSNSLELALFLESDRMGFMLDVVTPELVDGQREVVKNERRQRYENQPYGSLRLALPSLLYDDSHPYSWPVIGSMDDLNAASDDDVINFYNNFYAPSNASMVIAGDFDTKKTIKLIKHWFSDVPAGNDPPKISHPKPYLSNDKRVYFEDKVNLPLIHISWLTPPFFKDGDAELDILANILGGGKNSRLYKRLVYEEQIVQNISVYQSSQKLSSTFNIQAFVKPGVSLDEVELKIYEEINKIFNENPSLREVQRGVNQFEAYFIRSMEMNTGYSGKADALNRYYFYTGEPNYFNQDLNRYLQIKPEDISLVAKEYLSKNKVTVSIVPEGQKQIALKNSNEITPK;locus_tag=LOCUS_06750;note=WP_011073389.1 peptidase M16 (Shewanella oneidensis MR-1) [pid:42.8%25%2C q_cov:95.2%25%2C s_cov:45.6%25%2C Eval:2.6e-89%2C partial hit],frameshifted%2C insertion/deletion at around 5761,MGA_683
sequence06	MetaGeneAnnotator	CDS	7104	7790	.	-	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAHTAGGGGVASSNLVAPTHFVFFYLNVKFLKIKLIYMKSKINIQLFTIILFIIVGCMSRIIPHAPNFTPIGAICLFGASHFTKKTYAFLVPIIIIFFSDLVINNVIYTNSSFIFFYNGFYWQYISYILIILMSVIFLKPKISIFSIGLNSVASSLIFFIISNFGVWIGSGMYPLNFIGFISCYVNALPFYYNTLISFVLYSYLLIGAFYLIQRKYNSIKPMHLSYV;locus_tag=LOCUS_06760;note=WP_011120933.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:30.4%25%2C q_cov:74.1%25%2C s_cov:83.1%25%2C Eval:3.4e-15%2C partial hit],MGA_684
sequence06	Aragorn:1.2.38	tRNA	7732	7806	.	-	.	ID=Aragorn_9;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_9
sequence06	MetaGeneAnnotator	CDS	7812	8159	.	-	0	ID=MGA_685;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404604.1;translation=MMVESNITKLYYSISEVSKITNLKQYVLRYWETEFPSLKPKKNSAGNRSYKQTDIDLIKKIKYLLYKKKYTIDGAREELTNKENININSKSNNEEYKKLLDEVLFELKDLLKKID;locus_tag=LOCUS_06770;note=WP_011404604.1 transcriptional regulator (Salinibacter ruber DSM 13855) [pid:41.8%25%2C q_cov:95.7%25%2C s_cov:81.3%25%2C Eval:6.3e-16],MGA_685
sequence06	MetaGeneAnnotator	CDS	8217	9419	.	-	0	ID=MGA_686;product=alanine aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867946.1;translation=MTKIPVSRGVSKVEYAIRDLVLPATKLENQGHKIIKLNIGDPLAYPNFPTPPHMLNAYVEALNKQKNGYSPSYGIEPLRSAIADFEKNQKNGGWDCKPSDVYITSGVSEALLILFASFLFPDDKILTPGPFYPPYVSYPPIFQSTAIQYRLKEDDNWKIDFDDLKNKLDNNVKLLSIINPNNPTGSILEKNEILQFIEIVEDYPNCTIVSDEIYNKFNFTNEHISVASLSKKTPVITLNGISKGYFAPGWRIGYIAIHDPENKLEYVRDGIEKLLRGRLSAPTPAQHGFLAALTEGDEWRDEYNKKLIKQRNYCVERINDINGLSVKKPKGAFYIFPKIEDNPYENDKEFVLKFLEQEKVLLVHGSGFSKDYGKEHVRIVYLPDIKILEIAFDKLKSFMK;locus_tag=LOCUS_06780;note=WP_010867946.1 alanine aminotransferase (Pyrococcus abyssi GE5) [pid:44.3%25%2C q_cov:99.2%25%2C s_cov:98.5%25%2C Eval:2.0e-95],MGA_686
sequence06	MetaGeneAnnotator	CDS	9433	11619	.	-	0	ID=MGA_687;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y7F1;translation=MSIKKSSIDIAGKKLTVETGVLAKQSSGAVTVRYGDTLVLCTANSASEPKDGINFFPLQVEYREKFYGAGKIPGGYFKREARPSEKEILSARLTDRPIRPLFPKDFKCETQVIINLLSSDQENPGDILGTLGASIALMISDIPWNGPIASLRLGFIDGKTIVNPTFEELEKSTLDLVMTGTSDSIIMMEAESKEISEEDLLTVVQYGHEVIKDLIDFQIDFIKDIAKEKRVVETDEIEKKLITFIKPKVTKELKIIFKDSPDKRRTLISKLKESISNDVKDKFSDLDSDQLKKYIKNSISFIDDSFKNEIRRLLSEDNVRSDGRNLDEIRPISMNQNIIPRSHGSALFTRGQTQSLGVVTLGTKSDEQFIDDLEQDFKKTYMLHYNFPPFSVGEVGRMMGVSRREVGHGNLAERALRYVLPSHKDFPYTVRIVSEILESNGSSSMATICSGSLALMNAGVPIKSHVAGISVGLIQNKNKSVTFIDILGSEDHYGDMDFKIAGTKEGITAIQVDLKISGLSIDLIKETLDKAKIGRLHILELMNNEIQNPNENLSIHAPKIEQIQVDPSKIGAIIGPSGKTIKAIQSDYECDVEIDDSGIVIISSKNQQNNTKAKNIIESIIRDPEVGMIFEGEVKRIMNFGAFIEFSPGREALCHISELAYQRTNKVEDVLNIGDKVKVKIINVDDMKRIDVSLKALDKPPEGWVEPPKKDKKKNQNFGNRRKPNFNK;locus_tag=LOCUS_06790;gene=pnp;EC_number=2.7.7.8;note=Q8Y7F1 polyribonucleotide nucleotidyltransferase (Listeria monocytogenes EGD-e) [pid:48.2%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:4.3e-188],MGA_687
sequence06	MetaGeneAnnotator	CDS	11642	11911	.	-	0	ID=MGA_688;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TLU3;translation=MTLTSQKKKELAKKYGDNESNVGSIEVQIAMLTERIKYLESHFKTHKKDNHSRRGLISLVSKRRKLLQYISRRDYTQYQELIKKLKIRR;locus_tag=LOCUS_06800;gene=rpsO;note=E8TLU3 30S ribosomal protein S15 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:55.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.1e-23],MGA_688
sequence06	MetaGeneAnnotator	CDS	11958	12911	.	-	0	ID=MGA_689;product=riboflavin biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GW76;translation=MDLYSKLDKIPSIKNTILTIGTFDGLHLGHQKILNKITNESKELNLKSVLITFEPKPSSILFNKKDDTLTPNKIKIKKIEKAGIDIILILKFDNNFSKITADKFLKDFILTFKPKKIIIGYNHGFGKNRMGNVEFLKFNSKKFNFDLEVVPKIKKNLIEFSSTEIRNNIKNGKIDVASKIIGNNYNFYAERISGKGFGKKIGFPTINFKNLFKNQLIPKNGVYFTKIKLFGEYEVFSNKDFYSMTNIGFRPTINDNIFQMETHIISNKNIKLNNNQFNIEFIKRIRDEIKFSSLDNLKVQLEKDKKLCLKFIKDLSN;locus_tag=LOCUS_06810;gene=ribF;EC_number=2.7.7.2,2.7.1.26;note=A6GW76 riboflavin biosynthesis protein (Flavobacterium psychrophilum JIP02/86) [pid:36.1%25%2C q_cov:98.1%25%2C s_cov:98.4%25%2C Eval:4.2e-50],MGA_689
sequence06	MetaGeneAnnotator	CDS	12898	13545	.	-	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILSINKPTGLTSFEVVKKIRKITGEKKVGHGGTLDPFAEGVLIIAIGRESTKKLNDFLFSNKEYNATLKLGEETDTLDLDGTVIKSKKVPKITINDINNVLNRFVGDINQTTPIYSARKISGIRLYKYARKNISIKTPINKITIFELSLISFKNGLISFKVKCSKGTYIRQLAYDISIKLGTVGHLVSLTRTKVGEFTLENSKKLIDFEKNGSL;locus_tag=LOCUS_06820;note=Q97I48 tRNA pseudouridine synthase B (Clostridium acetobutylicum ATCC 824) [pid:45.5%25%2C q_cov:97.7%25%2C s_cov:72.0%25%2C Eval:2.2e-42%2C partial hit],MGA_690
sequence06	MetaGeneAnnotator	CDS	13542	13913	.	-	0	ID=MGA_691;product=ribosome-binding factor A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q819Y8;translation=MDIFTKNKPFDRNERFSNEIMKVLNDIFIRELELSSLGFITIKNVSLTKDLKIAKIYISSINSKFDNKEIIKYFIKNKKLIRGFLGKSIKSRNVPELRFFYDDSNEIAEDIDKLFNSINKNKN;locus_tag=LOCUS_06830;gene=rbfA;note=Q819Y8 ribosome-binding factor A (Bacillus cereus ATCC 14579) [pid:34.5%25%2C q_cov:89.4%25%2C s_cov:93.2%25%2C Eval:1.3e-13],MGA_691
sequence06	MetaGeneAnnotator	CDS	13928	16384	.	-	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSESSQSNRRVVQVAKDLNISHRDILDFLSKMNIKVKSHMSPLDEVSYQMVIEEFEKDLATVERYRKEKTRKEIHTRMLEEKMTEGSSLEILMPQETKFENIDNEDEQIIENKSTTINKDESSPKNEVEKTKPINIVKSNEVELNKKENKKEQKSSKPKFRKVDLTDIQSKIENPRKKVKNINENEKDKDDSSVTSTIKRTFAAIDNKGKKKKYKKDKSELDEELIKEEIQKIHIRDYMSVQELAEVLDVSPTDIIGKCLELGLIATMNQRLEFDTSSLISEEYGFKAVLLEEKINEIKEEKEEDIDKSLLKPRAPVVTIMGHVDHGKTSLLDYIRNENVVAGEAGGITQHIGAYEVHLNNDPTKSVTFLDTPGHQAFTAMRARGAQVTDVVILIVAADDGVKPQTIEAIDHAKAANVPIVVAINKIDKKNINTDLVKKELSEHGVLVEDWGGKVQCIPVSAKNGIGIDELLELLALETEVLELKANPDTFAEATVVESRLDKGHGAIATVLIQRGTLEVGNVFICGNYNGKVRALMNERNKRVDKAGPSQPVQVLGFQSVPQAGDILKVVSDEKTAKRISIERDRVQREINRQKIHTMSLDKISADIRDGASKVLPLLVKSDVDGSMEALIGAISDIPSDEVKVDVVHKSVGIITESDVLLAAASNAVIIGFNINMNANASLVAKKNGVEVRLYNVIYDAINEIKLALEGLLEPDIIENITGKAEVLQVFKITKLGTIAGSKVLDGKILSSDMVKVLRKDEQIYTGKISSLKHFQEDVKEVDSGKECGIGLEKMKNFEPGDIIESYTTEEIKRTLSK;locus_tag=LOCUS_06840;note=Q8KFT1 translation initiation factor IF-2 (Chlorobium tepidum TLS) [pid:48.5%25%2C q_cov:78.2%25%2C s_cov:70.9%25%2C Eval:2.1e-170%2C partial hit],MGA_692
sequence06	MetaGeneAnnotator	CDS	16398	17645	.	-	0	ID=MGA_693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKQDLIQSFSDIAKDKNVDRTEIGTIIENLFKTLIEKKFGTSDNCDVIVNIERGELEIYQNKTVVDLVEIEGTEISLHDAKKIEPSMEIGDPFIDVIDPASFGRRLIITAKQFLNGQIKDIEKKHTFENYFNRVGEIIIGDIRQINKDNINVYIEQSELRLPRSECIPNERYRRGDTIRAIVKSVEMKSNGPDIIISRADNKFLAKLFEMEVPEIEDGIIEIQKITRAPGVRAKIIVVSHDRRIDAVGACVGMRGSRIQSVVRELNGEKIDVINKSDQPEILISRALSPAKPLNLYIDDNSKHCLAVFEDEEIDSGVGRNYNNLNLASDLTGYKIEAVKKSEYEENTPKKEKEIFIEQISTLTESMIKMLSSGNIDTLDQYKNTTKDDLLLIKGLGEKMLNSISERIDNYLNNS;locus_tag=LOCUS_06850;note=Q2S1N6 transcription termination/antitermination protein NusA (Salinibacter ruber DSM 13855) [pid:39.6%25%2C q_cov:91.1%25%2C s_cov:69.2%25%2C Eval:1.5e-77%2C partial hit],MGA_693
sequence06	MetaGeneAnnotator	CDS	17657	18085	.	-	0	ID=MGA_694;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66619;translation=MLKKQIEKILDKNNVYLFDCKITKSFIKIIVDTIEGVDIKMIAKISKEITKLKIIDKKFPNGVRIEVTSPGLEQPFTKIFQYKRNINKKIKVFLKDEKEINNPIIGILNFVNDDNILIENKNGFFKLMFDQIEKSFLQIEIN;locus_tag=LOCUS_06860;gene=rimP;note=O66619 ribosome maturation factor RimP (Aquifex aeolicus VF5) [pid:27.6%25%2C q_cov:97.9%25%2C s_cov:91.8%25%2C Eval:8.1e-09],MGA_694
sequence06	MetaGeneAnnotator	CDS	18170	18865	.	-	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKNSDESKDIRNDFLLESIYKIQNYYIDNKNFANKILISFLTCLVIVFIYFYINVNRNYEADKIFNRGMSYYKSGDIELALIEFEDLKLNFKSSNKGKLSLYFIGKINFDDQKYDEALIYFKNYIKKGDTDSYLSSTFSMLAMINSINNKHLKAGEEYEKASKLAISESFKNRLLFQSLNSYLKSENLIKSEQILDILKNNNHVQENQKDEYERIFNYYKTIKKRILNN;locus_tag=LOCUS_06870;note=MGA_695
sequence06	Aragorn:1.2.38	tRNA	18890	18964	.	-	.	ID=Aragorn_10;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence06	MetaGeneAnnotator	CDS	18955	19959	.	-	0	ID=MGA_696;product=glycerol-3-phosphate dehydrogenase [NAD(P)+];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P46919;translation=MLDKKNIFIIGAGSWGTTIAHHLIKLKHDVSICYKNRNKVNYMIDKKKLNELNFSKKINYIEIINNKIENISSADIICIAVPSNEIRNIRNLLPLNSKAIILNLSKGIEIDSLKTISQILSEKNFIDKQFISTLSGPTHAEEILFEIPSAIVVSSYSPNTSKIIQKIFNGNNLRVYNNDDIIGVELGGSLKNIIAIASGISDGLGFGDNTKAAIVTRGCKEITNLSVKMGAKKSTFSGLSGVGDLMVTCFSNHSRNRFVGEKIAKGEKIKNIIEEMNMVSEGIYTSKAVYKLSKKFKIELPICESVYNILFKNLNPLKAVKNLINRDLSNELPL;locus_tag=LOCUS_06880;gene=gpsA;EC_number=1.1.1.94;note=P46919 glycerol-3-phosphate dehydrogenase [NAD(P)+] (Bacillus subtilis subsp. subtilis str. 168) [pid:42.9%25%2C q_cov:98.2%25%2C s_cov:96.2%25%2C Eval:2.0e-69],MGA_696
sequence06	Aragorn:1.2.38	tRNA	20032	20116	.	+	.	ID=Aragorn_11;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence06	MetaGeneAnnotator	CDS	20541	21080	.	-	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENRDKFLILIVVAWIGAAVFFKSTTDNMFLRMDQLVELQTKHVDNVNKEFRDDLKTLNLQFIGRGKHLRQAQKDIITNVNRIISVTDSLGQSIANLKLDLENFSRDTDQNFSIASEERDKAKTDFESFKRQTRRFQGDLDQRLVTLETDVAALNERVPPLPEEGEEEESNSRRRRNRD;locus_tag=LOCUS_06890;note=MGA_697
sequence06	MetaGeneAnnotator	CDS	21092	21418	.	-	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVNLQDSDDRKKYLSDKLDDLMDGISGSYGVVLMEELLSRLEQTINEFNTEVQGLMKSLKENNKERNKLIKEIKTKPNSDLPDNLDNNTNEKELSAWEKKLEELDKK;locus_tag=LOCUS_06900;note=MGA_698
sequence06	MetaGeneAnnotator	CDS	21535	21963	.	-	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFISCSNSPPMVINFNLSNDNMTSLYDIQNILESLDYEIDYFDKTDKTFTTKTKIVNRFLRPISYTLFVSSNDRITITIDSEVQIFKRASNISFGNNQKQVIKNSSNNLNVDIQKKIFNPIIKKMNKKGYDFFDNNNYITY;locus_tag=LOCUS_06910;note=MGA_699
sequence06	MetaGeneAnnotator	CDS	21986	22663	.	-	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLSFILFISSFVFTQDSTFIDSSYITIDSLSNDSKNLNITKSYNNFKWGLSFDSFKVDSSYKNFFSDSTNVSFDGFLGKDSVKFIYSFKNSRFWKVDIYYLSTLKINQIDSLISKFYEVEKILFSKYGSPMRTSQNEIGSNREYNFSDFPKVNRVYYRSSWSLENINIELVLDDIVETSKSSIIFENFKRPLSLYYYNLNYFENDSVDSDTTEFSNQNLLDNY;locus_tag=LOCUS_06920;note=MGA_700
sequence06	MetaGeneAnnotator	CDS	22671	23084	.	-	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLATIAFAVKILFTILCVVVLSLGNSSIITRDKVGLFALIAIISTSLINFSMEIDSYLISAAFFIVVSYFSYDKYKELKSFYSVLEKLTPYWIVIIIGMTMGNGRYIQSFILTFASYYLLNYMSIILPKKNQKMEEK;locus_tag=LOCUS_06930;note=MGA_701
sequence06	MetaGeneAnnotator	CDS	23164	24237	.	-	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILKELKSLFIILIIALSLRATIVEAYIVPTGSMENTIMTGDFLIGNKFVYGMRTPDWIGIPYTDIGFNIPWTRFPSYKKIEKGDVTIFKYPRDNFQKYVKRCVGDPGDTIFINNKTLFINDKIYNFPKNGKFIQKEIIPKNLEDPGIFLGNNWNKDNMGPIIIPSKNDLIEINDYTDWEFLIPIIIMDGNKVSLKMKNRSDEFLFTIKDPNDIARRYLSFSSSSFGKILSPLFFLFRTLTFSKSPEEKVQHLFSKYYSNFNKNGNLLNPWNFKFDSSMKDFLYINEIPISKINNYKVNQNYYWMMGDNRDDSADSRYWGFVPEGLILGEAVIAYFSLNFKGGMPRFDRIGKLIL;locus_tag=LOCUS_06940;note=Q8KCH1 signal peptidase I (Chlorobium tepidum TLS) [pid:36.8%25%2C q_cov:52.9%25%2C s_cov:62.5%25%2C Eval:1.9e-28%2C partial hit],MGA_702
sequence06	MetaGeneAnnotator	CDS	24256	24801	.	-	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRGALAGPVIASAVILPPKTKINNLKDSKKLNDINRRNILKIIKKKAIEYSIASASSNEIDKINIFNASLLAMKRAIKSLKNKPDYILIDGFYLPNLKINNNGIIKGDNKFLTISAASICAKVFRDDLMIKMSKKYKNYYFEKNKGYGTKSHIENIKKYNSCELHRKTFNPIKNFFKDNV;locus_tag=LOCUS_06950;note=Q18BC9 ribonuclease HII (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:45.6%25%2C q_cov:93.4%25%2C s_cov:66.3%25%2C Eval:5.3e-38%2C partial hit],MGA_703
sequence06	MetaGeneAnnotator	CDS	24827	25264	.	-	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIILINLSFLCFLFSQSEINRDTWIDLNEENKLFLVKGYYLGLKRSLIIINQESNKMKRQDKFWSRSFSEEQTVKRLNEFFSDSIPTINEITLMIDNIYSNADNSLIDFETVLRIVILHYNGNQLMANKMILDHQRKLLQGK;locus_tag=LOCUS_06960;note=MGA_704
sequence06	MetaGeneAnnotator	CDS	25239	27044	.	-	0	ID=MGA_705;product=NAD+ synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057022.1;translation=MKIALCQINTTLGDFKYNIDLILSNYARSLEMDAELVVFPEMAISGYPAQDLLLNSNFIEYNQNSLEIIKNKIGSIPIVIGTILKENHFLYNSLVVIQNKEIIHRYYKQKLPNYDIFDEKRYFQPGFPGDNNNNYHVVDVLGCKIGFQICEDMWSTPSITSDQVLKGNAECIINISASPYELNKTSERLLNFESEVMTSKLNIPFFYCNLVGAQDEIIFDGSSFAISKFNESLLFASSFKEDILIADTKLNFGIESRHQILKKPSKELVQNCIKNDHEAIILGIIDFFKKTKNKKALIGLSGGIDSAITAYFAAKALGSENILGLIMPSKYSSDHSIFDAIELSKSLQIKTLQVPINKIVDVYQSNLPNLFDDEENNLSTLADENIQSRIRANILMYFSNKYGYLLLSTSNKTELALGYSTLYGDMCGALSPIGDLNKSEVYQLANWINGNKFYNHDNKIIIPLNSIQKEPSAELKEDQVDPFDYEKISNPIDSIIRNNGARDAIISYDNDEYDNFQEALYLHEISLQDVIDIQKPIFSSEFKRNQSNIVLKLRDKSFGIGRRFPIAANYDEFTDLINTSKKLKENLWRSIKSDDKENNIN;locus_tag=LOCUS_06970;gene=nadE;EC_number=6.3.1.5;note=WP_011057022.1 NAD+ synthase (Thermosynechococcus elongatus BP-1) [pid:35.4%25%2C q_cov:94.2%25%2C s_cov:99.0%25%2C Eval:3.4e-87],MGA_705
sequence06	MetaGeneAnnotator	CDS	27068	28372	.	-	0	ID=MGA_706;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E184;translation=MVKIKKIYIKDIKNYIDQEIEISGWLFNLRSSGKILFPIIRDGSGYLETIYLKSSHNESKFDDLSKLSQESSLTVIGKVKKHFKDENKCELEIIDFTIHHIAEEFPITKKEHGTNFLMDNRHLWIRSKKQFSILKIRSHLIKLIRNFFDNNGFLNIDTPIFTSNSCEGTTTLFETNYFDKKAYLTQSGQLYNEANMMAFNKVYSFGPTFRAEKSKTRRHLTEFWMVEPEIAFCGLNENMDWAEKLIKYVLNNIILECNYEFELLNKDVNKLKSFVNKTFPRITYSEAVEIINKNNGNMNWGNDFGANDETILSNNFNSPVFVHRFPASIKAFYMKLDNKDPKLALGMDLIAPEGYGEIIGGGERETDYNKLVKKINEHNLSKNDFKWYLDLRKFGSIQHAGFGLGVERFLCWICGIQHVRESIPFPRTINRLDP;locus_tag=LOCUS_06980;gene=asnS;EC_number=6.1.1.22;note=B8E184 asparagine--tRNA ligase (Dictyoglomus turgidum DSM 6724) [pid:52.1%25%2C q_cov:98.4%25%2C s_cov:98.6%25%2C Eval:5.9e-128],MGA_706
sequence06	MetaGeneAnnotator	CDS	28366	28881	.	-	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIISNCGIYSFSGSIPSHINSINIPLLLNETPEFGVGEQITDEITDIFLDENILKISNNADSELRGIIKSINDSPYTYSTNEEVTEYRFTIGINIIWFDLINNQVLMNKNYSNWGVYNLETDVSSDGIDNDQDGKIDENDNDEIGDPRKLAISTAIKKISNSIINDISSIW;locus_tag=LOCUS_06990;note=MGA_707
sequence06	MetaGeneAnnotator	CDS	28925	30109	.	-	0	ID=MGA_708;product=sigma-54-dependent Fis family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005785466.1;translation=MFDNNKIKKETGIIGSSILMEEILEMIIQISPIDISVLITGESGTGKELIAKAIHRYSNRYSKSLVTVNCGAIPEGIIESELFGHKKGSFTGASEEKIGYFEEANGGTIFLDEIGEMPLGTQVKLLRVLESGEFMKVGDSKTKKVDVRVVAATNKNLLEESNNGNFRRDLYFRLRTVNINVPSLRSRFDDMEELIDRFALLFSKSNDIIFRGFTKDSISLMKQYEWPGNIRELKNFVESIIILEKGNKISAEIITKHLKNIIVDNENVSLPIPVDKSSSQAEREIILQQLFLLRQEVNTLKESILNNNNKKEVPILTDNNNLNQINDVSNIKKLLNENIIGELGIIDIEKELITKTLEKFNNNRRKTAKVLGLSERTLYRKINQYNIEKNKEND;locus_tag=LOCUS_07000;note=WP_005785466.1 sigma-54-dependent Fis family transcriptional regulator (Bacteroides fragilis YCH46) [pid:43.1%25%2C q_cov:97.2%25%2C s_cov:98.3%25%2C Eval:4.2e-85],MGA_708
sequence06	MetaGeneAnnotator	CDS	30102	31067	.	-	0	ID=MGA_709;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931718.1;translation=MKRILVTGGAGYIGSHVILELLNSKYEVVVIDNLSTGDKLNIPSDVFFINGSILDIDTLKKAMSQNIDGVIHLAALKSASESMKNPNLYTELNINGSLMVLNEMLNYKIKNIIFSSTAAIYGTPVYLPIDENHPKKPINFYGFSKLSIEFYLKWYSKLKDINYVSLRYFNAAGYDAKSRVIGLEKNPANLLPVIMNSLINGESLNIYGNDYPTKDGTCIRDYIHVTDLADAHIKSINYLTYKNSPLEINLATGNGYSVKDIVDKTIKISSSKLNYKFVNRRDGDPAELIASSNLASKNLNWNPHFSSLDNIISTMLRAYNV;locus_tag=LOCUS_07010;gene=galE;note=WP_010931718.1 UDP-glucose 4-epimerase GalE (Chlorobium tepidum TLS) [pid:48.0%25%2C q_cov:98.8%25%2C s_cov:96.7%25%2C Eval:1.7e-86],MGA_709
sequence06	MetaGeneAnnotator	CDS	31064	33034	.	-	0	ID=MGA_710;product=UvrABC system protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3XX90;translation=MSYFKIKSTFKPTISQKKAVNDLSVGLKEKKWQTLLGVTGSGKTFTMANLIESINKPTLIMSHNKTLAAQLYGEFKQLFPDNAVEYFISYYDYYQPEAYLPVTDTFIEKDASVNEEIDKLRLKATESLLTRNDVIVVSSVSSIYGIGSPKEYQKKVVKIFKNEKINIRNLCRELVEIYYNRNDAVFERGNFRVRGDLIEIYPAYENYGLRIELFGNNIDSIYYFDPISGNVLDNLESIFIYPAKHFVADDEMINNVIDNIKDELNDRLEWLRSNNKLLEAQRLEQRTNFDIEMMLEVGYCSGIENYSMYFSERKKGERPYTLFDYFPKDYLLFMDESHVTLPQIQGMYFGDRSRKETLVEHGFRLPSALENRPLKFKEFENVINKCIFVSATPSDREHNYTKGEIVELILRPTGLIDPEIFVRPSINQIDDLLIEINKCLEKKERVLITTLTKRMSEDLTDYFSSFNLKVKYLHSEIDSLERVKLLRELRLGIFDVLIGINLLREGLDLPEVSLVAVLDADKEGFLRSERSLMQTAGRASRNINGKVIFYADKITKSMEKVINETNRRRIIQKDYNKKNNIIPRSIVKSNEEIFSSTSVADKNIKNEKISDENFYDNFDKDLGIEVLKKEMLNAAKDLNFEKASQIKDYIDSMEKS;locus_tag=LOCUS_07020;gene=uvrB;note=Q3XX90 UvrABC system protein B (Enterococcus faecium DO) [pid:56.9%25%2C q_cov:99.7%25%2C s_cov:98.6%25%2C Eval:2.6e-213],MGA_710
sequence06	MetaGeneAnnotator	CDS	33090	33620	.	-	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKKYTFFSVSNTISIFRGLLSIPIFLSLKNNFIIFSLLLVIIAIISDWLDGLVARILKEKSELGKILDPLCDFFVVSSIILFLLIDEDKNFPFWFLIFYLIRQITISLSFFYSLRKFNRYNGSNVFGKWTIFLISIALFLYIINYINYGYYFLSASIFFATISWFYYIKNNLRQ;locus_tag=LOCUS_07030;note=WP_010933327.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Chlorobium tepidum TLS) [pid:35.1%25%2C q_cov:73.9%25%2C s_cov:64.6%25%2C Eval:1.0e-14%2C partial hit],MGA_711
sequence06	MetaGeneAnnotator	CDS	33613	34884	.	-	0	ID=MGA_712;product=3-deoxy-D-manno-octulosonic acid transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011203604.1;translation=MIIKIIWILIYNLVFLPILVLLLFILSIFNDKIKKGISGRKNQFKKIKQYFKNVNPDNTRYWFHCASHGEYEQVKPILTGLKELDKNCIIIVSFFSPSGYDNVNDENINLKFYLPLDLPISIFKILSIIKPYKLIFAEYDVWPNLIWIANFLNIHTTIFSARFTSRSKKLLPIIKNFYSQIYSSFNSIYTINETDYIFLKKIINKKSKILIRVLGSPRYDMVDKKNKKNKIDNNEKRPLTIVAGSMWPEDDKVILPVIINFINKYPSFQLIWVPHEPKKDYIINTINYFKNKKIDYELFSHNNQSNKKIIIMDEIGHLYKIYWKSKIAYIGGGFSNGVHNVMESSIANIPTIFGPNYKKSHAAEELVKEKGGFTIKDSSDFKKILTLLLDNNIFYKNASISSSEVIKRNLGSSRKVLRGILFD;locus_tag=LOCUS_07040;note=WP_011203604.1 3-deoxy-D-manno-octulosonic acid transferase (Bacteroides fragilis YCH46) [pid:29.5%25%2C q_cov:95.0%25%2C s_cov:97.3%25%2C Eval:7.7e-48],MGA_712
sequence06	MetaGeneAnnotator	CDS	34850	35878	.	-	0	ID=MGA_713;product=LPS biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016469.1;translation=MNKILVIRFSSIGDIIFSTYALQLLKQIYPKSKIYFLTLENNKSILKNISFIHKIITIEKKSTIRNQIKSFRKLNDHKFSKIYDLHGSLRSFLVKILINSKSLTIRKLRIRRFILFNFKINLFKKKYDILDEIEKLLDVNKSKIFLKNKTYLNISTSEKTKAKKILESNKIYSEYIVIVPGAAWENKSWTLENYNKLIPLLQFPIVLLGSENDLICDKIYKSNKNVINLKNKTDLRTAFAIIFLSKITIGSDTGLVHASEALGKPVVLISGPTSNATGGNTRNKKSKNLYSDIWCRPCSKNGQKKCIRDKKYCMININEIKVLKSINEIIKNDNKDNLDINL;locus_tag=LOCUS_07050;note=WP_011016469.1 LPS biosynthesis protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:29.4%25%2C q_cov:94.2%25%2C s_cov:96.7%25%2C Eval:1.6e-29],MGA_713
sequence06	MetaGeneAnnotator	CDS	35891	36877	.	-	0	ID=MGA_714;product=polyprenyl synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932877.1;translation=MADLKKLNKIIYPIRNDLQLFKNEFSYALKSDVKLINIISDYLIKNNGKGIRPILMIFISKLCGKTTSNTYKAAAMVELLHLATLIHDDVVDKSEKRRGFPTIHKIWGNKTAVIMGDFILSQVLKNLISLRDFDSLDLISSTAKRLSSGEMLQIEGSIKKSMSEKKYIKMIKDKTASLMSTSTKLGAITSNAKDEFKKASFDFGENLGVAFQIKDDLLDILGSSYKTGKDSNADVSSNMITLPMIHILENKLSSSTKSLIKNALSKKASKRELIDLKKIVNEEGGINYAQKKLKHYTDIAVSSLDIMPNNEFKDSLIEICEYNIIRNR;locus_tag=LOCUS_07060;note=WP_010932877.1 polyprenyl synthetase (Chlorobium tepidum TLS) [pid:38.3%25%2C q_cov:94.5%25%2C s_cov:95.7%25%2C Eval:8.0e-60],MGA_714
sequence06	MetaGeneAnnotator	CDS	36879	37592	.	-	0	ID=MGA_715;product=Sec-independent protein translocase protein TatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KD48;translation=MSNSSNMTFIDHLEELRWRIIKSLISILIGAGIIFFFIDEIFQILLYPTTMLESPPKLQVLKVHGMFMIKWGIAFVGGLILGIPVLTFQIWKFISPGLLQNEKKYALPIVLFSFISFLLGVIFAYFIIIPFSLNFFSSMGYVDVENNFSINYYFSYILWLIFSSGLLFQLPVLVVIFTLIGLLTPPFMRHYRRHAFITILILSALITPPDPISLLMMSIPLILLYEISIFLCSIFKR;locus_tag=LOCUS_07070;gene=tatC;note=Q8KD48 Sec-independent protein translocase protein TatC (Chlorobium tepidum TLS) [pid:37.9%25%2C q_cov:97.5%25%2C s_cov:95.1%25%2C Eval:1.3e-41],MGA_715
sequence06	MetaGeneAnnotator	CDS	37619	38299	.	-	0	ID=MGA_716;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584159.1;translation=MLTNKLLLNVPIFSNLDDNQISFILSKMTKKNYSKSEIILMEDEVGDTFFIILEGSVKVTRDSEDGREVILAVLSSGNFFGEISLLDGKTRSANAIAVEKTSLMILKRNDFLQLINEIPQISISLLSELAKRIRKTDEQVENLAFSDAEKRIGISILSLSEQLGVIKNGLVKIPKLPFHQDIANMSGTSRETVSRMLKLLETKKLIKRNSHELSFVDYNKFKSYFL;locus_tag=LOCUS_07080;note=WP_012584159.1 Crp/Fnr family transcriptional regulator (Dictyoglomus turgidum DSM 6724) [pid:34.7%25%2C q_cov:98.2%25%2C s_cov:98.7%25%2C Eval:3.4e-36],MGA_716
sequence06	MetaGeneAnnotator	CDS	38407	38661	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTRTKSVQKRQRKQILNYNSNMQYKTKMKTAIKKVLECKKKDEADSLYKNAISIIDKLSQKKIIHSNTAARKKSTLSKFYNSL;locus_tag=LOCUS_07090;note=MGA_717
sequence06	MetaGeneAnnotator	CDS	38646	40127	.	-	0	ID=MGA_718;product=inosine-5'-monophosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DZU8;translation=MKNNTKIKKSYTFDDVLLVPSHSEVLPSKVDVSTNITSNIEIKIPIISAAMDTVTENKMAISIAREGGLGVIHKNMSIEKQVKEITKVKRAESGIILDPVTISPDKTLKDAISIMKNHEISGLPVLDHNEKILGILTDRDIRFESNLDQLVSQVMTKDLITASESTTLNKAKSILQKNRIEKLLIVDKNKKLKGMVTVRDVLMKEKFPNASLDTHGRLLCAAAIGVSNDLEDRALELVSAGVDILVLDSAHGHSQGVLDSVEKIKRKFPEIPLIAGNIATSEGMKSLISKGADAVKVGIGAGASCTTRIVSGVGVPQFSAILDCIKISNDSKIPIISDGGIRFSGDMAKALGAGAHSVMLGNLLAGLDESPGELLLHDGRQHKVFRGMGSLGPMKDGTADRYFQEGVEGIKLVPEGVEGLVPYRGSLNSVIFQLIGGLKSSMGYTGSKNLKIFRNNSKFIKISSASYAEGHPHDLRIVEDAPNYQPKDNYREL;locus_tag=LOCUS_07100;gene=guaB;EC_number=1.1.1.205;note=B8DZU8 inosine-5'-monophosphate dehydrogenase (Dictyoglomus turgidum DSM 6724) [pid:57.1%25%2C q_cov:96.6%25%2C s_cov:96.6%25%2C Eval:6.5e-158],MGA_718
sequence06	MetaGeneAnnotator	CDS	40157	41338	.	-	0	ID=MGA_719;product=digeranylgeranylglycerophospholipid reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021498.1;translation=MFLQNKFDLIIVGGGPAGTTAAKYAASKGLDVIVLEKDREIGVPVRCGEAASDAGLKIFLEPQKSWIRSTIDHLRLISPSSHVLDVPLKQKGYILDRRVFDSDLAQYAANEGALILTQAYVNGLIIEDDKVVGVKGEYENEPFELKSKIVIGADGVESRVGRWAGINTMIKLKDMESAIQKTITGINVQDNRFDFYVSKKWAPGGYLWVFPKGKNSANVGLAVSGKYSKNKSAKKFLNEFIDQKFPKSSILSTTVGGVPCAKTLNKIVTNGCMLAGDAAHMVNPMTGGGIVPGMRGGMLAGEVAALSIKEKNYSENFLNKYSEEWYKIGGKNHERFYSIKETIARLTDEDLDKIALTISKIDPSKRTIAKIFSRLIFKKPSLLVDVMKVFAGV;locus_tag=LOCUS_07110;note=WP_011021498.1 digeranylgeranylglycerophospholipid reductase (Methanosarcina acetivorans C2A) [pid:37.6%25%2C q_cov:98.7%25%2C s_cov:97.1%25%2C Eval:4.3e-74],MGA_719
sequence06	MetaGeneAnnotator	CDS	41322	41501	.	-	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKPNTCDFCGCCVNVCPVDCIELKEKNIEIIHDTCIDCKLCVYICPIEVLEHVSSK;locus_tag=LOCUS_07120;note=WP_064496751.1 ferredoxin (Methanocaldococcus jannaschii DSM 2661) [pid:43.4%25%2C q_cov:88.1%25%2C s_cov:13.6%25%2C Eval:4.3e-07%2C partial hit],MGA_720
sequence06	MetaGeneAnnotator	CDS	41505	42437	.	-	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFISRFIKKDNNLYSSINKYLLKLSFDRINFNSLFITWMCLGLGFSIVADYLYWDFLFSLKYLFFFILISLFTIIIDFYNGILKIPLNYLLFLLISLFLSVFLIDDRLFSSSFIGNLIFLTIYFYFSNKKYVVTNFYNSIFYEILKCSSLFFIGLNINFISSYMTINSFFFILPYIFTLFSILLIKPLYIISSNLNYTDKIDNSKKTILFSILLQISSIFISYYNNDPILSTSLAIIIPFYFVAFFIFKSEHIIRAYIYPMFIVLIFISTRIPYIFIAFFLLFHFLRLINYFLYGKIYPTFKVTNNIPNF;locus_tag=LOCUS_07130;note=MGA_721
sequence06	MetaGeneAnnotator	CDS	42444	43817	.	-	0	ID=MGA_722;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:D1B650;translation=MKKREQWNSRIGFILAASGSAVGVGNIWKFPTMAGENGGAAFTLIYLLCIFIVGLSILLGELMIGRKTQLSAVGAYKKLSTNKFWVFNGFLGTLSAVVILSFYGVVGGWTLKYTFLSLFGFLNDLNIQQTQLIFSDFISLPIEPIYWQAGFMLITMFVIINGIKNGIEKWSKIMMPFVIILLIILAIRGLITPGGIEGLKFLFYPKFDDLTPHSIVLALGHSFFTLSLGMGTMVAYGSYLRKDQDLFISSLWIIILDTFIALIAGIAIFTTVFATGSDPASGPGLIFTVLPTVFDQLIGGQLWSTIFFLLLFMAALTSAISLLEVVTAYFVDEKKWSRFKATITFGTLIILIGVFCSLSLGGGINISPFENKTFFDLMDELSSKYMLPIGGLLVSLFIIFEFKISNFTTEINNENSFINLNKTFTIIIFYISAIVVGYILINEIYFLTSGSSLIGKS;locus_tag=LOCUS_07140;note=D1B650 transporter (Thermanaerovibrio acidaminovorans DSM 6589) [pid:46.5%25%2C q_cov:89.9%25%2C s_cov:85.7%25%2C Eval:3.5e-102],MGA_722
sequence06	MetaGeneAnnotator	CDS	43814	44200	.	-	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLIFISFFLFSTLFSYQNSIDDTIRNKKEIFPSSLIPGYGQLLNGKILKSMIIITAEFYMISKFNKHRIAFNDLNESSDNSLYLYHLNNRNKFAWYTFFVYVYSILDSTVDYHMDDLKTIFIEEKK;locus_tag=LOCUS_07150;note=MGA_723
sequence06	MetaGeneAnnotator	CDS	44201	45091	.	-	0	ID=MGA_724;product=diacylglycerol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583958.1;translation=MYKQMKILFIINPTAGKGTAKKSSKKLKTILQKKSIFFDFKYTNAIGDAKKICKQFKQEYDLIVVFGGDGTINEAVNGLYGSNTPLGVIPNGTGNDFARSANIPLKINDAIDNIINGKKRKIDIGIINGQYFINVVGIGFDGYVNIESKKIKFLKGKPVFVAAVLKTLNKWRAVPVKILLDNNHFTSNSYLICISNGWSVGGGLSMTPNAKIDDGLFDVCHLKEISPFKIVANFPKLTNGRIEEIDEVKLYKTKKIKIESDFSLPIHVDGEIINGKNKSFEIEIIKDSFYIWNSSN;locus_tag=LOCUS_07160;note=WP_012583958.1 diacylglycerol kinase (Dictyoglomus turgidum DSM 6724) [pid:32.5%25%2C q_cov:93.2%25%2C s_cov:95.8%25%2C Eval:5.7e-38],MGA_724
sequence06	MetaGeneAnnotator	CDS	45076	45459	.	-	0	ID=MGA_725;product=reactive intermediate/imine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583691.1;translation=MLDKKNNNLTPKPIGPYRSIVVHNDLIFTSGQIPIDPNTSKLINGNFKNRVERVLMNLKNLLKSSNSSLDNILKVTVFLTDLSRFNELNDVFMKTFLINPPARSVVQVSKLPMNSDIEVECIACINK;locus_tag=LOCUS_07170;note=WP_012583691.1 reactive intermediate/imine deaminase (Dictyoglomus turgidum DSM 6724) [pid:45.1%25%2C q_cov:89.0%25%2C s_cov:90.4%25%2C Eval:1.4e-23],MGA_725
sequence06	MetaGeneAnnotator	CDS	45466	48036	.	-	0	ID=MGA_726;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67323;translation=MKSDKVRNIFYDFFKSKNHLHIKSSPLIPINDSSLLFINAGMNQFKNVFLDKEKPVSERVYNSQKCIRVSGKHNDLEEVGIDSFHHTFFEMLGNWSFGDYYKKEAIIWSWELFTEVYGLDKKRLWVTVFEEDNESFEIWKNYTDINTSRILRSGKKDNFWEMGDTGPCGPCSEIHYYIGEDLQKQSKAGVNKSDEYWELWNLVFIQFNRLQNGELENLSKKYVDTGAGLERLCAVLQNKTSNYDTDLFKPIINTQEEIFKLKYKDNYIGHRAISDHIRMLVFSISDGVIPSNEGRGYVSRRILRRAVRFGHNMGSNEPFLSKLVDPVLKIMNIEYPELLDKKNYIKKILNIEEESFLNTLDLGIKRFNNIISKNSFISGKNAFTLYDTFGFPIDLTLQMSKENKIDVKLDDFNILMEKQKNQSRKKEKFRDEKMDNINWIKINEGESYFSGYDNVNSKSKILQYYLDNDKIYFELSNTPFYAEKGGQVGDTGHLIYNKNKIDVLDTFYIGDKHIHVSTFNANMINNKEFECKVNISRRNSIKNNHSATHLLHQALIDILGDHVHQAGSLVHPDYLRFDFTHFNKINEEDLIKIETIVNSKIFQNLVVNTKEKKYDDAKKIGAKAMFDEKYGDSVRVVSMSNYSIELCGGTHVDRTGEIGFFSIKQETSLSSGVRRIFAETNNKALNTFQNNKKTINTLKSLLNTSTQNIQTEVIKLIEEKKILNKKVKINASKSVDIDMLIKKNISFNSKFLICENVLLDDIDDLKNITNKIIIKVKKTISIIYSNFDKPIIVIGLSNDLITENFNASILAKHLGSLMEGGGGGRKNIATAGAKNINLFQNVISNIVKILTDLEES;locus_tag=LOCUS_07180;gene=alaS;EC_number=6.1.1.7;note=O67323 alanine--tRNA ligase (Aquifex aeolicus VF5) [pid:40.6%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:2.5e-182],MGA_726
sequence06	MetaGeneAnnotator	CDS	48136	48648	.	-	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVTNIKRNKNNNRVSIFLDEIYFLSVSEYVLNKNNISIGMKINDFDIDKINFENNLSKAKECALNLLAIRARSSSEIKNKLIKKKFSNEVIFNVIEHLKKNKLLDDYEFAKMFANHNLKNKKLGPLAAKNELFKKGIDQSTIEIVVSKIYDNKTKYNIIREIFEKKIK;locus_tag=LOCUS_07190;note=Q2S0P1 regulatory protein RecX (Salinibacter ruber DSM 13855) [pid:28.5%25%2C q_cov:84.7%25%2C s_cov:64.9%25%2C Eval:5.0e-16%2C partial hit],internal stop codon at [48136:48138](-),frameshifted%2C insertion/deletion at around 48132,MGA_727
sequence06	MetaGeneAnnotator	CDS	48676	49689	.	-	0	ID=MGA_728;product=protein RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQH9;translation=MASKNDNKNKALDLALGQIDKQFGKGSIMKLSGDNEFSKHIEAVKTGSISLDLALGVGGIPKGRITEIFGPEASGKTTLALHVIRESQRNGGNCVFIDAEHALNSQYAEAIGVKLEDTLLSQPDTGEQALEICETLVRSNAVDVVVIDSVAALVPRVEIEGEMGDSHVGLQARLMSQALRKLTAIVSKSNTSVIFINQIREKVGIMFGNPEVTPGGRALKFYTSVRLDIRRIGAIKDGDINVGNRVRVKIVKNKCAAPFRQTEFDLMFGEGISYEGDLLDLAVESNIVDKSGAWYSFNDEKIGQGRENTKIYLKENPDAVKSIENALSGALGIEEKE;locus_tag=LOCUS_07200;gene=recA;note=Q2RQH9 protein RecA (Rhodospirillum rubrum ATCC 11170) [pid:64.4%25%2C q_cov:98.2%25%2C s_cov:90.2%25%2C Eval:1.7e-121],MGA_728
sequence06	MetaGeneAnnotator	CDS	49757	50344	.	-	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEPIIKTFIGAVAPFEIISLINKIKNNINFGKSKIIWEHYNNLHLTFKYLGPILHSEIENISNIIYKISKKTNQINLLINRTGVFPNINRPRVYFLDINGELDLLNKFINELSQSMIKIGYPNEKVFYKPHITIAKSIHPKKNNPNPKNFINFGFNEIPFIIKKIILYQSTINNNQIAYKILKDFSLKSSGEV;locus_tag=LOCUS_07210;note=MGA_729
sequence06	MetaGeneAnnotator	CDS	50345	51565	.	-	0	ID=MGA_730;product=CinA-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DYM0;translation=MKASIITIGNELLKGFTIDSNSSYIGSKLTDLGVRTVWKATPEDNSDEIIESIKIANSKSDIIICTGGLGPTIDDVTLKTFSSFINKKILIDEEYLKVLKNKYLKRNIKMSDINKNQSNYIEDTNIIPNDLGSARGIDYFFNNAQFFFLPGVPKEMRKMFDNYVVNKISNSIDEKYYTLRIKTFGIVESKIQELIYSKLDLKNISISFLPSFKGVQIILFSKSLKLLNSLGSEIECLLGDKVYTNENFSLEEIILKLLANKKLTFSIAESCSGGLTSDLITNIPGSSKIFKGSIISYSNESKISLLNVSKESIKTFGAVSDQVAKEMAIGVRKRFNTDIGLSITGIAGPTGDSKDKPIGFTCFGINDSNGDFVLNRILSNHRRTNKELSSRTILNLLRLKILERLN;locus_tag=LOCUS_07220;note=B8DYM0 CinA-like protein (Dictyoglomus turgidum DSM 6724) [pid:39.7%25%2C q_cov:89.9%25%2C s_cov:90.5%25%2C Eval:7.9e-71],MGA_730
sequence06	MetaGeneAnnotator	CDS	51562	52011	.	-	0	ID=MGA_731;product=phosphatidylglycerophosphatase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546233.1;translation=MLHKFLELFVTCFKIGYIPIAPGTFGTIFSILIWFFIESYSLLIKSLIIIIFFIVGVYASEIISKKNNIKDPGYIVIDEFVGMWIALLLIPNGLNSYFLGFLFFRFFDIIKLYPANVFDKRDSGIGIMFDDIIAGLYAGLIVQLFWIFL;locus_tag=LOCUS_07230;note=WP_012546233.1 phosphatidylglycerophosphatase A (Thermodesulfovibrio yellowstonii DSM 11347) [pid:37.3%25%2C q_cov:94.6%25%2C s_cov:97.2%25%2C Eval:6.9e-20],MGA_731
sequence06	MetaGeneAnnotator	CDS	52001	52645	.	-	0	ID=MGA_732;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001045091.1;translation=MIPNILSLIRIILVPLFLFFFFSNSNNSIFLSLLIFTVASITDFFDGFIARKFNQISTLGKFLDPLADKILTLSVFSSFLFLDIISYWMFFLIISRDIIVTLIRIFFKKYNLAFVTSNVAKIKTTIQIFVIIYVLSSMCQNVIEEIFIINHLFVFFDQLGYVFLTLFNLQNQITTSWIFLSIASIITFYSGLHYIYIHRDGIKFLFNKNTGNVA;locus_tag=LOCUS_07240;gene=pgsA;note=WP_001045091.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Leptospira interrogans serovar Lai str. 56601) [pid:32.2%25%2C q_cov:97.2%25%2C s_cov:94.4%25%2C Eval:5.1e-23],MGA_732
sequence06	MetaGeneAnnotator	CDS	52646	53239	.	-	0	ID=MGA_733;product=recombination protein RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P24277;translation=MSSLPDSLIKLIDILSDFPGIGKKTAERMAFFILKTKKVWATDLSNTLLKVKNNIHECPICNNISEITPCKICSDESRDKTIICLVEDTIDLITFEKTGFYNGQYHILGGLLSPLDGIGPENLNINSLEDRIDAIDELIIATNPSSEGETTALYISELLKNKNIKISRLAKGIPIGGDLEYTDEATLVSALEGRREI;locus_tag=LOCUS_07250;gene=recR;note=P24277 recombination protein RecR (Bacillus subtilis subsp. subtilis str. 168) [pid:52.3%25%2C q_cov:98.0%25%2C s_cov:98.5%25%2C Eval:1.7e-54],MGA_733
sequence06	MetaGeneAnnotator	CDS	53240	53581	.	-	0	ID=MGA_734;product=nucleoid-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0C6P6Z6;translation=MFNKGKIGDFLKQAKEMKRALDKHKSELSKLSFEGSSFGRKINVTVDGNQKVLNINIDPSLDFNNISKIQNSIVDATNDALKKANKESEKRMSKLSGGMLGGLGDGFKIPGLN;locus_tag=LOCUS_07260;note=A0A0C6P6Z6 nucleoid-associated protein (Bordetella bronchiseptica 253) [pid:29.9%25%2C q_cov:94.7%25%2C s_cov:97.2%25%2C Eval:2.6e-09],MGA_734
sequence06	MetaGeneAnnotator	CDS	53596	55269	.	-	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYLVLARKYRPTTFKEVVGQDHITKTLINAFKKGRLSHAYLFAGPRGVGKTSTARILAKSFNCKNNQSGEPCNECVNCIEITNGSNLDVLEIDGASNRGVDEIRNLREVVKYPPINSNFKIIIIDEIHMLTQIAFNALLKTLEEPPQHVKFIFATTEPNKILQTIISRCQRYDFNRVGINDIEKSLENISSLEKVKVEKSVYSIIANLSDGSMRDCLSIFDQLIAFSDGEITNELAIKMLGVIPTDLFFNITDSFHSKNKDNLLLILNDVFNKGFKLNELLSGLNKHILNLLCSKLDNYKEILNLPEEIKDRYFDNSKKWEYLHLLRISDQISKIEMNFKIVNNPKIFIELNLLKLIEIDDSATIKENLSKINLNSDKQNDVNKKKEILIDVNTKETQNKNIYIENQTVDTSNVKSYDLQNKNEFKIQNLESVKNKNDIQNLATEDKLNIDKIIEVWPKVKIDIENESKSIAAFLLQSKPYIIQDNILKISLPKKYSFQIDVLNNNKNKILSIMKKHIDISFAIEFILDDNSNFDDNKISPVTQKMIDKFGGEIAE;locus_tag=LOCUS_07270;note=WP_005802867.1 DNA polymerase III subunit gamma/tau (Bacteroides fragilis YCH46) [pid:44.7%25%2C q_cov:64.5%25%2C s_cov:58.6%25%2C Eval:1.7e-85%2C partial hit],MGA_735
sequence06	MetaGeneAnnotator	CDS	55413	55916	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFSQLISYKKYDSILDIGCGGGQLVKSINNNIDIAKIYGIDPSNKMIEISNKSIKSSNIKFLKGYAENLEFKNNSFNIVLVLNSIFHWKNINNGLEEIFRVMKKNSILYIGEERLKDGYLHGNQEIKNCLDLKKILIQKSFKDIVTKNYFLKDEGFYFFSARKEE;locus_tag=LOCUS_07280;note=WP_010963888.1 methyltransferase (Clostridium acetobutylicum ATCC 824) [pid:27.8%25%2C q_cov:76.6%25%2C s_cov:63.6%25%2C Eval:1.7e-10%2C partial hit],MGA_736
sequence06	MetaGeneAnnotator	CDS	55918	56334	.	-	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEKKIEDNNGQKKYLMAKIEELTDSVAPGYGEAFLDELMLRLHNTVSVFNDELFALIEQLKSNSVKRNEMMKNIFDEKEINKSSDINIFNDPLSNAMSEMSEWEKKLEDKNVDTSNNIESDNEKPKKRKRSIFKRKK;locus_tag=LOCUS_07290;note=MGA_737
sequence06	MetaGeneAnnotator	CDS	56369	57142	.	-	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIYFFLSCFLLSQTSNNIIVLSRKVGITIDAAENSILDLFPDIVGFESAQIYKLSENRYMAKIVYIRNTKYRLKKRYFNWVQLERLKYKINSKPQITEKQKEIEYDYMSYLKAYNILDEIPKNTFCTIKIKNGNKINGTYVGYEKEYLNIQSFRSQFSFDIQNIDYVDFRLLSENNIDKKKQISFFTSTAFGLLVSEVWNNQRSPKDDMVWYNRFAGIIFSLFLSNEIYEAILHLTSPKERIVFSPEELVKTK;locus_tag=LOCUS_07300;note=MGA_738
sequence06	MetaGeneAnnotator	CDS	57275	59527	.	-	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHILFTKFRVLFLFTIFFNISFLYSQETIARITKLSGDVKIKKITDPTFSSVSLGYAVSSGDIMNVGKDGYCMVIFIDDKSVLKIRDNTQFQFMDTKNTRTIDIEFGKILHDVKKEKTKDFRVETPVSVASVKGTEFWSVINQMGFDKFYGLEGVVEVFNEISGQSVSLGAGEMTLSTASGQVLTSPADPEELPEDPEQETEDSNEETETIEEETPEEVIEEPTETLFEEDPIEQLEDPIESESPLEDEIEEEIEDEIIEEEPVDELPSDTPKPFDMGLGVGSVTIDGQIYNQLAFRPELNFGKLGIGLDLVFYVDQDGNIRKDEWDETSDLIDKFLFIRYGEKSDPFWLKIGSLENVTLGYGGLISSYSNMMEFPSIRRVGFNGGNNFGSFGTEIFMSNIKDFSRGGTLLGLRGTYKVSENLPITIGINYVSDSNQFSGLKDRDGDSYPDIFDDFPDSSNIWNDSDKDGIPDPHANLDSARWDIDADGDNIFDQLDDSLFLRPTPFSIEENKSKASGFSLDIGYPIVNSDQFSLILYSEYNTLNFPSVTTDQFNRIERKGSGITVPGLRASLFSFINFSLEYRIKNNYFIPQFFDQAYDLNRVVPVYSNNNTSVFTKDMLVFSDSSSSINSSGYYGSIGFDFLNLATFNASYANMVADTTKFRSFSSVLVINAENIPKLSEARAFYQRNNDINPFDFENPSINTVLGYRVGYEVAPGVSLVWDYRQFYRDLGTGLKPVEQTTIETVFNF;locus_tag=LOCUS_07310;note=MGA_739
sequence06	MetaGeneAnnotator	CDS	59671	60969	.	+	0	ID=MGA_740;product=8-amino-7-oxononanoate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202847.1;translation=MSDFFEKLKKEEPYTEYTLDMFSRSAGKEASEISQFNNWRNMVSDADKYTFEVPHLGAQKPEISIKRENGDQYDLISFSSYNYLGYSYHPDVIQAGKDALDKYGLGATGSPLLNGTFEVHKELEQSIVDFYGLDGYGATLFSSGYGVSLGVISAFIHKNDHVICDRSSHACIFDGAILSQGKISLFKHNDAEHLEKVIQRIDHKNSRILVCCEGVYSTDGDYGNLKDIVTVAKKYGAAVLVDEAHSLLLAGKNGKGVCEHYDVIEDVDMIVATFSKSFGGVGGCLYAKKELTNYMNYYARSRMFSCALDPAVTGGLVKAVELAGSKDGDEKRKRIIKNSNYLRSLLEDKVDIGTSTTWIVPIIYGDERLTLPVSDYLQKEGIDISLMTFPAVSKNRSRIRAFVTSEHTKEQLDKGAEVILKAAKKYNFLKDS;locus_tag=LOCUS_07320;note=WP_011202847.1 8-amino-7-oxononanoate synthase (Bacteroides fragilis YCH46) [pid:37.4%25%2C q_cov:82.2%25%2C s_cov:89.1%25%2C Eval:5.1e-63],MGA_740
sequence06	MetaGeneAnnotator	CDS	60969	61658	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHTPSEDLLVWEFDFALTTFFEVETSQIEKYIPKQLSPMEVSPGLGLINVTGFNFPAGGLGHLPEFQELICSIIVSPDLSRGVPKFAMHVISLASTSQEHLDHSAEYYKLPIHGLLTDAKIDRDKVAINYSDNDGQILQMSNCSPKLNYRNDERYFQAYAMDGDDLTIANCYIESPLFEHQVVGNAGSLNVHPFLKNIDFDVEPTPYLQMISPPGQKGKQFYYRPEKF;locus_tag=LOCUS_07330;note=MGA_741
sequence06	MetaGeneAnnotator	CDS	61960	62319	.	+	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNKSSNNIEKKNNNNIKTSLNHFLDGFYVNISNVKAFIFFVSIFSGMMIESELPFKFIMSLYLSLATALWFSLISFNLNVSKKYLLNERIQNIIRKVSSFLMILIGISILYQIWNDII;locus_tag=LOCUS_07340;note=WP_010946943.1 amino acid transporter LysE (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:33.3%25%2C q_cov:82.4%25%2C s_cov:43.9%25%2C Eval:6.9e-10%2C partial hit],MGA_742
sequence06	MetaGeneAnnotator	CDS	62329	62763	.	-	0	ID=MGA_743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKILPIILFFLFFSCSNNKPSLYHFINDKNEEVIINNLKIDGKRVDDRTKVDLKIVHSNNKHINLDLEFYYNPFPQLVNGLWISSENFQQGSILSNSLKFSGGQGEPPSVGGNFYLLDSKKDTLFHLFLPLMMIYDPLDKL;locus_tag=LOCUS_07350;note=MGA_743
sequence06	MetaGeneAnnotator	CDS	62776	63195	.	-	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKTIDKFFELFHADQIDDALALYHTDCIDTDHATGEVNKDKEAIRNSFQFWKSAFSDMNVTIRKHVEEGNTVATELTFKGTNDGDLPLPDGSTIPATNKVATLHGCQITVFDDDGLMIKTDNYYNIGSMMEQLGIGG;locus_tag=LOCUS_07360;note=MGA_744
sequence06	MetaGeneAnnotator	CDS	63385	64293	.	-	0	ID=MGA_745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLMLLIISTSFSIAQVDPLEGFKTMEELANKIEEEVIPVKDNYFLIKGNTSSTPPYSGNIGVFNSKEGLIVIDNQWRTTYKQVKKALREISKSKVKYILNTHYHFDHIEGNNVFSKDGIPIISHHNVREKLKEQVQLYDGFIQPAHDPNSLPNITFHKKMELNLEDETVEIFHFGPAHTGGDAIIKFKQGNVIHAGDVFVTYGFPFIDYSNGGSIYGFIHSLTQIIGIMDNETIVIPGHGPLCDINDVITLRDQINECYQRVKEGKSKGQSLDSIVKDIDVKLPGNRTLLEFCTDIYKNI;locus_tag=LOCUS_07370;note=WP_011404104.1 cyclase (Salinibacter ruber DSM 13855) [pid:34.2%25%2C q_cov:77.8%25%2C s_cov:69.2%25%2C Eval:5.1e-34%2C partial hit],MGA_745
sequence06	MetaGeneAnnotator	misc_feature	64313	64883	.	-	.	ID=MGA_746;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010870596.1:shikimate dehydrogenase,WP_010870596.1 shikimate dehydrogenase (Methanocaldococcus jannaschii DSM 2661) [pid:40.1%25%2C q_cov:96.3%25%2C s_cov:64.2%25%2C Eval:8.1e-32%2C partial hit],MGA_746;locus_tag=LOCUS_07380
sequence07	MetaGeneAnnotator	CDS	237	1346	.	-	0	ID=MGA_748;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004550082.1;translation=MKKIVLTANTSWYLYNFRLGLIKELIKQKNKIFIVAPKDNFSTKLKDLGCTFFSIKVDNKGSNPIKDLSFFYCLRKIYKKINPDIILHYTIKPVIYGSFASQKLSIPHINNITGLGTVFIDPNWITFFVKILYKKALIRSSYVFFQNKDDYKLFIKNKLISKSIPVSIIPGTGIDLDKFKLSKYPKSSTLNFLFIGRILKDKGFFEFVEVAKRIKNLGFKVDFKILGYLNVKNKTAITESEINHFQKKGYINYLGSSDNVIPFISDASCVVLPSYREGLPKSLLEAASIGRPIIATDVTGCRDIVFNGKNGFLCKPRNIKDLYQKIMEFISLSYQERKKLGENGREIMKKNFDEKKVIKKIINHINQIF;locus_tag=LOCUS_07390;note=WP_004550082.1 glycosyl transferase (Burkholderia mallei ATCC 23344) [pid:39.5%25%2C q_cov:95.4%25%2C s_cov:93.1%25%2C Eval:8.8e-74],MGA_748
sequence07	MetaGeneAnnotator	CDS	1360	2520	.	-	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFFLDLINLEFFVLLLVFTISIILKLKPLQLMLLIFHVITIFLLNDVLFDSSYMGDQRRYLEAAKSVRLFQEPADGFVNSVGISGFLFSIFPIPFIISIQSLSMINFIIYLLLFFYLKKQNILTYGSEIFYLLYPSLLLYSSVGLREMLILTFMIIVVYQFLVKDKYIFSVVCSLPLIFLKPQNFLIINMCSTILFFFKKGDSNKKIGILFLIILAFFGLKNLILSRFTIPVGFGFIDVINNYRNYMFFEDTRSYVEGYIPINNFFDLFYQGAIGSFYMLLKPFPWQSSNPLQLVQSIENIIILFLMIFLVLKPINFKTLRLKANYLKMMIIISMSIYGMVVFNFGSASRYRFGFIVVFFIFYSYLLNKNRIDLLKYKSINPNI;locus_tag=LOCUS_07400;note=MGA_749
sequence07	MetaGeneAnnotator	CDS	2522	3724	.	-	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSKMDEKIKYLNPNDLSIIIPVLNDIEYIKKLIVALLNQTILPLEIIIIDSSDNQKIEKLLNNKIFSYHNIDKSYPGKSTNYGVKISKGKWLGFLDSKTIPKENWIENYIKYINKKKYKVVFGMTEFSSKTKFQELIQFASYGNIPHETFPGTIVKKNVYLKLEGLNEFVRAGYDIDWRNKIKKLNIDYFLPSKSYIIYSSFPDNLFDLLKKYIIYSFHSAKIDIQKNTKDLYLSLFVILTSLIIPKWNHLIGEWGDSNPFFIPHISKIYVVSIISLFIGFQISNFLINVRRMTVFDQTIKIIIIIFISLSVMQWNDVIANWMEDNIWYIPHITKIYLSSLVLFSILFRGIYFPINRNVKLNKIFPFKWIKIGFLGLIIDIVKTPGYLLGSLYSIFRKK;locus_tag=LOCUS_07410;note=MGA_750
sequence07	MetaGeneAnnotator	CDS	3697	5637	.	-	0	ID=MGA_751;product=asparagine synthetase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056091.1;translation=MCGITGYCSFSNNNSSEQLELIINKMSDSLSSRGPDDKGFWIDPKKGIALGHRRLSILDLSSSGHQPMVSNNKRYIISFNGEIYNYKDLKTILIKKGYNFKSNTDTEVMLMSFEEWGIKKSLQRFDGMFAFVVWDRNKNEFWLARDKIGEKPLYYGFQNQKFFFGSELKAIHSNSFFNPVIDKDALSMFLKYSYVPSPLSIYKGIKKLQPGHYVCLKDPFKIPNPKPFWDIFEITKTQSSNIYDGIENDAINQLELILEKSIESRMVSDVPIGAFLSGGIDSSTIVSIMQKVSNKPINTFTIGFKDQKYNEASKAKKIANHLKTNHTELYVSNNDLLNVIPNLSNIYDEPFADSSQIPTTLISGLAKKNVTVALTGDGGDELFGGYNRYFLAQKYWSIIKLIPFILRKYISKSIESIPNDYMSNFENIFFGNSNYQITNKFYKMGNILKQKDLRSTYNRLVAIIDQPNDYLTYNDQIRSTLDNAKEWNLINDKTMTMQFLDLTTYLPDDILVKVDRAAMISSLETRVPFLSPEVIKFALSLPKNFKYRNNEGKWILRKLLYRYVPKKIISGPKIGFGIPLKDWLKNPLKDWSESLISNNVLKEHNYFNVNEIQKMWNLHKSGKFDYSSQIWNIIMFESWYQKWMKK;locus_tag=LOCUS_07420;note=WP_011056091.1 asparagine synthetase B (Thermosynechococcus elongatus BP-1) [pid:44.4%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:3.5e-162],MGA_751
sequence07	MetaGeneAnnotator	CDS	5639	6712	.	-	0	ID=MGA_752;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056101.1;translation=MKKILALTRYGKIGPSSRYRFYQYFPYLKKNGYNIEVHPFFKDNYTQKILLKSKNIFSINPFFSYWNRFIKSFSFKQYDLIWIEKELFPWIPSLIENLFLKTNIPIIIDFDDAVYHRYDQHPNFITRKFLSNKIKFILKSSSLIIAGNEYIASYARKSNVKNVEIIPTTINTEKSVIKINHLNKNKFVVGWIGSSSTSSHINEISQVIINLCKENDILFTAVGVDGKKLNNFPVNIIKWKEDDELKEISKFDVGIMPLPNNPWERGKCGLKLLQYMAAGLPVVASPVGINNEIINHGKNGFLAHSEKDWIKYLKRLKNSPILRKKMGEESLKIVKKNYSLDLHSSKLIKIFNMLCGK;locus_tag=LOCUS_07430;note=WP_011056101.1 glycosyl transferase (Thermosynechococcus elongatus BP-1) [pid:38.7%25%2C q_cov:97.8%25%2C s_cov:98.0%25%2C Eval:1.4e-73],MGA_752
sequence07	MetaGeneAnnotator	CDS	6709	7899	.	-	0	ID=MGA_753;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056098.1;translation=MKANILYVSWDGIIEPLGQSQVLSYLKKLSSNYCFHLVTLEKKKDFKRNKDYENIVNICASSDIRWVKIIYTSNVIFSNLWNLTKCFIKSFRILISNDIKCIHARSYPPALIGLLLKKFFRVKLIFDMRGFWIDEKVDSNRWLKNSVYYKIGKKLEKILINNSDFIISLTFAGKQELEKNFNCKNKNIPIEVIRTCSDLDKFNIKLTNQVKSSLNLGYVGTATGWYIFDEVLIFYKYLKQKKPGSYLRIINMNEHVFIKNKLKKHNISLKDIYLGNSSFDNIPIEMKKIDFGIFFIKPSYAKKGSCATKLGEFLASGIPCITNIGVGDHSEIIKKNNTGIILEKFDHSNYDKTIKSIEKFKSDSKLRNRCIKTAKEFFSLEEGVSSYLKIYSYLIS;locus_tag=LOCUS_07440;note=WP_011056098.1 glycosyl transferase (Thermosynechococcus elongatus BP-1) [pid:26.9%25%2C q_cov:96.0%25%2C s_cov:95.3%25%2C Eval:2.6e-42],MGA_753
sequence07	MetaGeneAnnotator	CDS	7896	8960	.	-	0	ID=MGA_754;product=nucleotide sugar epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003807093.1;translation=MTLNEKKILIVGGAGFVGSNLAHFIIENYNPQKIYIIDNLLSSEKINIPMSNNVEFLEGSVSDDDIIKSIREDIEYVFHLSCYHGNQSSIANIFDDHQNNTLTSLKLFNRISDFKSIEKVVYSAAGCAVAEKTFDSAYATDEDASVSLFHDSPYSISKLIGEMYGNYFFQKNGMPFVKARFQNVYGPREILGAGKWRGTQHTVWRNVIPTFIFKSLNNEALPLDNGGKGTRDFIFVEDIVKGLIQCALIGNPGEAYNLASGKETSIHELAKLINSITGNTTPLDLKKPRDWDKSGKRFGSTIKSKEFINFEAEVEIDEGLNKTIEWTKNNLDLIKKTMAKHQNNLKEVKQYLNN;locus_tag=LOCUS_07450;gene=wbmF;note=WP_003807093.1 nucleotide sugar epimerase (Bordetella bronchiseptica 253) [pid:57.6%25%2C q_cov:96.9%25%2C s_cov:96.1%25%2C Eval:1.3e-111],MGA_754
sequence07	MetaGeneAnnotator	CDS	8966	10066	.	-	0	ID=MGA_755;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056097.1;translation=MKITIILPSLEIGGAEQLTVNLINEWIEKKIEIELILLSNKGSLSKKIINKNTLKIKYLNINRLKNSFLPLINILRKSKPEIIWVNMWPLTSIAILSWILSGRKGKIFITDHNSLKYQINNYSRYKFLNKLFLGITYRFACGISTVSKDVRDELSKITFISKKKIRVIYNPVALGKTKLKKLFGSNEKKWNDKFKLRFLSVGNLKKEKNYECLIKAFSLLPKSLDAQLTILGDGPLKNQLDSLINKLNLKDEIFMPGQVLNPYSWYKSADLFILSSVSEGFGNVLVEALECGLPIVSTNCFGGPKEILENGRYGKLVEVNNVNDLKNGIIEQLNKKHDKKKLIERSQDFLISKISVEYLSFFGTKK;locus_tag=LOCUS_07460;note=WP_011056097.1 glycosyl transferase (Thermosynechococcus elongatus BP-1) [pid:33.4%25%2C q_cov:97.8%25%2C s_cov:97.3%25%2C Eval:4.8e-48],MGA_755
sequence07	MetaGeneAnnotator	CDS	10069	10635	.	-	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIILRKLSSLMTHFIIFFRSKYYNLILCTFQNGIKIEKNVKFGKNINIRVTDGGVLEIMKGVNISSNTSIIVKSGNLKIFDNVFIGNGSIIVSRKSISIGKNTLVSEYVTIRDQDHDYSNGKIKLNKFNSSPIIIGSNCWIGAKATILRKSVLGENVIVGAHSLVKGEIPSFSLAIGIPAIIKKSLK;locus_tag=LOCUS_07470;note=WP_002912005.1 exopolysaccharide biosynthesis protein (Streptococcus sanguinis SK36) [pid:39.6%25%2C q_cov:73.4%25%2C s_cov:48.3%25%2C Eval:5.4e-20%2C partial hit],MGA_756
sequence07	MetaGeneAnnotator	CDS	10639	11841	.	-	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYAPFSTHVGAHLHNLLSYYHHGKLDWYFTPEIRNLNFNKFDNFDVVAIHHSLRYDPKRHYLLKSKLNQFSGKKILFLQDEYLYTGRNIEFIQDVNFDLVYSCVPKQHIKKIYDNSLTSKRRFISILTGYVKDWELNKKFIKPIESRKIDLGYRGREPEYSWGSLVREKFTFPKKILKELHNSEIKSDISFRDKDRIYGKKWIDFNQECKAMLGTESGSNLFDFNNDLIKTEKKLKLKNPNLTFEEYLKVLKSNGYSEKEGLMNQISPRIFEAIENKTLLVLVEGKYSGVIKPGKHYFSLKKDLSNLSEMIKLLKDNNEIQQIVDRAYKDIIFSKKYGYKAYVHKIEKEILSLTFSGKIKNDRSIFFMASKKPKKNFILFYLIKLWLIFPKNLRKVFPR;locus_tag=LOCUS_07480;note=WP_010925719.1 hypothetical protein (Bordetella bronchiseptica 253) [pid:34.4%25%2C q_cov:87.8%25%2C s_cov:41.5%25%2C Eval:7.3e-53%2C partial hit],MGA_757
sequence07	MetaGeneAnnotator	CDS	11876	12805	.	-	0	ID=MGA_758;product=nucleotide sugar epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003807092.1;translation=MSKIFITGGAGCLGSNLFEKYILEGHEICLIDNFITGKREVVPELDNLKLIEGSISDYDLLRSSIENFKPEYVIHSAASYKDPKNFAEDVRTNINGTINLIEICLENNVKKIINFQTSLCYGKPKVLPIPINHSIDPFTSYGISKAAAENFLFLSELPVISLRLANICGPRLAIGPIPTFYKRLKDNQKCFCSDSVRDFLDIKDFFNLMDIVLFQDVPAGKYNISSGEGHSIMEIFKLVCEYLNIENIDVPIIPVGEDDIKEVVLDPSETEKKLGWKSKINFNDTIKNQLIWYDNYGISEIFSHLNKPK;locus_tag=LOCUS_07490;gene=wbmG;note=WP_003807092.1 nucleotide sugar epimerase (Bordetella bronchiseptica 253) [pid:57.5%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.4e-106],MGA_758
sequence07	MetaGeneAnnotator	CDS	12802	13734	.	-	0	ID=MGA_759;product=nucleotide sugar epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003807090.1;translation=MKVFITGGLGQIGSHIAELFLERGDKVHVIDNLATGRIEHLSKHKNLEITIDTISNKKLVDELFKNFQPDIVIHTAASYKDPNDWYNDTLTNCVGGGNIISASIKYNINRFIYFQTSLCYGLKPIEQPITLNHPILPATTSYSITKTANENFLQISGLDYVTFRLANVIGPRNVAGPLPIFYQRLKDGKKCFITKSRRDFVFVKDLAKVVIKACDGYGSGTYHFSSGKDVSIKELYDEVVNSMNFEVYPEPEVRDIGNDDVFSILLDPEKTFKDFGEIKFSSLKDTVSSAINYFYEFGTLGEYTHLKLKK;locus_tag=LOCUS_07500;gene=wbmH;note=WP_003807090.1 nucleotide sugar epimerase (Bordetella parapertussis Bpp5) [pid:64.7%25%2C q_cov:99.7%25%2C s_cov:98.7%25%2C Eval:3.7e-120],MGA_759
sequence07	MetaGeneAnnotator	CDS	13771	14541	.	-	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRILFLGQKPIGEKCYTLLFKSQSKNLKIKTVVSNEKKTNWWKSNYIYESSKKNNIKFISNEKRNEDQIIDSIKEHKINLIISVQHCWIFSDKILKIINGNAYNLHNAKLPDYKGYNTINHAILKNDSTYSSTIHKIDKKVDAGDIIFERSCEINDNETALSLHKKSFELSILIFNEFIEFLKGKKKIHPTKINEEGKFYSKNSLDNHRIIKEIDNFVEIDRKARAFYFPPFEPAYFIIKKKKFYILPDFKNKF;locus_tag=LOCUS_07510;note=WP_010947888.1 peptide synthetase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:26.9%25%2C q_cov:81.2%25%2C s_cov:14.3%25%2C Eval:1.3e-13%2C partial hit],MGA_760
sequence07	MetaGeneAnnotator	CDS	14531	15184	.	-	0	ID=MGA_761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVFFFGDSICYGQGISVHKGWIPKISSAFEDNKLDVLVANSAVNGRTTRQALETMPFEIQNYKPEILIVQFGMNDCNYWLSDKGLPRVSKKSFKANLEEIITRGFNFGCKKIFLNTNHPTLKNEKLSFNNISFSYQESNDQYNEIIREVASSLTKNVILNDLEKVFIETCNQKKYNLSDLLLKDKIHLSSRGHEIYFNTIFFKIIDEVKKINQNEI;locus_tag=LOCUS_07520;note=MGA_761
sequence07	MetaGeneAnnotator	CDS	15199	17112	.	-	0	ID=MGA_762;product=asparagine synthetase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003807086.1;translation=MCGISGIFNMNFQKIDSPEKKIKTMIKLLSHRGPDFHNHWIHPNQFIGFGHNRLSIIDLSQKANQPMEGIDNNLITYNGEIYNYKEIRSLLKNDWDFKTDSDTECILSAYSKYGVSCLDNLRGMFSFSIWNSKKNELFCARDRFGIKPFYYFIKDNVFYFASEAKALLPFVDSIETNKNAFAEYLTYQYTIGETTLFKDIKKLLPGHAILIKNNSIKIWKYWDVKYNVDFNLNSEFCYEKLSNLMQKSIKYHLIGDVEIGSYVSGGIDSSLLLNLATKSIKKPLKGFHGFFSNYKDYDESHYANTATELINGKLFTLDITSKDFSNNIEKIIYYLDFPTAGPGSFPQYMVSKLASEHLKVVIGGQGGDEIFGGYARYVIGYLEQCLLAAIDGSYKNGNYIVTLESIIPNLGILKEYKPLIKSFWSQGLFDSMDERYFSLIDRSKTLSNEINWNELDKSQVFDNFKNIFNNKNNVKKEAYFDKMTHFDFKSLLPALLHVEDRMSMAHGLESRVPFLDHEIVEFVATIPANIKFENGKMKNLLKKTFTNSIPNEILNRRDKMGFPVPLKEWFNSSLKDFVIDNLNNLKMKNRPFINSKTINLDKLIDNQFSRKTWALLSLELWYQQFHDNEQEFKRMIN;locus_tag=LOCUS_07530;gene=wbmI;note=WP_003807086.1 asparagine synthetase B (Bordetella bronchiseptica 253) [pid:49.1%25%2C q_cov:98.4%25%2C s_cov:99.1%25%2C Eval:1.1e-176],MGA_762
sequence07	MetaGeneAnnotator	CDS	17126	18217	.	-	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFNYDAVIMLTFSIWKKEARSNRYHYASRFSKLCPVYFFQFDLKFRDNYFEKIKNSNIIIVHCNKKYLVNNNQHKLFNILEKIKTKKPLLWIYNYLLDDIIRNFKSDMKIFHATEDFFCSDLFFKPPNIDKLKKVLQNIDLLVSCSEGVNSSYINNGKYIGESMILTNGVDFHFYAPKTSDLKQVIQNRKNNIIFYQGGINDRLNMKLLYDLIYKLSDMEFHFFGRSNFNDLENKNIWKSFFKFKNFRYHKFKSVEKLRSFGYKATMGIMPFAKTKYTVESAFPLKSFEYLACGLPVVSIEINSLKKFKKFFFFANDANEFEKQILIARTKSKNYDSFVEKIKIAKKMDYNSSFSKLISNLN;locus_tag=LOCUS_07540;note=MGA_763
sequence07	MetaGeneAnnotator	CDS	18270	19445	.	-	0	ID=MGA_764;product=LPS biosynthesis protein WbpG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003119728.1;translation=MDTSDEEISFDETGQCSHCISFYNSLKKNWTPGTKEVLKELDDIVVSMKEKQKNQEYDAIIGLSGGVDSSYLAYWARKEANLRLLAVHVDAGWNSDLAVRNIEEIVKKLDIQLFTEVVDWEAIKDVQTAFFKAGVANQDTPQDHAFFSVLYSFAEKNNIKYVINGNNYTSESVLPVAWGHDAMDSVHMKDICRQHGGKKWKKFPFVSTFKYHVFIPRIRKMQIISPLNYIDYKKMDAIKVLEEKLNWQYYGGKHYESRFTKFFQSYWLPEKFGYDKRKAHLSSLILSEEITRDEALDEMKKNSYDKSTIDQDINYICKKLDVKKEDFICWMNEPNKKFSDYKNNVFIKKVIYSLIIEFSNLKSRVNIFSKVKYILARIKYLSLKILSKSKN;locus_tag=LOCUS_07550;gene=wbpG;note=WP_003119728.1 LPS biosynthesis protein WbpG (Pseudomonas aeruginosa PAO1) [pid:44.7%25%2C q_cov:96.4%25%2C s_cov:95.0%25%2C Eval:8.4e-86],MGA_764
sequence07	MetaGeneAnnotator	CDS	19516	20271	.	-	0	ID=MGA_765;product=putative imidazole glycerol phosphate synthase subunit hisF2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P72139;translation=MNKRIIPVLLLKDNVLYKTEKFKKPKYIGDPINAVKIFSEKESDEIAFLDIDASKKNKEPNYSFIKDVSSEAFMPFSYGGGIKNLFQAEKILNSGCEKLIINNSFLKKSDLARTLIKEFGSSTVVCCVDVKKNFFGTHKIFSHVKKRIISESFDEYLVRCADTGFGEVIIQSVDNDGMRNGYDLNLVERTRKYLSCQLVSLGGAGQISDLKKIIKVGADAAAAGSFFSFHGKYKAVLISYPTYNEIKQISS;locus_tag=LOCUS_07560;gene=hisF2;EC_number=4.1.3.-;note=P72139 putative imidazole glycerol phosphate synthase subunit hisF2 (Pseudomonas aeruginosa PAO1) [pid:47.4%25%2C q_cov:98.0%25%2C s_cov:98.4%25%2C Eval:2.6e-59],MGA_765
sequence07	MetaGeneAnnotator	CDS	20264	20869	.	-	0	ID=MGA_766;product=imidazole glycerol phosphate synthase subunit HisH 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P72138;translation=MNVTIVDYKVGNIGSLISMLSRLNINAKASSDADCILDSSAIILPGVGAYDRAMNSLKKLNLIKVLNECVYDKNIPVLGICLGAQILGKSSEEGEEKGLGFIDMEVIKFENKNLSIPHMGWNYVKPTRKSKIFKNLDSDRRFYFVHSYYFKPKDKNNIESFSNYGDDFVSAVSKNNVYGVQFHPEKSHRFGLQLLKDFFYE;locus_tag=LOCUS_07570;gene=hisH2;EC_number=2.4.2.-;note=P72138 imidazole glycerol phosphate synthase subunit HisH 2 (Pseudomonas aeruginosa PAO1) [pid:49.2%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:7.2e-53],MGA_766
sequence07	MetaGeneAnnotator	CDS	20878	22269	.	-	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKSVLIISLTPVFSEPRVLRQANLFYQNGMNVIIAGYEGKDKKINHYKFIDLNPKSNLAINDIKSSASENNISSKLPFPFDNIYKAFKYKKEHKFLKYLPNFLDPFIFLKFFYDNFFLRPIGRLKYERKRLRTFILIFFSDHKKNYLNRYWDENRYGKIYDLLKDIKVDFIFTHDYFTTPIAYKLAKKNNSKYFVDVHEHALSQKNSTDFFSNLKIKIFQNSYIKNIENEFYTKSNGISTVSDGLNLLLRDQYPKIKNLITVRSTPFYEKHEPKILNSESRIEMLYHGILAPGRGLETYIKIMNFLPEKYYLKIRGSGPSDYINSLNQLINSFNLSKKIKIVEPVDFNKIVFEANKSDIGLLIMKNTGKQKTINLSNKFFEYIMSGTMLCVSNYPDMAKIVNENSLGLLIDDDQNDPKKIAELILKISYEKINFFKTNSIKTAKILSWENESKKLLKFINN;locus_tag=LOCUS_07580;note=WP_011986993.1 glycosyl transferase (Clostridium botulinum A str. ATCC 3502) [pid:25.7%25%2C q_cov:64.6%25%2C s_cov:79.1%25%2C Eval:2.2e-19%2C partial hit],MGA_767
sequence07	MetaGeneAnnotator	CDS	22266	23651	.	-	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILILHNMGHPDSWINNISDLELSFYNYFPNNNYIIHNACLDPPEFLKEFEFDVIILNSSFLGMIFHKTTYERIIENYSFIKNLSSFKIALPQDDYYCNDELNELLNEFGINLTLSPFYHFKDTLHKKYLQNGGEILPCYTGYITPDLISLTSKIKSLKNRKFDVIYKASGSPTFPNNMAQLKADLGKIFLNDFQNYRMRVDVDSKKFYFNEDWINYLINGRIVLGSNSGSSEIISNLSVVEKLNAYKLEHGCNNEEVIKVLLEEKNKNLRMTCLSPRNFEAALTMTAQLLVPGEYGDILEPYEDFFPYNNDKNSILEFIKDKKLQKKIAKNCKEKILSINELRIDYFLKTILDKINKTENINSKKFETLKEKYNNKMETLYVEYFTNFSFYKIDKFFCDLHSNNFPLKTNKSSKLISRIIGYLNNYEKRLWEFINEKVYPFLKERISKKIQKNTNYFIK;locus_tag=LOCUS_07590;note=WP_003807084.1 hypothetical protein (Bordetella bronchiseptica 253) [pid:27.7%25%2C q_cov:43.4%25%2C s_cov:23.6%25%2C Eval:3.1e-13%2C partial hit],MGA_768
sequence07	MetaGeneAnnotator	CDS	23752	24159	.	-	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQRLILKLYFVDLIKTLLFILIGLLIKILNFFKTVYVFPKRKRNNDIITINIISKQNQELNVPSSDYFFSMKLFKKNPNIFFEPYHLSSIKLIELKFKNFTKMPEIRKFIEKINFNNILFTKKNLRTKLIRIFL;locus_tag=LOCUS_07600;note=MGA_769
sequence07	MetaGeneAnnotator	CDS	24144	25337	.	-	0	ID=MGA_770;product=sugar ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965625.1;translation=MKKSPLIVDNLSKKFSRNLKRSLVYGGVDLFKKFFYNSDNNLNLRKTEFWALRNISFELKEGETLGIVGHNGAGKTTLLKLISGLLYPTNGNIKINGRLNALISLGIGFNPVLTGRENIFVCGTIMGYSVDLIKSKFDDIVSFSELEDFIDTPIKNYSSGMMARLGFSIAVSIEPQILLVDEILAVGDLNFAIKCYRRINEFRSSGGSIILVSHSPYAIRANCNRVLWIEEGKKQKIGKTKEICDEYESFSAEKDDVSSSKTYLDKNFIKDLKLIYTKKIESGSFFNLKILIESNKNIDNAMIGINFFNLSGQNVIANNTKEIDFKVSLQKGKNRFSVEYDNLILNRGSYYLNVTISGDHINTQYAATVNINKLEISSKSDLYGAGLVRLKPKWNKG;locus_tag=LOCUS_07610;note=WP_010965625.1 sugar ABC transporter ATP-binding protein (Clostridium acetobutylicum ATCC 824) [pid:34.6%25%2C q_cov:89.7%25%2C s_cov:91.2%25%2C Eval:1.6e-60],MGA_770
sequence07	MetaGeneAnnotator	CDS	25338	26120	.	-	0	ID=MGA_771;product=transport permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TGP9;translation=MKIKLQNIFELGYQLALRDFSSLYRLSFLGIFWGIAGPLVTSLSFILLQRSNIINIPEISISYPAYVISGTLIWQLFVDSLNAPLNQVQINKSVLTKIQFPWLALIVSGFINIMINFSLKFIPIILVLMIIENSFTAQSFLVIIPILGISFFGFLIGIYVLPIITLFEDLKRVINLITGPLVFLTPALYPIPESGILNLFIKNNPLTPFFLTARSFLFNLSDLHTIESFFLIMVFIFVLFIPGCFFYNLSMPILIERMEN;locus_tag=LOCUS_07620;note=E8TGP9 transport permease protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:25.3%25%2C q_cov:85.4%25%2C s_cov:92.5%25%2C Eval:5.5e-07],MGA_771
sequence07	MetaGeneAnnotator	CDS	26117	27283	.	-	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKGSILFAGCEYYNTWYLSRELRKYGWEADLLNWDSNKESWHHYHGWDYLFKYNSEKDLKYQFNFYLKTLDKYDIFHFSNVGGISFGSKINQCFKKYMPINEIEYIKLLGKKILYTNNGCLDGVLQSSFSKWGPHNTCNICKWKEVPEVCSDYVNEKWGKFRNQMADFQCTLGGNRKDYNDNENVHEVPEFYCLDPNFWNPNLKIPNQFKLQDSAKVKIFHSIANKKQRTNDGGVDIKCSHIYEPLFEELIAEGFQIEPIFASNLKNEEVRYIQVQADIVVDMLTFGFFGANIREALMLGKTCVCFLRPEWLVSMKKEIPDYVDELPVISATPETIKEVLIDLIQSPQKRIDLGKRGREFALKWHSAQSGGKKMDEIYSSILDYNK;locus_tag=LOCUS_07630;note=MGA_772
sequence07	MetaGeneAnnotator	CDS	27280	27999	.	-	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015038679.1;translation=MNKDKIVGMHQPNFFPWLGYFNKIFKSDIFVILDDVQFPKKGGSWSNRVKIIISGKSNWLTAPIVRNYSGVKNINEMEFNNSAKWKEKISKTIEVNYKKAPFYFEVEEFIMNLILNSENNISKYNLKLIFHICKVLDIDFKKIILSSNISHKGASNELLVSIIKELKANIYLSGDGANEYLDKIIFQQSNISVKYLNYKQMNYDQYNSNKFISGLSIIDVLMNLGFEKSKKLLIQEASI;locus_tag=LOCUS_07640;note=WP_015038679.1 hypothetical protein (Bordetella parapertussis Bpp5) [pid:39.6%25%2C q_cov:95.8%25%2C s_cov:96.2%25%2C Eval:2.5e-48],MGA_773
sequence07	MetaGeneAnnotator	CDS	27992	28687	.	-	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKRNLKIDNINPKKIAILSYEKFSNKLLQIAESVRNDLKISKIHSKEELNHLLINQHYDLLISFGSSIIVPKKILEIKGLKSVNIHAASPKYPGRDPHHFAVYDNVKKYGATMHFMVDKVDEGGIIDVEFFSVRSLIKPNELLMKANDAGLKLFIRLLKNFDKENYLKVSNKYKWSNKKNTRKDFEKLCNLSFDIDKKEFMKRLNACSFPGYNNLFLNIDGKKFQIITNE;locus_tag=LOCUS_07650;note=MGA_774
sequence07	MetaGeneAnnotator	CDS	28659	29444	.	-	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015038675.1;translation=MIDSKNQSTAINPNISDFTINKYQELLVLAKKNYNFVSYQNINFNQKFVLWRHDCDFSLNRALKLAELEKRENIVTTYFINLHCEFYNLFEREQSEIIRQIINLGHNIGIHFDINYYNVKSEEDLKKWLIFEKNIFIKLFNIKPIVFSFHNPNLFSLSFEKKKYTGLINCYSKQFKNNVGYISDSNGYWRFKRLSDVLSLAKEKNIQVLTHPAWWQDVISSPYDRIQRCVKGRAKNILDNYNEQLKKDGRINFGKEKSKDR;locus_tag=LOCUS_07660;note=WP_015038675.1 hypothetical protein (Bordetella parapertussis Bpp5) [pid:46.2%25%2C q_cov:94.6%25%2C s_cov:94.3%25%2C Eval:4.7e-62],MGA_775
sequence07	MetaGeneAnnotator	CDS	29441	30391	.	-	0	ID=MGA_776;product=formyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003807064.1;translation=MKKKLRVGIIGRTESLYHTAKLIVNNPNFEIVHFITSKEAPEYTKKASDFEQLANDHNVPFINSPKIYEDHKKIIKSSNPDIGISMNYTSIIDSSIINIYKMGILNAHGGDLPKYRGNACQAWAILNGEKKIGLCVHKMVGGELDSGDIITRKYFDIDFNTKITQVMAWILLNTPQLFYEAIMKLSTNPSYILEKQSTNTNKISRCFPLNPKDGLIKWSKSNYEILRLINAHNKPYSGAFSFIKDKKIIIWDAELSFYSHSIYAVPGQITEIKRIGEISYVEVACGEGILKIKKIEIDRKIISPDKYIKSIRSRFI;locus_tag=LOCUS_07670;gene=wbmR;note=WP_003807064.1 formyl transferase (Bordetella bronchiseptica 253) [pid:40.0%25%2C q_cov:82.3%25%2C s_cov:83.5%25%2C Eval:4.2e-50],MGA_776
sequence07	MetaGeneAnnotator	CDS	30394	31101	.	-	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015038676.1;translation=MKLFKKISDINVNNPKSWEKNFFLTFDIDWAHDKIINDTIDLVEKFDVSATWFITHKTSTIDRLRLNPKFQLGIHPNFNNLILGNYLNGKSLEEVIDRMIEIVPESQCVRSHSLFQSEKIFDLFLEKKLNYICNTFIPFNNSFSVQPWNLWNGIKIIPHSWQDNVSLKMKTTNFSDFPENSLKVFDFHPIHIFLNSDTLDKYESTRKYHQNPETLLNFRFQGNGIRTKLKSLINL;locus_tag=LOCUS_07680;note=WP_015038676.1 hypothetical protein (Bordetella parapertussis Bpp5) [pid:40.0%25%2C q_cov:97.9%25%2C s_cov:97.5%25%2C Eval:2.5e-53],MGA_777
sequence07	MetaGeneAnnotator	CDS	31103	31684	.	-	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEWSKNNSVKKFIYASSGNVYSQSRKKLIENSLLGPSSLYGISKLAGEEIVKKYNNSFDTLIMRIFGVYGPGQKKMLIPEIIKKIKLKNEIFLAQSKGLYFTPIYIDDLINIIRELINRNFNQKNLVVNICGSEVVSLNDLVKKLEKLINKKAKIKITNDEIKYFIGSNELLLKLLNIKDLISLDKGLKLVI;locus_tag=LOCUS_07690;note=WP_011963753.1 GDP-4-dehydro-D-rhamnose reductase (Flavobacterium psychrophilum JIP02/86) [pid:26.5%25%2C q_cov:98.4%25%2C s_cov:66.7%25%2C Eval:3.2e-07%2C partial hit],MGA_778
sequence07	MetaGeneAnnotator	CDS	31960	33837	.	-	0	ID=MGA_779;product=asparagine synthetase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015038673.1;translation=MCGIAGIINIDGQPVSSTVLNKMVDSIKHRGPDGNGFYTNKNIGFGHCRLSIIDLSSSGSQPMVSNNNRFVLTYNGEIYNFKELRLELENLGHKFHSKTDSEVVLNAWVEWGEKSILKFNGMFAFAIWDKKKQNIFLVRDRYGIKPLYYAKWGDIILFASEQKAILKHPKAVKKIDKTALFEYFTFQNIFTDKTLIENIKLLKPASIAKIEYKKSNKISIFQYWDYHFKESHKSKNKFEYLEELDRLLKQSVSRQLISDVELGSYLSGGMDSGTLTALASKELPYIKTFTCGFDLSSASGLELAFDEREKAEAMSAFYKTEHYEMVLKSGDMERILPKFSWHLEEPRVGQSYPNYYAAGLASKFVKVVLSGAGGDELFGGYPWRYYRAVKSIDFDHYIDQYYSFWQRTLSTAEIKQVFNPIWDEIGAINTQNIFKDVFSTHQNELRSPEDYINHSLYFEAKTFLHGLFVVEDKLSMAHSMETRVPFMDNDLVDFAMKCPVDLKLKNLTEIIQMNENELGGKKKKYFKKTNDGKQILREVMAQYVPKSISEGIKQGFSSPDASWFKGESIDYVRNKIINKKSPIYNYLDFDSVSKLVNVHLNGHENRRLLIWSLLNINQYFKNEGL;locus_tag=LOCUS_07700;note=WP_015038673.1 asparagine synthetase B (Bordetella parapertussis Bpp5) [pid:62.0%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:7.2e-229],MGA_779
sequence07	MetaGeneAnnotator	CDS	33861	34841	.	-	0	ID=MGA_780;product=NAD dependent epimerase/dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003807052.1;translation=MEIKDSKILVIGGSGFIGSHVISELLKTNVKEVLIYDNFSRGNIENIRKSLEDDRCKIYPNGGDIRDIDLLNDAMNGIDGVIHLAAMWLLHCKDFPRTAFHVNIEGTYNVLEACINNNVKRLIYSSSASVYGDAVEIPMTEKHPFNNRNFYGATKIAGEAMCKAFYDRYKLSYVGLRYMNVYGPHQDQNAAYTGVIPIMLNKIDANVEPNINGDGSQAYDFIDVEDAGRCNILAMQSDISDEFYNVGTGIQTSIKELCDLILNLKDSNLVVKYNPYSVDDARQMVQNRIGDPSKAKKDLDFQYKYNLESGLKKLIKWRQENKFNNN;locus_tag=LOCUS_07710;note=WP_003807052.1 NAD dependent epimerase/dehydratase (Bordetella parapertussis Bpp5) [pid:76.3%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:5.5e-146],MGA_780
sequence07	MetaGeneAnnotator	CDS	34850	35032	.	-	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYKGSFLCNHVKYHSTIEKNNIFSFLNFSSKYNIIKVEPYFLDNINMLNFDKYKELLK;locus_tag=LOCUS_07720;note=MGA_781
sequence07	MetaGeneAnnotator	CDS	35029	36093	.	-	0	ID=MGA_782;product=UDP-N-acetyl glucosamine 2-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582948.1;translation=MKIVTIIGARPQFIKASVLSLEFSKDQSIQEIIVHTGQHFDHNMSKIFFEEMMIPTPKYNLGVQNLSHGAMTGRQLEKVEEILLKEKPDFVLVYGDTNSTLAGALAAVKIHIPVIHVESGLRSFNRKMPEEINRLLTDHIATILFVPSEVSFNNLIKEGIDKKKIFNVGDIMFDSTLYFSKKADHSSKILDKLGVKKKNYILTTIHRPENTDSSIKLNNIFDALSSLNTQVIIPIHPRTKIKVSEYECNIGKNIKLINPVGFFDMIILEKNASKIATDSGGIQKEAFFYGVPCITIRDQTEWVELLDIGANILCGPNINDLKKALTLDLKPFEPSNVYGSGNTANKIRKILKSL;locus_tag=LOCUS_07730;EC_number=5.1.3.14;note=WP_012582948.1 UDP-N-acetyl glucosamine 2-epimerase (Dictyoglomus turgidum DSM 6724) [pid:54.8%25%2C q_cov:98.9%25%2C s_cov:95.6%25%2C Eval:4.6e-104],MGA_782
sequence07	MetaGeneAnnotator	CDS	36090	36596	.	-	0	ID=MGA_783;product=N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582951.1;translation=MDKKNFFVHHSSFIDDDVKIGSGTKIWHFSHILSGANLGENCHLGQNVVVGNNVKIGNFVKIQNNVSVYEGVELEDYVFCGPSMVFTNIKLPRSEFPQRGSQFYKKTLIKKSASIGANATIVCGVTIGEYAMIGSGTVITKDVPPFSLVVGNPGKIIGKVDKKGNRLE;locus_tag=LOCUS_07740;note=WP_012582951.1 N-acetyltransferase (Dictyoglomus turgidum DSM 6724) [pid:67.1%25%2C q_cov:97.6%25%2C s_cov:83.5%25%2C Eval:2.5e-57],MGA_783
sequence07	MetaGeneAnnotator	CDS	36589	37560	.	-	0	ID=MGA_784;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582950.1;translation=MSQKKVCVVGAGYWGKNHVRTLDELGCLGGIVDADKNLLKKFRNDYPYILIHDNLEETLSKNFYDGYVVATPAETHFDIAKKIINNSKHILIEKPLTLSIEHATYLVDLANKNNINLMVGHLMLFHPAIKKIKKMIKDEMIGDLQYIYSNRLNLGKVRTEENVFWSLAPHDISIFDYLIGSSPKKIISNGSTFLQKGIPDSTLTQIKYKNNIDGHIFVSWLHPFKEQRLVVIGSNAMITFEDSKDGKPLKLYTKKFDFENGIPEKIDGPITLIEYENKMPLAEELSYFINHLDGKKLDIANGKHALEVTKILVNAGNQLIENG;locus_tag=LOCUS_07750;note=WP_012582950.1 oxidoreductase (Dictyoglomus turgidum DSM 6724) [pid:44.0%25%2C q_cov:95.7%25%2C s_cov:97.8%25%2C Eval:6.4e-70],MGA_784
sequence07	MetaGeneAnnotator	CDS	37557	38681	.	-	0	ID=MGA_785;product=aminotransferase DegT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933143.1;translation=MEFINLKKQFEIIENKINSNISKVLDHGKYIMGPEINELESKLAEYVNVKHAISCSSGTDALLLPLMAKGIGPGDAVITVSFTFVSTAEVISLLGATPIFTDINGCSFNISSSKINDSIEFAKKNNLNPKAIIPVDLFGQPANYDKINDIAKSHDMWVLEDLAQGFGSSQNGKKSGSLTLCGATSFFPAKPLGCYGDGGAIFTNDDQLADVIKSIRVHGKGSDKYDNVRIGVNGRLDTIQAAILLAKLEIFDDEIKSRNQIAKMYNKHLSEVLITPYVRPNNISAWAQYSVLAKNEIERGIIQAYLKDNGVPTAIYYPTPLHLQTAYKYLNQKAGTLPISEDVSKRIFSLPMHPYLDEKDIVNIADIIKRALKS;locus_tag=LOCUS_07760;note=WP_010933143.1 aminotransferase DegT (Chlorobium tepidum TLS) [pid:56.3%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:6.1e-123],MGA_785
sequence07	MetaGeneAnnotator	CDS	38684	39688	.	-	0	ID=MGA_786;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257502.1;translation=MKSKIKIAQIGVGYWGPNLLRNLALNPRCELSMCVDLSDERKNYVKSLYPNIKVSSNANDVFDNAEIDAVVIATPVKTHYQLATKALKNKKHILVEKPMATTIKEVEKIQFLSEKNELVAMSGHTFLFNPAVKKIKEIINSGDLGEIRYIYSQRLNLGRIRNDVDALWNLAPHDISIIKFWLEDLKPLKVSRYGMDYLQKGIQDVSFLTLTYPNNILVNIHVSWLDPNKIRTITIVGSKKMIVYDDLSKNKIAIYDKGIDRKAILGENMDFDNNQIFDFNHRSGDVKFPSVNWEEPLSAEINHFFDCIQNKYKCLTGINHTKEVISILQKASTK;locus_tag=LOCUS_07770;note=WP_012257502.1 oxidoreductase (Chloroflexus aurantiacus J-10-fl) [pid:38.0%25%2C q_cov:98.2%25%2C s_cov:95.8%25%2C Eval:1.0e-57],MGA_786
sequence07	MetaGeneAnnotator	CDS	39685	40680	.	-	0	ID=MGA_787;product=NAD-dependent epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957843.1;translation=MILITGSAGFIGFHLSKKLLDEGHRVVGLDNINDYYDKNLKENRLSILKGYKNFFLYKKDLINQDDLNEVFQKYKFTKVVHLAAQAGVRYSLSHPKAYIDSNIYGFFNVIEMCRKYKIEHLIFASSSSVYGMNEKYPFSEKDPVDHPVSLYGATKRSNELIAHSYSHLYNLKCTGLRFFTVYGPWGRPDMALFLFTKAILNKEKINVYNNGEMRRDFTYISDIVNGIILILNSSKNYDVKNDLNPSLSKAPFRIFNIGKNTPVKLMDFISEIEKQLNMKAKINFMPLQPGDVIKSHANVEELINEFEYEPQISVEYGIEKFISWYKEYYKN;locus_tag=LOCUS_07780;EC_number=5.1.3.7;note=WP_010957843.1 NAD-dependent epimerase (Coxiella burnetii RSA 493) [pid:57.0%25%2C q_cov:98.8%25%2C s_cov:97.3%25%2C Eval:5.4e-112],MGA_787
sequence07	MetaGeneAnnotator	CDS	40694	42136	.	-	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFEKFQTIMSESGIKSLAECARELNVSPQSISNWKSRGWIPPKYEIIVNNNFGIKNITQNIESSFDDDFIDLASKNNFFSLSNIILPIAKNLSFTIKSTFVMGFLGLLIFLVFQLLGFLLKNEDPTKTYITTSKIVIPGGVQLVQNQSSSSSSSGILGMLGINRSSSSGGSSLPPTSTLTSPSLYPQFLRTHSFAKRLFEEKFNTNKYGEQTLLEIVLLELEESFNKPSGLLKSIKYPSGYIVYKDENDLYKIDRGQGLDTLVMQYMHVINDTLGTGLVEFNQMGSFQTITTRAIEPKLAVDIAYVVLEELQEFTDYFNKIDLNRTEEFIEQRLKVIQDEYTILEDKMKIFLETNRQINSPALLIQKERIDRDLAIYKGLYTTLYQNLEQVKIQKEYEMSPTIQILDHPIPPLAPIYLNVSYFKTLSPIVILGFMLIGFGFGIIFSLIKGYLNIIDKREKQVFEEFKNVSIKSIKSIFK;locus_tag=LOCUS_07790;note=MGA_788
sequence07	MetaGeneAnnotator	CDS	42136	44022	.	-	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKFFLFIYFVSFILLGQGFNDSTNFNEINSGLRDTQTRINLEADIQRGNLVKRQFQFNEIINANFGLRFFLPDSSLGSTFDNLPIPGYYEISVGDEIRISLWGQADLQEIFIVDKEGRIFVRSIGFISVIGKSLTELKQYLKQEFSKSYSTLYSDDDRTFMDVSMVSIQSVNLQVIGEVVSPGVYNIHPFSNVITAISQAGGIDTTGSIRNIKILRDGNIFKEIDFYKLLVYGENNHDFRLKNKDIILVDKRQTTIQIDGQVNKPGFYEMKKNENFDHLLRFCGDFKPKAGLITEVTRILSRSERLTDDDAIKKFYFRDLSKINFSDGDKIVVPKIKNTNSQVYAYGQVKNEGNYRFVKSMRIYDLLELAGGINDKEFLKSVNTQKIDLIRRDITSNFSQVITLDLEKIINKDENENILLENYDQITVYPNLNFLPPKTVNLFGEINFPGIYPILKDNETILNIINRAGGLSPRAYEKGIILTRNNQRVILEGLNNVVRDGDQINVPQISNVVEIKGEVFNPGLISFKSNRKINQYLQIAGGLTPNADLNNILVYYVDGSVKIKKRFSNINIEPGCIIQIYEKVESTNLVGQILTFVEGVSNTITQIITTYVIVTQIGNVISGNSTQ;locus_tag=LOCUS_07800;note=WP_010880292.1 polysaccharide biosynthesis protein (Aquifex aeolicus VF5) [pid:24.9%25%2C q_cov:84.7%25%2C s_cov:74.9%25%2C Eval:7.6e-29%2C partial hit],MGA_789
sequence07	MetaGeneAnnotator	CDS	44070	45383	.	-	0	ID=MGA_790;product=UDP-N-acetyl-D-glucosamine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048117.1;translation=MLSNIKNKINTKEAKLCVVGLGYVGLPLAVEFAKAGFKVTGIDISENRVNQLNRGENYIRDINDKELRMLIDSESLKATTDYSVISEMDAISICVPTPLSKLKDPDVSYIQSSIDEIVNYIHPGLLLVLESTTYPGTTRELILPALLNSGAKVGEDLFLCFSPERIDPGNETFNIKNTPKVIGGVTEECGNLGAELYKKITDEVVIVSSPESAEMVKLLENTFRSVNIGLVNEIAIMCEKLKVNAWEVIDAAETKPFGFMKFTPGPGLGGHCIPIDPHYLAWKMRTLDYKARFIELAGQINSSMPEHVVELIRFSLNDLAITIKNSNILLIGMAYKKDIDDVRESPSLDIMALLEEQGANVSYYDPYISEIKWNSEIKKGYLNLSEINLIKYSAIVILTDHTNIDYEKIKNSDSLIIDTRNVYKNYNSENIIRLGSG;locus_tag=LOCUS_07810;note=WP_012048117.1 UDP-N-acetyl-D-glucosamine dehydrogenase (Clostridium botulinum A str. ATCC 3502) [pid:53.9%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:2.9e-130],MGA_790
sequence07	MetaGeneAnnotator	CDS	45526	48045	.	-	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDLLKRILIGSLIGLAIGLLISSLTYLIPSFNNLLNKYEFTLYDSRMKAKANLPEASIDDVIIIDIDAMSTSPKENGGLGRFYNWPQSYHGKLIDVVTNTVEIIWPHYEPMPSHYQFFRKSIIDSTSEFEFIGEAYDNMYTISGKDNWENYEFAAVPIYEDGSSDQGFLVDNINLIKPKGLLFDIIFDPENTSTYDLVNSISQNNIDGKNLAQKYLEDNNPRQIYNSTFKSDKVYHAMYLEDEDSLNFLYRMEKEPEGYSRNDHLLDIPLEDAIHLPSGKRFGNKNIELLSLSQAIGSIEFPQDLDGLTRRAPTAVFFEGPEHVYPSLVMANIMDILGIPSNGFDYDFEKNILTLADSSGTVIREIPIDNEGRMFVNFYGVNKTFNYLPYMYCVDPNLLPPDYWKDKVAFVGTSLPGLYDLRNTPVQETFPGVEIHANVMYSILQNEFVSILSTQSKIIIIILLSVIIGAIVSIPTNPFWSLPISIFAVMVWIIFSYYQFLNQLIMIDMVRPIIAIIGTYIGFFLYNFLIAEKDKRFLKNTFSTYISPELIDQMYENKEEPQLGGNEGYHTAFFTDIQSFSAFSEKLSAPDLVELLNDYLTEMTDILLDNKGTLDKYIGDAIVAFYGAPAPVEDHEYWGCLTAIKMQERLAELRKKWQAEGNRWPEIVHNMQNRIGINSGPMVTGNMGSSMRMNYTMMGDTVNLAARLEASAKQYGVYIQVAEETYKKCKDKFIWRDLDYVIVMGKTEPAKVYELISEVNSIPKGYNKLLKAYNEGLNLYRSQNWKKAIDAFKASDQLEEMFPGRKTNPSQIYIPRCEYYLKNPPGHNWNGSWELTKK;locus_tag=LOCUS_07820;note=WP_011090647.1 guanylate cyclase (Bradyrhizobium diazoefficiens USDA 110) [pid:31.9%25%2C q_cov:65.8%25%2C s_cov:73.1%25%2C Eval:9.8e-75%2C partial hit],MGA_791
sequence07	MetaGeneAnnotator	CDS	48067	48810	.	-	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCSLTFIGAISLIQPAKTEFGKITLPLGIVEVQSQGGADWVRAKVRQPVFAGDKVRTKPKARAEITLNGGGKLRISENSELELTTASVKPMVKDFNANLNKGNVWVAAKAAFGETKNVAVRTPTAVAAIRGTKYRAKAGSEESEILVYEGKVDINTPDNLSELRKKNLQNQQQGSGSPKFSLGPVQTIQAPTQIAGPYEVTLEEWITLVEGMQINLRSDGKYSMFEFDQESDSQDPWVKWNLEQDSK;locus_tag=LOCUS_07830;note=WP_012546851.1 hypothetical protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:29.1%25%2C q_cov:62.8%25%2C s_cov:45.3%25%2C Eval:3.2e-09%2C partial hit],MGA_792
sequence07	MetaGeneAnnotator	misc_feature	48936	51081	.	-	.	ID=MGA_793;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011404204.1:T9SS C-terminal target domain-containing protein,WP_011404204.1 T9SS C-terminal target domain-containing protein (Salinibacter ruber DSM 13855) [pid:27.4%25%2C q_cov:62.5%25%2C s_cov:75.0%25%2C Eval:1.3e-40%2C partial hit],MGA_793;locus_tag=LOCUS_07840
sequence08	MetaGeneAnnotator	misc_feature	1	1251	.	+	.	ID=MGA_794;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q8F9L0:fumarate hydratase class II,Q8F9L0 fumarate hydratase class II (Leptospira interrogans serovar Lai str. 56601) [pid:58.7%25%2C q_cov:99.0%25%2C s_cov:88.8%25%2C Eval:5.2e-142],MGA_794;locus_tag=LOCUS_07850
sequence08	MetaGeneAnnotator	CDS	1361	3430	.	+	0	ID=MGA_795;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931870.1;translation=MYVNYLSRDLPSLQQLENFDPDEATEILSADGVLLKELYTQRRMRVDLEEIPQFLIDGAIASEDRRFYKHWGISMRDVLRAVIINAIPPPSFRQGFSSITQQLARNLYDSIGFKKTIARKIKEMITAVQIERTYTKDEIIEMYLNSIHFGHGTFGVQVAAKRFFKKDASDLNLDECALLIGVLPRPATYSPINNPEIALRRRDIVLKLMFDQKFILESQYLESKAMPLNVTPNRDDIGKAPYFTEYVRRLLEIEDEQLGLDIYRDGLTIYTTIDSRLQTIAEKAVMSVIKDNQEKLNLRLFNNREEFEELAYLGIYPEDSVKIMMKGQKALYKDLRDKLLVQTAFVAIDPKNGHIKAMIGGRPDYHDQYNRATQAKRQPGSVFKPFVYTSVLDNGYPVTYQLLNQPVVLNIQNSEGKWEKWMPSNYDGSTGGLTTLRDGLKKSMNLISVRMVQELVPAEVVASMAERMNLTTSIRAVDAIALGTSEVYPLEITSAYATYSNNGVWCKPIGINRIVDRFGVTIKEYSPRREEVLSEETAYLVTDLLQSVVDNGTGGSARWKYKFTHPAGGKTGTTQNWTDAWFVGFSPKIAAGVWFGVDDPKVSLGINQSGSRAALPVWAKFMKAAHDSMGWKHEKFTQPDGISTQKICTISKLLPIRNCPVENEIFISKYSPSQKCKVHIDGSSRRDRN;locus_tag=LOCUS_07860;gene=ponA;note=WP_010931870.1 penicillin-binding protein (Chlorobium tepidum TLS) [pid:40.4%25%2C q_cov:92.5%25%2C s_cov:85.3%25%2C Eval:3.6e-136],MGA_795
sequence08	MetaGeneAnnotator	CDS	3432	4775	.	-	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932422.1;translation=MKLLKKYILKEHFTPFFYSLLIVIFLLFTNFLLRAVDRFLGKGISLSIILEYLFMNLGWILALATPMAILIATLMSYGRFSEDNELTALKSSGISFLKIIYPGIIFSALVGIPLIGFNNFILPEMNYKARMLARDIYKKKPDLNIDVGYFIDDLPKYSFIIKGKKRNKYQNIHIYGKDRSKTQTTIRAEEGEFKTIGNNILVSLYNGEIHEVDTKVLQNYRRIIFEKHEIIISLEDFTKTKNSKNLRTDREMNVKMLNNKINIFNKRIKSIKSRMKKYINKIDSSNFENIEHHNLIMKLTSQKKQINIGMIKKIAEQNNKNDNQKVFFQRLLADIQMIKGYEKNKNKYLVEIHKKFSLPIACTIFILIGAPLGIINKKGGFFIAIVFSFIFILLYYLFLIGGEGMADRNMINGGLAMWLPNIVLGLIGLILIYLVSNENYFSKNLNK;locus_tag=LOCUS_07870;note=WP_010932422.1 hypothetical protein (Chlorobium tepidum TLS) [pid:27.9%25%2C q_cov:97.8%25%2C s_cov:96.2%25%2C Eval:1.6e-56],MGA_796
sequence08	Aragorn:1.2.38	tRNA	4793	4866	.	-	.	ID=Aragorn_12;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence08	MetaGeneAnnotator	CDS	4925	5137	.	-	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKIRIHDLNIGSKLKLVRDKRSSWGWQLSEGEIVELIEIQEQPVKLKVLDNNNREWHLDSHDIDLFDN;locus_tag=LOCUS_07880;note=MGA_797
sequence08	MetaGeneAnnotator	CDS	5211	5786	.	-	0	ID=MGA_798;product=DNA-3-methyladenine glycosylase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957540.1;translation=MSKSNLKIPNRCDWVPLSKPIYLEYHDTEWGKPIKDDHKLFELMVLEMFQAGLNWYIILKKRKAFKIAFDNFNPRKVAVFNEKKINQLLKNSMIIRNRLKIKSSINNANKFLEIQNEFDSFSNYIWNFTDNFPIINKWGNSLEIPCESKLSESISKDLKKRGFQFFGSTITYSFMQAAGLINDHTINCAFK;locus_tag=LOCUS_07890;gene=tag;EC_number=3.2.2.20;note=WP_010957540.1 DNA-3-methyladenine glycosylase I (Coxiella burnetii RSA 493) [pid:53.4%25%2C q_cov:98.4%25%2C s_cov:88.7%25%2C Eval:1.3e-56],MGA_798
sequence08	MetaGeneAnnotator	CDS	5791	7200	.	-	0	ID=MGA_799;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405255.1;translation=MLAEEDNCIFSNSSSIITKVSKILYYSYCIIFFQLQAQTSSDAIRLFEKEKGFGTYAVGLGGAYSALSNDYSGIYWNPAGLSSIEKSTLNIEFNNNYFTNNINFLNNSFNTSIIDNYLNSLGGTYSVPTTRGSLVFAFGLNNIGDYNYNSNFSGFSSMNNNLFFPITVDNNEIDYFFNENVFREEKISSSGKISQISFGFGILISEKTSFGISINSINNQENYTFRFDQNDQSDNFNIFPSDFLSYSLDQSLQLRAKGNRITIGLLTEITSNLNTGFNINLPFTYNVNEKHLLKENLTFDDNSLSDTTLIGNYDYKVIAPYNLDYGISFRIKSLLLSTSFKLQNWSNIRLNSDSNSEEYFIEENLTLSNDYKSTLQLNLGLSYSTKFNNFNTSFILGHSHIPSYYKFDNSKDQNIISGGFSLNFKDELIINFSTNHTHSKLFTSDRYTPSGIEESIEKTIYSINLIIGI;locus_tag=LOCUS_07900;note=WP_011405255.1 transporter (Salinibacter ruber DSM 13855) [pid:20.7%25%2C q_cov:91.7%25%2C s_cov:92.7%25%2C Eval:1.8e-16],MGA_799
sequence08	MetaGeneAnnotator	CDS	7181	7873	.	-	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRILSTFVLSIALLFFQGCYTQLKWFHTPNETTNINSNFYNEDDYLDYKSDIIYDNSLFSYDYNRFNRNRTDFFGFRQPLHYPYWERNSFYLGHGSSFYSPYGLGYKNTFYPSTMYSIKPVYTSSDDFRSRNWDKRFKSSFNNNESSNLQTIRFSPTSMTKVKREKKKQKNNETFGNIDSKNTNKRPNITRTRDNYPISRSSYTSPRRNVKSSSSSSSNSSPKRASRRR;locus_tag=LOCUS_07910;note=MGA_800
sequence08	MetaGeneAnnotator	CDS	8005	10107	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIQINNDIIKLDGLLNDSEWKNAIFSKGFFQKNPNNGEPSTEKTEVGVIYDDKNIYIGVKCFYKDINNIYAHQKKRDAPLFSDDLFLIIIDTYRDGRTGYMFETNANGLLGDGLLGAGGTWNIEKSWDGIWDVKTSIDEKGWYAEFQIPLSTINYDIQNDKWGINFARKITYLNEWTTWQKLNNNQMTFQSRFAGILNGLSNLRKNNVYEIKPYVNYKVLSSEETNKESISDFGFDFTTNIISGVKGSLTYNTDFAEAEVDQRKVNITRFPLRFPEKRSFFLEGSSVYTFANRNNQFPFFSRSIGLSDGVQIPIEFGGRISGQINNNEIGIITAKTGSTNETPREDFIVARLKKPIFEESYFGLIHTSRRAHTDSIYKDQKLIGFDLQLFTSKFKNNKNFSVESFFITHDNLKGDNNSSFFDLSSRGLRISYPNDIWRFSASYREFGKDYDPSVGFITRNGIKRINPQIKFRPRPNSQIIRQGGTGLWYEYLVNDQNLFLREKYRFTLLEMDFETGDKIEIQYENWREFLDESFEIIDGNIIDVGTYSNDQFVIKLNTAGQRKISAWNSFSNGGFWNGNKLSLSSKIGFKFFPGFDLATSIEYNSIKLKDGDFNTKVFAAEIGLFPTIKLALLTNIQYDDISEIFSLYQKIRYTIKNGSDLYIVFNYNQLRVDENWDRRSFVNYSRDNSIKINYAYRF;locus_tag=LOCUS_07920;note=WP_011072809.1 hypothetical protein (Shewanella oneidensis MR-1) [pid:25.3%25%2C q_cov:39.7%25%2C s_cov:35.6%25%2C Eval:2.0e-17%2C partial hit],MGA_801
sequence08	MetaGeneAnnotator	CDS	10085	11098	.	-	0	ID=MGA_802;product=FAD:protein FMN transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q0WC52;translation=MKNILLMIILALLNISCNSKKNYQIINGQAMGTNYQIKFNNILNKSISKSSIDSIFQNLNSQMSTYDPKSEISLFNKSKDNFKISNEFEHVINKSKYWTKKTSGAFDITIFPLLSIWGFGPFSQGKITKIPAEYLIKDKLDFIGSDNIFVDNNILIKQNHKIAIDVNAIAKGYGVDVVFEFLKKYKIKDLMVELGGEIRAIGKNQFGKTWSYGIETPSLDPQTQTNYDFIIELENRSMATSGDYRQYSMINEKIYSHTLDPRTGYPSINNVASVTVLSPKCIDADALSTSLMILEIDEGIKLIESIDDVEALIILRDNDSYKTIKTSGMKIKTGMHN;locus_tag=LOCUS_07930;gene=apbE;EC_number=2.7.1.180;note=Q0WC52 FAD:protein FMN transferase (Yersinia pestis CO92) [pid:37.5%25%2C q_cov:94.1%25%2C s_cov:92.9%25%2C Eval:2.2e-52],MGA_802
sequence08	MetaGeneAnnotator	CDS	11113	12027	.	+	0	ID=MGA_803;product=xylose isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011123934.1;translation=MEDLKRRDFIKKSIKLIGSVTFLNSTGWTFADKNRFSLSLAQWSLHRSLMSGKLDNLDFVKISKEKFDINAVEYVNTFFFKKAKNKSYLQEMKNRSNDFGVKNLLIMCDNEGKIGDSNTKKRKKAIENHFKWVEAANFLGCNTIRVNASSEGSWDEQKKLVVDGLSKLVEFAKDFAINVVVENHGGLSSNGKWLSEVISNVEDDFCGTLPDFGNFKIQTDENNEEIIYDRYKGLKELIPYAKAVSAKSYDFDENGDETTIDFYNMIEIVKSSEYKGYIGIEYEGNRLSEYDGILATKKLLEKLI;locus_tag=LOCUS_07940;note=WP_011123934.1 xylose isomerase (Rhodopirellula baltica SH 1) [pid:56.6%25%2C q_cov:89.5%25%2C s_cov:79.5%25%2C Eval:7.1e-84],MGA_803
sequence08	MetaGeneAnnotator	CDS	12032	12709	.	-	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545555.1;translation=MGILLISSSFIFYKNKNFKLFKSFFIIGLLIIYLPSITPIQRILFKSIHINSYPVSQYDQIDAIVVLGGEPSRSISGIRLYNQNIASYILMTGGSGNIFEENQKESDRMTDFLIEFGVNKNSVLSENKSRNTRENALYSKKIMDEHKIKSIVLVTSNIHMKRSTKVFEKLNYKVFPYNSQIFRIPKKNSKVDPFIFFPNVENLFISSQIIYEYFALLLYKILGWI;locus_tag=LOCUS_07950;note=WP_012545555.1 hypothetical protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:34.6%25%2C q_cov:90.2%25%2C s_cov:86.4%25%2C Eval:1.0e-24],MGA_804
sequence08	MetaGeneAnnotator	CDS	12760	13209	.	-	0	ID=MGA_805;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012067412.1;translation=MEINITNTYNWVKIVHIWFMVAWMAALAYLPRLFIYHIENINKPEITNTFKIMEKRLYNFIANPSMILVWISGLYLAYVLGIYVWIIIKIFFVFLITIWHVRLGFHLKDFENNSNNKSSKYFRIMNEFPFLIMLFILFLVIFKPFIGVW;locus_tag=LOCUS_07960;note=WP_012067412.1 membrane protein (Sinorhizobium medicae WSM419) [pid:44.0%25%2C q_cov:91.9%25%2C s_cov:77.2%25%2C Eval:2.5e-30],MGA_805
sequence08	MetaGeneAnnotator	CDS	13200	14018	.	-	0	ID=MGA_806;product=oxygen-dependent coproporphyrinogen-III oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC86;translation=MVNHLTNKQKQVENWFLELRNMLIEQIQLIDKSKFMFTDWLHSGSGGGTMGKITGNVIEKGGVNISTVSGRFSENMRSKIPGTKTNPNYWATGISVVLHPNSPLLPSIHFNSRFLNTEESWFGGGMDITPSNQFDKEKKKFHKKLKSICDKHDSNYYPSHKKWCDEYFFLKHRNETRGIGGIFFDHLNTGDFTKDFNYVIDIGKFFSTYVNDLIIKYKDINWTNDQKEIQLLKRGRYVEFNLLYDRGTKFGLETGGNTDAILMSMPPNAKWK;locus_tag=LOCUS_07970;gene=hemF;EC_number=1.3.3.3;note=Q9ZC86 oxygen-dependent coproporphyrinogen-III oxidase (Rickettsia prowazekii str. Madrid E) [pid:48.6%25%2C q_cov:97.8%25%2C s_cov:98.9%25%2C Eval:3.9e-75],MGA_806
sequence08	MetaGeneAnnotator	CDS	14012	15013	.	-	0	ID=MGA_807;product=ferrochelatase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8EBZ7;translation=MENTYSGYEKKVGILITNLGTPDSTSTKDLRKYLNEFLSDFRVVDWPRILWLIILKGIILNVRPRKSAEAYKEVWTENGSPLMVYSKNITQKLKQTIESNNNNIEIKLAMRYGNPSIKKAMNEFKEKNISKILVFPLYPQSGSPTTASTFDGVANYLKKQIWMPNVRFVSGYHDNKLYIKSLSESIINNFEKNGKPEKLIFSYHGMPERYLKSGDPYFCFCHKTTRLVVERLGLKSSEYLMAFQSRFGPEKWLQPYLDEKIVEYAKDGIKNIHIISPGFSVDCLETLEEINIQYKELFIENGGENFKYIKCLNDDESHIKMIKQIIMDNIEKW;locus_tag=LOCUS_07980;gene=hemH2;EC_number=4.99.1.1;note=Q8EBZ7 ferrochelatase 2 (Shewanella oneidensis MR-1) [pid:50.0%25%2C q_cov:94.9%25%2C s_cov:96.6%25%2C Eval:7.3e-93],MGA_807
sequence08	MetaGeneAnnotator	CDS	15014	16048	.	-	0	ID=MGA_808;product=uroporphyrinogen decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001132417.1;translation=MIKNEKFKNALNNITQNVPPIWFMRQAGRYHSHYQKMRKKYSFIELCKNSELASDVAIGPINEFDYDIAILFSDILFPLDSLGLGLKYNPGPTFVNLLSKKTIGLNKPLEEIENDLKFQSEALIKTRKKLPKNKSLVGFVGGPWTLLSYGMGLTKHPQIKNLHNEKMIEYILYEKLFPIIKNSISNQLQNKAEIVYIFDTSAKQLEKNYFIEQYIKFMKDNIFNSFKQKTAYFCKNNPILNKKNINQEYNLAGIVYGQEGGFFETIKKNNRGFIQGNFNPISLTKPFEDFKKDFNLFKNKLLNINAKDRKGLICSLSHGVLPNTYEYNVKYFIEKIREEFEESY;locus_tag=LOCUS_07990;gene=hemE;EC_number=4.1.1.37;note=WP_001132417.1 uroporphyrinogen decarboxylase (Leptospira interrogans serovar Lai str. 56601) [pid:41.2%25%2C q_cov:98.0%25%2C s_cov:99.1%25%2C Eval:3.6e-66],MGA_808
sequence08	MetaGeneAnnotator	CDS	16041	17540	.	-	0	ID=MGA_809;product=hydroxymethylbilane synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8EY46;translation=MFQKIRILSRKSTLSKIQAETVGKTISNLYPNLKIDYDFIKTKADKNLNLNISQPNINDIGIFTNEVSKKISSGKFDLGIHSWKDYPIVENKNSNITATIFREDMRDILFLKKNINHNIKIMTSSPRRRFALKNNLKNIIPLNLKGIEFKNLRGNIYTRIKKFINDESDGLVVAKAAIDRLLKYDISNSSIKKEIIFCLNNYHVIVLPLSMFPTTPGQGALGIEVNKKNDKMKKILNEINNKSVFNNVSKEREILSQYGGGCNLELGISVWKENNRTIKSIYGRTDDGEIIKSYNIINEKIQNKKKVSKNNIFPKNLTESKIFNREQLNSNKKIELIKNSYIYISRYNTLDSKPKLDHSNIVITSGMKSWFHASKLGYWIHGTTDGLGEEKINKNFNFFDKDQYFKLSYKDKENTKNTIETYNLTNPKFPLGFEKRKFFFWMSFIAFREAISQYPEILNKNHSCGMGNSYKKIKNIIPDSKKLTCYLSYEDWKKDILND;locus_tag=LOCUS_08000;gene=hemC;EC_number=2.5.1.61;note=Q8EY46 hydroxymethylbilane synthase (Leptospira interrogans serovar Lai str. 56601) [pid:30.0%25%2C q_cov:98.6%25%2C s_cov:95.8%25%2C Eval:6.1e-63],MGA_809
sequence08	MetaGeneAnnotator	CDS	17683	18915	.	+	0	ID=MGA_810;product=5-aminolevulinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCB8;translation=MKNKTYKSIFKNKTSKFYNEGYQRKFLPIDRSRETFPIIDSNLKKIKIWCTNDYLNMSHNQDVINESIKILEKVGTGSGGTRNISGNSPYHENLEKKIASFHNLEKAIIFSSAYTANQTSLWTLCKALDNVCVFSDKLNHASLIQGIKNSGAQCKIFDHNNLENLEMLLKETDKEIPKLIVFESLYSMNGTIVEVNKYVELAKKYNAMTYLDEVHAVGLYGDKGSGLANFYKVSDQIDLINGTFAKGFGQIGGYVVGKSYLIDYLKTFAPGFIFTTSIMPSTAGAISKSISIVEQENEKRKYIQEMSNYLKNLLRINKISFIENNSHIIPIMIYDAMLVKKYSKILLNKYGLYIQPVFYPTVEKNKARLRLTITPKHNIEDIHELIYALKEIISPKDNLISIRKQFDYSI;locus_tag=LOCUS_08010;gene=hemA;EC_number=2.3.1.37;note=Q9ZCB8 5-aminolevulinate synthase (Rickettsia prowazekii str. Madrid E) [pid:43.5%25%2C q_cov:98.8%25%2C s_cov:97.8%25%2C Eval:2.2e-92],MGA_810
sequence08	MetaGeneAnnotator	CDS	18935	19948	.	+	0	ID=MGA_811;product=delta-aminolevulinic acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P45622;translation=MKNSSISISFPRTRMRRTRMRKFSLDLVQETRLSTSDLIYPLFVIEGHNKKEEIKSMPNIFRKSSDLLLKDVENCIQLGIKAIAIFPYISKKLKDDSGSESINPDNLICNTVRKIKKEFPDIGIICDVALDPYTTHGHDGLIINEQVDNDKTIDLLEKQSLNQAISGCDIIAPSDMMDGRVGKIRDFLDKNNYINVQIMSYAAKFSSSFYYPFREAIGSNYIGDKIDKSSYQINPGNSNESIRGVSMDISEGADMIIVKPGMNYLDIIYRIKNTYEFPTFAYQVSGEYAMLEHAFQKKILKKSKTLIETLLCFKRAGADGILTYFACEAAKEIIKLK;locus_tag=LOCUS_08020;gene=hemB;EC_number=4.2.1.24;note=P45622 delta-aminolevulinic acid dehydratase (Bradyrhizobium diazoefficiens USDA 110) [pid:53.4%25%2C q_cov:94.4%25%2C s_cov:89.8%25%2C Eval:2.7e-95],MGA_811
sequence08	MetaGeneAnnotator	CDS	19950	20093	.	-	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLNIMIFMFGFLVGAIFVFFQSLKTINQIHNDYKDGLYNPEEEDES;locus_tag=LOCUS_08030;note=MGA_812
sequence08	MetaGeneAnnotator	CDS	20096	20482	.	-	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINYTMIKNLNIIFCFIFIVGGLLQFNDPDSFIWITIYFFAFLFSLLFHLKINKWYLSGYFALSLSLFSILLILKEPLNIEWISVFGTFQMKNQNVEVVRELGGLFIITIWMYYLTGMSIKKIENESS;locus_tag=LOCUS_08040;note=MGA_813
sequence08	MetaGeneAnnotator	CDS	20475	21848	.	-	0	ID=MGA_814;product=alkaline phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013368546.1;translation=MRKTVVINIVGLTKNLINENTPFIKSFSEKKNIIRIKPSFPAVTCTAQSNYLTGEKPNVHGIVGNGWYSKDECEIKFWKQSNKLVQSKKLWDVLKKENSDFTCSNMFWWYNMYSSVDFSLTPRPNYLADGRKIPDIYSFPAKLRDKIQNELGTFPLFNFWGPKTSIKSSKWIADASILTDKLYNPTLSLIYLPHLDYNLQRFGQDISKISKDLTEIDRVVENLVKYYNKKNSQIILLSEYGITNVDNPIHLNKILRNEGYLNVRLEQGLELLDHGSSRAFSVPDHQICHIYLNDKSIKNKIEILINKQTGIEKVLSGDKIKDYDLNHERCGDLVVIADKNSWFTYYYWNDDKKAPDFARTVDIHKKPGYDPVEMYLDPQKRLIKLRVILKLIMKKLGFRTLMDFIPLNANLIKGSHGRIPENIDDFPIFISNSNLQQNKIEIDSTEVFHLIKKIIND;locus_tag=LOCUS_08050;note=WP_013368546.1 alkaline phosphatase family protein (Ketogulonicigenium vulgare WSH-001) [pid:45.2%25%2C q_cov:94.3%25%2C s_cov:94.3%25%2C Eval:2.2e-112],MGA_814
sequence08	MetaGeneAnnotator	CDS	21841	23046	.	-	0	ID=MGA_815;product=sugar phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013368548.1;translation=MLLSKNFHLTYCSNIHSGEDWKSHFENIKKYVPKIKKQVSPNKSFGLGLRLSNLASKELNFRNNLIDFKNWLDQENIYVFTMNGFPYGDFHGKKVKDLVHEPDWTSQKRIDYTKRLFDQLAYLLPKKINGGISSSPISYKLWFKNNDDKNKALIKGAENMLEIVIYLYQIEKKTRKYLHLDIEPEPNGLLENSDDVINFFQNFLYPIGIKKIKSKLKLNEKKAKECIQKYLTICYDICHFSLAYEDPIHTFNKFKTYQIKVGKIQVSSALKIIFNKNNESIIWNSLKKFDEPIYLHQVTEFKNDKVKTFKDLPELFSNQKSFKELRAHFHVPIFLEKFDYLYSTQDHILKVIDYINIDKTLCEHLEIETYTWEVLPSSLKTEIASSIIREIEWFQNKLLNA;locus_tag=LOCUS_08060;note=WP_013368548.1 sugar phosphate isomerase (Ketogulonicigenium vulgare WSH-001) [pid:38.5%25%2C q_cov:97.5%25%2C s_cov:98.0%25%2C Eval:6.6e-70],MGA_815
sequence08	MetaGeneAnnotator	CDS	23061	24212	.	-	0	ID=MGA_816;product=3-dehydroquinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013368549.1;translation=MKSLSKISRSFSVKYDYTLYFTENLFSLKNSLLFDVLNSFDEKNIIKTLFIIDDGVYNSHPNIKKKIADYCLKFSTKIELKKILIFKGGEIEKNNKESFQKILKSINDYNICRHSFIIVIGGGAIIDMAGYASTIAHRGVKLIRIPTTVLAQNDAAVGVKNSINEFGKKNFLGTFSPPYAIINDLNFLKTLDQRDWISGIAEAIKVALIKDSTFFDYIEKNSKILSERNYEKISFLIYKCAEIHMDHITNGGDPFENGSSRPLDFGHWAAHKLEFLTNYNLRHGEAVAMGMALDVTYSNMIGLLSDKNLFRILNVLEEIGFDIKIPIQTNNEMEKLLSGIQEFREHLGGKLTITLIKNIGSKIDVNNIDLKIMRNAINKLSKR;locus_tag=LOCUS_08070;gene=aroB;EC_number=4.2.3.4;note=WP_013368549.1 3-dehydroquinate synthase (Ketogulonicigenium vulgare WSH-001) [pid:42.8%25%2C q_cov:97.4%25%2C s_cov:94.9%25%2C Eval:3.6e-86],MGA_816
sequence08	MetaGeneAnnotator	CDS	24220	25125	.	-	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIKLFKYNSSINPYLQLCRPANLPTAASDVIAGMSLAGIFNNFFFFNPSQLFLIFSSILLYAGGITLNDVFDSKIDLKERPERPIPSGKISYKNALFFAGILLAIGIITAFLANKLSGIIAITLFTSIFSYNKFLKKNIFFGPLNMGICRALNLLLGISILGELKNFEYTIIPIIFIFALTLISRGEVYGNNKRNLIVSAFLYLTVILLVNFLHFTNFKSIILSSIFLIFFSFMIFKPLIKAFKLNSPKNIKQAVKSGVLSIIILNSSIAIAHSSWHIGILILLLLPLSIYISKIFNVT;locus_tag=LOCUS_08080;note=WP_011020999.1 digeranylgeranylglyceryl phosphate synthase (Methanosarcina acetivorans C2A) [pid:29.6%25%2C q_cov:59.1%25%2C s_cov:64.0%25%2C Eval:5.0e-13%2C partial hit],MGA_817
sequence08	MetaGeneAnnotator	CDS	25103	26011	.	-	0	ID=MGA_818;product=hydrolase TatD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013368544.1;translation=MSKKFQFIDPHIHMTSRTTNDYEAMSNAGIVAIIEPSFWLGQPRTQVGSFQDYFSSLVGWEQFRASQFGIKHYCTIGLNSKEANNEELAEQVMELLPLYLHKENVVGVGEIGYDDQTKSEEKYFRKQLELAIEFEMLIQIHTPHRDKKSGTIKSMDICLEHKLDPSRVVIDHNNEETVKDVLDKGFIAAFSIYPHSKMGNERMTEIVKKYGSNNIIVDSSADWGVSDPLAVPKTASLMLQKGISEKDVKKTCYENALEVFGKSGKMKEDHWKNISGIDQTKLFNDNSVLRGQKPKVEIDKII;locus_tag=LOCUS_08090;note=WP_013368544.1 hydrolase TatD (Ketogulonicigenium vulgare WSH-001) [pid:62.8%25%2C q_cov:94.4%25%2C s_cov:94.1%25%2C Eval:4.5e-107],MGA_818
sequence08	MetaGeneAnnotator	CDS	26008	26865	.	-	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIETKNFKSKHLKKLLKNNLKDKIWDWYSEKLNYIIKNESSKDLFLMYSICGTKIKELNFTYENNKEELSYINIQKANLLELSRIYMLVKVLKKKRDFFLDKVKNLIHIADKREMETFLKFLIFLPEPKDFHFHAVDALRTNISSVFDAIAINNPYPSLYFTNEEWNQMYLKAAFMERNIKDILNIEKRANKDLARIISDYAHERWAASRDINPEIWQPTTQFLNEILLKDMNVLFKSKNIQENKAAALCCYHSNNDLAKKKLDKYPKLKNLILSNKLTWENFKN;locus_tag=LOCUS_08100;note=MGA_819
sequence08	MetaGeneAnnotator	CDS	26906	27613	.	-	0	ID=MGA_820;product=L-ribulose-5-phosphate 4-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287284.1;translation=MDVISKLKNDVYNANMDLVKYDLVTLTWGNVSGVDRKSNKMVIKPSGVNYNELTPDHMVVVNLENESNESSLNPSSDSPTHAYLYNHFKDINGIAHSHSIFATIFAQACKEIPCLGTTHADHFNGNIPIARHLTKKEVEEHYERNTGKVIIERFKNLKPLENPAILLSGHAPFSWGKSPKDSVKNLLILERVAKMALDSMNLNSNIGELPDYIQKKHYLRKHGPNAYYGQKNSKE;locus_tag=LOCUS_08110;gene=araD2;EC_number=5.1.3.4;note=WP_002287284.1 L-ribulose-5-phosphate 4-epimerase (Enterococcus faecium DO) [pid:53.0%25%2C q_cov:97.0%25%2C s_cov:99.1%25%2C Eval:4.2e-64],MGA_820
sequence08	MetaGeneAnnotator	CDS	27614	29338	.	-	0	ID=MGA_821;product=ribulokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E3E6;translation=MKKYTIGLDYGTNSCRALIVDISDGTELASSVFLYPSGENGIILDNSDPNLARQNPKDYLDGITATISGAIQKAKKKDSSFDSYNIVGIGVDTTGSSPIPVDKKGNPLSFLDKFKNNPNAMCWLWRDHTSFKEAEQITLLAKEIRPAYLDKIGGTYSSEWYWSKILHCKNIDPAVFDEAYSFVELCDYIPAVLTGEINPNKIKRSVCAAGHKAMYSTDWNGLPDIGFIEQLDSKLVDLRQNLFDKVYTSETEAGKLNLEWSKKLNLKEGISIAVGAFDAHMGAVGAGVKEGTLVKIMGTSTCDIMVQNNKNKLNDIPGVCGVVDGSVMEGHYGIEAGQSAVGDIFLWFVNHLTPSKYGSRKIDEEGNIDFDEKFENLQKEAEKLLPGESGLMALDWNNGNRTILTDVRLTGLMVGQTLHTSPHEIFRALVEATAFGALKIINRIKEYDVEVKEIVNCGGLAIKSPFLMQIYADVTGIPMKVSKSHQTPALGAAIFGAISAGEFKNVSDAQDYMTGTDKTYNPIAENHDIYIKLYKIYSKLHDSFGTKESSGSMFNIMKDLLEVRDMQRKVKGTS;locus_tag=LOCUS_08120;gene=araB;EC_number=2.7.1.16;note=B8E3E6 ribulokinase (Dictyoglomus turgidum DSM 6724) [pid:57.6%25%2C q_cov:99.7%25%2C s_cov:99.6%25%2C Eval:1.7e-197],MGA_821
sequence08	MetaGeneAnnotator	CDS	29363	30160	.	-	0	ID=MGA_822;product=lipolytic protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010945998.1;translation=MPYIKTNGIKMYYEEKGTGEPLILIMGFGAPGSLWELHVNEYSKHFRCIMIDNRGVGNSDQPEGPYSSEMMANDVAGLMDELNIQSCRIAGISMGGTIAQSLALNHPNKVKSMVLISTWGKFDQYAVSVYENLIKLRKVCDPGDFMELIQLWIFATDYFGKNIQDLKQGQIDARNNPKPQSENGFDGQLNACMNHNSLNRLNEINIPAFIVVGENDIFTPLAFSLTLNEKISNSKILRIPKTGHACHWENLELFNSETTKFLQEN;locus_tag=LOCUS_08130;gene=mhpC;note=WP_010945998.1 lipolytic protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:32.5%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:4.2e-34],MGA_822
sequence08	MetaGeneAnnotator	CDS	30200	31213	.	-	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNYIDVNGKTKIGVLTTYLKFVGGAVPDEQGNLPRNENGELVLVDGLKHLKISSHIKIDTVQVSYFPGLNQNDLSELVENLKKLELNVLFILMVGGADPMNPKDEDKVVDMLLAGVDAAKKHNIEICSSTSIEEWMKKDDKPKVGKDYLAAISQNIKLHTRVFNEADIKNSSIKEWNIEFLRLGEFQTFTNLQKSWDLVKGMNKSIGYPFFKVLIDSSHCGDSDLNMIENINIIHEIAKSDELGIFHASAPTTRGCLSSDDGWIGTLLSECVKTGKLKYALVEIFQHNDEALKPLRDLGDGHGVDTTNGKKYHDLMIDGISDISKRLNNLAARGF;locus_tag=LOCUS_08140;note=MGA_823
sequence08	MetaGeneAnnotator	CDS	31234	32826	.	-	0	ID=MGA_824;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011119516.1;translation=MNKIITGADLSEKEKNTIFWASFLSLAAAGVSLAFRIAMGGVYGSELGLTNLQIGQIVGAQFWPVAITMIGFSLVVDKTGYKAPMFAAAALQIVGGLGTFFANSFGMLYLFAVFMGLGHGIVEAVINPVCAAIYPKEKTKWLAILHAAWPAGLISGSLMIFLTKGIFVGWNIHSLWIAVPAVIYGFMLLKSVFPVDERVQAGVPFMDMLKQVGFLTATIACGLLTYEIGNVLPLFTSFNVPGNWFTISMILGLVMGGAFGFYTKSLGQPIFFLLCLLMLPIATAELGTDSWIQKLMTPVVSGFGIDPIFSIIFSASIMMILRLQAGTILKFGTPVTILCVSGLFSAVGLFWLSSASGLAILIAFIIYALGQTFYWPCILGFTSERYPQGGALTLNTVSALGLLFNGIIGAQVLGVAFDNSIHSQITEKDPIFAEAASQEKSFLWMKNDAIIPELKNSYINSTSGASAEEQTELNDMYSTADIQAGRDVLRFATVFPGILFIVFGGLVFYFNSIGGYKPINLVEEKKAAKT;locus_tag=LOCUS_08150;note=WP_011119516.1 MFS transporter (Rhodopirellula baltica SH 1) [pid:27.5%25%2C q_cov:96.8%25%2C s_cov:93.6%25%2C Eval:4.3e-46],MGA_824
sequence08	MetaGeneAnnotator	CDS	32841	35084	.	-	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKSKFSFHKLITIIIINYFFISLGHSDDHKPHVVFWAGEEEYGAHWSLPKIADDLERRFNIKATVIHSWRSGVTDYDMPGEVTIPEFDEIKGLEAIRDADLLVMHIRFRIPPPEQYELLQEYFDSGKPAIALRTTSHGMWPMDKKDWFVPFFGGHYKGHAGNEEGTTTIVDGDQLDHPILRGVPKFRFWNDRAGIYITAPLNDTATPLMMGKTGVNGPAQPVTWINEYKKGQKLMYTSLGGLEQFRHPDFINMIYNAIYWALDREVPEHGVLDNRDLSFYENESPFDVGSFGVLNNNPHNRPQEDLAIENSVILNGKFEKMQIPVAPSTNIPENAVILFDGKDKSKWRHWDLSVRPVAMLPDARAVSPSPPYDEARWEIIDGSLEAKPGYGSIMTREDYGNYKLHVDFLIPNEPDYVPEKFKGTGGIFLNGKYEIEIKDSYEKDPTIISNGSIFSIIAPSSNPSKKINTWQSLDIEYRHYQGGKPEITVYLNGVKIHDKVVPKVGKTPYGIRNVSTLFMSNEKEGSSKYNLNNKNWAVETEFKTSEGGYLFSSAPMNERWTDGSKGLRLWWDNMLVYRDGGGAPGSNWLDGYKFLYEPDNVEFNLSDNNWHNVILSSKNGRLKLYIDGKFINEIENDIVDSVSDLVFRVGQSSKVFKLGASELPDPFPAEVFNGEIRKLTFYNKSLKDSDVKKLISGEKLSKKMIVLDWDPSKMKTSKIVEKGPIRIQSDLSKIRYSNIWLQPLDE;locus_tag=LOCUS_08160;note=WP_024265727.1 endo-1%2C3-1%2C4-beta glucanase-related protein (Caulobacter crescentus NA1000) [pid:27.0%25%2C q_cov:24.9%25%2C s_cov:68.6%25%2C Eval:5.1e-11%2C partial hit],MGA_825
sequence08	MetaGeneAnnotator	CDS	35208	36584	.	-	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYFFLKLLFFLIINQNLYGFEKKQIIIDADHAVFKKNNKENILEIYISFDESTLNYNEHNNKWIANLLVNIEILNKRNKKIKDLNFSISHTVEDVNSLKNNKFYQNAFQILINNDAVNFNANIFDKDNSENKINIKSQINEIAITRENNYVSDIEVAYLIKNKSKESFESFVKDSIEVIPNPSRNYGKENKNLYYYLEVFNLNKKASSNIGIKIFVKDFSGKKIISENYNKILNKNINQLFGMISVNNLINGEYLLEVIFEDSMGVYMLGKQKKFNIVSDFVATTNSAKLSNVEFLKAKIGIKSIESLDEEFKIIKHFATGREKRNYKKLISHEEKVDFLTQFWSLIDSDPSTIENETRVETMKRVGFVNKKYSVGLKKGYETDRGRVYIAHGKPDEIMQDQYDGDIRPNEIWRYHSIEGGVIFVFCDVNGSSNFRLIHSTHSNELQNYRFIERMRR;locus_tag=LOCUS_08170;note=MGA_826
sequence08	MetaGeneAnnotator	CDS	36730	37746	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007326116.1;translation=MFKKISFSSIMIFFLISCSTNSSSSYETQQWMVYEGGEGPGKGKHVVFISGDEEYRSEEALPQLAKIFSKHHGFKSTVLFSINKKTGLIDPETLNNIPGLEVLESADLMIMALRFRELPDDQMKHIIDYTNSGKPIIGLRTSTHPFNYVKDKKSKYYKYTFNHEEFEGGYGRQVLGETWVSHHGAHGKESTRGYVAKGMENHPIVQGTEDIWGPTDVYGINDLTGDSEPLIMGQVLTGMNPSDPDKESISQMPIAWIKSYTGETGNKSKVFTSTMGAATDFESEGLRRLLVNAAYWGLNMENQIPERSNVDIVGKFNPTDYGFGTHVKNIKVSSHAMD;locus_tag=LOCUS_08180;note=WP_007326116.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:43.3%25%2C q_cov:89.3%25%2C s_cov:84.1%25%2C Eval:4.6e-66],MGA_827
sequence08	MetaGeneAnnotator	CDS	37750	38676	.	+	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHMRLFYLFIFFILFNGCSNSDNKSINSNEINVLIWDEQQSEQKEAYDKFIGEVIADHLDKNPKINTKSVSIDDSEYGLSVELLDWSDIIIWWGHVRHDDIPDETVDEILKRLINGELDFIALHSAHWAKPFMEAMNYKTISNIKDNNPEYFDNSDYSINYIEPFVDRYAPERKDVLTPRAELRKFPSGKINVNIYLPNSCFPAYRPDGKSSFIHSLKTEHPIMKGIPQKFEIASTEMYDEPFHVPEPDEVVFDERWETGEWFRSGAIWNIGKGQLFYFRPGHETYDVFDNQNVLKIIENSCFWMFDS;locus_tag=LOCUS_08190;note=WP_010972957.1 trehalose utilization protein ThuA (Agrobacterium fabrum str. C58) [pid:44.9%25%2C q_cov:34.7%25%2C s_cov:41.0%25%2C Eval:2.7e-22%2C partial hit],MGA_828
sequence08	MetaGeneAnnotator	CDS	38740	40413	.	+	0	ID=MGA_829;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007330113.1;translation=MLLKNIYIAFIIILFSCSPKNNDISKSSLSFKNVTISSGLGDYKHNNGAFGKKWFPEPMGPGGGFIDYNGDGWDDLLLANHSSWENDKEKKFSALRLFENNQDGTFTDKTIEAGLNEIYTYPLGICAADYDNDGDQDFFLTTLYENMLFNNHNSKFNEVGEKSNIANHRALSTSAIFFDSDKDGWLDLYVGNYTEWSPDTDVWCTFQGKKGYCTPEVYDGVPSRFYRNNRDGTFTDQTSVAGFSPAPGKTLGVSELDFNKDGFPDLAVANDLARDLLYENNKDGTFNEIGTITGMAYDEMGKARAGMGIDVGVVDTTGEPTIFVGNFQNEMFSVYQYNPAGYFTDIAAKSRLGRESLKVLTFGMFLVDIDLDSDLDLFAINGHIQVEIESDNNEFEFRQLPQLFLNNGNAVFTLFDSDKNNAFDEPIVGRGGAFSDYDKDGDIDILLTENSGGIHLWRNDIINKFTPNNDLNYLRIKLKGNNSNQNAIGSVVSLYVDGEKISRRVKTGSSYLSQSEKIVTFGLGELEQIDSLKVNWSSGKKSIFHNLALNKEIEIFE;locus_tag=LOCUS_08200;note=WP_007330113.1 RNA-binding protein (Rhodopirellula baltica SH 1) [pid:37.7%25%2C q_cov:91.6%25%2C s_cov:84.7%25%2C Eval:3.1e-87],MGA_829
sequence08	MetaGeneAnnotator	CDS	40406	41623	.	+	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKWTVILFFLIFSACEKKDKQNQISLSQKELASKGVNFLNISKNLLKIKQFEQSLLMIDSAEIFIPNYIGVHFLRAKVFDELKMFDLSKESYEKVLTINSKYPGANFNLGNNALIVSKFEEALNYFNKELDVNETPKTWVSIAIVHTNLYQPDSAEFALKKALRLDDKYSKALILLGQFYKDSGEIDEAINFTRKALDLEPQNIDYQYFYGSLLFQNSDFKLALPFLQNVVKQKPWDYWAYNNLAQTLIRTGKKAEGEIMLILSDSLENKNSIIDLAKNQAQSNPYNVVNWIKLGDDLRSVGRKNEALDAYKSALFVDPKNEFLTENVALFALDLKDTISGVHLLEKVVSLNDKNANVWFNLGIIYAHQSKYVQSKNALEKSLELKPDDKTIIQHLNQVKEWVN;locus_tag=LOCUS_08210;note=WP_048065100.1 peptide transporter (Methanosarcina acetivorans C2A) [pid:22.7%25%2C q_cov:69.4%25%2C s_cov:66.8%25%2C Eval:1.6e-10%2C partial hit],MGA_830
sequence08	MetaGeneAnnotator	CDS	41626	42453	.	-	0	ID=MGA_831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQFIILSIILISCQNNNTSNKNIDTIYYDSGEKKEQGALFEGEKEGKWTSWYKNGAIKSQGYFKNGLMHGIHQHWSEDGILLKKYIYKNNEMDGLQQEWFTDGKPGAQWNYKNGEMHGRHVEWYHNGFKKLQGTRNKNSMDGTWTYWYENGQKRGVRTILNKKLEGLTYEWYSNGNLRTKGMFKNGSGNGTWNQYWPNGQIKGSTTLVNGEPNGQAKVWYDNGVKQNEGIFDSGKREGDWIYWDRNGEFEKREYYESGRLIYTRTEEQNNSKS;locus_tag=LOCUS_08220;note=WP_011016055.1 hypothetical protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:25.8%25%2C q_cov:80.0%25%2C s_cov:65.4%25%2C Eval:1.0e-22%2C partial hit],MGA_831
sequence08	MetaGeneAnnotator	CDS	42572	44356	.	+	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTIGPIILISILLFIYFNNTNNNSINENVNNSLISNDESLILPGLALSENQRKYIWDIEQKATELNSFGLKNLKQVLQSKKMKDLSLLLMNDFNAQVPDSNKVINFVNSYFKSTKLELSDLKYELLDKASFLKWISNKSSDFIDEPKVKIKFSKLEPVNRNNYDGFWKIKLKINVSGKSDFGYSEDNYIFLTEIKKPEPVFVSNGNWIKSVNVLHYSTSSTKNFLMTDNTSDFGIDISEFHDNWEAPANRTIPNTGGVYSFDYNKDGYIDLLIDDVTHYRGFILYKGTKEGVFKNSTDEVKLPPLQSPSLVAIADLDNDGWEDIIIGPGLIFKNNFGENFVNVSRNSNLSKLGNLRETQNFSSISVADYDRDGLVDLYICRSSPNPDGGSWINGKMEDNYETQLLKNKGNFIFEDVTKKSNASGEKRSVFTTVFSDFNNDFWPDIYLIHEFGNGVLLLNDQKGKFEKIMIAEFASDFGSMGLASGDFNNDKNIDIYVSSMYSSAGTRVISNLKENSFDKKVMSELKSMVRGSQLYSNLGELKFEKMADKYNLASVGWGYGPIMSDLNNDSWLDIYTTSGFVSRNRDKPDG;locus_tag=LOCUS_08230;note=WP_011119332.1 RNA-binding protein (Rhodopirellula baltica SH 1) [pid:25.7%25%2C q_cov:36.5%25%2C s_cov:20.5%25%2C Eval:2.4e-08%2C partial hit],MGA_832
sequence08	MetaGeneAnnotator	CDS	44378	44995	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQPFDRSCKIPPPGTPNEKLGEFWEESPWTIASNENLSAFERNRFYINFYGENFFDMSFVSGTDTDGDGRSVISADLDNDGMNELIVRQVGGGPLKIFKNNFPKLNYIKISLRGVESNSFGIGSKIEINAESQSIVREVYPINTYRSQSPSLAHFGLNEIKLIDNIKIYWPSGNTQSFSDIKVNQHLIITENSQSYETLTSSNN;locus_tag=LOCUS_08240;note=MGA_833
sequence08	MetaGeneAnnotator	CDS	45017	46255	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKILLVVAILFFSCSERYDSDSLSDEEFINAQKIITLLEKSQINLSRGNYQSSISFVDSALSIDKNLIYPVFVKGMIYEDLNQFDVADSLYKRVLKKVPNFRSANFNLGNIALAKGEYSNAVKYYKNEEKNYSTPDVLTKLGVAYANIYEIDSALVVLQKSISIDSLASEAFMLIGKIYRDNGDIKKAKNFMSKALSIEPNNWDYQLNYGTLLFKMGDLNESLSYLKNVVKVNKWHYASHYNLGQLLSRLGKKDEANKYLSRADTLQQANTRIGFFQENLKSNPENISDWLNMGIALQSIENFSEAYEVFKIVDHLDSNNLDLKQNLAFLAISNEDTISSIKYYQSILSNDNSKSDIWFNLGLIYAYQGKFNNASRCWKKTIELNPDDKTAIKYLESLSKIEQLPFYDLN;locus_tag=LOCUS_08250;note=YP_008992010.1 hypothetical protein (Burkholderia pseudomallei K96243) [pid:22.0%25%2C q_cov:52.9%25%2C s_cov:32.3%25%2C Eval:3.6e-10%2C partial hit],MGA_834
sequence09	MetaGeneAnnotator	misc_feature	1	1491	.	+	.	ID=MGA_836;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000258150.1:undecaprenyl/decaprenyl-phosphate alpha-N-acetylglucosaminyl 1-phosphate transferase,WP_000258150.1 undecaprenyl/decaprenyl-phosphate alpha-N-acetylglucosaminyl 1-phosphate transferase (Staphylococcus aureus subsp. aureus N315) [pid:32.0%25%2C q_cov:54.4%25%2C s_cov:76.1%25%2C Eval:1.3e-28%2C partial hit],MGA_836;locus_tag=LOCUS_08260
sequence09	MetaGeneAnnotator	CDS	1480	2097	.	-	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIITIFLFLNQIFASGAFDHGSSTGKNFFEIDLTWNPFNYFKNGQSYIVIGYGISEKIDFHGYYSIHQEDFSTYYNGLFYQFHNSNKLDLATAVGLRKNLNTNYLNIFFPQLLYTIKLNNQINIGGSFVNILGHKKININSIPIASDIGIYFPMNNYFKKFKIIKDIKLCISLFNPVTNTLIEKFKFIPTYSIDIKFKKLNF;locus_tag=LOCUS_08270;note=MGA_837
sequence09	Aragorn:1.2.38	tmRNA	2192	2541	.	+	.	ID=Aragorn_13;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_13
sequence09	MetaGeneAnnotator	CDS	2550	4154	.	+	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILKKIIFFQIIFSTFVFTQNYYVADPNELLKNEFISNAEKKYISSSLFRPSINIDNLKTNWSLTFRADYFDNNGAPNLENTSIKWIGKGVSRYSSYKLSFINDFFFFSIEPYSFNSENLDYDVPLRKGIYSRMNDSRPHNDKPIQWNGVREFQFITHYKGIGVGISNANMWWGPGIHSSLQMSNNTNGFRYFSLGTFNEKNIGPIKLDLRYVFSKLDDRNIGEPYLSAILGSFTFSKNPIFTLGFSRAYISGHGNYAPDVYNLTLREAIDLPLEDLFLNKKQVDPNNPESAVDLWDEILVGYLVASFPRSGLKIYIEYGRDDHAWDWDDFKRQPDHSGAGVFGLRKYELFGIQNLIGGLEYTSLIKSKFWSSRVPGTWYSKQVYDYNSYNGRWWGAHSGPDSDDLYIYFGYYGNKFRFIPSFNYERHGVIDNNALIIEELSYLGFNPETGRWEIKTQDIITERQINIWPEVKMEFRLNIGFTLRDIDINFYYEHEVVDNLEFKWGEREGKVFWVSFDRTFNIGNLNYFAKNK;locus_tag=LOCUS_08280;note=MGA_838
sequence09	MetaGeneAnnotator	CDS	4138	5040	.	+	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKTNKNTLSIIIVTFNSQDCIENCISSISKNYKKNYEIIIIDNNSSDNTIEIIKKNINSNIKFIQNKRNYGFTKAVNQGFKICRGEYILNLNPDVEILDKSIEILIEKMNTNNSIGIISPQLVFPDGKIQFTCRRFPTYWNIFTELIFLNQFRPKSKLLNGWKMGDFNHKTEMSVDQTAGAAFIIKKKLFDKLSGLDERFPMFFSDVDLCKRVKNLNLEIFYTTKSKMIHIGGNSIFKYRIRSIITSSVSMIKFFFKHYNSKFNLIINVFFSLILVPIIFFRIIKSLIISRKIFQRKTL;locus_tag=LOCUS_08290;note=WP_009938487.1 glycosyl transferase (Burkholderia pseudomallei K96243) [pid:24.6%25%2C q_cov:64.0%25%2C s_cov:69.9%25%2C Eval:8.4e-13%2C partial hit],MGA_839
sequence09	MetaGeneAnnotator	CDS	5040	5405	.	+	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAKKLRIFGFILFGFLVVSGIILKNNTLFFIAIFNLIISIVYPLFYFKYKIYQLFQILGKYIGKINSFLIIMFLFYFIITPMSIFLKLLQIDLLDKKINKKNLSYFRNRDVPPNSLTKQF;locus_tag=LOCUS_08300;note=MGA_840
sequence09	MetaGeneAnnotator	CDS	5562	7373	.	+	0	ID=MGA_841;product=carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011976109.1;translation=MSNHKYILGISAYYHDSAACLIQDGKILAAAQEERFTRNKHDKSFPKNSIDFCLKEAKINFSNISYIGFYDKPFLKFERILETYLSEAPRGFKSFSKAIPVWIKEKLFLKKTIIDNFYKFYEIKNKFIIESKLLFAEHHISHAASAFYPSPFNSSAILTMDGVGEWVTTSIGYGENNKINFLKEIYFPHSLGLLYSAFTYFSGFKVNSGEYKLMGLAPYGNPVYKELIKKEIIDIKEDGSFKLNIKYFNYTVGLTMTNSKFDNLFKRKPRNPDSNVTQFEMDLAKSIQEVIEEVILKLVKTTKTITNSDNLVLAGGVALNCVANSKIIKQNLFKNIWVQPASGDAGGALGVAQHIYFNHLNNIRTVSSKRNDSMNGCYLGKSYSDSEIKDFLDLKKINYIQYQSEEEFIEKISDYIINGKVVGWHQGRMEFGPRALGNRSILADPRNKNMQTILNKKIKFRESFRPFAPSILKEELNNFFDIEIIDSPYMLFVGNLKKNLRINKNNEENLFGLDKLNFVRSLLPAITHVDFSSRIQTVDKKTNPKFYKLLKCFGLKTGYPILVNTSFNIRGEPIVCSPKDSYNCFIKTKMDVLALENFIIIKN;locus_tag=LOCUS_08310;note=WP_011976109.1 carbamoyltransferase (Sinorhizobium medicae WSM419) [pid:54.4%25%2C q_cov:98.8%25%2C s_cov:96.7%25%2C Eval:5.3e-189],MGA_841
sequence09	Aragorn:1.2.38	tRNA	7440	7514	.	+	.	ID=Aragorn_14;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_14
sequence09	MetaGeneAnnotator	CDS	7924	10038	.	+	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007339535.1;translation=MRYFYIKLIFLLIFLFESLLSESPNKLVEFISSGSLDKVDVKNTPFFPSPGNTLDGEYIESYNINNSLSCGQAGCHPDIYHQWESSAHRNSSFNNPFYKKSVEYLVSTGDTAAVRWCGSCHDPIMLYSGLQETFLEENMKLPEASAGVTCEVCHGMVDIPDITGNGNYVLDKIDNHPALGRQATLKRLKIKLNPKKHSANMLKPLHKQEEFCASCHKVSLDEPINHYRWMRGQNEYDAWQNSGVSHNAVASFYKPPVALDCTSCHMSTVSSTDAGNKNGKVKNHWFPGANTALPALKSIDDKDWIKRTSDYLSRDRIAVDIFSVKVDGVNYYAIEDNLKLKPGQEVEFHIIVRTLNVGHSFPGGTIDSNEAWLQIIGKLKNEKIIFSSGLIDSNKFVDPSSHFFRGALLDANGEFILKRNPHEWRTTLYKNIIPPGSADIIRYNWKVPDDFNSEIQLTASVMYRKFNREITIFSLDELVDLPVVNMASDKMTISSNLETSYNFKSHIRFNDYGIALLRQNKLGESLSAFEKVIDINPLYSDGYINASRVLIKQGNFERAKIYLKKAIEIDKDYPKPYFFMGLIYKTEGDFDSSITNFNKVLKNHPRDRNVLKNIGQAYYLKNDFKNAKESYEDVLKIDPEDHDAHYNLMLINRNLGNIDLGKFHGEKYLKYKPDENARSISRSARLKYPYANNEAQQVHSHSLK;locus_tag=LOCUS_08320;note=WP_007339535.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:33.2%25%2C q_cov:93.5%25%2C s_cov:75.6%25%2C Eval:5.4e-95],MGA_842
sequence09	MetaGeneAnnotator	CDS	10066	13530	.	+	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIRLVNSNKMNKNNLFIILFLSIFIFCCENYTTVRIDSPENNEVLSKLFKIEISITNNDSIQYVGIIINEDTLDDIDYDEPYAFFVNSIEFENNSKNTIMAYAYDYDGNKIESDSVIIEIDNSQSYPNQINIQEILFLNNQFEIKWNSEEIKDFKSYVVEKSLNPRMENSEILSTIYNQKQKSLIDRESDETIANYFRINIVDTLGFETKGKIFKSNIYPSPKLSEIVSISYDLDSMQINWTKNNSKNFLNYKVLSVNSSMEKDTIAEIKNILNVSLSVPSKIFIPSKKNKFSILVENKFGQTIESEEKFNTIDQNPNPVLIEHISYDLNKMEIKWNKSIDNDFKKYEIIYSNKKNGIKKLLGNYYNRDSLKYNVFDFDPTIENWFWIKVVDLWGLDSISEPMSNFIDQLPDTNSINSIEYDEKNLVINWNKYKQDDFKSYQILHSFSEFGEKIILKEIDDINQLSFSTNTINPVVKNWFWIKNIDYWDQSSLSNPKSNKVKSLPLSISVDSVWFNDKRINVEWEKSNSKYFNHYQLFWSSTEFGERESIIKLYNQDRNFFSSENFDFSKENWFSLDHVDNWGNKISGKNMSNSPNYPPSPIPIIDITYDVKKINIKWKKSIDEDFKQYNLFFSNQEQQKISKIRSFYSISDTFFQFIHDSTFNPSISKWFFIETVDQKHQSSNGPVFEVIDNPPKNSILDSIKYSSESFLFSWTSNKENDFLKYNLYQSENKNMKNEEIIFTTEDINDTIFTLQGIDFWETKYYRVETEDVWNLKNSSEIMIGDSKSIFYKIENTKVHQKGNSSVQSLDGGFVIAGEVDNKEKNDDIFIQKINTKGKIDWIKTFGGKGDDRAYSIKNTADKGYVIIGFTEALIEKNGDIWVIKVDREGKMEWNRTYGGFNSEIGFDISQTKDNGFIILGNTFSKGNGTSDIWLIKTDSNGFPIWNKILGENDWEVGHSVYQKSDSGFVITGYKQKVDKELKNIFIVNIDKNGNKIWEKLLDENNNGIGYEIKETEDKGFVILGSTESVLPLKTNVFFGKINSFGDLIWKRKFGGNNDNISFSFAKSSFNNFTIAGSTKKVNDEKNSFWILKLDSFGKEMWKNSFYENFDVEIKKIIKSKDGGYFMTGSAKSFNQSSKLLYIKTDFDGKISK;locus_tag=LOCUS_08330;note=WP_012583645.1 hypothetical protein (Dictyoglomus turgidum DSM 6724) [pid:32.6%25%2C q_cov:31.7%25%2C s_cov:76.4%25%2C Eval:3.1e-58%2C partial hit],MGA_843
sequence09	MetaGeneAnnotator	CDS	13511	14233	.	+	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFQNNSYLNKQLFYLVNLPRLISVIFIIEIFIAIIFYTGGTFLDNSTHGYIFDKNFLSDLGRWKSWNENQNFISFIFFNFAFFQTGFTYMIFYIKMTSIFKKEKNLYVSSIFASFFGFLGGLFIIGVGFTPADIYRDIHFIFAIWFIRFFLISSVIYIFIFFLSKKIKSIYSIVYLIYSLIILIHLLIGEFGPNISAGGETALKTHVISQKIIAFSSILLILFQTFINKKLILTEFYK;locus_tag=LOCUS_08340;note=MGA_844
sequence09	MetaGeneAnnotator	CDS	14323	15327	.	+	0	ID=MGA_845;product=glyceraldehyde-3-phosphate dehydrogenase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P09124;translation=MKIFLMGFGRIGRNIYRLGYNNSDFEFVGISDLGRPDTLCYLLQNDSLHGKFDHKVQCSGSTMDVDGKSIEIYPGYSPSQIPWDKIDIDVVIDSTGVIWDDNELKHYNSNAKLTVITSNTNYDFDRIVIPGINDDSISKGDSIISPSSSTTQALALMLDVLDSGFGIQNSMMTTVHAYTADQPLADDTKFRTRRSRSAVENIIPNHSESPKIIEKILPKFKGKIAGIALNVPTPNGSCVDLTSELDRIPKIEEVNELFKSASENSHKNIIGFTDDPIVSTDAVGILETMIFDSKATMIASNHFLKTICWYDNGWGFSKRILETILAYNNLGGKF;locus_tag=LOCUS_08350;gene=gapA;EC_number=1.2.1.12;note=P09124 glyceraldehyde-3-phosphate dehydrogenase 1 (Bacillus subtilis subsp. subtilis str. 168) [pid:39.0%25%2C q_cov:96.4%25%2C s_cov:96.4%25%2C Eval:2.3e-62],MGA_845
sequence09	MetaGeneAnnotator	CDS	15324	16322	.	+	0	ID=MGA_846;product=glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P17721;translation=MRVAINGFGRIGRSVFRILNKRTDLDVVAINDLSDREALSYLLKYDTVMGRFDDKADINDGKLKTSNHLVTFFSERNPSDLPWNDLGIDVVIESTGVFRERKQLEQHLTAGAKRVILTVPSKDEIDYTVVIGVNDKGLTDDHKIVSNASCTTNCLAPMAKILNDNFGIEFGLINTVHAYTNDQSLADVPHKDLRRSRAAAENVIPTTTGAARAVGKVLPELNGKLDGIAMRVPVPDGSVVDLVARLKNDVTSEMIKEAVNEASKTNELSSIIDYQDEPIVSTDIIGNSHSSIFDSPFTQVIDGSLVKTVNWYDNEWGYSNRVVDLVSILSKL;locus_tag=LOCUS_08360;gene=gap;EC_number=1.2.1.12;note=P17721 glyceraldehyde-3-phosphate dehydrogenase (Thermotoga maritima MSB8) [pid:56.2%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:6.0e-103],MGA_846
sequence09	MetaGeneAnnotator	CDS	16435	17850	.	-	0	ID=MGA_847;product=pyruvate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NFM9;translation=MNMDNNRVKILATVGPSCNNKKSLQKMLDLGVNAFRVNMSHGTKKQKTDKIKLIKTLKDKWGMSPCILADLAGPKIRIEKINCNPNLSEKDILTISNDPNLKENNDILVTQGFQFTDISEGAKILINDGRTSLIVENKISPNTLKCSVVVGGLVEDRKGVNFPGISLDIPTISDQDKDDLIMSLNEGVDWIALSFVRSAEDYKKIKKIMTEQNIHLPVMAKIEKWEAIQNLDSIVESFDALMVARGDLGVEIPETRVPLLQKKIIETSNSKGKPVIIATQFLENMVENPFPTRAEVSDIANAIYDGADGLLVTGETAVGKYPLKVIEILQNVIKDNENVNLFYENYLPEQVTKTPEGISHAVSQVSKNLKVSAIVTMTHSGGTARMISRHRPKSPIIALTPFKNIARQMSILWGVNAIVVGKYKDIDEIPALCRKVLDEKKLIKDGELFIFTGGVPMNVAGTTNYLSIQKK;locus_tag=LOCUS_08370;EC_number=2.7.1.40;note=Q7NFM9 pyruvate kinase (Gloeobacter violaceus PCC 7421) [pid:38.2%25%2C q_cov:98.3%25%2C s_cov:76.5%25%2C Eval:1.9e-95],MGA_847
sequence09	MetaGeneAnnotator	CDS	18007	18231	.	+	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTNEVKELIENGLKGSKAIVNDDQNSGDHFSATVIWHGFEGMSLIQQHKAVYETVSNFLTKEIHALQLKTKIK;locus_tag=LOCUS_08380;note=MGA_848
sequence09	MetaGeneAnnotator	CDS	18245	18571	.	+	0	ID=MGA_849;product=glutaredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DKI5;translation=MDLKEQITKTINDNMVVLYMKGTKEMPMCGFSNAVVQVLNTYGLPYVDVNILEDPNIRIKLSEITNWPTIPQLFISGEMVGGCDITLEMHQSGELKNKLDEAQKKSIN;locus_tag=LOCUS_08390;gene=ycf64;note=Q8DKI5 glutaredoxin (Thermosynechococcus elongatus BP-1) [pid:49.5%25%2C q_cov:93.5%25%2C s_cov:83.5%25%2C Eval:1.6e-25],MGA_849
sequence09	Aragorn:1.2.38	tRNA	18624	18696	.	+	.	ID=Aragorn_15;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_15
sequence09	MetaGeneAnnotator	CDS	18776	19798	.	+	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANIFVKKTKIKNSFYLFNSKQKIPLKIYLSNNKQKTPTLILFPGATPLGEDHLMLNKFAKSISYAGVNVFIPRIPDLKEVKINEKSIDQMIDAYNSIVDRDYVDQKKIIGIGLSFAGSLWIKASTSAKIKIKPARVISYGSFFDFNDTIKFIMTGKCSIGEKHYKIKPDHWGRIVFLYNYLDYYQYSGDNRKIKLFLNDKVLNDGKMSLQIISEFNRQDKLFFEKFFSDDTKFLLKISDEIIKNVEHKLKKISPKNFVYNVDFPISLIHGLNDSMIPFTETVKFDKFLNEKKINVDTFVSSFHEHATIKNNSKSFFLNLKELNNMMQFIAKIFKPILKK;locus_tag=LOCUS_08400;note=MGA_850
sequence09	MetaGeneAnnotator	CDS	19903	20127	.	+	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEVVANTGVSKESGYLYYLGKDGNVWRSKMARAGKGGGNAEKVADAGVTRESGYLYFIDKNGNVSRSPMARGR;locus_tag=LOCUS_08410;note=MGA_851
sequence09	MetaGeneAnnotator	CDS	20215	21306	.	+	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVLLLFLIFFNSLHTIPRFSLIEGTSCKLCHVNPNGGSLRNDYGIIIASEDITYEKSKTIINNNDLGEISDHIRIGADLRIQSINDKKKNVIFPMQLDLYSYFNYNNLLGFYIESEALIDNTEYWTIAYLPIFDGYVKAGKSKPYFGLNIDDHTSFIRGGNINRKFGLDKEGSIFSPYQKPVNIIEVGLNFSEISIITSIANNFIGYNSSNIGFLGIPNKRTYSFRAEAYSKFLNNNIFYGLSYIEEEKIKLKSLFSGFFVNKVSMMTEIDIIENWVNDKQGMATFSEIAFMYKPGLNILFQYNFYDEDIQFQTNVINRYAVGIEFFLFNFWEFKFQTRYNKLNNLNFEPIEFITQSHFWF;locus_tag=LOCUS_08420;note=MGA_852
sequence09	MetaGeneAnnotator	CDS	21317	21667	.	+	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTYFMFFIILFSQFISAQEIKNQKILSFETKKEMMDYMKKEISAPLGVKCSYCHNVRDFASDDKKEKEITRQMMIMTNSINKNTMNPLAYDPVNCWTCHQGNTDPLRSKAIPAKK;locus_tag=LOCUS_08430;note=P33325 cytochrome c-554 (Chloroflexus aurantiacus J-10-fl) [pid:33.3%25%2C q_cov:67.2%25%2C s_cov:19.6%25%2C Eval:8.6e-08%2C partial hit],MGA_853
sequence09	MetaGeneAnnotator	CDS	21694	23073	.	+	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404619.1;translation=MKISSVIDFSRNNQDLFLSQLKDFIKIPSISSSPNNNQDVQNCAKFLYNDLINIGFTNVEIIETKKHPIVYGELFYSKRLPTILIYGHYDVQPVNPLKLWTSPPFEATIRDGRLYGRGTVDDKGQVHLHLKAIESWLKVHKKLPVNIKFIIEGEEEIGSENLEPFIKENKNKLDSDLIIISDTSMIKKGFPSITYGLRGISYFQLDVKGTSQDLHSGMYGGAVKNPINALVEILSKLRNSNGKILIPSFYDKVRKILPSERKSFSELPFDEVEFQKNIQAPKLFNEKEYSILESLWCRPSLDINGIWGGFTEEGSKTVIPSEAHAKVSLRLVPDQKPNEIETLFENYIKKISPNEINIHIERMHGGNPFISDITHPAFKAASLALEKGFGKKAVFIREGGSIPIVNNMCDVLNVNCLLIGFGLPGENAHAPDEWLDLDNYRLGIESAIHLYKGLSEVKF;locus_tag=LOCUS_08440;note=WP_011404619.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:41.0%25%2C q_cov:97.8%25%2C s_cov:98.5%25%2C Eval:1.1e-106],MGA_854
sequence09	MetaGeneAnnotator	CDS	23057	24340	.	+	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNFKYFIIFINLLLNGFLFSQNNLIDEIQISGNKNTKDKIILREIYQEKNSFLDSSVVKSDIQRLLNLGIFTDVRFEVKTIQDRLILNYHVIEHSLKIIPGFTPIYSEEKGWSYAFFAEIMNFRGLNQSLDAGMIIGEMNTIGISFKDPWIIGNHISFAFDIMLDEWNHTFLPYYLYRDYYGISFGKWWDYKLKLSLDLAFRKEKFSSKDLNFSTDEFKIFNIKPTFSYDKRDVYRNPTTGFLIFSIFDYNHIYNKDTYRLIVTNSFSKYFNFKNFTFGFNTSFSTLFGYDDQKMIKYFGGLNSIRGWKVPSSMNFKDSNDQYRFGNHNLIFSSEIRKDLIKYSSLNIMDLNFEKGLTSLIFYDIGFNSQELESLLISNNLPLIGFGFGLRVPFLGNVIGPDFGWSYYNKNFISSAIHIRVGHKF;locus_tag=LOCUS_08450;note=WP_012583180.1 outer membrane protein assembly factor (Dictyoglomus turgidum DSM 6724) [pid:23.6%25%2C q_cov:87.6%25%2C s_cov:38.2%25%2C Eval:3.9e-07%2C partial hit],MGA_855
sequence09	MetaGeneAnnotator	CDS	24342	24866	.	-	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNVIRSIGIKPGLLVGLIDIFKGWIVTFYSPFLILNNNSEFFISLVQIIAGSSAVIGHTFSIFSKFKGGKGIATLTGLIIAITPFSFISCLLIFFLTLLLSGYVSLSSILASLVFPFSLIFLFLFFNFEINMSIIVFSIVIPLFVLITHQENIKRILNGTENKFHKIKLFKKK;locus_tag=LOCUS_08460;note=Q2S2H7 glycerol-3-phosphate acyltransferase (Salinibacter ruber DSM 13855) [pid:32.9%25%2C q_cov:93.1%25%2C s_cov:74.2%25%2C Eval:2.6e-20%2C partial hit],MGA_856
sequence09	MetaGeneAnnotator	CDS	25124	25657	.	-	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATIWILLFLFNFFDNLASPLIDTIIPLDIPGVGIMLTLLILYLLGVLVTNFLGKQLITFGENIINRIPFAKTIYGTAKQIVESVGTSSKKAFQKTVLIPYPHAESWTLAFVTGESKDHNGIEYYHLFVTTTPNPTTGYFLMMKKNKTIDANISVEEGFKVIISGGVIAPDINQIPS;locus_tag=LOCUS_08470;note=WP_010947206.1 membrane protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:39.0%25%2C q_cov:80.2%25%2C s_cov:69.9%25%2C Eval:4.3e-29%2C partial hit],MGA_857
sequence09	MetaGeneAnnotator	CDS	25764	27890	.	-	0	ID=MGA_858;product=isoquinoline 1-oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004194598.1;translation=MMNQKNINRRDFIKIASSTTSLILGILPNTTKLYGSSLKSKQFTPSAFVTINSDNSIVITATKSDMGQHVRTSLPMILSEELEADWNLVKVLQADADESKYGDQGTGGSGSIRELFPILRKTGAAAKEMLIKAAAEKWDVDVNECKAELNKVIHIKTKKEFTFGQLVEKATTYSVPSNPKLKNRSDFKIIGKSMRGLDTVDRTNGSAMYGIDTVVPDMLYATIIKCPSFGSKLKSYDSSDALKVSGIIKIFEFDNKIAIVGKNTWSVFKAKSKIKVQWDYGEFYQWNSEKIKNMMIEKSNLKATTAKKKGNVQKAIKSSSFTLESTYELPFTAHATLEPMNCVAKVSDDLCEVWAPTQVPGGLKEDIAENLNFDPDNVKVHVTLLGGGFGRRLFNDYALECVEIAKVIKKPIKLTWDRETDLKHGMNRPASVHKLVSTFDKKNNPTSWCHKIISPSISAYHWGDNENRDLDKGTVGQGGINLPYEFKNMLIEYKCANTEVPIGWWRAVYNSQNAFANECFMDEIAFINKKDPIEFRKKLLSKSKRHLGVLNLVAEKSKWFTKKLKPNQGRGFAIHESFGSWTAQVVEITMNKDNTFSIDNVYATVDCGIVINPDGVKAQMEGCIVYGLTSTLAGELTIENGAVEQSNFHDFQLLSIDQMPKIHTYIVESSENPTGAGEPGLPPIAPALGNAIFNATGKRLRKLPFSLT;locus_tag=LOCUS_08480;gene=iorB;EC_number=1.3.99.16;note=WP_004194598.1 isoquinoline 1-oxidoreductase subunit beta (Burkholderia mallei ATCC 23344) [pid:36.6%25%2C q_cov:98.6%25%2C s_cov:97.2%25%2C Eval:8.5e-133],MGA_858
sequence09	MetaGeneAnnotator	CDS	27887	28348	.	-	0	ID=MGA_859;product=(2Fe-2S)-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013382916.1;translation=MKEYSLKINGETHKVSVDDDTPILWVLRDTIGLTGTKFGCGRGLCGTCTIHVDGEATRSCVTAIDNLEDGAKITTIEGLSENTSHVLQKAWIEEEVPQCGYCQSGQIMTAASLLEKNNNPDDNDIDNAMKMNLCRCGTYQRIRKAIKKAAKEL;locus_tag=LOCUS_08490;EC_number=1.3.99.16;note=WP_013382916.1 (2Fe-2S)-binding protein (Ketogulonicigenium vulgare WSH-001) [pid:62.5%25%2C q_cov:88.9%25%2C s_cov:85.4%25%2C Eval:2.7e-46],MGA_859
sequence09	MetaGeneAnnotator	CDS	28416	29312	.	-	0	ID=MGA_860;product=protein-export membrane protein SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KTY6;translation=MKLIKKTNFDFLGSQKFGLVISSSFILAGIISLVLRGGPILGIDFTGGTLAQIQMESSPNITELRSSLDKLNIGISEVQTFGSSNEIIIRIKGSYKSEDILSILKDVFSQEFPNENIEFRRFETVGPKIGSELQGKALMSIIFAIIGILLYISIRFELSFAIGAISALVHDVLITLGIFSILGYEISLPIIAAFLTIVGYSLNDTIVVFDRIRENLKKIKSEKNIQIFNQSINESLSRTVITSLTTFIVVFILYLSGGEVIKYFAFAMIIGVMVGTYSSIYIASPVVLLWQKKFNTQN;locus_tag=LOCUS_08500;gene=secF;note=Q9KTY6 protein-export membrane protein SecF (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:46.0%25%2C q_cov:93.6%25%2C s_cov:88.6%25%2C Eval:3.3e-62],MGA_860
sequence09	MetaGeneAnnotator	CDS	29309	31207	.	-	0	ID=MGA_861;product=protein translocase subunit SecD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S1I9;translation=MNKQTPRLLFIGLILLWAIYTLFPTFKFNFLSEEEKNNLLVDGKLEKLQNKVLKQGLDLQGGMHILLEIDIPTLIENLANNKNNKFYTTFNYTKENYNLNQSFIDQFIEDSENNELRLNRYFSDISSNGLTIKQTLEKERDDALNRVLEILQNRVDEFGVSEPTIQKQGNQRIIVELAGVQDPSRARSLLQSTALLEFSLLKDGAITQNLISRIDKILKGNSDVAAIVSSNDEKTDSFEPAETKTTNDQEVSITELFSSVDDDTLMSSNTSDGVVVDKDIFQERPFSSLLRQTGNDLGVPEKNLFAIKKIIEMEDIQTSLQNEESKISFSKDKEVWTLPEGGTESFFKMYHLESNKGLSGGLIQEAKASFYNGQPIVSLSMNSEGAKIWSRLTGANIGKRLAIVLDNNVRMAPTIRSKISDGQTQVEGFANMNEAKDIAIVLRAGALPAPVNIIEERTIGPSLGRDSIEKGTRSVIIGLILILIFMVFYYRGSGFIASTGLIFNLILVLSILSMLDATLTLPGIAGLILTVGMAVDANVIIFERIREELEKGKKSKSAVESGFSRAITTIVDANVTTILAALILYQFGSGPIRGFAIVLCCGILTSMFTAIFTSKTIFNIITNNKNLKSLSI;locus_tag=LOCUS_08510;gene=secD;note=Q2S1I9 protein translocase subunit SecD (Salinibacter ruber DSM 13855) [pid:35.6%25%2C q_cov:94.9%25%2C s_cov:99.2%25%2C Eval:8.0e-103],MGA_861
sequence09	MetaGeneAnnotator	CDS	31336	32103	.	+	0	ID=MGA_862;product=chromosome partitioning protein ParA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933511.1;translation=MGKIIAFTNQKGGVGKTTSAINVATSLAVSELKTLIIDLDPQANATTGFSDLFEKQKSNIYNVLIEKESILSSITKTKLKFLDIISSTNDLVGAEIELVSMIGREYRLKECLNDLQDKYDYIILDCPPSLGLLTLNALSASNSVLIPIQCEYFALEGLSQLLQTVRLVQRHLNKNLDIEGVLITMYDSRLNLCKQVEKEVREYFDGTTFKTMIRRNVRLSEAPSFGKPILLYDANSTGSQDYLTLVQEIINRENK;locus_tag=LOCUS_08520;note=WP_010933511.1 chromosome partitioning protein ParA (Chlorobium tepidum TLS) [pid:54.3%25%2C q_cov:99.2%25%2C s_cov:95.8%25%2C Eval:8.4e-77],MGA_862
sequence09	MetaGeneAnnotator	CDS	32090	32980	.	+	0	ID=MGA_863;product=chromosome partitioning protein ParB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003429290.1;translation=MKTNRLGRGIGALIEDKLNDQSSQNIIKNIMIADIKMNPFQPRIEFDDNKIKKLASSIKEKGLITPISVRYIKNSYQLVAGERRLRASKVAGLKEIPAYVLNIETDLEMMELALIENLQREDLDIFEEAKAYLMMIEKYKFSHDEIGKIVGKSRANISNTLRLLKLPKEIMESLRKKEISAGHARALLGIKNPKKIKEVWQRILEREESVRSTEELISFLNKKEKENKNSNSDITRFNNHSLKVNNFKILEDELIEIMGTKVVISKKNKIGKVEISFFSDDDFNRLIEILRKININ;locus_tag=LOCUS_08530;gene=spo0J;note=WP_003429290.1 chromosome partitioning protein ParB (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:42.8%25%2C q_cov:97.6%25%2C s_cov:97.2%25%2C Eval:3.3e-54],MGA_863
sequence09	MetaGeneAnnotator	CDS	32994	33749	.	+	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASEKFTFLIVSQKSEKTLKFQFNLRNLIIVFSFIILIIFLGFFSIYRAYKINFEYVSIKKDYEKMLSERNKVIQMTRDLNRINEMDVYVRNSLGISNSFDSDTLLNSYVEQNIPVSYIKNIPSFSPVSGFVSQKFNSKSEKNINHHTGLDIVAPLKTPFHSTADGHVLFSGWKYPFGNTIIIYHGEDYFSFYGHNFENLVFEKERVKRGQIIGLIGNSGETSGPHLHFEIWKNGVAIDPSIFISEYRLEN;locus_tag=LOCUS_08540;note=WP_012545938.1 membrane protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:40.0%25%2C q_cov:50.6%25%2C s_cov:46.8%25%2C Eval:4.7e-24%2C partial hit],MGA_864
sequence09	MetaGeneAnnotator	CDS	33752	34147	.	+	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMIKKELNKHVETMIGEDVTISGELKLSGGAIISGMIKGDVITSGIIRLTTNGVVEGNVIASEATVGGEIRGNVRAHKIILRENSKVDGDIIYKKLIIEEGASFQGRCDLDTDDSFNDSISNSQQKTKDD;locus_tag=LOCUS_08550;note=MGA_865
sequence09	MetaGeneAnnotator	CDS	34140	34358	.	+	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKIKKISIIISKSAPYLNIVYSQASAVIIFSIIGYFLDLWFSTEIIFTLIGLIIGLGFSLYLLAKTIWNK;locus_tag=LOCUS_08560;note=MGA_866
sequence09	MetaGeneAnnotator	CDS	34726	35643	.	+	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEKSQSVMDSVGDHILHHISNSSLDKDLIFELPTIFGINFSVTKHVLMIWLSCLIVSLIVIIPTRIYINSKNKVPSGMSNAIEAVVSFIKDSIVKPNIGSKWSDTWTPLILTYFFFILVANGIGLIPIFDFIGASSRFIFGLKYGEDAFVNNLLHGGATATGNFWVTSALSFITFISIIIAGTMAHGFINHWKNIVPKGLAWPVYIILIPIEIIGMFVKPFALTMRLAANMTGGHIAILAILSFIAIFAEVFKTSMAGFGIALFAVPLVSAITGLEIIVTIVQAYVFTLLSAVFIGMAINVHH;locus_tag=LOCUS_08570;note=Q2S436 ATP synthase subunit a (Salinibacter ruber DSM 13855) [pid:32.1%25%2C q_cov:86.9%25%2C s_cov:57.3%25%2C Eval:1.5e-28%2C partial hit],MGA_867
sequence09	MetaGeneAnnotator	CDS	35661	35879	.	+	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEATTLIPIGMGLIVIGAAIGISRFAAAAAESIARQPQAAADITAAINLPLFLLEGVAIIAEALTFATIFFG;locus_tag=LOCUS_08580;note=MGA_868
sequence09	MetaGeneAnnotator	CDS	35913	36521	.	+	0	ID=MGA_869;product=ATP synthase subunit b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H2D9;translation=MKNFISKLFFDLGRLKVLTIIFLVNFSYAAESADDSNPLLVLDPGLFVWTILSFLLLMFLLSKFAWKPLLKMLNEREEKIRTAIEKAENAEKKLETLNEQGEKILSDARSESQKLLLSTKETAQNLKEEIEREAKQKATSIIDQARVQIQAEKNQVLSEIKNELSSFSIMIAEKLIKKNINKDDNMKLINESIEKVNKINEA;locus_tag=LOCUS_08590;gene=atpF;note=A6H2D9 ATP synthase subunit b (Flavobacterium psychrophilum JIP02/86) [pid:36.3%25%2C q_cov:77.2%25%2C s_cov:94.0%25%2C Eval:7.8e-23],MGA_869
sequence09	MetaGeneAnnotator	CDS	36511	37044	.	+	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHKSKVKVYTNSLRNIASKMKIFKEVNESLNIILTFFQKDSTFRSFLYSKSINGDDKSLIISKIFKKKCHPVVCEMISILSDKNELSLLKKITQNFTKQNNQISKIIKIKAYLAKELNDDEQNIIKLKMDKLFKESIQLDFHVGSELIGGVKLRVDNLLIDGSIQGQLKRLKDQIN;locus_tag=LOCUS_08600;note=MGA_870
sequence09	MetaGeneAnnotator	CDS	37069	38589	.	+	0	ID=MGA_871;product=ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462231.1;translation=MEIKIDEIKSLLSEEIEKFNVNIDVSEVGEVLDVGDGVARVSGLENVMSSELVELPNDVFGMALNLEEDNVGLVLFGESQKVKEGDIAKRTGKVVQVPVGKEMLGRVVNPLGQPIDGKGEIKNKISKPIEEKALGVLQRQPVTEPLQTGLKSIDSMIPIGRGQRELIIGDRQTGKTAVAIDAIINQKSTHDGENPVYCIYVAIGQKASTVAQVVAKLEESGAMEYTIVVTANASDPAPLQFIAPYSGCTMGEFFRDKGGHALVVYDDLSKHSQAYRQMSLLLRRPPGREAFPGDVFYLHSRLLERASKLSEDLGSGSLTALPVIETQEGDVAAYIPTNVISITDGQIYLESNLFNAGIRPAIDVGISVSRVGGNAQIKAMKKIAGMLRLDLAQYRELEAFAKFGSDLDKATQRQLTRGERMVEILKQGQYEPLSVEKQIAIIWAGNSGHLDEIPIEKIKDFEDGFLSYLETSESSILADIIDKSEITDEIKNDLEKAVNNFKKTFA;locus_tag=LOCUS_08610;note=WP_011462231.1 ATP synthase subunit alpha (Desulfitobacterium hafniense Y51) [pid:63.4%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:6.8e-187],MGA_871
sequence09	MetaGeneAnnotator	CDS	38596	39456	.	+	0	ID=MGA_872;product=ATP synthase gamma chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAW9;translation=MANLKDIRDRIKSVKSIQQVTKAMKLVAAAKMRKAQERMEQARPYEENLANMISSLISNIDESSSPLFQSKKSKRELLIVVTSDRGMAGAFNANIIRKAEERVILLGKENLDLFFIGKKGSDHFKSRGYDIVDSYNDFWNDLNFTDAMKFSSDVINKFLENDIGKVNVVYNWFRNVAVQEARFENFLPIAFEKKSNFSNDDQLFEPSKKMIVKSLIPRHLNFQIWKYLLESYASEQAARMVAMDNATENGQELIKDLTLDFNKARQAAITKEMLEIVGGAEALATN;locus_tag=LOCUS_08620;gene=atpG;note=Q8KAW9 ATP synthase gamma chain (Chlorobium tepidum TLS) [pid:45.9%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:5.2e-65],MGA_872
sequence09	MetaGeneAnnotator	CDS	39468	40868	.	+	0	ID=MGA_873;product=ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q180W5;translation=MKKIGKISQIMGAVVDVSFEDGQMPNILNALSIERNDDKPLILEVAQHLGDSIVRTVAMDSTDGLIRGQKVIDTDKPITVPVGEKTLGRLFDVLGNPIDGKEPPQTKINSPIHRKAPEHKDLSTSREVLETGIKVVDLMEPYTKGGKTGLFGGAGVGKTVLIQELIHNIATEHGGYSVFSGVGERTREGNDLFREMTESGVIDKTVMVFGQMNEPPGARLRVGLTGLTMAEYFRDQEGRDVLLFVDNIFRFTQAGSEVSALLGRMPSAVGYQPTLSTEMGELQERITSTNKGSVTSVQAVYVPADDLTDPAPATSFAHLDATTVLDRRISELGIYPAVDPLTSSSRVLDPNVVGDKHYNVAREVQKILQKYKELQDIIAILGLEELSDDDKIIVARARKIQRFLSQPFFVAEQFTGTPGRYVKLEDSVDGFDRIIKGEFDDLPEQAFLYVGTIDEVVEKAKGMNSE;locus_tag=LOCUS_08630;gene=atpD;EC_number=3.6.3.14;note=Q180W5 ATP synthase subunit beta (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:71.5%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.2e-190],MGA_873
sequence09	MetaGeneAnnotator	CDS	40865	41257	.	+	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYFDLKIVTPTKSIDFESVNYVRCPGLKGLFGIMSNHQKGIFALDIGEIKVDNKKSSSFYSTSGGYAEFKDNKLLLLLETVESKSEIDKIRAEAALKRANERLKSNEGDETRAKASLIRAQNRLKIISR;locus_tag=LOCUS_08640;note=MGA_874
sequence09	MetaGeneAnnotator	CDS	41286	43067	.	+	0	ID=MGA_875;product=aspartate--tRNA(Asp/Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HDC3;translation=MFKRTHTCGELTSSNVDQTTSLNGWVYRTRDHGGLIFIDLRDRYGITQIKFDENDSEEAFLTAKAISIEDVISVKGTVVSRDSEAINKELLTGEIEVNIESIIILNESKPLPFMISDREGASEETRLKYRYLELRTDQMQKNMLIRHKTYQEVRKYLSSNDFIEFETPVLMRATPEGARDFLVPSRLHKGQFYALPQSPQQYKQILMVSGFDRYFQIVKCFRDEDFRADRQPEFTQIDIEMSFIDESDIKKSVEELVCSIFKNVINYELKNKFPRISYNEALETYGSDKPDLRFDLKLVDFIKYTSQSNFSAVKDLSTVKAIVVPNAEGYSRKVIDELIDFVKEFSSQSKKTPLSGLAWMKFSDSDLIGGVSKFFDQDLKNEIIKSLKLNENDLILFGAGERETVLSTMGALRLKIAERNDLIKHDDFKPLWVENYPLFQKDEDTDKWTFVHHPFTSPSEKDLYSFSDDPGKAGSRAYDLVINGWEIAGGSIRNHDPKVQVEIFKVLGFSEKEAKEKFGFLLEGLNFGAPPHGGIAFGFDRLVMILAGVKQIRDVIAFPKTTSAISLMDGSPSDIGEKQLKELGITVNRKRKN;locus_tag=LOCUS_08650;gene=aspS;EC_number=6.1.1.23;note=Q6HDC3 aspartate--tRNA(Asp/Asn) ligase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:48.0%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:3.5e-161],MGA_875
sequence09	MetaGeneAnnotator	CDS	43238	43405	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINRYLLVMIFFIFTGCEDDPILEPQVEQEEQGSYGNLSLPNEQNVKKKNPKIF;locus_tag=LOCUS_08660;note=MGA_876
sequence09	MetaGeneAnnotator	CDS	43414	45930	.	+	0	ID=MGA_877;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403608.1;translation=MNYNIKNLFLSLFYVFGSYVLAFNSNSVINKKVNTQNSENTIQGYVFRADSRIPLIGANIILKSKDGSNFGASSDKEGYFFIKSIIPGDYDVIVSFIGHEEFSQNILIEEKNVYNLEVFLSIQPIVMTKLNIISDSKSSYDNLPGAATIIDSKRMKIISPIGTQEILEKIPGISGFADDGIGNSRISIGIRGLNPRRSSRTLILEDGIPIQPALYIYPNMYYNPPSERISRVEVIKGSGAIAFGPQTMGGVINYFTKRPRNNFGGLFRFTGGENGFLSLFSEIGGWGTDKISPELQLLYKRGDGFRDNNNFEQINSTFKLTNQISEKKNIYFKANLNYENSNATYTGLTQWSFENNPNFNPKNHDNFKIIRTSFDFIETTNINSKLTKTSSAFINYFDRRWWRENDIFIKETDYGTDNPKPQPYYSNADLVRVGGGVDNFGILRTFYVIGYDQNYKYEHSILGNKANLDIGARIYWDRFIDDKQTGVNVDSRDGIYYIEPENETDSPEIVGQSHHYQTMALSTYFSEKIDFEIISLSPGLRIEIFEQERVDRLSGSLYQDKNLIVVLPGIGFSKSLFGMNLFGGLHRGFTPPSSGALKILNFGDNISSGGLDLESEKSWNKEIGIRGDLRLLNFELAGFHLDVENLVAAGRGTAFKNLGKVQTYGLEFNAMFRLSELNKMIPNIFATYTYLQTEVLDGEIVSYVSGTYGSTISINGNELPYSPKSTLIIGLEISPINNLDIMFDYKYVSSVFTDFENIIESDNLGISGSISSYGIYNMSLNYNFGTSYRMFLTGKNLTDEIYIGSRLHSNPGQKSANLSSGILPGPRRQINFGIEYLF;locus_tag=LOCUS_08670;note=WP_011403608.1 TonB-dependent receptor (Salinibacter ruber DSM 13855) [pid:38.8%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:1.5e-171],MGA_877
sequence10	MetaGeneAnnotator	CDS	230	892	.	+	0	ID=MGA_878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932664.1;translation=MKKKILIISSVFMFLSYFGSNLNAQVTLGGELYSRYVWRGADFGNSASFQPAFDFTSGPISVGAWAAYSLTADGAAADESDLYATVALGPASITITDYYFPMTDGDGGMFFNFDDGGAHYIEAAVSAEVGPASILLTSFIHNDDTLYGEVGFPVGDLSFFVGASLNDGGMYGTTEAGLVSVGFSGGKEIPISSEFSLPIGVTYVLNPTAEKTWLILSMSF;locus_tag=LOCUS_08680;note=WP_010932664.1 hypothetical protein (Chlorobium tepidum TLS) [pid:26.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-15],MGA_878
sequence10	MetaGeneAnnotator	CDS	917	2203	.	+	0	ID=MGA_879;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KDQ9;translation=MLKKIMLALTFIFGGQMLFAESGLTVDENAFAIDNFFLFICAVLVLFMQAGFSMLEAGLNASKNTVNILMKNVMDLGLGVLLYYVIGYGIMYPGDFNGYFGFGGFGVSEAGTDAVPGGLDPQVDWLFQVAFAATAATIVSGAVAGRMKFVGYLVYTVVLTGLIYPISGAWKWGGGFLDAMGFYDFAGSLVVHAVGGFAGLAGAIALGPRIGRFSSNGDSKALPGSNLAIATLGVFILWIGWYGFNPGSQLLISGSVNVHAVMLIAANTTLSAATGAVAATIFAWFVYSKPDLTMAINGALAGLVGITANCDSVTNGEAIIIGLVAGILVVIGIMILDSAKIDDPVGAWPVHGLCGIWGGIATGIFGGHPIGAQIIGSIVIPIWAFVTMYIVFMALKSVDMLRVSEEDELKGLDISEHGMESYAGFSTK;locus_tag=LOCUS_08690;gene=amt-2;note=Q8KDQ9 ammonium transporter (Chlorobium tepidum TLS) [pid:61.9%25%2C q_cov:92.8%25%2C s_cov:90.5%25%2C Eval:6.4e-143],MGA_879
sequence10	MetaGeneAnnotator	CDS	2394	2738	.	+	0	ID=MGA_880;product=nitrogen regulatory protein P-II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000767694.1;translation=MKMILAIVQPELLPDIKEGLLKAKISKFTVSIAKGHGSEVPIEEVYRGISYELELSNKIRIEIAVNDDFVDPVVEAICEVAKEEGTEGRGKIFILPIEDCIRIRTGERGIEAIG;locus_tag=LOCUS_08700;gene=glnK;note=WP_000767694.1 nitrogen regulatory protein P-II (Leptospira interrogans serovar Lai str. 56601) [pid:52.6%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:1.2e-25],MGA_880
sequence10	MetaGeneAnnotator	CDS	2970	3980	.	+	0	ID=MGA_881;product=glutamine synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UNZ8;translation=MSEKSKLEYIWLDGYKPTQSLRSKTQIKSNFSGKLEDCPMWSFDGSSTEQATGGDSDCLLKPVAIFPDPDRINGYLVMTEVLNADGTPHESNGRSTIDDDDNDFWFGFEQEYFLWDPETNLPLGFPANAFPGPQGPYYCSVGAKNAYGRDIIESHLDQCLDAGLNVEGINAEVASGQWEYQVFAKGAKEAGDQTWVSRYLAERNAESYGIAINWHPKPIKGDWNGSGMHANFSDGKMRAAGDESVFTKICESFGKNIKKHISVYGADNDQRLTGAHETQSIDKFSFGVSDRGASIRIPVGTIEDGWKGRLEDRRPASNGDPYKIAAAIISTTKDAY;locus_tag=LOCUS_08710;gene=glnII;EC_number=6.3.1.2;note=Q7UNZ8 glutamine synthetase (Rhodopirellula baltica SH 1) [pid:71.2%25%2C q_cov:98.8%25%2C s_cov:91.0%25%2C Eval:4.4e-146],MGA_881
sequence10	MetaGeneAnnotator	CDS	4060	5757	.	+	0	ID=MGA_882;product=DNA repair protein RecN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HDZ1;translation=MLKRLKVKNYALIEELDITFGENLNIFTGQTGAGKSIIIGSINLIIGDKASLEMIRTGEEEGFVEAFFDLNIKQSNLKNFKDLNQSLTIKRVITKNGRSHAFLNGNQVSIGKLKEIGFLIIDILGQHHHQSLLNTNKHRELLDHFALKNLRKDEYYQLYKLIEKKLKFLNDLMHSEELSKEKEELYKFQIKEIKTASIDIDEQSKLEEELIILGNAQQLKDTALKINYSLSEEEDSILNRLRGMLKAFDSISSIDSSMKDKIDQWNESIFSLEDISFELSRYSEKINYDPKRLSWVNDRLQLYKDLSKKYGNGFEEIMEYKNKIEHYLKNLNNKDEQIKIIQNEIYESKEKLYILAKDISNKRKKGAKILKEKIENELNELGMKGTKFDIDFSPISNSKGLELKIKEKTVYVDEFGIENVEFLISPNEGEPLKQLIKIASGGEMSRIMLAIKTVLAEFDSIPVLIFDEIDSGIGGDIASLVGKKLKNLSQKHQLICITHLQQIASFADQHFQVRKFVIKKRSSIEVAKLNTEEKVAEIARMISGEKITDITLENAKEFLKIGAEA;locus_tag=LOCUS_08720;gene=recN;note=Q6HDZ1 DNA repair protein RecN ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:35.8%25%2C q_cov:98.9%25%2C s_cov:97.6%25%2C Eval:1.4e-95],MGA_882
sequence10	MetaGeneAnnotator	CDS	5761	6594	.	+	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIYNRTQYKKLTDKQYQEEKRLLQIELLKLQEWIINNHKSVAILFEGRDAAGKGATIRRFIERLMPKSVRVEELGVPSENQIKNWLTTYKNILPKPGELVFFDRSWYSRALIQPVMNYCTENQYKFFMKNINSWENELKSNGIILIKFYLSVSQKSQTLRFKLRESSPLKYWKLSENDLEVAKEWDLFTYYKEQMFNETSTQENPWVIINSDNKMIARLNAMRYVLTKISYKNKKILKSNQWSEEIKDYSIRLNNILFNNLSKEQYELLFSMQAHK;locus_tag=LOCUS_08730;note=WP_003819675.1 polyphosphate kinase 2 (Bordetella parapertussis Bpp5) [pid:48.2%25%2C q_cov:81.2%25%2C s_cov:65.9%25%2C Eval:1.3e-57%2C partial hit],MGA_883
sequence10	MetaGeneAnnotator	CDS	6595	7032	.	+	0	ID=MGA_884;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962822.1;translation=MERIRTAGGLVFYKKSFLLIFKRGKWDLPKGKYKYGDTDQKTAKIEVFEETGLPINQLKIIKRLIPTYYIKSFSKKKIQKRTTWFLMNFTGDPEIQLIPAKKEGITECRWVHKKDLKNILPKAHLRIVYLFDYLKQLPLYKDYFK;locus_tag=LOCUS_08740;note=WP_011962822.1 NUDIX domain-containing protein (Flavobacterium psychrophilum JIP02/86) [pid:36.6%25%2C q_cov:88.3%25%2C s_cov:87.4%25%2C Eval:4.5e-13],MGA_884
sequence10	MetaGeneAnnotator	CDS	7038	7535	.	-	0	ID=MGA_885;product=phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002852934.1;translation=MKKITFIRHAKSSWDFSNIQDIDRPLSERGIKDAKLMGTILKKENIYFDKIFSSPANRAINTAKIISSKINYPLNEINIKYEIYNSSTLDIFSIIKKTNSRQFNHIALVGHNPTFHSLIEIISNHNLLKLPTCSIVTIVLNIEKYSNIKEGIGKIDKIRFPKNFK;locus_tag=LOCUS_08750;EC_number=3.1.3.-;note=WP_002852934.1 phosphoglycerate mutase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:35.5%25%2C q_cov:93.9%25%2C s_cov:90.0%25%2C Eval:7.5e-19],MGA_885
sequence10	MetaGeneAnnotator	CDS	7608	8051	.	-	0	ID=MGA_886;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258944.1;translation=MIISIGTDQKTKIIDELIFQLKKRNHEIMYYGPKDKENLDWTKTTINAVELVLKNKADEAIVLCGTGTGASIAANKFNGIRAALCNDAKTAAGARKWNDANVLALSLNNLNSKNLNEILNTWFSTKFLNDTWNNKQIKLLKKIELNN;locus_tag=LOCUS_08760;note=WP_012258944.1 ribose 5-phosphate isomerase B (Chloroflexus aurantiacus J-10-fl) [pid:43.7%25%2C q_cov:85.7%25%2C s_cov:87.5%25%2C Eval:4.4e-24],MGA_886
sequence10	MetaGeneAnnotator	CDS	8092	10545	.	+	0	ID=MGA_887;product=beta-lactam antibiotic acylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000454344.1;translation=MSLEFIRNKNIFNKKFYFILFPILFAIISFSYLKSPKIKYEGILSFDDIKKDVEVYFDDFGSPHIFAENNDDLFFTAGYLMARERLFQLTINAYTSEGKLSEILGEESIEIDQFIRTWGIPKISKEMINDLDENSLNILNKFCEGINKYISELGNNLPIEFKILQIKPIKWEPYHISGFSKLMAYSLSQSWYPEMLFGKVASMMGAKKTLELWPYFPNEKPNELPEIKFDNSNIWEEIVHVDKKIRKILGTATGHLGSNSWVVDGSKTISGRPILSNDPHLGMIQPSIWYEMHLNGGDFNVSGVTFPGVPFIIIGQNQKTAWGFTNLMSDDLDFYHEKINPEDENQYFFNGKYIDMNIRYEKIKIRGDKEKLIQIRETHRGPIISDIHSLTKKSNNVFSFSWVGNEYWNEIESFINLNKMTNWNDFSDAVSGMSSPAQNIIYADVDGNIGWRAVGKIPIRDGGNFLLPLPGETSKYDWKGYIPFDEMPYEFNPDRGYIITANNKTISNDYNHYVSSLWHNSSRYDRIFELINDRNNLNQNDMKIIQNDLISPFARKLSKKIIVPFKNYNYSDDNIEYSIELLKNWDGNFKTDSKEPLIFSVILMKILKNIYLDEMKVIGENIYSSWIGPVGGRGNWAISLRNLEGLMFGEYSSWVDDIETLNYVENLEDIIIKSVKEGVLQLENELGYSPVNWWWGRLHKLTFRHSIGNEIKILDRIFNFNIGPFESGGSSTTINNGEYSFSEPFLQTAGASFRRIVDFSNLDSTAFILTTGQSGNPQSIHYDDQTPLYLNGNYRNISFNKNSIKNHSKRKILFQSQ;locus_tag=LOCUS_08770;EC_number=3.5.1.11;note=WP_000454344.1 beta-lactam antibiotic acylase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:30.5%25%2C q_cov:97.9%25%2C s_cov:98.4%25%2C Eval:1.1e-118],MGA_887
sequence10	MetaGeneAnnotator	CDS	10650	11366	.	+	0	ID=MGA_888;product=glycerophosphoryl diester phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048193.1;translation=MGHRGVPNEFPENTIEGFKNLINKGINGIEVDVVRTKDNHIVCSHNYDLETETNGLGYIFNKYYSEIKKFNTSIKFLDKNHISIPKLIDLINELPKNIIFNIEIKSRFLFDLKSVPFVLRILKDNKIKNRVIISSFNPLVLLFVKIMDKKFATAYLWSNLNVPLILSKPWLVNIVHPDLIHIEAHLINKELILYYKKRGLKINAWTVNNFPSKKWLLENGVDGIISDFPTVMLLNKNI;locus_tag=LOCUS_08780;gene=glpQ;EC_number=3.1.4.46;note=WP_012048193.1 glycerophosphoryl diester phosphodiesterase (Clostridium botulinum A str. ATCC 3502) [pid:31.6%25%2C q_cov:97.5%25%2C s_cov:91.6%25%2C Eval:1.1e-22],MGA_888
sequence10	MetaGeneAnnotator	CDS	11430	14261	.	+	0	ID=MGA_889;product=UvrABC system protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I7B1;translation=MSTLKKIIIKGAKEHNLKNINIEIPRNKFVVITGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGLMEKPDVDYIEGLSPAISIEQKSSSRNPRSTVGTVTEIHDYLRLLYARIGKPYCYNCGDLISKQTVQQIVDSVLLNDIGTKLQILAPVIRGRKGQFKDIFQNLKREGFVRVRVDGKLRDISEKIILNKNKKHNIEVVIDRIIIEKDIKERITDSIELGLKMGSGLIIVNILPNQEHLYSENFSCPKCDLSIEEISPRMFSFNSPYGACKTCDGLGTKMEIDPDLLVPDKKKSLIQGAIVPLGEQPRGNWYSSILKSLAEYYDFKFTTPWYRLSEKARFVLLHGTGNDNIKLYYKSKKFKGEYDGGFEGVIKNLERRYHQTNSTSIRDWIERFMSMQNCPGCKGCRLNKESLSVKIANYNIGQISELSVEDLLIFFQNLKISKTEANIAEQILKEVKERLQFLVNVGLEYLTLDRTATTLSGGEAQRIRLATQIGSQLMGVLYVLDEPSIGLHQRDNVRLINTLERLRDLGNTVLVVEHDRETIERADYVIDLGPGAGENGGKVVFAGSPLEIKKSRKSITGPYISGKKNIELPHKRRSGNGKFVSLFGASGNNLKGIDVKFPLGKLICVTGVSGSGKSTLVNETFFPILSSQLNNSRKKSLNYKSVDGLLYLDKVIDIDQSPIGRTPRSNPATYTGVFTYIRELYSNVSESKLRGYKPGRFSFNVKGGRCESCCGDGIIKIEMHFLPDVYVVCEVCKGLRYNRETLEIKFKDKNIADVLGMTVDEAFNFFENIPQINRRLQTLKDVGLGYIRLGQQATTLSGGEAQRVKLSSELSRIGTGRTIYILDEPTTGLHFEDVKMLLKVLNRLVDKGNTVIIIEHNLDVIKMADWIIDLGPEGGHKGGELVTQGLPEEIVKNKLSHTGKYLKSTLKGKL;locus_tag=LOCUS_08790;gene=uvrA;note=A5I7B1 UvrABC system protein A (Clostridium botulinum A str. ATCC 3502) [pid:60.4%25%2C q_cov:99.0%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_889
sequence10	MetaGeneAnnotator	CDS	14261	16225	.	+	0	ID=MGA_890;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011142294.1;translation=MSKDLDNLTINTLRFLAADAVQSANSGHPGLPLGAAPMAYVIWKRHLKHNPKNPNWYDRDRFVLSAGHGSALLYALIHLSGYDLSLDELTNFRQWDSKTPGHPEYGHTPGVETTTGPLGQGFANGIGMAMSERFLSKKYNKSNLNVVDHHVYGIVSDGDLMEGIASEAASLAGHLNLGKLIYLYDDNNITIDGSTDLAFTEDVVKRFESYNWHVQSVDDGNNIDLIDMAIETAKKDNRPSLIKVKTIIGYGSPNQGTSSVHGSPLGDEGLKQAKKNLDWDYNEKFYIPKESKNHFSAINNGEKNENKWNQLFYQYGNEFPDLKNQYENAMKGIFPINWKDSLPNFNQADGPLATRSASGKVLNSLAESIDNLFGGSADLEPSNNSYQKNKKVFNKQNFDGNNIHYGVREHAMASIANGMAVHGGVVPYVATFLIFSDYMRGAIRLSALMGIKVIYIFTHDSIGVGEDGPTHQPIEQTMSLRLIPGLTVIRPADANETTDAWKIALENDGPTAILLTRQKLPIINLDAVNRSKEGLNWIEKQEERPDLILLGCGSEVALAINARDELIKEQISAQVVSIPSWELFKGTGFGDNDIPIITIEAGTTIGWSQFYSGKKGESIGIDRFGASAPGNIVMEKLGLSVKNIVTIAKKLLNK;locus_tag=LOCUS_08800;note=WP_011142294.1 transketolase (Gloeobacter violaceus PCC 7421) [pid:54.8%25%2C q_cov:99.4%25%2C s_cov:98.2%25%2C Eval:3.0e-209],MGA_890
sequence10	MetaGeneAnnotator	CDS	16317	17342	.	+	0	ID=MGA_891;product=Holliday junction ATP-dependent DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q650B4;translation=MTNENIINPTSQDDDFNLDQSLRPSSFNEFIGQNEVIENLKLYIDASQKRSESLDHVLLFGPPGLGKTTLAQIISKELNVGLKQTSGPVMERAADLAGILTNLKDKDVLFIDEVHRINKVVEEYLYSAMEDYGLDILIDKGPSARSVRLNIEPFTLIGATTRLGSLTSPMRDRFGVVLRLDFYNDENLMEIIKRSAKILSVEIDSEGAKELASRSRGTPRIANRILRRTRDYADIKANGKINKKIAMKSLSKLGIDEYGLDNMDRDILSALVEKFSGGPVGLNSLSVAISEDSQTIEDVYEPFLIKEGFIKRTARGRVAEIKAFDYLGIEFKNKQQILFNN;locus_tag=LOCUS_08810;gene=ruvB;EC_number=3.6.4.12;note=Q650B4 Holliday junction ATP-dependent DNA helicase RuvB (Bacteroides fragilis YCH46) [pid:57.2%25%2C q_cov:97.4%25%2C s_cov:96.5%25%2C Eval:1.4e-107],MGA_891
sequence10	MetaGeneAnnotator	CDS	17352	18407	.	+	0	ID=MGA_892;product=S-adenosylmethionine:tRNA ribosyltransferase-isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCU4;translation=MLFEKRVKLRLNDFDYKLPKSRIAQEPWPRRDHSKLMVLNKKDQTIEHKKFHNLPDYVKKNDLVILNETKVFPARLFAIKDRTDAKVEVFLLRELENDLWEVLVKPARKVRIGNKLHFTDNVHCDVIDNTVSGGRVVRFEYENEDFYNIIDRIGHAPLPPYIGREDTEKDKERYQTVFASNRGAVAAPTAGLHFTDSVIKKITDKGAKIGKIVLHIGLGTFRPVQVEDLTRHTMDSEYFHVPPETALMINETRERGKNIFAVGTSSVRALETVVVSGFQVTPKRGWTDKFIFPPYDFKMTDAIITNFHQPKSTLLMLLCAFTEREFLFNAYKEALKKDYRFLSYGDAMIIK;locus_tag=LOCUS_08820;gene=queA-2;EC_number=2.4.99.17;note=Q8KCU4 S-adenosylmethionine:tRNA ribosyltransferase-isomerase (Chlorobium tepidum TLS) [pid:51.9%25%2C q_cov:97.4%25%2C s_cov:99.7%25%2C Eval:4.2e-102],MGA_892
sequence10	MetaGeneAnnotator	CDS	18414	19103	.	+	0	ID=MGA_893;product=2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8R6H2;translation=MKNAGIILAGGSGSRFDSTLSTKKQFIEFDGEPLFFKSLRCFDASKQFDEIIISLPKDDLEYYKKSVINLSLSSKLDFVEGGETRQKSVLNAFKKIKDFFDVVVIHDSVRPFIQMKWINKLIELTNQFDGAIIAVPSSDTIKISKDKKKITKTLDRDKIWFAQTPQSFKVSILKKAFEYSSDNNFESTDESGLVEKIGGIVALVLGNNFNIKLTNKEDLLIAQAILKTL;locus_tag=LOCUS_08830;gene=ispD;EC_number=2.7.7.60;note=Q8R6H2 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:39.8%25%2C q_cov:93.4%25%2C s_cov:92.2%25%2C Eval:1.3e-35],MGA_893
sequence10	MetaGeneAnnotator	CDS	19100	19573	.	+	0	ID=MGA_894;product=2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97LX0;translation=MIRTGIGYDAHQLGYDYPLIIGGVKIPSKKGSIGHSDGDVLSHSIVDAMLGSLSLGDIGKYFPSSEQKWKDKSSLFFLKKANQLIIDKGYKINNIDSTIILQEPKISNYVHKIIKKISSEIHIPSDNVSVKLTTKDMLGFHKNSSGIEALAIITVSN;locus_tag=LOCUS_08840;gene=ispF;EC_number=4.6.1.12;note=Q97LX0 2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase (Clostridium acetobutylicum ATCC 824) [pid:51.0%25%2C q_cov:96.2%25%2C s_cov:97.4%25%2C Eval:3.2e-37],MGA_894
sequence10	MetaGeneAnnotator	CDS	19800	20447	.	+	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKFPQISPVSIDLSKNIPIGSGLGGGSSNCASVMLGLSRLFSLNINLTLLKEIASKLGSDISFFFDGGTQLGQGFGGDLKKISLPKINYILILLPDINISTSWAFNNLKNSLYEESIKSKFSDIHRLKFKWKSMQKFFENDFESIVFRTYPRIGDLKKKLLQNGASYASLSGSGSTVFGIFDDFKTVLNAERKINQIKTHLVKPIKHKKIFEY;locus_tag=LOCUS_08850;note=B5YG57 4-diphosphocytidyl-2-C-methyl-D-erythritol kinase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:34.1%25%2C q_cov:81.4%25%2C s_cov:62.8%25%2C Eval:2.0e-22%2C partial hit],MGA_895
sequence10	Aragorn:1.2.38	tRNA	20461	20533	.	+	.	ID=Aragorn_16;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_16
sequence10	Aragorn:1.2.38	tRNA	20546	20619	.	+	.	ID=Aragorn_17;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_17
sequence10	MetaGeneAnnotator	CDS	20636	21568	.	+	0	ID=MGA_896;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S4D0;translation=MKIFSGRSNNILANEIAKNLNVKIGKSTFRQFADGELWFKYEENIRGQDVFVIQSTHPPAENILELVLMIDAAVRASADRVTAVIPYYGYARQDRKDQPRVPISARSMMDILASVGASRVLAMDLHSAQIQGFTHLPFDHLYARKIILKHLKKLQPNSKDTVILAPDVGRAPMAQSYAKHLGVGFALIDKRRIEPNKAKVLHMIGNLESKKVIILDDMIDTAGSMINAAETAMENGAKSVVSVATHGLFSDDAIDQIMKSSIEKVIVANTVQLSEKKYFEKLEIISVAPLFANAIANIHSGESVSALFNV;locus_tag=LOCUS_08860;gene=prs;EC_number=2.7.6.1;note=Q2S4D0 ribose-phosphate pyrophosphokinase (Salinibacter ruber DSM 13855) [pid:51.0%25%2C q_cov:98.7%25%2C s_cov:94.4%25%2C Eval:1.5e-84],MGA_896
sequence10	MetaGeneAnnotator	CDS	21580	22224	.	+	0	ID=MGA_897;product=50S ribosomal protein L25;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q837L6;translation=MAEFKIELNERKELGNKSSKYLRNNDMVPGIFYSSSEKPFPFYIEKKHMYDALRSSSRVYSININEKALYAIFKEIQYHPVSEEIIHIDLYGVSLKDKINLSIPIVLNGESPGVKMGGMMTQTLLELEVSCPASKVPESIEIDISTLELGSILHVSDLEFDDFEIITSDDATIVSVQVPKEEQDEELETEEEIDGKSSDEEENKSPENEGSEQN;locus_tag=LOCUS_08870;gene=rplY;note=Q837L6 50S ribosomal protein L25 (Enterococcus faecalis V583) [pid:30.3%25%2C q_cov:80.4%25%2C s_cov:86.6%25%2C Eval:5.3e-20],MGA_897
sequence10	MetaGeneAnnotator	CDS	22202	22771	.	+	0	ID=MGA_898;product=peptidyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YG54;translation=MKEANKIKTFVGLGNFDSKYSNTKHNAGYWIVDELSKRFSEKFQTSRQSYVYAINKKYNIVLIKPTTGMNLSGIAVKQVCNKWKISPSNIFVILDDIDLPLGSIRIKPEGGDGCHKGLESVLNHMGTKKIPRIRFGIAASDQIRPSEKYVLKPFRKKDENSVSQMIYQTADAIQFLIDNGIQKTMNKFN;locus_tag=LOCUS_08880;gene=pth;EC_number=3.1.1.29;note=B5YG54 peptidyl-tRNA hydrolase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:41.0%25%2C q_cov:94.7%25%2C s_cov:96.8%25%2C Eval:1.9e-33],MGA_898
sequence10	MetaGeneAnnotator	CDS	22771	24966	.	+	0	ID=MGA_899;product=putative K(+)-stimulated pyrophosphate-energized sodium pump;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RIS7;translation=MIDLKSNYVFIFIILSCILGLIYSFLKSRWILNQDQGNNEIKSIASSIQEGAMTFLKVEYRVLSIFVLVVSFLLGYLALNNNESSILISLSFIIGAFTSGLSGYIGMWIATHSNSRTSNAARKNLSSALKIAFTGGSVMGLSVVGLAVLGLSLLFLLYENIFTNDYNKILKILSGFSLGASSIALFARVGGGIYTKAADVGADLVGKVEENIPEDHPLNPATIADNVGDNVGDVAGMGADLFESFIGSIIGSMVLGATILYMGNFELSFVLLPLIIASSGIIASIIGALIVSWMTNSVKLNKSQGKKFDDINNPHKSLNTGIMTSSFIMALFLFFEIKYLLPNSFELNGVSYSSFGIFVAALIGLFAGLGIGFITEFYTGMNTPSTKKIASQSVTGAATNVISGLGIGMQSTAVPILIIASSIILAFHFAGLYGIAIAALGMLANTGIQLAIDAYGPISDNAGGIAQMSGLPDEVRKRTDKLDAVGNTTAAIGKGFAIGSAALTALALFAAFMVQTEINTIDISKPTVMAGLFVGGMLPFLFSALAMNAVGNAAMSMIKEVRRQFNEIPELKFALKLFSKGNISSWNEKDKAVYYLGIKRAEYGKCVEISTNAAIKEMILPSLLAIASPIIIGFIFGPETLGGLLAGVTVTGVLLAIFQSNSGGAWDNAKKMIEDGIDLDGKKFSKGSEAHKASVVGDTVGDPFKDTSGPSINILIKLMSVVSLVIAPFIS;locus_tag=LOCUS_08890;gene=hppA1;EC_number=3.6.1.1;note=Q2RIS7 putative K(+)-stimulated pyrophosphate-energized sodium pump (Moorella thermoacetica ATCC 39073) [pid:48.1%25%2C q_cov:97.7%25%2C s_cov:98.4%25%2C Eval:1.9e-167],MGA_899
sequence10	MetaGeneAnnotator	CDS	24982	25395	.	+	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYYETIYVVHPDFEDSRLDEIKSNVDKHIKKNCDEIINSYVWGKRRLAYDINKISYGTYIIVHYSVKKPFIKELNSWMKIQENILANMTIRLEEQPTAKEDNKDSVAKSVELKNNVKKNDSNEENIKDKKELEVKE;locus_tag=LOCUS_08900;note=Q6HAG2 30S ribosomal protein S6 ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:35.4%25%2C q_cov:70.1%25%2C s_cov:100.0%25%2C Eval:1.2e-11%2C partial hit],MGA_900
sequence10	MetaGeneAnnotator	CDS	25399	25629	.	+	0	ID=MGA_901;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q181R4;translation=MSVIGRGNVCKFCEDKSISIDYKNVKIIKKFVNEQGKIIPGRVTGVCAKCQRQLTKAIKRARNIALMSYTGDSFSA;locus_tag=LOCUS_08910;gene=rpsR;note=Q181R4 30S ribosomal protein S18 (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:59.4%25%2C q_cov:84.2%25%2C s_cov:85.3%25%2C Eval:4.4e-17],MGA_901
sequence10	MetaGeneAnnotator	CDS	25641	26087	.	+	0	ID=MGA_902;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YIM4;translation=MQVIIRKKIEKLGDIGDIINVKDGYARNYLLPRGYVVKATPGNIKEVELIKSQIKKRNDKKINNQKELAKKISQLKINIPVKVGEDNQIFGSVTSANISEYLIEKGFEVNKKSIKLDDPIKSLGIHNVILKLDDGIESTLKVYVIKEI;locus_tag=LOCUS_08920;gene=rplI;note=B5YIM4 50S ribosomal protein L9 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:42.2%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:3.5e-29],MGA_902
sequence10	MetaGeneAnnotator	CDS	26106	28331	.	+	0	ID=MGA_903;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I4T9;translation=MYVNISFPISSWKVFIYKVPIDLQSQIKIGSLVSAPLGRRSKVEGIVIDILSKNNFKGKIQSIISVNSNLITDSSMWNLIKWVSSYYFSPVGQVMKAVIPKGVTNQPKLKKNIYVTINDFNKKTLIDIKPSAKQQLKIISYLKTKGGNVSLNDLKKESIQALSICKKLEKKNIVKIITKYSEPNFRDLQIKRIKKKINLNDEQKNVVKKIQLSINKNKYKGFLLKGVTGSGKTEVYIHLADYLNKIGKTSIILLPEISLTPQIAGRFSSVFGKKVAIWHSKMKSNERVWIWNQIRKGKIAVVVGTRSAIFTPLPNIGLIIVDEEHDSSFKQENSSPKYNSRDLALVRAKYNDCIALLAGATPSMESYYNQKEKKLSLLEINKRYGKSKNPIINLVDMNLERKNNENQNSIFSQLLIDSIAEKIDKKEQVILLQNRRGFSILNCNECQEVVMCGQCQIPLTFHKSKNLLICHYCSFKQKIYTKCSKCNNNLSFLGVGTQKIEEALIKLFPTVLIKRMDFDSTRKAGEHSKILDDFLKNKFNILLGTQMIAKGLDFPNVTLVGVINADMNLFIPDFRAGEKTFQLLYQVAGRTGRGEKPGKVVIQTNNPNDVSIFCASTLNLNKYYSTCLNERKELMYPPYSRITKIEFSGKFEKTLINIGEKIVNEIPANLKWLEVIGPNPCPIFTLRGKKRYQIILKSSKKMDLNGRLLHDLIRKNLFDKINFYNKKNLQISIDVDPNNLL;locus_tag=LOCUS_08930;gene=priA;EC_number=3.6.4.-;note=A5I4T9 primosomal protein N' (Clostridium botulinum A str. ATCC 3502) [pid:38.8%25%2C q_cov:98.4%25%2C s_cov:97.7%25%2C Eval:8.3e-139],MGA_903
sequence10	MetaGeneAnnotator	CDS	28341	29237	.	+	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIITYLFMSSIIFSQSAFQSIQIIYDSKSLGLSGVGISNSRSDESEFQNPSLLSSNNKKLKLSFIQYPANINSHFFNYTMKFKNLYFSGHYKGINFGNFQRYDKDGIGLGEFSARDNSFGISVANSLSENSDLGISLSLFQSRIDNLSSILGLITIGGNVNFPSSKFSIGGVVRNIGLVFDHYTTHEEIIPSSAGIGLSKKLEYLPLTIYSDILWWESRTILKFGGEFLINKNFQLQIGTSSNKNNFNTDLVWRNIFSGFSSGFIYNTGKHSIGMSLLNNGIAGILIGIGFSANLN;locus_tag=LOCUS_08940;note=MGA_904
sequence10	MetaGeneAnnotator	CDS	29234	30586	.	+	0	ID=MGA_905;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082217.1;translation=MKSSKNKNSKLDDFINNPNKSLWDLAIPMMFGMMVQTIYSLVDMIFVGMVGSNSLTALAFNLPILFFGMGLVFGLGSGVTAVIAQYIGSNDLEKANNSAQQSIYMGLIIGFILTFVGLVFGKEILKFLGTPLNILPLAWNYFRIIVSAYVFIVMSIFFRSIFSGEGDMKTPMIVGGFGTILNIILDPIFIFYFNMGVEGAALATVVSQIFVSLIFTYLLLIKKYSFIKISLSLYKFSFKILLKIIKIGLPASFSMIIMSVGGASFNRILVEFSSDAVAAFQIGIRLDHVFLIPAISISTSVVTLVGMFYGAKKFNLVKQITFYAIRSTVLIGIIIGFLFFVFSDNIVSVFSDNINIQKISSQYLRYFVFGYPFVAISMISGRAMQGLGKGIPMLILTLLRVLVISLAFSFFFVFFLNKSIEWVWISQVISVIFSSFIAWLWLKYVFKKKI;locus_tag=LOCUS_08950;note=WP_004082217.1 MATE family efflux transporter (Thermotoga maritima MSB8) [pid:32.0%25%2C q_cov:95.8%25%2C s_cov:94.3%25%2C Eval:4.1e-55],MGA_905
sequence10	MetaGeneAnnotator	CDS	30597	31166	.	+	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVGINQFVRRQTKGSGKTYSDQLSFEEIAEHAEKQILNGKYKNGYRDGVIIVSVSNELIKNFVCPFVKIKNNTKLFANFVRRSPGEDPYIQICALNGKLLITGKVNLVLYSNEVLKENKENSTNCEWELISILSIPKGINEIPMGPVTMMRNQLNLKGGTKGNYSSADWAKSVKFWQNYAVLKSLIN;locus_tag=LOCUS_08960;note=MGA_906
sequence10	MetaGeneAnnotator	CDS	31261	32400	.	+	0	ID=MGA_907;product=NAD(P) transhydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001020567.1;translation=MVSLSVLKELVKIEKRAALVPESVKKLTKIGVSVLIEEGTGVEAGFKPEDYINAGAKLTSNREEILESNLILGVRLDLLDDKELDKLNKSILIGFFNPFNNIKNIDLLASKNFTSFSMELIPRISRAQRMDALSAMSSAAGYKAVLLAANSLNKFFPLMMTAAGTISPSKILIIGAGVAGLQAIATAKRLGAQVKAFDTRPIVKEQVESLGAEFIELETTDDAETSGGYAEEMSDDFYKHEQEIIAKYLSDSDVVITTAQIFGKKSPLLITGSMVESMRSGSVIVDLAAENGGNCSFTELNKTVVKNGVIIHGFTDLPSTLSYHASEMLSRNISALLFEIIKDGEVKLDLEDEIISSTLLTHKGKIVNQYVKKMIEKEK;locus_tag=LOCUS_08970;gene=pntA;note=WP_001020567.1 NAD(P) transhydrogenase subunit alpha (Leptospira interrogans serovar Lai str. 56601) [pid:48.2%25%2C q_cov:96.3%25%2C s_cov:93.6%25%2C Eval:7.7e-89],MGA_907
sequence10	MetaGeneAnnotator	CDS	32403	32708	.	+	0	ID=MGA_908;product=pyridine nucleotide transhydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056542.1;translation=MSSDILFQLYIFILAIFVGFEVITKVPPTLHTPLMSGSNAISGITIVGAIIASGSKKIIIESFFGDIDLTAILGFIAIIFATINVVGGFLVTNRMLRMFKK;locus_tag=LOCUS_08980;note=WP_011056542.1 pyridine nucleotide transhydrogenase subunit alpha (Thermosynechococcus elongatus BP-1) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:5.7e-28],MGA_908
sequence10	MetaGeneAnnotator	CDS	32713	34104	.	+	0	ID=MGA_909;product=NAD(P) transhydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DL03;translation=MIQSLIIPVLYLLSGVFFIVGLKLLSHPKTAPRGNSIAAIGMLIAIIATLLNNQILSYELIFSGIIIGGLIGSFAARRVEMTSMPQLVALFNGFGGGASLLVASAEFYRIQNNIEEFIFFAILLSIFIGGLTLTGSIVAFGKLQGIIKGSAIKFRGQNFINALLFLTIIVSGFLAILGNFEFSTVIIVSICISLLLGYLGVIPIGGADMPVVISLLNSFSGLAAATTGFVLLNNSLIISGSLVGASGIILTNIMCKGMNRTIWNVLFTGLGSNSSSNQSVAKNAENKIAKSYEPEDTVVIFENAKNIIVVPGYGMAVAQAQQIVSELEKVLESKGSNVKYAIHPVAGRMPGHMNVLLAEANVSYDKLFDLDDINPEFEQADIAIVIGANDVVNPAARNDQSSPLYGMPILDVDKAQTVFVLKRSMNPGFAGIENELFFNDNSIMLFGDAKETISRLVSELKQS;locus_tag=LOCUS_08990;gene=pntB;EC_number=1.6.1.2;note=Q8DL03 NAD(P) transhydrogenase subunit beta (Thermosynechococcus elongatus BP-1) [pid:54.7%25%2C q_cov:97.4%25%2C s_cov:97.2%25%2C Eval:5.6e-132],MGA_909
sequence10	MetaGeneAnnotator	CDS	34110	34829	.	-	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIFVILTIISLAFSQEKEFPTWTSYGKIGIGELNGPGGVGFIRLKRVNKNTFNDIRFLSIIQSKSSFITARYKSSNKIEVFPSIYRFTVTSLRRNSVSGLNIRYHYNQGFGAFIFDKPNNHLTSEIAFSYDMSDYLNDTRKTSYLKYGFFWDINFSKIFMNLDFEYFTQISDLLPNEVLSNRYEVSSKINYQLNKFLNLTFGIEYEKYIFKEFIINKNETYNSFYLGIGFKEILKWKL;locus_tag=LOCUS_09000;note=MGA_910
sequence10	MetaGeneAnnotator	CDS	34833	35597	.	-	0	ID=MGA_911;product=transport permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87LU8;translation=MINWVGFSTLTYREISRFFSVWRQTIIPGLITSGLYMIIFGLTLQKRITEIDGVSYTIYILPGLIMMNVITNALNNTASSMLQMKLLQQMQDMLITPLSNFEMAIAFIIGGTVRGFINGVLVLLLGVFLVQMPVEKPILVLFLLFIVSWAFSSAGLLVGILSETWDNIATILNFFVTPLIFLGGVFYSIDMLPSFWREISLINPIYYVINGLRYSILNIGDTSFSISIIITIFMTILFTSISIWLFKIGYRIKN;locus_tag=LOCUS_09010;note=Q87LU8 transport permease protein (Vibrio parahaemolyticus RIMD 2210633) [pid:35.5%25%2C q_cov:98.8%25%2C s_cov:98.0%25%2C Eval:9.0e-47],MGA_911
sequence10	MetaGeneAnnotator	CDS	35590	36525	.	-	0	ID=MGA_912;product=multidrug ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013095616.1;translation=MELAIKIKDLKKSYKNTLALDGIDLEIKPGQFYGLLGPNGAGKTTTIGIITGLVKLQEGSVSIFGKDIIKDFRFTRSKIGVSPQDFNSDWFFSIEKLLLFQAGYYGIPSSKAKHIVDDIMKKLGIYEKRKNKIRTLSGGMKRRFQIAKALVNDPDILIMDEPTAGVDVELRHMLWDYLKEMHQNGKTILLTTHYIEEAEKLCDYVSIINEGKIVSEGKPEELIQSVGKGSIEVDLNVIDKSKLDYLESFKYTFSSKENINKLIFSVNNPEKSLPKIIDILIKNNCQLNNVKILKPNLEDVFVSLTGRKIND;locus_tag=LOCUS_09020;note=WP_013095616.1 multidrug ABC transporter ATP-binding protein (Enterobacter cloacae subsp. cloacae ATCC 13047) [pid:39.7%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:3.0e-61],MGA_912
sequence10	MetaGeneAnnotator	CDS	36567	37427	.	-	0	ID=MGA_913;product=sugar kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011704730.1;translation=MNRLGIDIGGTKIEAVVLDSNDNILIRTRVPTERANGYEHILNQLSKLHFKIKNHLGDKFYFGVSVPGPLNNNGDMLKKSNTIVMIDKPIKKDLEQIFSCEPILENDANCFAQAETSLGAAKNKKIVFGVILGTGVGGGITINGKVFSGLNNIAGEWGHSVLFSNGKKCHCGNSGCVEQYLSGPSLEKYYFDLTKKKAIVTDIAKQPPQDWKNYFLNNFGMALGNVINIIDPEVIVLGGGLSKVDFLYTEGPKWIEKFTFSKNIKTPLLKNKMGDSAGVFGAAFLQ;locus_tag=LOCUS_09030;note=WP_011704730.1 sugar kinase (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:43.4%25%2C q_cov:99.3%25%2C s_cov:95.8%25%2C Eval:4.1e-62],MGA_913
sequence10	MetaGeneAnnotator	CDS	37424	39418	.	-	0	ID=MGA_914;product=DNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74ER9;translation=MNILEKINSLKEKINFHNRKYYVDDDPEISDQEYDLLFRELEKLERDNPQFKTLDSPTIRVGSLPKNTFETIEHSTPMLSLENAMNKNEILAFDERVKKGLKTEKEIEYVTELKYDGLAVELIYENGIFILGSTRGDGLRGENITQNLRTIKSIPLKLLGSNFPEIVEIRGEVLMEKNSFKKLNEERLKANETSFANPRNAAAGSLRQLDSSVTSKRKLIFFAYELAGNYNLKHDKILKKIKNWGLPTNKNTQICNNIKEAILYTEKWEVKKNSLDYEIDGVVIKVNDPEQRSTLGIRSRSPRWALAGKFKSQQVSTTILNIVPSLGRTGTITPVAKLKPVKVGGVTVTNATLHNQDEINRKDIRIGDTVLIQRAGEVIPEVIKVITQKRPENSKQYFLPKNCPICNYTTIKLDNESALRCNNYNCDAQVKARIKHFVSKRCLDIDGLGEKLIDQLVDKKIINNFSHIFSLNHEQLSNLDRMADKSAKNIISAINSKKNIPMWRFIHGLGIANIGEHLSHVLSNEFSLKELSKSSSDELIQINEIGPTVAEAIEKFFKNAKNQTIINNCFDSGLKIIEKDNDKNKFNLLNEDIFVFTGTLKSISRAKAQELVEKNGGKISSSISNKTSYLVFGENPGSKINKAKDLNIKIIDEKKFFELIQREV;locus_tag=LOCUS_09040;gene=ligA;EC_number=6.5.1.2;note=Q74ER9 DNA ligase (Geobacter sulfurreducens PCA) [pid:44.8%25%2C q_cov:98.9%25%2C s_cov:98.7%25%2C Eval:1.6e-162],MGA_914
sequence10	MetaGeneAnnotator	CDS	39424	39867	.	-	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIFKIFVLFLLLSIEVFPQNLSFFEKVFPLESKLLHKTPNPFFQGRPYFLEVFSDIPYDSLESINFYFKTNESKNFREEKLKFFKGRYRFKYDPKIYPGEKIYYFFIAKIKNSGMYAFPINDQGILKPIELKLIDPIEYYKERTP;locus_tag=LOCUS_09050;note=MGA_915
sequence10	MetaGeneAnnotator	CDS	39907	40377	.	-	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFKNSLLIIGLINLLIINNSFGQISRTKFSNEQIVAMTGSYLKKMPGSPDYLGAKVYVDSKLGKTYQIHLKVNRSRENEGLGFAFDAMLGLEPYFKIPPKTFIAVLHSDSRSSPPVICKGDAKCAIKHFVEQSINYDDWYNNCINFQKSNSFPDS;locus_tag=LOCUS_09060;note=MGA_916
sequence10	MetaGeneAnnotator	CDS	40382	41518	.	-	0	ID=MGA_917;product=S-layer protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545470.1;translation=MYKFNSNLIIVPILLSIFACGPQVTSQSDVDTPEYHYKAGMRYLDDENYESAIKSFQRSVDLDKKFAEGYAGLGLAYGLTGDLKTGRKNMDTALKTNKKNPEIRVLSGRLWIAHKNENQRWLTRSLDEFKAALKLDDEFEAAFFWRGMAYMQNYDFSLADAEFRVLVEKKGTFAGRADKMWALSQKIVRAQPGTTAGKKIALKTKISRADMTVLFIEELKLTELFERFMPSNNTPTFQTPSQLMGTSNFNLPSDVNNNWASGWIEEAIKLGVVEPDPDGNFYPSEPVTRAGYARAVAKILTMVTRDESLETRYFGENPSRFSDVSSSHFAYPAMALCSERGIMKADLVTGGFKPNGNVGGADALLIIRSVQTSLRVTF;locus_tag=LOCUS_09070;note=WP_012545470.1 S-layer protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:30.0%25%2C q_cov:97.6%25%2C s_cov:98.3%25%2C Eval:1.1e-34],MGA_917
sequence10	MetaGeneAnnotator	CDS	41717	42841	.	+	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKIYLIFSVLFFNCVLFSQSSNISAEGFGMTEDAAIEQAKRAAVEIGIGTVMSSETVVKNSVLFSDNIFAKSTGFVKTFTVTDKFQGPDGLWTITIDAVVTEIIDEILQDELAVQTLLNAMNRPKIIFMIKEQNLIDNTPTDFAETQLIKMFYDKGFDVVDRQLVQALKGESDYTQALSGDVSAASKIASMLGADIIVIGTAKISSGGVIGAGNFQMTSGQADLNGKIVRADTGELLAIVPQARGKKPHISPSTAGINAANEASSILGSDIIGQLIKKWSTQQSNAVNVFLVVENVNFSSYMALGNHLKSQMIPGIQSAFEKGFNDGVAEFQILYEGKSQDLAMALMQNQSADASIEVTGLSGNRISAQISQ;locus_tag=LOCUS_09080;note=MGA_918
sequence10	MetaGeneAnnotator	CDS	42853	43746	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQFKKVIIFMFISCSLINAQGWGWGANDAVEPAENGALNYSNGFIVATGIGAISPLAQNPGMARATAVRAAKVDAMRNLLETVMAVTVTSETTVRGAAIENDLVKTKVEGMVKGARIKDIDGDGRGSSSDIRYLSDSSIELEMEVHMSGISEIIMPAVGFAPPAVSSTPGLPAPPAAPSAPQPGNITGLIIDARGLGVRPAMSPKVLDQNGSTVYGPGNFTREFAVKFGVAGYSKNLEQAQVDPRVTGNPLVVKGIGIQGQNKTDIVIASNDVNKVKTADMNGKFLSNCKVMILID;locus_tag=LOCUS_09090;note=WP_002674553.1 hypothetical protein (Treponema denticola ATCC 35405) [pid:31.6%25%2C q_cov:41.1%25%2C s_cov:30.3%25%2C Eval:1.7e-10%2C partial hit],MGA_919
sequence10	MetaGeneAnnotator	CDS	43788	44408	.	+	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRHVLIFAFFFMLSATTINAQNKDENVKPEITQLKVGDIAPKFALRTLDGKYEMLTRWSGEQLSRPASQPTRHIVLVSFFATWCQPCMKELPLLENLWQKYQKDEVRIFLIDITDATRSVPQYADAPKPGPFLKERGLTMPLLLDTYGKAMETYVPDRVLPRLFVLDKYRQIKLIKRGFHEGEDFEGELSKVIDELLKQDGEKKS;locus_tag=LOCUS_09100;note=WP_012256824.1 alkyl hydroperoxide reductase (Chloroflexus aurantiacus J-10-fl) [pid:26.7%25%2C q_cov:97.1%25%2C s_cov:64.5%25%2C Eval:3.0e-09%2C partial hit],MGA_920
sequence10	MetaGeneAnnotator	CDS	44475	45161	.	+	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMIQRLFLTIFTIILLPIGLIAQDKMFLSVLDLEGRGISALEAGSLTDRLRSELSTTNAVTIVERGQMQEVLDEQGFQQTGCVSSECAVEVGKLLGVSHMVTGSIGKLGTTFTLDVRIFSVQDGGIVNTVSKSYQGPIDGLLTQIEMTAWELIGLTPPAGRFPDAAPAQVAASEPAKPEKVKKKGGGRRTLMLLVLAAAGGGGYYAYSEGMFDSGSDVLPEPPALP;locus_tag=LOCUS_09110;note=MGA_921
sequence11	MetaGeneAnnotator	CDS	344	1336	.	-	0	ID=MGA_924;product=UPF0365 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DZW4;translation=MDYLPIISVIVVILFISLILYFVPLGLWVQSVVSLGLGKISIIDLIRMRLRKIPPRLIVDSIINMQQAGLTKINAGMMETHFLAGGNVANVSNSLIAADKANIPLDFTTCTAIDLAGRDVKGAVETSVYPKVIDAPVSGTLAAVAKDGIEVKARARVTVRTNIPGLVGGATDETIIARVGEGIVSAIGSSESYKTVLENPDSISKFVLEKGLDAGTAFEILSIDIADVDVGKNVGAHLEADQAEADLKVAQAKAETRRAMAIAEEQEKTALVEEMRAKVVEAEAQVPQAMADAFRSGNLGIMDYYSMKNIKADTDMRSSISEGNDQNKEN;locus_tag=LOCUS_09120;note=B8DZW4 UPF0365 protein (Dictyoglomus turgidum DSM 6724) [pid:62.1%25%2C q_cov:96.1%25%2C s_cov:94.8%25%2C Eval:7.7e-103],MGA_924
sequence11	MetaGeneAnnotator	CDS	1345	2697	.	-	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583133.1;translation=MNYCKTLILTFITFISFLKCDTVYRVPIQSTIDLGLPNYIQRSIEEAVNDSANAIVFDLNTFGGRVDGATQIKDEILNSPILTVAFINKRAISAGALISLSCDKIYMTSGATIGAATAVDMSGNKGSEKVISYMREEMASTAESNGRNSEIARGMVDEDLYFEYLFINGDSIFVDDIEGRKEGKLISLTTNQAIKYSIADGKAETFQDVLEQINLENSKIIDFSINWVESMRRFLTDPTVSSLLMTLGFLGLLFEIQSPGWGIPGSIGILSLLLFFGSTIDTGLATGPELIIIGIGILLLLLEFFIIPGFGLLGISGLIVILGGLFMLLIPENPLTNDYNSASWAFAISTIGSILSIFLIFRLLSKTKFWEKLTLQTIQKSSEGYNTSIGLESFVGKLGFATSDLRPSGWAEFESKKLFVVTEGEFVDRKEKVQILSVDGNRIVVRKTNN;locus_tag=LOCUS_09130;note=WP_012583133.1 hypothetical protein (Dictyoglomus turgidum DSM 6724) [pid:32.4%25%2C q_cov:98.4%25%2C s_cov:98.1%25%2C Eval:4.5e-54],MGA_925
sequence11	MetaGeneAnnotator	CDS	2740	3597	.	+	0	ID=MGA_926;product=lipid A biosynthesis lauroyl acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002858051.1;translation=MKTIKYFITIVSLNTFQIFTLILNPSLRSILGKLIGKLFFYVLKKRKEVAYLQLKKSFPKKTNKEIIKILKKTHTHFGQMFLDVLCSQKIIKNENIKIINEEVLLSLKSNNQGFILLTGHLGNWEIIPAWMSKNKFNVKTVTQNQKNKGAQFFFNNLRKQNDINPVSIHYSSNKMINFLKNGNTLILASDQDAGKKGEFVNFFGRKASTPRGASVFYKKTKCKVIAAFCLKKKFKYSIEFIIIEPNKNYTSIMHQFTELLEKKIKGEPHQYLWFHRRWKTKNEKY;locus_tag=LOCUS_09140;gene=htrB;EC_number=2.3.1.-;note=WP_002858051.1 lipid A biosynthesis lauroyl acyltransferase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:25.2%25%2C q_cov:94.0%25%2C s_cov:92.9%25%2C Eval:1.3e-23],MGA_926
sequence11	MetaGeneAnnotator	CDS	3584	4150	.	+	0	ID=MGA_927;product=threonylcarbamoyl-AMP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963025.1;translation=MKNIDKLNELIIQAVDVLKNGGVIVYPTDTIYGFGVDSENDIAVKKLIDIKGRPGPWSIAVSDKNMLESYGFVPDYHKQFCENKLPGPNTLIFKSINKNISKYLLGPNNSIGIRIPNHNIPNKITKLLGRGITSTSVNKTNTKPINDPKKINEKFFDEVDLIIDDGKINNSNPSNIFSVTNKKIIQIR;locus_tag=LOCUS_09150;note=WP_011963025.1 threonylcarbamoyl-AMP synthase (Flavobacterium psychrophilum JIP02/86) [pid:38.2%25%2C q_cov:88.3%25%2C s_cov:83.0%25%2C Eval:4.1e-20],MGA_927
sequence11	MetaGeneAnnotator	CDS	4147	4833	.	+	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPFIILFFLSNIFSQKNIQFNNGEEIFYNVNLNFISVGSAKMSINKIENDSDNYFFSFLLKTNKIWDKIFPIRDTVKAWIDTKEFYTQKFQKIIIEPNYKTNLDVTFNYEKNFYSSNNKKIDISQKVRDPYSFFYFLRTRNIKIYDEFLFNIFDNNKIYKVKLSILKEERIDSNIGKFNCFLAEAIKLDENKSIMKIWMTNDNKKIPIKIISNANFGTLNMLISDIN;locus_tag=LOCUS_09160;note=MGA_928
sequence11	MetaGeneAnnotator	CDS	4830	6005	.	-	0	ID=MGA_929;product=zinc metalloprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YI08;translation=MFTTILAMIFVLGVLVFIHELGHFIAARSIGVKVEEFSVGFPPKLISFTPSESGIIFKFYFFGKDEKGKIKWKSIFESKINSKKYSTSTEYSLSIIPLGGYVKVAGFIDESFDSNVTGASDELNSKTKLQQIWFMSGGIIMNILLAIIFFSGITMIQGISVQNDEPIIREVSIGYPADLAGIKSGDRILEVENVSIDKWSEATTIIKENVDGDIQIKWISDEVIKNALIPTKEAKVPDGNEIKEVRIIGVQGGFEIRKANFFESIYSGFDRTIFWLKMIVQSLAMIFSGNASFNDIGGPILIAQLAGDSARAGIISLLSFTAIISVNLAFMNLLPIPGLDGGHILLTSVEFITRRSISTKVKMFIQQIGVALLLLLMALVMFNDISRLLTG;locus_tag=LOCUS_09170;EC_number=3.4.24.-;note=B5YI08 zinc metalloprotease (Thermodesulfovibrio yellowstonii DSM 11347) [pid:34.1%25%2C q_cov:98.7%25%2C s_cov:98.0%25%2C Eval:9.7e-50],MGA_929
sequence11	MetaGeneAnnotator	CDS	6022	7167	.	-	0	ID=MGA_930;product=1-deoxy-D-xylulose 5-phosphate reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q185R8;translation=MKEIGILGSTGSIGLNTLNVINNLSDFKIKYLSANKNIDLLIEQANKFQPEIICIGDDNLYKKLKTNLSNKFEILCGRDALLYIAGIENIDICVNAIVGGPGMEPTIKALEAGVDVALSNKESMVMAGGIINDICKKTGAKIFPVDSEHSAIWQCLIGEKIKNVKRLILTASGGPFREKSLSDFNSITVDEALNHPTWKMGKKITIDSATMMNKGFEVIEAFWLFKIDYDKIEIVIHPQSIIHSMVEFIDGSIKSQMGRPTMKIPIQFALTYPDRLNSSMGIVNDFSKMENLTFELPDLNKYPSIDLAYNALKKGGTSCASINLSNDITVDLFLKNKISFNEIYQLNNEVYKSHNWKKNPSVSDLYDLEVWINDFLKSLIK;locus_tag=LOCUS_09180;gene=dxr;EC_number=1.1.1.267;note=Q185R8 1-deoxy-D-xylulose 5-phosphate reductoisomerase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:46.6%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.7e-97],MGA_930
sequence11	MetaGeneAnnotator	CDS	7172	7684	.	-	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIREFVTINRGTIESGKTIIGNKSYLMASTHVAHDCIIGESVIMSNLATLGGHVEIDDKVIISGGVLVHQFCKIGCYSFIGGGYRVVQDVPPFIMAAGEPLKYSGINSIGLRRNGYSINTRKIIKEAYRLLFREKISREKAVSQIKNTFPDNPEVKKIISFIENSTRGLI;locus_tag=LOCUS_09190;note=B5YHC0 acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:49.1%25%2C q_cov:98.8%25%2C s_cov:65.5%25%2C Eval:5.6e-44%2C partial hit],MGA_931
sequence11	MetaGeneAnnotator	CDS	7948	9342	.	-	0	ID=MGA_932;product=bifunctional enzyme LpxC/FabZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KBX0;translation=MAKQQTIKKPVSCSGIGLHTGVESTITFKPSKDNSGIRFIRTDIDGSPEIKADIEHVADISRGTTLAQNGTRIHTVEHVLAALTGLRIDNVLMELTNKEPPVMDGSSKDFVEVLKKAGIVQQSHAREYLEIDKAVTYNDPVKKTDISVLPSDRYRLTCITDYKHPLLGTQYLTIHSIDSFIDEIAPARTFSFLSEVEHLREDGLVQGGRLDNAIVIIDKDIDSNEINRLKKLFKIKDDINIGKNGILNGVKLRFENEPVRHKALDVIGDLALLGMPIKGHIIAARPGHEANVGIVRNIKKEYAKKILQKKYQAEISSNYLFDISAIKKILPHRYPFLLIDRILDMEPGVNLTAIKNVSISEPFFQGHFPDQPVMPGVLIIEAMAQAGGFLLLHTTDEPEKKIMYFSGIESARFRKQVLPGDQIYFKLDLLKLKLGTCKLHGKAFVNNQLVAECTFITTLGDRKE;locus_tag=LOCUS_09200;gene=lpxC/fabZ;EC_number=3.5.1.108,4.2.1.59;note=Q8KBX0 bifunctional enzyme LpxC/FabZ (Chlorobium tepidum TLS) [pid:48.7%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:6.9e-130],MGA_932
sequence11	MetaGeneAnnotator	CDS	9335	10357	.	-	0	ID=MGA_933;product=UDP-3-O-acylglucosamine N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E017;translation=MATLSELSELVKGKLVGDPLIEINGVSEIENSKVGTISFFHLSKYKKYLSKSKASAILVDDEKNLNGFNGIVSKNPLIALSKILNFFENSIVIKKGIHPTAIIDSTCKIDKSIYIGPYSIIEKNVQIGKNVFIDSFCQINENSIIGDNSKINSSVMIYPKSIIGNNSIIHSGTVIGCDGFGYATENDVNYKIPQIGNVIIEDDVEIGSNCVIDRGTLGSTVIGKNTKLDNLVHIAHNVKIGKGCFLTAQTAVAGSSIIEDFVSFGGRASVSGHITVGTRAKLAAKSGVTKSLAGNQTYAGMPARKISEKNKVDASLNLLPEFFDKIKELNKKIKKIEENG;locus_tag=LOCUS_09210;gene=lpxD;EC_number=2.3.1.-;note=B8E017 UDP-3-O-acylglucosamine N-acyltransferase (Dictyoglomus turgidum DSM 6724) [pid:39.8%25%2C q_cov:94.4%25%2C s_cov:97.0%25%2C Eval:2.7e-58],MGA_933
sequence11	MetaGeneAnnotator	CDS	10365	10901	.	-	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFYKKSILLIFSFLLPVFSFAQIEIGFVQSERIRAEYEEFKEAESELQLEFRKVQFEFQTMAQRLDSLKSAFETQRLMSSPERRREQEAEIVNLETQVNDFQTQKVGPQGELYQKQLQLETRIIQKVQRAVNKVAIDKGYDYILDSVSLLYGKPTHNLTDDVLYELRRLTEESTNSN;locus_tag=LOCUS_09220;note=MGA_934
sequence11	MetaGeneAnnotator	CDS	10954	13245	.	-	0	ID=MGA_935;product=outer membrane protein assembly factor BamA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931958.1;translation=MVKGNNLTTSSVIKYTSGLVEGQKVVPGDFGKSVKKLWATGFFSNIEINLERETLNGIDLIIIVEETPILGEIIFKGDKKKRNEIEGELDLNTGQRILPHIVKESEEKIKKILSESGFINCSVVGSLSESKIENVSDLTFKIKLGQKVKIKDIVFINNSSFKKNKLRKTFKETKLQRSFMFWRSSFEKQKFNNDKILLSQFYQNNGFKDFRIISDSIAYKKDGKHMILILDLYEGNKYYFRDFSWDGNKLYTNDQLDNALNMKKGDVYNAEQFENIVNENVHGLYMDKGYIYSNITPEYNPIDQDSLDVNFVIVENHQVSVRRLNITGNDKTRENVIRREMKLIPGQVFNRELLMRSAREIFILNYFADVRPDVVPVDDDEIDILVTVEEKSSDQANANLGYSAEYGLMGGAGVQFNNFRGKGQQLALNISQGVQGNMQRSFGYGINSRAAQYRSTSFSFTDPMVNDRPILLGFSVFYYLRGQNRYYYSIPFDREMAGASIRVGTRLKWPDNYFRAVWTLSTSQKTYKGNPEDLAAYGLEGVRNSVGLSISQTITRDSRNHPEFPSQGSSFNWTSTLSGGPLSSQVLPVHENFHKHTLKFNWFTNPFWKLALVSSWQFGAIKELVPKHTDNTLVPIDEKFIMGGSGIPYGTLLRGYQDNTVGPYNNYPMGGRAMIKYMTELRVPFSENPTVYGLIFAEFGNNWLYLTEMDPFDLKKSAGFGIRMFMPMIGMLGFDLGYGFDNIEYTQRDPEGWRFHVLFGMPF;locus_tag=LOCUS_09230;note=WP_010931958.1 outer membrane protein assembly factor BamA (Chlorobium tepidum TLS) [pid:33.2%25%2C q_cov:99.7%25%2C s_cov:91.5%25%2C Eval:2.6e-103],MGA_935
sequence11	MetaGeneAnnotator	CDS	13344	14087	.	-	0	ID=MGA_936;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I4K8;translation=MNSKKNKILSSKKIPKHIAIIMDGNGRWASNKNLPRIAGHKEGINSVKEITQECGELGVKFLTLFTFSIENWRRPKIEVSALMNLLVDTIKYEINELMKNNVRLHVIGRIMELPEKPRVEMMKGIKKTKNNSGLNLVLALNYSGRTEILDAVKKMKSDIEKNIINSEITEKTFSEYLYTKKIPDPDLVIRTSGESRISNFLLWQMAYSEIIITETHWPAFRANELYNSILDYQSRERRFGKVSKQIR;locus_tag=LOCUS_09240;gene=uppS;EC_number=2.5.1.-;note=A5I4K8 isoprenyl transferase (Clostridium botulinum A str. ATCC 3502) [pid:56.6%25%2C q_cov:94.7%25%2C s_cov:93.3%25%2C Eval:2.5e-70],MGA_936
sequence11	MetaGeneAnnotator	CDS	14116	14523	.	-	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLSKKCDSCNNVYSSTISSKKIKCDKCKEERFLFHSENLIFKRCSFCNSKEFYKRKDFNQKLGCLFVVIGSLLLPFTYGISLVVVLIIDIIFYKYVDEVIVCYKCKMEFRGFKKIPKSIKLFDHHTAELYDKY;locus_tag=LOCUS_09250;note=MGA_937
sequence11	MetaGeneAnnotator	CDS	14524	15294	.	-	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTALLIITLLSFSSTLPVFLLFTRNYTTIKVHNLVLSISSTIAIFINLLLIESNISNNIFYLFLLWVFCLVFITIISWKHKNINLISILLISMLGIGNFILISFALINISFQDFPILIFGGLILSNSCFSLIVGHSYLDDVDLPILLIKNINKMFFVMVILRSILDLIVVLFYDVQVFNYSIPIYEFIFGYEGIFLWTAFFFGIIFPIFLSFLTHKTINIESTLSATGLLYVLVVCIFMSSLIFNYYAIQFKIFL;locus_tag=LOCUS_09260;note=MGA_938
sequence11	MetaGeneAnnotator	CDS	15307	16422	.	-	0	ID=MGA_939;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902811.1;translation=MDSKKTLELLKKIKYPGFSRDIVSFGIVDDLQIDKNNLKLSLKLSSVSESVKNEIIDSIKNILNGFFDNISFEIVGEKKQQAQTIGSELIPNVKNTIAVASGKGGVGKSTVAVNIATDLMLKGFKVGILDLDIYGPSLPILLNVNQKPNMTENNKLVPLEKHNMKIMSFGFLSGNDSPVIWRGPMVARMTEQFFRDVEWGDLDYLILDLPPGTGDIQLTLVQKLKLTGAVIVTTPQDMALSDVRKGADMFAKVNTPVIGVIENMSGLVISGKITNDNINFKNKSKLILSETNQEFEINENGNFEFEIDLFKKGGGKLESDRLNVPLLGQVPISFELMKTSDGGTPINIKNNNSKISTIFSSIVDKIIVSNQ;locus_tag=LOCUS_09270;note=WP_010902811.1 ATP-binding protein (Halobacterium salinarum NRC-1) [pid:40.3%25%2C q_cov:93.0%25%2C s_cov:90.1%25%2C Eval:9.5e-68],MGA_939
sequence11	MetaGeneAnnotator	CDS	16467	16769	.	-	0	ID=MGA_940;product=4Fe-4S ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257426.1;translation=MTYIIAEPCVGVCDTACVEVCPVDCIHGPEDTKGAGAEVKAEGFVADNKQLYIDPEECIDCGACEPECPVEAIFEEDEVPEEWSKFIPLNYKFFGQEPPE;locus_tag=LOCUS_09280;note=WP_012257426.1 4Fe-4S ferredoxin (Chloroflexus aurantiacus J-10-fl) [pid:55.3%25%2C q_cov:94.0%25%2C s_cov:97.4%25%2C Eval:2.0e-25],MGA_940
sequence11	MetaGeneAnnotator	CDS	16926	17252	.	+	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNQYDHFKTVPETSEEPGKKKKKPKLMAVVDEDNCTGCQVCVPFCPVDCIEPVNYEKYEIPIPPVQVRFNECIGCQICAKVCTKLTWDAIRMIPTKEFEDEYGIDVG;locus_tag=LOCUS_09290;note=MGA_941
sequence11	MetaGeneAnnotator	CDS	17254	17925	.	-	0	ID=MGA_942;product=ATP-dependent protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011336781.1;translation=MSKMDFKLNNFSGKAPVFPLPETVFFPKTFLPLNIFEDRYKKMLVDSLKNEKTICISLLKPGFENNYEKNPKINLIGCLGRIEIKNDTPTGTYNILLSGLKKVKINEIKSKKEYRVAELEVINEIYGDENLDLLKEKVFRAFERMSIDNDYPKIPDEFKELIDFEMAVNFLVSYLPIDIIQKQKLLELDDISLRAKILVQFMDTSLGKFETGDINTLGDLRFN;locus_tag=LOCUS_09300;note=WP_011336781.1 ATP-dependent protease (Rhodobacter sphaeroides 2.4.1) [pid:30.6%25%2C q_cov:85.7%25%2C s_cov:86.9%25%2C Eval:1.6e-14],MGA_942
sequence11	MetaGeneAnnotator	CDS	17928	18236	.	-	0	ID=MGA_943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDWVLIDCDLDDLQLNGKVLKFKNKTIALFKDNKNLMAFGNRCPHRGGSIGNGTLKNGIISCPWHNWKFDPKTGKAIENEIHCLKTYPIEKRNDGVYIKLK;locus_tag=LOCUS_09310;note=WP_011730645.1 pyruvate oxidase (Mycobacterium smegmatis str. MC2 155) [pid:50.0%25%2C q_cov:72.5%25%2C s_cov:11.4%25%2C Eval:1.0e-16%2C partial hit],MGA_943
sequence11	MetaGeneAnnotator	CDS	18233	19144	.	-	0	ID=MGA_944;product=epoxyqueuosine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H1G2;translation=MLKLTKNIKNKAYELGFQKIGIAKPDFYSRDSERLNKWLTLGYHGKMNWMKKRVNERENIYTYFPEAKSIISLGLNYFHGKSTNEFKISNYAWGKDYHDIIKKKLIKLTEFIKLNKKNVKALICVDTSPIMEKSWAQKAGIGWIGKHTNLITRDYGSWIFLAEIILDIDLIFDPIFEDDLCGSCTACIDHCPTNAIVDEYVLDSRKCISYLTIEHRGDFPVEYQGNLDSWIYGCDICQEVCPWNEKFSQKSIEDDFKPNPEILKKKKKDWKNLTLDEYKKIFKGSPVKRTKYSGLKRNISKNL;locus_tag=LOCUS_09320;gene=queG;EC_number=1.17.99.6;note=A6H1G2 epoxyqueuosine reductase (Flavobacterium psychrophilum JIP02/86) [pid:46.0%25%2C q_cov:98.3%25%2C s_cov:96.8%25%2C Eval:1.1e-73],MGA_944
sequence11	MetaGeneAnnotator	CDS	19153	19920	.	-	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKLVFIILFTFLFVEAQEQLYPPPTSLITIPTAGSLTRGSFSASMRMQKDGGLLNSLSVGFSDRFMFGLSLGASNLIGDKKPIPNPRPELMFKYRIIDESLRLPALSLGVDSQGFGKYNEADSVRRYDVKGYGLYLVSSKNWKSILGNLGLHFGVNYNLTENTDQDDDLNLFTGFDIEFNPELSFLIEYNAALNQNNMTAETISLSNGGFLNAGVRFSIFQNLHLDLHFNNLLFDNEKVDYYNREVKINYIEYF;locus_tag=LOCUS_09330;note=MGA_945
sequence11	MetaGeneAnnotator	CDS	19975	20139	.	-	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDDSLFVNLYEINDELVRFNEKNSNEILSLQLIKIKEVIDRNGEIVYPILKY;locus_tag=LOCUS_09340;note=MGA_946
sequence11	MetaGeneAnnotator	CDS	20392	20916	.	-	0	ID=MGA_947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLILLPLFLFAQDFEFIRYYKNEKDFKNDVRIDLIKASKISHIQALYSKNQILSKIYFDENFKEISSEVYDYDNEKSLFRTVFYKKNIIFKMSIFGKEKMSDVFIKYAFNKFNNDDFSNRITNYYFNDKNKIERYEFLSSNNSKLGEIKFTYFDEGLIQSEKWINSLSGKNI;locus_tag=LOCUS_09350;note=MGA_947
sequence11	MetaGeneAnnotator	CDS	20919	22001	.	-	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKIIKIFFYNFFLLMFLLICFEIFFGNWFKEESIQNLNIIYNRKINYNLRGIYEWNDDKIVYSRDKWGLRGNYPSTNRINILTVGGSTTDQHYISDGHTFQDIMQNRFRKNNKEVFIVNAGVDGQSTYGHILNFRDWFPKISGLKVDYVLFYVGINDFYIEHKNSYDDLILQDENLKTLIKSKSVLYDLYRLIQGLISANAYGLNHNLSNEINEFSFSNWVSNPYLNNHFDLMEDKLKSYEIRLNILCDETYKIGAKPIFVSQSSRRTYDYLNGKIIGIPFLENLDGHKINGLDYRVMIKMMNASLKKVSNNRDAIFIDLENELEFDLKNDFYDNSHNTPLGSKKIGNYLYEKTKDLF;locus_tag=LOCUS_09360;note=MGA_948
sequence11	MetaGeneAnnotator	CDS	22008	22892	.	-	0	ID=MGA_949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLLVIFLLLNQYFAIGTSFLKIPFNSKSFSLSEAGVAFTNNPSLYRLNPALLYSNDKEMNAYISYNSWLLDAKGHSLIIVQPFTKNYTLGLGIKSLSIDNLEFRNDIPTSEPLSYFSNNGTSFELVLARNKNQFQFGASIKYIGIESYIFRSQGFATDVGLIYNLDSYNLSIGASLINLGFMNEFNSNIPKLPTKGSLGLKFQPILKNSKIKFTSLSSIDLFESNKIAYRFGNQFSINNIHLMSGMYLYKDNFSISGGFEIEKSKIAISYAFNLSNHDLGIPHIFQVKIVIP;locus_tag=LOCUS_09370;note=MGA_949
sequence11	MetaGeneAnnotator	CDS	22892	23830	.	-	0	ID=MGA_950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIFLIIIVLFLNNSIVECKGIGGHSGSFLRLGSTAYSMSAGGGFTAVMDPGFPGYHNPASLGFLTNRSGSVLNHLLSLDRYLVSASFSTPLQPTAGIGIGIINAGVNNIDGRDASGAPTGSFSTNEYGILVGFSNRVSDKISLGINIKVFFQNLPFDGNLNSRGTGIDAGMLFKQSKNFDLGLSIKNINASYTWNTSNILLENGSTYEDIFPMEISLGFVSRSNQYDIIGDYTFFRSINSINSNRIRIGGEFKPTNKIFLRAGINDLSPAVGIGLEYSLLKKDDANIDYAFLLGSVGEGISHIFTYTLNF;locus_tag=LOCUS_09380;note=MGA_950
sequence11	MetaGeneAnnotator	CDS	23827	25479	.	-	0	ID=MGA_951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403702.1;translation=MIKIYFYILISFSTLLSQIVPLRFLEETSSLDEIQEGLKSNVIVEIKTSINPTDSIIWLGTGKGLSYQLDSLGGNSNFRTFNVSNNLTNGTKSTYLPSGGVSAIAIAGKKINPTTGNDTLIVSVANSKDGESVGAGIVIGNFSRKSPTNPIEWEFFEQPIDNQDDSTLNWGGLEISALPVTVFENNITYDLSVGKEYYWAASWAGGLRRLKKQNEGNSIRNWERVPLPDDNRSSFNCGEFYENYQLNPRDPPDGNHNHKVFSVLVYSDTIWVGTANGINRGIIDRSSTNNCINWKHYSFPNDGISGNWVISIAKQQWNGKTTIWAVTRSANEVGENSGVSYSRNDGETWSNINSLMDQYGYNIVVQDSLVYFASRNGLWKSIDGENFALYDPAIDKLRNDQIIDNDVFSVLHDTRNYYSNQLWIGSADGLGRLHTPGFNAPIWQIYRSNYSSNKPYAYPNPFSPSIHNLMNGDGYLRFYYKVKQSDLIKLTIYNFAMQKVREIDYFRGIGQGSLKWDGRDDSGYLVSNGTYFCKLFYDNTSHWVKVVLVK;locus_tag=LOCUS_09390;note=WP_011403702.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:26.5%25%2C q_cov:78.2%25%2C s_cov:91.1%25%2C Eval:3.7e-32],MGA_951
sequence11	MetaGeneAnnotator	CDS	25476	26291	.	-	0	ID=MGA_952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYKKYKLIIFGIFILYFQCSSPTQTLDEVDPIKSIDFNYLQNDEEIYLATELKNPFNGLSLRYVRLAWHGQTNFSSPGDSFVLADSGKSGDILKGDNIFAVSKKLSSITLNPISLSDTNKIYIKVIAHYENGNSFIDSSKFSLGNLWPLFTSFELPETVTRPSESGSAKLINIKVGVDDPNGLDDIQWVGFLSYKNENNELTPLNNGNYVFLDDSGDTLHYGDETANDGIFSGLLQLPYNATTGNLDWKFRVQDRNGAFRDSIKKIEVLP;locus_tag=LOCUS_09400;note=MGA_952
sequence11	MetaGeneAnnotator	CDS	26315	27202	.	-	0	ID=MGA_953;product=glutamine cyclotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005797516.1;translation=MKLLLLLLLKSIIFANEPILFDEKRAFSYLEKQCDFGPRVPGSKAHMQGKDHIVKTIASSADNVIEQSFMHSFVYTGKIIKLTNIIAQFNPEIDERIWIAAHWDSRPWADLDKDLSKRNIPILGANDGASGVAVLLEIANQLKVKSPNIGIDLIFIDGEDIGKSGELQHYFIGSRYLSKNIPTKFPKYCILIDMIGDKNLEIPIEGYSYKQYPDLVNLIWSQAETMGFSVFKNEISSFVQDDHVILYNVGGIPSINIIDFDYEYWHTLEDTPDKCSPESLGVIGKLLLNHIYLIN;locus_tag=LOCUS_09410;note=WP_005797516.1 glutamine cyclotransferase (Bacteroides fragilis YCH46) [pid:37.7%25%2C q_cov:92.2%25%2C s_cov:86.2%25%2C Eval:1.2e-48],MGA_953
sequence11	MetaGeneAnnotator	CDS	27206	33562	.	-	0	ID=MGA_954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPSKYIIVCGAQMFQIVWPFVRIVVINLFFFSSFLKSFQDESSDSLHFNKEVFLLPYSQFSVYPFPEFINSSIFFQFNSQLKNNILKPNFQIFDRWVDFSDSRNNITFYETMNGRYEKIPFQMTLEYYFNQKLKINRLNNFKRIQDIDSNEISQTVSGDGLELVAIDTRLGRASLTVNGNVNLSGKLVFQDQELTRSNFRESQTTHFEFDETQQVIVQGKVGDRINVDLNYNSERDFDFENNIKINYKGTEDEIFQTLEAGNISLSLPSTQFVTFSGQSKGLFGVKSTMKLGPVDITSIASIERTKKDKQKFNAGSESQGQTVPDYNFRGNQYFFVDKTFRNGGLLLNENGDILTGSSGVLSLPGFYPLKDGKHIIGNVVIDDIEIYKSVGAAAGSGTIYGLAYVEPNFSSQTNKWSELDEEFSKDTEGSFFTRLIRNQDYIVSEDLGYIRMTTPVQNEILAISYSLKERGQEEPFKVIGELSSTVTEGDTINLKLIKPLTPNPGHPTWPLEFKNVYYLGARNINPDGLNLEITYKNGSLGDNVRDEKSGKTFLNLFGLDSLDANGNLSPDDLIDRMNPNIINLVTGELFFPMLHPFEYLDKNLSSTFNEGNGSGELSEILPDSASLYRTINDQYIRNESQFDIKVEYQNKSATINLGGFTLVEGSEEVLLNNVMLIKDKDYVIDYFSGSLTLLTEAYNEPGADLEILFERNEIMSVDKKAMIGSRAQMDFGVDNRSFIGATALFYDQSVINEKVEVGYEPIRNFIWDINGKHSFELDGLTRVINKLPIIQTDQPSSVDIEGEIAQVLPNPNHINNKATGDTKGVSYIDDFEGSKRTTHLPIRRRFWSKSSSPLDKNPLLRSDLFWYNPWTQVVTQDIWPNQQTSLRAQNQLTDILVLNYSRRDNHNQNFVNPDSSWASITSSLYSSDYNQTQSKFFEVWLLTDQNTQSKMTVDLGFISEDQNGNGVFDTEDKPVGGLLTGNTLLEDEEDVGLDGCSDEYEDGYGGCLDGITYEQALENPFYSDLIYSGDDIDQSDPNNDNWSFNESTAEGSEKYKNINGTEGNGTSDRPLEGARYPDTEDINRDGNFDSKNDYFTSTFDLNEFSTDWEKYNAGYNITNMGKWRLYRIPLNEFKKARANGSITWDTIKFIRLTLSGSSYEDNVKIAKAEIVANQWQELGVKEKNSISYDESDTSFAVTVINTEDNIEYARSVEEIGVQGEYDQLNGIQLKEQSLVLKFENLLPGHEGAAQKNIMELKGERAQSYLMYEKMKMFIYGNSDNINEENTDLEFFIKFGRSNDYYEIRYPIYSGWDKVRKRNNLDLDLNFLTSLKKKNDDYKKFSENDIFKITDSSRVYVQIDENNNDSLRTYTINGDPALSRIQYFIVGVKNKNNLNPISGQIWLDELRLSQVRKDAGNAMRVQSRIGIADIATSTISYSRKNGDFHVLQERLGTGNTEGKFRSDTRFQLHKFLPSKWGVKVPVNFSYSKNISTPKYLPGTDIRLLHQEAPDSVVNKGDQFNFNTSFSKGNRSNNWLARNTIDKIKFNFSTGRSKSSNVQVFERLNQTNTGGLGYNFNFGRDNFFTPFKNFNKIPIIGKKFSNTRFYYTPSTFDLNLKASEVINNNIPRIGESKSVYNLGLDRNFRLGYKILENLNSNYSKVIKSDLDHYRNNYLKAINKIDPGIVTDINENITTSFSPVIATWFRPNFNINSNYRWAKPIESTQEGARITSQGRFSTSLNITPKAIIEIFYKPTSTSITKKSRSRGRGRTKDNSEDISNEKKQKQNQKVIDPRTKKLFEFFHSTATRINPISLTYGNNRTENGFGVLGIPSLAYRFGFQNQHNLNYSDEVGVNTGSTQSQKDYSIRSGIALTRLINTSFGFSRNKSTNIDGSQIKTETETSDFIPIGIMGDEGFAFPGWSFRFGGVEKFPFIKKIARTATIEHVFNGKQTKSWKNEDLQTSKYTSSFSPLAGISLSTKGGVTLSSRYAIVSTIDNRYGGINSTRFKKDNTLTASSNYAYRGGINIPLPFFRDFTFNNTINFTLTFDYSNSVTKERNDIQYDLSTTDIRKSWKLSPRISYTFGKNITGGIWYEYRESQSKIIGRKVDRDFGFDVNVPIQG;locus_tag=LOCUS_09420;note=WP_011964220.1 cell surface protein SprA (Flavobacterium psychrophilum JIP02/86) [pid:22.6%25%2C q_cov:72.6%25%2C s_cov:71.7%25%2C Eval:4.6e-95%2C partial hit],MGA_954
sequence11	MetaGeneAnnotator	CDS	33626	34231	.	-	0	ID=MGA_955;product=non-canonical purine NTP pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHP2;translation=MKIIIATRNEHKAKELKQLLNCDGLNLIALSEIDPKNKINEVEETGSTLIENAYLKAQEIHDKIGLPCIADDSGLEVDCLNGDPGVFSARYAGKDCSVEDNINKLLFKVKDFSSDEKTASFKTVLAYVDKKLKFDVTGKVNGFISQEQIGNNGFGYDPIFIVKELRKTYASLSSHQKSKISHRAEAVRNILVKFREFDIIK;locus_tag=LOCUS_09430;EC_number=3.6.1.9;note=B5YHP2 non-canonical purine NTP pyrophosphatase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:46.7%25%2C q_cov:96.5%25%2C s_cov:95.6%25%2C Eval:3.8e-38],MGA_955
sequence11	MetaGeneAnnotator	CDS	34262	35443	.	+	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKKTFIILTTHFPPSKGGGIQEWSYGIAKELSLKNYLVKVYSRRKDNKLSIHQNEKFSVTRMKGRNWHQFHFIYSLYYLFKILIYDSNSTIIATTWLLSKPYVFLKKIFPKSKMIIVCHGLEVTSLKKNKMKIFENVIKASNLVICVSNFTKNAVLKHCENLTNKNHIQFIPNGIDPKKFSFKTTNGNILKDYNIDSKSVIITTLSRVIRRKGHDLVIKSIKKLIKIYPKIHYVIAGHYKPGNEDNYKEELIKLINNLGLNKNVTFINYVPEDKIINLYSRSNIFIMVSKLLPSGDSEGFGITFLEANFCGSPVIGSRSGGIADAIEHEVSGLLVEENNVDSICHAIDRILKDKSLREKLIINGKKRVLENFTWSKITDKIIEKLNYNEKF;locus_tag=LOCUS_09440;note=WP_011390839.1 glycosyl transferase family 1 (Rhodospirillum rubrum ATCC 11170) [pid:26.4%25%2C q_cov:69.0%25%2C s_cov:34.2%25%2C Eval:7.3e-21%2C partial hit],MGA_956
sequence11	MetaGeneAnnotator	CDS	35430	36344	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFKNRLNTFINYLVKNYSMKSLDDEILFCTVTNDEFFPGTAVMLYSMKKHLKSFNSNHIRIFFDNNISPLSHENQALLKSLSSNIELIEINDKIYRNAICKYEKHRLAYLTIEAFNQNDFSKIVFFDGDMLTLDNFSNSINFSFPVFGSKDGKFKNSKGPRFKWKSINTGLFGFDSKKIPSSTYLDLKEMVKKRNDPNSELLDQKMINNYFSQNKISQLLIHHYNNFRDYGASGNGSEEFFKNKLNKIKILHYSGYEIRPKPWEISIVKQKKLNTHFAYQLWLNYANDLINEIPSFSKILEK;locus_tag=LOCUS_09450;note=MGA_957
sequence12	MetaGeneAnnotator	CDS	211	1545	.	-	0	ID=MGA_959;product=serine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088454.1;translation=MYNSLKTIICIFIVTSILFSQRENEVFKYVDPLKVDMNVIHLQKIDDLIKDRIAKGEVAGTVALVIKDQSIVYEKAFGFADIKNQKKMNKNTIFTLASMSKLMTTVGALILHDKGMFFMDTELADILPEFSNPDVFVSYNKNNGKIKTRKATEPILMKHLFTHTSGIPYPIFVDDNFGRDVYLKSGVQSAFPDFSITLEENIKKLSKLPLFHEPGETYTYGLNMDVLGRVIEVLDGRPFSKFMEDELFGPLKLEATGFGIDSSQWDRIASIYSYDEKGELILFKDLQDFPDSDQNELIKYPHLRFNHEHYKNDVNKIAMGGVDIMSTAYDYGKFLQMILNDGNMYGKQIISKKTARMIYKPLEVFYGGEFVIGLGVSVVQNEETSYSRVSNGTFGWGGYFFTECWADPEENMIGILMNQVAPSKDESFYNYFQHLVYSSLMTED;locus_tag=LOCUS_09460;note=WP_011088454.1 serine hydrolase (Bradyrhizobium diazoefficiens USDA 110) [pid:27.2%25%2C q_cov:89.9%25%2C s_cov:89.5%25%2C Eval:1.2e-35],MGA_959
sequence12	Aragorn:1.2.38	tRNA	1565	1639	.	-	.	ID=Aragorn_18;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_18
sequence12	MetaGeneAnnotator	CDS	1643	2506	.	-	0	ID=MGA_960;product=bifunctional protein FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q818R5;translation=MKKTLILSGVEVANHFYNSVPERIQLLLNKNIKPGLAVILIGSNPASKIYVRKKSEKFKDLGIHSETFSLPEKIQQNELLELIDSLNKDSRFTGILLQLPLPKHLDSNYLLNKIDPKKDVDGFHPENMGLLFSGNPRYIPCTPKGIIKILEYYNIITEQLHSVVIGRSNIVGKPIASLLSSRSDKGNSTVTICHSKTSNLSYFTQQADILIAAVGIPQKIKANMVKKSAIIIDVGINRDKNGKIVGDVDIDSVIDKVGAITPVPGGVGPMTIAMLVENTIESAEKLL;locus_tag=LOCUS_09470;gene=folD;EC_number=1.5.1.5,3.5.4.9;note=Q818R5 bifunctional protein FolD (Bacillus cereus ATCC 14579) [pid:48.4%25%2C q_cov:97.9%25%2C s_cov:96.9%25%2C Eval:4.4e-72],MGA_960
sequence12	MetaGeneAnnotator	CDS	2546	2845	.	-	0	ID=MGA_961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATDGNLARVSIFGHEYTVKAEADGSYIADVAKYVDQKMREVKEQLPSSQSTSRIAILAAMSITDDYFAEKTKMNNLVNEVEEKAQTLSEALDENIPVY;locus_tag=LOCUS_09480;note=MGA_961
sequence12	MetaGeneAnnotator	CDS	2845	3042	.	-	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTELPFLSSLEDKVKNAIVEIKRLRANETTVSTALNNSSNDDLKISIKKIIDLIENNEHFIGDK;locus_tag=LOCUS_09490;note=MGA_962
sequence12	MetaGeneAnnotator	CDS	3044	5062	.	-	0	ID=MGA_963;product=phenylalanine--tRNA ligase beta subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YG18;translation=MIISIEWLKEFIEFPFSDDELCEKLTILGLESSLEKKSRILDIELTPNRPDCMSYLGVAREVSLLINKKIKLPQISNNLIKSNTKKLNISSDSLIDCPRYSGVVVNDVNVSKSPNWLKDKLKKNNIQSINSIVDISNLVLLEFGHPIHIFDLDKLETKNINIRRALSKEKFLTLDGNNRVLNKNNLLICDSKTPIAIAGVMGGKHTEVTESTKNILIECAYFDPVCIRKSSKGLGLSTDASKRFERGVDFDDHDKVINRTLSLINDLTEKSLSNIEENDFYPQKIMLKEISFNKKKVSNQIGIELNDSFIKKTLIGLEINFSQKGDDYKCIIPSFRPDIERPIDLTEEFARVYGFDKIPNKFSYTSDLNSIFSDKEDYIDRLKSYFSSVGFNEIMSNSLINPEKEFFFPKKEYVEISNPLSLEMSSMRTNLITGLINSVSYNIRHGEKNLSFYEYGTVFEMIDNKRNEEFNFSGIITGKSIEKGWRQAESKNDFYLLKGCLANFLKYYNIDYSISKSNIHEFLNNEISFSKDDKVLFIIGQINKTILKKFKIDQEIFLFDSKLSTLSKLNYFSKYNNIPIYPSITRDLSLTVLKSLETENIISNIKKFGTDLLENIRLYDIYEGDQIDSNCKSVTFELTFRSVERTLVDVDVDEIMNKIILETSSTLNAKLR;locus_tag=LOCUS_09500;gene=pheT;EC_number=6.1.1.20;note=B5YG18 phenylalanine--tRNA ligase beta subunit (Thermodesulfovibrio yellowstonii DSM 11347) [pid:36.3%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:7.8e-112],MGA_963
sequence12	MetaGeneAnnotator	CDS	5062	6087	.	-	0	ID=MGA_964;product=phenylalanine--tRNA ligase alpha subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAM6;translation=MTLNNEIDNLIIEFNKNIKSIDSNDIDSLNDLKNKYLSRKGKLSDLFTKLGTVDSSERPIVGKKINDLKQSFSKSIQEIEKSFDSSTNKSSNDLIDLTLPGDSISYGTKHPITKTINEIKSIFSQIGFSVAYGPEIDDDYHNFEALNIPKHHPARDMQDTFYINTNDVLRTHTSNTQIHLMENSEPPIRVICPGRVYRNEAISIRSYCLFHQIEGLYINKNVSFSEMKGTIEYFCKQFFGEDVVARFRPSFFPFTEPSAEVDISCMMCKGKGCSMCKKTGWLEILGCGLVDPEVLKNVGYDPEIWSGYAWGMGIERMAILKYGIDDIRLFFNGNVKFLRQF;locus_tag=LOCUS_09510;gene=pheS;EC_number=6.1.1.20;note=Q8KAM6 phenylalanine--tRNA ligase alpha subunit (Chlorobium tepidum TLS) [pid:54.1%25%2C q_cov:91.8%25%2C s_cov:93.0%25%2C Eval:1.9e-99],MGA_964
sequence12	MetaGeneAnnotator	CDS	6105	6449	.	-	0	ID=MGA_965;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3EI08;translation=MPRATNSVARKKKHKKVLKQAKGYYGAASKLYRTAKQAVEKGLLYNYRDRRKRRIEFRALWIARINAAARMNGITYSKFISSLLKNNIQLDRKMLSELAVKDPNAFTKIVEDIK;locus_tag=LOCUS_09520;gene=rplT;note=A0A0H3EI08 50S ribosomal protein L20 (Escherichia coli O83:H1 str. NRG 857C) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:96.6%25%2C Eval:1.4e-31],MGA_965
sequence12	MetaGeneAnnotator	CDS	6459	6653	.	-	0	ID=MGA_966;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NGV2;translation=MPKMKTRSSATKRFKLTASGKIKKNKANKSHLLKGKSMDRKRSLRKGTEVSKADTGRVKSMIGK;locus_tag=LOCUS_09530;gene=rpmI;note=Q7NGV2 50S ribosomal protein L35 (Gloeobacter violaceus PCC 7421) [pid:55.2%25%2C q_cov:90.6%25%2C s_cov:89.2%25%2C Eval:3.7e-11],MGA_966
sequence12	MetaGeneAnnotator	CDS	6671	7126	.	-	0	ID=MGA_967;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O33567;translation=MIGATGEQLGIVSKSEALRLAENSGLDLVEVASKATPVVCKIMDFGKLKYDQKKKDQENKKKQHVIKVKEVRFRPRISDHDFEIKINQIKKFISEGSKVKITVMYRGREITRQDLGEQLFNKVSSSLSEVADIEKKGDLEGRRISIIMSPK;locus_tag=LOCUS_09540;gene=infC;note=O33567 translation initiation factor IF-3 (Rhodobacter sphaeroides 2.4.1) [pid:45.8%25%2C q_cov:100.0%25%2C s_cov:84.5%25%2C Eval:9.9e-38],MGA_967
sequence12	MetaGeneAnnotator	CDS	7171	9102	.	-	0	ID=MGA_968;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HIY8;translation=MNNFVVTFKDLSEKSYPSNLTFFDIISDKYKDISDVIAVKVNNNIKDLKSTINEDTSIELIRIQSIDSHEILLHSTAHLMAQAVKIIFPESKMTIGPPIENRFFYDFDVENPFSEKDLELIHNKMIELSNDNYPIERNVISRDEAIKIFKNNNESYKVEIIKELPLNEEITTYTQGDFVDLCRGPHVKSTGMIKNFKLLSTSGAYWRGDEKNKMLHRIYGTSFFNKKELKSYLQFIEEAKKRDHRKLGKNLSFFMFDSMSPGSPFFLPSGAIIYRELEGFIREIYKQNDFKEVITPQVFDIELWKKSGHWDLFQEFLYHVKVGEKEYSLKPMNCPGHTIIFSSELRSYRDLPYRIADFGRLHRFEKAGVISGLTRVRSFAQDDAHIFCTSDQIYEEMKVNIGMIKHVFDVFGFDKIKVELSLKPDKALGDPKLWDKSEAILRDILTEQKIDFTEEEGEGAFYGPKIDFRVKDALGRYHQLSTIQLDFNLPERFDLKYVAENGEYERPIMIHRAILGSLERFFGVYLEHTGGDLPLWLAPVQVIILPISEKFNDYAYEILEILNKNNMRVKVDTRSEKIGAKIRDAELNKINYMLIVGEKEFEKKEISIRQRFRGNIGQMKLDSLLSKLLDEVNNKRRNEKSQK;locus_tag=LOCUS_09550;gene=thrS;EC_number=6.1.1.3;note=Q6HIY8 threonine--tRNA ligase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:44.9%25%2C q_cov:98.1%25%2C s_cov:98.9%25%2C Eval:2.8e-172],MGA_968
sequence12	MetaGeneAnnotator	CDS	9242	10900	.	-	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIIIIILFCNVLIFPQQNSVGLISKTDDVSDGYILLNPISLKKTYLINNNGEKVHEWNSEYNSLISYLLPNGNLVRSIFLNNENFDAVGGSTGGIEILSWNGEVIWNYDLSTPNKMLHHDIEILPNGNILAISWKKIDLERMLNLGRDPELYFNHDGNIQEELWGEEIVEINPSNSEIVWKWNVFEHVVQNFNDTLENFNSVSENYQLIDINKGHTGDWLHFNSLDYNEYLDQILITSPFSNEIYIIDHSTTNLESSSHQGGNYEMGGDILYRWGNPLMYDMGDFDDQKLFFVHDAHWIDEEKGIIRFFNNGGGFRNFSTIETIQTPLNEDGKYDIDSSGVFLPFESIIDYNEESFNTFFSAGISGSQPLSNGNILICEGVKGKIFEIDNNKNIVWEYVNPVNNSGILNYNESPSRNPIFQVRKYPLDYGVLSEKELISYGPIESYNILSLDGDNKNNNQDIVIKNYPNPFNSSTKIDYFIKNSLNIEVSIYNILGKKIKNIHNQFLTKGSYSFNWDLKNDNGENVESGVYIFILESSDFIISHKMLLMK;locus_tag=LOCUS_09560;note=WP_005810317.1 thioredoxin (Desulfitobacterium hafniense Y51) [pid:23.8%25%2C q_cov:73.7%25%2C s_cov:83.7%25%2C Eval:1.1e-15%2C partial hit],MGA_969
sequence12	Aragorn:1.2.38	tRNA	10906	10980	.	-	.	ID=Aragorn_19;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_19
sequence12	MetaGeneAnnotator	CDS	11005	11955	.	-	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKTKISFNDCVDIYELNKNDLQSLADKKNIKELNKDFLINNIIPIVLYISKQLKENNVFKFYISGGQGSGKSTISDFIKFLLINHFNCKVASFSIDDIYLSKKQRIKLSNEVHPLLSTRGVPGTHDISLGLDTINSLESDADKISLIPKFSKKFDDLLPKSMWKKFEGTPEVIIFDGWCVGAIPEAAENLKTPINSLEREFDPNGIWVNWVNDNLSGIYQDLFNLFDLKIYIKSPSFEKILENRWLQEKTAIEMDKSRSKSKYMTKQEVYNFVMHFERITKDMEKYMPKNSDIVVERKNKLDFEIQKPDFLNFK;locus_tag=LOCUS_09570;note=WP_010920748.1 kinase (Caulobacter crescentus NA1000) [pid:37.9%25%2C q_cov:73.7%25%2C s_cov:77.3%25%2C Eval:3.0e-40%2C partial hit],MGA_970
sequence12	MetaGeneAnnotator	CDS	11960	13693	.	-	0	ID=MGA_971;product=sucrose phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288137.1;translation=MNAKDFNTKLLFLLKKVYKNNDFDLNQISSDILSILKPISISSNKKVVNVWDQKDVFLITYADSIIDSKESPLKSLYHFLTQFNPLINSIHILPFMPSSSDKGFSVKDYYQIDSNLGDWKDLSKISTKYNVMIDMVLNHASKKSQWFENFLNENGHGSDFFINVNNWNGVPQVVRPRTSELFQTVKTRSGEREVWCTFSHDQIDLDFRNPKVLIEFINIFNFYIQKNIKIFRLDAVAYIWKEENTNCINRPETHYLIKILRLVLDYLNEASVLITETNIPNKENLTYFGDKDEAHWIYNFTLAPLILFTLTKGDSSELRKWSMTMPPAKNGNAYFNFIASHDGIGLRPIEGYIEENEIVKLLDLMKSFGGKISYRTTQWGDKTPYEINISFFDSMRGTFDGEDEYLFQRFICAHTIMFAFEGVPAIYIHSLLGTKNNLNGIENGGENRIINRYQWNKDDLFKILDNSDSVNYKIYKKINELLEIRINQPAFHPNSTQFTLNLGNKIFGLWRQDLDRTQSIFCISNITNEKIKFPLSSINLIETEDWFDIITKNKISSINGKINMKPYETLWISNNVI;locus_tag=LOCUS_09580;EC_number=2.4.1.7;note=WP_002288137.1 sucrose phosphorylase (Enterococcus faecium DO) [pid:36.5%25%2C q_cov:97.1%25%2C s_cov:98.6%25%2C Eval:7.4e-108],MGA_971
sequence12	MetaGeneAnnotator	CDS	13703	14920	.	-	0	ID=MGA_972;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011118174.1;translation=MSDFHQNGIITTFHNFRTKNLDYIENELENFSKQRPMQLILPSLYSELSGSALPDIVNKLKKVKYLDQITIGLDNANEDEFNHAKNFFSQLPQKVRIIWHNGPNMKAVSNLLKENGLDESVPGKGRNVWYCMGYIYGLKNCEAVALHDCDILTYDRELLARLFYPIANPAYNFYFCKGYYSRIADGKMNGRVGRLLVTPLIKALKQMSSDYSPFLDFLSSFRYPLSGEFSFRRRLIRDVRIPYDWGLEVGMLSEIQRNFANNMVCQVDIADKYDHKHQDISFNDPEKGLSKMSIDISKTLIRKLASQGIGFNTDALRALKATYYRTALDYISTYSYDASMNDIDVDINKEEKNVELFAENIIKAGEQVLDKPMEMALMPSWSRVRSAIPFIYEKLIDAVENDNKK;locus_tag=LOCUS_09590;note=WP_011118174.1 glycosyl transferase (Rhodopirellula baltica SH 1) [pid:40.9%25%2C q_cov:98.8%25%2C s_cov:83.5%25%2C Eval:1.8e-86],MGA_972
sequence12	MetaGeneAnnotator	CDS	14931	15758	.	-	0	ID=MGA_973;product=mannosyl-3-phosphoglycerate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q32HI9;translation=MNKEIIIFSDLDGTLLNHKNFSFDEILVFFKKISKKTIIIPNTSKTFSEVKKICEDSFLKNPFIVENGSAIFIPINLKLTLTNKLQTQEGYYKLVLGSNLEDLIKFTNLEKCKKFISKCSFLYKMNIKELKESTGLSNSILMNSKKRDFSLPFLWNGTKELFEKFNFIVNSHNYKILKGGRFYHLIGNVDKGKALKLILKIYKNTFKKKFLSISLGDSPNDIAMLENTDYSGIVKAFSNKKLYLKKDKDVFYSSIVAPKGWEQVLKMMPPIKKIN;locus_tag=LOCUS_09600;gene=yedP;EC_number=3.1.3.70;note=Q32HI9 mannosyl-3-phosphoglycerate phosphatase (Shigella dysenteriae Sd197) [pid:25.5%25%2C q_cov:96.4%25%2C s_cov:96.3%25%2C Eval:1.5e-18],MGA_973
sequence12	MetaGeneAnnotator	CDS	15755	17434	.	-	0	ID=MGA_974;product=peptidase S41;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933908.1;translation=MKIFTSLINKIFSKKIIFSTLSLIILLSFAKSDLYKDVSSGWRDIYDVYKRININYSDNLDPEVLSKAAIDGMLSKLDPYSTYLIEDDNHNLNIITQGNYGGVGIQLGVRNDTLTVISPMDNSPAQKAGIISGDKIIKVDSLSTFEMRIDNAASKIRGPENTNVKLTILRWGSEIIEFHLTRSKINIKDISYSGLINAQTAYIRLNRFSRNSIKEMRSELSSFNNLEVENIIIDFRGNPGGLLDSAVDILDLIIQKGNLLVSISGRTERSQKKFFSQNDPIVNVNTKIAILIDGGSASASEIVAGTIQDLDRGVIIGSNSFGKGLVQTAFPIDSDRTLKITTAKYYIPSGRLIQKKGYIDENIKSKTSLSIENDSVFTTINGREVFSNGGISPDYFIEDKLDYGMLTKKIWQKGYFFQFATKLKNENPDLNFLQINDNIISDFKNFILSKNINLDTPMDDNLNLLKNNLKDEIESDISLKHSIDIISKYFEKNIEEMFDSEKDDIKLLLTRDIIWIFGGLEKRIESSFENDPVITKALNVFNDEKEYYSKLNTNSNSIK;locus_tag=LOCUS_09610;gene=ctpA-2;note=WP_010933908.1 peptidase S41 (Chlorobium tepidum TLS) [pid:35.4%25%2C q_cov:90.3%25%2C s_cov:89.0%25%2C Eval:1.1e-81],MGA_974
sequence12	MetaGeneAnnotator	CDS	17431	18036	.	-	0	ID=MGA_975;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCU7;translation=MFITFEGIDGSGKSTQANFLKDKLTSDGHTVVLLREPGGTKLSEKIRDLVLNHRDSLISPETEALLIASSRYQLVNDIILPKLNSDIIVICDRYIDSTIAYQGYGRGINISWLNEINKFSLTHANPDLTFLFDLKVEDSMLRMKNKNKDRIELEGKEFLIKVRNGYLEIAKNSKRFHLLNAIDSPENLKLKVYKNYLNHIK;locus_tag=LOCUS_09620;gene=tmk;EC_number=2.7.4.9;note=Q8KCU7 thymidylate kinase (Chlorobium tepidum TLS) [pid:43.8%25%2C q_cov:95.5%25%2C s_cov:94.4%25%2C Eval:3.8e-38],MGA_975
sequence12	MetaGeneAnnotator	CDS	18052	18738	.	-	0	ID=MGA_976;product=ribosomal RNA small subunit methyltransferase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WZG8;translation=MKTLFIISTPIGNMLDITYRAVNVLKDLKFLLVEDTRRTSKLLNEYNVFPKMIVYNDINKEKVIPKIIDILQLYDVGIVSDAGTPLISDPGYKLVRECILNKIKIISIPGPSSLLAAITSSGLPTDKFIFEGFLPKKKGRNTRLTFLKDETRTIVIYESPERITKTLNDTFNFLGDRPIVICRELTKLHEEIWRGKLSEALIYFEEKKIKGELTLIIGKNSVKTNFTN;locus_tag=LOCUS_09630;gene=rsmI;EC_number=2.1.1.198;note=Q9WZG8 ribosomal RNA small subunit methyltransferase I (Thermotoga maritima MSB8) [pid:49.5%25%2C q_cov:95.2%25%2C s_cov:98.2%25%2C Eval:5.8e-55],MGA_976
sequence12	MetaGeneAnnotator	CDS	18740	19594	.	-	0	ID=MGA_977;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2X7;translation=MIKFSKNRSIVNLIGIPLIVFLIFMGDYFFLFFISVVNFFCLREFYLLPKQEKIYPQFLTGYIISFLVLLINFIHNNKIFFLSFFDFFILTVLFVIIFELFRNKKNAFLNISITLTGLLYIPTLLSSLFLLRNIQTQSTDFYDLGMVITFIIFISTWFCDTGALYFGKFLGKNKLFSRVSPNKTIEGSFGGLFGTFLIYILFYLLSFDKIFNEFLSHFDILFIFLIISIGSQIGDLAESLLKRNFGLKDSSSLLAGHGGFLDRFDSILFSAPLVYIYFRFFILI;locus_tag=LOCUS_09640;EC_number=2.7.7.41;note=B8E2X7 phosphatidate cytidylyltransferase (Dictyoglomus turgidum DSM 6724) [pid:37.3%25%2C q_cov:94.4%25%2C s_cov:95.4%25%2C Eval:8.0e-42],MGA_977
sequence12	MetaGeneAnnotator	CDS	19597	20076	.	-	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFSENKYFIFKIILILFFLSCTSSPRYGSGNYLPKNNSSSKSPKNFKNKKVIIGESSYYADDFHGKITANGETYDMYGLTAAHKTLPLNTIIRVTNLTNKKTATLRVNDRGPYAKGRILDCSYGAAIKLGFLEQGVARVKIEVIEWGDNRYMKRKDQ;locus_tag=LOCUS_09650;note=Q9X6V6 endolytic peptidoglycan transglycosylase RlpA (Pseudomonas aeruginosa PAO1) [pid:55.3%25%2C q_cov:64.8%25%2C s_cov:30.1%25%2C Eval:6.3e-28%2C partial hit],MGA_978
sequence12	MetaGeneAnnotator	CDS	20063	20800	.	-	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFIAAPFGNYLKFTGKNNVIPVTGTWTLDSRATFLKRIYKIITTLRYDFKKDGWVNKLGLPNPGVKTGLSKTVSREILSIAAINRSDWSKLYQIVGDDINVEINLSCPNLDEKSNLFTSDDLKLFTSKKSKNKNWCIAKVSPHTTLDELKYLINDLGFSQIHCCNTLPVVHGGLSGKPLKPYVQKLIKLIRKNWGDKIEIIAGGGVDSIADVNNYINLGANHISLGTVSFKPWKIGSIVDENF;locus_tag=LOCUS_09660;note=Q725V9 dihydroorotate dehydrogenase (Desulfovibrio vulgaris str. Hildenborough) [pid:27.9%25%2C q_cov:77.1%25%2C s_cov:70.7%25%2C Eval:1.7e-10%2C partial hit],MGA_979
sequence12	MetaGeneAnnotator	CDS	20807	22549	.	-	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKFIYLKLILTFYLIISSGCAYFNYFHNANEFYDQAQSQILDLKDGEDLSSSIIDLFNKTIERCNVVIENYPESKFVPSALFLKSKAHFYKNEYVLSKSTLEKLSSFNLNNLQIIESELWKLKSDWYILNDKKIIKDIKEIIYNSKSLKKNEEQSILLTAYLSLAEIYQETNIIDSSLYYLNQRALIAKDRSSRMKASYLIAEKAYNEKKYDIALENFKKTANFHPSIKINQYSNIMVIRILRELKKWDEAALIIESLVNNEKFESINAELLLELANLLLTQNKLNESIDVFRQITEKYPKTIFSAEAYFNIGNYSLDIEKNYSKAKKMYENVELEFPSSIYISTSKSRINEINLVESYNDSINIYKAFIKTDSTNVKNLTNETIHNKISFFYYSIAEIEAFRFNHINDGINYFNIIVNDYPNSSFSPKSLFSLYHLYQKISNNKLRIDIRDKLLKDYSDTDYSRFISNSIGLEIQDLAGERMLNAEIFINQNPAEAINLYKKILEDFPKTSYYSSIILSIAYIYDFNLNDFHSAYSYYKQLKENHPLSDQAIFASKRLVVMDKASTILPDSISIKND;locus_tag=LOCUS_09670;note=MGA_980
sequence12	MetaGeneAnnotator	CDS	22635	23078	.	+	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSYFILTILIFNFLFSQEPDSISYSNNDTGYVQINTDSIGLNLYIDDILVGQSPLNDPIPVKTGFHNVTYIEPNYITALKEHFSEDEINFLLKESTKKIYVSKNKTVFVNLWWKTYEDKIKNRKKMKWIRTGLSSIIISILIILNS;locus_tag=LOCUS_09680;note=MGA_981
sequence12	MetaGeneAnnotator	CDS	23123	23320	.	+	0	ID=MGA_982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFETFDTPIEFNPDYDWPEEGTELDCPKCDNQLTLNIKRSDYKGKPWWCGKCRWQFSNEEATK;locus_tag=LOCUS_09690;note=MGA_982
sequence12	MetaGeneAnnotator	CDS	23355	24605	.	+	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931831.1;translation=MLKIGPFRGYYYNTNIIKNLSDVIAPPYDVVNKEEREVLANRSKFNFIKMTLPSNYDPSNSSNEKFYSEAKQRWNNWKKNDIISLSKPSIWLLKESYVSKNNEHLTRSGFMASLDVTNDSDKFVLRHERTHQAPKMDRVNLYKSTLSNLSPLFFIYQDDQEQTKEFINHFNKMNIKSAIFDHRGKVNLELLRSSDIDFIKKFSNSFEGKYALIADGHHRYAASRILDQENTSPNINTSSLMGYLVPSSTPGLIVEATHRAIFKLNNFDEELFINKINEFFAIDSDLTNSSFSIHTKLKGEIKLTPTQDTIKLVESIVKNEFLSKIPVVILEEIILKKITGMNSQNISHRTNLKYFQDKNLCSKELNNNNWNYAITVPPLSVDEIFKVTKSGAIFPQKSTYFYPKAPTGLVMRSMEK;locus_tag=LOCUS_09700;note=WP_010931831.1 hypothetical protein (Chlorobium tepidum TLS) [pid:27.3%25%2C q_cov:99.8%25%2C s_cov:99.3%25%2C Eval:3.0e-41],MGA_983
sequence12	MetaGeneAnnotator	CDS	24608	25684	.	+	0	ID=MGA_984;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943872.1;translation=MSKKPKLYIPGPTHVQNEVLSSLSDYPIGHRSKEFSILYDEIMKPLSELLFTNNRIYLSTSSATGLWEAAVRNSVQKKCVNFVCGAFSKKWHDITTMSGLEADMISVDLGKPITPEIVDDALSSGKYDVMTYVHNETSTGLMNPLEDVAEVMKKYPDVLFLVDAVSSLTSVKIEVDKLGIDLILASVQKGFSLPPGFSFCTVSNKLLEASKKCKNKGYYFDFEVFEKYALKSQTPSTPSIPHMFAMKTQLKKIFEEGLENRFSRHIQMANKMRKWAIDKGFGLFPEEGYYSETLTCIKNDLNIDVNDFQRKLLEKGYMISGGYGPLKGKNFRVSHMGDINMEDVNEIIEVMDQTLEEM;locus_tag=LOCUS_09710;note=WP_010943872.1 aminotransferase (Geobacter sulfurreducens PCA) [pid:49.0%25%2C q_cov:98.6%25%2C s_cov:98.9%25%2C Eval:6.3e-101],MGA_984
sequence12	MetaGeneAnnotator	CDS	25684	27255	.	+	0	ID=MGA_985;product=D-3-phosphoglycerate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7VAM4;translation=MNKVLVTDPISEEGKKILLESSIEVIDASDKNLEDIDLTQINGWIIRSGTTITSDLIKKATNLKVIGRAGVGVDNIDINAATLNGVLVMNTPDANTISAAEHTIALLLSLSRNVHEGYHAMVHGRWDRHKFIGSELQNKSIGIVGLGKIGTEVIKRLHAFDMKILGYDPYVKKGSYELDYVEIIEELDELCKESDYISIHIPRTKKTTGLFNIEKFKLMKPSARIINCSRGGIIDEVDLFKALEDNIIGGAALDVFNEEPVKDIPLLKAKNILYTPHLGASTQEAKQGVSTTICESIRDYLNEQKIGSAINIPITDMSILKSLEPHLNLAEKLGIFMQQLANPPIDTMSISTGGSLKDVNIITLAFLKGFFKNIHDENVNYINASAVAEKAGILFDETYSHKKINYDNEISVTINNTITIKGSLFDGSLPRIVQIDGFDLDLVPDGKFILMYNRDVPGVIGKVGSLLGKLNINIDGYYNSTNKNTENKSAIGLVKIHSNPNQSILDQIIAFEEVISAHIISLD;locus_tag=LOCUS_09720;gene=serA;EC_number=1.1.1.95;note=Q7VAM4 D-3-phosphoglycerate dehydrogenase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:40.6%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:6.4e-103],MGA_985
sequence12	MetaGeneAnnotator	CDS	27266	28456	.	+	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963509.1;translation=MKNQIVFLFLFFTPFNTYSQTIPGINNLIDNNLDLLKNKNIGFITNHSGLTKEGEKSWKALNDLNNITISKLFSPEHGFLGEFADGEKIDYVKIDSLPKLYSLYGKTRKPTSEMFSELDLIIYDIQDVGARFYTYISTLGYCMEKAAEMNIDFIVLDRPNPLSGNLISGPILDMNYSSFIGMYPIPSLYGLTIGELAKMIVDMGWIKKNPKLTVIPMKNWSRNFFYNDTELSWVPPSPNIPDLETAIIYPATVLFEATNISEGRGTSKPFKTFGAPWIDNKKLLRELNKLNLKSVKFKKTSFTPIEIQGKAVNPKYLNSKCFGIEITITDKYSYDPVFINLNLIKTINDLFPDNLIINEKRMSQLLGLEKLNIYSKKTQLNKIDEFKNISKSFYIY;locus_tag=LOCUS_09730;note=WP_010963509.1 hypothetical protein (Clostridium acetobutylicum ATCC 824) [pid:39.9%25%2C q_cov:91.9%25%2C s_cov:96.1%25%2C Eval:1.9e-77],MGA_986
sequence12	MetaGeneAnnotator	CDS	28453	28776	.	-	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLIYLFIPVLIFVLIFYFVTKKNIENIDEEKKIAKDKKQSWADEKYVSYGEVQKVKSELLEEVNKNFSEDKKNIITEIINEWADLRIKVFEERRSWIRNPKTKVDD;locus_tag=LOCUS_09740;note=MGA_987
sequence12	MetaGeneAnnotator	CDS	28788	30317	.	-	0	ID=MGA_988;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879947.1;translation=MSENEKKATGFAKKTDFTWLGIGVFLFLFLIFIPTPQSMIDQASIVFNNLSIEAQNNTSVDKISFNIQVIIALLSMCVIFFATEAVPLPAVALSIGLVQLFFGVTEPSKIVSTYAHDAVWFIAGSLALGATFIKYGIDKRIGMLVLSLSGTNIRRIIIGLLIGTSIPAAFIGEHAVAGMYLPIAVALFTLTSKDINCPNLGKLLTLTIAFGCMIGGPMSPTGGARNAIMIGFLSDAGFDVSFVQWLSMGVSYTLFMIIVMSLILPLLFKPEVSDLSNAVSVLRSDLEKYGKMTFKQWLVIFIMAIVIFMWITDKTVIKNLFGFSLGLGGIAITGAVTYMLLGLTTWKDYEEGISWGVVVLYAGAISLGSVFKSTGAAGWLASSIISLVEPLGMDSGIPLVVLVVLVGASLTNLMSAGATVAVIGPVIIGMAEASGTNPILIGIALAISTSAAFWLVIGTPASSIVYSSGLLGAKDFMRGATLAWPLALIVIISMILFYWMPILGINLSI;locus_tag=LOCUS_09750;gene=trnS;note=WP_010879947.1 transporter (Aquifex aeolicus VF5) [pid:28.4%25%2C q_cov:84.7%25%2C s_cov:92.2%25%2C Eval:1.1e-43],MGA_988
sequence12	MetaGeneAnnotator	CDS	30323	31417	.	-	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405107.1;translation=MKIKTNKSILVFLLVQSIIFSKNYFIYATAESEDEVSLLRFDGNKIYLHENIKVGVNPVEIEGPHGINISPDGDYWYLSMAHGVGSPNGILYKYSTKTNNIVGQVELGFFPATLEVSRSTGLLYIVNFNLHGGHDQISSVSIVDPEMMIEIERVETGIMPHGSRLLNNGLKHYSVAMMSGELFELDAAEMVITRKLKTSNSKMSHHSKMHHNHSNHTMDKSMPTWVYPSPDDKLLYVVNSGTNEVLEINIKRWSIQRKFSTSKGPYNCEVSNDGKYLVVTYKPDGYTGIWDLNKGVELAKIKNSRKVSHGVVISPDSKFAFVTVEGIGAQPGTVDVIDLHKLKLIDQIDIGKQAGGIAFWKMED;locus_tag=LOCUS_09760;note=WP_011405107.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:45.7%25%2C q_cov:97.5%25%2C s_cov:90.9%25%2C Eval:1.4e-84],MGA_989
sequence12	MetaGeneAnnotator	CDS	31398	33569	.	-	0	ID=MGA_990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405108.1;translation=MKKLIIAFFLLNFNISFALTNDSTATISDSLHFKFEPDSLVLNVGDSAIVRISIFNRDEPSNNPFYVYGLDRGSLKTTPRMSGGEHSVNVKINAVKSGDLTLNVRSITVNRPDRKYDKIKITVPFPEIDRVEMNAPKTLFSGTTLILKPQVIDKAGILREDVIVKLKTNNKKIANIDDFGNLHLLKDGNLTITATAENIQSKLKLKILKNPINKIELTSSKKLVKTGDVVSFDVKAFDANKKLIDNVPISFSFNGRIHFSRTPEIPYGKDFAKVNVLGDEYRFDALDFGLPASAEISHDGKFVAETPGVYTIYATTGGVSSYTSINVLPRNIRSDLDLVGIGLVPDYFTSDLWVWPGIGEHVGKDFAVTGTWSGDGHAYFWDVTDPSNIICIDTVKVDARTVNDVKISSDGKIGVITREGASNRKNGFVILDVIDPFNVKIHYEYDDDMTGGVHNAFIYENHVYSVNNGRKFDIINIDDPKNPKRVGVYELNTAGHHIHDVWVIDGIAYSSNWLDGVHAIDIGGPNLGEIDNSSIKNHPLLSLSGKGSPSNPKPIASLSDPSKRNHAAFPFLSESTGKFFIVGGDEKFPRGNIGAPNIEPSNPSGGFHFINFDDPENPIEEAIYQVPEAGTHNFWITGDTLIAAYYQAGLRVLDISGELMGDLYKQGREIASFYSGHIDGKVAWSPMAWGAMPYKDLIFFSDMNSGLYAVKFKSKDEDEDKDK;locus_tag=LOCUS_09770;note=WP_011405108.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:42.3%25%2C q_cov:93.8%25%2C s_cov:94.8%25%2C Eval:2.2e-144],MGA_990
sequence12	MetaGeneAnnotator	CDS	33697	34566	.	+	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919506.1;translation=MKKSTYFQKLALINIIIAFFFLQSCSQKNTISTENWISLFNGKDLKEWTPKFTGYELGLNLKSTFRVEDNLLTINYENWDEFNGEFGHLFYKDKFSHYKIRAKYRFFGNQLKNGPDWAYRNNGLMLHCQNPKTILNDQEFPISIEAQLLGGNGVDQRNTLNLCSCGTDVIYKNQFHTDHCTNSSSKTYHGDDWVKVEILVLGDSLFKHFEENGKNVIEYSKPTVTGDYGSLEYYPAGSRVMDGYIGIQAETHPTQFEYIEVLNLSGCMDKKARNYKDYYVNPNDNECEY;locus_tag=LOCUS_09780;note=WP_010919506.1 hypothetical protein (Caulobacter crescentus NA1000) [pid:34.1%25%2C q_cov:84.4%25%2C s_cov:89.3%25%2C Eval:2.0e-32],MGA_991
sequence13	MetaGeneAnnotator	CDS	238	567	.	+	0	ID=MGA_994;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAH4;translation=MNINEILIRPILSEKMNKLEVKERNKSYAFKVNVNANKIEIKNAVENKFDVKVMKVRTMNFFGKSKQMTVKSGGRAIRTSGKKSNWKKAIVSLMDGESIDFYSSYGGDS;locus_tag=LOCUS_09790;gene=rplW;note=Q8KAH4 50S ribosomal protein L23 (Chlorobium tepidum TLS) [pid:48.5%25%2C q_cov:89.0%25%2C s_cov:88.3%25%2C Eval:2.4e-18],MGA_994
sequence13	MetaGeneAnnotator	CDS	570	1397	.	+	0	ID=MGA_995;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P60401;translation=MSVRNLKPTTPGQRQKSISNFDDITTNVPEKSLLTKINKTGGRNNKGRLTSRRRGGGHKRQYRIIDFKRNKFDIPAKVATIEYDPNRSARIALLHYVDGEKRYIIAPFGIKVGDEIISSLKNAPIKIGNAMPLHKIPAGQIVHNIELIPGKGSQMVRSAGLGAQVLAKDLNMVTIKLPSGETRMFSENCLATIGEIGNKSHETIKLGKAGRSRWLGKRPKVRGVAMNPVDHPMGGGEGKSSGGHHPTTPWGKPTKGYKTRKKNNPSNRYITKRRK;locus_tag=LOCUS_09800;gene=rplB;note=P60401 50S ribosomal protein L2 (Geobacter sulfurreducens PCA) [pid:64.2%25%2C q_cov:99.6%25%2C s_cov:99.3%25%2C Eval:1.4e-101],MGA_995
sequence13	MetaGeneAnnotator	CDS	1401	1667	.	+	0	ID=MGA_996;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64NL2;translation=MARSIKKGPYIDEKLLKKIMNMEKEGKKKVIKTWSRRSIIVPEFVGHTIAIHNGKQFIPVFISENMVGHKLGEFSPTRTFRVHSGDRK;locus_tag=LOCUS_09810;gene=rpsS;note=Q64NL2 30S ribosomal protein S19 (Bacteroides fragilis YCH46) [pid:67.0%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:2.2e-32],MGA_996
sequence13	MetaGeneAnnotator	CDS	1670	2017	.	+	0	ID=MGA_997;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005810154.1;translation=MESIAKSNFFNQSAKKVRKELQVIRGKKVEVALNTLQFAPQKATIVIEKTIQSAVANYLQSDETNELNAEGLFVKEAYVDEGPTQKRFRPASMGRASRIRKRTSHLTIILTDKNK;locus_tag=LOCUS_09820;note=WP_005810154.1 50S ribosomal protein L22 (Desulfitobacterium hafniense Y51) [pid:47.7%25%2C q_cov:96.5%25%2C s_cov:94.7%25%2C Eval:1.6e-22],MGA_997
sequence13	MetaGeneAnnotator	CDS	2029	2655	.	+	0	ID=MGA_998;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GZ93;translation=MGQKTHPIGFRLGINKPWISNWYGGKKYSDYVAEDIILRKYINQRLSNAGISSISIDRTSKKLTITINTSRPGIVIGKGGKDVDQLREEIKQLSEIETQVNVSEIKRPEMDPKLVGENIAQQLIKKISYRRAVKKAIQATMRMGAEGIRIRVAGRLGGADIARRETFMEGRVPLQTLRSDINFAITEARTTYGIIGLKVWICNGEVSG;locus_tag=LOCUS_09830;gene=rpsC;note=A6GZ93 30S ribosomal protein S3 (Flavobacterium psychrophilum JIP02/86) [pid:58.7%25%2C q_cov:100.0%25%2C s_cov:82.2%25%2C Eval:1.7e-68],MGA_998
sequence13	MetaGeneAnnotator	CDS	2656	3072	.	+	0	ID=MGA_999;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YG40;translation=MPLEPKKVKWRRHHRGRRRGLATKGSHVAFGSYGMKTLDAGWITARQIESARIAIIRKIRKHGRMWIRLFPDKPITKKPAEVRMGKGKGAPDQWVAVVKPGRILFEVEGVDKELATEAFRVAGHKLPVKIKTVGRREF;locus_tag=LOCUS_09840;gene=rplP;note=B5YG40 50S ribosomal protein L16 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:57.8%25%2C q_cov:97.8%25%2C s_cov:97.1%25%2C Eval:2.8e-40],MGA_999
sequence13	MetaGeneAnnotator	CDS	3075	3287	.	+	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQEIKEMSLDELKVNLKDKKSLLEDLRFQKALQQLENPLQIRLIRKEIAQIKTLINEYISGKRKIEDN;locus_tag=LOCUS_09850;note=MGA_1000
sequence13	MetaGeneAnnotator	CDS	3290	3553	.	+	0	ID=MGA_1001;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q748Z7;translation=MSDRGQRQVIVGIVVSDKMQKTVKVEVKRKVLHPVYKKYITKKKKFSADMGKFECSNGDRVKIVSSKPISKTKRWKVYEILEKNNEL;locus_tag=LOCUS_09860;gene=rpsQ;note=Q748Z7 30S ribosomal protein S17 (Geobacter sulfurreducens PCA) [pid:48.2%25%2C q_cov:95.4%25%2C s_cov:97.6%25%2C Eval:9.2e-15],MGA_1001
sequence13	MetaGeneAnnotator	CDS	3571	3939	.	+	0	ID=MGA_1002;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C7MFE5;translation=MIQSETRLKVADNTGAKEVLCFKVLGGSKRRYASLGDIIVVSVKNAIPGGIVKKGETSRAVIVRSKKEVRRKDGSYVRFDDNAAVLLNSAGEPKGTRIFGPVARELRDRGYMKIVSMAPEVI;locus_tag=LOCUS_09870;gene=rplN;note=C7MFE5 50S ribosomal protein L14 (Brachybacterium faecium DSM 4810) [pid:73.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-47],MGA_1002
sequence13	MetaGeneAnnotator	CDS	3939	4247	.	+	0	ID=MGA_1003;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P38513;translation=MRIKTGDIVEVISGDDKGKQGKVLNFNPKTQRVLIEGVNFIKRHSKPSQQNQQGGIVEREASLHISSVMLVVSGNKTKVGYRFLDNGKKVRFSKKTNEDIDS;locus_tag=LOCUS_09880;gene=rplX;note=P38513 50S ribosomal protein L24 (Thermotoga maritima MSB8) [pid:56.3%25%2C q_cov:99.0%25%2C s_cov:98.1%25%2C Eval:8.1e-27],MGA_1003
sequence13	MetaGeneAnnotator	CDS	4262	4885	.	+	0	ID=MGA_1004;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P44346;translation=MNKKIKENNNYKPKLIDHYNLKVMPQLKNNFKLKNNLEVPKILKISLNIGLGSSKDDKNAMQNAVNELTTITGQKAVITKARKAISNFKIRIGDPVGVRVTLRKWHMYEFFERLISIALPRVRDFNGLSTKSFDGRGNYNFGLKEQIVFPEINYDKIDKIRGLEITITTNSNDDLKTYFLLKSMGFPFRSDTFYEKKYNELNEIKNN;locus_tag=LOCUS_09890;gene=rplE;note=P44346 50S ribosomal protein L5 (Haemophilus influenzae Rd KW20) [pid:55.1%25%2C q_cov:85.0%25%2C s_cov:98.3%25%2C Eval:2.2e-52],MGA_1004
sequence13	MetaGeneAnnotator	CDS	4898	5083	.	+	0	ID=MGA_1005;product=30S ribosomal protein S14 type Z;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q72CG7;translation=MARKALINKSKLKPKFSTRGYNRCSMCGRPRAYLRRFGLCRMCFRELALKGEIPGVTKASW;locus_tag=LOCUS_09900;gene=rpsZ;note=Q72CG7 30S ribosomal protein S14 type Z (Desulfovibrio vulgaris str. Hildenborough) [pid:67.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-20],MGA_1005
sequence13	MetaGeneAnnotator	CDS	5102	5500	.	+	0	ID=MGA_1006;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q749A1;translation=MTMTDPIADLLTRIRNGLHSGKKFIDMPSSNLKKRILFILKEEHYIENFILLNNPIKKKIRVFLKYDIGGEPAIKNIKRDSKPGRRVYVAADEIPRVLDGLGISILTTSKGVISNKVAKKLNVGGEIICTVW;locus_tag=LOCUS_09910;gene=rpsH;note=Q749A1 30S ribosomal protein S8 (Geobacter sulfurreducens PCA) [pid:50.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-33],MGA_1006
sequence13	MetaGeneAnnotator	CDS	5517	6056	.	+	0	ID=MGA_1007;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q81J27;translation=MSRIGIKPIEVPENVNILKDSDNLITITGPKGELKMKFNPDIIIGQEESVVKVSRKTDDKTQKSLHGTTRAIISNMISGVTNGFYKELELRGVGFTAQIQGQRLKLTLGFSHDVYFFPPNGIEIKTTKSMITISGIDKQLVGQVAAKIRSIRPPEPFKGKGIRYLGEYVRIKKGKTVGE;locus_tag=LOCUS_09920;gene=rplF;note=Q81J27 50S ribosomal protein L6 (Bacillus cereus ATCC 14579) [pid:53.1%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:1.0e-46],MGA_1007
sequence13	MetaGeneAnnotator	CDS	6059	6421	.	+	0	ID=MGA_1008;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAI7;translation=MNKEILKFNRRQKRRARSKGEILGTKSRPRLVVYKSISSIYGQLIDDINNVTLISISSREKGIVKEKLTKSEVSNKIGKELGKRATKKKISKVVFDRNGFLYHGRIKAFADGAREGGLIF;locus_tag=LOCUS_09930;gene=rplR;note=Q8KAI7 50S ribosomal protein L18 (Chlorobium tepidum TLS) [pid:56.4%25%2C q_cov:97.5%25%2C s_cov:98.3%25%2C Eval:8.6e-29],MGA_1008
sequence13	MetaGeneAnnotator	CDS	6418	6921	.	+	0	ID=MGA_1009;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAI8;translation=MTKVDPIGLDLNEETVVKINRVAKVVSGGRRFRFSALVAIGDGNGNVGLGHGKANEVLTAIAKSKENAKKNLFRVPIIKGTIPHKIIGKFGAAKVMLKPASPGTGIIAGGAVRALIEQVGITDILTKRYGSSNINNIVRAVETALRELQDPVSVANRRGITIGEVYR;locus_tag=LOCUS_09940;gene=rpsE;note=Q8KAI8 30S ribosomal protein S5 (Chlorobium tepidum TLS) [pid:55.2%25%2C q_cov:97.6%25%2C s_cov:94.2%25%2C Eval:3.1e-44],MGA_1009
sequence13	MetaGeneAnnotator	CDS	6922	7119	.	+	0	ID=MGA_1010;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9X1J1;translation=MVKKTNKSLHITQIKSGIGHNKKAKKTLIALGLKKMNQTVIHSNTPIIRGMIKKINFLLKVEESS;locus_tag=LOCUS_09950;gene=rpmD;note=Q9X1J1 50S ribosomal protein L30 (Thermotoga maritima MSB8) [pid:50.9%25%2C q_cov:87.7%25%2C s_cov:85.1%25%2C Eval:3.8e-08],MGA_1010
sequence13	MetaGeneAnnotator	CDS	7116	7556	.	+	0	ID=MGA_1011;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YG29;translation=MKLNSLKSPSSFGKNRKRLGRGRASGTGKTAGRGNKGYHSRSGSKQRPWFEGGQMPLQRRVPKRGFSNSLFKKEFQIISISKILKLGLNKIDLALMIEKKLIKNTNKPVKVLANGKIDKSVEIFANAFSESAMKKIEKNGGKAHII;locus_tag=LOCUS_09960;gene=rplO;note=B5YG29 50S ribosomal protein L15 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:45.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-29],MGA_1011
sequence13	MetaGeneAnnotator	CDS	7553	8890	.	+	0	ID=MGA_1012;product=protein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAJ1;translation=MIEKIRNIFSIPELRDRIIFTLSILIVVRIGAHVPVPGIDTVALGAAIQNFQNTLFGLYDMFAGGAFQKATIFALGIMPYISASIIIQLMGVVVPYFQRLQKEGEEGRKKITQLTRYFTVLIASLQGYSIAIFLENLQSSVNGLQVGVVPDPGFAFRLLTMITLVTGTIFVMWLGEQITERGIGNGISLIIMIGIVSALPNVIVTEISLIQEGVRGPLTEILLLGIMFVIVAFVVLLTQGVRKIPVQYAKRIVGRKVYGGQATHIPLRVNTSGVMPIIFAQSIMFLPNTIAMFFQNNEFMQGVMRVFSPQHWVYWLVFGTIIIFFTYFYTAIAFNPQEVADNMKKHGGFIPGVRPGKKTSEFIDNILTRVTLPGSFFLAFIAIFPFILMNTMDIGYDLASFFGGTGLLIIVGVALDTLQQIESHLLMRHYDGFLKKGKIRGRRRA;locus_tag=LOCUS_09970;gene=secY;note=Q8KAJ1 protein translocase subunit SecY (Chlorobium tepidum TLS) [pid:59.6%25%2C q_cov:99.6%25%2C s_cov:99.5%25%2C Eval:1.3e-149],MGA_1012
sequence13	MetaGeneAnnotator	CDS	8892	9662	.	+	0	ID=MGA_1013;product=methionine aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64NM9;translation=MIHIRNKDEIGLIKESSSMVFDVLNSLTELIIPGASPKELDLFAENFIKNNGGVPAFKGYMGFPSTLCISINEEVVHGIPSERLLKNGDIVSIDCGVFKNGFYGDSARTYPVGKISKEVKNLLDVTKKSLSLGIKSAKAGGRLSDIGYAIQTYVEKNGFSIVRDLVGHGIGENLHEEPQIPNYGNKGEGVVLKEGMCFAIEPMVNMGKNEILTKQDGWTIYTKDMKPSAHFEHTVVVRKDGGEILSTRFINEKGLT;locus_tag=LOCUS_09980;gene=map;EC_number=3.4.11.18;note=Q64NM9 methionine aminopeptidase (Bacteroides fragilis YCH46) [pid:50.0%25%2C q_cov:98.4%25%2C s_cov:97.4%25%2C Eval:4.6e-75],MGA_1013
sequence13	MetaGeneAnnotator	CDS	9782	10165	.	+	0	ID=MGA_1014;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3XYW5;translation=MARISGIDLPREKKIKFALCYIYGIGQTLASKVLEDAKIDPDIRVKDLQNNQATAIRDAVSKLKVEGELRTENTMNIKRLMDIGSYRGLRHRRSLPVHGQNTKNNARTRKGRKRTVGLGKKTVGKKG;locus_tag=LOCUS_09990;gene=rpsM;note=Q3XYW5 30S ribosomal protein S13 (Enterococcus faecium DO) [pid:64.9%25%2C q_cov:89.8%25%2C s_cov:94.2%25%2C Eval:7.8e-38],MGA_1014
sequence13	MetaGeneAnnotator	CDS	10177	10563	.	+	0	ID=MGA_1015;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97EK4;translation=MAKIQRKKKKKVLMSDEGMAHIKATFNNTIITLTDINGNVISWASSGALGFKGSRKSTPFAAGQASEKAALEAIELGLKKVKVEVKGPGSGRESAVRSLGVAGLEVVSIKDVTPIPHNGCRPSKRRRV;locus_tag=LOCUS_10000;gene=rpsK;note=Q97EK4 30S ribosomal protein S11 (Clostridium acetobutylicum ATCC 824) [pid:66.7%25%2C q_cov:98.4%25%2C s_cov:94.7%25%2C Eval:2.3e-42],MGA_1015
sequence13	MetaGeneAnnotator	CDS	10573	11190	.	+	0	ID=MGA_1016;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64NN4;translation=MARYIGPKAKIARKFGENIFGNSKISKILEKKNYSPGQHGPTKQRRSSNYGLQLREKQKIKHMYGVLERQFRKFFKRSDRMDGETGLNLLQLLERRLDNVVYRMGFAPTRSAARQLVSHKHFKVNGVSVNIPSYIVKINDEISIRDKSKKLAIVHDSVKQVKGDLSSSWLSLDKASLSGIITKLPEKEDFDPTIKVQMVVELYSK;locus_tag=LOCUS_10010;gene=rpsD;note=Q64NN4 30S ribosomal protein S4 (Bacteroides fragilis YCH46) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.5e-56],MGA_1016
sequence13	MetaGeneAnnotator	CDS	11213	12190	.	+	0	ID=MGA_1017;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S3N9;translation=MSSNNVQLKFKLDKKTRTNFYGSFTLEPLERGAGITVGNAMRRVLLTSIPGVAINALKIDGVLHEYATLEGVKEDVSDLIQNLKQVRFKLTDPKPDKIQLSFNGKGVFTAKDIDNASDQYEVMNTDLYIATLDSSASFTIELQLTVGKGYVDADSHQRIESPIGMIFIDSIFNPVTQVSYDVKPVSSAKDSMEKLNLIVTTDGTISAENSVSFASRVLSDYFAMFQISDDEPILEITEDIDEESLRIRELLYRSIDEMELSVRSHNCLKAAGINTIMDLVSKEENQMLKYKNFGRKSLSELIEKLDEMELSFGMDVEKYIIVVEE;locus_tag=LOCUS_10020;gene=rpoA;EC_number=2.7.7.6;note=Q2S3N9 DNA-directed RNA polymerase subunit alpha (Salinibacter ruber DSM 13855) [pid:48.6%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:2.5e-82],MGA_1017
sequence13	MetaGeneAnnotator	CDS	12194	12589	.	+	0	ID=MGA_1018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRHQKKINKIGRNASHRKATLANLASSLIEYKRIKTTHSKAKATQQFIEPLITKAKRGTLHDRRNVLKFISRPDIVGILFDEIGPKFKDRNGGYTRITKLGFRKNDAASISLIEFVLSSESNTKSDSSESN;locus_tag=LOCUS_10030;note=Q2S3N8 50S ribosomal protein L17 (Salinibacter ruber DSM 13855) [pid:54.3%25%2C q_cov:88.5%25%2C s_cov:58.9%25%2C Eval:4.2e-28%2C partial hit],MGA_1018
sequence13	MetaGeneAnnotator	CDS	12594	13709	.	+	0	ID=MGA_1019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFVLKKNFKLLFLVYSFFFFPQYSFSSNIDSKIEFRAIWVLRSSLVNKDEIDKILEFAKDNNFNHIFLQVRGRGDAFYNSSFVPKSNLIKPNNFDPLSYALQKSKKLNIKIHLWLNMLLIWSSKTKPKNSFHIYNNHSDWIDKSFLPKEESNINHFKFLSPSHPGVKNHLKNVIKELLLNYDFDGIHYDYIRYSDLDYGYNEVAISIFKKQYKLDEKNFFFDNRISEEYKNNWNDFRRNQLSNLVKDLSFEIRKQKDAIIITAAVKPNVIEAQNRFYQDWSKWIINKSIDYAVPMNYSKKNSVFESNIYGVYNIFPSKIIMGIGVYNQDLNSVLEKINISKKNKFLGVSFFSYDSRKENPNFFSKIKSEF;locus_tag=LOCUS_10040;note=WP_011266605.1 hypothetical protein (Pseudomonas syringae pv. syringae B728a) [pid:27.7%25%2C q_cov:67.4%25%2C s_cov:64.9%25%2C Eval:2.1e-14%2C partial hit],MGA_1019
sequence13	MetaGeneAnnotator	CDS	13789	14187	.	+	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKLLFLLFFSVTFIFGSQKYISQIQKTAKNYRVEIKSNQINNVVSKDGSISLNLELTSNRNNFEMVMLVGYISAGSALKAGMKFDEVIITVNVPLGDGFKLVTKGKLNELNQLMNGKINTSQFVRKIEYL;locus_tag=LOCUS_10050;note=MGA_1020
sequence13	MetaGeneAnnotator	CDS	14215	14454	.	+	0	ID=MGA_1021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFDPFSLQSLFQTYLRAIGWSVVAALGFSIGIGLALKVFDIMSVGIDEWEEIKKGNIGVALIFISLIVSVAFLVHKVL;locus_tag=LOCUS_10060;note=MGA_1021
sequence13	MetaGeneAnnotator	CDS	14535	15095	.	+	0	ID=MGA_1022;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RI92;translation=MATTADIRTGLVIEHKGNRLKIVSFLHVKPGKGGAFVRTKLKNIITGQVIDETFRSGEKIIPIRIETQQMQYLYSQDNSHIFMNTENYNQIEISYKLISDEIKFIKEGLNVDVDFIDEEVIGINPPLFVNLKVTKSDPGIKGNTATGATKPATLETGLTLNVPLFINENDILKIDSRTGEYIERVK;locus_tag=LOCUS_10070;gene=efp;note=Q2RI92 elongation factor P (Moorella thermoacetica ATCC 39073) [pid:52.2%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:4.9e-50],MGA_1022
sequence13	MetaGeneAnnotator	CDS	15097	15567	.	+	0	ID=MGA_1023;product=acetyl-CoA carboxylase biotin carboxyl carrier protein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946212.1;translation=MFEKWDKKLQKIISILESSDINEIEISFFGRKFKVTKSSTVVNEALINKQNILVPETKSDLTKDDVSKSTDDSSDPNLKYITSPMVGTFYSSPSPDSSPYVDINDNIRLGQTICIVEAMKIMNEIESDINGKIISILVKDGDPVEYGQKLFQIKPQ;locus_tag=LOCUS_10080;note=WP_010946212.1 acetyl-CoA carboxylase biotin carboxyl carrier protein subunit (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:39.5%25%2C q_cov:94.9%25%2C s_cov:98.1%25%2C Eval:3.2e-26],MGA_1023
sequence13	MetaGeneAnnotator	CDS	15577	16923	.	+	0	ID=MGA_1024;product=acetyl-CoA carboxylase biotin carboxylase subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048423.1;translation=MFNKILIANRGEIALRIIRACNELSIKTVAIYSSADQYSLHVKFADEAICIGPYTSTESYLNISRIISAAELTNCDAIHPGYGFLSENPQFAQICKDNNFIFIGPSGDTIESMGKKANAKSSMLRAGVPVIPGSKGIINNLKDLKNTANEIGYPIILKASSGGGGRGMRVVHNEKDLESAFKTASSESQIAFNDPDMYLEKFVENPRHIEIQILADNYGNVVHFGERECSIQRRHQKLIEESPSPVINNDIREKMGLSAIKGAKSINYSGLGTMEFLFDEKLNEFYFMEMNTRIQVEHPVTEMVIGKDLVKLQIRIAFGEKISDNLNKLVPRGHSIECRINAEDPLKNFMPSPGIIREFHSPGGMGVRVDSHVYSGYSIPPYYDSMIAKLIVHGENRNEAINRMNQALGEFIIEGPKTTIDFQKAILKSENFKKGIFHTGFLDDFKYP;locus_tag=LOCUS_10090;gene=accC;EC_number=6.4.1.2;note=WP_012048423.1 acetyl-CoA carboxylase biotin carboxylase subunit (Clostridium botulinum A str. ATCC 3502) [pid:60.3%25%2C q_cov:98.9%25%2C s_cov:98.7%25%2C Eval:1.1e-158],MGA_1024
sequence13	MetaGeneAnnotator	CDS	16942	17322	.	+	0	ID=MGA_1025;product=glycine cleavage system H protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y4L2;translation=MKIPKDLYYTKSHEWLKINNDEIIIGITDYAQHELGDIVFVEIDKFDQNIDSGEIFGTIEAVKTVADLYLPIAGKIFEKNENLNEKPELINQSPYDDGWIIKVRPNESIDLKLFLNESSYNELISF;locus_tag=LOCUS_10100;gene=gcvH;note=Q8Y4L2 glycine cleavage system H protein (Listeria monocytogenes EGD-e) [pid:46.8%25%2C q_cov:98.4%25%2C s_cov:99.2%25%2C Eval:3.8e-32],MGA_1025
sequence13	MetaGeneAnnotator	CDS	17333	18073	.	+	0	ID=MGA_1026;product=geranylgeranylglyceryl phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GW30;translation=MIYNNLLKIKNKYKAGYFVLIDPDIKNENKILDIVDTINNSNVDGILIGGSLIMDNGFNERAKKIKKISNVPVILFPGSVNHINPYCDAVLFMSIISGRNPTYLIGEHVVAAPIVKDLNIEPIPTGYMIFESQSMTSVDFMSGSKPLPRNKPEIAAAHALAGQYLGMKLIYLEGGSGAEESIPNNVIKRVSQFIEIPVMVGGGIKNPSTASEKVESGASFVVTGTFNEENISISKLNDFANAIHGV;locus_tag=LOCUS_10110;gene=pcrB;EC_number=2.5.1.41;note=A6GW30 geranylgeranylglyceryl phosphate synthase (Flavobacterium psychrophilum JIP02/86) [pid:44.8%25%2C q_cov:94.3%25%2C s_cov:96.7%25%2C Eval:7.8e-48],MGA_1026
sequence13	MetaGeneAnnotator	CDS	18063	18653	.	+	0	ID=MGA_1027;product=phosphoheptose isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F4E9;translation=MEFKIEKLIKDRISSSSKIINKLIDDCSSQIFSASNIIKSSFLNKGKIFWCGNGGSASQAQHLSTEIIAGMNRHDLIPKSSICLNTDSTFLTAWSNDVGYDSIFSRQLQGIASKNDVLFSISTSGNSKNIINAILEAKKIGMKTITMTGMTGGNLKNLSNIDIKVPSNNTQNIQESHLVIGHIICEIIENFNIEKK;locus_tag=LOCUS_10120;gene=gmhA;EC_number=5.3.1.28;note=Q8F4E9 phosphoheptose isomerase (Leptospira interrogans serovar Lai str. 56601) [pid:41.8%25%2C q_cov:88.8%25%2C s_cov:87.7%25%2C Eval:6.1e-33],MGA_1027
sequence13	MetaGeneAnnotator	CDS	18640	19539	.	+	0	ID=MGA_1028;product=tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q1WTL7;translation=MKKNKLKDFLKPFLLFLRIEKNLSQNSIVAYENDLNRFINFVYFEDEKNKIDSSYIQNYISQLVDLPLEVSTLQRNLSALRSFFSYLIDEKIININPTELIDIPKKTRSLPEVLTQNEINILFNSINTNNPIGIRDRAMFELLYSSGLRVSEMTSIKIIDFLDDNEWLRVFGKGSKERLVPLGKEALKWINFYLNNSRNYLFNKNKKNDFLFINFRGDGISRKGVWMLLKKYVSLSEISKNISPHSLRHSFATHLIEGGMDLRAVQELLGHSDISTTSIYTHLNRTYLKEVHKQFHPRW;locus_tag=LOCUS_10130;gene=xerD;note=Q1WTL7 tyrosine recombinase XerD (Lactobacillus salivarius UCC118) [pid:45.4%25%2C q_cov:97.3%25%2C s_cov:98.3%25%2C Eval:1.3e-69],MGA_1028
sequence13	MetaGeneAnnotator	CDS	19533	20165	.	+	0	ID=MGA_1029;product=peptidase M50;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869499.1;translation=MVENYILIIPSILLALTVHEYSHAWMAYKFGDPTSKMLGRLSLNPFIHLDPIGTVMLFLVGFGWAKPVPVDLRYFANPKRMMLWVALAGPLSNIFLAFIFGLLIVFFSTSNLMYNQNTAFIGNILVYSLQINLALAFFNMFPIPPLDGSKILRGILSYKFDNFLNQLEQSGPFILIGIILIGYLSGFSIIWFIISPLINLFSSIFTYGLL;locus_tag=LOCUS_10140;note=WP_012869499.1 peptidase M50 (Thermanaerovibrio acidaminovorans DSM 6589) [pid:40.9%25%2C q_cov:96.7%25%2C s_cov:95.1%25%2C Eval:1.0e-36],MGA_1029
sequence13	MetaGeneAnnotator	CDS	20277	21323	.	+	0	ID=MGA_1030;product=glutamate formiminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080786.1;translation=MKYNFEKIIECVPNFSFGEDKRTIDLICNKINSVENSNVLDVYSDNDTNRSVITFITTPDNLINTSFNVIKVALENINMETHSGVHPRIGAVDVFPIIPLKNISLKKCISLSKILGKKVSTELFLPVYLYGYSASSQSRTRLENLRRGGYEALEDKIKNKKLTPDYGKNLFNKKSGATIIGARNLLIAYNVNLNSSSKKIAQNIAKKIRESGYIKTNKSGHILYDNNQQPQREYGKLKNCKAIGWYSNKYKKAQVSFNITSFLETPLHTLFNLTSVEALKNNVQVSGSEIVGLVSKDALLYSGKFYNKANNKTKYSEKELMELAVKKLGLNDLNDFNLNKKIIENSIL;locus_tag=LOCUS_10150;note=WP_004080786.1 glutamate formiminotransferase (Thermotoga maritima MSB8) [pid:40.0%25%2C q_cov:91.7%25%2C s_cov:98.0%25%2C Eval:9.1e-57],MGA_1030
sequence13	MetaGeneAnnotator	CDS	21339	23084	.	+	0	ID=MGA_1031;product=DNA mismatch repair protein MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GYR1;translation=MTKIKILNEDLKNKIAAGEVIERPASVVKELLENSLDAGSTEIKIILKGGGNTSIIVQDNGIGLNKSDLILAFSRHSTSKISHLDDLFNINTLGFRGEALASIASVSKVRAISCENEDDIGNEITIINGNISNTKFSQLEKGTLISVSDLFFSIPARRKFLKSQKTEFKHIVSLIRRIALANQNVKFILEHDDKLIFSLNQDNLKNRICSLYNKSFLNDLIEINKKNEFLSLTGFVGNLNLVRKRVGEQNLFLNGRYIVSRLLNSAVYSSYKSLISRGEFPFFVLNIEIPPDLVDVNVHPMKTEVRFHDEWRVYHFIKSTISEYLKNIMITIPKLNINENIKKTNENHFQSSISFNNQNIKSNYLDKLDKAKEYVKEINNENITNINQSNENLKLEKIWQVHSKYIISQVNSGLILIDQHVAHERILYEKAIDAMMGSSLPSQTLLFPRLIEFSVNDFETVLEIYSHLEKLGFRMTKSKNNSLTIDGVPLELQWGEEKKVLNEIIDYYTNEKKIRSSFMDSLAASYACKAAIKAGDVLNDDEMHSLVDRLFATKNPYFCPHGRPIIINLSLEELDKRFERI;locus_tag=LOCUS_10160;gene=mutL;note=A6GYR1 DNA mismatch repair protein MutL (Flavobacterium psychrophilum JIP02/86) [pid:34.8%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:3.2e-98],MGA_1031
sequence13	MetaGeneAnnotator	CDS	23095	24015	.	+	0	ID=MGA_1032;product=tRNA dimethylallyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97I21;translation=MKSIIIVGPTAVGKTNLSILLAKEISGEIIGLDSRQIFDFMPIGTCQPSKEEMMGIKHHLIGSHKLNRKISAGKYSKLIFKCIEKITKKNKIPIICGGSGLYFRAIVKGLFEGSITNYNIRKKLIKRLELEGSELLLDELKSVDLNYSKIVHKNNVKRLLRALEIYYITGKGPSEHFKMQKIKTNDNFFKIYLKMDIDALRIKIKNRILSMIKNGWIEEVNQIASMDYKNSTQAMESIGFNDVNDFLNKKINLNELIEQINVNTRQYAKKQIKWFDREQFDLIIDITEQHKSSVIKKIINNFYNIK;locus_tag=LOCUS_10170;gene=miaA;EC_number=2.5.1.75;note=Q97I21 tRNA dimethylallyltransferase (Clostridium acetobutylicum ATCC 824) [pid:38.4%25%2C q_cov:91.2%25%2C s_cov:91.3%25%2C Eval:8.9e-50],MGA_1032
sequence13	MetaGeneAnnotator	CDS	24102	24638	.	+	0	ID=MGA_1033;product=bifunctional protein PyrR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q182T5;translation=MSEKTNIILSETEIKNSIIRISHEIIEKVNIKNLVIIGIRNRGEFIAKRISHNIKIFSKIKIPTGFLDVTFYRDDFQQRLLQPQIKGSDINFELNDKIVLLVDDVLFTGRTIRAALNEIMDYGRPSVVSLAVLIDRGHREMPIKADFVGKNIPTSNIEKVLVRLNEVDNDESVYLVKS;locus_tag=LOCUS_10180;gene=pyrR;EC_number=2.4.2.9;note=Q182T5 bifunctional protein PyrR (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:51.7%25%2C q_cov:97.2%25%2C s_cov:97.7%25%2C Eval:5.6e-45],MGA_1033
sequence13	MetaGeneAnnotator	CDS	24648	25571	.	+	0	ID=MGA_1034;product=aspartate carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H0I8;translation=MGLLKQKHLIGLQDISKHDIELILKHAFSFREILERPIKKVPTLNGKTIANLFFENSTRTKMSFELAERRLSADTINFAKNTSSINKGESFKDTIQNIESMKIDCIVIRHNSSGCCNHMKQYVDSVIINAGDGMYEHPTQGLLDIMSIKEKKGNIKNLNIGIIGDIYHSRTARSNIFGLIKMGANVMICGPANLVPNNMKELGVKINYNIDEVLEWADVINVLRIQKERFDSNFLPSSREYRNAFGITKERLEKIKKEIIIMHPGPTNLGVEIDNYVVESDQSIILDQVLNGVAIRMSVLYLLLSSK;locus_tag=LOCUS_10190;gene=pyrB;EC_number=2.1.3.2;note=A6H0I8 aspartate carbamoyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:52.3%25%2C q_cov:98.4%25%2C s_cov:98.1%25%2C Eval:3.1e-87],MGA_1034
sequence13	MetaGeneAnnotator	CDS	25574	26863	.	+	0	ID=MGA_1035;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YLE1;translation=MNIKKNTEKILLKDGLIIDPFTEKKFKGSILIENGFISQISKEISNEDSQVIDCENLIITHGFCDVHSHFREPGDEDMETLETGSMSAMSGGYTEVCVMPNTKPVIDSPETIKFIIDKSQDLPISIFPIGAITLGQKGNELTEFYEMNKTGAIAFSDDGIPVTNSNVMRIALEYSKPLGVPIINHAEDLFLKNDGQLNEGILSTRLGLKGNPDISESIMINRDLEISEFTGGMLHIPHVSSKKSVDWIRLAKMNDNIKVSAEATPHHLTFDDTNLIPFDTNFKVAPPLRTSIDRKALINGLIDGTIDCIATDHAPHSIEKKTNPFDLAPPGMIGLESSFGAINKILSSEKLPIEKIIKFLTTNPRKIMKLNQDLFKVGTLAQITILDKDKEWIFDKDFIYSKSHNSPFIGNKLIGMIKIVISKSFIFQR;locus_tag=LOCUS_10200;gene=pyrC;EC_number=3.5.2.3;note=B5YLE1 dihydroorotase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:43.4%25%2C q_cov:97.4%25%2C s_cov:98.4%25%2C Eval:2.0e-91],MGA_1035
sequence13	MetaGeneAnnotator	CDS	26951	27379	.	+	0	ID=MGA_1036;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RFT2;translation=MKTYSIKASEINKIWHIVDAKDKTLGRLASSVSQILKGKHKPTYTPHMDMGDFVIIINAAKIRISGNKDKQKQYFSHSGYPGGTKFVDFQSLKKNNPEKIIENAVKGMLPHNTLGRKMLKNLKIYSDSTHPHEAQKPIIMEL;locus_tag=LOCUS_10210;gene=rplM;note=Q2RFT2 50S ribosomal protein L13 (Moorella thermoacetica ATCC 39073) [pid:52.1%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:9.1e-45],MGA_1036
sequence13	MetaGeneAnnotator	CDS	27382	27780	.	+	0	ID=MGA_1037;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HPM5;translation=MPNKKDTLSNRTGRRKTSIARVKISTGKTKFMINGKDYKSYFGRIVDQKLIEQPFDIIKTFDYEINVNVRGGGLTGQAGAIRHGVSRALVEINDEFKLPLKKAGLLTRDAREKERKKYGLRGARRAFQFSKR;locus_tag=LOCUS_10220;gene=rpsI;note=Q6HPM5 30S ribosomal protein S9 ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:57.4%25%2C q_cov:91.7%25%2C s_cov:93.8%25%2C Eval:4.1e-34],MGA_1037
sequence13	MetaGeneAnnotator	CDS	27790	28722	.	+	0	ID=MGA_1038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVNFDNLLTTGAHFGHLTRRWHPNYKPYILMEKNGIHIINLEETIKGLNKSLEFLSDLILDGGEILFVGTKKNAKDIIQQEADKCGMFYVVERWLGGTLTNFSTIRKSIKRLQLLEKESSPVYENATKKELLSLEREMIRLQDQHRGIKDMKRLPSALFIVDAKFESIAINEAKRLEIPVVSIVDTNTDPNIVDYPIPANDDSIRALKLIISQVSKTICERRSIEYPDSLKTKTDENDDLTESDISSKTLEENNLLNEKDNTEKNDVSTIENENSLLKDDVDLIKTEDKNILNVDKSNDSDINEVKKEN;locus_tag=LOCUS_10230;note=B5YGD9 30S ribosomal protein S2 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:52.9%25%2C q_cov:71.9%25%2C s_cov:85.8%25%2C Eval:2.1e-62%2C partial hit],MGA_1038
sequence13	MetaGeneAnnotator	CDS	28742	29368	.	+	0	ID=MGA_1039;product=elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RJP2;translation=MSTNIISASIVKDLRSRTGAGIMDCKDALKNCDGNLDDAIDFLRKKGIAKAEKKSGRQAEQGTVLSYIHPGNRIGVLVEVNCETDFVAKTDDFLNLVRNIAMQIAATNPISLDRNSIDEAKIEKEKQILLEQAKSSGKPEAILKKIVDGKIEKYFQENCLIEQPYIKDNDKSVQDILTESIATLGENISIARYSRFEVGDITISNNSN;locus_tag=LOCUS_10240;gene=tsf;note=Q2RJP2 elongation factor Ts (Moorella thermoacetica ATCC 39073) [pid:55.6%25%2C q_cov:94.2%25%2C s_cov:96.6%25%2C Eval:7.7e-61],MGA_1039
sequence13	MetaGeneAnnotator	CDS	29384	30100	.	+	0	ID=MGA_1040;product=uridylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YGE1;translation=MTKPIFSRILLKLSGEILAGEKGFGLDPNVAKKIALEIKSVNDLGVSVGIVIGGGNIIRGELAEVQGMDRVSADYLGMLATIINSITLQDALEKNNCETRTLSALSISQLAEPYIRRRAIRHLEKNRVIILAGGTGNPYFSTDTAAVLRATEIESEVIIKGTKVDGVYNKDPIKYNDAVKFQTISYREVFDKDLQVMDMTAITLAKENKLPIIVYDVNHEGGLKKILSGKKIGTYVGS;locus_tag=LOCUS_10250;gene=pyrH;EC_number=2.7.4.22;note=B5YGE1 uridylate kinase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:57.2%25%2C q_cov:99.2%25%2C s_cov:94.4%25%2C Eval:1.3e-73],MGA_1040
sequence13	MetaGeneAnnotator	CDS	30103	30660	.	+	0	ID=MGA_1041;product=ribosome-recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HEZ1;translation=MNDNIKSNISKRMNQAIDHCASELSQIRTGRASTTLLENLKVHYYGVPTPLNSLATITAQEARLLVVQPFDKSIIQEIEKSIQLSELGLNPNNDGTLIRIPIPSLTEERRLELVKIINNLIEESRVSIRNIRKDLNNQVKDLKKNSEISENEEIFQLEEIQKNTDDYISKINEMQKLKEKELLDK;locus_tag=LOCUS_10260;gene=frr;note=Q6HEZ1 ribosome-recycling factor ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:47.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.4e-46],MGA_1041
sequence13	MetaGeneAnnotator	CDS	30688	33195	.	-	0	ID=MGA_1042;product=ribonucleotide-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545329.1;translation=MADAMQYEFPVSDSKEKSSGSIDNSRQTPNNTTEEGLKTDLPEMLGESTPKQYTIDEYYKDDDLGKEVLQNKYLAPWEKNPYDMWKRIAKAMANVEKDVDLWYKRFFTLLEDFRFVPGGRIMHGAGREDITTTLNNCYVVAIKKDSIKSIYDTIQDEAITYKFGGGCGHDLSILRPSGSEIGGTGGESCGPTGFMNLFSENTNTIAQHGRRGANMQTIRIDHPDVKKFINIKNGNIDMVKYSNISVLLTHEFMKAVDEESEFNLTFDGEVYETVPAKDLWNQIVESAHASAEPGIIFWDTMKDHHNAEYCSPLVSTNPCGEQPLPDGGCCNLGSINLARFIDENQNFMMDAFKETVSVATRFMDNVVEYNIDRHALEAQKQNAINDRRVGIGLLGLGDMFIRMGISYDSGKALEVADEICKAMRDTAYETSVEIGKEKGSFPNFDWNGFSKSKFIEKLSPTLREKIKENGIRNSTLLTVPPTGSGAIVARVTSGVEPMFQSSYFRRVKQNEGYGNTFKEFKVYHPSIKELFGGDSDLPDYVVTAHDIDPYFRVKMQGVIQKYIDTSISSTVNLKAETDKETVGDIYMTAYKAGLKGITVYRESSREGILITEDQKEKESGSLVDSNEDKSLLNSEQSEKSHPVRSKKNLRPRFRPGETQGVTKRIRTGEGSLYITINEDENGLCEVFTTIGKAGGNAAAQSEAISRLISLSLRSGIDPNDVVKQLKGISGPNPTWENGQLILSTPDAIGKALESYLKGGTVEKNENKSLSINNTVNIDDDELNSTKTKFTMIDSSPENAPNYNPKTMTICPECGSNIKHENGCVMCLSCGFSKCE;locus_tag=LOCUS_10270;EC_number=1.17.4.1;note=WP_012545329.1 ribonucleotide-diphosphate reductase subunit alpha (Thermodesulfovibrio yellowstonii DSM 11347) [pid:35.6%25%2C q_cov:93.4%25%2C s_cov:99.5%25%2C Eval:1.5e-128],MGA_1042
sequence13	MetaGeneAnnotator	CDS	33424	34743	.	+	0	ID=MGA_1043;product=GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q182W6;translation=MSKLPIVSIIGRPNVGKSTLFNRVLHKRHSIVDKIEGITRDRIYEKVEWNSKIFNLVDTGGYIPNKSNVIDTAIREQINLALQESSLVLFLVDGKDGLLPSDKILAEIIRQSGKKTILVINKIDSNEMEPLSSDFLSLGFTTYASISGLAGRKIGDLLDLIVTDLNKNKELNNKVNENEIRVAIVGCPNAGKSSILNRLLGEKKSIVTNIPGTTRDAIDSEIKFFEKKFILIDTAGLRRKSKVKENIEFYSTVRTRRALENSNIGIVVIDAELGFIKQDNQIVEEVIRLGKGLIIIVNKWDLIEKETNTMKTFKNNMIYKFPNIQNFPILFVSAKTNQRISNVMKESLDVYKSWKIEFSTSKINKVLKDAVEKYNPPSARGKHIKIKYATQTGTKPPRIGIFCNFPHLVPMSYKNYLENQFRLSLNFFGTPLIIKYLKS;locus_tag=LOCUS_10280;gene=der;note=Q182W6 GTPase Der (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:46.3%25%2C q_cov:98.4%25%2C s_cov:97.5%25%2C Eval:1.4e-103],MGA_1043
sequence13	Aragorn:1.2.38	tRNA	34793	34867	.	+	.	ID=Aragorn_20;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_20
sequence14	MetaGeneAnnotator	CDS	403	828	.	+	0	ID=MGA_1045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVLYFIINKENIDLLKETSNDELSYANSFYSNHIETIFNENCIACHHDKKKLGGLNMLSPSKINLGGKNGSVITIGNAYKSEIYKRLILPISNEKHMPKGKDSLTKDEIKLIEWWINSGASFTKKTDNYIFPEKIKSILN;locus_tag=LOCUS_10290;note=MGA_1045
sequence14	MetaGeneAnnotator	CDS	839	1225	.	+	0	ID=MGA_1046;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011143408.1;translation=MFLFILYKTIKKITIFIMVVFYINVGILHFIDPDWFLPIVPPYLPFHLELVYISGFFEILLGCLLMFQKTRAFAGKGLILLLLAVFPANIYLAQTNGAAMNTTPLIAWGRLPIQFIFIGLAYWHSLDK;locus_tag=LOCUS_10300;note=WP_011143408.1 membrane protein (Gloeobacter violaceus PCC 7421) [pid:44.6%25%2C q_cov:93.0%25%2C s_cov:83.7%25%2C Eval:8.1e-19],MGA_1046
sequence14	MetaGeneAnnotator	CDS	1229	2002	.	-	0	ID=MGA_1047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007331802.1;translation=MTNSILKYYFFLITFFLVNINVVKAEKYKIHDLDRPKPSIVEVGNFSQNSSAPSDAIILFNGNGLDEWKSTKGKNIKWKSTKDYFEAKKGTGSIITKKTFGDVQLHIEWSTPIKIEGESQGRGNSGVFFMAGAGGWGYEIQVLDSYNNPTYADGQAGAIYGQFPPLFNAAMKPGKWQTYDIIFTRPRFDSEKNLIKPAYATVIHNGVLIQNHKEILGPTSHKIRAPYVMHQDRLPIQLQDHSNPVRFRNIWVRDLEK;locus_tag=LOCUS_10310;note=WP_007331802.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:48.6%25%2C q_cov:85.2%25%2C s_cov:76.4%25%2C Eval:5.5e-52],MGA_1047
sequence14	MetaGeneAnnotator	CDS	2155	3087	.	+	0	ID=MGA_1048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015063795.1;translation=MVLIPGGTYNRGANSHQSSPNEFPVHKVQVDSFYMDIHEVTNKQFLDFVNETGYITTAEKPINWNELKKQLPPNTPKPSKEFLLPGSLVFTKTKGPVSLLNESKWWSWVQGASWKHPEGPGSDIKNKMNHPVIHVSWYDAFEYAKWAGKRLPTEAEWEYAARGGNKNPIYPWGNDLIINSSKKANFWQGNFPYLNTLEDGFEYSSPVKTYDANNYGLYDLGGNVWEWCYDLYNENAYKIESKKDLCINPKGPKTSYDSNEPLAVKRVIRGGSFLCNDSYCTGYRVSRRMSTSEDTGLNHTGFRCVKSFDS;locus_tag=LOCUS_10320;note=WP_015063795.1 hypothetical protein (Bordetella bronchiseptica 253) [pid:48.1%25%2C q_cov:98.4%25%2C s_cov:82.4%25%2C Eval:6.2e-83],MGA_1048
sequence14	MetaGeneAnnotator	CDS	3188	4741	.	+	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYNLFKLSTIFFIISLIFISCNNKSAKIPNVKNEEAQMSTRPLYDEELRPQFHFSPKENWTNDPNGMVYYKGTYHLFFQHNPVGINWGNMTWGHSVSSDMVHWEEIEDAIVPDELGTIFSGTATVDWNNSAGFQVGDEKTIVASYTYCGSCEQFGDPGPDEPFTQAIAYSTDGGKTFTKYSGNPVLENIAGGGDRDPKVFWHEPSQKWVMLLYLDYKTDDFWTHRNWRFAFFNSDDMKNWTKVSEMKDIEMFECPEIFELAIDGNENNKKWVIYGASGDYIIGDFDGKTFTRESGRFRGDFGPNFYASQTYNDIPKSDGRRIQIGWMRDGEYPGMPFNQQMTFPVVLTLKTTEDGIRMFKEPIKEIESIYTSNSLSLSNQIVKPNENILEGFQASLLDVEVIVEPRGASDFGFTTNELTIRYYVDEGVLASGNRSYQKHTAPLKLDNGTLKLRLLIDRSSLEVFGNDGRVTLSSNYNGSDSVEENNMNLRFYSNDGEVLIKSLKIHELKSIWTES;locus_tag=LOCUS_10330;note=P05656 levanase (Bacillus subtilis subsp. subtilis str. 168) [pid:40.5%25%2C q_cov:90.7%25%2C s_cov:71.5%25%2C Eval:2.0e-101%2C partial hit],MGA_1049
sequence14	MetaGeneAnnotator	CDS	4767	5681	.	-	0	ID=MGA_1050;product=N-acetylneuraminate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005791099.1;translation=MKHIKIKGLIAAVHTPLNKDFSINFNYIKKQAEYLYKCNISGVYVGGTTGEGLSFSVNERSKLFKEWGNIIKDTNLIFIANISHEKQSSSSKLGIEAQNSGADFISSLCLDPNVNSPEELAKWLKPILNTTPDIPYFYYESPKFSRKKIDMEKFLIIANKELKSLVGLKYNNTNLEMLKKCINLNNRKYDILFGVDDMLISALELGCVGAIGSTYNFAGSLNNKILENFNSNKKNIAIKLQEFSIKYIKIMSKHNYLPSSKIVMNEIGINCGLCRDKNNHLNNEEVKSLYHDLNKINFFKEIKI;locus_tag=LOCUS_10340;note=WP_005791099.1 N-acetylneuraminate lyase (Bacteroides fragilis YCH46) [pid:32.8%25%2C q_cov:98.0%25%2C s_cov:99.3%25%2C Eval:2.7e-43],MGA_1050
sequence14	MetaGeneAnnotator	CDS	5709	6452	.	-	0	ID=MGA_1051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004438834.1;translation=MRKIFQIKTLIFSIIFILSFNSIIYTKDNKDSKKILFVYGGWEGHEPEKMRDLIVPWLESEGHTVTVSPSLDSYLDKKLMKKLDLVLQIYTMSEITEDQEKGLLKAVRDRGVSLAGWHGGLGDAFRKNVEYQFMVGGQWVSHPGDIIDYTVNIIDHDDPITKGLKDFKVKSEQYYMHVDPINEVLATTTFNDEHSYWIDGVTMPVVWKKKYGKGKVFYTSLGHTRDVFDIPEAWTILQRGIKWALEK;locus_tag=LOCUS_10350;note=WP_004438834.1 hypothetical protein (Agrobacterium fabrum str. C58) [pid:52.8%25%2C q_cov:85.8%25%2C s_cov:98.6%25%2C Eval:1.1e-62],MGA_1051
sequence14	MetaGeneAnnotator	CDS	6466	7953	.	-	0	ID=MGA_1052;product=carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765651.1;translation=MPKKQFSIGFDIGSSSVKASLLNLENSKVETSDFFPKKEMPIIAKKNGWAEQNPELWWENLIRSSKAIVANINSNDEIISIGISYQMHGLVILDNNDEILHPSIIWCDSRSVKIGERALNDLGKDHCLNNYLNSPGNFTISKLKWIQENKPDIYSKIKCIMLPGDYIAYKLTGKINTTISGLSEGVFWNFKNQSLAKELFDYFNLSTNLIPEIVNTFEDQGRLSYEASKETGIKEGTPISYRAGDQPNNAFSLNVLNSGEFAATAGTSGVVYGVFDKPVFDKQMRVNTFSHVNSQLSNPKYGVLLCINGCGILNSWLKNQLFNNEFSYEQMNNMCKDINIGSDGLVIHPFGNGAERIFNNKDIGANIFGLNFNIHTKNHFIRSVQEGIACAFKYGLEIMENINVKPNVIRVSNANLFLSPIFCETFANICNTKIEIYNTDGAQGAATGSAIGIGYYKDFSTSFKNLKIIKEYQPDIKFLHEYKNTYLNWKKYLKS;locus_tag=LOCUS_10360;note=WP_008765651.1 carbohydrate kinase (Bacteroides thetaiotaomicron VPI-5482) [pid:54.9%25%2C q_cov:98.0%25%2C s_cov:97.8%25%2C Eval:3.7e-153],MGA_1052
sequence14	MetaGeneAnnotator	CDS	8077	9411	.	+	0	ID=MGA_1053;product=xylose isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8A9M2;translation=MSRNIVTGKTEFFKDIKKIQYEGKESDNPLAFKFYDPKLKVNGKTLEDHLRFAIAYWHTFGPNGADPFGMDTKDYPWLKNNDPLSQSMEKMDAAFEFISKIGAPFYCFHDFDIANPASSFLESEKRLNKMVDYALEKQNDSGIKLLWGTANLFSHPRYMNGASTNPNFEVVAYAAAQVKNAIDATIKLGGQNYVFWGGREGYMSLLNTNMKKELEHLAMFLTQARDYGRANGFNGTFLIEPKPMEPMKHQYDFDSATVIGFLREFDLVDDFQLNVEVNHATLAQHTFQHELQICTNADMLGSIDANRGDYQNGWDTDQFPINIYELVESMMVILKNDGFSTGGINFDAKVRRNSTDLNDIFISHISGMDAFARSLIIANKILSDSELPKLLMERYSSFQTENGKKYEKGELTLEELYDLSLKFGEPEKISGKQELFESIINNYI;locus_tag=LOCUS_10370;gene=xylA;EC_number=5.3.1.5;note=Q8A9M2 xylose isomerase (Bacteroides thetaiotaomicron VPI-5482) [pid:61.2%25%2C q_cov:97.5%25%2C s_cov:98.9%25%2C Eval:6.7e-159],MGA_1053
sequence14	MetaGeneAnnotator	CDS	9421	13179	.	+	0	ID=MGA_1054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNILKISILVSLFSLNFSCIKVDGIEYNRKISKVNTEVNRDRMPWAFRINMDERVRNIILALNKELWLAYDAQKSGLYKAWVGGVNFDGIIYNNAHGLQPTSRGVPYLVDELKESPWSIHTENGSQKIDAEYNGYKLFGDKIKLEYKIILDNQQEVIISETPEYIESANMNPGLHREFTVVGLPSGYELSQNIKFENLIDVDNLHSNSKINIKSIKTNKDENGFKVDAEIFLKKNGSTILQSFFPKNLYVHETKNKGSEQKVVNSVYEELDGKALIGKLGCVACHYIDKGVLGPAYQDVANKYDNSDETKKYLVKKIQTGGKGVWGPRLMPPHPHIDDATGLKIVDFILSLDTFQDGEYLSGVAVDFYDVGQELPSMPKLLPGQNPSVSQVFPDLFFQSGNPDVGWEDQTTDDFLDFFRYFTMDIDAYLKIDEPGEYEFRFLADKGGSFKLNDEELGYIENLGYVDWGGGNPERFNEYFEYFKAESSPSLKSYGSKFLDKGYHKIDIEFYQGILTMAIVLQWRKKGDSKFEMIPESVLFHDPRDIKPTSAGLKEIYKTSPPGLGGSLISVHPSFDLLPARPDSFEPRVGGMDFLSNGDLAIATWDGEVFIVKNSMSGDPSKMSVKKIADGLCEPLGLAVANDEIYVQQRWELTKLIDLDGDEITDHYYPFSDDWEHSSGFHAWGFGLTYRDGFFYTNTGPQINYGNPKDAGKTLKISITDGTWKAIAHGYKAPNGIGFGYGGDLFTTDNEGGYVPTSKLMHLDLDNEEEYPFFGNAYAMGKDRASAKKVAKNYKIKPPVVWTPQNEIGNSPSEPGILNQGPYKNQMIMGDARHGGLKRVFIEEVNGQLQGALFRFTQGLEAGINRFVWGPDSSLYVGGVGGTNDFTWEGKRFGLEKLTYNGKTTFEMLSVKIKSNGFEIEFTEPIRLGDGISPSDYLVQQWWYDLDSEGGVKQDLQTLDIESLSISTDRKKVFLQINNLSQSDHKGFDVVYIKMVKPFFSESLQPLWTSEVWYTLNEIPSAVNSSKTLTYFREDNLLSKEEKKYGWNLIFDGETFNGWKNFNNKKITNDWEIVNGMISNKSQNVSLVSENEYENFELEFDWKIDRATDAGFYINLTSEFLKNKNLPPGLEMQIIDDNSHPDAAESNTRVTGSLYDVIPSKLLISNPPGSINHSRIVSKNGQIQYWLNGLLVLEYETNGDFWNKAGVEHPYFSYNMNDSGYIGISAQEGKISFNNIRIRNLAEKELIGSLD;locus_tag=LOCUS_10380;note=WP_008767657.1 hypothetical protein (Bacteroides thetaiotaomicron VPI-5482) [pid:29.7%25%2C q_cov:16.5%25%2C s_cov:48.8%25%2C Eval:1.8e-22%2C partial hit],MGA_1054
sequence14	MetaGeneAnnotator	CDS	13180	13821	.	-	0	ID=MGA_1055;product=pyridoxine/pyridoxamine 5'-phosphate oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F6Y3;translation=MKITDKILKEIRLEYGNKKLERKDLEKEPILIFQDWFNDALLSKVKEPNAMALATSKNDFPKVRYVLFKGIINDSITFFSNYDSKKGNEIKNNNLVSVVFYWREIHRQIRIEGTIKKTSKKISDDYFNSRTDGAKISAISSPQSQIIENREILEKRILKIKTKHIEFRRPDFWGGYIIKPSIWEFWQGRDNRSHDRFIFEKKEKNWEIFRLAP;locus_tag=LOCUS_10390;gene=pdxH;EC_number=1.4.3.5;note=Q8F6Y3 pyridoxine/pyridoxamine 5'-phosphate oxidase (Leptospira interrogans serovar Lai str. 56601) [pid:45.1%25%2C q_cov:98.1%25%2C s_cov:99.5%25%2C Eval:2.9e-47],MGA_1055
sequence14	MetaGeneAnnotator	CDS	13875	14924	.	+	0	ID=MGA_1056;product=tRNA 2-selenouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8EKA0;translation=MIVNNYYQILKSNYSLIDLRSQSEFEKGSFPNAINIPILNDDEREKVGIEFNNFGKNSALDLGKKLVNNSEKKKRVNLWLNHLNKFPKTNLLCMRGGLRSHIAQEWLRENGKEVPLVLGGYKKLRNHCIKILDRIEEIDQNWIIIGGRTGSGKTKLIKKISNSIDLENIANHKGSAFGSNTTLQPSTINFENKLAVEFLQKKLNKFLILEDESRSIGKRTIPEKWYQKMKKSQVYILETTFEDRVLNIRKEYVDEKIQSNVTKELLKNSIINSLYNIKKKLGGVNFQKISNMILKSFSQNNMNNHNEWIGSLLKLYYDPMYDYQLLQKKERISFAGNFDEIKSKLIERF;locus_tag=LOCUS_10400;gene=selU;EC_number=2.9.1.-;note=Q8EKA0 tRNA 2-selenouridine synthase (Shewanella oneidensis MR-1) [pid:39.1%25%2C q_cov:95.1%25%2C s_cov:91.5%25%2C Eval:2.0e-67],MGA_1056
sequence14	MetaGeneAnnotator	CDS	14965	17127	.	+	0	ID=MGA_1057;product=dipeptidyl carboxypeptidase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011036603.1;translation=MLVKNFYKITLIFLTTFFSGCSNSSNISEDISQEKEIEVNITNPFFNKSTLVYGYPHFDKIKNSHYLPAFEKGMKEHINQINEIIKQQEKPNFENTIIKLEKSGELLNRVSYVFYSMSWANTNDSLESIRTAIAPQLSAHNDEILLNEKLFNRVENIFKNKENLTLDSESLRLLEETYKSFIRSGAKLSVDDKEKLKQINESIAQNTTTLTQNVLKEVNELAIVVDNRNELDGLSESMIEVLSQEAIKRGLDDKFVITLQNTSGQPILANLKNRKLREKIHKTSLSRGSSGGEFDNRESFLNLIKLRTQKANLLGFNNYAEYSLDEQTAKTVEAVNERLASLTPPSVRNANKEAIELQKIINSEDNNFKLESWDWDFYSEKLMQQQYQFDESEMKPFFELNNVFFKGVFFSAEKLFGLKFKEITTLPIYHPEVRTFEVFDKDESLISIFILDPYSRSSKRGGAWMNAYVPQSKLLNQKPIIANHLNINKPADKNDPTLMTFDEVITAFHEFGHAIHGILSDVNYPSFSGTSVPRDFVEFPSQVYEMWATWPEVLENYAIHFKTNEPMPNDLLQKVLDARKFNQGFKTVEYLAASLLDQAWHQISIDETPNLNDFLTFESNALMSAGIKLNTIPPRYRTTYFSHIMGGYSAGYYSYIWSEVLDADTVEWFKENGGLKMENGDHFRETLLSKGGSKDAMNLFMDFRGQKPDIKHLLNRRGLN;locus_tag=LOCUS_10410;gene=dcp;note=WP_011036603.1 dipeptidyl carboxypeptidase II (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:54.0%25%2C q_cov:94.2%25%2C s_cov:95.3%25%2C Eval:6.9e-215],MGA_1057
sequence14	MetaGeneAnnotator	CDS	17150	18604	.	+	0	ID=MGA_1058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVKYFIILVFFSLVFSQQVTIDKKKILILPQNKNDEISYQITRIFSGQAAKLKRFEIIDRNNLSKILEEQSLGLTGVIIDDDIVEIGNIAGADEGILINVIAFGQKGVKPKEEIEEEKKDREKIRKSGVVSIIARDIIKAVIENDKNKKNELYPNNIHTTIRVQYDIINLKTGQTIDSYTSNSNYTGGNLSYSLSQALSIISQDIQFKLRSFYSLTSEVLDVNGNNLTMLLGSNIGVKKGSIFMIQTPEKSREIRGRVITIPGENIGYARVERVSDDANTSRVLRKWSKIKPGMIALENPKRTYVGSFSFGFSETSPEALINLKISSNPFGKLDGKISFQGGSLKTKFLTYDQEVSYKSTGFVGLGIHLDYNLLNVPFGLLTTGLTLPFYFTSTKDDYDNEVSSVLSGLLLESSLSFMINPKFDFIFNLSLPITEFNNSNWTFLDENDDDSSNETDAVWINQYSPESLFQDFQLSLGFRFFIF;locus_tag=LOCUS_10420;note=MGA_1058
sequence14	MetaGeneAnnotator	CDS	18770	19840	.	+	0	ID=MGA_1059;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403490.1;translation=MDGFILDKGFQVYLTDYSLGKKFLNYSNLNFCFFKPGAKIYKNSNFYHISDPLKNPQELHKTLFSPLASFSDKLKILYLKNLLSKFDNDDFLNDKDMSTKEYLKKFGFSLKFINDFFVPFFGGVFLENELTTSSSFFKFVFSKFSKGSVVIPKKGMQEIPNQLYNNISEEKVILNTKVVSLDNNKAIINDGTFIEFKKLVLAGDINDVNPRMIKYNSVKCFYFVCDEKISNDKYIHLFPEDDLINNVVFINNISPSYAPNDVSLLSISLIGNFLKTENLIKIIQNKISKIYRINLNKIHFLKKYQIDKALPHQSKGYYERNIKPSRDYFFSGDHTTHSSIEGAMLSGKRIADRLIN;locus_tag=LOCUS_10430;note=WP_011403490.1 oxidoreductase (Salinibacter ruber DSM 13855) [pid:28.8%25%2C q_cov:98.9%25%2C s_cov:87.1%25%2C Eval:1.5e-41],MGA_1059
sequence14	MetaGeneAnnotator	CDS	19833	20612	.	-	0	ID=MGA_1060;product=UPF0246 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87SC0;translation=MIAVVSPAKTLDFDSPSQSNSYSQCDFLNESSKLVNETKKLEKEDLKRLMNISDKLASLNSDRFQNWSIPFNIKNSKQAIFAFQGDTYTGLNANSFDSNDLSYAQNHFRILSGLYGLLKPLDLIQPYRLEMGIKLKIETNKNLYEFWSNKISLKLNEELKKHKNKTIINCASNEYFKSVDLKTLNGKVITPIFKDIKNGVPKLISFYAKKARGMMSRYIIQNKIEKTSDLLDFNTSGYLYSRKDSSEINPVFIRKEKSN;locus_tag=LOCUS_10440;note=Q87SC0 UPF0246 protein (Vibrio parahaemolyticus RIMD 2210633) [pid:53.5%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.2e-75],MGA_1060
sequence14	MetaGeneAnnotator	CDS	20637	21083	.	-	0	ID=MGA_1061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYTQEVSIKKSTLNQIKKNFQEPAFIKFLIIGQPVKILKWEGIKNNMEAQFKIWLFKWHTMSVYHSDFESSNNSFEFKDHGKILPFGLISWLHIHRIYKKNELIIIKDELNFKHKNNFLGIFIYPIMVFPIAIRKILYPVYFKFLKK;locus_tag=LOCUS_10450;note=MGA_1061
sequence14	MetaGeneAnnotator	CDS	21214	22455	.	+	0	ID=MGA_1062;product=ornithine--oxo-acid transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962898.1;translation=MKENKISTTDAINLEHKYGAHNYKPLPVVLKKGDGIKVWDVEDNEYLDFLSAYSAVNQGHSHPKIISVLIDQAKQLQLTSRAFYNDVLGTYEEFITQLFGYDKVLPMNTGVEGGETAIKLCRKWAYKVKGVKKNKAKILFVEGNFWGRTLAACSSSSDPDCYEDYGPFIPGFEIIPYNNLESLRIALQDENVAGLMLEPIQGEAGVIVPDEGYLKQAYNLCKENNVLFIADEIQTGLGRTGKMLCCDYENVKPDILVLGKALSGGMLPVSAVLSSDEIMLTIKPGQHGSTYGGNPLACKVAQTALSVIIEEKMVENSYNLGKIFRSKVAQTMERTNLIKEVRGKGLLNAIEINDSPNSRTAWNICIELKNNGLLAKPTHGNIIRFAPPLIINEKSILRACEIIETSFLAYEKK;locus_tag=LOCUS_10460;gene=rocD;EC_number=2.6.1.13;note=WP_011962898.1 ornithine--oxo-acid transaminase (Flavobacterium psychrophilum JIP02/86) [pid:59.3%25%2C q_cov:98.5%25%2C s_cov:98.6%25%2C Eval:7.7e-138],MGA_1062
sequence14	MetaGeneAnnotator	CDS	22442	25267	.	+	0	ID=MGA_1063;product=glycine dehydrogenase (decarboxylating);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F937;translation=MKKNSFTDNFQKRHIGLLSNDEKKILNFLGFNNLDDFINEVIPNSIKQRKKLIYPKNLSESKVIEKLDEYAKLNTTGKCYIGQGYYPCIIPQVILRNILENPSWYTAYTPYQSEISQGRLEALLNFQTMVSDLTGLPISNASLLDEGTAAAEAMNMFFRKSKNGSIFLVDSECHPQTIEIIKTRAEALSIKINVEHYSKFKFNNEVFGAIIQYPNSSGEIINYSDFINEAHKNNTFVCVASDLMALTLIKPPGEFNADVVIGNSQRFGVPLGYGGPHAAFFSTSNEFKRLIPGRIIGITKDKDGNNAFRMALQTREQHIRRDKATSNICTSQVLLAIMVSMYGVYHGPEGLKSIAETIASKTKFVHKILKKSGIEVLTSTFFDTIRFFPQNDWKLIAKEKNIFIREFNDNSVSVSLDETKDENDIINLLKCFGVQVKDVVLEKNNFNGHKRKSRFMQNDVFNFFHSETKLMRYIRKLDKKDFSLANGMIPLGSCTMKLNASSQLHSLRNPGFSNLHPFVDKKHSKGYKLMIDDLKKWLTDITGFNDISFQPNSGAQGEYAGLLVIRAYHKKNSQQNRKICLIPSSAHGTNPASAILAGMEVWVINCDNHGNIDKNDLIEKVKKANNDLAALMITYPSTHGVFENDMIEICKIIHENGGFVYLDGANMNAMVGLSKPGEIGVDVCHLNLHKTFAIPHGGGGPGMGPICVSKKLSPFLPKNLFEDNNNNKIGPISSSDYSSASILTIPWSYISMLGGSGLSKATKIAILNANYLAKKLSNHYKILYTAKNGLIAHEFIIDLRPFRKSADISEEDIAKRLIDYGFHAPTMSWPVVGTMMIEPTESEDINELNRFAESMISIRKEIKEIEDGICDKNNNLLKNAPHTALKLLEDNWNYSYSRKQAAFPLKNSNENKFWPSCSRVDNALGDRNLICTCLPVEMYKK;locus_tag=LOCUS_10470;gene=gcvP;EC_number=1.4.4.2;note=Q8F937 glycine dehydrogenase (decarboxylating) (Leptospira interrogans serovar Lai str. 56601) [pid:53.2%25%2C q_cov:99.1%25%2C s_cov:97.8%25%2C Eval:7.0e-303],MGA_1063
sequence14	MetaGeneAnnotator	CDS	25272	26507	.	+	0	ID=MGA_1064;product=peptidase M48;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933175.1;translation=MEPIFYIIIITAIVFEYLISSTSTILNMNSISETLPKGFEGVYDEDKYAKSQKYLKSNSQFSLFSSSFSFLLIMVVIHFGFFGILDEFVRSKTTNPVYGGLVFFLIIFVINDLINLPFSLFKNFVIEEKFGFNKMTISIFIKDKLKSYFLIFFIGGITMFLILSFFNYFDEFGWLIVWIFLTFFSILIQPIFIHFIAPMFNKFTPLGDGELKTAIAKYSKKNNFPISKIDIMDGSKRSNHSNAYFTGFGKSKRIALFDTLVKNHNTDEIVSVVAHEVGHYKKKHILFGMIVSVIQTGLMLFLFNIIINRVGLFNVFGVSEPSIYGGLVFFGLLFAPLNMVISLISIAISRKNEFEADQYALETTKNPKALISMLKGLASSNLSHLTPHPFTVFLEYSHPPVYERVKKIEKK;locus_tag=LOCUS_10480;note=WP_010933175.1 peptidase M48 (Chlorobium tepidum TLS) [pid:44.3%25%2C q_cov:97.8%25%2C s_cov:96.9%25%2C Eval:1.7e-100],MGA_1064
sequence14	MetaGeneAnnotator	CDS	26494	27033	.	+	0	ID=MGA_1065;product=flavoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007328411.1;translation=MKKNKYLVINSNMNKDSKSSFITDLLIKKINEKNDSKFNSELILLSEFDLPLCNGSNHLNNKIVLDLNHKINKSDGIIIFTPIYNYNINSALKNLIEMTGNAWKEKFLAFVCIAGGEKSYMSVMSLANSLMLDHRCVIIPRFVYVTGTDFITDSKLNDNIMTRINGLVDDLIKFVKSLT;locus_tag=LOCUS_10490;note=WP_007328411.1 flavoprotein (Rhodopirellula baltica SH 1) [pid:38.2%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:4.2e-32],MGA_1065
sequence14	MetaGeneAnnotator	CDS	27052	27516	.	+	0	ID=MGA_1066;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKGSINRVILVGYLGSKPEFAQTPSGTNVANFSIATTESRRNSEGINEDRTEWHRCVVFGRSAEIAQNYLDKGSLIYIEGRLQTDSWEKDGIKRSSTKVIGDMFTMIGPKQNSRSNETFTEPVNEPNNTETFSNKASNTSNSNNTEDDIDLPF;locus_tag=LOCUS_10500;note=Q747Z8 single-stranded DNA-binding protein (Geobacter sulfurreducens PCA) [pid:52.8%25%2C q_cov:69.5%25%2C s_cov:74.0%25%2C Eval:3.2e-26%2C partial hit],MGA_1066
sequence14	MetaGeneAnnotator	CDS	27569	28018	.	+	0	ID=MGA_1067;product=AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933079.1;translation=MIMDKKDKEILNILQENGRMTASEISDRIDLSIPTVAERIRKLTEFGFLKEFRAIAGAKKVGYDVTAYILLDMSSASDYNDVVEKSKKNSEVLECHSITGEGSHILKIRTRNTSSLELLLRDIQAWPGVRRTRTMIVMSTIKETTNLPI;locus_tag=LOCUS_10510;note=WP_010933079.1 AsnC family transcriptional regulator (Chlorobium tepidum TLS) [pid:42.1%25%2C q_cov:97.3%25%2C s_cov:83.3%25%2C Eval:2.1e-29],MGA_1067
sequence15	MetaGeneAnnotator	CDS	146	1414	.	-	0	ID=MGA_1069;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946024.1;translation=MINNKKNIFYWCLYDFGNSAFFTLVVTFVYATYFTQVISPDEITGTLFWSRGISISAILIAILSPLLGVIVDQGGLKKKMLIYTAVAGFLSTVLLFFPSEGMVFEALFFFIIANVAFELGQVFYNAYLIDITSMDRVGKISGYGWSAGFMGGLVVMFIAMIGFVEAETPWFGFSKNGENIRATNLLVAFWFLIFSCPLIFSMKDESVKFNKNLFKLFNDSFNQLKITYRDLNNYREISKFLIARLFYNDGLVTIFAFGAIYASGTFNFSFSEIMLFGIILNITAGIGSLVFGPIDDKIGGKKTILISLIGLIFGTILAISAQNKNMFWIAGILVGIFSGPNQASSRSLMARIVPKKYSNEFFGFYTFSGKFTSFLGPFLLGIITKTFDSQRAGIFIVLFFFITGLFCLLTVDVNKAILMKNK;locus_tag=LOCUS_10520;note=WP_010946024.1 MFS transporter (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:41.5%25%2C q_cov:97.2%25%2C s_cov:97.2%25%2C Eval:8.3e-87],MGA_1069
sequence15	MetaGeneAnnotator	CDS	1424	2995	.	-	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVLLALFTFSFLNAFSNFTLPKNVWRFSVNNEQSISQWKSSGKVKGFHSEVFTLKNYDIKYFDHKNQNSFKDLNDLGDLEITVSENVQKIITDFDALSSSKGWGFQLYDFTENFFGPDSVKLNGQIFNTESKFNYNKIFYDIEFGISNKTTLMISIPVFLTANQNEYWSWNGMEFENGRIEDFLNYHNENKKNFEEIFSSPIKDSIPSFMFEKINSVYNAYYDESGEYSILWALNSGNDPFKVIYDSNYNPFSESIDSTSIDSIMNYFYPQRSSSGLGDIKLGVNFHLFGSPVWVGESIFSVYGGLGITIPSAKLLSIYKKNDLLIPNQFKELPLGKGLSALNASLFGEFYTNYRSRLIRFNWLIKSIFNREGKFNTRVSPRGIFIIDDESILLNLGDTYRMKLGNETLGNLNASIELFPKRLSFSFGQTWYYKNRDKYFSKNSFWNEWMGGGTDIHKGYDTKTLMVYQKLSLTFHNSYFSNQISSIPFELDLSLNIPIITNHNWHAYRLNLSFITFFQFW;locus_tag=LOCUS_10530;note=MGA_1070
sequence15	MetaGeneAnnotator	CDS	2995	4269	.	-	0	ID=MGA_1071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P40407;translation=MKINIFLIILSCNLVFNQNYNNSKIINVPNMDFLPGVFTGLDILIERNFDLIKNKKIAVFTNQTSVDRNGNHLLDILSNYSDLFQIKVVFTPQHGVLLNPYQNIESSENNIDLIFNSKIKRLWNNEYIPTANDLFDVDIILIDIQDTGIRFHTIMTTLTKIMESASTNSIPVLLLDRPNPLNGVIIDGPIVRPKYQSFRGYHLVPIRHGLTIGEYALMINETGWIRKSLKCDLTILPMSNWKRSIVDYNFKLPYWKNINSYKALKLSYGMSLFEGTNLSFGEGTLKPFQVIGSPWLVPDQLISGLRKKKLEGVNFIKTEFFPDSISNLISNPIYKGTKCYGVELEIYDIDKFDPLKTALSILSIIANLDRRFQWTGSNYIDFLFGHNYLRLFIAQKREINKLPATWSKEVIKFNEFRERFLIYN;locus_tag=LOCUS_10540;gene=ybbC;note=P40407 hypothetical protein (Bacillus subtilis subsp. subtilis str. 168) [pid:33.6%25%2C q_cov:91.7%25%2C s_cov:91.8%25%2C Eval:7.7e-56],MGA_1071
sequence15	MetaGeneAnnotator	CDS	4266	5669	.	-	0	ID=MGA_1072;product=sodium:solute symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933713.1;translation=MQNLDLLVIIIYFIIILFVGYINGRNQVTTSEYFLGQKKISWYLIMLSVVATETSVLTFLSIPGLSYIGNIGFLQLSLGYIVGRFLISIYLLPYYFNNSIESTYEILKIKWGKNIQRFVSAVFQVTRVLADGVRLFMTAIPLSLITGWSYTICIFIITITTLLYSIYGGIKSVIWADSIQFFIYLIGGFLTIYYLNILIDGGIYSIIEIGLKNEKFEFLQFSNPMTNPYNFFTSFFGGIFLSFASHGTDHLMVQRLLSAKNISSSRKALIGSGFIAFIQFAIFLFIGIGIWVFYEGKEISSNEVFSSFLLNYVPSGVKGFLIASIFSAAMSTLSSSINSLSSSTMTDWIKDIIPANYNIKFSKLISFLWALIIAFSALIFTSTSGPLIEIALSISSITYGGMLGFFILNFMKKNISTFFIVISFMISMLSMIYIVNFTSIAWPLFTLIGSLIMVIFAFILNQLFSKK;locus_tag=LOCUS_10550;note=WP_010933713.1 sodium:solute symporter (Chlorobium tepidum TLS) [pid:38.3%25%2C q_cov:93.6%25%2C s_cov:93.6%25%2C Eval:5.4e-90],MGA_1072
sequence15	MetaGeneAnnotator	CDS	5680	8454	.	-	0	ID=MGA_1073;product=beta-N-acetylhexosaminidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S5L3;translation=MKKIILNILFLNFYLNAFSMNVDEFINKLSLEEKIGQMFMLRYTGDFYRNDDSRFVEIKKMITKHYIGGIVTYVGSVHGTIYNLNELQSFSKIPLLIAADFERGVGQKISGATLFPSSMAMSATNDSKLSYEHGRITAIESRALGVHVTFAPVLDVNSNPKNPIINFRSYGDSPDIVTKYSSEFIKGCQENGIIACIKHFPGHGDTGTDSHTTLPVINKSEKKFREIDLLPFKKAIEANVKMIMTGHIAVPSMDSTNTPATLSYELSGKIIREEFKYEGLIVTDAMEMGGITESYWSSEAAIKTIEAGSDIILLPIDNLSAIKGVIESVRSGRISEKRINNSVKRILKSKLDLKLWNNKKIDFNKSRDILGKPSHKRIAAQAAKKSITLINDKNNLIPIDISKTKSIGHLLLATSEGMLKYSNTYRSKISRIHGNVISDFYSKTLSKSEINKIINDFENSDLIIISLLIRVAQDLGTYTIDSSHRELIQKLQKTNKPIIVTSFGSPYLDDVDSIETYIAAYYYGSISMNAMVDALFGSEEINGKLPVTLSKSLQQGKGLNRHKKNILSEDYQSYDFSSAKKIINNAINDSIFPGASVVILKNGKKVFNFQSGYQTYEKKIKINSESIYDLASLTKVVATTPVAMKLYSQKRLPLDEPIKDFIPIFSGEEKNKVTIRHLLTHSSGLMAFDTFPIDFSKDKILSEIIKKPLINDPGSEYVYSDFGPILLKNILEIVSNKKFEKLSSNYIFKPLKMKNTFFNPLPKYLKNIVPTEVDTIYDRGLLKGIVHDERAWQLGGVAGHAGLFSTTDDLAKYCQMMINGGHLGGIRYFNSSLINQFTEKQNLPEGTNRALGWDTPSKKGSLAGDFFSEGSYGHTGFTGTSMWVDPNEKIGIIVLTNRVHPSRNRSGMRDFRVNFHNDVMKTLK;locus_tag=LOCUS_10560;EC_number=3.2.1.52;note=Q2S5L3 beta-N-acetylhexosaminidase (Salinibacter ruber DSM 13855) [pid:36.1%25%2C q_cov:94.5%25%2C s_cov:89.8%25%2C Eval:3.0e-157],MGA_1073
sequence15	MetaGeneAnnotator	CDS	8465	9568	.	-	0	ID=MGA_1074;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HJQ1;translation=MAKPIIEIDLDRLENNYINIKKIIGDNSLLAVVKADAYGHGVIPISKKLESLGVNFFAVFTIDEAIELRKNGINADIIIFERLSRESYKLAIKYNIIVNVSWFSDLEIFIENMIKKQNFPKYHLKIDTGMTRLGIPYESSFEFLNNFIEKTNLIPDGIYTHLATADEGDLSFAINQKEKFDNILSIIKNKIDLKWVHISNSGGVSNLDNSNYNLVRVGMLLYGALPSNSLKKVPQIQPVMNFKGEIVLIRRVKKDIPISYGGLYKTVKSSNIGVIQVGFADGMPRAWFERGYVNWNGKKYKICGRICMDQFMVNFENDKPAEGQKVLIWGKDNQNHIPIEIIAEDIELNPYNLFTSISDKRATKIIK;locus_tag=LOCUS_10570;gene=dal;EC_number=5.1.1.1;note=Q6HJQ1 alanine racemase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:34.0%25%2C q_cov:98.9%25%2C s_cov:93.9%25%2C Eval:5.3e-55],MGA_1074
sequence15	MetaGeneAnnotator	CDS	9561	10502	.	-	0	ID=MGA_1075;product=N-acetylglucosamine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861264.1;translation=MNQSNLILSIDGGGSKTDFLIADVEKYIKYERSGPGSNPNFYGSLGIKNLIEVLINMFDSNGINKDKVKSVILGLAGISNKKYSKSLNDFFEDYFPRKKIILTSDAELAHKTIWGDDKGTTLLVGTGSIGISNSNENKKFVISGGLGFDQNDIGGGYWIAKTLILFLISNKGFENNTFYKELIELVKEHYGKNNFDEVLNYSLGEEGRFGLANLSPKIIKLAEIGNEIAYKICDDGCDGLKEIVMDLKSKNIIYDKIGIHGSLILKNEFYRKMLFSKLIDIDWKKSNHKAVFGGLSILENINPNNYKKFINHG;locus_tag=LOCUS_10580;EC_number=2.7.1.59;note=WP_011861264.1 N-acetylglucosamine kinase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:26.8%25%2C q_cov:93.0%25%2C s_cov:95.3%25%2C Eval:4.2e-18],MGA_1075
sequence15	MetaGeneAnnotator	CDS	10489	10956	.	-	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAYLSGGMENAKDSGSQWRNKIKLWLKENLDHDVIDPVEIQKKTLTKYEIKNYRNWINKNPQKFNNIIHKIIDRDLSLIKNNADYIICFWDESVILGGGTHGELTMAYYFSKPVYLVLNLPINKTSSWILGCSTKTFTNFEDLKIDLLQQHESK;locus_tag=LOCUS_10590;note=MGA_1076
sequence15	MetaGeneAnnotator	CDS	10953	11702	.	-	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFKAFFVRRIQFFLHHFLFEISISLLLPIFFMLAVGFVLSSQSPVYKNFPNESWILIGIIFSISFAFSFLFTYSDIQTIKKSQLLSQINISPISQISFIFNYLLSIIPLEFARSILIFIILQLLIGVFFNIQFYFIYLFFIIINIFLSSNLGFTFGMSNYNFEKSSIPIFLFLLFIYFFSCWLIPISFFPNSLHIFIEFFPTYIMVESLRSILFIYSFDMIFLIFVLFFIIINYMFNIYIYSKNLNR;locus_tag=LOCUS_10600;note=MGA_1077
sequence15	MetaGeneAnnotator	CDS	11706	12620	.	-	0	ID=MGA_1078;product=antibiotic ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963559.1;translation=MEASVSLKKIGKNIEKESILAGLSFGIERGSITSILGPNDSGKSLLLNMIAGGLSPDFGSIYINGNNIVNREKKIFSKIGYMPQYINLDENLNILENFQFHARLYEMNQKLIVERISFLSEQFRIDKLLYKFPKELSFGFLRKIMLVRTLLHDPSIILLDEPLISLDLKSKNRFWKFINKIKDDKTIIYTTQYLKEIENIDERIIFLSDGKIVLDGTYNQLINKTGNLYKFVLKFKNLNDKLFNELSNNSLLIESKRDKNIFEFYGKNKEELFKVLKNVLNDNLIDIEINKIDLDTLFLNSTKE;locus_tag=LOCUS_10610;note=WP_010963559.1 antibiotic ABC transporter ATP-binding protein (Clostridium acetobutylicum ATCC 824) [pid:27.5%25%2C q_cov:98.0%25%2C s_cov:97.4%25%2C Eval:5.9e-30],MGA_1078
sequence15	MetaGeneAnnotator	CDS	12624	15335	.	-	0	ID=MGA_1079;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082086.1;translation=MKETKKNSFYLIDGYALLYRSHFALIRNPLINSKGQHTSAVYGFTNTLLKLIKEESPDYIVAVFDGKEKTFRHEMYPEYKATREKMPDELRSQLPILWDLVDSLNIKSLLVNGFEADDIIGTLAIMGKKNNLDCRIISGDKDFMQLIDSDIKLHTPGKNGSSIIFGPNEVKKKWGVFPSKIVDLLGLMGDSSDNVPGVRGVGAKTAVKLLEKYGSFEKIIENANDVKNKKIRESLKNESRLAYLSKKLVTIKTDMKLDVDFDDMKLKTFNFKKVNDIFDELEFYKFKKELNILDLNKKKINKIEKSYLIVDNDSKLDSLVSQLNNSTLISIDLETTSVNPIEANIVGLSFSIKENSGWYVPILFPEKKKNIFSGQNDLNTVLSKLKHILESKKIHKCGQNIKYDLLIFKRHDINVTPISFDTMIASHLIKPEERTYKLDRLSQEYLNYEMMPISEVIGIGKDQKNMRDVELEKIKFYAVEDSDICLQLVNILSDKILNDNLYDFYKNIELPLIDVLTEMELNGVFIDKEMMINMSLWMQNKLLSLSKEIFKISGKEFNINSPKQLSEILFDEIGLKQVKKRSTDVTVLEFLKNIHPLPKKILEYRTIQKLKSTYIDTLPELINDKTGRIHTSFSQTITSTGRLSSSNPNFQNIPIRTSDGKEIRNAFVPEKKGWKIFSADYSQVELRIMAHLSKDKNLIDAFINNEDIHARTSSNLFNVPIQDVSTDMRRTAKIVNFGVMYGAGPYRLSQELGIPMVESKKIITSYFNRYSGIKDYIENTIDFAKKNKYVKTILGRRRYCYDILNKNQRIRSAVERAAINMPIQGTAAELIKIAMISIHKNIISNNLKSKMILQVHDELIFETPQEEVDQLKKMVLYEMENAMKLNVPLVVDYGIGDSWLSAH;locus_tag=LOCUS_10620;note=WP_004082086.1 DNA polymerase I (Thermotoga maritima MSB8) [pid:42.8%25%2C q_cov:98.6%25%2C s_cov:99.4%25%2C Eval:1.5e-201],MGA_1079
sequence15	MetaGeneAnnotator	CDS	15428	16027	.	+	0	ID=MGA_1080;product=superoxide dismutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KD44;translation=MSQPFTLPDLPYSQDALAPTISSDTIGFHYGKHHAAYFNMLNKLVENTKFSEMKLEEVVKETFGNSETQKIFNNAGQAWNHILYWNQMKPGGSNKPSGRLLSMIEESFESFEKFKEQFVASSVGVFGSGWCWLVQNDTNLEILGTPNAENPLCHNKNALMGIDVWEHAYYLDYQNVRPNHVKAVLDNIINWDFVSDRLS;locus_tag=LOCUS_10630;gene=sodB;EC_number=1.15.1.1;note=Q8KD44 superoxide dismutase (Chlorobium tepidum TLS) [pid:50.0%25%2C q_cov:94.5%25%2C s_cov:94.0%25%2C Eval:4.9e-54],MGA_1080
sequence15	MetaGeneAnnotator	CDS	16063	17244	.	-	0	ID=MGA_1081;product=two-component sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404564.1;translation=MWIYKQLKNIKTALFILAMAMITSLFIYNQSIINNLRNDSRKTMNLYAELIVKGITEANDVELDFVFSEIIQKVTFPIIQSDTLGNPVIWKNLNDENNLSNKDIKKIILSMNKQNNPIPLEINIQDTKRFKIGYLHYGDSLIVKRLQILPYAQLIGVSLFILLGFIGFEIIRKAEKQNIWFGMARETAHQLGTPVSSLMGWIQRLSDYPKDVNKLIPDMEADVERLNEISRRFSKIGSKPKFELISINKLLVDLTKYFKRRLPKDEIKINLDVQSNNIEIFTSPVLLKWTIENLIKNAIDSIVNKKGFISIIVKLVSKNVIIIINDNGNGIPRKDWNNIFRPGFSNKQQGWGIGLSMVKRIVEDFLGGVVKVESSSEKNGTSMKLILPIISKR;locus_tag=LOCUS_10640;gene=vicK;note=WP_011404564.1 two-component sensor histidine kinase (Salinibacter ruber DSM 13855) [pid:33.2%25%2C q_cov:83.2%25%2C s_cov:85.4%25%2C Eval:4.1e-56],MGA_1081
sequence15	MetaGeneAnnotator	CDS	17277	17840	.	-	0	ID=MGA_1082;product=adenylyl-sulfate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97MT8;translation=MKQNKPLTAFNNYDNGVAIWLTGLSGSGKTTISIPLVEKLINMGYRVQILDGDVVRQKLTKDLGFSKEDRDKNIERVTFVAQQLVKHGVIVVCAFISPYISERLYARNEIGNFIEVFVKCPLEVCEKRDVKGLYAKARAGEIKNFTGIDDPYEEPENPEIVINTSTSTLDDEVDYIIEHMKKTNYIS;locus_tag=LOCUS_10650;gene=cysC;EC_number=2.7.1.25;note=Q97MT8 adenylyl-sulfate kinase (Clostridium acetobutylicum ATCC 824) [pid:54.2%25%2C q_cov:89.3%25%2C s_cov:84.0%25%2C Eval:5.1e-47],MGA_1082
sequence15	MetaGeneAnnotator	CDS	17827	18969	.	-	0	ID=MGA_1083;product=sulfate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q81FZ0;translation=MIKPHGNKLINLYSNRDSNSELDKPILSLTNRSISDLLLIANGAFSPITGFMNQEDYLSVLKNMRLSNNLVWSLPIVLPVSDDQLNRIKNHNEVLLSNKDGNIIGKIFISDIFKPNKTEEALSVYLTDDLNHPGVNVLKNSGDWYIAGEVEAYKINQIQNFTNYIYEPIDLREQFVKKEWQTIVGFQTRNPIHRAHEYLLKCALEQVDGLLINPIVGDTKKDDIPSEIRMECYESMIKNYFPQKHAMLAVYPAFMRYAGPREAIFHALTRQNYGCTHFIVGRDHAGVGNYYGTYDAQKIFENFDFNDIQIKLLFFEHSFYCKRTKGMATSKTSIAKNEEKIFLSGTKVREMLLNGENLPIEFTRPEINKILLRYYKNETK;locus_tag=LOCUS_10660;gene=sat;EC_number=2.7.7.4;note=Q81FZ0 sulfate adenylyltransferase (Bacillus cereus ATCC 14579) [pid:52.7%25%2C q_cov:97.9%25%2C s_cov:97.9%25%2C Eval:6.1e-110],MGA_1083
sequence15	MetaGeneAnnotator	CDS	19009	21258	.	-	0	ID=MGA_1084;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963906.1;translation=MIPESADLINRIPIDNWAKNYLTNFNNMPQWFPNLFSGMPSYGGFIYAPADPIRKFFDFFNFNIGLRYFFHFLIAGIGMFYYLLSINLTRNICLFGSICFSLTPYSFGLINAGHPAKLYAIAFIPFIILFSTKIIDSRKIKYILLLSLFTAFQLWTKHVQIVYYTWMLIVFNWLWYVFSSFYNKNFFLKIHFKSFSFLILSILISIITVANPYYSIYEFHKESTRSTINQMDEDTSQKKWDYTTQWSFHPNESISFLNPYFFGLQNFPTRDINSVSYWGMMPFTQSTHYMGFIVVLLSFVGFFINRLSSFYWSIIISTLIIIIIGFGKFFPLLFWPIYKFAPLFSSFRVPSMIYVLLPFTFAILSTLGLSGIIKYFQSKKEKKINKIIYLMMPFFFLSLFLFIFGRYFIDFLKIGDELKYDQIILNQIKALRIFLFNKGFLLILFQSIISIFLVWFVKKQFLKINFVVPIFTFILIIDLIIINTEFLNLKNSSFISSQFRPTNEVKFLQKNIDQFRILPLEQFNSNFYSNFNIPSVGGYRPVKLRIYQDLIDSKALNNKNIQNMLNIKYIVTKQQINDPRFALINVNQFNIYENLEVNEKAWFVNNLEVTNEKESLNKLLDKKFDSKNHAIIYKENDNVKNFLKKGNIELKKYSENEIIFDVNIEGDGFLVLSEIYYGPGWEAFINDQKTNIFRTNHVLRGVFVPSGEHEIIFKTKNNFYLLSNFISYTMFFLLVIISFIFFRPMRVIK;locus_tag=LOCUS_10670;note=WP_011963906.1 membrane protein (Flavobacterium psychrophilum JIP02/86) [pid:25.9%25%2C q_cov:98.1%25%2C s_cov:93.2%25%2C Eval:1.9e-58],MGA_1084
sequence15	MetaGeneAnnotator	CDS	21326	22231	.	-	0	ID=MGA_1085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENKNISIVLVNWFSSNHIIRLISNLKEKAYDQEKLFFIIIDNTNGKDKKLYNKIKLINDLKKITIIPFLPKLKQRSISHSLGLDRAMKEINSFYTLIIDPDTYVFKKKWDLFCIKKLINGDIAVGAPYPNWKLGKVHNFPSPIFFFSKTKWILTDKTSWYPYPKKSKRLLNFFLRKFVRLFGFSTRKRLNNNFLVKNLSYYLEYFTGISSPDTGYHFYIKSKKNNLRSTVFKSYNFLKNDNKKKNTLIKLSNEFELYFYKQIPFLTHQYTSNIFYYKTSTNPNNWINYINQLEKSDEKK;locus_tag=LOCUS_10680;note=MGA_1085
sequence15	MetaGeneAnnotator	CDS	22236	22970	.	-	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVIVLGMHRSGTSAISGILHLNNIIMGSKDNFKPKPLPQNPKGFYENYDFRKINDQILKKVNYNVKSLNYNIPFPLPEKKTEIKMKYLVNKQNLQYSNWGWKDPRTCLTLDHWLDIILKNNNKEDIKIIFTIREPLAVANSLKKRDKLDIYSGLKLWEVYNRRALTFIESYNLPTFYFFYEKLIENSNYVISKMFEYLKIDFDKEIISKFIDPKLNRSKEIKESKIPIEFDYLKTKFKSLSSI;locus_tag=LOCUS_10690;note=WP_003112411.1 sulfotransferase family protein (Pseudomonas aeruginosa PAO1) [pid:26.0%25%2C q_cov:88.5%25%2C s_cov:51.2%25%2C Eval:4.8e-10%2C partial hit],MGA_1086
sequence15	MetaGeneAnnotator	CDS	22970	23818	.	-	0	ID=MGA_1087;product=SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108474.1;translation=MKKNNKLSHLTLLKKEQNKKIPRNKSEINKRSMRAYYEQYWYGEKFLYEFFDIKKIKDKSVLEIGPAEAGLLKFFQEKGAHTTGIELSPLRFSHSELLNNLNQLKLLTGDICDKQSYKQLHNKKYDFIIIRDVIEHIDDKFNALKNMYDLLSDEGQLFISFPPKYCPYAGHQQTIKNNIGKIPYIHLLPNFLYKRFLSFVNHPKESIGYLLATKSTRISVSGMKKLFAKSNFIIKKNNLYFLRPAYKFRFNLPTFKNPFSKIPFLNEIFTNGALFVLIKNKK;locus_tag=LOCUS_10700;note=WP_011108474.1 SAM-dependent methyltransferase (Bacteroides thetaiotaomicron VPI-5482) [pid:33.8%25%2C q_cov:77.0%25%2C s_cov:84.5%25%2C Eval:2.9e-28],MGA_1087
sequence15	MetaGeneAnnotator	CDS	23818	24840	.	-	0	ID=MGA_1088;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202022.1;translation=MELFFSIITPCYNRQDEILFLIDSIINQSVSPNQYELIIVDDGSTDNSRNIIENKIIDSNINIRLITQINKGPGAARNNGMKNANGNFYLFIDSDCEADKNWLLEIIKKYKKIKFDAFGGPDSFKDNFSDLQKSIDFSMNSFFTTGGLRGSGYKRLAKFYPRSHNMGIKSSIFQKIGGFGKLRHGQDIEFSNRIINNGYNVNFLSNAIVYHRRRTSLKKFFKQVFNWGVARINLGVIDKKMLETLHYIPSLATFSIFFLIIGSFFQTYFFLTILLILFLFLIIVSVFGSIKIKSFKSFFLLLLIIPIQIFGYGIGFIYNFINRFIFKKNEFIGFRKKYYN;locus_tag=LOCUS_10710;note=WP_011202022.1 glycosyl transferase (Bacteroides fragilis YCH46) [pid:36.1%25%2C q_cov:98.5%25%2C s_cov:96.7%25%2C Eval:1.2e-58],MGA_1088
sequence15	MetaGeneAnnotator	CDS	24849	25796	.	-	0	ID=MGA_1089;product=glycosyl transferase family 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932009.1;translation=MKNKSSLSIIIPVYNEIESLKFLIDEIHFSLKNYNNYCILFIDDGSNDGSSEFLNEVQKNDLKINLIEFTINKGKSAALNEGFKWVESDYVITMDADLQDDPSEIPNLLKKLDDGYDLVSGWKKKRNDPLSKTLPSKLFNFTTSFLTGIKIHDFNCGLKAYKKTVIKSINVYGGLHRYIPVIAFKKGFKVDEFIVNHRPRKFGNSKYGNERYFKGLFDLITVLFLTKYLKRPLHLFGFFGFLFSVIGFFINLWVLYLKYYIGEPFSKHIAILVLGVMLIIIGVQFFSIGLIGEMIVQSNHKSFDEKDEIIFHDKN;locus_tag=LOCUS_10720;note=WP_010932009.1 glycosyl transferase family 2 (Chlorobium tepidum TLS) [pid:47.3%25%2C q_cov:92.4%25%2C s_cov:91.2%25%2C Eval:1.1e-77],MGA_1089
sequence15	MetaGeneAnnotator	CDS	25801	27450	.	-	0	ID=MGA_1090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546646.1;translation=MVEIMLVLTKYFFNYNYKKNFFILLILIISCNNPSLHLKDSNIQNEKNLKNSTLDYEHQINSKALNHFLDGEMYFSQGDYSMAVIEFQDALRYDSSSASIYLSLAEVFLRLNKFERSEETLKAALLLNESKKEIRELLAQQYLMRGDIDLGEKQYLILESTYPNDIHFSFILAEISYRKGNIKSAQEKYWNIYLKDSTQIQALSRAAELSKINGEIEFSFKAFEKLVLIQPENLQFWKDYSELASSLKFFDKAIDGLNNLSRLTSDDPIIKERLGILYFEQNQFSKCDSIFSLLYNNGEISPGILYYKTRLAIFEQDFNSAEFFSSKQIELFPSEISGYTNLALSYINLKNSVDAISILIKAKNKFPSNFTINYMLGSAYNNQKKFELAIESLNIALKIEPNSRSTKHLLANAHNSIGQWPMSENFYKELINSDKKDAQALNNYSYTLAERGLKLKEALNMSQKAIELEPNNSAYLDTIGWIFYKLKKYNKAIDYIQKSISLDPNNIVVLEHLGDVYMKINKVEDAKFYYKKILDLDKSNSRVLNKINR;locus_tag=LOCUS_10730;note=WP_012546646.1 hypothetical protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:24.3%25%2C q_cov:87.2%25%2C s_cov:88.9%25%2C Eval:3.9e-42],MGA_1090
sequence15	MetaGeneAnnotator	CDS	27422	28486	.	-	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKIFNTLFNSNNSSLIDFTRKLDSLSSKLDISRSKENFFEIISIFLNENFSFDKITLLIINSNDTDEAEAVIVNGYNDDFTKGKKIRRSNTPVWNLMDDENSKIINFEKTFDKTNNFIDRYEKSDNLNHQFLSFLGVPLKTDDKVCGCLVLESFTSLSFKNVESQKLKLFSHRLGNIINWWQKYDTLRHTSMHDGLTDLLNHKSFVERFKQEVRRAERYNETIVLIILDLDKFKRINDNYGHLFGDYVLKESAKILKNGFRTIDLVARYGGEEFAVVLLNTSKVKSIDSIKRIIQNLSFFDFKKDKIKEKMTISAGLAEFPKNGKTISELISFADKAMYKVKRNGGNNVSID;locus_tag=LOCUS_10740;note=WP_012584100.1 diguanylate cyclase (Dictyoglomus turgidum DSM 6724) [pid:34.0%25%2C q_cov:84.5%25%2C s_cov:26.7%25%2C Eval:8.5e-34%2C partial hit],MGA_1091
sequence16	MetaGeneAnnotator	CDS	224	721	.	+	0	ID=MGA_1094;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CPH7;translation=MPKKLKKVGKVVKAVGLKGDVKIFPLDSYIDHIRNQKFLFIGDSPEKAKKHYASFVTKSGKFLRYRIHDNVDRKDAENLVGKLIFRTVSDNEILNDDLIGFLVVTTEGLPIGILSDILSLPGQEVLSIDSGEKEILIPSVPEIIKKIDLKTESILIFPMEGLLDL;locus_tag=LOCUS_10750;gene=rimM;note=Q8CPH7 ribosome maturation factor RimM (Staphylococcus epidermidis ATCC 12228) [pid:29.0%25%2C q_cov:92.7%25%2C s_cov:95.2%25%2C Eval:4.9e-10],MGA_1094
sequence16	MetaGeneAnnotator	CDS	721	1428	.	+	0	ID=MGA_1095;product=tRNA (guanine-N(1)-)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CQL4;translation=MQVFIVTPFPEFLTIYLNSSILGRAKKKKIVEYNIIDLKDFGKGRHNQIDDHPFGGGPGMIMLAEPFFNALEKIKKIYNGSKKLKIILPSPKGKILSQSISKKLSNFDGLVFFCAHYKGVDERVIDKLVNYELSIGDYVLTGGELPSLIIIDSIVRLIPGVIGDQESANLDSFSHDLLDHPHYSRPRNFKGMKVPDVLMSGNHANIESWRMKQREITTKNNRPDLWDTYKNKLSK;locus_tag=LOCUS_10760;gene=trmD;EC_number=2.1.1.228;note=Q8CQL4 tRNA (guanine-N(1)-)-methyltransferase (Staphylococcus epidermidis ATCC 12228) [pid:49.3%25%2C q_cov:97.4%25%2C s_cov:91.8%25%2C Eval:1.1e-59],MGA_1095
sequence16	MetaGeneAnnotator	CDS	1437	1778	.	+	0	ID=MGA_1096;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YK97;translation=MAQPHEFSKDLEKNNLPDFKSGDTVCVNVKVIEGGKERIQKYEGIVLARKGTGTNSTFTVRKISSNIGVERIFPLHSPNIDSIELLKRGKVRRSKIYYLRDLKGKAARIKEKR;locus_tag=LOCUS_10770;gene=rplS;note=B5YK97 50S ribosomal protein L19 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:67.3%25%2C q_cov:89.4%25%2C s_cov:84.2%25%2C Eval:4.0e-34],MGA_1096
sequence16	MetaGeneAnnotator	CDS	1933	2943	.	+	0	ID=MGA_1097;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403144.1;translation=MISNFVFGFGSLFTGYIENRYGEKKLLLLFQIGSFFSCFFIIFSQNIISFAFFHILLCGFMSIYHPAGLTLISRRTSSLSKSMSYHGIAGSLGLAFGPILSSILTTFINWRYAYFLVMIIFLILFIATYFLLELKFYNYKVKSKRKLFNQKLIIFYLINCLAGIAFSSFLTYMPIFFSIKLMNINLMPILIGGFFTTLVLLAGIPGQIVGGIIGEKYNKSLIIMILCLLHIPLLIIIPLLKGYVLIFFTLLLGFINFIFQPIGNSIIADYTFSSQRGFAYGLSFFLGFGIGSFGSGIGGILLSNWNISLVFYFAALVMILSIIPSLFLLKFDKKNN;locus_tag=LOCUS_10780;note=WP_011403144.1 MFS transporter (Salinibacter ruber DSM 13855) [pid:20.5%25%2C q_cov:94.0%25%2C s_cov:81.4%25%2C Eval:5.3e-14],MGA_1097
sequence16	MetaGeneAnnotator	CDS	2966	4327	.	+	0	ID=MGA_1098;product=L-seryl-tRNA(Sec) selenium transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67140;translation=MERREIPSVNSVLEKLDIDEINLPREYLLLIIKKKLSVLRKLDKKDLNLKSKKDILNQILNKIKSLNKNSLSKVINGTGIVLHTGLGRAPISKDILYDIANDLSGYANLEFDIMDGIRGERLNHVSDLISSIVGSESSIIVNNNAAAVMLAINTLSQKKEIIISRGQLIEIGGSFRIPDVINKSGAVLKEVGTTNRTHLLDYEKAFNKNTGAIMYAHTSNYKIEGFTKEVEIKDLVKLSKKNNIPLIVDLGSGALLDFKKLNLPTEPLVKDIINLGVSLITFSSDKLIGGPQSGIISGKKNIIDKLHQNPIYRSLRCDKFIIAILERTLRQHNFDNPNFNIQTLQLLSASRKTLKKKGVEILNKVSNQTLEEFNIELEDSLVEAGSGSLPIKSIESVCIKIKSSRFKSSEISRKFRNFNPPIIGYIKKNHFYIDLKAILDDEIKYISSSINNI;locus_tag=LOCUS_10790;gene=selA;EC_number=2.9.1.1;note=O67140 L-seryl-tRNA(Sec) selenium transferase (Aquifex aeolicus VF5) [pid:42.8%25%2C q_cov:85.9%25%2C s_cov:85.6%25%2C Eval:2.1e-91],MGA_1098
sequence16	MetaGeneAnnotator	CDS	4328	6202	.	+	0	ID=MGA_1099;product=selenocysteine-specific translation factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048014.1;translation=MKQIIIGTAGHIDHGKTSIVKKLTGVNTDVLTNEIARGMTIDLGFAFMSNEITIIDVPGHEKFIRNMVAGVNSIDIGLLVVSADDGIMPQTKEHFDILSYLKIPYGIVALNKIDLVDDEDWLNLIEHDIRRLLKNSFMENAPIIRVSTKNNFGIEKLKKNINLISKQNFNKKDRGFFRLPVDRAFSLKGFGTIATGSVSSGKITVGKNIQILPVGVQSKIRGMQTHKKEVKTIKIGERVAINLSNIDKENIKRGSQIIEEGYVKNSQLFLAEITLNKKNKRFIKNNQRLRIHINTDEVLCRVQLINKSKKILAGETNKVLIKLEKEIPIIIDDLFILRFYSPQETIGGGKVLITIPQNEKKIYFKNLKTIHSSNKDNRLKMLFTLYKNNPKKISEWIKIWNMSSNKIKELFNQFDSVYFGSEENNYVTLNSEIQNQQKEYLDYLSINLENNKNQKYFSKAEVFKNLNYNESLFNYITSILVKKNKIKIKNGKITLFNYKLNLNPQDEKNLKKLNLIIKSYNFSPPEIKILSKEIDVDFKKLVDLLFVLLDQGSVVRITNDIWINNNKIEELKNKIKLKYQNNLEFTVSDIKEMAGISRKYAIPILEFFDKQNFTIRLNNVRKLK;locus_tag=LOCUS_10800;gene=selB;note=WP_012048014.1 selenocysteine-specific translation factor (Clostridium botulinum A str. ATCC 3502) [pid:34.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:5.1e-102],MGA_1099
sequence16	MetaGeneAnnotator	CDS	6205	7344	.	+	0	ID=MGA_1100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKNSQKKQTPLMKQYYNIKKEYLDSILLFRMGDFYEAFNSDAEQLSKILGITLTKRSNGAASEVPLAGFPYHSLENYLIKLSNAGIKIAICEQVEDAKDSIGIVKREVVDVITPGTSILFNSTEKKNNFLGCIHNKKDIYGLSLIDISTGEFLIVEGSETQIMETYLKFNPSEVILSNKNKISQTSWLNKINPFKSIMDNWIFDYELSYNALIDHFKISSLKSFGCDSMDIGIISAGVIIRYLTNNNFNEIKHITKLTPYTIQDKMVLDDFTIKNLELFNTTSAKEFGSFFSIIDKTITSGGSRLLRQKINSPSLNLKFIESKLNLVESFLENENYANEMRMILKKSADLERILGKLAKKKNKSNRFIIFKYNSIKC;locus_tag=LOCUS_10810;note=Q2S254 DNA mismatch repair protein MutS (Salinibacter ruber DSM 13855) [pid:39.3%25%2C q_cov:97.1%25%2C s_cov:41.3%25%2C Eval:4.5e-73%2C partial hit],frameshifted%2C insertion/deletion at around 7284,MGA_1100
sequence16	MetaGeneAnnotator	CDS	7523	8800	.	+	0	ID=MGA_1101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKISNSSKQTLLKIENRERQSTQINSLKIRYNKVFGYYIEISKAHKNKILPKNYIRKQTLINAERYVTQELKDYEEKILSSDQRIIEIEKKIFEEVSNFILENSSIIQINSQIINDLDVYLCFALISKQNNYVKPTFVNDTIINIKDSRHPVIEKIISNDEKFISNDLFLSSNESQIHIITGPNMAGKSTFLRQIGLIVIMAQIGCYVPVSYANIGIVDKLFTRVGANDNLIEGESTFMVEMIEAANILNNATEKSLILFDEIGRGTSTYDGVSIAWSIVEYLHNNKNFQSRTIFATHYHELTELESKLDRVFNFNISVKEIEEQIIFLRKINKGSSDRSYGINVAQMAGIPSEIVDRSYQILNKLIEKNSLNINHVQNKTNKLSKKNTIIEDKVLSELKKINPDKLSPIEALKFIYNIKKNIE;locus_tag=LOCUS_10820;note=Q64MG7 DNA mismatch repair protein MutS (Bacteroides fragilis YCH46) [pid:49.1%25%2C q_cov:99.3%25%2C s_cov:50.0%25%2C Eval:2.1e-117%2C partial hit],frameshifted%2C insertion/deletion at around 7293,MGA_1101
sequence16	MetaGeneAnnotator	CDS	8793	9806	.	+	0	ID=MGA_1102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLTIIMFLFPLFLTGESIWVKYGNQVFRGVGDAKSIALSESEIASATGPLSILYNPSLLNNSKTKKLVYSHQERFSGTVMFDVFGIDLQKKNNNSFSFVFIRESVQGIPNTNNALLNNSLSLNDLNQRILASKVTFFNQSQLATIIGFSKLFSKASFGGNIKLLNHNIGNFNGWGIGFDIGTVFNISDKNRIGFSIKDVTTSWIVWDSGTIERILPELKFGLTNNSELKKYLIQINSMFSTGVKLSGKELLDDFTIGDYGFEFRAGFELIYKKKLKIRLGRNPINGKSIGVGTKIKFVDLDYAYVPSPNGTILGNSHYISFNIGLDDLSKLVLN;locus_tag=LOCUS_10830;note=MGA_1102
sequence16	MetaGeneAnnotator	CDS	9828	10694	.	+	0	ID=MGA_1103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003388628.1;translation=MIKSMTGFGSASLSNEFFNLSIDIKSVNSRYLDYKIKLPKEIEKYEPDLILNIIKVCKRGRISVSINLDPINSELNNSPEINKSLFKSYNTFVDKLNKEFNLNFKINDLFEIKDFILRKKKISVSKKSLLFTFENALEKLEKMKLNEGSYLFKDIKKRIVHLDKTIKKINDTSNKNSLLVKDKYLKKIKKYVNEIQIDESRLAMEAAILSEKIDITEECVRFNSHIQQILKLIEKNNPIGKKLNFILQELLRETNTIGSKSNDIKIINLVMVLKEEIEKIKEQSQNIL;locus_tag=LOCUS_10840;note=WP_003388628.1 hypothetical protein (Clostridium botulinum A str. ATCC 3502) [pid:35.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.8e-41],MGA_1103
sequence16	MetaGeneAnnotator	CDS	10691	11263	.	+	0	ID=MGA_1104;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9X215;translation=MKGKLIVISAPSGAGKTTIARKLQKININWDFSVSCTTRPKRKDEVNFKDYEFISENEFKRRINKKELLEYENIHGYFYGTLIERIQQSLNENKTVIVEVDVNGGLAIKLKYPDNAVSIFIHPPSINILKERLIKRGSDSLNNINKRLKRANMEINKSNSFDIQVVNIDIDNAVNEIDKKLSVIINKEIK;locus_tag=LOCUS_10850;gene=gmk;EC_number=2.7.4.8;note=Q9X215 guanylate kinase (Thermotoga maritima MSB8) [pid:45.2%25%2C q_cov:93.2%25%2C s_cov:85.0%25%2C Eval:3.4e-38],MGA_1104
sequence16	MetaGeneAnnotator	CDS	11263	11556	.	+	0	ID=MGA_1105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENRINLKKIDDKSEDIFEAAIIIGKRARQIISERIMKNEIHSFEKDSELNEEEFNEIKDEIGMNYVEMTKATSVAIDEFCNDEIDWKYEEKDIEE;locus_tag=LOCUS_10860;note=MGA_1105
sequence16	MetaGeneAnnotator	CDS	11586	12041	.	+	0	ID=MGA_1106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNPTNTKYFKQLNDFYGNIFYINNKNTVFHFPFNQDSVQLFHKILNQINFKRNFVLIYVIPECFNSQSINFKIIKIKNVSFFLKKIKEIKIKIVISLRKNPINKLLSKKVSVEHLRLKNWSWKKINLIVSYNPLDLLNNQDLKKMYVKI;locus_tag=LOCUS_10870;note=MGA_1106
sequence16	MetaGeneAnnotator	CDS	12076	13431	.	+	0	ID=MGA_1107;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97CY1;translation=MIKKKIKNLKIQPQSIEAEQAVLGSMLTSSEAVNKAQEILSAESFYVDAHKKIFEVMIELFNNNEPIDVLSVDNKLQQNNQIDSVGGSYFITGLPDLVPSTANVEYYAKIVLEKASLRKLIEVSNEINLQAYENSGDFENILDDSEQKIFALSQGKIKNKFQALKPVLQKSFERLDEISKNPGSVTGVPSGLKDLDKLTSGFQPGELIIVAGRPSMGKTALALTFARNAAIDYKIPIGIFSLEMSNDALAMRLLTAESRVDSHLVRSGILPKEQWRNLSMSVGNLADAPIYLDDTPAMGITELRAKSRRLKSEKDVKLLVVDYLQLMKGPHNVESRQQEISQISQSLKALAKEINVPVLALSQLSRAPEARSDHRPVLSDLRESGAIEQDADLVMFLYRKWVYSRDEEDKRKAEIIISKQRNGPTGTINATFIDNYAKFENTSLIDVPSEQ;locus_tag=LOCUS_10880;gene=dnaC;EC_number=3.6.4.12;note=Q97CY1 replicative DNA helicase (Clostridium acetobutylicum ATCC 824) [pid:48.3%25%2C q_cov:96.9%25%2C s_cov:98.4%25%2C Eval:7.6e-118],MGA_1107
sequence16	MetaGeneAnnotator	CDS	13441	15633	.	+	0	ID=MGA_1108;product=GTP pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048080.1;translation=MRIANLIPTVTGSFPSDFNEIIKSINKNQIYKNNKAEKLLWPAYQFSKHYHDGQKRKSGKPYFEHCVAVAQLLADWHMDVNTIIGGILHDCIEDTPVSFDDISKEFGDEVASLVDGVTKLGGIEYDSRKKKQAENLMKMFLSMAKDLRVIIIKFADRLHNMKTIEYLSLIKQRRIAIETRDVYSPLAHRLGMFELKSQLDDLAFKTLQPEKYKIVDKNLRSRILNRSKSLKKITNKIKINLNELNINYELKTRFKSHSSIYDKMLKTDKDFAEIYDIYAIRIVVLTKNDCYSTLGLLHQFFTPIAERFKDFIATPKMNGYQSLHTTIISSSGEMIEIQIRTQDMDRKAEIGVAAHWKYKGEDTSESIDKHVKWLRDLLMILSDESSDPSEFMNLLKIDLFQNEVFVFTPDGELIQLPLGSTPIDFAYEVHTEIGDHCISAKVDGKIVPLNSQLVSGSTIEIITSDSQKPSTAWLKFVKTTKARTIIRKSYRKSEKESSAKLGKEILEKTLRRLKMLDKLTILFSNPNLSGFENKESLLISIGIGEITVRDVLLKSFPSEQEVDVKLSKRKNTKSFFNLARNNVFGISVDGIDNILINLSKCCNPIPGDEIIGFVTRGKGVSIHRSKCNNLPILSKSSDRFIEAEWKLGDKKEFLSKINIISEDRKGLLKDITEAISGSKVNINSLDTKTQDSLASMVIIVSVSNVKRLNQVIRKIENIKGTLSVKRFNKN;locus_tag=LOCUS_10890;gene=relA;EC_number=2.7.6.5;note=WP_012048080.1 GTP pyrophosphokinase (Clostridium botulinum A str. ATCC 3502) [pid:41.4%25%2C q_cov:94.1%25%2C s_cov:96.8%25%2C Eval:5.6e-156],MGA_1108
sequence16	MetaGeneAnnotator	CDS	15638	16078	.	+	0	ID=MGA_1109;product=putative pre-16S rRNA nuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDJ8;translation=MCVNNQIPKVGKFLGIDYGSKRVGIAISDPLRIFASPYDTIIVNSQNNLIKEIEKIIINEGIVYIVFGLPIGMNGKNTSQTNEVNDFIMKFKNNHKLPFSTIDERLTSIQAMKLLNDQGIKHSKNKSLIDSTAASIILQTFLDSIK;locus_tag=LOCUS_10900;EC_number=3.1.-.-;note=Q9ZDJ8 putative pre-16S rRNA nuclease (Rickettsia prowazekii str. Madrid E) [pid:39.1%25%2C q_cov:91.1%25%2C s_cov:85.3%25%2C Eval:6.8e-17],MGA_1109
sequence16	MetaGeneAnnotator	CDS	16140	16334	.	-	0	ID=MGA_1110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKEINPTTNVVPIFADNQYKDIKFEIKPTKKPKIMPSNEDELNKIMINGNKANHAKKPKFRG;locus_tag=LOCUS_10910;note=MGA_1110
sequence16	MetaGeneAnnotator	CDS	16483	17565	.	+	0	ID=MGA_1111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLATTQTDYLPIIQIAEFTGIFGISFWIACLNIILFKIFSSNYKIKIKNFNSFIFLLVIIWLFGYLRIFSLKDEYSNKLEILVVQPNLNPNEKWNKKIKEKIFDDLIELSKVNINYSTDLIIWPEVATPFYIFKNNSKLTQIRQKLLKYNSYLLTGSLDWSNEENKINNYNSVGLIGKNKKISTYDKIKLVPFGEFTPFSFPFLNNLNLGNYTPGTKNTVFQVNNFNFITKICFESIYPLIFSKSEYKKMNINFLVIIVNDGWFGNSAGPYQHFGISKLRAIENRIPVIRSANTGVSAIINKTGEVENKIGINKKDVILGNITPGNSNTFYSKHGNWLVNLSLFCFIYFSFLAIKRKIK;locus_tag=LOCUS_10920;note=WP_012545206.1 apolipoprotein N-acyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:33.7%25%2C q_cov:98.6%25%2C s_cov:67.9%25%2C Eval:1.2e-43%2C partial hit],MGA_1111
sequence16	MetaGeneAnnotator	CDS	17562	18164	.	+	0	ID=MGA_1112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLFFILLLFTFSFSETKNYNSKKYIIQSAFFPGLGEYKMGEIKRSKKFIFVESGLILLAIETYLRNQRNIKQISSFSANHAGVNISNKSEKFILDISNYLSTSLYNQNQQRLRYSSEIYINENYQWEWDNISNMEKFNSLVSNKNKSKKLLFFTFGAMFSNRIISMIDVNYLNNLKKLKLSFVPIYNKESSLQLILNF;locus_tag=LOCUS_10930;note=MGA_1112
sequence16	MetaGeneAnnotator	CDS	18172	18903	.	+	0	ID=MGA_1113;product=tRNA pseudouridine synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66953;translation=MNNYQILIEYKGTNFFGWQYQNNKRTVQGEIQNALKKINNNKEVKIIGSGRTDTGVHAIGQSASFEIEKKWDQNKLKMAINGNLSDDVRIFDCKKKSKTFHARFSAKKRKYIYKCFPGKSVINRGLVWEISEKIKLDILNDCAQYLNGKIDFTTFSKNNPEIKNRFCNVCSCQWINNYPFYIFEIEADRFLHHQVRILVGTMIKVAENIISKNYFVDLLNNKVRNPKIFKAPSYGLYLKKVSY;locus_tag=LOCUS_10940;gene=truA;EC_number=5.4.99.12;note=O66953 tRNA pseudouridine synthase A (Aquifex aeolicus VF5) [pid:37.3%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:6.0e-37],MGA_1113
sequence16	MetaGeneAnnotator	CDS	18900	19682	.	+	0	ID=MGA_1114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISFRKYYFLLFLITNLLANVTENRKNAITKAVKKMGPTVASINVVKIKEFSNQYYFNDPFFRYLYPTMIKKIPSLGSGVIISPDGYILTNQHVIENSIEIIITLSGGKQYDAEIIGEDRKSDLALLKIDDSELPFAKFADSNEILIGEWVIALGNPFGLFALNNQPTVTVGVISSKNLNFGTLLDGREYKNMIQTDASINSGNSGGPLCNADGEVVGINTFIYSGENNDQGSIGIGFAIPINRAIKIAEELKKYGRMEF;locus_tag=LOCUS_10950;note=Q9Z6T0 putative periplasmic serine endoprotease DegP-like protein (Chlamydophila pneumoniae CWL029) [pid:47.8%25%2C q_cov:78.1%25%2C s_cov:40.6%25%2C Eval:2.3e-45%2C partial hit],MGA_1114
sequence16	MetaGeneAnnotator	CDS	19710	19997	.	+	0	ID=MGA_1115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKRQIWIIVLILFVGSMIGTLFGDLIAFILPDGVVKQFFLQSTNFSLSNFFGDDDYIFLNLGAIGIVFGLKIKLNFTSIIGFSVSYYFLRYFR;locus_tag=LOCUS_10960;note=MGA_1115
sequence16	MetaGeneAnnotator	CDS	20014	20238	.	+	0	ID=MGA_1116;product=Sec-independent protein translocase protein TatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KC14;translation=MNLLDIHFLVSIGGWEVLLIFLVVLLLFGAKKLPELAKGLGKGIREFKGAVEGIEKEFDDAVDSIDKKEDDKNT;locus_tag=LOCUS_10970;gene=tatA;note=Q8KC14 Sec-independent protein translocase protein TatA (Chlorobium tepidum TLS) [pid:60.7%25%2C q_cov:82.4%25%2C s_cov:91.0%25%2C Eval:1.3e-13],MGA_1116
sequence16	MetaGeneAnnotator	CDS	20246	21556	.	+	0	ID=MGA_1117;product=glutamyl-tRNA(Gln) amidotransferase subunit A 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97FQ7;translation=MIENSKKSNSIIFKGNPLFIKNKIDNSILNGATFTIKDNISIKDWQLSCASFTLKNYKSLYNATVVDKILNNGGVIIGKTNHDEFAMGSSSERSIFGSVKNSSNDKYVAGGSSGGSAVSVALEISDFSLGSDTGGSIRQPASFCGVFGLKPTYGRVSRYGLVAFASSFDQIGPFSRSTLGLAKCLEVISGYDEKDSTSSKEKVPPYSKNIEKNIPKKIGIPWELIKTGTNKEILNKLNILIDFLKKNNCEIIDIKLPNSKYAIAAYYILTMAEASSNLARFDGVRYGFRDSSNELESMYLNTRSKGFGDEVKRRIILGTYVLSSGYYDAFFKKGQQVRRLIKNDFENVFKNVDVILLPTSPTPAFKQGENLSDPLKMYLSDVFTTPVSLAGLPALSFPAGKTKNKLPIGLQLIGNYFKEETILNFSHYIEKNFNFD;locus_tag=LOCUS_10980;gene=gatA1;EC_number=6.3.5.7;note=Q97FQ7 glutamyl-tRNA(Gln) amidotransferase subunit A 1 (Clostridium acetobutylicum ATCC 824) [pid:52.5%25%2C q_cov:92.7%25%2C s_cov:83.5%25%2C Eval:2.4e-116],MGA_1117
sequence16	MetaGeneAnnotator	CDS	21557	22549	.	+	0	ID=MGA_1118;product=aerotolerance protein BatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107514.1;translation=MFNFSNPWVLIFLIFIPLLFFLKKSKTFLKDGSIQFSNISHLKKIKNLNGQKKINFLLFFQLFIISTLIFVLAGPRLKSNLSESIYNVIDINLILDISSSMRAEDFKPNRLESAKETAKKFIEYRRGDRIGLLVFAGESYIQCPLTLDYKVLLRLLQNVKIVDEKNDGTAIGMAIAHGINRLRNSNSKSRIIILLSDGSNNAGELEPVTAANFAKEYGIKIYAIGVGANKEAPFPYIDPFGNKSYVNVDVKIDEKTLKDVAHETGGLYFRAKDETELEKIYDEINKMERSKIKIKDYTMFTELFSFILVPLIILLIFIEFLYQFVFKKRM;locus_tag=LOCUS_10990;note=WP_011107514.1 aerotolerance protein BatA (Bacteroides thetaiotaomicron VPI-5482) [pid:39.7%25%2C q_cov:93.6%25%2C s_cov:93.0%25%2C Eval:4.3e-61],MGA_1118
sequence16	MetaGeneAnnotator	CDS	22551	23567	.	+	0	ID=MGA_1119;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005787920.1;translation=MIEFKYPYVLLLCLFLLIFLIFKKFFNQHQKNQFSQWIDERLMKKLNFRLNNKNIKLKNNLRIIGILFLIFSASGPQIGKGLKKVERKGIDVLFALDISSSMLAQDIKPNRLEKAKFEINKMINSMYGDRIGLIIFSGSAHLYLPFTTDYDAANLFINSVDTEMIRTNGTSISDAIEVSKESFYQSDNNKVLILISDGEDHHGESLELAKEFKKNNIIIHCVGIGTKEGSLIPIYDKNSNFIDYKKDINNKLVTSSLNEEVLLEIANISGGNFFRIDNINSKINDLYQKINIMKKNTLNTHEYSQFVDRYQFFLIFSIILFVVDFLLPTSNKLKDDEN;locus_tag=LOCUS_11000;note=WP_005787920.1 membrane protein (Bacteroides fragilis YCH46) [pid:37.2%25%2C q_cov:76.9%25%2C s_cov:77.7%25%2C Eval:3.3e-48],MGA_1119
sequence16	MetaGeneAnnotator	CDS	23554	24309	.	+	0	ID=MGA_1120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKIKILLLLNIYLFAQASENDSLIEIDRYLRILNENPNVHEANLAVGNILYDSEKFSDAEVYFEKSTESNKLKLKHKSFYNLGNSQFEQGKYEESLDSYKKSIELFPNDLDSKYNYELAKMMVKKNKKNSDQNNSDDSKKDEQNKDQNESTNQGSNEDKEEEPKEPRKQDSNEDKEEESKNQDSNEDKEEESRNQDSKEKNNDNTKRIDKKNEKISPNAESILNALKANENNLIRPQIDQNKSNTILKDW;locus_tag=LOCUS_11010;note=WP_013399431.1 hypothetical protein (Gardnerella vaginalis ATCC 14019) [pid:29.8%25%2C q_cov:44.6%25%2C s_cov:37.4%25%2C Eval:5.2e-07%2C partial hit],MGA_1120
sequence16	MetaGeneAnnotator	CDS	24312	26042	.	+	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765731.1;translation=MLKNLILNVFLISFVFAKIEVSTTVDSKEIYNYENINLKIIVNQSDGFPIVENFELNDFEVLSGPAQSSSFQWINGNMLSKKSLSWTISPKRTGDLLIPEFEINVDGKKIITNSIKIKVYDNNNSQSFKTNSSEKPPIIFIVAKSDKKKLIKGEQVNVEYNLYSKANLRQYSFKSKPKGQGFWKEELYEPKQPTFKEINYNGEKYNVSTIYRIALFPTNIGELKLDQLILSCSIETPSSRRDFSLFDDFFTDSFFSRTQEKIISSNSLTFNVEDFPSKNKPENFTGAVGTFIISSSVDTNKVKINEPLRFNLKLSGTGNLDLFEIPEPDFPSGLEVFPPKSDFSKDPFRDKISGVKNWEYIIIPRNVEEIKIPSIELPFFNPITSNWNTTKTDILKINVLSDQDLFSRSNFKSNQSGIINKELRYIKERKVSFTKNGSSKLIPNIFWIINFISIMILIIPYLSRDFKNIFVRKISFSTKAKNSISIIKNEDYSKLHNIIIEFFSNRLNIPTNKLNIQIIKINLLKLLKEEEVIEIEKILKICEEKKFSNNSFKNENFNSISIKIINYISKIDKVYD;locus_tag=LOCUS_11020;note=WP_008765731.1 hypothetical protein (Bacteroides thetaiotaomicron VPI-5482) [pid:26.6%25%2C q_cov:79.0%25%2C s_cov:79.6%25%2C Eval:3.5e-41],MGA_1121
sequence16	MetaGeneAnnotator	CDS	26035	26787	.	+	0	ID=MGA_1122;product=BatE protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962306.1;translation=MIKIIFLKIVLLGSILNAEQNIQNIFENGNKFYFNKNYSMAIQSYNKILNLGFYHENLFFNLGNAYYQNNELGNAIWSYEKGLKINPFDKDLVYNLSFCNSKLADNVIRPKQFFLFNFYLNTIRYLSFPKWFVLFSITFFLWCLLNSIIKVFNYKKNIFFKSFRSFLLFSLLIILLFLYDIIFNLSKVNNGIVVTETIDILSAPSKNSNLVYTMNEGSKLKIINFNDLWYEIELLDGNKGWVLKNNIKEL;locus_tag=LOCUS_11030;gene=batE;note=WP_011962306.1 BatE protein (Flavobacterium psychrophilum JIP02/86) [pid:26.9%25%2C q_cov:91.2%25%2C s_cov:92.7%25%2C Eval:5.9e-19],MGA_1122
sequence16	MetaGeneAnnotator	CDS	26790	27209	.	+	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKILFLLLSFGSLFSQNTNIFDETFDPSNLVEPNLKLPLIVKPNDENPEFLNNTIVDSIIDGFRIQVASTNDLDFANSLSNSIKDKFNYETYIIFDSPNYKLRVGDFISRKNAETIRVNLIKNGYDKSWIIRTKVYKK;locus_tag=LOCUS_11040;note=MGA_1123
sequence17	MetaGeneAnnotator	CDS	318	983	.	+	0	ID=MGA_1125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVSSILEISDLDFNYEKENSILRNFNLIIKEGEIISIHGPSGSGKSTLLRLIAGFEKQSKGIIKINNIIVSDKNNFVPTEKRNIGLVFQDKNLFPHLNIKKNIIFGIRNHPNRNTIQEDLIKLFRLKKLEKKYPHQLSGGEQQRVAIARSLATSPELLLLDEPFNALDEVLKKELQDEMKKIFLEKNQTIMMVTHNQDESEFFSSKIFEIKKGRPSLINF;locus_tag=LOCUS_11050;note=WP_012256230.1 ABC transporter (Chloroflexus aurantiacus J-10-fl) [pid:42.1%25%2C q_cov:96.8%25%2C s_cov:58.3%25%2C Eval:6.6e-45%2C partial hit],MGA_1125
sequence17	MetaGeneAnnotator	CDS	969	1388	.	-	0	ID=MGA_1126;product=peptidyl-prolyl cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89SJ5;translation=MKKIFLIVFILLIACSQKSGEFMENESGLKYQDNVLGDGTSPQKGQRVSVHYTGWLYDENSQDNKGIKFDSSVDKGRPFGFVLGVGSVIEGWDEGVLSMRVGGKRTLIIPPNLGYGSSGIGPIPPNATLLFEVELLEIY;locus_tag=LOCUS_11060;gene=fbp;EC_number=5.2.1.8;note=Q89SJ5 peptidyl-prolyl cis-trans isomerase (Bradyrhizobium diazoefficiens USDA 110) [pid:58.0%25%2C q_cov:93.5%25%2C s_cov:83.1%25%2C Eval:6.9e-34],MGA_1126
sequence17	MetaGeneAnnotator	CDS	1512	5000	.	+	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLIITLFFLIQFLISQSDDRLKLLRADILENIMNENNQPVQYLKGDVKFKKGEAIINSDEAYYIDKNGIGIFVGNVSIVDEEKIFKSDSIKVESKNNIFSAYGSVTFDEKKYKLESDSLIFYSESDSGIAFGKVEFQQDKQTIFANKITYLKELNDNASYQAEGNVKIINDNGTAICGASTYDALEKKSILSIEPSLTQNGQILEGENIELYYENDEINRLFINNNAQVIYKKKGKISLNDSLNVENKDFIDDMSGNSLEAYLKNGEIDSVRLQGMAITLTHLFEDSIFQGKNIASGDTISLNFKSDSLDKTQLSIINVMGGARGEYEPDLSLNKITNNIIYSADTIKYNIPNQTTNMNNSVIIDYGETTLESGFVKVMWKDNIMTASSGKDKNEENRPKFIEKGRDPLIADSLTYNLSTGQGKVNQGRTKMDQGYYKGAEIRNREDNILLMKNGIYTTCENIDHPHFHFGSKHMKVILNELIVARPLILHIFGIPVFGIPFAILPDQGGKRHSGWIMPAYGQSSNQGRYLRGLGYFWAVNEYLNSRFTLNFYDKKGVVFENSNRYFKRYSYNGNFNFKYNRTVLNNDIGNFFSDPGSVRWSTNWTHSQILRKNQSLNINGSYYSDSQFNQKLGIQRDTRLNQSAVSNATYSKRWPKSNISFSSNISQNTNLMVKSKIDTSSIYYDQPLTENRKLQENRNVFPTLNFRKGQSKLFNSPLYFSYNSNFKNNGSGFYKSYAINDSTYAWGEKENDFKNSWIHNFSLSGTSKILKYISLRPRINFREEWITQYFDADSIDSNGEILNKKTINEFKTRHVGSLSLSTNTKIYGLIPINIGGLKSLRHTITPSIGFSYRPDFTNNSFGYVKKIYSSNGNSELFDPFQGSQIGSTPSAEQKNMNISVKNLFQAKIKEGEEERKIDNLLTWNINTSYNFAAEQFKLSQIRSSFRSGWLKKMNLDISMTHDFYKIETINDKSIRYDEINKTELGIPIPRLLTMNAATGFKFSGNIFGIRKKNVEKDTVIVDSNDFVDLMDGGIEKINKKRSNFSKGENWNLNVSLRYSTNRVDPINPRNTFWANSNLSFRFGGGWQVRYNARLNLIEKDLVSQDINIYKTLHCWEMNFTWTPTGYGKGFYFRINVKAPTLRDIKLEQRGGRWTGPGLP;locus_tag=LOCUS_11070;note=WP_010932210.1 hypothetical protein (Chlorobium tepidum TLS) [pid:22.2%25%2C q_cov:70.9%25%2C s_cov:91.2%25%2C Eval:3.5e-57%2C partial hit],MGA_1127
sequence17	MetaGeneAnnotator	CDS	5033	6292	.	+	0	ID=MGA_1128;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CS98;translation=MKNNIYSIKGTKDILPIDSIKWKFIENKVHQTMENWGFGQIRTPVFEKTQLFKRSVGEESDIVSKQMYSFKDQSENDLTLRPELTAPVMRAYIQHNMERHYGSLNKLYYIDSLYRQERPQAGRLREFSQFGAEAIGSKNPEQDIEIIFLVLNIFKDLGLDNLNILINSVGSIESRENYKKDLINFFEPHKKKLSETSKKRLQTNPLRILDSKIPEEIEILKNAPDIFDYLSKNDKEHFNFILSTMKSCNIKFSRDPKLVRGLDYYSRTTFEIISSDVGAQSAICGGGRYDSLVEKLGGKPTPAVGFAAGIDRILIALSNKEISQKTSSLAIQIICFEDIFNHKILSKILELRKSGLIVYFDTLRRSIKAQMREANKNKVSHVIIIGSNEMENNKVQIKDLNSSKQVEIDFDEINNYFKK;locus_tag=LOCUS_11080;gene=hisS;EC_number=6.1.1.21;note=Q8CS98 histidine--tRNA ligase (Staphylococcus epidermidis ATCC 12228) [pid:42.5%25%2C q_cov:97.9%25%2C s_cov:97.6%25%2C Eval:1.0e-97],MGA_1128
sequence17	MetaGeneAnnotator	CDS	6366	8864	.	+	0	ID=MGA_1129;product=DNA topoisomerase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UMV5;translation=MSKQSVIIVESPSKAKTIQNYLGDNYKAIACNGHIKDLPKKELGVDIDKDFSINEVKLPDKKDFFKELKKFTKEYEKIIIATDPDREGEAIAAHIAQEIDESKIFRVRFTEITKDGIIKEMKKPESINFDLVEARQTRRIIDRLVGYKVSRVLWSTLRKNMKFVDVSLSAGRVQSAALRIMVERERLRQSFRSATYYDLKAEFEKNTLTFNSTLFQIDKTKIAQSKDFNDNTGELINNKVILITENEAKNLIEKTKNNNWIVDNVIEKQRNSNPKPPFTTSTLQQEAARKLKFSARNTMRVAQKLYEQGFITYMRTDSTNLSDEGLKGSRSEILKKFGKDFLPEKPNIYVTKVKNAQEAHEAIRPAGVKFSNVNDVKNKIDADAAKLFELVKKRTIASQMKPAILNQTSVVIKNDNLYFKSTGQVIIFKGYMAAYIESFDESKAHEENNLPNLIEGEKLNINKINLEKHDTKPPARFTEASLVKELESKGIGRPSTFANIIDNIVYRTYVDRNKGKLTPTFLGIAVTQLLENHFNSLVDSQFTAKMEDNLDAISRGEIKSIPFMKDFYFGSTSQTGLSKMLDDKVDIAKACTVNINYDEKNKIELRVGQFGPFLQKGDLRKSVPFETYLGDLNINKADEILNNELNENKEIGKDSDGEVIYLKIGPYGPYLEKSESKSRKSIPKGFPISDVDLEYSLKLFSLPKVLGKHPESNEDITSDYGRFGPYVSAGRGQNASIPVNLSPLTITFEEALDLISKKTSSSKEIRTVGTHPKSNKTIIVKEGRYGPYLTDGKVNVSIPKNFNKETISLDESIILIDKKIKSPKKKLKKKKK;locus_tag=LOCUS_11090;gene=topA;EC_number=5.99.1.2;note=Q7UMV5 DNA topoisomerase 1 (Rhodopirellula baltica SH 1) [pid:39.9%25%2C q_cov:97.2%25%2C s_cov:90.4%25%2C Eval:3.7e-167],MGA_1129
sequence17	MetaGeneAnnotator	CDS	8861	9280	.	+	0	ID=MGA_1130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIILLIFFFNFILGNNSLVSDLEKSLMAPCCWTGTVADHGNPNMEKSIKELVNKNMNKKEILDHFVNIYGERILAVPIARGFNLMAWIAPILILIIGCIILYNYIIVRTKISPKINFLDYKNVKNNDLIEKELKEME;locus_tag=LOCUS_11100;note=MGA_1130
sequence17	MetaGeneAnnotator	CDS	9295	10608	.	+	0	ID=MGA_1131;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O51344;translation=MIKKSMEKLVSLCKRRGFIFPSSDIYGGLEATNDYGPLGIELKNNIKSLWWKDMVTSRNDIVGMDSAIFMNSKVWEASGHINEFHDPLIDCKKCNARFREDHIDLNKNCPKCGIKDWTEPTQFNLMLKTQYGPSEQSSSVVYLRPETAQGIFVNFLNVINSSRMKPPFGIAQIGKAFRNEITTGNFLFRSREFEQMEMEFFVKPQETTKWLEYWTDLRLEWYKTLGINEKKLRLRSHEKDELAHYAAACYDVEYNFPFGWSELEGIADRGIFDLQQHMNHSGKKLTWFDSTENQHITPAVVESSSGVDRTVLTVLSDAYHEEEVNGEKRVLLKLQPKLAPIKVAIFPLINKNELPDIANKLTKNLSQHFSTFYDSSGSIGKRYRRQDEAGTPFGITIDPDTLKDNCVTIRSRDSMKQQRINIDTTLKFLNKYINKVD;locus_tag=LOCUS_11110;gene=glyQS;EC_number=6.1.1.14;note=O51344 glycine--tRNA ligase (Borrelia burgdorferi B31) [pid:54.5%25%2C q_cov:97.9%25%2C s_cov:97.3%25%2C Eval:7.1e-137],MGA_1131
sequence17	MetaGeneAnnotator	CDS	10601	11428	.	+	0	ID=MGA_1132;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001099029.1;translation=MINTFISVIIPTFNRSSFLTRSINSVLNQTYNNFKLIVVDDGSVDNTSDLINSNYKNIIYLHQNNKGVSSARNLGINTTKSEWIAFLDSDDEWHPKKLELQVKELKKNPSYFICHTNEKWIKNGKHLNQKNKHQKYGGWIFDKCLSLCCVSPSSIIIHNTVFKNCGIFDESFPVCEDYELWLRISSKYKFLYLQDKLLTKYGGHSDQLSTKYWGMDRFRIEALYKLIDVGKLSFQNLKIAKKMLNHKTKIYTDGALKRGKIDEAENYLNRLKLIN;locus_tag=LOCUS_11120;note=WP_001099029.1 glycosyl transferase (Leptospira interrogans serovar Lai str. 56601) [pid:42.8%25%2C q_cov:95.6%25%2C s_cov:88.9%25%2C Eval:7.8e-55],MGA_1132
sequence17	MetaGeneAnnotator	CDS	11425	12225	.	+	0	ID=MGA_1133;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966184.1;translation=MKPQVNFVVALQNEAKPLIEYYKLTLLHHYPFKVYKNENKWLIVSKVGNKMIKKACLHLSEISHSHLNTVWLNVGTAGHLHYPLGTILIANKIIDDHTKAIYYPSQIIKDNLKSTIVRTVEKNVNDYNEKEIFDMEASGFFHICSKISLNELICSIKIISDNKEFPNFNNKLIYSLIKNSLNNLSGIVDQFYKLSKKQCSFVLTNEHFEIFLNKWHFSFTQTFQLKKKLNKLRFLKPKIDYFNESKSCKNSKEVLNFLENELLNYD;locus_tag=LOCUS_11130;note=WP_010966184.1 membrane protein (Clostridium acetobutylicum ATCC 824) [pid:26.8%25%2C q_cov:83.1%25%2C s_cov:83.2%25%2C Eval:6.2e-17],MGA_1133
sequence17	MetaGeneAnnotator	CDS	12218	13219	.	+	0	ID=MGA_1134;product=deoxyribodipyrimidine photo-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582848.1;translation=MIETIYVEESVEEHSRTKKILKKFPNSTIIVCDRYKEIFNRKKQNFRIQKTSPSLIIAKKNNNFVLPTPKGLGIGSNKNYYFSHMLNCLYDCRYCFLQGMYESSNFVLFINFESFTNSIEKIIKNNLNGEKITFFSGYDCDSLAMESITGFVKFFLPFFENKPNTEIELRTKSVAINEILNHKPFNSCIIAYSFTPDEIAKKNEHGAPPVKSRINAMQKLSNAGWKLGLRLDPLIYHSNYKDNYKKLIDDIFLKISVKSFHSISLGAMRFPKKMFNKISNLYPDEKLFSKDFVQINKMKSYPKIIESEIVNYCKEYLKKYIDEDQIFSFDPYL;locus_tag=LOCUS_11140;note=WP_012582848.1 deoxyribodipyrimidine photo-lyase (Dictyoglomus turgidum DSM 6724) [pid:37.1%25%2C q_cov:97.3%25%2C s_cov:95.2%25%2C Eval:1.0e-57],MGA_1134
sequence17	MetaGeneAnnotator	CDS	13214	13999	.	-	0	ID=MGA_1135;product=purine nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I2Y7;translation=MNSLSNFVNYIKLKGQSNPEIGIIFGSGLSSLSENIDTTKVIKYNDIPKFPLPTVEGHKGEFVFGKINNKNILMSNGRFHYYEGWNKVQIESIVKIFYKLGIKKIIITNCSGSIFKLNKPSTILNIIGYVDFTFMSDKNPSIKYLKKNRNFKLSNALKKAFQNKKIPYNEGVYGWTLGPSYETPSEINYLKKMGVHAVGMSTVPEINIATSLKMEIAVISCLTNYAAGIDSKIITHNDVIASANKIRLNLSKLIIETIKIL;locus_tag=LOCUS_11150;gene=punA;EC_number=2.4.2.1;note=A5I2Y7 purine nucleoside phosphorylase (Clostridium botulinum A str. ATCC 3502) [pid:34.9%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:1.5e-44],MGA_1135
sequence17	MetaGeneAnnotator	CDS	14093	15091	.	+	0	ID=MGA_1136;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963304.1;translation=MEKDDIKLLEEIRNTFQNLSNELEKKIIGQKEIINYLFIILLARGHGLMIGVPGLAKTLLIKSLSEVMDLKFNRIQFTPDLMPSDITGTEILEENQVTGKRNFKFLKGPIFSNILLADEINRTPPKTQSALLESMQEQKVTISGKTYSLDSPFFVLATQNPIEQEGTYPLPEAQLDRFMFSLNINYPTLKNEIEIIKTTTSENNNKLNPMISKEEIISFQSLLRRVPVSENVIRFAVSLVTNSRPNKNSPNFINDWVEWGAGPRASQFLILAAKGKAILSGRPSPNISDIIAVAKPVLGHRIITNFNAESENVNIDIILDKLINFLNKNYEV;locus_tag=LOCUS_11160;note=WP_011963304.1 ATPase AAA (Flavobacterium psychrophilum JIP02/86) [pid:55.8%25%2C q_cov:95.8%25%2C s_cov:99.1%25%2C Eval:1.0e-102],MGA_1136
sequence17	MetaGeneAnnotator	CDS	15081	15980	.	+	0	ID=MGA_1137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404088.1;translation=MKFNHKKKYLNPIEIAKLNNISIKAKFVVEGYLLGLHKSPYHGYSVEFAEHRSYEAGDEIKKIDWKLFGKTDRYYIKEYEEETNLRSYIILDTSKSMNFSNASISKLDYGSLIASSLSYLMLKQRDAVSLTLFDEKIKDFIPPKSNPNHINLIFSKLDKIISGNNTNISTILHELALKLKQRGLIILISDLLDNPKEILSGLKHFLYNKHEIIVFHLFNPKELNLDFSSRIKFKDLETGKEITTDPWLIKSDYEELTNEFQNYYKKEMGNNKIDYIQLSTEQSLGFALNKYLSKRKACS;locus_tag=LOCUS_11170;note=WP_011404088.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:41.4%25%2C q_cov:97.7%25%2C s_cov:97.4%25%2C Eval:7.7e-67],MGA_1137
sequence17	MetaGeneAnnotator	CDS	15990	17063	.	-	0	ID=MGA_1138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLNIYKIMLLLLITIIFSSCATEELASARLYVKEQRFDEAEAFILAAIEVTPEDPEAYFLLGKHVYARNEQYKEMNQMFNKVLELNPKFKLPSSGKAIQTEIEDERTKHWIRLFNIGSDNYNAAIQSSGEDRTSNFNNAVEAFNIAKTIKPDEVLTYKNLVFCHIGLNNKDMIQTTLNEAMEKNPEDPDLLFEAGKVFLDNKEFDIAIKYLEEGLKIEPASATGASRLADAFYQTGDIDGAIFAYTKAIRSAPKATDLHFNLGVLYGQIQDYEMMELQFQKVISLDPDDAMGVIGIAEAYEGMERWSDAEIYYIQALENDPENVYLLKAMVRVTMRLGRPEEAKEWLDKSKEFGG;locus_tag=LOCUS_11180;note=WP_010948187.1 methyltransferase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:25.7%25%2C q_cov:57.7%25%2C s_cov:35.7%25%2C Eval:1.6e-11%2C partial hit],MGA_1138
sequence17	MetaGeneAnnotator	CDS	17117	18010	.	-	0	ID=MGA_1139;product=adenosine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941774.1;translation=MYKKSILAVGSIGIDWLELPDKKSGKTIGGSLTYFTRTAGLNSNINIVGIIGDDYPEEGKKLFDKYGNNLEDLQIVKGKSFSWGGKYHQNWEDRTTLFTELGVFENFHPKLSSKNKNSDFIYLGNIHPNLQLEVLEQINSSNNIIACDTMNLWIESTRSALDEVIQKVDILFINESEAIQISNCKDLDLSGPKILEMGPKMVIIKKGSAGCKLFSKDLNIEIGVYPIKKITDPTGAGDSFAGGVMAAIANGFHISEALLWGTASASFCVEGFGLEGFKKMNQSSLKQRIEYLKNNFI;locus_tag=LOCUS_11190;note=WP_010941774.1 adenosine kinase (Geobacter sulfurreducens PCA) [pid:39.1%25%2C q_cov:97.3%25%2C s_cov:93.6%25%2C Eval:1.6e-56],MGA_1139
sequence17	MetaGeneAnnotator	CDS	18131	18913	.	+	0	ID=MGA_1140;product=phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002440529.1;translation=MASKKYAILTDIHGNLEALKTSLSIISQQSNVERIIFLGDYFSLGPAPEEVFNILSNMSTETVFIRGNHERYLLEKIWENENPKIEGMKSNDPVLNGIVSHQKWVYDQIGTKLLDFIEQRTKISHNEIIGSNYLEFSHAWFKRDEKVPSVDEANELSKKYLNQNEKIKKITFVHGHIHLERNEKHNKFSIYCPISTGLPFDKLTKGSIGYLEIDEDVSFRIKRFDYDMEKTISLLYKRKPPFYKNLIQTLKFAEIKNNQL;locus_tag=LOCUS_11200;note=WP_002440529.1 phosphodiesterase (Staphylococcus epidermidis ATCC 12228) [pid:24.1%25%2C q_cov:93.5%25%2C s_cov:80.1%25%2C Eval:3.1e-10],MGA_1140
sequence17	MetaGeneAnnotator	CDS	18946	20076	.	+	0	ID=MGA_1141;product=cysteine desulfurase IscS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DZS1;translation=MIYLDYCSTTPVDEQVVNTMRKIDLEVFGNPSSIHQFGQKAKAIIESSRKDIGSILDCSSDEIIFTSSGTEANNLVLWDVFQKGGKHIIISNIEHPCISKTCSVLRRFGVKITKIPVDQNGIIKISELKKSINKNTALVSVMLVNNEIGTIQPIQEIIKICNLKKILFHTDAIQAFGKIDLNFKKNKPDMASFSAHKIYGPKGVGALYIKKGIKLNPLIYGGSQEMQIRAGTENLSGIAGFGLAAKLANENLKNDSIKLNKLTDKLKKDIFSNIENVKILCNSSNQIPGFISLELSGVSANDLLIKLDIDGFGISTGAACSSGVNKTSSVLSAIGLDQKSASSVIRISLGRYTNESDLNSFVDSLSKNVKKIRYEK;locus_tag=LOCUS_11210;gene=iscS;EC_number=2.8.1.7;note=B8DZS1 cysteine desulfurase IscS (Dictyoglomus turgidum DSM 6724) [pid:44.5%25%2C q_cov:98.9%25%2C s_cov:95.2%25%2C Eval:7.1e-87],MGA_1141
sequence17	MetaGeneAnnotator	CDS	20066	21151	.	+	0	ID=MGA_1142;product=tRNA-specific 2-thiouridylase MnmA 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I123;translation=MKNNRVLVAMSGGVDSSVSLIKILEQGYEPIGVTMKLWESPDGVPATDSYCCSLESINNAKIICQKYNVPHYTLDFRNEFKKNVVDYLVNEYFNGNTPNPCINCNKYLRWGSLINQAKILEADFIATGHYAIIKKDKKYGFTLSKGKDTLKDQSYVLWNIDKKLLSKTLFPLGKLSKDEVRKIAVENKLITAEIPDSQELCFLPNSDYRQFLKDYAPKRSSKEKEGNFVLENGQIIGKHMGISNYTIGQRRKLGLSGPEPNYVKKIDKKNNIIQVSSREKMFFEDCNVKNLNFLIPLEKWKKSSITTYIRYNHTGVASEIEFLEKNELKIKFKSPQFAVTPGQSAVFYQDDLLLGGGIISK;locus_tag=LOCUS_11220;gene=mnmA1;EC_number=2.8.1.13;note=A5I123 tRNA-specific 2-thiouridylase MnmA 1 (Clostridium botulinum A str. ATCC 3502) [pid:41.3%25%2C q_cov:98.9%25%2C s_cov:99.2%25%2C Eval:2.0e-78],MGA_1142
sequence17	MetaGeneAnnotator	CDS	21197	21667	.	+	0	ID=MGA_1143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFYLIFTISFLFIFISGINCQYRTKIPSSGVFDSNNQNDEMNFFDLFNSDKFSMNHSFGMGMSSLGGISKSYGTYTNNMNFRFNDKLMLKSLIYFVQPSNVQNLNSYPVNNPSIYYDANLNYKISENIIFQLSLSSSPNYYRYNLSPFRNSYNW;locus_tag=LOCUS_11230;note=MGA_1143
sequence17	MetaGeneAnnotator	CDS	21677	22231	.	+	0	ID=MGA_1144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKKSLKFFLKLSPFFTKYNIFIVVLCLISSSFIISIVDRHLKFGIKMDYSFSNTPPHLIIDPIKEYENSIYKDIKVEVLNGCGEKGIAKDFSDYLINQHVDVVRSENTPGNNFDYKNTQLILRTEDFQDIARIASLLDINPKDSTKVIVETNLNLLTDVTLIIGKDFKNIIPVQNFILSQP;locus_tag=LOCUS_11240;note=MGA_1144
sequence17	MetaGeneAnnotator	CDS	22261	22611	.	+	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLSYQIAKKASKLAFSKKAEDILIIEIKDLTSISDYFVICTANSAIHAKTIYETILDGFISKEKPYRIEGLNNSSWIIMDYVNVVVHIFQEQERNYYSIERLWVDGNFEKFKNME;locus_tag=LOCUS_11250;note=Q8KG28 ribosomal silencing factor RsfS (Chlorobium tepidum TLS) [pid:42.1%25%2C q_cov:91.4%25%2C s_cov:65.6%25%2C Eval:8.8e-21%2C partial hit],MGA_1145
sequence17	MetaGeneAnnotator	CDS	22622	24337	.	+	0	ID=MGA_1146;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S3W3;translation=MSIILIKKVIKKSIFQSIKSCNYDLNINEKDIKLDETKNKDIGDISTGISFILSKKNQETPIQIAENIVENISVDKNLIIKISVSKPGFINFYLNIKILYDNLFQIIIKNKKYGQSSIGINKKALVEFVSANPTGPLTVGHGRQAVLGDVVSRILEFNGYSVEREYYYNDAGRQMRVLEESIKSRFIQIFDEKNKFPEDGYFGEYIEDIAKDILIKELKLKNLKELNIFLANLNESDKKLYLKNIDRINFRKFGEKVIFNNIKNTLKKININFDNFINEQKFYDDGSIDSILKIFEKTKLSYKKDGAVWLKTSNFGKEVDTVIIKNTGEPTYRLPDIAYHRNKIKRGYDLIINILGADHKDTVPDVLNGVKALGFEINHIKVLIHQFVSLIVKNEKIKMSTRKANFVTLDDLIDMVGVDITRYFFIMRGKQSHLNFDIDLAKKESDENPVYYLQYAYARICNILKFLDEEVSLKLKETNFNLLVEKEEISLMKCLNCFDEIMIDSLNTLEPQTLANYLQQLATSFHKFYANHRVINKNKELTNSRIKLILSAKIVLENGLDILGINHPEKM;locus_tag=LOCUS_11260;gene=argS;EC_number=6.1.1.19;note=Q2S3W3 arginine--tRNA ligase (Salinibacter ruber DSM 13855) [pid:41.1%25%2C q_cov:94.7%25%2C s_cov:95.9%25%2C Eval:1.9e-124],MGA_1146
sequence17	MetaGeneAnnotator	CDS	24372	24698	.	+	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYFLIIIIIIFNINPIVYSKQDDSIKVYLSQFEDFIRNEISNSSTTGRFQLQSFNIDRTHWHYMLDTSTGKLYRMELGRTPDRSEWKLMGNGIIEEKKEIFEDNLK;locus_tag=LOCUS_11270;note=MGA_1147
sequence17	MetaGeneAnnotator	CDS	24698	25186	.	+	0	ID=MGA_1148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYILIISLIFMSCEESKIDFIEVNANDIKNEINKFKGKKSVLVNYWATNCSPCIDEFPMIMDLSIKYEDNLKVFFVSTDWLEDKKKALKFLASQNVEGLSFLKNQKDNDFINQTNENWSGALPFTIVFGKQSGNVVDFWEGKASKKRFIRGINIGINEGE;locus_tag=LOCUS_11280;note=MGA_1148
sequence17	MetaGeneAnnotator	CDS	25188	25787	.	+	0	ID=MGA_1149;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405414.1;translation=MNKIFNIIMIFILTTFLQSKELEIGSQIPLFEVKMDQVNGNPISLKDAMGKKGLIVIFSCNTCPWVLAWEDRYNLIYKKYKDKGIDMVAINSNQGTRNSGDSMSDMVKHAKKAKYEFSYTLDEKSKLATAFGATKTPHVYLFDSNGKLVYKGAIDDNSRNPKKVEDNYLMDALDSMVEGKKISQVSTKAIGCTIKYVDN;locus_tag=LOCUS_11290;note=WP_011405414.1 thioredoxin family protein (Salinibacter ruber DSM 13855) [pid:27.0%25%2C q_cov:92.0%25%2C s_cov:86.1%25%2C Eval:2.1e-12],MGA_1149
sequence17	Aragorn:1.2.38	tRNA	25795	25869	.	+	.	ID=Aragorn_21;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_21
sequence18	MetaGeneAnnotator	CDS	177	641	.	-	0	ID=MGA_1152;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P38526;translation=MRRRRPEKRAILPDPIYGELMVQKFINNLMRGGKKSISEKIFYSSLDIVKSKTKSDSLEMFKKAMENVKPLIEVKSRRIGGATYQVPIQVPAQRGFALATRWIITYATSRKGRSMSEKLAAEFVDAANNDGGAVKKKEDTHRMAEANKAFAHYR;locus_tag=LOCUS_11300;gene=rpsG;note=P38526 30S ribosomal protein S7 (Thermotoga maritima MSB8) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:4.9e-51],MGA_1152
sequence18	MetaGeneAnnotator	CDS	642	1016	.	-	0	ID=MGA_1153;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YG52;translation=MPTINQLVRKGRKRTTKSTGAPALQSNPQKRGVCTRVYTTTPKKPNSALRKVAKVRLTNSIEVIAYIPGEGHNLQEHSLVLIEGGRVKDLPGVRYHIVRGTMDTSGVDDRKTSRSRYGAKKPRE;locus_tag=LOCUS_11310;gene=rpsL;note=B5YG52 30S ribosomal protein S12 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:78.0%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:5.1e-53],MGA_1153
sequence18	MetaGeneAnnotator	CDS	1003	5280	.	-	0	ID=MGA_1154;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S1Q6;translation=MVYINPQKEDNPNHFKSVTIGLMSPEDILRRSYGETLKPETINYRSYKPEKDGLFCEKIFGPVKDYECHCGKYKGIRYRGIICDRCGVEVTRKKVRRERMGHITLAVPVVHIWFLRSVPGKLNHLLGISTRDLEKVIYYEAYIVINPGSSDKKRMELIDENEYRELESKFGKHTVSEEDQDEDNYFYADMGGMAVRNALKTMDITSTMKELELLIKETGSKQKKADALKRLKVVKAFYPSKLKAKLNKPEWMVVTVLPVIPPELRPLVPLEGGRFAASDLNDLYRRVIIRNNRLKQLMEIKAPDVILRNEKRMLQEAVDTLFDNSRRGTAVSSGTRRPLKSLSDMLRGKQGRFRQNLLGKRVDYSGRSVIVVGPTLKLHECGLPKDMAAELFMPQIIHELIARGIANTPRSAKLMVQERAPEVYEILEYVITDHPVLLNRAPTLHRLGIQAFQPVLVDGKAIQIHPLVCSAFNADFDGDQMAVHVPLSVEAQMEARMLMLASHNILHPAHGYPLTIPSQDMVLGAYYISKSKKGDLGEGMRFSSIDEVLIAYENERVGLHAIVDVKHLGEWQNKTTVGRAIFNSIVPDEMGYLDEVLNKKKIENIIYNIYLTVGNQKTVKFLDDLKDLGFKYATKSGISIAISDVLIPDEKEKIISKAENEISSIQGKFSRQILTEGERYNKVIDVWTHATNDTSQAMMNRIMNDKQGFNSVYVMADSGARGSQDQIKQLAAMRGLMAKPKKSMTGSKGEIIENPITSNFKEGLTVLEYFISTHGARKGLADTALKTADAGYLTRRLVDVAQDMVIGEDDCGTINGVWISDLKEGEEIIEPLSERIRGRVLQEDVYVDGKKILKVGTLVDSSVAEILTKNEIDRVFIRSVLTCESLRGVCKLCYGIDLNTNKLVSMGSSVGIVAAQSIGEPGTQLTLRTFHIGGTASRIIEESEMKSRRNGTVEFSDNLEFAKVKDDDGFKENISRVLVRNSSIKIKDKKGGISVYNVPYGSSLEVNEGDQIEAGQILFTWDPYTDFILARNSGIVDFVDMVEGETYHEEAVEGGKKQLVTIESKNRRLAPHLDIVDKDKNIISSGTILPVKAVLMVKNGEKADAGQILVKIAKDIGKTRDITGGLPRVAELFEARKPTSPAVVTEIDGLVKFGEVKRGIREISVNGPHDVTKKYKVPYGRHVIVHEGDRVSAGDRLCEGSISPDDILSILGPERVQEYLVNEIQEVYRLQGVRINDKHIEVIVRQMMQKVEIDDSGDSDFLAADRVNRNELNRENDKIIKSVIVTDVGDSNFSEGEMILRTEHLEINRKLKEDGKKGIKTRSTKPATSRPLLLGITRASLNTESFISAASFQETTRVLTDASIEGRGDKLLGLKENVILGRLIPAGTGFKSSKNPIVSKLDNSENDSEIIEKEIVEEETNNANN;locus_tag=LOCUS_11320;gene=rpoC;EC_number=2.7.7.6;note=Q2S1Q6 DNA-directed RNA polymerase subunit beta' (Salinibacter ruber DSM 13855) [pid:55.6%25%2C q_cov:97.6%25%2C s_cov:96.5%25%2C Eval:0.0e+00],MGA_1154
sequence18	MetaGeneAnnotator	CDS	5293	9066	.	-	0	ID=MGA_1155;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GYU0;translation=MTKNNSFERSSFSKIETDLQMPDLLGVQIDSFKNFLQIGVEESDRKLIGLNEVLENIFPIEDSHKNYTLEYKGYFFGTSKYSPEECMDRGVTYAVPLKVRLVLHITDEFDRSKYAHSIEQEVYFGNIPYMTNRGTFVINGAERVIVSQLQRSPGVFFDEFTHPNGTRLYQGRVIPFRGSWIDFTTDIQDCLYVIIDRRRKFPVTTMLRALGFSTDSDIFTILGLSKKIVINAKNSKKLIGQVLVNDVIDVKTGEILAESRSVINSDAFNLLKSSGIKDCEVVSSMDDLAAELILNTMQKDPTQNTDDALTLMYQHLRSGEPPNLETAQKFIERMFFSPKRYDLGKVGRYRINKQFDLNVDLEHTVLTTEDIIKVIEYLMDMRKGVRGPDDIDHLGNRRMKTVGEQLTNQFSIAFSRMARTVRERMNLREAESLTPQDLINSRICTTVINTFFGTSQLSQFMDQTNPLAEITHKRRVSALGPGGLTRERAGFEVRDVHYTHYGRLCPIETPEGPNIGLISSLATYAMVNELGFIEAPYRVVQSKNGSAFVSKKIKYLSAEDEDRSKIAQPLENLDQKGEINIDKVRVRIRGDFPVVNVKEVQFMDVAPHQVLSVAATLIPFLDHDDANRALMGSNMMRQSVPLIKPEAPIVGTGMEKIVTRDSRTSLFSPVSGIVESVDANSVAIRTKDIPEDLAMTSDQNLLKIPMIKYSRTNQDTCMNQRPVVTAGQKIKKGDLIADGPSTQSGELALGRNLMVAFMPWRGYNFEDAIILSERLVKDDVFTSVHISEIDLEVRDTKRGEEELTREIPNVGEEATKDLDENGIIREGARVRSSDILIGKVTPKGETDPTPEEKLLRAIFGEKAGDVKNASKKASPGTNGVVIKTQLFERKTKQSRAVEKKEIEAFQEETRAIKKKIKKTRDEMLFELLLNQISNGLRDISNGKTLIKASTKLSSKRLKSLDLERISRDHSWVQDNKVWIQIQQVWNSFDREWRQAEERLERKIFKLQVGDELQPGVSKLAKVYIANKRKVKVGDKMAGRHGNKGVVATIVPEEDMPFMSDGTPVDIVLNPLGVPSRMNLGQLYETMLGWAGMKLGKNYETSPFDGASPKEVQEQLELAGLPTSGKADLWDGRTGEKFHYPVTVGCIYVMKLAHMIDDKMHARSTGPYSLITQQPLGGKAQEGGQRLGEMEVWALEAYGASYTLRELLTGKSDDVDGRSKVYNALVRGDNIPDFSIPESFNVLVKELQGLGIDIELKS;locus_tag=LOCUS_11330;gene=rpoB;EC_number=2.7.7.6;note=A6GYU0 DNA-directed RNA polymerase subunit beta (Flavobacterium psychrophilum JIP02/86) [pid:53.9%25%2C q_cov:99.6%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_1155
sequence18	MetaGeneAnnotator	CDS	9116	9499	.	-	0	ID=MGA_1156;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q748Y5;translation=MAEISKADVMSYLEKANMLDISELISEIEEKFGVSAAAPVAVAAAAPSGDAGAESEEKDSYDVILKSGGDKKIQVIKVVRTITELGLKEAKDLVDGAPKSIKEGVSKADAEDMKAKLEEAGAEVDLK;locus_tag=LOCUS_11340;gene=rplL;note=Q748Y5 50S ribosomal protein L7/L12 (Geobacter sulfurreducens PCA) [pid:54.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-31],MGA_1156
sequence18	MetaGeneAnnotator	CDS	9522	10040	.	-	0	ID=MGA_1157;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005810195.1;translation=MPNKQNLEIVDMFSSKFESASGIYFTDYLGLSVKDITELRSKFTADGIEFCVVKNKLAEISSKNAGFEELENVLKGPTAIAFSYNDPTTPARILKEFKKNHELPVVKAFVLDGKVMDQSAFSAVANLPSREVLLTKFVSGLSSPMSKFASTLRSSMSGLLNVLNSIKETKSS;locus_tag=LOCUS_11350;note=WP_005810195.1 50S ribosomal protein L10 (Desulfitobacterium hafniense Y51) [pid:34.1%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:8.4e-27],MGA_1157
sequence18	MetaGeneAnnotator	CDS	10040	10729	.	-	0	ID=MGA_1158;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YFW1;translation=MKSFTKRKKEIADKVDFNKEYSIDEAINLIKDLKTLKFDETIEIALNLGVDPRHADQNIRVTSSLPNGSGKKIKILVLSNETDIKEALNSGADYAGNDDFLKKLESGWSDIDVIVAHPSMMPKLGKLGKILGPKGLMPNPKSGTVSSDVVASVKDIKSGRIELRVDKNGIVHAPIGKKSFSEIQLVENFNSVLKTISNSKPPSFKGTFLKKITVSSTMGPGLKIERVSV;locus_tag=LOCUS_11360;gene=rplA;note=B5YFW1 50S ribosomal protein L1 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:48.6%25%2C q_cov:96.1%25%2C s_cov:96.5%25%2C Eval:4.1e-61],MGA_1158
sequence18	MetaGeneAnnotator	CDS	10732	11154	.	-	0	ID=MGA_1159;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RFN5;translation=MAKKVTTVIKLQVPGGKANPAPPVGPALGQHGINIMDFCKSFNDKTQDSMGTIIPVEITVFEDRSFTFVTKSPPAAVLLKKAANIKKGSGEPNKEKVGKVSESDLSEIAKQKMDDLNANSIESAVEMIRGTAKSMGLKVK;locus_tag=LOCUS_11370;gene=rplK;note=Q2RFN5 50S ribosomal protein L11 (Moorella thermoacetica ATCC 39073) [pid:69.3%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:2.1e-51],MGA_1159
sequence18	MetaGeneAnnotator	CDS	11156	11698	.	-	0	ID=MGA_1160;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:F9Y5N1;translation=MMEWYTLRVLSGKEKKIRETMISEIGIGEEETDKISEILVPSENVVEMRAGKKIVKDRVFYPGYILVKMNLDKESRHQVENINGVMSFVGPKGEPESLKIDEVNRILGEVEIKTGREVVAARFNLKDLVKINDGPFIDFEGTVIEINDDKQKVKVMVSIFGRSTPVELDYLQVEHVKHTD;locus_tag=LOCUS_11380;gene=nusG;note=F9Y5N1 transcription termination/antitermination protein NusG (Ketogulonicigenium vulgare WSH-001) [pid:46.8%25%2C q_cov:95.0%25%2C s_cov:96.0%25%2C Eval:1.4e-38],MGA_1160
sequence18	MetaGeneAnnotator	CDS	11695	11877	.	-	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKVKNFFEGVQFEMQKVSWPSWDELRGSTFVVLGLSLILSIFLFFIDFFLSRIASVVL;locus_tag=LOCUS_11390;note=MGA_1161
sequence18	Aragorn:1.2.38	tRNA	11887	11960	.	-	.	ID=Aragorn_22;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_22
sequence18	MetaGeneAnnotator	CDS	12190	13380	.	-	0	ID=MGA_1162;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_953913.1;translation=MAKEKFDRSKPHLNVGTIGHVDHGKTTLTAAITTVLSKRGLSELRDFGSIDNAPEERERGITIQTAHVEYESESRHYAHIDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHVLLARQVNVPNLVVFMNKIDQVDDEELIELVELELRELLNEYEFPGDDIPIIKGSALNALNSPEDEAQSKCIIDLVDAIDSYVTEPQRDVDKPFLMPVEDVFSITGRGTVGTGRIERGIVKVGEEVDIVGLGADKKTVITGVEMFRKELDEGQAGDNAGLLMRGIEKEFLKRGMVCAKPGSITPHTKFKAEVYVLKKEEGGRHTPFFKGYRPQFYFRTTDVTGVATLPSGTEMVMPGDSVSLEIELISPIAMEKELRFAIREGGRTVGAGVVTEILE;locus_tag=LOCUS_11400;gene=tuf-2;note=NP_953913.1 elongation factor Tu (Geobacter sulfurreducens PCA) [pid:72.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-169],MGA_1162
sequence18	Aragorn:1.2.38	tRNA	13416	13489	.	-	.	ID=Aragorn_23;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_23
sequence18	Aragorn:1.2.38	tRNA	13530	13603	.	-	.	ID=Aragorn_24;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_24
sequence18	Aragorn:1.2.38	tRNA	13647	13730	.	-	.	ID=Aragorn_25;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_25
sequence18	Aragorn:1.2.38	tRNA	13875	13948	.	-	.	ID=Aragorn_26;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_26
sequence18	MetaGeneAnnotator	CDS	14113	15504	.	-	0	ID=MGA_1163;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3MGC2;translation=MTLNLYNSLSKKKEDLKPLKNKIKMYSCGPTVYDNPHIGNFRSFVFFDLLKKYLIFLGFDVQHVMNVTDIDDKIINKCSGKIKNLELITKKYFESFKNDADKLKIDLPNKIPFATDHISDMIDLIEKLILKGHAYKTQDGSVFFKIDSFKDYGMLSKIDFSKLSKTERIKNDEYDKNSINDFALWKSRKVDDGDIFWNSPWGNGRPGWHIECSAMSLKYLGTEFDIHCGGIDLLFPHHENEIAQSVCATNKTFAKLWVHCEHLLINGSKMSKSLNNFYTLNDIIKKGYNVNTIRFFLISSSYSHKIDLNDVNLNSSNNALKRIQDFYNRIFELSKGDVEIDNNKIMNTQLIVDFKIAMNDNLNMSKALSVIFNYIKKINIKLDKKQITYKEAILTLAALNKIDEVLGVIRSSKIKLSKNDIKLLDERNLARKNKNWGRADEIRLFFKEKGIDIDDSETGIIIK;locus_tag=LOCUS_11410;gene=cysS;EC_number=6.1.1.16;note=A0A0H3MGC2 cysteine--tRNA ligase (Chlamydia trachomatis 434/Bu) [pid:42.1%25%2C q_cov:99.6%25%2C s_cov:95.2%25%2C Eval:1.4e-106],MGA_1163
sequence18	MetaGeneAnnotator	CDS	15501	16415	.	-	0	ID=MGA_1164;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66806;translation=MKIIVLMGGNSSEKNISILTGNAVVKALKDQQINVKSCIYNGRIENYINQLKDSDLVFLALHGGDGENGKIQKFLERENILYTGSNSATSKIAINKHLTKKIMLKNNIPTPDWKFFPGSTFFEKYNEYNFKYPSVIKPNEEGSTFGISIVNSFEDVLNQMTQLKKFVKKSGIIVENYIKGRELTVGVLNNITLPCVEIKTKGSYYDYNAKYVDNKTKYICPAELNEMESSLASNYSILLNDALGCLDYSRVDFRMDEKGKFYCLEINTLPGLTSKSLLPKAANQYKINFNELVLEICKLALKRK;locus_tag=LOCUS_11420;gene=ddl;EC_number=6.3.2.4;note=O66806 D-alanine--D-alanine ligase (Aquifex aeolicus VF5) [pid:38.6%25%2C q_cov:96.4%25%2C s_cov:98.3%25%2C Eval:1.4e-50],MGA_1164
sequence18	MetaGeneAnnotator	CDS	16412	16978	.	-	0	ID=MGA_1165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHKVNKKYIFFDRDGTLNVDPGYISSVENFFLYDDVLESLSLLSKKQFHFILTTNQSGISRGLLNIEELNKIHQKLDELLLKKNIKFKDKFFCPHLPLHNCKCRKPEKGMFLEAAKKYNIDLKQSVVIGDSDIDIIVAKKIGALSILVKTGKGILSIKKLEKQNIRPDFIGKNLLDCALFLIKGMKS;locus_tag=LOCUS_11430;note=B8DZR9 phosphoheptose isomerase (Dictyoglomus turgidum DSM 6724) [pid:39.4%25%2C q_cov:93.1%25%2C s_cov:44.7%25%2C Eval:2.2e-29%2C partial hit],MGA_1165
sequence18	MetaGeneAnnotator	CDS	16968	17936	.	-	0	ID=MGA_1166;product=TIGR00374 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256438.1;translation=MKKKLLGFFVSLFGLYIAFGKLSFNDLFDVLGLVNWPLIFLSMFIMIVSVLVRSFRWKILLKPINNFEINNLFFSTMIGYFGNSVLPFKLGEYLRANALNKIYNSISVSTVFATIAIEKFLDLLGAFFLIIILIIINDVPIWFRNSFMVLILIMSFLFIFILFFGKIKKNFLVKSFSSFKKNNYIIKINLMINNFIDGLSTIRKLHQPVSVMFYTFLLWFMYWFSVWFCVVATDINISFLEAGIVLFATGMVIAIPSAPGYIGTFHATAVLILTDFFSISIDKSQAFAILNHFVGFFPMVIIGGVFFIKSSMSLFLKNTSDS;locus_tag=LOCUS_11440;note=WP_012256438.1 TIGR00374 family protein (Chloroflexus aurantiacus J-10-fl) [pid:22.6%25%2C q_cov:96.6%25%2C s_cov:89.9%25%2C Eval:2.9e-22],MGA_1166
sequence18	MetaGeneAnnotator	CDS	17938	18555	.	-	0	ID=MGA_1167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPLIKKIISILIYISIYSSYLHTKDNSEFLYKISDKILAKKGNSFEVIWYYKLNNKDWKGQGDLKIFGKNYLYLVLPYMEVLIQKSLISIKYIQENQVILDYFNRTDSSNIFAVLLNEFDDFSIYESKIDNNQLVFSLIPNNEIGFDILELNADSQNYIPKSIRAISGDELEIKVEILSCSDLKKPFLLKDKILEANEIIDLRE;locus_tag=LOCUS_11450;note=MGA_1167
sequence18	MetaGeneAnnotator	CDS	18539	20893	.	-	0	ID=MGA_1168;product=DNA translocase FtsK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97I41;translation=MNKKNEIIGILLILISIFVFISIFTFNEFEEPSISPNIEISNRAGIIGIYISHFLIKMLFGFSSYIVPMFGIFWGWIFFSKNFKKSFLKLSIHFLIAFFIFSIILGFIDLIFFTSLSGLYSFLIASLLNDFLGSFGLAIFIVAIFLINIRAFFSWNFYKPIEKILNIILKFFKPKDKNLSENENLKKNEDRNNFSKIKNNEIYKNYDENISEKSGDIIEQNIKKSDLINDLNFQNNNSSLSDSEESFSDFKNENFIKDKNKNEEQNDSILDYNIKEEIVENEIDYNKNIKKELKQKYKLPSSDYLINPDDSSPSISEEELVEKADFLAKSLLTFGVDGNVVNISPGPVITLFELEPAEGVRVNKFVQLSDDLARVMKAPRVRIIAPIPGKSSVGIEIPNDNPSTVYMKTVVNSEKFISSKSNLTVALGKNTTGENFIIELDKLPHLLIAGTTGSGKSVCINTIISSLLYRSTPDEVRFILIDPKKLEMAAYRILDKHHLITNEDVDEHVITTPENAVLALKAAEKEMSRRYDVLADAVVRNIAEYREKAKNNSDLETMPYIVLIIDELADLMLRAPKDVEQSIARLAQMARAVGIHLVLATQRPSVDVITGVIKANFPARIAFQVATKIDSRTIIDINGAEKLLGKGDMLFLPPGSSDPIRLHNSFVTLDEINKIVSHVKNQPISNEILLEGTKSNSLNENGLNDSDNDNDELINEAIRLVITNQQGSISLLQRRFRIGYSRAARLIDQMEQIGVVGPFTGSKARQVLVDENYLQILNSDDPSN;locus_tag=LOCUS_11460;gene=ftsK;note=Q97I41 DNA translocase FtsK (Clostridium acetobutylicum ATCC 824) [pid:39.6%25%2C q_cov:84.7%25%2C s_cov:92.5%25%2C Eval:1.0e-126],MGA_1168
sequence18	MetaGeneAnnotator	CDS	20886	22001	.	-	0	ID=MGA_1169;product=aminomethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HDT6;translation=MILMKKTALYNSHIKLGAKILPFSGYEMPIQFSGILNECNAVRKNVGIFDLSHMGEIIIKGKDATKFLQQITTNNVDALKVGKIQYTLICNYNGGIKDDCLLYKFSDLYILVVNATNIEKIFDWLNKNSFGEVTIENKSNFYSLIAIQGPKSLNLMFDVTNKNKKLKKLKYYSFMNLNIDNVDVFCSRTGYTGEKGFEIYVQNKYAKKIWDIFLTRGKSFNLEPIGLAARDTLRIEMKYCLYGNEINEDINPIQAGLKFVVDFKKNDFIGKNEILKFYDNNQKKVLRGIVVNGNAIPRKSAPIFKNNEKIGYVTSGTYSPALKKSIGIIYIIEKYGLLNEDIDVEIRNKKFSGKIIKTPFLKSNCLTLNYE;locus_tag=LOCUS_11470;gene=gcvT;EC_number=2.1.2.10;note=Q6HDT6 aminomethyltransferase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:44.9%25%2C q_cov:97.6%25%2C s_cov:99.2%25%2C Eval:2.5e-84],MGA_1169
sequence18	MetaGeneAnnotator	CDS	21998	22591	.	-	0	ID=MGA_1170;product=Holliday junction ATP-dependent DNA helicase RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I6F2;translation=MIYSINGRIRSKFENYIVVDLGSFSMTVMMSINSINSLSKLSDEKIEILTYLNVREDALELYGFLDNNEIDLFKQLINISKIGPKMAISILSYTSPNAFIRNIKSNNIDEITKISGIGKKTAQRIVLELKDKLELNIKSEKDLIRTEVDSLHLDVARSLISLGINKIDVENVIKEMKNDDQFNGKLEEVIKKALSRL;locus_tag=LOCUS_11480;gene=ruvA;EC_number=3.6.4.12;note=A5I6F2 Holliday junction ATP-dependent DNA helicase RuvA (Clostridium botulinum A str. ATCC 3502) [pid:34.7%25%2C q_cov:98.0%25%2C s_cov:97.0%25%2C Eval:1.1e-24],MGA_1170
sequence18	MetaGeneAnnotator	CDS	22604	23071	.	-	0	ID=MGA_1171;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q183P3;translation=MLILGIDPGISITGYGILDYSLSKISLVDYGVIKTSAKEKNNERLYFLFNKINELLNKFSPDQFAIEEAFYAKNIKSTMVLSEARAVISLAVTKNKIPLFEYSPKKIKMSVVGNGNASKEQVKYMVSSILSMKEKKEKFDVYDALAIGICHIHQI;locus_tag=LOCUS_11490;gene=ruvC;EC_number=3.1.22.4;note=Q183P3 crossover junction endodeoxyribonuclease RuvC (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:43.8%25%2C q_cov:98.7%25%2C s_cov:90.5%25%2C Eval:7.1e-34],MGA_1171
sequence18	MetaGeneAnnotator	CDS	23084	23806	.	-	0	ID=MGA_1172;product=putative transcriptional regulatory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHS2;translation=MAGHSKWSQIKRKKAILDSKRGQIFTKIIKEITIASRMGGGDEDANPRLRQAITNAKGANMPLNNIKKAILKGTGELPGVSYEEMIFEGYGPGGVAIMIEVATDNRKRTVAELRHLIAKNGGNLGESGCVSWMFKRKGNIIINKSNIDEEKLMELFLKFNILDFSEENDIYIVETKPEEMNKFLKTLEQDNYKIISSEILQVSDNTVSINNDISNKIINLFEKLDEHEDVQKIHSNFEIN;locus_tag=LOCUS_11500;note=B5YHS2 putative transcriptional regulatory protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:48.5%25%2C q_cov:99.6%25%2C s_cov:96.0%25%2C Eval:3.4e-69],MGA_1172
sequence19	MetaGeneAnnotator	CDS	1325	1684	.	-	0	ID=MGA_1175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKAILFLLFIFSFSCSNDEELYDITIQGSWSKGQGNTLQIDLADSSFYASCDGYCWAMGGKSGTFSVIDDTLITFDYDAISFFKVGPTGGSLKFRKLRSQDPSHDAFLLGTWARVSR;locus_tag=LOCUS_11510;note=MGA_1175
sequence19	MetaGeneAnnotator	CDS	1804	2934	.	+	0	ID=MGA_1176;product=aldose 1-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UQ38;translation=MNKLINFILGSILILSIIGCDDKSIFLSEKEYGVLDDGTIIKQYIFENDNQMKVKIINYGAIVVSIEVPDKYGKINDVVLGYDSIEGYVQDPSYFGAIVGRIGNRIAKGKFSLDGQDYTLAINNNENHLHGGIKGFNKRVWSPEIIKLNDAPALKLTYVSSDGEEGYPGNLTLEVTYSISSENELIIDYLGKTDKATILNPTNHSYFNLGGEGSGDILDHILKINADYFTPVDEGLIPLGDHKSVLGTPMDFLSPKKIGDRINNNDDQLKVGLGYDHNWVFNDWDGTLKLGVSLFDPQSGRLMEVLTTEPGVQFYSGNFLDGTNIGKNQKAYQYRSALCLETDHFPDSQNNPNFPSVILRPGKEYKQKTIYKFSTK;locus_tag=LOCUS_11520;gene=galM;EC_number=5.1.3.3;note=Q7UQ38 aldose 1-epimerase (Rhodopirellula baltica SH 1) [pid:53.0%25%2C q_cov:96.3%25%2C s_cov:94.8%25%2C Eval:7.3e-108],MGA_1176
sequence19	MetaGeneAnnotator	CDS	2931	4526	.	+	0	ID=MGA_1177;product=acetylglucosamine-6-sulfatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011117793.1;translation=MIYEFYRRHIIKKKNLKFFLLTLFLFACSNNNVSERPNIIFIMSDDHAVPAVSSYDGFLSNVFKTPHLDRIGKEGAIFNNAFCTNSICTPARASVLTGKYSHVNGVYTLNEKISDSQNTFPKELQKTGYYTGMIGKWHLHTEPRGFDYWKVMIGQGLYHDPIYCEMGKGWSPDPEDGTGVKYNGYVTDINTDFAIDFLDNRPKDKPFMMMLHYKAPHDEWEHSEKYSSLFEEIDVPEPETLYDDYLTRGYGMYENTQKIGENHTFYEEETGHLLGKERKSAQYQTYIKKYLRCVASIDENIGRVLQYLDNNNLTKNTIVIYTSDQGFYLGEHGMYDKRFMYEESLQIPFLIRYPKKIKPGTVNNDVISNIDFAPTILDFAGNNIPKDIQGKSFKGFFENSKSLNWRQSLYYRYWMHGAHFNIPSHYGIRTKDFKLIYFYAKGLGYSHDKYYPTDNWVYKGNEIKDSEDYWEMYDLRNDPNELNNIYENSNYKEIKESLKKELFDLKKYYKDTDESFPELYSLTKKYLINFF;locus_tag=LOCUS_11530;EC_number=3.1.6.14;note=WP_011117793.1 acetylglucosamine-6-sulfatase (Rhodopirellula baltica SH 1) [pid:41.6%25%2C q_cov:92.7%25%2C s_cov:90.4%25%2C Eval:3.4e-112],MGA_1177
sequence19	MetaGeneAnnotator	CDS	4582	7578	.	+	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSSIYSQSLFLNEIMSKNESSLQDKDGEYVDWIEIFNGSDFTVNLEGYKLTDNPDLLSKWIFGPISIPADSFIVIYASDKNRNLLIDDLHTNFKIKSAGESIILSDQNDQIIDSVFTNVIPTDISKGRMPDGSNNWVFFQNSSPGESNLLDAVVEFKIIENPNFSIDGGFYDDPVKLDLSLSNNSDEKIILYSLDGSEPSIVYSDTLFISKTTVVRSKVVNSNDGQTSKIETQTFFINENIDHSLPVFSIATNPSNFYGESGILEEENLVWGPNNALIDTEIPINIEMFEEDHGNLAFNHLAGCELFGSGSTYEPQKSLAIYFRSKYDVGELKYKLFENSPISEYEAFILRNSGNDMYATHFRDALTISLLDNNTNLDYQHYRPSIVFLNGEYYGILNIREKINEHYIEHHHFVSKENLDLLSYKEVEQPVIIHGDIQQYTDLLIYLHNKDLNDKDSYPHIADIVDIENLIEYQIMEIYVGNIDWPGNNHKFWKSKYDGSKWRWILFDTDTGYGLWDEWWQDGRTGYKVNHFHHATSLGYEGGGWPNPPFSTYIFRKLIENESFKNQFINRFLDLLNTRLSSKNVINTIDSLTFKLQSSMPRHLERWDVWDDDLPEIYDYEVGKLKEFAINRPRFSKMHMKNFFNLNTEKTVKLNIIPKNSGSIIFNSLTIEDSVWNGSYYNNVPIKLVADPKPGFKFSGWSSNSLQSSNNELNIFPTDEELTAFFLPDSNGDIIINEINYSSFNIADSEDWIEIFNSTSEEIILNNWSLSDNSSESFTFPIDYSIGQNNYLIIAKDLDKFSKIYPNIKNVIGNFPFGLSSESDSIILKNQYGEIVDIVSYEPEYPWPIKVNDSGQTLELTNPILDNSFGDNWSLSKGYGTPGQRNSNYSFLNQTNFETSKLDSTLSSKIINYPNPFSDNTNIEFFSEKDGLVEIKIFNILGESIISLSKLNRPSGIYFDKWNGLDFSGRKVSSGVYIIVLYIDSKVYASNKILIF;locus_tag=LOCUS_11540;note=MGA_1178
sequence19	MetaGeneAnnotator	CDS	7592	8719	.	+	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010926684.1;translation=MSIKLNFRLIQFFLFLIFNMSIFIFANNPSKLFEDYKDLKLELITDELEIPWGMDFLDNGDIIVTEKNGSIFRINNNDKLIKIIGGPKSTETGQGGLLDVQLHPNFSKNKWIYFSYNKQKKNKYATAVSRFILDNNKLTNEKIIFEALPYSGKRLHFGSRLEFDKQGYLYITVGDRGSRDINPQDLSKHAGKVHRIYDNGDIPKDNPFYNKEGAIKSIFSYGHRNPQGMILNPFTNDIWTHEHGPRGGDEINIINKGLNYGWPVITYGINYSGTIITHEKKKEGMEQPLHYWVPSIAPSGMTFVEGNIYPSLNGNLLIGSLKFEYLHLCVMNKSKVISEHRLFEDMRVRNVKQRSDGYIFFSVEEPGRIYKILPN;locus_tag=LOCUS_11550;note=WP_010926684.1 hypothetical protein (Bordetella bronchiseptica 253) [pid:40.6%25%2C q_cov:89.9%25%2C s_cov:88.2%25%2C Eval:7.9e-70],MGA_1179
sequence19	MetaGeneAnnotator	CDS	8802	10190	.	+	0	ID=MGA_1180;product=2-isopropylmalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979323.1;translation=MKIELLDTTLREGEQSANVSFTVDQKIEILKSLDEFGVEFIEIGHPIVSPDVHDAVEKISKIETKANKLIHSRAMKEDIDLAHSFNIEWIGIFFGTSDLSLKHKFGIDRSEAITKIVDAVKYAKDKGMKLRFTAEDATRTNIEYLIEVAQAVSDAGADRFSIADTVGILTPEKTTNLVGKIVKKIDIPVHIHCHNDFGLAVANSVSGLLSGAQVADVTINGIGERSGIASLAEIALLLKTQYDIKNNWDLSKIYKLSKKVERMSGIFNSENKPIVGINAFTHKAGLHSRAVIKDPRTYEAFDPKIIDRSRDISIDKYSGIDALAFRLKSLNVPHNKEQLFEILKVIKSHPEKRKFNDLEILELADDILKVDIKTYVPIDVEAILNIELNSAVYTSRITRWLMSRNQVKDVYEVAGDYDIIAHINARSIRDLNDIVEELRVKEGVLRTHTRPVLKGYSISQNK;locus_tag=LOCUS_11560;EC_number=2.3.3.13;note=WP_010979323.1 2-isopropylmalate synthase (Sulfolobus tokodaii str. 7) [pid:43.4%25%2C q_cov:98.3%25%2C s_cov:99.6%25%2C Eval:5.5e-103],MGA_1180
sequence19	MetaGeneAnnotator	CDS	10207	12114	.	+	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTLTEKIISNYIDKKSFKDSVKQGSAYWIEPEHVMSHDNSAAIINKFNDFNIKKVINEKQPIIALDHNIQDKSIGNKKKYSRIEVFSQNNNITFFSSGKGIGHQIMVEEGFAFPGTFCVASDSHANMYGGIGCLGTPVVRTDAAAIWATGKIWWRIPKIINVVFNNRLREGVTGKDVILTLINQVGRNVVLNSAIEFTGEGINSLSIDDRLTIANMTTEWGALSGLFPIDIILIEWLKKHSRKNKNFNKNKINSLIKNPLIADSNANYFKTINVDLNTINPFISGANDWASKSLTNEKIFINKAYLVSCANSRESDLKTAANILSKGEIHPNVKMYLSPASNQVQKQLEQDGVWKVFLDAGVNILPSGCGPCIGLGEGIIKKNEVAISSSNRNAPGRMGHKDGKVYLSSPETVVKSAIKGYISHDENFEIIPDISIVDNNQIDDKSKINSSDLDIPMITGEGIYCFEDNITTDGIFPSSHTYNENLSNIELAELSMKNYDDNFFKLSKKGDILLSGYNFGIGSSREQAVTCLKAKGIKLVIAASYSSTYMRNALNNGYGLIECPSLINKLKTIFSKPKKSIRLNSIIKIDFKNSKIHTDLFDCSFSFKKWNNLEYELISSGGLKNFIIKERDKK;locus_tag=LOCUS_11570;note=Q9WZ24 3-isopropylmalate dehydratase large subunit 2 (Thermotoga maritima MSB8) [pid:34.8%25%2C q_cov:66.5%25%2C s_cov:98.6%25%2C Eval:3.5e-66%2C partial hit],MGA_1181
sequence19	MetaGeneAnnotator	CDS	12111	13241	.	+	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYKIAWLAGDGIGAELSVLAKKVLNVLQLGVEYVNADIGWEFWKKEGNPLPSRTIKILNETDCGFLVSITSKSNDDAQLELNSELKNLNLKYISPIVQLRKKFQLHTNIRPCFSFSGNINNLKENIDLVIFRENTEGMYSGVEFKPVSQELYTVLKKYNKNMDHFDQFNLNDLAISTRIMSKNRCKSIVDEAFQYAKKNNINNVSLVDKPNVLRETGQLMIDCAKEVSKSYSGIKLNLFNIDAMCMQLVKNPNKFSVIVAENMFGDILSDLAAQLVGGLGFAPSANIGNDYAIFEPCHGSAPKYTGLDKVNPIATFLSLKMMLDWLDEKEKSNLLLESIKTVVLERKFGTYDMALNNKSSELTLEICRHIKRLS;locus_tag=LOCUS_11580;note=Q48806 protein DlpA (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:37.9%25%2C q_cov:98.9%25%2C s_cov:59.0%25%2C Eval:1.4e-71%2C partial hit],MGA_1182
sequence19	MetaGeneAnnotator	CDS	13233	15677	.	-	0	ID=MGA_1183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKLKRVKIIKTKTLIFLILIFSKNLFANNYFDWEEVFIQNNDLKIENLNNSFFGTHHNTVILSNGLKNQHIYYTNDQKFWNVKKNSIPSNIIKVSSISTKNGLFCIGIIKHEKNLILKSFLIKKYNNSIIIDWKIANPNFTSSNVQILEINNDIYAFVQNPEKLIYNLWKLNFSKNIWEKINSFSFNSKNNFLIASQSNGVKKLIFLFDEKKLIENYKYDLESQELNSISMIKFNSKFNFYNSSIIPIGSNQLTIFSNNRTIFSYNTVTDTWIKSDKVPFQNFNNSKIIKINENLFFLNNSFEKKNNINTWLATPIKRTDFGTIDYIVLGLYLTLIIYIGFHISRKKSSINDFFRANKNIPWWAAGLSIFATQLSAITFMAIPAKSYSGNWTWVILNFTIILIAPIISYFIIPLYSRLDITTAYQYLEKRFNILVRLVSSAMFVVFQLVRLGTLLYLPSIALSAASGININLCIILMGFLAITYTVLGGIEAVIWTDVIQVFVLLGGAILALFIIQFHLDNGIQDIISIGFKDEKFKVFNFHFNFKSPTFWVLCLGGIGSNIISYGSDQSVIQRYLTTKNKKEAQKSIITNAYLTIPSTLIFFSLGTSLYSFYKIYPNRINIHLENIDGILPWFISTSLPQGISGLLIAGIFAATMSSLDSGMNSVSAVVTTDFFNRFKKGLTEKSSLLIARITTIVTGLFGISFALSMSTWNIDSLWTEFTKYIGLFGGGLGGLFLLAIFTRRSNSYGVIIGLFLSALIQYFLTFNNFIHPLMFAFTGMFSCVFFGYLFSIIIEPNFKIEKKYTCYYNKSG;locus_tag=LOCUS_11590;note=WP_011119311.1 sodium:solute symporter (Rhodopirellula baltica SH 1) [pid:37.1%25%2C q_cov:65.6%25%2C s_cov:59.8%25%2C Eval:4.5e-101%2C partial hit],MGA_1183
sequence19	MetaGeneAnnotator	CDS	15761	16369	.	+	0	ID=MGA_1184;product=TetR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963361.1;translation=MVSERQQEERKIRRKRILNGALEVFHKSGIEGSTMDEIANEAGFGKATLYYYFSSKEEVFCAIMEKGWKPLWEKLEDTIHSEGLKENELFIEALCKVANIILKDKNLYRFLFTAPKSITHMPENLQTWRIYQNRLYGSLRGLLEEGITKKLFPKANSEILFKAIGGLFHGVLFLGNEETKQVSKADIKTLLEQFLKSNQEKV;locus_tag=LOCUS_11600;note=WP_010963361.1 TetR family transcriptional regulator (Clostridium acetobutylicum ATCC 824) [pid:27.7%25%2C q_cov:84.2%25%2C s_cov:90.5%25%2C Eval:8.1e-12],MGA_1184
sequence19	MetaGeneAnnotator	CDS	16375	18504	.	+	0	ID=MGA_1185;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000449670.1;translation=MKKKIPNLFWVIILSNISLFSMNNYTISGRIIDSQTKQGIENVNIFIEKLGAGSSSSSDGYFNIEIESIVFPITLLINHIGFSPKKILLFDLNQELIIELDESFFEMDEIVITGTKTSKIRENVPISTQIITNQEILNSGESNIAELLSSFSGVNLQTSVDGGSILNIMGMDSRYILILLDGQPITGKFNNRVSLDQISTKLIDKIEISKGPSSSLYGTEAMSGVINIISHKNLNEDLISANIRFSESEKKLNFKDLLNTSLFRNFIFQKNASKFSSSINLNSDKIKTDKTVQQIDADNIIKNSGLFNLNYKFNDNNALSFSSNIFHQKENGESSLMNTKTNILRNSFNVKHNFQTKNDWYIDQIIQKQNYERNYIQNRPWGDEVKNDITSEDNLEYEIKFTKKSKLNIINLGLESSKSTYQSDRVENNIQSVLNNSFYSQYEYHYKNGLSVIYGARIDFFSEYDEVFSPRIGILYPIRSNWKIRTSWGRGFRSPSFMERFIDWDHVQFGYQVLGNPNLKPESSIGYSLEVENYKLSKYQISIRAYHTAFDNLIEDYSISPGVLSYRNIIDATYSGVEINGKWNTYKFWLFSCGFNYVDNRNEENKIIPNTQPFSGNLGLTFNYKKNSFKLNLKWIGKYYPQDYDPLIGEYTKSQNSLPNQYLLNMNQNFLLLNNIKLIVGIKNSFNYTNRRYGPFLGRVFFAEISNNF;locus_tag=LOCUS_11610;note=WP_000449670.1 TonB-dependent receptor (Leptospira interrogans serovar Lai str. 56601) [pid:26.4%25%2C q_cov:85.2%25%2C s_cov:89.2%25%2C Eval:4.8e-51],MGA_1185
sequence19	MetaGeneAnnotator	CDS	18532	19053	.	+	0	ID=MGA_1186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKHTIITLFFLVSFGCENPNSEDNEEEEIVVLDIVSSDVNEEPYYYNFHENLNDSTDWQLMYHNQEIAGTGYSMPNISLDSTKVMFAVDSVMVFDDIIDSPSMSSFMNSVSDLNYLGKYEILSYDMTVHKVSTSNLVYFIYDINSHQVFKLFFNDYSAGVISFKYAELHFQ;locus_tag=LOCUS_11620;note=MGA_1186
sequence19	MetaGeneAnnotator	CDS	19153	19668	.	+	0	ID=MGA_1187;product=ferritin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0KEB9;translation=MVSKKVISKLNEQVLHEANASQSYLAMAIWADTKSLDGIAAFFYEQSEEERQHMIKIIKFINEVNGKAIIPKLEAPIPNFDSIKDALVQSLKNENHVTSSINELTSLALDEKDHASYNFLQWFVEEQLEEEQQFQFLIDRINMIGEEGLSIHAMDKLMGKLAISEEKEEDA;locus_tag=LOCUS_11630;EC_number=1.16.3.2;note=A0KEB9 ferritin (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:32.7%25%2C q_cov:94.7%25%2C s_cov:77.5%25%2C Eval:3.5e-25],MGA_1187
sequence19	MetaGeneAnnotator	CDS	19665	20441	.	-	0	ID=MGA_1188;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000971814.1;translation=MKIKNNLIKGFLIDIDGVVLSSNKLINGSLNFIKSLNENKIPYIFLTNNTTKNKNQLVNKLKNAGLNINNNQIISAGIAGISFLKKIGSPSSHLYLNENLLKEYSIFDKEKEDKKYVVIGDRGDNWNYTDLNKIFNLLMNGCELISLHKGKYFQKKNNLQIDIGSIVSALEYCSGKKGTVIGKPSKEFYKIALDSLGLKPKNVAMVGDDLFADIEGAQSLNINTILVKTGKFREKIFNNSSIKPDLLLESIGEINSLI;locus_tag=LOCUS_11640;note=WP_000971814.1 haloacid dehalogenase (Leptospira interrogans serovar Lai str. 56601) [pid:35.7%25%2C q_cov:98.8%25%2C s_cov:94.8%25%2C Eval:1.3e-45],MGA_1188
sequence19	MetaGeneAnnotator	CDS	20528	21865	.	+	0	ID=MGA_1189;product=phosphate starvation protein PhoH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005788731.1;translation=MYIKKENKIFVLDTNVILHDASCIHYFEDNDIIIPTIVLEELDDFKRGNDEINFNAREFLRTLDILTENIVDGEIPELGDGRGSLKVVVNHRWHPDIHNVFSEDSPDHRIINCAYSISKNTKNRRVILVSKDSNVRLKARSLGLFSEDYSNDKVEKNVNELYTGVRTFDNVESKYINMLYDSKNMIESNNFDIIDKPLSNENYILKNGIKSALATYDPFNKGFKVINKISAFGIIPRNAEQSFGISILKNEKIKLATLTGKAGTGKTLLALASALESRSKFRQIYLARPIIPLSNKDLGFLPGDLNSKLDPYMQPLFDNLDVIKHNLKPTDNRIQIIKRILDEEKLFITPLSYIRGRSLQNIYLIVDEAQNLTPHEIKTVITRAGEGTKVVFTGDIHQIDHPYLDSQSNGLAYIIEKMKNQNLYAHINLAKGERSELSEIASNLL;locus_tag=LOCUS_11650;note=WP_005788731.1 phosphate starvation protein PhoH (Bacteroides fragilis YCH46) [pid:51.6%25%2C q_cov:98.4%25%2C s_cov:99.1%25%2C Eval:5.9e-123],MGA_1189
sequence20	MetaGeneAnnotator	CDS	312	617	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKISPEKYELINENLIIKWENGEETFLDFKTIRDNCPCAECSGEKDAFGNVYMGYGKAKNESGYNLLGIKQVGYYGFQFNWGDGHNSGIYRFELLKRLDN;locus_tag=LOCUS_11660;note=WP_011404775.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:30.4%25%2C q_cov:85.1%25%2C s_cov:61.4%25%2C Eval:6.5e-08%2C partial hit],MGA_1192
sequence20	MetaGeneAnnotator	CDS	835	1539	.	+	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005787827.1;translation=MSLLANLVKLQEIDSSIQSIEELQGDLPKNVEELKTNLSTISSQISNDEKRLQEIDIETRKTQTIQKTNKDKINNLQEQVYRVKSNREYDALMSEIDHLKNELSEYELKELELSEEKDNLSNKLKENQSENDVIAEKLDKQKTSLDKNIVETKEELGSLKTKREIITSEISEQHLGLYDRIKSARGGVAVVPVKNQSCGGCHSKIPSQLEVFIRDGNKLTQCNVCRQILYWDDK;locus_tag=LOCUS_11670;note=WP_005787827.1 hypothetical protein (Bacteroides fragilis YCH46) [pid:29.1%25%2C q_cov:96.6%25%2C s_cov:82.8%25%2C Eval:3.2e-24],MGA_1193
sequence20	MetaGeneAnnotator	CDS	1940	3634	.	+	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIWNEISFDITLVNKLALEFKATTAIAKVLANRGITSLKSSLPFFNPNLNNLHDPFLMKNMDLVTNILIKSIESNERIFIFGDYDVDGTTASSALSMFLNELGCETKVYIPDRKKEGYGLSINGIDVAIDWNADILITCDCGINAVEQAEYAKKKNIELIITDHHSPDDQIPKIDLILNPNQKDCKYPFKGLCGGAVAFKLMQGIIKKLGKDIEIANKYLDLISLGTAADIVPLLDENRIIMKIGLAKIKNSKISGLVKLLQISGLFEKEISVGRIAYNIAPRINAAGRLGDANRVVNLFTTKSEVEAVELAKVLNEENKIRQSIQERMLKEAMKKISNDKEFKNEKVLIIWDKNWDEGLIGIIASKLKEEFNKPAIVLSIKDEIAKGSARSILGFNLFEKLKECKDNLISFGGHPMAAGLKLNTKDLNNFKRSFEKIAKNSLKNSNMNKILDIDAEINFEEINNRFIDFLEKIGPHGPGNATPKFITRNVQILDQPMLVGNKKHLKMKLIKNNIFFNSIGFNFGYKYEELLKKTQIDIAYIIEKNLWNGNSTIQLNLKDIKI;locus_tag=LOCUS_11680;note=WP_011861665.1 single-stranded-DNA-specific exonuclease RecJ (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:39.2%25%2C q_cov:95.4%25%2C s_cov:65.7%25%2C Eval:5.2e-114%2C partial hit],MGA_1194
sequence20	MetaGeneAnnotator	CDS	3646	5961	.	+	0	ID=MGA_1195;product=7TM receptor with intracellular metal dependent phosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404269.1;translation=MSALRKKQKIKLSQKENRKKINRFLIFSLLTISISLLFPGGEQLDYNYQIGDITREEIVADFNFPILKSEDQLEKELIEAKTKVPYEFQRDQNISIDQNQKIEFFFNDIKNLSTASTNYQRTLQLLWEKKYEDDENKVKTNAVTDSALFSDLKESFLKKYPFDIDDPQWIELISEIDQNGNKIDLDSLELISLNISKNNWAYGIYDIPKNNIISEEISLSINEISEIINKDNFYDLEEAWIQAKKEVNVTFPNDELLKDLIYSIIIEFMKPNLIFDSEKTERNQNKTTSIIPRSKGIIMENERIVDANIRVNEEIFLKLESYLYAINQKERNETGLSFILPWIGRILIVSSILSLFFIYLKTYRNEVYNKNQNLILFSSLFFLIITSSYIFVLRFNFSEYLIPFTVGAMVITVLFDGKIAFNASIILAILVGFVIGGKLDFAIVGLFTSMAAIYSVRQLRTRAQLFIAILFIILSGSIVILGIGLIKKLQWNIIGDNLINMLVSGLLAPLITYGISTFYEVIFRATSDLTLLELTDFNHPLLKKLSQEANGTFNHCIVVGNLAESCANAIGANPLLARVGAYYHDIGKLSRPEYFVENQYGADNPHDELTPSLSSKIIIGHVKDGIKLAKEYRLPPAIANFIPMHHGTSKIDFFYNKALEMFDNDFSKINEDDFKYPGPKPNTKETGLLMICEAVEAAVRSLKNPTLTKIESMADKIIQKRLQEGQLDNCPLTISDLNKIKGNVKGKYGMMSVFKGIYHLRIEYPNQEKSQ;locus_tag=LOCUS_11690;note=WP_011404269.1 7TM receptor with intracellular metal dependent phosphohydrolase (Salinibacter ruber DSM 13855) [pid:31.1%25%2C q_cov:94.9%25%2C s_cov:82.6%25%2C Eval:9.8e-98],MGA_1195
sequence20	MetaGeneAnnotator	CDS	5958	6398	.	+	0	ID=MGA_1196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQIKTFIDPKLENFNINETNLKCLVLDLLKFHNHNSAKISIIFSTYQILNDLKIKFFNLDYLTDVIAFNLNDVKENIEGEIYISPEIAKKNAKKFNNSFDNEIKRLIIHGSLHLIGYLDDTKNQKSKMNNIENKFLKNNVLELIC;locus_tag=LOCUS_11700;note=Q2S0T3 endoribonuclease YbeY (Salinibacter ruber DSM 13855) [pid:31.1%25%2C q_cov:67.1%25%2C s_cov:67.5%25%2C Eval:7.3e-11%2C partial hit],MGA_1196
sequence20	MetaGeneAnnotator	CDS	6392	7657	.	+	0	ID=MGA_1197;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017189.1;translation=MLDNIFFQIFAFIILLILSAFFSGSEAAFFSIDKKKKSYKNKHQIIELLQKPRRLLIVLLTGNTIVNTTMAVLATFITANISEMFELNVTVLIIFQTFILSIAIVLASEITPKIIAIQNSISFAEKVSIPIKILIWILSPIAVPLYTLTKFLSKIIPGKKEKLFETEDEIKALANIGAKTGSIKYDESKMIKSALDFSSTVVKEIMVPRIDIIGINIHKSLSETINIIKKNNFSVYPCYSENLDNIKGFLYSKDVLPHLKKINQKLKISSLCRKVFFIPESKNIDQLLRDFQQRKEKIAIVVDEYGGTAGLVTVEDIVEEIVGEIRDEFDKESPMILELTKQNWLVNAKTPINILESELNITFNKDREYDTLGGFLFYEFGNIPIVGNFIEYQNLIFKIISMEGNRILKINIIKRGFNEKD;locus_tag=LOCUS_11710;note=WP_011017189.1 membrane protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:33.1%25%2C q_cov:94.5%25%2C s_cov:94.8%25%2C Eval:9.6e-59],MGA_1197
sequence20	MetaGeneAnnotator	CDS	7644	8387	.	+	0	ID=MGA_1198;product=nucleoside triphosphate pyrophosphohydrolase/pyrophosphatase MazG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9X015;translation=MKKIENLLSTIKKLRGDNGCEWDKKQTSESLIPYLIEEVYEVIDAIDKKNRNNLLEELGDLLIHVLFQCDIANDKKEFNLNDVILVANQKLIERHQHIFSKKEISKNSNWELNKQNIKKRKYRLDGIPINLPSLIKAERLQEKAASAGFDWENINQVWNKMEEEIQELKKAKSKDEIEEEAGDILFTVVNLCRYFNISADNALRKSNYKFLKRFNGIEDQLRNQSKQFENVSMDELNNLWNEQKQII;locus_tag=LOCUS_11720;gene=mazG;EC_number=3.6.1.1,3.6.1.9;note=Q9X015 nucleoside triphosphate pyrophosphohydrolase/pyrophosphatase MazG (Thermotoga maritima MSB8) [pid:44.2%25%2C q_cov:97.2%25%2C s_cov:94.9%25%2C Eval:7.8e-56],MGA_1198
sequence20	MetaGeneAnnotator	CDS	8380	8772	.	-	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082423.1;translation=MFKKINIQTYQRTDFIDITNYIDELLLESNLTEGEVDIFVPHTTCGITINENADPDVMRDIKYFIDKLIPNDENFLHNEGNSDSHIKTSFFGSSERVFFNNKKLILGVWQGIYLCEFDGPRNRNILIKIK;locus_tag=LOCUS_11730;note=WP_004082423.1 hypothetical protein (Thermotoga maritima MSB8) [pid:51.2%25%2C q_cov:99.2%25%2C s_cov:97.7%25%2C Eval:1.8e-34],MGA_1199
sequence20	MetaGeneAnnotator	CDS	8785	9597	.	-	0	ID=MGA_1200;product=zinc transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948822.1;translation=MIETFKGFNPVLQAFLAGSFTWGLTALGASAVFFFKSLNRKVMDAMLGFTAGVMIAASYWSLLAPAIEMSESSTLPKWLPPSIGFLLGGSLLYFMDKILPHLHIGYPKEDAEGIETSWRRTTLTVIAIALHNAPEGLAVGVAFGALASNLDSATFSGAIALALGIGIQNFPEGFAVSMPLRRMGVSRLKSFWYGQLSAIPEPIFAVIGAVIVVSSTVILPYALAFAAGAMIFVVIEEVIPESAQEGNIDIATIGAMIGFTVMMILDVGLG;locus_tag=LOCUS_11740;note=WP_011948822.1 zinc transporter (Clostridium botulinum A str. ATCC 3502) [pid:65.8%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:6.2e-97],MGA_1200
sequence20	MetaGeneAnnotator	CDS	9594	10259	.	-	0	ID=MGA_1201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVLKKSVAEFIGIFFLTFIGGAAIINTNSDLLIVALAHGLTVALVISSLGHISGAHINPAVTIGFLITKKINFKTASSYIFAQTLGSIFAAICLRNLIPNSMDFDLGGQSLNESIGFFDGLFIEMILTFLLVLSIFGVAVDHRGPIKHISGFGIGLVVTIDIFAGGPLTGASMNPARTFGPSLISGNWENHLLYWIGPIIGGILASLFYDKFFNENSGVK;locus_tag=LOCUS_11750;note=WP_011140007.1 aquaporin (Gloeobacter violaceus PCC 7421) [pid:37.2%25%2C q_cov:91.4%25%2C s_cov:74.9%25%2C Eval:3.2e-31%2C partial hit],MGA_1201
sequence20	MetaGeneAnnotator	CDS	10325	10729	.	+	0	ID=MGA_1202;product=protein-tyrosine-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582904.1;translation=MKKVIFICTGNACRSQMAEGFLNYYKGNKYEVYSAGTNPTRVHPAAIKVMSELKIDISNHTSDHMNDFLDKGIDIVITVCDDANRKCPVFPGSQKSIHWSIKDPFINWSDEDHLLEPYRNARDIILNKIKEFID;locus_tag=LOCUS_11760;note=WP_012582904.1 protein-tyrosine-phosphatase (Dictyoglomus turgidum DSM 6724) [pid:46.6%25%2C q_cov:97.8%25%2C s_cov:86.2%25%2C Eval:1.7e-29],MGA_1202
sequence20	MetaGeneAnnotator	CDS	10803	11387	.	+	0	ID=MGA_1203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPNNIDQNKRLTTLFKILDNENQILQRTDQKATTLLSILGVFMVFFIIHFLKLQMNWLIFLFVIIYFIAAFLTIMNLILVISPRVKSEKLEDDEDNHANPLFFAGISKYKDSIEYSNYLTSIASNDEKIYRLFGNQVFALGKVNLYKFKHMNRAIICFIIAISSELTIIITMAWARAFPFLVQKFPNLIDIIN;locus_tag=LOCUS_11770;note=MGA_1203
sequence20	MetaGeneAnnotator	CDS	11392	11934	.	+	0	ID=MGA_1204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKILLLIVLTICFSCSPSAGPPVIGEQGPKGPKGDQGPPGPKGDQGPKGIPGKSISPEDLESINNALIELREKNNLNDNKEYIVSIVPYQFGIAPPVLGFAALSSFGVIYKIEHKNIITPGNEYINVGRIDNRNDFISLSLLPAQDAGESIFLAVTKNGLSYISKDLKVWNFQAQVPIK;locus_tag=LOCUS_11780;note=MGA_1204
sequence20	MetaGeneAnnotator	CDS	11991	12692	.	-	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLMIPIIVLSLFFPVEKAEALFGIGIKGLGDNFTVDGWNDGTSLYSLQSPGFAGSDGVGIGGFIYIDAIPFIDLEASVEIAPVPYDLKFENEITSLPTTQFAWTRISTYFTARKKMIGLGIPFLGGGSFHLGGGVNSHVSSKRADLDMMSDLLGGDLVNGGSDVNLENKIEDFVTNRDNWFDNSGLHVQASLQAKLLTFSSFLTYRITLAEGVVPGSNSFSTLWAGLAFGF;locus_tag=LOCUS_11790;note=MGA_1205
sequence20	MetaGeneAnnotator	CDS	12829	15078	.	+	0	ID=MGA_1206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHFIIYQLIFLAFFEISFCQEYLWPTKEGKIISSNFGEPRPRRFHAGIDIISKEKNINHEIFAVEDGYIQKIKISSNGYGKVIYQKLIDGNIIIYAHLSSFNNLLNQISNIEQEKNNSYEIEKFFDKNEFLIKKGDLIGYLGETGGAYGPHLHFEIRDSLNRPINPLLNGFGIIDKHRPIPNEIALTPLDKNSIINGHNLTQIFNLKKKDIGQYEFPDTIHVYNKFGVSLKSIDKINGLSWKYNITGISLNVNDVELFRIEYDKYDFKNNHLEEITIDNSLRRLNDGDFHRLFLINNNLKTNFIKNNSNGILNLSQGYHNVLIKLFDHNNNISTIKGTFYVAPPIQIDVKIIEKKEDSVFFQMIPKGNPFPIQNFVCYIFNKKGFPEKKLGNLSLKKTKKGLIIELSEKDLNNKILQFIGINKFGAISEPLNYPYEVIYDDYLKTDFELNISHLEKTVIFEISSKSFLPHKTEIKVKKDDVTFLNHKQLRPGVFHTSPLKINELKNMKNITFNILSNPKRELIFSFEPSISTFSKSTFSNDKNCNLIIHENTFYDTTAFWIRKVINNNTIKDGRQISDIYQLNPFNIPLKDSAVVKIKLKDFESTDKKGVFYYDKKEGWTYLKSKYNNKNKFFEASLFSLESVVILEDTIKPVIREIFPGNNGIYKSSDVKEIKLKINDELSGIYNKNQVNITLDSKKIFFDYHPIKKTIKHNLINQLTPGDHEISISAKDNVGNITIKKINFNIRNL;locus_tag=LOCUS_11800;note=WP_011963281.1 peptidase M23 (Flavobacterium psychrophilum JIP02/86) [pid:31.3%25%2C q_cov:45.3%25%2C s_cov:62.0%25%2C Eval:4.9e-38%2C partial hit],MGA_1206
sequence20	MetaGeneAnnotator	CDS	15078	15731	.	+	0	ID=MGA_1207;product=rhomboid family intramembrane serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583690.1;translation=MFFPYKDDNPRTITPLVTYLVIGLNILIFTIQIFGQNNLISYFAIIPNTVFTDFPYFCFTLISSTFLHGSFMHLFGNMIYLWIFGDNVEGYMGHLNFLIFYFFCGVMAGVLQTLFNPISIIPIIGASGAVAGILGSYLILYPKAKIHSIIFIFFYFTSIKIPAFIVLSFWFLIQLSNGFNSLGMNISGGIAWFSHIGGFLTGLISIYFFKKIRFLNR;locus_tag=LOCUS_11810;note=WP_012583690.1 rhomboid family intramembrane serine protease (Dictyoglomus turgidum DSM 6724) [pid:41.9%25%2C q_cov:97.2%25%2C s_cov:96.9%25%2C Eval:2.0e-46],MGA_1207
sequence20	MetaGeneAnnotator	CDS	15728	16366	.	+	0	ID=MGA_1208;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878179.1;translation=MNIIFLGPPGIGKGTQAKIVAQKKQILHLSTGDMLRIAIEKKNEVGLLAELYMNKGRLVPDEIVLDLVSQRLKQKDIQKGFIFDGFPRTLNQANELKSLLKKINYRIDHVIALNGKNDTLVNRLTSRRTCSKCHQIINLVFNPPKRRDVCDNCDGKLVQRDDDKLEIITNRLRIYEIQTKPLIDFYSNENLLRKINGIGNLEQITKRIENIL;locus_tag=LOCUS_11820;EC_number=2.7.4.3;note=WP_010878179.1 adenylate kinase (Archaeoglobus fulgidus DSM 4304) [pid:50.9%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:1.8e-57],MGA_1208
sequence20	MetaGeneAnnotator	CDS	16363	16959	.	+	0	ID=MGA_1209;product=dephospho-CoA kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P58897;translation=MIKLGITGGIGSGKTTVSKEFAKLGGYHINADNEAKNLLIRNKIIKNKIINEFGNDILNEENKIDLYKLSKKGFLNKKNQLLLNSIIHPRVTLFIENLFNIMKYRYKKRLFIIDAALIFESKLNEKLDFIIFVKSDINTRMNRALLRGKHSKEEIIRRENLQMDQVLKEKKCDFIIENNQNFISLKKQIYQIYNQIIS;locus_tag=LOCUS_11830;gene=coaE;EC_number=2.7.1.24;note=P58897 dephospho-CoA kinase (Corynebacterium glutamicum ATCC 13032) [pid:28.1%25%2C q_cov:86.4%25%2C s_cov:85.0%25%2C Eval:5.8e-15],MGA_1209
sequence21	MetaGeneAnnotator	CDS	1547	2068	.	-	0	ID=MGA_1212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINPFDLIFSILLVVFGVIGFMRGFIDEIGRLLGLVLGFTLGIKFHINLCDFLISFLPFDYYLILLSSFIAIFILIILIVRILMRIIQFFFINKGINFSNKILGVIIGLIKSYLLGIFLFLCLDIFTTSAIMNETKEESFFYKSSRVFSSKIIQYLNLEENIIEIKIWFKDSI;locus_tag=LOCUS_11840;note=MGA_1212
sequence21	MetaGeneAnnotator	CDS	2065	2511	.	-	0	ID=MGA_1213;product=aspartyl-tRNA amidotransferase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081070.1;translation=MKIEEKITLDMINGMKEKNKIKVSTLRSLKSKIKEKSIEKNSTLDDKEIIKIIKTAEKQRLDSAEQFKKGNRIDLEKIELEELEIIQNYLPKQLSKKQLYIEIDKVINELNANSNKDIGKVMAELMKKLSGTADGKLVQELVREKLGN;locus_tag=LOCUS_11850;note=WP_004081070.1 aspartyl-tRNA amidotransferase subunit B (Thermotoga maritima MSB8) [pid:35.6%25%2C q_cov:98.6%25%2C s_cov:98.0%25%2C Eval:5.5e-22],MGA_1213
sequence21	MetaGeneAnnotator	CDS	2528	3133	.	-	0	ID=MGA_1214;product=2-hydroxyhepta-2%2C4-diene-1%2C7-dioate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963558.1;translation=MNIYCVGHNYIDHIKELKNEIPKKPIFFQKNSTCISKKKNILLNKNDEIHYELELVLTFKKKLHFCNEEEVYDFISEYSLGLDLTNRKLQIKNRESGLPWFESKCFPNSAVLTKSKKFNYDEINNDFWLKINDIEVQRGNIANMIFKIPKLVSELSKKIILNKGDLLFTGTPSGVGILKNFDKLELGISEKKNQNFKVIYS;locus_tag=LOCUS_11860;note=WP_011963558.1 2-hydroxyhepta-2%2C4-diene-1%2C7-dioate isomerase (Flavobacterium psychrophilum JIP02/86) [pid:38.9%25%2C q_cov:92.0%25%2C s_cov:93.1%25%2C Eval:5.0e-30],MGA_1214
sequence21	MetaGeneAnnotator	CDS	3255	4505	.	-	0	ID=MGA_1215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963252.1;translation=MKKFILLFLFLTIIKSEKILVPMDISQKDHLKAYGIIFWCLENNINVDWILNYKGGSFLIDYIPSIIEETKIRGVSIQTIKRNELNEIYNVVESQNMEIVLLEKAPKIAVYTPPNKQPWDDAVTLALSYAEINYQTLWDEEVFNGELNKFDWLHLHHEDFTGQFGKFYRNFRNAPWYIEQKNKYEVLARDLGFKSVSEQKKNVAVNIKNYIGNGGFLFAMCSATDSYDIALASGNLDIVDQLIDNTPTDNNINNLIDFNQTLAFENFEIITNPLIYEFSNIDYPPSDNPHSSSAEKDYFTLFEFSAKFDPVPTMLTQNHVDVIKGFMGQTTGFERSTIKKHVTILGEVENQNQIKYIHGNFGKGTFTFLGGHDPEDYQHYVGDPPTDLALHRNSPGYRLILNNILFPAAKKKPRKT;locus_tag=LOCUS_11870;note=WP_011963252.1 hypothetical protein (Flavobacterium psychrophilum JIP02/86) [pid:54.8%25%2C q_cov:98.8%25%2C s_cov:97.9%25%2C Eval:3.5e-130],MGA_1215
sequence21	MetaGeneAnnotator	CDS	4514	6433	.	-	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKILHINFIFLILFFSFLIGKQLNTNEQLFKQAITYERMGKFQLAEEIYLELLNSDPKNSRIYFQLKSLYKRNKNYLELEKLLGNRIKIFPNDLQTKIEIGEIYLKNNKKDKAIKYWNDLLMEFESNKTIYYLLFQIFSTNKLDKKLISLVEKGRLKFNDSSFLSYELGNYKSEKLDFYTSIHEYLKFLKKKPKQLNIISSKILIISDDTTNFNIIKKSFNDYFQNNTSAENKVIIHVFIDFLLKTKNYTEALNQLNLLPLKNENDYQFQINFADNLRNEKEIETSMMVYSKILESLKNKNELNEKSLSKLTAKTLYGIALSYEEKMQPNNEMKSISGFFANNFFFQLSILMNQKFSTELINETFNMYDSILTRMNENDFSSQAHFRIAELKYLITHDFEGAIQSYKSASNKNIRDIYLKSNLRISDVNFSAGKIDESIFQLENMLENSYFNNQEKELIKINLIKKYFLNGKLETSNNLISEILLLIKYENIFFNDLIELKKYIEKHYIENDFQNKDAFLNYLIGEKLLAQNKIIEAMSYFNDVLKNYGKTSIIPETTFRLAQINQQLENYEKSLSLLKTLENSILKSEAMVFSSEITDRNLNRKIEAEKLYFQFLQDFPKSIYSEPVRYRLREIKGE;locus_tag=LOCUS_11880;note=MGA_1216
sequence21	MetaGeneAnnotator	CDS	6434	9565	.	-	0	ID=MGA_1217;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962182.1;translation=MFKNNKLKRYSYEKIAIEIGIDHFDSKDELLNAIQLEKEFNSQSISTSLINKLIENVNLQISKININFKKLPKKILKRRNQTIFISFIFLIICFVYLPEFIFSSYRLINFSKEFKPPTPFIINSMKKNIYIMGGDSANVVFLTKGNSPDSIQVEFVGENFNEKKWIKADQKNTYNYTLKNINQNLSYRGYVNSNKSWEKWDEISSDINSIEVIDRPKIQKINFNILPPKYSKLNQFKQQGNIAEIKSLKGSIIKINIESNKNLGESHLSFEDKKDMIKLNIDKKKAFGEILVENEGFFDINISDFRKIRNLNSIKYKIIPIIDKFPELKIFYPELNNEIDESFKIPIHLQIIDDFGFSNLQVVFEIINSNNPFSKNIVSVKKIPINGKNEMKSQDIYFDWNISEYELVPGDEINYHFELYDNDLVSGPKKTKSNLFISKFPSLAELFERNDDNQNEIEKEISKIVNNIYESTKAIRQSELKLIKSKKIDWNEKQKIKQSLSTLNKNIDDLKNISQTIDKIINQSDNNNLFSKEMINKFSKLQNIIKEIMNKEITDDLNGLLNNLEKVTPDELLSSLKKIQSNSHQIERDLDRFIKIFNRINVERKLEEIEKRMKNIIKSQQNLSNNITNNFNSKILKNKQNEIENEFDRTLKIMNSTSKLIQPFSQEISDELNDLNNSNEINSSKNQMKQNQNNLSKNDINESVKSSKEISNKMKSINLKFKNISKKFSDFTTNQMIVNFEKILLETIYLSKKQELLNSSTINIPSFSSRLRIIARNQQLLKDQLNQLINTFIELSSETFAITPKIGRLIGKASYNMNESIKKLEERQNLESSNHQKQIVKSLNETAFELLKSMENMKTSGSASGYEEFLKQMKNLSNSQDGINSETLSFMLGQTNENDKENFIKRLINNQSEIKKSIQQMMDELSLSQSTENQIKKINDDIEDILNDLSNNRITSTILDKQNKILSRMLNSQKALNKQDYNEKRISNMANNIEYNAPSGLPEDLVQRRSIIMSSLQKALENDYSLDYQNMIKIYFNTLIDSL;locus_tag=LOCUS_11890;note=WP_011962182.1 ATPase (Flavobacterium psychrophilum JIP02/86) [pid:20.0%25%2C q_cov:96.4%25%2C s_cov:90.1%25%2C Eval:2.7e-37],MGA_1217
sequence21	MetaGeneAnnotator	CDS	9792	10472	.	-	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963730.1;translation=MTSYKIFSKLLIFQTLILFMGINFLYSDDKNHTICRIQYSGGGDWYSDPSSIPNLLNYINFNTNIKVHNEEVKISLKDNNIFNYPYLYMTGHGNVKLTDTEIINLRIHLLDGGFLHVDDNYGLDKSFRREIKKVFPNKDLIELPFDHPIFKSYFVFKNGLPKIHEHDNKPPKGFGLFDNKRLILFYTYETDLGDGWEDASVHNNSEFKRNEALKMGVNIFTYSLIQ;locus_tag=LOCUS_11900;note=WP_011963730.1 hypothetical protein (Flavobacterium psychrophilum JIP02/86) [pid:52.4%25%2C q_cov:83.6%25%2C s_cov:89.2%25%2C Eval:1.3e-59],MGA_1218
sequence21	MetaGeneAnnotator	CDS	10556	12385	.	+	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKTIKQKTIFYIFIILFIQSHLSGQEIQEEDSLNVISKTKINNKRFKIKLPKGLKKMTQSLINGEQRVVELIFRPLEFREPIISIPAEGKFGLGYYGFGGIDKKINLNDGFESIQANNILSSFYDFEFAQTNLSYLFFKKSYTDILTGIGFRRFSPIFTKPKLPESWGVDRKFSPNILEMNIVTSYIVMWQASWFFQFKYSYGTNFTRFYQNKSMDLNPYSIGLTSSYSLGIKRVSETMSNARYAWGIELRHSYNKLKTIKYNSDFSPIKSMTIPNYGLFFTLSAFYGGNKTAGDEAKKLFLNKDYVEAKNKMNQFLNQYPNHAKSLRAKKLLKKINEKIPGQLFIQGNQLKINMKIDRASDKYLEAMVNANDILKPKIANELEKISDIYILNAKKLFNQRLYDKALEEIKKSAAISENGVLEKNKLEAKIIMKQGDELELVGLHLQAIKKYNKVPELDRSLTNKAYEATVNSTVNMLNDVNQAKDIPTLRLALQSLKNAELFFKPADFKYKDYIKIIENQLSYQDSIEVNQEIKYSTMQSRKIIDERNRKKISIGMILPEVEAIMGKPTKIINSTKKNKNYQMWIYETKKLKKTFYFEEYILFKIAN;locus_tag=LOCUS_11910;note=MGA_1219
sequence21	MetaGeneAnnotator	CDS	12388	13515	.	-	0	ID=MGA_1220;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287273.1;translation=MINNTENQNYIKLIYSLFIIIISSFFIWLIWPFISDVILKLVFAFLFTSLLLSSVDSLERKIKNRGMSVLIVTFFVIFIIGVFLTSFITQLSNQAKEFSQRVNPQTLTEEFNNLGNRISESLPEFASNFIPSNNDFAITLSKFIDSALNSLASLAGAVGGFLINAIMILIFTIILLSEYHSFRKTLVAGISNKFFESGLKLIFNIEQSVSSYLRGQFIAALSVGGMSILGLIILNFSGANISLIIFIGIIAGVANLIPLVGPFVGMIPAILIAFMNNIGNDIATSHVLFGVIPSPFFIFDIVLMFMIVQQIEGTLITPAIMGKSVGLHPLMIMISLLIGGTILGPLGMLFAVPATAILKIIFQEIMFVRKNSHLL;locus_tag=LOCUS_11920;note=WP_002287273.1 AI-2E family transporter (Enterococcus faecium DO) [pid:25.7%25%2C q_cov:89.6%25%2C s_cov:82.0%25%2C Eval:4.5e-25],MGA_1220
sequence21	MetaGeneAnnotator	CDS	13505	14011	.	-	0	ID=MGA_1221;product=cAMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000645314.1;translation=MKNGLWPNLFKGWDNKESETINTLKLIPVFKNFTKKEFLELEKLVHHRNFSQNEFVFKNNAPGEGMYIIMKGSIKISIGENKNEKVLANLQEGDFFGELALFDDEPRSANAISLSESKLIGFFTPDLLALKDRNPVITNKILFNLGQILGERLRQTNSLLLNKQKNDK;locus_tag=LOCUS_11930;gene=crp;note=WP_000645314.1 cAMP-binding protein (Leptospira interrogans serovar Lai str. 56601) [pid:35.9%25%2C q_cov:96.4%25%2C s_cov:95.4%25%2C Eval:5.3e-23],MGA_1221
sequence21	MetaGeneAnnotator	CDS	14133	15332	.	+	0	ID=MGA_1222;product=peptidase M23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869241.1;translation=MNKLIQISIFLIFCLKTSLLSQVENIEKDIQFNSNELNKIRGEISEFENKIKTTSSLEKNEIQKLNDIDEEISLVRNLIFRLRKEEKSHINSIDNANREIKLLERNQTILLDRYSNRLVKTYKKGALTNIEKIIDSNSWRQAVYRTKYIKIISDYDRNLQKTIKNNMNEILKERKSINNKLENLNLIDKEKSSRKKWLEQRRKTRNSKLENLKRDRQQMSMALLEKKKAADEMRELIETLEKEKALRLAELEKLRNEKKLISETEITNMKGKLPWPIDGIIISKFGTFQNPNLKTLTENTGIDIKAKDGTEVKSVFDGIVTTITYIRGYGNTIILDHGSNFYTVYTHVSDVEVEENNYVEARQVIAYVSDSGSLDGSKLHFEIWGNREKINPELWLIKK;locus_tag=LOCUS_11940;note=WP_012869241.1 peptidase M23 (Thermanaerovibrio acidaminovorans DSM 6589) [pid:24.7%25%2C q_cov:97.2%25%2C s_cov:96.3%25%2C Eval:2.1e-31],MGA_1222
sequence22	MetaGeneAnnotator	CDS	690	1568	.	-	0	ID=MGA_1225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNISKINESFIKNNFFTPDKFSNKYDQGKLLVLAGSQGMTGAACLSAMSAYRSGTGLVKVVVPKSLNSIFEIKLTESMTIPVEDQGCGFLRIENKSNIIKHLEWADAILIGPGLGREKTTGELVKSILEFSNKTIILDADGLFYFSEKLNFLNNLKSEIILTPHFYEFSRLFNISYEQVNEDQLRSLLKIQNEINKIVVLKGPTTFISYGDKLMQNTTGNQGLAVGGSGDILSGMISSFVCQGFSPIIASAIGVFLHGKTADELLKIKGVRGLIPSDLIDMLPTVLKKYEIL;locus_tag=LOCUS_11950;note=B5YIM0 bifunctional NAD(P)H-hydrate repair enzyme Nnr (Thermodesulfovibrio yellowstonii DSM 11347) [pid:38.4%25%2C q_cov:96.9%25%2C s_cov:55.3%25%2C Eval:5.4e-49%2C partial hit],MGA_1225
sequence22	MetaGeneAnnotator	CDS	1565	1933	.	-	0	ID=MGA_1226;product=holo-[acyl-carrier-protein] synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9Z8M5;translation=MRNNFKIGTDIVEVHRISELVKNYNYRFFNRIFTDSEVKWCLSKNIPEIHFSGRFAAKEAVKKALFSYGEDLVPFKSIEILREINKPPYVNLSFSNSKKYTCEITISHTNEYATAVALIFIK;locus_tag=LOCUS_11960;gene=acpS;EC_number=2.7.8.7;note=Q9Z8M5 holo-[acyl-carrier-protein] synthase (Chlamydophila pneumoniae CWL029) [pid:43.6%25%2C q_cov:91.8%25%2C s_cov:93.4%25%2C Eval:2.6e-17],MGA_1226
sequence22	MetaGeneAnnotator	CDS	1923	2606	.	-	0	ID=MGA_1227;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249637.1;translation=MIKAIIFDLDNTLLDFVKMKENAISAAIEGMIDAGMDLDPKKAYNRIMEMYEQNGWENQLIFNDFLNETNGEVNYKFLASAIVSYRRARDGALSLYPGVKRTLMALSKMGIKLTIISDAPRREAWLRICYLNLHHYFDLVLTFDDIGERKPSSKGFELTLSKLKINVDNVIMVGDWPERDMVGAKNLGIKTIFAKYGDTFNRNYSGADWDIKNIFEIVDIIKKINEK;locus_tag=LOCUS_11970;note=WP_011249637.1 haloacid dehalogenase (Thermococcus kodakarensis KOD1) [pid:32.2%25%2C q_cov:100.0%25%2C s_cov:95.0%25%2C Eval:2.2e-30],MGA_1227
sequence22	MetaGeneAnnotator	CDS	2650	3945	.	-	0	ID=MGA_1228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKYTIIIFIIVVNIIFSQTAEEISNLIESNKLEEAESKLISSLDVDPNNAEINYLLSKVYYAKYDLMNTGKFLRAAIENDNTNQDYRDEFDNLSPLSQSWATAMKSLQGGDFDGAINNFETIKVEFPDFLAPATYHIGIVYSRLNDNSNAIQLYKESVEIDPNYDKAIKTLSNTAKKTYNEGNKSYKRGDYEGAEQFYQEVIELNPNEHRAYYMLANVYTRLGDTEMAIDYFNQTVEVNPQYEKGWFSLGLNYQKNGDVNEALSSLDKAIEVNPSYAKAIAQKGKIYMQEADYKMAENSFNQAIQVDPSYASAYVDLGQILNTQERWDDAFNSLSTATALDSKKNKAWFLLAQSQNAKGLCDDAKESSRVALDLKSDYAPAFFELGLAEVCLGNKTAALAAFENARKNRSWRKNAEYEIDKIKNPEKYQQ;locus_tag=LOCUS_11980;note=WP_011015826.1 hypothetical protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:24.4%25%2C q_cov:88.9%25%2C s_cov:54.6%25%2C Eval:9.1e-20%2C partial hit],MGA_1228
sequence22	Aragorn:1.2.38	tRNA	3973	4058	.	-	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_27
sequence22	MetaGeneAnnotator	CDS	4068	4409	.	-	0	ID=MGA_1229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSFLVTLHVIVSLLLIGVILMQASKGGGLSGTFGGASTAMFGGRGAGSFLSKITIGLATFFLLLAILISIVNVPSQSSSNSIVRERASENVSPAAELPLPVSLPEESLIDNE;locus_tag=LOCUS_11990;note=MGA_1229
sequence22	MetaGeneAnnotator	CDS	4402	5175	.	-	0	ID=MGA_1230;product=triosephosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q181T6;translation=MKKSIVAANWKMYKNIDDSLEFLEKLNLKELDYGNLRIIICAPFTSLFSMNKFINSSNSNVELGAQNVYYEDEGAFTGEISAQMLKQNDIHHVVVGHSERRTLFNEDNSIVVKKAKKVLDENLNLIFCIGETLDEREGGKTENILEEQLNFLLSKINKDQLSKIIFAYEPVWAIGTGLSASVEQVKNAHILVRKIISDYFNVSPNDLNLLYGGSVKSSSAHELSSIDEVSGFLIGGASLDVDHFCEISKIITEVKHV;locus_tag=LOCUS_12000;gene=tpi;EC_number=5.3.1.1;note=Q181T6 triosephosphate isomerase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:40.1%25%2C q_cov:96.1%25%2C s_cov:98.8%25%2C Eval:1.3e-53],MGA_1230
sequence22	MetaGeneAnnotator	CDS	5175	6362	.	-	0	ID=MGA_1231;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2D3;translation=MNSLLNHKLDNERVLIRVDFNVPIENGEIMDDFRIRAALPTIKHCLDGGASVVLMSHLGRPNGVVNEELSLMPIGEKLCDLLEISIKFSHDCVSEDATDVSLGLQPGEVHLLENLRFHNAETKNDLDFSKKLSSHGTMYVNDAFGTAHRAHASNVGVTKYLDNCFPGFLLQKEYDFLHHSIKSPERPFTIILGGAKISSKLPLITRFMSEADNLIVGGGMAYTFLKCMGNEIGNSIYDESKFEKASSILESRLKYNCRLILPSDVSVTKDFSSGVVNAIRKINEIEKDEEGIDIGPDTIQRFSDVILNSKTVIWNGPMGVFETESFAKGTNAIAKVVSEMTQNEGTSIIGGGDSASAIKDLGVWDDMTHISTGGGASLELLSGEDLPAFKALRMI;locus_tag=LOCUS_12010;gene=pgk;EC_number=2.7.2.3;note=B8E2D3 phosphoglycerate kinase (Dictyoglomus turgidum DSM 6724) [pid:47.2%25%2C q_cov:98.7%25%2C s_cov:97.5%25%2C Eval:5.1e-99],MGA_1231
sequence22	MetaGeneAnnotator	CDS	6434	9946	.	-	0	ID=MGA_1232;product=chromosome partition protein Smc;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18BB2;translation=MYISELSIHGFKSFANKEKLSFGDGITAVVGPNGCGKTNIVDAVRWVLGEQKITMLRSSTLDDIIFNGSESLKALSVCEVSLKVQNNRGILPIEYDEIEISRRIFRDGESEYMINRNICRLKDIISLFVDTGMGSDAYSVIELKMIEDILSDNTNSRRKMFEEASGINKYRHDRKLTLLKLKSTKTDLERLNDIIVEVDTKVNGLQLQMKRFKRHETLIEKLKENELSLASIKIKNLQDEIEPLVKTISEIKNNKDSNNSNQILYENNLKKLRSNFEIEQKKIKKIQIEIDDFTLKKQKNSNQIIILNEKINNSSHNIIKLNQETSDGNQKIILNNNKIQEFLKNIKILKPQLEKNKKDYNFKKNELEMSEIKLIDSRKSYQNNLNQQIQFVNKSNDIKSNELRTTSLINEKNDLINNLNKENKINSNEVDSSSKKLQLLKSQLKKLDVKKNENINDSNKLIKIKNKNEEEKSLFENTYNKNINILESLNSQKSFYNEMIVSGEGYSLGNKYILNNKNEFEDIYGTISDLINVKDKYKNAINSLLGPLAQAMICKNKKTCIHIMKELKKQKVGQSWLISLDQFKNKDSLVNDSISNQGFNFISTDDKFFNLIKLIFKNKYVVENQDEALKLIENEDFYGEVADLDGNIYSSFGLIISKPDNINSSLIGRNDKLKKITKDIEALIESNNIIERKIKLSNDKIQNFDNEIKIKDESLKSLSSEINILKNKIYEKESSIFEFKIKLEQNNKLFSSTNKEMKVLKENFKKLKPELHQLEKKLLSLEEEIKKSNTQLEIDRNERDNKNLLLQDSRIKLVSLESKLENIQFRLNSSQEIVSDIKERNSQIQSETLFLEENIIKMKKEKNNFEKDNLEYNSFLQKIINEKSLMDENFNSTYKEIKIIEQKISNEQKINENILNTIKDHELKVVEKKSELKNIHDSIKDKYSIEIPKVTNISFNEEELHEQINRIKTSIENIGPINMAVNDEFDEESKRLSFLNNQKNDLETSEKTLIDTMDNIDKEAREKFLNTFQKIKDNYKKTFQMFFDGGESDINLIGDNDPLDADIEIFAKPPGKHTRNLRMLSSGEKSLTAISLLFAIYLVKPSPFCILDEVDAPLDDNNILKFTNVLQKFSKNTQFIIVTHNKLTMESAQSLYGVTMQKSGVSKIVSVKLD;locus_tag=LOCUS_12020;gene=smc;note=Q18BB2 chromosome partition protein Smc (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:30.5%25%2C q_cov:99.9%25%2C s_cov:99.2%25%2C Eval:1.2e-161],MGA_1232
sequence22	MetaGeneAnnotator	CDS	9954	10298	.	-	0	ID=MGA_1233;product=histidine triad nucleotide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047999.1;translation=MKDCIFCKISNETINVEKIYENKDLIAFNDINPQAPFHILIIPRKHISTINNIENQDKILIGELFFAAKEIAKENKISESGYRLIFNCNENGGQTIFHIHLHMLAKRKLSWPPG;locus_tag=LOCUS_12030;note=WP_012047999.1 histidine triad nucleotide-binding protein (Clostridium botulinum A str. ATCC 3502) [pid:52.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-33],MGA_1233
sequence22	MetaGeneAnnotator	CDS	10295	11044	.	-	0	ID=MGA_1234;product=ribosomal RNA small subunit methyltransferase E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I637;translation=MVKILNKLSEKRHFIVSKNNIINNSFMLDGSEAHHAINVTRVLIDEKIYLIDKKGFLYTGIIKKINNSFVQGLIVDIKKNYNESRIKIELGMSLLKGSKLDLVVEKCTELGVHSITPLITEHSILKKVNVKRLIKKAEVAIKQCGRGQLPEINEAIPLNDWFDKFSSKFIIVLDQNDSNNSLKNILSKNKIQDVILLVGPEGGFSKKELMNFKTRKVKFAKLGARRLKSETAAILSTGLIDHFFHEDIF;locus_tag=LOCUS_12040;EC_number=2.1.1.193;note=A5I637 ribosomal RNA small subunit methyltransferase E (Clostridium botulinum A str. ATCC 3502) [pid:30.4%25%2C q_cov:92.0%25%2C s_cov:95.2%25%2C Eval:4.2e-25],MGA_1234
sequence22	MetaGeneAnnotator	CDS	11025	11642	.	-	0	ID=MGA_1235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKYFIITLFLFVNILLSQPSTFNSNIGLGKANRGISLETADFGSGLSVFMVKPLSEKFQFFGQLKAMEVTGEGEMTVVDYWSYYPYKVNKFDLYIAQSLFGVKYHPFVGQIANNFSPYFMFSIGPLALIDVPEYGKFNNKLKNTNTYYNSGFVLGLGADFMIQSRQTISIFIGYDHVNTSDIVDGRNKYNGTIIKLMFGQNIK;locus_tag=LOCUS_12050;note=MGA_1235
sequence22	MetaGeneAnnotator	CDS	11673	12422	.	-	0	ID=MGA_1236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIVNILIINSFIFSQTNFEKGMMFYNDRSEGANGIIAVDSKIDSAVYFFRKDNNDQLSSLMLLKSLYFKGEFVVQDFETKKNIFQEAKILGKELIDKYPDDPKIRYWYIVNLGSWGQNYGVLAAAREGVADQIKAHSEKIIELDPSCENGGGYFMLGVVNFRAPYIPFFLTWPDKKNALKLLEKAYNVGTATPVQIKFLSKALIYDGQSQKAKLLLTKLSNLIPDPKLLIEQKKEIFESRELLKQLN;locus_tag=LOCUS_12060;note=MGA_1236
sequence22	MetaGeneAnnotator	CDS	12423	14051	.	-	0	ID=MGA_1237;product=putative symporter YidK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P31448;translation=MNIISIISFIIATSSVGFFTYMIVSKMKKSDNPTEEFFTGGRALSWPVVAGSLLLTNLSTEQLVGLNGTIFGDKALVGIAWEVLGGFAMIATALIFLPIYLSSGFTTTPAFLEKRFDKDTRSIVSGLFLFGYVTVLLPVVLYTGSLALIGMFDLNIPLWLVVAIIGLLGSSYAIFGGLKSVAVSDTLNGIGLLIGGLAIPVLALFSLGKGSFFNGLNILIQKKPEYLSVLAISNVDEKIVSVPWPTLFTGMMFINIFYWSTNQVIVQRAMAAKSLAEGQKGVLFASSLKLIGPILLCLPGLIALHMNELNISKADQVYGAVVRHVLPNWSLGLFAAVLMGSILSSFNSALNSASTLFSLQFYKGYINKKASGELIVSIGKKFGIFLALASIIIAPFLSQMQSIFTYLQQVNGLYSVPIIGIFLIGITTKKVPAIAAKVGMLVGISMYAFFTFINIKNVPTYLSNANGELHYLHGYFISFVFSVLVMLLIGIIKPKSDSEIKISEIKSKSPVDMTPWPFAKTASTAIISTTALIYIMLSLLSL;locus_tag=LOCUS_12070;gene=yidK;note=P31448 putative symporter YidK (Escherichia coli str. K-12 substr. MG1655) [pid:38.5%25%2C q_cov:99.3%25%2C s_cov:91.6%25%2C Eval:9.0e-100],MGA_1237
sequence22	MetaGeneAnnotator	CDS	14296	14718	.	-	0	ID=MGA_1238;product=ring-cleaving dioxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003114206.1;translation=MKFIPPFHAAFPVNDLKKAIDFYKNILGCEQGRSDETWVDFDFFGHQLVFHYVNDFKQKHYFNPVDEHKVPVPHFGSVLKWDKWHSLKDNLLKNNIQFEIEPYIRFKGKPGEQATMFFFDPNGYALEFKSFKDINNLFKI;locus_tag=LOCUS_12080;note=WP_003114206.1 ring-cleaving dioxygenase (Pseudomonas aeruginosa PAO1) [pid:60.0%25%2C q_cov:95.0%25%2C s_cov:95.7%25%2C Eval:2.6e-41],MGA_1238
sequence22	MetaGeneAnnotator	CDS	14728	15381	.	-	0	ID=MGA_1239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQIFCGIDLSGPVNVIDTVISWFNFDYSKKKLVLINYKIGADDNFIFNTVKDLSKNNHLFIAMDSPLSYNMNGGDREGDKSLREFLKEKNIKTSSVMTPTMTRMSYLTLRGISITRILETLNNKPKIIEVHPFISLLINGANKVDIDNVKKNAKAKKNILSFLKKRQISDLPIIASKNDHFLSSIIAARIAYLYSKNQYQWISKRKFPFHPYDFVC;locus_tag=LOCUS_12090;note=MGA_1239
sequence23	MetaGeneAnnotator	CDS	421	1833	.	-	0	ID=MGA_1241;product=beta-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582847.1;translation=MKKISFISLSIIFWIWLTFIIYFNYKNPELEWNWSKINTKSFVFPENFIWGTATSAHQVEGDNVNNNWYVFENGFKKNNIPNIHNGDKSGIASNHWNLYLKDIQLMKELGVDHYRFSIEWSKIEPQKGIFDNSVVDHYKKKIDTLIKNNIIPVITLHHFSNPIWFEEKGAFEKSENIMDFVHFSEFAFKKFSDSVLFWCTINEPMVYVSEGYFNAEFPPGKREPVLASKVLKNMLNAHVLVYRSLKSMPNGNNVKIGMVKNIFQFDPFNRLNALDLYMSSLLNDIFTNEPIRFLKEGKSTFFMPGLVNDDINNNEAPGSLDFIGLNYYSRFHVKGKMNPNEPFVFQIRKKDTQTDMNYPIYPEGIYKALKTISKLNVPIYITENGVADSSDQIRSKFIDRYLYATNKALLEGVKVKGYFYWTLMDNFEWAKGYSMKFGLYEVDFTTQERKLRTGSKSLINIIKRSKAQIE;locus_tag=LOCUS_12100;EC_number=3.2.1.21;note=WP_012582847.1 beta-glucosidase (Dictyoglomus turgidum DSM 6724) [pid:37.9%25%2C q_cov:90.2%25%2C s_cov:96.4%25%2C Eval:2.9e-83],MGA_1241
sequence23	MetaGeneAnnotator	CDS	1843	2550	.	-	0	ID=MGA_1242;product=phospholipase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963235.1;translation=MKYIISLFLFSSLFSQSPLKIITSKQSFNDKKIPVIFLMHGYGDNERHFNKFIRNFNHEALIVSMRAPFKLSLISLRFLHNKWFHIDIDLKGDLKEKKSHILKSEKLILDTMNYIKDEYNIDTTKIFIGGFSQGGMMALHMLSKYPEKFKGFIAHSTRLLKDFEFHDNLSRYKNLNLLIIHGKRDLVLRIKNAYETKKIFEAMNANIEFHELKIGHRITIDSIRIIEDWFSKISS;locus_tag=LOCUS_12110;note=WP_011963235.1 phospholipase (Flavobacterium psychrophilum JIP02/86) [pid:27.1%25%2C q_cov:86.0%25%2C s_cov:93.0%25%2C Eval:5.0e-17],MGA_1242
sequence23	MetaGeneAnnotator	CDS	2557	4404	.	-	0	ID=MGA_1243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073230.1;translation=MKKNIILSLIIIFSSCSNTSFSNESILKQNIIEESKKVNEYFEKEFNNLVNRKPQLQTSLGIKKNYDKWNDISPKEEQYDLSQTKKSLVWLKDSVSVDLLDKSTLLSYQLYVKELKDQIEDQKYRLFGSAPYYEYPVNQMFGMQSEIPSFLINMHSVSSEKEAIDYISRLNGVKALFKQLEINIREKESAGIVAQKFVYEHVLNDSRNIISGYPFSISSSDSSALFSDILLKINNLDIEQLKKDKLIEDAKEALNQSLKPAYESLISLISELANNYDEDDGVWRWEKGDVFYQHILKRTTTTDLTADEIHQIGLREVKRIHNEMIKIMGSVGFSGSLKDFFNELKENDQFYYPQTIEGEQAYMSEAKNIIDKMELRLDELFITKPKARMIVKAVEDFREKSAGKAFYQRPAPDGSRPGTYYANLYKMRAMPKYEMEALAYHEGIPGHHMQIAIAQELQNIPKFRKFGGYTSYIEGWGLYSEYLPKELGFYSDPYSDFGRLSMELWRSCRLVVDTGIHSKKWTREDGIKYYSENTPNDISDCIKMVERHIIMPSQATAYKIGMDKILQLRSKAKESLGENFDIREFHDTILSNGALPLNFLEIEIDEMIKRVQAGI;locus_tag=LOCUS_12120;note=WP_011073230.1 hypothetical protein (Shewanella oneidensis MR-1) [pid:56.2%25%2C q_cov:94.0%25%2C s_cov:92.5%25%2C Eval:1.8e-184],MGA_1243
sequence23	MetaGeneAnnotator	CDS	4639	5823	.	-	0	ID=MGA_1244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNEMKKNIILSLLIIFSACSNKLDDNKSIMSTMMQWKQAVLSENPREISKFYSNDFFSEEIGGKEQVAEFWKIVINAGMIDGIEINLNTSKVDLNGDVAEFLIFDDEGEVEMGFILTKENKAWLISGTVSESNENYEDDYLAEYGDECIQIDGLYRCWDVHVPDKLDDKYPLVLDLHGWGDTVEDQKNISGFQSLADTFGFVLVWPYGLARSWNSGEECCPPASDDDIDDVDFLRKLIEKVSNQYNIDTKRIYFTGLSNGCAMAQRMAVEASDIVSSVACIALHLLVPESQNYSPVSVMTLFGTKDDLYYPSDLPGALENLNTWKEINNCEGEPKETWRSNDHFTLTYENCDNQTEVSLVTINEGGHVLYQGVQTDVNTSRMAWDFISRFKK;locus_tag=LOCUS_12130;note=MGA_1244
sequence23	MetaGeneAnnotator	CDS	5810	6082	.	-	0	ID=MGA_1245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMAFVIHIKTNFDSWEKLFLSSYDNQKRVDEGKILYGKVDDKTAMVMNFDVDMEEIKRRRESDEFAKLIAKDVESHEVYTFQSPNNEKK;locus_tag=LOCUS_12140;note=MGA_1245
sequence23	MetaGeneAnnotator	CDS	6140	7363	.	-	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903543.1;translation=MSDRIHSIDILRGFAVLGILIMNIMHFSMPKIAYLSPFVYEPNLLNHIVYCFSHIFADQKFMGIFSILFGASTLLYINSLKQKGYKRPIWVYFRKNFWLICIGTIHFTYIWGGDILILYGSLSYFLYFFKKVSNRTLLILGFIIYFIPSGTNYFIYNNVANEFEVEELNAIEKKWNPSEEQIQKELNLFRGKYLDQINYRESKYNSKPIKNLAIILKETMFAIDFLSRAFGMMLIGMAMFKMNILNNSKSPSFYKKMVFFGFGFGIPLSIVGLILTYQFKSNANYLEFISRIPNNIATPFIVFGYIGFIKLWVRTNVLNELQDHLSSIGKMALTCYLLESMIATFIFYGYGLGFFGYISRIGQLFITLFIWMILISFTIFWKRRFKYGPLEWIWRCLTNFKLFSISK;locus_tag=LOCUS_12150;note=WP_010903543.1 hypothetical protein (Halobacterium salinarum NRC-1) [pid:28.5%25%2C q_cov:97.5%25%2C s_cov:94.8%25%2C Eval:4.9e-52],MGA_1246
sequence23	MetaGeneAnnotator	CDS	7375	8889	.	-	0	ID=MGA_1247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPPKKKINNTFSSFSLKSEIMKAIDELGFVTPTPIQQKVIPHLLSSKQDLIASAQTGTGKTAAFALPLLQSIDLNNNNVQMLVLCPTRELCIQISKDLINYSKYLQKINIVPIYGGARIDTQMRGLKKKPQIVIGTPGRTTDLLRRKKLILDKINYLILDEADEMMSMGFKDDLESIIDSSNKTKQTLLFSATMTKKVEIVTKKYMKQSLEISVGVKNKGADNIEHIFYVVNAKHRYEVVKRIADINPDIYGIVFCRTRAETKDVANKLMQDNYNADTIHGDLSQAQRDDVMLRFRKKQIQLLIATDVAARGLDVNDLTHVINYNLPDDNEIYVHRSGRTGRAGKKGVSIVIIHGRELRKMRNIENASKISFKKKQVPSGLDICKKRLYRLIDNVEKVDVNEKQIEPFLPYIYDKLNFLDREQLIKHFVSIEFNRYLSYYKNSQDINLSTPLVEDDNRGRGRSRSRNKNRNKNRNKNRDKNRNRDRRKKFSNSKNNNKKFRKR;locus_tag=LOCUS_12160;note=WP_011108753.1 DEAD/DEAH box helicase (Bacteroides thetaiotaomicron VPI-5482) [pid:53.1%25%2C q_cov:87.5%25%2C s_cov:68.2%25%2C Eval:3.4e-138%2C partial hit],MGA_1247
sequence23	MetaGeneAnnotator	CDS	8963	9607	.	+	0	ID=MGA_1248;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UGP4;translation=MKKLQKAVKIGKILDNLYNETPVPLNHTSDYTLLVSVMLSAQTTDKKVNQVTPALFKKADTPEKMCKLQTSTIQKLIKEIGLAPTKAKNLKKMAEQLVESGGMKPDWDFLESLAGVGHKTASVVMAQWYNIPAFPVDTHIHRLASRWGLSKAKNVEMTERDLKLLWPKETWNKRHLQIIFFGREYCPARNHDLKECEICSWAASKKRISEEMKK;locus_tag=LOCUS_12170;gene=nth;EC_number=4.2.99.18;note=Q7UGP4 endonuclease III (Rhodopirellula baltica SH 1) [pid:54.2%25%2C q_cov:93.0%25%2C s_cov:91.8%25%2C Eval:4.1e-57],MGA_1248
sequence23	MetaGeneAnnotator	CDS	9612	10025	.	-	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKPKAVFTALSVWFLFHIIVFFVLGPMGVQQISGLSEKAFFVIGIDNQLAGSMALVIGVVMFLCRGVDLENSKKILIGIGVCLVIMDILLLKIRLVDIPNNYPESADYLNAPLFAMVIWILLPIYSLYVGITAKED;locus_tag=LOCUS_12180;note=MGA_1249
sequence23	MetaGeneAnnotator	CDS	10093	11076	.	-	0	ID=MGA_1250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRNIFLGFFMMFFSFAQSESQCERNFKDLIQNLNIHDFSNCDFDNFDFGKVACEAYNELGFDDSCTNGMRWTHDYALNFSGASLRGANFNFNGNSTNGNPYNFTGADLSGVDFTYARFDNVTFQAANLSGAIMATSFDTPTNFSGANFSGANLLEFTANKANFTGAIMNGIIVPNLQDYPGSDFTGVISNNIRYEDGEIVHQPDFFLDYGDGEWVISEGKIINVNWGGSMPPSVSQGGDVESESSDPNESLDELNQNREYLSSKENFIQNERRLVQDFDFYLSEGDSTIPMFPMFYDLDANGDGSIELYEYQNFFIFEGAPRDSLE;locus_tag=LOCUS_12190;note=MGA_1250
sequence23	MetaGeneAnnotator	CDS	11173	12756	.	-	0	ID=MGA_1251;product=two-component hybrid sensor and regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085076.1;translation=MLDKRTKSAFLSKARHNLKNPVNAILGYSEMLIEDCEEYNIKIEVGSLKKLNKAGKKILMEIESSLKISGNDDLNKSVLEMGREIESAIKNPLNTILEVSMSLLNENEILNKIDHFKSDIDKILKSASLLEIELESIIHFNSFETDDLRKKDLNSGHFSMVKDVIQSIEPLGPDEKQVKVTGNILVVDDNPNNTELLKKRLSRKGHSVSVANNGQDSLIQLMQNVNHFDVLLLDIIMPEMNGYEVLKFIRNDKRFFDLPVIMVSSMDDTDSIYRCIEMGADDYIQKPFVQSILDARISTCIEKKQLRDKEKQLLKDIEIERERSETILYNVLPDEIAYRLKSGEVHIADKHEMVSVMFADIIDFSPQVKDLNPLNVVTILNKVFSEFDLLAKKLGIEKIKTIGDSYFAVGGLKGDPIKSALNTISLAREMNKICKTINEEIAEMIIDLRVGIHSGEAISGVIGKTKYTYDLWGSTINLANRLETTCPVGKIQISEETKKLIGSKFQLDSHTRDIKGFGEINTFTLDL;locus_tag=LOCUS_12200;note=WP_011085076.1 two-component hybrid sensor and regulator (Bradyrhizobium diazoefficiens USDA 110) [pid:35.7%25%2C q_cov:97.7%25%2C s_cov:96.6%25%2C Eval:5.1e-84],MGA_1251
sequence23	MetaGeneAnnotator	CDS	12767	13129	.	-	0	ID=MGA_1252;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085073.1;translation=MKKILIVEDNEMNRDMLSRRLERKGFQIIMAEDGQKGVEMSLTDNPDLILMDLSLPVMDGWTATSNIKSDEKTKSIPIIVLTAHAMAGDREKALDAGADEYDTKPIEFKRLLGKINQFIG;locus_tag=LOCUS_12210;note=WP_011085073.1 response regulator (Bradyrhizobium diazoefficiens USDA 110) [pid:66.4%25%2C q_cov:99.2%25%2C s_cov:93.7%25%2C Eval:1.3e-40],MGA_1252
sequence23	MetaGeneAnnotator	CDS	13107	15452	.	-	0	ID=MGA_1253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFEMINIELFYKILNNLPAHVFLKDAVDLKLVFVNTSFEKFNSAKPNSMVGKSDFDFFPAPQAKGFQNADREVLRNKKLIEIEEKIDTPHGTFWLRTKKVPILNDNGEPTHLLGIAEDITDRKKMNDTLQKAQEKISKTKDLYESVLDNMPTNVILKEGKNLSFTFVNKSFYQMNEIKYGSMNGKTDFDYFPKDQVVEFQKADRDVIQSGNLKLIPEEKLKTSKGMVWLRTKKIAIKDSKGVSSHILILADDITQEKITSDKLKTSLDELRKARIDAENANQAKSTFLANMSHELRTPLNAIIGYSEMLIEDAEDENQDFIPDLDKINSSGKHLLGLINDILDLSKVESGKMELFIEEYAPKNLLQEVESTIKPLIEKNKNKLKIESSLLDGIFKADVTKIRQIMFNLLSNASKFTENGNVFLNVRSDLDNIIFIVKDTGIGMTDEQVDKVFKPFTQAQEDTTRKFGGTGLGLTITKMFTEMMGGTINISSIYNEGTTFTVSIPKIVVDKIDKEVKKSNQTEIFEDFKYKVLVIDDDINSLDMMKKILSKHDYSVIQAKTGKDGLILAEKHLPDLITLDVIMPGMDGWEVLALLKENEKTKNIPVIMLTLVDDPDLGYSLGATDYLTKPVDWNQLSEILKKHQIFSDSHSILIVEDDEITSEMMKKNLEKNNYKVKTAKNGKQGLEIVKNSKPGLILLDLMMPEMDGFEFAEHLRENKDWIDIPVVVITAKDLSKKDHSRLKGNVEAIMQKGSYTKDELLSEVSENIKKIKVQNEKNSNS;locus_tag=LOCUS_12220;note=Q92WJ7 histidine kinase (Sinorhizobium meliloti 1021) [pid:38.5%25%2C q_cov:83.4%25%2C s_cov:69.6%25%2C Eval:1.1e-117%2C partial hit],frameshifted%2C insertion/deletion at around 13121,MGA_1253
sequence24	MetaGeneAnnotator	CDS	1412	1657	.	-	0	ID=MGA_1255;product=glutaredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9HU55;translation=MMKIIMYTTSWCPSCIYAKRFFNERNISIEEIDIEKIDMSRDQLKEITGGLTVPQIVINGKSIGGYDSLVELYSSGKISFD;locus_tag=LOCUS_12230;gene=grx;note=Q9HU55 glutaredoxin (Pseudomonas aeruginosa PAO1) [pid:37.2%25%2C q_cov:96.3%25%2C s_cov:92.9%25%2C Eval:1.3e-08],MGA_1255
sequence24	MetaGeneAnnotator	CDS	1671	2927	.	-	0	ID=MGA_1256;product=SOS mutagenesis and repair protein UmuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962560.1;translation=MIALADCNNFYASCERVFNPVLNNKPVLVLSNNDGCVIARSNEAKKLGIKMGVPVFKVRDIIIKNNVYVYSTNFSLYGDMSSRVMSLLSKMSPEIEIYSIDEAFMNFTGIKNPIELALDMKSTVKKWTGIPISIGIGPTKTLAKVANYIAKRKTNSGIFGLFNYDDTIHALKNLPISEIWGIGSRYSKMLYSNGIKTAYDFICLDKNWVLNNMTIVGLKTQEELKGHKKISLEIHKNRKKNICTSRSFGKKIKDFKLIKESIVAHATRCAEKLRRESSCARYISVSIQTNRFDSPKAYYHGYQSKIIDLPTNNTIYLVNIAVKILESIYIEDLEYKKSGVIVGDIVPANQIQLNIFSNHQITEKQRILYDAVDSINDAMGRDKIRLLGHGVNRKWSLKKENLSPRYTTDWSELLKIKV;locus_tag=LOCUS_12240;gene=umuC;note=WP_011962560.1 SOS mutagenesis and repair protein UmuC (Flavobacterium psychrophilum JIP02/86) [pid:46.0%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:1.7e-100],MGA_1256
sequence24	MetaGeneAnnotator	CDS	2924	3373	.	-	0	ID=MGA_1257;product=umuD protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940167.1;translation=MKKSKNEQIIFYGNKGDVLKKLPIYEGGVSAGFPSPADDYLDMDLNLHKYLVKNPVATFFIIAKGVSMEKAGINDKDLLVVDKSLNPKNNDIVVAIVNGEFTVKKYIIKDQRICLRAESKTENYPDINITDEMEFEIWGVVTHTIHSNR;locus_tag=LOCUS_12250;gene=umuD;EC_number=3.4.21.-;note=WP_010940167.1 umuD protein (Desulfovibrio vulgaris str. Hildenborough) [pid:47.2%25%2C q_cov:83.9%25%2C s_cov:75.0%25%2C Eval:6.2e-29],MGA_1257
sequence24	MetaGeneAnnotator	CDS	3360	4394	.	-	0	ID=MGA_1258;product=dual-specificity RNA methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74E53;translation=MSNINLIGLTRNELRNFAESINEESYRGDQIFSWIYQYNEVKFSRMTNLSKGFRSNIENSAFLSLPKISDSVISKETSSIKFLFKLNDGLSIETVFIPEQKRNTVCLSSQVGCALDCKFCATAKMGILRNLTVAEIMGQLLSVIKETKQKITNIVFMGMGEPMMNYNNVIKAADIIHDQKGLNIGARKITISTVGMVKKIRQYTKEKHPYNIAFSLNATNDFERSKLMPINKKYNLKSCLDALKDYGDKLKRPAMIEYVLISGVNDTYEDAIRLAKIIKSLHCKLNVIPYNPIKGESFKRPTEYEINNFINNIKNESTIITVRWSQGKDVNAACGQLYTKNEKK;locus_tag=LOCUS_12260;gene=rlmN;EC_number=2.1.1.192;note=Q74E53 dual-specificity RNA methyltransferase RlmN (Geobacter sulfurreducens PCA) [pid:42.4%25%2C q_cov:98.0%25%2C s_cov:92.5%25%2C Eval:2.9e-71],MGA_1258
sequence24	MetaGeneAnnotator	CDS	4400	5083	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKQKIEHLVLMFLILSSFSKGEINHEIILKNGSSENGYVSKITHDSVNIVLRSNVAISLLLDSILYIHNTKGKLFYIDPQINTFFKKAIGRGGFIRTVKNDTIHYREFQNQLFMYNPKVVYENSSDGLRKEIQLRDIRSVHLDNSISDLAVKKGALIGLGITSLGFLLNYRAIKEFYNFNKVFRTAVTAYRQGVGFIPLSSVSYVIYDYFKGRREIIINPLDFKD;locus_tag=LOCUS_12270;note=MGA_1259
sequence24	MetaGeneAnnotator	CDS	5139	5789	.	+	0	ID=MGA_1260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKLSHIIFILIFTSSVQGQYKISYRLGLGIGFTKPDNFNSSLSSIELSKIGSTWFPIHHDLSINIYPSLRIGYKKLSTKLITYNRSSNNYILPIIFHGINIESFFTFRKRFEINFGLSPMLGNAKFINNKLTATDEKLGIEGKTTAEIKNSTFGFYSSIGLRMYLMSFLSIDGSVGYIYAKFDEKWKSKANENPISGSIDMTKPFFQISTVVGW;locus_tag=LOCUS_12280;note=MGA_1260
sequence24	MetaGeneAnnotator	CDS	5833	6180	.	+	0	ID=MGA_1261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPQLVFSQNSEIEEISKKDIFLVSCNHPIINKASQSGLASLKIKEIPSFIFFNIKCKVQARRENIKLKKSNLFKEKQTFQHNLNKKISGPGALIASLSSLILFYTYMGLIANSQ;locus_tag=LOCUS_12290;note=MGA_1261
sequence24	MetaGeneAnnotator	CDS	6255	7277	.	-	0	ID=MGA_1262;product=luciferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012708897.1;translation=MEIGIDSFAAVNNRNHLSNEKANVQAINDLLERIVFSEKSGLDIFGIGEHYREEFLDSAPSVILAAAASKTKKIRLTSAVTVLGAADPVRVFQNFSTLDIISNGRAEIIAGRGSFSEAFPLFGIDFNDYDDIFEEKLNLLLNIRDNETVNWSGRFRPKLENQKIYPRAVQKKLPIWLGVGGTPQSFIRAGKLGLPLMIAIIGGEVRRFEPFVDLYRKAYLSSGHDIESMKVGIHCLGYIANSKEEAIKDFYPGYKEVFNRIGKERGWPPVTSDRFKEQISSKGALIVGDPDEAIEKINDHSKSLGGISRLTFQMNVAALSHKKLLNSIDLIGNKIKPFFK;locus_tag=LOCUS_12300;note=WP_012708897.1 luciferase (Sinorhizobium fredii NGR234) [pid:49.7%25%2C q_cov:99.1%25%2C s_cov:90.1%25%2C Eval:3.2e-91],MGA_1262
sequence24	MetaGeneAnnotator	CDS	7400	8488	.	-	0	ID=MGA_1263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011117866.1;translation=MIKKLILILFLFQNFLLIASSKPDEHAPISIMGDHIHKKKELMFSYRRMMMTMNGNYFSNGWHYNNNNIMSIEDIYDFGYNYYSQNMLMKMDMFGVMYGVSDKITIMIMLNFIQNEMKMNKLVDIRANTDDGHSHSEMKMNHSTIGIGDPSISFMISLYNQNKLKIHTNIGLSLPFGDITTNHKMGMEMHNQDHELLGHDHEMMRNSYEMQLGSGTIDPKISLTAIKYFKSFSYGSQIGGLFRFFENEAGYSNSSKYYVNSWVSKNINSSISISSTLSYNFLTSVSGSDNLIIATNTPESDIKNSESKLFLGGLAINYLFSDSFLNGLRLAVEFQSPIIWYSKGVKMKLDNQLTIGVQYSIH;locus_tag=LOCUS_12310;note=WP_011117866.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:27.4%25%2C q_cov:90.3%25%2C s_cov:84.3%25%2C Eval:5.1e-18],MGA_1263
sequence24	MetaGeneAnnotator	CDS	8537	10711	.	-	0	ID=MGA_1264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTLIIIFLNLCVLFSQQNWQTAIYSNDIWKYYLPSEEISENWNLFEFNDSSWSSGIGGFGYSDDDDGTIIDNTLSVYLRKKFRIENLEDIKAGILSADYDDGFVAYINGYEIARSQNLGQENSFVPFDMTTSNDHEAKMQDGGEPETFLIDSLFLKEILLTKDNVLAIQVHNVGESSSDISSNFFLSFKMLNPSDLFGNVPDWFRVPISYNQSNLPIIMINTFGEIIPDEPRIPAHMGIINNSNIINKINDDFNDYDGPITIELRGNTSQFQPKKPYRFETVNNKGENNNVSLLGMPNENDWVLYAPWSDKSLMRNVLTYQLSQEMGRYSARSKFCELWLNGQYQGIYVLMEKIKRDKNRINISKLDENETEGDDLTGGYILKFDWAWTGDNLGGFESLFGTFYNYHYPKPSDIVQKQKTYIQNYIDDFEKIISSDLYSDQEMEYQNIIDVNSFIDLIILQELSKNVDAYRLSTYVYKEKESLGNKLFAGPIWDLNHGYGNCDYGETWTTSGWLLEYNPTDDPIAFWWKKLWNDENFQKKFSKRYTDLRYSVLSEKNIFSKIDSMSNYLGDAIERNYNRWPNLGTYLWPNYYVFDTYEEEIAYLKLWTKNRLNWMDSESRLSLNDKLILPNSFEIKSIYPNPFNSNINIEFETLEKIELGIDVYDISGNKIVSLLNKQFINGKNKLVWNAKNDLNERVAGGIYFINFVSNDMQRTQKIIYLK;locus_tag=LOCUS_12320;note=WP_011058364.1 hypothetical protein (Streptococcus agalactiae 2603V/R) [pid:29.8%25%2C q_cov:55.9%25%2C s_cov:85.3%25%2C Eval:2.0e-44%2C partial hit],MGA_1264
sequence24	MetaGeneAnnotator	CDS	10768	11253	.	+	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPFVFQINIKPISKENIGLPKEKIQQSKLNFNGLENDYNHYRYKKKQIDPKMALLIISHDLIKNYNQNGWPVKAGDLGENLTIKNLTYSSIKPHQKYQIGNTKIQITFQCDPCRKLRFLPYVGNSKINQFIKFLMGIRGWYAKVLETGTISQNDSFELIK;locus_tag=LOCUS_12330;note=MGA_1265
sequence24	MetaGeneAnnotator	CDS	11283	12593	.	+	0	ID=MGA_1266;product=gluconate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071896.1;translation=MFIIISFILIITFLILLIGKFKIHPFITLLLTSLIIGKLGGLDNLIIVESIKSGFGNTLKSIGIIIAFGTIIGTYLNKNGGAFYISNLILNTIGKNKTSLAMNITGFFVSIPVFCDSGFIILSPICQSLSKKIGTSITVLAVSLATGLYATHVFVPPTPGPLASASIFGADIGLVLIFGLLIGIPVSLSGWIWSITFCKKFNISGHFDKIDFNKNINNLVILPILIPIFLIGLKSIIQNIYFDQSESFYVSSILFLGEPIISLMIGVFLSMISTFDRPLTLQFDWFNDSLKTAGPILLIIGAGGSLGNILRDIGIEEIVGTNLENLNIGIFLPFIIAALIKSAQGSSTVSIITTSSIIAPFLNTLGLSGEIGKVLAVLSVGAGAMTVSHVNDSYFWMVSQFSKMDTSIALKTLTIGTLIQGLVGITIIFLISLILI;locus_tag=LOCUS_12340;gene=grtP;note=WP_011071896.1 gluconate transporter (Shewanella oneidensis MR-1) [pid:39.1%25%2C q_cov:93.8%25%2C s_cov:94.0%25%2C Eval:1.3e-82],MGA_1266
sequence24	MetaGeneAnnotator	CDS	12658	13197	.	-	0	ID=MGA_1267;product=NADH:ubiquinone oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933738.1;translation=MINFINFLLIIMLFSNNNSLTIFDFKKDKTISGWNIVDDNVMGGRSSGKMFLSEDGHGIFKGIVSLENNGGFSSVRYRFKAIKTDNFQKLSIRMKGDGKTYQLRIKSNYYDYHSYAINFKTSKNWFIYEFPLKDLYPLFRGRTLDIPNFDSQKIVELGFLIGNKKAEQFELHIDEIIIE;locus_tag=LOCUS_12350;note=WP_010933738.1 NADH:ubiquinone oxidoreductase (Chlorobium tepidum TLS) [pid:41.4%25%2C q_cov:86.0%25%2C s_cov:90.6%25%2C Eval:2.8e-23],MGA_1267
sequence24	MetaGeneAnnotator	CDS	13200	14042	.	-	0	ID=MGA_1268;product=8-oxoguanine DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965994.1;translation=MAKSSLFIFENINYDLEATLTSGQTFRWKKINNHWENIISNKYVKLKKNKSSLIAEVTPFIKDSVWLEDYLQINIDLNKIYRNFPKNDSYLKEAVNLFSGLRILKQDPWETIASFICSSNKQIIQIERIIEKICNNFGELSKNNLMSFPSAYKISLCSEDDLMQCGMGYRAKYLLKTAQMVSSNKINLNELRTLNYNLARSKLLTLPGVGPKVADCILLFSYGFQESFPVDTWINKAISQLYFKGNPNKKTINNFIKRHFKPNYGYAQQYLFHYMRTFKN;locus_tag=LOCUS_12360;note=WP_010965994.1 8-oxoguanine DNA glycosylase (Clostridium acetobutylicum ATCC 824) [pid:35.1%25%2C q_cov:97.9%25%2C s_cov:94.9%25%2C Eval:7.3e-40],MGA_1268
sequence24	MetaGeneAnnotator	CDS	14035	14439	.	-	0	ID=MGA_1269;product=CoA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868242.1;translation=MTDTTIVKKILGFKTIAVVGMSPRLERPSHYVSLYLQENGYKIIPVNPSQEEIIGLKCYPSLLDIQEEIDIVDVFRRSEHVYSIAQEAVQINAKALWLQDSVISLEAKELAEKNNMLFIMNDCLLRRHRQLFYG;locus_tag=LOCUS_12370;note=WP_010868242.1 CoA-binding protein (Pyrococcus abyssi GE5) [pid:38.2%25%2C q_cov:97.8%25%2C s_cov:88.5%25%2C Eval:2.0e-25],MGA_1269
sequence24	MetaGeneAnnotator	CDS	14497	14916	.	-	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNIMKKYILSLLISVVTAIVASIPAQLLYYGSHMEKWIADFPGIMKPSPDFGIFMFAILCFNITMILILDKMNIKGLKDGAINGAWINALFFMFINLQFFALMDGFITLDYIIIDFISSGIIGGFIGASIGWSLEKFE;locus_tag=LOCUS_12380;note=MGA_1270
sequence25	MetaGeneAnnotator	CDS	194	679	.	+	0	ID=MGA_1271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIKIIILPIFCSSLLFSSNTIEYSIGLNDKLGYFGPFTKSWIKEKDNKESYIVVGSLGLLGGVGYGQKYYFSKGFFTPYFSLTGFGYYVLAIGAVGSLGVSGTLGFDMTAIKWKKKEIILQFGITSLYDLIRGENLTIGADNGPSFLMPSFNIKFKNRK;locus_tag=LOCUS_12390;note=MGA_1271
sequence25	MetaGeneAnnotator	CDS	848	1336	.	+	0	ID=MGA_1272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIKNLKYILICILLLSNLWGQKELNGLWIDDENRVFEYPKLQSTGYEIFKGKSSQFVKEWRITCQILDNKISCIDTIYNNYKLIDAWFGDSYIICENPNPIDNGEIEENIRYFTLVKDDEILVGNIIYSKFELSDDIKDVEKVMIGELEKVNPFHDNNLSN;locus_tag=LOCUS_12400;note=MGA_1272
sequence25	MetaGeneAnnotator	CDS	1404	2501	.	+	0	ID=MGA_1273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILIFTSCYNISKKKLATGAILLQTLDQFHRPESVVFSLNGKYLYVGNCASDLFGEQKEKVGFLRGGGAISRCTVDENGNVEVEKQKFITGLNGPTGLCILPKATKKYPVGTLMVNQGMSLQVDNDGNSITNLEDLGVGVHFYDPNNGKLLGRIPMGPGSKAATAIGHVPLLLNSMAFDMNGNLYITDTAIGGDRLIPRAYQYPGLIRIEHSSIDNISEDGISFTFIPGVPNGINFWEKEDAMVLVTMGGNDKPGGTAIYKLPIESFPMKTVPAPLFNDVGRADGIAFSPKGTIITSRFSGDLLAIPINGQPRSLILEPFKAPADHRLLTLEDGSSILAVPEQDRTDPKPWKQNVKIIKIPKKF;locus_tag=LOCUS_12410;note=MGA_1273
sequence25	MetaGeneAnnotator	CDS	2537	4285	.	+	0	ID=MGA_1274;product=N-acetylglucosamine-6-sulfatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011109363.1;translation=MKHLLILLFFISLVYSNSDNHDQDRPNILFIYSDDHTFQAVSAYESFLSGVVETPNLDRIANEGMLFENAFNTNSICTPARATVLTGKYGHNNGLNTLDRAFDGSQQTFPKLLQNAGYYTAVVGKWHLKTIPTGFDYYNIMPVQGRYFNPIMTETGMPWYQVPGGDPDIPYWRVEMDKPGGLYSKGIKEYKGHVTDVVTDISLDVLKNRPKDKPFMIMYQHKAPHDLFEYDKKYADLYKNIDIPEPISLHDNYDNRSTAIKRTIQKVHMEYGDEFSEAVEDGELIPEQDRYLFFPTLEYLHQYLHENKTNEFDNILMSIKNNDNPFKSMIKSIFGNNKTDLSTEDRRTLAYQMYIKAYLRCVAGIDDNIGRVLDYLDKEGLAENTIVVYTSDQGFFLGEHNLFDKRFMYEESLRVPLMVRYPKKIRAGSVTTDFAINTDLAPTFLDLAGVDIPKDMDGVSFKPVLEGNTPDDWQTDMYYRYWMHRAHFNIPAHYGIRTQRYKLIFYYGLPLDAKGAYEISTTPEWELFDLKNDPNEMNNIYNDPSYSNLIKELKTRLLELKEQYGDRDEKYPELMSVRKKFW;locus_tag=LOCUS_12420;note=WP_011109363.1 N-acetylglucosamine-6-sulfatase (Bacteroides thetaiotaomicron VPI-5482) [pid:39.8%25%2C q_cov:97.1%25%2C s_cov:91.4%25%2C Eval:3.5e-113],MGA_1274
sequence25	MetaGeneAnnotator	CDS	4329	5765	.	+	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDKNKKNSKRKSVININDKGRIDSNYNFILPISDDELKVKIINNAFSKPESIDEIMYYKTLSLEGKNDYKINFLKNINFTQVWKTYTFNELVLYWQNNITKLAKEEGHGKRKHSDVPDPKIYAKAGEGIFKSLEEDKLLLLFQTNHIEPTICSVRNQVYRQALILACFQDAIKIGMLDLGVGITEGMSKHLLFPRYIYEWGFIKALIYENEDLAPRKLTDEMLQHLQDADFRERIRRFDMFDKELTPQIRPREPDSLSDIKEANDWKDVQISLKLIIAGSFGVRVKLNNWGKSRDYQLKDFGFLSKEGKLNVGFQKFILMAFNGYYLSEKNSNQKVLQNQLNKINKSFKDAFGIKEDPIYYNQESKVYTYKFDILKIDGKADYKHFSHSLYYDQAVAPDESPKQLLFNEIKIINEKYQSNEKLEPDEHQNLSSYWTRFIQPLRPDIIRPSDIYDEYLNELEGRLHIEKEFTKRLNNE;locus_tag=LOCUS_12430;note=MGA_1275
sequence25	MetaGeneAnnotator	CDS	5758	6075	.	+	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRHVELNERDIQISEFQDLLIKLIFDDSPPSPPMNRRQHKLVTSLWYKYKSQNQYYLTEIFKPNDSYEDYLKERSEAKIVNSKSLYTKPKDFIIEIDACFSPNS;locus_tag=LOCUS_12440;note=MGA_1276
sequence25	MetaGeneAnnotator	CDS	6115	6324	.	+	0	ID=MGA_1277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFQLKLFCLFLLLLSCDENIDYGLIKDEPCTAVYSPVCGSDGITYGNDCYARNAGVDEYSEGECEGL;locus_tag=LOCUS_12450;note=MGA_1277
sequence25	MetaGeneAnnotator	CDS	6508	6705	.	+	0	ID=MGA_1278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRLFKLLTFKKLQLLITGFKLGLFIATRRQQILFYLKIIRHLKFEDLIKFFRMIKKSIYKQLKK;locus_tag=LOCUS_12460;note=MGA_1278
sequence25	MetaGeneAnnotator	CDS	6804	7328	.	+	0	ID=MGA_1279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKNLLFFGLSFFVISCDSEDTSAESEDSSSNVDLTGVWTRTNSGNYFGTCLDTPPDSLDYPSSTSFSYTLAEDGTYTTDAYSLLIDCANPEDDEMYQYQCVGEWVSDGTSVFFLNDMLTEMTDITNINDVIAFGDQWFSFYELNDDLTEFSIGLESTTGLGDMCQYDLFVKQ;locus_tag=LOCUS_12470;note=MGA_1279
sequence25	MetaGeneAnnotator	CDS	7460	7627	.	+	0	ID=MGA_1280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKPLNKILVFLRYVLLSIITLGIYPFYFYVIRAEMNNRLLTDILTEIKKNKELS;locus_tag=LOCUS_12480;note=MGA_1280
sequence25	MetaGeneAnnotator	CDS	7870	8133	.	-	0	ID=MGA_1281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTMEILNLLIGFELIAIGLIYLRVSDFSSAASWSIFGCMYIVMDKYSDLTNMSNNRSIVQNIKYAGAWIGFIISTIFLIYSLITV;locus_tag=LOCUS_12490;note=MGA_1281
sequence25	MetaGeneAnnotator	CDS	8136	9269	.	-	0	ID=MGA_1282;product=monooxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011124033.1;translation=MTKNKNNTDFKYDVTIVGAGPAGLGVGIILEKLGINYIILEKNSIGSSFRKWPKETRFISPSFTGNFFKMVDLNAITPDTSPAFYLRTEHPTGTDYAKYLVSISEFFELNVKTRVNVKKIEKNEKSFIIKTNNKDYKSKFVIWAAGEYQYPKKESFKGYEHCTHYSQVKSFSDLEGEKKVVIGSYESGFDAAVNLSELGKKVLLLDSSDYLHLVNSDSSYSLSPFTRDRIENAMNDIHYHKKTSVKEVKFENNQYTIKTSNNKTFNSKTKPINCTGFATSLTLVENLFDFDEGYPLLNDFDESQKTKNLFLVGPQVKHGSALFCFIYKYRQRFAIVAEKIAKTKKIGQKKLKDVIQEYKDYNFYLEDLSCCDDECVC;locus_tag=LOCUS_12500;note=WP_011124033.1 monooxygenase (Rhodopirellula baltica SH 1) [pid:42.2%25%2C q_cov:97.6%25%2C s_cov:98.4%25%2C Eval:4.1e-82],MGA_1282
sequence25	MetaGeneAnnotator	CDS	9425	9676	.	+	0	ID=MGA_1283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFQGMLTGFFVSLCFLLITASDHHKPNKKPIKASQYKVVSAMLKDKLEVKIEQHLKDGWRLRGDILGSDVGTLGLIQVMVK;locus_tag=LOCUS_12510;note=MGA_1283
sequence26	MetaGeneAnnotator	CDS	561	3260	.	-	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKIILIYLLLSSFGISSTKSPNTDIAIKQIFESCFKCHGGDWATEAGIDFTTLEKDKELDVWEYRNIYSRALNMINQKKMPPPEEDPLTDEARNQLVNWLSYTLENVDITKIPHDPGYLIPSRLTKHQYDFSVEDIFEMNDLPKNLLPVELVVEDAFDNDITTLTTEPLWFEQSLNAANIIINKVWSNKEAYEKLVFMKPSAPYKAEKALFVASKNQSKNINLNDNFSIFAKINGNTGRVFLKSTHLDGFLRKSKQLYFDENSISYMIQGNKRLEVDNLQIDKNKTNIIGLNVSNGQASLFLNGKFLISANNFQKFDDDGHLFKIGKGQSKRVYEELPRNFPPFEEVDILCTKKINNGKDCTNDGIIDMIEFYDVVGNEEEFNKYFFSIVDFGKTIGIEHSFDENTLEKDRFISKELYLAAQKASNERIDIYPGVKELKYFTKSHSFKEMQLLTQSINFNDLNNSSFLWNGDIKTIHPEYISAENAASQVLESFLTKVFRRDPTEVELNRYLKLFKDNINKNIPYDIAIQTPIKAALCSPSFLLRNEQIDQQNLDIYPIESIDLATRLSFFLWSSTPDEELLNIAKNGKLNSEDELIKQTDRMLNNPKAHRFFERFIVQWLRTEGLGDTYNPDSDRFPEVTKNKLNAMKNEGVYVFADVVKNNKSLFKLLDDDGTYMNKDLAEHYGYEANLIGEDWQRVSFDNTKKRGGLLSQAAVLTVSSSPRRTSPVFRGKWILDVVIGEPPPPPPPNVPALGSDEKGSEAKSLREMLAAHREDVVCAGCHDNIDPYGLALEQFDAVGRIRDEKQNTSTILPNGKSIDGFYELREFIINEKGDEFIRHITSRLLSYAISRDLHLADERSIFTILNKLKDNNFQSRQLIYEVVLSEPFRFRKNPIN;locus_tag=LOCUS_12520;note=WP_011121212.1 filamin (Rhodopirellula baltica SH 1) [pid:37.4%25%2C q_cov:45.2%25%2C s_cov:51.2%25%2C Eval:1.8e-69%2C partial hit],MGA_1286
sequence26	MetaGeneAnnotator	CDS	3384	3863	.	+	0	ID=MGA_1287;product=GCN5 family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005454093.1;translation=MKNIQIRKANIKDVKTIYKFIKKLANFEKCPNEVTTNLSLIEKIFQDNSNVFSLIAFNNNEPIGFAVYFFNYSTWTGKKGLYLEDLFINPEMRSYGVGLKMMKSLSKIALDNDCARMEFNVLNWNTDAIKFYEKFNAKPMKGWTLFRIERNEIENISLT;locus_tag=LOCUS_12530;note=WP_005454093.1 GCN5 family N-acetyltransferase (Vibrio parahaemolyticus RIMD 2210633) [pid:42.6%25%2C q_cov:96.9%25%2C s_cov:96.3%25%2C Eval:1.2e-34],MGA_1287
sequence26	MetaGeneAnnotator	CDS	3850	4269	.	-	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNILIYILLFICLIFANENKKKVKVLESLSSSKKIMKNSSRKLYTTIKNEKVFDKLFINTSLSCAYVIRYYFNTEIILGYHTNKLVSLDGSIFYLKKENKNPENITKEVIEIISSMFYGSKEFELFKNSIDENIKLN;locus_tag=LOCUS_12540;note=MGA_1288
sequence26	MetaGeneAnnotator	CDS	4329	5168	.	+	0	ID=MGA_1289;product=formyltetrahydrofolate deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67681;translation=MIVLMSCNDRPGIVSILSDIVFRNKGNILDLQQHVEIEENRYFMRLSIDNSTLTNDSKNKIKEEINNSFIDFDAKISFFDEITPISIGVFVTKESLPLYDILIKHNSGELNCNIPIIISNHEDLKYIADNFNIPFAHFSIDADSKFDQEKKIIKILKDYKVDLVVLARYMQILTSNFVKNFTSINIHHSFLPAFKGKNPYKQAWDKGVKIIGATAHYVTEELDEGPIISQDVFPVNHNFSVKKLIEVGQNIERRVLTSALKSHLEHKIIIYKGRTIVFY;locus_tag=LOCUS_12550;gene=purU;EC_number=3.5.1.10;note=O67681 formyltetrahydrofolate deformylase (Aquifex aeolicus VF5) [pid:45.0%25%2C q_cov:99.3%25%2C s_cov:98.2%25%2C Eval:1.4e-62],MGA_1289
sequence26	MetaGeneAnnotator	CDS	5155	6117	.	+	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFIKCFFGFFLNFNSKMIKIILCLIFIVLLPNLVFTQTEIDILYTSNTNGALENCRCPNKALGSLEKRKYFIDEWYNNKPNTLFLDSGDFLSAKKNEFKDSIAFKIYEMLPYDAIGIGDQEFYNGINFITNLIDNSTLPFISLNISIPKFKNVNDYIILNKKNINFGIISIIDPDIFKFYPKRIRNNVEVFDFNVKLDDQIKFLKNKVDIIILLSHIGIEKDRDLAKKNNQIDIIIGGHSQSFLEKPEKINNTIVVHSGKDGYNVGHLKIKLNKKNKIHKFNGELIPMTLDMKSDSTVLEMIKNYHTLNQKKDIKLKND;locus_tag=LOCUS_12560;note=WP_012584140.1 multifunctional 2'%2C3'-cyclic-nucleotide 2'-phosphodiesterase/5'-nucleotidase/3'-nucleotidase (Dictyoglomus turgidum DSM 6724) [pid:28.6%25%2C q_cov:90.3%25%2C s_cov:61.1%25%2C Eval:9.0e-24%2C partial hit],MGA_1290
sequence26	MetaGeneAnnotator	CDS	6110	6442	.	+	0	ID=MGA_1291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDFFDKIPFSNPIILSIFIVLFIITFLSILKKIIKVGIVIFILFIFFMIYSVYTGKDAIEEINAILDQAYEIIEDSISSFGENLKEKTSNAVEEKINNVIDETFNSNKN;locus_tag=LOCUS_12570;note=MGA_1291
sequence26	MetaGeneAnnotator	CDS	6443	9601	.	-	0	ID=MGA_1292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLRSALQIKNGEGKKILPFFLSFFFLIGSFLFGRTARDTFFLSRFDPAYLPHMMILTAIVMGITIALTSKFLSKIPIVPQIISTFLFTSISFIAIQFLLSEWVYPVLYVWSEVIFTLMTIQFWILTGSSFKAREAKRLFSLIGSGAAIANSIIGFSMSTIINSFGTDILLPATSIFIGLATITSFLSRKYVEIDNRGSGKSIVMKNSTESKSKKLIPSKYLRIMAFTTICAALITALVDFQMKMIVSSNLDEEAMASLFGTMYGAIGIISVMIQFFVTGRFLSRFGVLWGVMMLPLALLIGSASILILPVIFTAILAKASENIFRFTIFDTTKQLLWLPVPIDHKTQAKPFIDGTLKNAAGGIAGLLIIGISFLLSFETHDNIRWLSIPSLGMLILWIILNFKLKKGYVSELTKAIEKRRIDFEELDIDINDRTIVNTIKKTLLQGDDNQKLFALDTMKGLSLTSWKKDLINLFENGSNEIKGKLLIMTSKHSNIISNEMIYPIINNTDELLASRAIISFGIRKNYKVSDELTEFIEHKNQIIRAAACASLILMNKNKDNARKTINSMLFDSNEKTKLAALNSVGHISDILSSNGLAKLLNDQSSDVRTHAAKLAEKRKDTNLIIPLINNLNNSNTLPASRRSLRSFDKNIVSKNLIQIINDKSKSGNALIGPIRAISDYRKNVNPEKLFDSNYENNLDVIKELSDTLIKLAKRLPLDKNTIEKSEKLLINLVSECKLELELIKKFKNDDDAFLITDQLITSLNKKRSIILKLALLSFPDSPIETYLNAINSKESNSQSNVLEILENLLSLEIREHLIPIFDLTQEKQIKNSEELNKSNEIKNWFNLNNSWNVALSLDYFMRKKHSLNEIKWSQISTDFKIKELCSINWKKKESLLKNVSDFPSEKFILDNLSMYSTLEKTIFMKGVDLFKDISGQEVSNIAQIAKEREFSADETIMNHGDNGDSMFIIISGSVKVHIDDKELTTLSKGDCIGEMALLDQEPRSASITTKEETTLLEIYGEDFYDLMASRMDIMQGIVKVLSRRIRKNNQ;locus_tag=LOCUS_12580;note=WP_012584159.1 Crp/Fnr family transcriptional regulator (Dictyoglomus turgidum DSM 6724) [pid:39.1%25%2C q_cov:12.6%25%2C s_cov:61.3%25%2C Eval:5.4e-17%2C partial hit],MGA_1292
sequence26	MetaGeneAnnotator	CDS	9654	10148	.	-	0	ID=MGA_1293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKYIVDGHNTINSIPDYIYILEKNYPNCLERIIDDCENYSLKKKIKIHLIFDGNQPFQIPQTNKDLNIFFSGNQKDADTIIIEKAKSMKNAIIITNDKDLRRQIVSFGCKYLSPDEFYNLIISKNKKTSNSNEFKPKKTGLSPQEANWWKKEMLKEIKKKEND;locus_tag=LOCUS_12590;note=MGA_1293
sequence26	MetaGeneAnnotator	CDS	10141	10416	.	-	0	ID=MGA_1294;product=BolA family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011140693.1;translation=MKILEKIENLLKNHLDIEYIKIEDESYKHAGHKQNQNVGSHFKAIIISKSFNDLSLIDRHRLVYESLGNLIGKDIHAFSMKTISEEENNNG;locus_tag=LOCUS_12600;note=WP_011140693.1 BolA family transcriptional regulator (Gloeobacter violaceus PCC 7421) [pid:40.2%25%2C q_cov:95.6%25%2C s_cov:87.9%25%2C Eval:1.8e-13],MGA_1294
sequence26	Aragorn:1.2.38	tRNA	10445	10518	.	-	.	ID=Aragorn_28;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_28
sequence27	MetaGeneAnnotator	CDS	210	827	.	+	0	ID=MGA_1296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINMKKNPIQFFDDWAKENKDEGMVKNHFQPVREILKSCLPSKKKFSFVDAGCGNGWLVEYVNQMNNCTFCSGVDGSYSMIKKAKLNYPDNIYFESNIESWIPEKTVDFVFSMEVIYYLNNPKKFIKNIRNKWLSKNGVFICALDYYFDNKSSHNWSEKYQIKNMTLLSKKEWLQIFSKFFQNVEISQINMKENWQGTLVFKCKK;locus_tag=LOCUS_12610;note=MGA_1296
sequence27	MetaGeneAnnotator	CDS	830	1576	.	-	0	ID=MGA_1297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKILYSFFFILFNCLLVGNSNIRDYSQIINLTEEKYRSINDYEVDLEISVKIPAFRMPKKKYKVFFKQPNKVKLKTKGFGLLPKTGIFTSPLENFDNLKNMRIMAQNPNAKKDNIIIHGDLIVDSLALDMPNEYAKLTFKPTVEVSIDTNNWVITNVTTKIDTLKLIEINNKYELIKNTYFMPIESKVEYYVKDARLTKWINRDLNVVMGSEKNFEFNNDIVRGFIQVQYFNYRINKGIDDKIFKE;locus_tag=LOCUS_12620;note=MGA_1297
sequence27	MetaGeneAnnotator	CDS	1573	2412	.	-	0	ID=MGA_1298;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812189.1;translation=MIRSLIINEFIKVLNKKRTYIGFILLFILVPLIILAIGDGAEYLESQIYGQLRDSFMIVGTLTNGYLSTYLIIGILITQMPFLSTIVASEIFSREYSDGTFRMYLTRPISRSKVLLSKLIIVSIYTILLMFFFVFYTLLISYLFLGSGDLAVFHKGLLFLSEDDIIWRFFLAYIVSTTVMLTTSFLCLMLSTMSKNSVTPIIITISVVFIGSIISFIPLQMFENMNPYLFTGYLDLFLSSFHDPVPWNTIFISFGVCTFWSLFFLIIAFIIFNRKEILS;locus_tag=LOCUS_12630;note=WP_005812189.1 ABC transporter permease (Desulfitobacterium hafniense Y51) [pid:23.1%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:1.3e-12],MGA_1298
sequence27	MetaGeneAnnotator	CDS	2405	3289	.	-	0	ID=MGA_1299;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110310.1;translation=MKIEKIIEINNLYKKFGDLEVLNNVSFSIPKNSIFGILGPNGSGKSTLMRIFAKLIKNWNGQILFKNNSIVSSDNHLMKMGFIIESPSFYEYLSAEKNLQIFGRLTNTKQKKIDELFELVNLNDRKKSRVSEYSYGMKQRLGIAQAMLHDPDFLILDEPNNGLDPVGINQMADILFKLKQMGKTICISTHLLTEVDRMCTDVAILNQGKLIISGNLSQLTNKKRFYRLEVNDSTPALNDLKKIKNIKIIYNLENSILISQKKEEKRIEETLIFKNIKDIKSLTRESSLVEYFYD;locus_tag=LOCUS_12640;note=WP_011110310.1 ABC transporter ATP-binding protein (Bacillus cereus ATCC 14579) [pid:36.5%25%2C q_cov:99.0%25%2C s_cov:95.1%25%2C Eval:6.4e-50],MGA_1299
sequence27	MetaGeneAnnotator	CDS	3320	4204	.	-	0	ID=MGA_1300;product=nucleotide pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011122029.1;translation=MKRIYLFVILNILASVLLASSKKVLLIGIDGCRPDVLKIANTPNIDKLINNGIFFDNALSSINNQPTRSGPGWTSLLTGVWYDKHTVKDNLFKNVDNSKIVTFDELLTKSSLNIKTSVLTMWNPIITKIFDKELFFTSHIEPYDGSIAIESKKHIINTESDIIFVHIDNADLAGHLYGYSLDGKRYINAIEEVDSYVGELKKATELRKNYNDEEWLIIISSDHGGRKKFLLGGTHGGQTEEERIIPIILYARNIRKKSDVKETYIVDIVPTILSFYDSKLVNKFNLDGKALIEF;locus_tag=LOCUS_12650;note=WP_011122029.1 nucleotide pyrophosphatase (Rhodopirellula baltica SH 1) [pid:33.0%25%2C q_cov:92.5%25%2C s_cov:81.4%25%2C Eval:6.5e-34],MGA_1300
sequence27	MetaGeneAnnotator	CDS	4231	6423	.	-	0	ID=MGA_1301;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000744482.1;translation=MNLFSQTITLNGKIFSSTDNSPIENANIFVEKTNFGSTSNSSGEFQLFFDIKDISNEITIIVDHIGFESTKINYNVNDNRNLDDVFLNPSVIQIEEVNVLSEKDDFELEIKANELTEKLSTDLATTLSYLPNINVLSFGQNATKPVIRGYSGNRFFISKNGNEFGDLSSTTLDHAITLDLLQIDAIELIRGPKTLIYGPNTVGGVINTTVDYIPNPQEKPAVRLYSGSESYNNSYFGMIKIDLPYKNNQISIGGNSRNTGNQTTPLGELINTSSNNTIFDFGITNFTKKGFRNFIFEKINMNYGIPPTQSGHIYGVDIKLFSNYYQFHLHEEINFLNFNDFHIKYLFIDYAHEEFENDAPYYDVRLAQKTHNFEVELKSNQTIVGTEFNYKKLMPDGFVWTPLTNRYNFSMYGFNEKKLKSFDLLTSIRSDFLNIIPNPQMNRYSNLDINEIKNRSYFFISYSLGIRKKIDNFTIKSFLINSNRGPSIEELYSDGPHLGIYSYEIGKPNLNKESTLGFETSIEYESENFNINVNPFYNFSNNYFQMDKTGKCNEEFILGYSHPCAGADFIEWGSGSGWLYKYQIDEKNAEIKGVEVNLKMKFKSIDLSYDFSNVIGNNLDQNIPLSYMNPTKQIFSTNFSLKNSNLKIRLIKLDDQNRLGEFETFTPSSMITDLIFTKKINACKCDCCKGDLTIKVNNLFNQLSYNHLSRTKDIMPEPGRNLVMLYNFDI;locus_tag=LOCUS_12660;note=WP_000744482.1 TonB-dependent receptor (Leptospira interrogans serovar Lai str. 56601) [pid:23.6%25%2C q_cov:99.7%25%2C s_cov:96.7%25%2C Eval:5.0e-35],MGA_1301
sequence27	MetaGeneAnnotator	CDS	6513	7106	.	-	0	ID=MGA_1302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNAFLFLLSFILISCESEEVIVDEEHTDADGFILEYNEEEVYREFAGAIVTNNVTVAVGQEIELAIHFLDDEGNEIEHSDEGHDDHDHGDEEHDDEEHEEGSPEVVVSGNDAAIAIVSTEHHEDEHDEEEHDDEEEHEDEEEHEEHEEGYIVAITGVSAGSTSFTLTLMHDGHADYTSTNPVAVTVTSDSTLASN;locus_tag=LOCUS_12670;note=MGA_1302
sequence27	MetaGeneAnnotator	CDS	7207	7386	.	-	0	ID=MGA_1303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQLLNNGQWMVTIAIAVVCGLIYWNARVGTINGKKIDDRFQLLAVIIFIVYIFTTLSK;locus_tag=LOCUS_12680;note=MGA_1303
sequence27	MetaGeneAnnotator	CDS	7495	7767	.	+	0	ID=MGA_1304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITMIANAFFALSLSVSGGHIIDAKFGLHHYSDKDYEELFYLKKKVTVSKKCIRHNENENVKKLVLHHTAGGETARKTIYVVTKNKEKDS;locus_tag=LOCUS_12690;note=MGA_1304
sequence27	MetaGeneAnnotator	CDS	7821	9695	.	-	0	ID=MGA_1305;product=glycosyl transferase family 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964069.1;translation=MIRLKNISKSFPDGDLFNNVNIFIKRGMRIGLVGSNGSGKTTLLRIMLGKESPDSGDVQVDKSITIGHLSQDIVAGTERSILEEVLNTYPEISDLEGKILSLSDAISKDHNNMELINKLGDAQHRFESLGGWNLEDKAKKILSGLGFSDEQFTQPMDVFSGGWRMRVALASILLQEPDILFLDEPTNHLDLEATIWLELFLSNWRGGLVMISHDRSFLDRSINNILEIDLKKITLYYGNYTKFTEEKALRIEQHKNAYRNQQKQIKNTQRFIDRFRSKSSKATLVQSKVKMLDKLEKIEAPIEEKHNMHLRLPQVKRSPLNVISCQNVNKHYGDIKVFNNMDMLVERGEKIGLVGHNGAGKSTLLKMLAGVESVSSGAIQIGSNTDRAYYAQHQLETLDPNDTVFESIQKVSTGWSETEMRTYLGSFMFSGDEIKKYVKVLSGGEKARVALARMLIKPSHLLLLDEPTNHLDMMTRNVVERALIQFSGSIVCVSHDRHFLNNVTNLTCEVGGGNIRLFKGNYEYYEWKKQEEKSQETHSSTVKFQRKGNSNYREKKKTRNRLAWIEKRFKTIEKDINEQREITQDPSIGDDYELLQKAMGIMNRLEDEYLELMEEQEKLTGIDF;locus_tag=LOCUS_12700;note=WP_011964069.1 glycosyl transferase family 2 (Flavobacterium psychrophilum JIP02/86) [pid:39.8%25%2C q_cov:95.0%25%2C s_cov:94.2%25%2C Eval:3.4e-122],MGA_1305
sequence28	MetaGeneAnnotator	CDS	538	1086	.	-	0	ID=MGA_1308;product=putative Fe-S cluster assembly protein SufT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011036085.1;translation=MNNDNEKIILSRNCDATLIPFGNAFTLKKGDEVKITQALGGSYTIMARGSLFRIESKDADAIGKDVVKITKEQSEITGYATEEEIWEVLKTCYDPEIPVNMVDLGLIYSCELTNEKSGGTNIEIKMTLTAPGCGMGPMLVDEVKAKVNGVKNVKEVNVELVWEPQWSQDMMSESAKLDTGMY;locus_tag=LOCUS_12710;note=WP_011036085.1 putative Fe-S cluster assembly protein SufT (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:44.8%25%2C q_cov:98.9%25%2C s_cov:98.4%25%2C Eval:6.1e-42],MGA_1308
sequence28	MetaGeneAnnotator	CDS	1111	2376	.	-	0	ID=MGA_1309;product=Fe-S cluster assembly protein SufD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958176.1;translation=MNHLTDQLEEYISSNSPNENIVKVRKNALAKFLEYGFPQSSLENYRFTNLSKLNKVKFDLPKNITKKENFNNLSNEYPVLQFIDGQFSKELSSLPNFISIESVLNKEENFQPSHAVKYDSSSNPFAYLNSAFLNIGYVIKITKSSDLPIIIESKMSEKSENLMIHPKFIIKSSNNVDATIYESYVGENAFYLNNVSTEFIIGNNSHIKHYRSQLESNRAYHIANSNYNISKDASIHSTQIVLGSHLHRHDINVTLEGENANIDLNGLCLIKNTQHFDHNIIFDHAREHVTSKMLFKYILSDKSTGVFNGRALVREDSQKIDSIQTNNNLILSDSSIMNSNPQLEIYADDVKCTHGSTTGQLDEDALFYLRSRGLDSFAAKSILINGFANEIIDQMSNITFKSTFTKYLDQWLKNINDRSNS;locus_tag=LOCUS_12720;gene=sufD;note=WP_010958176.1 Fe-S cluster assembly protein SufD (Coxiella burnetii RSA 493) [pid:34.6%25%2C q_cov:88.6%25%2C s_cov:88.5%25%2C Eval:6.0e-61],MGA_1309
sequence28	MetaGeneAnnotator	CDS	2384	3130	.	-	0	ID=MGA_1310;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011141371.1;translation=MLEIKNLKASIENKKILKGINLNILPGELHAIMGPNGSGKSTLAHVLAGREIFEVLDGKVMYNGNDLLDLDPEERALDGVFMSYQYPAVIPGVNLAYFLKAAVNAVRKHRGQKEMDSVEFLNFIKEKMSQVQMDEKYLKRSVNDGFSGGEKKRNEILQMLSLDPSLAILDETDSGLDIDAIRIVANGVNEFRRSDRSVIVITHYQRILQYMNPDKIHVLMDGKIIKSGGKELALELEEKGYSWLEKSV;locus_tag=LOCUS_12730;note=WP_011141371.1 ABC transporter ATP-binding protein (Gloeobacter violaceus PCC 7421) [pid:65.7%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:5.4e-89],MGA_1310
sequence28	MetaGeneAnnotator	CDS	3159	4634	.	-	0	ID=MGA_1311;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011141370.1;translation=MENKSTKVLSDEIKEIEQKLSQDYKYGFVTEIDQETIPPGLNEDIIKIISSKKNEPKWLLDWRLKAFKQWKKMTEPNWSMLEHEPIDYQKISYYSAPKDKKDGPKSLDEVDPELLKTYDKLGIPLEEQKMLAGVAVDAVFDSVSVTTTFKEELEKAGVIFCSFSEAVQNYPEIVKKYLGSVIPSTDNFFACLNSAVFSDGSFVYIPKGVRCPMELSTYFRINAANTGQFERTLIIADEGSYVSYLEGCTAPKRDENQLHAAVVELVAHENATIKYSTVQNWFPGDPKTGKGGIYNFVTKRGTCLEKNAKISWTQVETGSAITWKYPSVILKGDNSVGEFYSVALTNNFQQADTGTKMTHIGKNTSSNIVSKGISAGKGQNTYRGAVKILKNASNARNYTQCDSLLIGDKCGAHTFPYIDVRNPSAQMEHEASTSAIGEDQIYYCNQRGISTEDAVSMIVNGFCKEVFKELPMEFAVEAQKLLEVSLEGSVG;locus_tag=LOCUS_12740;gene=ycf24;note=WP_011141370.1 Fe-S cluster assembly protein SufB (Gloeobacter violaceus PCC 7421) [pid:76.6%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:2.6e-223],MGA_1311
sequence28	MetaGeneAnnotator	CDS	4743	5708	.	-	0	ID=MGA_1312;product=selenide%2C water dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniprotKB:A8MHJ6;translation=MSELKYNNFNNKNILVDSKNFDDAAIFKISSEKAIIQTVDFFTPIVDDPFSFGEIAASNSLSDIYAMGGKPLFALNIVAFPKNLDKKILIDILKGGESKCNEAKISILGGHSIYDDEPKYGLVITGEIQPNKIISNSNAKVNESIILTKPIGTGIISTAIKKGVLNKKTINSAMSIMKSLNSKSSELMHKYNVSSATDVTGYGLIGHIIEMAKGSKLSAKINFNKVNFIDGVENLIKKDIVPSGTKRNLKFYENKIDYDSKLSSSQKLLLADAQTSGGLLISIPKKNVSKFLDDYNKSSLYPAVEIGYFTDLIKNKFLIVE;locus_tag=LOCUS_12750;gene=selD;note=A8MHJ6 selenide%2C water dikinase (Alkaliphilus oremlandii (strain OhILAs)) [pid:47.9%25%2C q_cov:87.9%25%2C s_cov:81.5%25%2C Eval:4.3e-74],MGA_1312
sequence28	MetaGeneAnnotator	CDS	5861	6772	.	+	0	ID=MGA_1313;product=putative fructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05510;translation=MTKQRILYGSIEIGGTKINCAVAETIRNSNSIPSILDEKQIQTKTPDFNLNEIFKFFNSYNIHSLGVGSFGPIELDKNSKNFGKITSTPKIPWRNFDLLNNLKEKFSCNIYIDTDVNVAALAEGKWGFENELKSCLYLTIGTGIGGGMFLNNKLLHGISHPEMGHIIVKKHPDDNFKGVCPHHEDCLEGLASGFAIEKRFGKKAQSLNLKEKIFMRKIISYYLGQALANYILILSPNKIILGGGVMNNKNFLIDININVKKILNDYILKKEFNEKINQYIVSPKLGKKSGIYGGFALCVFPRN;locus_tag=LOCUS_12760;gene=gmuE;EC_number=2.7.1.4;note=O05510 putative fructokinase (Bacillus subtilis subsp. subtilis str. 168) [pid:45.4%25%2C q_cov:96.0%25%2C s_cov:94.6%25%2C Eval:9.9e-70],MGA_1313
sequence28	MetaGeneAnnotator	CDS	6839	8671	.	+	0	ID=MGA_1314;product=2-oxoglutarate ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007324152.1;translation=MPNKKTEKLDSVVIRFAGDSGDGMQLMGDRFTNTAALVGNDLGTFPDFPAEIRAPAGSLAGVSAFQLQFSSKDIFTPGDKLDVLVAMNPAALKMHIEDLKSDGILIANKSNFTPRNLKMAGWENNPLEDDYLKNYVVYDLEISRLVANATEDMGLSNKIIERTKNFFGLGLLYWMYGRPIEPTKTWLEKKFKNKPELVEANTRALQAGYNFGDITESFATQYEVGAAPLKPGTYRNIVGNYATGLGLLAASQLSKLPLFFGGYPITPASDILHQLSHYKNYGVKTFQAEDEISGIGSVVGAAFAGSLAVTATSGPGIALKTEAIGLGVISELPMVIINVQRGGPSTGLPTKTEQADLLMAMNGRNGESPIPIIAASTPGDCFYVAYEACRIAVKYMTPVFILTDGFIANGSEPWMLPELDKLKDIKINKPELRDGQFLPYERDEKTLGRSWALPGLKGFEHRVGGLEREHITGNINYDPDNHDLMVKLRAKKVSSIVDDIPKTEVYGKQTGEILILGWGSTFGAIRSGVESLIEEGKSVSHVHLKWVNPLPADLGEILLKFQKVLIPEINSGQLIKIIRSEFLIDAEGFNLVRGKPYTKSQIINKVKEMI;locus_tag=LOCUS_12770;gene=korA;EC_number=1.2.7.3;note=WP_007324152.1 2-oxoglutarate ferredoxin oxidoreductase subunit alpha (Rhodopirellula baltica SH 1) [pid:54.5%25%2C q_cov:99.3%25%2C s_cov:97.0%25%2C Eval:5.2e-200],MGA_1314
sequence28	MetaGeneAnnotator	CDS	8681	9700	.	+	0	ID=MGA_1315;product=2-oxoglutarate ferredoxin oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011121170.1;translation=MNEKTLKPTLTRKDFVSDQDVRWCPGCGDYSILTQTQKIMPEFDIPKEKIVFVAGIGCSSRFPYYMNTYGFHTIHGRAPTIASGIKISNPDLNVWVITGDGDALSIGGNHLIHVLRRNLDLNIVMFNNEIYGLTKGQYSPTSKFGQKTKSSPFGSIDMPFNTPSVVLGAKATFFARTIDSQPKHLQYTLRRSQEHIGSSFIEVFQNCIIFNDKAFSHVTDRDVRDDNVIDLKNGEPMIFGKNQDKGIKLDGFSPEVVSIKDNVSTDDLLIHDEKDRNLASILANFTENESLPTPIGVFYSEEKPRYEELLEEQLKESIKNMGNGDLNKLIAGSDSWKVS;locus_tag=LOCUS_12780;gene=korB;EC_number=1.2.7.3;note=WP_011121170.1 2-oxoglutarate ferredoxin oxidoreductase subunit beta (Rhodopirellula baltica SH 1) [pid:58.2%25%2C q_cov:97.9%25%2C s_cov:94.3%25%2C Eval:8.3e-108],MGA_1315
sequence29	MetaGeneAnnotator	CDS	1	654	.	-	0	ID=MGA_1317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQIFLGIDLSGPVNIIDTAISWFKYDYLNEQLVLINYKIGADDNFIFNIVKDLSRNNNLLIAIDAPLSYNIKGGDRKSDKSLRKFLKERDFKTSSVMTPTMTRMSYLTLRGISITRILETLNNKPKIIEVHPFISLLINGANKVDIDNVKKNTKAKKNILTFLKKRQISDLPTIASKNDHFLSSIIAARIVYLYSKNQYQWISKRKFPFHPYDFVC;locus_tag=LOCUS_12790;note=MGA_1317
sequence29	MetaGeneAnnotator	CDS	677	1285	.	-	0	ID=MGA_1318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLVSIWGYIQTIRVEAINEFQLKQFKDYSKKNFKNIAKILLEGDLGHSWVEYDGILSFKGPFIDPSSELSITDYDQDDYYGDGYTFFRSPLNKLKVLEKKNIIDLFDEDLFIVSIQSDYGSSFTSKLSKKNEKFDNDQFSINSLNLYPIINTSLLKTLSYKEKILPNSSKHGFENHDLKVFIVEKNKFNHLNVIDKSSVIF;locus_tag=LOCUS_12800;note=MGA_1318
sequence29	MetaGeneAnnotator	CDS	1288	2163	.	-	0	ID=MGA_1319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000492432.1;translation=MNNNNFLPQLEINLQNKIGEGAIWHSKKKCLYWIDIPKGEIFQYFPKLNVLKNWVHDYQIGGFSINYDGRLLLFMEEGRIALWDEGKFEDIITLLPDVKNNRFNDVIADPNGRVFCGIMSTKEKKGCLFRLNIDQSLTKVIKETGTSNGMGFNKMETKFYFCDSMDCTISEFDYDKSTGDIFNRKIIFETDFDKMGRPDGMCVDIQDNLWIALWKGWGIIKINSKGELLKKIKLPVRKVTNVCFGGENYTDMYINSAGYENKKINGDLSGSLFKIKSSFLGKKEFLSKIKK;locus_tag=LOCUS_12810;note=WP_000492432.1 hypothetical protein (Bacillus cereus ATCC 14579) [pid:32.5%25%2C q_cov:93.8%25%2C s_cov:93.0%25%2C Eval:1.7e-31],MGA_1319
sequence29	MetaGeneAnnotator	CDS	2171	3304	.	-	0	ID=MGA_1320;product=zinc-binding alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_001254711.1;translation=MKRQLYTNQILPEKIKAVVLEEPKKLSLKQIPMWPLLDYNDDELILIKVHSCGLCGSDLRYYLGENPWGQHTLGQFIENPSNIVLGHEFAGEVVGVINPKYKNMLGKRVAPICSKVCEKCDLCMNEMDHLCPNTIHIGHGQGWGDRDYFPGAYAEYVPAWANTAFEISNNLSFDKASMMDLLAVGCHVSRKGNIKKDMPILIIGSGPVGNSIVQISKILGAGKVLVIDQSEISLDLSKNVGADLTINNKDLNFKKILDIININTSNILPFSVFDTVGTSETFELGTNLLAKSGTYVNIAIHDEKMKFNPLTIASEKIITSSCNFQLKDYVDTLKWLENGKINIDGWLHTISLDDVSSIFPKLLSNNKNNFFKVNIIP;locus_tag=LOCUS_12820;note=YP_001254711.1 zinc-binding alcohol dehydrogenase (Clostridium botulinum A str. ATCC 3502) [pid:28.2%25%2C q_cov:90.5%25%2C s_cov:92.2%25%2C Eval:9.5e-31],MGA_1320
sequence29	MetaGeneAnnotator	CDS	3310	4119	.	-	0	ID=MGA_1321;product=dioxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582612.1;translation=MNYLNDIFGLNNKTVVITGGAGAIGLSMSDALLRAGANLMIWSRKKESIDKAFDKIPNKYHHKCMGIAVDTSSEQNVKIALSKTIQHFKKVDILINAVGGNSGKSSFINLDINKFNEILKNNLLSGLVIPTKIFAKYWILSQTKGSIINITSVASTKPLSGVWAYNAAKSAVLNLTHATANEFAKNNIRVNAITPGFFIGKQNKDLLLKKGSKELTKRGKLIIQNTPLKRFGKVHELHGATLFLSSDKASSFVTGISIPVDGGFLINNI;locus_tag=LOCUS_12830;note=WP_012582612.1 dioxygenase (Dictyoglomus turgidum DSM 6724) [pid:38.1%25%2C q_cov:98.1%25%2C s_cov:97.8%25%2C Eval:2.3e-43],MGA_1321
sequence29	MetaGeneAnnotator	CDS	4122	5129	.	-	0	ID=MGA_1322;product=putative zinc-type alcohol dehydrogenase-like protein YjmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O35045;translation=MKAVVISEPNSIKIKEKDFPKISSNKLLVKIKSIGVCGSDMHIIKGSNPFVTYPRIIGHECFGEIVDSGRNELFKEGDRVVIDPVNSCGNCYSCLNNKNNICNDLKVFGVHIDGGMQEFALVNSNQIFKIPNNLSNENATLIEPFTIAAQATSRGGIKKENLVCIIGAGAIGLSILKVCNMIGAKTVVFDIDEKRLDRAKSFGASNLGIDINKNNISNKFTNNHGFDVVIDAACTSETFEKSIQFCAKGGSVVTLGFTKQISKISQYYITKNELNIVGSRLHNNKFKTVLKWVENSKINLDGLVTHRFHYTEINDAISMLLTPNNDICKAVIDFN;locus_tag=LOCUS_12840;gene=yjmD;EC_number=1.-.-.-;note=O35045 putative zinc-type alcohol dehydrogenase-like protein YjmD (Bacillus subtilis subsp. subtilis str. 168) [pid:39.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-68],MGA_1322
sequence29	MetaGeneAnnotator	CDS	5157	6425	.	-	0	ID=MGA_1323;product=sialic acid TRAP transporter large permease protein SiaM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KR66;translation=MLILFTSFLILLLIGFPISFSLGISSLLYLLAYDIPLVVFPQKLFAGLDVFVLLCIPGFILAGNLMNKSGATDKIIDFSNSLFGHITGGLSLANIGSSMVFSGISGTAVADSASIGGVMIPAMKKEGYDAAFSSAITSISSTIGPIIPPSLPMIIVGTLTGLSVTKLFIAGAIPGLILAIVLMCISYFISKKNNYPKGTKSSFKTIFLIFKKSILSLFTIPLILFGILAGVFTPTEASIIASLYIFFIGIFFLGLKIKDLYKILIETMISTASIMILVAFANVFGWILASEQIPQQIANFFLSITDNKYIMLFLINILLLFVGTFMETIAALVILFPILLKVSVSVGVDPIHFAVIAVLNLMIGLSTPPVGICLFVTSSIGKVSLEQITKAIVPFLFGSLVVLFVVTYFPEISLFLVNSFYK;locus_tag=LOCUS_12850;gene=siaM;note=Q9KR66 sialic acid TRAP transporter large permease protein SiaM (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:40.5%25%2C q_cov:99.5%25%2C s_cov:98.8%25%2C Eval:8.1e-90],MGA_1323
sequence29	MetaGeneAnnotator	CDS	6885	7862	.	-	0	ID=MGA_1324;product=C4-dicarboxylate ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010976088.1;translation=MNQIKKLHKIFFLFFILLSYSCSDNNNYVLKLGHLANEEDIWNKSSLYFKKIVEERSYGKIKIKIYPNEQLGKEIDLINGLQLGTVDMTIAGEAFQNWVPSAAMLAIPYAIRDFDHLQKIANGKIGKSIEKDLLEKINIRPISWFIRGPRHLTSNRPIIHPDDLNGIILRVPNVPLFVSFWQSLGAKPTPMAFSEVFTSLQQNTIHAQENPLSLINSAGFSEVQKYCNLTSHVTSWIYVVLSEKKLKSLPVDMQKIILKAGDDMQSYQHKLFFKDEDQLKSQLIDKGMKFIEVEKNAFIEKSKNSIFLSLNEEQKQIYNEIINVK;locus_tag=LOCUS_12860;note=WP_010976088.1 C4-dicarboxylate ABC transporter substrate-binding protein (Sinorhizobium meliloti 1021) [pid:35.1%25%2C q_cov:84.3%25%2C s_cov:82.8%25%2C Eval:4.0e-43],MGA_1324
sequence29	MetaGeneAnnotator	CDS	7867	8226	.	-	0	ID=MGA_1325;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011706795.1;translation=MNFVQSIESVYFKNLTNFKGRSSRNELINVLIFNLIFIFILIASGQYSIAPIIQLINFIPSLSLSIRRLHDINKSGWNILLPFTIIGLIPYWFFLFKKGDIGPNNYGENEIIKHYSINN;locus_tag=LOCUS_12870;note=WP_011706795.1 membrane protein (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:36.2%25%2C q_cov:80.7%25%2C s_cov:90.3%25%2C Eval:1.5e-09],MGA_1325
sequence29	Aragorn:1.2.38	tRNA	8322	8396	.	-	.	ID=Aragorn_29;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_29
sequence30	MetaGeneAnnotator	CDS	1457	2482	.	-	0	ID=MGA_1328;product=iron deficiency-induced protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DLH9;translation=MKKIKITLIVFLLLIGCSQNGSEVNIYTSRHYDSDDELYALFTEKTGIQVNVISGKGAALIERIKAEGENSPADIYFTVDAGNLWKVQSEGFFQSISSNKINSIVPENLRGPNNEWIAIAKRARVIFYNPKKISKDEIKNLSYEDLSNPKWKGRIVIRSSNNMYNQSLVASLISNNGIENTEIWGKGLISNFARKPQGNDRSQIMAVANEEADLAIANSYYIGLMLSGTKGSEQLEAAKKVSIHFPNQNNRGAHINISGAGILKSSPNSKNAIKFLEFLLSEEMQKNIVNNSYEYPILENIDPHPLIKNFGTDFKEDRTSVTDYGELNPEAIKLMDRVGWK;locus_tag=LOCUS_12880;gene=idiA;note=Q8DLH9 iron deficiency-induced protein A (Thermosynechococcus elongatus BP-1) [pid:45.3%25%2C q_cov:94.4%25%2C s_cov:89.6%25%2C Eval:2.8e-87],MGA_1328
sequence30	MetaGeneAnnotator	CDS	2698	5472	.	+	0	ID=MGA_1329;product=TolB protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011120765.1;translation=MIFEGKRSGEGYFDLSGNLLSFQSERNDDNPFFQIYLLNFKNGDITKISPGIGKSTCSWIHPNKNKVLFASTHLDSNALLKQNQELEFRKSGKSRRYSWDYDEHYELFLYDLNTKKYEQITNSVGYDAEGAVSPDGDWVVFSSNRSGYNEEMSDSDRKLFEKDKSFKMDIYKKNLNNGEIIRLTDVDGYDGGPFFSSDGKKITWRRFSKDGTTAEIYVMDSDGKNTKKITNLNAMSWAPFYHPSGEYIIFSTNIHGFDNFELYIASTSNSNTLRITDTKGFDSLPTFSPDGKKISWTTQRTSNKKSQIFIADWNHEYALKKLNENGEEKDPSISEAINENELKSHIEILSSPDFEGRMTGTLGEKKTIDYIAKEFEKLNLKKYSNNSYFEEFSFTSGIKIGNNSKLIINSKKNNKLNKNWTPLTWSSSGTFSASEIVWAGYGIQAPKKNEFEEYDSFVHLDVKDKWVMVLRYLPENISDNLRQHLARYSSLRYKAMIIRDMGAKGMIVVSGPNSKVKNELIPPSLDASNSKSSLAVISITDKLANYILSFSSRDNSLKKLQTNLDLGKQQMGFSIPINISSEIEIIKETKKGFNVIGTLTNDNIPKNKPKIIIGGHLDHLGIGKTSASLSKNENKDIIHYGADDNASGIASLIEISEWFSEKVKNNTIDLKREVVFAAWSGEELGLLGSSNHLKNIETDNNSNLSNHYASYINMDMIGRYREGLVINGIGSSSIWKKLIEQKNIVVGLNLILQDDSYLPTDATSFYLKKIPILSAFTGAHSEYHTEKDTPDLINLNKLKEISILLALISESLSTSQSEPDFLEPKKPAPDNQRAGLRVYLGTIPDYASSDIIGLKLSGVSKGGPADKAGIMSDDIIIELAGKKIENIYDYTYAIDALKIDQKTEIKINRNGKVIILSITPGSRN;locus_tag=LOCUS_12890;gene=tolB;note=WP_011120765.1 TolB protein (Rhodopirellula baltica SH 1) [pid:42.3%25%2C q_cov:100.0%25%2C s_cov:92.9%25%2C Eval:5.5e-236],MGA_1329
sequence30	MetaGeneAnnotator	CDS	5450	6775	.	-	0	ID=MGA_1330;product=amine oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403605.1;translation=MKKNNKIQKLSIIGGGPAGLASAYFAHKNGLKFELFEGNSEIGGNCKTVEHKNFKFDLGAHRFHDKNKYVTSIVRNLLNDDLKLVSTPSKIFFKGKMITFPIEFKNLLKKLDSKIILKILIENGINIFNQNKINSFNDLVIKRYGSTLSTLFINNYSKKLWGIDSTLLSPKISGGRLKNLNIISIINIFSNRKHFEGFFYYPKNGFGIIFDKIKEEIQNNNMFLNSNITKIFHNDNKINAIEINDNKKIEVDQIINSLPINIIANILEPKIPSKILDTVNTLKFRNLRIVVIFLKMKNFSNYPSIYFPDENVNFTRIYEPKQRSKFLAPNDKTCIVVEVPCNESDDLYNSDSDIFKNEIINSLIKMKFIEKNKIIESLTYKIPNAYPILTNDNVESMKTINDYFKKFENMKMIGRGAEFKYLHTHDIFAKAVNYINFLSQE;locus_tag=LOCUS_12900;note=WP_011403605.1 amine oxidase (Salinibacter ruber DSM 13855) [pid:34.6%25%2C q_cov:95.7%25%2C s_cov:94.3%25%2C Eval:1.5e-81],MGA_1330
sequence31	MetaGeneAnnotator	CDS	963	1928	.	+	0	ID=MGA_1333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISFIYFLIFLFSSSNFSFAKKKSAKKVSFSEKIENSFFEINYYQQINKKKKIWGKSIPFNENWTFSSDKKTIVSFNKDIIINNLRLVQGSYSFYVFPVSENDWHFVFNKNLKGNTQEYKMSEDVLRISINPEKINNTDTLKIGIENIYSKIENKRMGDYSYEDEDLTYDFFVHFGKLKAKLNILYTEERLNLGLNPDLPNEIKPMWEIVMGSLQGLINEDFKMHTENFSKDFVTNWGDGGGTEGHIQMLGHFFRGGGLEGIGLNLEQLEYNQKDKNHIKFTKIITHFPNHAFYFDYTLNKNENGKWEIVELIEPDHTPF;locus_tag=LOCUS_12910;note=MGA_1333
sequence31	MetaGeneAnnotator	CDS	1933	2901	.	-	0	ID=MGA_1334;product=transglutaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919474.1;translation=MARLFLKHSTSYSYSQLITESANQILLYPYNDINQQIVNHTMKITNDPSIFTYLDSYNNRVGFFTYLHPHDSLIIISEAEIISKKIEIPYIDLNISSQWEMIEKLSDRADFFEFIYTNNLSDKTALKIINKFNKEDLTPLNIAFELNSYIYKNFDYVKGITTVNTNVDDVWNLRSGVCQDFTNVMLQLCRLCKIPSRYVSGYICESKGLRGYGSTHAWVEVYIPTYGWFGLDPTNNCFANDLHIRLAVGKNYNDCSPVKGVYTGNANQKMEVKVHMAFKKSESYFPKTEIIPFDKNDKSVELEQINSYRQNLEKKQQQQQQQ;locus_tag=LOCUS_12920;note=WP_010919474.1 transglutaminase (Caulobacter crescentus NA1000) [pid:31.1%25%2C q_cov:84.2%25%2C s_cov:85.5%25%2C Eval:1.3e-38],MGA_1334
sequence31	MetaGeneAnnotator	CDS	2904	3842	.	-	0	ID=MGA_1335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888673.1;translation=MLSRVANNLFWMDRYMERSFGLLNLINTNYNSALESGDYSSWIDILNKYLNISENFSTPDNYDDTISIIDYILFDDTNPNTLLNIITHSRENARNVQEHISRDIWLSTNKYYLYISKRTNRTKFKKSNPIEFLEDLKKFNMIYLSSAYVSQERGSAYCFMNLGKYLERTIFSIDILTFKILELSENNQSLVESLFLKNLIFLMGGYQLYVKTYKSIFNIENIIEMIIINEFFPRSVKYNLNRITQNIIELDQYNQIIGENELVFNAKKLQNTLTYTTINSIKEIGLNSFLLELKNDLNNLSQLINQRYFSQL;locus_tag=LOCUS_12930;note=WP_010888673.1 hypothetical protein (Deinococcus radiodurans R1) [pid:24.1%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:2.3e-24],MGA_1335
sequence31	MetaGeneAnnotator	CDS	3832	5382	.	-	0	ID=MGA_1336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257880.1;translation=MSIEFYYLDFFSIISLIFLSFSFVKNFDQKKEKIFVNADYEHYPNTWDEMFKNDGKVRKSYKFLEKFLNNSSFESIKEKQDFSDQFFMNQGITFTVYDNDQGIERIFPFDILPRIIKPNEWDTIEKGIVQRVKALNLFLKDIYNDQYILKDQIFPSRLLLTNPYFLTQMKGLKAPLDVYTHVSGVDLIRNNDGKFYVLEDNLRTPSGVCYMLENREVSRKLFPSIFPNQNVSTVSSYPQVLYNQLASLVNKSKPTIVLLTPGSFNSAYYEHTTLARLMGVELVEGKDLVVDNNFVFMKTATGLQKVDVIYKRIDDEFIDPLVFNDSSYLGIAGIMNVYRSGNVVLANAPGAGIADDKASYVYVPEMIKYYLNEQPILNNINTFQLGKPDELDHVLKNINKMVIKKTDGSGGYGMLMGSNSSDEEIDKYIKQIKKNPSNFIAQPTLNLSTTPCIIDESLSPRCVDLRPFAIFGGEGIKVCPGGLSRVALKKGSLVVNSSQGGGSKDTWVLEKNHNVK;locus_tag=LOCUS_12940;note=WP_012257880.1 hypothetical protein (Chloroflexus aurantiacus J-10-fl) [pid:53.4%25%2C q_cov:91.1%25%2C s_cov:97.1%25%2C Eval:1.6e-146],MGA_1336
sequence32	MetaGeneAnnotator	CDS	189	2066	.	-	0	ID=MGA_1338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCRKLVFFTLFFQFLIAQNNFSFGLSSYFGKGFTPIKVPGQIESKFYDYNYIENLLDISYWKENWSFTSTVEYSSPPRIGQSFIGLNEFLIQGDYENFSIFLGDINKRVGRGLGLNTLKNESINFNSSIRGGLLKSNHFNQFELNFLFGKIDAPRHLSSGIDVDPRIVDFYEDETIGMISLDYNNILPNLNFGTYLIFNNSNSPWYSYKNSTDYSNVKTNSLSPGIYSEYMIENFDFYIEANFRNQNINVDSILSDRAGWMYYNTNKKDRSYYLSASYFPGSWSLSLELKDYLYDASSPDIKNHFPFRLKRNSITYNPPSVFKIHNSTLLSRNPHLFDMYDELGFQVNFNLNMNENLQFQFNFSKSSRHKKYFKYIGQDYASNWRDESVKLLFNPSEDYGYFPYHEGYVELKYNQYNNFYLKSAFVQSSEIIGYTGYRFFHNSPEGFERFTEIFERRNLVTFPFELMFSLNDNYSISFNVEHQWESLNFGSKESFLTLIDSQSDSIGIIDIDVSNYYYRYFGLNISKASKFSFGFIFDYTSKTKTGDLYNDFADEDSWLESFLRRNDFNLLNSWYGIQGSFYLNTSTLVNFFYGSIQGGLKCDTGVCVYVPGIDDALTFTLTTNF;locus_tag=LOCUS_12950;note=MGA_1338
sequence32	MetaGeneAnnotator	CDS	2069	2245	.	-	0	ID=MGA_1339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISIEPDLNSFKKLNGKAMPYTLIVNSSNNVIYKHNGYVPGDEIILENKISKEFLSK;locus_tag=LOCUS_12960;note=MGA_1339
sequence32	MetaGeneAnnotator	CDS	2551	4446	.	-	0	ID=MGA_1340;product=thiol:disulfide interchange protein DsbD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107156.1;translation=MKTLFFSYILTPFFLFSQISPPVDVDFKVDDNFYYPGEVVKIITNVNVEPDFHIYAINKKSQGPIPSKVTINGEIVEFTGQSLEPEPINKYDEGFLTETYYHEGRFKFETTFKLFNNVKEGENSVIANLLFQACDPTLCYPPTNFSDTLFIEIKKGSVRSEKTNIVKLSEEKINFFSDDQNIDLDNVISSGFWSFILLSISMGFLALLTPCVFPMIPITVSYFTKIGEDKKTKPFQQASIYSIGIIITYTFLGLLLAITLGGSGANQLASNPWVNLFIAAIFIYFSLSLFGMYEIQLPSALRQFSVSQEGRGGIIGTLFMAFTFTLTSFTCTVQFIGLLLVRAIQGDWLWPFIGMLFFSAAFALPFFFLALFPQYLNKLPKSGGWLNSVKVSMGFLEVAAAFKFLSNSDLIWGWDIFTRSFVLAAWVVIFFLCGVYLIGKIKLPHDSDLKFISVPRLIISIFLFSFSLYMARGLFGQPIHGLIESYLPPSNKKTVSNNDSFNKKNISWIYDFDEAIAVSEMTGKSMFVNFTGYTCTNCRWMETNILILPEIEDLLKQYVPVELYTDGGPNHKEYQKMEIERFGTAALPFYVIIDSNSNEIARFPGLTRDPQKFIEFLQKGINSNNNLITER;locus_tag=LOCUS_12970;note=WP_011107156.1 thiol:disulfide interchange protein DsbD (Bacteroides thetaiotaomicron VPI-5482) [pid:31.7%25%2C q_cov:97.8%25%2C s_cov:98.3%25%2C Eval:1.4e-86],MGA_1340
sequence32	MetaGeneAnnotator	CDS	4607	4840	.	-	0	ID=MGA_1341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYNIKIFKWVATILTLTGILTFYLDFYPVSIIPHSLGIISWTVVGMITKDKPLLTNFSLQIPIIIAGIIKYFYFSG;locus_tag=LOCUS_12980;note=MGA_1341
sequence32	Aragorn:1.2.38	tRNA	4991	5076	.	-	.	ID=Aragorn_30;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence32	MetaGeneAnnotator	CDS	5120	5299	.	-	0	ID=MGA_1342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPMYIVGNFNVHEYKNVHIWTTPSNIVNQIHYYEFIKKYYLKLLKRVVSEKNVVFLSKK;locus_tag=LOCUS_12990;note=MGA_1342
##FASTA
>sequence01
CCTTTTTCTCTCTTCTTTAATAGAGGATCTTCGTTATCTCCTTGATTTCTCAAATTAAATTCTTCCCAATCTTCTTCTAGACCCTCCCAAACATCTATTTCTTCAGTTGAATCTTTTTCTACCGTTTGTACTTCCTCAACAAATAATGAAAAATTATCCTTTTTCTTTTCAAAATCTTGAGGGTCAACATCTTCAGAATCGGTTGGATCTAATCTTTCAATTTCATCACGATATATTTTCATATCAAAAAAATCTATATCTTTAACAATACCATTTGCTACAAGATACTCGATAAAATCTAAATATTTTGAATCTTGCAAATCTGCTTTGCATTCAACACAAACCAGTGATTCTTTAATTGACTCTTCATCAAGAGAGCAACTACATGCTGGACAAATCAAACCTTCAAAATCAATATCTTTTTTCATAAAAAAAACCTGTGTTTAAGGCGCTAATATAATTGAAGAGATTTGTCTAATCAACATCTATTTCACTTTGTTGAAAATAATTTAAATAGAAATCTTGTTCATTTTGGGTAAAAATTTTATCTCTTCTTGATTTTGTTATCTTAGCAGTTTGAATAAATTTTTTATAATCATGTAAACTTACTTTATCATCAAAAATCCAAGAAAATGCTCTAATATTTTTTGGTGGAATAGCATTAGAAACAATATTACTACACATTCCTACAACTGTACCAGTATTAAATCTAGTTGAAATTGCAAATTTTGAATAATCTCCTACAAAAACCCCAATAAATAATTGTTTAGTATTTAATAATTTGTTTTTAATATAAATTTTAACATTTGAATAATTATTTTTTAAATCACTATTATTTGTACCTGCTCCAAAATTTACCCATTCACCAATATATGAATGACCTAAATAACCATCATGTTGTTTATTACTCCACCCTTGAAAAATACATTCTGATATTTCACCTCCAACTTTACAACCGCGGCCAATAGAAGTATTTTTTAATATCTTAGCAAATGGTTTAATTATTACATTTTCATCCAGAAAAACTGGTCCTTGTAAATAAGCACCTGGCTCAATTGTTACATTTTTACTGATTATAATTGGACCCAATTTTGCATCTAAAATTGCTCCTGTTCTAATTTCTGTATTCTTTGAAATAAAGATATTTCTTTCATTGATTAAATGAAACTTCTCATTAATATTTGATTCAATTTGTCTCATTCTAAAATATTTTGAATCATTTTTTAACATATAATCATTCTTAATTAATAAATCCCATAAATATTCAAAATAATCATTTTTAGAAATTAGAATTTTATTAATTTGTGAATCCAAGTTCTTATATTCTTTTTCTACTGGTCCACCATTTAAAATCCACTCGTTGCTTTGTTTTTCAGTTAGATAGAACCCTAAGTTTTTATTTTTATAACAAAGAATATTGTTTTTGTTTTTTATTTGTTCAACTAAACTAGTGTTCCAAAGTACATTTGAATTTAACCATAACCCATCATCCACTTCCTTGGGATTGACAATTAATTCATTTTTTTCACCAACTATATCTTTAATTTCCTTTCTAACAAACAATACTATTTTATCATTTGGAAAAAGTTTCTTCACTCTTTCCAAAATACTAAAAGCACCACATTTCAAATCAAATACCGGTCTATTAGAACATATGGGGGAAAGTTTCTCTGATGATGATCTGGTTTCGTAAATATAAATTTTCATAAATTTAATAACTTTTTTAAATATAGATAACTTTGTTCAAGAAATTCTGTATTCTTTCTATCAATTTCTAAGTTATAAAATAAATAGGAATATTTGCTAAGAAAACCTATTCTTGTATTGGCTCTAGATTTTAAAGTTAAATATGCTGAAAAAAAATTAAATTTTGGTTGAAGATCAATAACAGCGTCATATTTTTCATGAATTATACTATTAATAAATGATTTTTTGGGAACTCTAAACCAATTAATTTGATTATCATTATATGTTTTAATATCATTAGGTAAGTTAAATTGATATGAATGATATATTGATTTATTTATTAAAAAATCAATTTTTGTTTCATTTATATTTTTATCAAATGATTTCAAAAAATGACCAGCTATTCTTGAATTGCTCTTACCATCTGGAAAAATCATTAATATTTTTTTCGTATTTTTAACATTAATTGAAATTTTCCCTGTTGAATTAGGTTGATTTAATTGTTGAGTAAATTTAAACCATGTAATTAAGATTGAAGTTCTTAATGGATTTATATAATTCTTCATAGGCGAATATATAACTTTCTTTTAAAAAATAAATTTAATTTGTTAGACTATTAATTAAATTGCAAAAAAAATGTTGACTTAAGTATATAAGTTTTTTATAATATTAGCATATATTAGGGTCAGTTATTATTCGCGGGATTTGAAAATCTAGTTGCAAATATTGTTCGTATGCAATCTATCCCTAATTTGGAGAAATATTTATTATGAAAAATATTAAAAAATTTAATTTCTTTTTCGTTTTGTCTTTTTTTATTACTTCTTGCGGTCAACAAACTGCTCCTCCAGTTATGCAAAACGATATTAATGAAATTTCTAAAACTGATGAAGATGCGAATGATAGATTGGCAATGGACCAAAATGATTCAGAAATAAATTTTGAAGATGGCGGACCTTCTCTTGATTTAAGTATTCCGCAACCAGATGCAATTAGGGAAGCTCCAATTTCTGATCTTAATTTAACTTCATGGGATACATATATGATTTTACCAGGAGATTTTTTAATTAAAATCGCAAAAAAAGAATATGGTAACTATCAGAAATGGAAAGAAATATATAATTGGAATAAAGAAGAAATTGGAAATAATCCAAATTTAATTTACCCTTATCATTATCTTTCACTAAAAAAGAAAGAAATGGTAGAAGAATTCAAACCAGGGTTTTCCGCATATAAAGTTAATGAGGGTGAAACTCTTTGGGATATTGCCAGCAAACTTTATGGTGATCCCGTTGCATGGATAATACTATATTTAGATAATGCAGAAAATTTAAATGGAAATAGTAATAATTTAAGTCCAGGAACAATATTACAAGTAAGAGACCAAATTGATCCAAAAGCTTAATTAACAATATCCAAAATCCATTAAAAAAAACTAATCCATTATATTTTTATTGTATGTTGAGAATTAATGTTATTTCCTCAATTAATAAAAGTTAATTTAAAAACAAAAAGTTTTGGAAAAGTTATAGAATACTTTCAAAAGTTAAATTCTACTAATAAAGAAGCTTTTGATTTAATTAACAAAAATAAAGTTTCATCAGGTAGTATTATTTTAACTGATTTTCAATATGATGGAAAAGGTAGAAACAACAAAAAATGGTTTTCTTCATCAGGAAAATCGATTACTTTTTCTTTAGTAATCGAACCAACATTTCACCCAAAAAAATTACCTTTATTATCTTTAGCTGTTGGAATATCTATTGCAAATACAATTAAAAAATTAAATTTAAATGCTTCCTTGAAATGGCCTAATGATATATTTATCAAAAATAAAAAATGTGGAGGAATTTTAATTGAATCAAAAATTTTGCAAAATAGAATTAAATATTTAATAATTGGAATTGGTATTAATGTAAATGAAAATGAATTTGATTCTTCTTTACAAAATATTTCAACGAGTTTATTTATTGAAAAAAAATCGCCAATCCAAAGAGAATTAATTATTGCATGGATTTTAAATGAATTAGAATTATTAATAAAATTATTAAATCAAGAAAATTCAGTAGATATTATAAATTCCTGGACAAACCTTTGTAATCACATCAATAAAAAAGTTAGTTTTTTACATAATAAAAAAACAAAAGAAGGTATTTTTAAAGGTATTAATAATAATGGAGAAGCAATTATTCAATTTGATAACAATGAAATTGTTTTGAATCAAACACAAATTTTTGATGTATTCAAAAGTTAAATTTATTTTTTCATTTTATTGATTTTTTGTTTTAATTCTTTTAATTCTCTTATATTGCTTTTATTTATCTTTCCCGAATTCCACTTAATTATAAAATCTTCTTTAATATCCTCTCCACCCTGTTCAACATATAAATTAAATAGATCATCTTCCTTCCTTGGTTTTATTTCATTCATTGTAGCAATCAATTGATAATTAATATCCTCAATTATATCATTCAGTATTCGATTAGGAAGATTCTTTTTAAAAATATCTTGGTCTAATTTTGAAAAATACATACCTGAAATTCTATAATCTTCATAAGCTTCCCAAGCAAAAGGAGCAACATTTTTAACAGATAAAGACATTGCATCAGAATAAACTTGAATTTCATACTGAGCATGTGAATCCGATCTTAAACCGATAAAATGTAATAAATTATGTAAATCATTTTTCCAATACCATTCAGTATAAAGATTAACCGGTAAAATAGCTCTAGCCAGTTCTCTAGCTACACCATCATTATTTAATTCATCATAAATCTCAAAACTACGATTAGATATTTCTTTAAAATAATTTATTACTTTTTCTCTGATTTTTTTTGAAACCTGTTTACCTCTACCTTGTTTATTAATTGAACTCTGAAATTTTATATTTTCAAATTCAGGAAAATAAAAATCATCACGTGCTTCAGAATATCTCAATGAGTATTCATTAATATTAGCTGTTCGATGTCTGACCCATTGTCTAGCTACAAAAATTGGCATTTTTGCATGAAATTTGAATTCTACCATTTCAAATGGAGTAGAATGTCTATGTCTCATTAAATATCTTATTAATCCTCTATCTTGACTTTTTTTAGTGGTACCCTTACCATAACTTACTCGAGCAGCTTGAACTATAGCGTTATCCCCTCCCATAGAATCAACCAATCTAACGAAACCTTTGTCTAAACATTTTATACTTCCACTTGGAAAATTTATATCTTCTATCATAAAATATTATCCCTATTTAATAATTTAATATTGTAATTGCATTATCTACCGATTTTGAATAACCAGCTAACATACCAGGAGTTATTAAACTGTTTTTTTTATTATAAAATATGTTTTTGCCATTTAAATCTAACATTTTTCCTCCAGCCTCATTAATTATACAATGACCAGCACAAATATCCCATTCATTTTTAGGTCTCAATGTTGCAAATAAATCAGCTTTTCCAGCGGCTACCAAACCTAATTTATATGCAACACTTCCAACTTCTTGTAACTTTCCAAAAGTATTTTTAAATGGTAGCCATAATCCATCTTTAGTCTCTGTTATACTATTTAGAATAGTCATATCTGATATTTTATAATTTTTAGTACAAAAAATAGTTTTATTATTTAGCTTGCTACCCTTTCCTTCAATTGCTGAAAAAACTTGTTTTTTAACTGGGTTATATAAAATACCAAGAATGGGTTTTTTATTTTCAACTAATGCTACACTTACAACCCACATAGGAATCTTATTTATGTATTCTTTAGTTCCATCTAATGGATCTACTATCCATACTCTTTCTTTTTTAAATCTTTCATTAGAATCTTTTGATTCCTCTGAAAACCAACCATAATCAGGAAAAGCAGATGTTAATTTATCTCTTAAATATTCATCAGAAGCTTTATCTGCATCAGTAACTGGATTATAATTACCATTTTTATCTAAATTCTTATTTGAAATCCTATAATTTAATGAATAATAATCTAAGAGTATTTCTCCAGCTTTTAGAACAGCAGACTTTGCAATTTTATATTCATTAATCATATTAATAAGTTAAAAAAATTAATCAAATTTAATTAAGTATTTAGTATGATTTATCAATCAATAATAAATAAATAAAAAAACTTTTTGTTAGGTAATTTTAGTATTACCTTTATAATAACTGGGAGTCGTCAGAAGGTCCCCAACAATTTTTTGACAAAAACATTTTATTGATTTTGTGAAAATTTTCTAACACAACAAAGAGTTTTTTTTTGATCTTCTTTAAATCCTCCCCACATAAAAGATATGACAAATAAAGCATATCATTTAGACATTTTATGTATCCTTTGATACGTAAAAAGTTTTAATAAAGAAAATTATTAAAACTATGTTTATTATTACTTACATATGAGGTTTATAATATGGAAAAACAAATATTTGTCAGTGAAATGGCTACTGAAAGACGTATTGCAGTTCATGAAGATAATAAATTAGTAGAATTTTATATTGAGAAACCAGGTGAAACTGGAATGGTTGGAAACATATATAAAGGAATTATTGAAAATGTTCTTCCTGGAATGCAAGCTGCATTTGTAGATATAGGTTTTGGATTAAATGCGTTTCTTCCTTTCACTGAAATAAACAATCCTGAGCTTTTAAAAGATGCTTCCACATCTGAAGATGAGGACAATAATGGAAAAAAACGAGAAAAAAAAGAAATTGATAAAGAAATTCAAGTCGATCTTGAAAAAAATCAAGAGATTTTAGTTCAAGTTATTAAAGAACCTTTTTCAGGTAAAGGCCCTAGAATTACTACCAATATTGCTATTCCTGGTCATTTAGTTGTACTAGTACCAAATTCAAATTTTATAGGAATTTCAAAAAAAATATGGGATAAATATGAAAAAAGAAGAATTAGAAAATCAATTAAAAATTTTTTACCAAATGATATTGGAATAATTGTAAGAACTGAAGCCGAAGGCAAAAGTGAAAAGTTAATTAAAAAAGACTTTGACAATTTGCTAAAACAATGGCGAACTTTATCAAGAAAGAGTAAAAAAGCAGAATCACCTTCATTACTATATGAGGACTTGGAAACAGTATCTACAATTATGAGAGATATTTTGGATGACTCTGTAGATAAATTTCTTTTAGATTCAAAAAAATTATTTAGACAAACAAAAACATATTTACAAAATGTTTCACCAAATTTAGTTGAAAAGTTAGAAATTTTTAGAGGAAAATCTCCCCTATTTTCACATTTTAACATAGATGATCAAATTTCAAAATCAACAAAACGACATGTTTGGATTAAAAGTGGTGCTTACTTAATTATAGAACATACTGAAGCTATGGTTGTAATTGATGTGAATAGTGGAAGATTTGTTGGTAAGGGAAACCATGAGTCAAATTCTTTAAAAATTAATCTCCAAGCTGCAAAAGCTGCAGCAGAACAATTACGTCTTAGAGATATAGGTGGACTTGTAGTTATAGACTTTATTGATATGAATCAAGAAGCAAATAGAAAAAAAGTTTACATCGAAATGAAAAAACAACTTAAAAAAGACAGAGCTAAAGTAGCAGTTTCGCAAATAAGTGAATTTGGTTTATTAGAAATGACTCGTCAGAGGATAAGACTTTCTTTAAGAGATTCAATAAGTGAAGTTTGTAATATTTGCAATGGAAGTGGAAGAAATCTTTCCAAAGATGCAGTTATTTCTGAAATAGACACATGGATAAGAAAATATAAAAAACAAAAAAAAGACTTTAGATTAATTCTTAAAGTACATAGTAATGTTTATAATTATCTTGAAAAATCTAAAAAAAATATTTTGAGAAAATTTATGTGGAAAAATTTTATCCACATTAAAACAGTACCTGACGACACCTTAAAACCAAGCGAATTTCATTTTTTTTCAAGAAAAAACAACAAAGAAATTATATTAGAAGTATAGCTTGACTTATGATATAAAGTAAAAATAAATTACTGGTCTTTAAAAAGAGTTAATATGATATGTATGCAATAGTAGAAATAGCGGGAAAACAATTTTTAACTGAAGTCGGAAAAGAATTAAAAATTCCACATCAAAAAGACGTGGAGATTAATAAAAAAATTTCTTTTGATAAAGTTTTATTAATTGTTGAGGACGATGATATAACTATTGGAAAACCAATTATTCCAAATTCTAAAGTTGAAGTTAAAGTAATAAATCATTTTAGAGATAAGAAAGTAACAGTTTTCAAAAAAAAACGTAGAAAAGGTTACAAAGTAAAAAATACCCATCGTCAAGAATTTACAATTATTCAATGTTTATCTATTAAGAAATTAAATTCTAATTCAAAAACCAAAAAGAAAACTTCAACCAAACCAAAAAAGTAAATTAAAAAGGAATATATAAAATGGCTCATAAAAAAGGAATGGGAAGTACAAAAAATGGTCGAGATAGTAATTCTAAAAGATTAGGTGTTAAAGCTTATGGTGGCCAAACTGTAAAAGCAGGATCAATTATTGTAAAACAACGTGGAACAAAAATTCACCCAGGTCTAAATGTTGGCATTGGAAATGATGATAGTCTATTTGCAAAAATATCTGGTATTGTACAATTCACCACAAAAACAAAAAATCGTAAAATAGCTAATATTATATAATTATAAATTTTTTATCCAAATCAAAATATAATTATTAAACCTAAGACGTAAATATTAACAATTGTTACATATAGGGTTGCTTCAATGAAAAGAAACAAAATTGCGCTCATAGGAGGAGGTCAAATTGGTGGTATACTTGCATTAATTTGTGCTCAAAAGGAATTAGGTGATGTAGTTATTGTTGACGTTCCCAAATCTGAAGGTATGGTTAAAGGAAAAGCATTGGATATAATTGAGTCAAATCCTCATGATGGATATGATGTTAAAATTACAGGTTCATCAAAATTATCAGATATTAAAGATGCTAATGTTGTAGCAATAACAGCTGGAGTCCCAAGAAAACCTGGTATGTCAAGAGAAGATTTATTAGAAATAAATGTTAATATTATTTCTAATATAGCTAATAATGTTAAAAAATATTGTCCTAATGCTTTTGTAATTGTTGTTTCAAACCCTCTGGATGCTATTGTCTATGCTTTTCATAGAATTAGTGGACTTCCAAAAAATCAAGTTGTTGGAATGGCAGGTGCACTCGATAATGCTAGATTTAAAGCTTTTATCGCAATGGAAACTGGTTTGTCTGTACAAGATATCTCATGTATTGTTTTAGGTGGACATGGGCCTACAATGATTCCTCTAATAAGTTCAGCGTCAATTGGTGGTGTACCATTGTTAGACATTCTTGATAGTACTCAGATTAATAAAATTGTTAATAGAGTGCAACATGCAGGAACAGAATTAGTTCAATTATATGGAAATGGGAGTGCTTTTTTTAGTCCTGCTACTGCTATTGTTGAGATGATTGAAGCTAATATTAAAGATAAAAAACGCGTTATTCCTTCTGCAGCATTATGCGAAGGTGAATACGGCATTAATAATCTTTTTATTGGAGTACCCACTGTAATAGGCAAAGATGGTATTGAAAAAATAATTGAGGTAAAGCTTAATAATGATGAAAAAAAAGCTTTACAAGAAACAATCAAAACTGTTAAGAAAACTGTGAGCGAAATAAAATTTTAAATAATTTTAATGTTTTTATTAAACCATTATTAACTGGCGTATAAAAAAAAGTTATAAATAAAACAAATAAATATAACTGTCTATATAAATAAAATTTCCTAATTTTAATTAGATTTTTTTTTAAAACAATTTCACCTGTAATCATATTTTTTAGAATAATTCTCGATTTTAAAAAAATAATAATTAATATAATATATAAGATAAATTTAAAATATAAATTTAAATGATTTAACAATTCTTGATTTGTTGTTAAATACAAAATTGCTAACATAGGAAGAAAAAATATAAATAGCATTTCAGTCTTATCTGAAAATTCACTAATAATTTTGATTTTATTTTGATTTTTTAGGTTATAATTTTTTTTAATTTGATAACAAATATAATTTATATACAAAGAACTTAAAATTAATAAAGCACCAAAAATAAAATGTAATATTAGATATAAACTAATCATTTCAACTATTTATCTAGTAAGTTATTCATTTTTTTCCAAGAAAGTTTTTTCAAATCTTCAACACTTAAATTTTTATAATCTCTATAATAAATAAAATCCCCAACCATTACCTCTATAACCCCTGGTTTAATTCTCCAATCTGTTTTCCTTTTAGCTAAAAATGCACCTTTAAATACTACAACTAGGATGTCTGCTTTTGACCCTTTTGCCAAATGAAATGGACCTTTTTTAAATGGATTTAATTGTCCTGATGTAGTTCTTGTTCCCTCGGGAGATATAAATACTGATATACCTTGTTTTAATTTTTCTTGAGCATATTTAACTGATTTAATAGCTGAGTTTTTATTTTTTCTCTCGACAGGAATAATTCCATATTTTTTTATAATTGGCCCCCAAATTGGCAATTTAAATTGATATGATGCTGCTAATGCAGTTACTTGTTTAAAAGTTATTGAAGGTAAAATAAAAATATCTATGATTGAACTATGATTAAATAATAAAAGATATGGTTTTTTTCTTTTTAATTTTTCTTTTCCTTCTATTTTTAAGATTACTCCAAATCCAAATAACAATAATCTTCCAAATGCTCTAACAATTGGAGAAATAAATTTTGGTTTAGTTAACATTACAATTGGAAAAAATGTAAAACAGGTGAAAATAAATATAACAAACCAAATAGGATATAAAAGTATTGAATAAATTGTATTTGCTATCGTTAAGTCTGAGTTGTCATAATTAATTTTATTATCTTTTTTTTCACTTGCTCCAAATATTTTTATTACAACTATAAAAAAGGTGATCAATAAAATAAAAATAAATAAATAAATAAAATCTATCATTTAAAATCCTTTAATAATTTTTTCCATCCTTTTTTTTCAATATAATTAAAAAGTTTAATATTTACTTTTGGAAATGCGAATGAATTTATTTCAGATGGTTTAATCCATTTATATTCATGAAAATCATTTTTAATAATTCCATCAATAATACAATTAAATAATGTTAATTCAATTGAAAAACTACTATAATTATGTCTTATTTTTTTTATTTTCTTTTTAATAATGATATTAACACCCAGTTCTTCAAATACTTTTCTTTTTAGCGCATTTTTTAAATTCTCATTATTTTTTACTTTTCCTCCTGGAAATTCCCAAAGATTTGATAAATGGTTTTTATTAAGTCTTTTTTGTATATAAAACTTTTCATTTTTCCATATTATACCAGTGGAAACTCTAATCAATGGAGTAGCTTTTCTTATTATTTTTTCGGGGAATTTTTCCTGAACACCCATCATCTTTGATTTACAAAAACCATTTATAGGGCAATCACAACATAATGGATTAATATTTTTACATATTTGACTGCCAAGCTCCATTAATGCTTCATTAAAACTTCCAGGAGTTTTTTTTGAGATAATTTTATTTAAATAAATTATAAAGGAATTCTTTTTACCTTTTACAACATTGTTTAAAGCTAAAACCCTACTTATAACCCTATTTACATTTCCATCTATCAAAGGTATTGGATAATTATATGAAATGGATAATACAGCTGATGCTGTATATAATCCAACTCCTGGAAGTTTTAAAAATTCATCTAAATTTCTAGGAACTTTAGAATTTTTTTCATGAAATATAATTTGACATGATTTTTGAAAATTAATACATCTTCTATAATATCCTAATCCTTCCCAATATTTTAATAATAAATCTGTTTTGGATTTAGCTACATCCTCAATAGTAGGAAATTTAATTATCCATTTATTATAATAAGGAATAACTGTCTCAACTTTAGTTTGCTGAAGCATGACTTCTGAAAGCCATATCTTATATGGATCTTTAGTATTTCTCCAAGGTAATTTTCTTTTATTTTTGTTAAACCAATTAATCAATTCATTGGAAAAATCAATATTTTTAATTGTATTATACAACTATATATTTAAGTTATATTTCCATAACTCCCATATTAGATTTTCTAATGCGTTTTTAAGCTCTCTTTTATTAGGAATATTATCATTTAAAATTTGATTACCTAAAATATCTAATCTAGATCTATACTTTTGTGATTGCGAAAACCCCTCTTCAGTAAGATATACTTTTACAGATCTTTTATCAATATTATTTTTTTTCCTATAAACCAATTCAAGTTTTTCTAAATTTTCAATCAATCTTGTTAATGTACTTTTATCAATCCCCAACTTTTTAGTTACAACATTCATTGGAACACCTTTTTTTGGAATTGATAAAATAGTTAGACATTGAGCAAGGGAATCATTTTTATTAGAACAAATATTTTTTCTATGAAAAAAATTTAATGAAAAAAATAATTCATTTATAATTTCACCTGAATTCATATGTTGTATTATACAACATATAATTATATATATAAAATAATTTTATTTAATTATCCCAAAGAACAAACCGATAATAGCACCTGACATAACATCGCTAAACCAATGATTATTACTTTCTAATCTTTGTATACCAACAACTGAAGCTAAAAAAAGCGCTGGTAAACCAATACTTAATCCATAATTATTATTTAAAATCAATGCTGAAACAAAACTTCCAGAAGTATGCCCTGAAGGAAATGACATTTTATTTTTTTTATTAGGTCTTTCTCTTTTTGTAATATATTTTAAAAAGTATGTTGATGAAATTGTCAACACAAGAGGATTTAATAAAAACTTTTGATTTTTATTGTATTTTAATTCAGAATAAACAACAAGAGGATATATATATATTTTACCATAATTATCCAAAAATTGTGAATTTTTAGTAGACATTAATTTTTTGGAATTAACATATTCATAGATTTTTAAATCAAATGAATCAACAAATTCAAAAAAGGTTTTTTTTTGGGAATAAATATTATTATTTACAGATATAAATAATACTAAAAAACAAGAATAAACAATTTTTTTCAATCTATAACTATTAATTCTTTAGTACTTTTATTTAAAATTTCTGAATTTGTTTTTTTAACAATGACGTCATCTTCAATTCTTACACCGCCTAAATTTGGAATATATATACCAGGCTCAACTGTCATAATATAATTTGAATAAATTTTATCTTTGCTATTTTTAGAAAACCTTGGATTTTCATGAATCTCAAGCCCTAATCCATGACCAGTACTATGTATAAAATTATCTCCATAACCCGAGTTTTTTATATAATCCCTACATATACTATCTATGTATTTACAATCTGTATTATCTGAAATATTTTTAATTCCTAATTTTTGTGATTCAGAGACAATATTGTAGATTTCTTTTTGCTTTTCACTACATTCTTTAATTACAACTGTTCTTGTCATGTCAGCATGATAACCATTATATTTTGCCCCAAAGTCTAATATCAAAAAATCTCCTTTTTGTAATTCTCTTGAACTTGGAAAAGCATGAGGAAGTGCAGAATTAGGTCCTCCGGCAACGATAGGTCGAAATGCATCTTCATCTGCACCTAAAATTTTTAAAGCAAAAGAAATCTTCGCTGCAATTTCTTTTTCATTCAAACCAATTCTTAAATCTGGAATAATTTGATCAAAAACTTCATCTGTTATTTCAACCGCTTGACGCATACATTGAATTTCTTGTTTATCTTTAATTTTGCTAATATTTTCAATAATATTTTTTATTGGAACCCAATTAACTTGGGGAAAAAGTAACTTTAAACTTTGTAATTCATCATGAGTTGTTTTGTCAGATTCAAAACCCAATTTTAATTTCTTATTATTAATTAGCTTTTGTTTTTTAATTATATCAAAATTTGATTCATCATCAATGAAAATTTCCATATTTTTAACTTCAATTTCTGATTGAATTTTATACCTTCCATCAGAAATAAAATATTCACTTTCATTAATAATTAAACATGTGGCTGATGATCCTGAAAAACCAGATATATATCTAATATTTTTTAAGTTTGTTATAATTATTCCATCTAAATTATTCTGATTTAATGATAATTTTATTTTTTCTAACCTATTAGTAAAATAATTCATTTATTAGCATTTTGTTTCTTTAATAATTCAGTTAATTCAGATTGCTTTGTTTTAATATCTTTTAAATTTGAATTTTTTTTTGTTTTCATTACTGATAAAACACCCAATGCTTCTTTATATAATTTTTGACTTTTAAAAATTTCAACCATTGTAAATGTAGCAATATCTTTTGTAATAGGAATAGTATTAATATTTTCATCATTAACCAATTCAACGCTAGAGTTTATTTTAGAAATATTGGTTGTTTTTTTCTGCTTTGTTAAAGTTTTTTTGTGATTAGTTTCTAGTATTAATATTTTTTTTAATCCTTCATTAGCATAAGTATTATTTGAATCAAATAATAATATTTTATTTAAAATTCTCTTCAATTCTACAGTTTTATTTTGATTCCAATATATTTGAGATAAAAGTATATAAGCATTAAAAAAATTTGGATCCTCTTTAATTATTTTTTTTAAAGTTTTTTCTGATTTAATAAAATCTTTTTTTAAAATTAAAATTCTAGATAAAACATATAAACCATCAAGTGACTTAGGGTTGAGCTTTAGACCTAACTCACAAATTTCTTGAGCCCTATCAATTTTTTTGTTTAGTAAATAATATTCAGATAAAATTGGAAATAAATTTGATGATGGATTATCTTGAAAATAATCCTCTAATTCATTTATATTATTTATATTCATGAAAATTTAAATTTTAATCATAGGTTATATTCATAGTAAATTAAGTTTAATAGTAACAAATTTAATATTATTGAATATTTAAAAAATGTTTAATTTCAATTTAAAAAAATGTCAAAATATGAACTATAAAATATTAGTTTTAATTAATATCATTTTTATTAACTCTTTCTTATTTGGCGGAACAATTGATGTAAAATTTATTAGTGACCCAAATAGAATAGAATCTATAAAATCATTTAAGAATGGAAATCATTCTTATATATCTTCAACAGATTTAATAAGAATATTAGATGCTGGAACATTTAAAAATATTCCAAGGGGAAAAATAGTTATATATTTAGGTGGACATCGAATAAAAATTTCTAATCAGAGTAGCTTCATTGTAATAAATGAAAATGTTTTCCAAATGAATTCATTTGTGATTTCTGATGGAATAGACATGTATCTACCCTTGGAATCGTTCTTGAAAATTATAAAAGAAAACGTTGAGCAAGGAATATCATATAACCAAAATTCAAATAATATAATTATTGATTTAGTTTCACAAAATGTTAAAAACTTAACTATTGAAGAAAAAGCAAATGGGACATTAATTAGAATTGGAACAACTCAACAATTTGATGCAAAATCAATAACAGGATGGTCTTCTTCAAATAGATGGTTTTATCTAACTATATCAGGCGGGATTGCAGATTCAATATCAATTAAAAAATCTAAATTAGGAGGGTCGATTAGAAGCTTATCTATTGATCAAAACCCAACATCAGTTCAAATTGCATTTCAATTAATAAACGATATTGAAAATTTTGAAATTTATCAAAACAATGAGCCTTCTGAAATTGTTTTAACCTTAAGAAATCCATTAAGTATATCAGCTGAAAAAATAAAAAAAATAAGAAACTCTTGGTTTATTGACACAATAGTTATAGACCCAGGTCACGGAGGAAAAGACCCTGGAGCTACTGGAAAATATGGCTTAAGAGAAAAATTTGTAAATCTAGACATTGCTAAAAGATTAGGAAGATTAATAGAAAAAAATACTAATATTAAAGTAATTTATACTAGAGATGAGGATGTTTTTGTCCCCCTTTGGAAAAGAACTCAAATTGCAAACAACTCTGGTGGAAAGCTCTTTGTTAGTATTCATGCTAATGCAAATGAAAATCGAAGAGTTAAAGGATTTGAAACTTATATTTTAAGACCGGGGAAAACTCAAGATGCTGTAGAAGTTGCAGAAAGAGAAAATAATGCTATTAAACTTGAAGAAGAAGAATCTAGATATGAAAATCTAATTGAAGACAATTTTATTATTGCATCTTTAATGCAAAATTCATTTATGAAAGAAAGCGAAGATTTTGCAGGTATGATTCAAAACCATCTTAGAAAAAGCATCCCATCTCCAGATAGAGGAGTTAAACAAGCAGGATTTTATGTTTTAATCGGAGCGTCTATGCCTCATGCATTACTCGAAGTGGGCTTTTTATCTAATCCATTAGAAGAAAAACAATTAAGAAAACCAGGCTACAGACAAAGCATAGCTGAGGCAACTTTTAATGGTATAATAAAATTCAAAGATAAATATGAAAAAACTTTGACTTCTGAGAATTAATCATAAAAAAACAATTTTTAATTGAAACAAAAAAATAACGATTTTTTATTTTCGCTTAATCGATATGGTATTAAAGTAGGTCTTCATCGAACAAAAGCTTTACTAAAAAAATGTGGTGACCCACACAAAAAAATAAACTTCATTCATATAGCTGGAACTAATGGAAAAGGATCAACAGCATCCTTTATAGCCAACATACTTAAATATAATAATTTAAAAGTGGGTTTGTATACTTCTCCACATCTAATTAATTTCAATGAAAGAATTAGAATAAATGGAAAATCGATTCCAAACGAAACAATTGATAATTTTATTATAGACCACAACGAAGATATAAAAAAATTAGGCTCTACATTTTTTGAGACTACTACTGCATTAATGTTCGATTATTTTTATAAAGAAAATATTGATATTGGAATTATAGAAACGGGATTAGGAGGTAAACTAGATGCAACAAATGTAATAATTCCTAAAATCTCTGTAATTACAAATATTGATTATGACCATATGGAACTTTTAGGAAATTCAATTGAATCTATTACAAAAGAAAAATGTGGTATTATAAAAACAAAAACTCCTGTAGTTATACAACATCAAAAAAATAAAGTAAAACATATTATTAAAAATGAAGCACATAAAAAAAATTCAAAACTCGTAGACTCTTCAAAATTATATCCAATTAACAATATCCAATCAAGCTATATGAATACATCATTTAATATAAAAAACTTAAAATTAAAAATTCCTTTTTTTGGCCAACATCAACTTTTGAATGTTCAAACTGCCATTGCAACTATTTTAGAATTCGACCCTTCTATAGATAATAAAAAAATTATTAAAGGATTAAAATCTGCTAAATGGCCTGGAAGATTTCAAAAAGTATCTAATAAACCAAAAGTTATTTATGATGTTGGCCATAACGAAAAAAGTATAAAAAATACGATAATAACATTAAAGGAAAAATTTCCAAATAAAAAGATTAATGGCATTCTAACCTTAAAAAAAACAAAAGAATTAAAAGGAATTATAAATTTAATTGATAATAATTTTAATCAAATAATATTGTTGTTTCCTCCTGATAAAAACGATTTTTATAGTCAGAACTACTTAAAAAAAAATCTAATCAATACAACATTAAAAATATCAACTACGAAATCAATAAAAAAAATTTTTGATGGCTTAAAAAATGAATCTAATGAATTATGGCTTATATTTGGAAGTCATTACATCGCCAAAGAAGTTTTCACTTATTTTAATTTTCCATTTGAAAAAGGCAAAATTTAATTATAAATTATGCGGAGACAGTTATTTTAGTTTATTCTATCACTGCTTAAAAATTATTATTCCAAAAATATTAACTAATTAAAATTATGGATGTAACCCAACTACAGGGATTAAAAATAAAAGACTTAACAAAACTTGCACAAGAAATGGAAGTGCCAAGTTATTCTGGTTTGAAAAAACAAGAATTAATTATGAAAATACTTGAAACTAGTGCACAAAAAGAAGGTAAATTATTTGCATCTGGCGTTCTTGAAGTAATGCAAGAAGGGTATGGTTTTCTGAGATCTCAAGATTATAATTATTTACCTGGCCCCGATGATATTTACGTATCTCCCTCACAAATTAAAAGATTTAATTTAAAAACTGGTCACCAAGTAGCAGGGCAAATAAGACCCCCAAAAGATAACGAAAGATTTTATGCACTTTTAAAAGTGGAAACTGTAAATAATGAAGCACCTGATAAAGTCAAAAATACAATTTTATTTGACAACCTAACTCCACTCTATCCAGAAAAAAGAGTCAATCTCGGAAAAAATTCAAAAGATTTTTCTATGAGAACATTAGATTTAATGGCTCCTATTGGAAAGGGTCAAAGAGGATTAATTGTAGCTCAACCTAAAACAGGTAAAACAGTTTTATTACAACAAATAGCTAATGCCGCGATCGAAACCCATCCAGAGATTAAAATTATAGTTTTATTAATCGCAGAGAGACCTGAAGAAGTAACTGATATGCAAAGAAGTGTTGATGCAGAAGTTGTTAGTTCAACATTTGACGAACCACCTGAAAGACACGTTCAAGTTGCTGATATGGCACTTGAAAAAGCAAAAAGAATGGTAGAATATGGTCATGACGTCATGATTTTACTTGACAGCATAACTAGGTTAGGAAGAGCTCATAATGCTGTTATTCCTCATAGTGGAAAAATTCTTTCTGGTGGAGTTGATGCTAATGCTCTTCATAGACCAAGAAGGTTGTTTGGTGCTGCTAGAAATACTGAAGAAAAAGGTTCTTTAACAATAATTGCTACAGCATTAATTGATACTGGAAGCAGAATGGATGATGTGATTTTTGAAGAATTCAAAGGAACTGGAAATATGGAATTAGTGCTTGATAGAAGATTAAGTGATAGAAGATTATTTCCTGCTTTTGACCTAATTAAATCTGGAACAAGAAAAGAAGATTTATTATTATCTAAAAAAGAGCTTTCAAGAGTTTGGATTTTGAGAAAATTTCTAAATGATATGACCCCAGTTGAAGCAATGGAATTTTTATTAGACAGAATGAAAAGAACTAAGGATAATGACGAATTTTTAGATGCAATGAATAATTAATATTCTAACCATTTTACCAAATCGTGAAAATAAATAAGTCATCATTTTCAACAATTATAAGTTGTGTTTCTACAGATAAACCTGTAAGGAAAACTTCATATCAAGTTAAAGGAGTTCTCATGAAAGAACTCCCAAAAGAAAAATTTGTTCCGCATATTAATGGTAAATATAGATTTGATTTTTTATATCCTAGAATCCAAGTTAAAATTTTAAATGAAAAAATTTATTTAATAGGAATTAAAGAGGGTGTTGAACCAATTTTGGAGTTAAATGAAAAATTAGAAAAAATGAATTTTGGAAACATAACTTTTAACGTTGAAAATATAAAATATGAAGTTTATAAAAAAAATTTTGAAGAAAAAAATCAATTATTTCATTATAAATTTTTAAATCCATGGGTTGCTTTAAATCAAATGAATATGAAAAAATTTAAAACAATAAAAAACAATGAAAAGGAAATGTTTCTTAATAAGTTATTAGGTCAAAATATAGCTTTTTTAGCAAAAGAATTTAATGTTGAAATTAAAAAAAGTATATATATTGATATTTCTCTAGATAAATTAGATGTGGAAACAATGGAAGATGGGAAAACAGGTTCTTTTGAAGGAAGCTTCAAAACAAATATTATTTTACCTAATTTAATTGGTGTTGGAAATGGTATTACTAAAGGTTATGGAGTTATAACTTCAAACATTAATTATCCTGAATTCTGTGATTTTTTAGATGATAATGAAAAAAAAATATCTTCAGAAAAATTACCTGAAGATTGGGAATCAAAATCTATTAGTCCAAGTGATATACCTTTAAGTAAAAGAAAAAAGAAAAAAAAGAAAAAAGAAAAGAAAATTGAAAAAAATAAAAAAATTGAACCAAACTTTAATTCTGCAAAATATCACTCAAAAACCCATTGAGAGAATAAAAATATGATTTCAAAAAGAGTAGAAAAAATTCAGCCTTCTTTTACGCTTGAAATGACCTCGAAAGCCGCCGATCTACGAAGAAAAGGGATAGATGTAATAAATCTCGGAGTTGGTGAACCTGATTTCAATACCCCTGTTAATATTCGTGAAGCTGCGATACAAGCAATGAATGAGGGACATACTAAATATACCCCAGGAAAAGGTACTTATGAAGTTAGAGAAGCTATTTGCAAAAAGTTAAAAAGAGATAATAATGTAAACTATAATTCCAATCAAATAATTGTATCAAGCGGAGCAAAACATTCTTTAAGTACTTTATTTCAAGCAATTCTCAATCCAGGTGATGAAGTAATTATTTTTTCTCCATATTGGGTATCTTTTCCTGATATTATAAGATTAGCTGATGGTAATCCAATTACAGTTGAAACAAATCCAAATGAAAATTTCTCACCAAATTGGAACGACTTTCATTCAAAAATTTCTAATAAAACAAAAGCAGTTTTGATTAACTCTCCTTCTAATCCAACTGGATCGGTTTGGAATAATGAAATTATTGAAGAAATTTTAAAAATTTCTAAGAAAAACAATTGGATTGTTGTTTCAGATGAATGTTATGAAAAACTAGTATACGATAGTGATTATGAATGTACTGAATTAATCAATAAACAAAATAAAATAGGTGCTAATGTAATAACTGTCCAAAGTATGTCAAAAACTTATGCGATGACAGGTTGGAGAATAGGATATACTGCCTGTGATGAAAATATTATTAATGCTATGAGTAAAATTCAAGGTCAAGCAACATCTTGCCCAAATTCAATCGGTCAAAAAGCTGCAATCGAAGCATTAATTGGAGATCAAAAAGAAATAAATGATATGAAAAAAATTTTTAAACAACGAAGAGACATTATGATAAATCGTTTAAATAAAATTCCAAAAGTAAATTGTCAACTCCCTGGAGGTGCTTTTTATGCATTTCCTGATATAAGCTATTATTTAAATGATAAAATATCTAATTCTTTTATATTAAGTGATTATATTCTAGATAAAGCAAATACTGTAACAGTAGCTGGTGCTGGTTTTGGAATGGATGGATTCATTCGTCTCTCCTATGCTACTGATGTAGAAATTTTTTTAGAAGGTATTAATAGAATTGAAAATACTTTATTAAATTTAAATTAAAGGTAATTATGAAATCTAAAGTTCACCCAAAATATGATATTAGTACAATAAAATGTGCCTGTGGTAGTGCATTTAAAATAAGAAGTTCAGTCGGTGATATAGATGTGGAAATTTGTTCTTCATGTCATCCTTTTTTTACTGGACAACAAAAACTAATTGACACTGCCGGAAGAATTGAAAAATTCAAAAAAAAATATGGCAATAAAAAATAAATATCATTAATTATTTTTTAGGTTTCTAATATTTATTTAGAAAACTTTTTTTATTAATATGATAAATAAATTAAAAGAAATTATACAAAGATACGATCAAGTAACAGATTTGCTAGGTCAAAATGAAATTGCATCAAATCCAACAAAATATAATGAACTAGCAAAAGAGCATCACGAACTAGAACCCGTCGCTAAAAAAGGGTCAACATATCTTGAATCAGTAAAAGAACTAAATGAATATGAACAAATAATTAAAGAAAATGATGAAGATTTAAAGTCGATTGCACTCGAAGAGATAGATTCGCTCAAAAAAAAAACAAATGAACTGGAAGAACAAATAAAGTTATTACTTCTTCCAAAAGATCCCTTAGACAAAAAAAATACCATCATGGAAATTAGAGCTGGAACCGGTGGTGAAGAAGCAGCATTGTTTGCAGCTGATCTTTATAGAATGTATAGTTATTTAGCTGAACAAAATAATTGGGAAAATAATATAATTGAAGCAAATGCAACTGGTAATGGTGGTTACAAAGAAATTATATGTTCTTTCAAAGGAAATTCTATTTTTGGTATATTAAAATATGAAGGCGGAGTTCATCGTGTACAGAGAGTTCCTCAAACGGAATCAAATGGAAGAGTACATACATCTGCTGCTACAGTTGCTGTTTTACCAGAAGCAGATGAAGTAGATATTGAAATTAATCCACAAGATTTAAGAATAGATACATATCGTGCATCTGGAGCTGGTGGGCAACATGTAAATAAAACTGAATCTGCAATAAGAATAACTCATATTCCATCAGATACTGTAGTAACTTGTCAAGATGAAAAGTCTCAACATAAAAATAGGGTTGCAGCAATGAAAGTTTTAAGATCAAGATTATTGGCCAATGAAATAGAAAAACAACAATCGGAAAGAGCAAAAGTTAGAAAAAATATGGTTTCAACTGGAGATAGAAGTGCAAAAATAAGAACATATAATTTTCCTCAAGGAAGAGTTACTGATCATAGAATTAATTTAACTTTATATAAACTTGAGGAAATAATGAATGGTCAACTTAATGAATTAATTAAACAATTAAAAATTGCTGATCAGATTGAAGAATTGAAAACGGCAAATTTAAGTTGACAAAAGTTCAATCAAATAAAATTAATTTTAATAATCTTAAAACATTAATTGAACATGGTGAAAAAGAATTAAAAAAAAAAGAAATTAAAGAATCTCACATAAAAGTTAAATGGCTTTTATCACATATATTAAGCATTCCAATTAAGAATTTATCACTTTACTATAAACTTAAATTAAATATAGAACAAGTTGAACGTTTTAATAAGTATATTAAAAGATTGCTTAATCATGAACCTGTTCAATACGTAATTAAAGAAACAGAATTTTATGGACTCGACTTTGAATTAAATAATAACGTTTTAATTCCTAGAATTGAGACTGAAAGACTCGTAGATTTTGCAATAGACATAATTAAAGAATATAATTACAAATTTATTTTAGACATAGGTTCAGGAAGTGGAATAATTGGTATTTGCATAGCAAAATCATTAAATAAAAATATTTCCATAATTGGAATTGATTCAAATAAAAATGCTTTAAAAATTGCAAAAAAAAATGCTATAAAACATGCCATTGATTCAAAAATTCAATTTTTATATTTAGATATTTTAAAAAATAAACTGAATAGAAAATATGACTTAATAATTAGTAATCCTCCTTATATAAGCATCAATGAATATCATAAACTAGACAAAGATATTAAATTATTTGAACCAAAATCTGCCTTAACTGATTATGATAAAGGAATTTTATTTTATGAAAAATATTCAATTGAAGGTTTTAAATGGTTAAATAAAAATGGTTCTATGATTTTAGAAGTAGGTGGTAATAATCATTCAAAAAAAATAAAAGATATTTTTTTAAAAACAGGGTGGAAAAATATAGAATTAATTAATGATTATAATGGAGATTCTAGAGTATTAATAGTAAAAAACTAATAAAAAGTTTATTTCCTTATTTTAAAATTTTAAGACCATTAAATATTTTGATAAGTTGTTTAACTCTTGTTTTAGTTTCAATTTCTATTGGAACAAAACTTTATAATGAAAACTTATTATATGGATTACTTGTAATATCTTTTTTTACAGGAGGAGCAAATGTAATTAATGATAGTTTGGATTATAAAACTGATATAATTAACAATCCAAAAAGACCAATTCCAAAAGGTGAAATATCATCATTTAAAGCAATGGCTTTTTCAATATATTTATTTCTAGCAGGCATTGGTTTTTCTTTATTTTTAAACCAAAACTCAATTTTTGTAAGCGTATTCATAGGTTTGCCATTAATAATTTTTTATAGTTTTTATTTTAAAAACACACCAATATATGGAAATATAATTGTTTCTTTAATAATTAGTTTAGCATTTATATTTATTGGATCTTTAAATAATAATTATAAATTAATAATTCCAATTTCTTTATTAGGTTTTTCATTTACTTTTGTAAGAGAACTTATAAAAGATGTAGCTGATTATGAAGGTGATAAAAATTCTAACATAAATACTTTTCCAGTAATTTATGGAATTAAATTATCAATTAAAATTATAGTGATTTTATTAATATTATTAATATTTGGAATTTTAAGTCCTTATTTTTTTGGTATTTTTTCAATTAGATATTTATTAATTACTCTCTTTGGAATTAGCATTCCTCTTTTTTTTATTATAATTTTGTTGATTAATTCACCTACATCAAAAACATGTGAAATATCATCTAAATTGATTAAGCTGTTGTTTTTGGTTGGTTTAATAGCAATTTATTTTAAATAAATAATTATGAAGTCAGAATTTATACATTTACATAATCATTCAGATTACAGTCTTTTAGATGGAGCTCAAAAAATTGATGAACTTCTTGATACTATTACAAATTTGAATATGGATTCAGTTGGATTAACTGAACATGGAAACATGTTTTCAGCTATATCCTTTTATAAAGCAGCAAAAAAACATGGGATCAAACCAATTTTAGGTTGTGAGGTATATGTTGCACAAGGAAGCCGCTTTGATAAAACACCAAAAAAAGATGGAGGATGGGGAAACAATCATTTAGTTCTAATTGCTCAAAATTATACTGGTTATAAAAATCTAATGAAATTATCTACAGCTGGATATTTAGAAGGTTTTTATTACAGACCTAGAATAGATAAGGAATTATTAAAAGAATTTAATGAAGGAATAATATGTTTGTCAGGTTGCCTAAAAGGTGAAATTCAAGAATTTATTGTTAAGGGAGATTATAATAAGGCAAAAAAAACAGCTTTGGAATTTTCTGAGATTTTCCCTGAAAGATTTTATTTAGAATTACATAACCATGGTATTCCTGAAGAAGATGTTGTGAGAGAACAATTATTAAAAATTTCAAAAGAATTAAACCTCCCCCTTGTTGCTACTAATGATTGTCATTATTCACTAAAACAAAATTGGGAAGCTCATGATGTAATGTTTTGTTTAGGTACAGGAAAAGATAGAGATGACCCCAAACGACAAAGATATGCAACTCAAGAATTTTATTTTAAATCCCAAGATGAGATGTGGAAATTATTTAAAAATTATCCTGGAGCAATTGAAAACAGCAGATTAATTTCTGATTCATGCAATATTGAATTACCACTTGGTGAATATCTACTTCCTAAATTTCCAATTCCTGAAAAATATAATTCACATTCACCAGATGATTATCTTAAAGTATGTTGTGAAAAAGGTTTAAAAAATGTGTATTCTAAAATAAATGATGAAATTATAAATAGATTAGATTTTGAATTAGATGTAATTAAAAAAATGGGGTTTGCTGGATATTTTTTAATTGTAATGGATTTTGTTGATTATTCTAAAAAAAATAATATTCCTGTTGGTCCAGGAAGAGGTTCAGTTGCAGGTAGTTTAGTAGCTTATACATTAGGAATAACAACTATTGATCCTATAAAATATAATCTTCTTTTTGAAAGATTTTTAAACCCCGAACGAATATCTATGCCAGATATTGATATTGATTTTTGTTATGAAAGAAGACTTGAAGTAATTGATTATATTAAAGAAAGATATGGAGAGGAATCTGTAACACAAATAATTACTTTTGGAAAATTAAAAGCTAGACAAGTTGTTAGGGATGTCGGTAGAGTTCTTGGAATAAGCCTCTCTGAAGTTGATAAAATTGCAAAATCTATTCCTAACACACCTGGAGTTTCTTTAGACGAAGCAATAAAAATAAATAATGATTTAAAAGATCTATCAAATAAAAATAATATAAACAAAGATTTAATTAATTTTTCTAAAACTTTAGAAGGAATGAATAGACACGTTTCAACTCATGCAGCTGGAGTTGTAATCACACCTGGAAACTTATCAGAATATATTCCCTTGTACAAATCAAGTCAGGGTGATATTACATCTCAATATGACATGAAAAATCTAGAAGATTTAGGTCTATTAAAAATGGATTTTTTAGGCTTAAGAAATTTAACAGTAATTAATGATACAATTCAATTGCTTAAAAAAAGAGGAATTAATATTAATATAGAAAAAATTCCACTAGATGATAAAAAAGTTTTCAAACTTTTTTCTAGAGGTAATACTATAGGTGTATTTCAATTTGAATCAAACGGTATGAGAGAATATTTAAAAAAATTAAAGCCTACATCAATTCAAGATTTAATAGCTATGAATGCATTATATAGACCTGGTCCAATGGAAAATATTGATGAGTTTATAAAGCGAAAACATGGGAAAAAACAAATAAAATATATTGACCCAATATTAAAAGATATTTTAAATGAAACATATGGTATTATTGTTTATCAAGAACAAGTTATGCAAATAGCAAATAATATAGCAGGCTTTAGTTTAGCTCAAGCAGACATGATGAGAAGAGCAATGGGTAAAAAACAAAAAAAACTAATGAAAGACCAACGAGAAGAATTTGTTAAAGGTGCAATAAAAAAAGGAACTAATAAAGAAAAATCCATTGAAATTTTTGATTTAATTGAAAAATTTGCAAAATATGGTTTTAATAAGAGCCATAGTACAGCATACGCCTATATTGCTTACCAAACAGCATATTTAAAAACTTATTATCCTTCTGAATTTATGGCTGCGAATCTAACAAGCGAAATGATAAATACTAATAGGATAGTTACATTGTTAAATGAATGTCAAAAATTAAAAATTAAAATAAATCCACCAGATGTAAATGAATCTGAGATTAACTTTAAAGCAATTGATGAAAAAACAATATCTTTTGGACTTAATGCTATTAAAAATGTTGGCTTTAAAGCTTTAAGGAATATTATTGATAATCGAAAAAAATCAGGGAAATCAAAAACCATGTATGATTTTTGTAAAAATTTAGATTTAAGATTAGTAAATAAAAAAGTTTTAGAAAGTTTAATTGCTGCAGGTGCAATGGATTCAATTGATGGAAATAGAGCACAAAAATATTCTATTGTAGAAATAACACTTAAATCTGCTCAAAAGGAACAAACTGAATCAAAAAATAATCAATTTACAATTTTTAACAATAATGAAAATAATACTGATTTTACTAATTATGTTAAACTACCCGAAATAGATGATTGGAATGAAAATAAAAAACTTGATTTTGAAAAAGAACTAATGGGATTTTATCTAAGTGGACATCCACTTTTAGAATATTCAAAAACATTAGAAAAATTTTCTAACTATGATTTTAGTGAAAAAAATGAAGATTTAGAAAGAATTAAAATTGGCGGAATAATAACAGAATTAAAACATCATTTTGACAAAAAAAATCAAGAAATGGCTTTTTGCAAACTTGAATGTATAGGTGGTACGGTTGATTTATTAATATTTCATGATACATTTTCAAAATTTAAATCACTAATTGTTGAAGGAGGATTAATATTTGTAAAAGGAAAACCAACATCTGGAATTAATGAAAATATTTTGAAAGTCATAGTTGATTCCATTGAATCTCTTGATGATGTTCAAGGTAAAAACCCTTCAATAATGAATATCGTTCTTGAAGTGAATAAAATGAATGAAAATGATGTTGATGAATTATACAATCTTATTAATAATCACCAAGGTAATTCTAAAATTTTTTTTCATTTATATGATGAATTAGGAGAAAATAAAAAGTTTTACTCAAAAAAATTAAAAGTTTCTAATGATGATAAATTTATTAATAAGCTTAAAAGTATTTATGGTGAAGAAAATATTTGGATTGAATAATGATGAATAGTTTTGGTAAATTTTTTAAAATTATAATTTGAGGATTATTTTATGGATCTAGGTACAGCTTTTGGCTTGTTGATAGGTATGTTAATTATCATTTTTACTGTATTAACAAAAAATGGTGATCCTATTTGGTTTATGGATTTTGGTTCAGTTCTTATTGTTCTTGGGGGAACCTTATCTGCAACCCTAGTTAATTACCCTTTACGAAATGTTCAAGCTTTGTTACGTATTCTTAGAGCTGCATTTAAAAGACAAAGTATCGAACATTTAAATATTATTGAACAACTAATTGATAAAGCTGATATTTCCAGAAAGAAAGGTATTTTAGCATTAGAACCTGAACTTGAATCTATAAATGATAAATTTTTAAAGGACGGTTTAGATTTAGCAATTAATGAAAGAGATTCACAAAGGTTGAGAACATATTTAGAACTTGAAATGTCTAATATTGAAAGAAGACATAGTTTAGGTCAAGAAATTTTTTTATACATGGGAGCATACGCTCCAGCATTTGGAATGTTAGGTACTGTTCTCGGACTGATAATAATGATGAAAAACTTTGCTTCCTCAGACCCATCTGATTTAGGTGCTTTAGAATTTAGTGTTGCAGAAAGATTTGCTGAGCTGTTAGGAGGAATGGGGTTAGCTTTAATTACAACATTTTATGGTGTTTTATTATCAAATCTTGTTTTTTTACCCTTAGCAGGAAAACTTAAAAGAAAATCAGAAGAAGAACTTATGGTAAAAGATATTATGATTGAAGGAATCATTGGTATCCATTCAAAAGACCATCCTATTATTTTGAGAGAAAAATTATTGACTTTCGTTCCGCAAAGTAACAGAAAAGAAAAAAAATAAAATGCCTCGTAAAGTAAATAAAATATCATTTAGTGAGGGTAAAGCGAGAAGTACAGCATGGGCGGTAACATTTGGTGATATGGTAACATTATTGCTTACTTTTTTTATATTGATTATAGTTATAATGAATGAAGCAGAAAAACAAATTGATCAAATAATTGATATGCTTCTGGATGAAACATATAAAGAGTTAAAAATTGAACTATCTGATGATAATGTACAAGTTGATAGAGTTACAAAAGGTGTTAAAATAACAATGGGTAGCAATCAGCTTTTCCAATCTGCGGATGCAGAACTAAAAAAAGAAGTTCTTCCAACTTTAAATCAAATTGGAATATTAATTAAAAATTCAAGAATTTTAACTTTAGAAAAAGACTCAACTTTTCAAAAATTCGTTAAAGCTATTGAAAAAAATAATAAAAATTTAAATATTGAAATTAGAACAGAAGGTCATACAGATAATTTGCCACTTCCTTTAAAATTACAAAAAAAATGGAAATCAAATTGGGAATTATCTACAGCTCGAGCTTTAAATGTAGTTACACTTTTATCAGAATATTCAGGATTACCTCAAAATAAATTTTCTGCTATGGGATATGGAGAATTTAGACCACTTTATAAAAACCAAACAATTGATGGCAGATCAAGAAATCGTAGGGTAGAAATATATTTAGATGCTTTTGTTACAATTAATATTCAAAAAGAGAATCTCAATCCTTTATAACTTTTATAACTTTTTCACCTGGCTTAGCCATTCTTAATTTTTCTCTTGCTAAATCTTCTATAAAATCAATATCATTTTCTAATTTATTTTTTTTAGACTCCAACTCTAATTTTTCGTTTCTTAAATCATCAATTTCTTTATTTAATTTTCTTTTTGTATCATTTACTTCATAAAAACTATAAAGTCCATGATCATCTAAAATAAAAATTAATATTAAAATTGCTATAACAATGAAAATTATCTTGTAAAAAAAACTTTTATTTTGAACAGGAGTAACTAATCTTCTAGATGATTTTCTTCTTTTAAGAAAAATATTTTTCTTATTCTTACTCAAAATATTTTCAAGAATTAAAACCTAAAATATTTGATTTCGCTAAAATTGCATTTTCTCCAAGATTTTCTTCAATCCTTAATAATTGATTATATTTACATATTCTGTCAGTTCTAGATGCAGAACCAGTCTTTATTTGACCCATTCCCATGGCTACTGACAAATCAGCAATAGTCGTATCTTCTGTTTCACCTGACCTATGAGAAATAATAGCACCCATTTGATTTTTTTTTGCAAGATTAATTGTGTCAATTGTTTCAGAAACGGTACCTACTTGATTTAATTTAATTAATATTGTATTCATTGCTGATAAATCAATTGCTTTTTCTAACCTTTTCATATTTGTAACTGTTAAATCATCTCCAACTATCTGAACTTTATTTCCTAATTTATTATTTAAGTTAACCCATCCATTCCAATCATCTTCGTCCAACCCATCTTCAATAGATATAATTGGATATTTGTCTACTAAATCAATATAATACTTTATCATTTCATCACTAGATAAAACTTTACCTTCAGATTGAAGATTATATTTTTTATTGTTACCATCGTATAGCTCTGAAGCAGCAACATCTAAAGCTAAAAAAATTTCCTTTCCAGGAGTGTATCCGGCCAATTCAGTCGCTTCCATTATAACTTCAATTGCCTCTTCATTTGATTGTAAATTAGGAGCAAAACCACCCTCATCTCCAACAGCGGTATTCATGTCCATTTTATTTAAAACTGATTTAAGTTTGTGAAAAATTTCTGTTCCCATCCTTAATGCATTTGAAAAAGTTGAGGCTCCAAGAGGAAAAACCATAAACTCTTGAATATCAACACTATTATTTGCATGACTTCCACCATTAAGAATATTCATCATTGGAATTGGTAAAGATATTTTATTTGTATTCTTTAAAGATTCAAATAATGAAACTTTTTTATAATTTGCAGCGGCATGAATCGTCGCCATAGAAACCCCTAAAATAGCATTCGCTCCTATTTTTCCTTTATTAGGTGTTCCATCACATTGAATAAGATTATCATCTATTTTTCTTTGATCTAAAATATCTAAACCAATAACAGCTGGTGCAAGATGTTTATCTAAGTTAGTTAAAGCTTTTGAAACTCCTTTTCCCAAAAAGATATTTTCATCATTATCTCGTAATTCTACAGCCTCATATTTACCAGTTGATGCTCCTGAAGGAACTGCTGATCGTCCAATTGTTCCATCAGTTAAAATAACATCTACTTCTATTGTTGGATTTCCCCTAGAATCAAGAATCTGTCTACCTAAAATTTTTGAAATTTTACTCATTTTTTTATTTTTACCTTAAAATTTTGTTATTTGATTATCTATAAAATAATATTACCACAAACTAATTACACCCTGAAAAATTTTCTAATTGACTTAATTAAAAAAAATAACATTTTATGTTTATTATTAAACTAATTTAAGTTAATTATTTAACTTCTTATAAATAGAAAATTATTAAAAAAATGCAATTATCTATAAAAAATCTTTCCATTGATACTCTTATTTATGGTTTTGGAAATGTTTTTACTAGATTTATAACATTTCTTTTATTGCCTCTTTACACAAATATTTTAACTCCTTTAGAGTATGGTATAATTACTCTAATATATGTTTTCATTGGTTTTATGAATATAATATATCATTATGGCCTAGATTCTTCATTTTTAAAATATTTTGCTCAAGAAAAAAATGTGAATATTCAAAAATCAATTTTCTCTACTGCTTTTTTTTTAAATTTTTGCTCTAGTATTTTCTTATCATTATTAATATTTATTTTTTCAGAACAATTAAGTTTGTTTTTTTTTAAAAGCATAATATATAAACAATTATTTAATATTTCTTCCTTCATATTATTTTTTGATTCTTTATCACACATTCCTTTTGCCTTATTAAGAATTCAAAAAAAACCTTTTATTTTTATTTTATTAAAACTAGTTAATGTTTGCATAACTTTATTTTTTAACATTTATTTTTTAATTATAGAAAAAATTGGAATTGAGGGTATTTTTTTTAGTGTTTTAATAGCCTCAATCATTTCATTTTTGTTTGTTATAATTTCATCTTTTAATTCATTTCAAATAATTTTAAAAATTAATTATGTAAAAAAATTTTTAAAATTTGGATTACCTTTTCTACCTGCAGGAATTGCATCAATTACAATGGAATCTATTGATAGATATATTTTGTCAATAATGACAAACAATTATATTGTTGGTATTTATACTGCGGGATATAAATTAGGTATTTTTATGCTCATTTTCTCAACCGCATTTAATTATGCATGGCAACCTTTTTTCCTAAATTCAAACAAAAATAAAAAAACAAAAAAATTATTTTCAAAAATATTTACTTTTTTCACCTCTATAGCTATTACAATATGGTTAATCATTTCATTGTTTATTGAAGAAATCATTACAATTCAAATTTTTGAATTTTCGCTATTAGGAAAAGAATATATAAGATCAATTAATATAGTACCTTTAATATTATTATCTTATATCTTTCAAGGAGCTTACTATAATTTTCTTCCAGGTATATATTTTAAAGAAAAAACAAAAATAATTCCTCCTATAATTATATTTAGTGCTATAATTAATATTTTTACGAATATTATACTAATACCAATTTATGGTATAATTGGATCAGCAATAGCAACACTCCTTGGCCATTTCACAATGGCAGTTTTAACTTATTTTTATTCAAGAAAATTATTTTTAGTAAAATATGAATGGTTAAAAATTTTTATAATATTTTTTATAGCATCATTATTAATTATAATTTCTCAAATAATGTTTATTTCAATTTTCTTAAAAACTTTAATTTGTATTTTGTTTTTTATATTTATTTTTAAATCAAAAATGATTTCTTTTCAATGAATAAAAAAATAAAGGTTTTTCTTTTTTCTACATTTAAAACTTCTTTCATAGAAGATGATTTCCATTACATAAAAAAAAACTATATATCAAAATGGATTTCAGATTCTGGAATAAATGCAATTTTTCACATAATAAGTAATTGTTTTAATTACCAAGTATATATTGTTTGGTTTGCTTCAACATATAGTGCTTTAATCGTTTTTCTATCAAAAATATTTAATAAAAAATCAATCATTATTGTTGGAGGTGCTGACATTATTTTTGATAAAAATCTTAAATATGGTTTGCTCCAAAAAAAATGGAAGTTTCCAATTATTAAATTTGCTTTAAATAATGCTGACTATTTAATTGCATCATCAAAATACATTGAAGAAAACATAATAAAAATTTGCAAAAAACGACCTAAAAACTTATTTGTTATTTATCCCGGAGTAAATATTGATCTTTGGAAAATAAGCAATAAAAAAAATGAAACAAAAAATATTTTAACTGTTGCGGTTTGTAATAACAAAACAAGATTCAATATAAAAGGAATTGATATTTTTATTAATTTAGCTAAAAAAATAAAAGATGTTAACTTTACAATTGTAGGCATAGATAAAAAGTTACTTAAAAATATTACTTTTCCTAAAAATGTTCTAGTAATACCAAAATTAAATCAAAAAGAATTATTAAAATATTACAATAAAGCTAATATCTATTGTCAATTTAGTAGAAGAGAATCATTTGGATTAGCATGTGCTGAAGCAATATTATGCGGTTGTGTTCCGATTGTAAGTAATGTAGGAGGATTAAAAGAAATTGTTCAAAATTCTGATTTGGTTGTTGATTTAAATAATTTTTCAAATATTATTAAAACCGTAAAACAAACACTTAACGAGTCAAAGAAAATCGATTTGAAAAAATTTCAACATAGATTCTCGAGTTTTTCAAGATATAAAAAACTTGATACAATTATTCATAAATGAAAAAAATATTTCAAAATATATTCTTTCTTGGAAGTAGTGATTTAATATCTAGATTTTTAAGTTTTCTATCTATAATATTTTTAGCAAGAAATTTTGGTCCTGAAGGAATGGGTCTTTTAGCTGCTAGTTTAAGTTTTCTAACAATAGGAAACGTTCTTTCAGAATTAGGATTACCCATATGGGGAACTAAAATTATTTCAAGATTAAATAAAAATTCAAAAGATCTTCTAATAAAAATTTTTAAAATTAGATTTTCTTTATCAATTATCATTTATATAATTTTTGTAATTATATTGAAAATTTATTTTTTTCAATCAAAACTTTATTTATTAAGTCTTATTTATTTATTTGCATTAATACCAACATCTTTTCTAACTGAATGGGTTTTCCAAGGTTTACAAAACTTTAAAATTATTTTCAAAGGAAGAATTTTAGCAAGTACAACATATTTTTTTTTAATAATTTTATTTATAAATGAAAAATCTGAATTAACCTTAATTCCAATAGCTTGGGTTGTTTCAATTTTAATTCAAGTTCTTTATTTAGGAATAAAAAATTTTAAATCATTAAAAATAAAACAAGAAAAAATTGCATATTCTGATTTTGAAATATTAAAAAAAGCTTTACCACTAGGTTTATCAACAATAATTGCTCAAGTAATTATACAATTTCCTCCTATTTATTTAGGTTATTTCAACTCATATGAAGGAGGATTATTTAATATAGCATTTAGAGTAATTATTTTATTATTAATAATTAACAGAATTATTTATAGTTTGTTTTTCCCTACTATAACTAGGCTAATTCATACAGATAAAATAATGTTTGAAACATATTTTAATATTATTTTAAAGTGCACAGTTTTTTTTAGTATTATTATAGGAGTTTTTAGTATACAAATTCCTAGTAGTTTTTTCTCATTTATTTTTGGAGTTGATTTCAAATCATCAGCTAATATTTTTCAAATATTATGTTATTATTTTATCTTTTCATTAATTAATTCTATTCTTACATATACCCTTATTGGTTTAGATAATGAAAAAACTTATTTGAGGTCATTAATAATAGGAGGCTTAGGTTGTATATTTTTTTTCTTATTTGTAGATATAGACCTTGCTATAAAATCATCTTTTTCATTAGTTGTTTTTCAATTTATATCACTTTTAATTATGTTAATTCAATTAATAAAAAAAATCAAATTTAATTTTTTTCGTTCAATCACTTTACCATTTATTTTACTATTTATATTTTCATATTTTCAATTTGCATTTGATTCAAATCATTCTAACTATTTATTATTTATAAAGTTAATATTTTTTCCTTTAATATTATTTTTTATAATAAATATTTCAAAAAAAGATAGAGTTTTTTTAATAAATAACATCAAATGAAAAGTCTTACAATAGGTATAACAAATTTAAATACAACTTGGGATATCGTTCTCAGTCAGATTGGACCTCCATACCTACATATCAATAATTCCTCATTTAACACATTAAAAAAACATGCATGTATAATAATAAATTCTAATTCTTCGTTAATTAAAGATGATATTTATAGATATATTAATGAAGGTGGAGGGGTCATTATAGAAAGTGAAATTGCAAAAAAATTATTTAAAATATCAACGCGAAATTTATTTGTACAATATGTAAATACAAAATATGATAAAATTTTTTCACGTGTCACATCAGGGATAATTAATTCAACCTTAATCGTATCAAAAAAAAGTAGATTTCTTAAAGATCAATATGGAAGATTTTTAGTTGATACTTTAAACATTGGAAAAGGTTATGTTATTATTATTCCAAGTGGCCTAATTAATTGCATAAAGTCAATTGAAAATAAAAGAAAAAATTTCCCAACGTGTAACAACTTTTTTCCAAATGAGAGAGTTTCTACAGTTTCTAAAAGAACTCTTAGAGAAATTATTTATATTTCATTATTAGAAATATATAATAAAAAAAACATTCCTTTTTTATCTCTTAATTGTTTTCCTAATGAAAATAAAACTATATTTAATTTTAGAGTAGATACTGATTTCGCGGAAAAAAAACAAATAGAAAAATTATACTCGCTGTGTAAAAAGTTTAACATTAATGCTAGCTGGTTTATTGAAACAAAATCATCAGAAAATTGGATTAACACCTATAAATCTATGCAAAATCAGGAAATTGGACTACATTGTTATAGACACAAAGTTTTTAATAATTTCAGAAAAAATAATTTAAATTTACAAAAAGGTGTTTCTATTTTAAAAAAAAATGGTATTGAAAATTTAGGCTTTGCTTCCCCATTTGGAGTTTGGAACACTACTCTCAGTGATTCAATAAATAAATTGAATTTCAAATATTCATCAGAGTTCGGATTAGATTATGACAACCTTCCTTTTTTCCCAATAATGAATAAAAACAAATTTAGTAATGTACTTCAAATTCCTATTCACCCAATCTGTGTTGGTTCATTGAAGAATTCTAAACACAATTCAGAAAAAATTAAAAAATATTTTGAAAATATAATCAAAAACCACACATCAAACAATTTACCAATTTTCATTTATGATCACCCTAAACAATTTGAAGAAAAGATTCTAAAATGGTTATTCAATAAAATTAATGAATTAAATTTTCCATCATTAACTTTACAAGATTATGCTGAATGGTGGAAACAAAGATTGAAAATTAAATGGAAAGCAAAAATTAAAAATAATAAAATTATACTTGATTATGAAAATTGGAATGAAAGCGTGTTTTTAAAAGTTTCTAAACTAAATATGAAGTCAATAATTTTAAATAAGAATAATTTACCTGATATTAAAAATTTTAAATGGGAAATAGACAATCCAATCCTATCTTTAAATAATATTGAAGAACTAAATAAAATAAATAGAAAAATAATAACAAATAACATCCTTCAATTTTATTGGAAAAATAAACTATGAATATTTCAATTGCTAGTTATCATACCGTTGATATTAAACATGGAGGGCCAAGAACTCAAATTTTACAAACAAAAAAAAATTTGGAGAAATTAGGTGTTAAAGTTGAACTTTTTAATATGTGGAATAATAATCCATTTAAAAAAACTGATATTTTTCATATTTTTTCATCTAATTTTGGTATATTTGATTTTGCTAGATATTTAAATTCAGAAAAAAAGAAATTTGTAGTTAGTCCCATTTTTTTTACAAGACAATCACCATTATCAATGAAAATTGTAATTAAATCAAATAATTTTATTAATAATTTTGTTCCAGGAATTTGGACAGATTATAATATAAGTAAAAAAATATGTCATTGGTCTGATGCAGTATTGCCAAATACTGATAAAGAAAAATTATTAATTAAAAATGGTTTTGGAATAAAAAGTAATAAAATTTCAATTATTCCAAATGGAGTTGAAAAAAGATTCTTAAATGCTGATCCAAAAAAATTTATAAATAAATATGGAATAAAAGATTTTATATTAAATGTTGGTCACATAGGTATTGAAAGAAAAAATACTTTATCTTTAATAAAAGCTTTATCAAAAATTGATCATCCTGCTGTTATAATAGGAAAAGTTTATAAGACTTCTGAAGGGTTAAAATGTATTAATGAAGCAAAAAAAAATAAAAATCTAATTATTATTGATGGATTAGATCATAATTCTGATATGTTGGAATCAGCATACGCCGCATCTAAAGTTTTTGTTTTGCCAGCAAAATATGAAACACCCGGCATCGCCGCTCTTGAGGCAGGACTAACTGGTTCAAAAATTTTAATAACTAAATATGGTGGAACTAAATATTATTTTAAAGAGTTTGCAACTTATGTTAACCCATATTCAATTAATAATATAAGAAGTGAAATAAAAAAAAATCTTCAAGAACCAAATTCAAATAAATTATCAAATCATATTAAAAATAATTTTTTATGGGAAAAAGTTGCTGAAAAAACTGTAAGTATATATGAAAAAATCCTAAATCAATGAATGCTTCCGTAATAATTTCAGTTTATAACTGTGAAGATATAATCAATAAAACTATTCCAAAAATACTTGATCAAAATTATCCAAATGAAAAATTTGAAATTATAGTAGTAAATGATTCTTCAACAGATAATTCTTATAACTTGCTAAAAAATTATAATCATCATAATAATTTCACAATTATAAATCACAAAGAAAACAAAGGTAGATGTGCTACAAGAAATTCAGGCATAAAGGTAGCTAAAAGTGATATCATAATATTTCTTGATTGCGATATTGAAGTAAGTAAAGATTTCGTATTATTTCACGTATCCTTCCATAAAAATGAAAATATAATAGGTTTATTATCAAATGTAATTCCTTATACAACAGAAAATAAAACTAAATATCATAAATTTCTTAATTTTAAAAAAAGAGGTGCTAAACGATATGGAGATCAAGTACCACTTCATTATAAATACTTTATTTTCACTGCGACATCAGTTAAAAAAGTCGCTATTGATAAAACTGGTTTATTAAATGAAGAATTAAAGGGTTATGGAATAGATTTACATTATAGCTATAGATTATGGAAAAATTATTCAGAAAATCTTTTTTTCGAATCAAGTATATTAGTCAAGCAATATAAATTAAAAGACTTCAATATGGCTCTAAATGATTTTAAAGATTATGGTTCAAGAAATTTACCTATTGTTCTAAATTCATTTCCAGAACTTCATAAAGATATCGGATTATCTTTATTTCATAGTAATTCTATTTTCTCTGTAATAGCAAGAAAGTTAATTTTTAATCAATTCACAAAATATTTTTGTGATATATCTATAATATTATTACCCTCCAATTTATGTAATCCTTTTTTCAAAATTAGACTTTTATTAGAACTTGTCGATGGTTATAAACAAAATATTTACAATAAATGAAAATTGCATCTGTTGATTTAGGGTCAAATTCACTTAGTATTCTCATTGCTGAAATTCATGATAACAAAATAATCCCTGTTTTTGAAAAAATCTATTTAATAAGATTAGCTCAAGGAATTAAAAATAATAACCTTCTTCATCAAGAAGCTAAAAAGAGATGCTTAAATGCTTTTAAAAAAATTGATGAATTATTAAAAATTTATAATCCAGATCATATATTAGGTGTTGGAACTGCAGCTTTAAGAAATTCACTTGATGGAAAAAAATTTTCTAAAGTAATATTTAATAATTTCAACATTCCAATTAGAGTTATATCTGGTAATGATGAAGCAAACTTAACCTTTTTAGCAACTATAAATGAATTTAAAAAATATAATAACAATATCTATATGATTGATATAGGTGGAGCAAGTACGGAAATTGTATTTGGAAATTTAAAAAAAATACATTGGAAAATAAGCCTAGATATTGGATCTGTAGCTTTAACTGAAGAATTCATTAAAAGTGATCCACCATCACAAGATGAACTAAAACAAATGCAATTAAAAATAAAAACAATACTAAACCAAAAAATTGATTTCACTTTAAATAAAGACAAGATTCCTTTAGGAATAGGAGTGGCTGGAACTGTCACAACATTAAAAGCTATTGATTTAAATATTAAAAATTATGATTCTGAAATCATTCATGAAAGTGAATTAAAACTTGCTAACTTAATTAAAATAAAAAATATGTTATGTAAATTCAATATAAAAGATAGGCTGAAATTAAATGGAATTACTGAAAAAAGAGTTGATATTATTCCAACAGGTTCAATTATTTTACAACTGACAATGGAAAAATTAAATCTTAAATCAATTTATATTAATGACAAAGGTTTAAGATGGGGATTAATATATAATTTTATTAATAAAAAAAACTAATTTCTATATTGAGTTTGAGAAAGTTTTTTACTTGCTTCATATAAAAAAATTTTTTCTTTCTCTGATAAATTATCATATCCTTGTTTATTAATTTTATCCAAAATTGAATCAACTTCAAATCTCAAATCATCTTCATATTGCCTTTCTTTATAATTTAAATTATTTTTTAACCTAGATTTATACTTTAAAATCATTTTTTTTAAAAAATCAATTTGAAAATTTGATTTTAAATATATAAACCCTATAATCATACCAGACAAATGTGTTAGATGACTTATTCCATCATTTGATCCAAAGGATGAAAAGAAAGCAATTATTCCAATAAATAAAACAAAGAATTTTACTTTTATAGGAATTAAAAAATACAGATAAACTTTTCTATTCGGAAAAATCAAACCATAAGCCAAAAGTATACCATAAATAGCACCACTCGCACCTACAACAGGAATTAAAGAATTTAAACTTAATAATACGGTTATTATGCCTGATCCAACTCCAGTTAAAAAATAATATTTTAAAAAATATTTTTTACCCCATATTTTTTCTAATTCTGAACCAAACATCCACAAAACAAACATATTAATAAATACATGCCATACTCCACCATGGAAGAATAAATATGTGAACGGTTGCCAAATCATTAAATTAAAAAAAGTATTAGAAGGAACAATACCAAATAATTGAAACAAAATTCTCTCTTGCCCAGATATCGATTGTAGAAAAAAAATTAAAAAATTGGTTAATATCAAAATTTTTATGCCATCTGTTATCAAAGATGTATTAAAATAATTAAATTTTTTATTGAAATTAAAATTTGTCATAAATATTAATTTAAAATACTCTCCATTACTCTTAATGATTTTATTTCTCTAAGACCATCGATATGATAACTATAATATTGTTTTAAAAATTCGCCAATTTCTTTTCTTTCAAATATAGATATTTTTAATTTAGGTATATCATTAATTTCAATTTCATTTATTTTTTTTAATAAACTCAATGCATTCTTTGATAATTTAATACCAGTTGAATTAGAACATTCACTACAAAACAATTCGCCAGATAAAAAATTTGCTGAATTCAAAGAATCTTGACAATTAGAACAATTAGATAAATTCGGCTTAAATCCTAATAGAGCTAATAACTTTAATTGAAAAAACCAAAACAAAATATTGATTTTTCCTTTATTATCATTAATTGCTGATAAAATATTTTTTGTAAGATTAAATAATTGATGATGAGACTCTTCACCATTTACTGTTTTATCAATTAATTCAATTACAGCAAATGAATAGCTTAATTTTTTAATATTACTTTTAATAGATAAAAAAGGTTGATCAAATTCTGCTTTTGAAAAAATTTGTAATTGTCGTTTTGAATTATAATATAAATTAATAGATATACAATTAATTGGTTCAAGATAGCCAGTTTGCAAAGTTTTGGATGTTTTAACACCTTTTGCAATTAACGATATTTTACCAAAATCTTTAGTATAACATCTAATTATTTTGCTGGTTTCTCCATAAGAAAATGTTTTTAATACTATTCCTGAAGTAGATTCGAGGCCCATTAATTAATATGATTTAGCAAAAATAACTTCAAATTTTGCTGGTGTACCTGAAAAAATACACTTTTTATTTTTAATATTTTGTTCAAAAGGTATACACCTGATCGTAGCTTTTGTTTCTTCTTTAATTATTAATTCTGTTTTGGAGTTACCATCCCAACCACATTTAATAAAACCTTTATTTTCACTCATAAGTTTCTTGAATTCTTCATAACTACTAACTTCAAATATATTTGAATTCATAAAGTCTAAAGCTTGTTCAAAAAGAGAAATTTGAATTTCATCTATCAAATTATGAATTCTTTCATTTACTTTACTTATTGAAACAACCTCTTTTTTATTAGTATCTCTTCTAGCAATAGTAACTTGATCATTATTTAAATCTCTGAATCCTACTTCAATTCTAATTGGAACACCTTTCATTTCCCATTCATTAAATTTAAAACCAGGACTTAAGTCTTCTCTGTCATCAATTAATACCCTTAATCCAGAATCTTTAAAATTTTTAATATGTTCTTTAAAAAAATTTAATATTTTTTTAACATCATCATCAGATTTTCCAATAGGAATAATAACTATTTGATGAGGTGCTATTTTAGGAGGAAGTCTTAGTCCTTTATCATCACCATGTACCATTATAGCTGATCCAATTAATCTTGTTGAAACTCCCCAACTTGTTGCATAAACATAATCTTCTTTATTATTTTTAGTTTGAAATTTTACATCAAATGCTTTTGCAAAATTTTGTCCTAGATAGTGGGATGTTCCTGCTTGTAAAGCTTTTTTATCACCCATCATCGATTCAATACAATATGTAATTTCTGCTCCTGCAAATTTTTCAGCTTCTGATTTTATTCCAGTTAAAACAGGAATTGCCATAATATTTTCAGATACATTTTTATAAAGATTAAGAATATCGATAGCTTCTTTTTTTGCTTCTATTTCATTAGAATGTGCAGTATGTCCCTCTTGCCATAAAAATTCAGTTGTTCTTAAAAAAAGACGGGTTCTCATTTCCCATCTGACTACATTTGCCCATTGATTAAGAAGTATAGGTAAATCTCTATATGATTGTATCCATTTCTTATACATTGACCAAATCACGGTTTCAGATGTTGGTCTTACAATTACTTCTTCTTCTAATTTTGAATCAGGGTCAACTATTAAATCATTCGAATTTGGATCGGTCTTTAGCCTATGATGTGTAATTACAGCACATTCTTTTGCAAATCCTTCAACATGTTCAGCCTCTTTACTCAAAAATGATTTTGGAATAAATAGAGGAAAATAAGCATTTGAATGACCTGTTTTTTTTAGTTTTAGATCAATTGATTCTTTAATTAATGTCCAAATTGAATATCCGTAAGGTTTAATCACCATGGTTCCTTTAACAGGTCCATAATCTGCAAGATCAGCTTTTAATATTACATCAGTGTACCATTTAGAATGGTCTATACTTTTAGGAGTTACTTTTTTACTCATTTTTTAAATCAATTAACTTAATGTAATTTAAGTATTCATTTTATATGAACGATGTTTTTTTAAATATATAATTTTTTATAACTTTAGATATAAGAATGATTTCAAAAAAAGAATTAAAATATATCTCTTCCCTTGAATTAAAAAAATTTAGAAATGAAAATAAAAAATATTTAGTTGAGGGAAAAAGATTAATTATTGAAGGATTAAAAGCTGGGGTAATAACTAATATTTATTATTCTCCTGAAAAATGTTCTTTTAATAATTTCTCTTCTCTTAAACCTTATATAAACAATAAAATAGAAGCTAAAGAAATAGATGAAAAAACATTTAATATTTTTTCTAATACTATCACCAGTCAAGGGCTAATTGGAATAGCATTAATCAATAATCCAAAATTTGAAAATTGTATAAAAACAAAATTTAATTGGATATATCTTGATAAAATTAAAGATCCAGGAAATTTAGGAACCATTCTTAGAACAGCTGAATGGTTTGGAATTAAAAATATAGGATTATCTCCAGAGTGTGTAGATCCATATAATTCTAAGGTTGTAAGAAGTGGAATGGGTGCCCATTTTAATTTAAATATTATATCAAATATTCCTCTAAATATTATAAAAGATCATAATATAAGAATGTTATTGGCAGATAAATTAGGTGAACCTATATCAAAATCAGATTCATTAAATAAATGGTGTTTAATCTTAGGTAGTGAAGCTGATGGAGCCTCATCAATTAATCATCTAATAGCAGATAAGATAATTACTATTCAGGGTAAAGGAAAAATAGAATCTTTAAATGTTGCCGTTTCATGTGGAATCATAATGAACGAACTAACAAAAAATCATTAAAGAAAAAGAGGGTCAAGTTTTTTACTATTAATTTTAAATTCTTTCATTGCTTTGTTTAATAAATCAATTGAAATTTCTTTTCTTATGAGTAATTCATAAAGAACAGTAACAACAATCATGCCATGATCTACTTCAAAATGTCTTCTTAAAGCTTCTCTGGTATCACTTCTTCCAAAACCATCAGTACCTAAACTTTTTATTCCTCCTGGAACCCATTTTGAAATTTGATCAGATATCAGTTTCATATAATCTGAAACTGCTATAAATGGACCCTTTTCATTTTCTAATAATTTTGTAAGGTATGGTTTTTTAGAAGGTTTATTAGGGTTTAGCAAATTCCATCTTTCAGTTGACAAAGCATCTTGCCTTAATTGTTTATAACTTGTTGCGCTCCAAACATCAGCAGATATATTATATTCTTTTTCTAAAATATTTTGAGCTTTTAGCACTTCGTTCATAATAGCTCCACTTCCAAAAATATGAGCCTTAATTGTTTTTTTAGTGGAAGATTTAAATTTATATAAACCTTTTAAAATACCATCTTCAGAGTCTTTTTTCAAAGGAGGCATTGGATAATTTTCATTATGCAGAGTTAAATAATAAAAAATATCTTCTCTTTCTTGGTACATTCTCTTTAATCCATCTTTTATTATTACTGCAATTTCACAAGCAAAAGACGGATCATATGCAACAATATTTGGAACAGTGCTAGCTAAAATATGGCTGTGTCCATCTTGATGTTGTAAACCTTCACCATTTAAAGTTGTTCTTCCAGCAGTAGCACCTAAAAGAAAACCCCTTCCTCTCAAATCACCAAATGCCCAAATAAAATCTCCAATTCTTTGAAAACCAAACATCGAATAATATATAAAAAAAGGAATCATATCTACTCCATGAGTTGAGTATGCTGTACCAGCAGCTGTAAAACTTGCCATTGAACCAGCTTCTGTTATTCCTTCTTCTAGAATTTGACCATCTTTAGCTTCTTTATAATACAAAAAAGTATCTGAATCAACAGGTTTATATAATTGACCTATGTGCGAATAAATTCCAACATCTCTAAAAAATGATTCCATTCCAAATGTTCTGGCTTCATCTGGAACTATAGGTACAATTCTTTTTCCAACTTTTTTATCCTTTAATAAAACAGACATTAATCTTACACAAGCCATTGTAGTAGATACAGGTCTTTCACTACCAGTAAAAAACTCATCATAGGATTCAGATTTTGGTAAATCCATTCCTTTAGTTAATGTTTTTCTCTGAGGAACAAAGCCTCCTAAATCATTTCTACATTCTAAAAGATAGTTTAGTTCTTCACTTCCTTCTTTAGGTCTATAAAAAGGTATTTCGTCTATTTCTTTATCTGAAACAGGTATATCAAAACGATCTCTAAATAATTTAAGTTGATCTATAGTAAGTTTTTTTTGTTGGTGAGTAATATTTTTTCCTTCACCTGCATCTCCCATTCCATAACCTTTAACTGTTTTAGCTAAAATAACACTAGGTTTATTTTTACAATCATATGCATTTTTAAACGCAGCATAAACTTTCTCAGGGTCATGACCCCCTCTTTTTAAATGTTTTAAATCATGATCATTTATATTATTAACTAAGTTTAGAACTTCAGGATATTTTCCAAAAAAATGTTCTCTAAAATAACTTCCATCTTCAACTACATATTTTTGATAATCTCCATCAACTACCTCTGTCATACGTTGAACTAATAAACCAGAATTATCTTTTTCTAAGATAGGGTCCCATTCTGAACCCCAAACAACTTTTATAACATTCCATCCAGCACCCCGAAAAACTGTTTCTAACTCTTGAATTACTTTTCCATTTCCCCTTACAGGACCATCTAATCTCTGTAAATTACAATTAATCACAAAATTCAAATTCCCCAAAGCCTCTCTTGAAGCAAGGGTTATAGCTCCTAAAGATTCTGGCTCATCTAATTCTCCATCACCTAAAAACGACCATACTTGTTGATTATTTGTATCTTTAATTCCACGATCAGTTAGGTAATGATTAAATCTTGCTTGATAAATAGCAGATAGAGGAGAGAGTCCCATTGAAACAGTTGGAAATTCCCAAAAATTAGGCATTAACCAAGGATGAGGATAAGATGACAAGCCTCCTCCTTTTTGTAATTCTTGTCTAAAATTATTCATATTTACTTCAGTTAATCTTCCCTCTAAAAATGCTTGTGCATACATTCCAGGTGATGCATGTCCTTGGAAAAAAACTTGGTCTCCATCAAATCCATCTCCTTTTCCTTTAAAAAAATGGTTGAAACCAATTTGGTATAAAGTAGCAGCAGATTGAAAAGTCGCAATATGTCCACCTAAGCCATCATGTTTTTTATTTGCTTTAACGACTAAAGCAAGTGCATTCCATCTATTAATACTTTTAATTTTTCTTTCAATTACTCTATCTCCAGGAAATTTTGGCTGGTCTATTTTTGCGATAGAATTAACATAAGGGGTATTTGCATTAAAGGGTAGTTGAGCACCTAACTCATGTGCTCTTTCAATTAATTTCTGAACAATAAATTTTCCACGCTCTCTTCCACCAAATTTAACAATTTGATCAAGTGATTCAATCCATTCAATAGTTTCTTCTTTATTACTATCACTTAATATTTTGGAATTCAATGATTCTATTATTTTTTTTTCATCTGGCATGATTATATCCTTATTTCAGCCTTTAATTTATTGAGAAAAGTTCTTTTCTTAAAGACAATAAGCAAATTTATGTTACTTATTTTTTTTTTAGTTTAAAAATTTTTATTTTACTTTTTTATTAAAACTTATTTTAATTTACAATTAAAATATGAATTATATACATACACCTAGAGGAGCATTTACAGTTGTTATATCTTCCCTTCTTTTTTCAGGCTTAGTAACTTCAATAATCCTTCTTTTATCAGATTCCACAGAAAATACTTTGTTTCCTTTAGCTTTACTAATTGGTGAAACTCTATTAGTAATTCCCTTATTTTTATTGTTATATAATTCAAAAGTTTCAATTTTAAAATCAGTTCGACTCAACTCTATTTCAAAAAATAATTTAATTAATTCATTCTTAATTTCATTTGGAATAGTTTTTATTTCAGATGAAATCGATAGGCTTATAGGAATAATAATTCCTCCTCCTGATATTTTAAATAATATTAATTCTACAATGTCGATTGATAACCCAATTGCCTTATTTTTACTTTTTATTAGTGCTGTACCAATTGCATCATTTGCTGAAGAAATAATGTTCCGTGGATATCTTCAACAAATACTTGAAAAAGAATGGAAAAATATTACAAAAGCAGTACTTATTAGTAGTCTATTTTTTGCAATTGTTCATCTTATTCCATTTTGGTTAATACAAATTTATCTTTTAGGTATGATAATGGGTTATTTGTCATGGAGAACAAATTCTATTTACCCAAGCATGGTTTTACATGCAGTAAATAATACAATGGCTTTTTTATCCGCAAACTGGAAAAGTTTCTTTGAGGGATGGTATGTTATGAATGGTCATGTTTCTCCCTTAGTATTGATAGTATCTTTTCTACTAGTTTATTTTGGTTTTAAAAATTTAAATAAAAGTTTTAATATTAAATGATAAAATAGTTCAATGATTAACAACTCAATTGAGAAGTCTATGTTGGGAAAAGAAATAAGCGTTTTATTAGAAACTTTTAGACGGTTAATTAGAAGAAAAGCAAATGCTAACATAAAAAAACTTCTAAATAAAACTCATAGTGCAGATTTAGCTCAACTTTTCAGATATTTTAATAATAATGAAAAAACATTTTTATTTAATTTATTACAGAAAAACAATGAAGCCACTGGAGAACTTCTAAGTGAATTAGATGAATCCATCATTTCTGATTTATTATTACCTCTTGAACCTCTAGAAGTTGCTAATATTTTAAGAAAAATGGGCTCTGATGACATAGCAGATATTCTTAACCTGCTTGATGAAGATAAAGCTCAATTAATCTTAGAGAAATTAAAAAATAAAGAATCTGAAGAACTTGAAGAATTAATGTCCTATCCAGATGATTCTGCAGGTGGATTAATGTCTTTTGATGTTTTTTCTTTACCAGAGTCCACTAAAGCAATAGACGCCATTACATCAATTCAAAACTACAAACAAGCTGAAATGGTATTTTATTTATACATCACAGACGAAAACTCACATTTAACAGGTGTAGTTTCATTAAGAGATCTTGTAACAGCTCCTCCTAATTCAATACTAAAATCATTCATGGAAGATGATGTTGTTTTTGTGAGCAGTGATACAGACCAAGAAGAAGTTGCTAAACTTGTTTCAAAATATAATTTATTAGCTATTCCAGTTATTGATTCAAATAGAACACTTCTTGGTATCATTACTGTTGATGATGTTGTTGATGTTATTAGAGAGGAAGCAACAGAAGATTTTCTTCAAATGGCTGGTATTGGAAAAGATAGAGAAATTTTGATGAAATCAACCTTTGATAATGTAAAGTTAAGATTACCTTGGCTATTTGCTAGCTGGATTGGAGGAACTGTAGCAGCATATATAATAGGTACATTTGAGCCATTTTTAGAATCAATGATAGCTTTAGCAGCATTCATTCCTGTCATTATAGGTATGGGAGGAAATGTAGGTACTCAATCCTCAACTATTATTGTTAGGGGATTTGCAACTGGAAGATTAGAACTATCTAAAGTAGGAATAGTAATATGGAAAGAGATGAGAGTTGGCTTAATACTTGGAATTTTTTATGGTCTTCTATTAGGAGTAGTTTCAATGTTTCAATTTATAAATGCTCCTCCTGAATTAGGCTTAGTTGTGGGACTTTCAATTTGTGTTTCAATGATAATTGCTACTTCAATAGGTACCTTAGTTCCTATTTTTCTTAGAAAACTTGATGTAGATCCTGCTATTGCATCAGGACCATTCGTTACAACAGCAATTGATATTTTAGGTATATTAGCTTATTTTTTAATTGCTATCAGCTTAATGTCAAAAATTTAAATTGATGTTTCTGTTATCAATAATTTTAATAATTTCATACTCATTAATAATTATTTTCTTTTTTATTGGACTTTTCATTTATAGAGAAAAAAGAATTTCAGAAAAAAAATTTGTATCAGTAGTAATTCCAACCTTAAATGAAGAAAATAATATCAAAAATATTATTTCTGATTTAAAAAAACAATCATACCCAACAAATCTTTTCGAAATAATCATTATTGATGACAACTCGAAAGATAATACTGTTAAAATTATAAGATCATATCAACAAGATATGAATAATCTCAAATTATTTAGTTCAAATGATGATAAGCATTCTAAACTAAATTTTAAAAAAAAACCTTTAAATATTGGTATCAATAATGCACAAGGAGAAATAATTTTATTAACTGATGCGGATTGTAGAGTCCCTCAAAAATGGATTGAAACAATGTCTTCTTATTTTACTGATGAAGTAGGGTTTGTAATTGGTCACTCACAGTTAAAAACATTTTATAAAAAGCAGGAGAAATTCGAAGCATTAGATTTCCTTCTATTATCATCAGCTGGAAGAAGTTCTAGTCAGTTAAATTTTCCTCTTGCATGTACTGGGCAAAATATTGCTTATAAAAAGAAAGCTTTTTATGATGTGAATGGATTTAATGATTTTGCTGATGCCTTAGGAGGAGATGATACCTTTTTAATGGAATTAATTAAAAAGAATACTAGTTGGAAAATTGTTTATGCTGTTGATAAAGATTCACATGTAAAAACAAACCCATGCAATAATTGGAAGGAGTTTTGTTCACAAAGAAAGAGATGGGCTTCAGACGCTTTGTTTTTTAAAAATGAAAATCCCTTTTTTTTCATAATGATGTTAATAACATTTTTTTCTAATTTACTACCTTTAATTTTATTTTTAAGTTCATTCATAAATTCAAATTATATTATACTTTTATTTTACGTTTTATTTATAAAAATGTCTGTGGAACTTCTCTTAACTTTAAAAGCAACAAGTCTTTTCCAAGTAAAAGAATTGAGGTTAAGTTTCCTTTTTTGGTTTTTTTTACAAATTCCTTATGTTGTATATATGAGCATGAATACTTTATTTTTTAATAATAAACAATGGGGCGGAAGACATATTTGAAAAAGATAATTTTTTTTATTTTTATTAATAATTTTATATTATCAACTGAGGATGAATCTTTAAAATACATTATAAGTTTTTTAACCATTCCTAGCGTTGAATTATCTATGTCAAATAGAGTTATCGATAAAAATACTAGCACAATAATTTTTTCTGCTAAGTCAATATCTCTTCTAGATAATTTTTTTAAAATAGATAATTATTATTCAACTATTTATAATGTAAATACATTTAAAATGTTAGAATACACTTCAAATATAAATCAACCTAATGCTAATTATGACTTTAAAATTAAATGGGATGATGAAAATAAACAATATGACTATCTTGATATTTCATATGAAAGACCAAAAGAAACAAATAATATTTTTTCTTTATTACAAAGAGTTAGATATCAACCAATAGATAAAATTGATACAATTTGGATTCCGATAGATCATGAAGGTTCATTATTTAATGCTAGATATTTATGGATAGATTCTGTTGATGTAACAATTGATTCTGTTAGCATAAAAACAAATCATTTTAAAATAGATTTAGAAAAAAAAGAAAATTCCCGAAAAAAATTAAAAGAGATTAGTGATGTTTTTAATTGGGGTATAACTTTAGACAATAGCATAAGACAAATTTGGGTTGAAAGAGTAGAGCCTTATAGAATAATAAAAGCTGAAGTTGATGTAAGAGGATTAAAGTTTAAAGCTTCTTTGAAAAATTCAAATTAAATCAATTATCTATTTGATCCATAAAACATGTTCTTGTTCCATTATGACAAGCTGCACCAATTTGTTCAACTTTAATTAATAAAGCATCTTTATCACAATCATAAAAAATAGATTTAATTGTTTGTCTATGTCCACTTGTTTCACCTTTCCTCCACAAACATTTTCTACTTCTACTCCAAAAACAAGTTCTTTTTTCATGAATTGAAATAGCTAAACTTTCCATTGACATATATGCAATCATTAATACTTCATTATTTTCATAATCCTGAATTATTGCAGGAATAAGATTATTACTATCAAGTTTAAAGTTGATTTCATTAATTTTCAATTTTACATCATCTAAACTCATAAATTCTCACTTTCTAATTGGAATTCTTTGATTATTGAGATAATCCTTAATCTCATCAATGCTAAAAATATCTCTGTGAAAAACTGAAGCAGCTAATACAGCATCAGCTTTCCCATTTATAATTGCATCCTTAAAATGTATTAGTTTTCCAATACCCCCAGATGCTATTATCGGAACATCTACTAAATCACTAATCATAGACGTTATATCATCATCTATACCTTTTTGAGTACCATCAGCATCCATACTAGTTAATAATATTTCTCCACAACCCCTATCAACGGCTTCTTTTGCCCAATCTATAGCATCTATTTTTGTATTATTTGTACCAGCATGGGTATACACATACCATGAATTTTTTTTTTTTTTACATCCATAGCCAAAACTATACACTGTGAACCAAAAATTTTAGCTGAATCATTTAATAAGTTAGGATTATAAATAGCTGATGAGTTAATAGATACTTTATCAGCACCTGCTTCAAGAATACTTCCAATATCATCTGGGGATTTAATACCTCCACCTACTGTAAACGGAATAAATACTTTTTTGGCTACTTCTTTTACTAATTCAATAACATTTTTTCTTGATTCAAGAGTAGCAGAGATATCTAAAAAGGTAAGTTCATCTGCACCTTGATCTGAATATTTTTTAGCAAATTCTATAGGGTCACCTTCTTCAACTAAATTTTTAAAATTAACACCTTTTACAACTTTACCATCTTTAACATCTAAACATGGAATTATTCTTTTAGTTAACATTCTAACATCTCTTCGATTTTAATTTTACCTTCATAAAAAGCTTTACCTACAATTACTCCAGTGATGCCATTTTTCAATTGTTTTATCTTTTTAATATCATCTATGTTTGAAACTCCACCTGAAGCAAAAATTGGAATATTAGTTAAATTTGAGATTTCTTTTAATTGTTTGAAGTTCGGACCTTTTAATGTTCCATCTTTATTGATATCAGTGCAAATTAGATGTGAAAAATTTATACCTGATATTTTTTTAAGTGTAGTTGATATAGAAAATTTTGATTCAGCTTCCCATCCATGAGTATAAACCAGATTGTTTTTTGAATCTATTCCAGCAACTAGCTTGTTTTTGAAATCTGATTCCCATGATCGAATTTCTTCAATATTTGATAATAAACTTGAACCGAGAATTAAAAAATTAGCACCACAATCATTAACTTCTTTAAGATCTTTTTTAGTTCTCAATCCTCCTCCAAATTCAATTTTGATTCCTGTTTTAGCAACTTTTTCAAGTGTAGACAAATTTACTGGATAACCATTTTTTGCACCATCCAAATCGACCATGTGTAACAACTCAAAACCATTATTTAAAAAAAACTTAGCTAAATCTTCAGGATCTTTATTGTATACGGTTTTTTTTGAATAATCTCCTTTAAAGAGTCTAACACACTTTCCGTCAATAATATCTAAAGCAGGAACTATTTTAAATTGATTTTTCATAAAAATTTTTCAAAATTGAAAGACCATATTTTTGAGATTTTTCCGGATGAAATTGAATTCCTAAAATATTATTGTACTTAAAAACAGCTGTTATTTTTTCACCATAAAAAGTTTCCCCAACAATTAATTTTTGATTTTTTAGTACACATTTATAAGAATGTACAAAATATCCATATCCCGATTTAAAATCCTTATTTGATTGTTTTGATTCAACTTTGTTCCATCCTATGTGTATTTTTCTTGGAGCATTTTTTATCTTTTCAACTCTACCTTCAATTAAACCAAGCCCTTTATGCTCACCACCCTCATAACTTTTTTCAAGTAAAAGTTGCATTCCTAAACAAATTCCTAAAAGTTTTTTATTTTTTAATGTATAATCTTTAATAAAATCAATTAAATCATAACTTTTAAGTTTTTTAATGGCTGATTCAAATGCACCAACTCCTGGTAAAATAATTCCTTCACATGATGATAAGTCTTTTGTGTTATGAGAAATAATATGAGGAATATTCAAAAATTCTAAACCATTACGAATACTTCCAATATTACCTACACCATAATCAATTATACCTATCATAATTTTCCTTTGGTAGAAGATGTGATCTTATCATTTCTTATTTTTAGAGAATTTTTAATCGCAACTCCTAACGCTTTAAACATAGTTTCAATAATATGGTGAGAATTATTTCCACATATTGATTCTACATGAATTGTAATTCTAGCCTCCTGAGCAAAAGATCTAAAAAAATGTTCCGTCATCTCTGTTTCAAAACTTCCAACTTTTTCTACATTAAAATTTGCTTTAAAACTACAAAAAGGCCTATTACACAAATCAACAACTACTCTACTTAAAGCTTCATCTAAGGGACAAAATGAATACGAAATTCTATCAATGGATTTATTTTTTATCCATTCTTGGTTAAAAGCTTTTCCAAGTATTAATCCTACATCCTCAACAGTATGATGAGTATCTACGTGTAAATCACCCTTACAAATTAATTTCAGATCCCATTCAGCCCAAAATGCTAATAATTCAATCATATGATTAAAAAAACCAATACCAGTTTCAATCTGGACTTTTCCAGTTCCATTAATATTTAATGTTAAATCTGATTTTGTCTCATTTGTATTTCTTGAAATTTTAATCATAGTTTACCTATTTTATTAATTAATTCTAAAGTTGAACTACATGAAAAATTATAATTTTGTACATTCAAACTACTTTCAATTAAGCAAAAATCTAACGGTTTTCCTGTGTTTTTTTTATAATTTAAAACAAGCTGAGAATCATCTTCTGAATCACCGATATATAATGGATTTTTACAACTTAATTTTTCTACTAAAGGAATCAACTTTTTTGGATTAGGTTTATTTAATTCTGGCAAATCAGAAACTGCTAACATTTTATCATCAATTCTCCATTTAAGTATTTCAAAACCTAACTCCATTTCTTCTTTATTTCTACCAGTAAAAATAGCTGATTTATCTAAAAGTGGTTTGATTTTTTCATATGAAACCATCGAAATTTCATTATTCCAAAAACCTTTATTTAAAATAGTTACGGGATCAAATCCATATAATTTTTTACAAGCAGTTGTACCTCCATATGATTCTTTAACTAGTCTAATAATATTTTTTTCAACCTGGAAAGTTAATTTATTTGAAGTCTTTCGAACTCCATTAATACCAGATCCAAATTCATTAATTATTTTTAAGTAATCAAAAAGTTTTTTAGATGAGTGAAATTTTCTCCAGCAATATCCTGCAATAGCAGTATCCCAATCATTATTAAAATTTTTAAAAGACTTTATTTCAAAGACATGTTCTTGATTAAAATTATCATCATTAAGTATTGTTCTTACGGCTAAAACAATTGATGGTATAAATGAATTTGAATGATCAATTAGAACTCCATCCACATCAAATATATATGCATCATATTTCATGTTACGTTGGATAAAATATTAAATAAAACTTCATTCTCATCTTGACTTCCAATAGAGATTCTTATTTTATTTTTACAAAGATAATAATTTGATACATCTCTTACAAGTATGCCATTTATTAATAACTTATTAAATAGTTTTTGAGGAGAAATCTTTGACTCCAACAAAAAGAAATTGGCTCTAGATTTAAATGCTTTTAAATCATCCAACTGATTTATTCTAAAAATTAAGTTTTCTCTTTCATTTATTATTTTATCAGAATATTCAATTATTTTTTTATAATCACTTAATATAATATTACCTGCAATAATTGATGGTTTGTCAATGTTAAATGGTAACATACATTTTTGAATTTCAGCAGCAACTTTTGAATGCATTACTGCATAACCTAATCTAAATGCAGCTAAACCAAATGCTTTTGAAAAGGTTCTAGTTACAATCAAATTTGAGTTTTTTGATAATAGAGATAAGCAAGTAGATTTTGAAAAATCAACATACGCTTCATCTACAACTAAAAATCCTTTAATACTCTTAAGAATTTTTTCAATAATATCTAGAGAAATTAAACTTCCTGTAGGAGAATTTGGATTACATAAAATAGTTATCTTTGATTGTAAAGCCTTTTCCAGTAAATCCTTTTCGTTAATTTTAAATTCTTCATCCAATTTTGATTCAATAATTATTCCATCATTCTGATTTGTTATCATTTTATAGATTGGAAAAGTTGGATTAAGAACACAAACTTTATCATTTGTACTAATAATTGAAGTTATTATACTTTGAATGACTTCATTAGAGCCTTTTCCTAAAACGATTTGATTTGAGCTACAATTTAATATTTGAGCTATTTTTTCCATTAAATTATTTGCTTTTAAATCAGGATACCTATTCCATGGAGTTTTTTCTAATTTACTTAAAATTTTTAATTTTAAATCATTTGACCAATCATATGGGGATTCATTCTGATTGAGTTTAATATTATGTTTAGGTATTGTAACATTATACTCAGCTTGATCTCGAATCTTTTGTTTAATTAATTTTATCGATTCACTGATTTTCATTTGATTCTAACTTTTATTGATTCTGAATGAGCTAATAAACCTTCAGCTTTGGCTAAACTCATTACAACTTTTCCTTTTGTTTTTAAAGCTTTATTTGTTGACTCAATGATTGAATATGAAACCATAAAATCGTTTACTGACAAAGCACTTTTAAATCTTGATTGTCCAGATGTTGGTAAAGTGTGATTTGGTCCAGCCCAATAATCACCCCACGCTGGAGAAGTATTATTTCCTAAAAATATAACTCCTGCTATTATTTTACTTATGATTGAACGAGAATTTTTTATTTGTAGAGATAAATGTTCTGGTGAAATTTTATTAATTGATTCAATAAATTCTTTTCTTGAATTAACTAAATAGATAAATCCATTATTAACTATTGATTCTTTAGCTACTTGACTTATTTTATTACTTTTAAAATTTTCATTTATAATATCATTAACTTGATTTACAATTTTTATACTATCTGTTATTAATACTGACCATGAATTAACATCATGTTCAGCCTGACAAATCAAATCACTAGCTATGATTAATGGATCAGCAGAATCATCTGCAACAACTAATTGTTCTGTTGGACCAGCAATCATATCAATTCCAACAATATCACTTACAAATTGTTTTGCTTTAGAAACAAAAATATTTCCAGGACCAGTAATCTTATCTACTTTTTTTATAGAATCTGTACCATATGCCATTGCAGCAATAGCTTGAGCACCTCCTATATTATAAACTTCTGATATTCCCATTATTTTGGCTATAGATAAAATAATATCATTTGGATAACCTGAGGACTGGGGAGGAGAGCACAATATTATTTCATTAACTCCAGCTATTTTTGCAGGAATTATATTCATCAAAGCAGTAGAAAATAAAGGAAACCTTCCTCCTGGAATATAAACTCCAACTCTTTTAATCGGTCTATGTTCAAAGTAAATTTTAGTTTTATCTTTTTGAATTAATTCAAAATTTTTAGGTTTTTGTTTCTTATGAAAATTTTCAATATTTTCTTTTGCCTCTAAAATGGATTTTATTAGTTCAGAATCTACATTATCAATCGATTCTTCAATTATTTTCTGAGAAACCCTAATTTTATCAATATTTACTTTATCAAATTTTTTTGTGAACTTTATAAGTTCTGAATCTCCTCCATTTTTGATTTTTGATAAGATTTCATCTACAATAGATGATTTAGAAAATGAAAATTTAATCCTATCATTAATTATTTTTTCGAAAATATTTTTATCTTTGATTATTTTGAACATTAAGGAATGACCTTATTTAGTGGATATTCAATTATATCACTTGCTCCATTATCAATTAAAAGAGGAATTAAATCCCTTACAATTTTTTCTTCAATAATTACCTCAATTGCTACTCCTTCTTCATTAAACAATTGATTAATGGTAGGTGTTCTCATTGCAGGTAAAATTTTAATTAAATTATTTAATTTATCATTTTTGACATTCATTTTTAAACCAACTCTATTAGTTGCCATTATTGCACTTTTTAACATTCTAGCAATATTGTCTATTTTATTCTTTTTCCATTTATCTTTATATGCATTTTTATTAGCAATTAATCTAGTAGTTGATTCCATAACTGTATCAATTATTCTTAGATTATTAGCTTTAAGAGAACTTCCTGTTTCTGTTACTTCAACAATTGCATCAGTTAACAACCCTGGCTTAACTTCAGTTGCACCCCAAGAAAATTCCACGTCAGCTTTAACTTTATTTTTTGCTAAATAATCTTTTGTAATATTAACTACTTCTGTACTAAGGTTTTTTCCCTCTAAATCTTTAACAGATTTAACATTAGAATTTTGCGGAACAGCTAAAACCCATTTAACTGGTCTCATATAAGCTTTTGCATATACTAGTTCACATATTTCAACTACATCAGATCTATTTTCAACAATCCAATCTTTACCTGTAATACCAACATCAAAAACGCCTTGTTCAACATATAAAGGCATTTCTTGAGCTCGTATTAAAAGTGCATCTATTTCACTATCATCAGAAAATGGCTTGTAAGATCTATTGGTGATTGAAAAATGCCAACCAGCTCTCTTAAGCAAATTAAACGTAGTATCCTGTAAACTACCTTTTGGTAGACCTAATGATATTAAATTATTCATTTTTTCCCCTTCTAAAAAAAAAGCTCCTCAAGAATTAGGAGCTTTAAATTAAATTATTTTAATTGAGTATCGCTACCTTTTTCTCCAACAAAGAAAAATAATATGATGGTGATGTAAAAATTTGTGATATCTCATATTTAAAGTTAATAATATAAATTATATCAAAACAATACGTTTATTAAATTAATTTTGTAAAAACTTTAGTTAATACATTTATACTTTTATCATATTCATCAAGGGATAAATGTTCATTTGGTGTATGATCCAAAGATGAATCTCCAGGACCATAAGCTAAAATTGGGCAATCCCAAGATCCAACTAAATTCATATCTGAAGTACCAGTTTTATATTTAAATGAAGGTTTTCCATCACTATTTCTAATTGAATTTAAAAAGGAGCTTACCAATCGATTTCGCTTAGATGTGATTATTGGTGAAATTAAATCAGTTATTTTAAAAATAGATGAATCAAACTTTTGATTTAATAATTTAGAAAATTCTTTAAAATTAAAACCACTTGGAGTTCTAACATTTACTTGCATTTTTACTGTAGAATGTGTGCCATCAAAAAATGTGTTAATCTTTGAAAGTCTAAAAGACAGCTTATTAAACTCAACTCCATTATCTTTAGTATAATGATTTAAATAATTAAAAAAATTGAATGCTAATTCAGCCGAAGTTTTTTCAGAAGCACCACTATGAGAAATTGGAACTCTGTTTTCATAAAAAATATTAAAACAACCTTTATAACCAAGTGTAATTCCACTCCAACCACTAGGTTCACCAATGATTATATAGTTGGGTTCTTTAAAACTATTTATTACATGTAAACAACCTTTAGAATCCGTTTCTTCAGCAACACAACCAATTACTTTAAAGGTTATTTCATTAGATAAATCTTTAGATCTTCCTACTGATTCAGCAAATGCTGATAAACAACCCTTAGCATCAACACTTCCTCTTCCAAATAATAAGTTTTTCTCAACTTTAACTGGAATATCACCTTCAACCGTATCAATATGTCCAATTAAATAAATAAGTATAGGACCATTACCAAATGTTCCTATTGCATTTCCAACTTTATCAATTTCAGTTTCAAAACCTAAATTAGACATTTCATCAATAAAAAGATTTACCGCTTTAGATTCTGAACCTGAAACGCTTGGAATTCTAACTAATTTTTCAACTAACCTCACTAAGAACTTCTTTCAATGAGGTAATTGCAAAATCTATTTCATCTTTTTTGATTATATAGGGAGGTAAAAACCTTAAATTGGGTTTACCAGCAGTTAAAGCTAACACACCTTTGTCTAATAAACCCATCAATGCAGGTCCTGCAGGACCTCTAAATTGAAGAGCTATCATTAAACCAACTCCTCTTACATCTTTTAATATATTTGGATAATCATTTAAAATATTATGTAATTCTGTTTTAAAATATTCTCCCATTTTTTTTACATTATTTAAAACACCATTATCCATTATAAATTCAATTACTGAAAGTCCAACTGCACATGCCAATGGATTACCACCATATGTGCTTCCATGCATTTTTTTTTCAAATTTTAAATTGTCATTAAAAATAACAGCACCTATTGGAACTCCTCCTCCTTGAGCTTTAGCAATTGAGATAATATCTGGTTCTACGTCAAAATATTGAGATGCGAACCACTCTCCAGTTCTACCAAACCCACATTGAACTTCATCAAAAATTAAAAGTATATCGTTTTCCAAACACAGATTTTTTAATTCTTTTAAATATGATTTAGAAGCAGAATATACTCCACCTTCACCTTGAATGGGTTCAATTAAAATAGCTGCTACGTTATCTAAGTCTTTATTTTTAATTGGGTCAATTTTTCCAAATGGAACATGTTCAAAATTGGGAACAATTGGATTAAAAGGAGCTTTCATTGCTTCCTTCCAGGTAGCACTTAATGCACCAAGAGTTCTTCCATGATAACCTCTTACACAAGAAAGGATTTTTGATTTTTTTGAAACAGACCTTGCTAACTTAATAGCTCCTTCAACTGCTTCAGTACCTGAATTACATAAAAAGATTCTGTTTAAATTTTTAGGTGATATTTCTGCTAATCTTTTTAAATATAAAGCCCTAACATCATTTCCATAATATCCATGACTTGCCGATATTAATTTTCCAGATTGTTCAGTAAGAGCATTTTTGATGTTTATATTACTATGTCCTAAACTAGCTACTCCTATTCCGGTTGATAAATCAAGATATTTGTTATCATCTGAATCCCATAAATATGAACCATTTCCTCTAACAATAGTCATAGGCCAACCACCATAAGCTCCACTAGAATGTTTTTCCTCAATTTCTAACCAATTATTCAATGATTGTTCCTTTTCCGTTTAAAGCAGCTGAAATAGAATTATCAATTCTTGCATCACCCAAAATTACTTTCTTTACTCCTCCATTAATTGCTTCTTGAGCTCCAAGAAGTTTTTTCTTCATTCTTCCTTTTGCATAATTTTGAATATTATAATCAATATCTTCAATTTTAATATTTTTGATTAAACTAGATTCATCTAAAGGATCTTTTAATAATCCAGGAATATTAGAAAGGATAATTAATTGATCTGCTTTAACAGAAACTGCAATTTGACCAGCACATCTATCACCATCTACATTAATTGCCTCTCCCTCATAAGATATTGCGGGCGGTGTGATAACTGGAATATATCCATTTTGTAATAATAACTCAATCAAACTATGATTGATTTTCTCAATCATCCCACTCATATCTCCTCTAAGAATTTTCTTTTTTCCATTTTCGATTACTTTCAAACTTTTCTTTTTTTTTCCTTCAATTAACCTTCCATCAATACCACTTAGACCGATAGCATTAATATTAATTTGTTGCATTTTTTCAACAATCATTTTATTCATTTTTCCTGCATAAATCATATTAAAGATATCCATAGTTTTTCGATCGGTAAATCTACTGGTATATCCTGAAACAGATTCAACAAATTTTGGGGGGTGACCTAATTTGGTAGAAACTTGATTCAACTCACTTGATCCACCATGAACAATTATATAATTATTATGATTTGATAAATCAGTAATAAAAGCATCATAATCAATACCTTCACTACCACCAACTTTAACTACAAACATAAATTCTCCTAATTATACGGGGTGAAAACCGATTGAATTAATTCCAATAGTTTCTTCAAAACCTAATGCAACATTCATACTTTGAACACCTTGGCCAGCAGCACCTTTCATTAAATTATCAATTGCCGACATTATAATCAACCTACCCGTTGATTCATCTTTTTCAAAACCAATCTCACAGATGTTTGTTCCTAAAACAAGTTTAGGTTCTGGAAATCTATAAATACCAAATTTTTCTCTTACTAATCTTATAAATGGTTCTTCTTTATAAGCTTGAAGGTATATTTGCCAAATGTCTTGTGAGGTATAATCTTCATCTAAAAAGACATGTATTGTACTTTGAATACCTCTTATCATTTCAACTGCATGAGGTGAAAAATTTAATGATATAGACGCATCTTTATTTAGCTCTTGATTCATTTCAGCTAAATGACGATGCATAGAGGGTTTAAAACTTCTAACAACATTACTTCTTTCAGGATGATGAGTTGATAAGCTATATGCTGCTCCTGCCGCAGAGGATCCCACTTTTGAATCAACAACAATGATTTTAGGATTTAAATTATCAACAATAGGTTTCAAAGGTAATATAGCTGCAGTAGCAGTACAACCTGGCACTGCAATAAATTTTGAATTAATAATTTTTTCTCTATGTAACTCTGGCATCCCGTAAACAAATTCCTTTAATAATTCAGGTCTTGAATGTTCATGACCATAATATTTTATATAGTCATCAGGATTTGACAATCGAAAATCAGAACTTAAATCAATTAGCAAATCTGTTTTTTTTAAAAAATCGTCAATATAATCCATAACAGCATGATGTGGTAGACCTAAAAACAAAACATCTACATCTGGCATTGATTCAATTGAAATAAATTTAAGCTTAGAAATTTTTCTAAGATTAGGATGCGTTCTAGAAATAGGTTTTCCTAAATATTTTCTTGATGTAACTCCAACAATATCAACAAACGGATGACCATACAATATACGTAATAACTCACCTCCCGTATATCCAGAACCTCCAACTACACCTACTTTGATTTTCTTTGACATTTTTTACCTCGCCTCACTAATTACATAATCAATAATTTTTCCAGGAATATTAACGCCTGTTGGTTCTATACTATTTCTAAACTCAACAGTATAATTAATTTCATTAACTAAAAAACCATTTTTAGATTCCATTAAATCTATTGCTAAAACACCTTTCCCAATTGCATTTCCAGCTTTTTGGCAAATCTCATTTAATTCTGATGATAATTCACATTTAGAGGTTTTTGCTCCCTTTGCTGTATTAGTAATCCAATGTTCCGAAGATCTATAAACAGCTCCAATAGTTTCACCTCCAATTACAAATGCTCTAATATCTCTTCCAGGTTTATCCACATATTCTTGAATATAAAATATTGAATGATAGTAAGCTCCCAAGTACTCTTTGTGTTCAAGAATAGCTTCAGCTCCAGCCCGATCAGTAACTTTAGCTATCAATCTTCCCCATGATCCTACTACAGGCTTTAACACTACCGGATATCCCATTTGCTCAATTGCCTCTAATGCACTTTCTTTTGTAAATGCTACTTTTATCTTTGGAGTTGGAACATTATTATCAATTAATGCTTTTGAAGTGATTACTTTATTTCCACAAATCATTGCAACATCGTAGGAATTAACAGTTTTTACACCAGCACCATTAAACATATTTAGAGCATATATAGCTCTTGAATGAGATATTTCTCTTTCCAATAAAATGTCAAAATTATAGTTATCATTTAGACCTAATTTTAAATATCTACTATCAATTTTTATAATCTTTAAATTTCGATTTTCAGCTTCTTTGAGAAGTAATTTTTCTTCCTGTCGAACTCTAGATAATAATAACCCTATTTTTATACTCATAATTTTTAAGTTAATCTTTTAAACAGTAATCTATAATTATAGATGGAATATTTTTTTTTACAGCATGCATACTACCTTTAAATTCCATTGAACAGTTAATTTCATTAACAGTAAAACCATCTGCTGTTTCCATAATATCAATTGCTAAAGCTCCACCCCCAACTGCTTTTGAAGCCATAATTGAAATTTTTTCTAATTCGGGAGTAATGATACATTCTTCAGTTGTTGCACCTTTTGATACGTTTGTTAGCCAATCCGAAGATTTTCTATACGATGCACATATAGGTTCTTCATCAATCATTAAAACTCTAATATCTCTATCAGGTTTATTAATATATTCTTGTAAATAAAAAATTGAATGATAAAATGAACTCAAATAAGATTTATGTTCAAGAATAGCTAGAGCTGAATTTTTATTTTCAATTTTTGCAATCAATCTTCCCCAAGAACCATCAACAGGCTTAAGAACAACTGGATATCCCATTTCCTCAATTGCCTCTAATGCACTTTCTTTTGTGAATGCTACTTTTACCTTTGGAGTTGGAACACCTTTTTTACTTAACCACCTAGATGTAAAAACTTTATCACCACAAATTCTTATTACATCGTAACTATTAATACATCTTACAGCAGAATTTTTAAGCATTTCTACAACATGTAGTGCTTTTGATGAAGCAATTTCCCTATCAAGGAGAACATCTATTCCCAAATCATCTTCAGGAGTAATTATTAATTTTCTACTGTCTATTAATTTTAAAGTAACATTTCTTCTCTTTTTAACTTCCTCAATTAGAAGTTTTTCCTCAACCCTTATTTTTGAAAATAAAATTCCAATTTTCACAGGAAAGAACCTAAAAGTTCAATAAAAAAATTACTATTCACCCCAATCCTCTTGCTCTTCTGGTGCAGGCTCTAACTTTACAGGGTCTAGAGAAATAACTTCGAGCTCTGCTCCACAATCATCACAATCAATGATTTCATTTTCAACAGTTCCGCTTTCAAGTTCTATTTCTGTTCCACATTCTTCACATTTACCTTGAGACATTACATTCTCCTTTTCTTTTTTCAATTAAAAAAAACCCCCAAACAGTTCTATTCGGGGGTTGATATAAAAGCTGTTTAATGTTTTTTTACACAACTTCCCCCCAAAAATAAGGGAATGACGGTATTTGTTTTTTTATTAAGCCGATAATTATCATTATAAAATTTATTATTATTAGATAGGTTTAAGCAAGAGATATATTTACACATTATTTTTTACTTAATTCCTTTGCAATAATTTTATATGCAGAACGAAATGGCACTCCTTTTTCAACTAATTTATATGCTTTTTCAGTAGCATATATTTCACCTGAAAGAGCATCATTACATTTTTTTTCATTAACAATCAATTCATTAAATAACATGGTAATCATTTTTATACAATCTAAAGTTGTTTCTATTGCTTTAATTGTAGGTTCTTTTGTTAATTGAAAATCTCTATGAAACCCTGAGGGTAAATTACTAGAAATATTTAAAACTTCAGATTCATATGATCTTACATTATTATATTTAGCTCTTAATAATTCTAAAACGTCAGGATTATTTTTTTGAGGCATAATAGAACTTCCAGTACAAAATTTTTCAGGAATTTGAAAATATCCTAATTCATCCATTGAAAATAAAATTAAATCTGAAGAAATTTTGTTTATGTCGTACATTATTTGAACTAATGAATGAATCAATATTTTTTCAAATTTTCCTCTACTTATTTGAGCATAAATTGGATTTTGATTAGAACCAAATCCCATTTCTTTTGCAGTAAACTCTCTATCAATTTTCATTGGAACACCATATCCTGCAGCTGTTCCCAATGGTGATTTATTCATTATTTTTCGAGATACTTTTAATAATTTAGCATTATCTAAGGATGATTCAATAAATGCTTCTGACCACATTGCAATAGAGGATGGCATTGCTTTTCTGAAATGCGTATATCCAGGAAAATTTATTGTTCCAAATTTTTTTTTAAATTTTTTTAAAGATTTAATCCATTCTTTTTGTAAATAATCACAATTATTTATATTATCTAAATAATATAATCTTAAAGCTGTTAAAACTTGATCATTTCTTGATCTTGCAGTATGTATTTTTTTTCCAATATCTCCGATTTTCTCTATCAAATAATTTTCTATTGCGGTATGACAATCCTCATCCTCTATATTAATAACAAAGTCATTTGAGTTAATTATTTCATTTAATACATCGACTATTTTTTTTAATTCAACTTTTGATAAAACTCCTATTTTATTTAGCATTTTGGCATGAATTATTGAAGCTTTACAATCATAATTAATTAATTTCATATCAATCAAAAAATCATTACCAACTGTGAATTTTTCAACTTTTTTATCTAGTTTTAGTCCCTTATCCCAAATTTTATTCATCAGTATTATTTCTCCATCCAAATGGTTTTGAATTTTTTTCTGATTTTTTTTTCTTTTTAATTAAAAGATTATGTGCTTTTAATCTGATAGAATGAATATTAATAAAACCTTTTGCATCAATAGCATCAAATCCTCCCTCTTTATCCATACTTGAAAAATCTTGATCATATAAGGAAGTTGGAGATTTTCTTCCAATAGTTGTAACATTACCTTTAAATAAAGATAATGTAACATCACCATCGATTTCTTCTTGACTCTTGTTGAAGGCACTCATAATAAAGTCCATTTCAGGAGAATACCAAAGACCATTATAAATTAATTCACTAAATTTAGGTATTAGAGAATCCCTTATATGCATTACCTCTTTATCCATTGCTAAACCTTCAATATCCCTATGAGCAGTCCATAAAATTTTACCAGCCGGAGTTTCATAAATTCCTCTGGATTTAATACCTATAAATCTATTTTCAACCATATCTAATCTACCGATACCATGTTTACTTCCTAGATCATTAAGATAAAGAAATAATTTTAAGGAATCTGTTATTTCAATTTTTTTTGATTCATTAATTACTTTTGTAGGAATACCATTTTTAAATGATATAATAATAATTTCTTCTGAATTAGGGGTATTGTTTAGCGAAGATGTATGAGAAAAAACTGATTCTTCAGGCCTATAATTTGGGTCCTCTAACATTCCCGCCTCATGACTAATGTGCATTAAGTTTTCATCTTCACTATATGGTCTTTTCTTTGAAACACCAATTGGGATATTATATTTTTTTGCATAAGAAATCAAATCATTTCTTCCCTTAAACTGATCTAAAAAAACAACATCTTTCCAAGGTGCAATTACCTTAATATCTGGATTTAATGCATAGTATGCTAATTCAAATCTAACTTGGTCATTACCTTTACCAGTTGAACCATGACCAACATATTCTGCATTTAAATCTTTAGCCATTTCTATCTGTGCTTTTGCTAGAATAGGTCTTGCCAATGAAGTTCCTAACAAATATCTACCTTCATATAATGCATTTCCTTTTAATGCTGGAAAAATGAAATCTGTAACAAATTCTTTTCTTAAGTCATATGTTGTAACATCCGATGCTCCTGTTTTTAAAGCTTTTTCTTCAATTTCTTGAAAATTTTCTTTCTGACCAACATTTCCAATAAAACAAAAAACTTCAAACCCAGAATTTGATAACCACTTTAAAATTACAGATGTATCTAAACCGCCACTATATGCTAAAACAATTTTTTTCACAATTTTTGTGTCTCCCTAAAACATTTAAAAAAAAACCCCCAAAGTAATTGGGGGTTTTAAAATTCAATATATATCCCTGATTACTTTTTTAAAAAAGATTTTTTTCTCTTTAATTGATTTAATATGATACGCATAACAGTGATTAAAGTAAATGATTTCATGATGAAAACAAAGAATTTAAATAATACTAAGCATTATGAATTTCTTGAATAGTTCTAACCTGATTTTTATTAGTTGACTTAATAGCTTTTATTAAAGCTTGAGCTGCTGATAATGTTGTTAAAACTGGAATACGAGATTGAATAGCTGCAATTCCAATTGAATTTTCATCAAATCTAGATTGTGCTCCAAGAGGTGTATTTATAACTAAACTAATTTCTTTGTTCTTAATTCCATCAAGAGTATTAGGTCGACCTTCACCAACTTTATAAATTGTATCAACTGTTAAGTTCTCTTTTTTTAAAAATTCAGCTGTACCCTTTGTTGCTATTATTTTAAAACCTATGTTTAATAAATCTTTAACGATAGGTATTAATTTAGGTTTATCAAAATCATTAACTGAAATAAAAGCTTTTCCTTTAATTGGAAGCTGGTTTCCATCACCCATAATTGCCTTTGAAAAAGCATCGCCAAATTCTGGCGCGATACCCATTACCTCTCCGGTTGATTTCATTTCTGGACCTAAAAAAATATTTTCGTTAGGAAATTTATTAAATGGGAAAACTGGTTTTTTTACAGCGATATGTTTATTTGTTGACCATTTTTTTAAATTATAATCCTTCAATTTTTTTCCTAAAGCTATTCCAGTAGCAATTTGAGCTAATGGTACATTAGTTGCTTTACTTACAAATGGAACTGTTCGACTAGCACGAGGATTAACTTCAATAACATAAACAACTCCATTTTTTTCAGCAAATTGAATATTAACTAAACCTTTAACTCCAACTTCAATTGATAATTGCCTAGTATAATTTTCAATCTTTTCTAAACATTCCTTACTCAACCAATATGGTGGTAAAACACATGATGAATCTCCACTATGAATCCCAGCCTCTTCTATATGTTGCATTACACCAGCAATGTAAACTTCACTTCCATCACATATTGCGTCAACATCAAATTCAAATGCATCCTCTAAAAATGCATCAACTAAAATAGGATGTTCTGGAGATATATCTGCAGCTCTTTGTACATAATTAATTAAATGTTTATCATCATAAACAATTTCCATTGCCCTTCCACCAAGCACATAAGAAGGTCTTACAAGAACTGGATATCCAATTCTTTTGGCAACTTCCTTTGCCTCATCAGTTGAAAAAGCTGTTCCATACTCTGGCTTTGGAATATTCAATCTATCTAATATTAAACCAAATTTTTCTCTATTTTCTGCTAAATCTATAGCATGTGGGGAAGTTCCTAATATTGGAGCACCAGCATCTAATAATTTTTTAGCAATATTTAATGGTGTTTGTCCACCAAATTGTACTAAAACACCATCTGGTTTTTCTAAATCAATAATATTCATAACATCTTCAAATGTTACGGGTTCAAAATAAAGTCGATCAGTTATATCAAAATCAGTTGAAACCGTTTCAGGATTACAATTTATCATTATTGCTTTCCAGCCAAGCGCTTTTGCTGCAAAAACTGCTTGAACACAACAATAATCAAATTCGATACCTTGTCCAATTCTATTTGGTCCACCACCTAGAATAACAATTTTTTTACCCTTAAGTGGTTTTATTTCATTTTCTTGTTCATAAGTGGAATAACAATAAGGTGTTTTAGCTTCAAATTCTGCAGCACAAGTGTCAACTACTTTATATGTAGGTATGATTTGATTTTTTTTTCTAATTAAACGAATTTCTTCCTCTGTTTTTTTAAATAATTTAGCTATTTGAAAATCAGAAAAACCTTCTTGCTTAAGATATTTGATTTTCTTTAAATCGATATCAACTAATTGACTATCAAAAACAATTTGTTGAATATTTCTTAAGAACCATTTATCAATTTTTGTTAATTCATATATCTCTTCAATACTTTTTCCCTCTACAAAAGCTTGTCTGATTTTAAGTAGTCTAAAAGTTGTTGCATAAGTTAAATTTGACATGTTTAATGATCTATGACCTTCTTTAGGGTCTAAACCATAGAGACCAATTTCTAAAGATCTAAATGCCTTTTGAAGAGATTCTCTAAAATTTCTACCAATAGACATTACCTCTCCAACTGATTGCATTTGAACACCTAATTGACCCGAAGCTGATGGAAACTTTTCAAAATCCCATCTTGGAATTTTTGTAACAACATAATCAATAGTGGGTTCAAATGCTGCTAATGTTTTACCTGTTATATCATTATTTAATTCATCAAGACTATACCCAACAGCAAGTTTTGCTGCAATTTTAGCAATTGGGAAACCTGTTGCTTTAGATGCTAAGGCCGATGATCTTGACACCCTAGGATTCATTTCAATAATAACCATTCTTCCATTTTTGGGATTTACTGCAAATTGCACATTCGAACCTCCCGTATCAACTCCAATTTCTCTTATACATTTAATTGCAGAATCTCTCATTAATTGATATTCCTGATCCGTCAAAGTTTGTGCGGGAGCAACTGTAATGGAGTCTCCTGTATGTACACCCATCGGATCTACATTTTCAATTGAACAAATAATTATTACGTTATCATTTTTATCTCTAATAACTTCTAATTCAAATTCTTTCCAACCTAATAAAGACTCCTCAATTAATATTTCTGAAATTGGACTTGATTCTATTCCCTTTTCTGCAAGCTCTAGAAATTCTTCATAATTATAGGCAATTGCACCACCTGTACCCCCCAATGTAAAAGAAGGTCTTATAATGATTGGAAAACCCATTTTTTGAATTATTTTTTTAGATTCATTTAATGTTTTTGCAAAACCTCCATGGGCTATGTCAATATTAATTGATTCCATTGCTTCTTTAAATTTTTCTCGATCTTCTGCTTTCTGAATGGCTTTTATATTAGCACCAATTAATTCAACTTTATTCTTTTTTAATACACCAGCTTCTTTTAATTCAACTGCGAGATTTAAAGCAGTTTGTCCACCAACTGTTGGCAAAATAGCATTTGGATTTTCTTTTTCAATAATTGATGTTAATGACTCTAAGGTTAATGGCTCTATATATGTAGCATCTGCCATTTCCGGATCTGTCATAATAGTTGCAGGATTTGAATTAACTAAAATAATTCTATAGCCCTCTTCTTTTAAAGCCTTACATGCCTGAGTACCAGAATAATCAAACTCACATGCTTGGCCTATTATTATTGGTCCTGCACCAATAATTAGTATAGAATCTAAATCTTTTCTTTTAGGCATTTTTCATTAAATTTTTAAATTTTTTAAATAAATATCTACTATCATGAGGACCCGGTCCTGATTCAGGATGGTATTGAACACAAAAAGCTTTACAAGAGTTTGATTCAAAACCTTCAACAGTATTATCATTTAAGTTTATATGCGTTATTTTAGTATCATTTGGTAATGAGTCTGGGTCAACAGCAAAACCATGATTTTGACTTGTAATTTCAATGGTATTTTTATTTAAATTTTTTACTGGATGATTAATACCATGATGACCAAATTTTAACTTATATGTTTTGGCTCCTAATGCAAGTGCTAATAATTGGTGACCTAAACAAATTCCAAAAATTGGTTTTTTACCTATTAATTTTTTAATTGTTTTAATACCATAATCAATTGCAGATGGATCTCCTGGGCCATTTGATAAAAAAATTCCATCTGGATTTAAATTTAAAATTTCTTCAGCATTAGTATTTGCAGGAACTATTTCAATATCACATTCATAATGACTTAATAACCTTAAAATATTACTTTTAATCCCAAAATCAATGGCAACAATTTTATTATTTTTTGAATTATTCTTTGATGCATAAAAATATTTTTTATCAGTCGAAACATTTTTTACTAAATCTAATCCATTCATTTGAGGAACTTTTTTAACTTTTTCCATCAATGATGATTTATTAAAATCAATTGTACTTATAATACCATTCATCAATCCCTCTTTCCTCAAATGAATTGTTAAGGCTCTGGTATCTATACCCTGAATACCAACAACACCGACTTCTTTCAAATAACTTCTTAATGAGGCATTTGACCTAAAATTTGATGGTATTACAGTCTCTTCTTTAATAATAAACCCAGAAACTTGGATTTTAGATGATTCTACATCCTGATTATTTGTACCATAGTTTCCAATATGGGGATATGTCATAGCAACAAGTTGACCGGAATAAGATGGGTCAGTAATTATTTCTTGATACCCTGACATTCCAGTGTTAAAACAAATTTCCCCTGAAGTTTCACCCTCTGCTCCCAATGAAAAACCTTCAAATTCTCTACCATCTTCAAGAAGCAATATTGCTGGTTTCTGTTTTAAAAAATTAACAAACGACATAATTTTTTGCAAAAAAATAGCCCATACGGGCCTGAAAAAATATATATTTAATTTTTTTCGTCAATTTATTTTATTTGAATTTTTATATTAAGTCTATATTTTAATTAAATTAAATTAGTAAAAAATAGAGACAAATATAACAAATGAATTTACCTATTCTCATAACAGGCAGCAAACAAAAAACTTAAAATGAATATTTTAATTATTTATGGACCTAATTTCAATTTAATTGGAGTTAAATCAGCATTATTAGATAAAAAAATCACATTAGATAAAATTAACAAAGAAATTAAAAATAAAATCAAAAACCATAAAATTAATTTAAAAACATTACAATCAAATGATGTTGGAAAAACAATTAATTTTCTTCACAAAAATCGAAACTGGTCCAATGCTATTTTAATTTCTCCTTCCTCCTGGAGTGTAAATCAATTCGACTTACTTGAAACTCTTCAAATTTTTGATAAACCATTAGTTGATGTCTATCTTGATGAAAAATATGATCAAAATAAATTTTTCAAAAAATCTATTTTTACAAGTATATCATTAAAAACTTTTGTTGGAGATCCAATTGAAATTTTTAAAAATGGGATTGAAGAAATTTTGAATTTAGAAAAATGAATCTATTTAAAATACTTCCAATATTTTTTTTGTTTTTCATTGCTTGCTCATCAAAACCTGAAATAATTTTAAATGAAATAGAACAAAATGAAAACCTAATAATTACTACTACTAATGAAAATAAATATGTTAATTTTAATTTTCCAAAAAATTTTAATGCAAATGATACAATAATAAATCAAGAACTAAAAAAATTCTCAAAAAAAATTAATTATTTTGAATTACTAAATACACAAGATTCAAGTTTTGTAAATAAAATTTATTCCTATTTCAATAAAGAAAATCAACATCCATATAGAATGTTTGAACTAAATTTGTCTGATACGTTAAAACAAGTAAAGTTTAAAATAGATTCAAATAAAATTCATCTGTTACTACAAATTTTACAGGATGATAAAACTGATATAAATAAAAAAGAAATTGAATTAATAGATGATTTTAGTTACATCGAAGATGGTCAGCTTTTGTTTCCATGTCCTAATATTGAAATTCCTTTGTCTTTAAACCTATTACCAAATGCTTCTAGAAAATATAGAAGTGGAATTCACCAAGGAATAGATTTTGCTGGAAATTACGATTCTGAGGTTAGGAGTGTTTTTGATGGAGTAATTATTAGAAGTGATCTTGATTATTACGAAGTATCAAATGAATTCAGAAACGATTTACTTAAAAAAGCCTCTATAATTCAAAGAACCCCTTCAGATATTTTTGTAAATATTCTTTATGGAAGAACTGTAATGATTGATCATGGTTTCAGTTTTACAAAGGATAAAAGAATAATTTCTATTTATGCACATTTATCTAAAATAAACCCCAAAATAAAAGTTGGTAAAAATATTTCAAGAGGTGATATCATAGGTAACGTTGGAAACAGTGGAACTAGTGATGGCGCAAAAGGTAATAGAAAATCAGCACATCTACATTTTGAATTAATTATTCAAGATAAGAATGGAGAAAGATACTTAGGAAAAAATATATATAATGAGGAACTACTTAAATTGCTTAATAGAGTTTTTTCTCATAAATAAATTCAATCAATATTTTTTTTTAACTCCAATTTCAATTTTTTTCTATCATATTTATTCTTATTTCCTTCAACATATGTTGAAGGAATACGATTTGTTGAACTAGTAAGCGATTTTTTAAATTTAGGTGTTGTTTTTTTTGTTATTTTTTTATCAAACGCCATTCAATTTCCCCTTGAAGCTTTTCCTTGTCTAACTCTAACATCTGAGGCGCCAGTATATATGTTTTTTGTTGAATCCCATGCAATGATATTTACAATACCTAATTTCTCTTTTTCAATTATTTCATAATCTTTTTCCTCAAGATAATTAATTATTTCATTTGAAAACCCTTTTTCAACGTAAATTGCATCAGGGATAAACTGTTGATGAAATCTTGGTTTAGATATTGCATTTTCAACTGATAAATTAAAATCAAGAATATTAATTATTGATTGTAAAACTGAAGTGATTATTCTTGGTCCTCCAGCTCCACCAACTATAATTATAGGTTTATCATTTTTTGTGATAATAGTTGGAGACATACTTGAGAGTGGCCTTTTATTACCTTCAATTGAATTAATTTCTCCACCTGTAAGACCAAATGCATTTGGTAAACCAGACTCAATACTAAAATCATCCATCTCATTATTTAAAATAACTCCTGTTCCAGGAACTGTAACTTTTGAACCAAAAGTATGATTAACCGTTTGATTAATAACCACTACATTTCCCCATTTATCTATTACACATAAATTAGTAGTATGACCTGAATTAAAATTTTGATTTGAATTATTTTTAATTTTTTTTTCTTTTGATTCAATATCTAATAATTTTTTTTGGGCATAAGATTTACTTATTAAATTTTTAATATTTATATTATTAAAATCAGGATCTCCTAAGTCATTAGACCTAGATTGAAACACCTCACTCATTATTAATGATATATAATAAATACTTTCTTTATCTAATTCTTTTTTACCATTTAAAATGCCTGAAATTTCAATCATATTCAACATTTGTAAAACATTAATTCCGCCCGAACTTGGAGGCCCCATTCCATAAACATTATAATTTTTATATTTACCTTGAATAGGTTCTCTTTGAATGGCTTTATAATTTCTCATATCATCATGGGTAATTAAACCTTCTCTTTCTTTCATTAACTTCACTAATTTGTTTGCAAATTCACCTTTATAAAAATAATCGATTCCATTTTTTCCAAATTTTTGATAAGTACTTGAAAGATCCTTTTGAATGAAAATATCACCCTTCTTAAACTCTTTTCCTTGACGATTGAAGTAAATTTTTCTTGACGAAGAATCTTTTTTTAATTCTTCAATATTTATTTTATATCTTCTAATATAGTCATCATCTAACTTAAAACCCTTTTTAGCGATATTAATTGATGGTTTAATTAATTCTTCCAATGTTTTTGTACCTGCTAAATTTAAAGCCTTTACATATGCAGCTGGCAATCCCGGAACAGCAACAGATAAAGGACCATTTTGGCTATAGTATAAATTTGTTTTACCATCAATATTATACATATTTCGTGTAGCTTTTCCTGGGGCCTTTTCTCTTCCATCAATACTAAAAATTTCTCCATTTGACAGTCTAATCATTATAAATGCACCTCCACCAAGACCTGAATTAAACTGATCAAGAACACCCAACGCTAAACCAGTTCCAATAGCAGCATCTATTGCATTTCCATTTTCATTCAAAATATTTATTCCTATTTCAGAGGCTATCGGATGTATCGATGAAACCACACTATTTGCTTTATTAAAAGCAATGGTCTTATTTTTACATGTAAACATATTAATTGATAAAAAAAATAATAAGTAAATTTTAAATTTATATAAATACATTTTTAATTTATTTAAGATAAACACTTTTTTTTGTTTTTATATTTCCATCAAATTCTACTTTAAATAGATATAATCCTGAATGAACTTGTAAACCCATTTCATTTTTTCCATCCCAATTAAAACTATATTTACCAACACCTGTTTTACCATTATATATTTGCTTTATCTTTTTACCTAACAAATCATAGATCGTAATATCTAAATTACCCTTTGTTGGAATATTAATATCTATGCTAACTATATTATTAAAAGGGTTTGGAAAAAGCTTTTCAATTAAAAATTCATTTGGAATACTTTCGTTTTCTATACCAATATAATTAACTTTCTTTAAAATCCAATTATTTGGATCTAAAATTACACTTTTAATATTTCTGCCTGAATGATTAATCTCAACCAATTGCTTTCTTTTATTATTATCTATTGAAATTTCAAAACTATCAACATTTGTTATTATTAATAAATCTAAAGGCATGTCAAAAATATTATTATTTTGTGTTTGTGTAATGTTAAGAAAGCTCTCTGAATCATTTATCTTAATTAACTCTATATCATATTCCGGAAAGTCTTCTCCATATATCCATTGTTTAAAAAAATTTTCTAAATCAATTCCTGATGTTTCTTCAGCAATTTCTTTAAAATCTTCTGTATTAGCTGATGAATACATGTATTTTGTCCTATAGTTTTTTAAAATTTTCCAAAAAATTTCATCAGTCACAACTCTTCTTAACATATGCAAAACCCAAGCAGCTTTTGCATAAACTAAATCATAAATAAATATATCATAAACTGTTTCTGGGTTATTTATATAAACACTTCCTTTACCAAAATATTCTATAGATTTCATAAATTTATTTCTAGTTTCAACACCTTCTTTTTTTTCATGCCATAGGGCTTGAGAATATGTTGCAAAACCTTCATTTAGCCATATATTATTAAAATCTTTACAAGTAACCATATCCCCCCACCATTGATGAGCAGCTTCATGAACTATTAAATACATATCTGGGCAACACATACTACTTATAGTTTGATGTTCCATTCCACCTGGCCATAAAAAACTAACATGACCATATTTTTCTTCTATAAAAGGATATTCTCCAAAAAAATCAGATAAAACTTTTAAAACTTCAGGTGTTTTATTGTAATTATTTTCAAAATATTCCTTTTGATCTGGAAAAACATAATGATGAATTGGTAATATTTTACCAGAATTGCTTTGAAAAGATTGTTCCCAAAAATCATATGGATAAATTGCTAATGAAACTAAATATGTGGCAATTGGATATCTCTCTTTCCATTGAAATGTGATAAGATTTTCATTAGAGGTTGAATCAACATCATCTAATAAACCATTTGAAACGACCATTTGACCTTTTTCAGTAGTTACCCTGATATAAACAGAATCAGCCTTATCAGAAGGATTGTGAATTCCTGGCCACCAATCTTTTCCTGCATAAGGTTCTGATAAAGTATATAAATGTTTAGAGGTATAATTTAATTTTTGATCAAATCTATCTAAAAAAGTAATACCTGAATTATTACCTTGAAATGGAGTTCCATTATATTTTATTTCAACATTTAAATTTTTTTCTTCTAAAGATGATGGTATTTCAATTTCTAAAATATCATCGTTATGAAAAAAATCAATTAAAGAATCATTTATTGTCACTTCTTCAACTTTAAGATAATTGCTCAAATCAAATAAAATTTTATCATTTGATTCAGATATTTTTGTCAACTTAGTTAAAACATTTCCATTTAAAGTTTTATTTCTTAGGTCTATTTTTAGATATATATCATAAAAATTAACATCAATATGACTTTGATGATTAATTTTTTTATTTAACTGATTAAGGTTTGAAAAGAAATGTGGTTTTTTGCATATATACTTGTGAGGAATATTCTGCGTATAAATAAATACTTGAAAAAATATATATATAAATAAAAATTTTACTATGTTTTTCATTATTTTTTGAAAAGTTAAATTAACTTTAATGAATTTTTTTTATTTTACAATATAAATCAGAATTTTGTTAATTTCTTCTATGTTTAATTTAAAATTACACTGGCAAGTCTTAATTGCAATGATTGGTGGAGCATTTGTTGCAATGATTTTTGGTGAAAGAGCTTTAATTTTTTCACCTTTAGGTACAATTTTTATGAAATTACTAAAAATGGTAATTGTTCCTTTAATTTTATTTTCTGTCACAAGTGGAGTTACAAGTATTGGAGATAGCAATACATTAGGAAGAATGGGAGTTAAGGTTTTTGGTTATTATATGTTAACATCAATCTTAGCCATTTTAGTAGGTTTGTCATTAACAAACTTATTACAACCTGGAAGAGGAATAAATTTTTCTGTTGATTCAAATAAATTTGATCCATCAACATTATCCCAACCAAATTCATTAGCGGATATAATAATAAGAATGATTCCAAGCAATCCCATTAAAGCAATGGCTGATGGAGAAATTTTAGCACTTATTTTTTGGTCAATTGTTTTAGGAATTGCAATAACCCAAATTTCTGATAAACCTAAAAAAGCTATTATTAAAGGTTTTGATTATGGATTTGAATTAATGATGAAATTAACTCAAGGTATTATTTCATTTCTACCTATTGGTGTTTTTGGATTAATAATTAATGCAATAGTTAATTCTGGAATTGATTTATTTAAAGTTATAGGTTTTTATTGGATAACTATTGCAATTGGTCTTTCAATTCATTGGTTAATAATTTTACCATTAGTTTTTTATTCATTTACAAAGATTAATCCAATTAAGCACTGGAAAGCGATGTCATCAGCTTTTATAACTGCATTCTCAACAAGTACAAGCCTGGGAACATTACCAGTAACAATGAATTGTTTAAAAAAAAACATAGGGGTATCAAATAAAACATCAAGTTTTGTTTTACCTTTAGGTGCAACAATTAATATGGATGGAACAGCTTTATATGAATGTGCTGGGGTGTTATTTATATCTCAAGTTTTAGGAGCTGAGCTCGAAATTTATCAACAGTTCATAATTGTAATTACAGCATTTTTAGCATCAATAGGAACCGCAGCAATACCTTCTGCAGGTTTAGTGATGATATTTATTGTTTTAGATGCGGTTGGTTTAAGCAATAACCCTGAAGTACCAATTATTGTTGGTGCAATGTTAGCTGTTGACAGACCACTCGATATGTTTAGAACGGTGATAAACATTACAAGCGATAGTATTGGTGCAGTAATTCTCGCAAAAAGTGAAAATGAAAAGAACCTTTACAAAAAATTATAATGAGATAATATTTATTTTTTTATTGTTCTTTTTAATTACATTCATATAAATTAAACGTAACGCTGTGGCAATAATGAATAAACATATAAATATATTTTTATCAACTCTATCTTTATTATTTATTTTAGGCTGTAATAATAATCCAAATAGACATTTTGAACTTGGAAATTGGTATTATGAAAAAGGTTTAATTGATGAAGCTATTTTGGAATACAGAGAAGTTATTAGATTATATCCAAATGAAACAAAACTAATGAATCGAGAAGATTTGGAACTCGCCTCAAAAGCTCATTTTAATTTAGCAATAGCATATTCACAAAAAGGATGGTTCGAATATGCTTTAAAAGAAGCTGAAACTACATTCAATATGTACCCAACTAAAGAAAACTACGAAATGGTAGAATTATTAAAAAAGAGAAAAAGTCTCGATTTAATTGAAATTAATTCTGACAGTTAAATTCATCTATTTTAAAAAGTACCAGAACGGTGTTCTCCACCATCTGTATAAATTATTGAACAATTAATAAAATCTGCTTCTGGTTCTAACATTAAACTAATTATATTGGCAACATCTTTTGGTTCAGTTGTTCTTCCCATAGGATTTCTTTTTTTTGTTTTGTCAACCCATTCTTCCCATTTATCAGTGATTTTTGTTAAAGCTCTTGTAGGTGTAATTCCTGCTTGAATACAATTTGCAGTTATACCATAAGACCCTAATTCCCAACCAATTTGTCTAGTTATACTTTCAAGTGCAACTTTTGCAACACTTACAGGACCATAACCTTCCATTGCCAAATAGTTTCCTTCCGAAGTTAAACCAAAAACTCTAGATCCTTCACCAATTAGATCTTCTTTAAAAAGCTTTTGAACCCAATAAAGCAGTGAATTACCCATAACATGAACAGTCATATCCATCTGTTTTTGAGTAACAGGCTTAGATCCAAAAAAATTTGTTGTAGTACCAAAAGCTATTGAATGAAGCAACATTTTTAAATAATTTCCATTTGTTATCTCCTTTATAACAGGAATATATTCATCCATTATATTAACGTCAGCTGCATTTTTATTAAAAAAATGAACTCGGCCATCATTTAATTCTTTTAATTCATCTGACAATTTTTCAGCTTCAACTTTAATTTCACCCCTATCAAAGTGAAAACCAATAATACCATATCCTTTTTCTGCTAACTTTCTACTAGTTTCACCACCATGACCAGTGGAACAACCCAAAACAAGAACCCAAGGTTTCATAATATTTCTCCTATCTCATTATTTATATAATGGGCAAATTATCTAAATTGAACGTAAACTTAGGTAGGTAATTTTGCTAGGAAAAAACAATTTATGAAGATGAAAAAAAAAGAAAATTATAATAAATCTGAATTATTTCAATTTTCTGATGGTGCATTTGGGTCTGAAATTTCAAAACTTCCTTTACCTCCCATGCTTATGATTGATAGAATAAGTAAAATATCTGAAGATGGAGGTAAATATAATAAGGGTCAGATAATTGCTGAAATGGAAATAAATCCAAAACTATGGTTTTTTGATTGTCATTTCAAAGATGACCCTGTTATGCCAGGCTGTTTAGGTTTAGATGCTTTATGGCAACTCACAGGATTTTACCTTACATGGCTGGGTGGAACAGGAAAAGGAAGAGCTTTGGGCTGCGGAGAAGTAAAGTTTAAAGGACAAATAAGACCACATCATAAACTAATAAAATATAAAATTGATATTAAAAAAATTATCAAAAAACCTATTTGGATGGGAATGACTGATGCTACATTAGAGGTATCAAATAAAACAATTTATTTTGCAAAAAACCTTCAAGTTGGTCTTTTTGATAATCTTACATATCCACCATCAAAAGGAGAGGAAGAACCGTTTTAAAATGAAAAGAGTAGTTATTACAGGAATAGGCATAGTATCAAGCATTGGAAACAACGTAAATGAAGTTTTAAAATCACTTCAATTAGAAAAAAGTGGTATTTCATTTAACAAAGAACAAGCAGATCTTGGATTTCGTTCACATGTTTGTGGGGATATTTCAGCAGATATTAAAAAGTTAGTTCCAAGAAAAGATCTTAGATTCATGGGAGATGGAGCAGCATATAGTCATATTTCAATGGCTGAAGCAATAAATGATTCTAAATTATCCCAAGATGAAATCTCAAATAATAGAACCGGTTTAATTGTTGGGTCAGGTGCTTCAAGTGGACTACCTATCGTTGAAATGTCAGATGTACTAAGAAGTAAAGGAGCGAGAAGAGTTAATCCATTTTTTGTTCCTAAAATAATGTCGAGTTGTAATTCAGCCAATTTGGCTACAGCATTTAAAATAAAAGGATTTAATTATAGTATTAGTTCAGCTTGTGCAACAAGCAGTCATTGTTTAGGAAATGCATTTCATACCATTCAAAATGGTCTACAAGACAGAATGTTTGTTGGGGGCGGCGATGAAATAACTTATATAATTACTTTACCATTTGATGCAATGGGTGCATTAAGTGCTAATTTTAATGATATTCCAGAAAAAGCAAGTAGGCCATATGACAAAGACAGAGATGGTTTTGTAGTCTCTGGTGGAGGAGGCACAATTATTCTAGAAGAATATGAAATTGCCAAAAATAGAGGTGCAAAAATATATTGTGAAGTTACAGGATATGGTCTCTCTTCTGATGGTTTTGATATGGTTAGACCATCTGGGGAAGGAGCAGAATTTTGCATGAAAATGGCAACTAAAGATTTAAAAGAACCAATTGATTATTTGAATGCTCATGGAACCTCAACTCCAGCTGGTGACATTACTGAACTTAAAGCAATAAAAAATGCCTTTAGCGACAAAGGTTATATGCCATTAATTAGTTCTACTAAATCATTAACCGGACATTCTCTTGGAGCTGCTGGTGTTCATGAATCTATTTATTCAATTTTAATGTTAAAAAATAGTTTTATTCCTGCATCTGTAAACATTGATAATCTAGATCCTGAAGCAGAGGGATTTCCAATAGTTCAAGAAGGTATCCAAAATCAAGTTTTAAACAATGTAATGTCAAATAGTTTTGGTTTTGGTGGTACAAACTGTTCATTGGTTTTTAGTAGAATTTAAGTGTCATTACAATGTGGAATAGTTGGTTTACCTAATGTTGGAAAATCAACTCTATTTAATGCACTAACTTCATCTGATATACCTGCTGAAAATTATCCATTTTGTACAGTTGATCCAAATGTTGGTATAGTTAATATTGATGATAAAAGATTAAATAATATTATTTCGTTTTTTAATCCAAAAAAAATTGTAAAAAATACAATTGAATTTGTGGATATCGCAGGATTAGTAAAAGGTGCTAGCAAGGGAGAGGGTTTAGGAAACCAATTTTTAAGCCAAATTCGTCAAGTAGAAACAATTATTCACGTTGTTAGATGTTTTGATAACGACAATATAACTCATGTTGAACAATCTGTTGATCCTATTAGGGATGTTGAATTAATTAATACAGAGTTATTAATTAAGGATATTGAAACAATTGATAAAAAATTAATCAAAGCACAAAAAGATTCAAGATCTGGTTCTAAAGAATCAAAACAACGATTAGACTTTTACAATTCTTTATCACAACACTGTAATCAAGGAAAAACTGCTAACCTTTTTCACGTTCCAGATGAAATGAATGAAGAAATGAAACAACTTCAATTGTTATCAAATAAAAGAATATTATATGTTGCAAATGTTGACGAACAGGAAATTACAAATGATAATGATAACGAATATTCAAAAAAATTAATCCACTATTCAAAATCTCAAGGAAATGATACAATCAAACTTTGTTGTAAATTAGAACAAGACCTTTCTGTTTTAGATGAATCAGAAAAAAAAGAATTTTTAAAAGAGTTCAATCTTAAAGAAATTGGATTAAACAAGTTAATATCGAAAGCTTATCAATTATTAAATTTAGAAACTTTTTTTACAGGTGGACCTGAAGAGGTTAGAGCCTGGACTATAAAAAAAGGTTCAACAGCACCTGAAGCTGCTGGAAAAATACATACCGACTTTCAAAGAGGTTTTATAAAGGCAGAAACATATCATTATAGTGATATGTTAAATTATAATAATGAAATATCCCTCAAAGAGGCCGGTAAAATTCGTGTTGAAGGAAAAAATTATATTGTTAAAGATGGTGACATAATTTTTTTTAAGTTTAATGTATAGGTTTTAATATGTATTTTTTTATGATACTTATATATCTTTTATCTTTTACCTCACTAATATTATTAGTCTTATCTGGTTTTGAAGGAGTTTTTAAATTAAATATTTATGGTGGTTTATTCCCAACACCTCTAGGGTTTATTACAGCTTTAGTTTATCTATTTACAGAAGTATTAGTAATGTTTTTTTTTGTAGGTACTGGTGTGAGTATAAAAGAATTTGTCGAAAATAATAAACTAGATAAATCTTTTCACGAACGTTCTTTTCACATTAAAAGAAAATTATATCCTCCAACATTATTAAATGTTTTATTAATAATGACAGTTTTTATAATTGGGGGAGGAGTTGATACAAAAGTAATTCCTTATTGGGTCCACGGAGGTTTATTCTATATTTCTTTTTTTCATTATCTAAAAGTAAAACTTGTTCAAAATAAATGCTTTAAAGATAATACATCAATTATTTTAGATATGACTGGGGTTTCAAAAAAAAAATAAAATAATTTTACTTTAAGATTTTACTTTTGAATTTACATATGTAAAATTAGTCTTTCATTATGAATCATTTTAACTATAAATCAAAATGAGCGATACTCTAAATCAATTAACAACAATTGTTGGAGCACAATGGGGTGACGAAGGCAAAGGAAAAATTACAGACTATTTTGCAGGAAATTCTGATTATGTAGTCAGATTTCAAGGTGGAAACAATGCAGGTCACACTGTAATTGTAAATGGAAATGAATATCATTTACATCATATTCCATCAGGTGTTTTATATAAACATCCTGTTTCTGTAATTTCAAATGGCGTTGTTATTAACCCTAAGGAATTAATTAATGAAATTAATTCCTTAATAGATAAGGGAATAACACCTAATTTAAAAATCAGTGACAGAGCTCATCTTATTATGCCCTACCATATAGTAATGGACGAATGTTTAACATTACATCAAGGAGAACTTGCTGCAGGAAGTACCAAAAGAGGGATTGCTCCCGTTTATGCTGATAAAGCATATAGACATGGTATAAGAATTGGAGACATTCTTGAGCCAGCTATTTTCGAAGAAAAATTAAAAAGATCATATGATTTTAATAAAAAAGTAGTAACTCAAGCTTTTGGTAAAAAATTTGATTTAGATATAAATGATATCTATACCGATTATGTTGAATATGGCAATATCTTAAATGATTATATTATTGATACTCAAGTTGCTCTCTATAAAGAATATAAACTAAATAAGACTTTCTTATTCGAAGGAGCACAAGGGATGACACTTGATGTAGACCATGGTTTATACCCACATACTACTAGCTCAAATACTATAGCTGGTCAAGTTAATGTAGGCACTGGAATTGAGTTTAATGATAAAAAAAGAATTATTGGTGTAGCAAAATGTTATGTTAGCAGAGTTGGTGTTTCACCATTTCCAACAGAAATAAATGGTGAAGAATCAGACTTTCTTAGACAAAAGGGTAAAGAATTTGGTACAACTACAGGAAGACCTAGAAGAGTTGGTCATCTTGATCTTGTCCAACTAAAACAAGCAGTTAGAGTCAATGGTTTTACAGAAATAGCTTTTACTAAATTAGATATATTATCTGGAATAAAAGAAATAAAAATATGTGATTCTTATCAAATTCTAGGTAAGAAATATGATGAAACTCCAGGTAGTTTGGGTAAAATACGCTTAGCTAAACCAAACTATATATCAATGGAAGGTTGGGAATCTATGGATCAAGCATCAATAGAAAAAATATCAAAAAAGGGATTTGATTTCTTGCCAAATGCTTTAAAAGAATATATATATTTTATTGAGGATAAGATTAATTGTCCTATTAAGATTATATCTATCGGCCCACAAAGACATCAAACAATTTTGAGGTAATTATTGTCATTTATAAACGAAATTTTTGATTTTAATTCCTTATCAAACAGTGAAATAAAAAAAGTTTTAAAAAAAAATAATATTGCCCTATCAAATGAAGAAGTTTTAAGAATACAAAATAAAATTTTAAAACGTCCACCAACTTTATCAGAGTGTATACTTTGGTCAATTCAAGGTTCAGAACATTGTTCATATAAAAGTAGTCGAATACATCTGAATGAATTAATTACAGATGGTCCCAACATCATTCTTGGTCCAAAAGAAGATGCAGGGATTGTATCAGTTGCTATTGACAATCAAGGAAAAAGATATGGAATAGTAATAAGCCATGAATCTCACAATCATCCATCACAAATTGTTCCATATGAAGGAGCTGCTACCGGTGTTGGTGGAAATGTTAGAGATGTTTCTTGTATGGGAGCTAAGGTTATAGGCATTTCAGATTCTTTAAGATTCGGAGATATTAGTTCTGCTAAAACAAAATGGATTAAAGAAGGAGTTATTTCAGGTATAGCTGGATATGGAAACCCTTTAGGTATTCCAAATATTGGTGGTGATTTATATTTTGATGAAGAATATAATGATAACTGTTTAGTAACAATTGTAACTATTGGAATAGTTCGAGAAGATCAAGTAATTCATTCAATGGCTCCAAAAAATTCAGCTGGGTATGATATTATTTTAATTGGAAAACCAACAGATAACAGCGGATTTGGAGGTGCAAGTTTTGCTTCATTAGAACTAAATGAAGAAGAAAAAGAATTAAAGAAAGCGGCTGTTCAAGAACCAAATGCATTCCTTGAGAGACATATACTTAAAGCAACATATAGTTTATTTGATAAATTAAGACACGATAAATTGGACAAGCTAGTGGGTTTTAAAGATTTAGGTGCAGGCGGAATTGCTTGTGCTTCAGTTGAATTAGCTGATAGTGCTGGATTAGGCGCAGAAATCTTTCTTGATAATGCCCATGTCAGTCAAAAAAATTTACACCCTTCTGTAGTTCTTTGTTCTGAAACACAAGAAAGATTTATGTGGGTAGCTCATCCCGATATATCTCAAATGATTGTAGATCATTATAATTTAAAGTTTGAATTACCCGAAGTATCTCATAATGCAAAAGCTACTATAATTGGTAAAATAAGATCAGATGATAAATATATTGTTCATAGTAAAAATGAAATTTTAATTAATGCTAAGACTCAAGATATTACAAAAGGATTTATTTATAATAGAAAAACAAAAGAGCCAAAAACTGTTTTTTCAGAACCAAACATTAAAAAATTAAATAATTTAAAATCTATTTTTCTTAAAGTTCTTTCACATGAAAACGTATCAAGTCGAGAACCAATTTTTGAATATTATGATAAACAAGTTCAAGGAAGAACTATTTTAGAATCTGGGGAAGCTGATTCCGGGGTTTTACAACCTTTTAATAATGATAATTATCCACAAGAAATTAGAAATGTTGGAATTGCAATTTCTACAGATCACAATCCAAGGTTTGGAAAAATCTCACCTTACTGGTGTGCAATCAATGCTATTGTTGAAGCAATACAAAATGTTGTTTCTGTTGGTGCCACTCCACAAGCATTAACTGATTGCTTATGCTTTGGAAATCCAGAAAAACCTGAACAAATGTGGCAATTCGTTGAAAGTATTAAAGGAATTAAATATGCATGTGAAAAACTAAAACTAATTGAACATCCGAATCATTCAATTCCTATAATTAGTGGAAATGTATCTTTCTATAATGAATCCAAAAATGGTCCCATTCCTTCAAGTCCAATAATCAGTTGCGTTGGCAAAATAAATGATATAGAAAACGTATTGTCTAAAGACTTTAAAAAGAAAAATTCAATTATTTTATTAATAGGGAAAAGAAAAGATGAGCTTGGTGGAAGTGTTTATTATAATTTATTTAATGAAATTGGAAAGAACTTACCAAAACCAGATTTAAATCAAGTACAAAGTCAAATAGTAGCAATTTCTAAATGTATTGAAAATAAATTACTATTATCATGTCATGATATATCAGATGGTGGACTTGCAGTGACTATTGCTGAAATGATGTTCAAAAATAAAATTGGTTGTAATATAAATCTCGAAGATGAATTAAGTTTTACAAAACAATTATTTTCTGAAACAGGTGGATACATAATTGAAATTGAAAAAAAATTATTTAATAACGCTGTGAAAATATTAAATCAAAATAATGTTTATTATAAAAAAATTGGAGAAACCAATCATTCTTCATTACTTAATATTAATAGTGAAATGATAATACCAATTCAAGAACTATATGAAAGCTGGAAATTTGGATTAAGGGAAAAATTAAAATAATGAAAATGAATTATAAAAAAGCTGGTGTTAACATTGACGCAGGAAATGAAGCTGTTGATCAAATAAAAAATGAAGTTAAAAAAACTTTTTCAAAAAATGTTCTAACAAATTTAGGCAGCTTTGGTTCATTATATGATATATCAGATATAAAAAATAATTATACTCATCCAGTTATGGTTCAAAGCATCGATGGTGTTGGAACAAAAACAATCATTGCTAGAAAATTAAGAAAATTTGATACTATTGGAATTGACTTATTGAGCGCATGTTCAAATGACATAATTGTAATGGGTGCAAAACCATTAACATTTTTAGATTATATTGCAAATGACAAGCTTGATCCATTTATAATTAAAGAAATTGTATCTGGAATGGTTAAAGCTTGCAATGAAAATAATGTTTCACTTGTAGGTGGAGAAACAGCTGAAATGCCAGATACATACCATAAAGGCGAGCATGACCTTGTTGGCATTATAACTGGTATGGTGGAAAAAGAAAAAATAATCACTGGTAATAATATTAAAGAGGGGGATATTTTATTAGGTCTTGAATCAAATGGATTACATACAAATGGATATTCATTAGCTAGAAAATTATTTTTTGAAATAGGAAAATTTAACGTAGAAGATAAAATACCCGAATTTCATAAAAATATTGGACTTACTTTACTTGAGCCACATATTAATTATACAAAACATGTTTTTTCACTTATAAATAATAATATAAATGTTAAAGGAATAGCTCACATCACAGGTGGAGGTTTAATTGAAAATATTCCAAGAATAATTCCTTCACAATTTGGTGTGGAAATTTATAAAAAATCTTGGTCTCCTCTCCCTGTTTTTGATGTAATGAAGAATTTAGGAAAAATTAGTGACATTGAAATGTTTCGAACATTTAATATGGGAATTGGATTAGTTATAATTATAAATCAAAATGATCAAAAATTAGTAAAAACTATTTTATCAAATTTTTGTAAAGTTTTTGAAATAGGAATTGTAAATAATAACAAAAAAAAGATCGAATTAATTTAATAATATGAAAAATATTGCTATAGTTCAGTTTCCAGGATCAAATACTGAGAGAGAAACGTCTATGGCATGTAAAAGAGTTGGACTTAATCCAATAGACTTTTTGTGGAATGAAAAAAAAGCTTTTTTATCTGATTTCGATGGTTACATAATTATTGGTGGTTTCTCTTACGAAGACAGATCAAGAGCAGGGATTTTAGCTGCACTTGACCCTATAATCGAAATGATTAAACTTGAATCTGAAAAAGGAAAACCAGTTCTAGGAATATGTAATGGAGCTCAAATTCTTGTTGAATCAGGATTAGTCCCCGGTATAAATAATTATAATATTTCGATAGCTTTATCCAAAAATAAAAGAATTTTTAATAATGAAGTTTTAGGTGTCGGATACTATAATAACTGGTCAAATTTAAAAATGATTGTTGATTCAAAAAGATCTGCTTTTACTAGACATTTCAAAAAGAACGAACTTTTTAATGCTCCTTTTGCTCACGGTGAAGGAAGATTTATAATAAATAATGATCTATTAAAAAAAATGATTGAAAATCAACAAGTTTTATTTCAATATTGCAATAATGATGGAGATGCTATAAATGAATTCCCCACAAATCCAAATGGTTCTGTTTTTAATATTTCAGCAGTTTCAAATTTAAATGGAAATATTATGGCAATGATGCCACATCCAGAAAGAACTATAAATGGAGATAAAATTTTTTCATCAATGAAAGAATTTATTGAAAAAAAAAACCCTATCTTCTCAACTGATATAAATCTTAAACCTAATAATCTTGAGATTAAAAAATATATAAAACCAAAACAACATTTAGAATTAATTATAAGTACAATAATCACAGATAATGAATCTGTCTCCGTACAAAAAAAACTAAACCAATTAAATTGTAATATAAGTATTTCTAAACAGATACATTGGGAAATACAAATTGAAAAACAATCTGAAAGTATTTTAAGTGAAATTATAGAATCAGGAGAGTTATTTAATTCTAATAAAGAATTTCTAACTAAAGTTAATAATAAAGAAAAAAATTATAAATTTCTTATTAGAGAAAAAGATGATATTTATGCTAGGTCAAAATTTCAAAGTTTAAAAAATAGATTTGAAATCGATGAAATTTTATCACTCAAACATGGTGTTTTATGGACAATATCATCAAAATTAACTAACTTTGAAAGTGAAATTCAAAAAGTTTTAGATACAAATATTTTATTAAACCCACTTGGACAGGAATGTTATGAAATTACCAATTAATTATGAACATGAAATTAAATCATCTTTGAATAATACTATTACAGAAACTAAAATAAAAACAGGAGAAAAATTAACCGGAAAAGTTAGAGATCAATATGATATTGGTGAAAAAATTATTTTATTAACAACTGATAGACAAAGCGCATTTGATAGAGTTCTTGCATCTATCCCATTTAAGGGTCAAGTGTTAAATCAAACAAGTGCTTGGTGGTTTGAGAAAACAAAAGAAATTATTCCAAATCATGTTATTGATATTCCTGATCCAAATATTACTTTAGCAAAAAAATGTAAGGTTTTCCCAATAGAATTTGTTGTTAGAGGTTATATAACTGGAAGTACATCTACATCATTATGGACAGTTTATAAAAATGGTGACAGACAATATTGTGGAAATTTTCTCGAAGAAGGAATGAAAAAAAATCAGAAACTCACAAACAATATGCTAACACCAACAACAAAAGAAAAGGATCATGACCGTCCTATTTCTCCTGAAGATATTGTAAAAGAGGGTTGGATGTCTCAAAAACATTGGGATTATTGTAGTAAAAAAGCATTAGAACTATTTTCTTTTGGACAGAAATTAGCAGATTCAAACGGATTGATTTTAGTTGATACAAAATACGAAATGGGAATTGATAATAATGGTGAAATTGTATTAATTGATGAAATTCATACTCCTGATTCAAGCAGATATTGGATTAAAGAGAGCTATCATGAAAGACTAAAAAATAATTTAGAACCCGAAAATATTGATAAGGAATTTTTAAGGTTATGGTTTGTTGATAATTGTGATCCATATAATGACGTTAACCTTCCGGATGCTCCTGACGATTTGATTATAGAATTATCAAAAAGATATATTTATTTATTTGAAACTATAACTGGGGAAAAATTTACTTTTCCAAACCATGAACCAATACAAAATAGACTAAATAATAATTTGAAAGGAATAATATGAAAGTTGTAATCATTATGGGTTCTAGCTCAGATGAAAATCACGCAAGTAAAATAACCAAACATTTAGATGAGTTTAAAATACCTTGGTCTCAACATGTTGCATCTGCACATAAACAGCCACTAAAAGTATTAGAAATTTTAAATGATAATCAAAATGAAAAAAAATTGATTTATATTACAATTGCAGGAAGATCAAATGCACTATCTGGTTTTGTAGCTGCAAATTCAAATCATCCAACTTTAGGTTGTCCTCCATTTTCAGATAAAGCAGACATGTTAGTAAATATTCATTCAACTCTTCAAATGCCAAGCAATACTCCCGTAATGACTGTTATAGATCCTCAAAACTGTGCTCTAGCAGTAAAAAGAATTTTTGGTGAATAAGAATTTACTCAACCTATCCCCTTTAGATGGTAGATATGCCAATGATCTTATTGATCTAAATTCTTTTTTTTCAGAAATGTCTCTTATGCAATATCGCATTAAAATTGAGGTTGAATATTTAATAGCACTAAGCAGTGAAAAAAAAATTCAAAACATTGAACCTCTCAATAAAAAAGAAATCCATGATTTAAGAAAAATTTATCTTGATTTTGATTTTTCTGAAGCAAAAAAAATCAAAAAAATTGAAAAAGAAACAAATCATGATGTAAAAGCTGTTGAATATTATTTACACACAAGAATAAAAAAAGAACTTCATGCTTGGATACATTTTGGACTTACTTCTGAAGATATAAACAATCTATGCTATACATTAATGTGGAAAGATGCAATTGAAAGTCAATATATAAAAACTCTCATAAAAGTTTGTGATGAATTAACATTACTGTCAAAAAAATATAAAAACATTTCCATGCTTTCGTTGACACATGGACAACCAGCTAGCCCAACAACAGTTGGAAAAGAATTTGCAGTATTTAGCCATCGAATTACTAAATCTTTAAAATCATTACGAAAACATTCTTTTGAGGCAAAATTTAGTGGTGCTACAGGAAACTGGTCAGCACATTCAGTTAGTTTTAAAGAAGTTAATTGGATCGAATTTTCCAAAAGATTTTTAATTTCGTTTGATCTACAACCCAATCTAATAACTACTCAAATTGAACCAAACGATTCTTTGGCTGAAAGTTTTCATCAAATAATTAGAATTAACACTATCCTAACTGATTTTTGTCAAGATATCTGGCTATATATTTGTAGGGGTGTTTTTAAACAAAAAAAAGTTTCTTCTGAGGTTGGGTCTTCAACAATGCCACATAAAATAAACCCTATAAACTTTGAAAATGCTGAAGGAAATCTTGGTTTAGGAAGTACTATTTTAAACCATCTTTCTATGAAATTATCTATTTCAAGAATGCAAAGAGATTTATCAGGTTCAACTGTTATAAGAAACCATGGTGTTGGTTTAGCTCACTCCTATTTGGCATTAAAAAATATTTTAAAAGGTCTAAAAAGATTATCAATCAATGAAAAAGTTCTGGAATCAGAGCTTAATGAACATTGGGAAATATTAGCTGAACCAATTCAAACTATTTTAAGAAAATATGGTAAAGAAAACGCATATGAAGAATTAAAAGAAATTACTAGAGGTGAAACAATAAACTCAAACTCAATTAAAGACTTTATAATGGATCTTGATTTAAATGATGAAGATAGAGAAATCTTATTAAATCTTTCTCCTGAAAGTTACATTGGATTAGCTCCAATTTTAACAGAAAAACTATAATGTGTGGTATAGCTGGAATTCATTCTCAAAATAATGTAGCCAGTGATCTATTTGATTGTTTAGTTCATTTACAACATCGTGGCCAAGATGCTGCTGGAATTATGACATATGATGATACTCATATGCATAAAGCTAAAGGAATGGGCTTAGCAAGAGATGTTTTTAACGAAAAAAAAATGTCTGAACTTCAAGGAAAAGTTGGAGTTGCTCATAACAGATATCCAACCCATGGTGGTTTTGGACATGGAGAAATTCAACCCTTTTGGACAAATGTTCCTTATGGAATTGCATTAGCACATAATGGAAATATTACAAATTACAGTGACTTAGTTAACTTAATTTCAGAAAAAGATAAAAGATATTTAAACACATCAAGCGATACTGAGGTTTTAATGAATTTATTTGCTGACCAACTCCATTCAGCTAAAAAAGTAAATTCAGAAGAAGAATTTTTTAATTTATTATGTAAATCTATTGAATATATATATGAAAATGTTAAAGGTTCGTATTCAATTGTAGGAATGATTGTTGGAAAAGGTTTAATCGCTTTTAGAGACCCCCAAGGTATTAGACCTCTAGTATACGGAAAAAGAACTTCTAAAAAAGGTTCTGATTATATTTTTGCATCTGAAAATAGTATGTTTTATTCTTTAGAGTTTGAACCTAAAGGAAACGTTCTTCCTGGTGAACTTTATTATATCAGTGAAAGTGGGAAAAAATTCAAAAGGCGAATAAAAAAAGTTTCGTTTAATCCATGTGTGTTTGAATATGTTTATTTTTCAAGACCTGATTCTAATTTAAATGATGTAAGTGTTTATAGGTCAAGACTAAGAATGGGCCAAAATCTAGCTAGATCCTGGAAAAATAAATTCCCTGATATTGAACCTGATATTATAATTCCTGCTCCAAGCACTGCAAATACTGCAGCATTATCTTTTGCTCATGAATTAGGAGTAAGATATTCTGAGGGATTATTCAAAAATCCATTCATTGGAAGAACATTTATTATGCCTGAACAAAAAGAAAGAAGAAAATCTTTAAAATATAAACTTGTTCCACAAGAAACAGAAATAAGAGGTAAAAAAGTTTTAATTCTTGATGACAGCATTGTTCGAGGAAATACCAGTAGAGAGATTGTAAGAATGCTAAGAGATTTTGGTGCTAAGAAAGTTTATTTTGCTGTTTCTTGTCCTCCTATAAAATTTCCTTGTTATTACGGTGTAGATATGCCAACTCGTGAAGAGTTAATTGCAAATAATAAATCTATTGATGAAATAAAAAAATTTTTAGAGGTTGATGAAATTTTATACCAAGATATAGATCAATTAATTGAAGCCGTCACAAGAAAAGGTGATCATCATATTGATAGACCATGTATGGCTTGTCTTGATGGAAATTATGTTGCAAAAGATATTGATAATAAAAAAATATTAGAATTAGAATTATCTAGAAAAAATGATAGAAATGGAAATTAATGTTCTAGTCATTGGCTCTGGTGCAAGAGAGCATGCAATATGTAAATCAATTCGGAAATCCTCTATTAAGAATAAGATTTTTTGTTTTGCATCAAATTATAATCCAGGTATTGAAAAAATTTGTCATAATATTTCAATTGGAAATATCAATGATAAAAAAAATGTTTTGGAATATGCCTTAGAAAATAACATTGAAATTGCAATTATTGGACCTGAAAATCCTTTAGAAGTTGGGATAACTGATTTATTAGATTTAAATAATATATTAGTTGTTGGTCCTAAAAAAAATCTTGCTCAACTCGAAACGTCTAAAATATTTACTCGAAACCTCTTAATTAAATACAATATAAATGGTTGTCCCAAATATAAGGCATTTAATAAAATTAATGGATTAGAAGAATATTTGAAAGAATTAGGAAATGAGTTTGTTGTAAAATATGACGGTTTAGCTGGTGGAAAAGGCGTTAAAGTTTCAGGTGAACATTTGAAATCACATGATGAAACATTAGAATATTGTAAAAATATAATTAATAAAAATGGGGAATTTATCATTGAAGAAAAACTCTATGGTGAAGAATTTTCTTTAATGAGTTTTAGTGATGGAAAAAAATTAAAACATATGCCTATTGTTCAAGATCACAAAAGAGCGTATGAAGGAGATCTTGGCCCAAATACTGGTGGTATGGGTAGTTACTCATGTGAAAACCACACACTTCCATTTCTTTCAGAAAGTCATGTGATTGAAGCCAAAAAGATAAATAATCAAATTTTAATTGCATTAAAAAATGAATTTAATGATTTCTACAAAGGAATTTTATATGGCGGATTTATGCTAACTAAAAATGGAATAAAAGTAATTGAATACAATGCAAGATTTGGGGATCCTGAAGTTATGAATGTATTACAAATACTTAAATCTGATTTTCTTGAAATATGTTTAGCAATATGTAATCAAAACCTAGACGATGTTGAAGTTGAATTTGAAAATCTAGCAACAGTATGTAAATATGCCGTTCCAAATGGGTATCCGGATAATCCTGTAAAAGGTGAAAAAATTGAAATATCGCAACTACAAGATAAAAAAAACTTGTATTTTGGTTCTTTAGATCAAATAAATGATGAATTAATAGAAGCTGGGAGTAGAACAGTTGCATATGTTGGTGTTGGTAAATCATTATCTGAAGCAGAAAAATTGGCAGAAAAATCAATTAGTAGTATTCAAGGTCCCTTATTTCACAGGAAGGATATTGGTACCCAAGAATTAATTTTGAAAAAAGTCAACAAAATAAAATCACTCAAATTATAATATGTCATTAAAAATAGGTGTTTTGGGGTCATCAAATGGAACAGATTTAGATGCAATTATAGATTCAATAGAAAAAAAATATTTGGATGCTGAAATAAAACTTATTATTTCTAATGTAAAAACTGCTTTGATTTTGGAAAAAGCAAAAAATAATAATATAAAATCACTCTATATTTCCCATAAAAAAAAATCTAGAGAAATATTTGACAATGAATTATCTGGTCATTTTAAAAACGAAAAAGTTGATTTAATTTTATTAATAGGTTTTATGAGAATTTTATCATCAAATTTTTGTAACGAATGGAATAATAAAATATTAAATGTTCATCCATCATTATTACCCAAATACTCAGGTTTAATGGATTTAAACATTCATAAAAAAGTAATTGAAAATAATGAATCTGAAACGGGTTGCACCATTCATTTCGTTACCAAGGATTTGGATAAAGGACCTATTTTGGTTCAAAAAAAATGTTTCGTTTCATTTGATGAAACTCCACTTTCATTGAAAAAGAAAGTTCAAAAATTAGAGGGAATATCATTTATCGAAGCTATTAAAATTTTTAAAAAGGAATTAATAACAAATGAAAATTAATAAAATATATATATTGAGCTCATTATTTATAATTATTTCATGTGCTTCAAATACAAAGAACATATCAAGTGAAAGTGATTTTCAATTTGATGTTAAAATATTAGATCAAAATTTAAATGAACCTATGGAATTTGATATTTTTGATAATGATGAAATTATATTCATTGAGAGATCTGGATATATAAAATTATATGATCCAAAAATTGAAAAAACAAAAATAATAACAAAATTTGATGTTGAAATGAGTAGTGATACTACAAATGACAAAACACCTCTTGAAGATGGTCTTTTAGGAATTGCCATTGATCCTAATTATAATATAAATAATTGGGTATATTTATTTTATTCTCCAAAAGGAAGTATTCCAAAGCAACATGTTTCAAGGTTTGTTTTTAAAAATCATCGTTTAGATAAGGATTCAGAGAAAATATTACTTGAAATTCCTCTTCAAAGAGATCAATGTTGTCATTCAGCAGGTTCTCTTGAGTTTGGTCCAAATGGAAATTTATTTATATCAGTTGGAGATAATACAAACCCATTTGATTCAGATGGCTTTTCTCCAAGTGATGAATCAAAAAATCGAACTGCTTGGGATGCTCAAAGATCTTCATCTAATACAAATGATTTAACTGGAAAAATTTTAAGAATAAAACCAGAGGATGATGGAACTTATTCAATTCCAGATGGAAACTTGTTTAAAGTAGGTACACCCAATACAAAACCTGAAATTTATGTAATGGGTAATAGAAATCCGTTTCGAATTTCTATTGATAAAAAAACTAACTTTTTATATTGGGGAGAAGTAGGGCCCGATTCACATGAAGATTCAGAAGAAAGAGGACCAAAAGGTTATGATGAAATAAATCAAGCAAAAAAACCGGGTTATTTTGGATGGCCTTTATTTGTTGCTGATAATAAAGCATATAATGATTATTCATTTGAAAAAAAAACATCTGGTCCACGATTTAATTCTTTAAATGTAATTAATAACTCTGTAAATAATACAGGTTTAAAAAAACTTCCTAATGCCCAACCAGCTTTTATATGGTATCCATATTCTGAATCTGATGAATTTCCTTTAGTATTAAGCGGTCCAAGAAATGCTATGGCTGGTCCAGTTTTTTATTATGATGAAAAAACCTTTTCTGAGAAATCTATTCCTAAATATTATGATGAAAAATTATTTATTTATGAATTTGAAAGAGAATGGATATTTACTGTAACAATGGATGAATTAGGAAATTTTGTCAGCATGGAAAGATTTATGGAGAATCTTGATCTTAATCATCCGATAGATATGTTGATATCGAAAAAAGGTGAATTATATATTTTAGAATATGGTAGTACTTGGTATACACAAAATAAAGATGCTCAGATCATAAAAATTACAACTAAATGAAAATTACAAATATAAATGAAAAGCCTGTTGTAATTAAAAGAGCTCTAATTTCAGTATTTGATAAAACAGGAGTCGTTGAAATTGCTAAAAAATTAGATTCTCTTAATGTTGAAATTATATCAACCGGAGGAACTGCATCTACACTAAAAAAAGCTAATGTGAATGTAATAAATGTAAGTGATTTTACTGGTTTTCCAGAAGTTATGGATGGTCGTGTCAAAACAATAAACCCCTTAATTGAGGGTGGAATTTTAGGATTAAGAGACAGACATCAAATTGAAGCTTCTAATGTCAAAATTAAATGGATTGATTTAGTTATTTGTAACTTATATCCTTTTCAAAAAATAATAAATGAAGAAAATGTTTCAATATCGAAAGTATATGAAAATATAGATATTGGTGGACCAACTATGATTAGATCAGCTGCTAAAAACATAGGCTGGGTTTCGGTTTTAACTAACCATAAAGATTATGATGATTATATTTTAGAACTATCTGAAAAAAAATGTATTTCATTTGAAACAAGAAAAAAATTGTCAATTAAAGCTTTCAAAACATCTGCTAATTATGAATCAACAATTCATAATTATCTAAATGATGAAAAGTTTCCAGATAGTTTTACTTTAAATTTAAAAAAACACTCTGATCTAAGATATGGTGAAAATCCTCATCAATTAGCTGCTGCTTATAAGATAGATGGAAAAGAATCAATCAATATATTATCAAGTGAAATAATCCAAGGTAAGAAACTATCATACAATAATTTAATGGACTCAAATGCTAACCTTAATTGCCTATTTGAATTTAATCAACCATCATGCGTAATAATAAAACATGCTAATCCTTGTGGTGTTGCTATTGGGAAAAATATAAAAGATTCATTTTTAAAAGCATTTAATTGCGATAGTTTATCAGCATTTGGAGGAATCGTAGGTGTAAATGAAATTTGTGATGAAGATCTTGCTAAAGAAATGAATAAGATTTTTTTTGAAGTTATTTTAGCTCCAGGTTATACTAATAAAGCAATAAAGGTTTTATCTAAAAAGAAAAATTTAAGATTAATTAAGTTTAATAAAGAATATTCGTCAAATAATTCTTTAGAACTTAGAGATTTAAATGGTGGTGTATTAATTCAAGAATTCGATTCATTAAATATCTCAGAAAACAATCTTCAAGTTGTTACCAAAGTAAAACCTGAAAAAAAACATATTGAAGATATGTTATTTGGTTGGAAAGTTCTTAAACATATTAAATCTAATGGAATCTTAATTGTGAAAAATTTTAAAACAATTGGTATAGGTGCGGGTCAAGTTAGTAGAATAGATTCTGTTGATATTGCAATTAATAAATCAAAGAAAGATTTAAATAATTCAGTTTTATGTTCAGATGCCTTTTTTCCATTTCGTGATAGTATTGATAAAATAGCTAAAACCGGAATAAAAACAATTATTCAACCAGGTGGTTCTATAAAAGACGAAGAAGTCATTCAAGCATGTGATGAGCACAAAATAAGTATGGTTTTCACTGGAAATAGATGTTTTAAACACTAGGCTTTTTTATTAACAAATAAAATATTAATTTTTCTTTATGAGACACCTAAATTTTTTATCAAATAGTTTTACAACATATAAAGTTTATTCTATAACATATAGTATATTTCAAATCTTATCATTTGCATTATTAATTGGATTTTCTGCTCAAATGAAAATTCAACTTCCATTTACTCCAATCCCTATAACACTCCAAACTTTTTTTGTTATTCTTTCTGGGGCATATTTGGGATTTAGTAAAGGGGTCTTTAGCAATATACTTTATATTTTTGCTGGTTTAAGTGGATTACCCATATTCGCTGGTTTTGGTTCAGGTATAATTCATTTATTTGGACCAACTGGGGGCTACATTTTTGGTTTTGTTTTTGCAGCTGGAATTGCAGGATTTTTAAAAGATAAGGACTGGACAAGAAACTTCAAAATGTCACTTTTACTAATGATATTATCAACTATTATAATTTATTTAATAGGAGTTTTATGGTTAGGGTTTTACGTAGGTTTTAATAACATAGTTAAAATCGGTGTTATTCCATTTTTACCTGGTGATATTTTGAAAATTATAATTGGTTCTTTTATATTATCAAATAGTAAAAAATTATTTAACCAAACTACTCTTCATTAATAGTAATTTCTCCCTTAGAAATTACTTCCTCATTAAATTGATTTAACACAACAAATTTATTTTCTTTAAACTGAATATTTAATTCATCGTTTGGATACACTGGTTTTGAAAATCTTACTTTAATCTTTTTTATTATTTTTGGATTTTTATCTCCTAAAAAATAATTTGAAACAATTCCCATTGTACATAAACCCTGAAGAACAATTCCTTTAAGACCTGTTTTTTTAGCAATTTTATCATCTATATGGATTTGATTAAAATCTCCACTTGCACCTGCATAAAAAAAAGGTAAATATTCGTTAATTTTAATTTTATTAGACATTATATTTTTCTACTAATACCCATCTTCCATTACATACTATTTGTTTTTTTTGATTTTTTGATTCTGAAATAACAACTAAAAAATCAATTTTATCACCATTTTTGTTTTCTTTTGAAAATCCATTTTTTAATTCCACCTTTGTAGAAATTATATCTCCAGATTTAACAACTTCTCCAAATTCAAAGGTTTGTTCAGCATGCATCACATTAGGTACATTCATTCCTAATTCCTTATCATCAAAAACATATCGTAGAGCTTTAAAAGCATAAGTAGCTACAAAAGTTGGTGGTGCAATTAATATTTTGCCTTTCATCTTTTTTATAGAGTATGGGTTTTTTGACAATGTTGCCTTAGCATATTCTATTATTTTTTCTGACCCTACCTCATAAATGAAAACAGGATATTTTTTTCCTACGACTGACAAATCCATAAAAATTTATATATATTATACAGTGTAATTTAATAACTAAAATTAATTGATTTAATTTTTTGTTAGATAAATTATCATACTTAAATTTTTAATTAATTTTAAAGGGAGAAAACAGTGAAAACAGTTTATTTTTTTGGCGATTCAAATTCAGATGGTAAAGCTGATATGAAAAACTTATTAGGTGGAAAAGGGGCTAATCTTGCTGAAATGACCAATATAGGTATTCCTGTACCTCCAGGATTTACAATAACCACTGAAGTTTGTACTTATTATTATGATAATAATTCACAATTTCCAAAAGAATTAGAAAAACAAGTTCTTGAAGCAATAAATAAGAATGAAAAAATAATGGGTAAAAAATTTGGTGATTCTTCTAACCCATTACTAATGTCAGTTAGGTCTGGAGCAAGAATTTCAATGCCAGGAATGATGGAAACAGTTTTAAACATTGGTTTAACTTCAAAAACAATTCCTGGTTTGATTGAAAAAACTGGTAACCCAACTTTTGTTTATGATGCTTATCGTAGATTAATTATGATGTATTCAGATGTAGTAATGGAAAAATCTGCTGGAAAAGAACCTAAAGATGGTATTTCTATTAGAGAACGTCTTGAAGAATTAATTGAAAAACGTAAAGAAGAAAAAGGTGTGAGTGAAGACACTGACTTAGATGCAAATGATTGGAAGGAACTTTCAAATAAGTTTAAATCAACTGTCAAAAATGTTTTAGGAAATGAATTTCCAGATGATCCACACGAACAATTATGGGGTGGAATTAAAGCAGTTTTTCAGTCTTGGATGGGTAAAAGAGCAATAGCATATCGAAAAATTGAAGATATTCCTGTGGAATGGGGAACTGCTGTGAATGTTCAATCAATGGTTTTTGGAAATATGGGTCAAGAATGCGCAACAGGAGTTGGCTTTACAAGAAACCCTGCCACGGGTGAAAACTATTTTTATGGTGAATGGTTAAGAAATGCTCAAGGAGAGGATGTTGTCGCAGGTATAAGAACACCAAATCCAATCAATAAATGGGGAAGAACTGATAAAAACAAAGAACTTGAAACATTAGATGAAGCAATGCCATCTATTTATGATGAATTGGAAGGGATTAGATCAAAACTAGAATTACATTATAAAGATATGCAAGATATTGAATTCACGATAGAAAATAATCGTTTATGGATGTTACAAACTAGATCAGGTAAAAGAAATGGTGTTGCTGCTGTAAAAGTTGCAACTGATATGCTTTCTGAAAATTTAATAACTAAAGAAATAGCAATAAATAGAGTGAAGCCATCTCAACTTGATGAATTATTACATCCCATGGTTGATCCGATAGCCGAACAAAAAGGAGTTAAACTTGCAGAAGGTCTTCCTGCAGGACCAGGGGGTGCTACAGGTCAAATTGTTTTTACATCTGAAGATGCTGAGATATGGGCAAAAGAAGGTAAGAAAGTAATTCTTGTGAGAAATGAAACTTCTCCCGAAGATGTTCATGGAATGCATGCATCTGAAGCTATCCTAACTGCAAAAGGTGGAATGACAAGCCATGCAGCATTAGTAGCTCGTGGTTGGGGAAAATGTTGTATTGTGGGATGCAGTTCATTAAATATAGATTCAATTAACAAAAAAATTGAAGTTGATGGACATACCTTATTTGAAGGTGATATTATTACTTTAAACGGAACAAAAGGAAATGTTTATCTAGGAGAAATTTTATTATCCCAAATTGATCCAGGAAAAAATGAATCATTCAATATTTTAATGAAACTAGCTAATGAATTTAAAACTTTGGGAATTAGAACTAATGCTGAAAGACCTGAAGATGCTTCTCAGGCTAAAAGTTTTGGTGCTGAAGGAATAGGGTTGTGTAGAACTGAACATATGTTTTTTGACCCTGAAAGAATTTTAGCTATAAGGGAAATGATTATTGCTGATAATACAAATGATCGTCGTGAAGCTATAATGAAACTACTACCTTATCAAAAAGAAGACTTTTATCAAATTTTAAAAGCAATGGAAGGATATCCTGTAACAATAAGATTGTTAGACCCTCCTTTGCATGAGTTTGTTACTCTTGACGAAAATCAAATAGTTGAACTAGCTAATCAACTACAAATTGATAAAGAAAAATTATCAAAAAGAATCGATGCATTACATGAATTAAATCCTATGTTAGGTCATAGAGGTTGTAGACTTGGAATTGCTTATCCTGAAATAACAGAAATGCAAGCTAGAGCTATTTTTGAAGCAACAGCCCAACTTACAAAAGAAAATATTAAAGTATTTCCTGAAGTAATGATTCCTCTTGTTGGTACATATACTGAATTTGAACACCAAGAAAAAATTGTAAGGGAAGAAGCCAATAAAGTCAAATCAAATACAATGGTTGATTTTAATTATTTAGTTGGTACTATGATTGAAGTTCCAAGAGCGTGTTTAACTGCAAATGAAATAGCAAAAAAAGCTGAATTTTTCTCATTTGGAACGAATGATCTTACTCAAACTACATATGGATTTTCTAGAGATGATATTGGAGGATTTTTACCTACATATTTAGAATCAGGTATATTGCCACAAGATCCATTTCAATCGCTTGATCAATCTGGGGTTGGCCAATTAGTTGAAATAGGAGTGAAAAAAGGTAGAAAAATCAATGAAAACATCAAAATTGGAATTTGTGGTGAACATGGTGGTGATCCTGAATCAATTTATTTCTGTCATGAAACTGGATTAAATTATGTAAGTTGTTCTCCATTTAGAATCCCAATTGCAATACTAGCAGCAGCACAAGCTAATTTGAAATAAAAATAGAATATTTAAAATAGAAAAATATTGGAGTTTATTATTCAACCATATCAGAAGAACCTAAAATATCTTCAAGTGTAAATTTACCATCTTTTTCCATTTGTCGAGCTGCTTCAACAATTGCTTTTTTAGCTTGATCTACATCTCTTTTAGGAACTGCATTTTCAACAGGTTCATACATGGCTTGTTTTTTCTGAGGTAAATTATTGATCACTTTATCAACATCTTGCTGATTTCTTCCTTTTAATGCTAATGCAATTGTATCCAACTCGATAGAATTCATTATATCTCTTAATAAATTATCGGGAAAATTATTTATTACATCCTCAAAAGTTAAATGATATTTTTTTATTTCTTCAGCAAGTTCAGGGTTTTCTTGCGATATTGATTCTAAAAATTTTTCTTCTTCAAAAGGGGTCATCTTGCCAAGTATATCAGCAACACTTTTACCACCACCTCTTGCAAAATCAACACCCTTAGGTAAATATTGTGATTTAATTTTCAATTGCGATGCTACATTTACAATTCCTTCTAAAGGAATATTATCTAAAGAACCAAGCTGCATTAAAACATTTCCTTTAATTTCAGGCGATAATCTATCAAGAACTTTTATTTGTTGTTCTGATTTTACTTGAGCTAATGCAATAGCAATAATTCTGGGTTCTTCTACCTCCAGCAAAGCAATTAATTGTTCATCTGCTAAATCATGAATGAAATCAAACGGTTTTTTTGATTCACTTTCTCCCTCATTTTTTAATTTTTGTGACATAACTGCTAAATAAAACTCATCAAGTATTTGTTTCTTCAAAGAAACTGATACGGTATCCATTTCCCTTGACCTAGCTCTGATTCTTCTAATATCAGATTCACTCAATGTTTTTAGCAATCTCACTGCAACAGACTCTCCAATTACAGAAAATAAAACTGCAACTTTATCTATTCCTGATAATTTATAATATTCGGTAATCATAATTTTTATTTCTTTTTCTTACTCTTCTTGTTATTATCTTCTGATTCTTGATCTGATACTGAAGGTTCAGGCTTTGATTCAACAGGAGCAGGAGGAGCTTCTTGTTGCAACCAATCTTTAACAACATTAGTTGCAACTTCTGGTTCACCAACGCTCATTGACACTAAAGAGTCCTTAGTTTTAATCATTTCAGATTGAATTACACTCGGATCTTCTTCAAAGGCTACATTTTTAGTAACTTGTGGTCTAGATATTGATGTTTGAACTGGTTCCATATTGTCTGTAGAATTATTCTTTACTTTTTTTTTTTGTTGTGATTGCTGAGGTGGCGGCATCATCCATGGTGGAGGCATAACATAACTTGGCTTTGATGACCTTCCATTAAATAGAATTACGGCAGCTAAAGCAAGCACAGCTAGCAATGAAATAGCACTCATTAGATAGATAGGAAGATTATTCATTCCACCTGACATGTTTTCAAGTTCACTTTGAGTTTGTTCCAACATTGCTAATTTCTCTGCTATAATAGAATCTAATTCTTCTCTTTCTTCTTCTTTAGTTGAAACAGTTTCATTGAATTCATCTTCCTGTTCTTCGGATAATTGTGAACCAGATAAGACATCTTTAAGTTGAGAAATTTCTTGTGTCAATTGATTCATTCTAATCGAATCTCTTTCAATTAAACTTTTTCTTTCATTTTGAAATTCTCTGGCGATTCTTTCATTCTCAATGCGATCCAACTCAGATCTCCAAATTGCTCTTTCTTCTTCTCTTCTTCTAGTTTCTTCATTTTTCCAACCCTCTAATTCTGACTTCCAATCTTCAGCAACTTGAGCTTCAGCATCTGATTGTCTTTCTTCAAGCTCATCTATTTTTTTTGCTATTGATCTCAAAATTATAGATTCTGCAGTTCTTTCATCTTTTCTTTGTCTAAAAGAAGCTGTCATAACAGATAAAACGTCTCCTCTAGATCTATCAAAATGAGAAGCAACCATTATTATTTGTCTAACATTTTCTATTAACTCAGGAGCTGAACCCTCTGGTAAAATACAACTAATATCAACTTTTTCTATTATTGGCATAGAAGCTTTAGTATCAGTATATGATTGACTTAAAATTTGAGATCCTTGTGTTCTAGTTGGATTTATATCTTCAATGATTTCGTTATCTTCTAATATTTCTGGCTCATCAATTGAATTATCACCACCAATTATCTGAAAATCAAACCCTGGAATTGGTATTCCAGTCATTGTTGAAGTTGTTTGATTCTCATTGGATGTTAATGGTACTGATTCTGATGCATCTTCTCTTCCAGATAAAACTGCATTCTTAGTCTTTTCATCAGTAGAGGGTCTAAATGTTACTTCTTCAGTAACAGTTGGAGTAAATTTTAAGTCAACACTTATATCTAATACATATCTGTGATCATCCATTATTTTTTGTAATGCTGATTCAATCCTTGATCTCATGTTATTTTCTAACATTATTTTTTGAGCTAGATATGTTGACTCTTGAGCAGATAAATTAATCATTAAGGCAAAAACTATTATCTGTTTTACTATAATCCGCATTTTAACCATAACATTTTCCTTTTTTTTTGTGGAAATCATTAATTATTTAAACTTTCTTTATAAGAGCCATCAATTTCATTATTAACTCCAGAGGCTAAAAAAGTGATTTCAACTCTTCTGTTTCTTGACTTTAATTCATTATTTAAATTTAATTCCGCGATTAATTGATTATCAATTACTCTATCAGTTGGTCTATCTCTTGGAATATACTCAGCATATCCTACTGCTTGCAAGCGGATTGGATTAACATTCATATTAATCAATTGTCTAACTACAGCTGATGCTCTGGCAGATGATAATTCCCAATTTGAAGGATATTTTGATTGAAATGATTTTGGAAGTGGATCATTATCAGTGTGACCCTCAACAGCAACATCAAAATACGAATTTTCAATCGTTGGAACAATTTTATCCAAAACCTCAACAATTTCTTGCTTTAAACTAGCTGATCCTGATTGAAAACTAATATCTGATGAAATACCAATTGTTACTCCTTTTGGTCCAGTTGTTACTTCAACAGGTTTTTCACCAGTTTCTGGGTTTGTTCCCATTTCTTCTACCATCTTATCTGCTGCTTTTTTCACATCTGCAAGCGACATTGCCTGATTCTCTATATCTTTCTTTGATCCAACGGATTTTCCCATACCATCAGCAAGTTGTTGCAGTTTAACTGGATCAACAGTTGAAATAGCTGCAAGTAAAACAAAAAAAGCAAATAAGAGGGTCATCATGTCTGCAAAAGTACCAAACCAACCTGGTAAACCTTCATCAACTTTTTTTTCACCAGTTGAAATAAATTTTTTTCTTTCTTGAGGAGTTGCTGCCATTTAATCCTCTTTTTTCCATTCTTTAGGAGGAATATACGAATTAAGTTTTTCTCTAACAATTAGAGGATGTTTTCTTTGATGAATTAACCTAGCTGCTTCAAGTTGAAGATTTTGAGCAGTACTTGAAAATATAATTCTAGTCTTAATTTTATCAGACATTGGAAGAAATAATAGATTTGCAAAAATAGCTCCGTATAATGTTGTAATTAATGCCGCTGACATACCAGAACCCAAGGCATCAGTTCCACCTCCAGAACCAAACCCAGCTAACATAACAACCAAACCCAATAAAGTACCAACCATACCCCAAGCTGGTGCCATAGTACCCATGGATTTAAATAAACCAGCTTGTGTGTTTTCTCTAATTTCTCTGTTATCAATTCTTGTATTTAAAATTTCAGTTAATTCTTCTAGAGAATATCCATCTACAACCATTTGAACTCCATCGCGAAAGAAAAAACTATCAATACTTTCAACTTGTTTTTCTAACTCGGCTGTACCTTTTCTAGCAATATCTGCTACTTCTACAGCTTCATCAACTAAATTACCTAATGAATCTTTACCACCTTTAAAAACAGCTAATATAGCAGGAATTAATTGGAGAACATCTTTTAATGGAAAAGCAACTGAAACAGAAGCAATTAGTCCTCCAAAAACAATGAAAAAACTTGGAACACTTATAAACATACCAAAGTTAGAACCTGGAAGGAGAAAAATACTCCCAATAATAGCTACTAAACCAAGTATTATTCCTGCGATTGTTGCAATATCCATTAATTTATTTCTCCCCTCTAGAAAAACTAGTTGTTTTTAGTCTGTTCTCGTGAAGTGCTTTTAATATATTTCTAACATCATCATATTCGGGATCCATTTGAAGAGCTAAATTCCAGTTGATAGTTGCTCTTTGTGGATCTCCAAGCTGATAATATATTGAACCTCTTCTAGCATAGGCTAGGGCTAAATTTGGATTAAGATCAAGAGCGGTTTCTACTTCTTGTAAAGCTTCTCTATAGTCTCCAGAATGAAAATATCTTAATGATCTTGATAAATGTCGCATTGCCATATTAATATTTTTTTGAGAAATATTTTTATCCAAGTTTAATGAGTAGACAGAATCAGATAATGAAACCGATTTTTGTTTAAGCAAAGAAACTTGTGTTGATAAATTTTTAACTTGATGCCTAGATAACTTTAATGAATCTCTTAAAGAACTAACAGCACCATCTGCAGCAATAAGAGTTGAATCCATAAATGAATTATTTTTACCAATTAATCTATCTGGTAATGGTGAAGGTGCACCAGGTATGCCAGGGAGTGAAGGAGCTGTTTTAGGTATAGCCATGGTAAAATTAAATACTATTCCTGGGTGTTTTTCTGAATATTTATTTGAAAATTCGGGTAAATTTTCTATGTGGGTGAATCCTAAGCCCAGGCGGTAATCCGAGGTAAGGGGGATGCGGAGTCCCACATTGATGCCTGTTCCATCAAATTCACCCACAAAATCTAATCCTCCCCATTTAGGCATTAAAGGAGTATTTAAATAAACTCCTGCAAATACTCCTGCATTAAATCCCTGAGATAAAGAAGTATCTGTGCTTGATGTACTATTAATTGACTCAGGAGTTATTGAAAAGCCACCTGTTCCAAAACCCATAAAAGTCCTTGCAGTATATTCACCAAAATCTTTTACGCTTCCAACAGCAGCAAAAAAAGATAATTGTTTTGGATCTAATCTCAAACCTTCATTCGCATCATTTTCAAATATAATATCATGCAATCCAATAGATACTGACATGTCTTGTCTTACAAACACCTTATATTGAGTATGAAAACCAAATTCAACTGGAGGGATGTAAGTTGAACTTAAGATTTTTTCAACTGCAGATGTATCTGCACCTTGTCCTGACGAAAACCCAAATGTAAATCTGTCAGAAAAATCAATATTAAAAAAAACACCTTTTGTAGTATTAAAAGGTGCAAAATTGTGTACTTCTGTTGTAAAACCAGAAGTAAATAAATATGGTGATCTAGCAATAAAAGTTGTTGGAATTTTCATCATATAACCTGGGTGTGTAAATGACACTCTAGTTATAGGTAAAACTATATTGTTGAAGCAAATGAAAAAAAATATGACTTTAGTTAAATTTTTTAAAAACATAATATCTTAATATTTTTTTGAAAGCTCTATTTTAGCTAACCTTAAGTATTCACTTTTAGGAAAAAAATCAACAATTTCAGTATAAGCTTCTCTAGCATTAGAGAAATTTCCTAAATTTTTAAAAATAATACCTTTTAAAATGATACCATCATCTTGCTTGTCAGATTCTTTTAGAATTACAAGTTTATCTAGAGTTTTCAAAGCATTTTCATATTTTTTTAAATTATAAAAACTTTCAGCTAACCAATATAAAACATTACCTTTTGTAATAACTGAATAATTATCAATATTTAACTGATTAAAATTTTCAATTGCTAAGTTATAATCACCTTTTTGATAAGCTATAACACCATTTACATACAAGTTATTAAATATTTTTTTGCTATTATTCTCAACTAAAGATTTTCCAGGAGTTTGAATCAATGAAATTTCATAATCTTCTAAATTTGACACTAAATTATCGCTAATATAATATTTTTGGTAGTCATTATCATTAAGAGCGTTAAATTTATTTTTTGAACCTAAATATTCCGAAATTATTTGCTTTAATTCATTGTTTTGTATTTCTAGTTCATTTAATTTTTTATCCAGTGATTTTTCTACCCTATTAAGCCTTGCTGAAATTTTTTTGTAATTATTACGTTCTTCAACCATTAAATCTTTGCTAAAATTTGTTGGAATATTATCAATTTTTTGTTGAATATCTTCCAACATTAATGCTATTTCTTTAGTAGATGCCATAAAAACTGATCCACTAGGTTTTTTATCTAAGAAAAATGACACTTTTGAGGGTGGAGCTTTAACAAGATGATCTACTTTTTCTTTTCCTGTTGAGGGTTCAATTACTACACCTAAATCTAAAAAAAATGCATCTTTTTCATTTGATTCCTGAGAAAATGCATTAAATGAAGACATAAAAAAAAGAAAAAAGAAAAAATTAAGATTAATCTTCATTACTCGTATTCTTCCCAGTCGATAGTATAAGAATAACCTAAAAATGAACCAATATCTGATGGTACAATCAATTCAAATTCTCCACTTGCACCTGGAAGTAATGAAGAATCTGTTGTTATTCCTGAGTCAAAAGTATAATACGAACCACCAACAAAACTAGTCAATGTTCTTGTTTCTCCACTCCAGTTTTTTCTAAGAACAAAATTTACTTTTACAAAATCTGCTCTTTGTCCACCTACATTTTTAACTTGACCTGTAAAAGTAACATTATTCGACTTGTCTTTTTTTTCAGCAATATTACCGACCAGTACTATATTTGCAGCTCTTTCTCTACTTGAGACTCGGTTTGAAGAACTATCAGATACATATCTTGGTTCTGCAAGTTTAGGCATTGGAGGAGGTGAATATGATTCTCTAATCTGTTCAGGTACATATTCTTGGTCTTCTTGAGCCATAACATTCTCAATAATTCGAACAACATTTGATCTATCAATTACAAGAAAGCCAACAAGAGTCTCTACTTTCAATGTTTCTTCATCTTGATAAACAATTTTACCAAAAACTGTACTACCATTATTTAAAATGATTTCTTTTTGATAAATAGACAACGGATTAACCCACATTTCACTTCTGGCTTGTAAGTCTCTTAATTGGCTAGATAAATTATCTATCTCTGCACCCATTTTCTTTAATTCAAAACTAATCTCAGTTAAGACATATTGATCTTGAGGTACTCTCTCTTCACTATCAAGATTTGGTTGCTCAGAAAGACTTTTTTGGCCTTGATTGTCATTAGATTGGGATGTTGTTTCTGGACCGATGGTTAATTCGATTCCTTCTAAGTCTGATGCTTCGACATTAATATTTAGATTAGCTGTTTCAGTGTCTTTGTTAGCTCTTAATAAATATTTACCAGCTTGAATTTTTTTAAATTGAAAGGAACCTTTTTTATTAGTTTTTTCATTAGCTATCTCTTCATTAGAGTCATTAAATAAAACAACAATTGCATTAGATATATTTTCACCAGTTATATCTAATACGTTTCCAGAAATTTTATAATTTTTAGCAAACGTAAAGTTTACTAAAAAGAACATAACTAGGAACAATAACGTATTTTTAGTTAATCGTTTCAATACTACCTCAGATTTTTTTGTATAGTCTACCTCGGATTTGGTATGACATATATAACCCAATTGTAACTTTTTTAAGGTATATATGTCAAGAAAAATTAGATTTTTTTTTTAAAAGGAAAATTAGACTAAAAATTTATTTTTAATTTACTGTCTTTTATGGCAATAATTTTTATTTTAAAGTAGATTTCTATTTCTTTTTTCTATTTAATTTTATAGTGAAGTTAATTGTTTTTTAAAAACTCAACAAGGTCAACTAATTCATTTGCATCTATATTTAACTGATAAGCTGATAACATTAAGCTATGTTTTAATCTATTTATTTTCTTTATTTTTTCTTCAGGTACTATTTGAGTGAAATCACCTATAGAAGTAATAATATATGGATTTGACATTTTAATACCTTTTCCATGAATTTTTCTTCCATCATTTAAAATTATTTCATACGCCTCGTAACCATGAGCAATTGTTTCATTTGGTAAAATGATTGATCTATAAATTGATTCCTTACTTTGGTTTTTAGCCCAACCATCGAGATTTGGTCCTAAATCCGAACCATTATTTTCAATTTTATGACAAGCAATACATTTTTGAGCAACAATTTTTCCTTTGTCATAATCTCCCTCAAATTTGGATAAATCATTTATTGAAGGATATTCATTTAAAAAATCTTCTGAATTCTCACTAATCATTTCGAATAATTCAATTTTTTGTGGGTTATAAATTTCTTTCTCTGCCAACTCTTTCAGAAGATCATATTCTTTCCACTCTGAAAAAGCTCTGTTTAATATCCACCAATGGGCTTCTTTAGATAAGAGAAAATTTTCTCTTATAGATAAATCTATCATAACTTTTGCAGCTTTATAATCCATTGTAAATGCTATAGCATCTAAAGATTGTCTTCTTTCATTAAATTTTAATGATTCTGATAATACTCTTTGTAGATGAAAATCAATAGATGAAGGCGGATGCAATCTCCAAGCGATATCAGAAAATTTATCTGACCAGAGCAAAGAATTGGAATCACCTATTTTTTCCAGAAGATTCATAAACAACTCTTCTTCAACACCAAATGAACCAATTCCTAATGCTTCAAGATAAGTTTTATCATTTCCATTATATTGTTCTGCAATTGAAATTAATATAGGTAATTTCTTGATTGGATTCACATCCCTCAAAGAAGTTGCTACTTCTCTTCTAACTGCAGGTGAAATGTCTTTAGACATTTTTTTTGCTATTTTTAGTAAATCAATATTATTATCTCTAAGAGCTCTATATGCTACCAATCTCAATTCTTCATCCTTTGAATCAAGCAAAGTAAAAACTTTTTCTTGTCCTTCATTTCCTAAATCAACTAACAACCAAACAGCCCTAGCTGCAAGATATTTGTTTTTATTTTTAAGTAGTTTGTTTAACTCTTTAATTGATTTTTTATGATTTTTCTTAATTAATTCATGACCAAGATTTCTTACATTTACAGCCGGGCTTTTTAATGCGGAAATTGAACCTTTAAGAGTATTTAATTCAAAATTGTCAATTTTTGGTGTAAACCCTTTTGGTGCTATTCTATAAATAGTACCTGATTTACTTTCATCTAAGTCTTGATGCCCACCAACTCTACCGTCATACCAATCAGAAACATAAATAGCACCATCTGGTCCTACTGCCACATCAGATGGTCTAAATAAAGTTTTTATTTCTTCATTATTTACACTTTTTGAACCCCCTAAAAAATCAGTTCCTGCAAATTCATTTTCTTCATTGGAAGTAATAAAATTAAATCTTTCCAAAGTAAAAGTTGATCCTGATAATTTTGGAAAATAACCAAAAACTACATTTTTTCCTGCCTCACAAGCTAAAAACATGCCTTCCCATTTTTTTCCAAGAGATCCATTTTCATAAAAAACATTACCCGTCGGGGAACCACCACCATAGACATCTCCTGATGGCATTACACCTGGGTCATCTTGTCTCCACTCAGCCTCAGGAATTGTTTGATATGGTCTTTTGTCAGCTTGCCATGTTTTTTTTCCATTAGCTGAAGCAAAACCTGCATTTCCATATTCTAAAACGTGAGTTACTCTTGAAGCAGGTGGGTCATCATTATCACTATGAAAAACATCACCAAATGATGTAATTGATTGTTCATAGCTGTTACGAAAATTATGTCCTATAATTTCTACATTTGAACCATCATCATTCATTTTAGCAACAAATCCACCAACATAGATGTGACCATCATCACTTTTTTTACCAGCTATATCTAATGGATTTATTGGAAATTCAAATGGACCTATAGGTTTTGGATTATAAGGACTCCCAATTCGAAAAGTTTTTCCAGATTTATCTGTAAACATCGCTCCACAATTTCCTGAATTGAAATACCATTTTCCACTAGGACCAACAGTAACAGAATGAAGACTATGATCATGATTAATTCCACTAAAACCACTCAAAAGAATCTCTTTATTATCAATATTTTCTTCAAACTTTAAATTTCTATCTACATCTGTATAAATAATTAAATGCGGAGGTTGTGAAACTACAACTTTGTTATCAATAACTGCTATTCCTAATGGAGCTACTAATGATGAATCTTGTAAAAAGACATAACTTGTATCAGCCAAACCATCAAAGTTTAAATCTTCTAAAACAACAATTCTATCTCCCTTTTTTTGTCTATTCCAATTAAAACGATATCTCACTCCTTCCGCAACCCAAATTCTTCCAAATCTATCTATATCAATATTAGTTGGATTATAAAATAATGGGGATTTTGCCCAAATTGTTACTTCTAAACCTTCTGGAACTTTTATTAAGTCTACTGGAACACTAGTTGAATGTTGTTGACTTATATCTAACTTTTCAGAAAAAATTGGTCTTGTAAATAAAATGATTGAAATTAGAAAAATTGTTTTTTTCATGATTCAAACCCCCAACAAATATTAATCAATTAATAAACTAACTATAAAAAATTTTATACTATAATATATAGAATGATAGAAATAAAGGCACTAATTAATGCATATGGTAATTGTGTTCTCACGTGATCAATATGATTAGAACCTGCAGCCATAGAAGAAATTATTGTAGTATCAGAAATGGGTGAACAATGGTCACCAAAGATTCCGCCTCCTAAAACTGACGATAAAAAAATTGCTTGAGAATCTGGAAAATTTTGTGAAATAGTTATTGATATTGGAACCATTATAGCAAATGTTCCCCACGATGAACCTGTGGAAAATGCAATTAAACATGATGTTAAAAATAGACTGATTATGATTATTTTTTCATTTAAAAAAGGTGGTATTAATGTTGAAATATATATTCCTGTACCCAATTGATTAATTACTTCTCCCATTGAAAAAGCTAACAGCAATAATGTTACCACAGGAAACATTTTAGCCATACCCTTAAAAATCAAATCAAAAAAAACTCCTGAGTGAAATAACTGTCTATTTAGACAACCAATCAATATCAAGGTGCCAATTACTGACCACAATACAGAAGTTGAACCGTCTGCATTTGAAAGAATTTTCCAAAGTTCCGAATTAATACCATCAGGAGAATTTCCTATACCTGTAAAAAGCATGCTTAAAATCATTAAAAAAATCATTGAAAAAATTGGTAAAATAAATTTTATTATTTTAGAATTTTTTATAATTATATCACTGGAATTATTAAAACTATCAATTACTATATTTGATTTTTTTTTATTTAATTTTCTCTTGTTTAAAAACTTATTCTGTGCAACTCTCATAGGACCAATATTCAAATTAAAATAAATTGAAATAAACAATATTAAAATTGTAACTATTGGATAAAAATTATATTTAATACTGCTAAACAAAAATAATACTGGATTTTCTATTCCTTGAACAACCAATAATCCAATAATAAATGCTCCCCATCCATTAAATGGAAATAAAATACATATTGGAGCAGATGTGGAGTCACAGATATAGGCAAGTTTTTCTCGACAAATTTTATGCTTATCAATTAGCGGTTTTCCAACGGTTCCTGATATTAATGCAGTTATTGAACTTTCTATCGTAATAAAAACACCAATTAAAAAAGGAATTAATTGAGCTTGAAAACCATTTTGAACAATTTTTCTTTTTTCAATCCAATCAATAAAAGCTTGAATTCCTCCTGATGAATTCAAAAGATTTAATATTGATCCAACACCTAAACTATATAAGATTATTTTAGTATTACTATTTGAACTAAAAACATCGACTATACCATTAATAGTAGCAGCCGATGCAAAAAAGGGATTCCAATTTTCTAATATTAACCACCCAAACCATATACCTACTAATAAAGATAAATAAATCTGTTTTTTCCATATGGCAATTATTAACGCAAATATTGGAGGTAATACAGAAAATATTTCATGGTGATTTAATTCCAAAATTATTACAATTCATCAATTGATGATTTTAATAAAATATTTGCTTTTTCACCTATATCATTCAAATCATTTAAACAAATAGATAACATTTTTACTGCGTCAATTGCAGAAACTGTTACACTTTTATCTTTGTTTTCCCATAAAACAACATTGCAGGGCATCATTACTCCGACTTCTGGTTCTTTAGAAACTGCTTGATGTGCTAATGCTGGATTACATGTACCTAGAATAATAAATTTTTTAAAATCAACGCCTAATTTTTCTTTAAAAGCTTTTTGAATATTGATTTCAGTCAATACACCAAATCCATTTTTTAATAAATTATCCCTTATTTTTGAATTTATATATTCAAAATCTTTTTCAATTGTTTTTTGAAAATAATAGTTCATTTTTTTCTTTTCCTATTTTTTAGATTTTTAATTAAAGAAAATTTTTCCTTTTCAGTTAATGCAAAAATTTTATTTATGATATTTGTCTTTTGATCAACTGTCATATCGATTAATTCATATTTTTTTCTTAAAATTAACTTTTGATTATTAATTTTATACCCAGCATAAAACCCTAAGCTTGTCATTAAATTTACAGCAGTTGATTTTATAAACTTTTCTCCCCGATTTAAATCATTAGGTTTAGATTCAAATAAATTTAATGTGCCTAATTCCTCATTTTTTATCCACCAAATCAATACGTTTCCCATTAAATTTCCCATAAAGTTTCCCAAAACCAAGCCAGTAGCAGAGTTGTAAATTATATTCTTTTTGTGGGGTTTTATAATTTTTGAAGACAACCTATCTATAGAGCTTAAGTCTTTAATATTTAAAATATAATTTGAAAAAGAAGATTTCAGAATAATTTTATCTTTTTCAATCTTCATAAATTCAAAACCTTTAAGAGTGTCTGATGAGGTCAGTATAAACTCTATATTTTCTGATTTTAAAACTATTCCAATATTTAATAATATGAAAAAAAATGATTTAATAAAAAAATTGTTCATGCGTATATGGATAAGGCTTGTTTAAGAACTGATACATCAATGGGAGTTTTACCATATACTTCTCCATCAAGGTTTAAACTCTCATTAAAATTTGGCCTAAGAGAAAATTCTTTTACTTGATAATATTTTAAAACTTCATGTTCAACATGCGATCCATCAAAAATTTTAGGGAAAATATTCAAGAGTTTCAATGTTTGAGTTTCAGGAACTACTATTAAATCCAATAAACCATCATCTAGTTTTGCTTTTGGTGCAATTTTCATCCCTTTTCCAGTATGAATTGTATTACATGCAATTATAAATGAAAACTTCTGATTAAATTCTTTACCATTTAAAAAAAGCTTTGCTAATCTTTTTTTATTTGTAAAGACATGTAATAATGTAGTTATATTATATCTTTGTGATCCTAACCATCGAAGTTTTTCAGCAGAAATATTTATATCTGTTACCAATCCCCAACCTATAATATTAATACTAAAAATTATTTTATCAACCATTTGTATTTTTGCTACATCAATAAATCTTATTTTTTCTTTTATTATATTGTTTACAGCTTGTTCTGGATTTAAAATTCCAATATCATGCATGAAAGAATTTCCTGTCCCTGCTGGAATTATACCTAATGGTAATTTTACATTGTCTTTTCTAGATAACATTCCATTAACCACCTGATGAATTGTTCCATCTCCACCTACTATACAAATACCAGAAACATCATATAAATCAATAGTATTTGCAATTAATCTTTCATGACCAGGATATTCAGTTGTTATGATATTTAATTCGAAATTATTTTTTTTTAAAATTGGGGTAATTAAATCTATTATTTTATTACTTGGCTTAGGTCCAGAATTTGGATTAAAAATTATAATTAATTTTTTCAAAATATATCTATTCTAACTTATTTATTATTAAATAAAAAAAATTTTTGTTAAATGCAATTAATATTAATACAAGTTAAATTAATATTATGAAAAAACGATTAATTATCACAATTATCTTTTTACTTATTTCATCTTCTTATGGAAAAAAAGTAAATATCAAACTTGCTACTTTAGCAGGTAATGGCTCTCCATGGGATTTAAGATTAAGGGAAATGGGTCAAAACTGGAAAGATGAATCTAACGGAGAAGTAAGATTAACAATTTATCCAGGTGGAGTTGCAGGAGATGAATCTTCTGTAATAAGAAAAATGCGAATAGGACAACTAAATGCAGCTTCCATCTCTACAGAAGGTTTATCAAAAATTGTTCCTGACTTTGCAGCTATTTCTCATATTCCTCTCTTGTATAACTCAGATGAAGAAAAAGATTACGTTACACAAAAAATGTCTCCCGATTTAATTTCAAAACTTGATGAAAAAGGTTTCAAATTTATTCATTGGGGTGAAATTGGTTGGGTTAGATATTTTGCAAAATCTCCAGTTTTAATACCAGATGATCTTAAAAAACATAAAATGTTTGTATGGGCAAATGAATCTCAAGACCTTGAAATGCATAGAAAACTTGGTTTTAATCCAGTTCCTCTTGCAGCAACAGATTTAACAGTAGCACTCCAAACTGGAATGGTAACAACTTTTAATACAACTCCAATTGTCGCATTAGGAAATCAGTGGTTTGCCGCAGCAAAACATATGACAAACTATAAATGGGCTCCTCTAATGGGTGCAACAATCATTAAAAATGAAACATGGTCTGCTATTCCCGTTAAAATACAAAATCTTATTTTATCTGCATCTAAAAAAGCTGAAATTGATTTAACAAATGAAATAAGAAGACTTGATGATGAAATTATAGATGTTATGACTGATTATGGCTTAGTAAGTCATGACTTAAATCAAGATCAAATTGAAAAATGGGAAGAGTTTGTAGATTTAATTTATCCGTACATCAGAGGAAAAGTAGTACCAAGCGAATCTTTTGATAGGGCTATTAAATATCGCGATGAATTTAGATCGTCAAAATAGTTATTTATAATTAGGATAATAAATTTCATTTTCAACATCTTCATAAGTAATTTTTTTATTAAAATTAGATGCAATTGAATAAGCAATATTTGTTGAAATTTTTCGTATTTCATTAATTGAAGGATATATTTTTCCATTTTTTAAATCGTCCTGAGAAGTCATTTTCGATAAAGTATGGGCTGCATTAAGAAATATTTCGTCAGTAATTATATCAATTTTTGATAACAAAACCCCTAATCCAATTCCAGAAAAAACATAAGCATTATTAGCTTGAGAAGTATGAAATTCTTTTTCACCACTAATAATAGTTTTAAAAGGACTTCCACTGCTAAATATTGCCTTCCCTTTTGTATTTAAAAAAACATCTCTCGCAGTACATTCTGAATTTGATGTTGGATTAGATAATGCAAAAATAATAGGTAAATCATTTATTTTTAACATTTGTTGTAAAATCTTTGGAGTAAATGCATTTTTGACACCAGAAGCTCCAATTAATATTGTAGGTTTAATTTTCTTAATACAGTCCAACAAGTTTTTTTCAACTTGTAAATCTTTCATGTACAACTGTTTTTCTCTATTTAAATTTTTTCTATCATTAACAACCAATCCATTTGAGTCGAATAAAAATATTTTTTTCCTTGCTTCTTTAATGCTCTGTCCATCTTGTGAAATTTGTTTGCAAATCAAATTTGCAATTCCTATTGATGCAGACCCAGCACCGTAAAATAATATTCTTTGTTCTGAAATTGTTGTTTTTAATTTTCTCATTGCTGACAAAATTCCTGCTAAAACCACACATCCTGTTCCCTGAATATCATCGTTAAACATTCTATATTTATTTTTATATTTTTGTAAAAAATTAGATGCATTTTTATTTCCAAAATCTTCAAATTGAATAACTGCTTTTGGAAAAACTTCTTCAAAAGATGAAATTATTTCATCGATGAAATTTTTATATTCAGATCCCTTAATTCTTTTATGCGGCAATCCTAAATACATTGGATCATCAATTAATTTTTGATTATCAGTGCCAACATCAATGGTAACTGGTAAACATTTATTTGGATTAACGCCAGCACATATAGTATACAATACTAACTTTCCAACTGGAATACCCATCCCATTTGCTCCTAAATCTCCTAAACCTAAAATTCTTTCTCCATCAGTACAAACAATGATTTCAATGTTTTTATTATTCCAATTCCTTAATAATGATTTTACTTTTCGTCTAAAATTATATGAAATATACAAACCTTTTGGTCGCCTATAAATGTGACCATAATGTTGACATGCCTCACCTACTGTTGGTGTATAAATTATTGGCATCATTTCTTCAATATTGTCAAGTATTAACCTGTAATATAAGGTTTCATTTCTACTTTGCAATTCTGTAAGAAAAATATATTTCTCAAGATTGTTAGGTTTTTTTTTAAAATTTTCATATGCTCTATTTATTTGATCTTTTAGATTGGATATTTTAGGAGGTAATAAACCATTTAAATTAAAAATTTTTCTTTCTTCTAATGTAAATGAAGTTCCTTTATTAAGGTTAGGATCATTAAGTAATTCAAAATTACTTTTTATTATTTTTTTATTTGTCTTGTTTTTCATTAGTATTTACTTAATTAATTTATTCTATATAGAAAATTTTGATTTTTTTTTAAAAAAAATTTGTGAAATGATAGGGTTTACATAAATTACACGTATAAATTTAGTTAAAAAATGTAATCCATGAATGAAAAACAAAAAAAAACTTTTAAATACCTTGTAACTATGAGATGGTATGTTGAAACCGATGAAGAATTAATATCTGGTGCTATTGAAACTGATAATAAATTACTTAACTTGGTGCAACATCGGTCTAATGGTGAACCTTGTAATGATGAAAGTCCAACAAAAAATTTTCAAGGTTATGCCGTATTACCTCATCACGATTTCATGGGTGAAAAACCTATATATATGTCAAAAGATAAAATTAAAGGTTAAAGTTTAAATGACAAGTGAAAAATCAGATAAAAACGGTCTCGGTGATATAATTGTTGCCCCATTAAATAAACTAGTTAATTGGGGAAGAGCTGCATCACCTTGGTATTTTCAATTTGGATTAGCTTGTTGTGCCATAGAAATGATGGCAACCGCTGCAGCTAGGCATGACTTAGAAAGAATAGGTATGTTTCCTAGGTCTTCTCCGCGTCAAGCTGATGTTATGATTGTTGCTGGAACTGTTACAATGAAAATGGCAACACGAGTTAAAAGACTTTATGAACAAATGGCTGATCCAAAATACGTAGTATCGATGGGTAGTTGTGCAACAAGTGGCGGACCATATTGGCAATATGGTTATCATGTCTTAAAAGGTGTAGACCTTGTTGTCCCTGTAGATGTATATGTTCCAGGATGTCCTCCGAGACCAGAAGCACTTATTGAAGGGTTATTAAAACTTCAAGAACAAATTCTATTAGAAACTCCAATTCAAGATACTGTAACAAAAAATCTCAGACAACTTTTCAAAAAAACTAACAAAACAAAGAAAATTTCTGCTTAAAACCCCTACCTCGCGGTAAAAAGTTTTCCTGTTTAAATTAAATAGTTATAATGAATTCAAATGATATTAAACCTTTATTAAAGAACTATTTATTATCTAATCTTAAAAGCAGAAAAAATCTTTCAATTGGCATAGAAATAGAAAATATTTTATACGATTATAATCTAAAAAGAATAAATCCTGATTTATCTTCAATTATATCAACTGAAGCATTACAAAAACAATTAATAGAAAATGATAATTTAAATATTTCGATAGAACCGGGAGGACAAATCGAATATGCTTCTTCTCCAAACTCAAACTTAAAAACCCTACATAATGAAATATTAATCTATAGAAAAAAATTGATAGAAATTTGTAATGATGAAAAAATAATTATATCTGATTTTGGGGTTGACTCAATTTATAAACATGATCAAGTTCCTATTACAAATCGAAAAAAATATCAACTAATGTATAAACTCTTTTCTAAAAAGGGTAGATTGAGTCATGAAATGATGCTTAACACTGCAAGCATTCAATTAAGCTTAGATTATTCATCTTTAGAAGAAGCAGAAACTTTAGCTTTTTTAAGTGATAACATACATCCCCTGCTTAGTATTATATTTTCGAACTCTCCCTTTTGGCATTCAAATACAACTAATAAAAAAAATATTAGAGAATTAATTTGGTCACAAACTGATTCTGATAGATGTAATTCATTGGTAGAGCACGGAATAATTCATAAACAAAATCTAATTAATAATTATATTGATTTTCTATTAAGCGTACCCACTATTTTTCAAGAATCATATAATAATATATCAGATTTTAATGGATCATTGGAAAAATATTTAAATCAACTAAAAAATAATAATGAAATTAATAATGAAAAGATCAAATCCGTATTGCGTCAAATTTTTACCAACGTAAGATTTAAAGATATACTAGAAATAAGGGGAGCAGATACACCTCCATTTGGATACGAGTTAGCACCAGTATCTTTTTTAAAAGGATTGTTTAGAAATGAAAAGTCTTTAGAAAAATTATTTGATTTATGTAATAATTGGAAAATAAATGATAGATTAAATTTAATTGAGTTATCTAAAAACTTAAATTTAAATGAAGTATGGAATGGTAAAAAAATTGTTTCTTGGTGTGAAGATTTGATTTCAATTGCAATTGATGGATTAGATTCTGATGAACATATCTATTTAAATTCTTTTACTAATGAATTTTTAAAAAATGGTCCATTTAGTTTATCAATCCAAAAATCATATAATAAAAATAATTTATCTATTAAAGAATTTGTTAAAAGAAGATGGTTTGAAAAAAAGGAAATATTTGAATAAAAATTAATCTAATAAGGTTGCTTTAATATATTCTTGATTCATTTTTGCGATATTTTTGATTGAGATTTCCTTTGGACACTCTGACTCACAAGCACCAGTATTTGAACAATGTCCAAAACCTTCAGCATCCATTTGATCAACCATATTAATTACTCGTTTTTGTCTTTCTGGATGACCTTGTGGCAATAAAGAAAGTTGAGCAATTTTAGCAGATACAAATAAACTCGCAGATGAGTTTTTACATGAAGCAACGCAAGCTCCACAACCAATACACGCTGCAGCATCAAAAGCTTCTTTTGCTGTTTCTTGTGAAATTGGTATTGCATTTCCATCTGGAGCACTTCCAGTATTTATAGAAATAAAACCACCTTCTTGAATTATTCTATCAAATGAAGATCTATCAACAACCAAATCTTTAATTATTTTAAATGGTTTTGCTCTCCATGGTTCTATGGTTATAGTATCTCCATCTTCAAAATTAAACATATGTAATTGACATGCAGTTGTTCCTTTTAAAGGTCCATGAGGCTTACCATTTATTGTCATTGAACATGTACCACAAATTCCTTCTCTACAATCATGTTCGAATGCAATAGGGTCTTTTTTATTTTTAATTAAATCTTCATTCAAAACATCAAGCATCTCTAAAAAAGACATATGAGAGTTTATATTTTCTATTTTATGTGATTCAAAATAACCTTTTGATTCAACATTTTCCTGTCTCCAAATTTTTAAATATAATTTAATTAATTTCATTATTTATAACTTCTTTGTGATGGTTTAACAGATGTGAAATTTAATTTTTCTCGATTTATCTTTGGTTCATTATTTTTACCTTCATATTCCCAAGCAGAGACATAATCATATTTTTCATCATCTCTTAATGCTTCACCTTCTTTTGTTTGGTACTCATTTCTAAAGTGACCACCACATGATTCATTTCTATCTAAAGCATCTCTCATCATTACTTCACCAAGCTCAATAAGGTCTGCAACCCTTCCTGCTTTTTCAATTTCTAAATTAATAGTGTTTAATTTACCTGGCACTGTAACATTTTTCCAAAAATCTTCTTTTAAATCTTTTATTAATGAGATTGCTTTTTCTAAATCATTTTTATTTCTTGACATTCCACAAAAATCCCACATTATTTTACCTAATTTTTTATGAAAACTTTCAACAGTTTTAGTTCCATTATTTGATATTAAATTGTTAAGCTTATCTTTTACTTTTTCTTCAGTTAATTTGAACTCTGAATGATTTACTGAGAACTTTTCATTTGATATTTCACTAGACAAATATGTTCCAATAGTGTAAGGTAAAATGAAGTATCCATCTGCTAAGCCTTGCATTAAGGCTGATGCACCCAATCTATTAGCTCCATGGTCAGAAAAATTACACTCTCCAATTGCAAACAAGCCTGGCAAGGTTGTCATTAAATTATAATCTACCCATAAACCACCCATAGTATAATGAACAGCTGGATAGATTCTCATTGGTGTTAAATAAGGGTTTTCTCCTGTAATTTTACTATACATATCAAATAAATTACCATATCTGGAGCTAACAACGTCTTTACCAAAATTATTGATTGCATCTCTAAAATCCAAATATACTGCCTGCTTAGTACTACCAACACCATAACCTTCATCACATCTTTCTTTTGCAGCTCTAGATGCTATATCTCTCGGTACTAAATTTCCAAAAGCAGGATATTTTCTCTCCAAATAATAGTCTCTTTCTTCTTCGGGTATATTTTCAGGGCTTCTTTCATCATTTTTCTTTTTGGGGACCCATATTCTTCCATCATTTCTCAATGACTCAGACATTAAGGTTAACTTTGATTGATAATCACCAGAAACTGGTATACAAGTTGGATGAATCTGAGTAAAACATGGGTTCGCAATCATTGCACCTTTTTTATATGCTTTCCATAATGCTGTAACATTACTTCCCATTGCATTTGTGGATAAATAATAAACATTTCCATAACCTCCTGTTGCTAAAACAACAGCATCGGCATAATGGCTTTTTATATTACCGTTTATCAAATTTCTTGTAATTATTCCTTTCGCTTTTCCATTAATGACCACAACATCTAACATTTCATGTTTTGTGTTCATTATTACATTTTTTTTTGCAATTTGTCTGCTTAATGCACTGTATGCACCTAAAAGCAATTGTTGACCAGTTTGTCCCCTAGCATAAAATGTTCTTGATACTTGAACACCACCAAAAGATCTGTTGTCGAGAGTTCCACCATATTCTCTAGCAAAAGGAACGCCTTGCGCAACGCATTGGTCAATTATATTACCACTAACCTCCGCTAACCTATAAACATTTGCTTCTCTTGATCTATAATCTCCACCCTTAATGGTATCATAGAACAACCTGTAAATACTATCACCATCATTTTGATAATTCTTTGCAGCGTTAATTCCTCCCTGAGCTGCAATTGAGTGGGCTCTTCGAGGACTATCTTGAAAACAATATGCTTTAACATTATAACCCATTTCTGCTAGTGAGGCAGATGCAGATGCGCCTGCTAATCCAGTGCCAACAACTATAACACTTAATTTCTTTTTATTAGCTGGACTTACAAGGGGTAAACTTGATCGATATTTAGTCCATTTTTTTTCTAGCTCACCATCTGGAACATTTGAGTTTAATTTTTTTTTTTTTTCATTCATATCAAATAATTAATACTAAAATTAATATAAAAAGTTCCTCAAAACACCAAACCAAAAGGCGATAAAAAAGAAACCACCGGGTATAAACAACCAAAAAATTGATGATATTGAGAATAAAATATTACCTATCCGTGTATTTTTGATACCAAAAGTTTGTAATGCTGATTGATAACCATGTTTTAGATGAGCACCCAAAAGAATCATTGATAAAAGATACAAAATTGTTATAAAAATATTACCGAATCCAATTGAGCTTGATGTAACTAAGTAATAATAATTGTGTTCATGATTATCTCTGAAATTGAACCAAAAAGTTGATAAATGAATTGTCATAAAAATAAAAATAATTGAGCCTGATACTACCATATAATTTGAAAAAAAAGATGTTTTTTTTGATTTGTTTTTAACTTCGAATGTTTTTTTTCTGTTTTGAATATTTAGTTGAATAGAATTATATACATGTAAAAATATAATTAAGGCTAAAACAATTTCAATAAGTATAATAAGAGGTCTAACAGCTTCTAACGTAGTAACAAGTTTATTAAAAACATCTCTACCAGCGAATACAATTAAATTATTTATAAAATGAACAACCAAAAAAAGTGAAAAAAGAATACCTGTAGTTGCAACTACAAGTTTTTTACCGATTGTTGAATTATAAAATTTTAATATTTTTTTCACTAAATCTAGAATATATAACAAATAAATTTACAACTACACAATTGTAAATAAAATTCGGATTTTTTTTTTTACAATTAACCCTGTAATCTGAAATTTACAGGAATTGAAATCCAAACACCAACAGATCTATCGCGTTGTTTTGCTGGTTTGAACTTAGTTTTTTTAATAGCAGTCATAGCAGCTTCATCCAAACCAGTATTAGGAATCCCTTTAAGAACAACTGTTTCTGTAACTTTTCCTTTTTCATCAACAAAAGCTTGAATAACTACAGTTCCTTCAATACCAGCTTCTTGTGCAATTTCTGGATATCTTATGTTTCTTTGTATAGCACCATATCCACCTACAGGTACAGGAGGGTCATCATAAGGTATAAATCTTACTTTAGGACCTTGATTTGGTGGTGGTGGTGGTGAATCCCATTCAACAAAATCATCTAACTCTGTTTCCTCAATAGTGACATCATCTGCAAGATCTTCATTTTCTGACTCAACTGGAATTGATGGTCTAGAAGGAGGTGGCGGCAATTCAAACTGTTGAGTTTGAGGAATATCAAATTGCTCTATTTCAATAGAAATTTCTTTTTCTAAAAATTCTTTAGCAACAAACCTTGGATATGCAACTAATAAAGTAATTAGTAATAAAATACTCACTAAAGTTGTTATCCTTACAATGATAGGATATCGTAACTTAAGAGAAATACTTTCTTTTTTTCTTAACATTATAATGGAGCTGCTGTTTTAGATGAATAGTTTATTTTTAAGGCGTCTGCTTCTCTTAATTCATTGTGAATATCTCCAATTAATTGCATAGAAGCTTCTTTATCTGCTTTCAAGGAAACAGTTATCTGTGGATCGCTAACTCTTTTATCATACATTACATGTTTTACATTTTGCATAGGAATAATTTTATCATCAATTGAAATTAATCCATCTTTTGATATAAAAACATGTGATGTGTGTCTTTTTGATTCTAGCCTTTCAATTTTTCTAGCTTGAGGTAAGAACACATTAAGACCTTCATACTCTCTAAGGACTGTTGTAACCATAAAAAAAATCAAAAGCATAAAAATGATATCTGGCATAGATGAAGTTGGTATTTTACTTTCTGCTTTTGTCTTTGCTTTAAATTTCATTAATTAGTCTCCGCAATAGATATTCTAGTTGCATTAGCCATTTTAAGTTGGTCTAAAACTTCAACATATGATTGATATTTAGCCTTTGGATGTGTTTTAACAGAAAAAATTAGTTTATCATTTGCAATCATTTTTTCTGTAATCACTGACCTTAAATCTCGCATAGGAATTGGTTCCTTATCGAGCAAAACTTCACCCCTGGAATTGAGTAAAATGTTTGATATGTTTTTCTTTGGTATTTCTTTTTCCTCACCTTTTGGTGGAAGAACTAACCCAAGACCTTTATCCATATCAATCGTTGTTGTTACGAGGAAAAAAATTAGCAGTAAAAAAGCTATATCAGCCATAGAACCACTAGGTATCTCTCCAGCTTTAATTCTTTTTTTCATGCTAAATAATTTTACCCTTTATCTCGGTCGACTAATTCATCAATTAAAAGAACGGAGTTTTCTTCCATATCAATAATCAATTTATCAACACGAGTAATAAGAAAATTTTGAAAAGTTTGAATTATAATAGCCACAACCAAACCAAATAGAGTTGTTAATAATGCAATCGAAATACCGCCTGCTACAACAGCAGGGGAAATATCATTGGCAGCTTTGATATCATCAAACGCTTGAATCATACCTGCTACAGTCCCTGTAAATCCTAACATTGGCGCCAAAACAACCACAGTGCTCAACCAAACCATATTCTTTTCTAAAAAAGCCATTTCTATAGTACCGGCATTTTCAATGCTTTTTTCTACTGTTTCTATACCTCTATGAGACCTACTTAAACCAGCATGAAAAATTTCTGCAACAGGACCATTTGTATTTGAACAAACCTCCATTGCTTTTTCTGTACCACCTTCTTTTAAAGCTACTTTAATTTCTTCCATAAAAGTAGTTGTATTAATTGAGGCTCGAAAAAGAGTATACACTCTCTCTAAACCAAAACCTAATCCAAAAATCAACAAGCCTAATATGGGATACATAAAAGGACCACCGTCTAAAAAATATTGAACCATTACCTTAATCTCCTTAGATATATAAATCTCAATGCCAACAAAAATACAATTTCTTTATGCGAATGTCAATCTTATCTTCTTTAATTAAAAGTTATGAATTTTTTTGCATCATCAAAATAAGAAATTGCTGATACTACCTGGGAATCATTACTTATAAAAACTTGGTAATATCCAGCCCTTCCCCATTTTGCTCCTGCAATTTCGGATTTAAGAATTGATTTTAAATAATTATTATTATCCAAATCTAATGAATCATCAATATTTAACCCTTTATTCTTAACATACTCAAAAAAATCAGACAAAATTAAATCAGTTATAACAAATTTTTCCGTAAAATCTGAAATATTGTTCCACTTTTTGTTTAAATTTTTTGAAAAGGTAGTTGCCCAGTTAAATGCTAAACGTTGCGGATTATTAACTATTTTACTCAATGTTGAATCATATTCAAATACAGGAAGAAAAACATCAGGTGTTATTCCACCTCCACCATAAACAATTCTGCCTTTTTTTGTTTTAAATTTTTTCTGATCTTTTCTAAGTGAATCTAAAATTTCTTCTCGATCCTCATTATTTAGTTCTTGATAATAATTTCTAAGTCCGTCATTATAAGGTCTTTGGATCAACCTTCCGCTTGGGGTATAATATCTTGCTATTGTCACCCTTACTGCTGAACCATCTCTTAATGGCCACTGTCTTTGAACCAAACCTTTTCCAAAACTTGTCTCACCTAAAATTAACCCTCTATCAAGATCCTGAACCGCACCAGCAACTATTTCACTTGCGCTTGCAGACCACCTATTTATCAATATAATAAGAGAAAAATCATTAAATCCTCTTCTAGGTGATGCTTTAAATGAATCCGTTATTTTATTTTTTCTTCCTGAAGTGTAAACAATTGTATCATTGGAAGTAATAAATAAGTCTGAAATATTTACTGCTTGCTCTAAATATCCACCACTATTAGTTCTTAAATCAAAAATCAATTTATTCATACCTTTAGATCTCAAATCATTTACTGCCTTTGATACTTCATCGTAAGTTGTTGATGCAAATCTAGTTAACCTCATGTATCCAATTTCTTTATTGATCATAAAAGAAGATATTAAACTATAAATAGGAATTTGGTCTCTAATTATTTTCACTTCAAATGTTTCATCTAAACCTGGGCGCCTAATCGTTAAAGAAACTGGACTTCCCTTTGGCCCTCTAAGAGTATTAAAAACTTCCTCTCTAGTAATTTCAAAAGCATCTTTTCCATCGATTGAAATTATTTTATCTCCAGGTTGAAGACCAACTTTGTCAGAAGGAGAATCTACTATAGGAGATATAACTGTTATATATCCTCCCAATAAATCAAACTCTATTCCTATACCTTCGAATTTTCCATAGAATTGTTCATTAACATTTTCAAGCTTGTCTCTTGAAATATAAGAGGAATGTGGATCTAACTTTTCTAACATTCCTTCAAATGCACCATCTAATGCTTCATCCCAGTCTACATTATCTACATAATTGTCATTTACAAGCGAAATTATTTGGTTTAAAACTTTTATTTTATCATAAATATTTACTGTTTTTTCAGTGGCGCTCGGAAAAATAAAAGCAATGCTAAATATAGATAAAATAGAAAAAAGTGCTATCAGTGATATTTTTTTCATTTGAGTTTATAATCCAAAGTATAACATAGCTCTTATGGTCGTTGCTCCAAGCGATGTTTCAGGTACATCATATATTCTTTGACCATTTGAAATTTCCCATCTGTTTTTATCAAGATCTGCAAAATTATATCCAACGGTTAATCTTAATCCCATTCTAGATAATAATCTAAGTTTAATAGCAATATATGGTTGAAAGTTTATAAAACGATTAGTAATAGTTAATTCATAATAATTTGGATTATTTCTTCCACTTTCGATAGAGTTTTGATCGAGTTCATCAATAACCCCATCACCATTTACATCATAAGTTGAACCAGCTTTTTGATCTGCTGTTGTCTGAGGAAATAATGAAATAAAATCTTCTTCTGTTTGTGTTGAATCTGGTAAAATATCCCAAACGACGTTATTATAAGTTCTTGCCAAACCAAATTTAAAAGACCCAAAACCCATCATTCCACCTATTGAGATATCTAAACCTGAAAAGGGGTGAAAAACATATTCAAGAGTTGCACCACTCATTATCATTGAAATTCTAGCAATATTTCTAACAGTACGACTTTGTATAGTATCACCAACGGTTTGATGCATTTGTTGAGCATAAGTTATACTAGTATTTCCGGTTCCTGCAAAACCACCAATTGTAATATTCTGAGTTAGACTTGAAAAACCCTCACCACCTGAAATAACTAATGGTAAATCATATTTATTTGTATCAAAAGGTAGGGGAAGTTTTGAAGTAAGACCAAGTTTGCTAAAATCTTGATATAAGAACATTTGGCTAAAACCAACTCCTCCACCATAATATGATTCTGGTGGATAATAGTCCTCTTGAGCAAATATAGATAAATGTATTGTAAAAATAAAAATTAAAATTTTGCAAATTTTATTCATAACGATTTTTCCTCGGATTAGAAGAAATGCAATTTACACTTTGAATTAGCTTAAGCACAAGTATGAAATCAATTTTTTTAATTTTTCTTTGTTTTGAAAAATACAACTATCTATATTTTATATTGGTGAAACCTTGTTTTCAGGGTTTATCAATGAAAAAATAGCTTAACCGAGGTAAGGTAATAATGCTAAAAATCAACTTTATTAGAAAGTTACATGCTTTCAAAACACTTTTATTGTTTAAAAGAGTTCTTTTTGTACTAATTTTATTAGGTCATACTTATGCCCAAAAAAATATCGTATCAATTAGTAAAACTTATGATTTAGATAATGATGGATTAACTGAATTTATCACTATTGAAAAGCAAAATTTAGATGATGAATTTGGTACTAGTGCTGTATATTATGAAATTGATGAGTTTGGTACACACATTGAACTTTGGCGCTTTACTACAACGAATCAAATAATTAATGCAAGTATTGGAGATATTAATGGAGATGGACTATCTGAAATTCTTGTGATGTACTATAAATCATTTTCAAGCGTTATTGAAATATTCAATTGGACTGGTTTTGATTTTTCACCAATTTCTTATGGAACTCTATTTAAATCTAATGATTTTAATAAAGATCAAATTCCAACAAATTTCAATATCATCGATATTGACTCAGATCGAGTTGAAGAAATTGTTTTCGCTCATAACAGTCCTAACAGAAAGATCTCTCTTTACTACATATCTGGTAGTTCAAACTTAACTTCTATCCAAGAATTAAAGTCAAAATCTATAAGTGATGGATATTCCAAAATAATTTCATATCCATTTAAGTCAAACACAGATGATTTTACTGATTTAATTGTGATTAGCCCTGAAATTAATAAGATAAGAATTCAATTATATATCAATGATTCCGGTAATTTCATTGAAAGTTTATCTGGATTAACAAAATTACCATTTCCTGTGCTAGATGTAATTGAAAGTGGAATTATAGATGTAGATATTGATAATGATGGAAAAAAAGAAATTATTATTCCTCAAAAAAACTTTAAATCAATAGCTATCAAAAAACTAATTTCAAGCTATCAAATTATCCCATTATCATCAGATATTCAAAAGTTATTTGTTTTTGATAAACCCTTAGATGATGATGATATCAATCTATTATTAACTGATAGGTCAAAACTATCTACAAAGAAAAATAAAATCAAACAAATAGCTATTAAAAGAAACAATTCAAAATCTGATTTAATAACTGAAAATAAAGAAAATGTTAACACATTAAAAACAAATATCGATACTTTAAATCAAAGCATTAATCCAATCAATATTTCTCCTTTAAATATTTCATTAGTTGATACAAACCCATCTTCTCCGAAAAAACAATTTGAACAATTATCAGAAATAAATCTAAAATCAATAAAACCTTCAAGCTCTGTTATAGATTCTATAGATACTTTGTTTCAAAAATCTCAAATAAAACCCATTGAGGAAGCTTTATTAACTTCTCTAAAATCTGATACAGTTGACATTATTAAAGATTCTGTAGATAATTCCAATGCAAACAAAATTAAATCTATTGAATTAAATACATTAGGCGTAACTCCATTTGAATCATCACAATCTCAAGATATTATTGATACTCTTTTCATAAATGAGCCTTTTACATTATCTGTAAAACCAACAAAAGGGACTATTATTTCATTTAATCCTGAAAATCTACCTATGGGAGCTAAATTTGAACAAATAAGCAAAACAATAACATGGATTCCTGTTTTATCTCAAATTGGATTACAATCGATTAAATATTCACTAATAGTCGAGGGAGCTGCAAAACCCTCAATTGAAGAAATTCCTGGTGAAAGTTTAACTGCAACACCATCTTCAAGCACTGAAACTTTTGAATTTAAATTTTTTATTAAAGAAAGATAAATGAAAAGAATTATTTTAACTTTATTGTATTTTCTTTTAATAGACACAAATTTTTCTTTCTCACAAGAACTAAAAATTAGATTTATGGATGGTGTTTTCGACTTAGACAATGATGATCTAGTTGAATTTATTTCGTTTGAATCAGAAAAAGTAAATGTTGAATCAGCTTCAAGAATAGCTTATTATGAAATAGATGAACTTGGTTATCCTCAATTACTTTGGAGTTTAAGTGCACCAAAAGATATTGAAGGCTCAATAATATCGGCTAATATCGCTGATTTTGATGGTAGTGGAATTCCAGAAATGGTAATATCAATAAACAAACCATTTCCTGATAAACCTGTGTTTTCACAAGCTTTATTATACGTATATGAATGGAAAGGCTCTACATTTTCCTCAAACCCAATGGTTTCAATAGCCCTTACAGATGAAGAAAGTATGCAATACATTAAAAATGTTTCCGTTTTAGACCTTAATGCAGATGGTAAAGATGAAATAGCTGTAGCTTTGTCTGGTTCAGAACCAATAATATCTATTCTAGGAATTACTGGAAACGAAACACCTGAGTTTTATGAGATTCAATCTTTTTTAATGGAATCTTTTTTAACAACACCTAATAATATAAATATCGCTTCACTCGATTATAACAGAGATGGGTTTTCAGAATTACTAGCTTTTAGTCAAGATAAAAACATTCTGAAAGTTCAATCATTAATTAACCAGGGTGGTCTTCTTAGTCCAGGTTCTGAACGTATAAAAAAAATAAATGGAATGTCTAATATTTTATCAAAATCAATTTCTAATATCAACTTCAATCTTTATGACAATGAAAATATAATAATACCTTTTCAATCTGGACATATTGTAAAAGTATCAATGTTTGATCAAAATATTGACATTTCTCAAATTCAAGTTGAAGCTGGTCCACTCTCAGACCTTAAATCTGCTGATTTTAACCAGGATGGTTATATTGACTTAATTTTAATTAGTGGTGAACAAGGTATTATAACTGTTTCATATGGTAGAAGTCAAAATGAACCAAGATTAAATGAATACTTCTCTATTAATGGAAATAACAATATAAATAGTCCTCAAATTTTTTCAGTAATCCCCGAAATCATTGATCAAATTTACTTAGGTACTGTTATTGCTGGTGGATGGAATGGTGAAGAAAATGAACTCTTTTATTTTGAATTAGGTTATGTTCCTGAATATCCAGAAGAAATACTAGTTGATACTTATATTCCTCAGATAGCTACTCCAGATACAGCAAAAATAATTGATGATATTATTCCATCTGAAGGAATTCCTCTTCCTATGGGTATTTTACCATCTTATATACTACCAGTGCATCAAACTTTTGCCTATACAATACCTGAAGACGACGAAAAAGAATTTTTTAGTTTTCGATGGATCGATTCACCTCCTAGAGGAATGTATTTTCATTATGATACAAAATCTATAGAATGGGTTCCAGATGAAATGCAACTCGGTGCATATCAACTTTCGTTTATGTTAAAAATGAAAGTTGGAGAAAGAGTAGATATAATAACAACTGATGATGATGGTGTGGTTACATATCAAGTTGTTCCAGAATTAGCAACTATTGAATCTAGATTTTGGATTTATGTAAATGATCCACCTCAAATTGTTTCTTATCCCGAAATTACAGAATTCGTTGCTGGTGATTTGTTTCAATATAAAATACATACTTTTGATAATAATGAAGATGCTTTTATTAGATACACTCTTGAAGAAGCACCGGAAGGAATGGAAATAAATCAACAGGGTGGACTAAGATGGCAAACAAATAAATCACATATCAATATCTATGATGTTAGAATAGTTTCCTCAGATGGATTTGATAGAGATGTTCAATCTTTTAAATTATATTCGAGAGGTCAAGTTGCAATTACATCAATTCCTGAAAGCTTTGGAACAGTTAATGAAGAATATTTTTACCAATTAGAAGTGAGTATGCCTGAAGACAAATCAAATGAATTAAAATACTCTCTAGTTGATGGTCCTTATGGAATGAAAATCGATAGTACTGGTAGAGTTACTTGGACACCCCAAACTACACAAATTGATACTCAAAGATTTGTTGTTTCCACTAATCATGGTGTGGCTGTTGACACTCAACATGTAAAGCTCTTTATAAATCACCCACCAGTTTTTTCTAATACTCCAGCTTCCATGAATAAGATTACTGTTAATGACACCTTTGATTTTCAACTGGGAATTAATGACCCAAACGAATTCGATATAATTAGATATGAACCAATAATTATGCCAGATGGAATGAGAATTGACCCTTCAAGTGGAAGGATTTTATGGATTCCTACGCAAGATAATTTAGATTTTTCCTATGCTGAGATTGAAATTTCTGATGGTCACACCACCAAAATTGAAAAATATGATTTTTTTGTAAATTCTCCGGTAAAAATAATATCTGATCCACCTATACTTGGAACCGTAGGTGAGGTTTTCAATTATAAAATTAAACTTAAAGATCATAATAGTGGTAGTTTAATGTTGTTTGATAACATTACAGCTATAAATGAAATTAAAGAGTCTCGTGTCTTTTCTGTTGAAATCGAAGATGACCTTTTTGTTGAAAATATTGAAAGATATATAGGTGAATTTAAATCAAAAAAATCGATTTTAATTGACAACGAAGATAATAAAACAAATGAAGAACAATTAATAGAAGAAACTATTTCAAGAATAAATTTAAAAAAATATGTTCAAAATATTTTTTGGGAGAATAATAAGTTAATAGTAATAATTAATACAATTGATGCAAAAACTCCCAAACTTCAAGATGTTCTTTTTCATTTTTTTGATGGAAATAAAGGGAAGCCACCAAAAGTAAATGTTGAACGAATTCCTTTTAAACAGTATTCTTTATTAGATTTTCCTGACGGAATGTTTGTAAACGAAAATACTGGTGAAATTAATTGGACCCCTAGCAATTCTCAATTTGATAATCACAAAGTAACTTTTATGGTTTCAGATGGATATTCTAGAGATGAACAAAGTTTTGAATTATATATAAATCACCCCCCCACAATAATATCAACGGCACCCAAATCTGCACGGGTTGGTGATCTTTATGGATACTCTGTTGTTGTCGAAGATAAAAACTCAGACAGAAATTTAACATATAAATTAACAAAATCTCCAAAAGGTATGCAAATATCTAGAGATGGAAAAATCAGTTGGAAACCAAAAGAATCTCAAATTAATGGTAATATTTTTGAAGTTGAAACAAGTGATGGACTTGTGTCAGATTTTCAAGAAACCCGGTTGTTTGTAAATATATCTCCGACTATAATTACACAACCAAAACCAGTAGCTCTATCCAATTTTGAATATAGATACAGAATGGTAACAGAAGATTTAAATAATGACAATGTTCAACTTAGAGCAATTAAAATTCCAAAATATGCAAAATTTAACCCGGATAATGGTATGCTCCGTTGGAAACCAAGACTAACTCAAAGAGGAGTCAATAATATTATTATAGCAGCAATAGATGAAAGGGGTGCTACAACATCTCATGAGTTTTCAATTCATGTATATGATGATCCCTCTTCTCAACAATTCATATCAAGTAGTTGGCCACTTTTATTAGCTTTTGTAGGTACAATGTTTAGTGTAGGTGTAGCAACATCAAATTAGTTTTTTTATTTTACTAATCAATAGGTCTTTATCATTATTTTTAAATTTTATTTCTAATTCTAGAAATTTAAAAACCTTATTTTTTTGAAAAACTTCAGGAAGTTTAACCCAATCCTTTTCAGTTGTGACTATATAATCTGCTTTATATTTATTTTTTAATTCAATTAACTCATAAAGTTTTTTCACTGATAGTTTTTTATGATCTTTAAAAATTATTTTATGAACAATATTTAATTTTTTAGAATGTAAAAGATTTATAAATGATTGAGGATCTCCTATAGCACAAAAAACTAAAATATTACATTTTTTATCAAATGAATTTTTTAACCCAATAGTTGTAAACAATTGCTCTCTTGATGATTTAATTATCCTTTTATTAAAATTTGATGTTTCATAATCTTTTTTGTATTTACTCCACATAATTAAATCTGCTCTTTTTAGGGAGCTATAGGTTTCTCTTAATCTACCTACTGGCAATAAACTATAATTTTTATCCTTCTCTTGATAATTAATCATAACTAAATTCAAATCTTTAAATATTTTTCTATGTTGAAATGAATCATCCAAAATTACAACATCAAAATTAAATTTTTGGGAGGATATTTGTATTGCTCTATATCGATTCTTATCAACAATTATTGGAATGTTTTTTAATTTTTTTGCTATCAAAAATGGTTCATCTCCTGAATTATCTACAGACTCCAAAATATTATTATTATCTGAAACTATAACCGTACCTTTTGACCGTCTCTTATAGCCCCTACTTATTATAATAGGTCTTTTATTTAATTTGATTAATATTTTTGCAATTTCAATCACCATTGGAGTCTTTCCAGTACCTCCAGTTGTAATGTTTCCTACTCCAATAACCGGTTTATTAAATTTTTTAATTTTTATTAATTTTATATCATAGAAAAAGTTTCTTATAAGTGTTATTAAACAATAAAAAAATCTCAAAAAATAAAATATGAGTAGTTTAATTCTATTAAAACCAATCATTAGTTTTTTTTTCTATTTTATTTAATTCTTGTGTTATTTTTATTTTCAGATCTTGTGAATTTTTTATTGTTTTTGTATCGATTATATCCCCATAAATATTTAAAATTTTACCAAATGGTTTAGGAATTAAAAACAAATCCCAATTTTTTATTTTCCAGTTTTTAGAAGATATTCCTGATATTGGCAATATTAATGCTTCTTTTTTTATCGACGCTTCTACAATTCCATCTTTAATAATATGAATAGGACCTTTTGGTCCATCCGGCGTTATATAAATTTTACTGTTAGAGCTTAATTTATTTAAAATACCCTTATAAGCTTTGTATCCACCCTTAGAACTAGAACCTCTAATCATTTTCCAACCTAGTTTTTCACAAATTCTTGATATTATCTCTGCGTCTTTGTGTAACCCTGCCAATGCATAAAAATTTAACTTGTTTAAATTGAAAACTGGAAAAAGTAATCTTCCATGCCATGAACATATCATCACTGGTCTTTTTTCAGACTTGATTTTAATTAAATTATCTAACCCGAAAATTTCTTTTTTATTCGACCAAAAGATAAATTTTAATATAAAATATCCTAATATTGAATATAATCTTAATTTAAATGACATAAATAGTTGATTTAAATAAAAGAAATCTGTTAATTAAATAATTTAAATTAAAAGCTTTTATTTTTTGTACAATTAAATTAAAAATAATCATTTTATATTATTTTATCATATAAAATTATGTTTTTACAATATATTCTACAAATCTCATACACTCATCTAAAATCAAATCTTCTTTTATAATTTTATCTGAAAAACCAAAACCAGTAATTTTCCACCCTATATAACTTCCTACAATTGATACAACAGATATGTATTCAGTGATATTTATATTATTCAACTTATTATACATTTCAAATCCTACTGAAGTACATTCAGTTTGATTAATGCCATAATCTTTTTTATCATAAATATTTGAAATATCGGGAAATCGTGGTTTATCTTTAAAAGGAGTGTTTCCAATTAGAGGATTATGACCTGTTTTATTAATATGATCAACTATTTGGATAAATTTATTTGGGTTTTTTATCTTTTCAAAAACAATCAGGTGATCTTCACCTAAAGTATCTTTAATTATATTAAAATTTGAAGGGCTAAATGTCTTAATATCTAAATTACATGGTGTAATGATTCTATGTTTTTTATATGTTATATAATAATGGTTTCCAATTGTTCTTTTTCTGAAAGAAGATACATTTGGTAACTTAACAAAATAAACTAGGCTCATGTTCTTGAACCGAACAATGCTGTCCCTAATCTAATTTGTGTTGACCCTTCTTCAACTGCTATATCATAATCTGATGACATACCCATTGATAAATCAATCAGTTTTTTTTCATTTTCAAGCTGGTCGTTTAACTTTTCTTTTAATTTTCTTAATAGGATAAAGGTTTTTCTGGTTTTTCTTTCATCACTTGTAAACTCTCCTATTGTCATTAAACCTCTAACAACTAGTTGTTTATAACTAATTATTTCTAATAGATTCTCTTCATCAGTCAGATTAAATCCATATTTTGCATTATCTCCAGACGTGTTCACCTGAAGCATCACTTCTTTTGTTTGATTTATTCTATTAAGAGAATTATCTAATCTTCGGGCTATTTTTTTTGAATCAATTGTATCAATTGCATCAAAAAGCTTAACCGCTTTATTAACTTTATTTGATTGTAGATGACCTATTAATCTTTTTTTTAATTTTGGTAAGTCTGGGAGTTTTGGAAATTTAAATTCTGCTTCTTGAATTTTATTCTCTCCAATATTTAAGATTTCTTCTTTAAAAGCAGATACAATAGCCTCTTTTGGAAATGTCTTTGTAACAGCAATTATATCAACTTTATGATTTGGTATATTATTAACTAAAATTGAATTATAAATTTTTTCTTTAATTCTTGATAAGGCGTTTGCATTTATCACCCCTCATCATTCTCCTCATTTTTTAAACCAGCATTTTCGTTTGGTTCTAATTCACCATCTTCTTCAACATGAATAACCCTACTCAATGAAGAAATTTTTGCTCCCTCATCTAGTTTAATTAATTTAACACCTTGAGTTACTCTACCGATGGTTCTTATTTTCTCAATTGGTTGTCTTATTAAAACCCCCCTATCTGTAATTACCATTAAATCATCAGAATCAACAACTTCCATAATAGCAACCATTTTACCTACTTTTTCATTTGTTCTCATCGCCATGACACCCATACCAGCTCTCTTTTGAACTCTAAAAGCCATAACATCTGTTCTCTTTCCAAAACCTTTTTCAGTTGCAACAAGGATGGTTCCCTCTCGTCTTACTACAACCATTCCTACAACATAATCATCTTTGGAAGAAAGTTTTATACCAGTCACCCCTTGTGTGTTTCTACCTTGTGGTCTTGCATCTGTTTCTGGAAACCTTATTGATTTTCCTTCTCTGGTTCCCAATATAATATCATTCTCTCCGTTTGTTATTCTAGCTTCAATTAATTCATCTCCATCAGTAATTTTAATAGCATAAATACCACCTTTTCTTGGTTTACTATATGCAGACAAAGATGTTTTTTTTATTTTTCCATTTTTAGTTGCCATGATTATGTTATGATCATTATCAAAATTTTTCACACTAACAAATGCTTTAATTCTTTCTCCAGGATCTGTTCCTAACATATTAACAATTGCCCTACCCCTTGAAGCCCTTCCTCCAGGTGGTATTTCATGTACTTTCAACCAATAACATTTACCTTTATCTGAAAAAAACAAAATGTGGTCATGTGTACTTGCAACAAATATATTTTCTACAAAATCTTCTTCTTTTGCACCTGCACCCTGAAGACCTCTTCCACCTCTTCTTTGGCTTCTATAGGTTGAAGCTGCTGTTCTTTTAACATATCCATTATGAGTAAATGTTAAAACCACATCTTCATCAACAATCATATCTTCAACGGAAAAAGTAGTTCCCACTGGTACTATTTCTGTTTTCCTGTCTTCACCATATTTTTCACTTATCTCTGAAAGTTCATTTTTAATTATTGTCATCTGCTGTACATGACTTTCCAATATACCTTTTAACCGAGAGATTAGTTGAATTATTTCTTTATATTCTTGATTTACTTTTTCAACCTCTAAACCAGTTAATCTTTGAAGTCTCATGTCTAAAATTGCTTGGGATTGTTTTTCAGATAAGTCAAACGAATTAATTAAACCTTCTTTTGCTTGTTTGGGATCCTTACTTCCTTTAATCACATCTATTATCTTATCAATATTTTCTAAAGCAATTTTTAAACCTTCAAGTATATGAGCTCTTTCTTCTGCTTGTTTTAATTCATAGTTCGTTCTTCTTATTAATACATCGTGTCTATGATCTACAAATAACTTAATTACTTCTTTAAGGTTGAGAACTCTTGGAATACCATCAACTAGGGCTAATAAAATAACTCCAAAAGTGTCTTTCATTTGAGTGTTTACATATAATTGATTTAATATGACCTCTGGAACCACATCTCTTTTGGTTTCTATCACAATCCTCATACCATCTTTATCAGACTCATCCCTTATATCAGCAATTCCTTCAATCTTTTTAGATCTCACCAGATCAGCAATTTTTTCTATTAGACTTGCTTTATTTACTTGATATGGAATTTCATTAACAACAATGTTTGACTTGCTTCCTTTTAGAGTTTCTATAAAAGCATTTGCTCTAACCCTTATTTTTCCTCTACCTGTTTTATAGGCATCACTAATTCCATCCAATCCTTCAATTGTTCCACCTGTTGGAAAATCTGGTCCTTTTGTAAACTCCATAAGTCCTTCAATAGAAATATCTGGATTATCAATGAGAGCAATAGTTGAATTGATAATTTCTATTAAATTGTGGGGTGGTATTTTTGTTGCCATACCCACAGCAATACCTTCTGAACCATTAACAAGCAGGTTTGGTATAACAGTTGGTAATACTGTTGGTTCTTCTAATGTTTCATCGAAATTTGATTGCCAGTCAACAGTATCTTTATCAAGATCTCTTAGCATTTCAGCGCCAAATCTTGTCATTCTCGCTTCTGTATAACGCATCGCCGCAGCATTGTCTCCATCAACAGAACCAAAATTACCTTGACCATCAACAAGCTCATGTCTCATTGAAAAGTATTGTGCCATTCGAACGAGCGAATCATAAATAGAAGAATCTCCGTGAGGATGATATTTTCCCATTACATCTCCAACTATTCTCGCGGATTTTTTATAGGGTCTATTCCATTGTGAACCAAGCTCGTTCATTCCATATAATATTCTTCTATGAATAGGTTTTAAACCATCTCTTACATCAGGTAGTGCTCTTGAAACAATAACAGACATTGAATAGTTAATGTAACTATCTTTCATTTCATCAACAATATCCCTATTCACTGACATGTCTCTAGATGTTAAATCATTCATTTTTATTCCTTCAATTTTTAAACGTCTAGGTTCACCACAAACTTAGCATGGCTTGTAATAAACTCTCTTCTGGCTTCAACATCACTTCCCATTAAATCCATAAAAAGTTTTGATGCCTCACTTATACTTTCTACCGACACCTTTAAAAGCGTTCTTGTTTCAGGGTCCATTGTTGTGGTCCACAATTGCTCTGCATTCATCTCTCCCAAACCCTTATATCTTTGTAAATCAATTTTTTGATTCTTATTATTTTTTAAATATCTATCAGATATAAATTCTCTCTCTTCTTCATTATAAGCATATTGTTCTTTTTTGCCTTGTTTAACTTTATATAGTGGTGGTTGTGCTATATATACATTTCCATTTGTAATTAATTCCGGCATTTTTCTATATAAAAAAGTTAAAAGCAATGTTCTTATGTGGCTTCCATCTATATCAGCATCTGTCATAATTATAATTTTATTATATCTTAATTTGTTTAAATCAAATTCTGCTCCACTTGGTTTTTCTAATTCTTCTGAATCACCATTACCACCAAATCCGGCACCCAACGCTGTTATTATGGATTGAATCTCATTGTTTGATAACAGTTTATCGATTCTCGCTTTTTCGGCATTGATAACTTTTCCTCTCAATGGTAAGATTGCTTGAAACGTTCTGTCTCTTCCTTGTTTTGCAGAACCACCAGCAGAATCTCCCTCTACTAAAAATAATTCACACATTTCTGGGTCTTTGCTTGAACAATCTGCTAGTTTTCCAGGAAGTGACCCACCTTCTAATGCGCTTTTTCTTCGAATTAATTCTCTTGCTTTTTTTGCTGCAGCGCGACTTCTAGCTGACAACAAAGCTTTTTCTATAATTCTTTTTCCTATTGATGGATTTTGCTCTAAAAACTCTTGAATACCTTCATATAAAACAGCATCTACTATACCCTTAACATCACCATTACCCAACTTTGTTTTTGTTTGACCCTCAAATTGTGGTTCAGCCACTTTAACAGATATAACAGCGGTCAAACCCTCTCTAAAGTCTTCTCCCGATAATGTTATTTTTTCATTTTTGTTTGTTTTAACTAATTTGTTTTTAATTGCATAACTGTTTAATGATCGTGTTAATGCTGACCTAAAACCAGACAAATGAGTTCCACCCTCTATTGTGTTTATATTGTTAACAAAAGTTAAAATATTTTCATTAAAACCATCATTATACCTCAGGGCAACATCAACAGGAACGTCATTGTCTTCTTTTATAACAGTTATAACTTTCTCGTGAATTGCCGAATTGGAAGAATCAAGAAATTTTACATAATCAGACAACCCTCCTTTATATCTAAATATCTTTTCTTCTCCATTTTTTCCTTCCCTATTATCTAAAAATGCTATTTTAAGTTTTTTATTTAAATACGCTAGCTCTCTTAACCTTTCTGCAATTATTTCATAATCCCATTCAACAGTATTAAAAATTTCTGGATCTGGTAAAAAAGTTACTCTACTTCCTGTAGACTTTGACTCTCCTATTGTTTTTAATTTTGATACAGTATCTCCCTTTTCATACCTTTGATGGTATTTTTTTCCATCTCTTTTTATTTCTGCTTCTAACCAAGAAGAAAGTGCATTTACCACAGAAACACCAACACCATGCAAACCACCAGAAACTTTATAAGATCCTTTATCAAACTTTCCACCTGCATGTAAAACCGTCATTACAACTTCTAACGCGGGTTTTTTTTCTTCTTTGTGAATATCAACAGGAATACCCCTTCCATTATCTTCAACAGAAACTGAGTTGTCTTTATTAAAAACCACTTTTATTTCATCACAAAACCCTGCCAACGCCTCATCAACACTATTATCTACTATTTCACTTATTAGATGATGAAGTCCTCTTTTTCCAACATCACCAATATACATTGCAGGTCTTTTTCTAACAGCTTCAAGACCTTTTAATACTGATATCTTTTCTGCACTATATTCTATGCTTTGGTTTGACATTATTACCTTATCCTTAAATCTTTAATTATATTGTTTTTTAATTTCTTGTTTAACTTACCAATTATGTTGTTTTTGATTAGGTATATTTCGTTTCTCCAAACGGGGGTTTTTGCTTTTAAAAACAAAACTCCATTTCTTATTTCTTTTGTTTCTACATTTTGAGAAATTTTTTCTCCAACAACTTCTCTCCAAATTAAGTGGGTGGAGTTTTCTTTCAATTTTTCTTTTACACCTGTTTTTTTAAGTGTTTTTTTTAATACTTTTTTTAATGATTGCAATAATTGTGTAGTCCCGCTTTATATTTTTTTAGGTTACACCAGTTCTCATGGGCATTAACAACATTATCTGCTCTTCTTCTTTTTTTTCATTTTCTTCTGAACTAAACAATGTTGCAGAGATAGGTGAATTTAACTTCATTACAAAATTTTTTGTTTCTATATGGTTTAGTATATCTGACAAATAGTTAGCATTGAATCCTATTGTAATGTTTTCTTCTTTATAATTCACATCTAACATTTCTTTTGCTTTTGTCGCACTTTCTGCATCTTCCGTTTTAACCATCAATTTGTTTTCACTAATTGTAAAATCTATCTGTTTTGTTTCTCTGTTAGAAAAAATACCAACTCTTTTAACTGATGATAAAATTTCCTCTTTGTTACCAACCATAATTTTTTCATTGTTTTTGGGTATAACCGCTCTAAAGTCTGGATATTGTGCATCAATTAATCTTGAAAATGCGGTTATATTACCAAAGGTTGTAGTAATATGGTTGTCTCCAACCCAAATTGTTGTCATTTCTTGTGTTTCTAACAAAGGAACAATTAAATTTAAAAATTTTTTTGGTATTATAAGAGATCCTTCAAAACCATCTGAGAAGAATTCATTGTTTTTAAAATATGACAATCTATGTCCATCTGTAGCAACCAAACTTATTTGTTTTTCGAGTACTTCCATATAAGCCCCCATTAAAGATGGTTTTGTATCATCTTTGCTTAAAGCAAAAACTGTTTTGGTAATTAATTTTTTTAAAATTTTTGATTTAATATTTATTTCTTTTTTATTATCAATTTGAGGAATATTAGGAAATTCTTTTGAATCACTACCACTTATATTATAATTACCTTCTTTAGTTTTTATTACAACCTTATTGTTTTCTTGAACCTCTATTACCATTTCTGTTTCTGGTAGTGCGGAGGTAATTTCTATTAATGTTTTTTGAGGTATAGCAACACTTCCCGATTCTTCAATTTTTACCCCTAAGGATGATATTAAGGTAATTTCTAAATCTGTTGCTCTAATTTGAAGATTATTTATTTCTGTTGAAAAAAGAAAACTGTTTAATATGGGAATTGTAGATCTGTTTGGTGCTGCTTTTGATAATTTTTGGAGTGTTTCTAATAGTGTGTTTCTATTTATTCTAATTTTCATTTTTTTTAAGGATTTATTTTAAATTACATTAAAATTTCTCTTTTTAGATTAATTAAATATATACTTCTTAACAACAATTTTTTTAGAATTAACAAAGTATTTTATGTTAATAATATTTATCTTTTTAATAAAAAGTTATATTTAATAATATGTAGTGTTAATATGTTAATAATAGAATTTTAAATCACCTTAAGTGTTTTTAAATAATATTGTTAAGGTTTTTGTTTATAAAAAAACTTTATGTTTATTATTTGTGTATACTTTTTAAAAAAACATTAAATGTCAATAAAAAAAATAATACTAACAAAAATAAACAAGGTTTGTTAATAATTAATTGATATAATTTTTAATAAAATAGCTTTTTGATTTTTCTCTTATCATAGAATTAAACAGATTAATTTTTTTTTGATTTAAAGCCATTTGTTCAATAATAGGCCAATTATTTTCTAAATTTGGTATACCACCTGATTTAACATCAGAAACAAACAACAAATGAACACCCTCTTCTGTGTTTATTGGAACAGAACATTTGTTTATATCTAAACCAGGAATGATTGAAAATAAATCTTTGTTTGGAAAATCTTGATTGTTTATCCAACCCAACGAACCACCTATGTCTTTTGTTTTAATATCATCAGAGTATTTTTTAGCAAAAACATTAAAATCTGAATATGTTTTTATACTGTCTTTTATATTTAAAGCATGTTGATAAATATTTTCTTCATCTTCAAAGCTCACTTTTGGAGATATAAGAATATGCCTGGTATTTATTTTATCACCAAGCTTTCCTAAAAGTTGAATAATATGAAAACCAAAATCAGACTCTACAATTGGACTAATATCCATTATACCAAGGTTATAAGCAGCTTGTTCAAAAGAAGGTACAAATGTACCCCTTCCAACAAAACCCAACTCACCCCCATTCATTTTAGAGCCAGGATCGTCGGAAAAAGTTTCTGCAAGAGAGGAAAACTCACCGCCATCTAAAACAACACTTCTTATAGAATCAGCTAAAGAATAAGCAATAGAACGACTTTTTTCACCAGGAACTAATTTAAAAAAAATATGACTTGTATGATAAGAGTTAGGGATAAAAGATAAACTGTCTTTATAATTGTTGTAAAACACAACCACTTCATCTTTTGTAATTTTTGAGGATCCAAAGAACTGTGCTTGGTATTTTTCAGTAATTAGTTGTTCTCTCATTTCTTCCCACCACTCTCTTCTTAATTCGTTTACATTTTTCCCCAACATGTTTTCTAGGTTTTCTTCAGATCCAGCTTGTGCAACAGATTGTGAAATATATTGTTCTACGCTTTGTTCAACCTCTCTGTCTTCTACAACAATGCTTTCTTCTTCAGCAATTTCTAAAATAATTTTTTGGTTTATTAGGGATGTTACAATGGATTTTTGTAGTTTTTCTAGTTTTTCAACATCAAAACGTGGATCAAGGTTTTGTTGAACCGCTGTCATCTGTGTGAGCTGCGCAACATCACTTTTTAATATAACATGTTCTCCTACAATTGCAGCAATTCCATCAATTAAGTTTTCTTGGCTTTTACCAACTAAAAACAAAAAAAACAAGAAAAACAAAACTCTTTTAATCATTTTTATACTCCACCGACAAACTATCTATAAGGCTTCCTAATAGACTTGCTCTTTTATAATTATAAATATTCTGACTTATTTGATCATATACTTCATCTAATCCTAGATAATCACCCTTTTTTAAATAATCAACAACCTCAACAACGTGATAACCAAAATCTGTTTTTATAGGACCAACCACACGACTTTTTGAAAAAGAAGAAAAAACAATATTATCAAGTGTTTTTGGAAGATCACCTTTTTTTAATTTAGAATATATAATATCATATTCTTTCATTGTTTTTAATTTAACATCACCATCTTTCTTAGATAGAGCCAATCCAACTTTTTTTGCTTCATCAACATTTTCTGTTGTAAAATGTAAAACTAAAAGTTGGTCGTTTTTTCGTATAAAGTCAAACTTGTTATTTAAATAATACTCTCTAATTTCTTTCATACTAACAAAAACCTTATCTTTTAAGTAGTTTTCCAGATAAACATTACCGTATAAAACTTTTCCATACAAAGAAATCATTTCTTCAATAGAGTCTATTTCCCCACCAATGTTTTTTTTATATTCAAAAAAAAACAAATCAGAGTTTTTATTTAAAACAGAATTCTTTATCTTTTTATTTTCACTTAAAACATCTGCTTTTCTATTACAAGAAAAAACAATAATTGTTATTAAAAAAAAAACAGCTTTAATTTTACTTTTCATTTTTCAAGAAATTTAACAAACCAACAACACTAGACAAAGACTTCTCTACACTTGAACTTTCTATTTTTAAAGTTAAGCCTGTTGAGCTGTTTTGAATAGAAAAAACAATATTGTTGTCATTAAAAAAAGAAGAAGCCCTTTTTACCAAACCAACAATATCCTCCTTTTTAAACAAATTAAACAACAAGTCGACTCCAACTTCATTTGTTTTAAGAAACAACAACTTCGTGTTTAAAGATAACAAGCGAATTTTTTTTATTAAAAACAACAACCTTAAAGATGTGGGTGGTAAACCAAACCTATCTCTAACCTCAAAGTCGACCAAATCAACTTCTTTACAATCGCTTGATAAAGAAAGTTTTCTATAAAAAAACAACCTATCATCTTGGTTTTCCATAAAATCTCCAGGAATTAAAGCTTCACCATTTACAGAAATTTTAAAAATAGGTTCTTTTTCTACCGCATCATTGTTCACATTACCACTTTTTAACAACAAAGCTTTTTCTTTTATCATTTTATTGTAAAAGTTCAAACCAACATTAGAAAGATGACCACTCTGCTCTGTTCCAAAAAGGTTGCCACCCCCACGCATTTCAAAATCTCTTAGTGCTATATTGTAGCCAGAACCCAAAACAGAATTATATTGAAGCGTTCTCAACCGCTCATAAGCCTCTTGTGATAAATCAACATTTGGTGTTAATAAATAACAATACGCCTGAACAGGGGATCTACCAACACGACCCCTCATTTGGTAAAGTTGAGACAAACCATACTTGTGTGAATCATATATAAAAATTGTGTTGACGTTAGGAAGGTCAACACCAGCCTCAATAATGGTTGTACATACCAACAAATCAATTTGTCCTAAAAACATCTCATTCATTATTTTTTCTAAATCTGTTGGCTTCATTTGTCCATGAGCATGTTTAATCGAAAGGTTTGGTAGTAATTTTTTAAGTTTTAACACCATACCCTCAATTTTTTTAACATTGTTAAAAACAAAAAAAGATTGCCCACCCCTTTCTTTTTCATAAAGAGCGGCATGTTTTAGTGTTGAGCTGTCAAATGGAAGTTGGTTTGTGATTACGGAAAGACGACCAACAGGAGGTGTTTTAATTGTGGTTATATCTCTTATACCCAAAAGAGCAAACTGCATTGTTCTTGGTATTGGTGTGGCGCTCATACTAAGAACATCAACATTGTTTGAAAAAATACGAAGCTTCTCTTTGTGGTTTGCACCAAACCTATGCTCCTCATCAATAATTATTAACCCTAGCTTTGGTATTTTTACATCTTTTGATAAAACCCTGTGTGTTCCAACAACAACATCGGTTTTACCAGAATTAATTTCAGCAATATGTTCAGAAACAAGTTTTTTAGAAACAAACCTTGAGAGTTGACATAAATTAAAACCAAAACCAGACAACCTTTCTTTGAAAGACTCAAACAGTTGATTGCTTAAAATTGTTGTTGGGGCTAAAACAACAACTTGTTTGTTTGTGTTTAGAGCTTTTAAAGCAGATCGTATTGCAACCTCGGTTTTTCCAAAACCAACATCACCACACAAAAGACGATCCATCGGAAGTTTATTTTCCATATCCCTTTTAATTTCTTGATAAGCAATAAGCTGGTCTTTTGTTTCGGTATATTTAAAAGATTCTTTTAACTCATCATATAATTCACCATCTTTTTCAAAAGCAACTCCACTTTCGTTTGTTCTTTTTCCATACATTTCAACAAACGAATCAACAATTTCTCCAGCAGATTTTCTTGCTTTAAACTTTTCTCTTTCCCACGAGGTTTTTCTAAGGTCGGTAATGTTTTTTTCATTTCTATTTCCAATATATATATCTAAAAAATGTAAATTTTCTAACGGCACATGAACCTTATCTCCGTGCTTATATTCAAGAGCAACACACTCAACAACAGAAGAACCATTTTTTACTTTTGACAAACCTTTGTACACACCAACACCCAAATTTTCATGCACAACTAAACTTTTCCACTTAAACGTGTTTGGTGAATTATTAAAAGACTTAATAGATGTTTTATCTTTGTTTTTTATTATTTCTGGAACATCATAAACATCAGATAGTTTTAAAAAAAACAAACCCAGAACACTAGATGAAAAAGATGTTAACAACCGGATGTTTGAACTTATAAAATCAGAAAAATTTTTAGATTTTATTTTGTGTGAAAAATCAGGGTTTAAACAAATTAAAAATTTATTAAAACCCTCAGCCTGTTTTGAATCTACCAAAGACTTTAATAAGGTTGGGTTTTTTTTAAACCCAAAATGATTTACACACTTTAAATCATTGTCAACACCACCAGTTTTACCATATGAGGAAATTGAAAAACAACCATTTAAAGATTTTTTTATTAACAAAGACTTATAAAACACACTGGAATTTGATTCAAAATTTAAGTTTTCTTCAGAAGGTAGTTGTATTTTAACCAACCCAACATCCAAAACAGCAACCTGCATTTGAGTTTCAACATTAAAAGAACGTGCTGAAAAAATTTCTTCTCCATCAAACTCAACACGAATAGGATGTTTATCACCAAACAGAAAAAAATCAACAACAGAACCACGAATTGAATAAAAACCAGGAGAAAAAACTTTTTCAGACAAATCCATCTTTAAACTTCTCAATAAATCAAGGAGAGAACCCCTTGTTTTTAAAGAAGAAAGAAGAACACTTTTATTTTCTATTTTTGCCCCTAAAAAATTAGCTTTTAAAAAATCAAACGAATCTTCGGAACAAACCATTATCGAATCATTGTTTTTTTTAAAAAAACTTATTGCATGTAAGTCAGAACCAGAAACCAATTCAGAACGGTTGCTTTTGATAAAACTTAAACACTTTTCTTCGTAAAAGTGATTTATATGCTCAAACAAGGAAATTCTCAATGAATGATCATCACAGACAAGCAAGGTGGGAGAAACCCTTTTTCTGGCATATAAAAAAACTAAAAAAGGAAGAAGACCAGCAGATACGTTTTTAAAACCAGAACCCAAACCCCAAACCCCAAAAACCTTTTCCAAGCTGGTTTCAACCAAGTTTAAAACCTGAGAAAAATTCATTTTAGTTTCACGTGAAACAACCATTTATTTTGTAGAAACCAACACAGAGAGAACCGCAACATCAGAAGGAGAAACACCAGAAATCCTAGAAGCTTGTCCCAATGTTTCAGGCTTCACAAAAGAAAGCTTTTCACGAGCTTCGAGCGACAGTGATTTGCAGGAGTTAAAATCAAAATTGTTTGGAATTTTAGAATCCTCATTATTTTTCAACCTATCGATGAGTTTGTTTTGACGGTCAATGTACCCTTTGTACTTAATTAAAGTTTCACACTCATCAAGAACATCTTCGCGTTCAGTTTTGGAAAATGATTTAATGTCAAGCTCAACAAGCTTTTTTTCAATTAACAAACCTAAAGAAACAGAGGGTCTTTTTAAAAGATTTTCAAGAGATGTTTTTTGGGTTAACAAAGACTCACCCAAGTTTTGAAGTAAAATATTTGATTTTTCGCAAGAAAGACTTTCCTTTGATTTTTCATTAGAAAAAAAATCAAAAAAACTCCTTTTAGAAACTACAGATTTATACCTTTTTTTATCTATTAAACCTAAATTAAAACCATATTTAGACAAGCGAATGTCGGCATTGGTGTGTCTAATTAATAATCTATATTCAGCACGTGAAGTAAACATTCTATATGGTTCAAACGTGTCTTTTGTAACCAAATCATCAATTAACACCCCTATATAAGACTCATCCCTAGAAAGCACTAAAGGATCTTTTTTGTTAATAAACTGTGAGGCGTTAATACCAGCAATTAATCCCTGGGCTGCTGCTTCTTCATACCCCGATGTTCCGTTTATTTGGCCAGCCATAAACAAGCCGCTTATGTTTTTTGATTCCAAGGATGATTTAAGTTGAGATGGCAGGAAGAAATCATATTCAATTGCATAACCAGGTCTGTAAAATTCAACATTTTCGAGACCTTTTACCGACCTTAAAGCGTTTATTTGAATTGTCTCGGGAAGGCTTGTAGAAAAACCGTTTGTATATATTTGATCAGAATTAATCCATTCGGGTTCCAAAAACAGAAGGTGTGAGTCTTTATCAGAAAATCTAAAAATTTTATCTTCTATTGAGGGACAATATCTAGGGCCTACACCCTTTATTTGACCCGAGAACATTGGTGATTGATTAAGGTTTGAATTAATTATTTCTTTTGTTTTAAGGTTTGTTGTCGCGAAATGGCAAGCAGTATTCGGCGGGTTAAAATTTTTAGAGCTAAAAGAAAATGGGCGTGGTTTTGGGTCACCATAAAACTCATCTAGTTTTGACCAGTCAATAGATCTTTTTACTAATCGAGGAGGTGTTCCTGTCTTTAGTCGACCAGAAACAAATCCAAGACTAATCAAAGATTCTGTCAAACCATCAGAAGACTCTTCACCCATACGACCCGCCTTGATTTGTCTTTCACCAATATGAATTAACCCATTTAAAAAAGTTCCACATGTAATAATTACAGAAGAACATAAAATTTCTCGCTTCTTATCTAAAACCAAACCTTTAACCGAATTGTTCTTAATTAATAACTTTTTTGCTTCTGATTGAATAATTTCTATATTTTTTTGTTTTTTAACATGGTTTTGTATATGTTTTTCATAAATTTTTTTGTCAATTTGAGCTCTGGGCGACCAAACAGCCTTACCTTTTGACCTGTTTAGCATTTTAAATTGGATTCCAGAAATGTCTGCAAAATGCCCCATTATGCCACCTAGCGCATCTATCTCTCTTACAAGGTGACCTTTTGCTAGACCACCAATTGCGGGGTTGCACGACATTCTACCTATAGAGTTTTTGTCCATAGTAATTAATGCAGTTTTAATCCCAAGTTTGCTTGCGGCTACGCTTGCTTCTATTCCAGCATGACCACCCCCAACTATAACTAAATCAAAACTATTTGTCATTTTATTTTTTTGTTTCACGTGAAACTTTACTTCCCTATACAAAATTTTGAAAAAATATTGTTTAAAATATCTTCGGGGGTTGTTAAACCTAGAATATCATCTAGATTGGTTAAACCAAGTCTGAGTTCAGTAGCAATAATGTCTGTTGGGCTATTTTGATCGCATAAACCCAATGTGTTCGTTAGGCATTTGTTAAGCTTTTCTAATGAATCTTTATGTCTGGGGTTTACTAATAATGTGTTATTGTACGAAGCTTCATCTTCTTTCAAGTAAGAGAGTATTTTTTTGATAAAATCGTTTACTCCTTTACCTGTTAAAGCAGATAGAAATAGGGTTTCTTTATTATTAAACGCATGTTTGGGAAAATCTAATTTGTTAGGAATGTCAATTTTATTAAAAACATGTAAAACTTTTTTGTTTTTAAAAGAATTTTTTAATTGAGCTAAACATTTTTCTTTTGGTTGTGTTGAGTCTATAACGTTTATAATTATATCTGCTTTATCTAGAAATCTTTTAGTAAGAATTATGCCCTTTTTTTCAATGCCAGTAGCTTTTTTTCGAATTCCTGCCGTGTCAACAAAGTTTACCGGAATGCCATCAATTTGAAACCTTACTTCAACAGCGTCTCTTGTCGTGCCTGCTGTGTTTGAAACCAAAGCTCTCTTTTCAGATAATATTGAGTTGAACAAGCTTGATTTTCCAGCATTAGGTTTGCCGGTTATGACTATAGTTGCTCCATCAGAAATTAATTTGCCAGTTTTGTATGTTTTAAGAATGATCTTATTGGTGTTTATTGTTTTGACAACTAGTGATTTAATTTGAGTTAGGGTGGTGGCTGTGATTTCATCTTCCGAAAAATCTAGTTCTGATTCGATAAGACTTATGGTGTTAAGAATTTCTTTTTTAAGTTTTTTTATTTTTATAGAGAAATCACCTCTTAGGATTTTATAGTTAGCATTTATGCTTAACATGCTTTCAGATGAAATTAAATCAGACACAGCTTCAGCTTGAGAAAGATCAATTTTTCCATTTAAAAACGCCCTTTTGGTGAATTCTCCTGGTTCAGCTGGTTCACATCCTAAAAACAATAGGTTTTCTATTAGGTTTTGAGTTATTATTGTGCTTCCGTGACATGAAATTTCTACAACATCCTCTCCAGTGTAAGATTTTGGCCCCTTAAAATAAATAATAATTGCTTTATCAATTTCAGTGTTATTGTTGGAGAAAATAGTTTTAAAATAAGCATAACGAGGTTTTAGCTTTATGCTAGGTTCTTTAAGAAGTTTTTTTGTTATTTTAAGACTTTTTGGACCACTTATTCTAATAACAGAAATACCCCCACGACCAGGTGGAGAAGAAACAGATGTGATTGTTGAATTAATTTTAAATTAGTTTTTAACCAGGACCATTTGGCACGTCTCGGTTTATAAATCTTTGTTGGAAAATGGTTAAAATGTTAAATAATGTATAGTATAAATTAAGACCTGATGGAAATTGATTGAACAGCACAATCATGAAAACAGACATAAATTGTGTCATCATTTTTTGTTGAGGGTTCGCAGATACGGTCGACATTTTTTGTTGAACGAACATTGATAGGCCCATAACAAATGGAAGAATGCTTATTTGGTCGCCATAAAAAGGTATAAAAAAAGGAAGACCAATTAATGCATCAGGTCTTGACAAATCATCAATCCAAAAAGCAAAGGGTGCTCCTCTTAATTCGATTGTAGATCGAAATACTATAAACAAAGCAAACAAAAGAGGCATTTGGAGAAGCATAGGTAAGCAGCCCCCTAGTGGGTTTACACCATGGGTTTTGTAAAGCTTAAGAGTTTCTTGGCTAACTCTTTGAGGGTCGTTTTTGTATTTGTCTCTTAATTTTTGAACTTCTGGCTGTATAGAGGTCATTGCTTTCATTGACTGATAACTCTTTTTTGTTAAGGGGTATACAAGAAGCTTAACAAGAATAGAAAACACTATTAACACTAAACCATAATTTGGAATATATTTATATAAAAAAGTAAGCAATGACAACACAGCTCTTCCAATTCCTCTAATTGGAGCAATTCCAAAGCTCATCGTGTTTTCAAGACCAACATTAAACTCTTTTAGGTTATCGTATTGAAGTGGACCCAAGTATAACGTTGTTTTAATAAGATTGTTTGAATCAAAGCCTAGTGATGTCTGATAAATGGGCACATTACCATCTATGAACAATTTGGAGTTATCAATGTTGGAATATATTCTTTGGTCATTAAAAGATTTTATTTCACCATAATTAGAAGGTGATTTAGGTATAATTGCAGTTGTAAAATATTTTGATCTAGTTGACACCCAGTCAGTAGCTCCTGTTAAAAAAAGATCTTTTTTCTTGTTGTGTTTATTTATTTCATTTCCTTGGGAAATGTTTGATGCATAAAAAGTACCTTCATCTTTTGGGTTTGGCTCAGTCATAGGAACCCCACCTTTCCAGGACAAATTTACTCTTTGTTGAGAAATAGAGTTTGATAGTGATTGAAAATCAATGTCTACATCTATAAAGTACTTATCTGGATAAACAATTATTTTTTTATTAACTGAAGAATTGTTGATTGTTGTTTGAAATATAAGCTCTAAAGGATTATCTTCAATTTTTATGGTATTATATCCATAATTATTGCTAATTAATTTCCAGTTATGGTCTAGAGATATATTTTCACCTTGAAAATTTGAATAGTTCAAAACAAGGTTTTTTTCGTTTAACCCAGTAACAATTAAGTTAACCAAGGTTGAATCGTTTAAAGAATATTTTTTTAAAATAAAGCTTTTAATTGAACCACCAGAATTAGATGAAATGATGGCATTAAAAAGAGCTGTTTCTATGTTTATTGTTTCTTCATTGGTGTTTTCTGTAAAATATTGACGCTCTTCTGTTTTTGTGTTTTGCTCAACCTCGTTTTTTGTTTGAAGCATGTTGTTTTGTTTTACAACCAGAGAATCGTTTTGAGATATGACCTGATTTTCTTCTTCTGGAGCTATTCCGATCATTCTATAATAATAAGGCATAGCCATTAGAATTAATCCTATTAGAAGAAATGCTTGTAAAGTTTTTTTGTCCATTTTAATCGGGAACCGGGTCATATCCAGATGAACCAAACGGATGACATTTCAAAATTCGTTTAAATATTAAATACAAAGATTTGAAAAAAGAGTGTTTTTTTAAAGAATCCAATGCATATTGTGAACAACTTGGTTGAAAGCGACAAGATTTTGGAAAAAAGGGAGAAATAAAACGCTGATAAATTTTTACAAGAAAGTATAAAGCATTGCTAAATACTTGTAAAATTATATTAATTAACCTTTTTGTAATATCTAGTATCATAATTAAATGAAATAAATTAAAAAATTATTAACTAAACCGTTAGTTTTTTTCTGCCCTTAGCACGCCTTCTATTCAAAACACGTTTTCCTCCTGGAGATGAAGAACGCTCCCTAAAACCATGTTTGTTTTTTCTTTTACGTTTACTAGGCTGATAAGTCCTTTTCATAAATACACCTTTTTTGCAGTTCTAATATTAATCATTTATTCAAAACTGAGCAATAAAACGTTTAAAAAAATTTTTTTTAAAAAAAACTTTTTTCAGCTTGAAATAACATCAATAAAATAAATAAATTATAGTATGTTTAAATATGTGGAAAACTTGTGGATAACTTAAAAGTCAAACCTTCTGAATTGTGGAATAATTTAACTTCTAATATTAAAACATTGATTAGTGAACAGGCCTATGCAACTTGGTTTGAGCCTATAAAACCTGTAGCCTTGGAAAATGAAAGTATAACGCTTGAGGTGCCAAGTAAATTTTATTATGAATGGATTGATAGTCATTATGGATCCATGTTGTTGAAAAAGTTAAAAGAATTGACTGGAGAAAATGTAAAAATTAGGTATAGTGTAGTCGTTGGTGAACCAAAAATAAATTCTAATATTGTTAAAACTAAAACTGAAAATGATGAATTAATAAATTCTTCTAATGATTATTATGATAGTGGAAGCAAATTAAATAAAAGATATACTTTTGATAATTTTGTTGAAGGTGCTAATAATCAATTAGCTAAAGCAGCCTCTGTTTCAGTTGCACAAGCATTAGGAGAGACTTCTTTTAATCCATTATTAATTTATGGTGGTGTTGGTTTAGGAAAAACGCATCTTATTCAAGCTGTTGGAAATCAAGTAATTAAAGATAAAGAATCCGCTAGAGTGCATTATACAACGAGTGAAAAATTTACTTTAGATTTTATATCTGCAATTCAAAAAAATAACAGTTCTAAATTTTCAGAAAAATATAGGAATGCAGATTTGCTTTTAGTGGATGATATTCAATTTTTACAAAAGAAAGAACAAACTCAAGAACAATTTTTCCATACTTTTAATGATTTGTATCAAAGAGGAAAACAGATAATTTTAACCACAGACAGACACCCAAGTGAACTCAATGGTTTAAAAGACAGGCTCTTATCTAGATTTCAATCAGGTTTAATAGTAGATATTCAAGCACCAAGCTTGGAGACTAGGATGGCAATTTTGCAAAAAAAAGCTGAAGATGATGGCTTAAGTATTCCTTTTGAGATTACTGAGTTAATTGCAACTAATGTTAGAGGTAATATCAGAGAAATGGAGGGAGCCCTTATTAAATTATTAGCATATTCATCATTATCTCATTCTGATATAAATATGCCTTTAGCAAAAAAGGCATTGCATGAAACATTAGGCAGATCACAAACGAAAAAACTAACAATTGACGATGTTATTCAAAGTGTCAGTGATGTAATGGAAATATCTGAAAAGAAAATTATTGGAAGAAGTAGGAAAATGGAAGTTGTTTCTGCCAGACAAGTTGCAATGTACCTATCAAGAGAGATAGTTGGTGCATCGTTAGAAAATATCGGGTTACATTTTGGAGGTAGGGATCATTCTACAGTTATACATGCTTGTAAATCAATAAAATTACGCATGAAAAATAAACCAGATTTTAAAGAACAAATGAAAAGTATTAGAACAAAGGTAGAATTGTAATTTAAAAAAATAATATGAAAGAAAAATAAATGATTAAAATAGGGAAAAAAATAAAATTCAATATTTTGTTAGATAAAAACGCAAAGAAGATATCTTTTAAACAAAAAAGAAATAAAATAATTTTCTGTTTTCCAAGAGCAAACACCTCTGGTTGTAATTTAGAAGCACAAGAATTTCAAACTTTAATGCCAGTTTTTGATAAACAGAATTATGATATTTATGGATTATGTTCTGATTCACCAAAAAAAATTAAATTAATGTCTGAAAAATGTAATATTTTATATGATCTTTTGAGTGACGAAAATCAAGACTTCTTAAAGTTTTTAGGAGTAATTGGCATAAAAAAGATGTACGGTAAAGAATATGAAGGTATCATAAGAAGCACAATAGTTTGTAACGAAGAAAATATAATAACGCATGTTTTTGATAAAGTTAGCCCAAAGGGTCATGCCGAAAAAGTTGCTGAGGCTATAGGAATAAAAATCAAATAAATTTTATTTAAAATGTATAAAAATTTCGATAAAATAAAACAATCAAAAGATATAATTGAATACAAACATTCTAGGAATGATTTATCTGTCTTGCTATCTGAAAACCACAATTCTCCTTTAATAACTTTCATGATTACTTATCATGTTGGCTCTAGAAATGAAGGTATAGGTTATACAGGCTCAACACATTTATTAGAACATTTAATGTTTAAGGGCTCTAAAAAATTTAATAAAAAAAATAAAAATGCAATTTGGGATGTTCTTCAAAATATAGGAGCATTATTAAACGCGACCACATGGTTCGATAGAACAAACTATTTTGAGTTAGTTCCATCAGAACACATTGAAAAAGCAATCGAAATTGAAGCTGATAGAATGAGAAATGCTTTTATAAGAGAAGAAGATAAAAAATCTGAAATGACGGTTGTACGCAATGAATTTGAAAGAGGTGAAAATGATCCCTTAGAAGCATTAGATAAAAATATCTGGGCAACAGCATATCAAGCTCATCCATATCATCATTCTACAATTGGATGGAGAACAGATATAGAAAATGTTTCAATAGATAGACTTAAAAATTTTTACGATACATTTTATTGGCCAAACAATGCGACGGTTACTGTAATAGGCGACTTTAAAACTGACAAAATTTTAAGTCTTATTGATAAACATTTTGGAAAGATCAATAAGTCTCCTCATAAAATACCTCTTATGTATACTCAAGAACCAATACAAGAGGGACCTCGAAGACTTCAAATTAAAAGATCAGGTGAACTTCCTATAATTGGAATAGCTCATAAAACACCAAATGGTCTTAATAATGATACATATGGCTTATATATCTTGGACAGAATTTTAAGTTATGGAAAATCAAGTAGATTCTATAAAAAATTTTTAGATACCGGAAAAGCAGTTGATGTAAGCATTTCATATTATCCGCTACTGGACAATGGATTGTTTATAGCTTATTTATTTGCTCCTAAAAATGAAAATATAAAATCATTTGAAGATGAAATTCTAGAAGAATATGAATTAATTAAAAAAAATGGTGTTTCTCAAAAAGAATTAGATCGTGTAAAATCACAAATTTTTTCTCAAACAACTTATACAAGAGATGGTTCATATCCAGTAGCAAGCAATTTAAACGAAGCTATAGCAATAGGTGATTGGACATTTTATACTACGTTTTTAGAAAAAATAAATAAAGTAAAGAAACAAGATATTCAAAAAATAGCTAATAAATACTTGTTTGAAGATAATAGTACAACAGGTTTTTTTCTTCCTAAAAGTATATAGAATTTTAAATTGCAAATTTCTAATAAAATTATTCATTCAACCCCAATTAATGGATTAAACTTTTATTCTTTTAATTCATCGGTAAAAGGTTTTGTTTCTTTTAAAGGAAGTTTTCTTGGTGGGAAATTATGTAATATAAAAAATAAACTTATACCCGAAATTCTAGTTGAAATGTTAGATAAAGGTACCAAAAATAAAGATAAATTTAAAATAGCGAGTATTTTAGAAAATGTTGGAGCTAAAATTAGCTTCACACAAGGTAAATATAGAGTCTATTTTACAGGTCAATGTTTAACCAAAGATATTTTATTAATTTTTGATTTAATTGCAGAACAGCTAATACAACCCTTGGTCAATGAAAAAGATTTACAATCTGTTAAAAAGAGAAACATAGCAGAATTATTAAATTTAAAAAGCGACACTAGAAGTCAAGGTATGATAAATTTTTTACAAAAGTTGTATCCTAAGAACCATCCTAATAGACCATTTGGAATTGATGAAGAAATTAAACAAATCGAAAAAATAAAAACTGAAGACTTAATCATGTTTCACAATCAATTTTATGGTTTAGGAAATATGGAAATTTGTATGGTGGGTGATCTGGATCATAATGAAGTAGATAAAAATTTGTCTAAAGTTTTTAAAAGTTGGAAAATCTCACCACTGAATAAAGAAATGATGGTTTCTAATTTGAAATCAAAAGACTTATCAGGAAAATCTTCTGTTGTTTATATTCCAGATAAAAGTAGCGCAGATTTAATTTTAGGTCACGGTATAGGAATAGATAATAATCATAAAGATTATTTAAATCTTATGGTTGGTCATTTTATTCTTGGGGGTAATTTTTCATCAAGGTTAATGTCAACAATAAGAGAGAAAGAAGGACTTACTTATGGTATTCAATCCTCCATCAGTGGAGTAGATAATGGAAATGATGGTTATTGGAACATATGGGGTACTTTTTCACCGTCAGATATAAATAAAGCAAAAAAGTTGATCTTTCAACAACTTGAATTATGGAGTGAAAAAGGAGTGACAAAAAAAGAATTAGAAAATAAAAAAACCACTATATGTGGAATGTATAAAGTATCCTTTGATAGAACATTGGGTATTGTTTCTCGAATGATTGATACATTACATAAAAACAAACCTTTAGCTTTTATAGATGAATATCCTAATATAATTAATGATATAAAATTATCAGATGTTAATAATGTTATAAAAAAATACTATTCAAGAAAAAAATGTATAACTATTACATCAGGTACTCTTAAATAAAGATTTGAATATAATTTTAATTGTTGCAACTACACTTGATGGTAAAATCAGTAAAAACACTCAATCTTATGTAGATTGGTCTTTTGATCTCCCATTATTTAAAAAACAGACAATCAATAATACGATCATTGTGGGCTCAACAACATTTTTAACTTTAAAGAGACCATTGCTCAATAGAAAAATAATTATTTTAAATAAAAAAATGAATTTAGGTAAAGTTTTAAGTAAAGTTACAACTTCAAATTGTTTTATTATTGGAGGCACAAAAACATATTCATTATTTTTAAAATATATTACTGATATATATTTAACCCCACATCCTTTTTTCTTTGGTACAGAAGCCAAACCATTATTTGAAGGAATTTATTTTAATCGAAAAATAGTGTTTAAGAAAAAAATTCTAGCTCATAAACAAAAACAAATTTACCAGTTTCAATATAAAGTTCATGATTGAGTTAAAATTAAACAAAAATAATAATGATATGGCAATTATTGCATTTCATGGATATGGTTCAAATCCTTATAATATGATTGAGTTATTGAAAGTCTTAAATATTGAAAAAGCAGATTGCTTTTTTCCAGCCGGTAATATTTCTCCGTTCCCTAATGATGATTTATCTAAGGCTTGGTTCTCAATTCCATTTACATCAAATTTAATAGATGAGATTGCTATTAGCAGGAAAATCATTCTAACAAAGCTAAAGTCCATAATTGAATCTTATAAAAAGATAGTTTTGCTTGGTTTTTCACAGGGAGCGATGATTTCTTTAGATATTATGATGAATTTGTCTAAACCAGTTTCGGGTGTAATCAGCCTAAGTGGTTTAAATGTTAGTATAGATGATAAAATTAAAATTGAAGAAGAATATAAAAAAATTCCAATTTTTGTTGGTCATGGAATTAATGATGAAATAATAGATATAAAATCAGCAAAAACATCTTTTGAATTTATCTCAAAAAGAGGATTTAACCTTGAGTGGAATGAATATAATATGAAACATGAAGTTATAGATAAGGAATTAGAAGATATAAGAAATTTTATCGAAAGATTAATTATTTAGATCTTTTAGCTTTTACAATTCCTGCTTTGACTTTAGCTCTTAAAACCCGATTTTCTATACTATTAACTATTTCCTCATCTCCAGATAAGGCTTTTTGAATATATTCTTCTACGCTCATCTCATTTTGATTATTATTTTTTTGAACCTCAGATTTCGGAGTTTCAACAGTAGACTCTTGCTTTGTAGATTTAGTTAATTTTCCATCCACTTCTTTTGAGCCTGAATCGTCATCAAAATTTGGTATAACAACACCAGTTCTTTTTGCTTTAATTAAAGCAGCTTTAACTTTTGTTTTTAATTTTATATCAGCAATTCCTTCAATAACATTTTTATCACCATCGACAGCTTTTTGAACATATTCAGAAGTTGAAATTGATAATAATGCACCCTTAACCTTAGCTCGAAGAGATCTATCGGGAATTGAATTTATTAGTTGAGAGTCTCCATCGGAAGCTCTTTTAATATATTCATTAATGGATAATAAAACTTCTTCTGAACTTTCATCATTAATTTCAATTTTTATATTTGGAAGTGATTTTTTTAAATTATTTAGAATATCTTTTCCCAACCATGCAAACATTGGTATAGTTATAAAACTGAAAAGACCATTACTTCTTGAAGAATAATTTAGTTCAACACAATTTTTATATGGAACAAGATTAAAGTTCACTATTTCTTTGTTAAATGGAAAAAAACCCATTTCAAGTGTTAAGTTTTTTTGATTATCTAATCTTAAAAATCTACAATTTAAAGCAGGTAAACCAAAAAATGGTTGTATCTTAAAATAGCTACCTACCTTCATATCATATTCAAGGAGGGAATGTTTTTTAGTGTAACTGGTTACATTGTTATTTGTGACTTTTAGACTATATACCCAAGGAAACCATAAGTGGTAATTTGATAAATCAGTTATATATTTCCATATAACATCTATTGGTACGTCTAAATCAATTGAAGTAGCTACATGAGATTTATTTGGAACATATTCTGAATATAAATTCAAATCAATTTTTTGCTCAGACGAAGTTGACTGTACAAAATAATAAATTAGTAAAAAGAGTAGAACAGTTGTTATTCCAATTAACATTTTTTTATTTTATTTAAAAATCATTTAGATTTATGTTGATTTACCGTTTATTTACACACTAAGATGTTATAAATTGTAACAATGAATTCCAATTTTTTTCTAATAAAAACACACAAAAAATTTTAAGGAGTTAAATAATGGCTAAAATAGGAATGTTTTGGGGAAGCAATAATGGTAACCAAGAAGAGGCTGCAGGATTTTTAAAAGATTATTTAATTGAAGAAGGATGTGAAATTGATGAATTTAACATTGCTAGCACTGATCCTAAAAAGATGTTAGAATATGAAAAATTAATAATCGGGTGTCCAACCTGGAATGTTGGAGAGCTACAAGATGATTGGGATAGTATTTTTAGTTCTTATAAAGAATTAGACTTTAGTGGAAAAACTGCTGCCTTTTTTGGATGTGGTGATCAAGTTGGTTATTCCGATAATTTTTTAGATGCAATTGGTTTGTTAGCAAAACCTTTTATGGAAAAGGGTGGAACATTAATAGGAAGATGGCCAACAGATGGATATGAATTTGATGAATCTTTAGCTTTAGATAATGGTGAATTTCTTGGTTTAGGATTAGATAATGACAATCAAGAAGATGAAACCGAGGAAAGATTATTAATTTGGGCAGAGTTAATTAGGGAAGAGTTTGGAATTTAATTTTTAGAAATTCAATGGTTGGGGTGACATGTGAATGATAAACTATATTGGCTTGCAATATTTGTAAGTTTATACTGGGCATATTGTCTTTTTTGGGGTATTAAGGGTGCAAAATCATCAAAAACTTCTGAAGATTATTTTTTAGCAGGAAGAAATATTGGTTTATGGGTCTTTGTTTTAGCTGCAACTGCAACAAGTTTTAGTGGTTGGACATTTGTTGGTCATCCAGGAAAGATTTTTACAGATGGTTTACCATATGCTTTTGCATCATTTTATGCATTGACCATTCCTTTTACTGGAGTGCTTTTTATAAGGAGACAGTGGATTCTTGGAAAAGCTTATAAATATATTACACCAGGTGAAATGTATTCTGATTATTATGGTGGTAATGCAATCAGGCTTTTAACCGTTTTAGTTGCTTTTTTATTTAGTGTTCCATATTTAGGAGTTCAATTAAGAGCTTCTGGGGATTTATTTAATGTATTAACAGATGGTTTAATCCCTGTTAATTTTGGTATGATTGCATTGTCTACCGTAGTTGTTATTTATGTTGCATCGGGTGGCTTAAGATCAGTTGCTTATGTTGATAGTGCACAATGTATATTGCTTGCAGTTGGTATTTGTGTAATAGGTATAACGACTATTTATTTTATAGGAGGATGGAATAATTTTATAATGGGTTTTCATGAAATTGTTAATAAAGATTTAATTAACAAAAACAATTTAACTCCATCAGGACATTCATCTTTAGTTGCAATTCCGGGAAGTATTCAAATGGTATCATCTGGATCAAAATCCATTGGTGGATCATGGACAGGAATGATGTGTTTGACGTATATGTTTGCATTGATGGGAATTCAAGCATCTCCAGCATTTTCTATGTGGGCATTTTCAAACAAAAATAGTAATGCATTTAGATGGCAACAAGTTGTAGCATCCTCTTTAATAATTGGTATTATTTTATTTACCTTTACTATAATTCAAGGAATTGGAGGACAGGTTTTAATTTTAAATAATATAATAGATAATGTTAATGATAAAAACCTAGTTCCTAAATTAATTAATCTATTATCTTTTTCTTTTCCATGGTTAGTAGGGCTCTTAGCGGTTTGTGCGTTAGCAGCCATGCAAAGCACAGGGTCTGCATACATGTCAACATTTAGTGCTATGGTTACGAAAGATATTTATTTAAAATTTTTCAAGCCGAATGCATCTGATAAAACACAAAAAAACGGTGGCAGGTTAATTGTAATATTGGTTGCAATATTAGCAATATTTGTAGCAGCAAATACAAGTTCAGCAATTGTTATGTTAGGTGGTCTTGCTGTCGCTTATGGATTTCAGATGTATCCAGCCTTATTGGGTCTATGTTATTTTAAATGGTTTTCAACAAAAGGAATCGTATGGGGTTTAATTTCAGGGTTGATTGCTGTAACTCTAACAGATAAGACTTCTGTGTGGTTTGGTTTGCCGTGGGGATCTTATCCATTGACGATACATAGTGCAGGTTGGGGTATATTTGTTAATTTAGTTGTAACTATTACAATTTCTTTTTTTATTAAAGATAATAAAAACAGACAAAAAATAAAATATAACCGACATGAATTTTTAAGTAAAGTATCTGTTTTATCTAATAACAAAAAAAAACTTATTCCGTTAGCTTGGATTCTAACAGTTATTTGGTTTTTGGTGGGGTTTGGACCATTTGCAACAATTGGAAACACTTTTTTTTCTAATCCAAATGAAACAGTAACATGGAATCCTTTTGGAATACCTTCAATTTGGGTTTGGCAATTATTGTTTTTAGCATACGGTATTTTTGTTATGTGGTTTTTAGCATTTTATATGGAATTATCTAAACCAGTAAAACAAGAAACAATTGAGAAATATATTAATTAGATAAGCTTTCTGATAGTTTAATTAATCTATCTAATTCCATTCTCATTTCCTTAATAGATGTCGCTCTAACTAATTTTTCTCTAAACAGACTTGCCTCAGGAAAACCTTTTATATACCATCCAAAATGCTTACGCATAAGATTCATTCCCCAAATTTCTCCTCTATCAGATAAAATAAGTTTAAAATGTTCATCACACATTTTTATTCTATCATTAATAGAACATTGATTGGGTAATTTTTGATTATTTAAAATTGCGTTTGCCTCTTGGAAAAACCAAGGGTTTCCCAATGCACCTCTTCCAATCATTATTGCATCACAATTAGTTTGATTAAACATTTTTAATATTTTTTCAGGATGATCTACATCTCCGTTTCCAATTACAGGAATAGTCACAGCTTTTTTAAGTTCTTTAATTAATTGCCAATTAGCTTTTCCTGAATAGGATTGGACAGTTGTTCTTGGATGAAGAGTAATCGCTTTAACACCCAGTTTTTCAAGCCTTTGACCTGCTTCTGGAATAACAATTTTTTGATCATTCCAACCAGCACGCATTTTTACTGTAACAGGTATTTCAGGTACTTCAGAAACAACTGCAGATGTAATTTCATCCATTATACATAAATCTTTTAATGCTGCAGAACCAGCTCCTCGTTTTGTGACTTTAGGAACAGGACATCCATAATTTATATCAATAATGTCAGGTTTGAATTTATCATATATCATTCTTGCCGCTTTTGACATTACATCAGCAGAATTACCAAAAATTTGAATTCCAATTGGTCTTTCCTCAGGATAGAATTTTATTAGGTCAAAACTTTTTTGATTTTCTCGAATTATACCATCAGCAGAAACAAATTCAGAATAAACTAAACCTGCACCCATTTTTTTACTAAGGATTCTACAAGCATAGTCAGTTACTCCAGCCATAGGGGCTAAAAAAATAGGAGACGATAGTTTTAAATTACCAATTTGCATTTTCAAAATTTAACTATTTTTTTCTAAGGAAGAAGAAACTTAAATTATTCAACTACTTTGAGGAAAAAACAATGAAAAGTTTATATTATTTATCAATATTTATTTTTTTGCTTTCTTGTAATTCAACACAAAATGATTATCAAAAAGCAGTTGCTGTAATACAACCAGGAAATGATTCTAATGTCAGAGGAAGTGTTGTATTTAAACAGGATAAGAAAAATGTTATCGTTACTGTTTCAGTCTCTGGTTTAAATTCTAGTTCATTCCATGGTTTTCATATTCATGAATTTGGAGACATAAGTTCTTTAGATGGAAAAAGTGCAGGAGGACATTATAATCCAGAGGGACATCCACATGGTTTACCACCAGAGAAAAAAAGACATGCTGGTTCTTTTGGAAATTTAATATCAGACCTTAATGGAAATGTTGATACTACTTTTATTGATGACACTTTTTCTATTTCAGGAGATTTTAATCCAGTTATTGGCAGAGCTGTTGTTATTCATGCAAAGAGAGATGATGGAGGTCAACCTACTGGTAATGCTGGAGCAAGAATAGGATTTGGTGTAATTGGAATTGCAAAGTAATTAAAAAAATCATGTTAAAAAAAATTGTATTTATTCTTTCATTTTTATCTTTATCTAATAATATCAAATCTCAGAATCTTCAACTTCATTATGATTTTTTAGAAGATGAAAATTATTTTACTTCAACTCTAGAAATGTTTAGGGTGAATGATAAAGGAGCTACATTTTGGTTTGTTGATTTCGATTATTTATCTGATACAAAAGGAAGCGCATCATCAGGATATATGGAGTTTGCAAAATATTTCAATTTGGGTAATTCAAATAAATATACATTTACTCTTCAATTTAATGATGGTGTTGCGTATTGGGGAAATTTAGGACAAGCTTATTTAGCTGGACCAACCTTTAATTTAAGCTTAGGAAATTTTAGTTTATCAACAGAGTTATTATATATGTATAAACAAAAAAATGATCCAAATGGACAATTAACATTTGTTTTTTATATGCCATTATTAAATGGTAAAGCTGAATTAACAGGCTTTGCAGATATTTGGACTATTGACAAGGAAAATTCTAATTCAAAGGACGTTGTTTTTATGAGTCAACCCCAATTTTGGTATTTACTATCAGAAAAAATATCAATTGGTGGTGAAATGAGAATTACAAATAATTTTTACCCAGTTAATGGTTGGAAATATACTGCAACATTTGGTTTAAAATGGAATATGGAATGATTATTTATCATTTTCGCCATAATAATATTGATAATAAGAATTAAGTAATTCAGGATCATATTCCATCATCGAATTTTCAAATTCATTTTGAAAATTATTATTATTTTGAAAATCATTTAAATTTTGATTTATAGAGTTTTCATTTGAAAAAACACCTGATTTGTCAGTTGGTGCTATTAAAACGGGTTCATTACTATTTTTATAAAACAAATAAACTCCTGGTAAAATTAATAATAACATAAGGCCAATAGATAAAAGAGAGATTTCTGTGTTAAAATGATAACCGCCCCACATGTCTTGTTCTATTGCATAACCAATAAAAAAAGCTAAACTCACGAAAATACCAAATAAAATTAAAATAAAGTGAAGACCAGAAATTCTGCTTTTAAAAACACCCATTAAAATTAGCCAAAGTATGAATCCCAGTGTAATAGAAACTATAGCAAGAGGATAATTTTGTGATAACAGAAAAAATCCGTAAGCTCCTAATGATGAAAATAATATAAAAAAAGTTATTAAATTTTTCATAATTTTATTGGGTAATATCTACCTCGGACGTAGTTACCAAGTCCAAAATTGGTAATAAGTATGTAAAAAGGCAAGATTTATCTAATTTATTTTAATCAACGGGGAAAATTTTGAAAAAAAGAGAGTTATCTATTGGTGTTGTAGGAGTTGGACATTTAGGAAAGCGTCATTTAGAAAATGTTATAAAAAGTGATATGGTACGTTGTTCAGGTTTCTATGAAATTGATAAAGAAAAAAGCAAGAAAATAATAAATGAAAATGGAATCAAATCCCACGCTAGTTTAGATGCTTTATTAAAAGAAAGCGATGCTATAATAATTGCTGTTCCAACTACAGAACATTTTAAAATTGCAAAAGAATGTTTAAATAAAAGAAAAAATATTTTTATAGAAAAACCTATTTGTAAAACACTTAAAGAGGCTGATGCTTTAATCAAATTGTCTGATGAAAATAATTGTTTTATTCAGGTTGGTCATATTGAAAGATTAAACCCAGCTATTTTTACATTAAAAAAAGAAAAAATCAAGTTAAACCCAAGATATATTGAGATTCAAAGGTTAGCTCCTTTTAATTCAAGAGGAACGGATGTTCCTGTAGTATTGGATTTAATGATTCATGATTTAGATATTCTCTTATCTCTTATAGATTCTACTGTAGAGAAAATTGACGCAACAGGTATTTCAATTATGACCAATTCTATTGATATAGCAAATGCTAGAATAAAATTTAAAAATGGTTGTGTTGCAAATATAACATCTAGTAGAATTGCTCAAGACTATGTAAGAAAATTAAAAGTTTTTGAAAAAAACAGATATATAACAGTAGACTTCTTAAAAGGATTAACTGAAATTTATAAAGTATTAGATTTAGAAGAAAAGATAAAGTCTAATTCTATAACAACACCTTTTATTAGAAATGGTAAAGAGAAAAGAATAGTTTATGAAAAACCACATCAGAATAAATTTGACGCATTAGAAATGGAATTAGAAAATTTTATTGAATCAAATAAAAAAATCTCAAAACCCATTGTTTCAGGTAAGGATGGAAGAGAAGCTTTGAATTTAGCTATTACTATTCAAAAGAAAATAGAGGAAGATTAAATTTATGGACATAAGAAATTTTATATTTAAGAACAGAGGTGTCATTCCAGTCCCGATAGTATTGTATCTCATTTTTTCATCAAACCCAGGAATAAATTTTTATTCTTTTTTAGGTTTTGTTTTAATTTTATTAGGAGAAAGTTTAAGAATCAATTCAGTGCGTTATGCTGGTGGTAAAACTAGAAGCGTACATTTAAAATCATCTGATCTAGCTACTAATGGACCATATGCTTACGTAAGAAACCCGATTTATATTGGTAATACTATTATATGGTGTGGAGCTGTTTTATTATCCAACGCTCCATTTTTATTACCAACTGTATTTTTTATATTTTTCTTTTTTTGTTTAGAGTATAATGTGATTATATCTTTAGAAGAAGAATATTTATCAAAAGAATATGGAAATCAATATATTAAATATAAAAAAAATGTACCCAAACTAATTCCAAGGTTTTCTAAGTGGGATGGGGGAGAAAATTTTTACAAAAACAATTTAGTTGATACAATCAAGATTGAAAAATCTACATTACAAGGGTTAGGACTTTTTTTCTTAATTATAATTATGAAGTCAATTTATTTTATAAATTAATGAAAGAAAAAAATATTTTAATTATTGCTGGAGAAACCTCGGCAGATATTCATGGTGCTAACTTAGTATTAGCTTTAAAGTTGATGGATGATGACTTACGTTTTTTCGGAATAGGAGGTAATAGATTAAAGGAAAGTGGAGTTGAAATAATTCAAGATAATAAACAAATGTCAATTGTTGGCTTTGTTGAAGTTTTAAAATATTATTTTTTTTTTAAAAATATTTTTAATAAGATTGTTAATTTTTGTAAAAATAAAAAACCAATAAGAGCAATCTTAATTGATTACCCTGGTTTTAATCTCAGACTAGCAAAAGAATTAAAAAAATTAAATATACCTATTACATATTATATTAGTCCTCAAGTTTGGGCTTGGAAGGAAAATAGAGTAAAAATAATTAAAGATTGTGTTGATCAAATGCTTTGTATTTTTCCATTTGAAGAAGAGTGGTATAAATTAAGGGGAATAAAAGCAAAATATGTAGGCCATCCTTTTAGTACAATAAAAATTGTAAATAATAAGTCTAAATTAGATTTTCATAAAAAACATAAAATTAATCCATCCTCTAAAATTGTAGCTTTAATGCCAGGAAGTAGACAGGAAGAAGTAAATAGACATTTAGATATAATGATAGAATCTGTAAAAAAGATACATAAAAATAATAATCTAGTACCAATAATAGGGTTAGCACCTAATATTAATTTACCAAAAATTGAAACAGACATTATAAAAATCGAGGTAGATAATCCTATAGATGTTTTAAAAAATTCAGATGTAGCTATTCTGAGCTCAGGAACAATATCTCTCGAAGCAGGTCTATATGGTATTCCATCAATAGTTATTTATAAAATGAATTTAATATCATGGTTGATAGCAAAAAATCTAGCTAAAGTTAAATTTGTTTCCATGACAAATATTTTATTAGAAAAAGAAATTTTTAAAGAGTTTTTACAAAATGAAATAAATACAAAAACTATTTCTGAACAAATATTAAAATTATTGAACAATAATAGAAATGAAATATTAAATAACCTAAGTGAATTAAAAACAATTATTGGTAAAAAAAAACCAGCTTTTGAAGCGGCAAAAATGATTTTAGGTGAAATAAATTAAAGACCTACACAAACAAATATTTTCATTATTAATATTTCTAATAACTATTATTTCGGGACAAAATCAATCTTCAATCAGTGGTTTTATTAGGAATGATAATACTGGAGAACCACTAGGTTATTCAAATATATTTATTAAAGATTCAAATATTGGAGCTGTTTCAACTTCAGATGGATATTATGTTTTAACTAATTTGTCATCTGGAACTCTAGAAGTAGTTGTCTCTATAATAGGATATGAAATGATTACTACTCAGGTATCTATTTCTGAGCAAGAAAATAAGAGACTAGACTTTAGACTTACACCTATAATTCTCGAAGGTGAGTCAATTGACGTTTTTGGGGAAATTCAAAAAATAAGAGATTTGGTTGAGCCTAGTAGAATATCATTAGATTTAAGAACATTGGAGACAGCACCAGCTTTTGTGGAATCTGATTTATTTAGAACTGTTCAAATGCTTCCAGGAGTACAAACATTAAATGATTTTTCAAGTGCCTTATATGTAAGAGGAAGTACACCTGATCAAAATTTAGTTATGATGGATGGTGTAACAATTTATAATCCGTATCATTTTGGTGGGATTTTTTCTACATTTAATACAGATGCAATAACAGAAGCTGATTTTCATGCAGGAGGATTTCCATCGAAGTTTGGAGGAAGAATGGGGTCCATAATCGATATAATTAATAAAGAAGGTAATACTGAAAATTTTCAAGGTGTAGCAAATATTTCGGCTCTTTCGTCTAAGGTTTTATTAGAAGGGCCAATTCCTTCTTCATTAATAAAAGGATCATGGATGATTGCGGGCAGAAGAACCTATTTTGATAAAATAATTAATTTTTTTATTAATAGATCAGCAGAAGGAAGAGATAGTGGTTTTGAATTTCCTTATTACTTTTATGATTATCAAATTAAGATAAACATAGATGTTTCGCAAGATCATCGACTTACTTATAGTAGATTTTATGGAGATGATGTTTTAAAATTATCTACAAATGATAAAAAAGAATATTATGATGTAGAATTAGATTATTATGAATCAATGCAAGACAATTTTAGCATTGAATGGCCATGGGGAAATCGTACTCAAAGCTTCACTTGGAGATGGCTAATAAATCCTAAGCTTGTAGCTAAGACGGTTTTAGCAAATAGTTATTATCGGTTTACATTTAATACTATATTTGAAAGTTTTGGTGATTGGACAAGCGGGCAATATTTATTTGGTGATTATAGAGATTATTTTTCATTTAATTTTTATGATACAATTGATGATAATACTTTTGAAACAGAATTTTCATGGCATAGTTCTTCAAAACACAAACTATCTTCAGGTTTACAAATTAAAAAAGTCAAATATAATTTGGGTATGGATATTGAATATTCCACTTTAGATACATCTTTTTTTTGGAATCCTCTTAAAATGAAAGATATTACTCAAGAAACATCTCTTTTTATTCAAGATAAGTGGAACTTTTCATCTAAAATATTATTTCAAATAGGATCGAGGTTTTCTCATTATTCATTGCATGATAAAATATATTTTGATCCAAGGTTTGGAATGAAATATTTAATTTCGAATAATTTATCATTTAAAATTGCACTCGGTAGATATCATCAATTTTTAACAATAGCAAATCCTGAAGATGAAACTTTTAGAATTGTAGATTTTTGGTTGGGCTTACCCAAGGATAAAAAAGCAATGTTTTCAGATCATGTAATTCTAGGAGCAGAATATTTATCTATTGATAATTGGTTGTTTAGAGTAGAGACTTATTATAAACATTTTGAAAATTTGTTAACACTTCAACAAGGTTCAATTATTACAACAAATTCAAATGATGAGAGTGATAATCAAACTACTTTTAGCCCATTTAATGAATTTTATGATACAAAAGGTTTTGCGCATGGATTAGAATTGTTATTTAAAAAAACATCTGGAAAAATTAAAGGTTGGGTTGGGTATACATTTGCTAATACAAAAAGACATATAGATAAACATGGTTGGTTTAATCCAAAATTTGATAGAAGACATACCTTAAATATTGTAGGAGACATTAGTGTTCCTATAATAAAAAAAACCTATCTTAGTATTGCAGTTCAAGCATCAAGCGGACAACCTTATACTCCACCTTTAGGAACATATGAACAATGGCAAACTTCAAATTCAGCTTATTATACGAACTGGTGGAGCAATCAACAGTATATAGTCGGTAACAAAAATTCAAGAAGGTTAGATTCTTACTTTCGACTAGACATCGGTTTAAAACAAGAAAAAGTTATTTTTGGAAAACCATATGAAAGATTTATTCAGGTTATAAATGCTACTAATCATGTGAATCCTTTAACATATCAATATAGAACTAAAACTAATCAATTAACTAATGAAACTATGGGTCTGGAAAGAGCAGCTATACCAATGTTTCCATTAATGATAACTTTTGGTTGGAGAATAGAATTTTAATGAAAAATATAAAGCTGTACATTTTTTTATTATTTACTTCATGTAACATAGTTCCACCAACAATATCTTGGGAAGATTTAAATGAAGACTATGAACCACAATTAAATATTCTAGGTGTTATAACAAGTTCTACAAACGATAGTCTAAATACAAGTTTTATCAAAGTGCATAGGTCTTTAAAGGTTGATGAAGCACGAGACTCTCTAATTAGATATATTGATGAAAATGAAGAATCAAGAGTAGTATATGAATCAAGGTATATAGTCAAAGATGCAGAGGTGATTTTGAGTAATTCTGATAAAGATTATAAATTCAATTTTTATGAAGAAAAATATATTGGATCTGATAGTATATTATATAAAAATTCATATTTTTATGATGGATTTGATTTTGTACCAAAGCCAGAAGAATTATGGGATTTAACTGTTTCAACATCTTCAGGATTATTAGCTACAGGAAAAACTATAATACCACCTAATCCAATTATTTATACTGAAAACTTACCTGATACTTTTAATATTATAGAAAATATTTTTTTTGAATGGTTACCAATGAAAGAAAATAATCAAATATTAAATATTTCAAACTTTTTAAGTTACACAGGTTTGTCTTTTTTTTATGGAATTGATGAAGAAGACACTTGTGGTTTTACAAAAGAATTTCTCATAAAAGATGAAGTAAAAATTGAATATGATCTAGGCTCATGTAAGTATTTATTAAATGATGAATGGCCCAACGATGATTTTTTAATGATTAATTTAATGTCATTAGATTCAAATTATTATAATTACTTTATCGATGAAAATAATCAGGACAATGAATTTTCAAATTTAATTATTGGTGAAGGAGGTGTTCCTAAAGCTTATGGTCTTCAAAATGCAATAGGTGTTTTTGGTTCAATTGCTTTTGATAAACATTATATTAAAATAAGATAATTTTAATTATTGATTTTAAATAGAACATAGTTCAAGCTATCAGATATAGCTTGCCAACTTGCTTCAATAATATTATCAGATAAACCAACACATGTCCATGATATATCTTTGAATTTTGATTCAACTAGAACTCTAACTTTTGATATACTACCTTCATTCGTATTAAGAACCCTAACCTTATAATCAATTAGTTTTAAATCTTTAATTTGAGGATAAAAATTTAAAAGTGCTTTTTTAAGAGCCATGTTTAATGCGTGAACAGGACCGACACCTTCTGAAGCTGTATGTTCAATATTATCATTTACCTTAATTTTTAATATTGCTTCACTTTTAGAATTTAAATTATCAGATGAGCTTATAATTACTTTTGAATCGATTCTTTCAAAAAATGGTTTAAATTCTCCTGTAAATTTTCTTACTAATAATTCAAAAGAACCTTCAGCTCCTTCAAACTGCAAACCATCATGTTCTAGCTCTTTTATTTTTGAAACGATATTTTTATTCATTTCTTTTGAAATTAAATTTTCATTTTTAATACCTAATTCTTCAAGTTTATATTTTATATTACTTTTTCCAGATAAATCAGAAACCAAAACTCTTTGAGAAGAGCCCACTAAACTAGGATTAATGTGTTCATACATTGTTGAATCTTTTAAAACTGCTGATACATGAATACCACCTTTGTGAGCAAATGCTGATTTTCCAATAAATGGAGCTCTTGAGTTAGGTATTAAATTCATGTTTTCATAAATTTTTGAACATAAAGTAGTTAGTTTAGTCAAATCAATATTTGAATTTGTTTGTTTGTTCATTTTAATTATGAGGTTTGGAATTATTGATGCGAGATTTGCATTGCCACATCTCTCGCCAACACCGTTCATAGTTCCTTGAATGTGTTCAGCTCCATTATCAACAGCAGCAAGCGAATTAGCAACACCTAAACCAGAATCATTATGAGCATGAATACCTAATTTAGTGTTAATAATTTTTTTTACTTTTTTTGTTATATTTCCAATTTCGTTTGGAAGGCAGCCACCATTTGTATCACATAGTACTAAAATATCAGCGCCTGCATTTTTTGCAGAGTTAAGCATAGATAAAGAAAAACTTGGATCATCTTTATATCCATCAAAAAAATGTTCAGCATCAAAAATTACAAACCTACCTTCACTTTTTAAAAATTCAATTGACTGATATATTAATTCTTTGTTCTGTTCGTCAGTTAAACCAAGTGCATTTTCAGCATGAAATCGCCAAGCTTTTCCAAAGATACAAACAACAGGTGTTTCTGCTGCAAGCAAAGCATTAAGGTTTGTATCGGATTTAATATTTGAAATATTTAGTGAAGTAGCACCAAATGCACAAAGTTTAGAATTTTGAAATGTAATATTTTTTGCTTTTTTGAAAAATTCTTCATCTTTTGGATTACTTCCCGGCCAACCACCTTCAATAAAATCAACACCGAAATCATCTAAATATTTAGCAATTTTTAATTTATCATTAACAGAAAGATTTACTCCTTCAGCTTGTGATCCATCTCTTAGTGTTGTATCAAATATTTCAATCATTTTTTTAGTTTTGGTCTATTAAATAACCACGGAGAATTTTTCATTCTATTTACTTCATATGTTTTTATTTTATCAAATATTTTAAGAGTAGTACCAATTTCATCAAGACCTTCTAATAAATTTGATTTCAGTGAAGCATCAATATCAAATTCAATTGATTTTTTGTTGGGAAGTAAAATTATTTGATCTGATAAATTAACATCTAATGAGAAGCCTTGGTTTTCAGAGACTAGTTTAAATAGATTATCTATAATTTTATTTTTTAAAACAATAGGAAGCATTGCGTTTTTAAAACAATTATTATAAAAAATATCTGCAAAGCTAGAAGAAATCAATACTCTAAAGCCATATTGATTTAAAGCCCATGGAGCATGTTCCCTGCTAGAGCCACAGCCAAAGTTTTCTCTAGTAAGCAAGATAGTAGACTTTTTATATCTTTTTTGATTAAGAACAAAATCTTCATTTAATGGTCTGTTTTTACAATCCATTCCAGGCTGACCTTGGTCTAAATATCTCCACTCATCAAAAAGATAGTCACCGAAACCAGTTCTGTAAATAGATTTTAAAAATTGTTTTGGTATTATAGCATCTGTATCAACGTTTGGTATATCTATAGGCGCAACAATTCCGGAATGTGATATAAATTTTTCCATTTTTTAATCTAAATACTTTCTAACATCAACAAATTTACCCTCTATAGCTGCAGAAGCAACCATAATAGGGCTTACAAGGTGACTTCTACCAAGATATCCTTGTCTTCCTTCAAAATTTCTATTTGACGTTGATGCACATCTCTCCCGAGGATTTAGACGATCATCATTCATAGCTAAACACATAGAACAACCAGCGTTTCTCCATTCAAAACCTGCGTCTTTAAATATTTTATCTAGTCCAAGAGATTCTGCTTCTTTTTTTACTAGGCCAGAACCGGGAACAACAATCGCTTGTTTTATGTTTGACGATATTTTTTTTCCTTTAAGAATTTTTGCTGCAGCCGTTAAGTCTTCTATTCTAGAGTTAGTACATGATCCGAGAAAAATTTTTTCAACTTTAATGTCTTTAATACGAGTTCCAGGTTTTAAACCCATGTATTCTAATGCTCTCTTCATTGAAAAGCGTTTCACTCCGTCTTCTTCTAAATCGGGGTCTGGTACTACGGAGTTTATAGAAGCAACCATTTCTGGAGAAGTTCCCCAAGTAACTTGAGGTTCAATTTTAGATGCATCAATTGAAACTGTTTTATCAAAAATTGCTCCTTCTTCAGTTTGCAATGTTTTCCATTTATTTACTGCCAAATCCCACATTTTATTCTTGGGTGCTAATGGACGATTATAAATATAATTTAGTGTTTTATCATCAACACCAATTAATCCAGCCCGGGCACCAGCTTCAATAGTCATATTACAAAGAGTCATTCTACCTTCCATTGATAAAGAACGAATGGTTTCTCCTGCATATTCTATTGCAAAACCAGTACCTCCATTAGTACCAATTTCTCCGATTATGTAAAGAATCAAATCTTTTGGAGTGACACCTTTTTTTAATTTTCCATTTATATCAATTAAAAGAGTTTTTGTCTTTTTTTGAACTAAACATTGTGTAGATAAAACATGTTCAACTTCAGAAGTACCAATACCAAAAGCTAGTACACCAAATGCTCCGTGTGTAGAAGTATGAGAGTCTCCACAAACAATTGTCATTCCAGGAAGAGTAGCTCCTTGTTCTGGACCAATTACATGAACAATACCTTGTCTCAAATCATTTAATGGAAATTCAGTTATTCCAAAATCATCACAGTTATCATCCAAGGTTTTAATTTGCAATGCTGATAATGGGTCAGTTGCTTTAGATCTATTTTTGGTAGAAACATTATGATCGGGAACTGCTAAATGAGACTCTTTTCTCCATAAGTTTCTCTTATTTATTTTAACACCTTCAAATGCTTGAGGAGAAGTTACTTCATGAAGCAGTTGCATATCAATGTAAAGCAAATCAGTTCCATTATCATAGGAATGAACAACATGATCATTCCAAATTTTTTCATATAATGTTTGTTTTATCACAATCTTCCTTAATTAATTTTTATTATAAAAATACAGACTTATCAAGAGTTCTAAATTGTTCATCTAATGCACTAAGGTAAGCTTTAGCAGATGCTTCAATAATATCTGTTGAAAAACCTTTTCCTATAAATGATTGGTTATCTTTTTTTATTCTTACTAAAACTTCACCTTGTGCTTGTCTTCCAATAGTTACCGATCTAACTTGATATGATTCAATATTAGCTTTTGTATTAAGAGCTTTGTCTATGGCATTGAAACAAGCATCAACGGGACCATCACCTGTAGCTGATTCTTCTAATTTTTTATCTTTATGTATAATAACAATTGTTGCAGTTGGAATTGTATTTGTTCCTAATACAACATTTAGGTAATCTAAGTGATAGTTTTTTAATTCTTTAAAGTTTGCATCTCCCATCATTATTCTTAAATCATCATCAAAAATTTCTTTTTTCTTATCTGCAAGTTCAACAAAGTCATTATAAATTTTATCAACGGAATTGGCATTAATTTTGTAACCAAGTTCTTCTAATCTAGCTTGAAGACCATGTCTACCGGAGTGTCTACCTAAAACAATTTTACTAGTTGATTTTCCAACAGACTCAGGAGTCATAATTTCATAGGTTTCTCTTAATTTCAAAAAACCATCTTGATGAATTCCTGATTCATGTGCAAATGCATTTTCTCCAACGATGGCTTTATTGGGTTGAACAATCATGCCTGTATGTGAAGATACCATAGTACTAGTTTTGTAAATTTCTTCAGTTTTTATATCAGTATGAAAATTTAATAAATCTTTTCTTACGTTTAGGGTCATTACTATTTCTTCTAAAGAAGCATTTCCAGCGCGCTCACCTATACCATTTATAGTACACTCAATTTGTCGTGCTCCATTTTTTATACCTTCTAAAGAATTTGCAACTGCTAAACCTAAATCATTATGACAGTGTGTACTTATTATTGCTTTATTAATATTAGGAACTCTCTTAATTATTTGATAAATCTTTTCACCAAACTCTTGAGGAAGAGTATAGCCAGTTGTATCAGGAATATTTATTGTTGTAGCTCCTGCTTCAATAGCTGCTTCTATAATTTCACAAAGAAAATTAATTTCAGTTCTACCAGCATCTTCGGGAGAAAATTCAACGTCGTCACATAAAGATCTAGCAAATGCAACAGCATCTATACCCATTTTAAGTATTGTATTTCGTTTATTTTTTAAACTAGTTCCATATTTATTGTTTGAAAATTTTCCTTTTAAATGGACATCTGACGTACCTAAAAAAGTGTGGATTCTAAAATCTTTTGCATCTTTTACTGCATCATATGCTTTTTGAATATCATTTTCAATAGCTCTCGCAAGGCTTGCAATTTTAACATTTATCTCTCCAGCAACTCTTTTAACACCTTCAAATTGAACTTTAGAAGAAACAGGAAAACCTGCTTCAATAATATCAACATTTAATTTTTCCAGCTGTTTAGCTATCTCTAATTTTTCATAAACATTTAAAGATGCTCCAGGTGATTGTTCACCATCCCTTAGGGTTGTGTCAAAAATTAATATTTTATTATTCTTCATTTAAAAAATCACAGAATGAATTAATTTTTTTAATAGTGAAATCCTCATCATTCAATCTTTTCATATATTCATAAGTTTTATTAAAAATATATTCTTTTGCTTCTAATAATTCAAAAGAATGTTCAAACATCATTCCTAAAGAAAGAATCATTCCGACAGGATTCGCTAAATCTTTACCTGCAATATCAGGTGCTGATCCATGTACGGGCTCATATAATCCAATATTTTCACCAATAGAAGCTGAAGGTAAAAGACCAATATGCCCACACAAAGTAGCAGATAAATCTGAAAGTATATCACCAAATAAATTTTGTGTTAAAATTACATCAAATTGAAATGGGTTTTGAACTAATTGCATTGCAGCGTTATCAACATACATATCTTCAACTATAACATCAACGTAATCTTTGCTTATATCATGGACAACATCTTTCCAAAGTTGAGAACTTTCAAGTACATTTGATTTATGAACAGAAGTTAATTTTTTATTTCTTTTTTGAGCTAATTTAAAGCCTACATGAGCAATACGCTCAACTTCCTTTTTTGTATATAATAAAGTATTCCATGCTTTATCATTTTTATATCCACGTGGTTGGCCAAAATAAATACCACTTGTTAACTCTCTTAGAATCATAATATCTAAACCATTATTTGTATTTATCGCAGGTCGTAAATTTGTAAATAGTTCTAATTCTTTTCGAATTTTCAACAATCCAGCTTCTGGTTTAATATCATGAGATAATGAATCCCATTTTGGACCTCCTACAGCTCCTAATAATATTGCATCAGAGTTTTTACAAGCATTTATAGTTTGGTCTGTTAATGGAATTCCATATTTGTCAATTGAAATACCACCAAATAAACATTCAGATAATTCAAAACTAAATTGAAATTTTTTTGCTACTAATTCTAATACATTAACAGCAGAATTCATTATTTCTGGTCCAATACCATCACCCGGAAGAGAGATTATTTTAAAAGAATTTTTCAAGACTCTTATTATTTTTCAGCAGGAAGCCATTTCATCATTTTTCTTAGTTTAGATCCAACCTTTTCAATTAAATGTTCTTTTGTTTCATTTCTAAGTTTATTCATTACCGGCTGTCCGCTTTCATTTTCTTTTAACCATTCTTTTGCAAAAGAACCATCTTGTATATCAGAAAGAATTTTTTTCATCGCAATTTTAGTATCATTGTTAATAATTTTTGGTCCCCTTGACATACCCCCATATTCAGCTGTATCACTTACAGAGAAATTCATTCTAGATAATCCTCCTTCATAATATAAATCAACAATAAGCTTAAGTTCATGCATACATTCAAAATAAGCTAATTCAGGTGCATAACCAGCTTCAACCAATGTTTCAAAACCAGCTTTAACCAATTCAGCAGATCCACCGCAAAGAACTGCTTGTTCACCAAAAAGATCTGTTTCAGTTTCATCTTTAAAGTTGGTTTCAATTACACCAGCTTTTGTACCACCCAAACCTTTAGCCCAAGCTAAAGCTAAATTCTTAGTCGTTCCAGAAGGGTCTTGATGAATAGCAAAAAGACAGGGAACCCCACTACCTTTTTCAAAAGATCTTCGTACTAAATGTCCCGGACTTTTAGGTGCAATCATCATGACATTAATTGATGCTTCAGGTGTTATTTGATTAAAGTGAATATTAAACCCATGTGCAAATGCTAAAGTATCTCCTTGGTTTAAATAAGGTTTTATTTCATTTTCGAAAACTTTTTTTTGGATTTGATCTGGAACTAATATCATAATAACATTTGCCCAACTTGCAGCATCTGAGGTTGATTTTACATCCAAACCATCCTCTTTTGCATTTTTAATTGAGGAACTATTTTCTCTTAAGCCAACACAAACGTTTAATCCACTATCTTTTAGATTGAGGGCATGAGCATGTCCTTGGCTTCCATATCCAATTACAGCAATTTTTTTGTCTTTAAGATAATTTATATCAGCATCATCTTCATAATATGTTTTAATCATTATTATTCCTTTTAATTATATTATAACGCAACTTTTCCTGAGCGGACAATTTCTAAAACTTTTAAATTTGAATTTTTTTCTAAAAAATCATCTAGTTCTTCTGAAGAACCTATGACTTCTATTAAAATTTTTGAACTTTTAGATTTTACTATTCTAATATTCTCATTTAAAATTTGATTTATTTTGTTTTTTTCATTTATATCAATTTTAATAATCATTATTTCTCTTGTAATATGAGAATCTCCAGATACAACATCGGCTTTGATAACATTCACTAAGTTATTTAAAACGTGAACAAAAAGATTTTTTCTATCTTCATTAATATTATTTGCAACCAAGGTTATTCTGCTTACACCTTCTTTTTCACATGGTGCGACAGATAAGCTTTCAACATTTATACTCCGACGTCTAAAGTTATTGACAACTCTGTTTAAAACACCAGGCGAGTTTTCGACTAAAGCTACATAAGTTTGTTTCATTTAAGTTTGTTTCTCCAATGTTATAGATTTTTCATTAGAATTATTTATTTTTTCTGGCCTTCTAATCATAGCATCTAGATTAGCTCCAGCAGGAACCATAGGATAAACCATATCATGTTGATCAACTACAAATTCAATTAAACTTGGACCTTTGACTTTTCTAGCATCTTGAATTGCTGATTGAGCTTCTTTTTCAGAAAACACCCTGTAGCCGGGCAACCTATATGCTTCTGCTAATTTTACATAATCAGGACTGTAAATTGGAGTTTCTGAATATCTTGAATCATAAAATAATTGTTGCCACTGTCGAACCATACCTAGATAACCATTGTTTATTATTGCAATATTAATATTAATGTTTTCTTGAACTGCGGTAGCGAGTTCCATAAGAGTCATTTGAATTCCACCATCTCCAACTACAACCCAAATCTCTTTTTCTTTTTGAGCAAAATAGGCACCAATTCCAGCAGGAAGTGCAAAACCCATAGTTCCTAAACCACCAGAAGTGATTAAAGTTCTTGGTTCATTGTGTTCATAATATTGAGCTTCTAACATTTGATGTTGACCAACATCACTAATTACAACGGCATTTCCTTCGGTTCCTTGCCATATATTTTTGATAGCTTGAGCTGCTATATATACATCGGTGGACTTATTTATAATTTCGAGATTTTCAACTTCAGATTGCCATTTTTGAATTTGATTGAACCATGAAGAACGGTTTGTTTGATTAATGTTATTAATAAGTTTTTGAAGGACATTTTTCAAATCACCATGTATACCAACATTTACTTTTACATTTTTATTGAGCTCAGAACTGTCAATGTCAATATGAATTTTTTTTGAGTTCGGTGAATATGTATCTAATTTGCCTGTAACACGATCATCAAACCTCATACCGCAAGCAATCAATAAATCTGCATTTTGAATAGCATTATTAGCTGAAGCATTTCCATGCATACCCATCCAACCCATATTTAAAATATGACTGCCAGGAAAACCACCAATTCCGAGCAAGGTTGGCGATACAGGAATTTTTCCTTTTTCTGCAAAATTAATTAATTCCTTTGTTGCACCAGAAAGTAAAACTCCGTGACCCGCTAAAATAACTGGTTTTTTTGAATTATTTATTAATTCAGCAGCTTCATTAATTTCTGTTTGTGAGGGATTTTCTTTCGGTAAAAGGCCAGGCAAAGCTTTTATTTTTTTTGGATATGTAAAAGTGGCTTTTGCATTTTGAATATCTTTAGGAATATCAACAACAACAGGGCCTGGACGGCCAGACCTAGCTATATGAAAAGCATTTTTAATTGTTTCAGCAATTTCATTTACATCTGTTACTAAATAAGAATGTTTAGTAATCGGAAGTGTGATTCCAGTTACATCAATTTCTTGAAAAGCATCAGTTCCAATTACAGATAATGGTACTTGGCCTGTTATGCATACAATAGGTGACGAATCTAACATGGCTGTTGCTAAGCCTGTTACCATATTTGTAGCTCCTGGTCCAGAAGTTGCCATTGCTACTCCAACCTTACCATTTGCTCTGGCATAACCATCAGCCATATGGGTTGCACCTTGTTCATGTCTTACCAACACATGATGTATTTTATCTGAATATTTTGTTAAAGCATCATATGCAGGTAAAATAGCTCCACCTGGATATCCAAAAATAACATCAACACCCTCTTTAATTAGTGATTCCCAGATTATTTCAGCACCAGTAATTATTTTATTATTGTGCATTTGTCATTCCTTAATTTGATTTTAATATAGCACCAGTATTTGCGGAGGTAACCAATTTGGAATACCTACGTAAATAACTCGATTTTATGTTTTGTTTAAATTTTGGTAATTTATCTAATCTGTTTTTAATTTCTTTATCAGATAAATTTACTTGAATTGAATTATTTGGAATATCAATTGTGATTAAATCACCATTTTGAATTGCTGCTATAGGCCCTTTTTCAGCCGCTTCTGGTGATATATGTCCAACACAAGCTCCTCGAGTTCCACCTGAAAATCTTCCGTCAGTAATAAGAGCAACCTTGTCTCCTAATCCCAAACCCATTATTGTACTGGTAGGTGCTAACATCTCAGGCATACCAGGCCCACCTTTGGGTCCTTCATATCTAATTACGACTACACAACCAGGCTCAATTTCCTTGTTTAATATTCCAGTTAGAGCTTCGTCTTGTGATTCATAAATTTTAGCAGGTCCAGAAAATTTTAAGAGTTTACTATTTACTGCAGCGGTTTTTACAATAGCACCTTTTGGAGCAAGATTGCCAAATAAAACTGATAATCCGCCTGTTTTTGAAAATGGATCATTTACCTGCCTAATAACAGTTTTATTTTTTATTTTAGCATTTTTAATATTTTGACCTAAAGTTTTTCCAGTAACAGTTGGCCTATCTAAATCAAGCAAATTTTTTGTTTTAGATAGTTCATTTAAAATTGCTGATACTCCTCCAGCAAGTTCAACATCTTCCATATGAACATTTTGTGTTGCAGGACTAACTTTGCATAAATAAGGAGTTTTTTTTGAAAGTGTATTTAGTTCATCCAAATCAAATTTAATCTCAGCTTCATTTGCAATTGCTAACGTATGTAATACAGTGTTTGTACTACCACCCATTGCCATATCAAGAGCAAATGCATTTAAAATTGAATTTTTATTTATTATATCTCTTGGTTTTAAATCTTTTTTGACCAAATTAAGAATTTCTTTGCTTGCTGATTTGATTAAATCACGCCTTCTGTTATCAACAGCTAAAATTGAACCATTTCCAGGAAATGCAATACCAAGAGCTTCAGCAAGACAGTTCATTGAATTTGCGGTAAACATTCCTGAGCAAGAACCACAAGTGGGACAGCTTAAATCTTCGATTTCTTTTAATTCTTTTTCATCAATTTTACCAGCTTGGTATTTGCCAACACCCTCAAAGACAGAAACCAAATCTACTTTCTCTCCAGATGGTCTAATACCAGCTTTCATTGGACCGCCAGAAACAAAAATTGCTGGAACGTTCATTCTCACCATTGCCATTAACATTCCAGGTACAATTTTATCACAATTAGCTATGCAAACAACCCCATCTAATCTGTGTGCTTCTACCACTGACTCAACACTATCAGTAATTAATTCTCTACTAGGAAGTGAATATCTCATCCCAATATGGCCCATAGCAATTCCGTCGTCTACGCCAATAGTGTTAAATTCAAAGGGAACTCCGCCAGCTTCTCTAATAGATTGTTTTGCAATAGCACCTAGTTCATCAAGGTGAACATGTCCAGGAATTAAATCTATGTATGAATTTGCAATTCCAATAAAAGGTTTTTTAAAATCATCTTCACTTTGAATTACACCAGTAGCTTTTAGTAAGCTCCTATGGGGAGCGTGTTCAATACCTTTTTTAATTTGATCAGATCTCACAATTAATCCCTTTAAAAGTTTTTTTAAGCCGAACTAATAAAATATTTTTGAATTGGATGATAGAAGGAGAGATTAATTTCTCCGTTCATTCACCTACAATTCTAAACTGTTTGGTTACTAGAACGGAAGCCCAATAATAAGGACCACGACTAATAAAATATTTAAGACTAAAACAATTATGTTGTTTTTTACGTTAAAATATTTATTTGAGCTGTTTTTGTTCATACTTAATTTATTTACTAAGCATCTACAAATAGATGTCCTTATTAATTGCATTGATTTTACCATCTGATTGGCTTCAAAGTCAAGTATTTTTAAAAATTAAAATTTTCTAGTTTTCAATATTAATTTATTTGTATTTTTAAATGGGCTGTTAAAAAAAATTAATAAAAAAATTAGAGATTAATAATTATGACTACACCACAAAAACTTATAAGAAACAATGAAAAATATCCTGATGAAATAGCAATTTCATATTTATCTCATGGTCAATGGAATTCAATGACCTGGTCAGGATTTTATAATTATACTTTAAGGATAGCTAAATCTTTATCTTCATTAGGTTTTAAACCTAATGATAAAATTAGTATATATAGTTATAACAGATTGGAATGGTACGCTAGTTATTTGGCAGCTCAATTGAATAGAGGAGTTGCTGTAGGTGTTTATCATACTTCATCTCCTGAAGAAATTGATTGGATAATTAATAATTCAGATTCAAAATTTGTTTTTGTCGGTCATAATCCATTAGATGATAATGATATTGAAAAAATGCCTTATTATAGATTTATGAAAATTATAGACAAGTTAAATAAAGTGGAAAAAGTAGTTTTGATGGAAAACATTCCTAAATTAGATCATTTGAAAATTTCATCTTGGGAGAATTTTCTTGATTATGGTTTAAATGTTGATGACAATGACATAATTAATAATCTTAACTTATCAACCTTAGAAGAAACAGCTTCTATAATTTATACTTCAGGTACAACTGGTAACCCAAAAGGTGTAGAGCTGACACATGGAAATTGGTCATTTGAAGTTGAATCACCTGATAAAGCTTTTTTATTTCAGCAAGGAGAAAAATATATTTCATGGCTTCCTTTAGCGCACTCATTAGGACAATTTGTTGACATTCATTATTGGATAGATAAAGCAATGCATTTATATATTGCTGAGAGTCCTTTAACTCTTGTTGATAGTGCTAAAGAAATTCAACCTCATTTGTTTACTTCCGTTCCCAGGTTATATGAAAAGATTTATTCAAATGTTAAATCTCAGCTGGATTCCAAACCAATTTTAAAAGTTCTTTTAAAAATTCCAATTATATCGAATTTAATTCAAAAAAAGATTAAAACCGCTATTGGCATGAGTAGATGTCGATATGCTTTGACTGGTGCTGCACCTATTAACCAAGAAATATTAATTTTATTTCAATCACTTAATATTCCTTTGTTTGAGGGATATGGTATGACTGAGGATTCTGCAGGAGCATCAATTAATTATTTTGAAAAAAATAAAATTGGTACTGTTGGTCCTGCTCTTCCAGGAACCGAAATTAAAATATTATCAGATGGGGAAATAGTTATTAAAGGCCCCCACGTTATGAAGGGATATTATAATAACCCTGAAGCTACCAAAGAAGTCTTAAAAGATGGATGGCTTCATACTGGTGATGTTGGAAAAATTGATGAAGATGGATTTCTTACAATTATTGGACGAAAAAAAGAAATTTATGTTACATCTGGTGGAAAAAATATTGCTCCATTAAATATTGAGGAGTCAATGAAAAGTATTTCACTTATTTCCCAATGTTTTCTAGTGGGTGATGGAAGAAATTTTTGTTCAGCACTTTTTACTCTTGATCCGTCAGTTATACTTAGAGATAAATTAAATATTGAAATAGATGAAATTCCTAAAAATCCTTCACAGCAAATTAATAAATTAAAAGAATTAGGACATTCTCTAGAAGAATACACTCAAAGCGATGAAATAAAAGAAGAAATTCAAATTGCAGTAAATTTAATAAATGAAACATTTTCATCTCCCGAACAGGTAAAGAAGTTTGAAATTTTACCCAGAGATTTTAGTGTTGATGAGAAAGAGCTTACACCAACATTAAAACTTAGAAGAAAACATATTTTGAAAAATTGGAAGATGGTTATAGATAAAATTTATGAATAACAGAAAGAGCGTGAAGGCTCTTTCTGTTATCACCTAGTTTTATTTGACTTCAATTTCAATATTTTTAATTTTTGAAGATTTTGATTTAGGAATAGTTATTTTTAATATTCCTTGAACATAACTGGCTTTAATGTTTTTAGCTAAGATATCTTCATCTAATTTGAATTTTTTATAGAAAACACCATGCTTGCTTTCAATGTAATTTTTTGAAGAATTTTTTGATTTTTTTTCTCCACTTACATGTAAAACTTGATTAGTGAGATTTATTTTAAAATCATTTTTTTTCATCCCTGGTGTTTCAATATTTATTTCATATTCTTTATCATTGTTAAAAATATCTACGTTTGGATTCCAATTTAAAGATGAATTATCGTCAATAAATCTATCATTAAAGATATAATTTATTAGATTGTCCATTTGAAAATAAGGGTTATCATCAACATATTTGTTTGAAAAAGTTCTAATTGGTGACCATTTTACTAGTGACATTGTTTTTTTCTCCTTTTTTATTATTAAACAATTCAATTAAAATTAATGCAATTAGCGTGCCACTAATTAAAAATTGACAATATGTCATATTTATATGAAAAAATTTTTCTCTTAATGACATAATGTCATTAAATTTGATTTTATTATTATTTAAAAGAGGTTATTCTTTAAGAGATTATGTTTATATTCTTAAAAATTTATAATATTTTAAATGCTGGTTTTATTTAAAAAATAAAGATAAAGGTAAGAAGCAGTGAAGAAAGTATTAATTGATGGTCCGTATTCAACTAAAATCCAACAAGTAGATAAACCAAAAGCTTTAAAAGATTGGGCTTTGGTCAAAATACACTCTGCTCCAATTTGTACAGAATATAAATTTTTTACTGAAGGAACAATGCCAGATTATCCATTGGGTCATGAAGCTTCTGGTGAGGTAGTTGAATTATGTGATGATTCAAGTTTAAATATTGGAGATAGGGTTGTTGTAATGCCTCAATATCCTTGCGGAAAGTGTAATTTGTGTCAATCTGGGGAGTATATTCATTGTTTAGATACATTTGATATAGAATCATTTACTGGTATTTCAGAGGGTGGGAGTACTTTAGCTGAATATATTGTTAAGCCATCTTGGTTATTGCCAAAAATCCCTCATGAATTGACTTATGATCAAGCGAGTATGATTTGCTGTGGGTTGGGGCCAACATATGGAGCAATTGATAGGCTTGATTTAAGTCAAAATGATACTGTTTTAATAGCAGGAATGGGGCCAGTCGGACTGGGGGGGATAATCAATATTAAAGATTTTGGTGCTAAGGTTATTGTTACGGGTCATAATGAATATAGAAATAATTTAGCAAAAAATTTAGGTGCTGATTTAATAATTAATCCAAAAAATGATAATGCGTTAAAATTAATAAAAGAATTTACAAATGGATTAGGGGTTGATAAAGCAATTGATTGTGCGGGGTCTGTTGACTCTCAACGTCTTTGTATAGATGCAACAAAAAGAAATGGTTCTATTGCTTTTGTTGGAGAGTCAAATGATTTGAAAATTAATGTAAGTAATGATTTAATTAGAAATGGTTTAACGTTAGTAGGGGTTTGGCATTACAATTATAAATTGATTAACGATTTGATAAAAATTGCAATAAGATCAAAGGACAAATTAGATACTTTAATCACTCACAAGTTCAAAATAGAAGATATTCATGATGCATTTCATTTACAATTAACAAGAAATTGTGGAAAGGTTGTAATTATACCATAAGAATGAAAAACATTTTGCTACAAATGGAATCAATAAGCAAATCATTTCCCGGCGTCGATGCATTGACTAATGTAAATTTGAATTTAGATTATGGAAAAGTACTGGCTTTGGTAGGGGAAAACGGTGCTGGAAAAAGTACTCTAATGAAAATATTAGGCGGAGCAATTCAGCCAAATTCCGGGAAAATAAAAATTGAAGGCGAAATAAAAAAAATAATAAACCCACAACTTTCTCAAAAAAATGGTGTCTCAGTAATTTATCAGGAATTTAATTTAATTAAAGATTTAAAGGTTCATGAGAATATTTTTCTTGGAAGAGAAACTACAAAAAATGGTGTTATTGATACTAATTTGGAAAAAAAATTATCAATTAAACAATTTAAGAATTTGGGTGTAAGTATTAACCCAAATATAGTTTGTAGTAAACTTTCTATAGCTGAACAACAAATTGTTGAAATAGCAAAAGCATTAACTCTTGATTCCAAAATTATTGTTATGGATGAGCCATCAGCTGTTTTAACTGAAAAAGAAGTAAAAAATTTAATGAGAATTATTAAAGATCTAATAAAGAAGAATATTGGAGTTATATACATAAGTCATAGACTGGATGAAATAATAGAAATCTCAGATGACATTTTAATATTAAGAGATGGTTTTCATGTTGATCAGATTAAAACAAAAACAACATCCAAAAAAAAACTTATTGAAAATATGGTTGGAAAATCATTATCAACAGACTTTCCTAAACGTAACTCAGCTATAGGAAAAGAAGTTTTAAAAGTTAAAGGACTTTGTAAGAAAAATTCTTTCTCTGAAATTAATTTTGAGCTTTATCAAGGAGAGGTATTAGGTTTTGCAGGTTTGTTAGGTTCAGGAAGAACAGATATAATGAGGTCTATTTTTGGTGTAGATGATATTGAAAAGGGTAAAATTTTTAAATATAGTAAAGAATTAAAGATAAATAATCCAAGAGATGCTATAAAAAATAAAATATGTTTATTAACAGAGGATAGAAAAAGGGAGGGGTTAATACTTAATCACTCGTCACAAAACAATTTTAGTCTACCAAATTTAAAAAATTTTTCAAAAAACCTATTTGTTGATAATTTGAAAGAGCTTAAATCTTTTAAAAATTATATTAATGACATACAAATAAAAATCAATTCACCTCAACAATTAGCTAAAAATTTATCAGGAGGTAATCAACAAAAACTTGTTTTAGCAAAATGGCTTGAATCTAACGCAGATATCATAATATTTGACGAACCTACTAGGGGAATAGATGTTGCAGGAAAAAGGGAAATTTATGAATTAATTAATACTTTATCTCTAGAAGGTAAATCAATAATATTTGTAAGTAGCGATTTAGAGGAAATTATTGGAATGTGTGATAGAATTATTATTATTCATGAGGGCAAAATAAAAGGAAATGTAAATGTTGATAAAAAGTTAAGTCAAGAAAAGGTTTTATCGTTAGCTTTAAGTTGATATAAGAAAAAATTATGAAAAAATTTATTAATAATTATGGGATGATATTTATCTTAGGTGGTTTATGTATATTGTTTAGTTTTTTAACTTTGAAAGAACAAACTCCGAATGCAAAAAATATTAAAAATCAATTTGTTGAAAAAATTCAATCTACAAATAATAAAGATATAACAATTCTAAGCGTCGGTGGACAAAATACTAAATCAGCTGAAATTGCAAAGGATTTGGAGATTGCCTTAAAAGAGGAAGGTTTTTCAAACACTTTTTCTGTTGTGGGAACGCCTGCCGATTTAAAATATAAATTAAAGATTATGATGGAAAATTTAAATTATCCAGAATTTATAATTATGAATGAACAAATATCAACTTGGGATGTTTTAGGATCATTGAAAAATGAGAATATGAAATATCAATCAACACAAGAATTTTATCCTAAAAGTTATTTATTTCCTGACTTTCTAAAAAAAACTAATTTAATTGCTATTGTTGATAGAATAGTTGTAATTGCGATTTTAGCAATTGGTATGACATTTGTAATAATTACTGGTGGTATAGATCTTTCCGTTGGAAGCTTGATAGCTGTTTCAGCAGTAGTAGGAACAAGTGTAATGAAATCAATGGGTGGAGTAGATGCGTCCTCAGGTGTTGTATTTATCGGTTTTATAATAGGTATTTTATCAACAGCATTCATTGGAGGTTTAGGTGGGTTAATTGTTGCATTTTTTAAAGTACCATCTTTTATAACAACATTAGCTATAATGCTAATTGGAAGAGGTCTTGCTTTTATGATAACTGATGGGTTCTCAATTTATCGTGTTCCACAGTCATTGACATGGCTTGGTCAAGCTTCGTCTTTTGGTTTGCCAAATACAGTAATATTCTTAATCATCCTATATTTAATAGCTCATTTTTTTCTATCTAAAACTAAAATCGGAAGATATATTTATGCTGTTGGAGGAAATGAAGAAGCTGCTAGATTGTCTGGAGTTCCAGTAAATTTTATAAAAATATTTGTTTTTTTGATTTGCGGGTTTACTGCTGGTTTAGGGGGTTGTATCCAAGCGTCACAATTAAATTCTGGTACACCTAACATGGGTATTATGTATGAATTATATGTAATAGCAGCGGTGGTTGTTGGTGGTACAACTTTATCAGGTGGATCGGGAAAAATTTTAGGAACACTAATTGGAGTTTTTGTTATTTCAGTAATTCAGAATGGTATGAATTTAATCGGAATTGAGAGTTACACTCAGCAAGTTGTCTTGGGTTTGGTAATTTTAATCGCGGTTGTTATTGACAAATCCAAATCAAATAATATTTTTAGCAAATATTTTAATAAAAGAGGTTGATTGATATGATTTATTTAAAAAAACTTTTTTTGATCTTTATTTTATTTTTTTGCTCATGCACATCTTCAAATTCCAATTATACTGGACGAATCGGGATGACATGTATGGATTTAACCAACCCGTTTTTTAAGTTAATAGCTAATGTTATGCAAGAAGAGGCTTTGAAAAAAGGGTTTCAATTGGTTGCACTTTCAGGAGACCAAGATCCAGCAAAACAAAATAATCAAATTATTGATTTTGCTGTTCAAGGTTATGATGCAATTTTTTTAAATCCAGTCGATTCAAAATCTTCAGGAGAGGGCGTCAAAAAAGCACATTCTTTAGGAGTGCCTGTTTTTACTTTTGATGTCCAAGTTACAGATGAAGAAGCAAAAAAATTAATTTTTTCTCATATTGGAAGTGACAACTATCAGGGAGGTGAGCTTGCAGCCAAAAGCATGATGAATGTAATAGGAGATGTTGGAGATATAGCCATATTAAGTTTACCAAGAATTACCTCATGTAAATTGAGAGTTGATGGATTTAGAGATTATTTAAAAAAGAACAATAGTAGAATCAGAATTGTTACAGAGCTATCTGGAGAAGGAAGTAGAGATGAAGGCTTTCGTGTCACAACTGATATCTTGCAGGCACATCCTGATATAGCCGGAATATTTGCAATTAATGATCCTTCCGCATTGGGTGCATATGCAGCTGTAAAAAAAGCTGGCAAGTCGGATCAAATAAAAATAGTTGGTTTTGATGCTTCGCCAGCCGGAAAGCAAGCAGTTTTTGAAAAACAAATAGTTGATTCACCCCAACAATTTCCAAGAAAAATGGCTATTGGCACTGTGAATGCTTTTTTTGAATATTTAAAAGGAAATTCTTTATCTAAAAATTTATTTATACCATGCGAACATTATTTTTATGAAAATTCTATTAATGATAAAAGTAGAATAAATGAGAAATGGTGATTTTCTAATTTTAAACTGTTTACTTTGATAACAATCTCATAAATATATATAGTTTATATTTTTAATATAATTTTAACTATAAAACTATATAAAATTGTATTAAAACTATAAATAGTAAAAAAAATAACTTGACATTCATTAAAAAGTTATGGTAATTTATTTAATTGAATGTGTTTATTAAATTTTTTTTGTATAAGTGTGTTTTTTTTTAAAAAATTATTGTAATCTATTATTAATTCTTAAAAAGTTATGGAGAAAAAATGAAAATACTAAGAGTTGCTTTTATATTTATGGTTGTTTTTGTTTTTGGAAACTTATATTCTCAATCTTCAATATCGGGAATAATTTCAGATGAAAATGGTTCCCCATTACCATATGCAGATATTATTGTTATTGGTACCAATTATGGTTCATCTGCAAATGATAATGGTGAATATTCAATAAATTTACCCGATAATTTTGTTCAAGGTCAAAACATAACATTATCAGCACAATTTATAGGATACATCAAAAGTGAAAAAACAATTGTATTGTCATCAGGTGAAATATTAGAGAATTTCACACTTGAAGCAGATGTTATAGGAATGGATCAGGTTGTTGTAACAGGATTAGGTATTTCTAAAGAAAAAAAGGCTGTTGGTTATTCAGTTCAAGATGTAACTGCTGAAGAATTAAATATGGTACCACAATCTAATATAGCAGATGCTCTTTCTGGAAAAGTAGCTGGTGTTCAAGTTTTAGGTTCTGCAGGCGCTGCAATAGGAGGTTCAGCTAAAATTAGATTAAGAGGAGCAAATGGATTGACTGATGCTCAACCATTGTGGGTTATAGATGGTACTCCTATTGATAATAGATCTTTCTCAGGTGCTTATGATGGAAGAGATTATGGTAATTTAGCTAACGATATTAATATGAATGATGTTGAATCAATTTCAGTTTTAAAAGGAGCATCAGCATCAGCATTGTATGGTACTAGAGCGGCTAATGGTGTTATTTTGGTTACAACTAAAAAAGGTGGATCAAATAAGGATGGTATTGGTTTTTCATATTCATCGACCAGTTCATATGATGATATTTTAATTTTACCAGTATATCAAAATGAATACGCAGGAGGTTATACTCAATCTTGGCTAACTGAAATTGACCCAGAGGATGGTTTAGAATACAATGTTTTGAATTATGCAGCAGATGAGAGTTGGGGTCCAAAAATGGATGGAACAATGTATAGGCCTTGGTGGTCTTGGATTCATGATGATTTTGACGGTGATGGAGTTGATGATTATGGAACGCAAATCCCACTTGAAGCTCAACCAGATAACGTTAAAAATTTTTTAAATCAAGGTATAAATCAAATTCACAATTTTGCTCTTGATGGTGGAAATGATATTTCATCATTTCGTTTGTCATTTAAAATTGAAGATGGAAAAGGGGTTATTCCAAACTCAAAATTAAATAAATCAGCACTTGGTTTTAATGGATCTCTGGATTTAACAGGAAAATTGAGCTCTTCAGTAAGTTTTAATTATGCAAATACCCAAGGTTTCGGAAGACCTGCGAGTGGTTATAGTCCATTAGTTGGAAATCCAGTTCAATCATTTAATCAGTGGTTTCAAAGACAGTTAGATATGGATAAACTTAGAAAATATAAAGGAGATGATGGTTCTATTTATTCTTGGAATTTAAGATCTGCAACTAATTTAAGACCCTTGTATTGGGATAGTCCATATTTTAGTTACTTTGAAAATGTTTCTGAAGATGAAAGAAATAGGCTTTATGGTAATTTTTCTTTGATTTATAAAGCAACTCCAAATCTTTCTTTAATGGGAGTAGTAAGGTCTGATCAATATGACTTTTTGGTTGAGGATAGAATAGCTTCTGGAGGCTTAGAACAGGATTGGTATTCTATGGCAAAAAGATCTCAAAATGAAATGAATTATGAGTTTACAGCCAATTATAATCAAAATCTGGGTTTTTTAAGTTTTAGTGCTTTGGTTGGTGGTAATATTATGAATAGGGAATATAGTTCAAATATTTCTCAAACAAGTGGAGGTCTTAGTTTACCAGGTTATTATAACATTGATGCCTCTGTTGATAGACCATCTACAACTACTTATACTGAAGAAAAAGAAATAAGATCAATTTTTGGTTCATCAACACTCAATTTTGGAGGTGTTTATTATTTAGATGCTACTATAAGAAATGATATTTCTTCTTCTTTGCCATCATCAAACAATTCTTATAACTATTATAGTTTATCAAACTCATTTATTTTTACAAGTTTGTTTAATATTCCATTTCTATCATTTGGTAAAATTAGAGCATCTGTTGCACAAGTTGGAAGTGATACAGATCCCTATAGTGTAGGTTTAACATATAGTGTAGGTACTCCTTATGGTGCAAATCCTACTCTTGCGGTTCCAAACACATTACCAAATCCTGATTTAAAACCTTCAATTAATAGTGATACAGAATTTGGAATTGACTTAAGATTTTTAAATAATCTTTTCAGGTTAGATATTACATCTTACACTCAAGAAAAAAAGGATGATATTATACCTTTAACCGTTCCGGGTTCTTCTGGTTATTCTACAACATTGGTTAATGCAGGAAAATTTACTACAACAGGAACTGAATATTTAATTGGGTTTAACCCAATACGAACAAAAGACCTTGATTTAGATTTTACTCTAAATTATGCAACTTCAGAATCACAAGTTGATGAACTTGCTGAAGGTATGGAAGCTAGACAATTATTCAGAGCATATTGGGGTACTTTTTTATTTGCTAAAGTTGGTGAAGAATGGGGTGCAATTAAAGGTGCAGGATATCAGCAGCATGAAAATGGTGAAAGAATTATCACTGACGGTAATTACGTAACTGAAAATAATAAATGGTTAGGATATGTTTTACCTGATGCAACAGGTGGATTTAGAATCGATGCTAAGTTCAAAGGTTTGTCAATTGGTGCTTTTTTTGATTTTCAAGTGGGTGGTCAATTTTATTCTTTAACTAGACAATGGGGTATTTACTCAGGTATGACATCTAATACTATTGGGGATAATGAATTAGGTAATCCTGTAAGAGACCCTGTTCTTACATCTGATGGAACTGAGGTTACTTGGGTTGATTATGATGATGCAGCTTCGAATTCTGGAGGAGTTGTTTTGGAAGGTGTAGATGAAGACGGTAATGCAGTTAAGGTATTACGTGATGCAGTTTCAGTCGCAGCTAATTCATATTATAAGAGAAGTGAAGAAAATTTACTTGATGCAAGTTACACTCGTTTTAGAGAGTTTAGAGTTGGATATGATATTCCCTCAAGTGTTCTTGAGAGTTTACCATTGTCTAATTTGAATTTATCAGTCTCAATTAGGAATGTAGCCATGTTAAGCAGTGCCGAGGAAGGTATAGATCCAACTACTGCATCAAATGGTCATGGTGATGGATACAGTTATTGGGAAGGTGGAGTTTTGCCAAGTACAAGAACAGTTTCATTCAATGTTAATGTAAAATTTTAGTTGGAAAGGATATTTTAATGAAAAATTTAACGAGCAAATTTCTAATTTTATTTTTTTTGATTATTGGATGTAGTGATGATTTTGGTGATATGAATGTTGATCCTAATAACCCTTCAACAGCTATTCCAGATCTTTTGCTAACTCAATCAATTACTCAAATGAGTGGAGTTGCTGGTGCAGTTACACCTGTTCTATATGTCCAATATATGTCGGAAACTCAATATACTGAAGATTCAAGATATAACACAATTCAATTTGATTTCAATCCTTGGTATACTGGCCCTTTGGCTGATTTACAATCAATTATTGATAGTGAAGATGCAACTGCAAATTATAAAGCTGCAGCCAAAATATTAAAAGGTTATTATTTATCTATGATGACTGATAGATGGGGAATGATACCTTATTCAGAGGCATTAAAAGGAGGTGATAATTTTTCACCTATTTATGATAGTCAAGAATCTATTTACAAAGGAATAATTACTGATATCACTAAAGCTGTAACTGAATTTGACGAAAATAGTTCTCTCAATGGTGATATTCTTTTTAATGGTGTTACAAGTGATTGGCAGAAATTTGGAAACACTCTCAGAATGATTATGGCTTTGAGGCTCTCGGATGTTGATGAATCCTATGCATCAGATGAATTTTCTAATGCAATTGATGCAGGTGTAATTGATTCAGATGTTATGTATTATCATTTAGCTGAAGATGCAAATGCATCTCCATGGTATGTAAGATTTATTACTAGAACGGATTATGCAATATCAAATACAATGGCGGACACTATGCAAGCCTTTAATGATTCAAGATTAACAGCTTTTGCAGACCCAGCACCTGATTTAGATGATGGTGATGCTACAACTACTTTAGATGAAATAGTGGGAATGACTTATGGAATTTCAAATAATGAAGCTGGGGCAATAACAAATTCTGAAATTTCATTTCCAGGTGCATCTATCAGATCCCAAGATTCTCCATTACCAATATATACTGTTGCACAAGTACATTTTTCTATTGCAGAAGCAATTGAAAGAGGGTGGATTGCAGGAGATGCTAAATCTGAATATGAAAGCGGAATTACGGCTTCATGGAGCCAATGGGGAGTTGGTGACCCAAGTGAATATTTAATTCAAGACGGAGTTTCTTATTCATCAGATGATTGGGATAAGTTAATTGGATATCAAAAATGGATAGCAGCATTTCCAAGTGGTTATGAAGCATGGTCAGAATGGAGAAGGTTAGATTATCCTCAATTAGAACCTGCACCCGGTGCAGATCAAAATTTAAATATTCCATTAAGACATGCTTATCCAACATCTGAAACGGAATTAAATGCAACTAATTATGATAATGCTATTTCTAGTCAAGGAGCAGATGATTTATATACAAAGATGTGGTGGGATACTAAATAAAAATATATGTTGAAAAAATCAAAAGCCGATATTAATTGTATCGGTTTTTTTTTTTTTTTAAATATTAAATAAAAGTAAATTAATCGTTTAATTCAATTTAGAATTTAAAAATTAATTTCATGAAATATTTTTATATAACATTAATTCTATTATTTACTTCGTGTTCAAATAATGAATTAAAATTTACTCAACAACAAATTGATCAATTATTTATGTCAAAAAATCTAGGTCTGGCATACATAGAAGAGAGTAAACTTGAAGACGCAGAAAAAGAATTTGAAAAAATATTAAATATTAATCCAAATGAAGCAATGGGATATGGAAACTTAGCCCTGATTTATTTTCGTTTGGGGCAGTTAGATAAAGCAAAATTTCTAATTAAGAAATCAGAAAATTTAAATGATGAAAATTCAGATATTAAATTAATTAATTCTGAAATATTACTTGCAGAAAATAAATATGAAGAAGCAATTAAAATTTTGGAAAAGTCACTAATAGACTCACCAAAAAATATTAGAGTTTTATTTAAGTTGGCTGAAATTTATGGATTATTATTTCAAATAAATAATAATGAAGATGATTTAATTGCTAGAACTGAATATTTAAAAAAGATAATCGATTTAGAATATATAAATCTAGCAATTTTAATTCAATACATTGAATCTAATTTTAGAATTGGAAATCTTAAAAATGCTAAATATTATTTTGAAAGTTTATATCAATTATTACCTGAGCTAAATAACAGAGAGTCAAATCTTGTAACACAGATATACAATGAAATTTTTGAAGAAAATGTTGATAAAGCATTAAGATTTTATATTGGTTTTTCAAATTTGATGAAAACAAAAAACAGGTATCAGGCAGACCTTGATGAAATTAAATCTCAAGGATTAACTCTAGTTGGATTCCCAATTGAAAACTTTTTATCAAAAGACTTTATTTTTGATATTTCAAAATCAAATAGTTTTAATATCAACTTTGAAAATTCTATTTTAATTGACTTGAGTAATAGATTTGATATAATAGAGGATTTTTTGATTGAAGATTTAAATTTTGATGGTATAAATGAAATTTTTGTAACTGGAAAATTTGAAAATAAAATAAAGTCAGAAATATTATCTTTTAAAAATTATAAAAATCCATCAATTGTTTTTGAAGAAACAACTTCATCAAAAATTAATTCTTTCAATTTTAATGATTTAGATAATAATGGTTTTCTTGATTTGATTATTAGCTTTAACAACGAAACCCGTATTTATTATAATAATGGCGAATTGAAGTTCTCTGAAAAATTTATATTATCAAAAGGATTTTCTACGAACAAATCTATTTTTGGAGATTTTGATCATGATGGTGATTTAGATATATTTCAATTGAATAATGGTAAAAATGTTTTTTTAAGAAATAATTCAGATGGAACTTTTTTAGATAATTCTCAAAACTTAAATATTAAAATAGATGATATGAATACTATTGATGGAGACATTTCAGATTTTGATCATGATGGTGATTTAGATCTTGTTTTAATTAATTCTAATGGAACAATAAATCTTTTGTCAAATGAAAGACATGGAAAGTTTGTTGATAAAGGAAAAAATTTGACTTTAGATTCGAATTTATCTTTTATTCAAACTCAAGATTTAGATAATGATGGTTTTTTTGATTTTTTAATTCAAACAGAAAATAAAATTAAAATTTTCAAAAATTTTGGTAATTGGAATTTTATCAATTCTATTAATCTTTCAAATAATCTACAAAGTTTCAACTTTGATAAAATTAATATTTATGATTTTAATAATGATTCTAAGCTTGATATTTTAAATTCAGCAAAAAATTCCATTTTTCATTTAGAAACTGATGAAACTTACAATATTTATAACTTAACAGATTTTAACAATTATAAAAATAATAGTTCTCAAATATTAGATTTTGACTTAGATGGAAAAATTGATTTGGTCTTTTCGAAAGATAAAAAAATTGAAATTTTTAGAAATACATCAAAAAATTTAAATAAATATATAAATGTTAAATTGAATGGTCTTAGAGTAGGAAGTGGTAAAAATAATTATTTTGGTATAGGTTCAAAAATTGAAATTAAATCTGGAACTACATATCAAACTAAAATAGTTAAAAATAATAATACACATTTTGGATTAAATGATGATCAATTAGATGTTATGCGAATTGTATGGACGAATGGTTATCCTCAAAATGTTATTAATCCTGAATTAAATCAATATATTGTTGAGAAACAAGAATTAAAAGGTTCTTGTCCCTATTTATACGCTTGGAATGGCACTAAATTTGAATTTGTTAAAGATATTTTCTGGAGAAATGCTTTAGGAATGCCTCTTGGTATAATGTCATCAGGAGATATGGCTTATGCTTTTCATCACTCAACAGATGAATATGTAAAAATACCAGGTAAGTACTTGAAGACAAAAGATGAAAATTATTTTTTGAAAGTTTCAATGGAATTATGGGAAACAGCATATTATGATAATATAAGATTACATGTTATTGATCATCCAAAGGATACATATATTTATGTAGACGAGAAATTTTTACCTTATCCAAAACTAGAAAAAAAGATTTTTAGTTTTTCAAATAAAAAATATCCTATTTCTGTATTTGACGATAAAGGTAATGATTTATTAAAATATATTATTAAAAAAGATTATAATTTTATATCAAACCTTACTCCTTCAAAATATCAGGGTACTACTAAATTACATGATTTAATTATTGATTTAGGTAAAGTTGAAAATAAAAATGATATTAAATTATATTTACATGGTTGGTTATTTCCAACTGATGCATCACTAAATGTTAAAATAAGTCAAGAAAAAACATTTTCAATAAAAAGTCCTTCCATTCAGGTTTTAGATGAAAACAATGAATGGGTTACAATTGAAGAGAACATTTTTTTTCCTAATGGAAAAGACAAAACTTGTATAATTGATTTGTCAAATAAATTTGTAAGTGATAAATATAAAATTAAAATAAGTACTTCAATGGCCATTTATTGGGATGAGATTTTCTTCACTGAAAATGATAATAATATAGAATTAGTTGAAACTATTTTAAATCCAATAAAAACTGAACTTGAATATAGGGGTTACTCAAAAAAATATTTACAAAGTAATATATCCGGTCTTGATTATCCATCTTTTTATGAAGTTGAAAAATTTCCAAAATGGAGAGATTTAAAAGGAAATTATACTAAATATGGTGATGTAAATTCTTTAGTTATTGAATCTGATAACAAATATGTTATTATGAACTCTGGTGATGTTATGACAATTAAATTCCCAACAAATTTCATCCCAAAGTTAAAAGATGGTTGGACAAGAGATTTTCTCCTCTACAGTGATGGTTGGTTGAAAGATGGTGATATGAATACATTGACAGGAAACACGTCAAATCCTATGCCTTTTCATCAAATGAAAGGATTTCCAGATGATAGTTCAAAGTATTTTTTTTCTGACGAATTAATTGAATATAATAAAAATTTTAATACAAGAATAATTGATGATACGAATTTTAGAAATCACATAAAAAAAGATGATTAGAAATAATTTTTTTGAATTGAATCCTTAATTTCCAAACAAATTTTATATTTGGATTTCCAATTTTTCCAAAAACAAGGTAAGACTCCAACGGCGGTTGAAGTTATAAATGCTTCATCCATTTTATTAATATCCTTATAATAAATATTTTTTAATGATACTTCGTAATTTAAATCTTTTGCTGTTTCTAAAACAGTTTCTCTCATGATTCCTGGTAAAACCCCGAGTTTTGTTGTTGGAGTGTATATAATTTTATCTTTAATAAAAAATATATTTCGGACAGCGCATTCAGTTATTATTTCATTTTGGTTGTAAAAAACAGGTTCAAAAAAACCATCTTTTTTTGCTTCTCTTTTAGCTAACATATTACCCAAATAGTTTAATGATTTGATTTGAGGATTAAACCTTACAATTGGAAAATTCTCTTCGGGATAAAATTTTACTTTTACAGGATTCATTAATGGAAATATTACATTTCTAATTGAAATATAAATATTTAATTCACTATTAAAATCCCAAGGATCATCTTTTATATTACCAATTGTTATAGTAATTCGAATCAATCCATTATTAATTTTATTTTTTTTAATTATTTGTTTAAGTAATGACAATATATGTTCATAAGATTGATTAAAATTAATCTTAATACTTGATAAACCATTTGATAATCTTTCATAATGCTTGTCCGGTTTAAAAAGTTTTTTATTTTGAAATCTTATAGTCTCGAAAAGTCCGTAACCTCTTTGAAATCCTGCATCTTCATGGGAAATATTAGCATCATTTTTTGATACCCACTTACCGTTTACATAAAATATATTTTTTGAATTCACTTGTTCATTTGTATTAATTATATTGATAATTTATTCAATTTTATGTTTTTTTGCTTTTATTTTTAATTTAGTAGAGATAAAATTTTTCTTTTTTGAATAGCTTCTAACCATTCATTTTTAGCTACTGAATCCCACACAATTCCTCCACCAACAGGGTATATACCAATTTGATTAATTATTTTTAGCGTTCTTATAGCAATATTTAAGTTTATATCACCTTTGTTAGTTATATAACCCATACATCCTGTGTAAATACCTCTATTGTAATTTTCCAAACAATCAATAATTTCAACTGATTTCTGTTTGGGAGCACCCGTTATCGATCCCCCAGGGAATAAAGAAAAAATTATTTTCGCTTCGTCAATATTGTCTTTTTTTAATTCTCCTGAAATTTTTGATGTCATTTGATGAACTGTCGGAAATGATTCAATCTTAAATAATGAATCTACTTTTATTGAATTATTTTTACATATTTTTCCTAGATCGTTTCGAATTAAATCAACAATCATTAGGTTTTCAGCTTTATCTTTACTACTATTTTTTAATTTATTTAACAACTGATCATCTATGATTTTATTGTTAGATCTTTTAATTGTACCTTTCATTGGATATGATTGAATAATATTTTTGTTAGTTTTTATAAAATTTTCTGGACTGAAAGATAGTATAGAGTAATTTTTATTATTCAAAAAACAACCATACAAAGGTTTTACCTTTTTTCTTAAATTCATATAAAGTTCGAATGCATCATCATCAGTTTTATAGTAAAAAGGGTGAGTAAAATTTATTTGATAGCAATTACCCTTATATAGATGATCCTTAATAATTTTAATCTTTTTTTCATAATTTTTAAAACTTATAAATTCATCTTTAAGTGTTAATGAACATTTTTTTATAATTTTCTCTGAACCCATGATTTTATATGGAAAAATTTTTTTTGGTTTTCCAAACCATAATAGTGGAAAGGATGAATCTATTTTTTTAAAATTTAAATTTGGGTAAATTAGGTTTTTAATATCATAAGAAATAAAACCAAAGGCAGATATGTTTCCACCGACTTTTTTCCAAGAATCTAATGTTTTTTGGAAGTTAATTAATGGATTTCCCTTTAATTCTTCATCATTTACCATTGATATTCCATTATGATTAATAATAAATTCTTCTTCAAATCCATATATTGCATAATTAGGTGAAAATTTATGATGATGATCAATTAATGCATCTGGATAACCTTTTTCAGATATGAGTTTTGTTAAATTATACATTTGTTTTCAAAATTATATTCAATATTTAATGAAAAAATTTAAACTAATGACAATTAAAATCATATTATTCATGTTTTTTTTAAATATGAATATATTTTCACAAAATATATTTTTTATTGATGAGACTAAAAACCAGAAAATTAATTTTAAACATTATAATGGTGAGGTGGGAGAAAAATTTTATACTGAATCTGTTGGAGCTGGTTGTTGTATTTTAGATTATAATAATGATGGATTTATGGATATTTTTTTTGTTCAAGGTAATTCTCATTCTTCAAAGATAGAATCAATGGAAACGTCTAATATGTTATTTGAAAACAATAAAAATGGTTTTGTAAATGTCACAGTTAATTCAGGTTTAAAAAACTATGATTATGGAATTGGATGTGCAATTGCAGATTATAACAATGACGGTTTTGATGATATATTTGTTACTAATTTTGGTAATGACATTTTATATAAAAACTTACAAAATGGAAAATTTCAAGATGTAACAAATAAATCTGGTATTAAAAATAATTTGTGGTCATCAAGCGCAACATTTTTTGATTACGATAAAGATGGTTTTTTAGATTTATATATTACTAACTATGTTAACTTTAATATCAATGAAAATCCATGGTGTGGTGATGAAAAAAACAATGAGAGAAAATATTGTGATCCAGATGTTTTTGAAGGTTTGCCAGATATATTATATAAAAATAATGGAGATGGAACATTTTTAGATATTTCAAATATGTCAAATATTTCTAAAAGTAAAGGAAAGGGATTAGGGGTTGTAGCAGCTGATTTTGATAATGATGATGATTTAGATATTTATGTGGCTAACGATAAAGTTATGAATCACATGTTTATTAATAATGGTGATGGAACATTTTTAGAAGAAGGTCTTTTTTTAGGTGTAGGTTTTAATGAAAATGGAAAAGCTGAAGCTGGCATGGGAGTTGATGTAGGAGATTATAATAATGATGGTTGGTTTGACTTATTTGTTACAAATTTTAGTGGTGAATCAAATACTCTATATAAAAATGAAAAAAATGGATTTTTTACTGATGTAACTTTTGCATCTGGATTGGGTCAACCAAGTTTAGATTTATTAAGTTGGGGAACAAAGTTTTTAGATTTGGATTTGGATGGTGATTTAGATATTTTTACAGTAAATGGGCATATAAATGAAAATGTAAAATATTTTAGTTCAAATTATTTTTATAGACAGCCAAAACAAGTTTTTATAAATCAAGGAAATGGAAAATTTTTGAATAATTCAAAAGATTTTGGTGTAGCTATTGAAAAAAAAGAGGTAAGCAGAGGAGCAGCATTTGCTGATATAGATAATGATGGTGATTCAGATATTATTATCTCAAACAATAATAGTTTTTCAACTTTAATTATTAATGAAAATAATAATGAAAATAATTGGATTGGATTAATTTTAGAAGGTAAATCAATTAATAAAGATGCAATTGGAGCAAAAATTAAAGTCAACTCTGAAAATAAAAACCAGTATTTTTTTATTAACCCTGGTTCCAGTTATTTATCATCAAATGATAAAAGGGTTCAAATTGGTTTAGGGAAAGACTCAAAAATAAATTACATAGAGATTAATTGGTTAAATAATAAAAAACCTGAACTTTTTAAAAATTTTGAGTTAAATAATTACTATAAATTGACTGAGGGCGGGAAAATAGAAAAAATTTCTTATTGAATTAGACAAAATTAATGATAAGTCATAGAGGAAATAGTAGATTTTCATCAAGGTTAACTTTTTTAATTTCAGCTATTGGTGTTGCAGTTGGTACTGGGAATATATGGAGGTTTCCTAGAATTATGGCTTTAAATAGTGGTGAAAATGGTGCTGGCTCTTTTTTAATTCCTTGGATAATATTTTTATTTATATGGAGTATCCCACTCATCATTTCAGAATATATAATTGGAAGAAAATTTAGAAATGGTACAATCAGATCTTATTATAATTTAGTTGGAAAGAATTTTGGTTGGATGGGAGGTTTTATTGGATTTGTTACATTTATGATTTCATGTTACTATGCTGTAGTTGTTGGATGGTGTTTATATTATTTTATTTATTTTATTTTTAATATACTTCCAATTCAAACATCAGAATCTTGGCTTATATGGAATAATTTTCAATCAAGTTTTTATCCATTAATTTGTAATTTTGTTGTAATCTTTTTTGGTGGTGCAATTATTTCAAAAGGCGTGTTTTCAATTGAAAGAGTAAATAAAATTATAATTCCAACTTTATTATTTATTTTATTAATATGTTTTGTAAGATCTTTGACATTACCAAATTCAATAACTGGAATAAAATTTTTCTTTTCAATTGATTTTGACGAATTATTAAAACCAAAGTTATGGTTAGATGCTTTAACTCAGAATGCTTGGGATACAGGAGCAGGTTGGGGACTATTTTTAACTTATGCAATTTACATAAAATATAAATTTGGAGTCGTAAAAAATGCTTTTATTACTGCAATTGGAAATAATTTCATTTCTTTAATTGCAGGAGTTATGATTTTTAGTACTGTTTTTTCAATTTTAATAATCGACGGTCAAAGTCAAGATTTTATAATCAAGACATTACGAGATAGTGGCCCTGCTTCAACCGGATTAACTTTTATTTGGATTCCTCAACTTTTTAATGAAATTCCACTAGGAAGATATTTATCAATTATATTTTTCTTGGGCTTATTAATTGCAGGTATATCATCATTTATATCAATGATTGAATTAAGCTGTAGTAACTTGATTGATTTAGGGTTTAGTAGAAAAAAAAGTATAATGTTTATTTGTAGTGCAATTTTTTTATTAGGTATTCCATCTGCTTCTAACACAAGTTTTTTTTCAAATCAAGATTTTGTTTGGGGAATTGGTCTTATTATTTCAGGAATTATTATTTCGATTGGAGTAATTAGATATGGTGCAAACAAATTAAAGTCAGAAGAAATTGAAAATAATTCATTTGATTGGAAACTTGATTCAAGATGGAAATTTATAATTAAATATATTGTACCAATATTAGGAACAGTATTAGTTTGTTGGTGGTTGTTTTTATCTTTATCAATTTATGAAAAAGAATATTGGTATAATCCATTTTATACTTATAGTTTAATGACATGTATTATACAATGGTTTTTAGTTGTTGTAATATTAAAATTCTATGATAAAAAATTAAAGCAAAAATTTAAACTATAAAATTAGTGTAAACACAATGAATGAATGGAAAGAATCAGATAAATATTTAATTAAAAGTTTTTCGTTCAAAAAATATTTGGATGGAATTGCTTTCGTTGATAAAGTTGCTATGATATCTGAAGAAAAAAATCATCATCCAGAAATTGAAATTTTATGGTGTAAGGTAATTATTAAATTAACTTCGCATGATGCTGGAAAAATTACTGAAAGAGATATTAAATTAGCTCATGAAATAGATAAACTTTTTAATTAAGGAAATATAAGTGAAAGAAAATAAAATAAAAAAAATATCAATTATTGGAGCAGGAAGACTAGGCTTTTCTATTGCAAAAGGCTTAATTAAATCTAAACAATATAAACCTTCAGATATAACTCTAAATCGAAGAAATGTTGAATTATTAAAAGAATCAAATTCTTATGGATTTCAAATCGAGTCAAATCAACAATCAGCTATTGAAAAATCAGATTTAATTATTCTTTCCATTCGACCTAAAGATTTAAAATCATTTTTTAAGAATAATTCTATCAACATTAATTCTTCTCAAATCCTTGCTTCTACTATTGCTGGAGTAAGTATTGAAGATATAGAAAAAGAATATTTAATTGCTAATAAACAAATCAAATTTTCTATTTTTAGAGTTATGCCGAATATTGCTGTTGAGCTTTGTGAATCGATGACATGTATTTCTATGAAAAATAATTCTGATAATAATGATTATCAGCGAGATTTGATGAATAGAAAGAATCTTTTAAATATTTTTTCTAAACTTGGTATGGCGAAAGTAATTGATGAGGAATTGATTGGAGCAGCAACAGCCTTGTGTGGATCTGGATTAGCATTTTTCTTAAGATCGATAAGAGCAGCAGCTCATGGTGGAACTGAAATTGGATTTCATGCTGATGAGGCTTTAGAATTAGCTGCACAAACAGCTAAGGGTGCAGCATCACTTGTAAATGATTCAAATGATCATCCAGAACTACAAATAGATAAAGTTACTACTCCAAAAGGAATTACAATTTCTGGGTTAAATGAAATGGATCATAGTGGATTTAGTTCAGCAATGATACATGCAATAGTCAAATCAGCAGAAAAATTAAATAAAATTAAATAAAATCAACCAGTAGTTTGCATTGAAGCAGCAATTGCATTAATACTAGCAAATATGGATTTTTGAATTTCTTTTTCTTTATTTCCATCTTTCCATCTAGTTAAAAGTTCAATCTGAATTAAATTGACTAAATCAGCTATTGGATTTCTAAATTTTATAGAATTTTCTATTACTGGACTTCTTTGAAGTAATGATTTATTTTTTGTAATAAGCTGGTACATTTCTACACACAAATCAAACTCATTTTGAATTATAGAGTGAAAATCTTTATCAAGAGTTAAGTTTGTATAAAGCTTAGATATTGGTAATTGAGCTCTTGCCATTTCAAAAGACATTTTATCTAATAAATGTTTAAAAATACTTGAGTTCTCATATAAGTTTATTAAAACGTTGATATCTTGTTTTTGATCTGATATTTTATATAAAGCTGATCCAAGTCCAAACCATCCAGGAATATTATATCTAGTTTGAATCCACGAAAAAACCCATGGAATTGCTCTTAAATCATTAAAACTTTCTAGTGTGGATCTTGAGGCCGGACGAGATGCAATTGGAAGTCTACTTATATGTTTAATTGGAGAAATATTTATGAAGAAATCCCAACATTCTTTAGAAAAAATTTTATTTTTATATATTTCCTCTGATGAACGAGCAATTTTTGATAATAAATTAATTTCATCTTTTTTACTGATATTTGATTTTGAAATTAATCCTTTGAGAACAGCATTTACAATTTGCTCTAAATGTCTCTTTGCAATTGCACCAGAACCATATCTATAGGAGATAACTTCACCTTGTTCTGTCATCCTAATAGTACCATTTTGACATTCTTTAGGTAAACTTAAAATAGCAAGGTTTGTTCTTCCTCCTCCTCTGCTAACCGAACCACCTCTACCATGAAATAGCCTATGATTAATATTTTTTTTATTAAATAATTTTGCAATTTTTTCTTGGCTTTCATTTAATGCCCAAGTTGCCATTCCCATTCCACCATCTTTATTACTATCAGAATATCCTAACATTACTTCTTGAAAATTATTTCTACTTTTAAGGTATTTATTATAAATATTATCATCAATTAGTTCCAATAATAGATTCGGAGCATTATATAAATCATCTATTGTTTCATAAAGAGGAATAACATCCAAATAAGAAATCATTTTATTATTCTTTATCAATATTAAATCAAAAAGTTTTAGTAAAAACAATACCTCTAAAATATCTGATTTGGAATGTGTCATACTTATTATATATGATGATATACATGAGGAATCTTTTTTTAATTCACTTTTTATTGTTTTAAGTGTTTTTATAAGCTGTATAGTTTCATCTGAAAAATTAAAAGATGAGGTTTTATCAATTTTAATTTTAAAATTAAAAAATTCTTTATTTAAAATTTTTGATTTATCTATTTCATTAAGTTCAGTGTAATTATCTATAATATTAAAATTAGAAAAAATTTCATGAATTGCTATTTCATGATTATTTGAATGCTGTCGAATGTCCAAACTCATAAGTATAAAACCAAAAGTTTTTGATCTTATTATTAAATCATTAAGTGGTCCATTCTTATATAAAATAGAATAATTTAGTTTTTTAAGGGTTATATATATAATATTTAAATCTTTTTGAAAATCTAATGAAGAATAAGATAATTGACTTTTATTTTTTTTAATATCTGAAATAAGAATATCAATTTTCAATTGAATACAATTTATTTTTAATCGGATAGGTTCAAATCTTAATCTTTCAATAACATGATTAGAGATTTTTATTTTTGTTAAATCATTTTGTATTGATTCAAATAAATCAATATTTTTTTCTGATTTTTCAATTTTTAAACTTAAATCTCTATATACTTCAGTTAATGAATTTTTGTATTTTTCAAGAATAGTAATTTTTTGTAAGGTAATTGCATTTTGAGTAATTTCATTTGTAACATTAGGATTACCATCTCTATCGCCACCTACCCAAGTTCTAAATTTTATAAAATCTTTTGTTTGCAATTCATAGTTGTAGTATAATTTCATAGAATTAGAAAGATTTTTATGTAATTCTGGTATTGCATTCCATAATGAACGAGTACAATGATATATTGTATTTTTTATCTCATCATTGACAGTGACTCTGGTAGTTCTTAAGTCATCAGTTAATAATAACATTGTCAATGATCGCTTTATTTTTTCATTTAAGTATTCTTTTTCATTTTTGCTCATTAGGGTAAATAATAATTTTTCTATATCGAATGTTAAAGATTGTTGTTTATCAAGTAATGACTGTCTTCTTGCTTCAGTAGGATGCGCAGTAAAAGTTGGAATGATATTAATTTTATTTATATAATCAAGAGTTTTTTCTAATGATATATTTGATTCTTTGTATAGTTTAATAGACTCTTGTATTGAATCAGATAATGGTTTTGATTCATTTGCATTCTCACTTCTTTTTTTATTTATTGAATTAATTTCTTGTAATTCAGCTTGGTTGAGCAAATGAAAAAAAGTACTAAAAAATTTCAATGAAAAATCAATTTGGTTTACAGACCATTTTTTAAACAATGTCTGAATATTATTATAATTATATTTAAAATTAGATTTAATTATTATATCAAAAAGAGTAGTTCTTAATATATCATATTCCTTTATACTATTTTCAGTATATATTTCATCTAAAATTGAAGATATATATAAAACCCTTTTCGTAAGTGATTTTGTTAATAACTTTTCAGCTGATAATTTTATTAAATTTTTTAAATTATTTTTCATTGTTAAAAATTCTTCAATAGAAAACTCTTAAATTTATCATAAAATGGGTCCATTTTAATTGATTTTTTTTGTTTTTTATATAATGATTTTATTGTATCTGGAAGTTCAATTTTCTCTTCGATTATAGGTTCAATAATGTTTTTAAATTTTAATGGATGTGCAGTTGCTAGATATATAACAGGGTTCTGTTTGATTCCCCTTTTTTCAATATTAGCTAATCCTACAGCAGTATGAGGACAAATAGTATAATTATATTTATTTTTAATTTTTTTAATCATTTTTATAGTTGTTGAATCATTTATACTTATAGATTTTATATCATTTTTTATATTATTTAAATTAAAGTTATATAAAAATTTTATTCTTTCAAGATTGCTTGGGTTTCCTACATCCATTGCATTAGAAATTGTTTTAATTGTTGATTCAATTTTAAAACTTCCGTTTTTTAAATATCTAACTAAAGAATCATTTGAATTTGTAGCAGCTAAAAAACTTTTTATTTTGATCCCACTTAATTTTGCTAGAATTCCTCCAGTTAAGTTTCCTAAATTTCCACTCGGAACGCAAAAAACAGGGTTAGAACTTTCGTTTAATTTATTTTTTGCCCAAATATAATATGTAATTTGAGGTATTAACCTACCAATATTGATTGAATTAGCTGATGTTAAGTTTACATTATTTCGCAACTTTTTATCTGAAAATGCCATTTTGACTAATTTTTGACAATCGTCAAATGTACCACTGACTTCAATAGTCTTCACATTTTTTTTTACTCGGGTTAATTGCAGTTCTTGTATTTCGGTTACTCGTTTAGAAGGATACAAAATTACAACATTAATTCCTTTAACTCCTGAAAAACCATTGGCTACAGCACCCCCTGTATCTCCAGAAGTGGCAACTAAAATAGTTAATTTGTTTTTATTTAAAAGAGAAAAAGATCTAGCTAGAAATCTAGCAGCGAAGTCTTTAAAAGCAAGAGTTGGACCATGGAATAATTCTAATATATAAATATTATCGTCTAATTTTTTTAGTGGAACTTCAAAATTAAATGATTCTTCACATATTTTTTTAAGTTCATTTAAATTTATATTCTCTTTTACAAATGGATATATAATATCTTGAGCAAGATTGAAATAATTAACATATTTTTTTTTGAGATTATAATTTGGAATTTCGTTTGGAACAAATAAACTTCCATCATTTGCTAAACCTTCAAATAAAGCTTCAGAAAAACTAACCAAATTTTTATCATTTAATATGCTTCTATATTTCAAAATTTAAATTATCTGAGGGGGTAAAGTTTGTACTTTTGATATATATCCAATTGAATCAATACCAATTTTTTTAAATTCATTTATTATCAATGTTTTAATTTTTTTTGAAACATCAATATCATTTGCAAGGGCAAATATTGCAGGTCCTGAACCAGAAATCCCGCATCCAATAACATTTTCTTTTTTCAAAAGATTTTGAATTTTTTTATAACCTGGAATTAATTTTCCTCTTACAGGTTCAGCAAAAAGATCAACCATAGATCTTTGCATTAATTCATAATTTTCTTGATAAAGCGCAATTGTAAACCCAGCAAGATTTCCAGCTTGTTCAACGGCTGATTTTAAAGGAACTCTTTTTGGAAGCATATTTCTTGCATCGTAGGTATTAATCGAAAAGTCAGGTAAAACAACAACACACATTAATTTTTTTGGAATTGGTAAATTTAAAATTTCAAGTGGTTCATAGCTTCGGATTAATCTTATTCCTCCTAAAATTGCTGGAGCTATATTATCAGCATGAAAGCTACCAGAAGCAACTTCTTCTCCAGCCATACCGTGAAAAATTAGTTTTTCTAATTTATATGGATTGCCAAATAATTCATTTATTCCAAATACAGCAGCTGCAGCACTTGAAGCACTTGAACCAATTCCACTTCCAGGAGGAATTCCTTTTTTTATATGAATATTTAAACCTTTTTTTTCTCCAATACTGTGTAAAAATGACAAAATTGCTTTTCCAGCAGTATTTTTTTCTGGATTAACAGGAATTAAGCTAGATTTTTTTCCAGATACTGTAATTGATAATTTTTTGGAATTATTAAATTCTAGAGTTACTTCATCGTATGGTTCTTTTATTGATAATCCTAAACAATCAAATCCACAAGAAATGTTAGCTATTGAAGCACTTGCTCTAACTTTAATTTTATTTTTCATAAATTTTTCAGAAAATTTTGTTTGTATAATAATTCTGCAACCAAAATAGCTCCTCCAGCAGCACCTCTTATTGTATTATGTGATAAAGAAAAAAACTTTACATCAAAAATTTTATCATTTTTTAATCTTCCAATTGAAACAGCCATTCCTTTGTCATTAAAAATATCTAATGAAGTTTGTGGTCGGTCATCTTCATATAAATATTTTATTGGAAATTCAGGAGCAGTTGGAAGTTTTAAAAATTGAGGAATTGATTTATAATTTTCCCAAATATGTAGAATCTCGCTTATTTTAGGAACTTTATTATCAAATTGTAATTGTACAACAGCAGAATGCCCATCAATTATAGGTACTCTTGAGCAAAATGCATTTATAGATAAATTTTTTGATTTTATAATTTTATTATCCTGAACTTTACCAAAAATTTTTAAAGGTTCGTTTTCTGTTTTTTCTTCTTCTCCATTAATAAAAGGAATTAGATTATTTTGATAATTTTTATCATTAATAATTTTAATTCCACCTCCAGATAATGCTTGCATTGTAGTAACATTAATTTTATTAACATTAAAACCTGATTTATTTAAAGCATCAATCGCTACTAAAAATGATTGTATCGAACAATTTGATTTAGAAACAACAAAACCATTTTTAGGAAAATTTCTTTTCTTTTGTTGTTTTTCAATTATTTCTAAATGATCTGAATTTATTTCTGGAATTATCATTGGAACATCATCAGTCCATCGATTTGCACTTGTATTACTCACTACAGAATAGCCATGATTTGCATATTTAAATTCTAACTCTTGTGTTTTTATTTTGTCTTCTAGTTCAGCTGCTGTAAAAACAATTTGTACATCATTTGGAATAGAATTAAAATCAAAAATATCTCTTAACACTAAATTATTAATTTGATCGGGAAAATTTGTTTTTATTTTCCATCTATTTTTTAAAACTTCTTTAAAAGATTTACCACTTGATTTTTTTGATGCAGCAATATCAACTATTTGAAACCAAGGATGATTTAACAAAAGAGAAATATAAATTTGGCCAACCATCCCAGTTCCACCTAAAACGCTAACTTTAATTTTTGACTTCATAATTTATGCTTATTTTAAAATTAAGTTAAGATCATTAAAAACACCAGCAGATGTTACTTTTATTCCAGCGCCAGGACCTCTAATAATGATTGGAACTTCTTTATAGTTTTCAGATTTTATTACTAATATATTTTCTTTTTCTTTGATCTCATAAAAAGGATTGGAAATTGGTACAGATCTTAATTTTACTGTAGCTTTTTTTCCATTCCATGAGCCAATATATCTTAATACTTCATTTTTTATTTTAGCTTGTTCTAATTTTGATTTAAAGAATGATTCATTTCTTTTTAATTCATAAAAAAAATCTTTAATTGAAATTGTTGAGTCTATTGAATTAGGTATTAAACTTTGAATTTGAATATCACCAAGCTCACATTTTATTCCGTTTTCCCTTAAAAGAATCAACATTTTTTTAGCAACATCCAAACCATTTAAATCAAGTCTTGGGTCAGGCTCAGTATAACCTTTTTTGTGAGCCTTCATCAAAATATCCGCAAATTTTTTCTTACCATCATATATTTTAAATAAATAACTTAGAGTTCCCGATAAAATTCCTTCAAAACTAATTATTTTATCATTCGAAGTATACAAACTTTTAATTGTTGATACCATAGGAAGACCTGCTCCAACATTTGTTTCATATCTGAAATTCACGTTATGATTATTTTTATTTTTTTTAAGTTGATTATAATAACTTTGACTTAAGGTGTTTGCATTTTTATTTGCAGCTATGACTGAAAAACCATTTTTAAAGAATTCAGAGTATTTTTTTGCAATGATCTTACTAGCTGTACAATCAATTATTATATTTTTAGATTTTGTAGATAATTTTTTGCTTAATAAAAAATCAATGTTGAACTTTTTGTTTGAATTTTTTAATTCTAAAATTAGTTCAGATTTTGATTTTACTTTAATTTCATCAATGTAATTTTTACTGTTTGCAATTAATTTTAAGTTGAATTTAATTTTGCTTTTGCAAATCATATTTAATAATTCTTGACCAATATTTCCCACACCTAATAGATAAATATTTGGATTTTTTTCATCAGAATCGAAAAATTTATTATGTAAAACATTTATTGTTTTTTCGAGGTCTTTTTGTTTTGTTATAAAGGAAATATTTCTTTCAGAAGATCCTTGAGCAATTGCAACAACGTTTATATTATTATTTCCTAGTGTTTTAAATAAATCTCCTGATATACCAGGTACCTTTCTCATTCCATCTCCTACAACACCAATTATAGAAAGATTTTTTTCACTACTTATTTTGTCTACTTGTTTATTTTCTATTTCATAATAAAATTCTTTTTTTAAACAAGAAAGAGCTATTTTTTCAAATTCAGGTTTAATAGCAAAACATACTGAATGTTCACTGAAAGACATTGAAATTAAAATAATATTTATTTCATACTGGGCAAGTTTTGAAAAGATTCTTCCAATTATACCCTTAACCCCAACTAAACCAGCACCCTCAAGCCTAATTAATATTATATTTGAAAGAGAAGAAATTCCAATTATAGGGTTTTTTTTATTTTTCAAAATATGGTTTGAGATTAAAGAACCTTTATTTTTTAAGTTAAATGTATTTTTAACTCTTATAGGAATATCATTATATAATGCTGGAATCATTGTTGGTGGAAAAATTACTTTAGCTCCGGCATGTGCGAGTTCCATTGCTTCTTCGTAGTTTAATTGTGGAATATTAATTGCATTATTAACAATTTTTGGGTTAGCTGAAAGAATTCCATTAACATCTGTCCAAATTTCAATTAATTTTACTTTTAATGCGCTACCAAAGATAGAAGCAGTATAATCTGAGCCGGATCTTCCCAAAGTTGTTGAATATCCATTTTCTGAAGAACCTAAAAATCCAGTAATAATTTGTAGTTTATCAACATTAGCAAAATGTTTTTTAATTAAATAAGCTGATTTTTCATAATAAACAAATGCATTGCCAAATGCTTCATTAGTTTTAATTAATTTTCTTGCGTCAAGTTGTTCAGCTTGTATATTAAAATTTTCGCTTAAACATGTCGAGATAATTTTTGAAGAGAGAAGTTCTCCAAAAGATAAAATTTGATCTTTTTTTCTATTTAAATTTTTATCTTTTTGTTCTACAACTTTTTTAAGTTTTAAAAAATAGTCATCAATAAAGTCAATTTTTTTTAGTTTTAACTCTTTAACACACTCTAAATGCTTTGTTTTAAGTTTTCCAATAATATTTAAATGATTTTTTTTATTTTGTTCTTCAGTTATACTTAATAATAGGTCGGTTACGCCTCCAATTGCTGACACAACAATAGATTTATCTTCATTTTCTTTTTGAATTATTTCGCAGACTGAACTTATTCTCTCAGAAGAAGAAATTGAAGAACCGCCAAATTTTAATATTTTCATAATCCCTAAATAATTTGATATAAAAGTTACAAATTTTTTAAAGTTTTTTTATTTATTATGAAAAAAAATTTCATTTAACCAATTATTATAAAAAATCATTGCATTTTCATTCCAACAATTAATTGGTTTGTAACTAGGATTATCATTAAGAAAATAGTTTTCTGGTATATTAATTTTTAAATTATTTTTTTTATCTCTTTTATATTCATTATTTAAGGTTTCGGTTGAATATTCAAAATGATTAAAATTATAGAATTCATTATATTTTTTGTTTGATATTAAACAGGGTCCAGTTTTTTTTGAGTAAAGTACTATTTCCAGATCTCTTTTTTTATATACATCTTCAATTTTTGTACCAGTAAATCTTGATACAGGAATGGATATTGGTTTTTTAAGGTTTTTTAAAATTCTATTTTTTTTCATTATGACTTGATTAAATATTCCAGATAATTTTTGGTTAAGTGTAAATTTTTCAATTTCATAAAAAATTTTTAAAGCAGCTTGAGCTCCCCAACAAATATAATAAGAAGGAATTAAATTTTTTCTTACCCATTTAAATATATTGGTAAGTTCATCCCAATAAATAACTTGATCAAAATCCATTTTTTCAACAGGAGCTCCAGTGCATATAAAACCATCAAAATTTAAAGATGAAATTTCATCAAATACTTTGTAGTGATTTTTTAAATAAGAAAAATCAGTATTTTTGGACTTATAAGATTCAGTTCTTAGAAAAGTAAAGCTTATTTCGAAATTTTTGTTTTCACAAACTTTTGAAATTTGATTTTCAGTTTCAATTTTATTAGGCATCAAGTTTAGGACTAAAATTTTCATAATTTTATTATATCCTCTTTTTAAAAAAAAATAAAGCGAGAGGAAATACTTCTTCTCGCTTTACCTACCACTTAACCCCTTAATTTAACTATTAAAAGCTTGAGAAAAGTCATTTTTAATATCATCAATATGTTCGATTCCAACAGAAACTCTTATTAAATCAGGTGTTACTCCTGCGCTTAACTGTTCTTCTTCAGTTAATTGTGAATGTGTTGTTGAATTTGGATGAATAACTAATGTTTTAGCATCTCCAACATTAGCTAAATGACTAGCAAGTTTTACATTGTGAATGAAGTTTTTTCCAGATTCAGCACCGCCCTTTACTCCGAAAGATAATACAGCACCAAAGCCATTAGTTAAATATTTTTTCGCATTTTCGTGTGAAGGGTGATTGCTTAAACCTGGATAGCTTACCCACTCTACATTATCATGTTCATTTAACCAATTTGCAAGCTCAAGTGTATTTTGATTATGTCTTTCACCTCTTAGAGATAAAGTTTCTAGACCTTGTAAAGATAGAAAAGAGCCAAATGGATTTTGGGATGGACCAAAGTCTCTTAGACCTTCAAAACGTGCTCTTATTATAAAGGCAACATTTGCTCCTAAAACACCTTCTGGACCAAAAACTTCCCAAAAACTTATACCATTATAATATGGTGATGGATCAGTAAATTCTGGAAATTTTCCATTATTCCATGGGAATGTACCAGCATCGATAATTATACCACCGACTGTATTGCCATGTCCGCCAATCCATTTTGTTGTTGATGCTACAACAATATCTGCTCCAAAATCAATTGGTTTACATATATATCCAGCCATTCCAAATGTATTATCAACTACCAAGGGAATACCATTTTCTTTTGCAATTTTAGAAATTGATTCAAAATCAGGAATATTATATTTTGGATTTCCCATAGTTTCAAGATAAATAGCTTTAGTTTTATCATCGATTAATGATTTTATAGAATCAGGGTTATCACCATCAGCAAATTTTACATCAATTCCTAATCTTGGAAATGATAGCTTAAACTGATTATATGTACCTCCGTATAAAAAGCTTGTTGAAATTATGTTATCTCCAGCTTTTGCAATTTGTTGTAATGCTAAAAATTGAGCTGATTGACCGCTAGAAGTAGATAAAGCCGCAAGACCACCTTCTAAAGCCGCAATTCTCTTTTCAAGAACATCATTTGTTGGATTCATTATTCTAGAATATATATTTCCGAATTCTTTACCAGCAAATAAATTTGCAGCATGATCAGTATCATTAAAAGTATATGAAGATGTTGCATAAATTGGAACTGCTCTAGAATTGGTTGTTTTATCTACTTCTTGTCCAGCATGAACTTGTAAAGTATCAAAATGTTTTGGTTTATCACTCATTTTAAATTCCCCTTTTTTATTAATATACTTATTAAAGAAGTTTTTAATATCAGATTGAATTTTTTTTAAAATATTCATTTTGTAGTCCCTTCTTTCAATAAAATATATTGATATGATTTATAATCATATCCCCCCTGTAGAGATATAGATTTATTAAAATTACCTTAATAAGGTAACTTATTATGTTAGTTTAAGTTTGTTAAAAGATTCAGCAAAAATTGCAATTATCTTTACTCATTTTATTTAAAACCTGAGTCAGGAATTAGCACCTTGACTTTAAGAAAAGCATATGGTTGCTAAGGTTTCAATGGGCCTGATCCCTCCACCTTTCTGGATAAAAAACTCAGCTGAATTGTCAAATAGCGTAATTATTGATAACAATATTAGTAATTTTTATAATTAATAGCAACTATAATTAAGTTATAATTTAAGCTATTAATTAAACGTGCAAAACGTGCAAACATCTTGGTTTTTAATAATATTAACATTAATATTGGGAGATAAAAATTAAAACTAATGGTACAAAGATACATATCATCTGAAGAAGTTTCTAATATATTAGGGGTAAATGTTTCTACTATTAAACGTTGGACAGACTCTGGGAAATTAGATTGCGTTATTACCGCTGGAGGTCACAGAAAATTTTTAATGCGTCATGTTTCAGCATTTTTAAATGATAATTCAAAATATAGAACTAAATTAAACGTTCTTCCCTACAACTCTTCAGAAGAACGTCAACTAAATCAACTAATCTTGACAGGACAAATTTCACAACTTAAGGAGATTTTTTTAGATAAGGCACTTCTAGGTAATAGAGAATTATGTAGTCAAATTATGACGGGACTATATTTGTCGGGAATAAGCCTTGATAAAATATATGATGATCTAGTTTCTCCTGTATTTAAACATATTGGTAGCGAATGGCACGCAGGTAGATTGCCAATTTATAAAGAGCATATTGCAACAAATACTTTACAAACATGTGTTCATGGTATTTATTCAATAATCAACAAACCATCTAAAAATAAAGGCTTATCTGTTTGTATTGGAATAAGAGGTGACATGCATGATATACCATTGATGATAATAGAACAAATTCTTTTATCTAAGGGTTTTGAAGTTATAAATACTGGTATAAATACACCCTTAGATAAAATTGAAACTTTATTTGATGTATCACACCCAAATAGAATATATATATCATGTACTTGGATTCAAAATGAGTCTCATGTTATAGAAGATTTAAACAAAATATTTGAAATAAATGAAAAAATAAATGCTGAGATTTTTTTGTGTGGACCATTGTTGAATAAATTAAAATTATCAAAAGATTATAATTATCGTTCGATTAAATCATTTACGGAATTATTATCTTACTAAAATTATTTAATAGGAGATTAGTATGAAAGTTGCAGTTTTTGGGGGTACAGGTTATGTCGGAAGTTATATAATTGAAGAGTTAATCAATCAAGGTCATACACCTAGATTATTAGTGAGACCTGGAAGTGAAAAAAAAATAATGAAACCCAGAAAATGTGAAGTTTTTAAAGGTGAGGTCAGTGATTTTGAAGCAGTTGAGAAAGTTATTAGTGGTTCAGAAGCAGTGATATATTTAATTGCGGTTATAAGAGAATTTCCAAGAAAAGGTATAACTTGGGAAAAATTACAATTTAATGGTGCTACAACTTGTATAGATATATCTAAAAAAAATAATATAAAAAGATTTCTTTTAATGAGTGCAAATGGAGTAAAACCGCATGGTACAAATTATCAAAAAACAAAATTTATGGCAGATGAGTATTTGAAAAATTCAGGATTAAATTATACAATATTCCGTCCTACTTCACTCTTTGGGGATCCAAGAGGAAACGGTAGGCCAGAATTCAATACCCAAATTTTAAATGACATGTTGAGTTTGCCTATTCCTGCACCGTTATTTCATCATGGTCTAATTCCAAATAATTCAGGAGAATTCGCCTTTAATCCTATACATGTTAAAGATGTAGCCTCAATATTCGTTAAATCTATAGATAATGAAAATATGTTTAATAAAATTTTTAGATTAGGTGGCCTAGACAAAGTTTCTTGGAAAGAAATGATTAAAACTATTTCTAAAGCTGTGGGTAAAAAAAAACTTGCTATTCCTGCACCTGTAATGGTAGTAAAAACAATAGCTACTTTTTTTAAATATTTTAAATGGTTTCCAGTGACTCCTGAACAATTAACAATGATTATGGAAGATAATACATGTGAATCAAAAGAATTGTTTGATAATCTAAAGATTAATCCAATTTCTTATAACGCCGAAAATCTTTCTTATCTTAAAATAAATAAAAATTGATTTCATTTATAAAAAAATTATATAACGCCTTTGGATTTTATATGTCTTGGTGGGCTTGTGTGATGGGTGTTATTAACTATAACCAACCATATTTTGGTCCATTAGTTATGTTTATCTATATTTTTTTTCATTTTTTGATGATTAAAAATAAAAAAAACGAAATCATTTTTTTATTCATAGCTGCATTGATTGGTTTTTTTGTTGATTCTGTTAAAGCATTTACTGGTTTTATAACATATAACGGAGCTTATTTTGAATATTTTGCTCCAATTTGGATAATTGCTATGTGGGTAGGTTTTGCGGCAACAATTAATCATTCAGGAAGTTGGGTTAAAAACAGATATTTAGTAGCAATCTTTTTAGGAATAATATTTGGTCCATTAAATTATTTAGTTGGACATCGTTTGGAGGCTTTGTCTTTAAATATGGATTTTCCACAAAATTTAATAATACTATCAATAGTATGGGGAATTAGCGTTCCTTTACTTTATTATATATCAAATCAAATTAATTCAAAAATTAAATGAAATTTTTAGTTGTAATATATTTGATGATTAATATTCTATTTGCTCAAAGCAATGAATTTATTTTTAGTCAACTGTACATACCATATGGTTGGGTTCAAATAAATAACTCAAGAAATCAAAATGATTCACCTTCAATTTACACTAAAGAAATATTTGGTGCGGATTATCAAGCTTTAATGATTAAAGACACCATATCTGCTGAATCAAAAAAAATAATCAATATAATCAATAATGTAGAAAGTTATGATAATATTTTTACTAGTTCAAAACTTGTGTCAACTTCTGTCATTTCAAGAAAAAATAATTTTGTTGATGCCTATCAACATTTGCCTGTACCAATCCCATTTATAAGTGACAGACATTATATTTTCAGAATGAATGGTTTTGAAAATAGATCAAATGTGGTCAGATGGATTTTGTTAAATAGAAAAGATAGTGAATATTCTAATTATATATCTCAAAAAGAAGATTCTTTATCTAGTGTAATATATTTAGATACTGGTGTTGGTATTTGGGAAGTAAATAAATTGGAATCAAATATTAGTGAAATTTCATATAGATTATATATGGATACTGGTGGTAGGCTACCAAAATTCCTCGTAGAGTGGTTAAATAAAACAGCAGTAAATAATGTTTTTACTGACATTAAAAATGCTTCATTAAATTAAAATGAAAATAGATTTTAAAGATATATTTAATGTTCTTATAATTTTAACTTTATCAATAGTTTTTGCTTTTTTTGCAAATCCAAAACTTATTGATATTCAAAATATTCCAATTTTTATTTTAATAATGTCTTCAATATATTTTATTCATTGGATTGTTTTTTTACCATCATTTATAATTAGATCTGAGAAATATTTTGATATAACAGGAACATTCGCATATTTATTTTCATTATCATTAATTTTTTACTTTCTAATAACAACACAAAATGTTATCAAACTAAGAAGTTTGACAGTTTTCATGTTAATATCTATTTGGTCAATTCGTTTAGGTTGCTTTTTATTTTCACGTATCATTCGAGAAAAACAGGACAAAAGGTTTGCAAATTTAAAAAAATCTTTTTCAAAATTTTTTGTTACATGGACTGTATCTGGAATGTGGGTTTTTACTACCTCTCTAAATGGTTTAACTGTTATAGTTAATAATGTTTCATACTATAATGATTTTTTTTATTTTATTGGATTAATAATTTGGATTGTTGGTTTTTTAATTGAAGTGATTTCAGATGAACAAAAAAGACGTTTTAAAATCAATGTTGAAAATAAGAATAAATTTATTTCAACTGGCTTATGGAAAATTTCTCGACATCCAAACTATTTTGGTGAAATGCTAATTTGGATAGGAATTGCTCTTATATCTTTCCCAACATTGGTTGGGTTTCAATATTTTACATTAATATCTCCTATTTTTGTTATTTGGCTTTTAACTAATATCAGTGGTATTAATCTTTTAGAAGAAAAAGCAGATCTAAAATGGGGTCAAATTACTTCCTATGTTGAATATAAAGAAAACACACCTATATTAATTCCATTTGCCAAAACTTTTAAATCATGAAAAGAATTTTATCTATATTTTTGTTTTTTAATCTATTAACAAACTGTAATGGACAACAAATGGAAGATTTAAAACCTGTAAAAAATGTGGACATCCAAAGATTCATGGGAAAATGGTATGTTATAGCTATAATACCGAACTGGATTGAAAAAAATCCATATAATTCAATAGAGGAATACTCATTGAATGAAAAGGGGTACATAGATGTAAAATATACATTTAATCAAGATGGTTTTGATGGTAAAAAAAGAATTTTAAAACAAAAGGCTTTTATAAAAAATTTAGAAACTAAATCAGAGTGGGAAATTCAACCTTTTTGGCCTTTAAGATTTCCATATTATATCATTGATTTGGATGAAAATTATTCCTATACCGTCATAGGTTATCCTAACAGAAAATTATTGTGGATAATGTCAAGAGAAAAAACAATAAGTAATGAAAATTTTAAATTGATAGATCAAAATCTTTTAAATCAAGGGTATGATTTAAATTATATTAAAATACCTCATAATTAATAAAAGGCTTGTAAATAAAATGGCTAATTTTGCAATATTTGGGTGTACTGGTGGTATTGGTTTAAGTATTACTCAAAAATTATTAAATCAAGGACATAGAATTTTTGGAGTTGCTAGAAATTTAGAAAAATTAGATGATTTAAAATCAAAAAATCAAAATATAATTACTCATTCAATTGAAAATCCAAATTTTGATGAAATTGAAGATTCATTTAAGTTGGCTGACAATTATTTTGAGAATTTTTCAGGTATAATAAATTGTATAGGATCTTTGGTTTTAAAGCCAGCTCATATTACAAATCAAACAGATTGGGATAATATAATTTTGACTAATTTAACGTCATCTATGTCTATTTTGAGATCATCTGTTAAAAGAATTTCAAAAGAAGGTGGCTCAATAATATTTTTTTCTTCTTCGGCAGGTTTAATTGGTTTACCAAATCATGAAGCTATTGCTTCAGCAAAAGCAGGAATTATAGGACTGACTAAATCAGCAGCGGCTACTTATGCAAAAAAAAATATTAGAGTAAATTGTATTGCACCAGGTTTAGTCAATACTCCATTATCGAATAGAATTATTAATAATAAAATAGCTTTGGAAACTTCTTTAAAGCTTCACCCGCTAAATAAAATTGGTGAACCTGATGTTATAGCTGAGTGTATAGAATGGTTGATTTCTGAAAAAAATAATTGGACAACAGGCCAAGTAATTAGTTTAGATGGAGGATTAACCTCGGTAAAATAATTAATATTTTACAATACTAAATTATGAAAATTGCTATAATTGGATCGGGAATATCAGGTTTAACATGTGCTTACTTATTATACAAAAAACATAATATAACGATTTATGAATCAAACAATTATGTAGGAGGTCATACAAACACTATTTCTATTAATGATGATAATAAAGATTATAACATAGATACTGGGTTTATAGTCTACAATAATGATACTTATCCGAATTTTGTGAAAATTTTAAATAAATTAAAAGTTGAGACGCAACCATCAACAATGAGTTTTTCATTAACATGTCAACAATCAGGATTGGAATATGGTACGGGTAGTTTATCATCACTTTTTGGTAATAAATCAAATATTATAAATTTGAAGTTTTATAAATTATTATTTGGGATTATAACTTATTTTAAAAATGCGAAAATTTTTTTAAATGATAATAATAATTTTTCATATACTGTTCTTGATTTTATAAAAGAATCAAAAACTAATATTTTCACTTATGAAAAGTTTATTTTACCAATGGCTTCTGCAATTTGGTCTACAAATTTCAATGAAATAGAACAAATGCCTGCAAAATATCTATTTGAGTTTTATAAGAATCATGATTTGTTATCAATTAATCCAACTAAAAAATGGAGAGTAATAAAAGGGGGTTCTAAACAATATGTATCTAAATTAACGAAACCTTTTTATGATAAAATAAGACTAAATACTAATGTTCTTTCAATTCAAAGAAAAAATGATGCTGTTTTTATTAAAACTGATTCTAATGAACAAGAAAAATTTGACTCTGTTATTATAGCTTGTCATAGTGATCAAGCTTTAAAAATTTTAAAAGATTTAACATCAGAGGAAAAAAAAATCCTTTCAAATATTCCATATCAGTCAAACCAAGCTATTCTTCATACAGATATTTCGGTGCTTCCAAAAAATAAAAAAATGTGGTCATCATGGAATAGTTTTATTCCAAAAGAAGAAGAATCTAAAGTTTCTCTAACATATAATATGAATATTTTACAATCATTAAAATCAGAAAAAACTTTTTGCGTTAGTATTAATATGGAAAAATATATAAATCCTTCAAAAGTAATTAAAAAAATAAATTACAGTCATCCTACATTTAATAAAATGAGTGTAGAAGCACAATCAAAGAAAAATAAAATTAGTGGAAAAAATAATACTTATTTTGCTGGTGCTTATTGGAGATATGGATTTCATGAAGATGGAGTTATGAGTGCTCTTGAAGTATGTAAAAATTTTGGAGTAAAAATTTAATAAATGAAAAGTGCTATATATAGTGGATCAATTTTTCATTCAAGGAAAGAACCATTTAATCATGAATTCAAATATTCTTTATATATGGCTTACATTAACTTGAAAGAAATTAATAATTTATTACCAAATTCCTTTTTTTGGGGATTTAACAAAAAGGCCCTCATATCATTCAATCGTTCTGATTACTTAGATAGGCCTGAAAAAAACCTTATTGATGCTGTAAAAAATCTTGTATTTGAGAGGATAGGTAAAAAAATAAAAGGTCCTATTTATCTATTAGCTCATTTAAGAACACTCGGCCATTGTTTTAATCCGGTTAGTTTTTATTATTGTTTTGATAAATCTGAAAAAAAAATTGATGCTATAATAGCTGAGGTAACAAATACTCCTTGGAAAGAAAGATATAGTTATGTTATTGATTGTGAAAATTCAGAAAAAAACAACTTATTTAAAAATATTCAAAAAAAAGAACTTCATGTATCTCCATTTTTTGGAATGAATCATCAGTACCATTTTTCCATTTCAAAACCCGGTAATTTAATTTCAATAAAAATTGATAATTTTAAGAAAGGGGTCAAAGTTCACGAAGCATCATTATCATTAAATAAAGAAGAATTTTCTAAAAAATCATTAATTAGATCTTTGATTAATTACCCTCTTATGACAATTAAAGTTGTTACAGCAATTCATTGGCAGGCAATCAAACTTTGGTTTAGAGGTGCAAAATTTTTTAATAATCCAAATTAACAAATAATTATGAAATCAATTAAAAACAAATATTCAATCAATAATCTCGCAGACAAAAAAAATGAAACAATCATTGCTCCATTTACTATTCGATTTATGAAGGATGTTTTATTAAAAAAAATAAAAAAATTAGATTATGGTTTTTTATCAATAACTGATGGAGCTGAAAACTTTTCTTTCGGAGATAGTGCAAGTAAAATCAAATCAAAGATTACTATAAACTCTTCCAAGTTTTATTCTAAAGTATTTTCAAGAGGAAGTATGGGTGCTACAGAATCTTATATTGATGGTGATTGGTTTTGTGATGATTTAGTTTCATTGTGTCAAATTTTAATAAAAAACAAAATAACCTCTGATAATCTTGAAAAAGGATTTGTCTTTTTAACTAAGCCACTAATTTGGGTTTTTATGAGATTATCACCTAACACTAGATTTGGCAGTAGAAAAAATATAATTGCTCATTATGATTTAAGTAATGAATTTTTCAATCTTTTTTTAGATAAAACAATGACATATTCTTGTGCTTATTTTAAAGACGTTAATAATTCTCTTGAGGATGCTCAGGTTGAAAAATTTGATAGACTTTGTAGGAAATTAAATTTAAAAGAAAATGATAAAGTTCTTGAGATTGGTTCAGGATGGGGTGGATTTGCTATTCATGCTGTATCTAAATATAAATGTCACGTAACTACTACTACGATTTCTAACGAGCAATATGATTATACATTTCAAAAAATTAAAAAATTAGGTTTAGAAAATAAAATTACACTTTTGAAAAAAGATTACAGAGATTTGGATGGACAATTTGATAAAATTATTTCAATAGAAATGATTGAGGCTGTTGGTGCAAATTATGTTTCTAAATATTTAAATAAATGTGACTCTTTACTCAAAAATGATGGTATGATGGCTCTTCAAGGTATAACAATTAATGACCAAGGTTTTGAAAGCTATATAAAGGGAACAGATTTTTTGAGAAAATATATTTTTCCTGGAGGAAGTTTGATTTCTATATCACAAATAACGAAACATTTAAAAAATCATACTAAAATGAAGATTGTTCACCTAGAAGATATATCACTTCATTATGCCTTGACTTTAAATAAGTGGAGAGAAAACTTTTTTAAAAAAATTGAAGAAGTTCAATCGTTAGGATTCAGTCAAAGTTTTATAAATTTATGGGATTTTTATTTGGCTTCATGTGAAGCTGCATTTTTAGAACAGCATACCGGTGACTATCAGATTATTTTCTCAAAACCTAACAACAAAACATTTAACATTAATTATTAATGATTCAACAATTAATTAGTTTAGCAGAAAAAAGATTTTTACCAGATTTTATTGTAAGAACTGGTATTAAATATTTTTTAAATCAAAAATTAAATATTGAAAAAAAGAAGTTTGGTGATAATCCAAAATCTGAAAAAAACAAATGGATTGAAGAAATGAAAAAAAGCCCTATTGCATTATTTACTAATAAAGCAAATGAGCAACATTACGAAGTACCCCCAGAGTTTTTCAGGATATCTCTTGGACCAAATTTAAAATATAGTTGTGCATATTGGGATACAGAAATTAATAACCTCGCAGATGCAGAAGAAAAAATGTTTAAGATTTATATTGAGAGATCGGGAATAAAAAATGGTATGTCAATTTTAGATCTTGGATGTGGCTGGGGTTCTTTTTCATTATACTTAGCAAAAAAATTTCCTAATTCAAAAATACTTGCTGTTTCAAACTCTAATGATCAGGGTCAATATATTAAAGCAGAATCAAAAAAATATAAATTGAATAATATAAATTATTTAAAGTTGAATATGAGTGACTTTAAAATTAATCAAAAGTTTGATCGAATAGTATCCATTGAAATGTTTGAACATATGAGAAATTATGAAATATTATTACATAAAATATCTAAACTATTAAATGAAAATGGTAAATTATTTTTGCATTTTTTTTGTCATAAAAAATACGTTTACCCTTATGAGGTCAAATCTAATTCAGACTGGATGACCAAATATTTTTTTTATGGAGGTATGATGCCATCATATGATATTTTATCATTTTTTGAAAATGATTTAAAATTAATTAAATCATGGAAAGTTAATGGTAATCATTACAAAAAAACATGTAGAGCTTGGTTAAAAAATCAAGATCAAAATAAAAATAAGATTATGAATATTTTTGAAAAATGTTATGAAAAAGATTCAACAACTTGGTTTAATAGATGGAGAATTTTTTGGATGTCATGTGAAGAATTATTTGGATATAAAAATGGTTCGGAATGGTATGTTGGTCATTTTTTAATGACACGAAAAAAATAAAAATGAAACTAATTTTTTTTAAATTTATAATTTTTTTTATGTTACTAATCTTTACTAATAATTGTAGTTCTCCCAAAGAGTATAACAACAATTTATTAGAGGGAGAGGTTCCTAATACATGGACAAAACCATTACCTAAAACTGAAGAGTATACAGGTTTATGGTGGATAAGTTTTGGTGATGAAGAAATGGTTGAATATCTAGAAAATTTTCAAAAAAATAGTCCAAATATAAAATCTATTTTATCTCAATTAGAATCAGCAAAACAATTAGCCAGAATAAACAGTGCTGTCTCATTTCCTAATATTCAAGCAGGTATGTCGGGAAGTAGATCTGGTCAGAATTTAGCAGGTTTTGGTTTTTCGGATCTTTTTTCAGGCGCTTTTGGAGATCAAGATAGTTCTAATAACAACCAAGTTATTTCTTTTGAATCGGATAATTATGGTTTAAATCTTTCATTACAATGGGAACTAGATATTTGGGGAAAAGCTCTTAATGCCAGACGAGCTGCATATGCAGATTTTAACTCTTCAAATTATGATTTGGTATATTTATCTTTTTCTACAATGATACAATTTGTTCAAACCTATTATTATACTGTCGAATCTAAATTACAATATGAATTATCTTTGAAAACTACAGAATCATTTAGAGAAGTTTTAAATATTGTAGAATCAAGATATAAAGAAGGATTGACATCATCCTTAGATTATAGATTGGCTGAATCATCATTAGCTGTATCTAAAGTTGATATGGAATCAAAGAAGATTCAATTTTTATCAAGGTTAAGAAATTTAGAAATATTACTTGGTTTTTATCCATCTGGAAAATTAAAACTTTCAGATGAACTTCCTAAAAAACTTCCTCCTATTCCATCAAGCCTACCCGCTGATTTACTTACAAGAAGACCTGATTTAAAATCAGCTTTAGAAAAAGTTAAAAGTGCAGGTTATAAACTTGCTGAGGCTAAAAGATCTAAACTACCCTCATTTTCATTAACTACCTCAGGAGGAACTTCTTCTGAAGAGTTAAAAGATGTTTTGAATGGTGATTATGGAATATGGAGTAGAATTCTTAATATTAGTGCTCCTATTTTTCAAGGGGGTAGATTGGATGCTAATGTCAAATTAAATAAATCTCAATTAACCCAATCTGAAATTAATTTGGTAAATAAATCATTAATGGCATTTATGGAAGTGGAACAATTATTGAATAGTGAAAATTCTATTGAATTACAGTTAAAATCATTAAACATAGCAGTTTCACAATCAAAAGCAGCTTATGATCTTTCAAAAGCTAGATATGAATCAGGTCTAATAGATTTTGTTACAGTTTTGAATAGTCAAAATCAATGGTTTAATTCTCAATCTCAGTATTTTTCAATAGAAAGAACAAAAATTGATAATAGATTACAGCTTATTCTAGCTTTAGGAGGTTCTCTAGAAAGTTTAAACTAGGAAATTAACATGAATTTAAAACGTTTTTTTATGAATATTTTAAGGACAACAATATTAAATAAAAGATATATTCCATTTTTTATTATATTGATAGGGTTTATTGGTTTAGTGGTATTAATTCGATTCAAACCAACAGTAATTGGAGAAGAATCAAAATATGTACCTCCTTTAGTTGAAACGATGAAAGTGGAAAACAGAGATGTTCAGATCATAGTCAAATCACAAGGTGAGGTTATACCAAGAACAGAAATTAATTTAACATCTGAAGTTTCAGGAAAAATAATCTGGGTATCAGAAAACTTTTCATCTGGAGGAACTTTTACAAAAGGTGATACTTTAATAAAATTAGATTCTAGAGATTATGAATTAGCTTTGGTTACAGCAGAATCAAACCTTTCACAATCAAAAGTTGCTCTTCAAAGAGAAATAGCTGAGTCAAACATAGCAAAACAAGAATGGGATAAAGTTTCTGACGGAGAAGCTTCGGATTTAGCTTTAAGAAAACCACAACTTGCACAAGCAAATGCTTTTTTTGCAGCATCAGAAGCTACTTATGAACAGGCAAAAAGAAATTTAAACAGAACATCTATTTTAGCTCCGTTCGACGGAAGAGTTAGAAAAAAAAATACTGATTTAGGTGCTATAATATCCCCTGGTATTCCGTTAGGAATGATATATGCAACAGACTATGTGGAAGTAAGATTGCCAATTGCAAATGTTGATCTATCTTTTTTAGATATACCGCTTGATGGTACGTTGATTGAATTATACAAACAACCGCAAGTTAAATTATTTTCAAAAATTGGTAATAAAACATATGAATGGACCGGTAAAATAATCAGATCAGAAGCCGAAATTGACCCATTATCTAGAATGCTCTCTGTTGTAGCAAGAGTTTCAGAGCCATATGATAGATCAATTAATAAAATTCCACTTAAAGTTGGTTTATATGTTAATGCAAACATTTTTGGTAAAAAATTTAAAAATGTATATGTTGTTCCCAGGCATGTTATTTCAAATAATAATTTTATTTGGACAACAAATAAGGAAGGTATATTATTTCAACAACAAGTTGACGTACTTCGAACTGAAAATGATTATGCTTATATCAATTCAGGATTGAACTCAAATGATGAAATTCTGATAACCAAGCTTGGTTTTATAATTAATGGAATGCAAATAAGAACTAATTAAAATGAATAAAATAATAAATTGGTTTGTTAATAATACTGTTGCAGCAAATCTTTCGATGGTAATTATTATTGTTTCCGGTATATTTACAATACCCAATTTAGATTTAGAGGTTTTTCCATCAATTGAGCCTCAAGTAATTACTGTTAGCGTTACATATCCTGGAGCTTCGCCATCAGATATTGAAGAAGGGATTTGTATTCCAATTGAAGAAAACTTACAAGGTTTAGACGGTGTAAAAAAAATATCATCTAATTCATCAGAAAATATAGGAACTGTTACTCTTGAGTTACTTCCAGAAATAGATAGAAAAGAAGCTTTGGCTGATGTGAAAGCTCAGGTAGATGCTATTGATAATTTACCATTAGATGCGGAAAGACCAGTTGTTAAACAGTTTGTTGTAGTTGGTGATGTAATGAGTGTTGCAGTTTCAGGTGATTTAGATGATGAAAGTTTACTAAATATTACAAAAGAAATAAGAGATGAAATTACATCTCTTCCTGGAATAACATTGACAACAATTAAGGGTAACAAACCCAGAGAAATATCAATTGAAGTTTCTGAGTCTTCATTATCAAAATATAGTTTATCATTTGATCAAGTAAGTAATGCCATTAGGTTTTCTTCTTTAGACATTCCTGGAGGGTCTGTTGAAACATCAACAGGTGAAATATTGATAAGATCAAAAGGTCAATCATATTCTAAATTTGATTTTGAGAAAATACCAATTCTAGCTAGACCTGATGGAACAATTTTATTACTTGGGGATATTGCTGAAGTCGTAGACGGTTTCTCAGATATTGACTTAGAACAGAAATTTAATAATGAAAAAGCTCTTCTTATAACCGTATTTAGAGTCGGTAAGCAAAATGCACTTGATATATCATCTTCAGTAACATCGTATATTTCTGATAAAAGAAAACAATTACCCAATGGCATTTCCATAACACCTTGGAATGATGAGTCAAAACTTTTAAGAGGAAGAATAGATTTGATGCTCAAAAATGCATATTTTGGTTTATTTTTAGTTGTAATTGTTTTAGCACTTTTTTTAAAACCTAGATTAGCATTTTGGGTCTCACTAGGAATTCCAATATCTTTTATGGGGGGGTTTTGGCTTTTGCCTTTAGCTGGAGTATCTATAAATATGATTTCATTATTTGTATTTATTTTAGTGCTTGGTATAGTTGTGGATGATGCTATTATTGTAGGTGAAAATATTTTTATGTGGAGAGAAAGAGGATTAAATAGTGTTGAAGCGGCAAAAAAGGGAGCAAGTCAAGTTGCCACACCTGTTATTTTTGCAGTTTTAACAACAATGGCAACATTTTCTCCTATGTTGTCGGTTGCGGGAGAAATTGGAAAAATATGGAAAATTATACCATCAGTGACAATAGCAGTATTGATTTGGTCATTATTTGAATCATTAACAATTTTACCAGCTCATTTAGCTCATATTCAAGATAAACCAATTAAAAATAAATTATTGAATAGATTGGGAAAAAAATGGGAAATTTTTCAAAGTTATCTAATAAAAGGATTAGATGATTTTAAAAACAATATATATCTACCAGTTTTAAAAAAAGCTTTATCAAGAAGAATAACTACAATAGCAGTTGCTATATCAATTTTTTTCTTAACTGTTGGTTATATAGGAGGAGGTTGGATAAAGTTCACTTTTTTCCCTGCATTAGAAGCTGACGTGGTCATTGGAATTTTAGAATACCCAGCAGGTACACCTGTTTCAATTACTTCAAAAGGGTTAAACGATTTAGAAAAATCAGCTCAAAAATTAAAGAAACAACTTGATGATGAATTCCCTGGTGAAATAATATTTTTAAATGATTTGGCAACTGTTGGAGATCAACCATTTAGATTAAGGACAAGTCAAGGACCTGGCTCATTAAATCTTTCCTTTTTTGCTTCTCATTTAGCTGAATATGTTTTGGAGTTATCTCCAGGTGAAAATCGAGTAATAAGTGCAGCAGAAGTTGGTAAAAGATGGAGAGAGTTAACTGGTCCAATTCAGGGTGTTAAAGATTTAAGTTTTAGTTCAACTTTTATATCTGCAGGAGACCCTATTAATTTTCAATTGACAGGAACTAATATTGCAGATTTACAAGAAGCAACAATGATCATCAAAGAAGAAATGGCTTCTTACAATGGAGTATTTGATATAAAAGATTCTTTCTCATCAGGAAAAGATGAAATGAAATTATCACTTCGTGATGAAGCTAAAAATTATGGATTAAACAATGTTTACCTTGCAAATCAGGTAAGACAAGCTTTTTATGGTGAAGAGGTACAAAATTTTCAAAGAGGAAGAGATCAAGTGAAAGTTATGTTGAGATATCCAAAAAACGAAAGAAGGTCTATTGGTAATCTTGAAAATATGCAAATTAGAACTCCTCAAGGTCAAGAAATTCCTCTTAAACAAGTTGCTCAAATGACAATGACCAAAGGTTTTTCATCAATTTCTAGAGTTGATAGGCAAAGATCGGTCAACATTACAGCTGATGTAGATCTATCAGTAACCTCTGGTAATGAAGTAATATCTAGCTTAGTTGCAAATGAATTCCCAGAAATTTTAAAAGATTATCCATCTGTTAGTTATTCACTTGAGGGTGAACAAAGAGAACAAAGTGAAAACTTAGCATCAATTGGAAGAAATTTCATAATTGCACTTTTTGTAGTTTATGCTCTTTTAGCAATACCTTTTAGATCATATTTTCAGCCTTTGGTTGTCATGACAGCTATTCCGTTTGGTTTGACTGGAGCATTGATAGGTCATATAATAATGGGTATAGATTTTTCTATGATTTCACTTATTGGAATTGTTGCACTCTCAGGAGTAGTTGTTAATGATAGTTTAGTTTTAGTAGATTTTATAAATAAATATAGAAAAGAAGGAGGAAACACTGCATTTAAGGCTGCAATGTTGGCTGGCCCAAGAAGATTTAGACCAATTATATTAACTTCAATTACTACTCTTGTAGGTTTATTACCACTTTTATTAGAAAAAAGTATTCAAGCAAAATTTTTAATTCCTATGGCAGTTTCATTAGCTTTTGGAGTATTATTTGCTACATTAATTACATTGATTTTAGTTCCAACAAGTTATTTGGTTTTAGATGATTTTTTAAATTTTTTTAAAAAAAGCAAAACAGTTGAATAGTAAATTATGAAAAAGAAAATAATTAGAGGATTATTTGTAATGGTATTTTTTTTAACCCCTTTTCTTTTGCTTCGCTCTTTTTTATTTGGAGTGACATCTGATATAAATAAATTAATTAGTCCTAAAAAATCCATTTATGATATTTCGGCGAAATTGTTAGATGGAAAGACAGTTAGATTAGAACAATTTATTGGAAAAAAAATTCTATTAGTAAATGTTGCATCTAATTGTGGTTACACTTATCAATATGAAGAACTTCAAAAGTTACATGAAAAATATGGAGATAAAGTATACGTTGTTGGTTTTCCTTCTAATGACTTTGCCTTTCAAGAACCAGGTTCCGATAGTGATATAAAAGAATTTTGTGAAACAAATTATGGTATAACATTTACAATGTTTTCAAAAATTAAAGTTATTGGAAAAAACAAACATCCAATTTATGAATGGCTTTCAAATCCTGAATTAAATGGATGGAATAAACAGGCTCCCACTTGGAATTTTTGTAAATATTTAATTGATAAGGAAGGAAGGCTAATAAGGTTTTATAATTCAAATATCAAGCCTATGTCAGAAGAAATTATTAATGATATTAACAGTTGATATCATGGAAGCTATTTTATTTTTTCATTTTTTTTTAACATTTTTTATGACTGGTATAATTTGGTTAATTCAATTAATCCATTATCCTTCATTTTCATTTATAGATAAAAATATGTATTCAAAATTTCAAACTTTTCATATGAATAGAATTTCATTTCTTGTTGGGCCTATAATGATCTTAGAATTATTGAGTGGATTCTACTTATTATTATTTTTTTATTCTGAATCAAATTTTTTTGTAATTAATTTTATATTAAATATTTTAATTTTGACTATGACCATAATTGTATTTGGGACTATTCATAAAAAACTTATAGAAGGTTTTAAATTTTCCTTATTTGCAAAATTAATATCAATGAATTGGATCAGAACTATTTTATGGTCGATGAAAAGTATTTTTATTTTTTTATACAAACTTAACATTGTTTAATGAATTACTTTAGAATTCTTTGGATATGTTTGAATATGGCAGTTGCATTTTTATTATTAGCACCATTTGATATTGTTTTTAGTATTATTTTTATTAAAAAAAGACCATGGTTTCTTGCTTGGATTTGGTCTAAATGGATTTTTTTTATTTCAGGTATTAATTATACAATTGAAGGTAAAGAAAACCTTAAATCTAACGAGAATTATGTCTTTATGAGTAATCATACCCATGAGGTTGATATTGGCTTATTGTTTATGGCACTTAAAAGAGATTTAAATTTTATAATTAAGAAAGAATTTAAAAATGTACCTTTTGCTGGTTGGTATGCTAATTTAAAAGGTCACTTGTTTGTTGATAGGTCAAACCCAAGGAAAGCGCAAATGACACTTAATGATGGAGTTGAAAGATTAAAAAAAAGACCAAGATCAATTATTATTTTTCCTGAAGGTACTTATCATAAAGATAGAAAAATAAGAAAATTTAGACCAGGAGGAGCTGTTTTAGCTCTTAAAACAGGATTGAAAATAGTACCAATTGCAATTCACTCTAAAGCAGACTTATCGGGCCTTTTTGTTAAAAATACATGGAAAAATCCACTAAATGTTATTATTGGAGAGCCTTTTTCAGTTAAGAATTTAAATTTTGATGATAGATATCAAATTGCTGATAATACTAGGCAAAAAGTTTTACAATTAATAAAGTCTTAATTAATATAACAATGAATTATTTTACTATATTTTTGTCTAGAATCGCAATTTTATTTTTAACTATGTCTTCAACTGTTTTTTCACAATCTAATACAAGAATTAGTGGGTTTATTACAGATAAAGAATCTGGAGAAGTACTAGTTGGAGCTAATGTTTTCTTGTTGGAAACAGGAAAGGGTATGGCTACAGACAGAAATGGATATTACGTTTTGGATAATATTCTTCCAGGAAATTATACTTTCATTATTAGTTATTTAGGATACGAGGAATATAATGAAAAAATTGATTTTGTTGAAGATTTGGTAATTAAAAAAGATATTGAATTATCGACGATAGTGCTTGAATCAGAGGAAGTAGTAATCTCAGGAGAGAGAATTCAAAGAAAAATTAATATTCAACCTAGCAAGGTTAGTTTAAGCCCAAGGCAAATAAAGAACTATCCAGCTTTAGCTGAACCAGATATTTTCAGAGCAATTCAAGCATTGCCGGGTGTACTTACATCTTCAGAATTTAGTACAGGTTTAATAATTAGAGGTGGTAATACAGATCAAAACTTAATACTTCTAGATGGTATTACTGTATATAACCCTAGCCATCTTGGAGGTTTATTTTCAAATTTTATTTTAGATGCAGTTAAAGATGCTGAATTAATCAAAGGAGGGTATAATGCGGAATATGGAGGAAGGTTATCAGCTGTTTTAAATGTTACAAGCAGAGAAGGTAATAGAAAAGAATTTCAAGGTACCGCAAATATATCCTTGTTAGCAGCTCAAACTACTCTAGAGGGACCATTTTATAAAGGAGCTTGGGTTTTATCAATGAGAAGAACCTATATTGATCAAGCTCTAAAATTTGCTAATAATTTGAATCTAACAAATGCAACAGTCCCTTATTATTTTTACGATCTTCAAGGTCATATGTTTTCTGATATTTCTCCAAAAGATAGATTGAGTATAAGTTTTTATGGTGGTTTGGATGATTTTTATTTTGACGATTTAGGTTTTAACGCAGAATGGGGAAATAGAACTTTTAGTCTAGCTTATAGAAGATTATTTAATGATTTATTGATTGGTAATTTTTTAGTTGCAAATAGTCAGTTTGAAACTTTTTTTGGCCTTGGAGGAGAATCAGGTATTAGAGATAATAATTTAATTGATGATCAAACTTTTTCAGCAAACTTTTCATATTTTCAATCACAAGACCTTACTTGGAAATTTGGACTTCAAGGAAAAATTTTAGGATTTGATTACACAAGTTCATTTTCGGATACTGTATTGTTTAGAATAGATCGATCTCCATACGAATTAGCTGCTTATTTAAAAACTAAAGTTCCCCTAGGAAATAGTTTTATCATCGAGCCAGGTATAAGATTTAATACATACTCTGATCAGAATAACAACTTTTTTCCAGAATTAAGAGTTGGTCTTAAATATTTAATTAATGATGATAGATATATTAATTTCGCTATAGGAAATTATCATCAATTTATACAAACTGCTCAAGATGATTTTAATCCATCAATTATTGATTTTTGGATTGCTATAGATAAGTCAGTTGATGCTGGTGCTTCACAACAAATTGTTTTAGGATATGAGGAGTATATAGACTCTAGATTCAAAATTCAAGTTGAGGGATATTATAAAAATATTCAAAATACTTTAACTTTTATTGATTCAAGATCATCTACGGATGAAATATTAGAAAATTCATCTGTTGGAGATAACTTTACTATGTCAGATGGTTATGCATATGGTTTAGAGATTTTTACTCAAAAATTAACTGGAAAATTTACTGGGTGGATTTCTTATACCTATTCAATTTCAAGAAAATCAATTGAAGAATCTTATTTTTTTAATAATTGGGATAGAAGACATGCTTTTAGCTTAATTGGAAATTACTCATTAACTAAAAAATGGGAAATGAATTGGAATTGGGCTTATCAATCAGGACAAGCATATACTCCAATTTTAGGGTATTTTCTTGAGGATTTAGATTATGGAATATCTGACCCTGCAAACATGAAGTTTAGAACAATTCCTGGAATTAGAAATTCCGGAAGGTATCCAGCATTTCATCGTCTAGATTTTTCTCTTATAAGAAGTATTCGAACAAAAAGATTTGAAAAAATGGATTTTTATATTCAAATCATTAATGCTTACAATAGAAAAAATATTTTTAGATATATATATGGTTCAGGAAATGTGTATAATGGTATTGATGATGATGGGGATTGGGATAAAGATAAAAATGATACTAATGAAAATAATGTTCCTGATAGAGGAGAAACCAATGTAGATGAACCTGATGAGGCTAGAATTTCAAGATCTGATATTTCTATATTTCCATTAATTCCAACTTTTGGTATTACCATAGACTTTTAATGAAAAAAATATTTTTAATCTCATTCTTTTTTATAGTTTTTAGTTGTATAGATGAAAAAGCTGCAGAATATGAAGAAAAATTGATAGTTTTTTCTAGTATTACTGGAGGCCTGTCAATGGGTGTAGGTGGAGATACTTGTGTGGTATCATTATCTAATGAAATAACTAATGATGTAGATCCTCAGTCTCTTTTTATTAGCAATGCTTTAGTTATAATTTCAGAGAATGGTTCAGATACAGCAGATACATTGTTTCCTGTTCAAAACAGACCAGGAAGATATTTAACTAAGCCAGATGTTGTTTTTAAAAATGGTAAAACGTACAGCCTTGATGTTACTTGGAATAATTTTTCTGTTAGTTCAGAAACTACAATTCCTGATTCCATTAAAATTTCTAGTCCTAATAATGAATATTACATTTGTGATGGAGAACAATTAAAAGTTGATAGTGTTGAAACCGATAACTTTAATACGGACTTATTACCTGTTTTATCTTTTGAAGAATTAATACCTTATATAAATTTAAATAATATTTCAACAGCTTATTATAAAGATGATGGTTGTTATATAGGTAGTTTTGCCTCATTTCCTCTTTTTTTAATAGATTTTGAGGCACAAAATAGCAAAACTATTCAAATTTTTTCACAAGCTTTAGAAAGATGGACTCGAGGACTTGAACCAGATTCAGATGATAATAATTCTATTTCATTTTGGGATTATAATAAAAATGGCATTCAAGATTCTTCATTTACTAATTTAATTTACGATACATCTTTTGTTTATTCGATTTGGAAAGGTGATTATTTAAGGTTTGAAAATGGTGAGCCATTTAGAATAAATCCTGGAATGTGGCAAGTCTCTTTGACACCTACACCTATGAGTTGGCTTTATTTTGATTATTATGGTATGCATTTAATTACAATTGCCGCAACTGATGATAACTATTATAACTATTATGCTGGAGACCCAGCTGCAAATAATCAATATTTACTTCCTAATTCAAATATAAATAATGGTTATGGGTTGTTTTTCTCAAAAGCCTCAAAATCATTCTTAGTAAATATTGCTCCAGAAGAATAGATAATTTTAATTTCTACTTTTGAATTAAATTAAACGGTAATGAATTTAATTTTTGGAATATTATCATCAATTTTGATTTGGTTTTTTTCAATTTATATTAGTTTTCATTTAAAAATACCGAGTATTAATATATCAGATATTTTTTGGTGGATTTTATTTTCATATTTTGTTACTGATTTTTTCATAACTATAATATGGAGTTTAATTCATTTACCACCTCATAAACAGGGAAAAAAGTTAATAATGTCCGGACCTTATAGTTGGACAAGACATCCAGTATATAGTTCTGTAATTTGGAGTGGAACTGGAATTATCACATTAATTTGGAATTCGTGGATAGTTATGTTTTCGGTTATTCCAGTAAGTTTTGTTTGGAGTTGGATAGCAATGAAAGAAGAAATTGTATTGTATGAAATTTTTGGTGAAAGATATAAGAAGTATTTAACTAAAACAGGTGTTTTTTATCCTAAATTTCATAAATGAAAAAATTCTTCAAAAAATATCAAATATTTAATTCAATTATTTTAATGTCAATAACATTTGCATTTGCACCGATTGCTGCTAAAGATATTGTAATGAGTGTATCACCATTTACAGTTGCTTTTTATAGATTTATTTTAACATCTATAACACTTTATATAATATTAAAAATTTCAGGTAGAAAAATTCAAATAGAGAAAGTTGATTATTGGAGATTTGTAACATTAGCTTTATTAGCTGTACCAATTAATCAAATAACATTTTTAATAGGTATGCAATATACTCCAGCATCTCATCCAGCTATGTTATATGCAACTACACCTGCATGGGTTCTTATATTAACAGTTTATCTTGGAGTTGAAAAAGCAAGATGGTGGAAATGGATTGGGATTTCTTTTGCTTTAGCAGGTGTTTTCATTTTATTTTATGGAGAAATTTTGTCATTTAGAAAAAACACTTTTTTTGGAGATTCACTTATTTTAATTGCTGTTATTTCTTGGTCTTTATATACTGCTTTAGGTAAACCAATTGTTGAAAGATATGGTTCTTTAGAGTCTACATTTATTATAATGACATTTGGAATGCTTATGTATTTTCCTATTGGAATAATATCTGCTATAACTAATGATTATTCTGTTTTTACAATTAATAATTTTATTGCATTATTAATTTTAGGAATTTTTGTTTCAGGTATAGGATCTTATTTATGGTATTGGTTATTAGAAAGGATTCGTCCATCTCAAGTTGCAATTATGTCATGTGCTCAACCTCCTTTGGTGGCATTTATTGAATGGTTTGTATATGGATTAGCTCCAACTGCTAATGTAATTATTGGTAGTATTATAATAGTTTTAAGTGTTTTTATGATGATTGGATATGGTGGAGAAAAAAGATCAATTCCATCAAATAAATAATTATTTTGTTTCTAATATTATATATACAGGAAAATGATCGCTATATCCACCTATATAAGTGTCTCCACCAAAAGCTCTAAATGGATATCCTTTATATTTTCCGATTTTTTGAAACAAATATGGTTCATTATAAATACCAACTTTTTTCACCTTAATTTTTTTACTTCTTCTTGATTTTATAAGTGATTTAGAAATAATTATTTGATCAAATAAATTCCAATTTCCTTTATAAAGACTTGTGCCTATACCTTTTTTATGTATATCAATGTATAAATTTAAAAGTTTATCATAAGAGGGATTATCTGTTTGAACAGCATTTAATATTTTAATTAAACTTTCATCCGTTGGGTCATCATTAAAATCTCCCATTATAATTATATGATCGTTAGGGTTTTGAATTAAAATAGAATCAATAATTGACTTTGCAACTAAAGCAGCTTTTTTTCTAAAATTTTCAGTTCTTAATTTACCACCATATCTAGAAGGCCAATGATTGACAATGACATGGGTTTTTTCTTTTTCAAGTTTTCCTGAAACTAATAATATATCTCGAGAATTTACAAATTTTCCATTATTGTTTAAAAATTGAATTTTAAAATTTTTAGATTCTTCAAAATCAAATTTAGTTGGTTTATATAATAATGCTACATCAATTCCTCTATTATCTGGGGAATCATAATGAACAACGGAATAATTTTTCTTAATAATATTGGGATGTTTTATTAAATCTTCTAAAACAGTTCTATTTTCAATTTCTGCAAGACCAATTATATCTGGACCATTATCAGAAAAATCATTTCCAATTTTACTTATAACAAATGAAATATTTTTTAATCTATTATTATACACTTTTTGTGTATATTTTTTTCTTCCTTCAGGTGTGAATTCAATATCATTTGTATTATCAGAATCATAAATATCAAATAAATTTTCAACATTATAAAATGATATAACGAAATTTTTTGAAAAACTTAAGTTTAAAGTAATTAATAGAATTAAAATATGAGGATAAATTTTTAACATTAAATTTTAATTATAGAAAATACTATTAAAATAAGTTTATTTAAATTTATCGATGAGAAACTCTATCGCAAGCAAATATCCGTGTTTTCCTTTTCCAGAAATTTGATTAATACAAACATCTTTAATAACGGACTTTTTTCTAAATGATTCTCTTTTATTTATATCTGAAAGGTGTACTTCAACTGTGGGAATATTTATGGAGCTAATAGCATCTCTTAAACTATAAGAATAATGTGTTAATCCACCCGCATTTATAATAATCCCATTTTTTTTATTTATTGAATTATGAAGTTTATCTATTATTTTACCTTCATGATTTGATTGAAACCATTCTAAATCAATCGTATCTAATTCAGTTTGAGATTCAATCCATTCTTTAATATCTTTAAGTGAATCATTTCCATAAATATCAGGTTCTCTGTTGCCAAGAAGATTTAAGTTAGGTCCATTTATAATTAGTATCTTCATGAAAGTATTATTAATGATTCTAAAATTTTATTAATAGATATTTTATCTGTACTAATTGCATTTCCTAATTTATCTAGTACAATAAAATTAAATTTATTTTTTTCATTTTTTTTGTCTTTTAAAATATAAGGTAATAAATCATCTTTTTGCATTTGAGGTATTTTAGGTAACGGTAATTTTTTTATTATTTTTACTAATTTTTCAAATTCATTTAAATTTAAAAAATTATTTTTTTCTGATATCCAACCAGCACACAACATGCCATAAGCTATTGCTTCACCATGTCGAATTTTATTATAGCCAACATGTGCTTCAATAGCATGCCCAATAGTATGTCCAAAATTCAATATTCTTCTTAATCCACTTTCCATTTCATCTTTTGAAACTATTTCTGCTTTAATTTTACATGATTCAGTAATAGCTTCAATAAATGGAAAATTTTTAATATCATCTAACCAATAATCGACTTTTTCAAGAAATTCTATGTTTTTAATAAATCCATACTTTACTATCTCACCAAGTCCGGAGTATACTTCTTCTTTAGGTAATGAATTTAAAAAATAAGGATCAATTAATACTGCTTTGGGTTGATGGTAGGATCCAATCAAATTTTTTCCTTCTTTTGTATTAATTCCAGTTTTACCACCAATTGAGGAATCAACCATACTTAGCAAAGTTGTTGGAATTTGATAGTATTTTATTCCCCGCATAAATGTTGATGCAACAAACCCTGCTAAATCTCCTACTACGCCACCTCCAAGTGCTAAAATAATTGAGGAACGATCACATTTAAAATCAAATAATTTCTTTATTACTTTATCATATTCATTTAAACTTTTTGCATTTTCTGAATTAGCTATTGATATAATTTCACATGTCAAATTATTTTTATTAAAATTTTCTAATAATTCTTTTCCATAATTTTGGATAATTATATCTTGGGAAATTATTATTATATTTTTAGGATTAACCTCTTTTTTTAGAATAATAGGAATTGATTTGATAAGTTCATTTTGAATGTAAATACCATAGCTTTTTTCGCCAAGTTTAACTGGAATATTTATCATTTTTGAATTTTTTGAATAATTTGATTGCATACTTCATCAGCTTCTATATTATCAGTTAATACAGTAATATTTGCAAGATTTTTATAATATTCCATTCTTTTTTTTTTTATTTGATACAAAATATTTTTTAAACTTCCATTCTTTAAAAGAGGTCTAGAAGATGTGTTTTCAATTCTTTTAATAATATTATCAATCGAACATTTAAGGTGAATATTAAAACCATTTTCTTTTAAAAAATCTCTATTTCCTTTATTTAAGATAATTCCTCCACCACAAGAAACAATATCAGCAGTAGATTCAAGTAGAGTTTTTGATTCTATTTTTCTAAAATATTTCTCACCATTTTTGTTAAAAATTTTATTAATAGATATTTGTTCGTCTTTTTCAATCTTTTGATCTATATCAATGAAAGTTTTATTTAGTTGTTGAGATAATGATTTACCTACAGTGCTTTTTCCAGTACCCATCATTCCAATTAAAAAAATTCTTTTCAATATTTACTTGTAGCCTTTATGTGGGCTTTAAGTTGTTCCATTGAATCTCCTCCAAATTTTTCGAGTAATGCATCTACTAATACAAAACATAACATGCTTTCGGCTATGACTGAAGCTGCTGGTACTGCACATGAATCAGTACGCTCTTTATGTGCATCCTTGGATTCTTTAGTATTCATGTCTACTGACCTTAGAGGTTTTATTAATGTTGCAATTGGTTTCATTGCCATTTTTAAAACAATTGGTTGAGCATTAGTCATTCCACCTTCAAGCCCTCCAGCATTATTTGAATATCGAATATATTTGTTATTTTCCCAACCAATTTCATCATGAACTTCGCTTCCCCATTTTTCTGACTCATTCATTCCACCACCAATATCTATACCTTTAAAAGCATTTACGCTCATCATCATAGATGTTATCTTTGCTTGAAGTTTTCTGTCCCACTGCATTGGAGAACCTAGTCCATAAGGTAAACCCGTCGCTATAACTTCAAAAATTCCCCCAACGGAATCTCCAGCTTTTTTAGCATCATCAATGATTGTTATCATTTCTTTTTCAGCTTTTTTATCTAAACATCTAACTGGTGATGCATCTGCTTTCTTATTTAATTCAACGGGGGATATTGAACGGTCATATGAAATTGTATTTTTTGCATGATGTATTTGGGTTACATGACTTCCTACAAAAATGCCAATATCTTCTAAAAGTTTTCTGCATACAGTACCAAGAGCAACCCTCATTGTAGTTTCTCTCGCACTTGAACGCTCTAAAACGTTTCTAATATCATCAAAACCATATTTTTGCATTCCTGCTAGATCGGCATGACCAGGTCTTGGAAGTGTTACTTTTCTAATTTCTTTGTCAATTGGAGAAATTGACATTTTTTTTGTCCAATTTACCCAATCATTATTTTTAACTAAAATTCCAATAGGAGCTCCAAGCGTTTTACCATGGCGAACACCACACCATAATTCTCCTTTATCTTTTTCTATTTTCATACGACCGCCTCTTCCATGACCCATTTGTCTTCTGGCAAGTTGAATATTTATATATTCTTCAGAAATATCTAAATTTGATGGCATTCCATCTAAAATACCTAGCAATCCTTGACCATGTGATTCTCCAGCGGTGAGAAATTTTAATCTTACTAACATAGTTGTTTCCTTAATTTTTTTCTTATTGCTTGTAAATCAAGTTTATCAAAAATTTTTTTGTTAAACCATTTTTCTGCTGATATAATTCCTTGAGCTATAAACATATCAAGACCTCCTATAGTTTCAAGCCCAATTTTTTTTCCTTCAAATAACCATTTAGTTTTTAAGGGATTATAAATTGTATCAACTAATATTGTTTCCTTATATAATTTATTAATTTTTATTGGTATATCTTCAATATATGGATGCATACCTAATGGTGTGCAATTTATTATTAAATCAGGGATTTCAAAGTTGGAGTTTTTAGGGTAAAGATTGTTTATCCAATTTTGTAATAATTTGACTTTTATATTATTTCTTCCTTCAATTTTTATACCTCTTACATTAGAAGTTGATAAAGAATATAAAATTGCTCGTGCAACTCCTCCTGCTCCTAATATCAAACAATTTTTATTTTCTAAATTAACATCGTTAACTTTCATACTATATAAAAAACCAATCCAATCTGTGTTAAATCCATAATCTTTTTTTAAACAATTTACAGCTCCAATAATTTTAGCAGAATCATCAACTTTTTTTACAATTTTTAGAGCATTTTCTTTATGAGGTATTGTTATATTGACTCCATCATAATTATTATTTTTTATAAAAAAATCTAACTTATTTGAAGTAATCTTCTCTAAAAAAAATTTAGCTTTAAAATTTAATTGATTATATATCTCCATGTGCAAAGCTGGACTTAAACTATGTTCAATTGGATTTCCTATAACTGCAAATTTTTTCATTTTATAATTTTATTTAATGTTTCAAAAAATTCAGGATAAGAAATATCTACACAATCAATTGAATCAAGTTTATTATTATTCTTTGCAACAAGACTAGCTATTTCAAAGGCCATTGCTATTCTATGATCATGATAAGTTTTGATGAAAGTTCCATTGAGTTTTTTAGGACCATTTATTATCATCCCATCTTCAAGTTCAGTAATGTCAGCTCCCATTTTTTTTAAATTTAAAACAACTGAAGAAATCCTATCTGACTCCTTAAATCTTAGTTCTTTTGCACCTGTGATTTTTGTTCTTCCTTTTGCTTGTGATGCTACTATAGCAATTATTGGAATTTCATCAATAATACTTGGAATTTCATCTTTGGATATTGACACACCATTTAAAGTTTTATTTTTAACAGTAATATCAATAATTTTTTCTCCAAGAATGTTTCTTTGATTTGATTTTAATATAGTTGCTCCCATCCTTTTTAAAATTGAAAATATTCCCAATCTAGTTTCATTACCTGAAATATTTTTTAATATTAAACTTGAATTTTTAATCATAGATGCAGCACCCGCGAAAAAAGCAGCACTAGAAGGATCACCAGGAACAAGAAAATTAAAAGGTTGTAGGTTTGTTTTAACTTTAGAAACAGTTGTTTTTAATTGGTTTGAATTGATAGAAACACCAATGTTTTTCAACATAATTTCAGTATGGTTTCTTGATAAAATAGGCTCCGTGAAAGAAGTTGGTTTGTTTGATCCGATTGCTGCTAAAATAATAGCTGATTTTACTTGAGCACTAGCTATTGGTGAATTATAATTTATTCCATTGAGTTCTGAAGATTTGATTGTTAGTGGGAGTTTAAAATCTCTACTAGAACATTTTAAACCCATTGATTTTAGTGGTTCAATGATTCTTTTCATAGGACGATTTGATAATGAGCTATCGCCAATTAATGTCGCATTAATATTTTGCCCAGCTAGTAACCCAGAAAGTAGTCTTGCAGTTGTACCTGAATTACCACAATCAAGTTCTTTTGTGGGGTTTTTAAATTTTCCACCTATTATTATATGGTATGAATTTTCATTATAAATATTAATTCCACAATCTTTCAAACAATTTTTTGTAGATTCAACATCTTTTCCAGTTGATAGATTAGATATTTTTGATTTACCATTACACAATGCAGCAAACATTAGTGATCTATGGGAAATAGATTTGTCTCCAGGAAAAAAAATTTCACCCTTTAAATTCATTATGTATTAATTAATTCATCAGCGATTAAAAATGCTAGCTCAATTGCTTGATTAGCGTTAAGTCTTGGATCGCAATGTGTTCGGTATCTATCTGATAAATTATCTTCCTTAATATCATGTAATCCTCCAGTACATTCAGTTACATCTTGGCCTGTCATCTCTAAATGAATAGCTCCAGCATGAGTACCCTCTGATTTATGAATTTTAATATTTTCTTTTACCTCAGATAAGATATTTTCAAAAGGTCGTGTTTTAATTCCATTGTTACTTTTAATTGTATTGCCATGCATTGGGTCACAAGACCATAGAACTGTTCTACCTTCTGATTTTATTTTTTGTATTAATTTGGGTAAAAATTTACTGATTTCATTATGTCCAAATCTCGTGATTAATGTTATTCTTCCTGATTCATCTTTTGGATTTAAAATATCTAATAATTCAATAAGATTATTAGGATCAAGAGATGGGCCACATTTTATACCTAAAGGGTTTTTAATACCTCTACAAAATTCAACATGAGCACTTCCTTTAAATCTTGTTCTATCTCCTATCCATAAAAAATGGGCTGAGGTATCGTAAATTTCTCCAGATGTTGAATCAATTCTGGTTAATGCTTCTTCATATGGAAGAAGCAATGCTTCATGACTCGTAAAATGTTCTACTTGATTTAACTCGGGAGTATTTGATGGGCTTACACCCAATGCTTCCATAAAATCTAAGCTTTCTTGAATTTTATTTGCTAAATGTCTATATCTTTTTCCTACAGGTCCGCTTTTTACAAAACCCATATTCCAAGATTGTAAATGACGTAAGTTTGCAAATCCACCATCCGCAAATGCTCTTAATAAATTTAATGTAGATGCAGATTGAGAATAAGCTTTTATCATTCTCTCTGGATTAGGAATCCTTGAATTTTCATTGAAATTAATTCCATTTATTATATCACCTTTATAGCTAGGTAATTTGATATTTTTCCGCTCTTCAATTTCACTTGAACGAGGTTTTGCAAATTGACCCGCTATTCTACCTATTTTAATAACTGGTAAATTAATTCCTGCAGTAAGAATTATAGCCATTTGAAGTAAAACTCGAAATGAATCTCTTATATTATCAGCACCAAACTCAGCAAAGCTCTCAGCGCAATCTCCACCTTGAAGTAAAAAAGCATTCCCATCTGATGCATTTGAAAGTCTTTGTTTTAATTGACGAACTTCTCCAGCAAAAACTAATGGGGGAAATCCTTTTAGTGTTTTTTCAGATTCATTAAGTTTCCTCTGGTCAGGATATTCAGGAATATGTTTTGCATTAAATTTCCTCCAGCTATTTATTTTCCAGTCTTTCATTTTAATTTTTATTTAATTCCTTTTCTATAGTTTTTGTAGCTTTCATTAATTTATTTATCATTTCTTTTGTATGAGGGTTAAAACATTGAAGATCTTTAAATAATTCCAATGAATCATTACAGGTTTGATCAACAAGATCTAATAAATCACGAAAACCTTGTGTGTCTAGCGAGGTTTTATTTATTCCAAATTCTTTGAGAGTCCTTCCTAAAAAATGCGTTATACCTTGAGATTTGGCTGCAAGAATATCATGTTCGTTTGGTGACATTTCTAATATTTGAATTTTTTGATCATTGAAATATTGTTTCCAAAATTGGAAAATTTTAACATTGCTTCTAACATTATTTAACATCATTTTTAATTTAGAGTTTGATTCAAAAGAATCAGGACCAAACATTGGATGAGTACCAATAATGTTAATATTATTTGGTAGATGTTTTTTCATAATATTAATAGGATACATTTTAACGGAACAAACATCAATTATTGTTTGACCTTCAAATAAATCATTTGAAATTTCTTTAATTACGCTTTCAAAATTCCTTATTGGCACCGCTACAAAAATAGTTTTTTCACTTAAGATTGTTTTTTTATCTACAAATTGGGTACCAGGTAAATAAACATTTGAATTATTATCAAATACTTTTACTTGAAATCCTTTTTTTAATAAATTAGCTAAGACTTTCCCAAATCTTCCAAAACCAATTATTCCTACACTATTCATTTGTTATCCGATTTTTTAATACTTATAAATAAAGTTAAATTATTTTTTAGATCATGAATATTTTCTTCTAAAATTTTTAAACCATATTTTGAAGCACAATATTCACTTGCAATCACACCAGCAGAGTTTGATATTTTTCCTTCTGATAATCTTCGTGCAGCTTCTGCAGTATCATCTTCTTGAATAAGTGGTTTAGACCAAAAATTTTCTACTAAATATTCTTTACACTGCCTCAATGCTTGTCTATGAGAATGAATTTCAGATATATTTTCAATTTTCATTCCTTCTTTTACTAGCAAATTTTGTTTTATTGGAATGTGGAACATTTCTACAATTTTACATGTGTATTTACATAATGCTTCAACACTTTCAAGAACTACTCCACCTTGAGCATTTTCCATTGCAAAAATTCCAAAATCAACTTTTTCATTTTCTACAGCATTTAATACTCCTTCAGATGAAATCAGGTATTGAATCGAATAGTTTTTAATTTTTTGATTTTCAACAAATTTTTTTGCTGCTTGTTCAGAAAAACTTCCCATAGCTCCTTGAATTCCAATTTGAATCATAATTTTCCTTTTAATTCTTTAACGTATTGATTGATAGTAGATTCCGGATCATTATTATTTTTAATTTTTTTAATACAGGCTGATCCAACAACTGCACCATCTGAATATTGATTAAACCAAATAACATCTTTTCTAGAACTAATACCAAATCCTACTATAAAAGGACTAGTACTATTTTTTCTAACTCTGTTTAAATAGTTAGATATTTCTATAGTTGAAGATAATTTCCCACCCGTAATACCTAAAATAGTTACTGCATATATTAAATGATTTGCAGTTTTAGAAATTGTTTTTATTCTTTCATCTGAGGTGTTTGGAGCAACTAATAAAATAGGTGATAAATTTAAAATTAAAGCATTTTTACAAAATTTTTTTGATTCTTCTAATGGTAAATCAGGGAGTATGATTCCATCAACACCATGTTTTAAACAATCATTTAAAAATTTTTCCTCACCATATTGTAATATTGGATTAAAATAACTAAAAAGAGCAATAGGAATATTTGTTTTTTTTCTAATCGTTGAAATTTGAGAAAAAATAAACTCGATATTTATTTTATTTTTTAAAGCTATTTCACTAGAATATTGAATAATTGGACCATCTGCTTGTGGATCAGAGAATGGAATACCAATTTCAATCATATCAGCTCCAGCTTTTGCCATTTCTAAAACTAGATTAACAGTGCTATTTTTATTGGGATAACCTGCTGTAACAAATGGAATGACCTTTTCTTTAGGTTTAGAAAAAAGTTTTTGAATTCTATTCATTTATTTTTTCCATTTCATCAAAAATTATTCCAAGGTCTTTATCACCTCTACCTGAAAGACACAACACCACTTTTTCATCTTTTTTAATATTAGAATTTTTATGCTTTAGGTAAGCTAGTGCATGTGATGTTTCTAAAGCTGGAATAATTCCTTCTTTTTCGCTCAACCATTTAAATGCATTTAAAGCTTCATTATCATTAACTGCTACGTAATTAATTCTTCCGATGTCTTTAAGATAGCTATGTTCTGGTCCTACACCAGGGTAATCTAGTCCAGCTGAAATAGAATGAGGTAGAGTTATTTGTCCATTTGTATCTTGAATTAAATAGCTTGCGGAACCATGCAAAACACCAAAATTTCCTTTTGATAAGGTTGCCGCATGTTGATCTGAATCAAGACCATGTCCAGCAGCTTCAACTCCTATTATTTTAACTTTTTTATCATCTAGAAATGGGTAAAACATTCCTATTGCATTTGAACCTCCACCAACACAAGCAACTAATCTATCTGGTAATCTAGATTTTGTCATTTTAAAAAATTGCTTTTTTGTCTCAATTCCTATTACAGATTGAAAATCCCTAACAATCATTGGATATGGGTGTGGGCCTACAGCAGAACCTAGCAAATAATAAGTAGATTCAACATTAGTTACCCAGTCTCTAATGGCTTCATTAGTTGCATCTTTAAGTGTTTTGCTTCCAGTAGTAGCAGGTTTTATTTTGGCTCCAAGAAGTTCCATGCGAAATACATTAAATTCTTGTCTTTTGATATCCGTTTCTCCCATATAAATCACACATTCGATTCCAAAATGAGCACAAACTGTTGCAGTTGCTACACCGTGTTGACCTGCTCCAGTTTCAGCAATAATTCTTTTTTTACCCATTTGTTTAGCTAAAATTATCTGACCTAAAGCACTATTTAATTTATGAGCTCCAGTATGTAATAAATCTTCCCTTTTGAGAAAAACTTCAAACCCAAGTTCTTTTGATATTCTTGAAGCATAGTATAAAGGGGTTTCTCTTCCACCAAAATGTTCTAAAAGATTTCTAAGTTCTTTTTGAAACGAATTTTGGTTTTTTGCTTTAAAATATTCTTTTTCTAATTGATTTAGAGCTGGAATTAATGTTTCAGGTACATATTTACCTCCATATTTATCAAAATGACCTGATGAATCTGGCAAAGAATATTTTTTAATTTTTTTATTCAAATTGAAATCCAGTATTTTTTGTTTGATTTATTGTATTGTAAAATTTTTTTACTTTCAAGTGACTTTTTATTCCAGGTCTAACTTCAACTCCACTATTTACATCTATTGCATTAGGGTTTATACTATTGATTGCCTCAAGAACATTTTTTTTGTTTAATCCTCCTGAAAGAATAATAGGTTTATCATATTTTTGATTGGATAATATATTCCAATCAAATGAACTACCTGTTCCACCTCGAACATTTTTTTTGTAAGTATCAAATAAAATTGCATCAACATTGTATTCTCTAACCTTATTAATACTTTCATCATTTTTTATTTGAATGGCTTTTATAACAGGAATACTAAATGAACTGCAAAATAAAGGATTTTCATCACCATGAAGTTGAATCATATTTAAGGGAATAGATTTGATGGCTTTTTCAATAATTTTTTTTTCTTGATTTACGAAAACACCAATTTTTGAAATTTTATTCCCAATTTTTTTTGAAATTTCTGTAGCAGTTTCAAACGATATTTCTCTAGGACTATCTTTTACAAAAATAAAGCCAATAGCAGAGGCTTTATGTTCAATTGCAGCTAAAGCATCTTTAATATTAGTAATACCACAAATTTTAAATGGAATCATACTATACCCTTTAAAAGAAGTTCTAAAGCTTTGCCAGGATTTTTTGTTTTCATAAGTGATGAACCTACTAATACACCATCATAACCAATATCATTAATATATTTTAAATCTGAATTATTTTTAATACCACTCTCAGCAATTTTTAAAGAATTTTTTGGGAGAAAATCAAACATCGTTTCAAAGTTTTTTACATCGATTGTCATTTTTGAAAGATCTCTACAGTTTACACCTACAATTGTAGGATTAAGTTGATTTACAAAACTTATATTTTTTATATCATGCACTTCAATTAAGCTTTCTAGTCCAACTGATTTTCCATAATCATATAATGATTTTAATTCATTAGGCTTTAAAGCTTCAGCAATGAGAAGAAATGCATCACCTTCAAAGTTCAATGTTTCAATTATTTGAAGATTGTCAATTATAAAATCTTTTCTTATTACAGGTATATTTACTGAATTACGAACTTCTTGAAGAATTTTAATGTTTCCTCCAAAAAACTTATAATCTGTTAAAACTGAAATAGCAGAGGCGCCTGCCGATTCATATTCTTTTGCTATTTGAATATAATCACAATCTTTAAAAATATCACCTTCACTTGGAGATTTCATTTTAATTTCTGCAATTACAGATATTTTTTTTTCTTGTAAACATTTATGAAGAGAACGATGAATGAATTGAGAATTTTGAACCTTTTTTATATCTTGAATATTTAAAATTTCATTCTTCTTGTTCTCTATTATTTTATTTAAAATATTCATGTAGATAATTTTTCTAAAATGTTTTTTGCTTTACCTGAATCAATAGATTCCCTAGCGATATCAATAGCTTCATTAAAATTTTTAGCTTTATTTCCAACAATAATTCCACTTGCTGCATTAATTAAAACTATGTCTCTCATAGGACTTTTGTCTCCATTCAAGATATTAATGATAATTTTTGCGTTTTGTTCAGGAGAACCACCTTTTAAATCATTTAATTGAACTTTTTTTATTCCAAATTTTTCTGGATTCAACTCATAATTAGTAATTTCGGTGCCATTTCTCATTTCACAAATAAGAGTATTAGCAGTGGTAGAAATTTCATCTAATCCATCTTTTCCATGAAAAACCATTACATTTTTTGATTTTAATGCTTTGAGGACTTTAGCTTGAACAGAAATATAATCCTTGTGAAAGACTCCCATTGTTTGTGAGGTAACATTTGCAGGATTGCACAATGGACCTAAAATATTAAAAACTGTTCTAACGGCTAGACCTTTTCTCGATGGAATAGCAAATTTCATTGCTGGATGATATGCAGGAGCAAATAAAAAATCTAGACCAATCTGATCTATATTTTTAGCTGATTCTTCAGGATTATTATTTACATTAATTCCAAGAGCTTCTAAAACATCAGCAGATCCAGATTTAGAAGTCATTGATCTATTACCATGTTTAGCAACATTGATACCACTTCCAGCTACAACAAAGCTTGAAGCTGTAGAAATATTAAATGTTCCCGAAGAATCTCCTCCAGTTCCACACATATCAATCGCAGGTTTAGTTAGAATAACTTTAATCATTTTTTCTCTCATAGCTTTTGCAAAACCTGCAATTTCATCAATAGACTCACCTTTAGATCTTAGAGCTATTAAAAAACCAGATATTTCAATGTCAGTATAGTTCCCGGACATTATTTCAGACATAGTTTGAAATGCAATTTCAAAGCTAAGATCTTCTTTATTTAATAACTGTTCAAGTAATAATTTCATGATGTCATCTCAAAAAAATTTTGAATTATTTTTGGCCCATTATCAGTGCCAATAGATTCAGGATGAAATTGAACTCCATGTATTGGATATCTTTCATGTTGAAGTCCCATAATTACACCATCTTTTAATTCAGCTGTAATGTTTAAACACTCAGGAAAAGACTTTGATTCAGCAATTAATGAGTGATATCTTGTTCCTAAAAAAGGATTGCTTAAATTTTTAAAAAGTAGTGAACCATAATGGTAAATTTCTGAAGTTTTTCCATGAACTATTTCATTACAGTTAATTATTTTTCCTCCAAATGCCATGGTAATTGCTTGATGACCTAAACAAACTCCTAATATTGGAATTACTTTACCAAAAGTATTGATTACATCGATTGTTAACCCAGCATCTTCAGGTCTGCCTGGACCAGGAGAAATTACAATGTGAGTTGGATTTAGTTTCGAAATATCCTTTAATGTAAATTTATCATTTCTTGAAACTTTTATATCCTTTTTTATCAGTCCAATATATTGAACAAGGTTATAAGTAAAAGAATCGTAATTATCTATGACAAAAATCATTGGATTAAACCGTCCTCAGCTAAATCAAGAGCTTTCATTAATGCTTTTGCTTTGTGAATAGTTTCGTTAAACTCTTTTTCTGGATCTGAGTCATGTACTATACCTGCCCCAGCTTGAAAAAAAACTTTATCATCTTTCATTACAAATGTTCTAATTGCGATGCATGTGTTTAAATTTCCATAAAAATCATAATAACCAACAGCGCCCGAATAAATTCCTCTTTTATCATTTTCTAATTCATTGATTATTTCCATTGCTCTAATTTTAGGAGCTCCTGATACAGTTCCAGCTGGAAAACCACCAATTAAAGCATCAAAGGAATCTTTGTTTGGTAATAATTTACCTCTAATATTTGAAACCATATGCATTACATGAGAAAATTTTTCAATATTCATCATATTTTTAATTTTGATTGATCCTGTGGTTGATACTCTTCCAACATCATTTCGGCCAAGATCAACTAACATTAGATGTTCGGCTCTTTCTTTTTCATCTGCAAATAAATCTTTTGAAAATTTTTCATCTTCTTGTTTTGTTTTACCTCTTGGTCTAGTTCCGGCAATAGGCATTATTTCAACAGTTTTATCTTCTACTTTTACTAAAATTTCAGGCGATGCACCAATGATATTGAAATCTTTTAGTTTTAAATGAAACATATATGGTGAAGGATTAATTGTTCTCAGAGATCTATAAAGTGTAGTTGGCTTAATTTTTGTCTTTCTTTCAAATCTTTGGCTAAGTACTAATTGAAAAATATCTCCTTTAGTTATATAATCTTTAGTTTTTAAAACAGCATTTGTAAAATCAGATTTTTTAAAATTAGATTTTACTTTGCTTCTTGATGTTACTGAAGGGGTTTGGTAATCTATATCAGAGTGTAATAGTTGTCCTATTTCATCTATTTTTTTAATGGATTCATTGTATAAACTAGATAATTTCTTTTTTGAAGAGTCAATGGAAACATTTGATATTACCAATGCAGATCCTTTTAAGTGATCAAAAGCAATAATTTCTTTAAATAACATAAAAATTGAATCTGGAATATCTACAGGATAATTAATATTTGTAGGAACATTTTCAAACCATGAAATTGTTTCGTATCCAAGAAAACCAACAAAGCCTCCAGTAAAAGGAGGCATTCCTTCTATTGTTTTAGAAAAATATTTTTTTTGTTCTTTTTTCATTAAATCAAAGAAATTAGTATTAACTTTTTTCTCTACATTATCTTCAATAATTGAAATTGTATTATTTTCACTTTTTAAAATTTTTGATGGATTAATACCTAAATATGAATATCGAGAGTACTGGTTTCCTTTTTCAACGGATTCAAACATAAATCCATAATCTGATTTCTGATTTAATCTTGTCCATGCTGCTACAGGTGAAATTAGATCAGCTAAAAAACTTTTATATACTGGAATAGTAGTATGTTTTTTAGCAAGTTGAGAAAATTTTTTAAAATCTAAATTTATTTTATCCATAACTAAAAAACCCCGGGATTTTCCGGGGTTTTGTTGATTCCTTTTTAATTTTTAATGAATCTAACAATTCCCCATATTATTGTAGTACCAAAAATAAAAAAAATATTTTTTAAGATTAAAAATCATTTATTTCTCATTTTTTATGCTATTTTGAATTTTTTTTGAAATTTCAAAAATAGAATTAAATATTTCACTAAGATCATTATGAGATATATTCTCATTAGTTCTTTTGAAAATACGAGAAATTATAGATTTCTCTCTTGATATGTTAGTGATTTCAGTTCTAGAATTTAATTTAATAGCACCTATTTCTTTTACAATATTAAATCTCTCAACTAATAAATCAGTTATTTTATCATCAATTATATCTATTTTATCTCTCAAATAAATCATTTTATCATTTTTAGACATTATCTAAATTTAAATTACAACTTAATATTAAGAAACTTATTTTCAATATTGATTTTGTGAAAAAAATATTATCTTATATTATATAAAAGCACACGAAAGGAATAAATATGAAAAAATCTGCTATTTTATTTTTATTTAATTTTTTTGTTATCTCTTCATTAATGAGTCAAAATATAGTTTTAAACGAGTTTCTTGCTGGTACCGACACTTGTTGTGATGATGGGACTGGAGAAATAGAGGATTTTATTGAATTGTTTAATCCAGGAACTACAGCCGTAGATATCGGTGGTTGGTATGCAACTGATGATGCATCTGAACTTACCAAACATCAAATTCCTTCTGATTCTTCAAACACTATTATTCCAGCAGGAGGTTATCTTGTTTTGTGGGCGAGTGGTGAAACAAGCAGAGGAGCATTGCATGTAGATTTTAAATTAAAAAAAGGTGGTGAATTTATTGGTTTAGTTTTGTCTGATGGTCTTACCGTTGTTGATAGTTTAACATTTGGTTCTCAAACAGATGATATTTCATATGGTAGAGTTCCAGATGGAGGTTCATCATGGTCAGATATAACAACACCTACACCTGGTACTTCAAATGCAGCTTTATTTGTTGAAGACAATATTTCTTTACCTTCTGATTTTCAATTACAACAAAATTATCCTAACCCTTTTAATCCAACAACTTCAATAAATTTTTCTGTAGCAAATTCTGAATTCATTGAGCTTAATATATTTGATATTCTAGGTAATAAAATTACAACTCTTATGAATAATCATATAGCGCCAGGAAATTATAACGTTCAGTGGAATGGTAAAGATTTTAATGGAAAAATCGTTAGTGGAGGAGTATATCTGTATCAGTTAAAATCTAAAAGTTTTAATAAAACTAAAAAAATGATTTTTATTAAATGAATTTTAAACCAGTTCATCTTTTTATTATAACAATTTTTTTTGGTTGTTCTAATAATGAAAAGATAAATAGTGAATCTTTTGTTTTTAAAGATAGAAATTATGATCATTTAATTAGTCAAAATAATATAAAGATTGCTTTTGGGTCTTGTTTTGATCAATCAAAATCATTTTCAATTTTTGAAGCTATTAAAAACACTTATCCCGATATGCTAATAATGCTTGGAGATAATGTTTATGGAGATGATCATTCTGGAGAATTGACTAAATTAAAATTTGCATATGAAAAGCAAAAAGATAATTTTTCTTTGATTGATTTAGAGTTTCCAATAGAAGCTATCTGGGATGATCACGATTATGGAATTAATGATGGTGGTGCAGATTTTATTAATAAAGAAGAATCAAAGGACTTGTTTCTTGATTTTTGGGATATTCCAGAATCAGACATTAGAAATCAGAGAGATGGAATTTATTATGATCAAATAATTCAATTAAATAACTCAAAGATTCATTTGATTTATTTAGATACAAGATATTTTAGAGGACCTCTTCTAAAAACGGATAGTTTTGGCTTTAAGGGAAAAGAAAGATATTTACCATCATATGATGAATCATCATCTATGCTTGGTTTAACACAATGGAAATGGTTAGATGAAAGACTATCACTAGAGTCTGACATAAAAATTATTGTATCAGCAATTCAATTTTTGGCTGTTGGGCATGGTTGGGAAAGCTGGTCAATGCTTCCCCTTGAGAGAGAAAAATTGATAAATATTATTGATAAATATGATTTAGACAATGTCGTTTTCTTAACTGGTGATAGACACCGTGGTGGTATTTATAAGATGAAAACAAAAAATGAAAATATGATATTTGATATTACTTCAAGCCCTATTAATTCTTCTACTTACCCTGGTGAAGAAGATGGTATTTATAGATTGGGAAATACATATACAGAAACAAATTTTGGATTAGTTTCAATCAATTTAATTTCTAAGTCCACATCTCTTGAGTTAAAAGATATGTTTGGCAATAGTGTAATTTCAGAAAAATTATTACACTAAATTTAATTCCCTTTACAAGGGATATATATAATGAATAAGCTAAAAATATTAATATTATTTTTTTTAATTAATAGTATAAATGCGCAATTTTATTTTGGAAGAAATAAAATTCAATTTCATCAATTTAATTGGAATGTTTTGGAGACAGAGCATTTTCAGATATATTATTATGAACAAGAAAAAGAGCTTGCCTTAGCTGGGGCTAAATACGTTGAGGATGCTTATGAAGATATATCCAAAAAAATAAATTTTTCATTAATAGAACCTGTTCCCTTAATTTTTTATAGTTCTCATCTCCATTTTCAACAAACTAATACTATTAATAGATTATTGCCGGAAGGGGTTGGGGGTTTTTTTGAATTTATAAAAGGAAGGGTTGTTATTCCATATTCAGGTAATAATAATCAATTTAAAAATGTAATAAAACATGAGCTTGTTCATGTGATGATGCATCAAAAAATAAATAAATCTCTTAGTTTACATAATGTACAAACTTATAGATCTCCACCATTATGGTTTACTGAAGGAATCGCAGAATATTGGTCAAGCGTTTGGGATTCTAGGACGGAAATGGTTATTAGAGATGCTATAGTTAATGAGTATTTAGGAAGTTTGGATAATTATAGTTCAATGGCTTCAGGATTTCTTTTATATAAAGCAGGCCAATCTTTTTTTAGATATGTTGATGAAACTTATGGTGAATGGAAAATTTTAGAAATTCTTGAAAATATGTGGAGATTCACTGATTTTAATCTTTTGCTAGAATATACATTTAATACAAGCTATTCTACCTTAATGAAGGAATGGAAATACTTTTATAAAAAACAAATGTATCCAATTTTAGAAGAATATGATTCACCTTCATCAATTTCAAATCAAATAACTAGTAGAGGAATTAATGTATCTCCTGCCATTAACATTGAAAATAACGAGATTTATTTTTTAACAAATAGAATGGGATATTCTGATATCTATTCTAAAACTTTATCTACAGAACATAACTCAACATTAGTATTAAAGGGTGAAAGAACTGCAAATTTAGAATCTTTACATCTTTTAAATTCAAATTTAGACATACAAGAAAACGAATTGTTAGTTTCTGCAAAATCTGGTTCTTCTGATGCAATAAATATTATAGATGTTGAGTCAAAAAAAATTAAAAATTCTCTACAATTTTCTAATGTTGTATCAATTTCTTCTCCTAAATGGAATTTTGATAAAACAAAGATAGTGTTTTCTGCTTCTTCTTGGAATGGAAATAAAGATATATATCTTTATGATTTTAAAAATAAATTATTAAGACAATTAACCGATGATTATTTTTTAGATATAAATCCAATTTTTTCACCTGATGGTCAAATCATTCTTTTTGAATCTGATAGAGGAGAATTTGGTTTTGATGGATATACCAATTTGTTTTTATTAAAAATTAATGATCAAAAAATATTCCAATTAACTAATGGAAAATTTAAAGACTCTCATCCTCATTGGTCAAAAATAAATAATAATATTTTGTTTTCATCAGATAGAGATGGTTCAGTAAATATATGGAAATTTGATTCTGTTGAGGTTGATAAAATATATCGATCTTTAAATAATAAAAAATTTGAAAATTTAAATATAACTAGACATACTAATTCAATTTCTAATGCTATTGAACCACATTGGGCAGATAAAGATTCAAAAAAAGTAATCTTTACTTCATTTGAAAATTATAGTTTTCAAATATATTCAATTGATAATATTGAAGAGAAAATATTTAATGAAATAGAGATTAATCCAGTAACTGATGAATTTAAAATGTGGGAAAGAATATATTATGATGTTCAAAAAATAAAAAATATTCCATCTTATAAGAAAAAATTTACTCTTGATATTTCTCAAACATCCATCGCATATGATCAAACATTTGGTTTGCTAGGTGGTGCACAATTTGCATTATCAGATGTTTTAGGAAATCATCATTACAATTTTTTACTTTTCAACACTTCTGAGACATCATCTGATTTATTGAGTCGAATGAATTTTGCTGTAAGTAAGATCGATCTATCTAAAAGAGTAAATATAGGTTATGGAATTTTTCATTTTGCGGGTGATTATTATAATTTTTCTAATGGATATTTCTTTGAAAAAAGACAAGGGGTTCAATTGTCATTAAGTTATCCCTTTTCAATTTTTAAAAGAATTGAAATGATGAATAGCCTTATAGATTCAGAAAGAGATTCATATATTGAAGATTATTATTTTGATGGTTTTTTATTTTCTAATTCTTTTTCCTATGTTTTTGATAATTCTATTTGGGGATCTTTAGGGCCTGTTGATGGTACTGCTTATAGAATTAGTGTTAATCAATCATATGATATATTAAAAAATAAATTACATTCAACAGGTATATCAACTGATATAAGAAAATATTTTAGATTATCATTTAGAACTCTTTATGCGGTTAGATTGATGACATCAATTAGAAAAGGTCAAAGTCATTTTAATTCATATATAGGAGGAAGCTGGGGTTTAAGAGGATATTATAGAAGATCTGTTTCTGGAACTAGTTTTTTCATGTTAAATAACGAATTAAGACTTCCATTTGCTGATCATTTAGTTATGAGGTTTGGTTCAAGAAATATTGGTTTTGCTCCAATACGTTCAGCTTTATTTTTAGATTTTGGTAATGCATGGGATGATAAATTAGATGATATTCTTGGAAGTGCAGGGATTGGACTCAGAGGAAATTTTTTAGGAGGACTTGTTCTTAGATTAGATATAGGTAGAACCTTTGACCTTTCCAATAATTGGGGAGATACTTTCACTCAATTTTTCTTTGGTTGGAATTATTAAAATTTGAATTTTATTTTAAGATACTCTTTTCTTATTAATGTACTGATTTCTTCAGTTTTAATTTCTCAAGATTTAAAAAGTTCGACAAATATTAAAGTTCTAAAAAAATGGTCTAAGGAGTTTATTTCAGGGGTTTCTTTTCCTGTAATTAAAAATGACAATAAATTGATTACACCATTACTAGATGGGAATATACAGATTTTAGATTTTAATACTGGACAAAGAATTAATAGATATAATTTGGGAAAAGGTCCAATACTTGAAATGAGTCATTTTAATTCAAATCTAACATTTATAATGCCATTTGAAAGAAAGTCATTAAGAACTTATAATATTGATTCAGAAAAATATATTTTAAAGAAAAAAATTAAATTTTCTCCTAAATATTCTATTCAAAATAAAAGTGATTCATTGATTTTTGGTAATAATTATCGAATTGGTTCTATTAATAAATTTGATGGGGAAGAGAATTGGTTTGTAAAGTTTGAAATTCCGTTAGTATCAAAACCCTATATCTTAAATAATCAAATAATAATTTTAAATGAAAATAATGAAATTTTGATTTTATCCTTTAATAATGGTGAAATAATTTCTAAAAGTAAAATCAACAAGGAAGTTTTATCAAAAAAACTTTTAAGGGGCTTATCATTAGAAAAAGATGATAATTTATATGTTACATCCTATTTAGGAAATTTTTTTTCATTTAATTTGATTGAAAATAAAAACAACTGGTTAGTTAAATTGAACAATTATATTTATGTCTCTCCAATAATTAATGAAGGGAATGTTTTTGTTTGTGATGCTAGTGGAAAGGTAATTTCATTAAATGCATCTAATGGTTATTTAAATTGGGAGTTCGATACAAAATTATTAATAAATCAAGATCCAATGATTATAAATAATGAATTAATGATCATTACAGAAGTTGGGAAGATTTTTTTCTTAGACCAATTAAAAGGCGATATGTTAAGTTCAAGTGAAATTGATGGAAGAGTAATGTTTGCAAAAAAAATTGATGAATTCAAAATTTTGGTTGCAAATGACTCAAAAAAAATATCACTTTTTGAAATAAAAAATAATTAAAGAGAA
>sequence02
AAAATATATGTTAATGATTCAAATTCTAACTTTTCTGATTCCTTTAAAATATTAGATTTAAGATTTTTCCAAAAATTAAATTTTAATAAAAATAAAATAAATTTTTTATTTGGAATTAATAATGTATTAAATGAAAAATATTATTCTAATATAAGAATTAATGCTTGGGGAGGAAGATTTTTTGAAACAGCCCCGTTGAGAAATTTTTATATAGGAACAGAAATTAAAATTTAATCATAAGGTTTGATAAATTTTAAAAGATATCTATCCATTTTATATCTTCCCTCATCAAATCCTGAAATACTATAATCATCTTTATAATTCTTTAGAATATTAGATTTATCTAATAATTTAAATCCATTAGATTGAAATTCATCTATGACTACTTGTTCGTTTAGTCTATGAGTTTCTTCATCCCATCCTAACTTATTAGTTGCTACTTCAACAATTCCTACAATTCCACCGGGTTTTACAATCTTAAGTAAGTTTGATAGAAATTTATCTCTTGGAGGCTTGTTATCATGATAATTTCTGATGCAAACTACAACATCAATTAAATTTTTGGGAACCTCATTTATTTTTCTATATACTTTAACATTTGATAAATTAGCATTTTTAATCCTTTTTTTAATAATTTTTCTGAGGTCATATGGCATTTCACCTCCACCATGAGTATTTAAAATACATATAACTTTTCCATTATTTTTTACTATTTTTGATAGGAGGTGTGTATTATAACCACCTCCAGGATCAATATCAGCTACTACCATTTCTTCTTTGATACCAAGAAAGGAATAAACTTCTAATGCTTTTCTATAAGGATCTTGTATTCTCTCTTTTTCAGGTCTAGAATTATCATTGAGTATTGAATAGTCTATTTGATGATTATTTTCATTCGAAAATAAGAGTGTGAAAAATAAAAAAAATATAATTTTTTTAATCATTTATGTCGATAAACAATCCTACCTCTAGTCAAATCATACGGAGACATTTCAAGTGTTACCGTATCCCCAGGAAGAATTTTAATAAAAAATTTACGCATTTTACCTGAAACATAAGCTAAAACCTCATGATTCTTATCACCAATTTCGATTTCTACTCTAAACATTGAATTTGGAAGAGCTTCTTTAATTGTTCCATCAATTGACAATGGTTTTTCTTTAGCCAAAAATAACCTCTATTTAATTGCGGGACCGACGAGACTCGAACTCGCGACCTCCGGCGTGACAGGCCGGCGTTCTAACCAACTGAACTACGATCCCATAAAAAAAATAATTTATTTTTTTATTAAAATTGATAATGGAATCACAACCAAATATCCAATAAATAACATCATAGGAGCAAGAGTTAACGATTGAAAACTATTTACTTCACCAGTTGCCATTAAAATATATCCAAATATTACTAATGATAATCCAGTAATAAATAGTATATAATTAATTTTTTTGAATGACCAATTTACAAATGGGCTTTCTCTAGATGTCTTTTTATTTTTTTCCACAAGGTGGGTAATATACAATTAAGATACAAATTGAAACAATTCAATTTTCTTTTATTTTTAAAAATAAGATTGTGGTACCAACATTATAAGAATTAAATTTGGAATCTTAATTATTATGAATTTAAAAGCAAAACAAAATAAAATTGATATTATTGGATTTATTTTTTCATTGATTATTTTATCGAGTGTAGCTTTTTATTCATTAGTAGTCTTTTGGCCTTTAAATAATAAAGTTAACTCAATTAATTTTGAGGTCAAAAAAGGATCTTCATTAAAAGAAATTGCTTCAAATTTAATTGAAAAAAAAATAATTGAAGATTCAGAAACTTTTGTCTTGGCAGCAACTATGATGGGTCATGAAAAAAATATAAGAGCTGGTATTTTTTCATTAACTAATTTTAATTCTAATTATAATTTGATTACTCAATTAGTAAAAGGAAATCCAGTTTTAGAAAAAATTACATTTCCTGAAGGACTTACTATTTTTCAAATGTCAGACCTGCTTGAAAAAAAATTAAATATCAACAAACAATCTTTCTTAGATTTATGTTATAATCAAAAATTTATTAAATCATTTAATATTAAATCACCATCTTTAGAGGGGTTTCTTTTCCCTGAAACTTATTATTTTCAAAAAAATGAAAATCCGTCTATAATTGTGAGTAAAATGATTAAAGAATATAAAAATTTTTTTAAAGAAAAAATTAAATATAGATTAAAAGAGATTAATTTTACTGAGTTAGAATTATTAACTTTAGCATCAATTATTGAAGGGGAGGCTTTGTATGATATAGAAAGAACTGTTATTAGTTCCGTATATCATAATAGATTAAATAAAAATATGAGACTTCAAGCTGACCCAACAATTCAATATATAATTGATGATAGCCCTAGAAGACTTTATAATAAGGACTTGAAAATTCCTTCTCCTTATAATACATATTTAAATAAAGGATTACCTCCTGGACCAATTAACAACCCTGGAAGAGAATCAATGCTTGCGGTATTAGAACCGGATAGTACTGATTTTTTATTTTTTGTTGCTGATGGTAGGGGTTACCATGTTTTTACTAGGAATGAGTCTGAGCATAATATTGCAAAAAAACGTTTTAAAGAATTTAGGAAATCTATGAAACTTAAGAAGAATTAATTATGAAAAAATTTAAATTAAATAAAGTGCAAAAAGAAGCTGTTGAGTCTATTGAAAAACCATCTTTAATTTTTGCTGGAGCTGGTACTGGAAAAACAAGAGTTCTTACACATAAAATAGCCTTTTTAATTGATCAAAAAGGATATGATCCAAGCGAAATTTTAGCTGTTACGTTTACAAATAAAGCAGCACAGGAAATGCAAAATAGAGTTAAACTAATAATTGGTAATAATATTAAATCACCAAATATTGGTACATTCCACTCTATATGTGCAAGATTTTTACGTGAGGAAATTAATTTACTTGGATTCAATTCTAATTTTGCAATTTATGATACCTCTGATCAAGATATGCTTATAAAATCAATTATTAATTCACAAAAAATACCAACAAACGGGGTCACAGTTCCAACTTTTCGATCTCAAATCAGTTATTTTAAAAGCAAGTTAATTAATCCAATCAGTTTTTTGGAAAAAAGTAATAACCCTTTTGATATTAGTTTATCTAAAATTTTTCCTCACTATATGAAAGAATTAAAAGAAAATAATGCGGTTGACTTTTCTGATTTATTACTTTTCCCTTTACAGATTTTTGAAAAATTCCCCAAAACATTAAATAAATATCAAAATAAATTTAAATATATTTTAGTTGATGAATATCAAGATACAAATGAACCACAATTTCATTTTGTCAAATATCTTTCAGAAAAACATAAAAATATTACTGTTGTCGGTGACGATGATCAATCTATATATGGTTGGAGAGGAGCTGATATTTCAAATATATTAAATTTTGAAAAAACATTTCCAAATTCTGACGTTTTTAAACTTGAACAAAATTATCGATCATCAGGAAATATTTTGGCAGTTGCTACTAATGTAGTTGCAAATAATTTAGTTAGATCAAAAAAAACATTATGGACTGAAAAAGAGGATGGAGATAAAATTGGTTTAATGGAAACTTTTGATGAGCTTGAAGAAATTGATGGTGTAATTGAATTGATTCAAAAAGAAATTCATCAAAATAAAAGATCTTTCAGTGATTTTGTTATTTTATATAGAACCAATGCTCAAAGCAGGGCAATTGAGGATGGGTTAAGAAGAAAAGCTATTTCATATGAGATTGTAGGAGGAATTAAATTTTACGAAAGAAAAGAAATTAAAGATTTATTAGCATACTTAAGAGTTTTAGTGAATCCATCAGATACTATTAGTTTGAAAAGAATAATGAATTTTCCACCAAGAGGAATTGGAGCCAAAACAATTGAAAAATGTGAATATTTAGCATTCAATAAAAATTTACCTTTATTAGAAATTTTAAAAACGCCTGAAGAAATGAATTTAAAAGGTCAGCAAGCGGCAGGTTTAATACAGTTTCATCAAATTATAAAAAAATACTCTGAACTTAAAGATAAGTTTGATGCATCTGAACTAGCCTCAGTTTTAGTTGAAGAACTCGGTTTAATAAATTTTTATAATGAACAAAATACTGAAGATGCGAAAGAAAGATTAAGAAATATTCAAGAATTATTAACAACAATTCACCAGTTTTGTGAAAAGAATACTAATTCAACAATTAGTGAGTTTTTAGAGGAGGTATCATTATTAACTAGTATTGATTCCTGGAATGATTCAACTAATCATATCACTTTAATGACAGTTCACAGTGCAAAAGGACTTGAATTTCCTATAGTTTTCATAACTGGTCTCGAGGATGGTTTATTTCCACTTTCAAATTCCTTTGATGATCCTAAAAAAATGGAAGAGGAAAGAAGGTTGTTTTATGTTGCAGTTACAAGAGCAGAGGAAAAAGCATTTTTACATTATGCTACAAACAGAAGAAGGTCAAGTGGAGCATCGGGATTAGGACAACCTTCAAGATTCGTTAATGAAATATCGAGTAATTTTATTGAAAGATTAAATTTTCAGTCTGCAATGACAAGAAGATTAGTTAAAGAAAAAAATTCAGATAAATATAAACTAAAATATATAAGAACAATTACATCATTTAATGAATTTGAAAGAGGTGATAAAGTAGAACATCCAATATTTGGTAAAGGAATGATTCTTGCAGTTGATGGTTCCGGGGATAATCAAAAAATAACGGTTGTTTTTCAAGGAAATATTGAAAAAAGATTAATTGGAAAATATGCTAACCTCAAGCCCTTAAAATAAATTTTGAAAAAAAAAATAAATCTATTTCTTTATATTTTGAATTTTTTAATTAATTGTAATTTAATTGCAAATGAAAATCTTAATATTTGGAATATTGAAACAAAAACTTATTTACTAAAACAAATTTCCAATAATGAAAGTGCTTATCAGTCATATGAGAGAATAATTCATTCTATGGAGTCATATGATATAAAACCAGATTATATAAAACAAATTTTTTTGGATGATAGAGTAAAATTTGATATTAATATAATTAAAAGATTTGAAAATCAATCTGAAAAACTCTCTTATGAAAAGTATAAAAAAATTTTTATTACCAATAATAGAATTAAAAATGGTGTTAAATTTTACAATAAAAACAAAGATATGCTTGAATTAGTAAACTCTAAATATGGAGTAGATGCTTTTTTATTGGTAAGTTTATCAGGTGTAGAATCAAACTATGGTGTCAATAATTCTTCAAATTTAGTTTTTACTTCTCTTCATACTCAAATACATGATGAAAAAAGAAAATTATGGGCAGAAAAAGAAATGACTGAGTTTATAAAATATTGTTATGAAAATAATATTGATCCATTTTCATTGAGAGGTTCTTATGCAGGAGCATTTGGGTTTGGTCAATTTATTCCTTCAAGTTTTAGAGCATATGCAGTTGACTTTGATGGTGATGAAATTATAGAACCTTTTGATTGGTTAGATGTTTTTGCTAGCATGTCAAATTATTTAATTAAAAATGGATATAAAAATAATAGTAATGATTTTTCGTATAAAACAAGTAATTGGAACTCAATTTATAGGTATAATCACTCAAAAAATTATGTAAATGTTATTTTAGAATTAAGAAAAGAAATAATTAAGGAATTATCAATTCAGTAAATTTTAATTTAATAAATTAAAGTAATGTAGGGGGAATTATGTTAGGTTCAATTTGGAGATCAATTAAATTTTTAACACCAAGTTTTAATAGAGCTTTATCAAAATTTGGATATGAAATGGCAGCAAAAAATTTTCAATTTGAAGATTGGAGGTTTATGAATTTTGGATATGTTTATGAAAATGATAAAGATAGTCCAGTTTTAGAAAAAACAGATGAATTAGATAGATATTTCATTCAATTATATGATCATTTGATAAAAGATTTAAATGTCGAAAATAAAAAAATTTTAGAAGTTGGTTCTGGAAGAGGTGGTGGTGCAAATTATATCTCTAAATACTATAAACCACTATCATATGTAGGGATTGATATTTCCCAAAATGCAATTGATTTTTCTAATCGTGTAAATAATATAGATACATTATCTTTTGAACAAGGAGATGCTGAGAATCTTTCTTTCAAGGATCAAACTTTTGATATAGTGATTAATGTTGAGTCTTCTCATTGTTATGGTAGTTTTGATAAATTTTTGTCAGAGGTATTTAGAGTTTTACCTTCAGATGGATATTTTGCTTTTACAGATATAATGACAATAAGTAAGTGGAATGAAATTGAAAAAATAATTAATAATTCAAAATTTAGAAAAATTTATGAAAAAGATATTTCTCAAAATGCATTGAATTCATTAACCAAAGTCTCTGAATGGAGAAAAACATGGTTAGAAGATAAATTCCCCTCATTTGTTAGAGGTGTAGCTGAAGATATTTCAGCAGTTAAGGGAACTAGACCTTATAATAAACTTGAAAGTGGAAAATTAATTTATAAAACATATTTATTTGTGAAAGATTGATAATTTATATCCTTGATATAAAAACCAAAGTCCAATAATACTTATGTAATGAAAAATATCATTTTTATTAAAATTCTTATGTATGGAAAATCCACTTTTCCATACAATTAGTCCTAAAAAAATTATTAAAAATCCAAAAAGCGTTTCTTTTGAGCCAATATAATTATTGGTTAATTCAATATAAATACCAAAAATAATAAAAAGTATGATTGGTAATAAACTTATTATTAATTTATTAAAATTTTTACTTACACATTGATAATAAAAATAAATAATTAAGAATAGAAAAAAACAACCAACTATAAATTTTAGATTATGTTCTAATAATATATCAATGTAAATAAATGAAATTAATAGTAAAACTAATCCTATAGTAAAAACAGCAATTTTAAAATTAAACCCTATTAATTTATTTGAAATCATTTTTGCAAACATATGAAAAAAAGAACCTAAAATCGAACTAATTGCTAAAACAAAAAATAAAATTGATGATAAAAAATGAATATTTAATTTATGTATTAAAAATAGTTTCCATAAATCATAGAACCAAAAAAAACAAAATAACGATAATATAAAATCTGAAATTGATGAAGAAGGTTCGTGTATTTTTTTAAAAATTTCTCTCATTAAATTATTAGAAATTTATTCTTTAAATTTTAGATAATAATCTCTATATCCATAAAAATTTCTATCAGAATTTAAAATTTTTTCTAATTTTGATTTTAATTGATATGAAAAATCATTTGGATGAATTGATATTCTAAGAGGTGTGTTAGTATAAACTGAAATTTTTTCACTCAAAAAATTTATAAATGAAACAGTAATCACTCTAAATAAATTATCAGTTTCATAACCTACTAGAGGCATCCTTTTAAATTTACCTTCAAAATAAATTCCTGATAAAGTCTCGATTATTTTATAAGATGAATTAGAAATATCTTTTTTAGTTATTTTACCAAGAGCCCAAGCTGGAGGTACATAGGTTATAGGTTTTTGAAATTGATTTTTTTCAAACCATTCTAGGCAATCGTTCATTAAAATAATAATTTCTTCATTTGATAAACTCAAGTGTTCAGCAACATTCCTTGAAATAAAATTTGAATGTAATTTATGATATATAGTTGAAATATTTTTGGTCTCATGATACCATCCATGTCCAGCTATTTCATAACCATATTTTTGTATGGTTTTTAAAAAATTTATATCATTTTTATTCCAATTTTTACCTGGTACAACAAGTAAAGTTGGTGGTGAGCATTTTATTTTTTCAAGTTTCTTTATTATAATTTTTATTTTATCAAGTGTGTGAGGCATAATATCATGAATTGAAATAATTGATTGATTCATGACTTAATTTATTTTAGAAATTTTATTTATGGTTTTAATCCATTCTTTAATAGTTTCCTTAGTTAATTTTCTAGCAATTTTGGAAGAATCTGTACTAATTTTTTTTATTTTTGAATTAGGTAAAGAGATTATTTCTTCTAGAGTTTTTGTTAGTGTTTTCTCAGTAGAAGTTTTAAACAAATAAGAAGATAAATCACTCCAATTTGTGATTCCTGCTTCAGGTGAAACAATTACAATTCTACCTCTACTCATGCCTTCAAAAGCAGCTGTACCAAAAGTTTCTAAACTAGAAGGTAACACTAATATTTCAGAATCATCTAATTCTTTAATTAGCTCTCTTCTTTTTAACCAACCTAAATATTTTATATTATTTAATTCTTTTTCTTTTTTAACAACTAATCCTTTTAGAGGACCATCACCTGCAAAAGCAAATTTAATATTAGGAAGATTTTTTGCAGATTCTAAAACTTTATCTATTCTTTTTTCTGGAGCAAGTCTACCTGCGAAAAGCACTCTTCTAATTTTATTATTAATAGGTTTTAGGGGTTTATCTAAGAATTCTTTTGCTAAAGGTGTACCAATAGAAACAATTTTTTTTGCACCCATTTTTTTAGCTAATTCATTCATTTCTTTATTCATGATTAATGTTATATTAGCTGTTTTAAAAAAAAGTCTATTGAGCCAAACAAAAATTTTATTTATTATAAATCCAATAAATCCACCCCAGTAAAATGATGCTAAACCTTCATAATCATTATGTAATACAGGACATATTGGAATATTGATTTCTTTTGCTTTTTTTAATGCTGTTAAACCATAAAAACCTGGAGTAGGAAGAATTATAATATTTGGTTTAAAATCTTCGATATATTTTGATAAATGGTAATATTTTGGTATATATAATTTTTGAGTGTTATCTCCAGGCATTGGTACTGTGAATAATGTATTTATATCGTTGTTTTTTGATGGACCAAATAAAATTAAATTTTTTACTAACGGTGTAATATGTTCAACTAAATCTCGATAATAACTTCCAGCTCCATTTCGATCAGGAAGAACATCCAAAACTATCATGACTTTAAGATTTGATTTTTTGTTAATTTTTGATTTTGTTGTCATTTTTATTGAAATTAAAAATTATTAAAATATTTATATACAAATTGAAACCTATTTTTTAAGTCATTAATATTAATGTTAAAGTTATCTAATTTATAATTATGGCTACTTTTATAATTCTTATTTTTTTGGTCTTCCTCATCTAAAATAGTTTCAAATTCGGGAGGAATTTCATAATTAAAAGTATTAAAAATATTTGTAATTTTTAATTTAAAATCTAGTTTTATGTCTTGAATTTTTAAAACAATGAATTGATTTTGATTTTTTAATTTTGATAATTTAATTAACTCTTTATAATAATTTTCAAAAATATTAATTATAGGGTCTTTAAAAAATTCATTTTCAAATTTATTATTAAAAATTTTCCATCCTTCAGCTAATATACTTAATTGAGATGGAATTGTTTCTTCAGGTTTTCTAAAGCAACTTATATAATTGCTATTAGGGAAAAAATTTAGTAAGTCTTTTACCCAAGGAGAAAAAGAGGCATTTTTTGAGAGATATATTTTTTCTTGACCATAAAAATATAAATGCCTTTTGATCATACTTTTGTAAAAAGTTAATATTTTAATTTTACTTGTAGGATTAATTTTTGAATTAAAAAATCCTAAATCCCAAATTTCTTTAAATGGAAAAGGAATTATTAGTAAAAAACATGCACCTATGGATGTAAAAAGAAAAAAATCTTCCTCAGGTGAACTTAAAGTTGTTTTATGCATAGAATTAATATCTTTAAAAGCTTTTTTTTCAATTAAGTTAAGAACTTTAGTTAAAGGTTTTCCAAATAACGTATCAACTTTTATAAAAAAATGAAAAATTTGTTTTTGACAAATGGATGGAGCAAAAATTAATTCCCATAAAGAAAATGTTGTAAAGATTGATGAATTTTTTGATATAACATTATGAATGTATGTAGTTCCACTCCTTGGTATTCCAACAATAAAAAGTGGTTTTTTAATTGCTACTTTTTTGTAACCTCTAAAAAAAAAATTATCTAAAAACAAAAATATTCTATTTGATAATTGAATTAATAAAAATGTTGGGATAAATAAAAATAAAACAACTAATCTTTTTAAACTAAAATTTTGCACATAATTATTTAAAAATATTGTCTTAAACGATAATTTAAGAATTAATAAAAAATTATAATTATTCATTTAATCTTGAATAAATTTTTCAGCAAATTCTCTCATGCAGCCATCGCCACCTTTTTTCGAACATATATAATCTGAAATATTTTTAATTTTATCAACAGCATCAGATGGACAAGCAGAAAAGCCAACATGTTTTAATAAATTAAGGTCATTCAAATCATCTCCAATAAATGCAACTTCAGACAATTTAATTTTTTGTTCTTCACATAATTTTTTTACAAGTTCTAGTTTGTTTTGAATTCCTTGAAAAATAAAATCAACACCAATTTTATTTCCTCTTTTTTTTACAATAGAAGTGTTTTCTGAAGTTACAATTGCAGTTTTAATTTTATGTTTTTTGAGTATTTCGATGCCCTTTCCATCTCTTGTATTAAATTTTTTCAACTCATCTCCGTTTTCAGTATAATACATACCACTGTCTGTTAAAACACCATCTACATCAGTACAAAATAATTTAATTTTTATTGGAATATTTAAATTATTTTTTTCAATTAAGTTTTCTCCTATTTTCCAATCAATTTCTTCATCTATTTCAAAATAGCTGTTTTGATTCATTTCATAGTAAGAAATTTTACCAGAAATTCTACAGTTTGACTTTAATAATAATTTTTTTGATGTAATATAAAAAGCTCCATTTTCAACAAAAAAACCATTAAAATCTTGTCGTCTAGGTCTTTTTTCAGGAGAATAATTATATGGATTTATTAATTCATTATTTTTTGACCAAATGAATCGTTTTTGTCTTACAATAGAAATTAAACTATCAAAATTGTTGTTTAAATATTTATTTATACCTCTATCTAAATCTATTGATTTCAGAAAGGGAGATGTTGCTTGAATGAGTACTATGTCTTCGAAATCAAATCTACTTGCAAAATCTATCATCGCACTTTCAGTAGTAGATGAATCTTCCGCAGTGCTTTTAGGTCTACCTATAATTTTAAGTTTTGGATTAGAAATTTGGTTTGCAATCTTTTGTATTTCTTTACCATCAGTTGAAACATAAACTTTATCAAAGTAAATACAGTCCAAAGCAGCGTTTATAACCCAATGAATTAAAGGCTTTCCAGCAAAAAATTTTATATTTTTATTTGGAATAGATTTACTACCAGATCTTGCAGGTATGAATGCTACTATTTTTTCCATTTTATTTTTTTTAATTTTTTTCTCTGAGATAATTCAATTTCTAAAATTTCATTATTTTTTTCACTTAAACTTTCGTTTAATGAATCAAGGTCCCTAACTAATTTTCTCATTCCTCCTGGTTCAAGAGATGCAGCATGATCAGTTCCTTTCCAAGTTCGATCTAAAGTAAAATGTCTTTCTATCCATTTTGCACCTAACATAAAAGCTCCTAAATCAATTGCAATACCTAAATGATGTCCTGAAAATCCAATACTATTAACCCTTTCTTCATATAATTTTTTTAATCTAGAAATTTCTTTAATACATATATCTTTGAACGGAACTGGATATCCAGAAGTGCAACTATAAATAATTAAATCATCATTTCTATTATGTTTTTCAAAAAAATTAATAATTTTTTTTTCCTCAGCATGTGTAGTCATTCCTAAGGATAAATGAATTTGGCCATGATATTCTTTACAAAGTATTTCTAGTAAATTCATATCCATATTGCAAGCAGATGGAATTTTAATAAATTTTGGATTAATTGAAATTATATCTTTAGCTGATGATATATCCCAAACAGATGATGAATATTCAATATTAATATCATCACATAATTTTTTCAATTCAATATGGTCTTCTATGCTCAATTCTAAAAATTCTCTATGTTGTCCATATGTATTTCCATAAGATTTTGATTTCACTGGATGCGGTATTTTATATTCTTTTTCACTTAATAATTCTTTAGGATTTCTTTTTTGAAATTTTACTATATCAACCTTGCAAAAAATCTTTGCAGTTATAATCATTTCTTTGGCAATATCCATATTCCCTTTGTGATTACATCCAATTTCTGCTATTACTTTTGGTCGCATATTATTTTTAGAATTTGCTTATTTATTCAAATAATTTTTAATTGAATCAAATTCGATAACTCCTATTTCATTGAGAAGTGGTCTTAATTTATTTAATCTAATATCGTTTTTATTTCTAATGAGAACAACATTTAAATTTTTTTTTATTAATTTTGCATAAATCATTGCAGTAGATACATCACCTATTATCGTAGTTTCTTTTTTTAGGAAAGGTACTATACATTCAAATGCAATATCAGAATTAATAATTGTAAAGTTATTGTCATTTTTGAAATTTAATGGATCTCCATTTTGAAAAGGATGATATTTAATTCCGATTTTATGAGATGATTCATTATTGTCAATCAAATCATCTTTTAATTTATTATAAAAATTCCAATATTTTTTCAATTCTATTTGATGAGGTAGAATTAATATATATTTTAAATTATGAATATTTGAGTTTTGTTTAAATGAGTAGAGAATTTTTTTTAAAAAATCTAAGTAAATATTTTTTTTGAAATATTCAGATTTTAATAAAATAGGATTACTTTTTTTTAAATAGTGATGAACAAATTTTGGAAATGCTACAATTGAACTATTTATAAATTTAGAACTACCTACAATTCTTGTTCTATTGTACCAGAATCCATAATATAATTTTTTGACTAAAATCTCTAGAGGAGATTCCCAAGAATATTTATGAATAACATAACTCATTATACCGTCATCTATGTATATACATTTAATATTTTTATTTAATTTTTTTAATAATTTATAAGCATAAATAAATTCAATTCTTCTATCATTTGAAGTATAAATCTTTGAAAAATTTATTTTATTTAATTCTATATATATATCTTTAAAAATATTTTTACGGTGTTGATATTTGTTTAAATTTCCGCTGGACTGGAAATAAAGAATTTTTTTAAATGGTGATTTTTCCCAATTTTTGAGAATATTATAATAATGATTTTCTCTATCTTTAGGTTGGTCAATAAAAACAAGAATGCAATCATTAGATTCATATTCACCTAGTGCAATAATTAGCGAGTTAAGTACATGAAGTGGAGTAGATACAAAAAAAATAGATGAGTTTTTCATATTTAAGCTAAACTTTAATAACATAAATTGATTAAAATAGTTCATATAAAAAATAAAAAAACATAATGATGAAAAATTTATATTTACAAAATTATTCTCTTAACGAAATTCGTATTGGATATAGAAGTGATAAATATTTTAAAAGAAGTAAAATTATTTTAGAAAATAAAAATGATTTACGAAAAGTAAAAATTCAAATATTTCAAAGAGAAAAATCAATTCTATGTGGTATTAAAGAATCTATCGAAATATTAAAACAATGTGTTGGTTTTTATAGTGATAAAAAAAAATCAATTAAACTTTTTAAAAATTATCTTAGAATAAAAAAATCAGATAAGTATAAAGATTTAAGATGTCTACAAAAAGATTTATTTGAAGTGGAAAAAGAGCTTGATAATATTTGGGTAAATACTTTTAATGATATAGAAATTTTTTCTTTAAACGATGGTGATATTATCAATCCCTGGGAAACTGTTATGACCATTGAAGGATCATTATCATATTTTGTTAATTTGGAGACTATCTACTTAGGTATTTTATCAAGAAGGACTAAAATAGCAACTAATGTAAACAAAGTTGTTTTAGCTGCAAATAAAAAACCTATTTTGTTTTTTCCTGCTAGATTTGATCATTTTTCTTTACAAGAAGGAGATGGTTATGCTGCAATAATTGGTGGAGCTGATTCAATATCTACTGATGCACAAGGTGAATGGATAAATATAGAAGGTGTAGGAACAATCCCTCATGCTTTTATTTCTGCTTTTAACGGCAATACTGTAAAAGCTGCTGAGCTATTTAATCAAAACTTTCCTGATATTAAACTTATAGTTGTTGTTGATTATGATAATGATTCAGTTAAAACCTCTATAGATGTAGCAAAACGATTAGGCGAAAAATTATGGGCAGTGAGAATTGATACTTCTTCAAACATGGTAGATCAATCAATAATATCTTCAATGGGAAATTTTATACCAACTGGTGTCAATCAAAATTTAGTTATGAATGTAAGAGATGGTTTGGATAAAAATGGTTTTAAACAAGTTAAAATAATTGTATCGGGTGGATTTGATTTTAAAAAAATAAAATTATTTGAAAAAAATAATGTTCCAGTTGATATTTATGGAGTTGGTTCTTCAATTTTAAAACATAATATTGATTTTACCGCTGATATTGTTACGTTAAATGGAATCGCTTCCTCTAAAAAAGGAAGAAAGATCAATAAAAATTCTCGTTTAAAACTAAATAATTAAAGGACTTGAAAATGAATGAAACAGCATTAATTATAGTTGATGTTCAAAATGATTTTTGTGATAATGGAAGCTTACCAGTTCCTAATGCAGAGCAAATCATTCCAGGTATTAATAAGATAATAGAATATTTTCATAGTTCTTTTCTTCCTGTTTATGCTACACGTGATTGGCATCCAATTGATCATTGTAGTTTTAAATCAAATGGTGGATTATGGCCTATGCACTGTGTTCAACAAACAAAAGGATCTCAAATTCACTCTGAACTTTTAATTGATAGCAGGGTAACTATTATTAATAAAGGAACAGATAAAGATAAGGAAGCTTATTCTGGATTTGATGGTACTGATTTTTCTCAAGAACTAAGAAAAAGAAATATTTCGAAAGTAATTATTACAGGTTTAGCTACGGATTATTGCATTAATTGGACAACAATAGGAGCTCTAAATAATGGTTTTTCAGCTACAGTTATTAGTGATTTGATTAGAGGCATTGATTTGAAACCAGGAGACTGTAAAAATGCAATAAATGAAATGAGTAAAAGCGGAGCAAAATTTATTAATTCTTTTGAACTAAATTAATGTTCTAAAATATTTTAAAAAGGTAATACTGAAAATACAAAATGATTGAAGTTTATACTGATGGAGCATGTAAAGGTAATCCTGGACCAGGTGGTTGGGGAGTAGTTATTATTGATTCAAATAGTGAAAAGTATTTAAAGGGTTTTCATCCTGAGACTACAAATAATATCATGGAATTAAAAGCTGTAATTGAAGCTTTAAAACAAATTAATTTGAAAACTAAGATTAGAATCTATACTGATTCAAAATATGTAAAGCTTGGTATTACTGAATGGATTTTCAATTGGAAAAAAAACGGATGGAAGACTTCTTCAAAAAAAGATGTTAAAAATAAGAATTTTTGGATAGAACTTGATCATTTAGTTGGTCAAAATGAAATTGTATGGGAGTGGGTAAAAGGACATTCTGGAAATAAATATAATGATAAAGTAGATGAGTTAGCTAATCAAGCAATTAGTGAAAATTTATAAATAATTTAATCATTTTTTAATTTGCTGATATGATAATAAAGCATCATTTCTAGAATTTTTTAAATCTATAATAGGTTTTGGGTAGTTATCACCTAATTTAATTCCAGATTTTTCTAAAATTTCATCTGGACATTCCCATGGATTGAATAAAAATTTATTTGGAATATTTTTAAGTTCAGGAACAAATTTTTTTGTGTATTTTCCATCTTCATCAAATTTAAATCCTTGAATCACAGGATTGAAAATTCTAAAGTAAGGAGCAGCATCAGCTCCAGAGCCTGCTACCCATTGCCAACTTGCACTATTATTAGCCAGATCAGCATCAACTAAACAATTCCAAAACCATCTTTCTCCATATCTCCAGTCAATAAGTAAGTTTTTTACTAAAAAAGAACCTACTATCATTCTAACTCTATTGTGCATATAGCCAGTCTCCCACAGTTCACGCATTCCAGCATCAACAATTGGGAAACCTGTTAAGCCTTTTTTCCATGCGGAAAATTTTTTTTGATCATATTTCCATGGGAAAAGGTCAAATTTTTGTTGAAAATTTTTTGTAGATAAATCATGATTAAAATAAAGGAGATTGTATGAAAACTCCCTCCATCCAAGTTCACTTTTGAAATGATCTGTATTGTTGTTTGGTTTTTTTTTTTTCAATTTCATACCAAATTTTATTTATAGAAATTTCACCAAAATGTATATGAGGTGAAAGTTTTGAAACATTTTTTTTTGCAGGAAAATTCCTTCCTTTTTTATAATTAGATAAACCAGTATTTATAAATGTTTTTAAACTTTTTTTAGCGCTTTCTTCACCAACTTCCCAATGCTTTTCAAGTTTTGAATACCATTTAAAGTTTGTTAATAGATTAAGTGAATTTAAAGTTTGACTATTATCATCTTTAAAACAATTTAAATTAGGTTGATTATTTAAGGGTCTTTTAGGGGGATTAGAGTTTAAACAACCTTTTTTATAAAATGGAGTAAACACTTTATAGGGTGTTGAATCATCTTTTTTTATTGATTCTGGTTCCCATAATAAGGAAGAATTAAAAGTTTTTATTTCAATATTATTTTTAAAAAGATTTTCTTTGATTTTAGTATCTCTTTTAATTTGCCATGGTTCATAAGATCTATTCCAAAAAACTTTTTTAATTTTATATTTTTCCACGATTTCAAAAATTATTTTATTAGGGTCTCCTTTATAAAAACATAAATTATTATTTAGAGATTCATTTAACTTTTTCAATGAATGATGAAGCCACCATTTTGACGCTTCCCCCAACTGAAAATGGTTATCTACAAAAGTATCTAATATATATATAGTTATTATTTTTGAATCTTTTGATGCTTCATATAAACTTGGGTTTTCATAAAGTCTCAAATCATTTTTGAACCAATGTAAATTCATAAAGTTTTAAAAATTGATCAATGTATTCATAAATAGAGATCTTCCAGGTTCGGAATAATCATAAACACTTTGAATATTTTTTTTGTCAAGCAAATTTCTAGCTCCTATATCTAAATTTACTGTTTTAGATAAAATATTCAAATTTAGTGACACTGAAAAATCCACTCTTTCGTAATTTTTAATAATAGAGTTTTCACCATAATAGCTGTATCTTTTATTTTGTAAGTTTCTATAACTTATTAATGATGAAAAATTATTAAATTTAATTTTCAATTCAGACCAAGATGAGTTTGAAGGTACATATAATAATTCCATTCCTTTATTTTCACCTTCAGATAAAACTTTACTATTAATTTGACTAAATCCTGAATTAACTTCAAAAGGAAAATCATTTAATTTAATTTTTGATTTAATACCAAAATTACTTGATTGAGAGTCAAGAACATTTTGAGGCGAATAAACAAAATTTTCATCAGGTGACCATTGAATTAAATTGATAGTTTTAAAAAATGAACTATATAAAGAAAAATTTAATTGATTGTTTAGTAATGATTTAATTGAAACTTCCCCTTGAAACGAAGAACCTGTTTCAGGTTTTAAATTTGGATTACCTTTTGAAAATCCACTATCTAACCAAAAAAGATCATTAAAAGTTGGGTTTCTAAAACTTGTTCCACCATTAAAAGTAAATTTTTTAATAAGTGAGTTTGTATTTAATATAAATGCAAAATTGGAAGATGATGAAGAGTTATTTGAATGATCATCCCAATCAAATCTAATACTTGGAGATATTCTTAAGTTTTTGAAAATATTATAGTTTAATAAATAAGTTGATCCAATTGTATTCATTTTGTGATTTCCAGTATCATCACTTTGAATATTCATGTTTGCAAAATCTAAAGTAAATATATTAGTTATTTTTTTTTGTAATTTAAATCTATGCCCAAATTTTAATCGATTAGTTTGAACTTCATGATTTGAGTCAGTCATCCAATCAGGATCAACGTAATTTTCAGATGTAGAGTGATTTCCAGCTGAAATAGAACTATAACCAAATTTTGATACAGTTGTTGCTTTGAAAGTAAACAAAATATCATTATTTGTTTTAAATGCATTAATTGATGGATAGGTTAAAGAACCAGGAATTCTTCTATCTGTATCTAAATAAATTAAATTAGATGAAATATCCCAGCTTTTAGAATTAAAATTAAAATTTAAGCCTGAACTAAGTTGTTCAAATTTATTGTTTTTTCTAAAATCATTTTCATTTTTATAATTATTAATCAAAAGAGAAAAATTTGAGTTTTTAGAATTTATATTTCCATTTAATGATATTCCTTGTTCTCCCATAGAGCCACTTTTTAATTTTACATAATTAGGTTTCGAACTTGGTATTAAGTTTAATATTCCGCCAACTGCATTAGAACCATAAATTGATGATCCTTGTCCATAATAATATTCAGCATGTGAAAAAAAATCACCAGGTAAACCACTAAAGTCTACTGTTCCATTTTGTGGAGAATTAATTTCAAAACCATCAATTAAAACTAATATATGTTCTGAAAAACCTGTTTGAGAAGATATTGTTTTTAATCCTGCAGTACCACCATAATCTCTGATGCTTAATCCAAATCTGTCTAATTTTTCACCAAGACTATTACCATGAGAAGGAAAGTCAATAGAATTTATTTTCTCATGTTTGAGTGGTAAGTTGTCTGATTCAAAATTATATTTATTTCCGAAAACAATTATTGGATCAAAAAAAAATATTTTCTTATCTAATTTTATAACTTTATTTAACTTTAAATCATCAAGAGTAACTTTTAAATCATTAAAATTTGAATGAGAAATAATTATATTAGAATCTTCAAATTCATTTTTAGATATTATAAATTTTCCTTTCTCATTAGAAGTAGTTATTAATTCAGATTTATTTTCATCTGAATAGATTGAAGTAAATGGAATAATTTTACCATTTGAATCAACAACTCGATTTATAATTAATTCATTGTTTGCTTTAGAAAAGTGAAAATTGGATAATAGAAAAATTGTACATAAAGTTATACGAGGAGTCATATTTCTCTCCTTTCCCTCGAAAGTTAATAATGAGAATTTGAGTAGTATAGATATCCTGACTTAAGTTTATTATTAAACTCAATACCTTCCCACCAATTAATGGCAGTGGTTTCCAAATTGCTTTGGAATTCGAGTCTTTAAACAATTACAGTAGCGGGGCTGTACTCGATTTTAACGAGTTTCCCTATGATTACTCAATTAATTTAATTTTAGAATATAATTTTGTAATATTATAAAACATACTTTTATATTGATTGAATAAAGACCTTTAAATAAATTAGTGATATAAATAATTTATTAAACCTTTGAAATCTATAAAAAAACCAATCACAAGCATTTTAAATAAACAGGTTTTAGTGCTAAATCAAAATTACCATCCCTTATTGATTTGTACTGCTAAAAGAGCAATTTCACTTGCTTTTTTAGGCAAGGTTAAAGTGGTTGAAAATTATAAACAAAGAGTAAGTTCACCTTCATTGACTATAAATTTGCCAAGTGTAGTAAAACTTGATAAATTTGTTAATGTTAGAAATAATAAAATTGTTTTATCTAGAAAAAATATTTTAAAAAGAGATCAACATCAATGCCAATATTGCCTAAAAACAGGTGTTCCAATGACAATTGACCACATTATTCCTAAAGAAAAAAAAGGCCCTGATAGTTGGGAAAATTTAGTTGCATGTTGCCATAAGTGTAATATCAAGAAAGGTAATAGAAATCTTGAACAATCAGAAATGAAATTGATTAGAAAACCAAAGCAACCAACTAGGATTCATTACATTAGACAATTTGTTAAAAGAGATCAATCATCTTGGAAGCCGTACTTATATATGGGAAATAAAGAATTGAGAGCTATTGCTTGAAAAATAAAAGAATATTAAGTGGAATTCAGCCTTCTGGTCAAGTTCATATTGGAAATTATTTTGGTATGATGAAACAAATGATTGATTTACAAAATGATAATAAACTACTTTGTTTTATTCCAAATTATCATGCGTTAACTTCTCAAAATTTTGGTGAAAATTTATCTTATAATACTTTAGATACTGCTGCAAACTTTTTATCATTAGGTTTAAATCCTGATAAATCAATTTTTTGGGTGCAATCAGATATCCCAGAGGTTGCTGAACTTAATTGGATTTTAAGTAATTTTGTTTCTGTCTCATCTTTAGAGAGATCAACATCTTATAAAGATAAAATTTCTAAAGGTTTAAAACCAAATCACGGTTTATTTAGTTATCCAATATTAATGGCAGCGGATATTTTATTATTTGGTGCGGAAGTTGTTCCTGTTGGGAAAGATCAAAAACAACATCTTGAAATAACAAGAGATATTGTATCAAAGTTCAATTCAGTTTTTGGTGATTTGCTTATAAAACCAAAGCCCTTAATTACTGAGTTAACAGGTTTAGTGTTAGGAACTGATGGTCAAAAAATGTCTAAGTCATATAATAATTTTATAGAGATTTTTTGTGATAAAAATGAACTCTCAAAAAAAGTTATGAGAATTAAAACTGATAATTCTTCATTAGATCAACCCAAAAAAACAACAGGCAATCCCTTATTTGAAATTTATTCTTTGTTTATAAATGAAAATGAAAAAATTAATTTAGAAAAAAGATTTAAAACACCAGGTTTAAAATATTCGGATGTTAAAAATGAATTAATTGAACTTTTCTGGAATTATTTTTCTATTGCTCGAGAGAAAAAAAATACTGTTTATTCAGATAAAGAATTAATCATTAAAATTCTCAAAGATGGATCAGAAAAAGCAAAAGAATTATCTTCACCAATAATAAATAGAATTAGAAAAGAAACAGGGTTGAAATATACAAATTGATGTCTCATCAAATTAATTTAGAAAGTTTTAGTGGACCACTTGATTTATTACTTTTTTTTATTAAAAGAGATGAGATAGATATTATGGATATTCCTATTTCAAAAATCACATCAGACTATTTAAATGCAATTAAAGATTTAGAACAGATTAATTTATCAAATGCTGGAGATTTTATTTATATGGCATCAAGTTTAATGAGAATTAAAGCTAAAATGTTACTTCCATTAACTAATGATAATAATGAAGAAGAGTTTGATGATCCAAGAATAGATTTGGCTAATAAACTAATTGAGTATCAAAAATTTAAAAATATTTCAAATGATTTAAAAAACATGTATACACAACAATTAAATTTTTTCCCATTTAATTTTAAGTATATTCAAAAAGAAAAAGATTACAACAATTTTAATTTAGAAAAAATTTCTTTATTTGAGTTTGCAAGTTTATTTAAAACTTTAATTGAAAAAAAACCAATTCAAATAAATTATGATTTAAAAAAAGAAAAAATAAGAGTTAAAGAAAAAATTTCATTTATTTTAAAACAACTTTTTGATTTACCTAAAATATTTTTTTCAAAATTATTTAACCGAAAATCACAAAAAGATGATATTGTAGTTACTTTTGTAGCTATATTGGAGCTTATTCAAAATAAAAGAATAAAAGTAACTCAGAAGAGTAATTTTGATGAAATTTTAATTGAAAAAATAAAAATTAAATAAATATGGATGATTTAAGAATTATTGAGGCACTTCTCTTCTCATGTGAAGATATTTTGACTCAAAAAAAGGTAGATTTATGTTTTGATAATTTAAAACCACCAGAACTAGATAAAATTGTTAAAATTTTAAATCGTGAGTATGAGAAATCAAATAGGTCTTTTTTAATTCAAAAAATTTCATCTGGTTACCGAATTGTTACACACCCAATTTATTCAAAATGGATTAAAAAAATGTTTAGAGAAAGTTCAAGTCTTAGTCAACCTGCATTAGAGACTTTGGCTATTATTGCATATAAAGGTCCTGTAACTAGGTCTGATATTGAAAGTATAAGAGGGGTAGGTTGTGTGGGAGTACTAAAAACTTTACTTGAAAAAAAATTAATAAAAATTAATGGGAGGTCTAAAGATATGGGGAAACCATTGATTTATGGTATAACAAATGAATTTTTAATTGCTTTTGGAGTGGATTCTATATCTGATTTGCCTAAATTAAAAGAAGTGAATGAAATAATTAATCAAACATCAACAATTTGATTGTTTTATGATACGATTAGTGAAGTTTTTATCAAACTCTGGAATTGCTTCAAGAAGAAAATGTGAAGTTATAATTAAAGATGGTAGAGTTAGAGTAAATAAAATATTAAATAAAAATCCTTTTTTTGAAATTAACTCAAATGATTTAGTTGAATTAGATGATAAAATTGTTCTTCCAGTATTAAAAAAAAAAATAATTAAATTAAATAAGCCAGTTAACATAATCACATCAACTAAGGATACACATAATAGAAAAACAGTATTGGATTTAATTTCTGAAGAAGAAAAACTTTTTCCTATAGGAAGATTAGATAAAGATACTACTGGTGTATTGCTTTTAACTAATGATGGTGACTTAGCTTATAAATTAACTCATCCAAAATTTAAAGTTTTTAAAATTTATTTAGCGATTTCTTTAAAAAAATTTAACTTAACCCAAATAAAAAAAATTAAAAATGGAATAAATATTGGAGACGAGGAATTAGGACATGCAGAAATTATATCACAAAAAAATATTAATGAATTCTTTGAAATAAAATTAAAATTATTTCATGGTAAAAAAAGAGAAATAAGAAGAATATTTAAAGTGATGAATATAAAATTAATTTCCCTAAAAAGATTATCTTTTGCTGGTATTTATGTTGACGATTTAAAACTAGGTGAATATAAAAATTTAACAAAAGCTGAAATTGAATTATTAAAATCAAATGTAAAAAATGATTAGAAAAATGTTATTATTTTACTTAAAAACTTTTATTTAAATTACTAAGCTAAAATAAGATAAGTTTTATGATAATTGCTATCGATGGACCAGCTGGTTCAGGAAAAAGTTCTACTGCAAAAGGCGTGTCTAAAAAATTAGGTTTTTTTTATTTAGACACCGGTGCTATGTATAGAGCTGTTACTCTTGGATTAATAAAATCATCGATAAAATTTGATGAATTTGAGAAAATTGAAAATTTTATAGATAATTGTTCAATTAATTTTAATTTTGATGGTTCAAAAATTAATTTAAATGGTAAGAATATATCTAGAGAAATTCGTGAAAATTTAGTTACATCAAATGTAAGTGAAGTGAGTAGTATTAAACTTATAAGAGATAAAATGGTTTATTTGCAAAAAAAAATTGTAAAAAATGACAACTTTGTAGTTGAAGGAAGAGATATCGGAACGATTGTTTTTCCAGAAGCTGAATTTAAATTTTTTCTTAATGCAAATATTAAGCAAAGAGCAATTAGAAGAAAAAATCAAAATTTTAAGCAAGGTATTGAGAAAAATCTTAATGAAATTATATTAGAGTTGAAAGCTAGAGACAAAAAAGATTCTACTAGGGAAAATTCACCATTGGTTAGGGCTAATGATGCAATTAGTATAGATACATCTAATGTTACTTTAAATGATCAAATTTCATTAATTTGTAATTACATTTATAACTTTAATTAATCAGGAGATAAATAATAATAGTGAGTATAGATAAAAAAGATAATCAATTAAACAATAATATAGATGAATCGATAGATGCTAATGACTTAGTTGAGGAAAGTGTTTCAGGTGAGAAAATGGAAGCTGAAAATTTAGTTGAAGATAGTATTTCAAATGAGTTAGATGAAACTAATGTTTCTATCGATACAAAGAAGACAATATCGTCTGAAAAAGAAAAAAATGAAAGTTCAAAAATTAAAATTGAAATAAAAAATTATCTTGATAAAAATTTATTTGATGATATTAAAATTATTGAAGAATCTGAAGTTTTCAAAGATGAAGAATATGTTGTAGATGATAAAGAAATGAATAAATATATTAGTACATTTTCAGATATAGCTCAAAATCAAATAATTAATGGAAAAGTTATAGGTCAAAACGAAAAAGAGATTATAATGGATATTGGTTTTAAATCTGAGGGAATTATTCCTCGAACAGAATTTAGTACTATATCAATTCCTGACCTTGGTGATAATATGGATGTTTATCTTGAGAAAATTGAAGACAAGAATGGTCAAACCATTCTTTCGGTTGAAAAAGCTATTTGGATGAAGGGTTGGATGAAGTTAATGAAAATCCAAAAAGAAGATAAAACCGTCATGGGGAAAGTAATTAGAAGAATTAAAGGTGGAGTAATTGTTGATGTTGAGGGAATTCAAGCTTTTTTACCTGGTTCGCAAATTGATGTTAGACCAGTTCAAGATTTTGATGATTTATTAGGAAAAGAATTAGAATTTAAAATTGTAAAAATTAATCAACTTAGAAAAAACGTAGTTTTATCAAGGAAAGCATTATTAAGTAACTCAATGAAAGAACAAAGAGACCAACTCTTTGAAAATATTAAAGAAGGTCAAATAATGCAAGGGGTTGTGAAAAATATTACTGATTTTGGAGTTTTTGTTGATTTAGGTGGATTAGATGGTCTTTTGCACATTACTGATTTATCTTGGGGAAGAGTTAACCATCCATCAGAAATTACTTCAATCGGTGAAACAATAAATGTAAAAATAATTGAAATTGACTCAAATAAACAAAGAATATCTCTTGGTTTGAAACAGTTAGTTCCTCATCCTTGGGATAATGTTGAAGAAAAATTTCCTGTAGCATCAAAAATTAAAGGCAAAGTAGTTAGCTTAACTAATTATGGAGCTTTTGTAGAATTAGATACTGGAGTTGAAGGATTGGTGCATGTTTCTGAAATGTCATGGACAAGAAATATTAGAAGGCCTGATGAAGTCGTTCAACTTGGTGAAGAAGTAGAGGCTCAAGTTCTTTCTATTGATTTATCTGAAAGAAAAATAGCACTTGGTTTTAAGCAATTACAAAATGATCCTTGGCAAGAAGTTCAAGATAAATATCAAGTAGGGTCGATTTTAAAAGGAGAGGTTCGTAATCTCACTCAATTTGGTGCTTTTGTTGAATTACAAGATGGAATTGATGGTTTGATTCATGTATCAGATTTATCTTGGACCAAAAATGTTAATCATCCAAAGGAAATTTTAAAAAAAGGTGAAAATGTTGAGGTAAAAGTTTTAGAAGTTTCTAAGGAAAATCATAGAATTGCTCTTGGTTTAAAGCAAATGAGTGAAGATCCTTGGGACGATATTAAATCTAATTTTTCAACTGGAAGTAAAATAAATGGTAAAGTGTTAAAAAAAATAGAAAAGGGGATAATTCTCGATTTAGATTTAAACACTGAAGGGATTATTAAAACTCATGAAATGAGTGACGAAAATAAAGTTATTTTTGAAGAATCTATTGAAATCGGACAAGTAGTTGAATGTAAAGTGTTGGATATAAATCAAGATGACAAAAAAATAATTTTAAATTTTTCTGATGAAAAAAAACTTATTGAACAATTAAAAAATGATATTGAGAAATCATCAAAGGAAAAATAAAATTTTAACTATTTATTCAAAGATTTTTTAAAATTTTTATGAATAAAAATTTACAAAACTCAAAAAAAGGTCTCCTGTCAACATCTTTAGGGGCCTTTTTTTTTGCTATTATATTATGGTTATTTGTTATCTCTGAAAAAAATTATAGTTATGTTTTTGAAATGCCAATTGAGGTAAGGAATATAAGAGAAGGTAAAACTCTAGGTGGGGAAGTTTCTCCAACTGCAGATGTAAGATTTAGAGCAACTGGAAGAGAATTGTTGAAAGCATTATTGTTAAAATCAATATCTGATTTCAAATTAGTTCTTGATTTGGAACGAGTAAATACAAATTATGATTTTTATCTAAATGATTATTTTGAGAAGTATAATCAAAAAGTTGTTATTCCTAATAGTTTTAATATTGAATACGTCGAAATTATAAGACCAGAATCAATTCAAATATCTTTAGATGATTATATGGTTAAAATGGTAAAAGTAAAACCACTGATTTCTGTAGAGGTTTCTCCTGGTTATACTATTGTTGGTAAATTTAATATATTGCCAGAATTACTAGAGTTTAAAGGTCCAAAAGAAATAATAGAAAATTTAGATTTTATTGAGACTATTTCAAAAAAATTTAAATCAGTTAAAGCACCCATTAATGCAAAAGTTCCGGTTTCATTTAATTTTACCAGGGTAATTGAATCTTCAGATTCATTGATTACTTTTCAAGCAAATATTCAAAGTATTGGTGAAAGAATTCTTTCTGAAATTCCTGTAAAAATTTTAAATATTCCTGATAATATTCAGGCATTTCCTAATCCCTCAACTGTTTCTTTGAATATTTCTGGAGGAGTGGAATTTATTGCATCTCTTCAACCAACTGATATTGATGTTTATATTGATTATAATGATTTTACGAAAAATGAGATTTCAAATGAACCAAGAATTCAAGTTCCCAATGATGTTATAGAATGGAGAGATTTATCTCCAAAATTTATAGAGTTAACAATTAGAAGATTGCCAGAATGAATGTATTAGGTTTTGAAACATCATGTGATGAAACTGCAGTTTCTATTTGTTCTAATGGAAAGATTGTTTCATCAATTGTTGCATCTCAGCAGAACCATTCAAAATTTGGTGGAGTAGTTCCTGAAGTTGCTTCTAGGATGCATGAAAAATTATTATTAACAACAATGAAAAAATGTTTGGATGATAGTAAAATATCAAAAAAAAAAATTGATGCTATAGCAGTTACAATAGGTCCAGGTTTAATGGGAGCATTACTTACTGGAGTGAGTTTTGCTAAGGGTTTATCTGTAGGTTTAAATATTCCATTAATTGGTGTAAACCATATGGAAGCTCATTTGTTTTCAAATTTTATTGAATATCCCGATTTAGAATTCCCTTTTTTATGTTTGTTGGTATCAGGTGGTCATACTCAAATTTGGAAAGTAAAAAATTTTAGAGATTATATATTATTGGGTGATACAAGAGATGATGCTGCAGGAGAAGCTTTTGATAAAGGAGCAAGATTGCTAGGTTTATCTTATCCAGGAGGAATTGAAATTGAAAAACAATCTAAAAATGGAAATTCAAATAAATATAAGTTTCCACTAGCTTTATATAATTCAAAAGAGATTGAATTTAGTTTTAGTGGATTGAAATCTTCATTGCTAAGATTTTCTCAAAAGTTTAATGGTGAAATTCCTAAAAATATTATTTCTGATGTTGCAGCTAGTTATCAAAAAGCAATTGTTGATTCATTATTAAATAAATTGAAATTAGCTGAGCAAAAAACAAAAATTAGTACTATTGTGATTGGTGGTGGAGTTGCTGCAAATCAAAGTTTGAGAGAAAAAACATCAATAATTTTTAAAAATTCAAGAGTATTATTTCCAAGTCTTCAATTATGTACTGATAATGCTGCAATGATTGCGTTTCTTGGGGAAAAATTAATAAAAAAAGGATTTAAATCTAATATTTCAGTTGGTGTATATCCTAATTTGAAACTTAATGATTTAAAGTAAGAATGTCTCCAATTTTTAATCCATGGTATTTTCTTTTTATATTAATTATTACATCTTTAATAATTTATTTTAGTTATAGATCTCTATTAATAAGTTTAAAAAAACATTTTTTATTTTTATTCTTGGTTCGTTTTTTTATTATTTCAATAATATTATTTTTATTGTTGAATATTAGTATTTTTCAAACAAAAATTTTAGATAAAATACCCGTTACTAAAGTTTATTTTGATAATTCTATTTCAGCTCAATATCATCAATCTATATCAAAAGAGTCATTAATTAATAGTTATAATGATATTTTATTTCTTCTAAAATCAAATGACGTCAATTTAAAATTTAAACCAAATATTAAATCCTATAGTTTTGGAGAGAAAGTAAGTTTAATTGATTCACCCCTAGATATGAAAATTGATGAATCATCTACAGATTTTTCTTCGATTATTTCAACATTTGATGAAAACTCAGTTTTTGAAGACCTTCAAAATATTATCATTTTAACTGATGGTCAATCCACACTTGGTGATGATCCATTTAATTCATTCAATAAAATTAAAACCCCTGTATATACAATTGGTATTGGTGAAAATTACAAATTAGTTGATTTAAAAATAAATAAGGTGAATGTCCCAACATATGCTATTGAGGGTGATCCAGTAACAGCGGAAGTTATTTTAAATTTTAAAGGAGAAATTAATCAAAGAATAAATGTTTCTTTAGAAAATAATAAAGAACTCATTGGAACTCAAATAATTTCATCAGGAAGAGATGGTTCAAATAAAATAGTAAGATTTCAATTTAATGCAAATCAAAATGGATTGAATGAATATTTAATAAAAGTTTCTACTGTGAGAGATGAAATTAATATTGATAATAATATTTATAGATTTAATATGAATATAATAAAAAAAAAATTTAACATTGCAATTTTAACTGGTTCTGCATCATTTAACACAAGATTAATAAAATTGGTGTTATCTGATGAATCTAAATATTCTATTGATCATTATGTTAATTCATCAAAGTTTTGGAATAATCCAATTTCTAATTTTTGGAAAAAAAAATATGATTTAATTATACTTGATAATTTCCCAACGTTACTTATTCCTGAAAGATGGTCATCAGATTTAAATAGAAAAATAAATAATGAAAATTCATCATTAGCTTTTTTCCCTGGTAATAATACAAATAATAATGATTTGAAATCTTATTTAAAAATATTTGAATTAGAGATCAATGAATCAATCTTAGTAAAGAATGATGATTTAACTAAATATCCAATTGTAGGAAATAATAGCTTTAATAATAACCCATTAATAATAAGCCAAACAAATTGGGAGTTAATGCCTTCAATTTCACCGAAATTCAATTTGAATTATAATCAAGAAGGTATGTATTCACCTGCTTTTTTTGATCAAGAAGATTTGCTTAATCCAATTTTTTTAATTGGTAAAGATTCAAATAATGATTTTAAAAAATTTATTGTTAATTCATCTGATTTATGGACATTATACTTTAAGCATCATGATGATGGGCTAAAAAAAAATATAAATCTTTACTTTAAAGAAGTTTTTAAATGGTTGGTATCAATCTCAGGTGAAGATAATAGATATTTTAGATTATCTAATCAATCATCTATTCAGATCGGGGAAGAAATTGTATTAGAGGGTAATTTTTTAGATATTTCAGATGAGTTTTTAAAAAATAATATTTGGTGGAGAATTTTGCTGCCATCAAACAAAGTTAGACTAGTTCCCCTTGTGCAAGAGGAAGATGGAGTTTGGAGGGGAAGATTTATCACTACCGAAAAAGGAGAACATAATTATTGGGTTGTTTTTGAAAATGAAGAATATAATTCACTAAATTCTTCAACATTCAATGTAAATGAAGGTCTTTTAGAATTAAAAAATGTTTTTCTTAATAAAGAAATACTTGAAGATATATCAAGTAAAACAAATGGAACTTATATTTCATGGAAAGATAAAAATAAGATAAGTGAAATGATAAATTATTCTGCAAAAAAAGAAAAAATATCAAATAAAATATCATTTTCTCATTTAAAAGAATTTTTATTTTTACTTTTAATTCTTTTAACTCTTGAATGGGTTGTTAGAAGAAAAATAGGTTTGCAATAAAAATAATAATAAAGTTATGAATTGGCTATGAATAAATATGGAGCTAATTTAATCAAGGTATTTAATGAAAAAAATTACAATAATTGGAACAGGTTATGTTGGTTTAGTTAGTGGTGCAGGTTTAGCAGACTTTGGAAATGACGTTACTTGCTTAGATATAAACCTTGAGAGAATAAAAATTTTATTGGAAGGTAAAATTCCTTTTTTTGAGCCCGGGCTATCTGAATTAGTTGAAAGAAATGTAGATGCTAAGAGATTGCATTTTTCTACTGATTTTAGTAGATCTATTAATGATTCAGAGGTGATTTTTATTGCTGTGGGAACTCCAATGAATTCTTCTGGAATATCAGATATATCAGCAGTAAAAAAAGTAGCAATTGATATAGCTCAAAATATTAGTTCATCTAAAGTTGTAGCAATTAAAAGTACTGTTCCAATTGGAACTTGTGTTGAATTAGAATCATTAATTAATTCAAAATTAAAAAAAAATGTTAATGTTCATGTTGTTTCAAATCCAGAGTTTTTAAGAGAGGGAGCTGCAGTAAGAGATTTTTTAATCCCAGATAGAGTGGTGATTGGATCAAGTTCCAAAATTCCAATTGATATAATGAAAGAAGTTTATAGACCATTATTTTTAAATGAAACCCCTCAAATAATCACAAACCTGCCAACTGCAGAGACAATTAAATATGCTTCAAATTCCTTTTTAGCTGTGAAAATTTCATTTATTAATGAAATAGCAAATCTTTGTGATGAAATTGGTGCAGACGTTCATGTCGTTGCGAGAGCAATGGGTTTAGATGGAAGAATTAGTCCTAAATTTTTACATCCAGGTCCAGGGTTTGGCGGTTCTTGTTTTCCAAAAGATACAGAGGCATTAATTAATGTTGGCAAGCAAAATAATGTTGACCTTAAAGTTGTAAAAGCTGCTTCTGATTCTAATAAAATTCAAATTAAAAAGATTATTCAAAAATTAGATAAACATATTAAAAATTATAATAATAAGAAAATTGGAATTTTAGGTTTAGCATTTAAAGCAAATACTGATGATGTTCGAGAATCAAAATCAATTGATATTATAAAATATTTAATATCAAACCAAGCGGAAATAGCAGCTTATGATCCTGCTGCAATTGAAAATATGAGAAATATTTTCCCAAACGTAAATTATAAATATACTATAGATGAAGTTGTTAAAAATGCATCTGCTATTTTAATTATGACTGATTGGAATGAATTTCGTGGATTGGATCTTCAAAAAGCTGCTAAAATAATGAAAGAAAAAATTATAGTTGATGCAAGAAATTTATTAAGTAGGGAAGATTTATTTGAAAATAATTTTATATTTGAGGGTGTGGGAAGACCATTTTTAAAAAATTATGATTGAGGGAGTAAAAATTAAAAATCTAATTGTTCATCAAGATATTCCTGATATAAAAGATGAAAACTCTGAAAAAGGTTTTTTAATAGAAATTTTAAGAAATGATGATGATTTGTTGACTAAATTTGGGCAATCAACTTTCACAATAGCATATCAAAATACAATTAAAGCTTTTCATTGGCATAAAAAACAAGATGATTTATGGTTTATTTCATCTGGAAAAGCATTTGTAGTTCTTTATGATTTAAGGGAGAAATCATTCACTTATGGGAAAAAACAGATTATAAGTGCAGGGAAAAATGATTTTAAATTAATTTTAATACCACATGGAGTTTGCCATGGTTACAAAGTCGTTAGTAAAGAGCCTGTTGCATTATTTTATCATACAACTGAAAGTTATGATATTAATGATCCAGATGAATTTAGAATTCCATTTGATGATAAAAAAATAAATGTAGATTGGGATTCTTTGAAATGAAAACTTATTTAATCACGGGTGGATTAGGTTTTATAGGAAGTAATTATATAAGAAAATTAATTAGTGAAGATGAACAATGTAAAATAATAAATCTAGATAAAATGACTTATGCTGGAAATCCTGACAATCTTAATGATTTTAAAAATTTTAATAATTATGTTTTTATTCATGGTGATATTTGTGATAAACAGATTGTTAAGGAAATATTTACTAAATATTCACCTAATATTATAATTAATTTTGCTGCTGAAACTCATGTTGATAGATCAATAGATAATCCAGAGGAATTTATATCCACTGATATTTTTGGTGTATATAATCTTTTAGATAATGCCTACAAACATAACATTGAACTTTTTATTCAAATAAGTACTGATGAAGTTTATGGAAGTATAGAATCTGGAAGCTTTGATGAGCAAGATAATCTACTTCCAAGTAGCCCTTATTCTGCTAGTAAATGTGGTGGGGATAGATTAGCATATTCATATTTTAAAACTTATGATTTGCCAGTTATTATAACAAGAGCTAGTAATAATTTTGGTCCTTATCAATATCCTGAAAAATTAATACCACTTTTTGTTACAAATGCAATTAATGATTCAAAATTACCAGTATATGGAAATGGTTTAAATGTTAGAGATTGGTTATATGTTGATGATCATTGTGACGCAATAAATTTTTTAATAAAAAAAGGAAAATTTGGGGAAGTTTATAATATTGGTGGGAATAATGAATTTTCAAATCTTGATATAACTTATAGAATTCTTGATCAATTAAATAAATCTCGAGAATTAATTCAATTCGTAGATGATAGAAAGGGGCATGATTTAAGGTATTCTTTAGATTGTTCAAAAATACATGAATTAGGGTGGTCGCCAAAGAATAGTTTTGATAACGCATTAAAAAAATCTATTCAATGGTACTTTCAAAATAAATCTTGGTGGGGTCCAATTAAAAGTGGTGATTTTAAAAAATATTACAAAAATCAATATAAAATATGAAAACTTTAAATACTTTTTTATTAATATTATTATTTTCTTCTAATTTATTTACACAAGTGAATACTCAAAGATCATTATTGCCAAATGGTGGAGATCAACTTGAGAAATCGTTATTATATAGAGAATATGATACTGTTCCATTTGCACTTGAAGGACCTATTGACCCAAAGAATTATATTTTAGGACCTGGTGATAGATTAAGAATAAATATTAGTGGGGGTGTTTTTGAAAAACCTACAACTAATGAGTGGTCATCTGAAAATATTGATAATTATATTTTGGTTGATCCAACTGGGAATTTAATTATTCCTAGATTTGGTTCAATTAATGTTTTAAATACTACTATTGAAAATTTAGAGAAAAAATTGAATCAAATTTCAAAAGAAAGAGTTTATAAAGATGCAATAATAGGGGTGAATTTAATTCGTTTAAGATCTTTTAGAATCCTAGTTTACGGTGCAGTAAATCAACCTGGGTTTGTAACAGTTACATCTGTGACTAGACTTTTAGATTGTTTGAGATATGCTAAAGGTCTTAATAAATATGCTAATATTAACTTGGTACAATTAATTCGAAATAATAAAAAATTAGAAATTGATCCTAAATTATTTTTACTTGATGGAAATTTGAAAAGTAATCCTATTGTACAAGAAGGTGATAAAATTTATATACCTTTTAATCAAAATATAAAAAATAAAAAGGAGAACTTGGTTGAGTATAGTAGTACTGATATTATTGTAACAGGTTTTGTTAGGTCTCCAAAGAGATTTTCTCATATAACTGGTTATACCGCAAGAGACTATATAGCATTAGCTGGAGGAACATTAGATATTGGAAATGAAAGGAATTCAAAAATAATTCAACCTGATGGAAATCAAATTAATAATGCATTAGATACACTCGTTAAGCCAGGAGATATAATTAATGTTCCAGAAGCAAGTAGAAGTAAACTTTTTAAAAATATGGGTGCTATTCAATCTCTCACAAGTGTAGCGAGTCTGATTTTAGCGTGGATGGCAATTGATCAAAGAGCAAATTAAAATGAATACATTGACAGATCACGAAAAAAAAATACTTAATTTAATTAAAGAAAATCCTAGAATTATTTCTGATAGAGTTTTTCGAGAAAAAATTGCTAAAGTAAATAATATTTCTGAGAAAACTCTTAGAAATAGAATTGCAGAATTTAAAAGATTCGGATTAATTCAAAATGAATCTTTTGAAAAATCAGAAAAATATCAAAATTTTTTGATATTATGGTCAAAAAGATATTTAATTTTGGTTAATTGTTTTTGCATAACTTTTTTTTCAATAATTATTTCTTTACTTATGCCTAAATGGTATGAATCAAAAGCAGTAATATTATCTTCAAGTGCTGGAAAAATTAATCTTGCATCTGCGTTTTCTGATTTACCCCTAAACCAATTTGGTTTTTCACCTGTTAGTGAAGATATATCAAGTTTTATTTCCATTTTAGTTAGTAGAAATGTAAAACAAAAAATGGTTGAAAAGTTTAATTTAATTGAACTTTATGATTCGAGAGATGTTGAATATGCTATCCAAGATTTTGAATCAAATATGAATTTAAAAGTCACAGATGAAGGAGCTTTATCAATAAGTATTTTGGATAAAAATCCTATTTTAGCTAAAAAAATGGTAGCTGAGTGTTTAGTTTTATTGGATTCAATAAATCGAGAGTTGAGCAGGGAGCAAGGTCTTTTTAATAGAAAATTTTTAGAAAAAAGATTAAATGAAAATAAACAAGATTTAGCAATAGCTGAAGAGGAGTTGAAAATTTTTCAACAAAGAACTGGTGTGGTTGATGTTTTAACTCAAGTAACATCTCAAATGGAAGCCTTTTCTCAATTACATTCTCAAGAATTACAGGCTTACACTACTCTATATAGTTCTAGAGCACAAACAAAAGTACAACTAAATACTTTGAAAGCAACATTAAGTAAAGACAACCCAAGTATAAAACATTATCAAGTAATGTATGATGAACAAAATAAAGAGTTGGATGAATTGAGAACTAAATTAGATAAAGAATTAGAAGGTTTGCTTCTAGACTCAGATGAAAAAACAAAAAATGATAAAGTTTGGGTTTCAATGTCATCATTTCCTGATTTAGCAATGACTAGTGCTAGACTTTTAAGAGAAGTCACAGTACAAAGTAAACTATTAGAAATTCTAGTTCCACAATATGAACAAGCAAGAATGGAGGAAAATAAAAATGTTCCTACTTTGCAAATTCTTGATGAACCTAAAATACCATTAAATAAATCTAAACCAAAAAGATTATATATTGTTCTTGGATCTTTATTTATGTCAATTATTTTTTCAGTTTTATTAATTTTTTTGGAATATTATTCGCGAGATTTGAGAAAAAGTATTGCTTCCTATAATTAATTTTAAAAAGCAATTATTCCTAATTTCGAGTTTGATATTTTTTCAACTCACTACAATTTTTTTTGCATTAAAACTGAACTCACTTTTATTATTTTTAGTTCCAATTTCAATTATTCTTCTATATTATTTAATCATCAAACCTCAGATAAGTTTGTTATTAATAGGCTTTATAAGTATAATTAAAAGTTTTTTTATTGAGCAATTTGAATTTTTTCAAATGGTTGATTTGACTTTATTGTTAATAGTATTAATTTGGTTAAGTTTAATATTTTATTTCCTCAAAGGTGAGCTTGTAATACCTAACTGGAGTATTAAAATTCTTATAAGTTTTTTCTTATTTACTATTTTTATAACTTTTTCTGGATTGTATTCAGCTTCTCCAAATTATGGTTGGTTAAAAATCTTGAGATTCTCAATTTTATCATCAACGATATTTATTACTCCAATTATTTTTTTAAAAAATAGTAGAGATTCTAAGTCTATGTTGAATTATTTTAAAATTATTTCTGTAATAATCTTAGTCGGAATGTTAATGAATTTAATTTTTCTATTTTTAAGCGGAGAATTAATTTCATATTTAATTAGGGTATCAATACTTGGTGCCAACCCAATTGCTTTAAGTAGAACTTTAGCAGCAATAGCAGCAATGGTAACTGTAATTGGAATTAGAAGAAAAGGATTTCAACAGTTTCTTTCACTTATTATTTTAATACCAATTTTGTTAGCGATAGTTTCAACAGGATCACGGGGACCTCTTCTAAGTTATTTTTTAGGAATGATTATTTTTACAATTTTATTTGAACTTAAAAATTTTAAATTCCGCTCTTTTTTTTCAATATCAACATCTATTTTATTTGTGATTATTCTTTTTAATATACTTCCTGAAAACTTAACATCAAGGTTCGTTAATATTGCTCAAGGAGATAACATTTTAAGTTCTGCAGGTCTTGAGAATGTTAATACAATAAACTCTAGATTAGATTTTTATTTAATGTCAATTAATACTTGGATATCAGATTTCAAAACTTTTGCAGTAGGTTTAGGTTCAGGTGGTTTTAGTTCGTTATTTCTTTGGAGAGATTTTAGATGGTATCCTCATAATATTTTTCTTGAAATTTTAGTTGAATTTGGAATAATTGGGATTTTTTTAATTTTGACATTCATGTTTTTTTCAATAAAACAATTAATAACTTATAAGAAATATAATTATTTATCTGAAAATTCTGCGGTTTGGATTTCAGGAACTTTAGTTATGTTTTTTTCAGCTCAATTCTCTGGTGATTTAAATGATAATAGAATTTTACTAATGTTCCTTGCAATATCTCTTTCATCAATCAACTTAGACAAAAATCCAGAATTAGAAAAAATTGTTTGAAAAAAAATTAAGTATCAAGAATGATTTCATTGTTACATTTTTTAATGGCCTAGCAACAGTTATTGGTGTTTTCATAATTACTGGAATTATTGCAAGGAATTTTGGTTTAGAACAGTTAGGTGAATTTTTATTAATTAGAAGAATAATTACTGCTTCTGTCGGTATTATTTTAATTGGTTCAAATATTTCGCTTCCAAGTATATTTCCACGAAATCAAGATTCATCATATATTATTATCAGTTTAATCCCATTTTTTTTAGTTTCGGTTCCATTAATTTTTATAATTTCATATTTACTAAATTTCTATATCAATGATTCAGGTAATTTTTTCCCATATTTTTTTTATTTATTTGGATTTACAGTTGTAACATTATCTTATTCATTATATCGTTCACAAATGAAAATTGTTGGTGCAAATCTAATACAATTTTTAAGTTTGACTTTAGTTTCATTAGTTTGTGTTTTTTTAACTGATAATATTCAAAATTTATTTCTTCTAATGGGTATTTTTATGATAGTTTTTGGATTTTTATTTTTTTATTTTGGATTACCAAGTTTAAATCAGTTGAAAATAAAACAAGAAAAAATATTAGAATTTTTTTATTTTGGATTTGTACGAACTCCTGGAATTATTTTTCAATTTATATTAATTGCTGGAATACCTATGATTTCAATATCTTTCTTAAGCTTAACAAATCAAGCTTTTTTAAATGCAGGTATAAGTTTAGTAAGAATTTTTTTGGTTATTGTAGGTCCGTTGGGAATAATATTATTACCAAGAATTTCAAAAGATTTTAAATTAAATAAAAATAATTTCAAACTTTCAGGAAATTTATCAATTCTTTTGAAAACCACTTTTTATTATTCATTAATTACAACTTTTGTTTTAATATTGATAAATAATCAAATTTTAAACATTTGGTTAGGTTCTTTTACAAGCGAAACCAATCTAAATATTACGATCATTTTAAGTTCTGTACCTTTTTTTGTATTAGCTGCAGTTTTAAGAAGTCCAATTGATGCATTATCAAATTATGGTTATAATTCAATAATTTATGGTATTGCTACTACTATAATGATTTTTTGTTTTTTCTTTTTAATGATTTTTGAAATTAATCCATTTTTAGTAGGTTCATTATCTTTTTGGTTGGGTAATTTTGTTAGTGGAATGCTTAGTTTTTATTATATAAAAAAATTAATGAATGTTAATTTTTTAGATTCAAAATCATTGCTTGAATTATTATTTATTTTATTTTTTTTATATATAATTATTGAAATTATAAAATTTTATTTGAGCGATATTTTAATTATTTTTTTTTCAATTTCAAGTTTATTCATTTTTTTAATTCTCCACTTTTCATACTCAAACCTTAAATGGATATTTTTATTACGAACTTTAATTTTTAAAAAATGAAAAAAAAAAAAATATTATTTGCTTCATCTATTCATAGGTTTAATGATGTAAGAATTTATCACAAAGAAATTTTTTCATTATATAATGATTATAATATTGATTTAATAGCTACTAAAAGTAATTTTAAAACTAATGACAACTTAAAGATTTCTATAAAATTATTACCAAATCCTTCAAATTTTTTTTTGAGAATCTATAATAATATTCAAATTCTTTTAGTAGGATTAAGAAGACAATATGATGGTTTTCATTTTCATGATCCTGAATTAATAATTGTTGCATTTATATTAAAGATTTTTAAAAAAAAAATTATTTTTGATATTCATGAAGATAATTTAAATGTTATTAAAATGAGAAAATGGATTCCATCATCTTTAAAACCTGTTATTATTAAATTGTTTAGTCATCTTGAAAAATTTGCTGTTAAAAGTTTTGATGGAATAATTCTAGCTGAGGATTCTTATAAAAAAAATTTTTTTAAATCTAAAAAAATTATAACAGTAAGGAATTATGTTAAATTATTACCTAACCCTATTCAAACTAATTTTAAAAATAAAAATATTTTATATGTTGGATCGATAACAATTGAGAGAGGAATATTGGATTTAATTAAATCTCTTGGACTTTTACAAAAAAATAATAAAAAAATCGGATTATATTTGATAGGTACTATTTCAAAGATTGATAAATCAATAATTAATAATCAAATTAGTCTTTTACCCTATCCAGAAAATGTGGAAATAATTAATTATTGTAATTATGATGAATTAAAAAAATATGTTCAAAAATCAAAAATTGGTGTTTCTCCTCTTAAAAACAATGAAAATTATCAATATTCAATTCCTACAAAAATTTTAGATTATATGAATTGGGGTCTTCCATATGTATTTTCTGAATTAAAACTTTCAAAAAAGTTGTTTAAAAAAAAATCAGGTGGAATTAGCTATGAAGTGAATGATACATATGATTTATTTAAGAAGCTTTCTAAGCTTTTAAATGATGATCAACTTTGTTATAAGTTGAGTGTTGACGGTAGAAAAAAAATAAAAGACTTTGAATGGAAAAAGGAATCAATAAAATTAACAAATTTATACAAAAAAATATTTTAATTATTGTTAACTTAAAATATTAATTAATTGTTGTGTTTAGTAATCTTTTATATTCGAAATGTCAATCTATAATTCTGTTTCAATAGTTATACCAATGAGAAATGAATCTAAACATATAAAAAAATGTTTAGATTCATTATTAGATCAAGATTGGATTGATTCTAAAATAGAAATAATTGTGGTTGATGGTGAATCCGATGATAATTCATATGAAATTGTAAAAAAAACTTTATTAAATCACTCAAATTTTAAAATTTTACACAATCCAAAAAAAATCACTCCCATTTCGCTTAATATTGGGGTAAAAGCTGCCACAGGTGATGTTATAATAATTTTGGGTTCTCATAGTTATGTTGCTAAAGATTTTGTATCAAAAAATATTCATTTTTTAAATACAATGGAGGTTGATTGTGTTGGTGGTTCAATATCCCCTATTGGAGATAGTTATCAAGGTAATGCAATCGCTTTGGCGATGAGTTCTCCAATAGGTGTAGGTAACGCATTTTATAGATATTCAAAAGTTCAAAGATTAGTTGATACTGTTCAGTTTGGGGCTTATAAAAGAGAAGTTTTTAACAGGATTGGTTATTTTGATGAAGAGTTAGTAAGAAATCAGGACTTTGAATTAAATCATAGAATTGTAAGTACCGGTGGAAAAATTTTATTAGCTCCTCAAGTTAATGGTTATTACATAGTTAGGAGTACAATTATAAAATTATTTAAACAATATTTTGATTACGGATATTGGAAAACTAGAGTTGTATCAAAAGAAATAGGAGCGTTTAGATTAAGATATCAAATTCCTCCAATATTTATTTTAACTTTATTGATTTCTGGTTTTTTGGGAATTTTCATTTCTATTATAATGAAATTTTTTATTTTTATAATTTTTTTATATTCTTTTTTAGTTACAATTACTAGTTTAAGAATATCAATGAATTCAAATTTTAAATATTTCCCAATTTTACCTTTAGCTTTTATATCATTACACTTTGGATTTGGATTAGGCTTAATAACTTCTTGGATAAAAAAAATACTTAAGAAAAAAATGTAAATTTAAAATGAAAATTCCACTTGTAAATTTGTCAGCTCAGTATTTTTCGATTAAGGAAGAAATTGATAATACTATTAATCAAGTAATTAATGAAACTGCATTCATTAAAGGCAAATATTTAAATCAATTTGAAGAAGAATTTGCAAAGGCAAATGATGCTAAATTTTGTATTGGTGTAGGTAATGGTACAGATGCTTTGTATATAGCTCTTAAAGCACTTGAAATAAATCAGGGTGATGAAGTAATTACAACTTCATTAAGTTGGATTTCAACTGCAGAAGCAATTTTGCAATGTGGAGCTATTCCAGTTTTTGTTGATATTAATCCAAAAACATTTAATATTGATGTAAAAAAAATTGAATCTAAAATTTCAAAAAAAACAAAAGCTATTTTACCAGTTCATTTATATGGTCAACCTTCAGAAATTCAGCAAATAAAAGATATTTGTATTAAAAATAAAATTGCTTTAGTTGAAGATTGTGCTCAAGCACATTTTGCAGAATATAATAACAAAAAAGTTGGTACTTTTGGTCAAATTGGTACATTTAGTTTTTATCCTGGAAAAAACTTAGGGGCATTTGGTGATGGTGGAGCATTAATAACAAATGATTTAAGATTATCTGAAAGGATTCGGAGAATTGCTAATCATGGAGCATTAAACAAACATGATCATTTAATAGAAGGAATTAATAGTAGACTCGATGGAATTCAAGCTGGAATTTTATCTGTTAAATTAAAATATATAAATGATTGGAATTTAAAAAGACTTGATACAGCAAAATTATATTCTAATTTGTTAAAAAATATAGGTGATATTGAAACTCCATTTATTGATAATTCAACTAAACATATATTCCATATTTATGCTATTAAAACTTCATATCGAGATGAACTAAAAACATTTTTGTCAAAAAAGGGTATTTCAACTGGTATTCATTATCCTAAAGCTTTACCATTTTTAAAACCATTTTCTAATTTAGAACATTCAATTGAATTATTTGAAAATTCATTTAATATAACAAATCAAATCTTATCTTTACCAATGTATCCTGAGTTAAAGAAAAATGAAATCGAATATATTGTTGGATTAATAAAGTCTTTTTTTCAATCTAATTAATATTTCACATAAACTACATAGTTTTAATAAATTACAAATGAACGTATGAGTCATAATCTTGAATAATGGTTTATTAAATATTTGACCTTCAAAAAAATTACATTGATAAAACAAATAAAAAATAATCTTAAGTATTGGTTAGTAGTATTAGTTTTATTATTGGCAGACTTTTTTGCGTCATTTTTTTCTTTAATTTTATCATTTAATGATAATGAAACTATTTTTAACCTTAGGATAATCTTTTTATTAAATTTTTTAATTTTAACCTTAATTTTTTATGCTAATGGAAGATATAAAGCCGACCCAACTATTTCTAGGTTTAAAGAAATTCAATCTTTATTCAGAATAACTTTATCATACACTATAGTTTTAATTATTATTAATGAAATTTTTCCTAGAATATTTTTTATTGAAAGTGCAATATTATTAACTATTTGGTTTTATTTAGTAGTAGGGCTTACCATAAATAGGTTATTAATAAGAAGAATTCAAAAAACTTTATTGGCAAAAGGATATGGAAAAAAAAATACACTAATTATAGGCTCAGGCGAAAAAGCTATGAATATTATCAAGCATCTTGATTCATTTTCAAATAGTCATAATTTATTGGGTTTTGTTAAATCAAGTGAAGAAGATTCATTCAATTTGAATATTAAACTACCTATTCTTGGTAATATAGATGAATTGACTGGAATCATCGAAAATTATAATATAAATGAAATAGTAATCGCACTTGAAAAAACTAATCACTCATTATTATTAGATATTTTAACAAAGGCAAATGGTTCATCAATTTCATTGCGTATAATTCCAGATATGTATGAAGTAATTAGTGGATTAGCTAAAACTGAAGAATTATATGGATTGCCACTAGTAGATATAAATCCAGAAATTTTATCTGTTCAGCAAAAATTTGCAAAAAGAATTATTGATATTATTTTCTCGTTTATAATTTTAGTAGGTCTATCACCAATATGGTTTTTAGTATCGTTAATAATTAAAATAGAATCTAAGGGCCCAATTCTATATAGACAAAAAAGAGTTGGTCAAAATGGAAAAGTATTTATTATTAATAAATTTAGATCAATGAAAAATGAAGCTGAAAATACAACTGGTCCAGTTTGGGCAAAAGAAAAAGATCCTAGAACCACAAAAGTTGGAAGTTTTTTAAGAAAATATAGAATTGATGAGATTCCTCAATTTATTAATGTTTTTTTTGGAGATATGAGTGTTGTAGGTCCTAGGCCTGAAAGACCTTTTTTTGTAGAAAAATTAATTAAAGAATTTCCATTTTATTATAGAAGGCACAAGATAAGACCTGGAATTACAGGATGGGCTCAAATAAAACAATCCTATGATTCATCCTTATCTGATGTAAAAGAAAAATTGAAATATGATTTTTTTTATATCGAAAATATGAGTTTATCTCTAGATTTGCAAATCATGAATAGAACATTGATAGTTATGGTCTCAGCAAAAGGGCATTGAGTAGTGAAAAATTTTAAGCTTTTATTTTTTTTAATTGTAATTTTTTCTGAAATAACTTTATCACAAAATTTGATTTTATCTTCAAAAGAAAATATCTATGACAAAGAATTAAATAGTATTAAAAGAGGTAAAATTAATAATTATCTTTCATTAAGATATTTTTATGAGTGGAATAATAATAAAAATAAAAATAATTTGTTAATTTCAAAATTAGGAAAAAATTTTTTAAGAAATCAAAGATTTAAAATTTTTCCTGAGTTTAATTTTAAAAGTACTTTAAATGGTGGTTTTATTGATAATAGAAATCAATTTTTAGATTTATTCCCCAGAATAACCTTCTTAACAAAATATAATTTTACAAAAAATAAAAATTTTTCAATACTATTTTGGTCAAGCATTGAAAAACATTCTCTAATTTCAAGAAATAATTTTAGTTTAAATAAATATCAAGGTAGACCAATTATTGATAATGATTTTAGTAGTAATCAAGCAGTTGGTTATACAGATTTTTCTGGAGATGATTTTTCTTGGATTGAATACAGGATTGGTGACGGGGGAATTTTATTAAATTATCCAGGAGGAGATATATCATTTAGTAAAAATCTACCTATTTGGTCTTCAGGATATAATGGTCAGTTATGGCTATCAGAAAAACCTACATCTTTCCCTTTTTTAAGTTTAAGACATAATATCTCAAATAATTGGTCTTTTTCATATTTGCATGGATCTTTGAATTCAAATATTAGAGATTCATCATTTGCAATATATTATAATTCTGCGTTACCAATGATTTCAAAGAAAATAAGTGTTCACAGATTAGATTTTTTTCCTACTCAATATATTCGATTGAGTATTGGAGAGTCAATAATTTATGCTTCACGAAATTTTGAAATGAATTATTCTATCCCTTTTTTACCATTTTGGACTGCACAGTCAGATTTAAGTAACTCTGATAATTTACAATTAATATTTGATGGAGAATATATTAAAAAAAAAATCGGAAGAATTTACGGTACTCTTTTTATAGACGAGTGGGATTTTGTTGATACATTTAATAAGAAAAAAAATAGAAATTGGTTTGCCTTTTTAATTGGTAGCTCTGTCAATCTTAAATCTAATTCAAATTTCAATCCAATAATTAGATTTGAATTTTCAAGAATATCACCATATGTATATATTCATAAATCATCAATAAACAATTTTTCTCATCATGATATGACATTAGGACATTGGTCAGGATCTAATAGTCAAAACATCTTTTTTTCTTATGAAGGAAAATTAAAAAGTAAACTTTGGATGCAAATTTATTTTTCATATGCTGAGAGAGGAGAAGTAAATAATTATACGATAAATTCTCAGTATAATCATGAACAAGTCTCGTTTTTATATAAGGAATATGAAGGTGATCCAGAAAATAGGACTGTTTATGGAATTAGAGTAAGCTTGAATTTAGCCTCAAATATAAGGGTAACATTTAATTCTTTTAAAAGTGATTGGAGAAATCACATTGAATATAATTCTAGTATTAGAAACAATACATTTAAAATTGATTCTATTTTAAATTTATCAATTGGCTTGTGATTTATTTTTCAATTATAATTATCTTAATTTATTTAATCTATATTCTATGGTTATCATCTTCATTTAAGAGCTATAGAAATAAACTGTCATCGATAAAACCTAAAGTTAGTGTAATTGTTGCAGCAAGAAATGAAGAGTCCAAAATAGTTAAATTGTTGAATTGTTTGTTAAATCAAACATATCCAAAAGAACAACTTGAATTTATATTGATTGATGATCATTCTGATGATAATACTAAAAAAATTATTAAAGATTTTATAAAAAAAGATAATAGAATATTTTTATTAAATTCAAAAAAAATTCCAAATAAAATATCACCCAAAAAATGGGCATTGAAACAAGGTGTAAATAAATCCAAAGGAGAAATTTTATTATTTACTGATGCAGATTGTTTTTTTGGGTCAAAATGGGTAAGTGAAATGACTTCTTTTTTTGATGATTCAAAAATAGGAATGGTTTTAGGACCAAGTCCTCTTGGGGTTTCTAATAATTTTTGGTCTAAGACAATATACGTTGATTCAATCGGTTTAGATTCAATTATGGCAGCTAGTGCTTTAAGGAATATGCCACTTACAGCAAGTGGTCGAAATATGGCAATCAGAAAAAAAGTTTTTGACTTGATTAATGGATATGATTCAATTAATAAATTTATATCTGGTGATGATGATCTCATTATGCATTTAATTCAAAATAAAGGTTATAAAATTTTTCCATGTTGTAATAAGGAAGGAATTGTTATGAGTCCAGCTCCAAGCAATTTTTATTCTTTTATTAAACAACGACTAAGATTTGCTTCTAAAGGAAAATCTTATTACGGATTAAATTTTGTAAAAATGGATTTTAAACTTTCATTAATATTGATATATATAACAAACTTTCTGGTACTAATTTCACAATTTAATTATCTAATTTCTTTTAAAATTATTTGGTTAATTCCATTTTTAGTAAAAACTCTAGTTGATTTTTTCTTTCTTAAATCATACTCGAAACTTTTAAAGATAAAATTTGAAAATTTTATCTATTTATTTAATTCTTTATGGCATCCTATTTATATTGTTGTTTTTGGATTATTTGGTCCATTTATTGAAATTGATTGGAAAGGAAGAAAAGCTAAACCCATTGGATAAATGCTTTAAGGATAGAAATTTATTCTTTAAAATTGTAATTTGTTTTGATAATTAGGATAAGATATGATTCAACTTAGAGAAATCAGAGATAACCCAGAACATTTTATTAATGGAACAAATAATAAATTTGAATCTGTAGATATTAAAAAGATATTAGATTTAGATTTTAAATGGAGATCGTTAGTTCAAAAATCTGAAAAGAGAAAGAGTACTAGGAATAATATTAATCAACAAATATCTGATTTAAAAAAAAATAAAAAAAATACAAATACTTTGATTGATAAAATGAAAACTTTATCAAAAGAAATTAAAAATTTTGATCAAGAAATTTCTAGTATTAATAATGAAATCAATGAAATTTTAAAATGGATTCCTAATCCTCCTCATGTATCAGTTCCAATAGGAAAAGATTCATCATCTAATGAAATTGTAAAAATATGGGGTGAAAAACCAAAGTTCAATTTTAAACCAAAAAATCATATTGAAATTGCTACACAAAATAATTTAATTAATTTTGCTGCTGGATCTAAAATAGCTGGATCAGGATTTCCTCTTTACACAGATCAAGGAGCTAAGTTAGAAAGATCTTTAATAAATTTCATGATAGAGCATAATGTTAATAAAGGTTACAAGGAAATGTTTATTCCTTTTTTAGCATTAGAAAAATCTTTGTATGGTACTGGGCAGTTACCAAAGTTAGAAGAAGATATGTATTTTGTAAATAAAGACAATCTCTATTTGATTCCAACCGCTGAAGTTCCATTGACAAATATTCATAGAGAAGAAATTTTAAACATTGATGATTTGCCAATAAAATATACATCATATTCACCTTGTTTTAGAAGAGAAGCTGGTTCATATGGAAAAGAAACTAGAGGTTTGCTCAGAGTCCATCAATTTAATAAAATTGAAATGGTAAAGTTTGTTCATCCCAATGAATCATATAATGAATTAGAAAATTTACTTAAAGATGCTGAAAGCATTCTTCAAACTTTAGGGTTACATTATAGAGTGTTATCTTTATGTTCTGGAGATTTAAGTTTTGCAGCTTCAAAATGTTATGATATTGAAGTTTGGTCTCCTTCAGAAAATGATTGGTTGGAAGTTTCTAGTTGTAGTAATTTCGAATCTTTTCAAGCAAAAAGATCACAAATAAAATTTAAAAATAATTCAAACAAAATAGATTATGTTCATACTTTAAATGGTTCTGGATTAGCAACTCCAAGATTGATGATTTCTTTATTAGAAACATATCAAACTAGGAATGGGTCAATAAATTTACCTAAATCTATTCAGGAATATTTTGGTAATAATACTATTAGTTAAATGATAAAATCAATTTTTTTTATAATTAATGTGGTGTTTTGGACTTTTCTATTAGGTAGTCTAGCTATTTTATTAGGTTTTATCGATAGGAAAGGTAAGCTAATAAGTTTTGGGATTAGATTATGGTCAAAAATTTTAATTTTTTTTAGTGGAGTAAAAATTAAAATAATTGGTTTGGATAATTTGGAAAAAAACAAAAATTATATTTTTGCTTCAAACCATGAGAGCAATTTTGATATTCCTTTAATTTTTTCTTCACTTAATTATCATTTGGTTTCAATTGCAAAAAAAGAATTAAAAAAAATTCCTATTTTTGGATGGGCAATGAAAAGTGGGCAACATATTTTCATTGATAGATTTAATAAGATTGACGCATTAAAATCATTAAAACTTGCAAAAAAATCAATAAATAGAAATCCTCGCTCAATAATTATTTTTCCCGAAGGCACAAGATCCTTTGATGGAAAAATTCAACAGTTTAAAAAAGGTGGAATATCTATTGCATATGATTTGGAAATGGATGTAGTCCCAATTGCAGTTTGTGGTACAAGAAATGTTTTAAAAAGAGGTGCTATTTTTATAAAACCTTTTCCAATTGAATTGAGAATAGGTAAGCCTTTAAATATTAAAAGCTGGAAAAATAAAAAAAAGGAAGATTTTGCAAATTACATTCATGAAAAAGTTGTTGAAATGAAAAAAGAATGGAATAATGGTAACTAAAAAAAAAATTCTTTCTGACCAAATCAAATATCAAATAGAAGAATATAAAAAGTTAAATAAAAAAATAGTTTTTACTAACGGTTGTTTTGATTTACTTCACAAAGGTCATAAATTTTCATTAGATTTTGCTTCAAACCAAGGAGATTACTTAGTAGTTGGTTTGAATAGTGACAAATCTATTAAGCGTTTAAAAGGTAAAAGCAGACCAATTCAAAATCAAAAAATAAGGTTTAAAAATCTTAAAAATTTAAAAAATGTAGATCTAGTAATAATATTTGACGACGATACACCAGAAAACTTAATTAAAGAAATAAAACCCAATATATTAATTAAGGGAAAAGACTACGAAAAGAAAGATGTGGTAGGTAAAAATTATGTAGAATCATATGGTGGTAAATTAGTTTTTTCACCAATTTTATCAGGTTTTAGTACTACAAATATTGTTAAAAATGAATCTAAAAAAAAAATTAAACAACTTGATTAGTTTTGAAAAGAAATATAATTTCAGTTCTTAATAATTCAAACATTTATGTATCTCAAGCAATATAAAAACTTATCTTTTTTTTTTATTTTTTTTATTTTTTTACAAAATTATATATTTTCCGATTCCACATCTACCGAAGTTGATGAAATTTCATTTGAGGAATTTCAAGGAGTTGATAATAGGTTTCCTTTAATTCTATCTGACGCTAAAAGTTTTTTTTCAGAGGCAATAATTGCAGACTATCATGGGGACTCTCTTGAAGTATTATTTTTGCTTGATAAAATAATTGAATTATTGAATGCAGCTGAACAACTAGGGGATATGACCGAAGATGACCAAATTGAATTTAATAGATTTGAAAAAACTCTTATTCATTCTTATCAAAATAATTTTAATACGGTTGATAAAACAAGTGCACCAATTGCAACTGCAAGCTTAAGAGAAGAATTATCTAAATATTTAACCCCTATTGAAATTGAAATAAATGGTTCCTCGTTTAAGGTTATTGATGATAGAGAAGGGCACATTCCTTTGGTTATTAATTCTAGAGTTGAAAGAGCAATAAGTTTTTTTCAAAATAGAGCTAGAGATAGTTTTGAAAGGTGGTTAACAAGATATCCATATTATTATCCAATGATAAAAAAAATATTAGATTCACATGAACTACCTGAAGAATTAATTTATCACTCAATGGTTGAAAGTGGATTAAATCCTAGAGCTTATTCAAGAGCAAAAGCAGTTGGGATGTGGCAATTTATTTTTTCAACGGCAAAAATTTATGGTTTAGATAGAGATTGGTGGGTGGATGAGAGAAGAGATCCCGAAAAAGCTACTGATGCTGCAGCAAAATATTTAAAAGATCTTTATTTAGAGTTTGATGATTGGTATCTTGCGTTGGCAGCTTATAATGCCGGTGCTGGAAGAATTAATCGAGCAATTAGAATTCATCAGACAAGAGATTTTTGGGCACTTAATACTTTACCTAAGGAAACAAAAAATCATGTCCCAACAGTTTTAGCCACTGCAATTATTGCAAAAAACCCAACACAATATGGGTTTGAGATTCCTAAAAATGAAAAAATATATAATTTTGATAAAGTTGAAGTTAAAAATAGTACAGATTTGAATGTTCTTGCCAAGTGTGCAGGTATTTCTGTTGATGAATTAAGGCAATACAATCCTGAATTAAGACAACATGCTACGCCATCAGGTAGAGCATATATTCTTAAAATTCCTAGTGGTTTAAAAAATGAGTTTTTGACATCTTATAATTTACTTGATGACAGACAACGTTTTGCTCCTGAATATATGATTCATGTAGTTAAGAGTGGACATAATTTAAGTTGGATTGCTGATAAGTACGGAGTTAAAGTTCATCAAATAGCTTCATTTAATAAAATTAAAAACTATAATAGATTGAGTATAGGGCAAAAATTAACAATTCCTATTTCTGGAAATTTATCAAATTCACGAAATCTTCCACAAAACAAACAAACAAATTCCGTGGTTTATACTGTAAGGAGTGGAGACACTTTAGGACATATAGCAATGAGATATAGTTCCACAGCTAGAAAAATTAGGCAACTTAATGGATTGAGTTATGGTTCAGTAATTTACCCAAATCAAAAACTTAAAGTACCCATAAACAATAAAGTTAATTTAAAAGAAAATTCAATTAATACTGTTAAAGAAATATATACAGTTAAATCTGGTGATACTCTAAGTCATATCTCTGAAAGATATCGTGTGGGTATGTCTAAAATTCGAAAATGGAATGGTATCTCAAAAAGTGATTTGATTATACCTGGACAAAAACTTGTGATTTATGTTAAACAAGGATAATATGGAGAAAACTTATGATTGAGTTGGAAAATAAAACTGTTACAAAAGCTGAAATAATTGAAGAAGTTTCATCTGCAATTGGGTTAACCAAGGTTGAAACTGAAGCTATTCTTAATGCAGTAATAAGTAAAATCAGAAAGTCCTTAGAACTTAAAAGAAGAGTAGAGATTAGAGGTTTTGGAACATTTGGAATAAAAAAAAGAGAACCAAGAAAAGCAAGGAACCCTGGAACTGGTGAGACAGTTTTTTTACCGGAAAGGTATGTTCCTGTTTTTAAGCCTTCTAGTTTGTTGAAAAAAAATATAAATGATTGATTTAATGGAGTAAAAAATGCCTTGTGGTAAAAAAAGAAAAAAGAGAAAAATTTCTACGCACAAAAGAAAAAAAAGATTGCGTGCAAATAGACATAAGAAAAAAGGAAAATAGGTTATTAAGAGTCTTTTTTGGAATAAAATTAGGCTATATTTTTTTTTTGATAACTCAATCATTATTTGGTTGAGGTTATTCAGCTCATCGCATGATCAATGAGAGAGCAATTAGTCTATTAACTTCTCCACTAAAAAACTATTTTATTAAAAACAAATCTTTCATTTCTGAAAATAATATTGATTAATTTTGGGAAAGAGCTTGGATATTATCAGGCAGACCTGTTTTGCCATAGGATTTAAATTGTATGTTGAAAAATCAAGAAAATGATGAATTGGTTAATCCAAAAAATAATATTTATACAGTTTCAGATTTTTCAAATAGATTAAAAAATTTAATCGAAAAAAATTTTAGCTTTATTTCTATTAAAGGTGAAATTTCAAATATATCTCAACCTAGTTCAGGTCATATATATTTTACCCTCAAGGATGAAAAAGCTGAAATAAAAGCAGTTATGTTCAGAGGTTATAATAATAATGTTAATTTTAATTTACAGGATGGTATGGAGGTCATTGCTACAGGGGATGTTTCAGTCTATAACCTTAGAGGATATCATCAGTTAATAGTAAAAAATATTGAGATTGCTGGAAAAGGTTCTCTGTTTTTAGCATTTGAAAAACTTAAAACAAAATTAAGCGATAAGGGGATTTTTAGTGAGATTCACAAAAAGCAATTACCAAAATTTCCTCTCGAAATTGGGATTATAACATCTGCAACAGGTGCTGCAGTTGAGGATATGATTAATATTTTATCAAGAAGAGCACCTCATATTCAATTAAATTTAAGACCAACTATTGTCCAGGGAATTGAAGCCTCAAATGATATTATTCAAGCAATTAATGAGTTTGATAAAAATGAAAACATTGAATTAATAATTTTGGGTAGAGGAGGAGGTTCTTTTGAGGATTTATGGTGTTTTAATGAAGAAAAGTTGATTTATAAAATTTTTGAATGTCATACACCTATTATTACAGGAATTGGACATGAAACTGATTTTACTTTGTCTGATTTTGTATCTGATTTAAGAGCACCTACACCATCTGCTGCTGCAGAATTAGCTTCAATCTCGTTAGACGAATTAGAAAATAAATTAATGAATTTTAAAAATAGATTTTCAGAATTGTTGAATATTAGTTTAAATAATTCTTGGCAAAGATTGGATAATATTTTACTAAGATATGGATTTCAAAAACCTTCATTATTAGTTGATAGTAAAAAACAATATTTAATTGAAAAATCTGAACAAATGAGAAAAAATTTTAAAAATTCATTAAATTTAAAATCTTATAATCTTGAATCAATTAAAAGTAAATTACATATAATAGATCCTAAATTAATTTTAAAAAGAGGTTATTCAATTGTTTACAAAAATAGTAAAACAAAAATAGTTAAGTCAATTCAAGAAATTAAAAATGAAGAAAATATTTTTGTTAAAATGTCAGATGGTGAATTACAAACACAAATAAAGAAAATCATAAAAAATGAAAAAAAATAAAAAAATAAATTTTGAAGATTCTATGAATCGTTTAGAAGATATTGTTAATTTATTAGAGGATCAATCAACTACTCTTGAACAAAGTATTGATCTTTTTGAAGAAGGAATGTTACTTACAAATTCATGTAAAGAAATTTTAAAAAAAACTGAGTCTCGCATTAAAAATCTTTTGAAAGAAGAAAAAAATTGAAAATAGGTATTTTTGCAAATATTAAAAAACCAGGATTTTGGAAAATTATTCCTGATTTAATAGACTGGTTAATTAATAACAAAGTTGAAATCCACCTAATGCATAATATAATTGAAAATGAATATTATTATTTAAAATCAAATAACTTCAAGAATTATGATCCAATTAAGACAAATAAAGATTTTAAAAAAATTGATTTTTTGATAGCCTTAGGTGGTGATGGAACAATACTTTCTGCATCAAGAAGTGTAGGTCAATCTGGAACACCAATATTTGGTGTTCATCTTGGTAGTTTAGGATTTCTTGCAGAAAGTAAAATTGAAAATCTTTATAAAAGTCTTCAGCTAATATTTAATAAAAAAAATAAAATTTTTCCTAGAATGCTTGCACAAGCAATAATTAAAAAAAATAATAAAAAAAATAAATTTTTTGCATTAAATGATGTGGTTATTAATTCTAATGGTGGAACAAGGTTAATTAGTTGCTCTCTCTTTCTTGATGGTAAATATATTACATCTTATTCAGCAGATGGATTAATTATTGCTACACCAACTGGTTCAACTGCTTATAATTTATCTGCAGGTGGTCCTATAATTACTCCTTGGCTTTCATTATTTACTATTACTCCAATTTGCCCACATTCTTTGTCATCACGACCTATTGTTTTGCCAGGAGATAGTAATTTAAAAATAGCTTTTCCTAGTAATGAAACCCTTCATTTGTCAGCTGATGGGCAAGTTAATTACGAAATTCAGCCAGATTCTGAAATATTCATCACAAAATCACCTCATTTTATAAATATGATAACATTAGAAGAAAATGAGTATTTTGAAACATTAAGGACAAAAATGGGTTGGGGGCAAAAAAATATAAATAACTAAATATATTTTATTTTAAATTTAAAAATATATGTGGGGCATATATAATCAATTAAAAGAATAATTATGAATTTAAAATTTAAACATATTCTTATTTTTATATTTTTTGTATCAGTTATAAAGTCTCAGGTTGTTTATGAGCTTGAACCAATTACTGTATCTGCAACAAGAATTCCCACTCTTAAAAGTGAATCTGGCAAATCTATTACGATTATTAATTCAAATGAAATTAAAAACTTACCAATAAATTCAATTGATGAATTATTTAGATTTCTTGGTGGGGTAAATGTAAATACAAGAAATGATTTTGGTGTTCAGGTGGATGTTGGAATTCGAGGAAGTACATTTTCTCAAGTATTATTTTTAATTGATAATATTAGTTTAAATGACCCTTTAACAGGTCATTTTAATGCAAATATCCCTTTACCAATTTCAGAAATTGAATCAATTGAAATTATTAGGGGTCCTGCTAGTGCATCTTATGGTTCAAATGCGGTAGGAGGTGTAATTCATATTAAAACAAAATCTTATAGCTTAAGAAAAAATGTTGATTCAGGTAAAATTAACTCTTCTTTTCAGATTGGTAAAAATAATCTAAAAACTATAGATTTAGGTTTTTCAAAATCATATCAAAACTTGTTTTTTTCTGGTTCCAGCAGAATAACTAGTTCCGACGGTGAAGTTATTTTAAATCCAAATTATTTATTAGGTACTAGTTCTGATAGTCTATACAATACAGATTTTAAAATTATGACGAATACTTTATCTTTAGCGTATTTTTTTAAACCTAATATTAAATATTATTTCAGAATAGGAAATGATAAAAGAGATTTTAATGCAAAATATTTTTATACAACAAGTTCTTATGATGAGTCTTATGAAAAAATTTCTAGTTATTGGATCCAATCAGGATTAAAGATTAATCAAGGTGAAAATGTTTTTGAATTTAATTTTGGTAATAAAATATTAAATGATGAATTTATATTTAATCCTTTGTTTTCTATAAATAATCACAAAACCTACAAAAATAGTTATTTACTATCATATTATATGCCATTTTCAAATAGACTTAAATTTGCGTTTGGGGGTCAATATGTGTATAAAAAAATTAATAGTTCTGACAGAGGAAATCATTCAAATGATTCTAAAGGATTATTTGGAATAGTACATTTAAATCTTTTTCATAATGTTAATCAAAGTTTGAGCTTAAGATTGGAAAATGACAGTTATGTAGATGAAATAATTCCATTGTTTCAACATAATATTGCTTATGAAATTAAAAGTTTAGTTTTTAGGTCTTCAATTGGAATGGCTTTTAGATCGCCAGATTTTACTGAAAGATATATTTCTTCTATGATTGACAGCTTGTCACCTGGTAGAAATTTGGGAAATCCAAATTTAAAATCTGAAAAATCTATTTCATATGATGTAGGTATTGATCTTCAAATGAAAAAAAATTTAAAGATTAGTAATACTATTTTTTATAGAAGTTCAAATGATTTAATCGACTATACAATGACAAATTCAAGTTCAATAACCAACAACAAAAATTTATATAGTAATGAAGATTATTTTTATGCAAAAAATATTTTTTATAGTAATGTTTTTGGTTTAGAATTTAATTTTGATAAAAAATTTCAACTTAATAAAACATTAATTGATATTAAATTGAATTACACTCAATTAAAAACATCTTCAACCCAAAACGAATTATCAAAGTATCTATCTAATCATCCAAGAAAAATGTTAGGTTTTAACACTAGCTTTAGACGAAAAAATTTACATATAATATTTTTATCAAATTATATTGAAAGAAAAGAAGAGATAAATGAATTAATAAATGCAAAGATATCTCAATATTATATTTTAAATAATGTAAAAATTAATTATTTCATAAATGAAACTGTTTCCATTAACTTAAAAATAAACAACTTAAATAATATTAAATATCAAGATATATTAGGTTCTGCTCTGCCTAAAAGATGGCCAAGTATTGGAATTATGTACTCTAATTAATTTTTTCCAATTTGACTTGCAAAGACGATAGAATCAACAATAAATTCGTTCAATAATTTATTAGCTTATTTAATATTATGTATAATGATTTTGGAACCGCATTTATTTTTGTAATAATTGGTGTCATATTGATAGCAGTTCCACTTATTCTTCAATGGATATTATCTCCAAAAAATAAATCCTATGATAAACTTACCACTTACGAGTGTGGAGAAGACGTAGAAGGTCCTGCTTGGGTTAAATTTAATATTAGATTTTATGTAGTAGCATTAATTTTTATTATTTTTGATGTGGAAGCTGTATTTTTTTTCCCCTGGGCAGTAGTTTATAAAGAATTAGGATTATTTGCATTTATAGAAATGTTAATTTTTATGACAATATTGAGTTTAGGTCTAGCATATGTATGGGTTAAAGGAGATTTAGAATGGGTGAAAGTAACAGTACCTTATGGTCGAGGAAGATATAGAAAATTAAATATTGTTGATGAGGAAATAGAAGATTTAAAAAATGAATAATACTGAGATAATTAATAAAATAAAGTCTTCTTTTAAAAATATATCAATTGATGAAAATCATTCTGATCGTATAATTAGCACTCCAAAAGAATGGGAAGAATTATCAAAATTTTTAAGAAATGATTATGATCTTTTCTTTGATTCAATGATGTGTATTACTGGAATTGATGAAGGTGTTGATAGTAATAATTTGGGTGTAGTATATAATTTACATTCGATGAAATATAATCATAAAATTGAAGTTTATATTCCTGTAGATAAAAAAACTCCTAATATTTTTTCTGTTGAAAAAATATGGAGGATGGCAGAGTGGTTTGAAAGGGAAATATATGATATGTATGGAATTGTTTTTGATGGTCATTCTGATTTAAGAAGAATATTATTACCTGATGATTGGGATGGATTTCCTTTAAGAAAAGACTATGAATTTCCAAAGACATGGCATGGAATTGTTGTTGATAAAATTAAAGATGGATGGGAATAAAAATTAATAATCAAAATACACATAATAGTTCCGATGAAGAAATGGTTCTTAATATTGGCCCTCAACACCCTAGTACCCATGGTGTGTTGAGACTAAAAACTATTACAGATGGTGAAATAATAAAAAAAATAACACCTTACATTGGTTATTTACACAGGTGTTTTGAAAAACATTGTGAAAACTTAACCTATGAACAAGCAATACCATTTGTTGATAGATGTGATTATATAGGTTCAATGAATAATGATTTTGGATATGCTATAGCAGTTGAAAAACTAATGGACATTCAAGTTCCTGAAAAAGTAGAATATATTCGAGTAATTGTTGCTGAAATGAATAGAATAGCGAGTCATTTATTGGCTGTTGGAGTATTTGGACTTGATGTAGGTGCTGTAACTCCTTTCGTATATTGTTTTCGAGATAGGGAAAGAATTTTAGATTTATTTGAAATGCTTTGTGGTGCAAGATTGCTCTATAATTATATCTGGGTTGGAGGTGTTTCTCATGATTTCCCAGTCGGTTGGGTTGAAAAAACATATGAATTTTTAGATTACTTTGAACCCAAAATTATTGAAACAAATGATTTACTGACTTACAACAAAATTTTTATTGAAAGAACTGCTGATGTTGGTGTTATTCCACCTGAAGTTGCAATAAGTTATGGTGTAACTGGACCAAATTTAAGAGGGTCTGGTGTAAAATGGGATTTAAGAAAAAATGAGACATATAGTATTTACGATAAGTTTGATTTTGATATTCCAATTGGTACTGGTGCAATGGGAACAATAGGTGATTGTTGGGATAGGTATTATGTAAGAATTCGTGAATTAGAAGAAAGTTTGAAAATAGTTAGACAAGCTTTAGACCAAATGCCTAGACAGGGAGATATTTATGAATCTATGCCAAAAAAAATTAGGCCTAATGCCGGACATATTTATAGTAGAACTGAAAGTCCTAGAGGTGATTTAGGGTTTTATATTGAAAGTGATGGTAGTGCTACTCCTTCAAGATTGAAATTAAGATCACCAGCATTTACAGCTTTAAGTTGTATGGATGAAATTTCAAAAGGTTGGATGCTTGCAGACATGTTAACTATTTTAGGATCGCTCGATATTGTTTTGGGTGAAATAGATAGATAAGATGGTAGATTTTTATATTAATCTATTTTCAAGCATTGAATTTATTAAATCTTATCAATCTTCCATTTTTATAATTTCTGTTCTTTTAGCTGGAATTCCAATTTTTGGATTTATGGCAGTAAATGCTTTGGTAGCAGTTTACGTTGAAAGAAAAGTTTCTGCTTTTATGCAGGATCGTTTAGGTCCAATGGGGCATGGTGTTGGTTTGCATGCAGGGAAATGGGGTGTTTTACAAACTCTTGCAGATGCAATTAAATTACTTACTAAAGAAGACATTATTCCAGATTCAGCTGATAAAAAACTTTTTCTATTAGCTCCTTGTATAATTTTTATTGGTTCTTTTGTTGCTTTTGCAGGTTTTCCATTTAATGAATTTTTGGTTGCAGCTGATTTTAATCTTGGCTTGTTTTACATTTTAGCTATGAGTTCAGTTGGAGTTATAGGTATAATTCTAGCAGGTTACAGTTCGAATAATAAGTGGTCTTTGTATGGCTCAATGAGATCTGCAGCTCAGATTGTTAGTTATGAAATACCAGCAGCATTATCCTTGCTTCCAGTTGTTATGCTATCTGGAAGCTTAGCATTTAAGGATATAGTTTTTGCTCAAACAGGATCTACTTTGGGAATATTACCAAATTGGTTTATTTTCAATAATCCATTTATGGTAGTAGCATTTTGGCTTTTTTTTATAGCAGGAGTAGCTGAAGTAAATAGAACTCCATTTGATTTACCTGAAGCCGAATCTGAATTAGTAGCTGGTTGGATGACAGAATATTCTGGAATGAGATGGGCTTTTTTCTTTTTGGCAGAATATGCTAATATGTTTATTGTTGCTGGTGTAGCAACTATTGGATTTTTAGGAGGTTGGTTAAGTCCAATACCTGGATATTTTGATGGAAATATTTGGGGAGTTTTTTGGCTTGTATCAAAAACATCTTTTTTAATTTTTGTTATGATGTGGTTTAGATGGACTTTTCCAAGGTTAAGAACAGATCAATTAATGAGAATGTGCTGGAAGTTTTTTCTTCCTGGTTCTTTTTTTGTAATTATTGGAGTTGGGCTTTGGGATTTAATAATGAGGTAAATTTATGAATTATTTTTTATCAATTTTTCAAACAATTTCTACACTAATAATCGGAATGTCTGTAACTCTTGGTCATATGTTGAAAATTAGAAAAGGAAATGTAACTCTTCAATATCCAGTTGAAAGATGGCCTAGACCTGAACGAGATATAGGTTTTTCACCTGATAGTTACAATGTTATTCGTTCAAGATTAACTGTTGATATGGATGATTGCATAGGTTGTCTTAAATGTGAGAGAGCATGTCCAGTTGATTGTATTAAAATTGAGACTCATAAAGTTGAAAAAGGTGAAGATATTACAGAGGCAAATCATACTGGTGTTACATCTAATGGTACTACTAAGAGATTGCTTTTAACAAGATTTGATATAGATATGTCTGAGTGTTGTTATTGTAATTTATGTACTTATCCATGTCCAGAAGAGTGTATTTTTATGGTCGGAGGTCCTAATTCTACTAGACATGAAATTGATTATGAATTTTCAGAATATGATAGAAATGACATGATTTATCGTTTTTCAAAAGTACCACCGGATATTTTGCAAAGTTATGTTCAAGAAAATAAATAGTTTGAGAAAGTAAATTAATGACTGGAATAAATTTAATTTTTTGGTTTATCGCATTGATGACTATTATCTCTGCATCAATAGTAGTATTGTCAAATAATTTAATTTATTCTGCTGTTTCTTTATTATTTACTCTTTTGGGTATTGCTGGTTTGTATGTTTTTTTATGGGCAGATTTTATAGCAATAACTCAAATTTTGATCTATGTAGGTGGTATTCTAGTATTAATTATATTTGGAATAATGCTTACACATCGAATTACTGATGTGACTTTATCACAATCTTCAAATCAACAAATGTTGGGTGGTGGAATAATCTTAATAATTTTTTTAGGTTTATCCTATATGATGTTGAATACTCCTTGGTTCCAAGATACTGCTGTGGAACCTCAAGAAACCATTAATCAAATTGGTTATTTGTTGATGATTGACTATTTGTTGCCTTTTGAGGTCGCTTCAATACTTCTATTGGTTGCTCTTATTGGGGCGGCTTTATTGTCAAGGAGTTCAAAATAGTGGATTTAAATTCTTATTTAATTATTAGTTCTATTCTTTTTTCACTTGGTCTTTTTGGAGTAATTACGAGAAGAAATGGTGTAGCTGTTTTAATGAGTATTGAATTGATTTTAAATGCTGCTAATATAAACTTTATTGCTTTTTCAAGATTCTCAGGAATGGATTTATCTGGACATATTTTTTCATTATTTGTAATAATTTTGGCAGCTGCAGAAGCTGCTGTAGCCTTGGCAATTATATTAAATATTTTTAATAATTTTGGTAGTATCAATATTGATGATGCAAATAAAATGAGTCACTAATTATGATTAATTATGGTATAGCAATTTTATTACTTCCACTTTTATCATTTATAATAATGATTTTTGTAGGTAAAAAATTACCAAATAGAGGTGATTGGTTATCCATAGGTTCAATAGCTATAACACTTTGCTTAAGTTTAGCATTATTTTCAATGATGTTGTTAAAATATGATCCTTACTTTAAAGTTGAAGAAATTTGGACTTGGTTTAATTTAGGAACTCTTGATGTAAAGATTGGAATCTTAATTGATAATATAACTATAATTATGTTATTAGTAGTTTCTTTGGTTTCAACTTTAGTGCATATTTATTCTACCGCATACATGAAAGAAGATCCAAGATATTCGCGGTATTTTGCTTTTTTATCATTATTTACATTTTCCATGAATGGAATCATACTTTCAAACAACCTGTTAGGAATTTATATTTTTTGGGAATTAGTAGGTTTAAGTTCATATCTTTTAATTGGTTTTTGGTTTGAAAAAGAATCAGCAGCTAATGCTAGTAAAAAGGCATTTCTTGTAAACCGAGTTGGAGACATTGGAATGTTTATTGGAATTATGCTATTTTTTAGTACTATTGGTTCATTTTTATTTAAAGATTTATATTTAGGTGTTTCTAAAGGATTGTTTTCAGTTGATACTCTTACAATTGCCGGTTTATGTCTTTTTGCTGGTGCAATTGGAAAATCAGCACAATTTCCACTTCATATTTGGCTACCAGATGCAATGGAAGGTCCTACGCCTGTCAGTGCATTAATTCATGCTGCAACTATGGTTGCTGCAGGAGTATATCTGGCATTTAGATTATTTCCAATTTTCACTCCTCAAGCACTAACAATAATTGCATATATAGGAGGAGTTACTGCAGTTTTTGCAGCAATAATCGCTATAACTCAAAATGATATTAAAAAAGTTTTAGCTTATTCAACCGTTAGTCAGCTTGGATATATGGTTTTAGCTGTTGGTGTAGGAGCATATACTTATGGTTTTTTTCATTTAGTAACACATGCAGCATTTAAGGCCGGATTATTTTTATGTAGTGGAAGTGTGATTCATGCAATGCATCATGCATATCATAAAATAGATGATCATAAATCTGATCCTCAAGATATGAGGAATATGGGTGGAATTAAAGATAAAATGCCTATCACATTTTATACAATGTTATTTTGTACAATAGCTTTATCAGGTATACCATTTACTTCAGGATTTTTATCAAAAGATGCTGTCCTCGCAGGTACATTAGCATTTTCTTCACAATTTCCAAATCATTTTTTACTATCTCTTTTTGCTTTTAGTGCGGCATTATTTACAGCTTTTTATATGTTTAGGTTGATATTTATGACATTTTATGGAAAACCTAACTCTAAAAAAGTTTTTGAGAACATTCATGAATCTCCTATTCAAATGACAACTCCACTTATTATTTTATCTTCTTTGTCTTTTTTCCTGTTTTTTACTTTCCCGAATTTTAATCCACTTGCATATGATGGATGGTTCATGACATTAGTAAAGTCAAAAGATTCATTAGTTCCCGGTTATTTAAATCCCACAGCATATCAAATTAAAGAAGAAATAAGTCAAGCACATAATCTTGCTATGCTTCTCTCTTTGTCTGTAGCAGCACTTGGAATTGGTTTTGCTTTTTTAACTTATTATTCAAAGCTTATTTCTTCAGATGTCGTTTATAAAAGATTGAGATTTATGTATAACTTGTCATATAATAAATTTTTTATTGATGAAATTTTAAAAAAATATATCATTGATCCATTTTTGAAATTTTCTAGATACATTGCCATTTTTGATTGGGATATTTACGACAAATATTTTATTAATGGGATTGGTAAAACAACTGAAAGGTTTTCTAAAGTTGTGGGTAATTTATGGGATTATAAATTTCTTGATCAAAAAATTATTGATGGATTTGGTCATTTTACTAAATTTTCTGGCTCAAAATTACGTCTTATTCAAAGTGGTAAAATACAGAATTATTTAATTTTAGTATTAGTTGGGTTAATAATTATTTATGTTTTTCAAGCTATTTAGATAAAAAAGGGAAAAATATTTTATGGATTTTAATATTTTAAGTTGGTTGATTTGGACTCCAGTAATAGGTGCAATTTTAATTGTTATTTTACCAAAAAATAAAATTCATTTAATTAAATGGATTGCTGTTTTATTTACTGGTATTCAATTGCTTTTATCAATTTTGTTATGGTTTAATTTTGATAATAATACCCAAGGATTTCAGTTCATGGAAAAATCTCCTTGGATTCCTTCATTTAATATAACCTATATGCTTGGGGTTGATGGTTTAAGCTTGCCAATGGTTGGGTTAACTGCTTTATTATCTTTTTTATGCGTTTTTGTAAGTTGGAAAATTGAAAAAGCACCAAAGGGATATTTTAGTCTTTTTTTATTATTAGATGCTGGCATGATGGGAGTATTTTTATCGCTTGATTTCTTTTTATTTTATATTTTTTGGGAGGTAATGCTTCTTCCAATGTATTTTTTAATAGGAATTTGGGGAGGTCCCAATAGAGAGTATGCAGCTATAAAGTTTTTTCTATATACTCTATTTGGTTCCGTATTGATGTTAATTGCAGTTCTTGCTCTTTATTTTTCATCAGGAAGAACTTTTGATATGATTGAATTAATGTCAACTGCTCCAACTACACTCAGTCAAATTTCTTGGTGGGGTTTTAGTGGAATCAAAGTTGTTTGGTTATTATTATTTATTGGTTTCGCAATTAAAGTTCCTATTTTTCCTTTTCATACTTGGTTACCTCTTGCTCATGTTGAGGCACCAACTGCAATTTCTGTTATATTAGCAGGAGTATTATTGAAAATGGGAACTTATGGTATTCTAAGAATAAATTTTCCAATGATTCCAGATGGAACCGTTTGGTTTGCAGGAATATTAGCTTTTTTAGCACTGATTAATATAATCTGGGGAGGTATGTGTGCATTAGCCCAAACAGACCTTAAAAAAATGGTAGCTTATTCATCAATTAATCATATGGGTTATGTTATGTTGGGTATGTCTGCTGTTGTTGCTGCAGGCTCAAAATATGATTCAAATATTGCAGCTGCAGAATTGGGAATGAATGGAGCAGTTCTTCAAATGTTTAATCATGGAACCATAACTGCCATGTTATTTATTTTAGTTGGAGTTGTTTATGATAGAGCGCATCATAGGGACATTAATGGTTTTGGAGGATTAGCATCAAAAACACCAATTTATGCTGCTATTGTGGCTCTAGCTTGGTTCGCTGGTTTGGGTCTTCCAGGTTTATCAGGTTTTATTAGCGAAGCAATGACTTTTTTGGGTGCTTTTCCAGTTTATAGAAATATTGTAATATTGTCTACAATCGGAATATTATTGAATGCAGCCTATTTTTTAAGGTCATATCAGAAAATATTTTTGGGTAAATTAAATGAAAAATATAAAGATCTACCCGAGATTAATACCAGGGAAATTATGATTTTAATTCCACTAGCAATTCTTGTTATTTTTCTTGGTATATATCCTACTCCTCTTTTAGATGTTATGAAAACAACTATGTCTGAAATAATTTTTAGAGTCGAAGTAAGTGAGTTATTAGCTAAATAGTTTTATGGATAATATTCAAAGTACAGTTTTTTTTATTCCTGAGCTAATATTAGTTGTAACAGTTGCATTATGTCTGATCACAGATCTTTTTTTGAACAAAAAAAATTCATTTAATGTTGCTTATGTTGCTTTGATTGGAATTTTTCTATCAGGGTTATCACTTTGGTTTTCTTCTCCACTTACAAATACCAGTTTATTTTTGAATACTATTGTTTTAGACCCGTTTTCAAGAATATTTAAGTTTATATTTCTTATTTCATCATTCATCACAATTCTCATTTCATTAGATACTTCTGAGCTTAAAAATAGAGGCCTTGGTGAATATTTTACACTTATAACAGCTATGATTTTTGGATTGATTTTAATGGTTTCAAGTGTTGATTTAATAATGATTTATTTATCAATAGAGTTAGTTTCTATAATATCTTTCATTCTAGCAGGGTATTTAAGATATAAAATGATATCAAATGAAGCAGCTATTAAATATGTTATTTACGGAGCATTTTCTTCTGGATTGATGCTTTATGGTTTTAGTTTATTATATGGATTAACTGGTACTACAAAATTATTCGAAATGAATCAAGTTTTGTTCTCTCATGATGCCTTAGATATAAATTTATCCTTAATAATTTCTTTTATATTGATAATTGCTGGTTTAGGTTACAAAATTGCTATAGCACCTTTTCATTTTTGGACTCCTGATGTTTATGAAGGGTCTCCTACTCCAATTACAGCTTTTTTTTCTGTTGCACCAAAAGCTGCTGGGTTTGCCCTAATGCTCCGTTTTTTAAATTCCTTATTTGGTGACATGAATCCATTAAATTCTCAAAATTGGATTTCTATTGAAGGTGTTCCATGGCAGGAAATTTTATTAGTATTATCTGCATTGACAATGATAGTTGGGAATTTAGTTGCAATTCAGCAGGAAAATGTAAAAAGATTATTGGCATATTCAAGTATAGCACATGCTGGGTACATATTGATGGGAGTTCCATTGTTATCAAAAGATGGAATTTTTGCTGTAGTTTTTTATATAATAGTTTATTTGTTTATGCAGCTTGGTGCTTTTTATATATCTATTATTATTGCTGATAAATATAAAACGGAAAAAATAGAAGAATATGCTGGAATTGGTTGGCAATCACCAATTTTAGGAATTTTAATGAGTTTATTTATGTTTTCATTAACTGGTTTGCCTCCAACAGCAGGATTTATTGGTAAGTTTTATTTATTTGCTGCTGTTATTAATGCTGGAGCTCAATATTATTGGATTGCAATTATTGGAGTGTTGAATAGTGTTATTTCATTATACTATTATATGCGCATAGTAAAAGTTATGTATTTTAATGAAAAAAATATTCAAAATTCTTTTATTCCAAGTCAGTTTTCCATTTTACTACTTTTGGCATTGGGAATTCCAACAATTTATTTTGGGGTTCAATGGACTTACATTCATGAATGGGTAGATAGTGCTTTGAAATTTTTTATACCAAATTTTTAGTATAAATTTAATTGTAATTTTATTTAAATATTATATCATTGGAGATTAGAATTGGCTGAAATTAAAATAAGAAAAGGTCATAACCTTAATATTAAAGGTCAACCAGAAAAGAAAATAGATAATATCCATAATTTTGATAATATCGCGATTTATCCATCTGACTTTAGATATGTAAAACCAAGATTGTTAGTGAAAGAAGGAGATCAAGTTAAAATTGGTTCGGCTATATTTTATGATAAATTGGTTCCAAATGTTAAATGGCCATCTCCGGCTTGTGGTAAAATAAGTGAAATCCAATATGGTTCGAGAAAAATAATTGAAAAAATTTCTATTGAAGTTAATGGAAATGAAAATGAAATAGTCAATCCAAGTTTATCTGCTTTTTCACTCAAATCATTAAAAAAAGAGAAAATATTAAATGATTTAATAAATTCAAACTTTTTTCCTTTTATTAAAAGTAGACCATTTAATAAAGTAGCAAATCCTGATGAAAATCCTCGAGATATTTTTATTTCCGGTATAAACTCTGGACCTTTATCTTGTGATTTAGAATTTGTTTTAAGTGAGAGTCTACCTGAATTTCAAGCTGGATTAGATATATTATCAAATCTAACTGAAGGTAAAGTTCATTTGACTTTAAAGGAAGATTCAATTTTTATTTCTTCTTTGGAAAATGTTGAGCTTCATTCTATTTCAGGACCTCATCCATGTGGAAACGTTGGAATCCAAATTCATCATATTTCGCCATTGAAACCTGATGAAATAATATGGACAATAGATCCCCAACACGTAGTTATTTTAGGAAAACTTTTCTTAACTGGTAAATTTGATCCTTCTATATTAGTTTCAATTGGTGGACCTATTTTTTCAAACCCAAAATATATACGAACAAAAATAGGTGCCTCAATTAAATCTTCTGTTATTGGTCAAGAATTAACTAATAATTATAGATTAATTTCAGGAAATATTCTTAATGGAATAACATCATCCATTAATGAAAACTTACATTTTTATGATACATGTTTATCTGGAATTATTCAAACGGAAGAACGTAAATTTTTAGGTATGATATATCCAGGAAATTCTGATACTCATTATTCACTAACTAATACATTTATCAATTTTGATAAAAAACCATTTAATTTTTCAACATTAACGAACGGGAGTGAAAGACCAATTTATCCTTTAGGTTATTGGGAAGATGTTTTACCAATGGATATTCTTCCAAATGAATTGTATCGCTCAATTATTTCTGAGGACATAGAGTTAATGGAAAGTCTTGGAATATTAGAATGTGATGAGGAAGATTTTTCACTGTGCACTTTTTCATGTGCAAGTAAAATTGATGTTGGTTTAGAAATTAGAAAAGGCTTAGATATGATTTGGAAAGAAAAAAATCAAACATGAAATTTTTGAGAAAAATTTTAGATTCATTAGAACCCAAATTTCAAAAAGGTGGTCAATTTGAAAGATTATATCCTCTTTATGAAGCAACCGACACTTTTTTATTTACACCTAATATACAAACAACCTCTGGTCCTCATGTAAGAGATAATGTTGATTTAAAAAGAGTTTTGATTCTTGTAGTAGTCGCTTTGGTCCCTTGCTATATATTCGGAGCAATAAATCTTGGTTATCTGAATTCTATTTCAGAGGGTATATCTAGGGGTTGGATAGGAAATCTACTTTTTGGACTTAAATATATTTTACCAATTTTGGTTGTTACTCTTGCAGTAGGTGGGTTTTGGGAAGTTTTATTTAGTATAATTCGTAAACATGAAATAACTGAAGGTTTTTTAGTCACTTCAGCATTGATTCCATTAATTAGTCCACCTAATCTTCCATTATGGATGTTAGCTGTTGGTACAACTTTTGGCATAGTTGTTGGTAAAGAAGTTTTTGGTGGAACTGGTATGAATATATTTAATCCTGCAATGACCACAAGAGCCTTTATTTATTTTGCTTATCCAACTGAAATGTCAGGTGATAAAATTTGGATGATAGGTCCTGATGGATATTCAGGAGCAACAGCTTTATCTCTTCCAGCTGCGATTACTGATGGGAATAGTGTTGAGATTTTAAATAATTTTTCACAATTTGATTATTCTTGGTTAAATATGTTTATTGGTTTTATTCCAGGTTCTATTGGTGAAACCAACAAAATATTAATAATTTTAGCTGGTATGTTTTTGATTTATACCAAAGTTGCATCTTGGAGAATAATTATTGGATGTTTAATTGGATTAATAGTAACTGCATTTATTTTTAATTTATTATCTCCATTTTCTAGTAATTCAATGTTAACTATTCCTCCTCATTATCATATTGTAATGGGAAGTTTTTTATTTGGAACGGTTTTTATGGCTACAGAACCAGTTACCTCAGCTCATACCAATAAAGGAAAATGGATTTATGGAATAATGATTGGGTTTTTGACAGTTATCATTAGAAGTATCAATCCTGCATATCCAGAGGGAGTAATGCTTGCGATTTTATTGATGAATGCTTTTGCACCAGCAATTGATTATTTTGTTGTTAAAGAAAATATTGCAAATAGATTGAAAAAATATGCGAAGTAATACTTATACATTAATTTTTACATCTTTAATTACATTAATTTTAGGTTTTTTGTTATCTTTTACTTACACACAGTTAAAAAGTATGCAAGAAGAAAATTTAGCTGTTGATATAAGAAAAAATATTTTGCGTGCTCTTGATATTAGAGAAGAAAAAAATGAAGAATGGTCAAATGAAAAAGTTCAGGATTTATTTAATAAATATATCAAAGCTGAAGTTGTGTCAAAAAATGGTTTAATTTTAAATAATATAAATATTGAAAATATTGATGCAGAATATGATTCAATTAATTTTCCGATATACTATAAACTTAATGATAATCAAATAGATGGTTATGCAATACCGGTTATTGGTAGAGGTCTATGGTCTACTTTATATGGATATCTAGCTCTTGAACCTGATGCTTCTACTGTTAAAGGAATTCAATTTTATAGTCATAAAGAGACACCAGGTTTAGGTGCCGAAATTGAAAAAGATTGGTTTACTAATAATTTTATAGGTAAAAAAATAGTTAATCCTAATGGAGAATTAGTGAGTATTGAGGTTCTTAGAGGAAAAGTTGATGAGCTTAGTAATGAAGCATATCATCAAGTTGATGGAATTTCAGGTGCAACTATGACAACTAAAGGTGTAACTCAATTTTTATTAGAGGATTTACAAAAATATGAACCTTTTTTCAAAAAAATTAGAACTGAGGTTAAGGAAATTACATGGCTATATTAAGTAAAAAATCACGTTCAGCACTATATGATCCACTTGTAAAAACAAATCCAATTTCGTTGTCAGTATTAGGAATTTGTTCAGCGTTAGCTGTTACCATTAGAGTTGATCAAGCTTTAATCATGACGGGTGCTGTGATATTTGTCCTTTCAACCTCAAATACAATTATTTCAGTAATAAGGAAATATATACCTTCAAGAACTAGAATAATAATTCAACTGGCAATAATTGCTGGATTAGTAAGTTTGATTGACCAAGTTTTAATGGCTTATATGTATAACATGAGTAAGCAACTTTCAGTATTTGTTAGCTTAATAGTTACAAATTGTATCGTAATGGGAAGAGCTGATGCATATGCTATGCAAAATCCTGCTGGAAATTCGTTTTTAGATGGTTTAGGAAATGGATTTGGTTATGGTGCTATATTAATTGCTGTTGCATTTTTTAGAGAATTATTTGGTTCTGGGACAATCTATGGAATATCAATAATTCCAGAATTTGTTTATAATTTAGGTTATGAAAATTTAGGTCTAATGGTTTTATCACCAGGTGCATTTATTGTTCTAGGTTTGATTGTATGGTTTCAAAAAGAGATTTGGAAAGAAAAGGTTAAGTAAAAGATGGGTTTTGAACATTATTTAAGTCTTTTGATTAAAGCAGTTTTTATAGAAAATATTGTACTTGCTTATTTTTTGGGGATGTGCTCTTTTTTAGCAATTTCTAAACAAGTCGAAACATCTATTGGTTTAGGTTTTGCTGTAATTTTTGTTTTGTCAATTACGGCTCCTATTAATTGGCTTATAACTACATATTTATTAAAAGATGGTGCCCTTGCTTGGATAGGTTTACCTGAAATAAATTTAAGTTATTTAAATCTTATTGTTTTTATTGCAGTTATTGCGGCGGTTGTACAATTAGTCGAAATGTTTTTGGATAGGTTTTCACCTACTTTATATCAAAGTTTAGGTATTTATCTTCCTTTGATTGCTGTTAATTGTTCAATTTTAGGAGGTTCATTGTTTTTAGTTGAGAGAAAATATACTTTCATAGAATCATCAGTATTTGGTTTTGGGTCTGGGTTAGGGTTCTTTTTGGCAATTGTTGCTTTAGCATCAATTAGACATAGAATGAAATATTCAAATGTACCAGAACAGTTGAAAGGAGTTGGTATGGCAATGTTATTAACAGGATTAATTTCAATGGCTTTTATGGCTTTTTCAGGAATTGATATATGATTTTAGAAACTACAATTGCAGGAATGATAGTATTTACAGGAGTTATAATGGCTCTTGTTCTAATTTTGAATTTTGCAGGTAATAAACTTTTACCTCAAGGTGAAGTCAATATTTTAATCAATGAAGATAATGATTCGAAATTAAAAACTAAACCTGGTAGTACGTTGCTAGGAGCACTTTCAAATCAAGATTTATTTCTTCCTTCCGCATGTGGAGGTCAAGGTACGTGTGCTATGTGTAAATGTCAAGTGATTGAAGGGGGAGGTGATATTCTTCCTACAGAAACAGCATATATATCTAGGTCAGAAGCAAAAAATAATTGGAGATTAGCTTGTCAGGTTAAAATAAAAAATGATATGGAAATTAAAATTCCTGATGAAGTTTTTAGTATAAAAAAATGGGATTGTAAAGTAGTTTCAAATAATAGTGTAGCTACATTTATAAAAGAATTAGTTATTGATTTACCCAAAGGTGATAACCTTGATTTTAAAGCTGGGGGCTACATTCAAATTGATATCCCAGAATATTCTGGTTTGAAATATAGTGATTTTGATATCGAAAAACAGTATCATCCTGATTGGGACCAATATAAAATATGGGATTTGGTTGCAAACAATGATGAATCAATTTTTAGAGCATATTCAATGGCAAATCACCCTGCTGAAGGTAATAGAGTTATGTTAAATGTCAGAATTGCCACACCTCCACCTAAACTTTGGAATGATGTACCACCAGGAGTTGCCTCAAGTTACATCTATGGTTTAAAACCAGGAGATAAAGTAACAATTTCAGGTCCTTATGGAGAGTTTTTTATCAAAGATACAAACAAGGAAATGGTATATATTGGCGGTGGTGCTGGAATGGCTCCTATGAGATCTCATTTATTTCATTTATTTAATACTTTAAAAACTGGAAGAAAAGTATCTTTTTGGTATGGAGCAAGGTCAAAAAGAGAAATGTTTTATGATGAAGAATTCAAAAAAATAGCTAAGAAATTTCCTAATTTTAAGTATGTTGTTGCTTTGTCAGAACCTTTGCCGGAAGATAAATGGGATGGAGCAACTGGATTTATTCATCAAGTTGTAAATGATAACTATTTAAGTGATCACGAAGACCCAACAGAATTAGAGTTTTATATGTGTGGTCCACCACCGATGATAACTGCATGCGAAAATATGCTTTTTGATTTAGGTGTTGAGGAAGATCAAATAGCTTATGATGTCTTTGGTTAATTTATTATTTAAGGTTGCGTGATTGAATCATTGTCACAATTTTCTGGATTACCTCCACAAATTGAACATTCACGAAAATCATTTAAACCCCCACATGTTCCTTTTAGTGGTTTATTATCAAATATAACTCCTACTGATAAACCTATGAATGCGATTATGAGAATAATAATTGAAAGGATTAGTTCCATATAAAAATTTAAAACTATTTTTGAATAAATTTCAATTAATAGTATCATTTTATTTTTATAATTTAATGATTGAATTTTAGAGGTATATTTACAAAATGAGAAAATATATAATTATTTTTATGTTATTTGTTTCAAACGTTATTTTCGCAGCTGGAAATGAAAATAATTATCATTTGAATGGTGCAGATATGTCTATTTTTTGGACAATACCGTTTGCTGGTATTTTGTTATCTATAGCCATAATACCTTTAATAGCGCCTCATTTTTGGCATAAAAATTTTGGTAAAATATCAGCCTTTTGGGCTCTTATTTTAATATTACCAATGTTATTTAGTTATGGTTTAAGTATTACAATATATGAAATCTTACATGTCTATCTTTTAGAGTATTTTCCATTTATAATCCTTTTATTAGCATTATATACGATATCAGGAGGAGTCAGAATAAAGGGTTCTTTACGAGGTACACCTGTTGTAAATCTTATTATATTAATTATTGGTACTTTCCTTGCTAGTTGGATGGGTACAACTGGTGCTGCAATGTTATTAATAAGACCTATAATTAGAGCAAATGCTTGGAGAAAACATAAAACTCATATAATTGTTTTTTTTATTTTTTTAGTTGCAAATGTTGGTGGCTCTCTGACCCCTTTGGGTGATCCACCACTGTTTTTAGGTTTTTTAAAAGGTGTAAATTTTTTCTGGACAACAAAAGCGATGTTTTTACCAATGATGTTGGTTGTAACTTTGTTGTTAATAGTTTTTTATTTTTACGATGTTTATTATCTTAATAAAGAAGATTCCAAAGTTGCTCCAATCGAAAAAAATGAAAAAGAACCTCTGAGTTTAGAAGGTTCATTTAATTTAATATTACTCTTTTTAGCAGTTGTTGCTGTATTACAAAGTGGAATTGATTCTCCCATAAAAGGAAAAGTAATTTTTAATCCAATGGGAATACATATTGAATTTCAAAATTTGATTAGAGATTTTTTACTTTTATTATTGACGGTATTAAGTTGGACTTTAACTTCTAAGAAAATTAGAAAAGAAAATCAATTTACATGGTTTCCAATTCAAGAAGTAGCAAAGCTTTTTGCTGGTATTTTCACAACTATTATTCCTGCAATTGCAATATTAAAAGCTGGTAATGATGGTGATATGAAGAGCATTATAGGAGCTGTTTCAACTTCTTCAGGTGAACCAATCAATATGGCATATTTCTGGTTAACTGGTATTTTATCAAGTTTTTTAGATAATGCACCAACTTATTTAGTTTTTTTTAATACTGCTGGAGGTGACCCATCTATTTTAACTACGATTAAATATGATACACTATTAGCAATTTCAGCAGGGGCTGTATTTATGGGTGCAAATACATACATTGGGAATGCACCTAATTTTATGGTAAAATCAATTGCGGAATCACAGAATATTGAAATGCCAAGTTTTTTTGGATACATGTTCAAATATTCTATTCCAATACTGATTCCGATTTTTATAATTGTTTCCTTAATATTTTTTCTATAATAGATTGAGAATTACTAAGGTATATACTAAAACAGGTGATAATGGCACTACATCATTATCAGATGGTTCTAGGGTCAAAAAAAATTCGTTAAGAATTATATCTATTGGTTCAGTTGATGAACTTAACGCTAGTCTAGGTATGGTATTATCTACTCGGCCAGTAGAAATAATTTCAAAATTGTTACGTAAAATTCAAAATGATTTGTTTAACCTCGGAGGCGAGATATCTACAAAAGATTTAAACCTGAAATTAGTTTCTATTGATGACATTAAATTATTAGAAGAATCAATAAATGAATTGAATAGTGATCTTCCAGCTTTAAAAGAATTTATTATGCCAAGAGGCACTGATATTGTGTCAAGATTACATTTTTCAAGAACAATTTGCAGAAGAGCTGAAGTAGATTTAGTCAATTTGAGTCAAATTGAAAAAATCAATAGTATTCATCTTACGTATTTAAATAGATTGTCGGATTATTTATTTGTGTCAGCTAGATATCAAAATAATTATGATGAAAATAATGAAATTTTTTGGGATAAATAGTTTAATTAAATAAGGAGCGATATTGTGGATTTTTTGTATGCTCAAAGCTCATCAGATAGTAGCTTTTTAAGTTTCTTACCGTTTATTTTAATGGTTATGGTTATATATTTTTTAATGCTTAGGCCTCAAATGAAACAACAAAAGGAAAGAAAGAAAATGTTGGAAAATTTGAAGAAAGGGGACAAGATTATCACATCGGGTGGTATTTATGGTACTATAGCCGGTTTTAAAGGAAACAATAGTATCGTAATACTTGATATTGATAAAAATGTTACTATAAAAATCAGCAAATCTGCTATATCAGGTAGCCAATCTATTGATGAGAAAAAAGATTAATGTCTGTTCAAGGTTTAGTTAAATTTGATAATCCAATTTTAAGAAAAGTTTTAAAACCAGTCAAAAATTTTGAAGATGTAGAAAATATCATATCTAATATGTATGATACAATGTATGAAAATGACGGTATTGGACTTGCAGCAAATCAAATTGGAATAGATTTGAATATAATCATTGTTGATTTATCACATATTGATTCTAATTTTCATCCAAAAACATATATAAATGGTAAAATTTTAGAAAAAACTGGTAGTAAAATTATGGAGGAGGGATGTCTGAGTTTGCCAAAAATTAAATTAGAAGTCAATCGAGCAGAAAAAATTTATTTTTATTATGAGGACAAGAATGGAAATCCATTTAAAGAAGATTTAAATGGATTATTATCAACTGTAATTCAACATGAAATGGATCATGTCAATGGTAGATTGATTATTGATTACGCATCAAAGATTCAAAAACAACAATTTTTAAAAACACTTCAAAAACTTCACGAATAATTCAAATATAAATCAAGTGAATTCAGCAAGAATATTATTTATAGGAAATCCTGAATTTTCAATTCCATCATTAAATAATATAGTATATTCTCATCATAAATTAGTTGGTGTTGTAACATCAATAGATAAAATGAAAGGAAGAGGAAAAAAATTTTCTGAAACTTCAATATCTGAAAGATCAAAAGAATTAAATTTACCCTTATATAAACCAAAAAATTTGAATGATAAAAATTTTTTGAATCAAATCAAAAAATTAGATATTGATTTTATAATTGTTGTAGCATTTAGAATATTACCAGATTCATTATTGAGAATTCCTAAATATGGTTCTATTAATCTTCATCCATCTTTATTACCTAGATATCGTGGAGCTGCACCTTTACAGTGGTCAATTATAAATTCTGAAACTTATTCTGGTATTACTACTTTTTTAGTTTCAAATAAATTAGATAAGGGGGATGTTTTAAAAAGTACTCCATTTATAATTTTTCCTGATGATGATTACGGTAGTTTATATTTTAGGTCTTCAAAAATCGGTTCAAAATTATTATTAAAAACAATAGATGAATTTATTAATAAAGAAATTTTTCCAATTCCTCAAAAAAATGAAAATTCAACAAAAGCACCAAAAATTTTTCCTAATGATTGTAAAATAAATTGGAATATATCAGCAAATAAGATAAAAAATAAAACTTTAGCATTTTCTCCTTATCCTGGTGCGTATACTTTTTTTAAAAATAAAAGATTAAAAATCTTTTCTAGTTTACCATCATTAAAGAATTATAAAAAAAAATATGGAGAAATTATCGAAATAAATAAAAACTCATTCTTGGTTCAATGTAAAAATAGTAGCTTAAAAATTTATCAAGTTCAATATGAAGGAAGAAAAAAAATGAAATCTTCTGAATTCATTTTAGGTAATAAGTTAGAAATTGGGGATTTTTTTGAATAATAAAATTCAACCAAGAGAGCATGTAATTAAAATTTGTGAAACATTTGATAATCATGGATTAAAGTTATCAATTATAATGAATGATTATTTTTCAAAAAATAAAGTATCAAAAAGTAAAAGACCTGAAATAACATTTTTAGTTCAAGAAATTATGAGAAAAAAGAATTATTTGGATTTTTTAATTAATAAAACATTTAAAGGTGATTATTTTAAATCTCATTCTTTTTTAAAAAACACTTTAAGGTTGGGATCATATGAGATTATTTATAGATCTCATATTCCTGATTTTGCTGTTGTAAATGAAGCCGTTGCTATTATTAAAAAAAAATTAGGTAAATCTCCAGCTGGATTAGTTAATGCAATTTTAAGAAAAATAAAAAATATAGATAATGGTATTAATAAATCTTTAAGTCAAAAATCATCAATTAATGATTTAAGTATTATTTTATCTCATCCAAAATGGATTTTAAAAAAATGGAAAAATAATTTTGGTTGGGAAAAAATGATATCTTTATGTGAGTGGAACAATAAGATACCTGATCTTACATTAAGAATTAATACTAATAAAATTGATGTTGACACTTTTAAAAATTATTTAAATAAAAAAAATTTTTTATTTAAGGATTCTGAAATTTTACCTGAGTTTTTGATAATAAAAAATGGATCTCTTCTAAGAAATTCATCAATGTTTAAAGAGGGGTTTTTTTCATTTCAAGATATTTCATCTGGTTTAATATCAAACTTAGTAGATATTAAAATAAAAGATTCATTTATTGATGCTTGTGCTGCACCTGGAGGAAAATGTTCTTTTTTAGCTGAAAAAACAAATAGTAAATTATCAATTCAAGCTTTTGATATAGATTCTAATAGAATAAAATTATTACATCAAACAATTGATAGGCTAAATATTAAATCAATAACAATTTCAAAAAAAGATGCTTCATGTGATTCATTTCCAGTATCGAATAAAATTTTAATTGATGTCCCTTGCACGGGTACAGGTGTTATGTCTAAAAGAGCAGATTTAAGATGGCGAAGAAAGCCTAATCATTTAAATGAAATGATAGAGATTCAAAAAAAAATTTTAAATAACATGTCTAAATTTATTGGAATTGGAGGAGAAATTATCTATTCAACATGTTCTTTAGAGAAAGAGGAAAATTGGGATATAATTGATGATTTTTTATCTAGGACTGATAAGTTTAAATTTATATCATCAAAAAATTTAGTTCCTTCAAATTTTATCGATCATAGAGGTGCTCTATCTACTTTTCCAAGTATTCATAAAATAGATGGAGTTTTTGGAGTTAAATTAAAGAGAATATTATGAAAAAAATTTACTACCAAATAATCATGTTATTTTTCGTTTTTTCAATGGGAATGTTAATTTTTGATAAATTAATTATGCCATTTTATATTAGAGAAAATTTGGATAGAAATTTACCAAATGTAAAAGGTTATTCTTTTGTACGTGCTAAAGAAACTTTAGAATCTGAGGGATTTCATGTGAAAAAAGGAGACATTCAATATACAAATAAGTTTTCAGAGGGAACTATTATAGACCAATTCCCTGACCCCACTAGAAGAGTTAAGCCGGGAAGAACAATTCATTTGACAATAGCTCAAAGAGAGAAAATGGTATTAATACCAGATTTAATTGGTAAATCTATAAGAAGTGGAAGATTAGAGTTAACTGATTCAGGTTTATTAATTGACACCCTAATTGCTGAATTTGATCCAGATATTCCCATTGATGTAATACGATGGCAATATCCAAGAGCTGGTGATTATTTGAGAAAAGGAAGTGGTCTTAAAATCATAATTAGTAAAGGTAAGCCACCTAATTTTTATGAAGTTCCTCAGTTATTTGGTTTAAGTATGGACAAAGGTGAAAAACTTTTAAATAAATCAAAATTATATTTAGGAAAAGTGAATTACAGACAAAATGAAGATCTTGTACCTTATACAATTTTAGAACAATCAATTGTTTCTGGTACTATTTTAGATAAGCCCCAATCAATTGATGTTACTGTAAGTATTTTGGAATTAGATGATCTTTATAATCAACTTACCAATCCAATTGAATAAAATGAATTTCAAAAACGAATTATATAGAAAACTCATACATTTAGCTTCAGTAATTATTCCTATGAGTTATTATTTTTTTTTTAGTAGAGAAATAATTTTATTAATACTTTTTTTTGTTTCTATATGTTTTATAATTATAGAAATCTTAAGAATAAACAATTTATTAATTAATCAAATTTTTTTTAAAGTTTTTGGTTTAATGATAAGAAAATCAGAGAAGAAAAAATTTACGGGTGCTACTATTACCTTTATTTCATGTTTTTTTTTAATTATGATTTTTGAGAAAAATATTGCTGTTTATTCTATGTTGATTTTATGTATATCTGATGCAATTGCAGCTATTGTTGGTAAAAAATGGGGGAAAAATAAAATATTTGATAAAACCTTTGAGGGAAGTTTAGCCTTTTTTTTAGTATCAACCTTGATTGGTTTGTTATTTTTAGATATAAAAATTATAGGTTTGTTTATATCATCAATAATTGCAACTGTTGCAGAATTAATTCCATCTCCAATTAATGACAATATAATAGTTCCTTTTTCTGTAGGTTCAACAATTTCATTTTATTATCTATTTGTATGAGTTTTTTATCCCCTAATATTCTTTGGGCATTAATTTTTGCTTTCATTCCATTAATTATTCATATTTTCAACAAGTTAACTACAAAAACAATCAATTTTAGTAGTATACAGTTTTTGAAAAAATTAGAAACTAGTAAAATTAAATTTTTCAAAATAAAAGAATTAGTATTGTTATTATTAAGAACACTAATTATAATTTTTTTAGTTTTAGCTTTTTCTAGACCTGTTATATCTGGATATTTTACTATTACTGGTTCATCAAATCAATCAAGTCATATTGCAATTATTATTGATAATTCAGCTTCAATGTCCTACGAGGATAACCAAATTTCTTTTTTTGATAAATCAAAAAACAATGCATATGAGTTATTAACAAAATTAAATAACAATTTTTTTCTTGACGTTTATCAAACCACTCCATTTAAAAGAGTTGCATCTGAAAGAATAATTAATCAAAAAAGAATTATGGAAATTTTAAATAAAATTTCAATTTCAGGAGGTAAAGATAATATTTACGACGTAATTAACTCATCGTTAAAATCATCAGATAAATTAAATAAAGTGTTTGGTGATATTCCTAACAAAGAATTATATATTTTTAGTGATTTCCCTGCTTCAATTCTTAAAAATGAAAAAATAGATTTAATGGGTTGGAGAACTTATTTATTCATGATGGATGAATTTAAAAAAAACATAAGAATTAATGAAGCAAAGGTAAATAATTTAATAAAATATCCTAATCAATTGTTATCAATTGAAACCAATATTAGTAATTCAAGTAGTTTGGAAATTAAAGATTTAGAAGTTGAATTGTTTGCAAATGATATTAAAAGTGGACAATTAGTTTCAAATTTAAAACCAAATATAAAAAAAAATTTTGAATTTAAAGTATATTCTGGACAAAATAATATTAGTAATGGTTGGTTCAAAATCCCTAATGATGATTTTGATTTAGATAATAAAAAATTTTTTCAATTTAGATTAACAAAAAAAATTAAAATTTTATTTTTTCATAATGAGAATGAATTTTCTGGTCCAATAAAGTACGTTTTTTCTTCAATTAATCATTCTAATGATTATTTAGAAATTGAAAATTATTCATATAATAGTTTTGGTTATAATAGAATGAGTGATAAGGACTTGATAATTTTTTATAATCCAATAGATTTTAATGATGAGCAAATAAGTTTAATTAGAAATTATCAAAAATCAGAAAAATCATTTTTAATTTTTTTAGGGGATTCAAATACTAATTTATTTTCTGATCTTAATTACGAAACTTCTTTTAATGATAATGGAGATGATTTTTTTAGTTTAAATACAATTAATTTTGAAAATCCGATTTTCAAAAATTTTCCTATCAAAAATTTAATTGATGAAATGCCTAAAATAAAAAAATATAATCCTATTTTGAATATGAGTGATTATACAAAATTATTGAATTTATCAAATGGTGACCCATTTTTATTTGAAATAAATCAAAATGGTAATAAATCAATTGTTTTTACATCATTAATGAACCTAGATTGGTCAGATCTCCCAATTAATGGAATTTTTATTCCATTAATACATAGAATTATCGTTTATTTAAGTAATTTCAATTTACAAGAATTCAAAGTCGATATGGGTGACTCGTTGTTTATTCCTTTATCAAGAGGGAACTTGTCAAAAGAAATTATTTTAGAAGATCCAAATGGATTGAAATCAAAATTAAAACCAGATTTTGAAAATGAAAGATTAATTTTATCTGATTTAAATTTATTAGGTATATACAAAATTTTTGTTGATACAAAATTTCATACCTCCTTTATTACTCATTTATCTGAATTAGAAAATCCATCTAAAAGAATTTCAAAAAATGCTCTATCAAAAGTATTTCAACTAAATAATGTGAAAATAGTTAATTTTGATGAAAATCATATTCAATCTGTTGATGAAACTAGAAAAGGAAAAGAGTTGTGGTATTTTTTTATAATAATTAGTTTAATTTTAATTATTTTTGAATCATTTTATAGTAGAAGTAAATCAATATAAAAATCTAATTGTTTTGAAAGAAAGAGCATTCTTAGTTGGAGTAATCACAGGTGATGAAACTTATGAAAAAGTAAAATCAAATTTAAACGAGTTGTCTCTTCTTGCTGATACTGCTGGTGCAGTTGCAGTTGAATTAATTATATCAAAAATAAATAGAATTAGTCCGAAATATTTTGTTGGAAAAGGAAAAGCTGAACAAATAATTAATCAAGCTAAGGCTTTAAATGTTAATTTAATAATTTTTGATGATGATCTTTCTCCAACACAATCAAGAAATTTTCATAAAATTTCTGATAAAATAAAAATAATCGATAGAACTGGATTAATATTAGATATTTTTACCAATAATGCTAAAACTACTGAATCTAAAACACAAGTAGAGTTAGCTAGATTACAATATATTCTTCCTAGGCTTACAAGAATGTGGACACATTTAGAGAGGCAAATGGGAGGTATTGGAACTAGAGCAGGTGCTGGAGAAACTCAAATAGAAATAGATAGAAGATTAATAAGAACTAAAATTTCAAAACTTAAAAGACAAATAAAAAGTATTGAAAAAGAAAGAATAACTCAAAGTATAAGAAGAAAAGAAAAATTTAGAGTATCTTTAGTTGGATATACAAATGCTGGTAAATCTACTTTACTTAATACTTTAACTGGCGCTCAAGTGTATGCTAAGAATAAACTTTTTGCAACTCTTGACACAACAGTTAAATCTTTAAAAATAGAAAAAAATAATGAAATTTTATTAAGTGATTCTGTTGGTTTCATAAGAAAGCTTCCTCATGATTTGGTTGCATCTTTTAAGAGTACTTTAAAAGAGGTTGTTGAATCAGATCTTTTATTAATAGTTGTTGATTCAAGTTCACAAAATTTAGATGATGAATTATTAACAGTAAAAGAAGTATTGAATTCAATTAAAGTTAAAACAGATAATTCATTAATAGTTCTTAATAAAATTGATTTAGTAAAAAGTTCAAAATTAAATGGTTTAAAAAATAGATTTCCTGAAGGAGTATTTATTTCTGCAAAAAATCGTTTAATGATTAATCATTTATTAAATGAAATTAATAGTTTTATTAAAAAAAATTATATTACTTATAACTTAACATTAAAATTTTCTCAAATAAAATTTCTTGATAAAATATTTAATTTAGTTGATGTAATTAAATGTAATTATGAAAAAGACTTTGTATCCTTAAAAGTGAGAGGAAAACCAATAATTATAAAAAAAATTATATCTGATATAAAAAAATCCCTGAAACATGACATTAATGGAACACCTATTTAATTAAGTGTGGGCACCTCTTGTATAATGCAAGTTTCCTTTACTTCAGAAAAGAAGGCCTACTTTTATTATACAAAGTTAAGTTCCCAATATGTTATGATTGTAAGTTCCAAAAATGCCATACAAATAACAGGGAATAATCATAATTTATACAACAAATTTTAAATTAAAAAAAATAAATTAAAATTAAAGTATACATTTTTTATAAATTTAAAATATGATTTATATAATAAGCGTTTTCATTTATTTAATATTTTTAACCATTATTGGATTAAAAAAATATAATAAAATAAATAATCAAAATGATTTTGCACTTGCAGGTAAAAATTTAACATCTCCTATTTTATTAGGAACAATGCTTGCAACATGGATTGGAACTGGTTCAATATTGGGAAATGCTGGTAAAACTTATGAAATTGGTATTTCAGCTATTATTTTACCTTTAGGTGGTGTTTTGGGGATTTATGTATTATCTAAAATTGCAACTAAAGTTAGAACTTTAAATAAAGTAACAGTACCTGAAATTATAGGATCAAAATATGGTAAATTAGCTCAAATATTAAGTTTAATATCTTTGATTGCTTCTTATATGGTAATTGTAGGTTATCAATTTAATGCTGGTGGAATTGTTTTAAATATGATTTTTACCAATGAAAATGGTTCAAGTATTATTTCAATCGAAACCGCAACAATAATTGCGGCATCATTTATTATAATTTATACTATGTTAGCTGGCTTATTGAGTGTTGCATTTACAGATGTTGTAAATGGAATAATTATGACAATAATACTTATTATTGCCTTTCCTTTATTATGGTTTGAATCAGGTGGTTTAAATAATATTGAAAATAGTTTTTTAAAACTTGGTAAAATTGAAAATTATAATTTTTTAAGCAATGTTTCATTTTTAGATATAATTAATTTTTGTTTACCATCTTTTTTATTAGTTCTTGGAGATGCAAACATGTATCAAAGATTTTCTGCAAGTAAAAATATTCAAGGTTTGAAAAAATCAACAAATATTTTGATTTTTGCAGTATTATTGATTGAAATATTAATTATTTTAATTGCTTGGGTAGGTTCAACTATGATTCCAGAAACTGAATCAGGTAGATATATAATGATTTATATTGGTTATAAAATATTACCTCCATTGATTGGAGCAGTTATGTTAACAACAATTGTTGGAATTATAATTTCGACTGCTGATTCATATTTACTTGTTCCGTCTAATGCTATAATGAATGATATTTTTTTAAAATATATAAATAATAATTTAACTGGTAAACAAATTGTTTTTTATAGTCGAATAATAGTGTTAATACTCGGTATAATTGCTTTTTTTATGTCTAATTTATTTTCAAAATCAACAACAATTTTTGAAAAAGCATTATATGCTTACACTATTTATGGAGTATCAATTACACCATCACTAATGGCCACATTTTTTTGGAAAAAAGTAACAAAAGAAGGAGTTATCAGTTCAATAATTTCTGGTGCATTAACAATTTTATTATGGAAAAATGAAAGGTTAATGCTTACTTTTTTCCCCGAAAGTATTTACTATAATATTGATGAAGTAATTCCAGGTATAATTATTTCTACTTCATCGTTAATTTTAATTAGCCTCATTTATAAAAGAAAATAATTTTTTAAAATTGAGAAATTTATTTAATAAGATAGTTTCCCTTCAAATTTTATATCCATATAGATTTTTATCTATCTTATTATTAATTACTATATTTTTTATCATTCAATTATTTTTTTTAAAGTTTGATTTTACTATTGAAAATTTATTTCCTGAAAATGATAAAGAAGTTGAACAATATTATAATTTTAGAAATGAGTTTGGTAGAGAAGATAATATTATATCCCTAACATATAATTGTGATGACCCATTTTTATTAAAAAATTTTTTATTAGCTCAAAAATATACAAAAAGTTTATCTGAGATAGATGGTATTTCAAGTGTTTTTTCAATTACCAATCTTGGAATTGAATTAGATTTTTTAGAAATGAGTTTTGATGATCAAAATTTAATTCAAAAACAAATTGAAGTTTTAAAAAACTATATTTTTCAATCATCAATTTTTATAAATAATCTTATATCTGAAGATGGAAGTATAGCTTCAATCATTCTTGAAGTTGATGAAAATCTCAATAATCATCCTGGTAGATTGCAAATAATGAAAGATATACAAGCTATCATTAATGATTCAAATTGGGAATGGTATGAAACTGGAATTCCAGTGTTGAGAACTAAGTATGTCCAATATATGATTGGAGACTTTATAAAATTTTTTCCACCTGTAACAATAATATTACTATTGGTTTTATATATTATGTTTAAATCAATTAAAATAGTTTTGTTACCAATTTTGACAATTTTCATATCAGTTGTATGGGTTCTTGGATTAATGAGTTTATTTAATTTTTCAATTAATATTATTACTTATATAGTTCCTACTTTAGTAATGATTGTTGGTGTTGCAGATTCTGTCCATATTTTAATTAAGTTCAATGAAGAAATTAGAAAGTCAAACAATTCAAAAGAATCAATAAAAAAAACAATCGAAAGTATTGGTAACGCAATTTTGCTTACAAGTTTAACAACTTCCATTGGATTTTTATCATTATTAAGTACTAATATAGTAATGATTAAAGAGTTTGGGTTTTTAGTTTCAATTGGAGTTTTGATAGCTTTTTTAGTATCAATATTATTAATTCCATCATTAATAATTTTAATGGGTAAGAGTTATCCAATAAAAACTACTTCAGTTAAAAACGGCATAAGACAATATTTTTTAAAGAAAATTGTTATGATTAATAATAATTATCAATCAACAATTTTAATAATTTCATCGATATTAATTTTTTTATTTATTTATTTTGCTTCCAAGGTTGAAAGCAATTCAGCTTTGATGGATGATTTAAACAAAGGTAATGAGTTATTTGATGATATGAAATTTGCTGAAGAAAAGATGGGAGCCGTTTTCCCCTTTGAAGTAATTATTTCGGTTAAAGATCAAAACGATAACTTAATTGAAAATGGTATAGCAAATTCAAATTTTATAAGCCAGGTTTCAAAAATACAAAAAAAATTAAATTCTATTCCTGAAATAAGAAAAACAATTTCAATAGTAGATTATATAGAAATTATTCATGATAATTTAACTGAAAAAACTAAAGAAAAATCATACTTACAAGATGATTTAATTTTTCAATATATTGTATTAAATGAAGATGTTTTTCAAAATTTAATTAATTTTGATTATTCAAAAACTAGAATATCTGCAAGGATAAAAGATATTAATTCAACCAGAGCTAAAGAGATTATAGAAGAAATTAATATATGGAAATCAAAAAATATTTCTGATGAAGTGTCAATTTCTTTAACAGGAACAACTTTAATGGCACTTAAAGTGAATGATTATTTGGTAAACAATTTAATAATAAGTTTTTTAATTGCTTTTGGTGTCATTTTCATTTCTATGGGTTTTTTATTTAAAAGTATCAAATTAGCCATTTTTTCTATGATTCCAAATTTAATTCCAATTTTATTTATGGCAGCAATAATGGGTTTGTTTAATATAAAATTAAGACCTACAACAGCAATGACTTTTGCTATTGCATTTGGAATAGCTGTTGATGATACTATTCACTATTTAGTTAGATTTAGACAGGAATTATTCAATAATAATGGTAATTATATGAAAGCAAGCTCGGCAACAATATTTTCAACAGGCAATGCAATTATTTCGACTTCTTTAATTCTTGGTTGTGGATTTTTGGTTATGGTAAGTTCTAATTTTTTACCAAGTAGAGACTTTGGTTTTTTGTCAGCAATTACAATGTTTGGAGCTATTATAGGAGATTTATTTTTTCTGCCAGCAATGTTAAGATTTATCAGGCCTAAGAATAATAAATTAAAAGAAAGAAATTCCAATTATTAATAATAAGCCTGCTAACATGTGGAAATATATTGTATTTGCGCAGGTTGATGCTAATTCTCTTTTTTCAAAATCATCAAAGACCTTTTTAATCAAATAAATTCCCACTGGTATTGAATACATCATTAGTAAGCTACCAGAAGGTAATATTTGGTTAGAAAATAAAAAGTATATGGTAGAAAAAGAACTTGCAATCAACAGCAGATATCCCCATCTTGCATTTTTAGTTCCAAGTGTAGCTACCAAGTGAATTTTTCCAGTTGCTATATCTGATGGGGTGTCAGGGAATTGATTTACCCATAATATTGCGGTAGTTAATAATCCTAAAGGAATTCCAATGTAAAAAGCTTCAATTGAATGTATACCAGTCAAAGCAAATACCACTCCCATTGTCATAATAGGACCAAACAACAATCCTATTGATAGCTCACCAAGACCTTTTCTTGAGGAAAAACGAAAGGGGGGAGCAGTGTAGAAAATTCCACCAGCAGCACCGATCAAACCATAAGTAAATAAACCGAATATCTTACTTGGGTATAAAAACATAATTATAAAACCACAAAACGATGCTAAAGCAAGAAATACGCTTGCAAGAAAAAATAAGCCTTTTACTGATATCAGACCAAGTTCAATAGCTCTAGAACCGCCAGAATATTGAAGAAAATAATCATTATTGATTTTGTCTGCACCTGATTTCCAATCAAAATAATCGTTGAAAGTATTTGCTGAAAGGTGAAGAAATGATGCTCCAGCAAAAACAATTGAAAAGAGTGCCCAATTGAATGGAGCTGATAATTCAATTCCACCATTATAAGCCCAAACACTAGCTAATATCACTGGAATCCATGTTGCTGATAAGAAAGGAAGTCTGGTGATAACTAAACCAGATAAAAGTTTAAACCACCAAGGATTAGCTGGCATTGTTTCTTCTGGTGTTTTGTTGTCAATTCTAGTGGTTTGACCACAATAACCTACTTGGACTTTTTTGCCTTTAATGTTTTTGTAATTTGGAGTAATTTTTATTTTGGCTGGTATTAAAGAGCCATCTTTATGAACAAAGGTTGATTCAGAATTGTATTCACCCTTTTCGCTTGCAATTTTAAGCCAATTTGCTACATGACTTAAAACTACATTACCTGGAGAAAAATTAGAAACTCTCATTTTTCCAATTGCTTCATCAGATGAATAACCAAAAATTTTTTCTGCACCTTTATTGAAAGTTTCAACTCTACCTTCCATGTCACAGGTAATAACTGATTTAGTTTTGTTAGAATTTTCCATTTTACTTCCTTTATTGTAGCAATAATATTATTAAAATTAAATCATATCGGCAAGTAATTTTTGAGCGATTTAAACTTTTTTTAGTCAATAAAAACAAAACTATATTAATCTTCTATAATATTCAAATTTTTTATTAGTACCATGCCAATTATTAAATTTTTGTAAAACTTCTACTTCATATTTAAAGTATTGTGAAATTCCCTCTTTTACATGTCCAGAAACAAATTTAAAACCTTTTTTTTTCGCCCAGCTGATATAGACTTTTTTAAGAGTTTTTGCATAACCATTTTTTTTGTATTTTTCTAAAATAACAAATGCATATGTGTAAAGGGTATTTTTTCTTCCAATATTATTATCGTTTTGAAATGATGGGTCATTTGAGAAATATTCAAGTGGAACTCCAATTATATAGCCAATGATAACTTCACTTTGTCTTAGAACAAATGGTAAAGTATTTGGATAATTAAAATATTTTTTGATGCTTGTTTTAGTCAATCTAACATTTTGGGTATATTCTTTAACTAAATGATCTGAAATTATAATGAGTTGAGGTAAATCATCAAACCCTATTGTTTTAACAAGTTCAATTTTAAAATTTAATGGAGATGAAGCAATTGGAATGAATTCTGTTTTATTTACTTCTCCAATTGTTTGATTTATTTTTTTCATATTTTTTAGTATAAGTTAATATTAATATTAAATTTTATAATGTAATTATTTTAAAAAATCCTTCGTTTGTAATTAAATTAGCAATATGAAAGTAAAATCATTTTCACAGATTTTAAGGGAGTCAATTAAAAAGAATAAATCTCAACTATGTGTTGGTTTAGACATAGACCCCAATAAAATGTCTTTAAAATCAACTGATAGTTTAAATAATTTAAAAAAAATTACAAAAAATTTAATTGATCAGACTATTGACAATGTAGTTGCTTATAAATTGAATTTAGCATTTTTTGAAGTATTTGGTTCCAAAGGTTATAAATGGCTTGAAGATACTATAAAGTATATTGATGGAAAAAAGTTATTAATTGGAGATGGAAAAAGAGGTGATATTGGAAATACAACTAATAAATATGCTAATTCATTATTTGATCATTTTGGTTTTGATGCAATTACAGTTTCACCATACATGGGCCAAGATTCAATTGTTCCTTTTATTAAATATAAAAACAAAGGAATATTTGTTTTGTGTTTAACTTCGAATCCTAGCGCAAGAGATATTCAACTTAAAGAAGCATCTGGATTAAGTGTTTTTCGAAGAGTTATATCGATGGTTAGGGATATAGATGATAATAAAAATTTAGGATTAGTTATTGGTGCAACTAAACCAGAACAAATTGCCGATATAAGATTAGAAGCTGGAGATTTACCTTTTTTAATTCCTGGAATAGGTGCTCAAGGAGGAAATTTAGAGGAAAGTTTATTAGCTGGAAATAATGAAAATGGATTAGCAATTATTAATGTTTCGAGATCGATTATCTATTCAAAAGACCCATCTTTTTCATCAAGAGATTATAATGAAAAAATTAATAACATTATTAGTTAGAAAGTTTTTTTTATGAATGAAATGATGTCATTGATGAGGGAAACAAATACGATTTTGAATGGTCGTTTTAGGCTGACTTCAGGAAAATGTAGCGAAGTTTACATAGAAAAATTTAGATTATTAGAAGATCCCAAAATATTAAATCAAATTGGAAAACTTTTTTATAAAGAATTAAATAATTTATCTCCTGATATTGTTTTAGGTGCAGCTGTAGGAGGTATACTTTTAAGTAGCGTAGTCGCTAAACAATTTGGCACCATCGGTATTTTTGCAGAGAGAAATGAAGGAGATATGATCCTTAAAAGGGATTTCAATATAAAAAAAAACAGTAGAGTACTAATCGTTGAAGATATAGTTACCACTGGAGGTTCAATTGATGAATTAATTAAAATTGTTGAAGAAAAAAATGCCATTTGTATTGGAATTACGTGCTTAGTTGATAGATCAAAAAATGGTTTAGAAAATTTTAAGTATCCCTTTTTCCCTTTAATGAAATATCCATCAAAAACCTGGGAGCAAAAAGATTGCCCCCTATGTGAACAAGATAACCCATGCAGCCCAAGAGGAAGGACAGGAAAATGATTTTAAATGAAATTTTTGTAAAGTTATTTTTTCTAAGTATGATATTTGTAGTATTTTCATGTGCTACAATTAAAGATGAAAAATATGCTATCATTGAAACTGGAAAAGGTAAAATGATTGTAAAGTTTTTTCCAGATATTGCACCAAAACATGTAGAAAGTTTTAAAGCATTAATTGAACAAGATTATTTTAATGGAACTACTTTTCATCGAGTTATTCCTGGGTTTGTTATTCAAGGAGGAGATCCAAATTCGAAAGATGATGATAGGTCTAATGACGGAATGGGAGGGCATGCTGGCAAATATTTTGGAATAGGAGATGAAAATAATCCAGAAACATGGACAGTTCCAGCCGAATTCAATGAAAAACCGCATAAAAGGGGAATTTTATCTATGGCAAGATCACAAAACCCTGATAGTGGAGGAAGTCAATTTTTTGTTTGTGTTGATAATGTTCCACAGTTAGATAACAATTATACTGTTTTTGGAGAGGTAATTTCAGGATTAGAAGTCATTGATAAAATTGTTAATAGTTCAACTCCAGGTACTCAGAATCCATCTTACAGAGGACCGGATAGAGATAACCCTCTAGAAGCTGTAAAAATGAATATTTCTCTTATTTCCGCAAGTGAATTGGATTTATAATCATTATATTTAATGTATGATAAATAATAAAAAAATAATTCTTTTTGGATTTTTAATAATTTTTATTTTTGGTTTTTTCTTGATTTTTTTAGGAAATAATAACACTTCTTCAACTGTAAAAGTTGATAATTCAAATTTATCAGGGAAAAATAATACATCTAATGAAAACTTAGCACCGAATTTTACATTATTAGATACAGATGGAAATAATATCTCTTTATCAGACTATAGAGGTAAAGTTGTTATAATTAATTTTTGGACCACTTGGTGCGGACCCTGTCGTTATGAAATACCAGATTTAGTTCAACTTTATGAAGAATATAATAAAGATCTTATTGTTCTTGGAATTTCTTTAGACTATGATGGCCCTTCAGTTGTTCCACAATTTGAAGAAAGAATAGGTGGCGTAAATTATCCATTATTGTATGGTGATAACAATATTTCAAATTTATATGGTGGTGTTACTGGAGTACCTACAACATTCATTATAGACAGAAATATGCAGGTTTTTAAAAAATATCTTGGTTATCGTTCTCCTGATGTGATTGAACAAGATATTAATGAGTTATTATAATATTTTTTTTCATTTAGGAACTTTTTAGTCAAAAAATAATTAAATATGTATAAAATTTGAGGTTTTTGTGAATAAAATTATACTATACACATTTTTACTTTTTTCGTTTTTATCTTCTCAATCAGCCAAATATTACAGTGATACCTTTGCAAATGTTGTAAAAAAAGTAAATGCAGCTGTTGTTACTATCAATAGTGAAAAAATTGTTTCAAATGAAAGAAGAAATCCATTTGAAGAATTTTTTTATGAAGATTTTGGATATGGATATCCAAATAGAGAAAGAACAACTAGAGCTCTAGGTTCTGGAGTTATTGTAGATGCTAAAAGGGGTCATATAATAACAAATAATCACGTTGTAGAAGGAGCTGACCAAATTAGCATAGTTTTAATGGATGAAAGAGAGTTTGATGCTGAAATATTAGCCACAGACCCAAAAAGTGATTTAGCTATTTTGAAAATTGATGGCAAGAACCTAACTCAAGTGACGTTAGGAAACTCTGATAATTTAGATGTTGGAGAATGGGTTTTAGCAATTGGAAGTCCATTTTCATCAAATTTAAGTCATACTGTAACAGCTGGGATAGTTAGTGCTAAAGGAAGAACTAATGTAATTGGTGGAATTGATTATGAAGATTTTATTCAAACCGATGCTGCTATAAATCCAGGTAATAGTGGAGGTGCATTGGTTAATCTTGATGGTGAGTTGATTGGTATTAATACAGCAATTGCAACAGGTGGATATATGAGAAGTAATGCTGGAGTAGGATTTGCAATTCCATCAAATTTAGCAAGTGTGATTATGAACGATTTAATTTCTGAAGGAAGAGTAATTAGGTCATGGTTAGGAGTTTTTATTCAGGATGTTGATGATGCAATTTCTAACAATTTAAAACTTCCAGATCGTCAAGGAGCTTTAGTAACTGATATTGTTGATGGAAGTCCTGCAGAAAAAGCTGGGTTTAAAATTAAGGACGTCATCATTGATTTTTCAGGAAATAAAATTCGTAATTCTTCTCATTTGAAGAATGTTGTATCTTCTACTAGACCAAAAACAATACCAAATGTAAAAATTATTAGGGATGGTAAAGAAAAATTTTTGAAAGTTGAGCTTGTAGAATTACCACAAGAAGATGAAATTTTTGCAAGAAATTCATCATCTTTACCATCATCTCTTGGAATGAGAGTTGAAAATATTAGTCAAGCAATGTTAAATAGATTTGGTCTAGAAAATATTGATAATGGAGTTATTGTTATCGATATTTTAAATTCTAGTATTGCATCTAAGTCAGGTATAATGATAGGTGATATAATTTCACGAGTTGGTGATACAGAAGTTAATTCAGTATCTGAGTTCGGAGTGGCAATAAATAATATTAAAGACCAAAAATCGGTTCTTTTTTTAATTAAGAGGCGAGGCGGTTCTATTTTCATACCTTTAGAAATCAATTAAATTTTATTGTAAAATATAAATTTTTGAATAACTCTGTTGAAAAGGTAAGTTATCTCATTAATTAATCACTAAATTTGATTAAAATGAGTAAAGTTTTTTTAATAATAGGGTTCATCTTCATTGTAATTGGCTTATCAAGTTATTTTGGATTTAATATACCTATTATATCAAAATTGGGTAACTTACCTGGTGATATAAGAGTATCAAGAAATAATTTTTCTCTATATATTCCAATTTCAACTTGTGCATTGTTGAGTATTTTTTTCACTCTCATTTTAAAATTATTTTCAAAAATATAAAAATGCTTAAAAAAGTTAATAACAAAGTAGACTTTATAGAGCTTGAACACGAAGTTCTTGACTTTTGGAAGAAAAAAAATATTTTTGAAAAAAGAAAAAAAATGAATGAAGGTTTGAAAAAATGGTCATTCATTGATGGTCCAATTACAGCAAATAATCCAATGGGAGTACATCATGCATGGGGAAGAACTTTAAAAGATTTGTATAACAGATATAAATCAATGACTAAACATGAATTAAGATACCAACAAGGTTTTGATTGTCAAGGGCTTTGGGTAGAAGTAGAAGTTGAAAAAGAATTAGGTTTTAAGTCAAAAAAAGATGTTGAGAATTATGGAATTGAAAAATTTGTTAAAAAATGTAAAGATAGAGTTAAAAAATTTTCTGATATACAAACTAATCAATCAAAAAGACTTGGTTACTGGATGGATTGGGATAATTCTTATTATACAATGTCTGATGAAAATAATTATACTATTTGGAGTTTGTTAAAGAAACTTCATCAAAGTGGTAAAATTTATAGAGGATCTGATGTTGTTCCTTGGTCAGGAAGATCAGGCACATCTTATTCACAAATGGAGATAATTGAAGGCAGAAAATTAGTTTCCCATAGAGCAGTTTTCATAAGATTTCCAATTAAAAATAAAAAAAATGAATTTCTTTTAGTTTGGACAACTACTCCTTGGACTTTAACATCAAACGTAGTGGTCGGTGTCAACATTAAACTTGAATATGTGAAAATTAAATCTTCTGATGGTTCAATATATTACTCGGCTAATGAAAATTTAAATTTTAAAAGATTAGAAAAACAATTTAAAGAAAAGAAACAATGGATTAAAAATATTCCAAAACTTAAAACCATATCTCAAATCTTTAAGGAAAAAGGAGGATATGAAATAATTGGTAAAGTTAAGGGTGAAGATATGATTGGTTGGGAATATGATGGTCCTTTTGATAATTTAAAAGCACAAAATGAAATTGGTGGTTATCCGTTTCCTAATCATAATTTGGTTGAAAAAGGTGTATCTGCGAGATTACAACACAAAGTAATTAATCCTGGTAAAGATTCAATGGGTAAAGATATTGTAGTTTCTGGAGAAGGTACTGGAATTGTTCACATGGCTCCTGGATGCGGAGATATAGATAATAAAGTTGGTAAAAAACAAAATTTAATTAATATATCACCTCTTGATGAGGAATCAAAATTCACTTCTTATTTTGGTTGGTTAAAAGGTAAGAGAGCTACTGATAAATCAACAATAGATTTAATATTAGATTATCTGAAACAAAATGATTATTTAGTTTATATTGAAGAATATCCTCATGTATATCCTCATTGTTGGAGATCAGGTGATGAATTAGTATTTCGTCTTGTAGATGAATGGTATATCAATATGGATTGGCGAAATCAAATTAAAAATATTCTTGATGATATAGATTGGATTCCATCTTGGGGTAAGGAAAGAGAAAATGAATGGTTGGATAATATGGGTGATTGGATGATTTCAAAGAAAAGATTTTGGGGTTTAGCATTACCTATTTGGATATTTGAAGATGAATCATTTTATGTTGTAGGATCAAAAGAAGAACTAAAAAAACTATCTGTTGAAGGTTGGGAAGAATTTGAAAAAAATTCTCCACATAGACCTTGGATTGATAAAGTAAAAATCAAACATCCTGATACAGGTTTAATTGGAACAAGAATTAAGGATGTGGGAAATCCATGGTTAGATGCTGGAATTGTTCCATTTTCAACATTAGGGTATGAATCTAATAAAGAATATTGGAAAGAATGGTTTCCAGGAGATTTTATAACTGAATCATTTCCCGGCCAATTTAGAAATTGGTTTTATTCTTTACTGGCTATGTCAACGTTTCTTGAAAATAAGGCACCATTTAAGACACTTTTAGGTCATGCATTAGTTAAAGATGAACATGGTAAAGATATGCATAAATCAACTGGCAATGCGATTTGGTTTGATGATGCTGCAGAAGATATTGGTGTTGATGTTATGAGATGGATGTATGCTTCTCAAAACCCAGAAAATAATCTTTTGTTTGGCTATGGAATTGCAGAAGATATTAGAAAAAAAATAATCACTTTGTGGAATGTATATTCTTTTTTTGTAACGTATGCAAGGTTAGATAAATTTGATCCAAGTATTAATTTAAATAAGAAAAACTTTACCCAATTAGATTTATGGATTTTATCCAAAATGAATAAACTTATTAAAATAGCTGAAGATTCTTTTGAAAATTATAGAATAGATAAATTTATGAAACATTTAGACCTTTTTCTTGATGACCTTTCAAATTGGTATGTGCGGCGAAATAGGAGAAGATTCTGGAAAGCTGAAAATGATAATGATAAGAATGCAGCTTATCAAACTTTATATAATGTATTAAAAAAATTAATTTTTATTCTATCTCCAATTGCACCATTTGTAACAGAAAAAATTTATCAAAATTTAGTTAGGAACCTTGAATTTGACTCAAAAGAGAGCGTTCATCTTAACGATTTTCCTATTTCCAATAAAAATGAAATCGATGAGGACCTCATTCATTCAATGGATGGATTAGTTAAAATTGTAGAATTAGGTAGATTTGCAAGGAATAAAGCTTCAATAAAAATCAGACAACCTCTTTCAAGATTATGTATTTTCTTAAAAGATGAAAATATTAAAAAATTAATTCTACAAAATGAAAACCAAATAAAAGAAGAGTTGAATGTAAAAAATATAGAATTTGTAAAAAATCAAAATGATTTAATTATCAGAGAATTTTCTCCTAATTTTGTTTCAATTAGAGAAAAATTTCAGGATAAAATAAATTTAGTATTACCTTTAATTAAAAAACTTAACTTTGAACAATATAATAAAAAAATAAATAATAATGGATATATTAAGGTTTCTGATTCTGATAATGATTTTGAATTAAATAAAAATGATTTTTTAATTAAAGAAAAATCTGTTAAGAATTTTTCTTCAGTTTGTGAAGGAGATATAGTAGTTGGAATTTATACAAGCTTGAATGATGAACTTATTGAAGAGGGAATCATAAGAGATTTGATTAGAAATATTCAAAACTTTAGAAAGGAATTAAATTTTAATGTTGAAGATAGAATTTATGTGAAAATTAAAGCTCCTAAAAACATTCAAAATGCTATAAATAATTTTAAAGAATATTTTAGTAATGAAATTTTAGCTAATGAATTATATTTTGAAGGTGAATTAGGTCAAAAAAACAAAGAATTGAAAATAAATAATCAATTAATGTCAATTTCTCTCAGTAGAAAAAAATAAGCTTTGGAGTATTTATGATTAAAGTAAAATTAACTAAAAAAGAACTTGATAATTATTTTAAAATAATTAATTCAATGAGAGAAAAGGCTATTGATGAAATGGATAATATTAAAGAAAATTCCATTAATGAAAGTGGTAACCTTGATTCAGGAGCTAGAGATTCAAATTATGCCTATCATATGGCAGATGTCGGGACTGATTCCCACGAAAGAGAAAAATCTTATTTGTTGTATTCAAGAGAAAATAAGTTTATTCAGCATTTAGATCAAGCCTTAGAAAGAATTAAAAGAGGAACTTACGGTATATGTATGAAATGTAATGAAAAAATTCCACATGATAGATTAATAGAAGTTCCTCATACAAAGCTTTGTATAAAATGTAAGACAAAAAATTCTATTTAAAGTTATGAATCCAATATTTTTTACTGCTTTTATTGTAATAATTGATCAATTATCCAAATTCATAGCCAGGTCAAATATGAATTTATATTCTCCCTCTATTGAATTATTAGGAAATTTTTTTAAATTTACATATGTTGAGAATTCAGGAATTGCTTTTGGAATAAATTTTAATAATGGACCAATAGTTTTTACAATTTTAGCATCAATAGCGACAATTTTCATCATTTGGTACTTATTCAAGTCAAAAAAAGAAAGTTATTTATTTAGACTTTCTCTTTCATTCATTCTTGGAGGTGCAATTGGAAATCTTATTGATAGATATTTGTTTGGAAAAGTAGTTGATTTTTTTCATTTAAGTATTGGTCAATTTTCATGGCCAGTATTTAATGTAGCTGATTCATTTGTTACTATAGGAATGGCATTGTATATATATTCTATCTATATTGATGAAAAATCTCAGTCAACATTAAATGAGAAAAATTAATATTTTATCAAATGTTTCTAATATAAGAATTGATAAGTTTTTAGCTGAAGAAATTAACTTAATCTCCAGATCTAAAATAAAAGAATTTATAATTTTAAAAAATATTAAAGTAAATGGTAAATATGTTAAACCAAGTTTTAAATTATCTCTTGGAGAAATTATTAATATTAATTTACCTCCAATTGAATCTTCTTTTTTAAAACCAGAAAAAATTTTCTTTCAAATAATTTTTGAAGATGATGATATAATTATTATTAATAAACCCTCAAATTTAGTTGTTCACCCTGGTGCAGGAAATAAGTCAGGCACCTTGGTAAATGGATTGGTATTTCATTTTAAAAATTTATCAGAAGTAAATGGAGAAATAAGACCTGGAATAATTCATAGATTGGATAAAGATACAACTGGGATTATTATAATCGCAAAAAATGATCATTCACATAAATTTATTGCTAATCAATTTGAAAAAAGAACGATATCAAAAAAGTATATTGCTCTAGTTTGGGGATTAGTAAAAAAAAATTTTGGAAAAATTCAAACTCCAATTATTCGTGATAATAAAAAAAGAACTTTATTTAAAACAGGTAAAAATGGAAGAGATGCATTAACTGAATATAAAGTTCTTGAAAGGTTTGAACACTTAACTTTAGTTGAGCTTTATCCAAAAACAGGAAGAACTCATCAAATAAGAGTGCATATGTCCTCGATTGGTCATCCAATATTTTCAGATACTAATTATGGAGGTGGCGCAAATAAAGCTAAAGAATTTCAACCAAAAATTGCAAATGATTTTTCTAAACTATTAAAAGGAATTAATAGACAGGCATTACATGCAATTTCAATTTCATTTTATCATCCTAAAACTAATAAAAAAGAAACATATATAGCACCAATCCCAGAAGATATTAGTAAAATCATTTCTGAAGTAAGGCTTGAACATGAAACATTTGAATGAATTTTTAATTTACATTTATAAAATTAAAATGTATTCACAAAATACTATAGATGCATATAAAATAGACCTAAATCAATTCATAAATTTTTTAACCAAAGAATTGATGATTTCAATTATAGATTTAAATAAAATAAGTAAAAAAGAAATTAAAAGTTATTTATTATTTTTATCCGAAAGGAATTTATCTGAAAAATCAATAAACAGAAAACTTGCATCCATAAAATCTTTTTTTAGATATTTATTAAAACAAAAATTAGTTAAATCAAATCCTACAACAAACATAAATGGTTTAAAAATACCTCAGAAATTACCAAGATTCATTCAAAATGATGTTTTGTTTAAAGTCCTAGAACATAATATCAATGATGATTGGCAGATTATTAGAGACAAAACAATTTTAGAATTATTTTTTAGTACTGGAATACGATTAAGAGAATTAATTTTTTTAGATTTAAAAGATTTAGAAATGGAAGATAAAATTTTAAAAGTTGTTGGAAAAGGTAATAAAGAAAGAATAGTGCCATTTGGCAAAAAGGTTTTTGAATCATTAGTAAAATATTTGAAATTCAGAAATAAATATATATCAAGAGATTTAAAAGACTTTCCATTATTCATTTCTAAAAAAGGTATAAGAATATCTCCAAGGACTGTTCAATCAAGGCTTAAAAAGTTGTTTAACAAGGTAAGTTTAAATGAATTTACTCCTCATTTAATGAGACATACATTCGCTTCTCAAATGATTAATAATGGAGCAGATATACGAGCAGTTCAAGAGATTTTAGGTCATTCGAGTCTGTCTTCAACTCAAATATATACTCATCTTAAAAAGAAAAAATTAAAAGAATTTTTTGATAAAGCACATCCTCACGCATAAAATTTATATAATAAAAAAAGTTTTTTTAGTGAGACAATTAACTTGTTTTTCGATATAGATATTAATTAATTTTCTTAGTTAAATGTTAATTTTTAATAAGGTATACAATGAATAATACAATTTTTTCATCTGAATCTGTGACGGAAGGTCATCCTGATAAAGTATGTGATCAAATATCAGATGCAATTTTAGATGATATTTTATCTCAGGATCCAGAAGCTAGAGTAGCGTGTGAGACATTAACAACAACTGGTTTAGTACTTGTATCAGGTGAAGTTACCACATCATGTTATTCAGATTTTCAAAAAATAATAAGAAATACATTAAAAAAAATAGGATATACCAATCCAGAATATGGATTAGATCATCAAGATTGTTCAGTTTTAACCTCTATTCATGAGCAAAGCCCAGATATTGCACAGGGTGTAGATTCTTCATTTAAAAAAGAACAAGGTGCGGGTGATCAGGGATTAATGTTTGGATATGCTTGCGATGAAACAGATGTTTTAATGCCATTACCTATAACCTTGGCTCACAGATTAGCAAAAAAACTATCTGAATTAAGAAAAAATGGTGTTCTTCCTTGGTCAAGACCTGATGGGAAAACTCAAGTCTCAATCAGATATGAAAATGGAATCCCTGTTGGCGTAGACAAAGTTGTTATTGCGATTCAACATGATCCAGATATTAAAAATGAGGAAATTCATTCATCAATAAAAGAAAATGTAATTAAACCCGTATGTGGAAATTGGTTGAATGATAATACTGAATTTTTTATTAATTCTACTGGAGTATTTATAAAAGGAGGACCTGAAGCTGATACAGGCTTGACAGGAAGAAAAATTATTGTTGATACTTATGGAGGTTATGGAAGACATGGAGGTGGTGCTTTTTCAGGTAAGGATCCTTCAAAAGTTGATAGATCTGCGTCTTATATGGCAAGATATATTGCAAAAAATATAGTAGCTGCTAAGATTGCCAAGAAATGTGAATTGCAATTAGCTTATTCAATTGGAGAAGCAAATCCTGTTTCAGTTTATGTCAATACTTTTGGAACTGGTCAAATTGATGATGAAAAAATAACAACAATTATCAAAGATAATTTTCCATTAAAACCTAAGGAAATCATTGATCATTTAAATTTGAAAAGACCAATATATTTTAACACAGCTTCATATGGTCATTTTGGTAGAGAAAATGAAAGTGGTTTTCCTTGGGAAAAATGTGATAAAGTTAGTGAATTAAAAAAATATATAAATTAAAAATATAGGAATAAAACAATGTCAGAATTTGATGTAAAAGACTTAAAATTATCAAAATTAGGTAAAGAGAGAATATTATGGGCTGATCGTAGTATGCCTGTATTAAAATCAATTAGAAATAGATTTAAAAATGAAAAACCTTTAGATGGAATTAGAATTTCTGCCTGTTTGCATGTTACAGCCGAAACAGCTAATTTAATGAGAACTCTTGAAGAAGGAGGGGCTGACACTTTGCTTTGTGCATCTAATCCACTTTCTACCCAAGATGATGTAGCTGCATCCCTCGTAAATGATTTTAATGTTAAAACTTATTCGATTAATGGTGAAGATAATGACACCTATTATTCTCATATAAAATCTGCCTTGAATCATCACCCTCATATAACATTTGATGATGGTGCTGATTTAGTTAGTATGCTTCACTCAGATTATGAAAATCAAATATCAGAAGTTAAATGTAGTATGGAAGAAACTACTACTGGTGTTATCAGATTAGAAGCTATGAAAGAAGATGGTGCACTTAGAATTCCAGTAGTGGCAGTAAATGATGCAAATTCAAAACATCTTTTTGATAATAGATATGGCACTGGTCAATCAACAATAGATGGTATAATTAGAGCAACAGATATATTAATAGCTGGTAAGAAATTTGTTGTAGGTGGATATGGAATGTGTGGTAGAGGCCTTGCAACAAGAGCTAAAGGAATGGGTGCTCATGTAATTGTAACAGAGGTAAATCCTCTTAGAGCTTTAGAAGCTGCAATGGATGGTTTTGAAGTTATGTCAATGAATGAAGCAAGCAAATCCGCAGATATTTTTTGTACTGTTACTGGAAATACAACCATTTTAGCCAAAGAACATTTTTTAAATATGAAGGATGGTGCAATTGTTGCTAACTCGGGTCATTTTAATGTAGAGGTTGATTTAGAATCATTAAAAAATATTTCAAAAAAAGTAAATTTAGGTGTAAGAGAATTTGTAGATGAATATATTTTAGAAAATGGTAATCGAATTTACGTTCTTGGAGATGGAAGATTAATTAATTTAGTTGCAGCAGAAGGACACCCAGCCTCAGTTATGGATATGAGTTTTTCAGTTCAGGCATTAATGGCAGAATATACTACACAAAATGATTTAGAAATTTCAGTTCATACAGTTCCAAAAAAAATTGATGAACTAGTTGCTAAACTTAAGTTAGATTCTATGGGAATATCAATTGACACGCTTACATCAAAACAAACAAAATACTTGGCTTCTTGGCAAGAAGGTACCTAAACCTAATTCATTTATTATGAAACGATCAATTTGGATCGTAGCTTGTTTTTTAGTTTTTCTTCAATTTGGATGCGACTTTCAAAATCCATCTGATTTTAAGACACCTAAATGGAATGTCAATCTAACTTTACCTCTGTTAGATAATTTTTATCCATTTAGCGAAATTGCTTCAAATGATATAATTAAATCATCTGGTGATTCTTTATTAATTGATTTTGATGGTGAATTGACGGAAACAACTATCACTAGAGATTATTTGATTGTACCAGAGACAAATCCAGATGCTGTTTCTCAATCAATAAATGTTCCTTCTGTATCTGATATTTTAACAGTTCCATTGAGTTATGATTCAAGTTTTGGATTTTCAGCGGATCTTCCATCAAGTATACCAGTTCCAGGTGTAACTGGTGGTGATGTTTGGAAAAGTCAGGTATTGGCTGTTTTAGAACCCAATGTTAATGATGCTTTTCCTCAAAAGATTGCTTCTATCCCATTAAATAATGCATTTAGCTCTATTGATTTCGCTAGCGTTGATGGTATAATTATAAAAGGGAGTGAAGATGATAACTATTTTAAAACAACTGTTAATGTTCAAAATTTTCCAGATAATGCAGGTATTAATGACGTTACTATTAAATTAACAAGTGGACCCTCTAACTCAGAATTAATTAGTCAAATACATTCAAATGGTGATTTTAACAACCCAATCCAAAGTTCTTTAGTAGGAAAAAAATTACTTGATGGAGACTTAAATTTTGATTTAAGCATTGATTGGATGAGACCAGGGGATACTCAAGTTGTTACAATTACAGGAACTCCAACAATTACTGTGCTTTTTGATCTTAAATTAACAAATCCAGATTCTGTTACGATTAATGTATCAGATGGGATATCAATAGTAGATTCAGATGTATTGACATTGCCTAAATTTTCTGATAATACATCAGATATGGGAGGATGTGGTGTTTCAAGTTTATTTGGAGGAACTATAGTTCCTGATTCTGAAAAAGCATTTAATGCAAGTAACAAATTTACATTTAAGGATGTGACTAGTACATTTCCATTCCCCGTTCAACTTCAAATTCATTTTAAAAATTTTTTCCCAGAAACAGGTTCAACTGATTCAGTAAAAATAGATGAGGAAGTTTTTGGAGATGATTGGGTAGACATTGTTAAAACAATAGCTGGCCACCAATTTAAACATTCATCAGGAAATGATACAATTTCAATAGATGAATTTGATGTTGACTTTGATATAAAAACAAAAGGTGGTACTTATGGTTTTTTAATTGATGGCTCTCAGCCAACTTGGCAATTTAATTTTGGGATGAATGTTGGTAAAATGGAATTTAAGACTTTAAAAGCCAAAATAGATTGCCCATTCCCTGAAGTGAAACAAGAAATGCCTGCTATGGGATCTGGTCTTCCTGGAATGTCATTCGAGGGCATCCAAATGGATTTTGAATTTATAAATCAAATTAGAGCTCCTGTTGATATGACCTTCAATTTAAAAGGTACATCACCATTAGGTGAAGTTGTCGAAGTGCCACTCGATTATGTAACAATTGCTACTCCTGCAAATTTAGGAGATAGTGCAAAAACAATTATTAGAATGAATGCATCAGGTTATAGTGTGATAAATTATAATCCCTGGACTGGACCTTTAACACCCATTACTAGCGAAACGAATTACCTTAAAAGTTCAGATAGTACTATTGTGAAATTACTTTCCTCTGGACCACAATCAATTAATGTAAATGCTTCAGCAGGTATTACAGATAAAACTGCAGCTTCTTTAGATTTAGGATCAAAAATAAAAGGTACATTTAAATTAATCGCCCCATTTGAAATAAAAATGGAAGAGATAGCATGGGTTCCTGAAAAAGCAACTTCAATTGATGAATGGGAACATGATACCAGAGCGAAATTAAGAAATTTTGTTAAAGAATCTGTTTTAACTACAAGAGTGATAAACGGATTGCCTATTGGTGGAGAATTAGCTATTCTTTTTTCAGATAATACTATTTTCCCTTACGGTAGATCTGAATTGGCATTAACAACTTTAAAAGATGATTTTGTAACTAATCAAGAACCTGGAAAAAATAAATGGAGTTCTTCTGACACAATAAGTATTATTACTAAATGTAGCGAACTTGTAAATCAATCTGTTTATTTATCAAATGTTATATATGATATGAAAAATTGTTCTGAAAATTCAGGATTTATTGTTCAAAGAAAAGTGGGTGCTAAAGATACATTGATTTCCTACGTAGATACGTTATTTAAATTAATATTACCAAGGCCAGAGTCATGGGTAAATATTCCTCCAAATTCTGTAGATATTTCAGCTGATTCAACTACAATTAGTATTTTAGATACTTCCAAAATGAATTTATTAACTGATATTGGAAAACATTATATCAAACCAAGAATTCTTTTTAAGGGTACAATAAATAAAGTTCCTGATGTGATATCATTCTCTATGAGAGATACTTTGAGAATACAATCTTATATTGGATTTTTACTCCAAAGTGATGGTTTTACCACAAAATCAAAAGATGAGTTTATATTAAAATATCCAAACGGAGGAGAGACTCTTCAAAATTTTCAATCAATTAATGTTAAATGGATAGCATTAGGAGATAGTATTCCAGAAGAAAATATAAATTTATATAAATCAAATAATTCTTTACCTGATATTAGTGATGAATCTATCTGGGATAAAATTAATTTAATTGGTAATCCTAGTGGTAAAGATAGTACTGCAAATTGGACACCTAGTTCTGTACAAGATACAGTTTGGTTGAAAATATGTAATCAAGATAATTCAGTATGTGATATGACAATGTCATGGTTTAAAGTTGAATAAATGAAAAATTTAAGCAAAATTATTTTTCTTATTATTTTATCAACCATTGGTTTTTCCCAAATAAAGAGGAGTCCTGTTATGTTAGGTATGGGTGGTGCATATACTACTCAGGCTGATGGTATTTATGCGGTTGGTGTGAACCCAGCGAATCTTAATTATCAACATGGAAAACCATTTATGTGGCAAATTGGAACCTTTAATTTTGGATTAATTAATAATTTTTTATCATTAGAAAATACTCTTGGGCTCAGTGGAGAAAATTTAGAAGCAAATAATCAAAGAGGTAAAAATCAAATTTATGATCAAATTAGAGATGGATTAAGGTTTAGCCAGCATGCACATATTAGTATTCCAATGTTAAGTTTTGCCTCAGGAAATATGGCAGTTACAAATGATATTGTTGAAATAGCAGATTTAAATATGCCAAGAGGAATTTTTCAATTTATTTTAGAAGGTAATCAAGTAGGTATTCCTATTGATTTAGAATTTCAACGAGAAAGTATGGTTGTTAGTGAACATACTTTTTCTTTTGCAGTTCCATTAGAAAGTTTTTCTTGGGGAATAACTATGAAATATTTAGGGGGAATAATTTATTCAGGTACGGATCCTGATTCTAGTTTTGCAGTTTTTAATACTGATCCAACTAATTTTAATCTTCAAACTAAATATTTTTACAGACAGGGAGTCGGTGGAAACGGATTTGCATTTGATTTTGGCTTAGCTACTAAAGAAGTAAATGGTTTTAGAGTAGGAGCTTCGATTATTAATGCTTTTGGTTCAATTAAGTGGAATGAACCATCATTATTTGGAGAGGAATTATCACAAGCTCTAGCAAAACTAACACCTGGAATTCTTGAAAATGGAGGAAAATGGGGACCATATACTTTAGAAAAAAATCAAGCACTGGTTCATGAAATCATCGCTGATTCAGTAACCTTAATTGATTTAACAAGTGGTAAATGGGATGAAACTTTTGTAGAAAAAAAATATACTGTTTCAGATTTAGATGTTGATGGTAATCCAAAATCATTTAAAGTACGTTATCCTGGACATTTTAGATTAGGAATTTCTAAACAAGTTGATAAAGACCTTTTGATTTCATCTGATTTAATTGCTGGTTTTACAAATAGGTTGGGAATGTATCAAAATTGGCAATTATCTGCAGGAATTCAATTTAATAGGCTTAAATCAATACCATTGAGAGTTGGTTATATGTATGGTGGAAAATATATAAAAGAATTAGGTTTCGGAGCTGGATTTCATGCAGGTCCTATTATATATGATTTTGCATTTTCATTTCGAAATGGTGTTTGGGTTCATAATATGAAAGGCATATCTGTATCTTTGGGTATTGCATTAACAAGTTTTAAAAGTAGAAAAGATAAATCAAAAGATAATGAATCTTGATTTATTTTTTCGCAAGGATCATTAATATTAATCCACCAGAACTAAAAATTATATTTCCAAACCAAGCAGAAAGCAAAGGATTTAAAATATCTTTATAGCCTAAAGTTACTCCAAATCTTATGAAAGCATAATAAGCAAAAATTAAAAAGACACTTATTCCAGCACCAAATGCTAGTTCTGTTGATGGTCTGAAAGCAACTAAAGGAATTGCAAAAAGAACAACTATCATATTTATGAAAGAAAAAGCAAGTTTTGCGTGCAAGTTTACTTCCCATCTTGTTGTTTCTATACCACTTTGATTTAATTCTTTTATGAAGACTTTTAAATCAGCATAATTTTTTTCTTGTGGAGCGATTGCCTCTTTTGCTAAATCATCAGGTATGTATCCAGTTTCAATAATTGTATCATTTCGAGAAATAAAAACTTTATTTTCAAATCCTTGATTGTTAAAAATTCTAATCGCATATGCGTTTAAAACCCATTTTTTTAATTTATTATCCCATGTCATTTTATGAGCATCAATTCTTTTATTTAACTTTCCATTTTTCATATATTGTATTGCTACTCCACTTGCTATGTTAGTCTTTGCAGAGTATTTATCTATTGCAATCTGTGATTGATTGGCTTTACTTAAAAAAATATTTTTCTTTTTTAATGAAAAAGTGCTATTTCTAGACTTCATAGCAAATTTGGTTTCTATTTCTTTACATTTTTTGTTTCCATAGGTAACTAAAAAATTATCAAAGTAAAATCCAGAAATACTTATAATTATTGATAAAATAACAATTGGCGTAGCAATCCTATATAGAGAAACCCCAGCGGCTTTCATTGCCGTTAATTCATTTCTTTTTAATAATAATCCAATTGTAAAAATAGTGGATACTAACATTGACATAGGTAAACCGATGCTAATAAACCAAGGAATTGAATAAAAATAATAATTTATAATTGAATTGATTGGAATTTTTGAATCTATAAATTTGTCTATATTTTCAACATAATCAACTAAAACAAATAAAATAATAAAGCCTAAAATTGAAATTAATAAAAGATTTAAAAATTGATTAAGTATGTAAATATCTATTTTTTTCATTTATTTTTTGGTAAAACTTTAAAAGATTCTATTTTTGATTTTTTAATAATTTGAATTCTTTGAACTTGTGTTGAACTAGCTTTTAAAACTCTAATTTTATAAAACTCAGAATTTAAAGTATTTCCTTTTTCAGGTATTTTACCAAGCTTTTCAATAATATATCCTCCAATTGTTTCATAATTCCCTTTTGGTAGAAATATTTTATATTTAATTAGTTCATTAATATATATACGTCCATCAATGATAAAACTATTATCTGAAAGTTTAATTATTTTTTTTGTTTCTTTATCAAAAATATCTTCAAATTCACCAAATATTTCTTCAATTAAGTCCTCTATTGTTACCAACCCTAAAGTTTTCCCACTTGATTCAACAATAATAGCCATTGATAGTCTATATTTTCTTAATTCTTTTAATGCATCACTTGATGACATATTTTCATGAATGAATAATGGATTGTGAATAATATCTGATAAATTCTTAGGTTCATTTAGTAAATCATTTAAATAAATAATTCCATTGATATTATTTAAATCTTTTTCAAATTGAACAATTTTTGATAAACCTGATGAAATTATAATATCTATTGCATCAGAAATTTTCCTATCTTGTTCAATTCCAATTATATCATGCTTAGGAGTCATTGAGTTTTTCACAGATTGTTGACCAAATTCAAAAATATTTGTTATTACTTCTTTTTCATCTTTTTCTAAATCATCTCCTAATTCAATTTCCTCAAATAATATCGCTAATTCTTTTCTTGAATAATTAGTTTGTTTTTCACTAATTGAGATTTGTTTAGTATAATTTCTAAAAATCCATACCACTGGTTTTAATAAGAAATCAGAAATTTGAAAAAATTTTGTAAAAAATAAAGCAAATTTATTTGGATACTCATGACAAAAACTTTTTGGTAAAATTTCACCAAATATTAGAATAATTAATGATATTATTATTAAAATATATAATTCAGGTATTTGCATTTTATATAGAATAATTGTTGTAAATGATGACACCAAAACATTTGAAAGATTTAAACCCAGTAAAATTGTCGTAATATATTTTTCAGGGTTTTTAATTAAATTCTCTGCTTTTTTTGCTATTAGATTACCTTGTTCTTTCCAAACACTAATTTGTATAATATTTGAATGTAATTTGTGAAATGTAATTTCTGCTCCAGAAAATAATGCAGAAAGTATTAAGCCAATTGTTGCTAAAATGTATTCTATCATAACGAATAATTTAAAAATATTTAAAGATAAAAATTATATAATGCGTTAATTTACACTAACTTTTTAATTATAAAATTTAAATTATTAACATAAAAATGAAATTATCATCTACTGAAAAACAAAATCCAATTTCTAAAAATTTAGATACTAAACCAATAAAAGAAATTTTAAAAATAATTAATAATGAAGATTCTAAGATTGCTGGTGCTGTAAACAAAATTTTACCAGAAATTGAAAAAACAATAAATTTTGCAGTAGAAACTATAAAAAATGGAAAAAACATCTTTTATGTAGGAGCAGGAACAAGTGGAAGATTAGGTGTTTTAGATGCTGCAGAGTGTGTTCCAACCTTTTCTGTTCCTGAAAATTATTTTCAGGGAATTATTGCTGGAGGAAATGATGCACTTGTTAAATCTATTGAAAATTCTGAAGATGATTTATTGAGTGCAGAAAATGATTTAAAAAAAGTAAAAGTTTCATCAGGAGACCTTGTAATAGGAATTGCTTCAAGTGGTACCACTCCCTATGTTCTTCAAGCATTAAAATATTCAAAAAAAAATGGATGTAAAACTGTTTTTTTAATTTGCAATAAATCATTCAAAAATAGTTTTGATTTTGATGTAATTATTTTGGTAGATGTAGGACAGGAAGTTATAGCTGGATCTACTAGAATGAAATCTGGAACAGCTACAAAAATGATTTTAAATATGATTTCTACTACTACAATGGTAAAAATAGGAAAAGTCTACGATAATTTAATGATTGATTTAAAAGTTGTAAATAACAAATTATTTAATAGAGCTATTAGGATTATTAATACAATTACTGGATTAGACGAAAAAGAATCAAAAAAAATTTTAATTAAAGCAAAAAATGAAGTTAAGGTAGCTATTGTAATGCATAATCATAATTTTAGTTATAAAGTTGCAAAAACTTATTTACAAAAACATAATGGTTCTCTTAGAGAGGTTTTAAGTTTGAAATTTGAAAAATAATGGACGTATTTAAGCAATATAAGATGATAGGATTAATGACAGGTACTTCAATGGATGGGTTAGATTTATGTGCTTCAAAAATTACTTTTTTTAACCAATCAATTAATATTGATGTTATAAAAAATGGTTATGTAGAATTTCCACAAAAAATAAAGTTAGATATAGAAAATTCATTAAACCTTGAAAAAGAGAATGTTGAAAAGTGTAATAAAACACTTGGACAATTTATGGCAGAAAAAACATATCAATTTTTAAAAAAAAATAAAATTTTTAATATAGATGGAGTTGGTATGCATGGTCAAACCATTCAACATATAAGTGGTATTAAAAGTTTGCAAATTGGAGATCCAAAATATCTTTTTAATAAATTAAACGTTCCAATAATCTCAAACTTTAGAAACTTAGATATTAAAAGTGGTGGAACTGGGGCACCTTTGGTTCCGTTTTTAGATAAAATACTTTTTCAAGAAGAAAAGAATGCAGTTTTATGTTTAAATATAGGAGGCATTTCAAATATAACTTATTTACCATCTCTAAAAACTAATGATCAAATTATAGGTTTTGATACTGGACCAGGAATGTCCCTTATTGATGAAGCATCAAAAATCTTTTTTAATAAAAAATTTGACAAGGATGGTACTCTTTCTATTAATGGTAAAGCACATTTGGAATTAGTTGAAGATTGGATGAATGATAAATATATTATCTCTTCTTATCCAAAATCTACAGGAAGAAAAGAATTTGGTTTGAGATGGTTAAAAAAAAATATGAATATATTGAATAAAATTGAAAAAAGAGATATTTTACCTACTTTAGCATTATTTACTTCATCAAGCATAATATATAATTGCAAAAATTTTACTAATTATAATAAATTAAAAAAAATTATTGTTTCTGGTGGTGGAATATATAATCAAGCAATTATGAGAAATTTAAAAAGAGATTTTAAAGATATTTTATTTTATAGATGTGAAAATTTTGGTATAGATTCTGATTCTAAAGAAGCTTTATGTTTTGCTCTTTTGGGAGCAGCTTTTTTAAATAATACTCCAAGTAATATTCCATCTGTTACTGGTGCAAAAAAATCAATTGTTCTTGGTGAAATTACAAAATAGGAATTTTTTATGAAATTTAATCCATATGTTTTTAGAAAATATGATATTCGAGGAGTAGTTGAGGAAGATTTTTCCGATAATTTTGTGATTTCATTAGGAAAATCTTTTGCCACTAAAGTTAAAAGAGTCGGAATAAAAGAAATTGCAATTAGTGGTGATGTAAGATTATCGACAAATAATTTGAAAGATAATTTTATTGAAGGTGTATTAAGTACTGGAGTTGATATAATTGATTTAGGGATTTTGCCCACTCCGACAAATTATTATAGTATGTGGAAATTAGATGTTAAGGCTTCTGTCCAAGTTACAGGAAGTCATAATCCAGCAAATATGAACGGATTTAAATTTTCTGTTAATAAACAAGCTTTTTTTGGAGATAAAATTCAAAAATTAAAAAACATGATAGAAGTGAATGATTTTGATAAAGGTAATGGGACTTTGGTTAAGCATAATATCCTTGATGATTATATTGAAATGATCATAAAAAAAATAAAATTTCATAAAAAAATGAATTTGATTATGGATTGTGGAAATGCGACGGCATGTGTAGCAGCTCCTCAAATTTTTAAAGAGTTAAATGCTAATGTGAAAAATATTTATTCAAATGTTGATCCAACTTTCCCAAACCATCATCCTGACCCATCTGATGAGAAAAATTTAAAAGAAATTATTTCGGTTTTGAAAGTAGGTGATTTTGATGCTGGACTTGCATTTGATGGCGATGCTGATCGTATTGGAATTATTGATGATAATGGAAAGTTAGTATTCCCTGATCAACTTATGGCATTAATGCTTCCAGAGATTTTAAAAAAAGGTGATAATATTGTTTTTGATGTAAAATGTTCCAAAACTTTGGAAGACGAAATTTTAAGATTAGGTGGAAACCCGATAATATGGAAAACAGGACATTCCTATATAAAACAAAAAATGAAAGAAATTTCATGTAATTTTGCTGGAGAAATGAGTGGCCATATTTTTATTGGTGATAATTATTATGGTTTTGATGATGGAATCTATGTTGGTGCTAGATTTATAGAAATGCTTTCAAAACAAAATATTAAGTTATCAGATTTAGTTCAACAACTTCCAAAATATTTTTCAACTCCTGAGATGAGAATAGAATGTATAAGTGATAAAGAAAAATTTCGAATTAATGATGAAATTTCTGAGTTTTTTAAAAATAATTACGACTGTTTAGATATTGATGGTGTAAGGATTACATTCCCTAATGGTTGGGGGTTAGTTAGAGCATCAAATACTCAACCAGTCTTAGTTTGTAGGTTTGAGGGAGAGTCTGAAGAAAAAATGAATGAAATAAAAGATTTAGTTTTAAAAAAGTTGATGAGTATAGGTGATATAAAAATTCCAGAAAATGAATAAAAATTTTATAAATGAACATGAAAGTTTTGTTCAAAAACTTAATTTGCATTTAAAAAACTATGTGAAAAGATCTGATTTTCCTTCTTTATATGATCCAATACAATATATTTTGTCTTCTGAAGGTAAAAGATTGAGACCTTTTTTACTTTATTTGTCATCTAAAGTTTATGATATTGATGATGATAAAATCCTACCATTGGCATTGTCTGTTGAGATGTTGCATTGTTTTTCACTTGTACATGATGACATTATGGATCAGGATGATTTGAGAAGAGGAAAGCAAACAATTCATAAAAAATGGGATTTATCAACTGCTATATTAGTTGGTGATGCAATTTTTGCTTTAGCCTATAAAAACATTAATGAATTATATAACATAAGAGATATATTAAATGTTATTTCTGAAGAAACTACTAAACTTTGTGAAGGTCAGTCTTTAGATAAAACTTTTGAATCTAAGGATAATATATCAATAGATGATTATCTTCATATGGTTGAATTAAAGACGGGTTCTTTGCTGTCTTTAAGTTGTAAGTTAGGTGGTATTTTAGGTAATGGAACTGAATCTGAAATAACTAAATTAGGAAAATTTGGAAATTTGATTGGTAAAGCATTTCAAATTCAAGATGATATATTAGAGATTTATTCAGATTCATTAATTATGGGAAAAAGTTTAGGAAGTGATATTATTTTCTCAAAGAAAACTTTTTTAACTTGTTTTGCGAATGAATTTAATTCTAATGAATGGAAGTTGTTAAATAATCAAATTATTGATATGGATTTAAAAAGTTATGTCTTACCTAAATTGAGAGAATTCTTTGATAATAATGAAGTTAAAACTATTGCTGAAAATAAAATTAAAGATTTGTTAAATGAGGCATTGTCTTACATTGATTATTTACCTAAAGATAAAAACTATGTTTTTAGTAATTATATAAATATGATTTTAAAAAGGAAAAATTAATTTATGGATTTAAAAAATATTGACACTTCAAATATGTTAAAGGAAATTGAAAGTTTACCTTTCCAAATAGAAGAATCTTTAGATATTATGAATGATTATAAATTTAAAATAAAAAATTTTGAAAAAATAAATAATGTTGTAATTGTTGGAATGGGGGGGTCAGGAATTGGTGGAGATATAGTTAATTCAATAATATCAGATAAAACTCCAATTCCATTTTACGTTGTTAGAGATTATAATTTACCTAGTTGGGTAGATGAAAATAGTTTGGTTATATGTGTGAGTTACTCTGGAAATACTGAAGAGACAATATCATGTTTTGAAGAAGCATTACACAGAAAATCATATATTGTAGGAATAACTTCAGGTGGAATTTTACAAGAAAAACTTAATAGATTTAATTTAGATTTAATTTCTATTCCTAAAAATAAACCTCCTAGAGCCTCAATTGGTTATATTTCAATATTGATTTTATTAGTCCTAGAAAAAAATAATCTAATTGGGAATTTATCAGAAAAAAATTTATTAGAAACATCATCAAAGTTAAAAATTCTAACAAACACATTTAATAAAATGGAAAATAAAAATCCCACATTTTTTTTAGCTAAACAAATTTTTAAAACTGTTCCTATAATTTATGGGGATTTTAAATATACTAGTTCTATTGCATTAAGGTGGAGAGGTCAAATTGAAGAAAATTCAAAAATGATTTCATTTCATAATATCTTACCTGAAATGAATCATAATGAAATAGTTGGATATGAAAATAACAATAATTTATTTGATAAATTGTCTATAATTTGGTTGAAAGATAAAAATATTCATCCAAGAACTTCATTAAGACAAAAATATTCATTACAATTATTGTCAGAAAATATATCTAATCAATTTGAAGTTGAAAGTCATGGTGAATCTCTAATTGAGAGAATATTTTATTTAATTTACTGGGGGGATTGGTTAAGTTTTTGGCTTGCCATTTGTCATGGAACAGATCCAACTCCTGTGAAAAGAATTGAAAAACTAAAAAAAAAATTAGTTAGATAATTTTAATTAAATTATATTAAAAATCATGATACCCGTTAAAATAATAAATCTTTCATATCATCATTCATTTAAGGGTTATGCTATTGAGTTGGAAGAATTAAATAACCAAAATCGAAAAATATCTATATTTGTTGGTCCATTTGAAGCTCAATCCATTGCTTTGGCAATGGAAAATATTATATCTCCAAGGCCTCTTACTCATGATTTAATTGTTAATTTAATTCTTAAAATGAATCAACATATTAAATCTGTTGTAATTAATGATATTAAAGAGGGTGCTTTTTATGCTTTATTAAAAGTTAGAATAGATGATTTAAAAAGCATTGAAATTGATTGTAGACCATCTGATGCCATTGCTATTGCTTTGAGAACTGATTCTCCAATCTTTGTAACTCAAAAAGTTATGGATAAAGCAAAAGACTCAGATAAAGTTAATTTTTATGATGAAGCTAGTTCTAAAAGTCTTAATGAAAATAGAAGAAAAGTTTTGCAAGACAAATTAAATAATGCTATTGAATCTGAAGAATATGAATTAGCTGCTGAACTAAGAGATCAACTATTAGAATTAGAAAATATTTGATTTTTTGATTTGATCCATAATCTTTTTGGAAGCCTTTTGTTCTGCAGATTTTTTAGTTTTTCCAGATGCTGTTGATTTGATTTTTTCCCCAATTTTTACAATAATGTTAAATGTTTTTTCATGATCTGGTCCAGATGTATTGGATGTAATAAATTTAGGACTACCAAATTCATTTGATTGGCAGAATTCAATAAGTAATCCTTTGTAATTAATTGATTCCCAAGCAATATTCTTGTTTTTCCATAATGTTTTTTTTATAAATGAATAGCAAGCTGCATTTCCAGAATCAAGTTTGATAGCAGCTATTATAGCTTCAAACATGTTAGCCGTTTGATTTTCAATAACTTTTTCATCATTTAAGTCTAAAGAATTATCAGCTCTAAGATATTCTATAAGTGAAAATTTTTTTCCAATTTTCGATAAAAAACTCTTTCTTACAAGACTTGATCTTTTTTGAGTAAGATAACCCTCTGTTGCATTTGGAAATTTTTTTAATAATAAATCAGATATTATCTCATCTAATATAGCATCTCCAAGAAATTCAAGTTGTTCATAATTATTTGATACTTTTGTATTAAATGATTTATGAGTAATTGCTTTTTGAAGCAAACTTTCGTTTTTAAAAAAATATCCTATTGATTTTTGTAAATCAAAAATTTTTTTATTTTTATTCTTTAAAAAAAAAATATTTTTAAAAACTTTTTTTATCCTAAACATATTAGACTAAACAAATATGTTTAATTATGTAAAAATTTTTTTTTCTTAAGAATTTGAGTCAATATATTCTACTGCAGCTTTAACAGTAGTTAATTTCTCAGCTTCTTCATCAGGAATTTCGATTCCAAATTCTTCTTCTAACTGCATAATTAATTCAACTGTATCTAATGAGTCCGCACCAAGATCATCAACAAAAGAAGCATCTAATGTGATGCTATCTTCATCTGGACCTAACTTATCAAGAATAACTTCTTTAACTTTATCGAAACTAGACATTTTTATCTCCTTTTATATATATAACCCGCCATTAACTGAAATTGTCTCACCTGTAATGTAACCCGCATTTTCTGAAGAAAGAAACAATACTGTTGCTGCAATTTCATCTGGATTCCCTATTCTTCCTAATGGAATCATTTTTAATAATTCATCTTTAAATTTATCATTCAAATCACTTACCATGTCAGTTTGAATATAACCTGGTGCAACTGCATTTACGGTTATATTTCTTGACGCTAATTCTCTTGCAGTAGTTTTTGTTAAACCAATAATACCAGATTTAGCAGCCGAGTAATTAATTTGACCATAATTACCCATTAATCCTGATACTGATGATATATTAATAATTCTACCATATTTTTTTTTCATCATGTAAGGTGTGACAGATTTAACTCCATTAAATGTTCCTTTTAAATTAACATCTATAACACTATCCCAATCTTCTTCTTTCATTCTTAAAATCAAATTATCTTTTACTATACCGGCATTGTTAACCAAAATATCAATTTTTTCAAATTTTTCAATAGTGTAATCAATTGCAGATTTAAAATTTGATAGATTTGAGACATCTAATTGAACTGCAATTGCGTTACCACCGAGTGATTTCAGTTTTTCTACTGTTTTATTTAAATCTTCCAAATTTCTGCTTGCACAAGCTACTGTAGTTCCATTTAATGCAAAAGCTTTTGCAATTGAATATCCAATACCTTTTGAAGCACCCGTGATGAATGCTATTTGGTTGTTTTTCAAATTTTCATCTCCTCAATATGATTTGAATTTTCAATATTTACTGTATTTATTTCAGAGTTTATTCTATTGTTTAACCCTCTCAGTACTCTATTTGGACCAACTTCAATAAAATTGCTAATACCTAATTTATTGAATCTATTAATAGTTTCTAACCATCTTACAGGATGATCAAGTTGGTTAATTAAATTGATTTTAATCTTATTCTCATCAATCGTTTCTTCTCCAGTCACATTCATGATAATGGGACATCTAGGAGTTTTAAATTTTAATTGTTCAATTTTTTCTTTCATTTCATTTTTTGCTTCTTTCATTAGAGGTGAATGGAATGCTCCACTTACATTTAATTCAATTGTTTTTTTTGCACCCATTTCTTTGCAAACTTCCATTGTTTTCTTAACAGCAATTTTTGTTCCTGAAATAACTATTTGTGATGGAGAATTGAAATTAGCTGGGACTACTATATCATCAACATTTGAAATTGAATCGCAAATTTTAATTAATTCCTCAGAATCAAGTCCAATTATTGCTGCCATAGAACCTGAATTTTGTTTTCCTGCTTTTTTCATTGCTAAACTTCTACTTTTAACAAGAATTAATCCTGTTTCAAAATCAAAAATACCAGCTGCATATAATGCAGAATATTCTCCTAAACTATGACCTGCAACATAATTTGGTTCAATTTCTTTTTTATTAATTAAATCAAATAAAATACATTCAATAATAAAAATTCCTGGTTGTGTATTTTCAGTTAACTTAAGTTCTTCATTTGGTCCATTAAAGCAAATTTCAGAAATATTTTTCCCCATTATTTTATTTGCTAAATCAAAATATTCTTTAGCTAATTTATAATTATTATATAGATCAAGACCCATTCCAACTTTTTGAGATCCTTGACCTGGAAAAATTAAATTTTTTTTTGTCAATTAAAATTTCCCCATTTAATTAGAGTAGCACCCCAAGTAAAACCAGCTCCGAAAGCCGCTAATAAAATTAAATCTCCTTCACTTAACAAATTTTTTTGTACTGCTTCACTAATACAAATTGGTATGGTTCCACCAGTTGTATTAGCAAAACGGTCAATATTTATATAAACTTGTTCTGAATTTAAATTTAATCTTTGTGAACAGGCTTCAATTATTCTTTTGTTAGCTTGATGAGGTATAAATAATTTTATATCATTAGAAGATAACGAGTTTCGTTTTAATATTTCTAATGCTGCTTCTGTCATACCTCTAACAGCAGATTTATAAACTTCCCTGCCATCTTGTTTTAAATAATGAAATTTTGAGTCAATTGTTTTTTTCGAGGACGGGAAAAGACTTCCACCTCCAGGCATATATAATCTATCTCCTCCAGTACCATCTGTAAAAAGTACAGAATCAATGATTCCATTCTCGTGAGATGAAGGTTCAAGCAAAATTGCTCCAGCACCATCACCGAATAAAACACATGTAGCTCTATCATTATAATCAATAATTGAGCTCATTGTATCTCCACCAATAACTAATATTTTTTTATATTTTTTACTTTCAATTAAGCTTTGAGCTGTTTCTAACGAAAATAAAAAACCTGAACAAGCAGCATTTAAGTCAAAAGCCCAAGCATTAATAGCACCTATTTCTTTCTGAATGATTGATGCTGTTGATGGAAACAACATATCTGGAGTAATTGTTGCGGTTATAATGACATCAATTTCTTTAGCATTAATCTTCTTTTTTTCTAAAATATCATTTGCAACTTTAATTCCCATTGATGAAGTGGCTTCTCCATTTTTAACTTTATGTCTTTGTTTAATACCAGTTCTAGATTGAATCCATTCATCAGATGTCTCAACAAATTTCTCCATATCACTATTTGAAATAATATTTTCTGGAAGATAGTGTGAAGCTGCAGTTATTGTTGCTTTCAAAATTAAATTAGCTCTTTAATTATTGAGAAAGTAGAAGATATGTCGTTTTTAATAGAATTTATTAAATTTTCTTTCACACACTTTTTAGCAACTAAAATTGCATTTTTAATAGCTTTAGCAGATGATCGACCATGACATTTAATAACTGTACCATTTACACCTAATAATGGAACTCCACCATATTCTTCATAATCAAAATCTTTCATTATTTCAGCAAAGATTGATTTTATTTTATTCTTTTCTTCAATTGATTGAATGTTCTTTATTAATTTGGTAGAAACATCATTGTTAACATGATTAATCCAGCCTTCTGCAATTTTGACAATATTATTTCCAAGAAAACCATCACATACTATAATTTGTGCTCTGCCATCAAAAAGATATCTACTTTCTATATTACCAATAAATGAAGGAATACATTTTTTCATTAATTTGTGTCCTTCAATATAGGATTCTGTCCCTTTTGTTTCTTCCTCACCGATATTTAACAAGCCAGTTAATGGATTCTTTATACCTCTAATCTGTGTCATATATTTTGATGCCATTACAGAAAATTGAACTAGATGAGCTGGTTTTGCTTCGGTATTTGCTCCAGCATCACATAAAACTATTCCTTTCTCACCAACTGGGAAAAATACACCTAATGCAGGTCTTTTTACTCCATCAATTCTACCCAATAATAATAATGAAGCTGCAAGGATAGCACCAGTACTACCTGCACTTACAAATGCATGTGCTTTTTTTGATTTCAATAAATTTAAACCTGAAACAATAGAAGAGTCTGGTTTTTGCTTAACTATTTGAGAGGGTCTATCATTCATTTCAACAGATTGAGATGAATGATGAATTTTATATTTTGCTAATTTTTTATTTTTTGGTAAAGTTTTTTTTATTTTTTTTTCATCACCGATTAGGATTAAATCTAAATCATCATTTTCAATAGATGCGTCAATAGCTCCCTTTACAATTTCTGAAGGAGCTTGATCACCACCCATGGCATCTACAATAATTTTCATAAATATTATTTTTTTATAGCAACTATTACTTGACGATCTCTATAATAGCCACATTTAGTGCAAGCATGGTGGGGTCTCATTTTTTCACCACATCCATCTTGTGGACAATTAATTGAAGAGATTATATTTGATTTCCAATGAGTTCTTCTTTTTCTTCCTCTTGATTTTGATTGTTTTCTTTTGGGTAATGCCATTTTTTTTCTCCGTTAATCAAATTATAAAATTTTTAATTTTCAATACACTTACAAGTTTCAAAATTTAGATTATTTCCACAAGTCGAGCATAATCCTTTACATTTTTCATCACAAATTGATTTCATTGGTTTTTCTAAAAGCAATGTATCACGAACTATATTAGATAAGTCAATTTCATTTTTAGAGTCATCAAATAAAATAAATTCAGAATCGTTATTATTCATCAAATTTTCATTTTGGGTTAAGATTACTCTGAATTTTGCTGTTTTATCATTATTAAAATTGTTAATGCATCTATCACATATTTCAAAATAATCAGAATTAATCTCTCCTTTAATATCAATCGAATTTTGAGTTTTTGAAAAATTTAAAAATATTTCTATCTCATTTCTGTTTGATTTTAGAAAATCAATTTTAAGATCAGAAAAATTAGTTATTTTTTTTAGATTACCCTGAGTCCCATCTAATTCATGACGCAATATCTTCATTTTTGATATTATAAATTACCTTTTTATTAGTTTTTAAGTCAAGCTTTCTAAAGTAACTTTCAAAAATTAATTTTGATCCATTTACTCCACTCGGACTTTATCAACCCATGTTTTGAAATTAGTAAAATCACTAATTTCTTTAGCTGCTTCATTTGCTTCATCTTTTGAAACAAAGTTTCCAACTCTCACCCTGTACCATAATTGGTCTGTTTTTTCAAAATAAGCTTTTTGAATATATGAATCTAAACCCTTATTTTTTAATTCTAACATTTTTTCTTCTGCCTCTCTTGGAGTTTTTTCAGAGAACATTTGTATTGTGTAATTCCCATTAAATGATTCAATTTGATTAGCAGTCATTAGTTTCTTTTTAATTAATTTTGTTTTCTTTTTATTTTGTTTTTTAATTGATTTCTTTTCAGATAAATCTTGTTTTTTCTTTATCTTTTTTAAATTATCATTATTATTATTTTGATTTAATGTAGATGTGGAGTCAACATTAATTTTGGTTGTTGATAATAAATTAATATTAAATTCATAAGTGTTTCTTTTAATTGATTTTCCATTATTATTGAAAACAATCAATTCAAAAACATAATCTCCAGGAATATCGGGTTTAAATGACATTTCTTTTCCAAAGTTTTTAATAAATAAATCTTTAGAAATCAATTTGCTTTCAATTGGAGTTGTAATTATGTACCAACCATATGATAAATTATTTAAGTTTAAATTTTCCTCAACTCGAATACTATAAGTATTACCTGTTGTACCATTATTAGTTTTATTAGTTTGACATCCAAATAAAAAAAGGAATATTATAGAAAAAGTAGAAAATATTTTTATTTTTTTCATAACCTAGTCAAATTTGAAAAGAAGGAAAGAAAAAAACAATTTCTTTTATTGCATTTTTTGTTGAATCTGAACCATGAATTGCATTTTCTTGAATATTTTCTGCAAACTGATTTCTTATTGTACCTTTTTTAGCTTCAATAGGGTTGGTTGAACCTATTAATTCTCTAAATGAATCTACTGCATTATTTTTCTTAATAATTATTGGAATTATAGGTCCTGATATCATAAAATTAATTAAATCAGGAAAAAATTTTTTATCTTTATGTATTAAATAAAATTTCCCAGCTCTTTCTTTGTCTAATTGATCAATTTTCATTTTTATAATTTCGAAGTCATTTGATAAAATTTCATTAATGATTTTACCATAAGTTTTTTTTCTAAAAGAATCTGGTTTAATAATACCAAGGGAATATTCTGTTTTCATAATTTTATAGTAACTTTTTCATTTCAATTCCAATTTTTGATGGGCTTGAAACAACTTTTACTCCTGCATTTGATAGAATTTTCATTTTTTCATCAGCTGTGCCTTTTCCACCAGCAATTATTGCTCCAGCATGTCCCATTCTTTTTCCTGGAGGTGCAGTTTGTCCTGCAATAAATCCAACAATTGGTTTTTTAAATTCAGAAGATTTAATCCAATCTGCAGCTTCTTCTTCAGATGAGCCACCAATTTCTCCTATTAATATAATTCCTTCAGTTTGTTTATCTTCATTAAATAGTTTTAATAAATCAATAAATGAGGAACCTATAATTGGATCTCCTCCAATTCCAATACAAGTTGATTGGCCTATTCCAAGTTCAGTTAATTGAAAAACTGCTTCATAAGTTAGCGTTCCACTTCTAGATATAACTCCGACATTTCCTTTTTTATGAATGAAGCCTGGCATTATGCCAATTTTTGCTTTCCCGGGTGAAATTATACCTGGACAGTTTGGACCAATCATTCTTGAGCCTGATTCTTTTAAAAAATATTTTATTTTTGTCATATCTTTAGTAGGAATACCTTCAGTAATGCATATAATTAATTTAATATCTGAGTCTATAGCTTCCATTATAGCATCTGATGCAAAAGGAGGGGGAACGAAAATTACTGAAGCAGTTGCTCGTGTTTCTAAAACACAATCTTTAACAGTATTAAAAACAGGTAAATCAAGATGCATTTGACCTCCTTTTTTAGGAGTCACACCTCCAACAATATTTGTCCCATAATCTATCATTTGTTCTGCATGGAACGAACCTTCTTTTCCAGTAAATCCTTGCACAATAACCTTTGTTTTATCGTCAAGTAGTATACTCATCTTTTAGACTCCATAACTGCTTTTTTTGCTGCTTCTTCAAGATTTTTAGCAACAATAAAATCTAATGAAGAGTTTTTTAATAATATTGAAGCTTCTTTAGAATTAGTTCCTTCTAATCTTACAATAATTGGAATTTTTACATTTAAATTATTTATAGCTTGAATTACTCCCTTAGCAACTCTATCACATCTTACAATTCCACCAAAAATATTAATTAAAATAGATTTAACGTTTTTGTCTGATAGTATAAGTTTAAACCCCTTTGAGATAGTGTCAGGATTGGCAACACCACCTACATCTAAAAAATTTGCAGGTTCACCCCCAGAAATTTTTATAATATCCATAGTTGCCATTGCAAGTCCTGCACCATTAACCATGCAACCAACTTCACCCTCAAGTTTAATATAGTTTAAATTATTTTTAGAAGCTTCAGTTTCTACGGGTAACTCTTCAGAAAAATCTCTTAAAGATTCAATTTCCGGATGACGAAATAATGAATTTTCATCAAAATTAATTTTGGAATCTAGTGCAATAATTTCTTGGTTTTTAGTGATAACTAAAGGATTTATTTCAAGCAAAGAGCAATCATATTTAACAAATGTATCCCATAATGATAAAAACATTTTACTACCATTATTGATTTCATTTTCTACTAAACCAAGACTAAAACAAAGTTGTCTACTTAAAAATGGTGTGAGTCCAATATTAGGGTCAATCCATATTTTTAAAATTTTATTTGGAGAGTTAGTTGCTGTCTCTTCAATATCAACTCCACCTTCTGTTGAAACCATAAATACGAATTTTTCTTTACTTCGATCTAAAACAATACTCGTATAGAGTTCTCTTTTTATATCTATTCCTTCTTCAATTAAAAGTCTGTTTACCTCTTTTCCTTCAGGTCCAGTTTGGTGGGTAATAAGTTTTTTTCCAAGGAGAAGAGTTGAAAAATCTTCAACTTCTTTAAGGGATTTAGCAATTTTAATTCCCCCTCCTTTACCTCTTCCACCAGCATGAATTTGAGCTTTTATAACCCATTTATTTCCTCCAATTTGTTTTGCAACTTCAATTGCTTCTTTTGGAGAGAATGCTGGTTGACCTTTTGGAACTGGAACTCCATTTGATTTGAAAATATCTTTTCCTTGATATTCATGAATTTTCATAGGTGATAAAGTAAAGTTTTTTGTTTTATTCAAACAAGATAAACTTTTATAAATATGATTAAGGAAAAAATTAATAAATCAAATCAAATCATATATAATTTTAGAAGGTCTACATATTTTAGTATTTTTTCCAATTATTACTATCGGTCTTTCTATTAATTTTGGAAATTCCACCATTTTATTAATAAGGTATTCATCATCATTCAAAAAATCAACTAACTTTAATTCTTTGAAAATAGATTCTCTTTTTCTGATAACTTCTTTAGGTCTCATAGATAATTTTTTTATTAATAAATTTAATTCTTTGTGATTTAAAGGATTTTTGATGTAGTTGATTATTTGAATATTAAAATTATTATTTTTTAAAACTTCTAAAACATCTCTGCTAGTTTTACATTTTGGATTGTGATAAACAGTAATTTTTTTATTTGACATTTTTATTAAAATTAATATTTAATAATTGATTTAATTTTTAATATTCTAATATTGGTTTAAATATAAGATATATTTAAGTTATGTATGCGGTTTTTATTCGAGGTAAAATTATTTAATCAAAAAAACTATGAATTTATTATCAAATAATTTGCAACCAAATAATTGGGTCTCAGGCGAAATGGCTATGGATTTAGGTACAGCTAACACACTAATTTGGGTTAAATCTAAAGGTGTAATTGTAAATGAACCATCTATTATTGCACGAAACATTAATAATGGTAATGTAATAGCAGTTGGAGAAGAAGCTAGCGCAATGGTTGGAAAAACTCATAGAGATATTGAAACTGTTTTTCCACTAAGAGATGGAGTAATTGCTGATTTTGAGGCAACAGATGGAATGATACAAGGATTTGTAAAAAAAATCAATTTTAGTCCTATTGCCAGATTTAAAATGGTAATTTGTGTTCCTAGTGGTGTGACTGAAGTAGAAAGAAAAGCTGTGAGAGATTCTGCTGAAAGAGCTAATGCAAAAGAAATTTATTTGATAGATGAGCCTGTTGCAGCAGCCATTGGAATTGGAATTGATATATCAAAACCTGTTGGTAATATGATTGTAGATATTGGAGGTGGAACATCTGAAATAGCAGTTATTGCTCTTAATGGAGTAGTTACAAAAGAGGCTATTAAAGTTGCTGGTAGAGAAATGGATTCAGATATTGTGAAATGGTTTAGAAATGAGCATAAATTAGAAATAGGTTTACCTACCTCTGAGAAAATTAAAGTGGAAGTTGGCACTGCAATGAGAATGGAACAATCGCCAATACAGGTAAAAGGAAGAGATATGGTTTCTGGAATCCCAAAGACTGTTGAGGTTTCTGCTGATGAAATTAGACAAGCTCTAAAAGAATCTGTAACTCAAATTGTTGATGCTATCAAGCGAGCTTTAGAAAATACTCCACCAGAGCTTGCAGTTGATATTTTGAATAGAGGAATTGTTCTAACTGGTGGTGGGTCTATGTTAAAAGGTTTAGATCAAAATATTAGAGAAAGAACAAATTTACCTGCTAACATGTCAGAAAGACCTTTAACTGATGTTGTAAGAGGAACCGGAACTGTTTTAATGAATATTAAAAAGTACACTGATGTGCTTATGTAAAATTTAATGCGAAAGATTGTCAGTTATATTATTGATAATCGTGATTATGCTACATTTTTTATTGCCATAATTTTATCTCTTTTAATTTTAACAAACAATAAATCTGAAAATATTCAAACAATTAAATCAAAATTTGGATTTATTAATTATTATATAAATTTACCCAAAACATTTTTTAATGATATTTTATACCTTAAACAAAAAAATAAATTATTAAATGAACAAATCGTTGATATTAATTTAAGAAATTCAAAATTAGAGCATTTGATCTTTGAAAATTCAAGGTTAAAATCATTACTTCAATATAAAGAAAATTCCAGTTTATCTCTTTTAACATCAAAAGTAATAAATTTTGGAATCTCACCTTTTTTAAATTCTATAAATATTGATTTAGGATCAAATAATAATATTATTCCCAATTTACCTGTTATCGATTTAAATGGTGTTGTTGGTAAAACAATCAATTCATATTCTGAAACTTCTACTGTGCAATTAATGACCGATTATAATTTTAGGTTAAGTGTAAGATTGGAAAGTTCTGGTTCTATTGGAATTTTGAGATACAAACAAGATAACTTATTTGAAATTTGGGAGATTCCTAAAACAACAAATGTAAGTATTAATGAAAGGGTTCTTACATCAGGATTTAGTGATATTTTTCCTTCAAATCTTTTTGTTGGGAAGGTTGTTAAAATTATAGATGAACCTAATTTTATTGATAAAATTATTTTAGTTGAGAGTTTTACAGATTTTTCTAACCTAGAGTATGTTTTTGTTATTAAAGAATAAAGAATGAATGTATAATTTTTTAAAAATAATATTTTTTGGTTTAATAATTTTATTTTTAGAATTACTAATTTTTGATATTATAACTATTAAAAATATTAGACCTGATTTTCTTATTTTGTATATTTTATACATTTCTTTAATTCATGGTAGATTAAAAGGTCTTTTATGTGGATTTTTACTTGGAATTTTAGAGGACTTTATTACGGGTTCAATTTTTTTTGGCTTAAGTGCACTTACAAAGACCATTTCCGGGTTTTTATTTGGAAGTTTGAGTGGTAAGTTTAAAAAAATTAATCCAATTTTTTACTTTAGTTATATTTTATTTATTCTTGGAATTAATTTTTTTATATTTTTTTATGTAACAAATCAAAATATTTTCAACGATAATAAAAGTTTATTTTTAAATATTTATTTTTATGCTTTTATATACACCTTGGTATTTTTGTTCGTTTTAAATTATATAAAACCAATAAATTCGTTAGATAATATAGAAGATAGATAATTTGCTTAAGACTAAAATATATCAAAATAATTTTAAAAGAGATTTTTCATTTTTTATAATATCAATCTTGTTTTTTATTTTATTTGCAAAATTTTTTCAAATTCAAATTCTAAGATATGAAAAATATCAAATTTTAGCTGATGCCAATAGAATAAGGGCAGTTTCAACTCCTGCACCAAGAGGGAATATTTTTACAAGTGATGGAAAAATAATCGCTTCAAATAAATCTATATATAGTGTTTCATTAATTAAAGATGAATTGATTGATCAAGATTTAGAAATTAAAAAATTATCTGAATATCTTAATAAAGATGAAGATATTATTTTGAAAAATTTAAATAAATATTATCAAGGTAAATATTTACCTGCTTTGGTTGCAAAAAATGTATCTATTGAGGGTTTAAGTTTAATTGAAGAACATAGATATGAACTTCCAGGAGTTTTCTATTCAAATTTTCCAATAAGATATTATCCAAACAAAGAAAAAATAAATCTTTCACATACTTTAGGATATCTAAGAGAAATCAATTCATCTGAATTAAAAGAATTGGGTAAAGATATTTATTCAAATGGGGATTATATTGGTTTTCAGGGAATTGAAAAGTATTATGAAAAAAAATTAAAAGGGAAGAAAGGAATAAATTATCACCAAGTTGATGCTTTAGGTAGAGATGTTGGAATTTTGATGGATAGAAACCCAGTTCCATCAATTCCAGGAAAGGATATTTATTTAAATATTGATTATGATTTACAATCTAGAGCAGAAAATTTATTAGATGGTCAAAAGGGAGCAATTGTTATTATTGATTCCAAGACTGGTAAAGTACTTTCTTTAGTAAGTAAACCAGATTTTTCACTTGAAGATTTTTCAGCTGGTATGGATTCTGAAATTTGGAATGGTTATTCACAAGATTCATCTAGACCTTTATTTAATAGAGCACTTCAAGGAGTATATCCTCCTGGTTCATCATTTAAATTATTAACCGTAATTATTGCACTTGAAAATAATCTAATTGACGTGGAAAAAAAGTTTTTCTGTTCTGGAAAATATGAATTTGGTGATAGAGAATTTGGGTGTTGGATGGAAACCGGACATGGAAATTTAAATTTATCATCTGCAATAATTCAATCATGTAATATATATTTTTATGAGTTAGCTCAAAAAGTAAGTATTGATTTGTGGTCAAATTATGCCAACAAATTTATGTTTGGAAAATCTACAAATATTGATTTCCCTGCTGAAAGTAAAGGTTTAGTCGCAAACAGAGATTATATGAATCAAAAATATGGTAGGTGGGGGTGGGCTGGTGGTTCATTATTACATTTATCTATTGGTCAGGGTGATTTATTAGTAACTCCTTTACAAATGGCTATGTTTGCATCAGTATTGGCTTCGAAAGGAAATTATATTCACCCTCAAATAGTAAATGAAGAAAAAAAAAATAATTCATTGAATATAATTAAACTAAAAGAATCTACTTGGGCTTATTTACATAAAACAATGTTTGATGTTGTAAATGAAAAGAAAGGGACAGCATATGATCCAAGTTTAATGAAATTAAAAATTAAATCTTATGGGAAAACTGGCACTGCTGAAAATGCTCATGGAGATCCTCATGCATGGTTTGTGGGTTTTGCAGAAAAAAATAATAGAAATATATCTATATCTGTAATTGTTGAAAATAGTGGAACAGGTGGTTCGGTAGCTGCTCCAATTTCATCAAAATTAATTAGAGAATACTTCAAAAAATTTTAATTTTATATAATTTTGAAATTAAAAAATAAAATAATTAGAGCTCCAAAATACTGGTTAATTATATCATCGATTTTAAATATTTTTGGTCTAATAGCACTTTATAGTATTTCTCAAGATGAGGTTGTTTTAAGTTTTTCATCGAGATTTACGAAATTTCTATTTTGGTTTTTCCCAGCAATTAGTGTTTTTATCTTATTTTTTTATGTTCCAATAAAAATCATTCATGATTATTCTTACATAGCATTATTTACAATATTTGTTTTATTATTTATTCCTTATTTTTTTGATCCAATTGCAGGAACGCATAGGTGGATATCCCTAGGTTATTTAAGATTTCAGCCTGCAGAAATAATGAAGTGGGTAGCTGTGTTGGGTTTATCAAGATATTTATCTGATCAAAAATTGAAGTTAAAAAAAATAAGCACAATAATCTACCCTATTATATTTACGCTGATACCTTTTTTTGTTATTGCAAAACAACCAGATTTAGGTTCAGCAATAATAGTTATTGCACCATTAATTCCTTTATTGTTTTGGGTTGGAGTTGATACTTTTCATATTATATTTATTTTAGCTCCAATTTTAAGTATTTTAACAGCTTTTCATATTTTTAGCTTTACAATCTGGATAGGCTTATTTGCAATAATTTTATATTTATATAAAAAAAGTTTAATAGTGAATTTAAATGTTTTTTTTGGAAATATTTTTTTGGGACTTTTAAGCCCCTTAATTTGGAATAGCTTAACTTCGTACCAACAAGGAAGAATCTTAGTTTTTTTAGATGTTTCAAAAGACCCACTCGGAGCTGCTTATCAAGTTATTCAATCACAAACAGCAATTGGGTCTGGAGGTTTTTGGGGTAAAGGTTTCGGAAATGGAAGTCAAACTCATCTTAAATTTTTGCCTGAACAAGAAACAGATTTTATTTTTTCTGTAATTGGAGAAGAATTTGGTTTTTTAGTTGTTTCAATAATATTGATTTTATTTTCTATTTTAATTCTAGATATGGTTCAAAAATCTTTTAAACTTTCTGAGAGATTTCCAAGTTTAGTTTTATTTGGTATAGCAGTAATTTTTATGTGCCATGTTTTTGTTAATATCGGAATGACAGTTAATTTATTGCCTGTAAAGGGTTTGCCCTTACCCTTTTTAAGTTATGGGGGTACTTTTCTAGTTTCATGTTATGCAATGTTAGGATTGGCAATGAATATGGCAGTTGAAGAAAAATAATCTTTAATAAATTTTAAAGGAATTGGGATTATAATGAAATAGAATTAAATTTAAGTATTACTTTAAACAAATTTTTCGATGAAAAACTTTAAAATATTTTTTACAATCTTTTTTCTTTTAGGCATTCTTAATACTCTTTTATGTCAAAGTAGTTCAGAATCAGAAGAAAATAGAATATCTAATTTAGAAAATCAAATCAATCAATTGATGGGAATAGTTATTCCAGATATGCAAAATGCAATGCAAAGCATGGTAAAATCTAAAGCACAATCTGATAGTACAAGTATTCTACTTATAAATCGAATTAATACTTTGCAAAATACAATTAGAATTCTTGAAAGCAAGGCCACCTATACTGATAGTATTAATTTTCAATTACTTCAACAATTAATGATGATTGAAAATAAGATAATCACTCTAACAAGAAGTTTTAATGAGCTCTATGATTTAAAAGTCGAGCCTGAAAGTATTAGCTCTGGTAAATATAATGACGACTATAAATCAAATTATATTGATGCTTTAAGTTTTTATAATGATGGAAAGTACAATGAAGCTATTCAAAGTTTTGCTTCTTTGGTTCTAAATAATCCTAATCATAAATTATCTGATAATAGTCAATTTTGGTTAGGTGAATCATATTATGCTTTAAAAAATTATAAAAGAGCTATTGTTGAATTTGAAAAAGTTTTTCAATTTACAGAAGAAGATAAATGGGATGATGCACAGTTAAAACTAGGAATATGTTTTCAAAAAATAGGTAATTATTCAAGAGCGAGATTGGAATTCGAAAAACTTATAAATCATTATCCTGGAAGCGAATATTATAAAAGAGCTCAACAATATCTTCGTCAATTATAATTTTTTGGAGACACAATAATGAAGATTTATTTTTTAACACCTGAAATTTTTCCTTTTTCAAATACTTCTTTTTTGTCAATGTTTTCAAAGTTTGTACCCATCAATTTGCAAAAAAATAATCATGATATTAGGCTGACATCACCGAAATATGGTTTTATTAGTGAGAGAAAATACACATTAAGAGAAGTGATTAGATTAAGAGAAATTAATACAAAAATTGGAGAAGGTTTTGAAGTTGCTTCAGCAAAATCAGCTTTTATTCCTAAAACTAGAGTTCAAGTCTATTTTATGGAACATGAAAATTTTTTTCAACCCCTTACTCCTTTACTTTATAAAGCTAAAAATGGAAGACCACTTCCAGATAATGGTGATAGATTTGGATTTTTTTCAAAAATGTCACTAGAAATGTTAGTTAATCTTTTTTGGTCTCCTAATTTAATAATTTGTAACGATTGGCATTCATCATTTGTACCAATAGTATATGAACAACTTTTTTCAAATCAAGACTTTTATAAAAATATAAAAACTATTCAAATTATTCATAATCTTGATGATTATAATAACGTACCATCATCATTATACTCTGAATTAGGTGTAACTTTACCAGAAGATTTTAAAGATGATGAGATTAATTCAATTATGGTAGGGTCTTATTTTGCTGACCTAGTAATAGCTATTGATAATAAAAATAAAAGTATCTCTAAAGAAATAATTAAAAATAAAAAATTTCATAATAAAATTAAAAATAAGTTTCACATCATTGATCTTAATAATGAAGATGAAGAATCATGTGAAATTATATCAGATCAAATTAATGATCTAATTAAAGAAACATTTGAATAATTTTTTTTTAAATAGATTTTATATTATAATTTTTCTGATAACTATTTCCTGTGAAAATAAATCTTTTTTTTCTGAGGATATATTAAATGTTGATGAACTCTCTGTTGTTTCTTCTAATCAAATGAAGTTTTCGACATATCAGATAACTCCATCAATTGGTAATAGTGAAATAATATCGGTAGGTAATAAAGGTTTATTTAAAAATTTAACTACATTTATTGAATTTAAAGATTATCACCAACATGAAATTTTGAATATGAAAATAGATAGTGCATTAATAAAAATTAAATTTTTAAATAATCAAAATCTTGATTATTTAAAACCTGAAGATCTATCTATAGGATTTATTGAAAAACCAATCGAATATAATGAACTCACTACAAATTATGATAATATTTCCTGGTTAAATGATGAATATTATAAAATTAATTCAAATGTTGAAATTGATTCTAACGGATTACGTGATTTGGTTTTTAATTTAGATTCTAATTTTATTTCAATGCTTAGTGACTCAACATTTAAACCATTATTTATCTTGGAGGAATTGTATAATGAAGATGAAATTTTATCTTTCTATTCTTCTAATGATCTCTCAAACAAACCCTTTTTAAATCTTTTTACTTCATCAGATTCTGATACATCGTATGACTCAAGTTTCGTGATTGATGCATTTTCAGATGTAACAATTTTTGAATATCCCAAGTTAAATGAAGAATTTTCAGATTCTAATTTTAATTATTTGAGTATTGCCGCAGGATTGAATACAATAATTAAACCTACGTTTGAAAATTTAGCATTACCTAATACAGCATCAATTATAAAAGCAAATCTTAATATTGAAATTGATACTTTAATAGCTTTAGATAGTTTAACAATAAATTTTCAAGCCTTTTCTCTTGAAGATTCTGTAATCGATTGGAATTGGGGTGAAGTTATGATGTATGATCCATATAATTCAATTTCAAATATATTTTCTCAATCATTAGTATCTTCAATCGAAAATTCTATATTAAGCTTAGATATAACAAATTATATTCAATCAATTATTAGTCAAAGATTAATAAATGGAAATATATTAGTTAATTCTGGTTTAAAAATTGATATAATTAATTCTAATTCTTTATTTGACATTGTGGTTTTTAAGAACAATTCAAATTCAAATGATAATGTTCATTTAGAAATATTTTATGAAAATAATTAAACTTTTATTATTAATTTTATTTTTCAACTTAACTATTCTGGTTTCGCAATCTCCATTAAATAGTCTTGGTCATGGAACAATAATTCATAGCCCTGATGCATCTAGTTTAGGATTGTCATCAACAGGTTTAATTCCCTCAGGAAATAATTCTTTTTCTTTAAATAATCCTACAACTTGGACAGAATTAAATTTTACATATTTATCTGTAAATTTTAATTCTAATTATGTTAATTCACAAAATTATAATTTATTCAAAAGTTTTTTGTCAGGTATTAGTTTTTTAGTTCCTATTAGAAATAAATATGGTTTTGGTTTAGGAATTAGACCATATTCAAGAAAAGATTTTAAAATTTTTTCTACAAAAGAAAATATAAATTTTGATAATGAACTATATACTTTAAGTAGAGCTTATTCAGGTAGTGGTGGAATAAGTTCTTTTTTTAATTCTTTAAGTTTCAAAATTTCTGAAAAACATACAATTGCATCGCAAATTGAGTTTTTATTTGGTACCTATAATGAAGAGAGAACATCTTTCGTTTCCACAAAGGAATTTAATTTTAATCAGATGATTGGTTATAAATCAACAATGGTTTCATTATTTTATAAATTAAAAAATTCTTTTAATAATCGTGATTTCTATTTTTTTTCAGCCTATAATTTTCCAATCGGAAAAAAATATATTACTCAAAAAAATGATTATGAATTTATAGGACAAATTAATTCCGCAGATTCTAGTTTTATTCTACCGTCAAATTTGAGAATTGGTTTTTTATATAATTTAGCATCCTCGATATTTATATCTTCTGAATTTTCCAATATAAAATTTCCATCAAATAAGCCAATGTATTCAAATATATTTGAACATGAAATTAAATCTAGTAATAGATTAAGTCTAAGTGTTCAAAGAATGAAAAAAACTAATTCAAGAGATTTTTTTGAGAGAATACAGTATCGTGTTGGATTTTTTACTATGGGTCATTACATTCGCCTTCCAGAAACGAATATAAACGAAACTGGTTTTTCATTTGGAATTGGTTTGCCATTTGGAATAAGTGATAATCAAATTGATATTGGTTTTCGTTTTTCAAAAAGAAATGGAATAAATCAAAATGATGAGCTTTTAAGTCAGTTTTCAATTGGTATGTTAATTGGGGATCTTTGGTTAATCAAAGGTAAAAGGAGATAATTTTATGGAAAAATTTTTTTTAAAAGTAAAATTTTACAATCAAACTTTTCTATTCTTATGTTATTTGGTATTTTCATGCGCACCTCCAGCATCGACACTTGAAGAAACTAGTCAATCGATAGAGCCAGTCAGTGAAATGCAATGTTTAAGATTATTGAGTAGTGCAGCTGAATATTATAAAAATAAGGATTGGGAGTCAACCTCTCGAGTTTATGGTGATTTAGTTAATTTGAACTGTGATAAAGGAAATGAAGAAGAGGTGTTTCAATATTGGGCAATTGCTTTTGAAAATATGGCGAAATTTGATAGTTCCGAGTATGTTCTGTTGCAAGGTCTTAAAAGGTTGCCTGATAATATTAACTTGAGAAAAAGATTAGCTTTTGCCTATAAAAAGCTGGGTGATAAAGATAAAGAAATTTTCGAGTATGAAAATTTGATTGATCTTGTGCCTGGAGATATAGAATCATTGAATTCTTTAAATGAACTTTATATGGAGGCAGAAAGATATGAAGATCAAATTTTTACATTAAATAGGATTCTTGAGATTGATGAAAATAATAAAAATGCACAAGGTGATTTAGCAATTGCTTATAAAAACACTGGTCGAGATCCAATTGATGTTTACAGAAAAAGATTTCAAGACAATCCAGAAAATATATCTTTTGGAATTGATTTATCAGATCAATTGATTGATGATAATAGAACTGATGAAGCAATTGAGGTGCTTGAAGAATTATATGAATCTGGAAAGTCTACAAGTTCAGTTTCAATTAAACTAGTTCTTCAAAAATTAGCTAATGCTCACTTCTCGATTGATAATTTAAATTTAGCTTCTAATGCTTATGAAAATCTATTTGACATAGATAATAGAGATTTTAAAACTGCTATTGAAATTGTAAAAATCAATATTTCATTATTTAATTTTGAGAAAGCTTTATATTGGTCTGAGTCAGCAATTAAAATAGCGCCAGACAATGGTCAAACTTATGCTAGTAAGGGAGATGTATATTATTCTGCTTTTAATGAGTGCAGATCAAATTTACCTAATGTTAATGACAAAGTAGTAAGTGCTTTAGCTTTAAAATATTTTAAAATAGCTGAGGGCAATGGATATAGAAGAAATATAAGAGATAGAAAATATCTAGAAGATAATGCAGACGATTTAGTCTTTGGTAAAGCAGATTGGTTTATGTTAGATGATAATGTTAAAAGAAAAGGTTCGATAGCTGTTAAAGATGACTGTTATTCATGGATTTCTGAGTCAATTAAAAAAGAATTAGATTGGTAAATAAAATTAATTTTCATGAGTATAAAAGTACCTAAAATAAATTCTATAAAACAAAATGACCCTGATATTTTTTCGTTTGTTGATAATGAATTAAAAAGACAAAATGAACAATTAGAATTAATTGCATCTGAAAATTTTGTTAGTAGAGATATTTTAGAAGTCGTAGGTAGTATTTTAACTAATAAATATGCAGAGGGATACCCTGGAAAAAGATATTATGGTGGTTGTGAGTGGGTTGATAAAGCTGAAAATTTAGCTATTCAAAGAGGTAAGAAATTATTTTCTTGTGAACATATAAATGTTCAACCTCATTCAGGATCACAAGCTAATAGTGCTGTTTTTTTATCTTTTTTAAAACCTGGAGATACAATTTTAGGATTAGATTTAGCTCACGGAGGCCATCTTACTCACGGAAGTAATGTAAATTATTCTGGTAAAATATATAACTCAGTTTTTTATCAAGTTGAAAAAGATACAGGAAGGGTTGATTTTAATAAACTTTTAGACTTAGCAAAGAAAACATTGCCTAAATTAATAATTTGTGGTGGCAGTGCATATCCAAGATTTGTAGAGTTTGAGAAATTTCGAGAAATTGCTGATAAAGTAGGTTCATATTTGATGGCTGATATTGCACATCCATCTGGATTAGTTGCTGCAAAATTACATCCAAGTCCATGGCCACATTGTCACATAGCTACATCAACAACTCACAAAACCTTAAGAGGACCACGAGGGGGTATAATTTTAATTGGAACAGATTGGGAAAATAAGTGGAATATTGTTGCTCCAAAATCTGGAAGAGTAAAAAAAATATCAGAAATTATTGATGCTAACGTAATGCCAGGAATTCAAGGTGGTCCTTTAATGCATGTAATTGCTGCTAAAGCAATTGCATTTAGAGAGGCGTTAAATTCAGATTTTAAATTATATGCTGAAAATATAGTTAAAAATGCAAAACATATGGCCCAAAAATTGATAAATAAAAATTATAAATTAATTACTGATGGAACAGATACACATGTTATTTTAATAGACTTGACTAATAAGAATATATCTGGAAAAAAAGCTGAAATTTGTTTAGAAAAAGCAGGAATTACAGTAAATAAAAATATGGTTCCATATGATAACAAAAGTCCATTTATAACTAGTGGAATAAGAATAGGTACTGCTGCAATGACCACTCGAGGTATGGGTGTTAACGAAATGGAAAAAATTGTAGATTTGATGGATTATATTTTATCTGACCCAGATAATGAAAATAAAATTACTCAGGTTTTTGAAGAGGTAAAAGAAATATGTTCAGATTTCCCACTTTATGTTTAATATTAAAATTTTAAAAATTTCTTTTTTTCTTTTTTTTTCATGTTACTTCACAGGCTGTTCTGTTAAACAAATTGTTATTAATAATTTACTTAACTCATCAACTAATGGTGTGTCATCAATATATTTAACTGAGAACGATCCAGAGTTAGTAAGAGAATCTCTACCAACAAATATTAAACTGATTGAATTATTGATTCAACAATCTCCTAATAGTTCAGGTTTATTAATTTCAGCCAGTCAGGTTTTAACGGTATACTCATATGCGTTTATTCTAAAAGATGCAGAATATGTATTAGATGAAGATTTTAAAAAATCAAGAATTTTGACGCAAAGAGGTAAAAAATTATTATTTAGGGCGAGACAGTATGCAATTGACGCAATTGAAACAAAACACAAAGATTTTTTTTCTAATTTTTCTAAAGATTATGAAAAATATTTGCTTGATCTTGATAAAGATGACCTAGATGAAATTTATTGGCTTGCTGCTTCATGGGCTTTACTAATTTCAATTTCTCAGGATGACCCAAAAATGCTCGCAGAATTACCAAAAATTGGACTTTTAATTGATAGAGGGATACAAATTAATGAAAATTATGAAAATGGTTCCTTTTATGATGTAAAATTTTCGTATGATCTCGCTAGACCTGATATCTCTGATGAAATTGCTATTCAGTCTTATGAAAAAGCAATTGAATTAGCTAATGGTTCTCGAGCTTCATTATATTTATCTTATGCCGAATCAATTTCTCTTAAAAATCAAAATAAAACGGAGTTTTTAAAACTAATCAATCAAGTTTTGACATACGATACTGAAAAATATCCTAATCAAAGATTATCTAATATTCTTGCTCAAGAAAGAGCTCAATGGCTAAAAAGTAGAATAGATTTATTGTTTTTTTAAAAACCTGAATAATTATTAAAGAGAGCATTGCAAACCATTAAAAATTTTATTAAAACTTTAGAAAATTCTCTAGCTATTGTAATATTATTGTTGATGGCTTTTTTACCTACCTTTATGGTTTTTTCTAGATTGATTGGTATTAATGGTATTTCTGCTACAACATTAATTGTTCAAAACTTAACACTTTGGATTGCATTTGTTGGAGCAATTATTGCGACTCGAGAAAATAAATTATTATCTTTACTTAATCCAATTGAAGTTGAAACTAAAATAAATTTTAATTTCAAATTTTTATTTTCGAGAATTATTACTTTATTAGTCACTTTCTTTTTAGCTTTATCAAGTTTTTTGTTAGTGAAAGTAGAATTTGAGTATGGAACTGACAATTTAATTGGAATTCCAATTTGGTTTATACAATCAATAATGCCCATTGGTTTTTTATTTATATTTTTTGAATTGTTGAAACCATTTAATTTTAAACAAAATTTCAAAATTTTATCTTCAATTGGATTTTTTTTAAGCCTTATATACATAACTGTAAATTATTTGAATTTTGATTATAGGAACAATTTTATTTTATGGTTTAATTTAATTTTATTATTAAGCTCTATTATTCTAGGAGCACCAATATTTGTAGGGCTTGGTGGTTTAGCATTACTCTTTTTTTGGTTTGATAGTGTTCCAATTGCTGCTATACCAACAGAAATGTATCGAATTGTTGTGTCACCAACATTACCAACAATTCCATTGTTTACTTTGTCAGGATATTTATTAGCAAATGGCGGAGCTTCAAAAAGATTAATTGAAGTTTTTAAATCTTGGTTTAGTTGGATTCCTGGTGGTACTCCAGTTGTAGTAACTTTAGTTTGTGGTTTTTTTACAGCTTTAACTGGTGGCTCAGGTGTTACAATATTGGCTTTGGGTGGACTGTTGTTACCAATGTTAATTGCAGAAAATTATCCAAAGGATTTTTCATCAGGACTTATCACTGTATCTGGATCACTTGGTTTACTTTTTCCACCAAGCTTAGCAGTAATCATATATGGAGTTACTGCAGGGGTACCTATTAATCAAATTTTTATTGGAGGTATAATTCCAGGTTTATTATTAATAATAATGGTGTCGATTTGGGGCATTAGGCAAGGTTTTATTGCAAAAGTAACTAGACAAAAATTTAATTATAAGGATGCGTTTAAATCTTTATGGGAGGCTAAATGGGAGGTATTTATTCCATTGTTTATTTTAATTGGAATTTTTGGAGGATTTACTACACTCGTTGAAGTTTCTGCATTTACAGTTGTTTATGTTTTATTAATAGAAATGTTTGTTTATAAGGATCTTAATTTAAAGGAACTTCCCAAAGTCATAATTGATTGTGCTACTCTTATAGGGGGCGTTTTGATTATACTAGGTGTTGCAATGGGGTTTACAAGTTATTTGGTTGACGCTCAAATACCAATTCTTGCTTTAGATTGGGTCAGAGAAAATATTCAAAGTAAATATGTATTTCTTTTTGCATTAAATATTTTATTATTATTAGCAGGATGTTTAATGGATATTTTTTCAGCAATTATAGTTTTAGTACCATTAATAAAACCAATGGCAAATTATTTTGAAGTTGATCCAATTCATTTGGCTGTAATATTTATTGCTAATCTTGAATTAGGTTATTTGACTCCTCCTGTTGGGATGAATTTATTTTTGTCTGCATATCGTTTTGAAAAAGATATGTCTGATATTTATAAATCTGTATTACCATTTTTTATAATTCTTCTTTTTACAGTACTAGCAATTACCTATATTCCAGCATTATCATTACTTTTTTTATAATATCTGAAAATTTTGACATATGATTTATATCGACTATATTTGGGGTTCAATTAATTAACTAATTTAGGCAAACAACCTTATGATAAATAAAATCAAAAAATATTTAAAAGTAGTTTTTATAAGTATATTTTTTGTAAGTTCACCTTCTTTATTATTTGCTGGAAGTGAAGCAGGCGCTTTATTTTTACTTATATCTCCAGGTGCAAGAGCCGGTGGTATGGGGGAGGCACAAGTTGGAGTTGCTAATGATGCATATGCAAGTTATTGGAATCCTGCAGGACTTGCTTTTTTAGAAGGCTCTGAAGCAGCTTTAATGCACGTAAACTGGTTACCTGGATTAGTATCTGATATGTATTATGAATTTCTTGCTTTTAGGCATAATGTACCATCCCTTGGAACACTCGGGGGACATATGATTTTTTTAAATCTTGGTGAACAACAAAGAACTGATGAGCAAGGTGAAAATTTAGGAACTTTTAATAGTTTTATGTTTGCTTTAGCTGGTTCATATGGTACTTTTATTTCCAAAGATGCAGCAGTTGGATTAAATATAAAGATTATTCATCAAAAATTGGCTGAAATTGGTGCTGGAGCAGAGGAAGGTAAAGGGGTTACTACGGATTTTGCTTTTGATTTAGCATTTTTACAAAAGAATTTTATCTCAAATAAATTAGATATTGGTGCAACTATTACAAATATTGGACCTAAAGTTGCCTTTATTGATGAAGCTCAAGCAGATCCTATGCCAACTAATTTTTCTTTTGGTTTAAAATATGATTTAGTCAAGTCTGAATACAATAAGCTAAGTTTTGTAATGGATTTTGATAAATTACTTGTTTCATCATATCCAGATATGGATTGGGATAATGATGGTATAGTTGGAAATTATGATAAAAGTGGTAATTTAATTGGTCCTAGTGGTGATTATAATAAAAAAGGAAGAATTGAAAAAGCTCATTCAGACCCAATTTATTTGGGTATTTTTACTTCATGGTTTGATGATTGGTTATTAGGTGGAGATTTAGATCGTCCTGGAAGAAGTGGTGTTCCCGATGGAAAAATTGGTGGATATACTTTAGATTCTGAAAGTGGAAATTTTATTGCTACTAATGTTGAGTGGGGTGAAGCTGGTTATGGTAAATATAATGATGCTGGCGACTTGGAGGTTGGAACTGGGGATCAAAGAACAATATCAAGTGAATTTGATGAATTAGTTTTTAATTTTGGTGCTGAATATTGGTATTCTAGTTATTTTGCATTGAGAGCTGGATATTATTATGATAAAGTAGGCAAAATTCACAATCCCACGTTTGGAGTTGGTTTAAGATTTTCTGGTTATGGTTTTGATGCTGGATTTACTCTTGGAGAACCAGGTCATCCATTAACAAATACCATGAGATTTTCTCTGAACATTGAATTTTAATAATTTAATAAAACACCCTTTTAAAATATATTTACTATGAATCGGTTTTTTGTTTTACTGTTTGTTTTTTTAAATATAACAAACGCTCAATTAATACATGAGAAATCATCTGTATCTATTTTAGGGATAAGAGTTAGCTTTCTGGAGGATAATGATGTTTTTTCCACTGGAAATGGTAATTTTTTATATGATATAGAAGACAATAAATGTGGTGATTATACGATTGATCCTCCACCACACAATCGTGATTATTTTAAGTCACAATTAAATGCATTAAATAATTATTTTTATTCAATCTCAAAAAATCAATTTGAAATTGATTTATTGAATTCTGAAATATATCCATTAGAAAATAATAAAAGTTACCAGCTTGATTCTACTATAGCTAGTTATTATCCTTATGATGATACTATAAATCAAGATTTAGGAGTTGCAAAACTTTTTCAAGAAAGTATAATAAAAGCTTTTGAACAAGATAGTATAAATTTTGATAATTATGATCTTATTGTAATTTTTCATGCTGGAATTGGACAAGATTTTTCATTACCATTTATTGACCCAACACCGTCTGATATTCCATCTTCTTATATTGATTCTGATTTTTTATATAATCAGCTTGGCATCAACCAAATAAAGTTAAATAATGATTTATCTATATTTTCAGGAATTATTTTACCTGAATCTCAAAATCATCTATTATATGATATTTCTGAAGAAATTTTTTTTGGTGTTGACAAGCCTTGTGATTATCAATTTGGTTTAACAGGTACATTTGCATTTATGGTAGGATTAGCGATAGGATTACCATCATTATATGATTTTGAAAATGAAAAATCTTCTATTGGTGTTTTTGGACTTATGGATCAAGGTTCAAATAATGGAAGAGGTTTGATTCCTGCACCTCCCAATCCATTTACAAGGATATGGGCTGGTTGGGAAAATCCTAAAGAAATAAATCCATCTAATTTTCATCAAATTATTTCAAGAGATTCAGCATCAAGTGAAATTTTAAAAATTAATATTTCAAAAAATGAATATTTTTTAATTGAAAATAGAAATAATTGGATAAAAAAAAATGTTGATATTGACTCCTTAGTACTAAAAGAATTTTCTGAACAAAATTCTAGAACATATTTTGAAATAATTTTTGATTCTTCAGGAATTATTAGAGATAATTTTACAAAAGTAGTAACTAAAGTACCTAATTATGATTACGGATTGCCTGGTTCAGGAATTTTGATATGGCATATTGATGAAAAAATAATTTTTAAAGATGAATTTAATTTTAATTCAATAAATAATAATATTTTTAAAAAGGGAATTGATTTAGAGGAAGCAGATGGAGCACAAGATATTGGATTTGAGTCACAATTTCTTTTTGCTGATCCTTCATTGGGGCTTTGGTCAGATTTTTGGTATCAAAATAACAGTCAATTTTTTATTGCAAATCAAGTATTGCAAATCGATTCTGTTCTTTTTAATTCTGAGAGCTTTCCTAATTCGAATTCAAATTTAGGAGCAGATTCTCATATCTCCTTAACGAATTTTTCAAAACCAGATAGAACTATGTCGTTTGAATTCAAAAATCAATATTTAATTGATGAATTTCAAAATTACGATCATAAATTAATTTTTTCTTATGATTTTGATAATGATTATATAGAAGAAATTATTGGAGTTAAAGATTCAATCTGGTGGACATCAGCAGAAAAATTTTTACCTAAAAATTTTTTTGAAATTGATAATAATTCTAAATATTTAACTACATTAACAAACATTAATAATGACCCTGAATTTGGAATTGTTTTTTTAAACAAAAATCAATTAAATATTGTTGTCATGGAATATAATGGTTTTTTTAAACTGAAGTGGTCTAACAAAATTGATTTATCTTATTTACCAGAACGAATTTCTGGAAAAAATGATTCATCTATTATTCAATTACATTATAAAGATAAAATAATTGATGTTTCAATTGATTTAATTAATCAAATAGTTTTAGATGAAACTACATATGATGAGTTTCAAACAATTAATTGGATTGACTCAAAAAATAATAGTTTTGGTACTGTGAATTTGCTTCGAGATGGTGGAATTAAAAGTGAGGTTAACGAAAATATTTTTTTAAATTTTGAAGATATAAAATTTAATTCATTATCTGTTATTGATTTAAATTTAGATGGGAATATCAATTTTTTATCCTTATCAGAAGATGGTAGCTTATATGTTTTAAATAAAAATCTAACTCTTCAAAATGAATTCCCCATAAAAGGTAATTTTACTGGTAATATTTTTTCATTAAACTTAATTAATGATAAATTTCCTGAAATAATTGTTAAAGATATTTTTGGAAAAATAAATATTTTAGATATCAATGGTAAAGTAGAATTAACTTTTCCTAGTGATAGCTCAAATTCAATTATCATGATTGGAAAATTTATGGGAAAAAATTCTATTATTACTGATTCTGAAATTTTTAGTTTTAATCAATTTGATAATGATCAAAATAAATGGAACATGGTACATGGTAATTATATTAATGAAAGAATTTTTGAAATTTTAAATCAAAATTTTATAACAGATAATTTTGAAAATTTTAATAAGAATCAATCATTTGTTTATCCTAATCCAGTACTGAATGGTATTACAAGATTTCGTTTAGCAATTCAAAAAGCTGATCAAATTTCAATTAATATTTTTGATATTTCAGGATTACTCATTGAAAAAATAGATATCAATCAAATATCTGAAAATCAAATAACTGAATTTAATTGGAATGTTTCTGCAATAGAAAGTGGAGTTTATTTTGCTAACGTTCAGGTTATTCTTGATGGGAAAATAAACAACAAAATAATACCCATTTCAATAATAAATTAATTAATTAACAATTTTATTTAACATGAAAATTTTTTTTTTAATATTTTTTTTAATTTTTACTTTTGCATCTTCGCAAACAAAATATAACCATAATGAGTTACAATGGAATACATTTGAAACTTTAAATTTTAGAATTCATTACCATGATGGATTAGATAGAACTGCTTTGGAGGGTTCTAGAATAGCAGAAAGCATTTATCAAACTATAACATCTTTATATAAATATTTTCCAGACAAAAAGACAGAAATTGTTTTTATTGATACTGATGATTACTCAAATGGAATTGCTTATTTTTATGAAAATAAAATTGAAATTTGGGCATCCCCGTTAGATTTTAATTTGAGAGGTAGCCATAACTGGTTAAATAACGTGATAACTCATGAATTTACCCATATTATTTCAATGGGTGCTTCTATGAAATATAAATCAACATTCCCAAGTGCATATTTTCAAATGATTTCTTATGAAAATGAAAAAAGAGAGGATGTTCTCTATGGATTCCCAAATATAATTATGTCATATCCATTGCCAGGAATAGCAGTCCCTCCTTGGTATGCAGAGGGAATAGCTCAATATATGTTTAAAAACTCAAAATTTGACACATGGGATTCACATAGGGATATGGTGTTAAGAGACTTGGTAAAAAATGATAGATTATTATCTATTAATCAAATGAATACATTTGGAAAAACTGGAATTGGAAATGAATTAATTTATAATACTGGATATGCTTTCACGCATTATTTAGTTTATAAATTTGGTGAAGAAATTTTATTTTCAATTTCAAAAAATTTATCTCAAAAAAATAATTATTCAATTAAAAAAGCTATTGAAACTTCGACAAATATGAATATGGATTCAATTTATTTAGATTATAAAAATAATTTACTTAGTAGATATTCAACTGTGAATAACACCATTAATGAAAAAAAAATAAATGGTAAAATTTTACAAAAAAATAGTAGTGGAAATTTTTATCCCAAATGGCACCCTTTTGAAAGAAAGTTCGCTTATTTGTCAAATGATGGGAATGATTTTTTAAATCAAACAAATTTAATTGTATATTCATTTGAGGATAGTTCTAATACAACAATTTCAAAGAATGTTTACTCTCGTCCATCATGGAGTTCTGAAGGTGATAAGATTTTTTTCTCAAAGAAATCTAAATCTGATAAATATGGTTCAAGATGGTTTGATATTTATTTTTATGATTTTGTTGAAAAAAAAGAAAATCAACTTACAAAATCAGCTAGAGCTTTTTCTCCTTTAGTCTTAGATGGAGATTCTTTATTAGCATATATTTCAACTAATGATGGAACTCAAAATATATTTTTAATTAATCTTAAAAATAAACAATCCTCTCAGTTGACTAATTTTAGTGATGGTAAACAAATCACAACTTTATCCTATAATTCAAAAAATAATTTAATTATGTTTGATTATACAAATAACCATTTTAGAAATATTGCTGCACTAAGTTTAATTGATACTAGTTTTGGTGATATTTTTTCTTTTGATTTATGGGATGATAGAGATATTAGTTCAAATGAAATGGGTGATTTAATTTATTCTACTGATCGTTCTGGTATTTTTAACCTTTATTATTCGAATGATGATGCATCCAATCAAGGATATATAAGTAACGTAAATGGTGGTGCATTTATGCCAGATATTAATTTAAATGGCGAAATTCTTTTTTCATTATATGAAAATCAAGAATTTAGAATAGCGTATTTAGACTCAATTAGATTATTAACTGAAACTGATGTAGGCTACAGTCCAAATAATTTCTTAAAAAATGAAAATTTATATGATAATTCTTCAACAGAAAAAGAACATTTTACTAAACCAATAAAAACAAAATACCAAGATTCATTTACAAAAATGTTTATATCGCCAAGATTATTAATCGATTATGGAATGTTCATGCCAGGTTTTTATTTTCAATCAAGTGAAGTTTTAAATAGATTAAATATTTCTGGTAGTTTTGGAATAAATAGATTTTCAGATTTAGATTTGTCTTTATTTTTTGAATTAAATACATTGTTTCCTACACTTTACTCAGAGGTTTTTTTTATGACTCGTCATTTAAATAACAAGTCAAAATTATGGGATGTTATAGATATTGATCAAAATATTAAATATAGATTGTTTAGAATTGAAAATGGAATAAAAATACCAATTGGTTCATTAACTAATTGGAATTTATATATTTCATATGAAAATTATAGAACTAATCAATTATGGTGGATACCTGGAGAAAAGTTATTTGGAAAACAAGGAATAGATTATTTTTCTGGTTTTCACTTAGGAACAAATTTCAAAATTAAAAGTTTTACTCCATCTTATAATTATAATATTAACCCAAATAATGGTTTTGATATAAATTTTGATTCAAAATACGAAAGAAATAATTTTTTTAGTCCCGAAGAATCTTTGACAAATACTGTTTTTAAAAAATATAATTTTTTTAGAACTAAATTATCAAGTTCTCTATTTTTAAAAATACCTTATATGAAAAATTGGACACTTTCAAATCAAATACAATTAGGATATATTTCAAGTGATAATATTGATTCTTTTTTCAATTTTTTTGCTGGTGGAAGGCCTGGTATAAAAGGTTACCCTTATTATTCAATTGAGGGAAATAAAATGGCTATATTAACATCATCATTGAGATTGCCTTTAGCACTAAATTATCACTTCAACATTGCATCTTTTACACTTCAAAATATATTTTTAGGTTTTATGTATCAATTAGGTGATGCTTGGACAATTAAAAATGACTTTCAAACTAAGGGTTCTTATGGTGTTGAATTAAGAGTTGGAGGTTTTTCTTATTATAATTTTCCAACTGCTATAAGTTTTGAGCTTCACAAAGGTTTAAATTCATTTAAAATTAATGAATATGTTTATGGAAATGATTTAAGATTTTATCTTTCTTTGTTATTTGGATTTTGATTATGAAAATACTTTATATATTTTTAATTATATTAATTTTTTTTAATCAATTGAAAACTGAATCTAATTTAATTAAATACAATTCATCTTATCATGGTGAATTGATTGGTAGTTTTAAAATGAATGATTCTTTTCAAACAGCTAAAGAAAATAAAATTAATAATCAAATTTTATCATTAATTTTTCCAGGATATGCACATTGGAAGTTAAATAAAAAGAAAAAAGCGATATTTTTTTCATCTATGGAATTATTATTTATATCTTCTTGGCTTCATTATGATAAAAAAGCAAATAGATTAGAAAATAATTTTAAAAGGTTTGCCGATGATAATTGGAATCTTGAAAGATGGTGGATAAATACGCCTATGCTAACTTCACAATATGGTGATGTGGTATGTGAAGGGACTCATCATTTAAATATTTTTCTCTCTGGACAACAATCAACCATTAGTTCAGATGATTTATGTTCAAATGAGTGGATTGAAGGATTAGAGCTTGTTAAAGATCATGACTTCTATGAAAATATTGGTAAATATGATCAATTTGTAGCTGGCTGGTCTGATTTATTTAATTTAGATGGTTCTCAAAATTGGTGGGAAAAAAACAAATTAGTTGGAAATTCTACCGAAATAATAATTATGACAGAAAAAAAAAGCAAATATGTAAATCAAAGAAAGGAATCAAATTCTGCTTATAGTATTGCATCATATATGATAACGGGTTTAATGTTTAATCATTTTATTAGTTCAATAGATATTTTTTTAATTAAAAAAAATAATGAAAGAAATATAAGTTCTAATATTAAAATTAATTCATTGATTTATAATAATTACAAAGGTTTAGTTATAAACTATAGGTGGTAAGTTTGAAATATATCTATTTTATTTTTTTAATTTTTTTTGGATGTGCAACTAACCAAATTGATTTATCTATTGATGACATCCAGGAAAGGTTTAACAAAGGAATGAATCTTATAAATAAAAAAAAATATTATAGAGCTCAACAACATTTTGAATATGTTCTTTTAAGAGGGAAACATACAGAAATTGGCGATGATGCTCAGTTTTATTTAGCTGAGTCTTACTTTTTAAATAAAGAATATGAGACAGCAATAGTTGAGTATGATAAACTAATTAGACAAATGTCTTTTAGCCCAAATGTTAATACAGCAAGATATAGAATTTGTGAGTCATATGAAAAGACTTCACCAAAATTTTATTTTCAACAAGATGCAACAAATAGAGCAATTCAAAAATATCAGGAGTTTATTGAAGATTATCCAAATTCAAAGCATACTTCTGAAGCATCAAGTAAAATTAAAAATCTAAGAAATAAATTATCTTTAAAAATATATGAAACTGCAGTTCTTTATGTGAAACTTGAAGAGTATGAGGCATCCTTAAATTATTTAAATGATTTATTAGATATTTATTTTGATACTTCATCAGCAGATAATGCTAGATTATTAATGATTGAAACTATGATAACTATGGGAAAGGAAGAAGAAGCAAGTATTTTTTTTAAAGATAATAAAGAAAATTTTTTGAATCGCTCTATTTATGATAAAGCTGAATTAATTATATCTAGAATTGAATTAAATAAAAGTACTTAGTCTTGAAAACATGTTTTTTTGGAGGAACTTTCGATCCTCCACATATTGGTCACTTAATTATAGCTGAATCTATTATGGAATGGGGAGATTTTGATAAAGTAATATTTATTCCATCATATAAACCTCCTCATAAATTAGAAAATATATCCTCGGTTTATCATAGGATAAACATGTTAAAAATTATTATTAAAAATAAAAGTTTTTTTGAATTTTCTTTGATAGATATTGAAAGAAAAGGTATAACTTACACTATTGATACAATTTTAGAATTAAAAAAAAAATATGTTGATGAAAAGAAAATTTTTTTTCTTGTAGGAAGCGATTCGATTTTAGATTTTCATAAATGGAAGGATTATAAATCAATTTTAAATAGTTGTCAAATAGTTGTAGCACCAAGGCCAAAATTTAAAATCGATAAAATTTCAAAAGATATTGCAACAAAAATAATGGTTGCTGATATTCCTATGTTAGATATTTCTTCTTCTGAAATTAATGAAAGATTAAAAAAAAAATTATCAATAACTAATTTTGTTACCAAAGAAATTGAAGATTATATTTTTTCAAATTTGTTATAATGGAATCATTTATCATTTTTATTAGCTTGCTTTCTGGAATGACCCTTCTATATTTAGGGGGTGATTTTATTGTTTCCGGATCTACAAGACTAGCTAAAAAATTAGGAATATCGAAACTTGTTATTGGTCTTACAATTGTTGCATTTGGAACTTCTTTACCTGAATTAGTTGTTACATTAGTTGCAACGTTTTCTGGAAGTGATGAAATTGCAATTGGTAATATTATTGGCTCAAACATAGCTAATATTGGCTTAATCATAGGATTGACTTGCACAATATTTAATATTTCAATTTCAAGTAAAGCTTTTAAAAATGATTTAAATATCATGATTTTTGTATCATTTATTTTTTTACTATTTTTATATGATTCATTTCTTTCAAGGATTGAAGGAATAATACTTTTCTTAGGAATAATTTTTTATTTAATATACAAATTTTTTATTATGAATGATGAGAAGAGCTCAAACGATGAATCATTTTCATTTTTAAAAAATTTCATTTTGATATCATTCGGAATTGTTGCTTTATATTTTGGTTCAAATCTTTTTGTTGACGGATCAATTAGTTTAGCTAGAAATTTTGGAATTTCAGAATCAATAATAGGAATAACAATCGTTTCATATGGCACCTCATTACCAGAATTGGCAACTTCATTAATTGCAGGTTTTAAGAAAGAGGGAGATATTTCAATTGGTAATATTATTGGCTCAAATTTATTTAATTTAATGGGAGTATTAGGTTTAGTAACAATTATATCGCCAATAGTAATAATTTTAGATGAAATATTATATGAATTAGTTGTTATGTTTTTATTCTCTTTTTCACTTTATTTAATTTTATTTATGAAAAATAAAATTTCTAAAAATTATTCTATTTTTATTTTAATTTCTTACATTATTTTTATAATCTCATTATTTTTAGTATGATTCATTTTAAAAAAGTTCTTTTTGAATTCAATAATGGTAACGGTATTAAAAATACAACCTTCAATATTGAATCTGGTGAATATGTTTGTATAATTGGTCCAACAGGAGCTGGTAAAACAACTTTATTAAAGCTGATATATATGGATATTTTTCCACAAAAAGGTGAAATAATTGTAGATCAATACAATTCAAAAAAAATAAAAAATAAAGATATAGCTCATCTAAGAAGAAAAGTTGGAATGGTTTTTCAAAACTCTCAATTGTTAAGTGATAGAAGCGTATTTGAAAATATAGCAATTCCTTTACATATTCAAGGAGTCGGATTAAAATATATAAAAAGTGAAGTAAATGAGGTTTTGTTAAAATTGGGTATTGAAGATAAAAAAAATCATTTTCCAAATCAATTGTCTGGAGGTGAGAAGCAAATAATTTCTTTAGCTAGAGAATTAGTAAAAAACCCAATTGTAATTTTAGCAGATGAGCCAACTGGTAATTTAGACCCTGCTTCATCTTTGAAAGTTCTGAGGATGTTGGAAGAAATAAATAGTGAGGGAACAGCTGTTTTAATGGCTACTCATAATTTTACTTTGGTTGAGGATAGGGGTTATCAGTTTATGCAAATAAAAGATGGTGAAGTTACATTATGATTGACCGTGTTTTATATTTGTTTTCAGAAGGAATTAGAGGTGTTTTAAGAACTAAAATCACTGCTATTGCTACTATTATTACTATTGGAATAACCTCTAGTTTTGTGATGATTACAGCACAGTTTGGTGAGAATATTTCTAAATTTGTTGAAATCGTTAGAGGTCAATATGAGTTGCAAATTTTTTTTAAAGAAAATGTTGATGAAATTAAAGCTTTAGAAATTATAAATGAGTTAAATGCATTTGAAGAAATAAATTCCACTAAATTAATTACAAAAGATCAAGCTGCAAAAATATTTGAAGATGAATTTGGAGAAAATATTTTTGATGTTCTAGATTATAATCCATTGCCATATGGTTCTGTAGTGGAAATTTCACCTCATAATGATAACTCTTTTAATGTAAGTTTATTATCAGGAAAAATTTTAAATATTGATGGAGTTGATGAGGTTAGATATCAAGGAAGATTGATTTCACTTGTAGAAAGATATTATAGATTTTTTTATATTTTTCTTACATTAATTTCATGTTTAATTCTATTTGCTACTATAATTTTAATTTCAAACACAATTAGATTAACAATTTTTGCAAGAAAAGATTTAATAAAAGTTTTGAAATTATCCGGAGCAACAAATAATTTTATTAAGCTTCCATTTTTGCTTGAAGGAATATTTGAAGGTATTTTAGGTTCAATTATAGCAAGTCTAATATCTTTTTTAAGTTTTGAAACAATTAATTATTTTTTATCAATTTTTTCAAACTACACTTTTTCTTGGAGTTTTAACTTAAATTTAATTTTGGTTTTTACTATTATATTTTTTTCATGGATTGGCAGCGTTAGAGCTGTTAAAAAGTTTATATAATTTAACTTGACCATTTGTTAATAGAGATGATTTAAGTTAATTTCGGAATCAACAAAAAGTATTAAAAAGATAATTTTAAAAAAGTTTAAAAAAATGATTAGTAAAAAAAATAGATTAAAGAATTCAAAATCAATTAAAAAAACAGTTAGAAAAAATTCTCCAATAAAAAAAAATATTTTAGATAAACAATCTAAATCAAAAGAAAATGAATTATTGATTCAAAATGCAAATCAATTAGAAGAAAAATATTTAAGATTAAGAGCAGAATATGAAAATTTTAGAAAAAGAAATGAAAAAGAAATTTCAAGAATATTGAAGTATGAAGGTGAAGAAATTTTAAAATCTTTTTTATCTATTTTAGATGATTTAGATCGAGTTATTGATTCATCAAATAATCAAAAAAATAAGTTCATTGCAGATTTTATTGATGGTGTAAAGTTAATAAAAGAGAAATTAAAAAATAAATTAGATGCATTTAAAGTTAACACATTTGATTCTAAAGGTGCAAAATTTGATCCTGAATTACACGATGCTATGATGACAAAAGAATCCAAAGATTATGATGATGGAGTAATTATTGAAGAATTTGAAAAAGGTTATAAATATAAAGATAAAGTTATCAGACATTCAAAAGTAATAGTAAACTCTATTGAGTTAAAGGAAAATAAATCTTGAAAAGAGATTATTATGAAATTTTAGGTGTTGAAAAAAATGCTTCTGAAAACGATATAAAAAAAGCATACCGAAAAATGGCTATGAAGTATCATCCTGACAAAAACCCTGGGAATAAAGATGCAGAGTCTAAATTTAAAGAAGCTGCTCAAGCATATTCTGTGTTATCTGATAGTCAAAAGAAAAATCAATATGATCAATTTGGACATGCTTTTGATGGTTCAGGAAATGATTTTCAAGGAGGTTTTAGTGGGGCAGATTTTGATTTATCAGATGCTCTTAGAACATTTATGGATGGATTTGGAGGCGGTGGTTTTGAGGATTTTTTTTCTGGAACTCAAAGAAATACTACACAATCTAGAGGGTCTGATTTAAAAGTAACATTAAATCTTTCTTTAGAGGAAATTTCTGAAGGCATAGAAAAAAAAATTAAATTAAAACGTTTTGAACCATGTGCTGATTGTGATAGTACTGGATGTAGGAAGGGATCGCTTCCTGTGAGATGTCAAACTTGTAATGGGTCAGGACAAGTAAGAAAAATATCAAGATCGATGTTTGGTCAATTTGTTAATGTTGGTATATGTTCTAATTGTGGTGGGAAAGGAGAGATAGTATCAGATCCTTGTAGAAGTTGTTCTGGAGATGGAGTAAACAAGAAGAGTGTTGATGTAAAAATTAAGGTTCCAGCTGGAGTAGCATCTGGAAATTATATGACTCTTAAAAGTCAAGGAAATGCTACTTCAATGAAAAACCCTAGAGGTGATCTCATTGTTTTTTTCGAAGAAATTGAACACAAATATTTTACCAGAAATGATGATGATATCATTGTTGAAATTCAATTATCATTAACTCAAGCAATTTTAGGTGATAAGATTGAAATTCCAACTTTATCAGGTTTTGCACAATTAAAAATACCATCTGGAATTCAATCAGGACAAGTTTTGAGAATGCGAGGAAAAGGTTTGCAAAATCTTCGAGGTTCAAGTAGGGGAGATATGTTAGTTAAAGTTCAATTAATTACTCCTAATAAAATCAGTAATGAAGAAAAAATTTTATATGAAAAATTAAAATTTAATGAAAAAAATAAAAAAATTATTTTGAATAAAATTAAATTGTAATATTTATTTAAATTTTTCGTTTTTTATAATTAATTTAATTACTTAAGGATTTCAATAATGTCTAAAGAAACTGTTAAAAAATATAAGTGGTGGGTCGTAAGAGATTTATTAGAAGTAGCTATAGTATTGTCTCTAGTAGGAGTTTTATCTGTAATTTATATTCCTAGACAAATTTGGGATGAGGAAGAGTTGATTAAATCTCAAAGTCAATTTAATATTGAACATTCATATGATATTTTATCCTATTACAATCGAATAACTGGTGAAAGAACAATAAATGGTGATTGGGCAATTAGATTAGTTAATGCTGCTCGAGATTCAATTACAGCCGATAGTAATTTTATTGGAAATCAAGAAATAATTTTAGATGGTAAAATTACAAAAGTTGATTTATTTGAAAATTTTTCTACAGTATATGATACTTCTTTTGGATTTTTAAAAACAAGAAAAGATACTATACAAGATACAATTATGACGGTTATACTATTTAACCAAGAAGAATTAGTTAATGATACTTCATATGTAAGAAAAGATATGCTTAATCCATATTTAATTGATTCAACATTTGTTGGAATTTCAGATACTTCATATTCAAGTCATGTTGAAGTAATTAGTTATTATGATAATTTTACACCAAAAAATGATTTATTGATTTGTCCACTTACATCTGATCGATATTTAATTACCCTTACTGAAGAGGACTATAAAATTGAGAGTCCGATTATTGGAAATTATAAAGAACGTAGATATTTAATATTTTCATTTAATTCAAAGTCACATGGTAAAATTGAGGATGGTGACAAAAGCTGGGCTAGATTTTGAACATTAAATGTTAGCAGTTTCTTTTAGTAATGGTTGGATAAGATGCGTTAAATCCAAGAAAGAAAATAATGCTTTCAAAATTACTGATTTAAAATCTCAAAAAATCCCTGATGAAATAAATAATCATTCTTTATTTTCAAATGAATACAAGAATTTTTTTTTAACAACGTTTAATAATTTATTTTCTTCAATTAAATATAATGAAAATGAAAATATATCCATTTGCATGGATAGTAATTGGATAGAAACAAAAATTTTACCACTTGACATTCAATTAAATAATGAAGTTAAAAAAAAATATTTATATTGGTATTTAAATCAAAGACATGGTGATTTAATTAAAAATTCAAGAGTGTTCTTTAAAAACTTGAATTTTATTGATGAAAAAAAATCTCTGGTTTTATGTTCAATAATACCAAATACAATTCTTGATTTATTAAAAATATCAACTTCTAAAAATTTTTTAAGACCAATTTTTTTAGAACCTTCTATTATATCAATTGAAAGAATAATTTCAAATAATACTACAATTGTTTTTGAAAATTTTAAATTAACAAAAATACAATTATATGATAAAGGGTCTATTGTTGGAGAGGGTCAATGTAAGATTAAATCTAATTCAATTGAATTAGATTTTTTTTCTGGTAACGTTGATAAAGTAAAGTTTATTATAAAAACAATTAATGAAAATATTTCTGATAAAAAAATTGATGTATTATGCTCAAATGATTTTTCAAAAGAATCATCACAATTTTTTAACTTAAGAAAAAATTTTTTATCCAAAATAAATCCTTTTATTTCTAATAAATCAAAGATCGAATTTGAATTAAATAATAAGAAAGAAGATTTATCTGTTTTTTCAGAATTATTTGGATTAATGTTTAGATGAAGTGATGAATGATTTAAATTTATTAGGGAAAGAAGGTTTTCAAGAGAAGAGATCTAATTCTTCTCTAAATAAAAATATTAATAAGGAAATTTTATCTTCAAATACTATCACTTCAGATAATGAATATTCAAAAAAAAATAAAATTAGAAACTTTTTCTTTATTTTAATAATCGTAATATTTTTAATGTTTTTAATAAACTATCTATATCATTTTTTTTTAATAGATGTTAAAATTCTTGAAAATAATACAATCATAAATGAAAAATACTAATTTTTCAATCATGTCTGGGAAATATAAAGGATTAAAAATTTCTGGTAAATTATCAAAATCTGTTAGACCAACTTCTTCATTAGTTAGAAAATCAATGTTTGATACTTTAAGAAATATAGAAAACCTTCATGTTCTAGATTTATTTGCTGGTTCAGGAATTTTAGGTTTTGAGGCTTTAAGCAGAGGAGCAGCTTCAATAACATTTGTTGAAAAAGAGTTAAGTCAAATAAAATTTATAAAAAATAATAGCTTAAAATTTAAAAATGAGGAAATTAATATTTTTAAAAATGATGTTTTTAAATTTTTAAAAAGTAATAATTTAATGTATAATTTAATTTTTGCAGATCCTCCTTATTATAAAATCAACCTAAATGATTTTTATAAAATTGTTCAAAATTATATTGTTGATGGAGGAACTTTAATTCTTGAATGTTCTGTTAAAGAAAAGTTTTTAAACAATGTTGTAAAAGAAAAAAAATTTGGTAATACTAAAATTATATTTTTGAAAAATGAATAAATCTGAAAAAATTGCTATATATCCTGGCTCATTTGACCCAATTACTTTAGGTCATATTGATGTAATAAAAAGAGCAAGAAAACTTTTTGACCGATTAATAATTACAGTTGGAAATCATAAAACTAAAAATCCTTTATTTAAAACAAACGAAAGAATTGATATGATTAAAAAATCAACTCAGTCTTTTGAAAATATTGAAGTGTTATCCTCAAAAAAATTAATTATTGAATTAGCTCATGAAAAAAAAGCAATTGCATTAATTAGAGGAATAAGGTTTATGAGCGATATGGAATTTGAATTTCAATTAGCATGGATGAATAGACATCTTAATTCTGAAATAATAACTGTTTTTTTAATGACTGATGCGAAATATACTCACCTCAATTCATCTATAATTAAAGAAGTAAGTGAGTTAGGTGGAAATATTGATGATTTTGTTACTTCAGAAGTTTCAAAAAAACTTAAAAAAAAATTAAAATTACAATAATTCATTTTATAAATATCTTCTATTAGAATTCTTAAAAACTTAAATTACTCTTCAGTAATATGCCAACATACGATTATAAATGTAACAGTTGCCAGCATCGTTTTGAAATTTTACAATCAATGAATGATGAAGTTTTAAAATTATGTCCAAAATGCAAAAAAAATGATCTTGAAAGATTAATTGGTGCTGGTTCTGGATTAATCTTTAAAGGTTCAGGATTTTATATTACAGATTACGTTAAGAAAAAAAATAATTCAGATACTAATAAAAATGAAAATAAACCTAAAAATAAAAAAGAGAAAGTAGTTAATAAAAATAATGAATGATTTTGGCGAAAAAATAACTTTTGAAAATGAAAAAATTAATGTCCCAGAAAATCCAATTATTCCTTTTATTGAGGGAGATGGAATTGGTCCAGATATTTGGAAAGCTTCAGTAAAAGTTTTTGACTCTGCAGTTTCAAAAGTTTTTCAAAATAGAAAAAAAATTTTCTGGAAAGAGTTAATGGTGGGAGAGAAGTCATTTAAAGAAACTGGAGAGTGGTTACCTCAAGATAGTATTGATTCAATTCAAGAATATAAAGTTGCAATTAAAGGACCATTGACTACTCCTGTAGGTGGTGGAATAAGAAGTTTAAATGTTACACTTAGACAAGTTTTAGATTTATATGCTTGTGTTAGACCAATAAAGTGGATTAAGGGAGTACCTTCTCCTGTAAAAAACCCTGAAAATGTAGATCTTGTTGTCTTTAGAGAAAATACTGAAGATGTTTATGCAGGAATTGAGTGGGAAAGCTCAAGTGAGGAGAGTAAAAGAATAATAGAATTTTTTAAATCTAATTTTAAAAAAAATATTAGAAAAAATTCTGGTATTGGAATAAAACCAATTAGCGCTTTTGGTACTAAAAGAATTGTTAGAAAATCTATTGATTATGCATTAAGTAATTCAAAAGAATCAGTTACATTGATGCATAAAGGTAATATAATGAAATTTACTGAGGGTGCATTTAAGGATTGGGGCTATGAAATAGCAAAAGATGAATTTCCTGAAAAAACAATAACTGAAGATAATTTATGGAATAATTTTAATGGAGTTATACCAAAAGACAAATTAATAATAAAAGATAGAATCGCTGATAGTATGTTTCAACAAATTTTATTAAGGCCAAATGAATATGATGTTATAACAACTCCAAATTTGAATGGTGATTATATTTCAGATGCAGCTGCCGCACAAGTTGGAGGTTTGGGTATGGCTCCTGGTGCAAATATGGGGGATGAGATTGCACTATTTGAGGCAACACATGGTACTGCTCCAAAATATGCTAACTTAAATAAAATTAATCCAAGTTCGGTGATTTTGTCTGGGGTAATGATGTTTGAATATTTAGGATGGAATGAAGTTTCTAAAATTATTGTAGATGCAATGGAAAAAACGATTACACAGAAAAAAGTTACATATGATTTAGCAAGACAAATGGATGGTTCTATTAAGTTGTCTACTTCAGATTATGCAGAAACTATAATTTCAAATTTATAAATTGCAAATTAAAGGTTTTTGAGAAACTTATTTGCTTCGCTTATATATTTTTCTTTTGTGATGTTATCTTTTTTATCATAGAGTGTTACCATCATTTTCATTCTGGGGTTTTTATTAAAAAAATCTCTCTTATCATTAATAAAATTCCAATAGAGTGAATCCCAAATTATTGACCATTTGTCGCGTTTAAAATTACTCATCTTTAATATGTAATTTGAACCACTGATATATGGTTTAGTAGAAAAAATACCACCATCGGAAAATTGACTCATTCCAAAAACATTAGGAACCATGACCCATTCATATGCATCAATATACATTTCCATAAACCATTTATATACATGGTAAGGTGAAAATCTACATAAGACCATAAAATTTCCAATTATCATAAGTCTTTCAATATGATGAGAGTATCCGTTTTTTAATGCATTTTTAATACAGTGATCCAAAGGAAGAATACCAGTGGTTCCATCATAAAATGATTTTGGAATAGGTTTGTTAAAGCTCCAAAAGTTAGATTTTTTTTCTTTCTCACCATGAAAGAAATAAACCATTCTTATAAATTCTCTCCAACCAATTATTTGTCTTAAAAAACCCTCTGATGAATTAATTGGTATTTTATTATGTTTTAAAAAATATAGTGTTTTTTCAACAACTTTGTGAGGGGTAATTAATCCTAAATTTAGATATGGAGTTAGTATTGAATGAAATAAAAAATTATTATTTGATGAAATAGCATCTTCATAATCTCCAAATAAATGAAATCTTTTGTCTAAAAAATCATCAAAAAATTTTTCCGCTTGTTCAAATGATGTTGGGTAGTTAAATGAATTAACTTCACCTAAGTTTTTAGTGTAAGTGTCTTTAATTTTTTTTGCAAAAGGATGTATTTGATCTTTAAAATTTATTTTTTTTATTTTCGGAATTACAAAGTTTTTTGGAATTGGTTTTCTGTTTGATTTATCAAAGCTCCATTTTCCTCCAATAGGTTTGTTATTTTCTAGCAAGACATTAAATTTTTTTCTTTGGTAGATATAAAAAGATGACATCCTCAAGTTTTTATTTTTTATAAAATAGTCATTTAATTCACTTTCATTTAGTAGAAACTTGGGTGAATCATACCAGAAAATATTAAATCTGAGTTTACTCGCTAAATCAGTTATTTTTTTTTCTAAAATTTTATTATCAACTTTACAGAGATGAAGTGATTTGATGTTATTTTCAATAATAAATAATTCATAAAAATCTTTTTTTGATATAGTTTTATAATCAATTAATTCAACAGAGTAGCCTAATTTTTCAATAAAACTTTTATAATTTTTCATTGACAGCAAATGAAGCAAAATTTTTTGTTTGTGAGGTTTAATATTTTGAATATCAAAATTTTCAAACATGAAAATTTTTCTGGATTTCGAAATTGATGGATTATTTCTGAACAATTGGTCTGGGAATATTAATGATATATGCACACTTAAATATAAAAAAATAAGATTAATTATAAAAGATTTTCTTAATATCGCTCAAAACGCTCAATTATATATTGCATAATTAGAAAATTTATATTAATATTGTTAACAATTTGGAGGTATTATGTACGACAAAATAGAAAAAGGTTTAATTGATCGAGTAGGTGTAGGAGTTTTCATTTCTATATTTATATCATTGCTAGGAACTGTCTTATTTCAAAATTACGTGATGGAATATGTTTCACAATTTTTGGGAATGTTTGTTGCTCTATCAATAATTGTTCTTGGTATGTTGATAGTTTGGAATTTGAAAGTTGAACTAGAAAAAAATGAATCTTAACAAATTAATTGATAAAATAGTTTATGTTATATTAGATAGTAAATTTATATTTTTTTTAATTTTAACTGCTTTGGTTTTAAAATTATGGGTCTTCTAAAAATTATAAATCTATTGTCTAATTCTATTTTATCTTTAGTAGATTCTAAGTATGGTTTTTATTTTGCAATTTTTTTATCATCAATCGTTTTTATTTTCATTACAATTAAATAATTATATTAGGAGAAACATTATGAAATCGAATAACTGGTATTTAGCTATGATAATTTCTATATTTATAGCAGTTCTTGCCTTTGTTTTTGGAACAAACTTGTTTAATTATGAGTCCACCCATCAAGCAAGGCAAGTGGGCATATTTATAGGATTGTGGGCTCCAACTTTTGGGGCACTTGGAATAAGGGCTCAACTTTTAGAAAGTTCTAGGCCACAAATTTATGATAATTAAATATAAAGGGGATTTATAATGTCTAATTTCTTACAACCTACAGATATTGTAGGATTCACATATTTTGCCACTTTTATGGCTCTTGTAGCAACTACTGTCTTTCTACTTTTTGAAAGAACTAATGTTAATCCTAAATGGCAAACATCACTTACTATTGCAGCGCTAGTTACAGGTATAGCTGCTTTTCATTATTATTACATGAAAGAAGTTTGGGTTGAAACTGGAACTTCTCCAATTGTATTTAGATATATAGACTGGATTATTACTGTACCACTTCAAATCGTAGAGTTTTACTTTATTCTTGCTGCTGTTTCTGCTGTTAGCGGTTTAATATTCTATAGATTACTGATTCCATCAATTATAATGTTGCTCGGTGGATACTTTGGTGAAACCGGAATTCTTGACCCTACAGTAGGTTTTGTTATTGGTATGATTGGTTGGCTTATAATTATATATGAAATTTTCGCTGGTGAAGCTTCTAAAATCAACTCCAGCAGTGCTAATGAGTCTAGTCAATATGCATTCAAAACGGTAAGGGCAATTGTAACATTTGGTTGGGCTATATATCCGATAGGCTACGCTCTTGGATATTTTACACAAGGTGATTGGGAAAATACATTAAACATTGTATACAATGTTGCAGATTTTGTAAATAAAATAGCATTTTCATTAGTTATTTATCAGGCTGCAAAAATGGACACAAAATAATACTATATAATTGTCTTTAAGAAAGGTGAGATATTATTTTATCTCACCTTTTTTTTTCTTAAAAAATAAATTTAAATTAGAATCAAATGTTTATAGACTTTGCTAAAATATATGTTTCTGCTGGATCTGGTGGTAATGGATGTGTAAGCTTTAGAAGAGAAAAATTTATACCTAAAGGAGGTCCTGATGGAGGAGATGGTGGGAACGGAGGCAATGTAATAATAGTCGTTGATTCAAATCTAAATACATTACAAGATTTTAAATATAAAAAAAAATATATAGCAGAAAATGGATTAAATGGTTCAAATAGCAATAAAAAAGGTGGAAATGGTAAAGATATTATAATAAAAGTTCCAGCTGGAACAGTCATAAAAAAACATGGAATGGATGAAGTTTTTGCTGATTTAGTTGATATTAATTCTAAAAAAATAATTGCCTATGGAGGTAAAGGGGGAAAAGGAAATGCTAAATTTGCAACATCAACCAACCAATCTCCGCGAAAATTTGAAAAAGGAATTAAAGGTGATTTTGATAATTTTGAATTAGAATTAAAATTATTAGCAGATGTTGGTTTAGTAGGACTTCCAAATGCTGGCAAATCAACTCTATTAGCTAAAGTGACGTCTGCAAAACCTAAAATTGCTGATTATCCATTTACAACTATTAATCCAAATTTAGGAATAGTAAAATTTGAAAATTTTAACTCATTTTTAATGGTTGATATTCCTGGTATAATCGCGGGTGCAAGTAGTGGAAAAGGAATGGGTATTCAATTTTTGAGACATATTGAAAGAACATTATTTTTATTAATTATAATTGATATCACAAATAATAATCCTAAAAAAATATTAAATACGATATTAGATGAATTAAAAAAACATAACCCTCAGCTTATTAAACGTCAAAGAATAATAGTTTTTTCAAAAGTTGATCTAATTAGTAAAAACTTTAAACTACCAAAAATAAATAATGAGGAAGTAATTAGTATTTCTTCTGCAACAGGTGAAGGTATAAAGAAACTAATATCACTTATATCAGCTAAATTAAAACATTAATTTATAATAGTGTTTTAGAAAACTTAAAAACTTAAATTTTGTATTAATAATTATGAATAATTCAAAAAATAGATGGCTAAATATTGATAATTTAATTAATAATTCAAAAAATATTTTATTATCAACACATGTGAACCCAGATGGGGATGGATTAGGTTCTCAATTAGCATTAACTAATTATTTGAGAAAAAAAAATAAAAAATACAAAATTTTAAATCCTTCTCTAGTACCAAATGATCTTTCATATTTAAATGATTATGAAAAGTTTCATCAATATGACGATTTTACACATAGAGAGGAAGTGAAAAATTTTGATTTGGCTATAATCCTTGATATTGGTGATTTTAAACGTTTAGGAGAATTAGCAAATGAATTATTAAATACAGAAAATAAAATAATTTCAATTGATCATCATCCGCATAAAGAAGAGCATTATTTTGATGAATTTATTCATGACACTTCAGTGTCCTCTACAGGATATTTGATATACGAATTTTTAAATTTTAAAAATGAATTAGATATACAGTCTGGAAATGGATTGTACCTTGCAATCATGACTGATACTGGTTCTTTTAGTTATAGTAATACTGATTCAAAAACTCATTTAATGGCTAGTCACTTAATTGAATTAGGTGTAGACACAAATGATATCCATAAAAAGGTATACCAATCTGTACCTTATGAAAAATTAAAATTAATGGGTGAAATACTTCAAAATATAAATTTTAACTTAAATGGTAAATTAGCTTGGTTTATAATTGATCAAGACATGCTAAAATTATCAAATTCAAATATTGAACATTTGGGAGGGTTTACTGATACGATTAGGTCAATAAAAGGTGTAGAAGTTGCTATAATGTTACATGAATATTCTCAATATAAAACACGAATAAATTTTAGGTCAAAAGGTAATGTTAAAATTCATAAATTAGCTCAGAGATTTGGTGGGGGTGGTCATCCATTTGCTTCAGGAGCGATGATCAATCAATCTATTAAAATAGTAAGAGAAGCAGTGGTTTCAGCTACCGTTTCCGAAATAAATAAACAAATTTATGGTAAAGATGTGATATGAAAATTACTATAGCTAAAGATGCTGGATATTGTTTTGGTGTTAGAGACGCAGTAAATATTGCTTATGATACATCTAAAGTTCAAGGAGATGTTTATATGTTGGGAGATATTGTTCATAATGAAAAAGTTGTTGCAGATCTTTCAAAAGTTGGTACTAAAGTTGTTGAATCAATCGATGATATTCCAAATGATAAACCAGTTTTATTTAGAGCACACGGAACATCAGAAAAAATATGGAAAGAAGCTAAAGATAAAAATATAGATATAATTGATGCTACCTGTCCATTGGTAAAAGAAATTCATGAAGAAGTTGAAAGATTAGAAAAAGATGGAAGACAAATTTTTATTATTGGTGATCATGGACATGATGAAGTGGTAGGAATTGAAAGTCATTCTAAAAAGCCAATTGTAATTTCAAATACAAAAGAAGCTGAACAATTAAGAAGATATAAAAGGGCAGGAGTGGTTAGTCAATCAACTCAAACTATTGAAAATGTGCAGAAAATTATTAATATTTTAATGACAAAAGTATATGATCTTCATTTCATCAACACAATATGTTTTCCAACAAAAAGAAATCAAAGCCAAATTAAAGAATTAGCAAAAGATAATGATTTAATGATTATAATTGGTTCTTTTACAAGTGCTAATTCAAAGAGGTTAACTGAACTATCTATTAATATTAATCCAAATACATTTCAAGTAAATGGAGCAAAAGATTTGAAACAAAAGTGGTTCAGAAATGTTAAAAGTGTAGGAATTTCAGCTGGAGCATCAACACCAGATTATCTTATCGATGAAGTTCAGGCTGAAATTAATAAAATTTCAAACGGTAAAAAGGAGACTAACCTATGAAAAAGAAATCATTTGAATTAAAAGTAGGTTTAGCTGAGATGCTTAAGGGTGGCGTCATCATGGATGTCACGAATGTTGAGCAAGCTAAGATAGCTGAAGATGCAGGAGCTGTTTCAGTTATGGCATTAGAAAGAATTCCAGCAGACATTAGAGCAGATGGTGGTATTGCAAGAATGTCGAATCCTAAAATGATAAAAGATATTCAAAAAGCGGTTTCAATCCCTGTTATGGCAAAATGTAGGATTGGACACTTTGCTGAAGCTCAAATTTTAGAATCATTGAAAGTAGATTTTATTGATGAAAGTGAAGTTTTAACTCCAGCTGATGAGCATAATCATATAAATAAACATAATTTTAAAGTACCATTTGTTTGTGGATGTAGAAATTTAGGAGAAGCTTTAAGAAGAATTGGAGAAGGCGCTGCTTTAATACGTACTAAAGGTGAGGCTGGAAGTGGAAATATAGTAGAAGCAGTGAGACATATGAGACAACTTCAATCAGAAATTAAAAGTTTAACAACTCTAAATGATGAAGAAATAATGGCAAAAGCAAAGAATTTAGGAGCACCCTATGAATTAGTTTCATCCATTTCAAAAACAGGTAAATTGCCTGTTCCAAACTTTGCTGCTGGAGGTGTTGCAACACCTGCTGATGCATCATTGATGATGCAACTTGGAGCTGAAACTGTTTTTGTTGGATCAGGAATATACAAGTCTGAAGATCCTGCTTCTAGAGCAAAAGCTATTGTTTCAGCAGTAACTTTTTTTAATGATCCAAAGAAATTAGCAGAAGTTTCAAATGATTTAAAAGATGCGATGGAAGGAATTGATATATCTGAAATTCCAAAAGAAAAAAGACTTCAAGAACGTGGTTGGTAGTGATTGTAATTGGAATATTAAATCTTCAAGGTGCATTTAATAAGCATAGAAAAATTTTAAATCAAATTGGTGTTGAAAATATTTATGTGAATAAAGCTGCTGAATTAAAACATTGTTCTGGTTTAATAATTCCTGGTGGTGAATCAACAACTTTATCAAAGTTAATTGACAAAGAAAATTTATTTAACTCAATAAAAGATTTTTCAATAAAATTTCCTATATTTGGAACTTGTGCAGGGTTAATATTAATGGCAAAAACAAATAATGATAATCGTATTAAATCTTTAAATTTAATTGATGTTGAAGTTTCAAGAAATGCATATGGAAGGCAAATTGATTCATTTATCAACAATATAAAACTTAATCTTGAAAAAAAAATAATTTCTACAAAGGCAATTTTTATTAGAGCTCCTAAAATTGATAAAGTTGGAAAAAATGTAACAATTTTATCTTCCTATAAAGGCAATCCTATATTTGTGCAACATGGTCATCATTTTGCTTCAACATTTCATCCTGAACTTACTGAAGATAAAACAATTCATGAATTTTTTGTATCAAAAGTGAGGAAATTTACTTTTGAGTAATAAAAATAAAATTTTAGATCGGATTAATTCACCTAAAGATTTAAAAAAATTAAATAAAAAAGAAATTAATTCATTATGCAAAGAAATAAGAGAATTAATAATTCAAGTAGTTTCTAAAAATGGTGGACATTTTTCTAGCCCTTTAGGTGTTGTTGATTTAACTGTATCCTTACATAAAGTTTTTGATGCTCCAAAAGATTTGATTTTATGGGATGTAGGTCATCAAAGTTATCCCCATAAAATACTTACTGGAAGAAAAAACGAATTTAATACATTGAGGCAATCTGATGGAATAAGTGGGTTTTGTAAAATTGATGAAAGTGAATATGATGTATTTGGAGCTGGGCATGCGAGTACTTCTATATCAGCAGCTGTAGGAATGGCTAGAGCAAGAGATTTAAAAAAACAAGATCATAAGGTTGTAGCTATCATAGGTGATGGTTCGATGACGGGTGGTCTTGCATACGAAGGTTTAAATAATGCAGGAATTTTACCAAGTCAATTTTTATTAGTTTTAAATGATAATCAAATGTCAATATCACCAACTGTTGGATCATTATCAAAATATTTAACTAGGGTCGTTACGAACCCTATATATAATAGAGTTAGAGAAATAATTTGGGATTTAACAGGAAAATTACCAAATATCCCAAAAAAAGTTTTAAGAAGATTTGCTCATTCTATTCAAGATAGTTTAAAAAAGTTTTTGGTTCCAGGAATGATATTTGAAGAGCTTGGTTTAAGATATTTTGGACCAATTGATGGACATAATATTGATGAAATGAATGAAACTTTTGAAAATTTAAAAAAATCAAATTTTCCTGCAGTAGTTCATATCATAACTAAAAAAGGTGTTGGAAGTGAAAATTCAGAATATGATCCATTAAAATACTATTCATTATCAGGAAAGAAATCTTCAAAAGTTAAGGATTTATGCCCGGATTATAGTAACGTATTTGGTAAATCTGTTATTAATTTAGCTCAAAATGATGAAAAAATTGTTTGTTGTGTTGCAGCTATGAGAGAGGGTACGGGACTTAAAGAATTTGCTGAAAGATTTCCTAACCGTTTTTTTGATGGAGGAATTGCTGAGGGTCACACAACAACATTTGCTGCTGGATTATCATATTCAGGTATAAAACCAATTGTAGCAATATATTCTACTTTCTTGCAAAGAAGTTATGATATGATTATACATGATATAGCTCTTCAAAAACTTCCTGTGCTATTTTGTATTGATAGAGCTGGAATAGTGGGCCCAGATGGACCTACTCATCATGGTGTTTTTGATATATCTTATTTAAGAACGATTCCTAATATTATTATTTGTGCACCAAAGGATGGAAATGAACTTAAAAATTTAATGTTTACAGGTATTAATCATTTAGATGGTCCATTTGCAATTAGATATCCAAAAACCTCCAGCATAAACTATAATGAATTATTATCCCCTCAAAAAATAAAAATTGGAACTTGGGAAACAATAAAAAAAGGTAAAAAAATTGCAATTTTAGCTGTAGGAAGTATGGTTGGAGAGACTGAAAAAGCATTGTTTAAAAATACAGATAAAACATTAAATCCAGAATTAATAAATGCAAGATTTGTCAAACCAATTGATAAAATCAAATTAAATGAAATTTCTAAAAAATTTTCTTCAATTTTAACTATCGAAGAAGGAAGTTTAGAAGGTGGTTTTGGGTCAGCAGTATTATCATATTTAACAGAAATAAATTATAAAGGGAATTTTTACAAATTGGGAATTCCTGATAATTTCATTGAACATGGGGATAGGAATGAATTATTGAATAAATTAGGTTTATCTTCTTCTAAAATTATTTCAAAAATTCAACAAATTTCAAAAAAAACTTAATTTGAATTCTTCACTATTATTAATAACAGGAATATTTGCTTATATAATTGCATATTTTTTTTATTCGAAGTGGCTTTCAAAAAATTTATTTCATTTCAAAGAAAACTTTAAAACTCCTTCTCAAGAATTCAATGATGGAATAGATTATTTTCCAACACCCAAAAGAATTTTAATTGGTCATCATTTTACATCAATTGCTGGTGCCGCTCCCATCATTGGACCTTGTATAGCAGCATATTGGGGTTGGTTACCTGCTTTTCTTTGGATTGTGTTAGGTACAATTTTTATTGGTGCAGTTCATGATTTTGGTGCATTAGTAATTAGTGTAAGGGAAAAGGGAAAAACAATTGCTGATATTAGTAGTTTTGTTATAAGTAAAAATGCACGAATTATTTTTTTAATTTTCATCATGATGTTAGGATGGTTGGTATTATCTGTTTTCGCGATGGCTATTTCTGATTTATTTGTGTCTGTTCCTACAACTGTAGTACCAATTAATATTCAAATTATTTTAGCTTTTATTGTAGGTTTTTTAATTTATAAAAAAAATGTAAATACTCTCTTAATTTCAATTATTTCATTAATAATTGTTTATTTTTTTGTTTGGGTTGGTACTTTCATTCCAATAAGTTTTGAATCTATTGGATTTACAAAATCTGAATCAATTAGCATATGGATATTAATTCTTTTTTTGTATTCAGCTATTGCTAGCTTATTACCAGTATGGGTTTTGCTACAACCAAGAGATTATATCAATAGTAATCAACTTATTCTAGGTATAATTTTTATTTTTATAGGCGTTTTTTTGTCTCAACCATCAATAGAAGCTCCAGTTTTAAGAATTGAGTCTGATAAAGGAGCTCCATCATTATTTCCATTTTTTTTTATAACTGTTGCATGTGGTGCAATAAGTGGTTTTCATGGTTTGATTGCCTCAGGAACTACATCGAAACAAGTAAAATACTTTAAAGATGCAAGAGATATTGGTTTTGGTTCAATGTTGGGTGAAGGTTCTTTAGCCTTAGCATCCTTAATTGCTGCAGTTGCTGGAATAACACTTGTGTCTGAAGCAAACTTACCATCACATGGATTAGTTGAAAACTTATCCTGGCATATTTACTATGATTCATGGGCACATGCTTCAATGAATAAAGCAACTGCTTTTGTCTTGGGTGGAGGTGCTTTGATTCAACAGCTTGGATTCTCAGTTAAAGTTTCTAATACAATTATTGCAGTTTTAGTTATTGCATTTGCTGCTACTACTCTTGACACAGTTACAAGAATTCAAAGATTTGTTCTATCTGAAATTGGTTTTGCTACTAATTTAAATTTATTAAAAAATCGTTTTTTTGCAACTCTTTTAGCTATAATTCCTGCTTTAATTTTATCATTACTTAATTTTTATAATCCAGAAACAGGTTCTTCGATGAAAATTGGATGGATATTATGGCCGATATTTGGAATGAGCAATCAAATGTTAGCTGGTTTAACATTAATGGTTTTAAGTATCTACTTTCACAAAAAAAATAAATCAATTTTACCAGTTTTTATTCCAATGATTTTTATTTTTTTTATAACATTTATGTCATTAGTTCTTAAATCAATTGATTTCTATTCAAGTAATATTATTTTGTTCTTTATTAATGTTATTTTGATTTGTTTAGTTTTATGGATGATTTACGAAGGGTTTAAATCTCTTAAAAAAAATCTTAATTAATTTATTTTTGGGAACATTCTTTAAATATTTTTGTTGATGTAAATATAGACATAAATTGTAAATTTGCTTTTAGTATATAGGATTAAAAAATGAATAGAAAATTTTCAATAGTTATTATAGTTTTTTCCCTATTACTCATTATTTGGTTAGGAATGGGAATTGGTAGTAATGAATTGCCTTATGTGACTATCGATGAATTATCCGAAAATTACTCAGATAAGCCAGGAAAAAGATTTAGAATTGGAGGAATTGTTCATGATGGCTCTGTTATCGTAGATGAAAGAGATCCATTATTAATAAATTTTATACTTGAGCAGGAAAAAAAATTTATGAAAGTTTCTTATCATCAAATTACACCTGATATGTTTAAAGATGGGTCTGAAGTTATAGTTGAGGGTATTTATGATGGGGAAGTTTTTTTTGCAGATAATTTAATGACAAAATGCGCTTCTAAATATGAGGGTGATTTAAGAGATGCTGCGCAAAGTTCGGAAAAAATTTAGTTTAAAATGCCTATATTTGGTGATTTAACATTAAGTATTAGTTTAGGGCTGTCTTTTATAACCATATTTTTGTCAGCAATATATGTTTATACTAATGATAAGCGATTTTTTTTCACATCAGAAAGAGCTATCCTTTCCGTTTGTTTTTTAGTTTTTTTATCTACTTTTAGTTTATTTTCAAGTTTAATAAATAGTGATTTTAATGTTGATTACGTTGCAAGATATTCAAGTATTGAGACACCAATTATATATAAATTTACAGCAATATGGGCTGGTCAATCTGGATCACTATTGTTTTGGTTATTTATTTTGTCTGTTTATGTTGCTATAGTGGTCATTCAAAATAAAAATAAACATCAGAAACTTATGCCTTTTGTAATTATTACATTATCATCGATTCAATTATTTTTTCTCATTTTAGTTAATTTTGTTGCCAATCCATTTATGCCAGCTGAAGCAAATTTTGTTATAGAAAATGGTCTTGGTTTAAACCCATTACTTCAAAATCCTACGATGGCTATTCATCCTCCAATATTATATCTTGGCTACGTAGGCTTTTCAGTTCCTTTTGCTTTCGCAATTGCAGCATTATGTTCAAAAGAATTGGATACTTCTTGGTTGCAGACGATAAGAAGATGGACTTTATTTACCTGGCTTGCGCTTGGAATTGGAATATTATTAGGTGGATGGTGGGCTTATAATGAACTAGGTTGGGGAGGATATTGGGCATGGGATCCTGTGGAAAATGCATCTTTAATGCCTTGGTTAACAGCTACAGCTTTTATTCATAGTATTATCATTCAAGAAAAGAAAAATATGTTAAAAATGTGGAATATGATATTGATATTAATAACATTTACATTATGCATTTTCGGTACATTTTTAACTAGAAGTGGAATTGTTTCATCGGTCCATTCATTTACTGCATCTTCATTAGGTCCAATTTTTCTAACTTATGTATTTTTAATATTATTTGTTTGCATTTATCTTTTAATCACTCGTTCAAAGTATTTAAAAAGCGAAAAAAAACTTGAATCTTTTGTTTCGAGAGAAAGTGGTTTTTTATTTAATAATGTTATTTTTGTAAGTATTTGTTTTGCTGTTTTTTGGGGTACGATGTTCCCAGTTTTTTCTGAAGCATTTACTGGTTCACAAATAACAGTAGGACCTCCTTTTTTCAATCAAATAATTATTCCAATAAGCTTAATTTTGCTCTTTTTATCAGGAGTAGGTCCATTATTAGCTTGGAGAAAAACTTCTAAAGAAAGTTTAGTTAGAAACTTTTCTATTCCTACAATATTGGCATTAAGTATTGTTTTAATATCAATTTTAGTAGGTTTAGTTGGTTTATATCCAATTATAACTACCTTTTTATGTTCTTTTGTTTTTTTTACAATTGCTATAGAATTTTGGAGAGGTATTAAAGTTAGAAGAAATAAATATAAAGAAAATATTTTAATTGCTTTATTAACTATGATTAATAAAAACCGCTCAAGATATGGTGGTTATATTGTACATTTAGGTATTGTGGTCATGTTCATTGGCTTTATAGGTAAAGCATTTGATATCGAAAAAGAATCTTCTATACGAATTGGTGAATCAATTTTACTCTCAAATTATAAAATAACACTTTTAAATCTTAGAGAAAACGAAAGACCTAATCATTACGCTTGGATAGCAGATCTTGAGGTACAAAAAGATGGAAAAATAATTTCTACTTTAGCACCTGAAAAAAGAGTGTATTTTCATAAAAATGAAAATCCTGATAGAAGACAGCCTCATAGTGAATTATCAATTTTTTCAACTTGGAGAGAAGATGTTTATTCAATTTTTGGTGGTATTGATACTGAGCAAGGTTTATTATCAATTAAAATAATGATTAATAGATTAGTAAAATTAGTTTGGTTGGGAGGATATTTTGTTCTTTTTGGAACTGTCATAGCTTTATGGCCAAAAAAATCTTTAAAGAAAATATAAAATTATGTATGAATTAATTCAAATTATTCAAAAATTTTTACCTCACATGATGATTATTTTCACATTTAGTCTTGTTTTAATTTTTTCAATTCAGCCTCTTTTTTGGAATATTAACAAAGTAAACTTTAATGATTCTAATAAAATTGATTCTCTTGAATTGAGAAAGTTATCTATTTATGAACAAATAAAAGAACTTGAACTTGAATTTGATATGGGAAATATTTCCAATGATGATTTTAAAAGCAATAGATTAGAATTAATCAATGAAGTTTCAGAAATAATAGAAAAAATAAAATAATTTGTTAAGAATTGAAAACCTAAGTAAGTCCTTTGGTTTAAAAAATATTTTAAACAAAGTTAACTTTCAAATAAATCGAAATGAATCTATTGGTTTGTCAGGTAATAATGGTATTGGAAAATCAACATTTTTAAAAATATTAGTAGATTTAATTAATTATGAAAATGGGACAATTTTTTTTAATGAAAAACAAATCAAAAATCAAATTAATTTTAAATCAAAAATATTATATCTAGGTCACCAACCAACTTTTTATCCTTCATTAACTGCAAAAGAAAATTTATTATTTATTTCTAGAATGTATAAAATAGATAAAAAAAATATATTTGATAATATAAAAAACTCATTAAAAATTGTAGGATTATCAAAATCAATAAATTTACCTGTTTTTCATTTTTCAAGTGGAATGCTAAAAAGATTGTCTGTCTCTAAAGCAGTTTTACTTGAAAATATTTGGAAAATATTACTCTTAGATGAACCAAATGATGGTTTGGATTTTGAAGGACAAGAAATGTTGTCTAATTTGATTTCATCTTGGAGAAAAAATAAATTAAATGATTTTAAAAGTTTATTAATTGTTTCTCATGATGAACAGTGGTTAAAAAATCATACTGATAGAGTCGTGAATTTAATTGATGGTAAAATTAATTAATTAGAATATGGTCAAGTCACTAGTTTTAAAGGATTTGTTAATCGAATTTAAATCCAAGGAAATTATTACCTCTATGGTTTCTTTTGGAGTTAGCGTTATATTATTGTTTTCTTTTTCATTTAGAGCTTCTCCAGCTCAAATTAATTTTTTTGCACCTGGTTTATTATGGATGATTTTTATTTTCATTTCAATTATTTTATTGAATAGAATTTATAATTTAGAAATGGAAAATAAATCTTATGAAATTCTTTTTTCTTCACCAATTGATAAAAGCAATATATATTTAAGTAAATGTATTTCAAGTTTAATTTTTTTGATCTTTTCTCAAATAATTGTAACACCAATTTTTTTTCTTTTTTTACAAATTAATTACCCAGAAAATTTATTTTATTTTTTAATGATTATATTTTTTGTTGATTTAGGAATTTGTAGTTTAGGTTCTATTATTTCTGGTTCAATTATGAAAATAAGGGCAAATGAAATTTTATTACCAATATTATTCTTTCCTATGATAACTCCGCTAATAATATCTGCGGTAAAGTCAACTGATTTGATTTTTAATAATCATCCATTTATTGATTGGAAGATTTGGTTTCAATTAATTTTAAGCTTTAGTATAGTTTTTTTTTCTTCTGGTTTTTTATTATATCCCTATGTTACAAATGAATAGTAAAAATAAATTTTTTCATGAAAATAATTATAATAAACTTTATGGTTTATTGATAATTTTTTTATGGTTATTACTTAGTTATTTAGTTTTATTTGTTACTAGAATTGATCCTAGTCAGGAAATGGCTCAAAAAATTTTCTATTTTCACGTACCATCTGCTTGGATTGCAGGTGTTTCATATTTGGTGGTTATGATTTCAGGTGTTAATTATTTAAGAACAAAAAATAATTATTGGGATTATGTAAGTTATTCTTCTGCAGAAATTGGAACAATATTTTGTGCATTAGTTTTAATAACAGGACCAATTTGGGCTACTCCAATTTGGGGCACTTCTTGGTCATGGGAACCAAGATTAACAACAGTTCTTATTATGTTTTTGATTTATTTGGGTTATTTTTCTGTTAGAAATTTTGGTAAATCTTTAACAATGATTAAATCTATATGTGCAACTATTGGTATTTTAGCATTTTTGAATGTTCCTATTATATATTTTTCAGTAAAATTTTGGGCTGAAGAGGTTCAATTGCATCCTCAGCCTGAAATGTTAGAACAGCCAACGGATATCTATTATACTTTTATTTTTTCATTAATTGTATTTTTTATGATTTATCTGTATTTGCTAAATTATAGAATACATATTTTAAAAATAAAATCAAAATTTGAAAATGTTTTAGAAAACGATTGATGGAAATTTTATATTATAAATATTTTTCTTTTTTTTTAATGGCGTATTTAGTTGTTTTTATAACTATAATTATTTGGTTTATCTATTTAAGATTTGAAGAGAAAAAATATTTAAAAAAATATAATGAAAAATTTAACTGATATTTTTACATCATTCTTAAATGAAAATCCAATTTTTAAAAAAAAAACTAAAGGATTAGTCGCTGTCTCAGGTGGTGTTGATTCTGTTGTTTTATTACATTTATTTAATAAATTAAAAATAAAATTTGATTTTCAAATTGCGATAATCCATTTAAATCACTCTACCAGAGAAAAGCAATCAGACATTGATGAGTTATTTGTAAAAAATCTAGCAAAAATCTATAAAAATAAATTTTTTTCTAAAAAATGGGAATCTACAATAAAATCAAATTTTGAAGAACTTGCAAGAAACGCAAGATACGATTTTTTTTTTGAAATTCAAAAAAAGGAATCTTATGATTGGGTTGCAACTGGGCATCATTTAAATGACCAAGCAGAAACAATTTTAATGAGATTTATACAGGGAAACTCATACCGTGGTTTAAATGGTATTCCTAAATCGCATAATTTTTTGGTTAGACCTTTGTTAGAAGTTTCAAAAGATATGATTATTAAATATGCAAAAAAAAATAGTTTAAATTTTATGGAGGATGAAACTAATAAGGATTTAAAATTTTTGAGAAATAAACTTAGAAATAGAATAATTCCTAAAATAAATGAAATTAATCCTAATTTTATACAATCTATTCAAAATTTAAAAAATAATTTTAATGAAATATCGAATTGGGTTGATTATAATATTGATACTTTTAAAAAAAACTTTTCTTTTATCGATGAAAATAATAATATTATTATCAACCAAAAAGAATTATCAAATTATCCAATTTTCATTCAGCAAGAAATAATTAAGTCCTTTGTTTCATTTAATAATAAATGGAGAAAACATATTTGGGAAAAATTGAAAAATTTTTTGCTGTTTTCAAAAACTGGAGAATATTTAATTTTAGATAAATCATTTCAAATTTTAAAAGACAGAAAAAAAATAATCATTATTTCGACTAATAATAAATCTTTTGATTTATCTTTAAAATTTAATCTAGAGAATTCAATTTCCAAAAAAATCGGAAATTATAATTTTAATCTTAATAAATTAAATAATTTTAAAACTTTTACTAGTAATAGTTCAAAAGAATTAATTGACTTTGATTTAATTGAAAAAACCTCATTAATCCTTAGACCTTGGAAAAACGGAGATAAAATGATACCACTTGGTATGAATAATTTTAAGAAAATAAGTGATATCTTAATTGATAGTAAAATTAATAGATTTGAAAAAAGAAACAAATATCTACTTTGCTCTAATGATAAAATTATTTGGTTATGTGGTTTAAAACTTGATGAAAGATTTAAAGTTACTTCTAAAACAAAATCATTTGCTGAAGTTAAGTGGAAGAATGATTTTTATGATTGAATTAATTTCCAAAAAAAAAATTCAAAATTCTGTTAATAAGATGGCAATAAAGATTAGTTCTGATTTTAAAAATAAAAATCCATTATTCATATCAGTGTTAAGTGGTAGCTTTATTTTTTTATCTGACTTAATTAGAAAAATTAATATTGATTTAGAAGTTGACTTTATTAAAGTTAATAGTTACGAAAATTTGGAATCAAGAGGAAAAATAAATTTTAAATTTGATATTTCATCAAGAATAAAAAATAGAAATATTATATTAATTGAAGATATAATTGATACAGGTTTAACAATAAATTCACTTTATGATTACTTTAATAAATTAACACCAAAGTCAATTTCAGTAGCAACTTTACTTTTTAAAAAAGGTAAATCTCAATTAAATTTTAATGTTGATTATATTGGTTTTAATATTCCATCAGAATTTGTTGTTGGATATGGATTGGATTATAACCAGAAGCTAAGAAATTTGGATAGCATTTTTCTTTTAGAAAAAAAGGACTTAACAACTTGACAAATAATAAACCTAAAAAAGAAACTCCCTCAAAAAATAAAAATGATAATAGCAATTTTCAATGGAAACAAGCTGGAAGAACATCATTTATATGGATATTAATTTTTATTTCAGCAATTTTACTATCTAATCTTTTCAGTTCACGAACCAGAGGAGAACAAAAAATACAATTTTTTGAATATAAAGAGTTCTTGTATAATGGTATAATTTCTGAAGCTGAAATTATTGGAAATGAATTTCACGGAAAATTAACGGAGCCTCAAGAACTATTTAATAATAATCAAAAAGTATCTGAATATTCAAAATTTGTTGTAACCCTACCTTTTATAGATGATTCAGTTTTATCGGAGTGGGATCAATACAATCTTAAATATAGTTTTCAAGAAAGAAAAGTAGATTGGACTAGTTATTTATTAAGTATGGCACCTTGGTTGCTTTTGATTGTTTTTTGGTTGTTTATAATGAGAAGAATGCAGGGCGGAATGGGTGGTGGAATTTTTAATTTTGGAAAAAGTAAAGCTAGATTATGGGTTGAAGATAAACCTAAGATAACTTTCAAAAAAGTTGCTGGATGTGAAGAAGCGAAATTTGAATTAAGTGAAATAATAACTTTCTTGAAAAATCCAAAAAAATTTCAAAAATTGGGTGGTAGAATTCCAAAAGGAGTTTTATTGCTTGGTCCTCCAGGAACAGGAAAAACCTTGCTTGCTAAAGCTGTAGCTGGTGAAGCAAAAGTACCATTTTTTAGCTTGAGTGGTGCAGACTTTGTTGAAATGTTTGTTGGAGTTGGAGCTTCTAGGGTTCGAGATTTGTTTGAACAGGGAAAGAAAAATGCACCTTCAATTATATTTATTGATGAGATAGATGCCGTTGGAAGGCATAGAGGAGCAGGATTAGGCGGTGGCCATGATGAAAGAGAACAAACTTTAAATGCATTACTTGTTGAAATGGATGGTTTTGAATCAACAACAAATATTATTTTAATTGCTGCAACAAATAGAGCTGATGTTCTGGATTCTGCATTGTTAAGGCCTGGTAGGTTTGATAGACAAGTTGTTGTTGATATACCTGATATCAAAGGAAGAAAAGGAATATTAGAGGTTCATACTGCAGATATTCCATTATCTAAAGATGTGGATTTAGAGATAGTAGCTAAAGGAACACCAGGTTTAGTTGGTGCAGATTTAGAAAATTTAGTAAATGAAGCGTCTCTTTTAGCTGCAAGAGATGGAAAATCTAAAGTTTTTATGGAAGATCTTGAATCTGCTAAAGATAAAGTTATGATGGGTGTTGAGAGAAAAAGTATGATTCTTAGTGATGAAGAAAAAGAATTAACTGCATATCATGAAGCTGGACATGCTTTAATTGCGAAAATATTGCCTAAAGCTGATCCAGTTCATAAAGTTTCAATTATTCCAAGGGGTCGTGCTCTTGGAGTTACAGCTCAATTGCCTATGGATGAGAAACATAATTATTCCGAATCTTATATCAATGCAAGATTAAGAGTTTTATTAGCTGGAAGATCGGCAGAGCAGTTAGTTTTTAATGAAGTAACAACTGGTGCTGGAAATGACATAGAAGTTGGAACTGATATGGTAAGAAAAATGGTTTGTGAATGGGGCATGAGTAGATTAATGGGACCATTAAAATATGGTCAAAAAGATCAAGAAGTTTTTCTTGGTAGAGATATAGCCAAAAATAGAGATTATAGTGATGAAACTGCTAAAAGAATTGATGAAGAAATTCATAGAATAATTAATGAAGCAGAAAAAGATACAGACAAAATTTTAAAAGAAAATCAAAAAATCCTTCATGAAATTGCAAAAGCTCTTCTAAAATTTGAAACAATAGACGGAAAAGATTTAGATAAAATTTTTCTTGGCAAACAAATTAGAAGAAAAACAAATAAAATAAAACAGGTATCAAAAAATAGTAAAGTCAAAAATTTGAAATCAAATTCTAAAGATAAAGTATTGAGCTGATTTTGATAAATTAAATTTAAGTTTTTGAAAACAAGTAAAATATCATTTAGAAATTCTTCAATAATCATGGGGATATTAAATGTTACCCCCGACTCTTTCTTCGATGGTGGAAAATATTTTCAGTTGGATAGTGCAATTGCTCAATCTAAAAAAATGATAGATCAAGGTGCTACAATTATTGACGTTGGAGGAGAGTCTTCAAGACCTTTTTCAAAATCAATTTCCGTTCAAGAGGAAATTAAAAGAGTTGTCCCTGTAATAGAAGCATTAAAATCTGAAACAAAAATTACTCTATCTGTTGATACATCTAAATATGAAGTAGCAAAAGAGTGTTTGAAAGCTGGTGCAACAATTATTAATGATATATCAGCTTTAAGAAGTGATGATAGGATGTCATCTCTAGTTGCTGAAAATAATGTTCATGTAGTTTTAATGCATATGAAAGGTAGTCCTCAAAATATGCAAATAAATCCAATCTATAAAAATTTGATTAAAGAAATTAAAAGTTTTTTAAAAGATAGAATTTTATTTGCTAAAGAAAAAGGTATATCAAGTGAAAAATTGATTATAGATCCTGGCCTTGGTTTTGGTAAATCAGTTAAACATAATTACGTTATTTTAAATAAATTATCTGAATTTTTAGATTTAAATTGTCCAATCCTTATTGGTTCATCAAGAAAATCATTTATAGGTAAAACATTGGGGTCAAATAGTAATCGTCTGTTTGGGACTGCAGCTACAATTGCAATAAGTATTTTAAAAGGTGCGAAAATTTTTAGAGTTCATGATGTAAAACAAATTCAAGAAGTTATTGCAATATCAGAAGCAATTACTTCAGCAAAGGAATAAAATTTGATTTTATTTAAAATTGGTTTTTTATCAATAACAATCATTGATTTAATTGACATTTTATTGGTTACATGGCTTTTTGTGAAGTTATATAACTATTTTAAAGGAACTAGAGCTGGTCAAATGTTGCTTGGATTAATAATTATATTAATTTCTTCTTTTGTCTTTAGAGCAATTGGAATGAGTGGAATGTCATGGATAATTAATCAAATTCAAACTGTATGGGTTGTTGCATTTGTTATTTTATTTCAACCAGAATTAAGAAGATTATTAATTTATGTTGGTACTTCCTGGTTTTTTCAAAGGTTATTTAGGGTAGGCAATTCAAATACTATTGATTCAATTGTTGATGCTGCAATCAAATTAAAACAAAAAGGTTGGGGAGGTATAATTGTTTTGCAAAGAGATACAGGTTTAAAAAATATAAAAGAGAAAGGTACTCCTGTTAAAGCGGAGGTTAGTTCACCATTACTAATTTCAATTTTTAACCCTGGTTCACCTCTTCATGATGGTGCAGTCATTATCCAGAATAATATTATTGAATCTGCTCAATGTATTTTACCATTAACAGAAAGTGATATGATTGATCCTGATATGGGTACGAGACACAGAGCAGCTTTGGGTATTAGTGAAGAAACAGATGTTATAGCAATTCTTATTTCAGAAGAAAAAAAACAAGTATCTGTTGCTATTAATGGTACTTTTAAGCTTAATTTTGACAAACTTTCATTACAAAGATTTTTAAATGAAAATTTGTTTTTAAGTTCTGGTGAGTAAAAATGCAAATTTCTGAATTAAATGATTTTTATTACGAATTAGAAAAAAGGCTAGATTTTCTAAGGGGGTATCTTTGACTTTGATGTATTAAAAAAAGAATTGAAAAATTTAAAATTAGAAACAACAAATACTAATTTTTGGGAAAATAATACTACTGCTCAAATTATTTTAAAAAAAATTTCAAAGATTGAAAAAGAAATTGAAAATTGGAATTTAATTGATAAAAACAAAGAAGAATGTGAAATTTTATTTTCTTTTTATAAAGAAGAATCAACCGAATCAATTCTAAATGAATTAGAAGCTGAGTTAAATAAATTATCATCTCAAATAGATGAAATTGAAATAAAAATAATTTTAGGCAATGATGATGATATGAATGATGCTATACTAACTATTCATCCAGGAGCAGGTGGCACAGAATCGCAAGATTGGGCTGAAATGCTTTATAGGATGTATATTAGATGGGTTGAAAGAAAAAATTTTAAATTTTCAATTATTGATTTTCAACCTGGTGATGAAGCTGGAATTAAAGATGTAACAATTGAAATTAATGGAGATTATGCTTACGGATTGCTTAAGGCTGAGGTTGGCGTTCATAGATTAGTTAGAATTTCTCCTTATGATTCTTCAAGTAGACGACATACATCATTTGCTTCAGTTTTTGTTTATCCATCTACAAATGATGATGAAATTGATATAAATATCAAACCAGATGAGATAAGAATAGACACTTACAGAGCAAGTGGTGCTGGTGGTCAACATGTTAATAAAACGGATTCTGCAGTAAGAATTACTCATATTGAAACCAAAATAGTAGTTCAATGTCAAAATGAAAGATCTCAACATAAAAATAAAGCTACAGCTTTAAAGATATTAAAAGCAAAATTAAAACAAATCAAAATTGAGGAGCAGTCAGAATCTATTAAGGAACTGGAAAATCAAAAAACAGATATTGGTTGGGGAAGTCAAATAAGGTCTTATGTTTTTCATCCATATACATTAGTAAAAGACCATAGAACAAAATTTGAAGTAGGAGATGGAAAAAAAATCTTAGATGGTGATTTAGATCAATTTATTAAATCTTATTTATTAGCTAAGTCATCATTTGAATATAAAAATTGAGGGAAAAAAAATGATTGAAGATAAAGAACAAAGTTTAAAGCAAATAATAAATTTTAGATTAGAGAAATTAAATAAAATAAAAAAAATGGGAATTAATCCATTTCCGTATGAATTTAAAATATCTCATTTTTCTGATGAGATTAAAAACGGTTTTGAAAAATTAGAAAATAAAAATGTAAATATATCAGGAAGAATTATTTCAATTAGAAAAATGGGTAAAGCTTCATTCTTCAATGTTCAAGACAAAAATGAAAAAATTCAAGTATATATTAAAAAAGATTTAATTGGTGAAAAAAATTACGAATTGTTTGAACTATTAGATATTGGTGATATTGTCGGAATAAAAGGAAAAGTATTTAAAACTAAAACTAAAGAAATAAGTATTAATTGTTCTGAACTTTCATTGTTATCAAAAAGTATAAGACCTTTACCTGGAAATAAAGAAAAAAATGGTGAGGTTTTTCATGGATTTAGCGATAAAGAGCAAAGATATAGACATAGATATTTAGATTTGATAGTAAATCCTGATGTTAAAGATGATTTCAAAAAAAGGTCTAAAATAATTTCTTCAATAAGAAATTATTTAGATAATAATAATTTTTTAGAAGTTGAGACTCCTGTATTGCAGCCACTATATGGAGGTGCCTCAGCTAAACCATTTAAAACTAAACACAATGCTTTGAATCAAAACTTATTTTTAAGAATTTCAGATGAATTATATCTAAAAAGATTAATTTCTGGTGGATTTGATTCAGTTTATGAAATGTCTAAAGTTTTTAGAAATGAAGGTATGGATAAAAATCATAATCCAGAGTTTACAATGTTGGAATTTTATAAAGCAAATGTTGATTATTTTTTTTTAATGGATTTTGTAGAGAATTTGATAAGGAGTGTTGCAGAAAGAATTAATGTTAAAGAATTAGAGCTTTCTAATAAAAAAATTGATTTAAATAAACCTTTTTTAAGACATAATTATATGGATCTATTAAATGATGCCGTAAATGAAGACTTAACAAATTTTCAATTAGAAGATTTAATTGTTTTATGTGAAAAACTTAAAATAAAATTAGAATCCAAACCTACTTTAGGTAGAATTTATGATGTTCTTATGAGAGAGTTAGTTGAACCTAATTTAATAGAACCAACTTTTGTTTTGAACTACCCAAAAATAATTTCTCCTCTAGCAAAAATATCTAGAGAAGGTAATAAGAATATCGTTGAGAGATTTGAATTGTTTGTTGGTGGCGATGAAATTGCAAATGCATTTTCTGAATTAAATGATCCAATAGATCAAAGAAATAGATTTGAGGAACAAGTTAAATTTCAAAAGTTAGGTGATGATGAAGCACATAATTTTGATGAGGATTATTTGAATTCAATGGAAATTGGTATGCCACCAACTGGAGGTGTTGGAATTGGTATTGATAGATTAGTGATGTTGCTCTTAAATAAAAAAAATATTAAAGATGTGATTTTATTCCCAGCAATGCGTTTTGAAGATTAATATTTGAAAATGAATCGTTTATCATTTATTGCTTCTCGTTATTTAACATCACAAAACAATCTTAAGTTCATTTCAAATATAAATTATCTAAGTATTTTGGGATTATCTATTGGGATAGCAGTCTTAATTATCACCATGGGAGTTTTAAATGGATTTGAAAACGAGGTAAAAAAAAAAATTGTAAGCTTTGATGGTCACATTAGAGTTAATGGATATTTTAATAATCCAATATTTCAAAACTCATCTCAGCTAGATTCAATAATTGATAATAATAGTGAAATTGTAAATAAAATTGAATTTATTAATCATGCTGCTACCATAAGATTTAAGAACCAAACTGAGCCTGTATTTATTGAAGCATTTGGCCAAATTAAAAATAATAATTTTTTTGAATTAAATAAAAATATTGTTTTTGGTAATTTTAATCTTAATTCCACAAATCCTTCTAAAGGAATTGTAATTGGTAAAGTTTTATATGATAGATTAAATATTAATTTAGGTCAAAAAATTACTTTGATGGATTTAAAATCGCTTGGGAATCCAGGTGTTGCTCCTAGAATATTACAATTTGAATTAAGAGGGGTTTATGAGACAGGTTTAACAGAATATGATGAATCTATTGTATATATTAATCTCAATGATGCTCAAACTTTATTAAAATACAATAATTTAATTTCTGGTTATATTTTATCTTTAGACCAAATAGATAATACTAGTAAAATTGGTAATCTATTAAATGATAAGCTTAACTATCCATTAACATCGTCTACTTGGATTGAGAGACATAGTAATTTATTTGAATGGTTATCACTTCAAAAGTATCCAATCACAATAGTTTTTGCAATGATTGCTTTAGTTGGAATATTAAATATTAGTTCATCATTGACAATGATTGTTATGGAAAAAACAAAATCAATAGGAGTTATGAGAGCAATTGGATTTTCAGAAAATGATTTATTAAAATTATTTTTTTTAAAGGGAGCTATTATTGGATTTTCTGGAGTGTTTTTTGGTTTAACTATCTCTTTATTTTTTGCATTTTTTCAGACCAAGTTTAATATTTTATCTATACCTCAAGAAGTATATTTTATGGGATCACTTCCTATTAAAATTATTCCAATAAATGTTTTAATTGTTGGGAGCATGGGAATAATTCTTGCAATAATAGCAAGTATTTATCCTGCTAGAATAGCTTCAAAAATTGAACCTTCAAATGCAATAAGATACGAATGAGAAGTTTATATTTTTGGTTAGCAATAAAAATGCTATTATCTAAAAAAGAAATTGTTCTCATATCATGGGGAGGATTTATATCAATAATTGGTGTTTCAGTTGGATTTCTTGCTATAGTAATTTCATTATCTGTATTAAATGGTTTTGAAAAAAAAATAAGAAATAAAATAATTAATTTTGAAACTGATATCAGATTAATTAATAATAAAAATTTACAAAAAGATAAAACTTTAGAAGAGAAATTAAATAAATTTAATGAAATTGAATCTTTTTCATTTTTTATAAATAAAAAAGCAATTGCAATAAGCAATGAAAAAAGATCTTTATATAAAATTAAAGCAATTGAGATAAAAAAATTAGAATCAGTATATAATTTTTTAGATTTATCGGTTTCTGAAGAAAAATTAAATAATGGATTTATTTTAGGAAGTGGTGTAGCTAAAAGATTAGGTGTAAATAAAGGTGATAAAATAAAATTAATGAATCCATTTGATAATCAAATTTATTTTAACTTACCTAAAATGATTTCAGGTGAAGTAATAGAGATTTTTGAAACTAGAATTTTGGATTTTGATCAAACTTATATTTTTATTTCATTTCTAAATGGCCAAAAACTATTTAATAAAAATAATTATTTTAATGGTATTGATATTAGATTGAAAAATAATGAAAATAAATTTTTTTTTAAATCTAGAATCAATAATGTATTAAATGAAAATTTCGAAATAAATTTTTGGGAGGATATTCATAAAACTCTTTTTCAAGCAATGAAAATGGAAAAGTTGGTTAGTATATTAGTTTTAAGTCTTGTAGTAATTGTTGCTTGTTTTAATATTAGTTCTACTCTTACAATGCAAACAATTGAAAAAATTCGTGAAATTGGAATTTTAAAAACAATTGGTTTTTCTAATTATTCAATTAGGAATATTTTCTTTTTTCAAGGAATTTTCATTGGAGGAATTGGAATTTTATTTGGAAGTGTCTTAGCCTGCTTAATAATTTTTTTTCAAAATAAATACGGAATTATAAAATTACCTGAATCAGTATATTTTATAGATTCATTACCTATGTATATCTCAAATTTTGATTATTTTCTAATATCATTAATTGGTATATTAATTGTAATAGTTTCAATTTATTTTCCAATAAAAAATTTAAGAAAAATAACACCTAATGATGCTATTCAATACGAAAAATGATTTTATCTGCAAAAAATATTTTTAAAAGTTATAAAAATGGAAATAAAGTTTTATCAATTTTAAAGAATGTAAATTTTCATGTAAAATCAGGTGATTTAATTTCAATTATGGGACCTTCTGGATGTGGTAAATCAACTTTGTTAAATTTATTAGGAACTTTAGATAGGCCAGATTCAGGTGAATTAATAGTGGGCGATAAAAATATTTTAAATTTAAACGATAATAAATTATCACTCTTAAGAGCTAAATATATAGGTTTTGTATTTCAATTTCATCATCTTCTTCCTGAATTTACTATTTTAGAAAATTTGATTATTCCTCAAAGATTGATTGGTGTTTCCGAAAATGATTCAAGAATTCATGCAAGTAAGTTATTAAAAAAAGTAAATCTATTTGAAAGAAAAAATCATAAGCCAAGCTCAATTTCAGGTGGAGAACGTCAGAGGGTTGCGGTTTTAAGATCTTTAGTAAATAAACCTAAAATTGTTTTAGCAGATGAACCTACTGGGAATTTAGATCAAAAAAATACCGATATTTTAATTACAATGATTAAATCTCTGGCATCTGAATTTAATCAAGCTTTTATTATTGCAACTCATAATGAAAAAGTTTCTAAAATTTGCAAAAAACATTATACTATTGAAGGTGGAAAAATTATTAAATTAACTGATAAATTTTAGAATCATATGAAAGAAAACTTTTCACAAACTGTTCAAAAAATTATGAAAAATGCTAAGGAAGAAGCAATTCAACTTGGTCATAGTTATGTTGGATCTGAACATCTTCTGTTAGGTATTCTAAGAGAAGTAAACTGTAAAGCCAAAGAAATTTTAGAACAAGTAATTTCTGATGTTGAAGAAATTCGTATTATGATTCAAGAAATGTTGAAAAATTCAACTTCAGGAACTCTTACTTTAGGACATTTACCTTTAACAAGAAGAGCAGAGAGAATATTAAGAAATACATTTGCAGAAGCTTTAGTTTTAGAAGAAAAAACTGCAGATGATGAACATTTGCTTTTAGCAATTCTAAAAGAAAAAGAAGGTATTGCCATTGAAGTTTTGAATGCTTTTGAAATTAATTATTCAACAGTTTTTGAATTGATCAAGGAAAGTAAAAACTTATCATCATCAAATATTAAATCAAAAAAAATACCAAACACTCAAAAATCTAAAACTCCTGCTTTAGATCATTTTAGCAGAGATATAACACAACTTGCTAGAATGAATAAGCTTGATCCTGTCATTGGTAGAAAAAATGAAATTGAAAGATTAGCTCAAATACTTTGTAGGAGAAAAAAAAATAATCCTGTTTTAATTGGAGAGCCAGGTGTTGGTAAAACTGCTATTGCTGAAGGTCTTGCACAAAAAATCACTACTTTTGATGTTCCAAGATTTTTGTATGGAAAGAGAATTCTTGATTTAGATTTAGCAGGTGTTGTATCTGGTACAAAATATAGAGGTCAATTTGAAGAAAGAGTCAAAGCTATAATGAATGAGATTGAGTCTTCGGATGATATTATACTTTTTATAGATGAATTACATACTATTATTGGTGCTGGTAGTGCTTCAGGTTCTTTAGATGCGTCTAATATGTTTAAGCCTGCATTATCAAGAGGGGAAATTCATTGTATTGGTGCAACAACTTTAGATGAATATAGAAAACATATTGAAAAAGATGGTGCTTTAGATAGAAGGTTTCAAAAAGTAAATATTTTACCTCCTTCAATAAAGGAATCCATAGAAATATTAAATGGATTAAAAATAAATTATGAGAAACATCACAATGTAAAATTTAATTCAAATGCAATTAAAGCTTGTGTTGAATTAAGTGAAAGATATATTTCAGATAAATTTTTACCTGACAAAGCTATTGATGTGATGGATGAGGCTGGTTCAAAACTTCATATTCAGAATTTAAAGGTTCCCGATTCCATAATTGATTTAGAATTAAAAATTGAAAAAATACGTTCAGAAAAAGATAAAGTAATTTCTTCTCAGCAATTTGAGAAAGCTGCTAGTTTAAGAGACAAAGAAAAACTTTACATAATGGAATTGAATGAAGAGAAAAAAAACTGGTCTAAAAATGTAAAAAAGAATATTTCGGTTGTTTCAAAAAATGATATTACAGATATTATTTCAATGATGACTGGAATTCCACTTTCAGATATAGCTGAAAAAGAATCTCAAAAATTACTTAAAATGAATGAAACTATTAAAGAGTTTATAATTGGACAAGATTCAGCTATTGATTCTTTAACTAAAGCTATCCAATTGTCAAGAACAGGATTGAAAGACCCAAATAAACCTATAGGTATATTTCTCCTTTTAGGCCCTACAGGTGTTGGTAAAACAGAAACAGCAAAGATATTATCAAAACAATTGTTTCCTCATAACGATTCCCTGGTAAAAATAGATATGTCAGAATATATGGAAAGATTCGCAGTTTCGAGGTTAATAGGTGCCCCACCTGGGTATATAGGTTTTGATGAAGGTGGTGAACTTACTGAAGTTATAAGAAGAAAACCATATTCATTAATACTTTTTGATGAAGTTGAAAAAGCACACCCAGATGTTTTTAATATATTGCTCCAATTATTCGATGAAGGTTTTTTAACTGACAGTATGGGAAGAAAAGTTGATTTCAGGAATACAATAATTATTTTAACATCAAATATTGGCACTAGAGAATTTGGTCAATACAAAAACTATGGATTCGAAAAAACAATAGCTAAAAATAATTTTGAATTAATTAAATCTGAAATACTTAATCAGGTTCAAAAAATATTTAGCCCTGAATTTATTAATAGGTTAGATGACTCCATTGTTTATAAGCCTTTAAATAAAAAAGATATTTTAAAGATCGTTTCATTACAATTAAATGACTTATATGATAATATTAAAGCAAAAAAAATCAAACTTTTTATTTCTATTGCTGTTAAAAATTTTCTTCTTAGAGAGGGATATAGTGAAAAATATGGCGCAAGAAAAATTAGAAGAGTAATTAAATCTTTAATTGAAACACCAATATCTGAATTAATACTAAAGGGTAAACTTAGTTCAGGTGATTATTTAAAAGTTGACTTGGTAAATAATAAAATTATTTTTAACAAAAATAAAATAAAACTTACTCAAAGAAAAAAAAAATCAAAAAATAAATAAAATTTAATGACAAATTGTCAATACTTTTATTGTCGTGAATTTTTAAAAAGATGACATAATTTATATATATTTATATTGGCATGTTTTTTGCTTTATATATGAGTGAAATTAATTAGGAGTCATAAAATGTCAAAAATTATTGGAATTGATTTAGGTACAACTAATTCATGTGTTGCTGTCATGGAAAGTGGAGAACCAAAAGTTATTACTAACCCTGAAGGAGGTAGAACAACTCCATCTATTGTTGCTTTTTCCAAAGAGGGAGAGAGAATGGTTGGTCAGCCTGCTAAAAGACAAGCTGTAACAAATCCAAATAATACTATCTATTCGATAAAAAGATTTATGGGAAGAGAATTTAGTGAAGTAAGCAATGAAATTTCTGAAGTACCATATGAAGTCAAGAAAGGAAAATCTGGTGCTGTAGAAGTTAAGATTAATGATAAAAACTATCTTCCTCCTGAAATAAGTGCAATGGTTTTACAAAAATTAAGACAAACTGCAGAGGAATATCTCGGTAACAAAGTAACCGAAGCTGTAATTACGGTTCCTGCATATTTTAATGATTCCCAAAGACAAGCAACTAAAGATGCTGGTAAAATTGCCGGACTAGAAGTTAAAAGAATAATTAATGAACCTACTGCGGCAGCATTAGCTTATGGTCTTGATAAAAAAAATGATCAGAAAGTTGCGGTTTTTGATCTTGGGGGTGGAACATTTGATATTTCAATTTTAGATATTATGGATATTGATGGAGAAAAATCTATTGAAGTTAATGCTTCTAATGGAGATGGTCATTTAGGAGGAGATGATTTTGACCAAAAAATAATTGAATGGATGGCATCTGAATTTAAAAAATCTGATGGTATAGATTTGAAAGAAGACCCTATGGCATTGCAACGATTAAAAGAGGCTGGAGAATCAGCAAAAAGAGAATTGTCTTCATCAAAAAAAACTGAGATCAATTTACCTTTTATTACCGCTGATTCTAATGGTCCCAAACATTTAAATTTAACTTTAAGTAGAGCAAAATTTGAGGATTTGGTTGATGATTTGGTTGAAAGAACAAGAAAACCATGTTTAGATGCATTGAAGGACTCAGGTTTAAATCCAAGCGAAATTGATGAAGTTATTTTAGTTGGTGGATCTAGTAGAATTCCTAAAGTCCAAGAGGTAGTGAAAAATATTTTTGGAAAAGAACCTAATAAAGGAGTAAACCCAGATGAAGTCGTTGCTATGGGAGCAGGAATTCAAGGTGGAATACTTGGAGGTGATGTTGAAGATGTATTATTATTAGATGTAACCCCATTGTCATTGGGTATAGAGACCCTAGGAAATGTTTTTACTAAACTTATTGAAAGAAATACAACAATCCCAACTAAGAAAAGTCAAATCTTTTCAACTGCTGCAGATAATCAACCATCTGTTGAAATACATGTTTTGCAAGGGGAAAGAGAGTTGGCTGCATATAATAAAACAATAGGGAAATTTCATTTAGATGGTTTACCATCCTCGCCTAGAGGTGTCCCTCAGATAGAAGTTACTTTTGATATTGATGCAAATGGTATTTTAAATGTAGGAGCAAAAGACAAAGCAACAAATAAAGAGCAAAGCATTAGAATTGAGGGTTCAAGTGGATTAAGTAACGAAGAAGTAGACAAAATGGTTGATGATGCTAAAAAACATGAATCTGAAGATAAACAAAAAAGAGAAGAGGTTGATATTAAAAATCAAGCTGATCAATTAGTATATCAAACTGAAAAAAATATTAAAGAGTTTGATGATAAATTGACTGATGAAGATAAGAAAAAAATTGATTCTAGTTTATCAAAGCTTAAAGATGTTTCAAAGGGTAATAATCTTGATGAAATTAAATCATCAACTGATGAACTAAATTCTACATGGAACGAAATTTCTAGTAAAATGTATCAACAAGCAAAAACTGAAACAGAAACTAATTCGAATGATAAAAATACTTCAGAAAAATCTAGTAAATCTAATGAACAAGAAATTGAAGATGCTGATTTTGAAGTTGTAGATGAAAAATAACTGTCTAAATAATAATTAAATCTTTTTTTTTGTATTTATACATTAAAAGTTAAATTTAACTAACTGTATAAAATTATGAAAAGAAGAAACAAGGCTATATTATTACTATTAATTATACTGGCTTTATTGTTTGGAAGTGTTGCTTATATAGTAATTTCTCCAAATAAATGGACTAAAGAAATAGTAAATTATATTAATCAATCATTAATAAAGGATAATTCTTGGAATTTATCTTTGGGCGACATTAATGGTTCCCTTTTTTCTGATATTGAACTAAAAGATATTTATTTTAGAAATCAAGATGGAACAATATCTTTATTTTCTGAGTCAGTAAAATTGAATTTAGATTACAGTTCAATTTTTACTGGAAGTTGGGGTTTATCAAATTTGTTTTTTAATAATGTATTATTATCAATTGATTCAAAAAATGAACAAAAATTAGATGATATTAATTTTATAGGAAGACTTGCAAAAAAGGAACTGAAAAGTAAAAAAATAGCTATAAGTAATTCTTCTCTGATATTAAAAAATAAAAATACAGAAAACATTTATAAATTTGAGACAGATGGTAAATTGATTTCTCAGAATGATGTACTATCTTTTGAAATAAATAATTTTTTTGCAAAAGATTATTACAGTGATAATATTATAAATTTAAATCGTGGAAAAGTAAGGTTAAGCTCTGATAATATTTCATTAAGAAATATTAATGGAAAGTTTAATCAACATACAATTTCATTAAATGGAGTTAGAAATTTTAATTTAAAAAAAAATTCTAATTTTTGGGTTCAAATCAATGATTTAAAAATCAAAAAAAGTATTTCAGAAAAAATAAAATCTGACTCTTTAGCTTTTATTGATTTAAATATTGATTATTTAAATGATAAAATTAAAATAGATGGATCAATAAATGAGGTTTCATCAAGTAAAAAAATTGCACTATTCAGTACAAATATTAGCCAAAAAATAAATGGTTTTAACTTTGAAAATGTTATTTTTCAAATTAAAAATTCAAATCTAAACGGTACAGGTTTTCTTAATTTCAATAAAAAACTAGATTTTAATTTAAAAATTGAAAATTTTGATTTGAATACATTTGATTTTGTTTCAGACGATTCTAAAATCAATGGTCTGATAGATTTAAATATTAGATTTAATGATTTTTATAAAGTTGAAAAAGTTGAATCAAAAATTTCTCTTCAAAACAATAATTTTGGATCTGATAATTTTTTCTCTTCTTTTGGAAAAGTAAATTATGAAAATTCTCAAATATTTTTAAATGATCCTTTTATATTTAATGTTGGTTCAGGTTCATTTTCATTATTTGGAGATTATAATTTAGCTAAAGAACATTTGAATTTAGAAATGACACTAAATGAAGTAGAACTAGACAATTTTTCTGATTTACTTGATATTTCTTATTTACCTAAAAGTAAAATTAATGGATCAATGCATTTATCTGGGCTGATAGATAATCCATCTATAAGGGGAAATCTTAATTTTAAAAACATAAAATCAAAAAATTATACTTTGGGAAATTTAACTTCAACTTTTTCTTTAAATTCAATTAATAACTCAAGGGATGGTTCTTTATTTTTAAATGGTAAAAATATTAATTTCCAAAATATTAACTATGAGGATTTAGAAATGAATTTTTATTTTCTAGCTGATACTATTTACATTGCTAAAGCTAATTTATCAACTAAAAAAGAGAATACTATTTTTTCAGGTGAAATAATTAATTTTAATAAGTTAAATATTGAACAGTTAAGGTCAAATATTAATGGTCAGCAAATTCATATTCTTGAACCATTAAGAATATCATTTGAAAATAATAAATTTAATTTAGGGCCATCAAAACTTAAAGTTAATGATGGGAATATGGAAATTTATGCAAAGTTTAAATTTCAACAAATTCTTGAAGGAAATCTTGATGTAAATAATCTTGAAATAGATATAATTAATTCTTTTTTAAAAGATGAAATTCCTGTTTCAGGAATTTTAAATGGAAAGTTAGAAGCAAAGCATATCAATAATAAAATAAATATTGATGGTAAAATTGAAATTGGAAATGGTAATTATGAAGATTTTATTTTTAAAAATTTAATTACAGACTTTAGTTTACATGAAAATCAATTTTATCTTGAAAAATTAAAAATTTATTCTGATAAAGAATTAAAATTAGATCTTTCTGGATATTACAATATGATTGATTCAACCAAAGATTTATTTAAATTAAATCAAAATTCTGAAATAGATTTCTCTGCTTATTTTAATAATTTTGACTTATCATCTTTTTCCGATTTTCTACCTGATTGGTGGAATATTAATGGTTTTATTACAGGAAGTTCAATTTTGTCAGGAAAATTAGATTCTTCAAACTTAAAATTTTCACTTAATTTAAAAAATCCCACCTTTTCCCTTTTAAATGCAGATGAATTAAATATTAGTGGAACATATAATGATAAAAGACTTTTTTTTGAAAACATTATTGGATATACAAAAAAAGGTCAATATTATGCTGAAGGTTACATACCAATAGATTTAGATATTATTTCAGAAAATAAGAATATATTGATTTTAAATGATCCTGTAAATTTAAAAATCCATGGTAAATCTAATTCATTGGAATTAATTACACCTTATTTTTCAGATGTTGACTCTTTAAATGGAAATATAAATTTTGAATTAACATTAAATGGAACTCTTAATAAATTAATTAGAAATGGTTTTATCAATCTTTCCAATGGCAATTTATTTTATTCACATTTAGATCTACCTTTAAGTGGTCTTAATGGTTATGCAATATTGAAAGAAAATATGTTCATAATTAATAATCTTACTGCAACTTCAACTATTCCTGAAGATACCAATTGGGGTAAAGATTTGAGATATAATATTTCAAAAGTCTCGGGAGGAAGAATTTTTAAAAATAAAATGACAAATGAAATTCAGAATAATTTATCATTAACGGGCACAATGGATATGACTTCTTTTTTTAATCCAAATTTGGCATTTATTTTAAATGGTAAAAATATATATTTTAGAACACTTCTCGGGGAAATTGAAGCTATAGGTGATGTAAATCTTGCTATTACTGGTAAAGATACAATAAACATATCTGGTGATTTAATACCTGATGAAGCTGTTTTGAGAATGGAATTTTATGATGAAAATATTTCTAATCGTCAAATATCAAATAATGGTACAAGTATTAATTATAAATTAAATATTCCTATAAATGATAATTTATTTATACAAAATTCTCAAATTGATGCAGAAGTATCTGGTAATATGTCAATATTTAAGAATGGTACAGAGCCATATAGATATGCAGGAGAATTAGAAGTAGTTGATGGAAAATTTTATTATTACTCCGATGTTTTTGATGTTCAAGATGGGAATTTAATTTTTGATCCTACTCAATTGAACCCAAAACTAAATATTAACGCATCTACAACAATATCTGGTGAACAAATTTTAGTTAATTTATCTGGTTTTTTAGATGATCCTGTTTTAATTCTTGAACATTCAGATAATTTTTTCAGTCAAGAGGATCTTCTACAATTATTAACACTTCAAAAAACATTTAATGGTACTGCAGATGAACTTGGAAGACAGTCTGCTTTTATTTTCGGTAAATTTTTAGAAAATGAAATTGAAAAAAATATATCGAGAAGTAATCCAATTTTTAATGAATTTGATATTGAAGGTTCTTCTGCTATTATAGATCCTTCCAACAGTTCAGAAGTAGCAGTTAAACTTGGTACAAGAGTAACATCAAATCTTTCTTTAAGTTATAAGAGGAGTTTTTCTCTTTTAAAAAATAATGAATTAGGTGTTGAATATAGACTTAATAGAAATGTTTCTTTAGTTGCATCATATGATGAAGATGGTCAAGTTAGACTTAAGTATAGAAGAAAATATAAGTTTTAAATTGTTTATTAAAAAAAAAATCTATTTTTTTTTATTTTTTTATTTATCGATAAATATTTCTTTTTCTCAAAATATTAATAATAAATATATTGTTGGAATTGTTTCATTTTATGGAAATGAAACAATAAATAACAGTGAGTTAAGAAATATAATCAAACTAAAAGATACAAGTTTTTTTAGTTCTGTCCAGTTTAATAGAAGATCATTAAAAATAGATTCGTTTAACATAAGAAATTTTTATACTTCAAAAGGGTTCTTAAATGTAACAGTAAAGGATTCTTTTAATATTAATAAAGATAATTCAGTAAATATTTTCTATAAAATAAATGAAGGTTTAAGGTCAACTATACAATCAATTGAAATATCAGGAAATAAAAGTTTTGAAAATAAAGAAATTGAAAAGATTTTGAATTTGAGGGTTGGAAAGCCTTTCAACATAGTTGATTTAGGAAATAAATTTTCTGAATTAGAATTTGAGTATCATAAAATTGGAAAGCTATATTTTAACTTAGAGAAAGAATATTTTTCTAAAGAAAACATTGAGCTTAAATTAACTGTTGATGAAGGACCTGATGTTTTTATAGATAAAATATTTTTGAGAGGTTTAGATGCAGTAGACTCTTTATATGTTTTTAGAGAAATAGGTTTTAAATCTGGAGAAAGATACAATTCTGAAAAAATTATTCTTACTGAAAGACATATTTTTGAAACTTCATTATTTTCAATGGTAAATATTTTACCTGAAAAAAGTAGTAGAATGGGAAATTGGGTAAATGTAATTATTGATTTAAAAGAACTTGAAAAAAGAAATTTATTAATAGAGCCTGGATTTGCTCATATACCCTCAAGCAGTTCTGGAGGAGAACCTATTTCAGGTCTTGAGGGTTCATTTAATTTAGTAGATAGAAATTTATATAATTTGGGTATTAGAATGAGATTTAATTCCGCTCTAGATTTTCCAATAGATTTTTTAAATAATGATTTTTCCGTTCCAATAATTTTTAGATCAAGTTTATCTTTGGATAATAATTGGTTATTTAAATTAAGAGCTCCTAATACTTTTAGATTTTTTATAGATAGGTCACCTGAACTATTAAGAGTAGATAGCCCAATATTGAGATATGGTTTGGAGTGGTCTGGGTTAAGAAGATTTTCAAGAAAAACTATTTTAAGAGGTGGCTTAAAATGGACACAAATTTTTTCAGAAAATAATTTTACATTAATTCAAAATAATGAAAGTCAACAAGAAAGGAGTATTAATCTTAAATTTCAACATAGAGATTTAGATAATTTAATTTATCCGACTTCAGGATGGACATTTTCAATAGATGGTGAAGTTGTTGGATGGTTATTAGGAGGTTCACAAGATTACTATAAAGTTGAAATGGATTTAAAAAAATTTACATCATTATCAAATGGAAAAGTATTAGGGTTTAGAGGTAAAGTTGGAAGAATGGAAAGATTATTTGAATCTGCACCATATATTCCCTCTTACGATTTATTTTATCTTGGTGGTAGTACTAGCTTAAGAGGTTGGTCCTCACAAAGATATCTTTCTGAAGTAGATGACAATGGAATTATAAGACCAGTTGGTGGTTTGATTAAATTACTTTTTAATTCTGAGATTAGAATACCTATTTACAAAATCATAGGGGCTAATTTATTTGTTGATGGAGGTGCTTTAGCAATATCTATAGAAGATTTAATGAGTCAAATTAACAATTGGAATAAAGGTTATGGTTGGAATTATGGAGCAGAATTAACAATTAACACTCCATTAGGTCCAATAAGGTTATATTATGCAATTCCGTTAAGTAATCCTAAAAATAGTATTATAAATTTAGGTGTTCCTTTCGCTTTTTAATTTGGAACTTTTAATATAAAATTACGTAGTAAATATGAGATTATTTGAAGGGAAAACTCAGTGAAAAAATATTATAAAAATAATTTTTTTATTATTTTATTTCTTATAGGTTGCAATTCTGAATCTTCTATTGAAGTTTTAGAAAAAAGTAGAAATCTTATTAATGAGCAAAAATATTCTGAAGCCATTTCAGAACTTAGTTCTTTAATAAATAAATTCCCAAATTCAATTGAAGCGTCAGAATCACAATATTTGATAGCTGACACTTATGCTTTTTTGAATAATTATGAAGATGCTATTATTGCTTATAAATTAGTGGTTGAAAAATACTCTTCATCTAAATCTGCAATTAATGCTCAATTTATGTTGGGATATATATATGCAAATTTTTTATTTGATTATGATTTGGCTAGAAATGAGTATGAAATTTTTTTAGATAAGTTTTCATCAGTGGCTGACTCTAATCTAGTTGAATCTGTAAAATTTGAACTTAAAAATCTTGGAAAAGATTTAAGGGATATCCCAGCACTTAAAGAAATTTCTTAAATTGTTTTTAAGGTTATGATTATTAGTGAATAATTCTGATTTAAATAAGTTAAATGAAAAAATTGTAGAAAAATCAAAATTTATTGATTCAATTCTAGTAGAAATTTCTAAAACCATAGTTGGTCAAGATGAAATTATTAATAAAATATTAATTGGATTGTTTTCTAATGGCCATATTTTATTAGAAGGTGTACCTGGTTTAGCAAAAACTACAATTATTAAAACCTTATCGAACCTTATTAGTACTAAATTTCAAAGAATTCAATTTACTCCTGATATGCTTCCAGCTGATTTAATAGGAACATTAATTTTTAATCAAAAAAATGGATTGTTTGAGACAAAAAAAGGACCAATATTTTCTAATATTATTCTTGCTGATGAAATAAATAGATCTCCTGCAAAAGTTCAAAGTGCTCTACTTGAGGCTATGCAAGAAAGACAAATAACTATTGGAGAAAATACATTTCCTCTTGATGATCCATTTTTGGTATTTGCAACTCAAAATCCAATTGAACAAGAGGGAACATATCCCTTACCTGAAGCACAAGTAGATCGGTTTATGATGAAATTAACAATAAATTATCCAAATAAAGATCAAGAGTTAGAAATTTTGAAGAGGAATTCTTTATTAATCAATCAAACCAAGCATAAAACTGTTATAAAATTATCTGATATAAAAAATACTAGAAAATTAATTAATGAAATTTATGTTGATCAAAAAATTCAAAATTATGTTGTTGATATTATTTTATCTTCTAGAAATCCTGAAGAATATAAAATCGGGGAAATTTCAAATTTTATTAAATATGGAGCTTCACCCAGGGCAACAATTTTTTTAATTTCTGCAGCAAAAGCAAGAGCTTTTATGAAGGGTAGGGGATATGTTATACCTGAAGATATTAGGTATATCATTTATGATGTTCTTAGACATAGAATAATTCCTACATTTGAAGCAGAGGCTGAAGAAGTAAACTCGGAAGATATTATTGAAAGTATTTTATCTGAGATTGAGGTTCCTTAAATATGATTTCAACAGAAGTTTTAAAGAAAGTAAAGAAAATTGAAATAAAAACTAGACATCTTGTTAATAATTTATTTGGTGGCAAATATCAAAGTGCCTTCAAAGGGCAAGGAATGATTTTTTCTGAAGTAAGAGAATATCAACCCGGTGATGAAATTAGATTAATTGATTGGAATGTTACTGCTAAAAATAATTTTCCTTATGTTAAAATTTTTGAAGAAGAAAGAGAATTAAGTGTTTTTTTGGTTGTTGATGCTAGTTTATCAGAATCCTATGGTTCAAAATTAAAATTAAAATCTGAATTGGGAGCTGAAATTGCTTCAGTTTTGGGTCTTTCAGCTCTTAAAAATAATGATAAGGTTGGATTGTTAATTTTTACTAATATTATTGAAACTTTTTTACCACCCAAAAAAGGAGCATCTCATATTTTGAGAATAATTAGTGAATTAATAAAAAAAAAACCATCGCAAAAAGGAACTGACATCTCAAATGCTTTGAATTATATCCTTAAAGTTATTAATAGAAAGAGTGTTATTTTTTTAATTTCAGACTTCATAGATAATAACTTTGAAAAATCATTAAAAATTTTAAATAAAAAACATGATGTTATTTGTATAAAATTATTTGACGAAAGTGAGAATAATTTAAATGATATCGGGTTAGTTAAATTGCATGACTCAGAATCAGATGAGGAATTTTGGCTAGACACATCAAGTCAACTTGCCAGAAATCAATTTCAAAAATTAAGAAATGAAAAAAATATCGAATTTCTTAATTATTGTAAAAAAAATAATTTTGATATAATTCCTATTTCCACATCATCTGATTTTGTGAAACCCATAATAAATTATTTGAATAATCGAGATAAAAAATGAATTTAAAATTTATTATTATTTTTTTTTTTTTGTTTCATGTCAAAATAAAAACAATCAAGAAGAGATTTTTGACTCATTAAATATTTATAGTGAAGTAGATACAAATGAAGTTTATATTGGAAATAATATTAAATATAGAATCATTGCAACAGGATTAGATAGTCAAAAAATAATATTCCCTAAAATTTCCTTTAATAATCCAAATATTTCAATAGTTGAAAAAAATAATAATAACAAAAATTATAAGTTTGTTGAATATGAATTAACTTTTTGGGATACTGGTTATTTTACAATTCCATCAAATGATATCAAAGTGATCAGCAATCAAAATGATACAGCTCAAATAATAATTTCAACAGATTCAATTAAAATTAATGTTATTTCACTTATTAATAATAATGATTATTCAATTAAAGAAATTAAAGCAAAAGAACCACTTCCTTTTTCAATTTATTATAAGCTTATTTTTTCTATAATTAGTATTTTAATATTATTATTAATAATTGTTTGGATGTTCAGTAAAAGAAAAATTGATAATCAATTAAAAAATAACTTCAATAAAAATATTCATCCTTATGTAATTGCAAAAAATAAAATTCAACTCCTAAAGTTAAAAAAACCTAAATCTCAAAAAGAAGCTGGAACTTTTTACTCAGATTTATCATTTATAGTTAAAGAGTTTATTGAAAATCAATTTTTTATAAAAACTATTGAGATGACAACAAATGAAATAAAAAAAAATAAAAATATGATTGGTTTTAATAAAAATGAGATTAATGAAATAATTAAAGTATTAGAAAGAGCAGATTTAACTAAATTTGCTAAAGTATTTCCATTAGAAAATCAGTTGAAAAGTGATTTAAACGTTATTCAAGATTTTTTAGATAATCAAAAAATTGATTTATAAATATTAATTAAATGGGGGTTTAATGATTCAAATAAATAATTTAACAAAAAGGTATGGCGAATTTTTAGCTGTTGATGATATATCTTTTAATGTTGAAAAAGGAAAAATTTTAGGTTTTCTTGGTCCAAATGGTGCCGGAAAAACAACTACAATGAGAATAATAACTGGATTTATGCCACCAAGCGAAGGTTTTGTTACTATTTCTGGTCATGATGTTTCTAAGGAACCCTTATTAACTAAGAATAAAATTGGATATCTCCCAGAAACCCCGCCTTTATATATGGATATGACCGTTGAGGAATATTTAAATTTTGCTGGTTTATTAAAACAAGTTCCAAATAAAAAAATAAAATATGCTGTTGAAAATGCATGTTTAAAAGTTGATATAAATGATGTGAAAAATAAAGTAATAAAGGCACTATCTAAAGGTTATAAACAAAGAGTAGGACTTGCTCAAGCTATAATACATGAACCAGAGGTATTAATATTAGATGAGCCAACAATTGGTTTGGACCCCATTCAAATTCGAGAAGTTAGGGACCTTATTAAATCTTTAGCTGGTAATCATACAATTGTTTTATCAACTCATATTTTACCAGAAGTTGATATGACATGTGATGAGGTTGTAATTATTAAAAAAGGAAAAATTATAGCTCAGGATACTCCTAAAAATTTATCAAAAAAAATGAATAAATCATCACTTGAAGAAATTTTCATAGATTTAATTTCAGAATCTAGATCGGAGGAAAAATGAAAAATATTATTACAATATTTAATAGAGAATTTCGATCTTATTTTTCATCACCAATTGCATATATTGTAATTGGTTTATTCCTAGTTTTAACTGGAGTTTTTTTCTATTTATTGACATCTTCATTCTTGCAATATTCTGCTAATTTGCAATGGCAAGCAGCTAGAATGCGTCAAGCAGTTCCTCCAATGAATGTTAATCAGATGATAATAAGACCTTTATTTTCAAATATAAGTGTTATCACTCTTTTTGTTGTACCAATGATAACAATGAGAACTTTTTCTGATGAGAAAAAATCGGGAACTTTAGAGTTGTTGTTAACCTCTCCAGTGACAACGACTCAAATAGTTGTTGGTAAATTTTTAGCATCATTTTTACTTTATGTAATAATGGCCTTACTTACATGGGTTTATCCATTAGTAATTATAATATATGGTAATCCAGATATACTCCCAATTGGTATAGCATATATTGGAATTATCGGGATGGGAGCTGCATCAATAGGAATTGGATTATGGATATCATCTATGACAGAAAATCAAATCATATCAGCAATGGGGACGTTTGTAATTTTATTATTTTTATGGCTAGTAGGATGGTTTTCAAATTTTACTAGTGGAGGATTTTCTGAATTTTTTAAATATTTGTCTATAATTGAACATTTTAATGATTTTTCAAAGGGTATTTTTGACACAGGGCATTTAATGTATTATGTTTCTTTATCAGGAATGACTTTATTTTTAGCTCATCAATCAATTGAAAGTTTAAGGTGGAGATCATGAAAAGTAAATTTAGTTTATGGAAAGGTTCTACCTATGATGGTATTGTTATTGCTTTTTTAGGATGGTTATATGGCACCTCAATAATTACCTTTGATGCTCTTTCATGGTTGTTAATTATAATTGGTCTGATTTTATTTATTTTACCAATAATTTTTAATTATAAAAATGTCATAAATAATTTAAAATCTAAAAGAACTCAATTAGGTGCAAATACAATAACAATAATAATTTTAGTTTTTGTAATAGTTGGTTTATTAGATTATTTATCAATAAGAAATTCTTGGAGAGTAGACACAACATCTAAAAAGGAATTTTCGTTATCAGAACAGACTATCAGTATTATTAAAAATTTAGATAGAGAGGTTGATTTAACAGCTTTTGTTTCTGAAGTTGAAATGAGTCAAATGGAGGATAGATTAATTGAATATTCTCATTATTCGGGTAAATTTAATTATGAAATTGTTGATCCAATTAAAGACCCTGATAAAGTTAGAGAATTTTTTGGCCCAGATCAACAATACTTAGATTTACCTTCAATTATAATTACAACAGATAATAAAAGAGAAGAAATAAAATCTATTCTTGAAGAAGATATCTCAAATGCTTTAATTAAAGTTACTAGAGATCAAAAAAGAAAAATTTATTTTACTCAGGGTCATGGTGAAAAATCTATTTTCCCAGACCAAGCTGGAATTTCAACAAATGAATTAATTAAAACAGAACTTATTAATCAATATTTTGAGGTTGATGCACTTAATTTATTTCAAAAAGATAAAGTTCCTGAAGATACTGATGTTCTAATAATTTCTGGGCCAATTAAAAAATTTGCAAATAATGAAATTAATTCTATTAAAAATTTTTTATCATCAGGAGGAAATATTTTTTTAATGATTGACCCTGAATCTGAATCAGGATTAAAACCAATATTGGAAGATTGGAATATATCTGTAAATGATGACCTTGTTTTAGAGACTAATTCTAGTTTTGTTTTAACATCTACTGGATTAAATCGACAAAGTAGTGTTAGTGCAGCACCTTCAGCTGCAGAATATGGAGATCATATGATAACTAAAAATTTTAGGTATGCAACCACATTTGTTCAGGCTAGTTCAATTTTAAAATTAAATGAAAATGAAGATAAAATCCAAACGACAGGCCTTGTTTTTACTAGTCCTAACAGTTGGGGTGAAACAAATTTATCATTACTATTTGATGAACAAATTGCAGAACAAGATGAGTCTGATTTTTCTGGGCCAACGACTCTTGCAATGGCTATAGAGAAAAATGATTCATTAAAAACACGTATGGTGGTAGTTGGAGATTCTGATTTTGCATCTGATGTTTATGTTTCTCAAGCTCCAGGAAATATGGATTTCTTTTTAAATATAGTTAGTTGGTTAGCTGAGGAAGAAGATTTAATAGCAGTTCGCCCAAAAGAACCTGAAAACAGAACCATTTCATTAACTATGAAACAACAAAATTTGGTTTTATTTTTTTTAATAATTCTTCTTCCTTTAGTTTCAGTTAGAATTGGTATTCATATTTACATGAGAAGGTCATAGATTATTTATGAGAAGAATTTTTACTTTATTTATTATTGCAATTTCATTAGGATTATTTGTTTATATCTATGAAATAGAGGGTGATAAAAAAAGAGAAGAAAAAAAGAATTTTAACGAGTCTTTATTTAAGATTAAAAATGATGACATAAAATCAGTTACTCTAAAAAATCATTCTCAAATAATAAAATATATAAAAGATGATAATTTATGGAAAATAACTAAACCATTTAATTTGTCAGTTGATAAAAATAATATTGATCTACAGATAAATACTTTTGTGAATTCAAAGATCAAAAGAAAAATTGGTTTGGCTGATGAATTAAACTTAATCAATTATGGTTTAGGTTTATCAAATATTGAATTATTAATTGAAACTTTTGAAGGTCATAAAATAAATTTTGAAATTGGTAACGAATCAGCATCTAAAGGTGATTTATTTGTATTTAATAAAGATTCAAATTCTGTGATATTGAGTTCAAATGAATTAAAAAATCAAGTTTTAAAAACTTTATTTGAACTTAGAGATAAAAAAATCATTCATTTTGATAAGTCGAATGTGAATCAGATATCTATAATAACTGAAAACGATAGTGTAGTTATTGAAAATCAAGATAAAATTAATCAACTATGGAGAATAACCAGTCATAATCTTTTTGCAGACAATTCTCAAATAGATAATTATCTTAATTCTCTTAATAGATATAATGCAATCGATTTTATTGATAATCCAAGTAAAAATGAAAAATCTTATTTTAAGAATTCAAGCGTTAGTATAATTTTATATTTAGGAACTGATCTTACAAAAAAAACATTAACTATTGGAAAAAATAAAATTATAGATTCTGATACTAATCATTATGGTTTTGAGTCTGGAAAGTCAAATATTTTTTTAATTTCTGATGAAAATAAAAAATCCTTAATGAAAGATCATTTTTATTTTCAAGATAAGAAACTAATTAATTACAATGAAAATGATATTAAAGAAATTAATATTTTAGGGGCGCATAAATTATCAGTTATCAATGAGGATAGTTTAGGTTGGTATATTTCATTAGATTCAACAATTAAGTTAGAAAAATCAGATATGAATAGACTTTTTTCTGCTATCAATGGTATTCAAGCAGTAGAATTTCTTCAATATGAAGATCAAGAATCATTTGGTTTTAATGAACCTTTTATAGAAGTATTGATTAATAATAGTCAACAAAATGAAATGGGTTTAAGAATTGGAAATTCTGATAACAGTCTAAATCGATATGTAAAATCAATTAACTCTGAAAGAATATATAAAGCAACTAATAATTCTATAGAGAGGTTAACTAATTTAATTAATGAACTTAAAGGCGTAGAAAATACAGAAGAGCTATAAGAATTATCCCACCAAAAGCTGAGCATAAAAAATTGACTAAATTATTTGTGAATATTTTTATTCCACTAATTAATTCAGAAGATTGATTGCAATGAAATCCAATTTCATTGTTTTGACCACATTTTTTGCACTTATATTTTCCTTGTAATGTACTTCCAAGAATTGAGTCAAAATAGCAAGCTAAGAATCCTGAAACAGATATAATAATAAAAATATTTCCGTATTCAATTGAAAAAATAGATATAATAAAAGCTCCTCCAATTCCACCTATAATTCCAAGTAAAGTAATACCACCTGATTCACCTTTCTTAATTTTTTTAAAATTTATACTATTGATTGGATTTTTTTTTGAGAAAGATCCTATTTCAGTAGCCCATGTGTCTGAATTAACTGCTGAAATACTTGCTAGAAAAGAATAAAAAAATAATTCCATTGATGTGTAAAACCATATGAAGCTTAACAATAAAGGTATTGATCCATTAGACAAAACTTGGGTAAGGTTTCTATTTGATTCTTTTTTCTTTTTATTTAAAAAATAGGATGAAATTTTTGATAAGATTGAAGATGTTATAAAGAAAATTGAAATAGGAATTAAGAATTTCCATTTACCAATAGAAAATAAAATAATTCCAATTAAAAAAGCGGCGAGAGCTCCATCTTTTTTTAAAATACGAATTTTTATAAATAAATAACATAAAATACCTAAAAAACAAACATAACTTATTGTTTGAATAATAAAATTTTCTAAAATTATTTTTTGTGCTAAATCTATTGATATAGCGGAAAAAATTGGAACAGATAAATTATCAGAACCATTAATTGATATGGCTTCTGAAAAAGTTGAAATTAAAGATACAAAAAAAGCAATAAATAATAAATTTGATAATATCATTTCTTGATTTAAATCTTTTGAAAACAAAAGTCCAAAATAAACTAAAATAAAAGAACTTAGAGCCATTGTAATAGTTCCATTAACAGATTTTTTATCTCTCAAAAGTATATAATGTTTTGAATTAGGTAAAATATTTCCAACTATTGAAGCTGCGCTATCACTTACAGTTAGAATTGTTAATGACAATTGAAAAACAAGTGTTTTTTCCCACCAGAAAAGGCATAGAATTAAATATGCTATTGGATAAAAAAAAGTACCATAATTTTTGTTTTTTGTATAATGGATAGATTTAAAAATATTATATTTAATAAATATTAAATTAATTATTGCAAATAATATTGAAAGAATTATTGGAATTAAATTACTATCAAATAAATAAGGAGAAAAAATTAGCAATAATCCTGTAGAAAAATGTAAAAATTTTCTAGTAATAAAACTTTTAACATTAAAAAAATTAAATAATATTTCACTTACAGCAATAAATAAACCCACAATAAATAAAATATATAATCCAAACGATGTATCTTTTGTTAAAAAAAAATCAAAATTCATCCAATTAAAATAATATCAAAATTATCCATACAATAATAATAATTAATTTTTATTAAAAATTAAAATAATCATTATTATCTTGACATATGGATATAACTTATTTTTTAGTTTTTGTACTAGGTTTTATTTTAGGATCTATAATTGTGTATTTAATTTCATTTCAATTAAGAAATTCATTTTCAAATGATTCAGATAAAGCATTTAGAAAATTTCAAGATTTTGCATCAGAGAAATTGAATGATAAAATTGAAAAAGCAGACTACCGATTTGAAGAAAAAAAGAAACTTATTGATAACAATCTTGAAAAAGTAAGTAAATCTTTAAATGAATTAATGTCACAATCAACACTCTTAAAAACAAAATTAGACGAAAGTCAAAAAGAAACAATAAATCTCAGACAAACTACTATTGATTTAAAAAATATTCTTTCAAATTCACAATCAAGAGGTCAATGGGGTGAAAGAATGGCTAAGGATATTTTAAATATGATGGGTCTGATTGAAAATGTTAACTATACTTATCAAGACCCTGTAATAAGTGGAGAAAAACCCGATTTCACATTTAATTTACCTAAAGAAAAAAAATTAAATATGGATGTGAAATTTCCTTTAACTCATTATGAAAAATTCATTTCTTCTAAAACGGATTTTGAAAAAGAAATTGAAAAAAAAGCATTTTTAAATGATGTTAAAAATCACGTTAATTCAGTTGGGAAAAAAGGGTATATAAATTCAAATACTGTTGACTATGTATTATTATTTATTCCTAATGAATCTATTTACTCATTTATTCTAGAAAATGAGAATACTGTAAACATACTTGAAATTGCTTTTAGTAAAAGAATTGTGTTGTGTTCTCCAATCACTTTATATGCAGTTTTATCTTTGATTAGTCAAGCTATAAAAAGTTTTTCAGCTGAAAAAAATGCATTAAAACTTCAATTAATGGTTGATGAATTTTATAAGCAATGGAGTCTTTATTCAGAATCAATGAATAAGATGGGAAGAGCTTTAAATTCAGCTAAGATGGAATATGAATCTTTATCTGGAGCTAGAACAAATAAATTAGATATTTCATTAGAAAAAATAAAAACAATGAATTTATCTAACGAAAAAAAATAAATTAAATAAATATAAAGGTTAGAAGGAGTTGAAATGAAAAGAAGAGATTTTGTAAAAAAAGGAGCTTTAATATCATCATTACCTTTTTTAAATAATATATTGTATTCAAAAACTAGGAAGATAAAACTTTCGAGTTCGAATTTTAATCTGAATTATGCTCCTCATTTCGGAATGTTTAAACATCATGCTGGAGATGATTTAATTGATCAAATCCAATTTATGTATGATAATGGGTTTAGAGCAATTGAAGATAATGGAATGAAATCAAGGTCAAAATCTATTCAAGAAAAAATTTCAAAAAAATTAGATACTTTGGGAATGTCAATGGGAGTTTTTATAGGAAGTTCAATTGACTGGGAAAAACCTACACTAACAACTGGAAGAAAAGAATTTGAAAATGTTTTTTTAAATGATTTAAAAAAATCAATAGAAGTTGCTAAAAGAGTTAACGCAACTTGGATGACAATTGTACCAGGGGTAATAGACTTAAAACAAGAAATTGGTTATCAAACTGTAAATCTTGTTGAAACTCTAAAAAGAGGGTCTGAATTATTAGAGCCACATGGTTTAATAATGGTATTAGAGCCATTAAATTGGTGGTCAAATCATCCTGGTCAATTTTTAAAAAAAATCCCGCAAGCTTATCAAATTTGTAAAAGTGTAAACAGCCCTTCATGTAAAATTTTATTTGATATTTATCATCAGCAAATATCTGAAGGTAATATTATACCAAATTTTGAAAAAAGTTGGACTGAAATAGCTTACATTCAAATAGGAGACAACCCTGGAAGAAATGAACCAACAACTGGTGAAATTAATTTTAAAAAAGTTTTTGAGTATCTATATAATAAAAATTATAATGGAATTTTAGGTATGGAACATGGAAATTCAATTAAGGGTAAAAAGGGAGAAAAGAAAGTCATTGAATCATATATAGAAGTTGATAGTTTTTAATTAAGAAATTTTAAGTCTCTTTATTTTAGAAACTTTTGCATATTCTTCTTCTTTTTTAATTGTTTTTTTAACATCATTTCTTAGTAAAGATCTATTTAATTTTCTTTCAGTTTTAAAATAGCGATCTGGAATTTTATTTTCATCTATTAATTCTAATGGACCATCAGTCTCGTAAATAGTATACTTTTTATTATCTGTTTTAAGTATTTTATTTCCATTTTCTTGGTTTACGCCAATTTTATCAACTACAGTCATAATCAATTCCTTCATTTTATCTTTTGATCTATCTATAGTTAAACGTTTTTTTTTTAATTTTTCTAATTCTCTTTGGTGAATTTCTATAGTGCTATTAAGTTTATTTTCTTCAATATCTATTTGGGTTAAAAACCAATGAATAGAATCTGATTTATTCATAATTTCATTTGTAATCAATTTTTCCTGTTCAATTAATACGTTTTTATACTCATCTGGACAATCATCTAATGATAATTGCTCATGAGTTTCAATAAGAGCCTGGATTAATTCTACTGTTGAGGGCATAATTTTTTCTCCAAATTAAATAAATTATGATTTAGTAAAACTTAATTAAATTGTTCTATTATAAAAAATAGGAATTTTATCGTTCTATTTAACTTTTTTTACTATGACTGCGTCTAATATATGAAAAACAAACAGAATAAAGTTTTAAAATTAATAGAAAAATTTAAAAATGGTGAAGAAAAAGCGTTTGATGAAATTGTAAAACTACATTATGAACCAACATTTAACTTATTATTTAAGTTGGTAGGAAATAAATTAGATGCTGATGACTTATGTCAAGAGACATTTATTAGAGTTTATAGATATGTTAAAAAATTTAAAGGAAATTCCAAATTTTCAACTTGGCTATATAGAATTGCCTATAATGTTGCAAATACTTATTTTAGAAAGCAAAAAATTAAACAAATTTTTTCATTTGATCTTAATCAAGAAATACTTTTATCCAAAGATCCAGTTGAAGATGATGAAATGAATTCAATTTTAATGAAAAATATTAATTTATTACCAAAAAAACAAAAAGCAATTCTTATGTTTAGAGTAATCGAAGGTTTACCCTACAAAGAAATTTCAAAAATAATGAATATATCTATTAATGCTGCTAAAGTTAATTATCATCATGCAATTTCATCATTAAAAAAGAAAATAAGTAATTAGAATGTCTATTGAAAATCAAATAGAAAAACTTTGTGATTTAAACATTAATAATAATGATAAAAATAAATTTATTTATGAATTAAGAGAAGAAATTAATTTTAGAAAAAAGAAAAGTAAAATTAGAGTCATTTATTCATCTATGTTTATTTGTTTGTTTATACTTTCATTTTTTTCATTTTATATTCTATCTATTGAAGAAAATAATAATTATTTTTTTTCTGAAGAATTTAATATTCAGCAAAAAGAAAATTTTGATTTAAATAATCATAATATTCATTTTGAATCTATTGATTATTTGATTGAAAATTCTGATTTAATTATCTCAGAGTGTCTCTTATCTTGTGATTTAGTAAAAAATTCTAATACTTGCATAGTAAATTTTACTCTTGGGATATGATCGAAATTTGACAAATATGAGGTTTTAAAATTGAAATTATTTAATATAATATTTTTGTTATTCATTACTTTTTTACATTCAAATCAAAAACAAGAGAATATCAAGAATATGAAAATTTGGCTTCTGACAGATAAATTGTCTTTAACTGAAATTCAAGCAGAAAAATTTTTCCCAAAATATAATATTCATGAAGAAAACATAAATAAAAATAAACTTTTAATTAAAAAATTATATCAAGAAATAAATAGTCTTGATCCAATTTCAAAAAACAAATTTCAAGAATTAAAATTAAAATTATTTGATTTAGAAAAAAATAATTTAATACTAAGACAAAATTTTATTTCGGATATGGATAATATTTTAGATTTGAAACAAAGAATAGAATTAATAAATTTTGAACCATGGTTTAAAGATGAGCTTAAAAGAAAAGCTAGAAAAATGCATGAAAGAGAACATCTTAATAATCATTCACAAAATGATATACAAAAACGAAAAAAACATAAAAAGTTAAATCAATATTGAAATTAAATAAATTTTTTTTTTCACACCTTTTACTTTTTTCTATAATTTTTTCTCAAAATAGCTCCTGGCAACCTAATCAAAGCAAAAGTAGTCAAAAAATTGGTGAACTTTCTGGAACTATTATTGATTCATTAACTTTAGACCCAATCCCATATGCATCAATATCAATTGTAAATAGTAGAAGCAATACTATTATATCAGGCGGTATATCAAAAGAAGACGGTGACTTTGAAATTAAAGAAATTCCATTGGGTAAACACTTAATCGTTTTTGAATTTATCGGTTATAAAAAGAAAATTATTGGTCCATTAATTTTTTTACCTTACGGTGATAATAAAATTTCTCATCAATTTCCAAAAATTCTTATGGTTCAAAAAATTTTAGAGTTAGGGGAGGTTAATGTAGAAGCTGAAAAACCTATTTTTATTCAAACAGCTGAAAAAAAAACATTTAATATTGATAATAATTCAATTTCTTCTGGAGGTTCTGCAATAGATGTTTTGAGGCAAATTCCTGAAGTAGAGGTTGACATGGATGATAATATAAGTTTGAGAGGAAATTCTCAAGTAAATATTATGATTGATGGTAAGCCATCTGCAATGTCTGGTGATATTAAATCTCTTTTACAAAGTATTTCTTCAAATAATATAGCTGATATTGAAATTATGACTAACCCTGGAGTTAAATATGATCCTGAGGGATTAGCGGGAATTATTAATATTAAACTTAAAGAAAATAAATTTTCTGGTATGAATGGTAATTTTAATTCAAGTGGTACATCAATAGGTGGAAAAAATTTTTCCTCACAATTAAATTTGAGAAGAGATAAGTTTAATACTTATGTTAATTTTGGATTAAGAGATGGTATTAGACAATCTTCGGGTGACTCATATAGAATATACGATTTTATTGAATATAAAGATATTTTAGATCAAAAAAACAATAATAATAGAACTAATAGTTCGTTTTTTTTAAAAACAGGTTTTGAATATTTTATAAGTCCAAAACAAAATATCGGAATTTCAATATCAAAAAACGATGGAAATTCATTAAAAAAAGAGGATATTAATTTTATTAGGACATATACTTTGTATCAGGAATATGATAGATTTTTAGATAATAAAGATAATTTTAATGGAAATGAATTTCTTTTTCAATATGATAGGAATTTTACTAATTCCAAACAAAAATTGAATGCTTTTATTCAATTTTCAAATGGTGCTAGTGATAATAGGTTTGAATATTGGACAAATCCAATTATAGGTTTTGAAAATTTGTTTGATATTTCTGAAGAAATTGATCAATCATTAGATCAAAATTCAAATAATAGAAGTGATTTAAACATTAAAGCTGATTATATTCATCCACTTAAAAATGAAAATACTTTAGAAATTGGTTTTGATTCAAAGTTTAGAAATTTTGATCAAAATGTTAATGCTTTCTATTTTGATAAAATTTCATCTAATTATTTAAATGATGAAAGATATTCAAATCATTTTATTTATGACGAAGAAATTATTTCAGGATATGCTCAAATTTCTTCTATTTTTAGAAATATAAATTTTAATTTAGGTACAAGATATGAAAATGTTTTGATGGAATCTAGGTTGGTAGATTTGAATCAAAAAATTAATAACCCTTATAATAGTTTTTTTCCATCTTTTTCTTTTTCATTTGGTTCTCCACAAAAAATTCAATTTCAAGCTAGTTACTCAAAAAGAGTTAATAGACCTAGAAGCAGGCAAATAAATCCATTTGAAGATAGAGTTGATGAATATAATATTCGTAAAGGTAATCCTTATTTAAAACCTGAATATTCAGATTCTTATGAGATTAATATTGGAAGATATTCTAGAGGAATATCTTTTAATATTGGACCTTATTATAGATACACATCTGATAAAATTTCAAGATTTAAATCTCTAAATGATTTAGGTGTTTCTACTGCAACATATGCTAATATTGAAAAAGAGGTTTCAAAAGGAATATCATTAAATCTAAATTTTACAAACTTACTTGATAGAAAATTAAGATTGATATTTTCTGGAAGTTTATTTTGGGATGAGATAAATACTGACTTATTTGGAAATAATGAATATGATAAAACATCACAGGGTCAGAGGTTTAGAACAAATGTTATGTTTAATATGAACGAAACTACTGAATTTATGTTTTTTATGTTCTATATGCCAAAACGTGACATAGCTATTGGGAAGATGGGAAGCATGTCATGGTCAGCGTTATCAATTAAGAAAAAACTTTTTTCTAAAAAGTTAGATTTTTCAGTTAAATACGGAGATCCATTTAATCTAACTGGATTTCATTTTGAAACTTATGGAGAAAATTGGTCTCAAATTAGTAATCGGGATTTTAATTCTCAAATTTTCACTATTTCTTTAAATTATCGATTTGGTAAAATGGAAGATAGAAGTAGATACAATTCTCGGAGAAATAATGAACAAAGTCAAAATGATTTTGAAATATTTTAAAAAATGAAAAAAATTAATTCAATTTTAGAAAAATGGGATCCAATTATAGGTTTAGAAGTCCATGCTCAATTATCAACAAAAACTAAAATGTTTTGTGGATGCATAAATAAATATGGAGATTTTCCTAATAAAAACACTTGTCCAACTTGTCTTGGCCTTCCAGGTGCACTACCGGTTGTAAATAAAATAGCAATTGATTATGCAATTAAGCTTGGTTTATCTGTTGGAAGTAATATCACTAAATTTTCAAGATTTGCTAGAAAAAATTATTTTTATCCCGATTTAACAAAAGGTTATCAAATTTCACAATATGATGAGCCGATATGTGAGGGAGGTAAAATTATTATTAGATGTGATAATCAGATAAAATCAATAGAATTAACAAGAATTCATTTAGAGGAGGACGCTGGTAAATCTATTCATTCAAATAATAATTTAGGAACTGAGGTTGACTTTAATAGATGTGGAGTTCCATTGGTTGAGATTGTTAGTGAGCCAGTTATAAAATCTGGAGAAGAAGCAAAGAGTTATTTAACAAGACTTAAACAAATTTTGGAATATTTAGATATATGTGACTGTAATCTTGAAAAAGGAAATTTAAGATGTGACGCAAATGTTTCTATTAGGCCAAAGGGACAAAAAGAGTTTGGAACAAAAACTGAGCTTAAAAATATGAACTCATTTAGAGGAGTTGAAAGAGGTATAAATAGTGAAATCGAGCGACAGGCTGAAATTTTAAATAATGGTGGTAAAATAAATCAAGTTACTTTACTTTGGAATGAAGTTGATCAGGTTGCTGAAGTTATGAGGTCAAAAGAGGATGCTCATGATTATCGATATTTTCCCGACCCAGATTTAGTACCAATTTCACTGCAAGATAATGATATAAAAAAAATAAAATCAGATTTAATTGAGTTGCCTTTTGATAAAGAGCAGAGGTTTGTGAGTGAATATAAAATTCCATTAAAGGATGCTTTAATATTGAGTTCTGATATTAACCTTTCGATTTATTATGAAAATTCAATTTCTGAAGGTGCTAATCCAAAAGTTGCAGCAAATTGGATAATTGGTGAAATTTTAAGTATTATAAATGAATCGGATTTAGAAATATTAAGTTTTCCAATTTCACCAAAAAGGTTTTCAGAATTATTAGATTGTTTGTCTCTTGAATTAATAAATGCTTCGACAGCAAAAGAAGTTTTAAGAAAAATGTTAACAAATAATTTTACTGCAAAAGAAATTATTGAAAATGAAAATTTAGCTCAGGTTTCCGATGAAAATCAATTATCTAATGTTGTAAAAACTATAATCAAAGAATATCCTGAAGAAGTAGAAAAATATAAAGCTGGTAAAAAAACATTGTTTGGTTTTTTTATGGGAAAAGTGATGCAAACTTTAAAAGGTAAATCTAATCCAAAAATTTTAAAAAATGTTCTAATTGAAATTTTAGAAAATTAATATTTTTAGGAACTTATTTAGTTCATCGTAGTATATATGTTGTATGTTATTTTTAGATCGCTACAAATTTTTGCTTTAATAATAGTAATTTCTGGTTTATACATAGGAATTCGCGATAGAAATTTAATTTTAGAAGTTCAAGCACTAAGTTCAGGAGCAATATTATTCTACATTGCTAATTGGGCAAACGAAAAATTTGTTAATAAAAATTAATTATTAAGGAGATAATTATGGCTATTTGGGACGATTTGAAAAAATATGGAAACGTAGCTGCTGAAAAAGCAGAGGAGCTTGGGAAAGTTGCTGCTTCGAAAACGGAAGAATTAACTAAGATTGGAAAAATCAAGTTAGAAATTCATCAATTGGAGAAAGATTTATTTAGTTGTTATTCAGAACTAGGACAATATGTCTTTAATTCTACTGAAAAAGAAAATGTTTCTAATTTTTCAGGAAGTGACAAATTTTTTAAGTTAATTTCAAATGTTAAAGATTTAAAAAATAATATATCAAAAAAAGATGATTTGGTTAACAATATAAAAGATTAAATTTTATTTTAAGGAAAAAATAATTGATCAATAAAAATACAAATACATTAGGAAAATCTCTCACACTATACTTTAGTGAAATTGAAAAAACAAAACCTCTAGACCCTTCTGAGGAAATAAGATTAACTAAATTAGTGAAAAATGGAGATAGAAAGGCTCTTAATACAATAATTGAGTCAAATTTGAAATTTGTTGTATCAGTTGCCAATAAATATAGAGTAACTGGAATACCTTTAGAAGATTTGATTAATGAAGGTAATATTGGTCTTGTGAAATCAGCTTTTCGTTTTGATGAGACAAGAGGTTTTAAGTTTATATCTTATGCTGTTTGGTGGATAAGACAATCTATTCTTCAATTTATTGCCGATCAAGGAAGAGTAGTAAGATTGCCAGCAAATATTGCTAATAGTATGACAAAAATGAAAAAAAACTCAGAAAAATTAGAAAACGCACTTGAAAGATTACCTACAATGGGAGAAATTGCTGAATTGATGGAAATTTCTGAAAAAGAAGCTGATAAATTAGTTCAATTTAACGCAAGAAGTTTATCAACAGATCATCCTTTAGGTGAAGATGACAAAATGTCCATGAAAGATTTACTGCAATCTGAAGATTCTGATCCTGATTTAGAACTTATGGAAGATTCTTTATCTAAAGAAATTAAAACAATTTTAAAAACCATTCCGAATAGAGAAGCTTATATTTTAGAAAAGTATTTTGGAATAAATTTAGATAGACCATTTACACTTGAAGAAATTGGTGACGAATTAAGTTTGACTCGAGAGAGAATAAGGCAGCTTAAAGAAAGAGCAATCAAAAGACTTAAATCAACAAAAAAGTCTAAATCTTTAAGATTATTTTTAGATTAAATCATGTTGTATTTTTAAAGTTAAATTCTAAAATTTCATGGTATTAGATTTGATGTCATGAAACCTTTTAATAATATATTAAAGAAATCAAAAAACTTTCGTTTTGTTATAATCAGTGATGATAATGATGTAAACGTAAATCAATGGTCTATTTCCAGTAAAAAATTATTTATTTTATCATCAATCATTTTTTTTCTTTCATTAATTTTGTTTTTTGTTTCAGCTGATTATGTTACAAAATATTTATATAATGAAAAATTAAACAACCTAAAAAATAAAAGTAATTCAATGTTAACTCTAATTATTGATCTTCAATCAACACTTGATGAGATGAGTCTAGAGGTAAATGATATTGAGGAAAAAGATAAAGCCTTAAGAACTTATGCTAATTTACCATTAGTTGATAAAGATGTTAGAAAAGTTGGTATTGGTGGATCTCAACTAAAATTTTCTCAAGATTTTGAATCATTAATTCCTGGCGTAAATTATAAATTATCAAATATTGAAATGAATATTGATGAGCTTCAAAGAAAAATTAGACTTGAGAAAGAAAGTTATAATACAATTTATAATACAATTAAAAATAATTCTCAGAAATTATCATCCATTCCTTCTATAAGACCAGTTGAGGGTGGTTATCTTAATTCAGGTCTTGGATATAGAAAAGATCCTTTTACTGGAGAAAAAAGATTTCATCATGGTTTAGACATTTCAGCTAATAGGGGAACTGCTATCTATGCAACAGCAGATGGAAAAGTTGTTTCAGCTGGTAAATTAGGTAATTATGGAATTACAATTAAAATAAAGCATGGTTATGGTTATGATACTTTTTATGGTCATTTGCATAAAATTTTTGTAAAAAGAGGTCAAAATGTAAAACGTGGTGAGTTAATTGGTCAGGTTGGAAATACAGGTAGGTCAACCGCTAGTCATTTACATTACGAAGTTCATTATTTAGGTACTCCTCAAGACCCAGAACATTATTTTTTATCAAGAAACCTAAAATAATAATAATTATTTTTTTAATTTTTAAATGAAAAAATATTGCTAAATCTTAAAAAAAAAACTTAACTTTATTTATAATGAATTTTACACAAAACAAAAAATATTATATTGAAACTTATGGTTGTCAAATGAATGTTTCAGATTCAGAAGTCGTGGCTGGCCTTTTAGAGAAAAGTGGGTTTTCTAAAACTGAATCAGAGAAAGATGCAAATATAATTTTTTTAAATACATGTGCTATTAGAGAACATGCTGAAGATAAAATACATTCCCGATTAGGTAGATTAAATAAAATTAAAAAAAATAAACCAGATACTATTATTGGAATTTTGGGTTGTATGGCTCAGCATGTTAAAGATGATATCCTTGAAAATAAGCCATACGTTGATTTTGTTTTAGGACCTGATTCATACAAAAGAATTCCTAAGCTACTTGAACGTCAATCAATATTAGAAACATCAATAGTTGATACTAGATTATCTAGATATGAGGTGTATGAAAATTTATTTCCATATAGAAATAATGGAGTAAATGCATGGGTGTCAATTATGCGAGGATGTGATAAATTTTGTACATTTTGCATTGTTCCTTTTACTAGAGGAAGAGAACGAAGTAGACCATTAGATAGTATAGTTAATGAAGTAAAAAAAGCTGTTGATATGGGTTTTATTGAAATTACTCTTTTAGGCCAAAATGTTAATTCATATAATCATAATAATATTTTATTTCCAAAACTTATTGATACTGTAGCTAAAATATCTGGAGTTAAAAGAATTAGATATACCTCTCCACATCCTCAAGATATTGATGAAGAGCTTTTATTTGTTATGAGAGATAATCATAACATTTGCAATTCGGTTCATTTACCTTTACAAGCTGGGTCAAATAAAATTTTGAATAAAATGAATAGAACCTATACAAAAGAAAAATTTATGATTTTATCAGATAAAATTAGAAATATTTTATCGAATTCCTCCATCACAACAGATATAATTGTTGGTTTTCCAGGTGAGTCTGAAAAAGATTTTAATGAAACATTAGATGTGATGAATTATGTTAAATTTGATTCTGCTTTTACTTTTAAATATTCATCAAGGCCTGGTACTAAAGCTGCAGAATTTGATAATCATATTTCTGAAAAATTGAAACAATACAGATTAAGTAGATTAGTAGAATTACAACAAGAACATACTTTATATAGAAATAAATTAGAAATCGGAAAAAAAGTTAATGTTCTAGTTGAAAAAAATAGTAAAAAATCAAAAAATAAATTATCTGGAAGAACAGAAAATAATAAATGGGTTATTCTTCCGAAAACAAATACAAAAATTGGTGAAATTATACCGGTGAAAATTATTGATGCTAAAGGTATTAGTTTGTTTGGTGAAAAAATAAAAAAGAAAGATGAAAATTTTGCGATTATTTAAAACTATTTTTAGTATAATTATTCTTATATCTCTTTTGGGAGTTTTAAATCAAAATATGCAACCTGTCTCAATAGATTTGTTTTTACAAAAATTTTCCAATGTACCATTGTCAACTGTAATACTTGCAACACTCGGATCCGGTATTTTTATTGGATATGTGTTATCAATATCTTCAATAATGGGTAGTAAAACAGAGGCTAGATTACACAGAAATTTAAATAAAAAACTTACTGATGAAATTAATTCTCTAAGAAATATTTCAATTAATGATGAAAATGATTTTGTGGATGAAGATGAGAGCACATAGTGAATCTATTAAATAGATTTTTCCCGAAGAAGAAAGATTCAAATAAATTATATACTGAAGCATTAGAAGCTTTGCTCGAGGGTGATATAGAGAATGCAGTTTTTAAATTAAAAGATTTGGTTCAATATGATACTAATAATATTAGAGCTTATATTCGACTTGGAGACATTTTTAGAGAAAACTTAAAAGTTGAACAAGCATTAAAAATTCATCAGTCATTAATTCTTAGAAAAAGATTATCAAAAGCTCTTCAGTGTGAGATTTATATGAGCTTAGCAAGAGATTTTTTTGAACTTAAAAAGTTTGAAAGAGTTCAATATTATATTTTAGAAATATTAAAAATAGATAAGAAGAATATTAATGCATTAAATTTTATTTTAGATATTTATATTTTACAAGAAAAATGGGATGAAGGTATTAAAATTCTAAAAAAAATTGAAAAATTCCAAGGTTTTCCAACATCTAAGAAACAATCAGAATTAATAATTAAAAAGGCAAAAGAAAGTGAAAAAAATCAATTATTTAATGATGCAATTAAATATTATAAAAAATCAATTTTAATTGATTCATCAAATTTCTTATCTCATTTAAAAATAGGAAATATTCATGAGAAAAATAAAAATCTTAATGATGCATTGGTTGAATGGAAAATTTTTGCTGAAAAATCGTTTCAAGATGGAAAACAAATCTATAACAAAATAGAAAAAGTTCTTTTTGAATTAGGTAGATTTGGTGAGATTGAAGAATTTTATAGAAGTTTGCTAAAAATAAATTCCCAGAATTCTTATGCTTTATTAGGGTTAGTAAATGTTTTAATTTCAAAAGGTGAATTTGATAAGTGTTTATCTTTAATAGATGATTTGGTTCCAGATGAAAAAAGTTTTTTATTAGTTCAATTATTAAAAATCAAAATTCATTTAAAGAAAAAAAATGAAGATAAATTATTGTCAATCCTGGATAATATTCTTTCTTCTCTAAAAGATTGATTTTAATGAAAAGCTTTTATTTAATTTTAATAATAATAAATGTTGTTATATCTCAAGATTTAAGCAATTATTTTGAGGATGTTGAACGAGGAAATGTTGATAAAGTAAAATCTGAAATTTCAGATTTATTGATAAATTTTCCAGAAAATGATGGAGTTCTTTTTTTATCAGCACTTTTAAAAGATAGAGCTGAAGAAGCTGTTATTATTTATAAGTCAATAGTACAAAATTATCCTAATTCATCATATGCAGATGATTCACTAATAAAAATTGGAGAATATTTATATGCCAGAGGTCTTTACACTCAAGCAAGTGCTGAATTAAGAAAAATTCCTGTAAAACATTCTAAGTCTGAACATTTGCAAAGATGTATTGATCTTCAAATTAATTCATTGCTTGCTATTGGAGAAATTGATAGTGCAAAATTTTATATTAATAAATATTCAAATAATTTTACATCTTTAGATTTTAATTATGATTTTTCTTTTGAAACACCATTAATTAGTAGACCATTAAGCTCTAATTTTATTTCAAAATTAGCAGAAAGAGAAAAAACCCCATTCCTTTCACCCTCTAAAAATAACATTAATAAAACAAAATCAAATCAATCCCCAAATGAAATCTTTAAACCATATGTTGTTCAAGTTGGTGCTTTTGGTTCTAAAAAAAATGCAATAAAACAATCTCAATTAATAAATGAGAATGGATTTAATGCAGAAGTATGGCCAATATCGGTTAATAACAAAGATCTCTTTGCAGTTCAAATTGCAAGGTTTGCTACATTTGAAGAAGCTAATTTGATAGCGGAAAAACTTAAAGATAAAATGAAATTAAGCTTCTTAATAATAAATAGGCCACTAAAGTAAAAAGTAATTTTTTGGGAATGATTGTGTGGCTGGTGCTCACCTCGGTCTTCAAAACCGTTGTCTCATTTAATAGATGAGAGGTAAGTTCGATTCTTACGCGTTCCCGCAAATTATAAAAAATGAAAAATAAAATAAAATTTAATTTTTTTAAAAAATATTATTTAATAAATATATTAATAATTTTTTCAGTTTTGATCTATTTAAACTTGAACAAAGAAAAAATAGATAAATCTTTAATTATTTTACCATTTTTAAATATACAAAATAATGCTAAATCAAATTATTTTTCAGATGGATTAACTGAGGATATAATAACTAAATTATCAATAATTGACGAATTAAACATAATTTCCAGAGAGATTTCATTGCAATATGAAGATACAAAAAAATCCTTTCAGGAAATTGCTAAAAAACATGATATAAATAATATTTTGATTGGTACAATACTAGAAAAAAAAGATAGTATTTTTATAATATGTGAATTTCATAATCTTCAATCAAATAAATTAAATTGGAAAAAAGAATTTAATGGTGATAAAAATGACATACTTGAACTTCAAAGTAAGATAATTAAACAAATAGCAAATACACTGAATATAAAATTAAATTTAAGTGAAAGAAAAATAATTAATTCTTCGCAGTTTATTAACTTTGAATCATATAATTTTTATTTAAAAGGAAATTTTGAATTTCATAAACATACTTTTGAAAATTATGATATATCAATTAATTATTATAATAAGGCATTACAATTAGATCCATTTAATTCTAAAATTTATTCTTTAATTTCAAATTCATATGCTCAAATGTTTGGTTTAAATAGAAGTGAAATTTATAAAGATCTCGCAATTAGCGCTTCAGAAAGAGCAATAAAGATAAATAATAAATTTCCAGATGGTTATTTATCAAGAGCAAATATTTTAACTCTTTTAGGAAGGTTAAATGAAGCTTATGATTTTAATAAAAAAGCAAGTGAAATCAATAGTTTGGTAGGTGGTAATGAAAATAATGCATTGATTGCTCAATGGAAAGGAAATTTAAGTGAAGCATTAAATTGGTATAGAAAAATACCCAAAAAAGACAATCAACATGAAGGCAAAGCATTGGTTGAATTATCTAATATTTATTATTTATTAGGTAAAAAACAAAAAGCAAAAGATTTAATGGAGTTTGGATTGAAAAATCAACCAAATTCATTTCATTATAATAAATTTTTTGTAGTTCATGAATCATTTTCCAAAAATAAAAATAATGCAAAAAAATATATTTACAGACTCCAAATGTTGCGACCTAATGATAGTAGGGTGAATACAACCACTGGTTTATTTTATTTATGGTTTAGAGATTATAATAACTCTTTGACTTATTTTCAAAAAGTAAAATATCCATCGATTGAAGATAAAATAGCTATTGCATTTATTTTAAGACAAAAATGGGGTAAAAAGTGGTCTAATACAATTCTTAAAGAGGTTTTAGATGAATGTAAAATTAGAATTAAAAATGGTGATGAGATGTCATTAACTAGTTATTACATTTCAATGATATTTGCTATTCAAGAAGATTTTGATAAAACATTTAAATGGTTAGAAAAATCAGTTGACCAAGGTTTTCTTTGGATTGATTATTTAAACATTGATCCAAGATTTGATATCATTAGAAATGATGAAAGATTTAATAGTATTCTACAAAAAATAAATTTAAAATTAATTGAAGAAAATAAAGAAATTGATTTTTTGTAAATTAAAAATAAATATTTATTAATAATAGATTATTAAATAATAAATAAGGAGAAATAAATGATTCCTACAATTATTGGTGCAACAATAGGTTTATTAGTTTGTTTAATTTTAGTATATCTTACTAAGTTTTTATCAAATACTGTGGAAAATGCTGATGAATCATCAACAAAAAATTAAGTTTAAATATTGAAAAAACTTTCAATAATATTATTTCTAATCCAATTGATTTTTTGTCAAGAAGAAAAATTTTTTTGGGATGGTAAAAATTGGAATTCATTAAATAAAAAACAACTTTCAATTGAAAATTTATTTTTGTTAAAAAAAACTTATATTAATGGTTTGCAAGATGGAAGATTGTATGATTATTTTAAATTATGGTCAGTAGATTCACTGATTGTAACCAAAAGTTTAAAACCTGAATTAGACGATTATCTTTCCTCTTCAGAATTAGTAAGGTTAATCGATGATTTTTATCTTGAACCAACCAATGCGTATATTCCTGTAATATCTACAATATTAATTCTTAATATGCGTGCAAGAGGATTTTCTGAAGCTCAAATCAATCAATATATTAAAGAAAGTAAAGATTGGATAAATTCGCTTACATTAGAATCTAAAAAAAAAAGTTATTTTGACATGATGTTAAAAAAAAATAAATAAATAAATTAATTTATTCTAATTAAACCATCATTTTTTGTCCAAATAAATTCTCTTGAATCATTTTGAAAAACAATTTTACTTATATTATATCTAAATCTATGATCTAAATTTTTCTTAAATGGAAAAGTTAAAGCTCTAATTGATGATTGATTTGATGGTAATAGTGGGCCTTTATTATTTACATGAGTAATTTTTTTTTCACTTATTATATTACCCTTGTTATTTAATTCGGTTAAGAATCCTTTTAATTGAGATACTCTTCTTCCTGATTTATTATCTATTTGAATGACAACATATAATGTTTCATCATTTACAATTCTGATTCTAGTATCTATTTCAAAAAGGGGATTTTGTTGCGGAAAAATTATATTTGTTATAAAAAAGGCAATCAACAAGATTTTCATTAAATTAAATTAATATATGATAATATTCTTAGCAACTTTTAGTTAGAAATATATGTAAAATAACATAATAAATATGAATGATATTTTTAGAAAAATACCTTATATAAATATATTTTTATTTTTTATAACTTTAATTACAACTCTGCTAGCAGGTGTTTATATGGAAGGTGGAAATATTTTATCTTTCAGAGATATAAAATTAGGTATTCCTTTCTCTTTTACACTTTTAACTATTTTGGGGTTTCATGAATTTGGGCATTATTTTTATGCAAAAAAAAATAAAATCAAGGTTTCTCTTCCATACTTTATACCTGCTCCTACATTTATAGGAACATTTGGAGCTCTAATTAAAATAAAAAGTCCAATAACAACTAAAAAAGCTCTCCTTGAAATCGGAGCATCTGGACCAATTGCTGGTTTTCTTGTGACAATTCCATTATTAGTATATGGTTTATCAATGTCAACTGTTGTAGAGATTTATCCTGATTCTGGTATAATATTAGGTGAGCCTCTTTTAATGAAGTTCTTTACGTTTCTAATATTTCCAAATTTATCAGAATCTCAAGATATTATATTGCATCCAATTGGTTTTGCTTCTTGGATAGGTCTACTAATAACAATGCTTAATTTATTACCTATAGGTCAACTTGATGGCGGTCATATAGCATATGCAGTTTTTGGAAAACATCATCAAAAAATATCTAAGATTGTTTTTATATTTTTAATTCCTTTAAGTTTTCTATCTTTAAATTGGATTCTTTGGGGTATTTTGATAATTATTTTAATGAGAACTTTGAAGCATCCTCCTATTTTAGATGTTAATACTGTATTGACATTTAGAGAAAAAATAATTGGTTTTGTTTGTTTATTAATATTTATAGTTTCTTTTATCCCTGTACCTTTTGAGATTTAATATTGAACTATCTTAAAATTATATTTTATTTATTTTTTAATACCTTTTTAATTTCACAAAGTAGAGTTGGTGATTGGAAATCTTATCCATCTTCAATTGATATTAGACAAAGTTTGGTGATTGATCAAAAAATTATTTCTGCAACCTCAGGTGGAATTTTAATTTTTGACAAAGACTCTTCTTCATTTAATTTAATTACAAATATAAATGGTTTGGTTGAAACCGATTTAAATTCAATTGATGTAGATGTAAATGGACATATATGGATTGGTTCAAATTCACCAAATGGAGTTGTACAGATTTATGATTATAAAAATTTACGATCAATTAAAGTTTTTGATTTTGATGTTTGGGAAATTTCATCAATTTCAATTTCAGATTCAAATAGTTTCGTATCTTACTCAAAAGATGGTGAGTGGGGTATTATGGAGTTTTTCTTGGATGAAAAAAATTATAATTATAAGCAAATATTTAATCCATCCGAAAATCAATTAGAATTTATTTATGATATTGAAATTATAAATGATGAAATATATGCTGGATCTAATATCGGTTTATTTAAAGGAAATTTTATTGAATATATACTTAATTACCCAACTAATTGGACTACTTTTACTAACTATTCGAATAAACTAGTTAAAAAAATACTTAATAAAAATGACATTATATATGTTTTATCTGAAAATGAAATTTTTTCTTTGGATGAAAATGGAGTTTTACAAAAAAATATTTTTTCTTATGAGGATATTTCAGTAATTGATTTTATAATTGATGTTAATGAAAAAAAATATATTGTTTCTAAATGGAAATTATATGAGACTAATAAAAACGGAAAAATACTTAATAGTTGGCAAATAAAGTATGAACCAAATTCTATAACTGAAATAGATGATGAAAATTTAATTATTTCCTCAAAATCTGGTTTAGGTATTTTTAATAAAATAAATGAAAAATTTAAATGGTATACACCAAATTCTCCTTATTCAAATGTTTATACATCCATGGTGGTTCTAGATGATGGAAGATTGTTTGCTGCAGGTCCAACTGGCTTTTCAGTATTAGATGAAGATGGTTGGTATAATTTAATTACATCTCAAGAAAAATGGTCAATAAGAAATCATAGTGCGGATGAATTTAATTTTTTTGTATCTGATAGTAGTCAATATATTTCTTCTAGGGTTTGGTCAGTTTTAGAGGATTCTAATGGAGTTTGGATATCAAATCAAGGAGTTTTTCCAATAAATGATGAATTTAAAAATCCTATTTCTGGTGGAGTGATTTTTATGCCTTTAGATAATCCAGGAGGAATGGTTGTGTTTGATACTACATCAATTAATCCAACTAATTCTTTAGGTTATATGAATGTAAGAGGACTTAATATTGATAAAAGAGGAAATATATGGGCATCAAACTTTGGTTCATTAGATCCTGATAAAAAAATTATTGTTTTTGATAGAAACGAGTATAATAAAAATAATTTATTTTTTTGGCATAGTATTAATCAATCAGGGTTGGGTTCAAATTTTAATATTTTAGATAATCCCACAGATATCATGTTTGCTAATGAGAATACTGCATTAATAGGTTCGAGTAAAGACGATGGCTTATTCATTCTCAAATATAATTTAGACTCTGATAATGATGGTATTCCAGATGCTATTGACATTGATAGTGATTCTGATGGTATTCCTGATATTGATGATTGGGATGATGATGGTGATAATATTCCAGATAATCAGGATATTATTTCAGTTGATTGGAATAACTTTTCAACTTTAAATGGTTTAGAAGATAACACTATTTGGTCTTTAGCAAAAACTAATGAAACAAATTATTGGATTTTAACTTCAAAGGGTTTACAACAAATATATTTTAATAATGATTTTTCTGAAATAACTCCTTTTTATTTTACTTATTTTTCTGGTGTTTCATTTGGAGAAGGTTCTAAAGTTATTCCAGATGTAAAGAATAATTTATGGATTTCATCCATTGATAAAGGTCTCTATGTTTTATTAAATAATGGTGTTCCATGGCCTGATTGGTATGGTTTTAGAAAAGATAATAGTATGTTGTTATCAGATGAGGTTACATCTATTGCAATTGACAATAAAAGGGGAATAGCATATATAGCAACTTCAAAAGGTATAAATAGTCTCAGGATTCCTTTTGCAGAATCAAAATTAAATTTTTCAAAAATTAAGATTTTTCCAAGTCCATATATTATACCATCTGAATTACCAATGGTAATTGATGGATTGATTGATGAATCATCTATAAAAATAATTACTTTATCTGGGGATATTATTAAAAATATTAATTTTTCAACGGATGATAATAGTGGTTATCAGGCCTTTTGGGATGGCAAAAATGATAATGGACAATATGTAAGTTCGGGTATTTATTTAGTAGTAATGTATTCTAAAAATGGTAAATCATCAGTTGAAAAAATAGCTATAATAAGGGAACAATAATTGGATCGATAAATTATTTTTTTATAGTTGAATTATAAAACCAAAATAAAATTGAAAGAAATAATATACTGCCTAAATTAATCATTCCAAACTCTGGAAAATTATTATAAGATGGCCACCAATTTTTTTCACCTGAAATGAAAATTGGCAATGCAATTAATATTCCCATTAACGCTTCTCCAGTAATTAGTCCAGATGCTAACAATAGCCCACGTCTTTGTAATAATTTATTATTCATTTTTTTTATGCTTAAGTAAGAAATTATTCCACCGATAAAAACAGGAAATGTTAGTTGAATTGGGAGGTAAATTCCTACTGCAGCAGCTAAAACCGGAATTCTAAATGAAGAATTTCTTTTTTCTAAAAAAACATCAATTATAATAATAATAATTCCAATTATTGATCCTATAATTAACATTTCCATTGGTAAATTTCCTAAAAACACACCTTCTGAAACTGACTTCATTAATGTTGCTTGAGGTGCTGACATTTCTGGTGATCCTATTGTGTAGGCTGAGTGTAGAATGTCTAATACTAAACCTAAAACTAATGATGATGAAAGAACCCCAATAACTTGCATGATTTGTTGTTTTAAAGGAGTAGCTCCTAAAATATATCCTGTTTTTAAATCTTGCATATTATCACCGCCAATTGCAGCCGCACAACATACTACTGCTCCCACCAAAATTGCTGCCGCAGGGCCATTAGGAGAGTTTTTTCCTAAAAGTATTAACAATAATAAAGAGGTAAATAAAATTGTAGCAATTGTAACTCCAGAAATAGGATTGTTTGAGGAACCAACAACACCAGCCATATAGCTAGCAACAGCTGAAAAAAGGAAACCAAAGATCATCATAATTAATGAAAGTATTATAGCAATTACCAATGAATCTAAAATATTAAAATACAAGAGAATGACTGGAGGAAATAATGAAAGTAATAAAATTAAAACTATATTAATTGGTAGATCTTTAGATTTATTATCTTTTGAATCGTTTAAATTTGCAAAACTGGTTTTTATTCCTTCTATTAAAGGTTTTGCAAGCTTAATTAATGACCAAATTCCACCAATAACCATTGTTCCCACACCTAGATATCTTATTTTAGAGTTCCAAATATTCATTGCAGCATCAAATGGATTACCTTCAAAACCATTTATATAAGTGTAAATCGGAATAGCAAATAACCATGAAATTAATCCTCCTGAAAAAACAACAGTTGATATATTTATTCCTACAATATAGCCAACAGATACTAATGCTGGTGATAAATCACATCCAAATCCGAAAATAATATTATTAAAATTTCTTGCTCCTTCAATGGCACTTCCCCATAATGAAAAACCACTTTGGCCTAATTTCATCAAAGAACCAATTAAAGATGAAATACCTATAGTTTTTAGGCTTGACATTGATTTAACATCTTTAGATTCATCACTACTATGGCCTGCTTTTAAAACTTCTGCAGTTGCTATACCTTCTGGATATAAAAGTTTTGCTCTTACAATTAAAACTTGTCTTAAAGGAACGGTAAATAAAATTCCAATTAATCCTCCAATTGCAGATATTTTTGCAATTTCAAAATAGTCAAAGCTTTCCCAATATCCCATCAACACTAAAGCAGGAATAGTGAAAATGACTCCTGCGGCTAACGATTCTCCAGCTGATGCAGCAGTTTGTACAATATTATTTTCTAGTATATTTGAATTTCTAAATAATTTTAAAACTCCCATTGAAATAACTGCTGCAGGTATCGAAGCTGATACTGTCATGCCAGCAAATAATCCCAGGTAGGCATTTGCAGCAGCTAAAATTGCTGATAATAAAATACCTAAAATAATTGCTTTTAAAGTAATTTCAGTTTTTTTGGGTTCAAAATTCATTATTTTTATAATAGAAGATATTTAACTATAAATAAAAAGGCAAGAAATAGAAAATTGTATTAGTAAAAAAAAATAATTAATTTTTTATTGGAATCGGGGTGCTCTTAAGGATGAGAGCTGAGATAAAACCCATGTAACCTGATCTGGATAATGCCAGCGTAGGGAGGTATTCATGAATTTCCTTTTGTTTTTTTTAAAAATTTTAATTTTAATCTCTTCAGTAAGTGCACAATCAACAAATATTAATTTGTCTGGAAATATTATTGATTTTGATACAAAAAAACCAATTGTTGGAGTTAATATATTTAACTTAACAAAAGGTACTTCATCAGATGAAAATGGCAATTTCAATCTAGATATTGATTTTGGTTCTCACCTTAAGTTCACTCATATTGGATATAAATCACAAACTAAAATAATATCAGATAATAGATTAATGATTCAGCTTATTCCTATTACAATTGAGATTGATGATATTGTTATTTCAGCTCAATTATCTGATGAGTCTCTGCAAAATTCTTCTTCAAGCATCAAAGTTTTTACTAAAAATGATTTAAAAAATCAAAATGAAAGTCACATTCAGGGAATTTTAAATAAAACCCCTAGTCTTACGTTTGCAGGTGGAACTTCTCGTCCTAGATATTTTCAAATTCGAGGAATAGGTGAGTTAAGTCATTATGCTGGTGAGGGCCCACCTAATTTTTCAGTTGGTTTTGAGATTGATAATATTGAATTAAGTGGTCTGGGAATGATTGGATTTTCAAAAGATATTGAAAGAGTAGAGGTTTTTAGAGGCCCACAATCTTCAGTTTTTGGTTCAAATAGTTTAGCTGGTCATATTTCATTGAAATCTATCGAACCTTCTGATCAATTAATGATTGCAAGTGAATACTCAGTTGGAACAGATAATATTAAAGAATTAAACTTTGGGATTAGTAATTCAATATCTAAAAATTTATCTTTCAGATTATCTTATTTTGATGGTTCAGGAAATGGGTTTAGAAATAATAAATTTTATAATTCAAATAATTCAAATCAAAGAAATGAAAAAATGTTAAAAGGAAAGTTTAAATTTTTAATTTCTGAAAATTCAAATATTATAACAACTTTTATTCATGCTGATTTAAATAATAAATATGATGCCTGGTCTCCAGACAATAATGAAAATTATTTAACTTATTCAGATGACCAAGGTGAAGATGCTCAACAAACAAATGCATTATCTATTAAAAGTAATTTGAAATTAAAAAATAATTTTAAATTGATTTCAATTTCAACATTTTCAAATAGTGAATTAATTCATAGTTATGATGGTGATTGGGGAAATAATGACTTTTGGATGAATGAACCTTATAACTTTAATTCTGAAACAGAAGGATATGAATATAGATTCTTCGATAAAAATTTTAAAAACAGAGAAGTAATTACCCAAGAATTAAGATTGACTTATAACAATAATGTTATTGGTGCTTACGTAAAAGACTTAATTGAAATTGATGAAGCAACTGGTTATTTGTTTGGAGGTGATGCAACAAATCTTAATAGTGAATTTAATTTTAATATTTTTTCATTATATGGAAAATCTAAAATAATTATTAATGATAAATTATTTTTTTCATCAAATATTAGAATTGAAAATAATATAATTAATTATGATGGAACAGCAAAAGGTTACAATTCATTGTTTGAAATTGTTGATTTGAATTCTTTAAGTAATGTATTGGATAATCAAATGTTAGGTTGGAAAATTTCATCTAATTATATAACTCAAAATTCAAACTTTTTTAGTTCATTTTCACGAGGTTTTAAAGGTGGAGGTATAAATCAAAATCCTTATTTGACCGAAAATAGTAGATTTTATAATCCTGAATATATAAATAATTTTGAATTTGGCTTAAGAAGAATTAATTCATCAAATTATTTTAGTGTTGTAGGTTTTTATGCACTTAGAAAAAATCAACAAATATCAATTTCAAGACAACAAAAAGCAGATGATCCAAATAGTTTTATGTATTTTATTGCAAACGCAACAGATGGGTATCTCTATGGTCTTGAATTTGAAAGTAAAATAAAAATATTTGATTCTCATTTTTTAGAATTGAATTTTGCTTATTTGAAAAGTTGGGTCGAAGAATTTGATTATGAATTAGACCTTGGAACAAAACTTGGTGGAAGAGCATCTTCAAATTCTCCTGAATTGTCATATAACTTAATATATAATTTTGATCATACTTCGGGTATTTATGGTAAAATTGAATTAATAGGAAAGACAGAGCACTACTTTTCTGATAGTCATGATCAAATTAACAATGGTTATAATTTAATTAATACTTCGATTGGGTATAAAAGAAATTCATATTTTATAAAATTTTGGGCAAATAATCTTTTAGATGAAAGATACTCAACAAGAGGGTTTTACTTTGTGTTGGAGCCTCCTAATTATGAAAATAAACTTTACCTTTCATGGGCAGATCCATTTAGGGCTGGAATAACAATCGGTTATGATTTTTAATTTTGAATCAAATTAAGTTTTTTTAATTTAGGTAGAATTATGTATTGACAATAAGGAGCATTAGGATTGTTGTTAAAATAATCTTGATGATAATTTTCTGCTTCATAGAAAACTTCCAATTTTTCAATAGTTGTAACAATTTTATTTTTAAAAACTTTAGAATCAATTTTTTTATTTAATGATTTTTTGGCAATAATTTCTTGATTTTGATTGTGAAAAAAAATTACAGATCTGTACTGTGTTCCGACATCATTACCTTGCCTATTGAGTGTGGTTGGATCATGAGATAGCCAAAAAATTTCTAGAATTTCATTATAGCTAATTTTAGTTTTGTCAAAACTAATTTGTGCTGTTTCAACATGGCCAGTTTTTCCAGAAATTACTTCCTTGTAAGTAGGGTTTTTTGTTTCTCCTCCTGTATATCCTGATATAACATCTAAAACTCCATCAATTCTTTCAAAAACAGCTTCAACGCACCAAAAACATCCAGCACCTAATGTTGCGATTTCAATTTGATTCAATTTTTCCTCACTTTTTAATGAATTGAATGATATAATTAACGAAATTATAATAAATCTATTAATTATTGATGAATACATAATCAAAAAATATGCTAAAAAAAAAGATTTTCAAATGTTAAATCAATATTTTGTTGTTTGAATAACAAATATTAAATTTTAACAATTAAATAAAATCTATTATGTCTAGAATATGCAAATTATGTGATAAAAAACCTGGCTCAGGAAATAATGTGAGTCATGCAAACAACAGAACTCGCAGGAGGTGGTTACCGAACTTGCAAACCATGAAGGTAAACCTTAATGGAGTCACAAAAAAAATGAAAGTCTGTACTTGGTGCATTAAATCTGGCAAAGTAATTAGAGCTATCTAATTTTATTTCTCGAAAATTCATAAAAATATAATTTCTTAATTCTCCTCTAAATTTTTCTTTATGAAAAAGAAAAAAATTATAAATTTTTCTTGACATAAGTGGGTTAAAAGGGTAATTTGTGGGGAGCAGTGGGTAATATGCCCAAAGGAAAAATGACAATTAAAGATAATACATTTACTGGAGAGTATAAATATAGCCTGGATAATAAAGGCCGAATAAACATACCTTCTAAATTTCGATTGTCATTATCTAAAATCAGTAATGATAATTTTGTTATTACCAAAGGTATGGATTCATGTATTGTAGCGTATCCTTTAGAGGAATGGCAAGTTAGAGTTGAGGCTGGGTTAAGAGAACTTTCGTCAACCTCATCTAAGAATAGAAAATTAGTAAGATCAATTACTCGATTCGCTAATACAGTTAAGCTTGATGCTCAAGGAAGAATTCAAATAACTCCTAATTTAAAAGAATATGCTAATCTAGAAAAAGAAGTAACAATTATTGGAGTTGTAAATAAAATTGAAATATGGAATCCAATTTATTTATCAAAAATGGAAGATATAACACCTGATGATTTTGATGATTTAGAAGACAAGGTAATACTTTAAAAAAGTGAATAATAAATGGGCTAATACAAATTTTCATGTGCCCGTTTTAAAAGATATAGTTATTCCAAGTTTGTGTATTAAACCAAATGGGATTTATTTAGATGGTACATTGGGTTTTGGTGGTCATACAAAATTAATTATGAATCAATTTACTAATCAAGGTGGAAAAGTTTTAGGTTTTGATGGCGATATTGATGCAATAAAATATTGTAAAATAAATTTATCTTCGTCATGTATTATAATTAATGATTCATATAGTTCCTTTCAAAAATATTTACCTCAATTCGGGGAAAATAAATTTGATGGAATGCTTTTAGATTTAGGAATTTCTTCTTATCAGATTGATAATCCCAAAAAAGGATTTTCATATCAAAATGATGGTCCTCTCGATATGAGATTTAACATCAACCAAAAAAATAATGCCAATGAAATACTTAATAATTGGAATGAACAAGATTTAATTAATTTATTTAAAAGATATGGTGAAATATTAAAACCTAGAAACATAGTTAGAGCTATTATCAAAGAAAGAGAAAAAACAAGATTAGTTTCAACTTTACAATTGAAAAAAATAATTTTGAATATAATCGGAAATTACAAATCAAATAAAGTGTTATCTAAAATTTTTCAAGCAATAAGAATTGAAGTTAATAAAGAGTTAAAGTGTTTAGAATTTTTTTTGAATCATTTTATTGATTATTTAAAGGATGAGGGTAGAATAGTAATTATTTCATATCATTCTCTTGAAGATAGATTGGTAAAAAATTTTTTTAAAAAATACGAGAAAGGGTGCATTTGCCCAAAAAACTTTCCTAAATGCATATGTGATATTAAACCATCACTAAAATTAATTAATTCTAAAGTTATTGTACCTAATCAAAATGAGTTAAATGTTAATTCAAGAGCTAAGAGTGCTAAACTAAGAGTTGCTGAAAGAATATAATGTCTAATAATAAAAGAAAAAGAAAATCAATGAGAGAAAAAGAATTTATTAATTCTCTAATTTTTTTTATTACAGTTATTACTCTTGTATTTGGTTCAATAATTTATTTGTGGGTTCATAATGAAACTAAACTCATAGAAAGAAATAATATTGTTTTAATGAAAACCAAACAATTATTAATTGAAGAAAATAGAAAGCTTAATGGAGATATAGCTAGATTGATGAGAGCTGATAGAATAACAAAAATAGCGGAGGAAAAACTAGGTTTAATAACTCCATCACCTGAAAAATTTGTTGTTTTAATTGATAGTGAACTTTATGAAAGTATCAAATGACCAAATCTTTTTCAAAATATAGAAATAGAATTTCATTCTTATCTGGCGTATTTATTTTAGTTTGGTCGGTTTTAGTTATTCGTTTTTTTCATATTCAAGTTTTAAATGGAGAGGATTTTAAACAAAAAAGCATAAAACAATCTACAACAAAACGGTTGATAAATCCATCGAGAGGTTCGATTCTTGATAGAAATGGATATGAGCTTGCTTCAACGGTAACACACTATAGTTTTGGTATTCAATCACAAGATATTGAAGATAAAGAAAATTTAATAAAAGTATTTAGTTCGGTAACAGGAAAATCAAAAAAATATTATGAAAACAAATTTAATTCAAATGGTTTTCAATATTTAGAGAGAAATATGTTATCTGAAAAAGTTAAAAATATTTTAGAACTAAATGATAAGGGCTTAATTGTAGAAAAAAATGGTTATAGAACATATCCTCATAAAAATATTGGTTCTCAAATTATTGGATTCACTGATACAGATAATAAAGGGATTGAAGGAATAGAAAAGCAATATAATAAAGCTTTGTCAGGTGAACCTGGATGGGTGGTATTAGAAAAAGATGCAAAACAGAAAGTTAGAAAAAATCGTTCATTTCCACAAAAATTACCTGTAAATGGATCAAATATAAAATTAACTATTGATTTGCAGTATCAAGGAATTCTTCAAGATGAATTAAATAAAAGAATGATGAAAAGTGACGCTAGAGGAGCAATGGGAGTTTTAATTGAACCTGAATCTGGTAAAATATTAGCTATTTCATCAATACCTGATTTTGACCCAAATGAACCTGCAATTTATAAATCTGAAACATATAGAAATAGACCAATAACTGATCAATTTGAGCCTGGTTCAACATTTAAAATTGTTCCAGCTATAGCTGCATTGAATGATAGAGTAGTTAATTCAAATGAAGAATTTCATTGTGGGGATGGTTCTTATTTAGTTGGAAATCATGAAGTAAAAGATTGGAAGAAATTTGGTTTATTAACATTTGAGCAAATTATTGAAAATTCAAGTAATATAGGAACAGTTAAAATAGCACAGCTCGTCGGTAAAGATAGAATATACGATTTTGGGAATAAACTAGGTTTCGGTAAAAGAACTGGTATTTCTTTCCCCGGCGAAGCAAAAGGAGTCTTTAAAACAACAAGCAAATGGAGTTCAATTTCTTTAGCTGAAATATCAATTGGTTATGAAGTTGCAGTAACATCATTGCAATTAGCAATGGCATATGGAGCTTTAGCCAATGATGGATTTTTAATGAAACCACATCTTGTTGAGGAAATTATAACTTCAGACGGGAAAGTGCAATATAAGGCGAAACCAAAAGTAATTAAGAAGGTTGCATCCGATGATGCAATATTAAAGTTAACAAAAATGTTAGAAATGGTAGTATCAAATGGAACTGGAGAAAAAGCTAGTTTACCAGGATGGAATGTAGCAGGTAAAACAGGAACAGCTAAAAAATATGAAAGTGGTGGATATTCATCAAAGAATTATATAGCATCATTTGCAGGTTTTTTCCCATCAGAAAATCCTCAAGTAGCTGGTGTAATTATACTAGATGAACCAAAGAAGGGTTTAGTATATGGAGGCGAAAACTCTGCTCCTGTTTTTGGTTCTATTGTTAAGAGAATAGTTCAAAGTGATGATAATCTTGTTCATTTTAAAAAAAATAATTTTAAAAAGGTTAAAAAGGGAAAAAGTAGATTGATGAATCTTGAAAAACAAATAGTTGAAAAAAATAATTTTAATTCAAGTTTAAATATGTTATCAACAAAAGGTGATGCTTTTGGCAAATCAAAAATTAATGAAAAGTTAGATGAAGGTTATGTAAGGATACCTGATTTAAAAGGAAAAAGTATGAGAAAAGTTATTAACATATTAAATGAATTGAATTTGAAGCCTAAAATCCAAGGCTCAGGAATAGTTTTTTGGCAATTTCCAAAAGCAGGTCAAATTGTAAAAAAAGGTATAGTTTGTAAGGTTGGATTAAAATAATGATTTACTTAAAAAATTTGATTGAAAATATTGAAATTTCAAATTTACCTAAAAGTCAAATTAAAATTAGTGATATTACAAATGATTCAAGAAAGGTAAAACCTGGTTCAGCTTTTATAGCAATTAGTGGATATAATAAAAATGGAAAAAAATATATTAATGAAGCAGTTAAAAAAGGTGCTTCTGTCGTTATTACAGACCATACTGATGAGAAAATAAAAATTCCTATTTTAAAAGTTAAAAATATTAGAAAGGCAATGTCAAAAATTTCTGCTAACTATTATGATAATCCATCTAAAAAAATGTATGTTATAGGAATCACTGGCACTAATGGTAAAACAACTACCAGTTTTCTTTTAAATTCAATAATTAATTCTTCAAATAAAAAAAGTGCTTTAATTGGAACTTTAGGGGCATTAAATGAAAAAAATCTTTTTAATACGAATTTAACAACACCTGATTCAATTGAATTGCATAATATTTTAAATAAATTTGTAAATGATAAGATTGAATTTACAATTCTTGAGGTTTCATCTCATGCATTATCATTAAATAGGGTAGATGATATTGATTTTGACATGAGTGTTTTTACAAATATTTCACATGATCATTTAGATTTTCATGGAAATATGAAAAATTATATTTCTTCTAAAACCAAACTATTTTCGAAGCTTAAAGATAGTGGATGTTCTATTATAAATAAAGATGATAAAGAATGGAAAACAATTCAAAAATCAACTAATTCAAAAGTAATAACATTTTCAGTAGATAAAAAAGCAGATATAAAATTTATTAATTGGGAAATGTCACTTGATGGAATAAAAGGAAGTGTAAAAAGAAAAAATGATATAATTAATATTGATTCGTCATTAACAGGATATTTTAACTTAGAAAATATTTTGACTGCTATAGCTTGTGCCACAAATTTAAATATTCCTAAAAAATGCATTGAAGAAGGTATTAAAAAATTAACAAAGGTTCCTGGTAGAGCAGAAAAAATAAAATTACAAAATGGATCCATGATTGTAATTGATTACGCACATACACCTGATGCATATAAAAAGTTATTTTCATCTATTAAAGAAATAGTCTCAAATAATTCAAGGTTAGGAGTTTTATTTGGATGTGGTGGTGGAAGAGATATTGAAAAACGATCAATAATGGCATCTTATGTTGAAAAATATTCTGATATGATTTTTGTTGCTCCAGATAACCCAAGGTTTGAATCTCAAATAAAGATTAATAAAGATATAAAAAGTGGTTTTAATAAAAATAATCATATTTTTTTTGAAAATAGAAAAATTGCAATTCGTGATTCAATTAATTGGTTAAAACCAAATGACGTCCTTTTGATAGTTGGTAAAGGAGTTGAAAATTATCAAATAGTAGGAAATGAAAAAAAATATCATTCTGATTTGGATTCTGTATATGAATTTATAAATGAAAGTATTAAAAATGAGAATTGATCTTCCAAATCCAAAAGAATTTTCAGGTTTATTCGCAAAACTTTTAAAAATTGAAAATAATTTTTTGATAAAAGGAATTTCGATTGATAGTAGAAATATTAATAAAGGAGATTTATTTATTGCATTAAAAGGAGATAAAGTTGATAGTCATAATTTTATTGATGAAGCAATTTTGTCTGGATGTTCAGCTTTATTATTATCCAAAAATATTAAGGAAAATATAAAAATTCCTAAAATAATATTAAAAGAACCCAAAATATTTTTAGGTCAAATCGCAAAGAAGTGGAGAGAAAAATTTAAATTAGATGTTGTTGGCGTTACAGGTTCAAACGGAAAAACCACTACAAAAGATTTACTTGTGAATATTTTTTCATATCAACAAAATGTACACTCTACTATTGGAAATTATAATACAGATTTAAGTTTACCTTTGACATTATTACAATTAAACAATTCGCACACAATTTCATTTTTAGAAATGGGTGCTAATAAAATTGGTGATATATCTTATCTATGTAATTTAAGTAAACCTAATATAGGTGTTATAACAAACATATCATATGCTCATTTATCAACATTTAAATCTTTAAATAATATAAAAAAAGCAAAGTTGGAATTGTTTGAATCTATTGACAAAAATGGAATAGTTTTTTTTAATAATGATGATAAAAATATTAGACAAAATTTTAATATTTTAAAAAAAATCACTTATGGGTTCAATAAAAATTCAAATTTTAATTGTGAGAAAGTTATTAATGATTCAGGTGAAATTAGTTTAATAATTAATGATCAAATAATTAAAACCAAATTTAAAAATCCAATTTTATGCAATAATATTTTAGCTGCAGTAGCAATTTCTTTCTCATTAGGTGTTTCTTGGGAAAATATTAAAAGAGGTGTTTTGTCTTTTAAACCTCCTTCTGGAAGATGTGTTACTTATATCAAAAATGGAATATTAATAATTGATGATACATATAATGCAAATTTAAGTTCTACATTAGCTGCTATTGAGTATCTATCAAAACTAAAATCAAAAGGTAAAAAAATTATGGTTTTTGGTGATATGCTTGAATTAGGCTCAAAAAGTAAAGATCATCACACTAAAGTTGGTAAAGAAGTTTCTAATTCATTAATACATCAACTTATTACTTTTGGGGAAAAGTCTGTAATAACTCATAATAATACAAATCATATTATTAAAAATCATTTTACAAATTATAAAAAATTATTAAATCATTTAAAAGATGAAATTAAAGACGGGGATGCGGTCCTTTTTAAAGCGTCTAGAGGTATGAATTTTGATTTATTAATTAACAAGGTATTTAAAAGTTAATGTTTTATCATTTATTATATCCGATGAGTGATCAATTTACATTTTTAAATGTATTCCAATATATAACATTTAGAGCTGCAGGGTCTGCTATTACAGCGTTAATAATTAGTTTTTTAATTGCACCTTTCATTATAAAAAAACTTCATCAAAGTCAAATAGTTGAACAAACAAATAATAGAGGTCCAATTTCACATAAATCTAAAGATGGTACTCCAACAATGGGAGGATTAATAATTTTAATTGCATTGATTATACCAACACTTCTTTGGTCAAACTTAATGAATAAATATATTCATTTAATTCTTTTTTCTACTATTTTTATGGGAATTGTAGGATTTATTGATGACTATTTAAAAAAAATAAAAAAAACAAAAAAAGGATTAGTTGGAAAATATAAAATTTTAGGACAATTAATTTTAGGATTTATAATAGGTTCAATTCTTTATTTCGCTGAAGGTTTTAGGGAGCTTGGTCCAATTACCTCTGTTCCATTTTTTAAAAATTTAGAAATTTCATTTGGTCTTTTATACATTCCATGGGTCGCTCTAGTAATAACCGGGTCCTCGAATGCTGTAAACTTGACAGATGGTTTAGATGGGTTAGCATCTGGTTTGCTAACAATTTGTGCAATTTCATTAGCATTAATATCATATATTTCAGGAAGAGTTGATTTTAGTGATTATTTAAATATTATTTATTTGCCTAGTGCTGGAGAACTTACAGTTTTTGCAGCGGCATTGGGAGGATCATGTTTAGGTTTTCTTTGGTTTAATGCATCACCTGCACAAATTTTTATGGGAGATACTGGCTCTTTATCAACTGGTGCAGCTATAGGTACATTATCAATTTTGTTAAAAAAAGAACTGATTTTGGTGATATTGGGCGGAGTATTTGTAATAGAGGCTCTATCTGTTATGATACAGGTTGGTTATTTTCACTTATCAAAAATATTATACGGTGAATCAAGAAGATTTTTTTTAATGGCACCAATACATCATCATTTTGAATTAAAAGGGTGGAAAGAGACACAAGTTGTGATAAGATTTTGGATAATTGGAATTATTTTTGCGATTTTAACATTTAGTACATTTAAGATAAGATGAATTTAATTTCTTTAAATAAATCAATGAAAAATAAAAAAGTAGCTGTTATAGGGGCAGGAAAGAGTGGATTGTCAGCTTGTAAGCTATTAAAAAAACTTGAAGCAATAGTATTTTTAAGCGAAAAAAATAAAAATTATAATATTAAAGAATTAGAAAAAAATTCTGATAGATTTGAATTTGGAGTACACTCTGAAAAAATTTTGGATAATGAATTAATAGTAATTTCACCTGGTATTTCAAAAAATAAAAGTATTTTTAAAAAAGCAAAAGATAAAAATATTCCTATAATAAGTGAGCTTGAACTTTCTTCTTGGTTTACTAATTTCCCAATAATTGCCATTACAGGTTCTAATGGTAAAACAACAACTACAAAAATATTAGAAAATATTTTTAAAGAAACTAATTTAAATGTTTTTGTTAGTGGAAATATTGGAATCCCATTTTCAGAAATCGTTTTGAACAATATTGAAAAAAATGTAAAAAATGGATTGCATATAATTGAAGTAAGTTCTTTTCAGTTGGAAGACATTTTTGATTTTAAACCTAAAATTGCAATTATATTAAATATTTCAGAGGATCATCTTGATAGATATCATTCTATGAAAAACTATATAAATGCGAAAATGAATATTGCAAAAAATATGGAAAAAAATGACAAATTAATTTTTAATTCAGAAGATGTTTTGATTGTAGAAAATATTAAAACAAAAGCTAAATCAATTGGTTTTTCTTTGAAAAAAAATATTGATGAATTTTTTTTTATTGATAAAAACAAAATATATAATTCAAAAGAACAAAAACTTGTAAGTATTGATGATATAAATTTACTAGGAGATCATAATATTCAAAATATTCTTGCTGCAGCAACAGCGGCAAAAGTTTATGAAATATCTGACAAAAATATTAGAAATGGTATTCAAAAAACTTATCCAGTTGATTATAGATTGCAAAAAGTAAATGAAATAAATCAAATTTCATTTTTTAATGATTCTAAATCTACAAATGTTGATTCCATTATAGTAGCTATTAACTCTTTTCATGAAAATTTAATATTAATATTAGGAGGAAGAGATAAAGGTGGTAATTTTAAAAAAATTATTACTCATTTAAAAAATAAAGTTAAGCAAATTATTATTTTTGGTGAGTCAAAGAAAATAATTGAAATGCAAATAAAAGAATTTTTTCCAATTTATATTGCTAATTCTATGAAAGAAGCGATTCATTTTAGTTTTAAAAATGCTAAAAGTGGTGATTCAATTTTATTATCTCCTGGATGTACAAGTTATGATATGTACGATAATTTTGAACATCGTGGAAAAGATTTTAATATTGAAGTTAGTAAATTGATTTTAAGTCAAAAAAAAATAAAAAATATTAATTATGAACTATAATTTTTTAAAAAATATAAAAAGAAAATATAATAGGTTTATATGTATATAAATATAAGTTCACAAAAATATGACAAGCCATTATTTTTCATAACTATTGGATTGATTTTCATTGGTATAGTTATGGTATTTAGTTCAACTGTAGATAGGTCGTTTAATAAATTTGATTATAGCACTTTTTATATTTCAAAACATCTTATAAGGGTTTTCATCGGGGCTTTAGCTATGATTTTTGGTATGATGTTAGATTATAACTATTTAAAACGTTTGGCAGGTCCATTTTTAATATTTTCTATATTTTTATTACTATTAACTAAAATCCTTTATTTAGTTGAAAATGGAATCAATTCTGATCCAGCAAGATGGTTGAATATTGGTATTTTTAGCATTCAAACTTCCGATATTGCAAGACTGTCTGTTATAATATACTTAGCAAATTATATTGATAGAAAAAAAGATAATATTAGAGATTATATGGATGGTTTTTTACCTCCTTTATTGATGGTGCTGATTGTTATGATATTAATAATTATTCAGCCTGATTTTAGTACAGCTGCTATGATTGGATTTATTTTTTTGATTATGTTATTTATTGGAAGAGCAAAATTTCTTCATTTAGTAGGCACTGTTTTTTTTGGTTTAATATTTTTAATTCCTGTTATGTATTTTAGAGAATATAGAGTTTATAGAATAACTTCTTATTTTGATGGTTTTTTTGATTTATCAAAAGCAAGTCATCAGCTTCAACAATCTTTTTATAGTTTAGGAAATGGAGGAATTAATGGAGTTGGTTTAGGTTCCAGTTCTGGGAAAAATTTATTCTTACCCGAAGCACATACAGATTTTATATTGTCTATAATTGGTGAGGAAGGTGGTTATATTTCTATTTTAATTATTTTAACACTCTATTTAAGTATTTTTCAAAGGACAATTAAAATATCAAAATCCTGTACTGATACATTTGGAATAATGTTATCTATTGGATTATCTATTCAAATATTATCTTATGCTTTTTTGCATGCAGGCGTTGTAACTGGTTTGTTTCCAACAACAGGTGTTCAAATACCTTTGATTAGTTTCGGAGGAAGTGGTTTGATCATAAATCTTTTTTCAATTGGTATAATTCTTAATATTTCTCAAAATAAGAAAAAAATTAAAAGAAATAGGAGTTATATATAATGCCAGATTTCGGAAAAAGATTTGTAATTGCAGGGGGTGGTACTGGAGGACATCTTTTTCCAGCACTTGCTATTGGTGAAGGTCTGAAAAAAAGATTTCCTGGTTCAACAATACATTTTATTGGTTCAAAATATGGTTTAGAATCTAACATATTACCAACTCAACAAAATGGATTTACATTATTACCAATAAGAGGTTTTTTAAGGGGTTTTAATGTTAAATCTTCACTAAGAAATATATTGTTTCCAACAAGATTTATTTTATCATATTTGAAATCAAAAAAAATATTAAAAAAAATTGATCCTTCTGTTGTGATTGGGACAGGGGGATATGCTAGTGGCTTACCACTTATAGCCGCAATATCTGATGGAATACCAACATTAATTCATGAACAAAATTCATTTCCAGGTATAACAACTAAATGGCTTTCATCTAGGGTTGATAGAGTATGTATAAGTTATGAAGACTCTAGAAGACATTTGAGAAATAGAGGAGGAGTTGTTACTGGAAATCCTGTCAGAAAAGAAATTATTGGTAGAAATAAATTGCAATCTCTTCAAAAGTTTGGACTAACAAATAATAAACCAACTATATCAATTTTAGGAGGAAGTCAAGGTTCAAAAATTTTAAATGAATCAATAGATAATATTATAAAAAATTTAAGTGAATTTCAGATAATTTGGCAAACTGGTAATATTCATTTTGACCAATATAATCATTATTCAAAGGAAAATATTAAAGTCGTTCCATTTATCGAAGATATGGGAGCCTTTTATTCTTCTTCTGATTTAATCATTTCAAGAGCAGGTGCATTAGCTTTAGCTGAAATAGCAGCATGTAAAAAACCATCAATATTGATTCCTTTTGCTAAAGCAACTGACAATCATCAATCAATGAATGCAGAAAGTTTAAGAGTAGCAGGTGCAGCAAAAGTTCTTAGTGAAAGAGATTTGTCTTCAAAATTATTATTACAAGAAATTATAAGCTTAATTAAGAATAAAACTTTATTAAAAAAAATGTCTACAGCAGCTAAATCTGTTTCAAAAATAGAAGCAATCGATTTGATTATAGATGAAATTGAGTTTATATCTGAAAGTTAATTATGATTTTAGGTAAAATAAAAAAAGTACATTTTATTGGAATCGGTGGAATTGGGATGAGTGGAATATCTGAATTATTATTAAATCTTGGTTTTAAAGTATCTGGGTCTGATATTAAAATTACACCAATTACATCTCAATTATCCAAAAAAGGAGCTATAATTTGGGAAGGTCATAATAAAAAAAATATTTTGGATTCTGATTTAGTGGTTTATTCTTCTGCAATTGATGATGAAAATGTTGAATTGGTTGAGGCAAGAAAAATTCAATTACCAATTGTAAGAAGAGCAGAAATGTTAGGTGAATTATTAAAATTAAAAAATACTTCAATTGCAGTTTCAGGAACTCATGGTAAAACATCCACAACATCTATGATGGGTTCAATTTTAACTGAAGCTTTATTTGATCCAACATTAATAATAGGTGGAGTAGTAAAAAATTTAAATGCTAATGCTCTTTTAGGAAAAGGTGATATTATTGTTGCAGAGGCTGATGAGTTTGACAAGAGTTTTTTACAACTTTCTCCAACTCATTCTATAATTACAAATATAGATTCTGACCATTTGGATTGTTATGGTTCAAAAGAAAATTTAGTTAAAGCATTTAATGAATTTGCAAATTCAACTGCATTTTATGGTTCAATTATTTTATGTGTTGATGATTCACTTTTAAAGAGTATAATCCCTAATATTTCACGTCCTATAATTACATATGGTTTTTCTGGGGATGCGGAGTTCCAGGCCGTTAATAGAAAATTTAGGGATTATTACTCTTTTTTTGATGTAAAACATAAAGGTGAATTTTTGGGGTCTATAGAATTAGAAGTTCCAGGTGCGCATAATATTAAAAATGCACTAGCGACAATTGCATTATCAATAGAGCTAGGAATAAAATTTAAGGAAATAAAAAAAGGTCTGAAGAATTTTAGTGGAGTAAAAAGAAGATTTGAAATCAAAGGAGAAGTTAATAAAATAATTGTCATCGATGATTATGCACATCATCCCACAGAAGTTTCAGCTACATTAAAAGCAATTCAAAATGGATGGGGAGAAAAAAGAATAATAGCAATTTTTCAACCACATTTATTTTCACGAACAAAAGATTTTTTTGAAGATTTTGCAAGATCATTAATGATAAGTGATATTTTAATTATTACAGAAATTTACGGTGCTAGAGAAAAACCAATTTCAGGAGTATCTGGTGAATTGATATCAAATGTTGCTAAATCAATTGGTCATGAATCAGTTTATTGGATAAAAGATAAAAATAAAATATCTAATAAAATATTTTCTATCGTAAAAGAAAATGATATTTTGATTACTATGGGGGCTGGAGATATATATAAAATTTCAGATCAAATTTTAAATGAATTAAAGAAAGATTATGTTAGAAATTAAAAAAATAGTTCAAAATTTTTTTAAAGGTAAAATTTTATGGAATGAACCTATGAAAAAGCATACATCATTTGGAATTGGAGGACCAGCTTTAGCAATTATGTATCCAGAAGATGAGTTTGATTTATCAAAATTGCTAAAAACAGCAAAGAAAAAAAATATAAATATTTATTTTACAGGATCAGGTTCTAATATTTTAGTTAATGACAAAGGTTTTAATGGTTTTGTAATAAGTTTATCAAAATCATTTAAAAAAATTGATATTTTAAAAAATAAAGTATTTTGTGAATCAGGAGTTATGATGGGTACTTTTGTTAAAAAATGTACATCAAGTAATTTAACTGGTATGGAAAGTTTAATAGGAGTTCCAGGAACTGTTGGTGGTGCAATCAAAATGAATGCAGGAGCATGGGGAATGGAGATTTCAAATTATATTAAAAAAATAAAAATGATGAACCGAGATGGCGAAATTATAGAATTAAAAAAAAATCAAATTGAGTTTGGGTATAGATTTTCTTCAATAAAAAATGATTTAATTATATCTTCAAATTTTGAATTTAAAAATTCAAATCCTGAAAATATAAAAAAATTAAAGTTAAAGGCTAGTAATAGTAGAAAAAATTCTCAACCATTAAAATTTAGATCTGCTGGATCAGTATTTAAAAATCCTGAAAATTTTTCTGCTGGATATTTAATAGATAAAGCTGGGTTAAAAGGTATGAGGATTGGAGATGCTGAAATATCAAATAAACATGCTAATTTTTTTTTAAATCTTGGAAATGCATCATCAAAAGATATCGTAAAATTAATTTTTATTACTAAAAAAAAAATTAAAGAAAAATTTGACATTGATTTAGAATTAGAAATTAAAACTATGGGATTTAAAGAGGATTTTTTTAAAAATGAAATTATTTGAGAAAATAAAAAAAATAAATTTTTATTTTATGATTGTTTTCATCTTTTTGTTTGGAACAAAAATTATTTTATTTTCAATACAATGGAGTGAGGATGGAGAAAGATTATTGCCAAAAGTATTTAATATTAATGGAAATAAAATTTTATCTTCAAAGGAAATATTAGACTTAATAAAAATATCAAATAATAATTCATTATTAGATATAGATTTGAAATTAATTCAATATGAAATTGAAAAACATCCATATATAAAAGTTGCTCAGATAAGTAGAAAGTTTCCAAATCAATTAAATGTGAATATTAAAGAGAGACAACCTTTAGCATACCTAAATTTAAAAGAATATTTAGTAGTTGACGACGATGGATATATTTTACCTTTAAGAAATGGAGTTATTGAATTTAATATCCCAACATTAACAGGTTTCAATAACGAAAAATCACTTTATCCATTAGGGTTGAAATGTTTATCTACAAAGACTTTAGAAGCTGTAAACTATCTTAATTCAACAAAAGAAATTTTTCCGGATCTTATATCAAATATTTCTGAGTTTAAAATTAATCAAAGTGATTATTATGAAATGATTTTAACAGAAAAACCAACAAAAATTATTTTCAATAATTCTTATTTTTCAAAACAAATATTTTTGCTTAAAAAATTTAATGATATAATAAAGAATGAAAAAGTTTTAGAAGATTATAAATATGTTGATTTAAGATATAAGAATCAAATAGTAGTAAAGGAAAGAATTTGAAAATTAAAAATACACTATCAAATAACACTTGCGTTGGTATTGATATAGGAACTACAAAAATATGTTGTGTTGTTGGTGAAGTTGATTTAGATAATATCGACATTTTGGGAATCGGCGTTTCAAATTCAAATGGAGTAAAAAAAGGTTCCGTTATTGATATTGATAAAACAATTAATTCAATTGAGGAGGCAGTGAACAAAGCTGAGAAAATGTCTGGAAAGAAAATATCTGAAGCAACTGTTGGAATTTCAGGTGATCATATAAGTAGTATGAGTGCACAAGGTGCAATTGCAATTTCAAAAGGTCAACCTGTTTCTGATGAAGAAGAAATATCAAAATCAGAAGTTGAACAAGTTTTAAATCAAGCAAGATCTGTTTCCCTCCCATCAGATAGACAGATTTTACATTTAATTCCGCAGGAATTTGTAATTGATCATCAACATGGTATTAAAAACCCAATTGGTATGGTCGGAAGAAGATTAGAAGCAAATTTCCATTTAATTTCATGTGATACCTCTGCTTCAAAAAATATAAAAAAATGTGTTGAGGAGGCAGGTATTAAACCTCTTAGAATAGTTTATCAATCACTCGGTTCAGCTGCATCTGTTTTAGAAAAACATGAAAAAGATTTAGGAGTAGTATTGATTGATATTGGTGGAGGTACAACTGATATATGTATCTTTTTTGAAGGAGAAGTTAGACATTCTGCTGTAATTGGTTTGGGAGGTGATAATATATCAAATGATATTGCTGCAATTACTCAAATATCAAAACAGGAAGCAGAATTAATTAAAAGAAATTATGGTTCAGCCAAAGCAAATATGGTTTCTGATGAATTAAATATTGAATTAAAATCAAAAGGTGATGAGAAATATAGAAAAGAAAGCGAAAGACAAATATCAAACTATATTGAAGCGAGAATGACAGAAATATTTAATATGGTTAATAGTGAAATTCAAAGGGCAAATATAAAGTCTCCATATCCATTGAAAATTGTTTTAACAGGAGGAGGTTCATTATTAAAAAATTCATCTATTCTAGCTCAAGAAATTTTTAATTCAAAAGTGAAAATTGGAATTCCAAAGGGTTTGAACAAACTAGATGAAATTAAATCAAGTCCTATTTATTCAACAGGTATTGGTTTAATAAATTATCCAGAACTTGTATTTGATGATAGTATGATTAATAGAAAAATTGTCCCAAAGGGAATTTCAAAAGGTGTTAATAATATTCTTGAATGGTTTAAGGAGTTTTTTTAGTTAAAAAAGCAATATCTTTTTATTGCATAAATAAAGGAGTACAGCATGCTGTTCGAATTCGATTCATTAGAAGATCAAAAAGCTAAAATAAAAGTCATTGGTGTAGGTGGCGCTGGAGGAAATGCTATTAACCGTATGATTTCATCTGGTTTAAGTGGCGTAGAATTTGTGGCAATTAATACTGATGCTCAAGATTTAGAAAATAATAATGCTTCAACTAAGATTCAAATTGGGAAAAATTTGACAAAAGGTCTTGGTGCTGGGGCTAAATCTGATATTGGTAGAAATGCAATGGAAGATGAAAAAGATTCTGTTGCAAATATAATAGAAGATGCTGATATGATTTTTGTCACAGCTGGAATGGGAGGGGGAACTGGAACAGGTGCGGCTCCCATTATTGCTCAAATATCAAGGGAATTAGGAGCTTTAACTGTTGGAGTAGTTACTAAACCATTTAATTTTGAAGGACCTAAAAGAATGAATAGAGCTAATTCAGGTTTAGAGGAGATGCAAAAAAATTGTGATACAATAATTGTAATTCCTAATCAAAAATTAATTAATATTGCTGACAAAAACACAACATTGGTAGAATCATTTCAAATGGCAGATAATGTTTTAAATCAAGCAACTAGAGGTATATCAGATTTAATAAATGTCCATGGTATAGTTAATCTTGACTTTGCTGATGTTGATACTATAATGAGAAATAAAGGAGAGGCAATAATGGGAACTGGTGTGGCATCAGGAGATGAAAGAGCAGTATTAGCTGCTCAGCAAGCCATTTCTTCTCCATTACTTGATGATATTAATATGCAAGGTGCTCAAGGTGTGTTGGTCAATATAACAGGTGGTGACAATTTAACTCTAATGGAAACAAATGAAGCTTGTGAAATTATTTTTGAGGAAGCTGGAAAGGATGCAAATGTTATTTTTGGAGCAGTAATTGATCCAAATATGGGTGATGAAATGAATGTTACTGTAATTGCAACAGGGTTTAATTCAAAAACAATTAGTAAAAATAATGATATATTAAAGCATGAAAATTCAATTCCAACATTTAAAAAGGATGCGGACACAATTAATGATAAAAACAACATACCAGCTTTTGCAAAAAAAAATGTTGATGGAAATAATGATTCTAATGAACTTAAATCGGATTTAAATGAAAAGAGAATATATGATTCAACCGAAGATGATTTGGAGAGCCCTGCTTATTTTAGAATGCAAAATTAAGTTATCTTTTTAGATATGTAACAATAATTAATTCTTTAGAAATTGTGTTATAAATTAAATCTTTAGGGTTATTGCTTTTAACTATATCTATTACTTTATCATTAATTCTAATTTCAATGCCTTTAGTTTTTTCTAAACGTAAAAAGAAATTTTGATTAAAAGATTTTACTAGTTCATTATTAGTATTTAATAACGTAAGTAATTGATCATCAGTATAATCAATTGATAATTCAATTATAATATTTTCAGAAGATTTAAGAGATAATTCAAAAGGAGAATTTAAGTCTAAAATAGAAATATTTTTTCTTTCTAAAAAGTTGGAAATTAAAAAAGAATCAGTAATTCTATTTAGTTTATTTGAATTTGATTCTGATGGAATTTGATCTTCTAAAAATGAACTCTCATTTGAATTATTAATATTATTTTTTGAAATATTTCTTGCAATCCAAATTCCAAAAAAAACTATTAATAATAAAAATAAAAGATTTGCAAGATTTTTTTTGTTAAATTCTGAAAATTTGAAGTTGTTAAAATTAATTTTAGAAATCGACTTTGGAGTTGAACTTTCATTTATTTTAATTTTTGGTTCTTCTTTTTTGATGTGAGTTGTAGTATTCATTGTTTTGTCAAGGTTCTTAAGACAATCATTAATATCTGAACCAATTTCAGAACAATAGGCTTTTAAAAATAATCTTACGTAAATATATGGCAGAAAATCAAAAATCCCTTTTTCGATTGACTCTAAATATTCAAGATTTATTTTTGTACGGTTTGATATTTCACTTAATTCAATATCTTGAGATATTCTTAGTTTTTTTAATTCTTCAAAGAAAAGTGTTGATTCATTAGTTTTATTCATATTTTAATATAATACTTGATTTATTTTTGAAAAAAGAAATTAAAGTTATATTGAAATTGATTCAATTTTGGGAAAAGTTCTTAAAACATTTAAAAATTTTGATATAGGAAATCCAACTACATTATAGTAACAACCTTCGATTTTTTTAACAAAACAGGCTGAATAGTCTTGAATTCCATATGAACCTGATTTATCATATGGAGATTCTGTATTAATATATTTTAAAATTAGTTGTTCGTCTAATTTATAAAAATAAACTTTAGTAATTTCAACAAAATTAAATATAACATTATCTTTTTTATTAATCAAACATACTCCAGTTAAAACTAAGTGTTCTGTATTTGATAAAAATTTTAACATTTTAAAAGCTTCAATTTTATTTTTTGGTTTGTTTAAAATTTTATTTTTGACATTAACAATTGTGTCTGCTCCAATTACATATGAATTAGGATATTTATTACTTACTGCCATTGCCTTTTTTTGAGATAATTTTTTAACTATTTGTTTTGGGTTTAGTTTTTTTTCATAATTTTCATCAATATTACTAGGTATAACATCAAAATTTAATTTGACCATTTTTAAAATATCTTTTCTTCTTTGAGATGATGATGCAAGGATTAGTTTACACATAAAAATTATTTATATTTAGCAAGTTTACCAATTTCAGATATTATTTTTTCACTCATAATGCTTTTAGCAGTAATTTCATAAATATAAACTCCATTTGCTATTTCATTATTGTAGAAATCTTTTCCATTCCATGAAATTCTTGAATATCCATAAAATATATCAAATGGATCTAAAATATTTATCAGCTGTCCTGATAAGGTAAAAATTTTGATCTCTATGTTCGATTCCTCATTTATTTCAAATCCAAAGTTAGTATTTTCTGTAAACGGATTCGGATGGTTAAATAAGTTTGATAATTTTAAATTATTACCATCATTAAAATTAAAAAATATTTGTTTTTGAGATAAATTATTGGCGTTATCCCATGCTTCTGATGAAATATTTATATTTCCAAAATCAATATCTTTAAGTAAAATTTCAACTGATCCACTAGTAAAACTATTTTCATCATACAAAAATCTATTTGTTATGTTGACCTTATTTAATTCATCATCATCATACCAAATCATTATTCCATGTCCTATATCATTTGTTAAATTAATACCTAGCGGATCAGATAAATTTAAATAAATTGAATTCGAATTATAAATATTATCACCAGTTTCAACTATTCTTCCATTATTACTAAAAGATATTAATGGTCCATTTTTATCAATTGAGCTTGAAGTTGAAGGTGTAAAAACTACATTTTCATTCGACCCCAAACCTTCCCAACCATTTTGATCATATAAATAAACTGAAACTTTTCCTCTTCCATTAATAGTGATATCTTTTGGTACAATAAATGAGCCAGAAAATTTTTTATCATCAAATGAAATTTTTCCTTTGAATAAATCCTCACCAGGAATTTTGTAAGTAATAATTTCTTCATAATTATCATCAACATAAGTTTTATTTATTATTTTAAAGGGTTCTTTCACATTTATGAATCCTTTTCCAGAGTTTGGTTGTTCATTAGATAAAAAACCAGAAAAACTACCTTTTGATAAAGAATTTACACTATCCGGATTAATCGTGTTAATTTCAACTTGATTAGAAGGAATGGCTATTTTCATTCCAGGATCACCTAATAAATGAAACATTTCAGATGATTCCGAACCATTTTTGATAGATGAATAAATTGAACCAATTGGAAGGTTTGATACTTCTCCATCTGGAAAAAAAGATTCAAATAAGTCTATTAGAAAATTTCTGTTTGCATTAAATGAAATTAATCCATTTGTTGAAATTACTGCAATTGCACCATTATTATTTGATTTTAATAATTCTTCACTCATTGAATTAGTATTTAATAAGTCATATTTACCCCAACTACATGTTCCAGCAATCCATATTGGCAATTTCTCATTAGTTTGAATATTTAGAATGTCACCTCTTGATGATGATAGTAAATTTTCTTGAGACCATTGATATTCTGAACCATGTCCAATATAATTTATTAAAGATGTTCCATTGTTTAAAATTTCAAATAAATTTTTTGTAGCACTAGGCTTGACTACTCCGAACTGTGAACCATCATTGATTTCCGGATAATCTTCAAGATAAAGCTTTTTTATATCTAAAAAGTTTGGAATTAAATTAGATATGTATTCAGAATTTTTTGTATGAGTTAATTCTACAGGACCAAAATTAGGTCTAGAAAAATCATCAGCTATTAAAGTTAAATTTTTTCTCCATAAACCAATATTGGGATTTGATTCATAATTTATAATTTTATTAATCATTATTTCTGCTTCTTCTAATGTGCCTGCAGGTAATCTTCCAATAGAAAATTCAGGAGTATAAGCATCTAAGTAAGTGAATCTATCATCTGATGAGGTACCAGAAATATAATTGGATTGATAAGTAGGAATTTTAATATTTGAGTTTCCTGTAATATTTCTATAATCATAATCTCCATCTCCTAGCAAAAGAACATAAAGTGGAAATGTTGTTCCAGATGATGCTTTCCAATTATTTTTAACATATTTCAGAAATATTTTTATTGCATTTGGGTTAGAATTTCCTCCAGAAAATTCATCATATATAGATTCAATTGAGGCAAAAAAAGAATTTTTTCTGTGATTTTTAAGGTTTTGGGCTGGTTCTAAAAATTCTTCAGGAGCAATTATTATGTGATCTATACCTAATTTAGAATTTCTTAAATTTGAAAAATTATGGTTTTCAATTTTAACTAATTCAGATACTTTAAGTAATTCATTTTTATTAAAAACTATAAAATGATTTTTTTCCGAGTTTGAAAATTGTTTTTCAAAATAACCAGTATCACCGCTTAAGGTTATTTCATGTTCAATTGGTGTATTAAATGATGTAATATCAAAAATATTTACATCTGAATTAATTGATTCAACTCCAAATCTAGTTGAAAGTAAATTATTTGGCGACCAAAAATTAAATTGTTCCCCGTCCCATCTTAATGATAAATAATAACTAATTACAATATCATCAACATGAACTTTTGAAGATTGATCTGAAGAAATATTTTTAAAGGAAATTAAATTGAGTCCATCATTTAAAAGATTTGAATTTAAATCAATTGATGTTGAATTTAAATTTTTACCTATCCATGACAAGTTTTTTAATGAGATGTTTTCATTATCTGTTTGTGAAATTTCAACTAAATGGGATGGAAAAATTGATTCATCTGAAATAGAATTCCCCATTAAATTTATATAAGCTGTAGATTTTAATTCTTTTAGAGGGTGATGTAAATTTATTGAACTTAAATGGGTTTTAGATGTATTTATTCCAATATCTACCCAATTTAAACCACTTTCAAATGGATTAATAATATCATTGTCTAAAAATGAATATCCTATTCCATAATTTATTAAAACTGGATCATCAATAATTTCATTTCTTCTCTCAATTCTTTTTCCTTTTAAATTTTGATCAAAGGGTATTAATAGCCAAATAATATTATAGTTTGAAAATGGGTTTTTCTTATAAAAAATATTTTCACCTGAATTCTCAAATCCTCTTGCACCCCTGGCATAAAAAATTATTTCATCTTCATTATCAAAGTTTCCGTCATTTCCATCGTTAGTTTTGATTGATATTTGTGTTAAATTTTTTGGTATTTCACTTCCAATAGAAAAATCTATTGGTCTACCACCACTTAAACTTGTAAACATATGAATTGACTCTGGATTAAGACTTTGAGTATTAATACCAACTTCATTTAATTCATCTATTCCAATTTTATAAACACCATCATTTTCAATATATATCTTATACCAATCACCATCAATATTTACCTCTTCAATTGAAGTATCATCTGTTTTTTTATTTATTTTAAAAATACTATTGTTAATCCAATTTTGAGCAGTATTCCAATTTGATATTTTATTTTTATATATTTCAGCTTGAATGGTAGATGGTATAGAATTATTTGATTTTAAATTTTTTTCAAATTCAATATTAATATTTAATTTTTTAGCATAATCATTTGTATTTAAGTTTTTTGTCGGTGAAATAATTAATATTCCAATGTGTAAATCTCTATATTTTTCAATTCTTTCCCATTTAGCATAAGTTTCAATAGATTTATAAAATTTATTAAAATTAAAATGATTATTTTCAGTAATTAAAATAGGATTTACAGTAATTTTAGGGGCTTTGTTTGAAGGTAAACCTATTGTTAGAATAATATTTTCGATTTCATGATTTTCTGATGGATCTTCAAAAAAAACATTAAAGTTAAAATTTTCTATATCTTCATTTATAATTGTTATATTTTTTGATAGTAAAAAATTTAAATTAGCTATAAATATTAATAATATTAGAAATGTTAATTTTTTATTTAAATTCAATTTATGTTTTTATGTTTTGAAATTATTTGAAATATTATAGTGTTAAATGTAATTTTCATAATTGTTTTGTTAATAAAAATAATAATAATAAATCAAAAAGGTTAATCTTAAAATGGCCAATAAAACAAAATTAAAGAATCTTAAATTGATGAAAAAATTTTATAATAATTATGAATTATTGTTTTTAAGAATATTAATTCGAAAACATCTTAGTTTCATTCAAAAACTTTTATTAAACCATATTTTTCCTCTTTATAAAATTCAATATTTTAAAGATCTTTTAGTTTTAAAATATAACTTCATTTAAATAATATCAAATTGAATAAAAAAGTTGCAATTATAACTGGAGCTTCAGAAGGTTTGGGAAGAGCAATTGCTGTTAAGCTTGCCACAAAAAAATATATTACAGTACTGGCATCTAGGGATATAAAAAAATTAGAAAAAACATCTAATGAGATAGGAAAGGTTAATGGTCAATATTTAATTATCCAAACAGATGTAACTTCAGAAAAAAGTGTTAAAAAGTTATTTTCAAAAGCTGCAAAATTAGGTCAGTTAGAATTACTAATAAATAATGCTGGAGTAGGAACATTTAATAAGGTAGAGGAAATAACATTAAAAGAGTGGAAAACAATGATTGATGTCAATTTAACAGGATCATTTTTATGTTCAAAAGAAGCTATCTTATTAATGAAAAAACAGAAACATGGTCATATTCTATTTATTAATTCTTTGTCTGGTAAAAGAGTTTTACCATGGGGAAGCGGATATTCAGCATCAAAATATGGTTTGAAAGGTTTTGCTGATTCTATAAGATTAGAATTAAGGAAATCAAATGTAAAAGTAACTTCAGTTTTTCCAGGTTCAATAGATACTACTTGGTGGGATAAGATGAATATGAATTTTCCTAGAGATAAAATGCTTATTTTAGATGATGTAGTTGATGCAATTTATAATTCAATAAGTTATAAGGGACGAACTGTTATTGAAGAAATTGATTTGAGACAAGTTGGTGGGGATTTTTAAAATTTTCATTTTACAGTAAATTAAAAACACTTAAGTTTGCAAGCTAAAACAACATAAATTTAATATCAATGGAGGAATAATATTGGCTGGTAAAATTAGAATGAAACGTCAAGGTCGAAGAAATAGGCCTTTTTATAGGATTGTAATTATTGATTCTCGAAAAAGAAGAGATGGAAAGCCAATTGAAGAATTAGGCTGGTACAATCCAATTCAGCAAATAGAAAAAAATTATGAAATTGATACTGAAAGAATAATGTATTGGATTAATGAAGGAGCACAACCATCTAATACAGTTAAAAATCTTCTTAAAAGAGAAGGTATATTACTTCGAATTCATCTCATTAAACAGGGTTTGAATGAAAAAGATATTGAATATGAAATTCAAAAGTGGGAAATGGATAAGGAAGAGAGAATTAAAAATAAAAAACCTAAAAGTAAAAAATCAAAAAAACAAAATGAAATAAAATCTGAGGAACCTGTGGAGGAGGAGAAGCCATCTGAGGAACCTGTGGAGGAGGAGAAGCCATCTGAGGACCTGTG
>sequence03
AATGAATTTGATAAATTTTCTGGAGCTGTGTACCCATAAAAAACAAAATTTAAATCATTGACGTATATATCATAAGCATCACTCCCTCCATTGTCTTCTTGCCAACCATCAGATGGAGGTTTATTGTAATGTAAATTATTAATTAAAACTTCATATGTGTGATCAGCAGCATTGGCTAGATTATCTATAAAATCAGGAATGTCATTGAAGTTTTGATCAGTTGAATCAACAGCATTTGGTCCATCTAATGCATAATGAATTCTAAAATATTCAGTATCTAAAAATTGGTTATTATTTTGTGGGCGAATTTGATTTATAAATGAATTACTAAAGCTTTTGTAGAGTTTCTTATCTTTTTTTTTTAGATGATTTAGATTTTGATTAAAATGAAAAAAACCACATTTATTATCTTTTAAAAATTCAGATTTAATTTGATTTTTATCATTTCCATCTAAAAAGTTAAAGTATAATAAAAAAAAGATGATAAATGATTTATAATTTATTTTCACGTAGTTTTCTATGACTATTTGCATCTTCTTTAATTTTTTTGGCCATTTCAGAATATACTTTTTTATTAATTTTTTTATTTTTTTTAATGTTTGTTTTTATTCTTAAAAAAAAAGAAAAAAATATAATTCCCAAAACATAAAAAAACCCATAGTAAATATATTCACTCATTTTAATTTAAAAATATATAGTTCATTAGCGTTAAAATGAAACCTAGAATAATTTCTTTATCATTAGACCTAATAATACCTTTTGAAACTAGAGTTGAACCTAATAATAAAAATGTAAATCGATTTTGACTAAACCATTTATTTTTAACTCTAGTATCAAGGTTTGATATAATTCCAATGTCAGAGCTTACACTATCAATAATAGCAAGAGTTTCTGAAAGTGGGTATCTTAAAGATAGGTTTATTTGATTTTCATTCAAAATAAAAAAATCAAAATCTTCAATTTTATTTTTTAATTTAAAATCTATTTGAGATGATTCCCCGATTTGTCTTGTTTGAATATTTAAAATATTACCTGTTTTTTTAAAAGGCCATTTTTTAGTTGAGTCAAGATTAACATCGTGAACTGTTACATAAAACCAACCTGAGTCTTGAAACCATGCAGTTATAGCATGTTTTTTAATTTTATTATCAAATTTTAATATTATAAATGTGCCATTTTCTTTTTCGCTAAATTCCATTCCAATTAAATTTGATTGACACTTAACTCCACAAACAAGAAAAGCTATTAAAATGATTCCTTTTTTTATAATTTTAAATGACATAATATTATAGTAATAAATTAAAACTTTTATACTAAATAAATGCATATTTCGTAAGGTATTTTAAATAATGAAGCAAATCATCCGAGGTTTTGTTTTCACTTTTTTTATTTTTGTGTTATTTGGTGCGTTTTCAGATGTTTCAGTCGCACAAAATTCGAAAAAAAAATCGTCTTCAAAATCTAAACAAGTAAAATCTTCAACATCCTCTTCAAATAAATCAAGAGCTGCAAAATTTATTGCTCGTGGGAAATCTAGAATTAAACAAAAAAAATATTCTGAAGCGTTAAGTGATTTTAGAAAAGCACATAAATTATTTCCATCAAAAACTTCGCAAAATTATATTAAGAGATTACTACCAATAGTTAAAAAACAACAAGCTAGCTCTACAAAAAATAAAAGTGCTAAATCTTTAGCTTCAAATAATAAACCTATACCAAGCCCGTATAAATTATCTAAAGAATTTTTTCAGATTTCTAATGAACTTGAATCATCAATGAGAAAAATGAAAATTGCAACAATGAATCTAAAACCTGTTAACGATAAAACCCCAGATGAGAAAAGAAAGGAACGTTTAAAATCAATTAATATTAATATTGTTAACAGACCGGAGGATAGAAGAATTCAAAGAGACTTAGCTATTGAACATGAAAGAAATGGCGATTTTTTAGAAGCAAAAAATATCTACCTCGGAATGATAGAAAATAATCCGGAAGAGCCAGATCACCATTATTTTTTAGGCACTCTCTATTCTAAAATGGGTCAAAAAAACAACGCTGGATTTGCATTTAAAGAAGCACTTAATTTGAATCCTAATCATAAACCTACACTTGAAGCTTTATCTATTTATGGAAATAATTCATTACCACAACTTTTAGTAGATGATCTCATAAATCATTCAATTAAAAATAATCCTGATGGTTCAGCACAAATATTAAATAAAACCAGGGAGTTTTTTAATAAAGAAGATTTTTCAGGTTTGATTGAATTTTCGTTAGAAAATCAAAAAGAATTTTCTGAAAGTTCATCTTTGACCTATTACAAAGGAAAATCACTTGAAGCTTTAGGGAAGATTGAGGAAGCAAAAGTAGAATATAAAAATGCAATTAAAATAGATAAGTCTGATACAAGACCATCAATTGCATTAGGTGACATTCATTTTGCAGAATCTAATTATGTTTATAGTTCTATTGTATATAATTCAATTCTTGAAAATGACCCAATGAATGTGTCTTTAATTAATAAAATAGGATTAAGCTATTTTAATGGTTTTGAATGGGCAAAAGCTGCAACAGTTTGGGAAGATTTACTCAAATTATCTCCTAATCATACTGAGGTAAAAAAATTATTACCTGAAGTTTATTATATCCTAAGTTTAGAGTATGATAGAAAAGGTTTTAGTGATTTAAGTAGGCGTTCATTCTCAAATGCATTATCTGTTAATTCAAACAGTTCAATTTGGCTTCCTAGTGCTCTTAAAACTGCTGCAAAATATTATACTGAGAATGGTTTCTATAAACTTGCTATTAAATCTTATCATGATGCGATGGATATTATTCCCAATGATTATGATTCATATAATGGTTTAGGTGCTACTTATTGGTATATGGGTGAAAAGCAAATGGCTATTTCTGCTTGGGAAAATAGTCTTCAATTAAATTCTAGTCAAAATGCTGCTAAAGGTTGGCTCTTACTAGCAAATAAAAGTTCTAATTAAGATAATTATAATTCATGAAGAGTTTAATCCTCTTTATATTTTTTTCTTTAACTATATTGTCTTCAAATAATGGAAATGATAAAGTTTGGGAGGGAATTAATGCTTTTTACAATTATGAATTTAATAAATCTGTAAAAATACTCGATGAGGCTAAAAATGAATTTCCATTTCACCCATCTGTACATTTTACATGGGCAGTTTCAAAATGGCTTCATTCCAGAGCATATGATGGTATAGACAAAAGTTATGAAGTTTTATCCGAATCTTTAGAAATCATTGTTCCAACATATGAAGTTTTAATTGAAAAATTTCCTAATGATAAAGAAATTCATCTTTATTACGCTTCTACTTTGGGATTAAAGGCAAGAGTGCATCTTGGAAAAAAAGAGTGGATAAATGTTGTTGTTGAAGGTATAAAAGGGTATTCATCTATAAAGTCTCTAAATAGTAAATACCCTGAATACAATGATGCACTTTTTCCAATAGGTATTTTAAACTATTTTGCTGGGAAAATGTCTGGTTTTACTCAATTTTTTGCGAAGATTGCTGGTGTTGAACCTGATGTGACTTTAGGTATAAGACAAATGACAAAATCGGTTAATGATGGGGATTTTGCAAAAATTGAATCAAGTCAAACTTTAGCATATATATATTTATGGATGGATCAAGATTTTGAAAAAGCGAAAAATTTATCCCGAAACTTAAGAGATGAATTTCCAAATAGTATATATAATCAATTTATGTATACAGAAAGTTTAATTCTTTTAGGTAGATTGGATAAAGCTAAAATTAATCTTGAATTATGTCGTGAAATATTAATTGATTTACCTGAATTCACGAATATTTATTGGCATCCATTACTCGACTATCAAAAAGCTTTAATATATTTTATAAATGGCGATTTAGATAAGTCTTTAGAATTAGTAAATGATTGTATTTCAAATTATAGTGCAGAGTTGGATACTCAACTTGGATATGCGTTGTTATTAAGAGGAAATATTTTTGATTTAAAAAATAAAAGAAGTTTAGCAGAATTAGATTATAAAGAAGTTATTAAATTAGATAATTATACAATGGCTATAGAATTATCAAAAAAATATTTACAACAACCATATTTAAATTCAAATAATTAGTCATTTCTTTGTTTTTCTAAGAGGATGTCATAATTTTAGGTTGTATGGAATCAAAAAATCCAATAATTAGACGTAAAACTAAAAAAGTGAAAGTGGGCAATATTTTCATTGGAGGAGACGCACCTATTTCTGTTCAATCCATGACCGTAAATAAAACATACGACATTGATAAAACATTAAAAGAAATGGACTCATTAATTGAGGCTGGTTGTCAAGTTATTAGAGTAACAGTTCCTGATGAAAAATCCGCCAAGGCAATAGAAGTATATAAGAAAAAAATCGATATTCCAATAGTTGCAGATATTCATTTCAACTATGAGATGGCATTATTAGCTGTTGATTATGGAGCAGATAAAATAAGAATTAATCCAGGGAATATTGGTAATCGAGAAAGAGTTGAGACTGTTTTAAATAAAGTAAAAAAACATAATTTACCTATTAGAATTGGAGTTAACGCAGGAAGTTTAGAAAGAGATCTTCTTGAAAAATATGGATATCCAACTGCGGAGGCTATGGTTGAAAGTGCTGAGAAACACATTAAAATTTGTCAAGAATTTGATTTTAATGATATAATAGTATCATTAAAAGCATCTGATGTAAGATTGATGATAGAATCTTATCAACTGTTTTCAAAAAAATATGATTATCCTTTACATCTTGGTGTTACTGAAGCTGGTCCTGCAAAAAGTGGTAGTATTAAATCATCAATAGGTTTGGGTTCCTTATTAAAAGATGGTATTGGAGATACAATTCGTGTAAGTTTAACTGAGGATTCTGTTGAGGAAGTCAAAGTGGGTTTTGAAATATTAAAATCATTAGGTTTAGCTAGTAGAGGTGTTACAATTATTGCTTGTCCAACATGTGGAAGATTAGAGGTAGATTTATTTAAAATAGCTGGAGAAGTTGAACAAAAGTTAGCTCATATTAAAAAACCCATGTCTTTAGCATTAATGGGTTGTGCTGTTAATGGTCCTGGTGAGGCTACTCATGCTGACCTGGGAGTTGCTTTTGGTAAAGATGGTGGGCTTTTGTACAAAGATGGGAAAAAAGTTGGTAGATTAAAAGAAGATGAAGCAATTGATAAACTTGTAAGATTAATTGAAAAAGAAGAAGAGGAAGCTAAAATAAGTGAAAATAATTAAGAATTTTTTAGTGATTATGTTTTTCGTTTCTATTGGATTTTCTCAAGCAGATTATTCTCCAATTCCGCTTTATTGGAAAACATTGGATAAAAAAGATAAAGAAATTTATCTTTTTGCATATCTTACACAGGTTTACGACACACACAAATTTCTTATTGATGATGTTGGAAGAGGTGGTTTTTCAAAATATTATTATGAGGAGAGAGCTGAACTAGCTTACAATATTTTTGATTTATTAGATTCAACTCCAATGTCAAAATTTATCATATGGATTGATGATTTTTATTCTCAACCAGAACTAAGAGAATTTCCTTTTCCAGAAGCTTTAAAGTATGCTTATAAAAGATCTCAAATTAAAGAAGAAGATAAGCTGCTTGAAAAATTTAGAAACAACCTTTTAGATGATTGAAAACATTTATAAATAATGAATTTTTTCTCAAAAATAAATAATGTTTTTGATGAGTTAAAAAAAATTTATAAAGAAGGTGGTATTAGACTTCTTTTTAAAAAAAAAGGCTTCTTAATTGTTCTAATTATTTTTTTTTATTACCTTATTAGAGATGGTTTCTTATATATAATATTACCTTTTTTTGTTTTTAAGAATTTAACTGGATGTTTCTGAATAAATCGTCCATATCGTTCTTTTTTTATTTGGAGTATTAATTTTCTTTGTGTAGTTTATCAATATGAATCGTAGAATATTTATAAAAAAATCTTGCCAGTGTGCTGCTGTCACCGCAGTCCCTCTAAGTATATTAAATTTGACGGGATGTACTGATTCTGGAAATCCTGTTTCAGAAGCCGAAATTGAAGAAGTCGTTGTTAATGATAGAATCTCATTTATATTTGATTTAACCAATGAATCTTTGTTGCCACTACAAACTGTTGGTCTTTCTGTAGTGACTTCTGGAAATGAAATTGATTCTTCTGGTTTGCTTATCCTTAGAATTTCAGAATCTGAAATTGTTGTTTTCTCAAGAAGTTGTACTCATTCTGGTGCATCTGTTAATTCATTTCAAGATGGAATTTCATTGTGTTCCAGTCATGGCTCTGAATTTAATACTTCTGGAGAAGTTGTAACTGGACCAGCTACGAGATCATTGAAAAAATATGAATCTACGCTTGATGGTACTGATTTAACAATTTTTGCTGGTTGATAATTTATATATTTTAACTTGTTTTAATTTTTTTTAGATTTTCTCATGGATTTTTTCAATTCATTTGATGTTTTATATTTAATAAATATATTTCCATCTATACTACCACTGATAATATTACCTCTTACAGGTTTAATCTTTAAAAAGTATATCCATTCAAAAGTAAAACTATTAGTAGATAAGACTAATTGGAAAATTGATAATATAATTTTTGATTCATTTGAAAATTCTATTTTATTTTGGTTTGTATTATTTGGTATATATTTAAGTTTATCACAACTTCCATTTCAAAGTAATATTTTAGATTTTGCTTTAAATTTAAACATAGCTGTTATAGTTTTGTCAATATCTATTTCAGTTTCAAATGTTTCAGTAAAAATATTAGAATTATTTGCTTCTAATAATAAATCTTTTCCTTCAACTACAATGTTTTCAAATTTATTTAGAATCATTATTGTTTCAATGGGTTTATTAATTGTTTTTCAAAATTTTGGAATTTCAATTGCTCCTGTTTTAACTGCTCTTGGAGTAGGTGGTTTGGCAATTTCATTAGCTTTGAAAGATACTTTGTCAGATCTTTTTGCCGGTTTACACATTCTTCTATCTAGAAAAGTAATTCCTGGAGATTTAGTTGAACTAGACACGTTGCAAAGGGGAGTAATTGAAAATATAACTTGGAGAAATACAACTATCAGAGACAGAACAAATAATATGTTAGTTGTTCCTAACTCAAAATTATCCACAGCAATAATTACAAACTTTGATGTCCCTGTTAAACATTTAACTGCAAGAATTTCATGTGGAGTAAGTTATGATAGTGACCTTGATAAAGTAGAAAGAGTTGTCCTCGACGTTGCTAAGCAAGTTATTAATGATGTTGAAGGTGCAAATAAAAATTATAAACCTGGTGTTACATTTCTCAACTTTGGAGAATCAAGTATTGATTTTAGAGTATTTATCGGTGCAATTGATTATAGTGGTCAGTGGTCAGTTACTCATGAGTTCATAAAAAGATTACACAAAAGGTTTAAATTAGAAGGAATTGAAATTCCTTTTCCAATCAGAACAATATACAATAAAAATGAAAAATAATTTTTTCAAATTTAAATGAAACTAAAAATTAAGCCTTTTGATAATGATATTAAGAAATATTATCTGAATCACGGTCATTTTCATAAAGGTGATGCTGGTATAGATTTATTCATTCCTAAGAAAATAGTTTTTGAACCAAAACAAAGCCTACCAATTCATATGAATGTATCTTGTGAACTAGAAGATAAGCCATATTTCTTACTTCCCAGATCAAGTATTTCAAAAACACCTCTTCGATTATCTAACTCTATTGGTTTAATTGATGCAGGTTATAGAGGTGAAATAATAGCATGCTGTGATAATATTTCAGAAAAAAAATTTGAGTTAGAAAAAGGAAGAAGGCTTTTTCAAATAATGTCAATCACTGGAGATCCACTCGAATTGGAAATTGTTGATAAATTATCTGACTCTTCAAGAGGTGAAGGAGGTTTTGGAAGTACAGGTTCATGAGTAAAATAAAAGACAATAACTTAATCAATGATGGCATAAGCGCAATTCAATGGGCAAAAGATAATATGCCAATATTAAAACGAATAAGAAAAAAATTTCAAAAGGAAAAACCATTTGTTGGAATAAATATTGGTGTGTCGATGCACCTTGATTCCAAAACAGCTGTTTTTTTGAAGACACTTCAAGCTGGTGGAGCTGATATTTCTGCTAGTAGCTGTAATCCTTTAAGTACCGATGATGGAGTAGCTGCTGCTTTATCAGAAAATATGGAAATTTTTGCATGGTCAAATGAAACTGATGAAGAATATTATAATTGTCTTGAATCTGTTATTAGAACTGCTCCAAAAATTACTCTTGATGATGGAGGTGATTTGCTATATAGAATGCATTTTAAATTTCCTACGTTATTGAAAAATTTTATTGGAGGATGTGAAGAAACATCTACTGGATCAATTAGATTAAAAGCAATGAAAGAAAAAAATGAATTAAAAGTTCCTGTGATTGATTTAAATAATGCTTATTCAAAATATTTATTTGATAATAGATATGGTAGCGGTCAAAGTGTTATCGAAGGTATTGTTTCTGCTACTAATATTTTAATAGCTGGTAAAACTATTGTAATTGTTGGTTATGGTAGAGTAGGTAGGGGGCTTGCAACGCGATTTAGAGGAATGGGTGCAAGAGTTATTGTTGTTGAAACTACAGGTCTTATAAATAACAAAGGAAAGTCAGGATATCATAAGGGATTAGAGGCTTTATATGATGGTAATTGGGTATCATCAATGGAAGATGCATCTAATGAAGGAGATATTTTTATTACAGCAACAGGAAGTAAAAATGTGATTTCAAAACATCATATCAAAGATATGAAAGATAATGCAATTTTAGCTAATGCTGGACATTTTGACCATGAGATAGATGTGGTTTCATTAAAAAATATGAGTAAATCACAAGATCAGGTTAGCCCAAACTTAGTTAGGTATAAATTAAAAAACGGTAAAAGTATTTTATTATTATCAGAAGGAAGGTTAGTAAATTTATCTAGACCCACAGCTCATGGACATCCTATAGAAATTATGGATGGTAGTTTCTCACTTCATGCACTTTGCGTCGAATATTTAGTTAAATCAAATTCAAATATATCGTCTAAAAATTTATTTAAAACACCAGATGTTTATTCTGTTCCTGACAATATTGATGAGATGGTTGCAAGATATGCTTTAGAAGAAAATGGAATAATATTAAAAAGTTCTACATTTGAACAAAAAGAATATCTAAAAAAAGCAGAGTTGGGAACTTAGATAAAACCATTGTTAGAGATTAAAAAGATTGTTAAATTTCCAAGCTTTAATCATTTAATAATTTAAAAAGGAGAAAGAAAAACATGGCACTTAAGATTCAGCCTTTATCTGATAGAGTTGTAATTGAGGCTGCTCCTGCAGAAGAAGTATCTTCTGGGGGTATAATTTTACCAGATACTGCACAAGAAAAACCTCAACAAGGAAAAGTAGTAGCAGTTGGAACTGGTAAAGTAAGCGATTCTGGTACTCTCGTTAAACCAACTCTCAAAGTTGGTGATTCAATATTATATGGAAAATATTCTGGAACTGAGGTTACAATTAATGGTTCGGAATATACAATTATGCGTGAGAGCGATGTTCTCGCAATTCTTTAATATCAAATAAAATCTAGGAGAAAAATTAATGGCTAAGCAAATTGAATATGATTCCGATGCAAGGGCTAAACTTAAATCTGGAGTTGATAAGTTAGCAAATGCAGTTAAGGTTACTTTAGGACCTAGGGGTCGTAATGTTGTTATTGAAAAAAAATTCGGTGCTCCAACATCTACCAAAGATGGTGTTTCTGTTGCAAAAGAAGTTGAACTTGAGGACAGTGTTGAAAATATGGGGGCACAAATGGTTAGAGAGGTTGCTTCTAAAACTTCTGATGTTGCCGGTGATGGTACTACAACAGCTACAATCCTAGCGCAAGCAATAGTTCGTGAAGGAATGAAAAATGTAACCGCTGGAGCAAGTCCAATGGAAATAAAAAGAGGTATCGATGCTGCTGTTCAAGTAGTTGTAGAGGGTTTAAAATCACAAAGTAAAGATTTACCTGGAAAAACTGAAATTGCTCAAGTTGCATCAATTTCTGCAAACAATGATTCTGAAATTGGAAACTTGATTGCTGATGCAATGGAAAAAGTTGGTAAAGATGGTGTCATAACTGTTGAGGAAGCTAAATCAACTGAAACTACCCTTGAAGTAGTAGAAGGTATGCAATTTGATAGAGGTTATTTATCACCTTATTTTATCACGAATTCTGATAATATGGAGTCTGATCTTGAGGATCCTGCAATTTTAATCTATGATAAGAAAATAAGTGCAATGAAAGATTTGCTTCCAATTTTAGAAAAAACATCACAAGCTGGAAAAGCATTGCTTATTATTGCTGAAGATGTTGAGGGAGAAGCAATTGCTACCTTAGTTGTAAATAAGTTAAGAGGAACTTTAAAAGTAGCTGCAGTTAAGGCTCCTGGTTTTGGTGATAGAAGAAAAGCTATGCTTGAAGATATTGCTGTTTTAACTGGAGGTACTGTGATTTCAGAGGAACAAGGCTATAAACTAGAAAATGCAACAATGGCATATTTAGGTTCCGCTAAAAGAATAGTAATGGATAAAGATAATACTACAGTAGTATCAGGTGCAGGTGATCTTGATAAAATAAAAGCAAGAATAAATGAGATTAAAGTGCAAATTGAAAAAAGTTCATCTGATTATGATAAAGAAAAACTTCAAGAAAGATTAGCTAAATTATCTGGAGGTGTTGCTGTATTGAATGTTGGAGCATCTACTGAATTGGAAATGAAGGAAAAAAAGGCTAGAGTTGAAGATGCACTTCATGCAACTAGAGCTGCTGTTGAAGAAGGTATTGTTCCTGGTGGAGGCGTTGCTCTAATTAGAACATTAGATAAGGTTTCAAAAATGAAATTATCTGATGAACAAATGGTAGGCGCTAATATAGTTTTAAGAGCTTTAGAAGAACCATTAAGACAAATAGCTGGTAATGCTGGACATGAACCATCAATCGTTGTTCAAAAAGTAAAAGACAGTAAAAATGACGAAGGCTTTAATGCTTATTCTGAGGAATATGTTCAAATGTTTGAAGCAGGTATTATTGATCCAACTAAAGTAACTAGAGTTGCAGTACAAAATGCTGCATCAATTTCTGGTCTTCTTCTTACAACAGAAGCAGTTATTTCAGATATACCTGAAAAAGAAGCTCCTATGCCTCCAATGCCTGGTGGTGATATGGGTGGAATGGGTGGAATGGGTGGAATGATGTAACCATTGATTTTCCACACTATCTAATCAATCTATTAAGGCTTCTAAATTTAATTTGGAAGCCTTTTTTAGTTATTATTGTCTTAATAGAGATATCCTAGTAAATTATTAATCATCATGACAATAATTAGAATGAAAAAAATAAGATTTTTTGGAAAACATGGGGTTAGCATCTCTGAAAAAAAAAGAGGTGGAACTTTTGAAATAGATTTAGAATTTCATTCTGATGTTGATAAATCTTATTTAACTGATGATTTAAATCATACTATAGATTATTCTAAAATTTATAAAAAAGTTTATGATTCATTTTATTCTTCAGATTATAATCTTATTGAAACTTTAGGAAATAAAATTTGTGATGATTTAATTTCTTCATTTCCTATAAAAGAAATAAAATTAATAATAAGAAAAATTAATCCTCCCGTTAATGGTTTAATTGACTCTGTTGAAATAGAAATAAATAAATGAAATAAAATTAAAATTTTGAAAAATAATGTTTATTTAAGTCTCGGTTCAAATATTGGAAATTCAATTAATATTTTAAATTCTGCAATTGATCACCTTAATTTCAATAAAAATTGTAAAGTGAATAAAATATCTTCATTCTATGACAGTGAACCAATTGGTTTTATTAATCAAAAAAATTTTGTTAATTGTGTAATTAAAATTGCAACTAATTTATCTCCTATAAAATTATTAGATTTATTGAAAATTATTGAATTAAATCATGGAAGAAAAAAAAATAAAAAAAAAAATATGCCAAGAATTTTAGATATTGATATTATTTTTTTTAATAATTTAATTATGAATTCAAAAAATTTAATAATTCCTCATCCAGAATATTTTAAAAGAAGATTTGTTTTAGAGCCATTATTAGAAATTTCTTCACAAAAAAAATGCCCTAATGATGGAATTCCATTGATAAATAAATTAAATAAATGTAAAAATCAAAAAATTACAATCATTAATTCATGAATAATTTATATTATTTAGCTATTGAGGGTGTTATAGGTGTAGGAAAGACTAGTTTGGCTAATTTATTAGAAGAAAAATTAAAAGCAAAACTAGTTATGGAAAAATTTGATGAGAATCCTTTTTTAAGTGAATTTTATAATGACCCTGAAAGATATGCTTTTCAAACTCAATTATTTTTTTTATTAAGTAGATATAGACAACAAAATGATTTAAGACAAACCAATGTATTTAATAAATTAGTAATTACAGACTATATGTTTATTAAAGACAGATTATTTGCGTCTTTAAATTTAGATGATAAAGAAATGTCTTTATATGATTCAGTTGCAAAAATTTTAGAGAAAAATATAATTCAACCTGATATTGTAATATATTTACAAGCTGATACTTCAACTCTAATTAAAAGAATATCAAAAAGAGGTAGAGATTTTGAAAATAAAATTTCACCAGATTATATCGAAGCTTTAAATGAAGTTTACAATGAATATTTTTTTAGATATCAAAAAAGTCCCTTATTAATAATTAATACAAATGATATTGATTTTGTTAATAATAAAAAAGATCTTGAAGAATTAATTTCTTACATTCGTCAACCAGTAAGTGGAACAAAATTTTTTAATCCTAGTTCTAACTTCTAGTTATGAATTTATTTATTCTTTTTTTAATTGGTTATTTATTTTATAGATTAATAAAGGGTACTTTCTTTTTTATAAGGTTTAATAAAAAAAATGATATAAAAAAAAATACTAAAAAATTTTTTATTAAAAGTGAAGATTTAATTGAAGCTGATTTTGATGAAATTAAAGAGGGGGATAATGAAAATGAATGAAATTTTTGAAAAAATCATTAAAAACCGTAATGATTTATATTTATTGATTCTTAGAATATTTACTGCATATTTAATGTTTTTTTACCATGGATTAGGAAAGGTTGTTGGTGGACCTGATAGATGGAAAAGTCTTGGAGGGGCCATGGAAGTTTTTGGGATAGATTTTTTTCCAACTTTTTGGGGGTTTATGGCTATGTTATCAGAGTCAGTTGGTTGTTTATTTATTTTGCTTGGTATTTTCGCTGTTCCAAGTTCTCTAATACTTTCTTTTACTATGTTTGTGGTATGTGTTGGTGATATCGTTGAAGGAGAATTCCCTGAAAAACCAATGCTTTATATTTTGATTTTATTCACATTCGTAATTTTTGGTTCTGGTAAATATAGTTTAGAACGTTATTTTTTAAAAAAATGATTTATGATAAGCATATTTTCGTATGCACAAATTATAGAGAAAAAGAATCTAAATGCAGTTGCGGAACAAAAGATAGTGATCAAATTAGATTTAAGTTTGTACAACTGTTAAAAGAAAATAATTTGAATGATCAAATTAGGTCAAATAAATCAGGTTGTTTTAACTTATGTGAATTTGGTCCAATTGTTGTGATTTATCCAAAAGGGATATGGTATGTTAATGTTAGAATTAGTGATGTTGAAGAGATTTTTAAAAAGTCAATTTTGAAAGATGAAATTATTAAACATTTGCTACCAAAAGAAAATATTTTACACCAAATAAAAGAAATTAGGAACGTTAAAAAGAACTAAGTTTCCCTCCATCAATTGGCAAATTTATTCCATTTATGTAGCTAGCATATTTTGAAACTAAAAAAGCAGCTAGGTAAGCTATTTCCTCAGGTTCAGCTATTCTTCCCGTCGGTATATTTTCTGTCCATTTTTGTTTAATATTTAAATAATTTGTATTTTCATTTTTTGCCATACTTGAAAATAAATTTTTCAATCTTGAAGTATTAACACTGTTTGGTAAAATGTTATTAACAGTTATACCATACTTACCGATTTCTTTAGATAAAGTTTTTGACCAACTAGCAACAGCTCCTCTGGTTGTATTGGATAAACCTAAATTTGGAATAGGTTCCTTGACAGATGTGGAAATTATATTGATTATTCTTCCAAAATCATTTTTTTTCATATTTCTATACACAGCTTTAAATAAAATATGATTGCAAATTAAATGTTTATTAATAGAATCTAAAAAATCTTCATTTTTAATATCTGATATTTTCCCAGGAGGTGGTCCGCCAGTATTATTAACAAGAATAGAATAATAGTTTTTATTAATTTTGTTTTCAATAATTTTTTTTTGCAATTCATTTGGATTACTAAAATTTGCGCAAATGAAATTATGATTATCTCCATAAAGTGATTCTTTTGTTTTTATTAATTTATTTTTATTTCTAGCAATAAGTGTTATTGTTGCTCCAAGTTCAGAAAATTTTTGAGCTATTGAATATCCAATACCATTTGTACTACCACAAACAATTGCTTTTTTATTTTTAAGACTTATTTTCAAATTATTATTATTTCTTATTATAAATTATATAATCTAATTTCTATAAAATATATAGTAATATTAATTGAAAATGAAAGAAAATTCAAAAATTATTTCAATAAATAGAAAAGCTTTTCATGATTATGAAATAATTCAAAAATATGAAGCCGGATTAGAATTGCAAGGTTCTGAGGTGAAAAGTATTAGGGAAGGTAAAATTAATTTAAAAGATAGTTATGCAATTTTAAAAAAAAATCAAATATTTATAATTGGAATGCATATTGGTCAATATTCTCATACAGGTTTTTTAGGTCATGATCCATATAGAAATAGAAAATTATTGTTGCATAAAAAAGAAATTTTAAAAATATTTAATCAAGTTAAATCAAAGGGTAAGACATTAATTCCATTGAAATTATATTTTAGTAACAAATATGTAAAATTAGAGATTGCTATTTCTAGAAGTAAAAAAAATTACGAGAAAAAAAGGGTGGTTTCAGAACGAGATCATTTGCGAGATTTAAATAGAGAATTAAAAAATAAAAAAACAATTAAATGATAAAATTTCCAAAAATTTCAGAACAAATAGATATTATTTCAAGCGGAACAGAAGAAATTATTTCATTAGATAACTTAGAAAAAAAAATAAGTTTATCTTTTAAATCAAAAATTCCATTGAATATAAAATTAGGTTGTGATCCAAGTAGACCAGATTTGCATATTGGTCATTCAGTTGTATTAAATAAATTAAGGGATTTTCAAGAACTGGGTCATTCTGCAATTCTTGTTATTGGTGATTTTACAGCCCTTATTGGAGATCCATCAGGTAGAAACAAAACCAGGCCTAAACTTTCTATAGATGATGTTGAAAAATATTCACAAACCTATATAGATCAAGCTTCAAAAATTCTTGATATTAAAAAATTAAATATTGTGAAAAATGCACAATGGTTAGGAAAAATGAATTTTTATGATATTATTAATTTATCATCTAATTATACTGTTGCAAGGATGCTTGAAAGAGATGATTTTGAAAAAAGATATAATAATCAAATATCAATTTCAATACATGAATTTTTATACCCTCTAGCTCAAGCAATGGATTCTGTTAAATTGAACGCAGATGTTGAATTAGGTGGTACAGATCAAAAATTTAATTTATTAGTAGGTAGAGATCTTCAAAAAAATTATAATCAAGATCCACAAATTGTAATCACTAGTCCCATATTAGAAGGAACTGATGGGAAGAAAAAAATGTCTAAATCCTATGATAATTATATAGGAATTACACAGTCTCCTTCTGAAATTTATGGAAGAACAATGTCAATTCCTGACAATCTAATTTTCTCATATTTTAAACTCGCAACAAGAGCAGATGAAAATGAATTAATTGAAATAAAAAATCAACTTAACGACAATAAAATAAATCCACGAGATCTAAAAAGAAAATTAGCTAGAAAATTAATTACCATTTATTATAATGAAGAAAAATCAATTGAAGCACAAAATGAGTTTGATGATATTTTTATTAGATCTGAAACACCTAAGAATATTGATGAATGGAAAATTAAAGACAATCAAAATAATATATTAATTATTATGATTGATTCAGGATTAATAAAATCTAAAGGTGAAGGTAAAAGATTAATTAATCAAGGCGCTGTATCAATTAATGGTGAAAAAATAAATGATATAAATTTTACTATAAATGATAATTCAGAAGTAGTGTTGAAAGTTGGAAAAAGAAAATTTTTAAAAATCTTTTCTTAATTTAAAAAATTAAAATGTTTTGTTTTCTTTATTCATAAGATAAATTAAAATAATTATTTAATAATATTAATTGGAGTTTTTATATGTCAGAAAATGTTGATCAGATAATTGATATAAGTTTTGATGAAGTAGTTTTAAAATCAAATATTCCTTTTTTAGTTGATTTTTGGGCTGAATGGTGTGGTCCATGTAGAATGGTTGATCCAATAGTTAAAGAATTATCAAATGAATATGATGGTAAAATAAAATTTGGAAAAATGAATGTTGATGAAAATCCAATTGTTCCTCCTAAATATGGAATAAGAAGTATTCCAAGTTTACTTATATTTCATAAAGGTAATGTTTTTGAGCAAATTGTAGGAGCTGTACCGAAAGAAAATATCAAATTAGCTCTTGATAGAGTTCTTACCAAAAATGATTAATAATGTAATTATTATTGGTTCTGGACCTGCTGGTCTTACTGCTGCAATTTATTGTGCTCGAGCAAATTTAAATCCTATAGTTTTTGAAGGAAATCAACCAGGTGGGCAACTTACGATTACAACAGAAGTAGAAAACTTCCCTGGTTTTCCAAATGGTATTCAAGGCCCTGAATTAATGAATTTATTTAGAAAACAAGCTGAGAAATTTGGTGCAAAATGTTATTCTAAAAATGTTGATAATGTAGATTTTTCATCGAATCCATTTGTTTTAAATATAGGTAATGATTCCTATAAAACTCATTCAATAATAATTTCCACTGGTGCATCTGCAAAGCTTTTAGGTATTGAGTCAGAGTCAAAACTAATGGGATATGGAGTTTCAGCATGTGCTACATGCGATGGATTTTTTTTTAAAGAAAAAAAAGTGATCGTAATTGGTGGTGGTGATTCTGCAATGGAAGAAGCTTTGTTTCTTACAAAATTTGCAAAAAATGTTACAGTTGTTCATAGAAGAAATAAATTAAGAGCTTCTCAAATAATGCAAAAAAGAGCATTTGAAAACCCTAAAATAGATTTCATTTGGGATTCAACAGTTGATAAAATTCTAGGTACAACTACTAAGGGTGTTGAAGAAGTAGTTTTGGAGAACTTAATAACTAATAAAAAAATTAACTATAAATGTGATGGAGTATTTTTAGCTATTGGTCATAAACCTAACACTAGTATTTTTAAAAATAAATTAAAGTTAAATGAAAATGGTTATATAATTACAGAAAATAGTTCAACTCTGACTTCTGTTAAAGGTGTTTTTGCTGCAGGAGATGTACAAGATTTTACATATAGACAAGCTGTTTCAGCTGCTGGATCTGGATGTATGGCAGCAATGGATGCTGAAAAGTATATTGAAACTATCATTGAAGAAAATTAAGTTTTATTTTAATGAGTCATCCTAATCAACCAATTTATACTTTAAATGACATTAAGGTAAATTTTTCAAAAAAAGTTACTTTAAATATACCAAACTTTAAATTTCATAGAGGAGCAATATATGGTATAACAGGTCCAATTTCATCTGGAAAATCCACATTCTTAAATTTATTATCATTTAATCTTAATAATTTTTCAGGAGTTTTACTTTTTGAGGAAAATTTATTTAAAAAAAAATGGTATAAGCAAAATTCAACTCCTGAAGGAATATTATATGCAGGTTCTTATCCAAAGCCTTCAAATGAAACAATTAAAGAATTTTTAACAAGGGTATTTAAAGAAAAAATTAATGTCATAAAAAAACAGTATTTTTTAAAAGAAAATTTTTCATCTTTTTGGGATACACCTTTAAAAAATTTATCAACAGGACAAATGAAAAGATTAAGTTTGATTTATGCTATAGAAATGGATCCAAAAGTGTTATTAGTAGATAATTATGGAGATTGTTTTGATAGAAATACAATAATTGAATTTAATAAAAAATTAAAATATAACTCACGTTCAAGAGGAACTACGATAATTTTATCAACTAGTAAATATAAAGATGTCATCGATATATCTAATATTTTGTTGTTTCTGGATAAAGGACATTTATCCAAAATTAGATCTCAAAAAAAAATTAATCATAAAAGAAAATAAATGGAGTTTTAGATCGATTTGTCAAAAAAATTTATTCTAATCATTGTTGATGGTGTTGGAATTAGAGATAAAATGGAAAATAATGCTTTTAAACTAGCTAAAACTCCAACTTTTGATAAACTTTTTTCTAATTCGCCTTGGTCTACATTAGGTGCTTCTGAACAATTTGTGGGTCTTCCCAAGGGAATATCGGGTAATTCTGAAATTGGTCATATGACGATTGGATCCGGAAGAGTTTTAAAACATGATTTGGTAAGAATTAATGAATCAATTAGTAATGATAATTTAAAATTAAATGTTAATCTTATAAATTATTTTAAAGCACTAAAATCTAGAGATGGAAATTTACATTTGATAGGTTTAGTCTCAGATGGTGGTGTTCATAGCAATTTAAGTCACATAATTCCAATTATTGAAATTGCTCAATCTTATAATGTCAAAAATATTTACCTCCATGCTATAACTGATGGAAGAGATACATCTCCATTTGATGGAGTAAACTATATTAAAGAATTGGAAAAAAATTTTAAAAAATATCACAATGTTGAGATAGCTACAATTATTGGTAGATATTTTGCAATGGATAGAGATCAAAGATGGGAGCGGACTGAAAAAGCTTATAGATTATTTATTGAAAATAAAGGAAAAATTTTTAGTTCTTCAATAAATGCAATTGAGGAATCATATAAGAATAAAATAACTGATGAATTTATCGAACCAATCGTTTTAGAGAAATATAAATCTAATAGAATGAATCCAAATGACGGAATTTTATGTTTCAATTTTAGATCAGATAGAATGAGACAAATTTGTCCATCTTTGTCTGATTCTAATTTCAATTATTTTAAATTGAATCAAAAACCAATTCCTTTAATAACTATGACACCATATCATGAAAATTTTAATTTTCCTGTAATTTTCCCAAGTTATGAAATTGAAAGAAAATTTGGTCAAATTCTTTCAGAAAATCATTTTAAACAATTAAGGTTGGCTGAAACTGAAAAATATGCTCATGTAACGTATTTTATGAATGGAAAAGATGAAGATCCATATGATGGAGAAAAAAGAATTTTAATTCCTTCACCTAAAGTTCCTACTTATGATTTGCAACCTGAAATGAGTGCAATAAAAGTAATGAATATCGCATTAGATGATATAAATAATAATATTTCAGATGCAATCATTATGAATTTAGCAAATCCTGATATGGTTGGACATACTGGTAAGCTAAATGCTGCAATTAAAGCAGTTGAAACATCAGACCAAGTTTTAAATAAAATAACAAAATTATCAAAAATTAAAAACATTCCCGTTTTTATTGTATCGGACCATGGTAATTGTGAGCTTATGGTAAATGAAGAAACTGGATTAGAACATACAGCTCATACATGTAATAGGGTACCATTTATAATTTATAATGGTCCAAATAATTTGAATTTAAAAAAGGGGTCAATTGCTGACATTGCACCAACTATTCTGGATTTAATGGATATTGATATCCCAGATGAAATGACTGGTATTAGTTTGGTTAAATAAATATGAATCATTTATTTAAGATAGATAATTTTTTAAATAAAATTAATAAGCTTAATGTTTTGGTAATTGGTGATGTTATGTTGGATAAATATATTTGGGGTGATATTAAAAGAATTTCACAAGAAGCACCTATACCAATTATTGATGTGAATTCAATCTCCCATAATATAGGCGGTGCTGGAAATGTTGCATCAAATTTAGTTGGTTTAGGATCTAAAGTTTCAATTGCTTCAATAACAGGTATTGATAAAGAATCCGAAATCATCTCTAATATTTTAAAAAAAAATAATATTGATGACTCAATGGTATTCCATTTGTCAAACAGGAAAACTACTCTTAAAACTAGATATTTATCAAAATCCCAACAAGTTTTTAGAGTTGATTCTGAAGACTCTAGTCCGTTAATATTTGAAGAAAAAATTAAATTCTTTGAAACAATTAAATCTAATATCAATAAATATAATGGTATAATAATTCAAAGTTATGATAAGGGATTAATAGACATTTGGTTTATTAAAGAACTTTTAAAACTATGTAAAAAAAAACAAATTCCAATTTATGTTGATCCTAAAAGAAAAAACTTTTTCGATTTTTTAGAGGTCAAATTATTCAAACCTAACTTAAATGAGGTTTCTAACGCATTCAATATAAATGTGAATAAAAATAATATTGAAAAAATAGGACTTGAATTGAGGAAAAAAATTAAATGTTCTGTTTTATTGATTACTCAAGGTTCTGAAGGAATGTCATTATTTGATGAAAATGGATTTCATCAGATTCCTACTAAAGCACAATCTGTTCATGATGTTTCAGGTGCAGGTGATACAGTTATTTCTGTTTTTATATTGGCAAATTTATGTGGTATTGATAATAAGTTCGCTACAGAACTATCTAATTTTGCTGCCGGGAAAGTTTGTGAACATATAGGAGTATATTCTATTAAAAAAGAGGATTTTAAGTCTTTTTAGTATAGGAATTAATTATAAATTTTTTATTTAAATCATTTATTTTCTCTATTTTTATTAATGGTATTATTTTTTCTCAAAAAGATTTAAAATTTCAACCTTGGGATTGGGTAACATTTGACGAAACAAAAAAAATAAACTCTATTTCAGAGGGAAATGAATATATTTATTTTGCTACAAATGGTGGTATTTTAAGATTTCATCTTTTTGGAAATTATTGGGATTATCCAATTTCCACATCTCAAGGTTTAAATTCAAATTTAATTAGTGCAGTTTATTATGATTTAAATACAAATATTTTGTGGGCATCATCTTATAACAATTTAAACTATTCAAATGATCAAGGAAAAACATGGTATAAAATAAATAACGTTAATTTTAAAAATATTATTAGAATTGGATCTGATAATGAATATATATATTGTATAAATAATTATGAAATAATAAAAATCAATAATTTAAGTGGTGGAATTATTGAATATATGAACAAAATTAATGAAATTAACGAAATTAAATGGTCTAGTTACTTATCTTTAAATTTATTTAAAAATAAAATTAATGAATTTAGTTTTTCTGGTGGTTGGTATATTCAAAACAATAATCTTATAGGGCCAAAAGTTTCAGATAATCATAATATTTCAACATTTTATTTAGATAGGTTTGGTGATTCATGGCTAGGAACAAATAAAGGTTATATTTTTAAAGGTTCAAATCAATTATTAAACATGGAATTAGTATTTCAGGGATTATCAAATTCATATATAAATGATTTGAAAATATGGGAAAATAAACTTTGGGTATCTTCTAATACAAATTACAATTCATCATCTTCAATAAATTTATTTGACTATAATAATTTTAATTTTGAAACATTTAGTTCAAAAGAACAAATTAATTTTAATTTCGATTCTATTTATAAAATACAAAGAGTATTGAATGAATGGTATTTTTTATCATTTGATGGTATAAAAATATTTGATCCAAAAAAAGAAAATTGGTTTTTTTTAAATAAATCTCAAAAATATTTTGATTATAATTATTTTAATTCGATGGCAAATGATACTGAATATATATATTTAGGTACAAAAAATGGAATAAATAGATTTTTAATTAATTCTTTTGATTTTAATAATTGGTCGGTATCTCAAAAGATTGGTAATATTCCAATTGACCATGTTTTTTGGGATGGAAGAAGTTTATGGATATGTTCAGGATTAAGAATTTGGAGATGGGTTAAAGATGCTAACTTTTTAGCTGAATATGGTTCTAATAATAGTATTGAATCTGATTTTTTTAGTTTAGAATCTTCAATACAATCATCAACTTTATCTGATGATAAAATTTTTTTCGCTGAAAAAACAAGTTTGTTGATTTTAGATAAAATAAATTTTACTTGGAAAAGAGTAAAATATAATAGGAAATTGATAAGTGCTCAAATTTTTGAAATTGAGTATTTTAAACTTAATGCAAATGAAGAATTAATTTGGTTTGCTACTAATAAAGGAGTTTTTGTCATTAATATATCTGAAAATTATCAATTAGATTTCAATCAAGATAATGGACTTTCCTCTGATTTTGTGACTAGTATAGAAATCAATGAAAATGAAATTTGGTTTGGAACTTCTTCTGGTATTTGTAGATTTAACTGGTTAAATCATTTAAAATGAAATTTATTTTTACTATTATTATAATTATTGTTTTTAATTCATTATCTTTTACACAACCAAAAAAAAATAATGATAATTCAGGTCCTTTTTTCTATTTGAATTTATCAAGATATCCAACAAACAACATAGATTCCACAAAAATAAATCTTCATATTAATATTCCTTATAGCTCAATTCAATTCTTAAAAAAGAAGGATAATTTTGAGGCAAATTATGAATTAACATATACTATTCAAAGTGAAGATGATATTCCTATTACTAGGTTAAGTAAACAATATATTGCTAAAGTTGATGATTTTAATGATACATACTCCTCATTAATTACTGATATGGTTAAAGAAACAATTATTTTATTTAACGAAAACTCCAAATTGTTTGTTGAGTTGATGGATTTGGATACAAGAAAAATTTTTAGAAAACAAATTGACATCAGTTTAGACGATTTTAAAAAAAATGATATTATTAGTGATCTTATTTTAATTGATATAAATAAAAAAAATTCTCTATTTGAAAATGGTTTTCCAATTATTCCTCCTATGATTTCAGATATTGATTCATCAATTAATATCTTTTACGAGGCAATTTCCCGTAATACATCTTTCAATTTCATCTATTATAGAATTTCATCTTTAGCAAACGAAACTATAATATCAGATTCAATACAGATCGCTAATACTGATTTGGTTTTTAACAATATTTTAAACATACCTATATCCGATAAAATAAAATCAAATTTTAATGTTCAATTATCATATGAAAGAATTTATGATGATTCATCAAACGAAGAATTTATTTCAAGTATAACAATTAAATCAAATTTTATGGGAATGACTTCTTTTGTGAATGATATTGATGAAGCAATAGAACAATTGAGATATATTGCATTTACTGATGAATTAAAGAAAATATTTAAAAATAAGAATATAACTAAAGAAGAAAAATTAAAAGAATTTTGGGAAAAACGAGACCCTACGCCTGAAACTAAACAAAATGAGTTAATGAATGAGTATTATAGAAGAGTCTCATTTGCAAATAATCAATTTCAAACCTGGCAAAAAGGTTGGAAAACCTCTATGGGAATGATATTTATTCTTTTTGGACCACCTGATAATATTGAAAAAAATATGAGTGATATTAATGGAAGAGAATATCAAAGATGGAATTATATTAGAATAAATAGGTCATTTACTTTCTTAGATTATAATGGATTTGGAGAATTTGAATTATTAGATCCTTATAATTCCACATATGGAACTAGATGGCGATAATAAACTAAGAGATTATTATTAAAATCTAATCATTTATGAAAGGTTTATTAACTGCAGGTGGTCACGGTACTCGTTTAAGACCTATAACTCACACTAAAAACAAACATCTTATACCAATTGCAAATCAACCAATGTTATCTTATGCAATAAACTATATGAGAAAAGCACAAATTATAGATATAGGTATAATTATAAATGAGAATGATAGAGAAATTGAAAATATATTTGGAAATGGAGAACAATATGGAGTTAATTTAACTTATATTCATCAAAATTCTCCTTTAGGTTTAGCTCATGTTATCAAAATTTCAGAAGATTTTATTGGAAAAGATAAATTCTTATTTTATCTCGGAGATAATATTCTAGTGGGTGGCGTTAGTAGATTTATTGATGAGTTTAATAAATTCAAAAGTAATTGTCATTTAGTATTAAGTAAAGTCAATGATCCTGAGAGGTTTGGTGTACCAGAAATTAAAAATAATAAAATTATTTCTATTTCTGAGAAACCTAAAAACCCTAAAAGTGATTATGCAATAACAGGAATTTATTTGTATGATTCTTCTATTTTTGAAGCAGTTAATAATATTAAACCTTCTGAAAGAGGAGAATTGGAAATTTCAGATGCACATCAGTATTTATTAGAAAAAAATAAAAAAATAACTTTTTCTGAAATAACAGGTTGGTGGAAAGATACAGGGAAGCCATCTGATTTAATTGAAGCAAATAAACTTGTTTTAAAAAATATGGTTAAAAAAAAGAATTTTGATTATTATGACAAAGTTGAGTTCAATAATAAAATTAATGGTAAAATTATATATGGAAAAGATTCAATAATTAAGAAATCAATTATTAATGGACCAGTAATAATTGGTAATAATGTAGTTATAGAAAATTCAACAGTTGGTCCTAATGTTTCTTTATCAAACAATTGCAAAGTGATTAATTCTAGAATTGAAGATTCTATCGTAATGTCAGATACTTCCTTTTTAAATATTAAAAAGACCATTAAAAATTCTCTTTTGGGAAATAATATTCAAATTAATCAAAAGAATGAATTTTTTAACGAAATAAATTTAATTATAGGTGATCAAGGAAAAATAGAAATTGGATAATGATATAAATAAAAAAGTTTCCTTTTATACTTTAGGTTGTAAATTAAATTTTTCTGAGTCTTCAAAAATAATGGATGATTTTATTGACCATGGTTATAAGATTATTGAATTTTCAAAAAAATCTGACTTTTATATTATAAACACATGCTCGGTAACAGAAAATGCAAATAAAAAATGCAGGAAAATTATTCGCCAAGTTAAAAAATTAGCTCCTAAATCTAAGATAATTATTATTGGATGTTATGCTCAATTAAAACCTTTCGAAATTTCACAAATTGATGGAGTTGACTTAGTTTTAGGTGCTGGTGAGAAATTCAATATAATTAAACACTTAGATTCTTTAGATGTAAAATTAAATAAAGTACATTCATGTGAGATTGATTCAGTAAAAGAATTTGTAACATCTTATTCAACATCACAGAGGAAAAGATCTTTTTTGAAAATTCAAGATGGTTGTGATTATCCTTGTACTTATTGTACAATACCAATGGCTAGGGGGAAAAGTAGGAGTGATACAATTGAAAATATATTAAAAAATGCAATTAAAATTTTAAATAAAGGTATAAATGAAATTGTTTTAACGGGTGTCAATACAGGAGATTTTAAAAATAATGGTTTAAATTTTTTCACTTTAATTAAATCGCTTGATACTATTGGAGCTAAAAGAATCAGAATTTCATCTATTGAACCAAATCTTTTAACTAAAGAAATAATTAATTTTATATCAAAATCAAATTCTTTTGTTCCACATTTTCATTTGCCTTTACAATCTGGTTCTGATAAAATTTTAAAACTGATGAAAAGAAGATATAATTCATTATATTATATTGAAAAAATAAAAATGATTAAAAAAATCATACCTTATGCTTGTATTGGTTCAGATGTAATGGTTGGTTTTCCTGGAGAAACATTATCAGATTTTAATTCAACAAAATCATTAATTTTAAATAATGAAATATCATATTTACATGTTTTTAGTTATTCGGATAGAGATGATACAGAGTCTTCAAAAATGTTAAATAAAGTATCCTTGAAAGTGATAAATAATCGAAGCAGGATTCTAAGAAATATCTCTAAAGTTAAAAAAAGAAATTTTTATGAATCATGTTTAGGGAATATAGATTCTATTTTAGTAGAAAATGTTGATAATAATTATTTTATTGGATATACTTCAAATTATATTAAAGTAAAATCAAAAATAAAATCAATAGATTTAGGTCAATTAGTAAACGTTAAACTAGATTATGTAGAAAACGATTATATGGTTGGAAAACAATTTTTTAATTAAACATTATATCTATATTTTTAAAATATGAAAAAAATAATCATCTATCTTTTATTTGTCACATCAATAATAAATGCAAAATTTTCCATACCTTTTTCAAATTATGAATTATCATTAGATACTTTACATGGTAATTATATTAGGATAGATAAACTTAATCATTTTGAAAGTTTTAATATGAGTATTTCTTATGATTCTAATTTTATAAAATTGGGTAAACCTATTATTGAAGCTTCAAAAAACCAGTATGAAAATTTTATTTTTAAGGATGGTTCACTAATTATAAAATCAAATATTCAAAATAAAAAAATAAATAAAGAGGAGTTTGATGAATCAATTTTAATTCCTTTAACTATAAATAACAGTAATAAATCATTTTTTTTATCTTTTAAGGATTTCATGTTTTCTGGAGTAAATGATAAAGTAATAGAACTAAGAGTGTTAAATGGTAAAATTTTTATCAAAGAAAATATTCCCTCAACTTTTCAGTTGAAAAATAATTTTCCTAATCCTTTAAGAAAAAATTTTGTTATTAGATTTGAATTGCCTGTTGCATCAATTGTTGATTTGATTATTTATGATTTAAACGGTAATAGGGTAAGGATTTTAGAACTAGAAAATGATTTACCTGCAGGATTTTATAATAAGCCATGGGATGGTAAAAATGATATGGGAGCAAATGTATCTGAGGGTGCTTACGTTTGTTCAATTAAAATAAATGATAATTATCATTCTATGAAAATGCTATTGTTAAGATAAAAAATATGAAAATAATTATTATTGGAGCAGGTGAAGTTGGTTTTCAATTGGCCAAATTATTAAGTCAAGAAGATTATGATATAACAATAATTGATCCTGATAAACAAAAAATTTTAAGAGCTGAAGATAATATCGATGTAAATGCAATCCACGGTAATGGTACAAATCACACAATATTATCAAATGCAGGTATTGAGGATACTGATGTTGTTGTGTCTGTAACAGGAATGGATGAATCAAATTTAATTATATCAAAAATATCAAAGAATTTAGGTTGTAAAAAAGTAATTGCGAGGTTAAGAAATATTGATTATTCAAATAAAAATTATATAATTAATCCCGAGAATTTCGGTATTGATGAAATAATTCACCCTGAGATGGAAGCTAAATCTGAAATAAATAGATTGGTTATACAAAATTCAGCAAACTATGTCTATGATATTGATGAAAATTTAAAATTATTAGGTGTTAAAATTAATGATAGTTCTAGTTTGATTAATAAAAACCTTTCATTAATTAAATCAAATAATAAGTCTTTATCATTTAATATAATTGGTTTAACCCGTGATGAAGAAACTATTGTACCAAATGGTGAAACTAAAATTAAAAAAGGTGATGAGGGATATTTTTTAGTTAAAAAAAATGATATCGAACATTTAATGTATATTTTAGGTAAACAAGTTAATCAAACAAAAAATGTTATGATTCTTGGTGGAGGTAAAATAGGAAGAGCAGTAGCTAATGATTTTCAAGATGATTTAAATGTAAGACTTGTTGAAATAAATAAAGATAAAGCAGATATGATAGCATCAAAATTTAATATTACTGTTCTTAATGATGATGGAACTGATATCGAGTTTTTGAGATTAGAAAATCTTGAAGAATTAGATAGTTTTATAGCTGTAACAGAAAATGATCAAACTAATTTAATGTCTGCTCTTTTAGCTAAACATCTTGGAGTCAAACAAAATATAATTCATGTTTCACATACTGAATATATACCTGCAATGACTATGATTGGATTAGATGCAGTAGTGAGTAAGAGTATATGTACAGTTAATAAAATAATTTCATATATAAAAACAGATGATAATCATGAAATTGAAAAAATTGGTAATACTCAACTAGAATCAATTGATTACAAACCCAAAAAAGGTAGTAGAATTACTTTCTTTAAATCATTAGCATCAGAAAAATTTCCTGAAAATTCTATTATTGGTTGTATTCAGCACAAAAATGGATCATTTTCAATTGCTAATGGTGATAGTATTGTTACGTCAGATGATATAGTAAAGGTCTTTGCCTTGCCAGAAGCTATTAAAGAGGTAGATAAATTTTTTATATAATTTAATGCATTTAAAATCTATTCTAAACGTTGTTTCACGAATTGTTTTTGCACTTGGTTTAACAATGATTTTTCCTATAATCATTTCTCTATTATATAAAGACTCTCAAGCTTTATATTTTCTCTTATCAGGTTTTACTGCAATTTTAATTAGTATTCCTTTATTTGTTTTAACCAGAACAAAAATAAAATTTTCAATTAAAGATGGTTTTGCAACAGTTAGTTTAGCTTGGTTTTTTGCAGCATTTTTTTCAAGTCTTCCTTATTTGTTTGCTGGTGTTGTAGATAATTTTACTGATGCTTTTTTTGAATCTATGTCAGGAGTAACTACTACAGGAGCAACAATAATTCAATCAAGTGTCAATCTACCTGATGGAATTGAGAGTCTTCCTAAAAGCATTTTATTTTGGAGAAGTTTTACCCAGTGGATTGGTGGAATGGGTATTATTGTTTTTAGTGTTGCAATTTTACCTCTTTTAGGTGTCGGTGGTATAAAGCTTTTTAAAGCAGAAGTTCCTGGGCCAATTACAGATAAAATAAAACCTAGAGTTCAAGAAACAGCAAAGATTTTATGGATGGTATATATAGGTTTCACTTTTCTTCAAACATTATTATTGTTTATTGCTGGAATGACACTTTTTGATTCTATATGCCATGCGTTTACAACTATGCCAACTGGAGGATTTAGTACTAAGAATGCAAGTATTGGAGCTTATCCAAATATAATAATTCAATATATAATTATTTTTTTTATGTTTATTGCTGGTGTGAATTTCACATTACACTTTAAAGCTTTGTCAGGTAATTTAAAGGGTTATATTAATGATTATGAATTTAAAGTATATTTTTTTATAATTATTTTTATTTCGATTTTAATCTTTTTTAATATTTCAAATTCAAATTCAGAATTATCTCATAATAATTACATAAAATCTCTTTTTCAAACAATTGCAATTTTAACCGGAACTGGTTATTCTAATACGGACTATGAAATTTGGCCGTTTTTTTCACAATTATTACTCTTTTTTATGATGTTTTTTGGAGCGATGGGTGGTTCAACAAGTGGAGGTATGAAAATTTCGAGAATTGTTCTTTTAATAAAGTTTTCTTTAACTGAAATAAGAAGAATGATTCATTCTAGAGCAATAATACCAATTAAAATTGGGAATAGAACTATTAATGATGAAATCATAAGAAATACAATTGGTTTTTTTCTAATTTATGTATTTATATTTGTTTTAACATCATTAATACTCACTTTTTTTGATTTAGATTTTGTTTCTGCTCTTGGTGCTTCTGCTTCAGCAATTGGTAATATAGGTCCAGCTTTTGGTGACTTTGGTCCTACTGATACTTATTTATCACTTAATGTAATTGGAAAATGGATGTTAAGTTTTTGCATGTTATTAGGTAGATTAGAAATTTTTACAGTTTTAGTTTTTATAAATTCAATTATATCTAAAAAATAAATTTTAATATTTCTATTGAAAAAAAACGATTATATAAAAAAAAAATTAATTTTATTACCTAAAAAACCTGGTGTTTATTTTTTCAAGGATATTAAAGGCAATTATCTCTACATCGGTAAAGCAAAATTATTAAATAGAAGAGTACGTTCTTATTTTCAAAATAACTCAAATTTGTCTTTAAAAATTATATCTATGCTTAAAAGAGCCAAAGATTTTGAATGGATTGTAACTAGTACAGAAATTGAAGCTTTACTTACTGAGGCAAACTTAATTAAAGAGCATGGACCTCATTATAATGTTTTATTAAGAGATGATAAAACTTTTCCATATATAAGAATTACAAATGAAAATTATCCTAGAGTTTTTATTACAAGAAAATTAATAAATGATGGTTCGAAATATTTTGGTCCATATACTGATGTAAAACAACTTAGATTTATATTAAAAGTTTTACATAAGTTATTTCCAATAAGGAGTTGCGATTTCAATATTAATAATGATAGTATATCAAAAAAAAAACACTCTATTTGTCTTGACTATCATATAAATAAATGTAATGGTCCTTGTGAAGGTCTTATTGGTCAAAGTGATTACAATAATATAATAAGAAATGTAATTTTTTTTTTAAATGGTAATAAAACTAAAATAATTAAAGAAATATCAGATAAAATGATTAAAGCATCAAATGTGATGGATTATGTAAATGCTGGAAAGTATAAAGATCAAATTGATTTGATAATTAATTTTACTAAAAAACAAGGTAAGAGTGTTGCATCATTTGATGATAGAGATATAATTGCAATTTCATCAAAAAATAATTTAGCTTGCGGTATAGTAATTAGAATTAGAGAGGGGAGAATTTCAGGAAGAGAAAAAATCATGTTAAACGGTGCAATGAATGAAAAGCAATCTACCCTGATTTCAGATTTTATTAGACAGTTTTACTTGATTACTAATTTTATACCAAGTGAAATTATATTGAGTGAAAAACCTGATTTTTTTACAACATTAAAACTTTGGCTCGAATCTAAAAAAAATAAAAAAATCAAAATAACAACTCCATTAAAAGGAGAAAAACTTAGATTATTGAAAATGTGTCAACAAAATGCTGATCTTGTTCTAAAACAAGAATTTTTGAAGAAAAGTGCTAGAAAAGAATTAATTCCAAAAATGGTTAATCAAATTAAAGAAGATTTAAATCTAGTTAGTCCTCCTCGTAGAATTGAAGCTTTTGATATTTCAAATATTCAGGGAAATCAACCTGTTGGAAGTATGGTTTGTTTTGTAGATGGTAAACCAAGAAAAAAAGAGTATAGAAAGTTTTCTATCAAAACGGTTAAAGGAATTAATGATTTTGAAATGATTAGAGAAATTGTTTTAAGAAGATATAAAAGAATCAAAAATGAAAAAGGGATTTTACCTGATTTAATTATTATTGATGGTGGAAAGGGTCAATTAAATATGGCAGTTTCTGCACTAAAGGAATTGGGGTTGAATTATATTCCAATTGCATCAATAGCAAAAAGGTTAGAGGAGGTATTTTTGCCTGGTTTCCAAGAACCTCAAAATATCCCTAAGTTTTCCTCAGGTTTGATTTTAATTAGAAGAATTAGAGACGAAGCTCATAGATTTGCTATTTCATTTCATAGAAAAAAACATAATAAAGCTTCAATAAATTCTATTTTTGATAATATTAACGGTTTTGGACCTAAAACGAAAATTAAACTTTATAGTAAATTTTCTGATATTTCAAAAATTGCAAAAAGCGAACCAAATTTAATAACTAAAGAGTTGTCAATTAATTTATCTTTAGCTAGTGAAATAATTGATGTTGCAAAGAACTATAAAAAAAATAATGAATAAAAAAAACCTAAATTCAAAGATTTTAAATAGCAATAAAATTTCAAAAATAGATAAATTAAAAAAAAATAATTTTGTAATAGAAAATGATTATATAATGTTATTAGGTAATCTTAATAAAACACATAATATAGAAAAAAAAAAAATAGTTGAATTTCTTAATTTATTTATTAAATATAAAAAAATAAAATATTCAGTTTCAACATATAATATTGGCATAGCAAATGCTTTATTAATTGCTCTTTTAACTTCCAATAATATTAATGGTATTAAAGCACATATAAGTAGCTCCAATGATATTGAAGATTTATTATTTTATAAAAACTTTAGTAATTATATTATATTTTTATCTGAACAAAATATTTTTGATGTTCAAAAAAAATGTAATTCTCTTAAGATTAGCTGTTTAGCAATTGGAAGAGTAATTAGTGGAAAATATTTAATAATCAATGATGGGTTAATCAATTTGAATATTGATAAAGAAAATGAATTGATACTAACTGAGCGTAGTATCTGATAAATGAGCTAGTAGTAAAATATTAATTAATTAAGTTTTTTTGAATTTGAGTGTGAATTATTCCATTAGAAGAAAGTATTTCTCTATCATCTAAAGTAATTTCATCTCCATTGACTTTTGTAGCTAACCCTCCAGCTTCTTGAATTATAATTATGCCTGCTCCAATATCCCAAGCATTTAGATCTAATTCCCAATAACCATCTAACCAACCTCTCGCTACATGACATAAATCTAGTGCTGCAGAACCAGCTCTACGAACACCTTGTGTTAAATGAGTAAGCTTTCTATGTAAAACCATATTTTTTTCCCATATTTCCTCATGTTTATATCCAAAACCTGTTGCTAATAAACTTTTTGAAAGATTGTTTATTTTTGAAACAAAGATTTTTTTATTATTACAGAAAGCTCCATTGCTTTTAGTGGCGTAGTAAATTTCATCAGTGGAAATATGCTTAACTATACCTAAAATAGGTAATCCTTGATAAAACAAAGAAATTGAAATTGAGTAGAATGGATATCCATGAACAAAATTAGTTGTACCATCTATTGGATCTATTACCCAACAAAAATCAGAATTATCAGAGATTAACCCAGATTCTTCAGTTAAAAATCTATGATCGGGGAATGCTTTTGTGATTTTATCAACTATTATTTGTTCTGATTTAATATCTGCATTAGTTACTAAATCAGAAATTCCTTTAAAATTAATACTTAAAACTTCTTTAGTTTGAGTTTTTATAAAATCAGATGCATTTTCAGCAGCTTCTACACCTACTTTTAAATATTGAGATAAATTCATTAAAAAGATTATTTATTATACTTAGTATGTTTTCTTGAAAAATAATCATTTGTCAAATCTTTCAAGATGTTCATTAATAAAATGATAGCTAATAAATTAGGGATTGCCATTAATGTCAGTGCAATATCTCCAAAATTCCAAACAAAATTAACTGGAAGTACACATCCTAGAAAAACAAATAAAATATAAAAATATCTATATATATTTAATTTTGTAGCTCCAAATAAATATTCAACGCATCTGTCTCCATAATAACTCCAAGCTAACATTGTAGAATATGCAAAAAGTAAAACTGAAAGATTTATAATTGTAGCCCCAAGAAATGGTGCAAAATAAAACCCTCTTGTAAAAGCCTCTTTAGTTAAAAGAGCGCCTTCATAATTTGAATTTAATGCGTCTGTTGATAAAATGATTAATGCAGTCATAGAACAAATAATTATTGTATCAATAAATGGTCCCATTAATGCTACAATCCCCTCTCTAACAGGTTCCTTAGTTTTTGCTGCAGCATGAGCAATAGGAGCAGAGCCTTGACCAGCTTCATTTGAATATAATCCTCTTCTTATACCCCACATTATTACTGTAAATAATCCACCTATTCCAGCTTTTAAAGAAAATGCTTCTTTTAAAATTAGTTGAAATGAAGGAATAATTCTGTCATGAAAGAGAATTAAAATAAAGATTGCGCTTAAAACATAAACTAAGGACATAGTAGGAACTAATTTTTCAGCAAATATTGAAATTCGTTTTATTCCACCAATAATAACTAACCCAACAAAAAAAGATAAAATTAATCCTGAAACCCAAAACGGGATACCAAAATTATCATTATATGTTTGAGCTATGGTATTAGCTTGATTCATATTTCCTGAGCAGAATGATGCAATGATCGTAAATGCTGCAAAAAAAACAGCTAACGATTTCCATTTTTTACCTAAACCCTTTTCAATATAATACATTGGTCCACCTGAAGCTTTTCCATCTTTATCAAAAATTCTAAATTTTAGAGCTAAAGTAGACTCAGCATATTTCAATGACATACCTAAGATTGCTGTCATCCACATCCAAAAGATAGCACCTGGACCTCCTTTTTGAATAGCAAATGCTACTCCAGCAATATTACCAATACCAATTGTAGCTGCAAGAGCAGTTGATAAAGCTTGAAAATGAGTAACATCACCTTTGTCAGCTGGGTTGTCATATTTGCCTGTTAAAACATCAAAGCTATGTTTTAGTCTTCTAACTTGAATGAATCTTAGGGAAATTGTAACAATTAAACCTGACCCTAGAAGAATAGGTATTAGAGGAGTTGCAATTATGTTACTAATTTGCGAAGTTAATGAATCGAGTGATATAATGAATTGTTCCAAAACTTTCTCCTTTAATAATTTATATATAATAACATTAATTTGTAATAAATAAGAATGATAAATTAGAATATAAATATATATTAAAAAATCATATGAATATTAAAAATATAAGAAACTTTTCAATTATAGCTCACATAGACCATGGTAAATCTACTCTTGCTGACAGAATACTTGAAGCGACTAACACGTTAGAAAAAAGAGAAATGATGAATCAAGTTTTAGATAGTATGGATCTTGAAAGAGAAAGAGGGATTACAATAAAAAGTCATCCAATTCAAATGCATTATACTAATGAAAATGGTTTAGATTATGTTTTTAATTTAATAGACACACCAGGTCATGTTGATTTTTCCTATGAGGTCTCAAGATCATTAATAGCTTGTGAAGGAGCTTTATTATTAGTAGATGCATCTCAAGGTGTAGAAGCTCAAACTGTTAGTCATGCTTTGCTAGCACTTGAAAATGATTTAGAAATTATTCCTGTTCTTAATAAAATAGATTTGCCCACATCCAGACCTGATGAAATTTCTCAACAAGTAATTGATTTAATTGGATGTAGACAAGATGAAATAATTCAAGTTAGTGCTAAAACTGGAGAGGGTGTTAATAAATTATTAACTGAAATTGTAAATAAAATACCACATCCAAAAATATCAAACGAAAACTCAACTAGAGCTTTAATATTTGATTCAAATTTTGACTCTTACAGAGGTGCAATACCATATGTTAGAGTGTTTAATGGTAAAATTAGCCCTGGAATGACAGCTAAGTTTTTGTCTAATGGAAAAGAGAGAGAGATTACTGAAGTTGGAAATTTTGTTTTAAAAAGAATCCCTAGCAATTCTATAGAAGCTGGGGAAGTAGGATATGTTGTAGTTGGATTAAAGGATGTTAAAGAGTTGAAAGTTGGGGATACAATAACAACTAAAGAATTAGAATCTAAAAAACCTTTGCCAGGATACGAAGAAATGAAACCTATGATTTTTTCTGGTCTTTTTCCTACAGTTAGTGAAGATTATGAAAAACTCAGAGATTCTATTGAAAAATTAAAACTTAACGATTCCTCTTTAACTTTTGAACCAGAAACATCGACAGCTTTAGGTTTTGGTTTTAGATGCGGATTTTTGGGTATGTTACATATGGATATTATTAAAGAAAGATTAGAGAGAGAGTTTAATCTTAGTTTAATTACTACTATACCTAATGTAAGATATGAAATTCTGAAAACTAATGGTGATATCATTGAAATTGAAAATCCAACTGAACTTCCAGAAAATGGATTAATTGATGAATTAAATGAGCCTTATGTTTTAGCAGAAATTATAGCTCCATCAGAATTTATGGGTTCATTGATGAAATTATGTCAAAATAGAAGGGGAATATTTATTGATACTCATTATTTTTCAAAATTTAGAGTTCAACTAAAATATGAAATACCTCTTTCTGAGATAGTTTTTGATTTTTATGATAAGTTAAAATCTGTGTCAAAAGGTTATGCATCATTTGATTATAATCATATTGGATATAGATCAGGTCCATTACAAAAATTAGATATTTTGATTGGAGGAGATGTTGTTGATGCATTATCAATAATTACGGATAAAAATTCCTCATATTTTAAAGGACGTGAATTGTGTAAAAATCTTAAAGAAGTTATTCCAAGACAAATGTTTGAAGTTATCATTCAAGCTGCTATAGGATCAAAAATAATCGCTAGAGAGACTGTTAGACCTTTTAAAAAAAATGTAACTGCAAAATGTTATGGTGGTGATATAACACGAAAAAGAAAATTATGGGCTAAACAAAAAGAGGGTAAAAAAAGAATGAAACAAATTGGAAAGGTTGAAGTTCCACAAGAAGCGTTTTTAGCATTATTTAAAGTAGAAAAAAAATAATTTAGATTTAAGTTTTGTTTAAAAAAACTTCATATTGGATATTATCAAAATCCCCTTATTATAGTTTTATATTTATAATACCTTTTTTGATTATTTATGAATTCATGGTTCTTTTCTTAAGTAGAAATGAGGTTTCTACTTTGCGAAATGGTGCTGATATTTTATTGAGACAATTCATGTCATTGTTTGGTGATATTGGGCTATATATTATTAGCACTTCATTCTTTTTAATATTTTTAATTATATTTTTATTGCAAAAAAAAAACATAAATGAAACATCAATTAAAAGCAAATATTTACTTTTTATGTTGTTTGAAGGATTAATATGGGGAATTGTCCTTTATTTTTTTATGTTATTTTCACAAACCCTTTTAATGTTTCCAACAAGTAAAGAATTAATTTCTCAAATTATTTTATCAATTGGAGCTGGACTTTACGAAGAATTAGTATTTCGTGTTTTACTTATAATGTTTTTAACCAAACTAATTAAAATAATTTTTTTGTGGAATTATTTAATCTGCTTATTGGTTTCAATGACATTAAGTGCAATAGTATTTTCTTATTTTCATTTCTTGGGACCTTATGGTGACCCATTAAGTTTTTCAGTTTTTATTTATAGGTTTCTAGGAGGATTTTTTTTAGGTTTTTTGTACATTTTAAGAGGATTTGGTATTACTGCATATGCTCATATAAATTATAATTTGATTATAATTTTTTTTTTAACAACTAATGAATAATAAATTAATTAAAAATTTTAATGAAGAAAATAAATAATATTTTAATAACCTTACTTATAATTATTAATAATCTTTTTTCTCAAAACTCACCTTTTGACAATTTTGTTGTTTCTTTTTGGCCTGAATATGACAAAAAAGGGGTTCTTGTTATTTTAACTGGTCAAATTAAAGAAGACAACTTACCTTTAAATATTAAAGTACCAATACCAAATGAAGTTGATTCGGTTTTATCTCTTGGTCATGATACGTCTTCAAATGATTTAACTTTAATTAATGTTACATCTAATTCAAATAAATCAATAATTGATGAATTCTATTTTTCAAAAGATTTTCAAATAGAATTTTATTATAATCCATTTGATGACACTTTTTTAAGAAATTTTAATTATGAATTTAGAATTAATCATTATTTAGAAGATTATTTTTTAGCAATTCAAAAGCCACTAAGCTCAAAAGATTTTGTTTTTTCAGAAACTGGATTTGATACAATCTCTGACCAACATGGTTTAGAATATTTTAGAAAAAGATTATTTAATTTAGACGTTAATGAAAAAAAATTAATTTCCTTAAGCTATTTAAATGAAAAGGAAAAGTTGAGCATTGATATTTTGGAACAATCTTTAAATAATTTTTCAAATAATGATGTGAATAATATTAATAGTAATGTTTCTACGATGATTAAAAGATATAAACTTCCAACATATGAACCATATCTTTTATTATTGCTTACTTTTATTATTATTTTTATCCTGTTTTATTTTTATGAAAAAAATAAAAAATCATTAAAATTAAATATCGATATTAATTTCTGTCATAGTTGTGGAAAAAAAATTAAATCATCAGTTAATTACTGTCCTTATTGTGGAGAAAAAATAAAATGATGCCTTACCTTTTTGAATTTGGTCCAATCAAAATTCCCTCTTATGGTGTAATGTTAATGACTGCATTTCTATCTTGTTATTATTTGCTTAATCGTGAATTAAAAAAGAAAGGTAAAGACCCAGAAATGGCAAGTGATGCAATATTTTGGGCAGCATTAGGTGGTATTCTTGGTGCTAAACTATACTATTTATTGGAAAATTATAAATTAGTAATTGCTGATCCTGTTGGAATGATTTTTAGTGGATCTGGTTTAGTTTTTTGGGGTGGGTTAGCAGGTGGAATGATTGCTGTTTTATCCTATTTAAGATATAAAAATGAGGATTGGATAGAGTGGACTGATTTTATTTCTCCATTATTAATATTAGGTTATTCGATTGGAAGAGTCGGATGTACTCTAGTTGGTTGTGATTACGGATTACCCACTAATTTACCTTGGGCGATGACATTCCCAAATGGAGCACCTCCAACTTTAATACCTGTTCATCCTACTCAAATTTATGAAACTTTATTAGGTTTAATTATTTTTTCCATTCTTTGGAATTTAAAATATAAACTTAAAAAAGGTTATTTGTTTTCATTATATATTTTTTTGGCTGGAACAGAAAGATTTTTTATAGAATTTATTAGAACTAATCCAAAATATCTTATTGGTTTATCAGGAGCTCAAATAATTTCGATTCTAATGATTACTATCAGCTTAATCTTATTTTTTACATTTAATAGATTGAACATTACGGATACTAAAAGATCTTAATTCACTACTTATTTATAAGAATTTGCATTTATTAAAATTAATATTACTTACAAATTTTTTATTTGGTCAATATGTAATAAATAATTTAAATAAAGTACAATTTCCTGTTGATTTAAAAATTGAAGAATATTTTTTTTCAAAAATTGAACTGAATAATTTTAATGATATTTATCTGCTTGATAATTTTTCATCTAAAATTGTTTCATTTAATAAAAATAATAATAATATTTTTCAATCGAAAGGTTTGGCATTATCTACTCAAATAAATGCTTCTTTCGCAGATATTACTTCTAGTCGAGGACTTGAAGTGTTTGTAACAGATTATGACAATCATAAAATACATTATTTTGATAAAAAATTAAATTTTATCAATTCAATTAATTTGTTTGAGTTAGAAACTCCTATTGAATTCCCTAGTAATATTAAAAGAAATTCTTATGGTTATTTATGGATTGTTAGTGAAAACCTTTTTTCTTTAAATCAAATTAATTTGAATGGAAAATTAATTAATAAAATTGAAGGTAGTACTTTTAATAGTTTTTCTGGAATTAAAGCTTTTGATTTAAATAAAGAAAATCAAATTGGATTAATAGATAACAAAAATATTTTTTTTAATTTTACTGAGAATGGTAAGTCTTTATGGAAAAGAAAATTCGATAATAATTTAATTTCTGTAAATGCATATAGCAATGGTTGGATTATAGCTTCTGAAAAAAATAAATTCGTTTATATAGATAATGATCATTTAAAACCAATTTTAATAAGAAATAATTTTTATTTTGAAATCTTAGATTTTAAAATAAAAAATAATGATATTTACATCTTAACAAAAAACAACTTAATTTTTAATGGTAAAATTAATTATAGCCCAAATTAAGTTAATAATAATTTTATTAATATTTATTGACTTCATAGAAGCTTCAAGCCAAATATTAAAGATAAATAAATTTTCTGAAGAATTAATAATATCTCCAATTGATTCAATTTTAATATTATCAAATAAGTTTATAATTAGTGGTTCAGAAAAGATTTATATTAAATCTAAAAAAATTGAAAATTATAAACTTGATGAAATTGATGGTAAAATTTATTTATATAATATGAATCTAAACTCAATTGAAAAAGTTTTTGTTTCATATGAATATTTATTTGGATTACCCAATAAAATTGAATCTATCATTTCAAAACTGGATACAATTAAAATAGACAACTCTGAAACTAATTCAAATATAGATAATTCAAATGACAATACACAATCAACTTCATTTCCAATTGCAATAGATGGTACATTATCTAGGAAAATAGATTTCTCTTCAAATGCCTCAAGTTCATTAAACGGAGGATTAAAATTAAATATTCAAGGAAAAATATTAGATGACATGATTATAAATGCTGTTTTATCAGATCAAAATATTCCAATTCAACCTCAGGGAAATACTAAAAATTTAAATGAATTTGATAAATTATTTATTGAGATCATAACACCTAATTCAATAGTGAAAGCAGGTGATGTAGAGTTCAAAAATTCAAATTCAAATTATCAAAATCATTTTAAGAGGTTAGAAGGAATTAGTTTTTCATCTGATTTTTCAAATTTAAAAATTAATGCTACTACAGGAACAGCTAGAGGAAAATTTAACTCAATTAATTTTAATGGAATTGATCAAAATCAAGGGCCATATCCTCTTTATGCTTTAGATGGATCAAGAAAAATTTTAATAACACCAGATTCTGAATCAATTTGGATTAATGGTTTAAAAAAGATAAGAGGTGAATCAAATGATTATTTAATTGATTATAATAATGCAGAAATAATTTTTACTCCTAAAAATATTATAGATATTAATACTCGAATATATGTTGAATATGAATATCATGATTTTGGATTTCAAAGAGATTTTACATCAACTTCTTTAGAATCAAATAATGAAAAATTAAATTTTAAATTCAACTTTATTAATGAAAAAGATAAAGCACTAAGTAAAAATCCTATAAATTTTAATAATTTTCAATCTGAATATTATGAGTTAAATAATTCACCACTTAATGATGAAAGCTTATCTCAAATTGATTCATTAGGTACATATATAAAAAAAATAAATCCTGATGATTTAAATGATTCAATATATTTCTATTCACCTAATTCTTTAAATGATAAATATAAAGTAACATTCATTAATTATGGTATAAATGGTGAATACTCCAAAAAAGTATCTAATGAAGGTGATATTTATTTCGAATATGTTAATATGACGAATAGAACTGATTTCATTGAACTTTATTCTCCATATGTAAAGATTATACAACCTCAAAAACACAATGTAACAAGTTTATCAACTAATTACAAAATTAATGATTTTTCAGAACTTAACTTGGAAATTGCTACCTCTAAATTTAAAGAAGACCTTAATTTGAATATTAACCCATCAAATGGGATTGCATCTAATTTATCATTTAATACAAAATTTATACTTCCATTTGATATTGGTGATCTATTATTTGAATCGAACATTAAACGTTCAGGTGAAAATTTTTTTTCACATCAAAATAATAATAATATTGAATTTTGGAGAGAAAGGAATTTAAATAAAAATACTTGGTATTTAAATATCAATGAAGGTTTAGGCTATAAATTCAATGATTTTAAAATCACATTAAATAAAGATAAAAAACATGTTTCATCAATAATAATTGGTGATTATTCAGATTTTTATCAAAAATCAAATAATTTTGATTTTAATTCTAGTTATAAAGGTCAATTTATTAGGTTGCTAAAACTAAATTATACAAATGCTAAAAGTAGTTCAAAATTATCTAAAAATTCAGTCTGGGATAGGAAAAAAATTAATTTAAAATTTTTTAAAAGTTCTTTAAGTCCAGTCTTTGGTTATAATGAAGAATCAAGAACTAATAATATTAAATTCAATGAATCATTATTCGGTTTAGAACTTGAAAGAAAAAAAATAAAATCAAATATTGGTTTTATTAAAAGAGATGATTTTGATTTTGTTAATCAAGCATTTAACCAAGTTAGTAGTGGTCTGCTTTCAAATCTAGAAATTAAAACAATTCAAAATAAAAAAATAAATGCTTCTTTAATTTTTAAAAATCAAATTAAAAAATTCAATAATCATAAAGATGATTTGAACTATAATTTATCAAGAGGTTTTTTAAAATATAATTCAAAAAATAGAAATATAAATTCAAGTTTAGATTTTCTTTTAGAAAGAAATTTATATCAAGAAAAAATAATCGTTTATGAATTTATAGGCAAAGGTATGGGCAATTATAGATATGATTCTAATTCGAAAATATATTTATATGATCAATTTGGAGATTATTTATCTTATAGTTTGCCTTCAGGAATTAAAACTCCATCTACTCATTTTTTATCAAGTTTTAGATTTAATAAAAAGTTTTCTAATTTAAAAAATAAATTTTTACAATCTACATCATTAAGATTTTATTTTAAAACAGATTACAATGGTAGTTCTATTTCACATGAAAAAATACTTAATCCTAGTCATAAAATTGATGATTTAAAGTCATCTAGATTAACTATGCAAACTGACATAAGATATATTCCTAAAAATTCTTTTCGAAGAATGGGTTTTAAAATTATCAAAAATCATCAGGTAATAGCAAATTCATTACAACCTTTTAAAGATGAATCGAACATAGAAATAAAAATTAACATTGAAGAGCCAATAACAAATAAAATAATTTTTAACTCTGAAATGACATATTTTAATGTTGATTATAAATCTTCTCAAATTTCATTAACACGAAAATCTTTGGGGTGGTATATTGATACAGGTTTTAATTTCAAATTACTAAAATTGATAAATTATGGAATTGATTTTGTTTACGGAAATGAAAATGGTAGTTTTGGTTTATATAATGATGAGATCACAACTTCTGGATTAGAATTTACTTCTGTTATTTTTCTTAAAAACAATGCACGTATTGATGCAAATTTATTTTTTTATAATATTGGTTTTAACAATGAATCATTTAACTCATTACCTCCAGAATTAGCAAGAGGATTTCAACCGGGTTTTAATACTAAGTCATCAATAACAAGTATTTTTAATATTAATAAAGAAGTAAGTTTCAATTTTAATTTATCTTATCTTGATGATATTTATCGTAAAAATTTCTTTGTTTTTTCTGGAGAAATTCGTGCATTATTATAAATTAATTTCATTAATTATTTTAATTTCTAATCTTTTAATTTGTGATACAGATACTTTAAAAATTAATTATGATAATTTTTCATCAAAAAATAATAATTTAGAATATTTTATAGAAAATTGGAGTTCAGAAAATTTTTTTAATGGAGAGCTGAGAAAAGAATTATTACTAAAATCAATTAAACGTGATGAAAAAAATCTTATTCTTATTTGGTCAGATACTTTATCTAATCCTTTATTTATAGATACTGTTATCTATAAAAATTATAATTCCAATGAATTAATCACTAAAATAATTAATTCAAATTATTTAGGTAAAAAAGCAACCAAGGAAAATTTATTTGATTTAAAGAAAAAATTTAATTACCCATTTATTAAATTTTTATCCGATCCTAATTATATGATTTATGATAAAAACAACTTAGCTTTATTTATACCAATAAAAATAAATTTTCAAAATTATTTTTCAGGCATTGTTGGTTTTACACCTGATAATGGATTTTCAGGAAATATTGATTTGTCATTAAGTAACATTTTTGATTTATCAACAACAATGGATTTTAATTGGATGCGTTTAAATGATAAATCACAAGATATCTTTTTTCAATATTCAATACCTTTTATAAAAAACTTTAATTATGGTATTATATTTAATTTTTCACAATCGCTTCAAAATAACTTTTTTGTCAAATATTCAAAAGAATTTCAATTAACAACTATAAACTCAAAGTACGGAAAATATTCATTTGGAATAAAAACTACAAATAATAATCCAACTAATATTGGTTTTGATAATGGTTATAGGTCATACAAAACTAAAAACATATCATTGACAAATTATTTTGATCCTAATCAAAATTTGTCATTCAACCAAAAAATAATTTTTGGAGATTATTTACAAAATTTTCAAAATCAAATAATATTCAATTATTCATTTAATGGATTATATAAATATAAAATAAATAACCTTTTTAATTTAAATTTTTATTTAAAGTATGGTAAAGTTTATATAAATAATGGTATTTCAATTCCTGATGGTGAAAAATTCAGGTTTGGAGGAGCAAAAACATTTAGAGGTTATCAAGAGTTCTTTTTTATCTCAGATGAATTTATAATTAATCAGATTGAATTAATTTATGATATTAATAAAACTTCTAAAATATTTTCTTTTGTAGATATTGCAAAAGCAAATATTGAATTGACTAATATTTTTTCTTATGGATTAGGTATTATTCAACCAATTTCATTAGGTTATTTAAAATTAGAATATGCTGTTAATGAATTTGATAAAATATCAAATGGTAAAATTCACATCACTATATTATCCAATATAAAATGAAAACAAAAATCATAGAAACACTTAAGAATAGTAGAAAAAAATTTTTAAAAAAGCGAGAGATTGCTAAGATTTTAAAAATAAATCAAAATCAATATAGAACTTTTAGAATTATTTTAAAAAAACTTCTAAATGATGGAATGATTGCAAAAAATAGAAAAGGAAATTTTTTTTTATTGAAATCAAAAGAAAAAAAAATTGGTTCTTTGTCATTAACTATCCATGGCTACGGTTTTGTTTCATTTGAAGACCATAATGAAGATGTTTATGTGAATCATAAAAATTTATTTGGTGCTTTAGATGGAGATATCGTTGAAGTTTTAATATTACCTTCGAATAAAAGACATAAATCTGAGGGTATTATTAAATCAATAGTTAAAAGAAAATCAAATGAGTTTATCGCTCAAATTGTTGAAAATAAAAACAAAATAGAACTTAATATAGAACCTGTTACTCCTTCTAGGGGTGTAACCTTAGAAAATAAAAATAAAATTTTTAATATTGGAGATGTATTAAGAGTTAAGGTTTTGGATTGGGGGAGTCAAAATTCTCCATTGATAGTAAATAATAAAGAAATTATAGGTTCATTAAATGATCCTAATACTGATATGAATATAGTTTGTCAAAAATATGATTTAGAAAACAAATTTAATGATAAAGTAATAAAAAATTCTGATAAATGGTCAAAAATTGACATAACAAAAGAAAAACCTAATAGAAAAGATTTAACTTTTTTAAACGTTCTTACAATTGATCCATATGATGCTAGAGACGTTGATGATGGGGTTTCAATTTCTAAAAATAGTAATAATAACTACGTTCTTGGAGTACATATAGCTGATGTTTCTTTTTATGTAGAAGAAGGTTTGCCTATAGACCTTGAGGCACAAAAAAGGAGCAATTCCATTTATTTTATAGAGGGCGTTATTAGAATGATTCCAGATAATTTATCTGCAAATATTTGTTCATTATTACCAAATGAAGAAAGATTAGCTATGTCTTTATCCATTGAAATAGATGATAAGATGAATATATTAAATTCAAAACTAGAAAAAAGTGTAATTAAGAGTAGAAAACAATTCACATATGGTGAAGTTCAAAAAATTATCGATAATAAATCTGGAGAATTTTTTGAAGATATTAATATTTTAAATCAAATTACAAAAGAATTAAGAATTCAAAGGGAGAAGAAGGGGAGTATAGATTTTAATATTCCAGAGCCATTTATCAAGCTTGATAAAAATGGTATACCTAGTGATATTTTTCAAAAAAAGAGATATGATAGCCATAGGTTAATTGAAGAACTGATGTTGCTAGCTAATCGTATAATTGCTGAAAAAGTTCTAATTGGAAAAAATAATAATAATGATGGTTTTATTTTTAGAATTCATCCAAAACCAAATCAAGATGATATGGATAATTTTTTTAATACATTAATTAGGTTAAGTTTAATAAAGAAAATTCCTTCTAAAATAACTTCACTTTCTTTAAAAAAAATTCTTTCAAATGTTCAAGATTCCGAATATAAAAACCTTATAGAAAAGCTTGCATTGCGAAGTATGTCTAAAGCTATTTATTCAACTGAGAAAAATGAACATTTTGGTTTAGCATTTAAACATTATTGTCATTTTACATCACCAATTAGAAGATATTCGGATATATTAGTTCATAGATATTTAAAAAAACATTTTTTAGGTGAAAATAAAAGAGTATTATCTTTTAAAAAAGCATCAAAAATTGCTGAAGAAATTACGAGGTCTGAAATTAAATCTTTAGAAGCTGAAAGAGAATATCTAAAATTAAAACAATTAAGATGGTTATCTCTTAGGTTGGGTGAAAAATTTTTAGCAATTATTTCAGGTGTAATAAGCTCTGGTTTCTTTGCAGAAATTAATGAAACTTTTGTTGAAGGTTTTATTCCAGTTAGCAAGTTAAAAGATGACCAATACTTTTTCGATGAGGTTGAAATTTCGATTATTGGAAGAAATTATTTAAATAAATTTCATTTAGGTAAAGAAATACAAATTGAAGTTATTGATGTTGATTTTAAAACCAAAAGAGCTGAGTTTGCAGTTCTAGACTAAATGAAAAAATATCTTATTTTTATATTTTTTTTAATTATTGTAACTTGTGATTTTAAACCTAGAGCTGAGGGTATAGAAAATCAAATTAATGTTGTAGTTTCTTTTGAGGATTTTTCTGAAGCAAAAGCAATTATTGATTCAATTTTTTCACAAGCAATTTTAACACCAGAACCTGAATCTTTTTTTGATGTCCAATATATATCACCAGATGAGTTTAATAATATTAAACATTATCATAATATTTTGGTTGTATCAATATTGGATATTCCTGATTCAACTGGTGATAAATTAATTTATAATCTTTTGCCAAAGAATAATTTGCAAATTGAAAATAATAAAATATTTTCAAAAAACGATGTTTTTGCTAGAGGACAAGTTTTTTCAATTATTTATGGTAATGATGCTAAAGATTTTAAAAATACTTTAAGAATAAATTCTAAATGGATCTATGAAAAATATTTTAATTTTTATAAAAACCGTCAAGAAAAATATTTATTTAAAAGAAGAGAACAAAAGGATTTATCAGAAATCTTGTTTAATAAATATGATTGGAAAATAAGAATTCAACAAGACTTTACTATTGTCAAAGATGATTCTTTAAATGATTTTATTTGGTTGGGAAGAGCATTTCCATTTAGATGGTTGTCTGTTCATTGGAGTGATTATAATTATTCATCAACTCTTGAATCGTTAAATTTTGATAAAATTTTATATAATTATTCTAAGTTTTATAATGATGATATTTATTTTTTAAAAAATTATAGAAAAATTCATATTGATAAAATTGGAAATTTTAAAGCATTAAAAATTGAAGGATTATGGGAGCATAAAACTGATGTAAAGGGCGGTCCATTTATATCTTATTTTTTTTATGATATAAATTTAAAAAAATTTTTTCATATTAATTTATTAGTTCATAACCCTGGAAGAAAAAAATTACCTTCTTTATTACAACTTGAAATAATGGCAAAAACTTTTAATTCAAGATTGAAATAGAATTAATACAATTTTTTAAATTCGTCAATTAAATTATAATCAAATTTTATCTAATAAATATATTAAATGAGTAAGCAAATTTTAATAACTGGAGCGTTTGGCCAATTAGGAGAATCAACTCTCTTAGAGTTACAGCCTCATTTCGAAATTATTGCATCCGGAAAAAAAGTTCCAAAAATAACAAACTATCCTTGTAAATATATTAAGTTAGATATTACATCAAAAAAAAATGTTGCTGAAGCAATTCAAACTTATTCTCCAGAAGTAATTGTACATCTAGCAGCTATTACTGATGTTGATTTATGCGAAACCAATAAAGAATTAGCATGGAATCATAATGTCAAAGCTACAGAGAATATATTAAATAATATAAGAGGAACTAATTGTAAATTAATTTTTATTTCAACAGATTATGTATTTGATGGTTTTTCTGGCCCTTATTCTGAATCTGACAATCCTAATCCAATTAATTATTATGGAAAATCTAAATTAGCTTCAGAAAATATAATTAGAGGTAGTAGTCAGCCATGGGTAATAATTAGAACAAATGTACTTTATGGAAATTCATTCATTAATAAGGCAAGTTTCGTGAAATGGGTTGTTGACTCATTATCGGAAAAAAAACAAATCAATGTAGTTAATGATCAATTTGGAAATCCTACTTGGACAGCCGCTTTATCTGAAGCAATTAAACTATCAATGATAATGAATGTTAATGACATTCTTCATTATGGTGGTTCAGAATTTATTTCAAGATTTGAATTTGCTAAAAAAATTGCTAAAGTTTTTGATTTGGATTCATCTTTAATTAAACCTATTAAAACAGCTGATTTAAATCAAGATGCAAAAAGACCTTTAAAATCCGGTTTGTTTACATCAAAAATTGAAGATGTTCTTGGAATAAGAACTTTTTCATTAGATTATTGTTTGACTAAAATGAAAAATGGTATAATTGTATGAAAATATTTGTTATTACTCCAACTTATAATGAAAAGAAAAATATTCAAGAATTAATTGAGAAAATTTATAATGTTAACAATCAAATAAATATTTTAGTTGTTGATGATAACTCCCCTGATGGAACGCATAAAATTGTTGAAAATTTAAAAAAAACATATAAAAATTTACATTTACTAAAAAGGTTGAAAAAAGATGGATTGGGTTCAGCTTATATAGCAGGTATGAAATATGCTTTAAAGGAGGATGCAGATATTATTATACAAATGGACGCAGATATGTCCCATGATCCTGAAAGCATTAATGATTTGCTTAATAAGTCTAAAAATTATGATTTAGTTATTGGTTCTAGATATATTTCAGGAATTAATGTTGTTAATTGGCCAATTCATAGATTGATAATTAGTTATGGAGCAAATTTATATTCAAGAATTGTTACAGGCTTGCCAATTAAAGATGCTACTGGGGGATTTAAATGTTGGAAAAGAGAAGTTCTTGAAAATATCAATATACATTCAATTCAATCACAAGGATATTCTTTTCAAATAGAAATGACATATAGGGCTTGGTTAAAAAAATATAAAATCTGCGAGGTACCTATAATTTTTATTGATAGAACAGTTGGTCAATCTAAAATGAACAAAGAAATTATGATTGAAGCTTTTTTTATGATACCAAAATTAAGATTTTTTAAATTTTTTGGGAAGTTTAAATAATTGTTAAAATGAACTCATTGATTTCAATTATAATTGTCAACTATAATGTAAGAGATTATTTAGCTAATTGTTTAAATTCAATTTATTCATCTAAGTATACTAAAAATATTGAACTTATAGTTGTTGATAACAATTCAAGTGATAATTCAGTGCAAATGATTAAGGAAAAATATTCCAAAATTAATTTAATTGAAAATAAAATTAATTATGGATTTTCTCGAGCAGTAAATCAAGGTATTAAAATTTCTAAGGGTGAATATTTATTGTTATTAAACCCTGATACTGTGATTGAAAAAAATACATTAGATATTTTGAAGAATTATATGGAAGAGAATAAAAATGTTGGGATGTGTGGTCCTAAAATATTGAATAGTGATGGAACGCTTCAACTTTCATGTAAGCGTAGTTTTCCAACACCAATGGTTGCATTTCCAAAATTAATAGGTTTAGATAAATTGTTCCCAAAGAGCAAATGGGCAGGTAAATATAATTTAACTTATTTAGATGAAAATAAATGTCATTCTGTTGATGCTATAAGTGGTTCTTTTATGTTTATTAGAAGAGAAATTTTGAAAACAGTTGGATTGCTTGATGAAAAGTTTTTTATGTTTGGAGAAGATTTAGATTTATGTTTTAGAATTAAAAAAAATAACTTTGATATTCATTATGTTCCACAAACTCAAATAATTCATTTTAAAGGAGAAAGTGTAAAATCAGTTCCACTTGAAAGTATTAAATGGTTCTATAATGCTATGGATTTGTTTGTAAATAAACATTTTTCTTCAAAAACATCATTATTATTTACCCTTTTTCTAAAAATAGGAATTTTTTTAAGAAGAATTTCCTCTATTTTTTCATCTAATTTAGTAATCTTATTTCCGTTTATTTTAGATATAATAATGATTGTTACATCTTTCGTTATAGGTATTTCAATACGTTTTAATAGTTATGAAATAATTTTACAAAGTTATATACCTATTTTAATTATTTATTTGATGATTTGGGTTTTTATTATTTTTATTTTTGATTTATATACAAAGTTTGTTCTTTCATATAATAGAGCCTTGATTGCATCTTTTTTGGGTTTTTTATTTTGTGTAACATTTACGTATTTTTTAAAAGATTTTGCATACTCTAGAGCAGTTTTAATTTATTCGAGTTTTTTAATTTTTATTTTAATACCTGGATGGAGGTTAATATTTAATATTTTAAGATCTCGAGGATATATCAATTATTTAATTGAGGGAGATAAACCTATTTTTTCTAGACCTGCTATTATTGTAGGAATAGGTAAAGAGGGCATTAGAATTATAAATAAAATAAATAATAGACCTGATACTGGAATATATGTAATTGGTTTCGTTGAATCAAATATTAATAGCTTAAATTTATTTGAATTAAAAAAAAATAATATAAATATTTTAGGACCAATTAATAAATTGTCAGAGTTAATCAAATTATATAAGATAAGAGAGTTAATTTTTACATCTGATAATCTTGAAGTAAAGAAGATGGTTGAAATAATGGATAGTTTAAAATCTTTAAGGTTAACCTATAGAGTTGTTCCAAAAGATAAGGATATTTTGCTTGGAAAAGCTTCTGTTGAGGATATAAGTGATATACCTTTTTTAAATATAGAATATACTTTATATCATAGAATAAATTTTTTTTCTAAAAGATTGTTTGATATATTTTTTTCTACTTTTTTAATTTTATTATTTTCACCAATTTTAATTTTATTATTTACAATATTTAAATCTAAAGAATTATTTATTTGGGGATTAGAAAATAAAAAAATCAAAATAAGATTAATAAAAACAAACATAATTTTTTTTAAAGAATTGCCACTTTTATTTAATATTTTTTTTGGTGAAATTAGCTTTGTTGGAAGTGACATGGTTTCAGTTCAAACAAAGGAAAAAAATATGATTTGCAAGCCAGGTTTAACTGGAATATATAGAATAAAAAAATTTAAATTGGGCGATAATGATAAAAGCATTTATGATCATTACTATGTGCAAAATCAATCCATGGCTTTTGATTTGGAAATTTTAATTAGAACTATTTTCTTTTTTTAAAATGACAGAATATCATCTAGACTTCGAGAAACCAATATTTGAATTAGATAATCAAATCAACGAATTGATTGAATTAAATTCTAAAAATGACAAAGATCTTTCAAGACAAATTTTAAATCTCAAAGAAGAGAAGAAAAAAATATCAGAAAAGATTTATTCAAACTTAACGAGATGGCAAAGAGTTCAGTTAGCCCGTTTTCCAAAAAGACCTTATACTTTAGATTATATAAATCGAATTTCAAATGATTTTATAGAATTACATGGAGATAGAAAATTTGCTGATGACCAAGCATTAGTTACTGGAATTGGTTCTATTGATCAAACTGAAGTTGTATTTATTGGACACCAAAAAGGTAAAAATACAAAAGAAAATATTAAAAGAAATTTTGGAATGGCAAAACCTGAGGGCTACAGAAAAGCTCTTAGAGTAATGAAATTAGCTGTTAAGTTTAATAGGCCAATTGTTTGTTTCATAGATACGCCTGGAGCATACCCTGGAGTTGGAGCTGAAGAAAGAGGACAAGCTCAAGCGATTGCTAATAATCTTATTGAAATGTCTCTAATTCCTGTTCCAATTATTGTTATTGTTATTGGAGAAGGGGCTAGTGGAGGTGCTTTAGGAATTGGAATTGGTGATAAATTTATAATGCTTGAGAACACTTGGTTTTCAGTAATAAGTCCTGAAGGTTGTGCATCAATTTTATGGAGAGATGCAAGTAAAGCTAAAGAAGCTGCAGATGCAATGAAAGTCTCATCTCAAGATTTATTAGAAATGGGTATTTGTGATCAAATAATTCCAGAACCTTTGGGTGGTGCTCATAACGATTACAATCTTATGTCTGAAAGAGTTAAAGAGGTCATTTTAAAAGAAATTAACACTTTAAATAAAATTAATTCTAGTGCTTTAATTAATCAAAGAATTTTGAAATATGAAAAAATTGGTTCATGGGAAGAAAATGATTGATTATGTCTAATGAAATCATTTTTTTAATTCAAACAGTTATTGGTCTTTTTTTTACATTAATTGCTTTTAAATTAGGTAAGATTTGGATTTATGCTTTTATTGCATCCTGCGTTATCTTAGCTAATATATTTGTTAACAAACAAATTACTCTTTTAGGTTTAAATGCAACTGGCGGTAATGTGGTTTATGGCGCAATTTTTTTAGCTACTGATTTATTATCTGAACATTATGGTAAAAGAGAAGCTAGAAAAGGTGTTTTTATTGGTTTTTTTGTTTCTTTATTTTATCTCTCTATGACTCAGATGATTTTATTGTTTAAAAAGAATTCTGATGATTGGGGTGCATCTGAAGCTATGGAAATAATTTTTTCAACATCTCCATCTATAGTTTTTGCAAGTTTAATTGCATATTTGATTTCACAATTAAATGATATATGGATTTTTCATTATATAAAGAATAAAACAAATGGAAAGTTTTTATGGCTTAGAAATAATATAAGTACGTATTCAAGTCAGTTAATTGATTCAATTATTTTCAGTTTTTTAGCCTTTTATATATTCCCTTTTGTATTTAATACTGAAAGTCTTCCCTTAAATGCAATAATTCAAATTGTGATAACAACATATTTAATGAAGTTAATTGTTGCAGCAATAGATACACCATTTATCTATTTGAGTAAGAAGATTTAATTCTAATTAAAAATAAAATTTTCTATTATCAATAATTTTAGCTTCTTTTTTAAGGCCTTCTACCCATTCAGTTATTGTTTGATTTTGTTTTGTATTTAATAAATTATTCTTTATTAAGTCTTTTTTAATTTTCCAATCATCTTCATTAAACTTTTCTTTAGAAACTAATTTAATTATAACAGTCCCTGATGAAAAATTTATTGGTTGTAAGATTTCACCAGGTTCTGCAGCAAGTAAAGAACCAATTATTGATTGTTCTTTACCAATAATTTCAAATGAGGAATTTAATTTTGATTTAATTTGATTTAAGAATTTTGAATTATTGTTTTTAATTGATAGGTTTTCCATAGACTCATTCTTATCAATTATTTCATCGTATAAAACTAAAGCTAATTCTTGTGCTTTTTCTTTTTGTTTATTTGTTTTTATTGTATTTCCAATTTCAAATTTAACTAAATCAATTTCTTTTGTTCCTTCAGGGCTTATTGAATCTAGTTTTAACACAACAAAACCTCTGTTTGCTTCCAAAACTTGACTTATACTCCCAGATGTGCTTTCAAATGCAAATTTAGATGCTTGTGGGAAATAAGCTAACCCCGGTACAAATGTTGATGATTTTAATAAAGGGGGTAATTTATTTGATTTAAAATTAGGATTTCTATTTAAAGCTTCATCGAATCCAAAATCTTCAACATCAAATATAAATTGAGTTGCTTTATTTTTAATAAAATTACGAGTAGTAGGTCCAATTTCAATTTTTAACAATATATGACTTGCTAAGATTTCATCTTCATTATTTTCATTTTTTCTCTTATCATTGACTTTAATAATATGAATTCCAAAATTAGTTTGTATTGGGTCACTAATTTCACCTTTATTAAGGCTAAAAGCTGCATCTTCAAAAGATTTAACCATTTGACCTTTACCAAACCATCCAAGATCACCATTATTCCCAACTCCATTTTGCAATAAATTACCAGGATCTTCAGAAAATTCATTTGCTAAATCTTCAAATTTATCACCAGAATCAATTCTAGATAAAATTTCTTTAACTGTTGACTCTGTTAATGATGTATCATTTTTTGATGGTTTATTTTCCCATAATATATAACTTAGAAATCTTTCTTCATTTTTTTTGAATTCGTCTTTGTTGAGAAAATAATAATCTTCAATTTCTTTATCTGTAGTTTTCAAGCTTTCATCATTAAAATTATTGTTATTAATGATTAGTGCATCAATTGTAAAATCAATATTATTAATAATATATTCATCCATTATTTCATTTTCAGAAACTAAAACTTGTGATCTTATTTCATTAAATAATTTTTGTCTTGGCAAATATTGTCTTATATATTCTTCAACTGGCTGCCATTCATCACCCTGTGGGTTTTGTAATGCTAGTTGGTATTTAGCATCATCAAATTGACCATTTGTCATAAAATCAGGTATTGTTTTTATTTCTGATGGAGGGTTATTTAATAATTCATAGTAAACTTCATCATCTGAAACAGTAATTTTTCTATTCTTTAGCTCATGATCAATTAAATAACTTTGAATTATTTGATTATAAACCTGTTCTCTTTCAATATCTATTCTACCTTGGTCATATTCAATTCCTTGCGACCTGGCTTGTTGTAACCTTTGGTCAACTTGGGAAAAAAATAAATCTGGGGATATAGAAGATCCATTTACAACAATTATTGCTTTCGATGGATCAACTCTTCCAAATAATTGATTTACAATATCAGCTCCACCTACTAACCCACCAACACTCATACTTCCAATAAATAGAATTAAAAGTATCCATAAAATTACTTTCATTCTAGTTCTCATTGCATTCATAATTCCCATAGCAATTATAAACCTTTCAATTTTTTAATATATAATGTTAAAATTTAAATAGATTATATAGCTTCTACAAGCTGAGAAGCTTATAATTAATATACCTAAATAAAGGAAATATATTATTAAATCAAAACTTTCAATTCAAGAACTTAATAAGACTATTGTTGAATGTATTTTGTGTAAAAGGTTAGTTGATTTTAGAGAAAAAATCGCTAAAGAAAAAAGAAAACAGTTTTTATCTTGGGATTATTGGGGAAAACCAGTACCTGGATATGGATCCTTTTCTTCTGAATTATTACTTGCAGGGTTAGCTCCTGCAGCCCACGGTGGGAATAGAACTGGACGAGTTTTTACTGGAGATAAATCAGCTGATTTTCTAGTGAAATGTTTAAAAAAAGTTGGAATTGCAAATCAATCATTTTCATATAACCTCAATGATGGATTAATATTAAAAAATACTTATATGACTGCTGTTTTAAAATGTGTACCACCCCAAGACAAACCTAAAAGAGAAGAATTAATCAACTGTTCAAAGTATTTATCAAATGAATTAAAATTATTAAATAATTTAAAGTGTATAATTGCTTTAGGTAAAATTGCATTTGATTCAACCTTAAAATTCTTTAATAAAAATAAAGAATATAAAATAAAAGATTTCCCTTTTGGTCATGGCAAAAAATATCTCTTGAAAAATGGAATTTTTTTAATTGGGTCATATCACCCTAGTCCTAGAAATGTTAATACTGGTAGACTTAATGAGAGAATGATGATTGAACTTTTTGAGGAAGTGAAAGAAATTATAAAATAAAATGAAATTGTTTTTAATTATTATCATTATATCAAATCAATTTTTGATGTCTCAAAAAAAATTATCTATAGAGCAAATTTCTGATAATTCACCTTTTAAAGTAGCATCAATTCCAAATTTAAAGTGGTTAAATGATGAAGACTCCTTTACATATTTATCAAAATCCAAATCTATTTATAAAGTAAATCTAGTATCTAATGACACTACAATTTTTTTAAGTAGAAAAAATATAAAATTTAAAAAAAATGAAATACCTATCGTTGATTATCAAATTAATAGTACCAATAGGTATGTATTAATTCAATCAGAAAAGACAAAGATTTGGAGAAGGTCATTTTATGGAACTTATTTTATTTATGATAATCAAAAAAAAGAAATGATTAAATTAACTGAAGCAAATGATTCTTTAAGAAATGTAAAATTTTCTCCAGATGGAAATCAATTAAGTTTTGTAAGAATTGATAATAATTTATATAATTATGATATTAAGAAAAAAAAACAATATCAATTAACCAAATCAGGCTCTGAAAATTATTTAAATGGTATTTTTGGATGGGTCTATGAAGAAGAGTTTTCATCATATGATTCATATAAGTGGTCACCTAATAGCAAGAAAATTATTTTTTGTGAAGAAAATCAATCAGATGTTCCTGTTTATACATTAATTGATGAATTAAAATTATATCCTCAACTTAAAAATATAAGATATCCTAAAGCAGGTCAAAATAATCCTAAGATAAAAGTAGGAATTGTTGATGCTACAGGTGGTTCTATTAATTGGATTAATTTAAAAGATAATAATGATTACTATATTCCTAGAATTTATTGGGAAAAAAATGGAAAAATATTTCTTGTGAAAATTGATAGATCTCAGAAAAATATTACTTTATTAGTCTATGACATTAAATCAGGTAAAATTTTTGAAGGTATAAAAGATGAAGATACAATAGGATGGGTTGATCTAAATGATGATTATCAATTTTTAGATAATGATAAATTATTATGGATATCTGAAAAATCAGGATTTAGACATATTCATTACAGCGATATTAATGGCAACTTAATAAATAGTGTAACAAAGGGTCAATGGGAAGTAAATAGAATTTTGAATTATAATCAAAAAGATAACAAAGTATATTTTACTGCAAATAGGGGTTCTGTAAAAGAAAGTCACCTTTTTTCAATTAATTTAGATGGTTCAAACTTAATTAAAATTACAAATGAAGAAGGGTTTCATAGAATAATGATATCTCCTTCAAAAAAATATTTTATCGATTCTTTTTCTTCAATTAAATCTCCTCCTAAAATAGTTTTGAAAAATATGAGAGGTAATCCAATTAGAATATTAGATAAAACTAATTTAAATCAATATAAAGAATATAATTGGTCATTTCCTTTTTTTGTAAATTTTTTATCTAATGATAAAACTGTTTTACTTGATGGAATATTAACTCTACCAAATGATTATGACAAAAATATAAAATATCCAATGATAGTATATGGCTATGGTATGCCAGGGACACAAATTGTTTTAAATAAATGGGGTAATCTTATAAATCAATTTCTTGCTCAAGAAGGATTTATTGTTTTTTCAATGGATTGTAGAGGTATGGGAGGAAGAGGAGAGAATTTTAAAAATTTAAGTTATGGAGATATGAGTAAATATTTAGTTAAAGATATAAAAGCAGGTGTTAATTATATTATTAATAATTATAGTGTTAATGCAAATAAAATAGGTGCTTGGGGTTCAAGTGGAGGTGGTTACTTTACTGCATTAATGTTAACGAGGCTTTCATCAATGTTTAGTGTTGGTGTTTCAATATCACCAGTTGTTGATTTTAGGTTGTATGATTCAATTTATTCGGAAAGATCAATGGGTAACCCAAATTTTAACAAAGCTGGCTATGATTCAGTATCAATAATGTCTCATGTTGATAACTTTAAAGGAAACTTATTAGTTATGCATGGAACAGGTGATGATAATGTGCATTTTCAAAATACAACACAATTAATAAATAGTTTTATAGATAAAAATAAAATGATAGATGTATTTATTTATCCAAACAGAGATCATTCATTGTCAGGAGGAACTACCCGATATTATCTTAATAATAAACTATTTAATTATTTTAATGAAAAACTAAAAAATTAGAGTGCAGTGATGCACTCTAATTTTAGAACTATATTTAATAACTTAATTCTAAGTTCTAGGTCTAGCTTCGTTTACAACTAATTGTCGTCCTTGAATGTCTTTTCCATTTAACTCTTCGATAGCTTTTTTACTTCCATCTTCTGAGTTAATTTCAACAAAGCCAAATCCTCTAGAACGACCAGTGAATTTGTCTTTAATGATCTTTACTGATGTTACTTCACCGTACTCGGCAAATGTATTAGAAAGGTCATCTTCAGACATTTCATAGCTGATATTTCCAACATATAGGTTCATTTTTATCTCCAGTTAATTAATTTTTAAGTTTATTTTGTATAATTTTGTATGAAATATAATAATAGTAAGTAACTTCTAAGTGTGAAATAAGGTAGGTATATTTATCTTTTGCTCATATATAATACGTTATATTAAGAAGAATAATTGAAAAAGTATAATATTTTTTTTTATTTTTAAAATTATTTCAATAGTAACATTTTTTTCGCTACTGAATGATTTTGTGTTTTTAAAACATAAAAGTATGTACCAGAAGATAATTGTTTGTTGTCTTTGTCTTTTCCATTCCAGATTATATTATAATTGCCTGCATATTGTTCTTCATTAACTAATGTAATTATTTCTTGACCAATTAAGTTATAAATTTTTAGAATAACCATTTGATCTAATGGGATTTGATAATTTATTGTTGTTATTGGGTTAAATGGATTAGGATAATTTTGACTTAAATTAAATTCATTTGGTATTGATTGAATGATTTCATCAACTTGATCTTGAACCCATTTTTCAGGACCATGAATTAAAGAGAATCTTCTCCCTAAATTTTTAGCATGACCTTTTTTAATAGTAAAATTATTTTTATTCAACAAATTAAATGTTTCACCATTGTTTCTATCAACTAAAATCAATTTTTTATTTTGGTAGATATTTTCAAGGTTAGATACAGTTAATTGTAAATCAGATTGATTTTTAGAAGTTTTTAATATTCCATCCCAAATAAAAGTTGAGTCAGAACTATTTTTGATATCCTCTAAAAGATATTTATTAAAACCATTTATATCTTTTAAAACCCAATCAAATTTAAATGCATTTTCATTATTAGGTAATGGTGGTTCACTTATATTATCATATTTGTCAAATGATCCAGATGCATTTTTATTGTATCCAAAAAAATTATTATTATCTGAAAATTTAGAGCTTTTAAAACTTATTTTTCCTCTAAAAAAACTTTTTTCATCATTATTCTTATTATTTGATAAAAAAGATCTAGATAAATTTAAATTGGAATCACCTGACGATTTAAATACTATTGTTGAATCAGTTTTATTGCAAATTATATATCCTCCAAATGGTGAAATAGTATCTTGATGATCGGACCAACCCATATTAGAACTAAATTCTAGTGGGCCACAATATAGAGTATGATCAATTTCTCCCATATTAAATGAAAATGGATAAGGATTACCAACTAAATTCCATCCTGGTTCCAGTTCCCATTCAAGTGTATCAATTTCTGTAATTACACCACTTCCTAAACTGAGATTACATTCTTCACCAATTTTTTGATAAATCCAATAACTTAACCCAGGTTCAATGGTTGAAGGTTCGGTATAATTACCGTTTTCAAATTTCCAAATTACAAATTTTTCTTTGTCAATATTTCCAAAGCTGTTGTAAAAAACATCATTAATTCTGTTTTCTTCTAAATCAGTAGGAATTGAAATTAATATCCATTCATTAGGAGGAATACAATCAGGAAATTTAATTAATCCATTTGAGGTTTTAATAGGAATAGTACTTATTTCTGAATCTGAGGCATATCCGAGAATATCAGATGCAAAATAATAAAATTTAATCCCTCTTTCATCCAAATTATCAATAGTTATGGTCTCCTCAGTTTCTAGCATTCTAATACCATTTTCAAAATCTATTGGGTAGGATAAATATTCATTTGACCCTCCCTTTCCAACTTTAAGAATGACTGACTCAAGAGGTAATGAGTCTTTTATTGTGGCCTTTATAGTAATGTCGTTTGAAGATGAGAGACGGGCTAATGTATTTTCTAGTAATAAAGTATCTTTATTTGTCGAAATATTATAAACCCCTGGTGGAATATCATCTTGATAAACATTTATGTATACACTAGAGGTATCACAAAGTTTTTCAAAATCACATATTGAATAATAAATAGAATCTATACCGGTAAACATAAGTAGGTTTGAATAATCAAATTTGATTGAAGAATCCTGAACCGTTGCAATTCCACCTTTATTTGTGGGTGTTGTTTTAAAAGATTGATTGCTATTTTTATCTTTAAAAATTAAAAGAGTAGAGTAATCAATATCATTTTCAGGGTCAGTATCATTTAATAAAACATTAACTCTACCAATACTATTTTGAAAAACTTCTATTGAATCATTATTTGCTATAGGAAATTCAGGAACATCTACTACAGAAATTATAACTCTTGCTTCAGCAATGTTTCCATCTTGATCTTCAACACAGTATCTAAAAATATCATCTCCATAAAAACCTATTTCTGGGGTAATATTAATTTTTGGAGATTCAATTGAACTAACTAATAGAATATCTCCATTTTTTAAAGTATCAGTATCAGAAAATTGAGTTAATATTGAATTTGAAGCTTCTTGACATAATGTGTAAATAAGTGTATCCCCATCAGCATCAGTTGCATTTAAAATAAGATCGTTCAAAGGTTCTCCCTCTTCAATAAAAACAGTAATCGGGTCAACAACTTCAGGAGGATCAGGAGCAGGGTTAACTAAAATATATACTTTTGCTTCTGAGCTTAGTCTTGTATCATCAGAAATTCTATAGGTTAAACTATCATTACCATAAAAATTTGATGCCATAGAAATTAAAATAGTACTATCAGTATTTGCCTGACTTTGATTTTCTGAATCATCAAAAGAACCTTTAAAAGCAGATATAATTTCTAAAGATGAAATATCAAGGTTATTATCAAGATCGCTATCATTTCTTAATACATTAAAAGATCTGGGGTCTGCATCTTCGTCTATAGTAAGCGTATCTGAAATTGCAATGGGTTTTCTTCCTTCTGTAATTGAAATTTTTATTTTACCAGAGTCACACAGATTAGTATTATCGCAAATTTGATAAATAACTGAATCTGTTCCTGTATAATTAAGATTATCTGTATAATCAAAAACTAAAATAGATGTTGTATCACTTGGAACTCTATACTGACCACCACCATCTGAGCTTAAAATTGAAAGACTCGATAGATCCAAATCATAATCAGGATCTGAAATTTTATTTGAGAGATCATAATCCCACTCAAGTCCTTGAGCAATTACAATTTCACCATCTTCAGCAATTGGGTTATCAGCCACAGGTGAAATAATTACAATTATTTTTTCAGAATCTATAAGTTCACCATCAGTGACTGAAAATGTTAGACTGTCAGTTCCAAAAGCGTTTTCCTGTGGTTCAAAATATATTTTATTTTGACTGTTTATTACATTGTCACCTGAGTTAATTAAAGTTGTTTTGTTGATACCATCATTTGATTGATACAAATCACCTATATTTATTTTTGAAGATATGGAATAATCTAAATTATTATTATCAATATCAGTTCCATTTAAAGTTATTATTGCGGCATTATCTTCAAGAATTGAAATTGTATCTCTAATTGCAACAGGGGAGTCGTTTACATTATTTACAGTTATTATGAATAAAGCGTTTTGACTGTCATTCGTTCCATCATTAACTTTAAACAGTAGAGTATCCTTACCAACAAAGTTGATATTTGGAGAATATTTTATTTGATCTGTATTGCTTGACACTGTAGTGTTTGCAGCATTTATTAAAGTTTCATCCATTTGATTTAATACACCATTTTTAGGAAGAGCTGTAATAACATAAGATAATGAACTTCCTTCTGGATCACTTCCTTGAAGTGTTAATGTTTTAACAGTTTCTTCATTAGTGGTTTCAGATAAATTTGTAGCTAATGGAGATTCATTAATATCATTTAATGAAATAACAACAGAACTTTGATTGGATGTATTATTTCCATCAGACACTCTTACTATTAATGTATATGATGAATTGGTTTCATAGTCAAGCAAAGAAGCACTTGTAATCACACCAGTAGAACTATTAATTAAAAAATGACCATCAGTATTGCCACTAACAATTTCCCAATTTTGAAAAGTAGTTGAAGTACCACTTGGCCAAACATCAGGATCTGTTGCATTTACTGTTCCAACAGTTGTTCCAATATCAATATTTTCATTAATTTGAAATGTTTGATCGCTATCTACAATTGGTGATAAATCATTAATTGGGTTTACATTGATTGTAATATTTACAACGCTTGAAAATTCATTTCCATCAGATACTTTTAAACCTAATGTATAATTTCTTTCATTAGCATCTTCATAATTAAGAATTTTTGAAGTTACTATTTCTCCAGAAGTACTATTAATTGAGAAATGATTTTTATTAACTCCTGATTCTATTGTCCAATTTTGCAATGTTTCTCCATCGGCATCTGATCCTTGGACAGTACCAACAACTGTACCTGAGCTTTGATTTTCATTAACATTAAATGATTGGCTTGATGTAACCACGGGTCTTTGATTATTAGGGTCAGATGCATTTATCGTGATGGTTTCATCGTATGTTGCTCCAGCACTATCAGTCGTTCTAATAATTATAACATAATTTTGTTGAACATGATAATCAATTGTAGCATTTGTAACTAAATTAGAATTATCTATTGTAAATTTTGAAGCATCTGCTCCACCTATTATCGAATAGGTATGTGAATCTCCTTGATCAACATCGGTTGAAGTTAAACTTCCAACAACTGTTCCTGAATTAGAGTCATCAGCAATACTTGTACTGGAAAGACCAATATCGGTTGGTGCATCATTTACGGGGTTGATAGTAACACTAAATGTTTCTGAAACAGTTAAACCATTAGATGTCCCTGTAATCGTTATGTTAGCTGAACCATGTTTATTATCTAAAAAATCCAATGTAAGATTATTACCGGAAATAGAAGCTGTAACATTTGAAGAACCATCATTTGCAGTAACTGATTTAGTAATATCACTATTATTATTATCAACATCATTAAATATATTTGAAAGATCAATAATTGAATTAGAAGCATCTTCTGAGACTGTTATATTATTTATTTGGTTTGCAACATTAGGAGCGTCATCAACAGGTTGAACATATATATAAACATTGCCTGCACTTGAGCTATAATTTGAACCATCATTAGCTTCAAAAGTGATGGACGCAAAATGTGTAGAAGCATCATTATCGTTTGTATTGGGATAAAATCTGAGATGACCATTTGAAAGATTTGAGGCTGAAACAACTTGATTCGTTGAAATTTGCTCTCCATTATCAAATGAATCGTTATTGTTGGCATCAAGGTATAATGTACCTTGATGGCTGTTATTTAATGAAAAACCAAGTATTCTAATACCACTTATTGAACTGCCTTCAGTATCAGAATAATTTAAATTTGATATTGAAAAGGCAATTTCAGTATCTTCGTTTGTTGAAACATTTGAATTCCCAACAACAGGTGGGTCATTAACTGCTAATACATTTAATGTTATAGAAGCAACATCAGAATCAGATGTTCCATCGTTTACTTTAAAATTAAAATTACCATAATTAGAGCCATTTTCATTTAAATCAGGAACAAAAATTAATCTGTTATTACTATCAGTTATGGTGGTTGCTGTTGAGGTTATTGCATTTCCTCTTGTGGATCCATCTGATGTTTGATATAAAGTTCCATTTGAAGGTATGGAAGTAACTATATAAGATAAATTATCATTATCACTGTCTGAACCAGATAGAGTTATTGTTTGGTCAGTATCTTCATTTGAGTTAATGGTTTGAGCATTTGCAACTGGAGCATTATTTGATGAAACAAAATTTTGAATTGATGAGAAATATCCTCTTTCTCCAGCACCCATTCCAAACCAAACATATAATGGACCAGCATTTGAGATATAGAAATCATTATCTCCTATATTCCAATCAAGCTTTCTATATAATTCCCAAGTTGTACCGTTAACTGTATAATTTTTAACAGATTGATTATCCCAACTAGATGAGGTTTGACTATTATTATTGTAAACAAAGGATCCTGTGTTTCCAGTTTTGAGTACATAAAAGTTTGCTTCACCAGATTGACCTAAAATATCATCAAGATCGTCACCAAAATGAGCATGATTATAACCTGAGGCTGTACTTGAACTGTTAAGTGGAGCAAGAATAAAAAGGCCATGATTATTTTTTATATCATTTTGATCAGTTGAATATCCTTGATAATAAACTAATGAGGGTTTAGAAGTGTTAATGTGATCTAATGAATTATTATTATTATTATCTAGCGACCATGCATAAAATTCTCCTGCATCTAGGTCTGCATCTCTTACAGTGCCATCAACTGTTACCACAGTATTATTCTCTGTTGCAACAATTATTGCATTTACTCCCTTATGAGTTCCAGATTCACCCTCAATTATCAAATAATCATTACCAACAACATCAACTGGGACTAACTGATCAACACCCATATCCCTCTTTGCACCGCTACTTGTGTTGATTGAACCAGACCATGTTCCTGAATTAACAACTATATTCTTGTTTGAAGTAATTAAAGTTCCAATTACATCTTCATCATAGGAGGATATTGTATTATTAATACCAACAACATATGATTCACCCTTATCTAAAGATACTGACCATGGAACGGTATTTGATCTACCTAAAAAATAAACACCAGAATTTGGGGTAATTGTTATTGTTGTGTTATCTTCTGTCCCCATCATGGAAATAAAACTTCCAAAGGTATTTTTTGCATTATAGCTTATATTTGACTGATAAAAATGAGCTGACCTAAACTCAGTACCCATTCCTTGTTGACCTTTTGAAGAAATTGAACCAGTTTGAGAGCCGGCTCTAATATCAACTCTCATATAAAAAGGTTTACTTGCTTCAAAATACAAACCTTTATTACTATCATTGGTGCCATAATCATTTGCATATAAATAGTTAGTAGATACGGAAAAATTATTAGGTGATCCTTTTGAAATTGATTTTGTGTATAATGTTGAACCAGCACTGTTTTTCATTAACACATTGAATGATGATCCCTCTTCCATAGTTGAAAGATCTATTCGAATTTCATCTGGAGCATCACTTGAATTTTGACCATAAAATAAAGGAGGCATATAGTGATTTGTAGAATATTGTGAAAATAAACAGCTAGAAAAAGTGATGAATAATATAAAAACTTTTTTAATCACAACAATCCTCTGGTAGAGAAGGAGGAGTTCCTATTAAATTTTCATTATTTTCAACTACCTCAGTATAGGCATAATATCCTGCAGCTCCACCTCCAACAATAATTATAGGGAAAAGAATAAAGCCTAATCCAGCTCTGCACTCATTATAGCTATAATTAGTTAAAATTTGAGTTCCTAAATTTTCTATTCTTGAATTTAGATCTTCACTTGATCCAATAAAGTCATCTTCTATCTCTACAGAAACAACATTTTTATCTAAATTATATAATATCAGGTCAATACTTCCACCTAATAAATTATTACCTATGTCATTTGATATAAATAATTCGGTTCTTCTATTTAGTTCATGCGCTATATCTCTTTTTTCTTTAGAATCTAAACTATTAATAAATAATTCAGTTAGAATATCTCCTTCAGTTAAAAAATTATAAATTTGTTCTTGTTGCCTTGTAACAACTGCCGGTTTTCCTTCTCCATACCCAACTGGATTAAGTCTATTTGAATCAATTCCGTTATCAATTAGCCAATTTTGAACTGAATTTGCTCTTAATTGAGATAAATTAAGGTTATATGATTTTGCACCTCTGGAATCAGTATGAGATGCAAGTTCCATTGAAATATTTGGATTATTTTCCATTAAGCTTAAAATTGTTAGTAATTCAATTTCTGCTTCGGGTCTTAGTTTTGCGCTATTAAAATCATACAATAAATTTCTCATAACAATACCCTTATCATCAGAAATAGCATTAACAGAATTTCTTATAACAAAAGCATGATTTGCTTTAGTATTACCAATCTCGTTTTGGATACATTCAAGATTAGTACAACTACCTTGGGTATAACTCTTATGAATTTTTAGATTTTTTTTATTTTTTTTTAAGTTTTTAGCTAAGACTTTAGCCATTTTTTTCGATTGAGATCTTTCAATATTTGGGTTCATAATATATACAGAGCTTTTACATATATCATCAGCATATGCAATTTTGGATAAAGAAGAATTTATATTAATGAATAAAGAATCTGAATTTTCATCAGTATTGTCTTGTGAAAATAATAGATTGATTAAAAAAAATAAAAATAATAATTTCGTAAATAAAAATTTCATAACTAAAAGTGGAGCCGATCAGGATCGAACTGACGACCTCCTGAATGCCATTCAGGCGCTCTCCCAACTGAGCTACGGCCCCAATAATTTGCTAATTAACATCCTAATTTAAAAATACATTTTTTTTAAAAAAAACTTTATAATTTGTCCTGTTGACAAGATGTGAAGTCGAAAGTAAATTATACTATGTTATTTAAATCATTAATTTATGTTCCTAAAATTTTTCTAATTTTCTTTTTGATTTCATGTAATGCTGATAATAAAAAAAATGGTCTTGCAACAATAGTTATTACTGGTAATGTTCATAGTCAATTAGACCCCTGTGGCTGAAAAAACAACCCTACAGGCGGTCTGTCTCGTAAATCAACTTACATAAAATCAATGAAAAATGATGGTATCCATCCAATTATAATCGATGCAGGAGATTTATTCTTTAGTAAAGATGACCCTGATCCTTTAGATCTAGCTCAGTCTAAGATAAGAGCAAAAACAATTATAGAAGGCTATAACTCTATAGGATGTGAAGTAATGAACATTGGTTCAAAAGATTTAGCAGCTGGAATTGAATTTTTGAATCAATTGAAAAATAAAGCAAATTTTCCTTTTATTTCCTCAAATTTAGTAGGTAGCAATGATTCTTTATTATTTAAATCTCATGTAATTGTTGAATCAAATGGTTTTTCTTTTGGTATAACTGGTGTAACAACACTTAAGAAATTATCTAAAAACATTAAAACAAAAGATGTTATATCTAGTGTAAATAATATTTTAAATGTAATTGATAAATCAACTGATTTTAATATTGTATTGTTTAATGGTTCTTACAAAGAAGCAATGGCTTATAGGCCTAAATTTGAAAAAGCTGATTATATGTTTTTAAGTGGAGATTATCAGAATCCTATTGGAAAACAACAGAACCCAAAAAATGGACCAAGAATGTACAGGCTAGGACAACAGGGTAAATCATTAGGAATACTCAATTTAAAAATTAATGATTCAAGTATTCCATTAATCGATATAACTGAATTAAAAAGAAGAGAAGCTTTTTTTAAAATTCAGCTTGATAGATTAAATAAAAAAGATCCAACAAAAACTCTAGAAGAGTTATATTCAAATGATAATGTTCAACTTGGAAGAATAGAAAGAATTAAACAAGGCCAGACTCAAAATAATTCCAAATTAATAGGAATTAAAAATACTTCTCATTTTGATTTTCCTCCTATGAATAAAGATTTGAAAGATGATTCTAGAATGTTGACTTTAGTAAATAATTCATTGAATGAATGTGAAGAGTTAGCTACTAATTTTAAAAAAGAAGATTTATAAGTAAGTGAAACTTAAAAGTTTTATCAATCAGTCATTAATCATTGTTATTATATCGATTTTTGTTTCTTTTTTTTTTAACTATGTACGTTCTTCAAATTCACTCCAAATAATAGCAAATAAAAATATTATTTCTGGAGATATTTCTACTGTTGATTCATTACTCTCGATTGAAACAATGTTGTTTGAACCTATGTTGGTAAGTTTAGAAATTGCAAAGTCGATGTATGATAAAAATATTGTTTTTATTGACTCAAGGGATGAATTGGAATATAATAAATCACACATATTGAATGCAAAATTAGCCCCAGCTAACCCAGGTGAAATATTAAGATGGCTAAATGAAGATGATCCAATTGTAACCTATTGTAGTGGTGGAGAATGTGATTTAAGTCTAGAGCTAGCCAGAGTTCTTATGGGTGAAGATTGGGCTTTTTCTAAAGTTTTTGTATATGATGGAGGAATTTCTGAGTGGAAAAATGCAGGTTATCCTATATCTAAGTCAAATGAATAATTTATTATCAAATAAATGGTTAATTTTAATATTTAGGTTGTATATAGGAGCAGTTTTTATTTACGCTGGAGTTATAAAAATTATAGATCCGGTTGATTTTGCATCTCAAATTCAGAATTATCAAATATTACCATATTCAACAACACATTTTTTTGCTATTCTTTTACCATGGGTAGAGGTTTTTACTGGAACAGGTTTGATTCTTGGTATTTTTGTTGATGGGTCATCTTTTATTATCTCTGGCATGATGTTTGTATTTATTTTGGCTATATCTCAAGCTTTACTAAGAGGTTTAAGCATAGAATGTGGATGTTTTGGGAAAAGTGGTTCCATGGTTGGCTTAAATACCCTTTTTAGGGATATTTTTTGGTTTTTACTATCAACATTTATTTGTTTTAGAAAGAATAAAAGTTTTGAAATTTTACCTAAATCAGTTTGACAGACCGATTTTCTTGAGGTAAATTCGCAAGCGTATAATTGCGAGAGTAGCTCAGCTGGTAGAGCATCACGTTGCCAACGTGAGGGTCGCGAGTTCGAATCTCGTCTCTCGCTCGTAATTTAAAATGAATCATTTTACTATTAAAGATAGAGATGGTATTTTATATAAAATACCAAATATAGATGTTTTTATACAGCATATCCTTGATTTTCATTCAAAAGATGTAAGTATACATGAAGAAAATGGGCATTATTTTGTTGTTGATGATAAATTTAGAGAAATGATTTTTTCTTTAAAGAAATAAATTTAAGTAAATTACTATAAACTATAAGACCTTCTTTTTAAAGAAGGTCTTTTTATTTTTCAAATATAATTTTAAGAATGTAAAATTATTAATTGAGCAGTTAGATAGGCAATTGAGATCAATACAACAAACCCTCTTAAGAATGTAAAAGGAGTGTCTTTATATCCCTTCAAATGCATTTGTTTGCTCATTTCATCATCTATGTCATCTGCACATTCCCCAAGACCATTTAATTGCCTTTCAGTGTAAAGTGTGCTTCCAAGAAACAAAGCAACAAAAAATATAGTTAAAGGAGTCTCTAATCCTGTTGTATTTAAAAATATATTTAATGCTAGTAGGCCCAATTGCATAAAATTTAAAAGGATTAGACCTACTCTAAAATTAGATGATCTTATATCTATCATTTTAAGTAGTGATTCGTGATTGTTCATAATGTTTACTCCTTAGTTTTATATTAGAAAATTAAAATATTGAGGTTTAACCTTGTTCTTCTAGTGCTCTCATTATTGCAGGGTCCATTGGAAAATGTAATTTAATTTTTGGTAAATATTTGTTAAACATTTCGACAATATCTGCATATTCTGACTCATCAACTTCAACTACATGTGTTGCTTTTTTTTCATCTACAACTTTTGTATCCTCGAAACGATCAATATCAACTATCTTTAAATATAGATTAGGCATTGTTTTTCTCCATATATGCTTTGTCAACATTACAAATTAATTATTGAGATTGTCAATAAAGCATTTATTGTATTCATAAAAAAAACTATTAAATTTGATATCTAGATTTACACTTAAAATGGCGACGTACCCAAGTGGTTTAAGGGATCGGTTTGCAAAACCGCTATTCGTCAGTTCGAATCTGACCGTCGCCTCAATGATTTAAAAATGTTTTAGGTTAACTTGTTTAATTGCAGGTAAAAGGTGGGGAGTTAATAAGTCCCATTATGAAACCTAGTCTTGATTATTATTACTAGAAGACTTTCTTATTGATATTAGTTGTACTTCAAAAGTTAAAATTGAGTTTGCAGGAATCGGATAAATAGCTTGATTGCCATAACCCAAATGGGGAGGTATTATTAATTCTCTTATACCTCCAACCTGCATACCTAAAATTCCTTCATCCCATCCTTCAATAACCTGACCAATTCCTATTGTGAAAATGAATGGCACACCTCTATCTATTGAAGAATCAAATTGAGTTCCATTTTCGAGCCATCCTTGATAATCAACTGTTAAGGTATCTCCGTTTTCAACAATTTCACCTTCACCCTTGACTATATCTCTGATTTTTAATTCGTCTAAAGTTTCTTGATCTTTAAAGCAATTGGTAGTGAACATAAAAACACTGAAGAGCAATGAGAAATAAATTAATTTGTTGTATTTCATTGATATTTAACTAAATGCTTGATATAAGTTAGTATTTTAATTATTTATATATCAAATGAAAATAGATGAACAAATTTATTTCTTTTAACTAATTTATAATTTTGGAAGTTTCCATCCATTATTATAGGTTGGTTTTATTAATTTATTTGCTTTATCATTATTGATAAATAGTTTTTTATCTTTGTCCCAGTAAACTTTATCACCTGTTAAGTATGATACATTACCCATATGTGCATTTATGCAGGCTACGCTACCACTCTCAATACCACAATTAAGAGACTCAGGAGAGTTGTTTTTAATGGCATCTAAAAAGTTTTTAGTATGAAGAGATAGCGGACTTGGATTTTGTTCATAATTAGCTTCATATGGAATTGCTTCCATAAATCTATCTTCCTCAGAAATAGAATAATCAATTTCTGGTATTACTTCCCAACCACCTCTATTCACCACAAGAGTACCTTTGTTTCCAATAAAAGCTATACCTTCATCTTTGCCATAATTTCCACCATCAATTCCTTGAGCATGCTCCCATATCATTGTAAAATCATCATATTTAAAAATTGTTTGGAGAGTATCAGGTGTTTCAATGTCTTGATTTGGATAACCAAAATTTCCACCAGATGCAACAACAGATATAGGATCTTTTGCTTTCATTCCATATAATGCTATATCAATTTCATGAACACCCCAGTCCGTCATCAGTCCACCTGCATAATCCCAGTACCATCTAAAGTTGAAATGAAATCTATTAGGGTTAAATTTTCTTTTTGGAGCAGGGCCTAACCACATTTTATAATCAACACCCTTAGGAGGTTGAGAATCAGGTTGATTAATTACTTTTTTCATCCAACCCTGATATGCCCATACTTTAACAACTCTAATATCTCCAAGTTTTCCAGACCATAAGTAGTTAAGAGCTTCTTTGTATTGTTTTCCACTTCTTTGCCATTGACCAACTTGAACAATTTTATTGGTTCTTTTAACAGCATTTAACATAGCATAGGATTCGTATATTGAATTAGCTATAGGTTTTTCACAATAAGCATGTTTTCCAGATTCTACAGCATCAATTAAATTTAAACAATGCCAATGGTCGGGAGTTCCAATTACAACAGCATCTATATCTTTATTCTCTAATAGTTTACGATAATCTGAATAAACCTTTACTTTATGTCCAGTGATATCTTCAAAATCTTTTTTTCTTTGATTTATAACTGTTTTGTCTACATCACAAATAGCTAAACAATCTGCTTCGTCATATTGTAGTAAATTTCTCATATCAGCCGAACCCATTCCTTTACATCCAATGAGCCCAAAATTAACCTTTTCATTTGGGGATATATTTTTTCTCATTGCTGATAAAGTTGAAACTGGTAAAGAGTTGAATAAAACTCCTCCAAGTGTATATGTTCCAGCTGTTTTTATAAAATTTCTTCTTGTTTTTTTCATTATGAATTCTCCTTTAGCCCTTGTAAGATTCTACGATATATTTTTACTTTTTTCAATAGAATATTCATTGTTATTAAGTTGATATATTTTTTAAGGCAATTATATATTTAAAGGAATAGTTTATTATGGCTGAGACACCTTCTTCATTCACCCTAAAACATAACGATAAAGCACCAAATTTTAGATTAAATGATACTAATGGGAAAAGTACCCAATTAAATGATTTTGTTGGTAAAAAAGCTTTAGTCATAATGTTTATTTGTAATCATTGCCCATTTGTTAAACATTTAAAAAACGAATTAACAACTCTTGCGAATGATTATATTTCGAAAAATGTAGGTTTTGTAGCTATAATGTCAAATGATGTTGCTAATTATCCATCAGACAGTCCAGAATTAATGGCAGAAGATGTTAAAAACTTTAAATATCCATTTCCATACTTGTATGATGAAACTCAAGAAGTCGCTAAATCATATGGTGCTGCATGTACACCAGATTTTTTTATTCTTGATTCACATCATAAAGTTAAGTATACGGGTCAATTTGATGATAGTAGACCTGGTAATTCTATTCCTGTTTCTGGTAAAGACTTAAGAAAAGCTTTGGATTTAATCATAGATAATAAAACTCTTAATTTTAATCAAATCCCAAGCTTGGGATGTAATATAAAATGGATTCCGGGAAATGAACCTAAGTATTATGGTTAATAGTATCTATGATAAAAAATAATTTCAGAAATATTGCTATAATTGCTCATGTTGACCATGGGAAAACAACATTGGTTAACGCAATGTTAAAACAAAGCGGTACTTTTCATATAAATCAAGAAGTTGAAGATAGAGTAATGGATTCTTTAGATCTTGAAAAAGAGAGAGGTATAACCATCACTGCAAAAAATACTGCAGTTAAATATAAAAATATTAAAATTAATATCTTAGATACTCCTGGGCATGCTGATTTCGGAGGTGAGGTAGAAAGAAGTTTAAATTTAGTTGATGGTGCATTATTATTAGTCGATTCAAGTGAGGGTCCACTTCCTCAAACAAGATTTGTTCTTAAAAAGGCTTTAGATAAAAATTTACCAATTATTTTAGTAATTAATAAAATTGATCGCTCTGATTCTAGAATAAATGAAGTCATAAATGAAGTTTATGATTTATTTATTGATTTAGATGCCAATGATGATCAAATAGAATTTCCTATTATTTATACAAATGCTAAAGCTGGTATTGCATTAAAAAATCTTGAAGATGAAAAAAATGATTTGGAACCTCTTTTTGAATCCATACTAAAAGACATTAATGGTCCAATCGTTGATGGTAGTGACACTCCACAATTTCTAATTACAAATTTAAGTTATGACCCTTATGTTGGCCAGCTTGCGATTGGAAGGCTTAATAATGGGGAGTTAGATATATCAAAATCTTATTCTTTATGTTCTGAAAATAAGATTACAAATGGCCATAAATTTTCTGCATTATATACATTTAGTGGTCTTAATAAAATTAAAGTAAATGATTTAGAAGCTGGAGATATTATAGCAGTAGCTGGAATTGAAAAAATAAAAATCGGTGATACAATTTCTTCAAATGAAAATCCAAAACCTTTACCTAGAATTAAAATTGATGACCCAACGGTGTCAATGTTATTCTATGTTAATTCAAGTCCATTTGCAGGAATAGAAGGTGATTTTCTTACTACAAGGCATATCAAGGAACGACTTGATAAAGAATTGCTTAGTAATGTATCTCTTGAAATTCGCACAAGAGAAAGAAAAGACGTTTTTGAGGTAAGGGGAAGAGGTGAACTTCAATTAGCAGTTTTAATTGAAACAATGAGAAGAGAGGGTTTTGAATTTATGGTATCAAAACCAACTGTAATAACTTATAAAAAAGATGGTAAATTAATGGAGCCAATGGAAAAGGTTTTATTAGATATACCAGAAGATAATGTAGGAGTAATAACTGAAAAATTATCTAATAGAAAAGGAAGAATGAGTAATCTTCAAAATAATGGTCACGGAAGAGTAATTTTAGAATTTTCTATTCCTTCAAGGGGATTGATTGGTTTTAGAAGTCAATTCTTAACCGATACAAAAGGTGCTGGAATAATGAATAAATTATTTGATGGATACCAACCATGGTTTGGAGATATTCCACAACGAATTAATGGTGCTATAGTGTCTGATAGAGATGGAGTTGTTACTACTTATGCATCACATGCAATGGTTGATAGAGGAGAATTATTCATTAATGTTGGTTCGAAAGTTTATAATGGAATGGTAATTGGTGAAAGAAATAAATCCGGTGATTTGTCTGTAAATATCACTCGTGAAAAAAAATTAACAAATATGAGAAGTTCTGGGTCTGATGCAACTGTTACTTTAAGGCCACCAAGAAATTTATCATTAGATCAAGCTTTGGAATTTATTGCTGAGGATGAATTAGTAGAGGTAACACCACAATCTGTAAGATTAAGAAAAATGGAATTAAATGAACAAAAAAGATTAGCAATTTCTAAAAAAATAAAATTTCAAGCAAAATAATGAAAGAGGTAAACATGAAACTTATTTTAAAATTTTTCGCAATATTTTTTATTATTATTAATATTCTTCAATCAGAAGTTATCAGAGTTCCGAGTGAGAGATTTAAGACAATTCAAGATGCTATAGACTTTTCTTTTGAGGGAGATACAATTATTGTTAAAAGAGGAAAATATAATGAGGGATTAGCTTTTTATGGAGTTTCTGTTACTTTAGCAAGTGAATATTTTTTTTCAAAAGATAAAAAAGATATTGAAGAAACAATAATAGGTACTGAGGGTACTGCTATTAATGTGATGGGTGTTGATAAAGAATTGAATGTCACTGGTTTTACTATTTCTGGAGGAGCTTCATGGGACGGAGCTGGAGGAATTTCAATTGATAATTCAAATACAAATTTTCAAAATATGATAGTAAAAAATAATTTAGGTGGAATAGGTGCAATCAGTGTTGAGGGAGGGTCTGCTAAATTCAAAAATTTATACATTGAAGGAAATATTGGTATTGGTACAGTTATATCAATTAATGATTCTGCAAATGTTCATTTCGATAATGTCTATTTTGCAAATAATGCAAATCTTTTTGGCAGAGGAGGTTTTATTGCTATATCAAATTTTTCATATGTTGAGTTTGAAAACTTTAGTTATTTGAATAATTATAATCTTCATAATACAAAACTTAAAGATATGCCAGTTCCAGGGTTTTTAATGAACTACTTAAAAAATGTAAAAAAGAGTGATATACCAAGAAAAACTGCAGAGGGAATTCAATTATTTAATGGCTCATCCTTAATATTTGAAAAATCTTTAATATGGAGTGATGATAAACAACAATTATATTTTCCTGTTGAACTTTTGCTTGAAGAAGAGGAAGAGGATGAAGAAGAAACTGATCAAAATGATTTCATTCTTGAGAAATCAAAATTTTCAATTATGAATTCTTCATATAAAGGCAATGAGCAATCAATTAAAATTAATGAATCAAATAGTATTATTGAGTTTGGTGATGATGTTATAAATTCACTTAGTAATGATTTTGGGTATATTAAATAAATGGAGTTTATATGGGATCTATTTTAGAAATATTAGTTTCTAATATTTTTAGTGTTCTTCAAATATTATTAGTTGTGAGAGTGGTTATGAGCTGGATTCCTCATAACTCAAATACTGATTGGGCAAAAACAATTTATAGTTTAACTGATATAATCTTAAAGCCAATTCAGGAGAATTTACCTACTAGGAATATGGGTTTTGATTTTTCTCCAGTAATAGCTTTCTTTTTGTTAGGGGTTATAAAAAATATTATTTTAAGTATAGCTGTTTAAAATTTTATTCATCTTCATCCTCTTCATCATCCCACCAAAAACAATTTTCTTGAAATTGATATCCCATTAATCCGTCAAGACAACTTGGATTATTACATATCCAATTATTATCAATGTTGAACCATTCCCATTTTAAATCACAAATCCTCCAAGTGATCCATCCTGTTATTTGATTATTGCTAAGATCCATATGAACTAAGTTTTCAAGATCATCAATACTATCAGGGAAATCACCTGAAAGATTATTATCTCTTAATCTAAGGTATTGTAAATTATTCATTCCCCAGAATTCTGGGATTTCATCTGATAATTGATTAAAACTTATACTTAAATATTCCAGATTTTTTAATTTTCTGATTTCATTAGGTATTTGATTTGTTAATTCATTTGTGTCAAGATTTAACCTTATGAGAGAGCTTAAATTAACAATCGAATCCGGAATTGAACCAGAAAGTTCATTGTTTGTAATAAGTAAATTTTCAAGACTAGTTAATTCACCAAAGGAGGGAGGTATTGTTCCATTGAATTTATTTTTTGATAAAATTAACCATTCCAAATTCTTAAAATTGCTAAAGTGGGTTGATAAAGTATCAGTTATTCTATTATTACTTAAATTTAAATATTCAAGATCAGTTAAATTAAAAAATTCGACCGGAAGCTGACCATTTATTTTATTGTCTGAAAGATCTAAATATTTAAGGTTATACAGTTTTCCTATTTCATTTGATATTTGGTTATTTAATTTTTTATTTTTTAATATAAGAGTATCAGTTTCTTCAATTGAATAATAATTATCCCATAATTTAACGTGGTATTCATCGTTTTTTGATTCAGTAGGGTTTTCACATTGATTTAAAAAAATAAAACTTAAAATCATAATTGTTTTAAATTTAAAGTATATTGGTTTTTTCATTTTAAAATTTTTATTATTTAAATTTAAATATCATATTTATTTATTAACTATCTTGTAATTATTTAACAATTATAAGATAATTTATATTTCTTTGTTTATACTATGAAATACTTGAGTAATTTATATATAATTTTTCTATTTTTAATTTTTTCTTTTAATTTTTCTCAATCTCAGAATATACCAAGTCTCAGAGGAATAGTTTTAGATGCCAATACTGATTTACCACTTATTGGGGCAAATATATTAATTGAAAATTCCTTAATTGGAACCTCTTCTGATAATGATGGACATTTTGAATTATTTAATCTTGATGATGATATTTATACTCTTAAAATTGCATATATTGGATATATGACACATATGGAACCTGATGTTATAGTTAGGTCAAATACATCAGATTTTTATACTATCAAGCTAAATAGAAATGTTTTGGAGATGAATTCTATTGATGTTGGTGTTTCATTTTTTACAAGATCAAACATGCAAGACTATGAAAATGTATCGTTTACAAACGAGGAAATAAGAAGGGCTCCAGGATCAGCTTCAGAAATCTCAAGAATACTTAATAGTTTACCTAGTGTAGCAAGCGTTGGTGAAAATAGTCAAGATTTAATGGTTAGAGGTGGAGGGCCAACAGAAAATGGATTTATTATTGATAATATTCCAATACCAAGCATTTCACATTTTAATCAAACTGATGGAAGGTCTAATGGCCCAATTGGTTTAATTAATACTGAAATGGTTGAAAATATTGATTTTTATGCTAATGGTTTTTCTTCTATTTATGGAAATAAATTGTCTAGTTATGCTGATATATCATATCGTGAAGGAAATAGAAGTAATTTTGAGGGAAATTTATATTTAGGTGCTGGAGGCCTAGGGTTTTTGATTGAGGGTCCGTTGTCTAAAAAAATAACTTTTATTACATCTTTAAGAAAGAGTTATTTAGATCTATTGGCAGATTTTTTAAATGCAGGAGGTTTCCCAGCATATAGTGATGTTCAAGGTAAAATAACTTATAATTACAATACAAAAAATAAATTTACATTTTTGTCTGTTAACGGAAATAGTTTATATGATAGAAGCAAAGAAGATGCAATAGAAATTAATGATGAATTTTTTGGATCGAATATTAATGTTCAACAGACTTTTGGTTTTAATTGGCAAAGAAATTGGCTTAAAAGAGGTTATTCCAAAACTTCAGTTTCATTTTCTATGCAAGAACCAAGTGCTGAATTTTTTAATTTAAATACTGACACCACAACATTTAGATCTATAAATATAATTAACTTTATTTCATTTAGACAGGTTAATCGTTTGAAAATATCAAATTTTCTAACAATTATGTTTGGATTAGATATTGCCAATTCAAATTATGATTATAATTTTTTGATTAACAATATAGATGTAAGAAAAAAAATTGATCTTTCTAATCTGGGTATTTTCTTTAATTACAAATATATATTTAAAAATAATTTTTCTCTTTCTAATGGATTAAGAGTGGAATATAATGATTATGAGGATGTTTATAATTTATCTCCAAGATTTAATCTAGAATATAGATTTTCAAAAAAGAGTAGCATAATTTTAAATTCTGGAATTTATTGGCAATCTCCTCCTGCTTTATATTTTACAGTTACACCATTTAAAACATTAAAAAGCGTAAAATCAATTCAAAACTCACTTTCATTTGATTATTTACTTTCATCAAGTACTAAATTTTCCATATCTATTTTTATGAAAAACTATTCTAATGCACCTATACTTGATCAAGCTTTTCCTTATTATGATCCCATATATTTATTTGATGAGTTGAGACTTTACAATGGTATAGTATCTAAAGCAAAGTCAACTGCAAGTGGAATAGAATTTTTATTAGAAAAGAAAAGAGCAAAGAATTTTTATGGTTTGGTTGGAGGTTCAATTTTTGATGCAACATATATAGATTATGATGGAATTAAAAGAAATAGAAATTATAATTATAATTATTTAATGAATATAATTGGTGGTTATAAACCATCTTACAAATGGGAGGTTTCACTAAGATGGTCAATTTTTGGTGGAAGACCATACACACCAATTAACCCTTTAGACTCTGAGCTTTCTCAATCTCAGATATTAATTATTAATCGATTTAACGATGAAAGAACTCCTGTGTATCATTCATTATTTTTACGATGGGAGCGAAGATACTCTTTAAAAAATACAAATCTTGTAACATTTTTTGAATTTTGGAATGCCTACAATAGAAAAAATGTTGAAGGTTATTTTTGGAGTAATACAGCTGGAATTCAAGAAATTAATTTTTTTAGTTTTTTACCAATAGGTGGATTTGAACTAGAGTTTTAGTTCTTGGCTTAGAATTTATTAAATTTTATTTATGAAAAATAAGCACTTGAATGAAAGTTGGAATTTTGATAACACTTATATTGACTTACCTAATTCTTTATTTTCCTTATGTAAACCTATTTCAGTTAAGAATCCTCAATTAGTATGTTTTAATAATTCACTTGCAAAGTCGCTTGATTTGGATTTTTTGATTGGAGATTCAAAAACAAAGAAATTTTTATCTGGAAATTTAATACCTGAGAGTGCTCAACCTATTGCTCAGGCATATGCAGGACATCAATTTGGTCATTTTACAAACCTTGGAGACGGAAGAGCAGTTGTTTTAGGTGAACATTTAAATAAAAAAAATCAAAGATTTGATATCCAATTAAAGGGTTCAGGAAGAACACCATTCTCTAGAAATGGTGATGGAAGAGCAACTTTAAGTTCTATGTTAAGAGAGTTTTTATTTAGCGAAGCAATGTATCATTTGGGAATTTCTACAACAAGAAGTTTGGGTGTTGTTTCTACTGGAGAACATGTTTTTAGAAATGAAATGCAAGATGGTGGTATTTTAACAAGGATTGCTTCAAGTCACGTAAGAATTGGAACTTTTGAATATATATCTAATTTTTGCGATTCTAATGAAATGCAAACTCTAATATCTTATGTGGTAAATCGTCATTTTCCTGAATTATTAAAATCAGATAATTTTTCATTAGAATTATTAAAAATCGTACAAAAAAAACAAATTGATTTAATTGTAGATTGGACTCGAGTTGGTTTCATTCACGGAGTAATGAATACTGATAATATTAGTATCGTAGGAGAAACAATTGATTATGGACCATGTGCATTTATGAATTCATACGATCGTTCAACTTGTTTTAGTTCAATTGATAGAAATGGAAGATATGCATTTGGTAATCAGCCTCAAATTGCATTATGGAATTTATCTGTTCTTGCAAATTCATTATTACCATATATATCTTCTAGTAAAGATGAGTCTATAGCATTAGCCAAAAAAATACTTGATTCATTTCAAGATACATTTAATGAAAAATGGTATGTAATGATGAAAAAAAAGTTAGGTTTATTTGATAATAGAGAAGAGTATTTAATTTTAATTGATGAGCTTGTCACTATTATGGATGAATTGAATTTAGATTATTCTAATACATTTCATAATTTGGCTCATTTAACAAATAACACATCTTATTATAAAAATAAAAAATTCTTTAATTGGATGAAAAAACTTTTAAATTTTAAAAAAAAAGAAAATAGATTGGATGAATCAATTAAATTAATGAATAATAATAATCCATCAATTATACCTAGAAATCATGTTGTTGAGGATGTTTTAAATGAGTCTGTAAATGGCGATTTTGAACCTTTTAAAAAATTTTTAAACTTGTTGTCT
>sequence04
AAGAAAAAACAATTAATAAAAATGATAATCCTAATAAAGCACTCACTAATAAAACTTTAGAATTAATAATTCATTTGTTTAAAGAAAAAATTAAAAATCCCTATTTAGAATTCAATATTCCCAAAGCAAACACGATTTTAATAAATTCAATAAGAGATATTAGAAAAAAAATTTATATGAAGTCATTTGAAGAAGGTTTTAAATGTGTATTAATTTTTGAAGCTGAGAAATTAATGGGGAATCAAGAAGAATCAGCTAGTGCATTATTAAAAATTCTTGAGGAACCCCCTTCTAACTCAACCTTTGTATTATGTACTAAATTCCCAAATAAATTATCAAATACAATTAAATCGAGATGTCAATCAATTTATTTTCCACCATTGAATGAAAATGAAATTCTACATTATGTCTCTGAAAACAATAATATTTCAAATGAAAATTCAAAAATAATATCCAACCTTTCAAATGGAAGTTTAAAATTAGCAAATAAAATTATTTCTAATGATTTATTAAAAATTCATGGAATAATTTTGAATTTAATAAAAGATATAACAATAAATTCTGATAATAGAAAAAATTTAATTATTCAATTATCTAAAGACTATAAAACTAATACAGAAAAAATAAAATTGAATCTTAACATGTTATCTTTTTGGTTTAGAGATTGTTTTTATTTAAGTAGAATTAAAAATACTTCAAAACTAATTTTTTCAAGTCTAACAAATGAATTAAATGATTTTATTATTAAATATCCAAATGCAGATTATACAAAAATTATTCAACTAATTGATGATTCTATAAATTACTTGAATAAAAATATCCAAATAAACTTAGTTTTTTTAAATTTGATTATTGAAATAAATAAAAACTTAAATAAAAAAAGAAAATGAATAAATTCTATATATCTACTCCTATATATTACGTAAATGATAAGCCACATATTGGTCACGCATATACTACTATTCTTGCAGATGTAATTGCTAGATATAATCGTTTAAAGAATAATCAAGTATTTTTTTTAACTGGTTTAGATGAGCATGGTCAAAAAGTTGAAGAAGCAGCAAAAAAACTTGGTGTAAACCCTAAAACTCATTGTGATGAGATGGCACCAAGATTTATAAAACTTTGGAATAAATTAAATATTTCAAATGATGGTTTTATAAGAACTACTAATTCTAAACATATTAGTGTAGTGAAAGATATTTTAAAGACTGTTTATAATAATGGTGATATATATAAAGATGTATATGAAGGATTATATTCCGTTTCTGAAGAACGTTTTATTACAGAAAAGGAAGCTGATTCTGGAGAATTTAGAGATATAAAAAAATTAAAAGAAACCAATTATTTTTTTAAAATGTCAAAATACCAAAATAGATTGATTAATCACATAAATGAAAATCCATTATTTATTCAACCAGAATATAGAAAAAATGAAATTTTAGGTTTTTTAAAAAAACCATTAAATGATTTATGTATATCTAGGCCAAAAAAAAGATTTAATTGGGGAATAGATTTGCCATTTGATGACAATTATGTTACTTATGTTTGGTTTGATGCGTTGATAAATTATATTTCAGGTATTGGTTATAAGGATGATAAAAACTCATTTGAAAATTTTTGGCCATGCGATTTTCATTTGATTGGAAAAGATATATTAACTACTCATGCTGTATACTGGCCGACGATGTTGATGTCTGCAAAAATATCTTTACCAAAAACTATTTTTGCTCATGGTTGGTGGTTGTATGGAGATGAAAAAATGAGTAAATCTAAAGGAAATGTCATAAATCCTCTCGATATAATTGATACATATGGGGTTGATTCTTTGAGATATTTTTTAATGAGAGATATGATTTTAGGTCAGGATTCTAAATTTACTCCAGATATTTTTATAAGTAGATATAATAGTGATTTAGCTAATGATTTAGGAAACTTAGTAGGTAGAATTTCTACTTTAATTAAAAAATATTTTAATAATGAAATACCCAGCAATAATTTTTTAGAAAATTATGATAAAGATTTCATTAAGGAAGCAAATATTATTGATACTAAAGTTCATGAAAATATTTCTCAGTATAATATTAATCAAAGTTTAGAATTAATTTTTTCTCTTATAAGATCTATAAATAAGTACTTAGAAGTTTCTCAACCTTGGAAGCATGTAAAAAATGATAAAAATAAGGTTGCTTCAATCTTATATACATCCATTGAAACTCTGAGAATAGCAATTAATCTACTTTTTCCTATAATGCCAACAAAAATTAAAAATATTTACTCTATGATAGGTTTAAATGAACAAAGTTCTAAAAAATCCATGGTTCCAGGTACCTCTCTTGGATTATTTAAAATACCTTTTCCTAAAATTGAACAAAATAAAAATAATAAAAAAACTGAGGATGAAAAAATGTCAGAAGACTATATTTCAATTGATGAATTTAAAAAAGTTGATTTGAGAACTGCAAAAATTATCAAAGCAGAAAAAGTTGAAAAAACTAATAAGCTAATTAAAATGCTTGTGGAGCTAGATGGAACAAAAAGACAAATAGTTTCCGGAATTGCTGAACATTATGATGTTGATGATTTGATAGGTAAAATGGTTGTGATTGTTGCAAATTTAAAACCTGTTGTTATTCGAGGAGAAGAATCAAATGGAATGTTATTAGCAATTTCAAATAGTGATAATAAAGTTATTGTTTTGACATCTGAAAACGAAGAAATCACCTCCGGTTTAAGATTAACTTAATTGTATATAGATACACATACACATCTTTATTATGAGAAAATTATCTCTCAACTGGATGATATTCTAGATCGTGCTAAAAGTAATCATGTATCAAAAATTATTTGCGTTGGAACTAATTTAGAGAATTCTAAGAAATGTGTAGATTTATCTAAAAAATATGATTCGATTTTTGGTTCCGTAGGCATCCATCCTCAAGATTGCATTGTTAAAGATAAAGACTATTTAAATGAGCTTGAATATTTATCTAAAAATAAAAAAATTGTAGCAATAGGTGAAATTGGGTTGGATTATTACCGAGATCATACCTCAAAAAAAGTTCAAAGAGATTTTTTTTCAAAACAATTAAAACTTGCAAAAAAATTAAAATTACCTTCAATAATACATTGTAGAGATTCTCAATTTGATGTTTTAGATATTATTGATGATGTAAAAAATTATAATGTTGTCTTCCATTGTTATTCAAATGATTTAGAATTTGCAAAAAAAATTATTTCAAAAGGTTGTTTAATTTCATTTACAGGAAATATAACTTTTGGTAGTAAACATATAGAATTACTAATTAATGAAATTGAATTATCAAAAATAATGCTTGAAACTGATTGTCCATTTTTATCACCTGTTCCAAATAGAGGAAAATTAAATGAACCTTCAAATATACCATATATAGCAAAAAAAATAGCAGATATAAAAAATGTTTCATTAGAAGAAGTTTCTAGAATAACTACAAAAAATGCTGAAACTTTTTTTAAAATATAAATGCAAAATTTAGCAAAAAAAAAATGGGGACAACATTTTCTTGCAGACAAAAATTTATTAGAAAAATTAATCAAAATCATTAATCCAAAAAATAATGAAGTTTTTGTTGAGATTGGTTGTGGTGAAGGTGCTTTAACAGAGTTATTAATCAATAAAGTAAAAAAAATTATAGGTGTAGAAATAGATAGTGATTTGGTTTTGTTTTTAAAAAAAAAAATCTTAAACCAAAATTTTGATTTAATTAATGATGATTTTTTAAATATTGATTTAACCAAATTATTTAAAGATTACAAATCAATAAGAATTATAGGAAATTTGCCATATAATATATCATCTAAAATACTATTTAAAATTATCCCAGAACTTGATTTAATAGATAATTGTTACTTTATGCTTCAAAAAGAAGTAGTAGATAGAATAATATCAAAATCAGGTTCTAAGAATTATGGTAGATTATCTGTGAATATTCAATCTATTTGTAATGTTGATAAGGTTTTAAGTATACCTCCTGAAGTGTTTGTTCCTAAACCGAAAGTTCATTCTGCATTCGTAAGATTCTCAAAAAAAAAAACATATATTAATTCTAGTAAAAAAATAGAAGTATTGAAAAAAATCACAAAATTAACTTTTGGTAAAAGAAGAAAAATTTTAAAAAATACATTGTCATCAATTTATAATCTTAAACCTCCAATTGATTTTTCTCTAAGACCAGAGGATTTAAGTGTTGATCAATATATTTTATTAACTAAATGGATCATTGATAAAAAAATAGTTTTATAATATTTTTTATGACTGTTGTAGAATTTTGAAAATGGTAGTAAACTTATAGTAGTCAGATTGGGTTTCAATATAATTAAGATATATTATAAAAGGATATTTTATGGCCTCAGATGCAAATAGAAGTTTAAGTAGATATTTAGAAGAAATTGGAAAATATGAACCCCTTGCACCAGCAAGAGAAATAGAATTAGCGCAAAAGGTTAAACAAGGTGATCCAATAGCATTAAATGAATTAACTGAAGCAAATTTGAGATTTGTAGTTTCGGTTGCTAAAGATTATCAAGGTCAGGGCTTACCTTTAACTGATTTAATTAATGAGGGTAATTTAGGTTTAATTAAAGCAGCTGAGAGATTTGATGAAACAAGGGGATTTAAATTTATTTCTTACGCAGTTTGGTGGATAAGACAATCTATTCTCCAAGCATTAGCTGAACATTCAAGAATTGTAAGATTACCATTAAATAGGGTTGGAACTATAAGCAAGATTACAAAAGCAGCTCAAAGTCTTGAATCTGAATATCAAAGACCTCCAAATGAAGATGAAATTGGAAAACAACTTGAAATGGAGGGTGAAGAAGTTACTGATGCTATTAGAATTTCAAGAAGACATCATTCTCTTCATGCACCGTTTAGAGATGGAGATAAAAACTCATTAATGGATGTTATTGAAGATGATAATCAAAGACCTCCAGAATCAGGTTTAATGCTTGAATCATTGAAAGAAGAAATTAGACAATGTTTGGATTCATTAAAAGATAGAGAAAGAGATGTTATTAAAATGTATTTTGGTATCGGAAGAGATTATGCATTAACACTTAATGAAATTGGCGAAGAGTTTAATTTAACTCGTGAGAGAGTTAGACAAATAAAAGAAAAAGCGATTCGTAGATTAAGGCACAAATCTAGAAGTAAAAGTTTAAGAAATTATTTAGGATAGAGGAGGTGTATTTTTCAATTGATCGAAGTTACAGTTAAAAAAGGTGAAGAGCTTGAAAGAGCTATTCGAAGATTCAAAAAAAAATATGAAAAAGCTGGTATTTTACGTGAAGTAAAAAAGAAATCTTTTTATTTAAAACCAAGCGCTGAAAAACAACTTAAACGTAGTAAAACTAGAAGATAATTTTTTTTTTTAATTAATTAAGTTAATAAACCAGGTCCGAATTAACGGGTCTGGTTTTTTTTTCAATATGAAATCATTTAGGAGAAACAATGTTAATTGAATCTATATCTGGAGTAAGAGGAATCTCAGAACAAGATTTAAATGATAGAATTTTAATATCTTATGCAAAAGGAATTAATGAATTTTGTAAAAATGGAAAAATTCTTATTGCAAGGGATTCAAGAAAGTCTGGAGTAAAAATTTTATCAATAATTTTTCAAATTATTAAACAAAGCGGAAGAAAAATAAAAAATTGTGGTATAGTTCCTACACCAACTTTGCAATATGCTGTTAAAAGTACAAATGCTGTCGCTGGAATAATGATTACGGCAAGTCATAATCCCTCAGAATGGAATGGAATAAAATTTATATGTGAAGATGGTTGTTTTTTTAATGAAAAACAAATTAATAGATTATTAAAATTAAAAAATGAGTTTTTAAATAGTAATAATAGTTCTTTTAGTGATGTTTTGTTGGATGACAACTCTAATAATGAGATTAAATTAATTAATAGTCATATTAAAAAAGTTTTAGGAATTCCATTTATTGATTTTTCAAAAATAAAAAAAAGAAAATTAAAAATTGCAGTTGATGCTGTAAATGGAGCAGGTTCAATTGTACTACCAAATCTACTAAAAGAAGTTGGTTGTAATGTTGTAGAAATAAATTGTAAACCAACAGGGGAATTTACCAGAGGAACGGAACCGATTCCTGAAAACTTAGATTTTCTATCAACAACAGTTTTAAAAGAGAAATGTGATATTGGATTTGCAACAGATCCTGATGGTGATAGATTGGCCGTTATCGATAATGACGGAAATCCAATAGGAGAAGAGTATACTCTTGTTTTAGCTTTAAAATATTTTTTAGAATCAACAAATTATAAAAAAACAGTAATAACAAATCTTTCTACAACATTAGCAGTTGATAAAATAGCAAATCAAAATAGTGTTGAAGTAATTAGGACAAAAGTTGGTGAAATAAATGTTGTTGAAATGATGAAAAAACAACAATCTTCATTTGGTGGAGAAGGAAATGGTGGTGTGATTTTTGGAGATATTCATTTAGGTCGAGATTCTCTAGTAGCATCTATTCTGATTGTTGCGTTGCTTTGCAACAGTGAAAAATCTTTAAGTGATTTAATGAAAACTTTACCAAAATTTTATATTTGTAAAGATAAAGTATCAATTGAAGGAATAAATCAAAATAAATTATTCAAAAAATTAAATGATATTTATAAAAAAAATAAAAGAAATAATTTAGATGGATTAAAAATTTTATTTGATGATCAATGGATTCATATTAGAAAATCTAATACGGAGCCAATTGTAAGGATATATGCTGAATCAACTTCGTTAAAAAAAGCAAACCATCTTATAAATGATATTAAAGATATAATTATTAAAATAAATTGATTTCAAATATACAAAAACCAAAAATTGGCGATGAATTTGAATTAATTATTAAAGATATTGCATTTGGTGGAAAAGGTATATCTACTTATAATAATTTTAAAATTTTTGTAAGAAATGCAATTCCCGAACAAAAATTGTTAGTTAGACTCATTAAAAGAAAAAAATCTTTTGGTGAGGCAAAAATTTTATCTATAATAGAAAATTCAAAATTTTATCAAAAATCATCATGCAATCATTTTCCAGTTTGTGGTGGATGCTCATTCCAACACTTAAGTTATGACTATCAGGTTCAGTTAAAAAAAAAACAACTTTTATATATATTCAATAAAATCGGAAAAATTGAAATTAAAAAAATTGATTATTTTTTTCCTGCAGAAAAAATTTTTAATTATCGTAATAAAATGGATTTTACTTTTTCTTCAAGGAGATGGTTGTTAAATGAAGCAAATTATAGTCCTAATGATAAAATTTTTGCTTTAGGACTTCATATTCCTGGAAGGTTTGACAAAATTCTTAATATAGATGAATGTATGATACAAAACCCTGTTGGAAATGAAATTTTATGTTTAGTTCAGGATTTAGCAAAACAAAATAAAATTCCTCCATATGATAAAAAAACACATGAAGGGTTTTTAAGAAATTTGATTATTAGAAGAGGTGAAAAAACAAAAGAAATAATGATTAATTTTGTTACTGCATACGAAAATAAAATAATTTTAATGCCAATTGTAGATGAATTAATAAAAAATTTTAAAAATATTAAATCAATTGTAAATAATATCAATTCTAAAAAAAGTGATACATCTTATGGTGAATATGAAATCTTGCTATATGGAGATAAATTTATTTTAGATAGGATTGATAAATATGAATTTGAAATTTCATCAAATTCATTTTTTCAAACTAACACTAATCAAGCTGAAAATTTATATTCAATTACAAAAAAAATGGCTGATCTCAAACCAAGTGACATTCTTTTTGATTTATATTGTGGGACAGGTTCAATTTCAATTTATATGGCAAATCATTTGAAAAAAGTATATGGTTTTGAAATAATTGAATCTGCAATAAAAGATGCATATCAAAATATGAAAAGGAATGAAATTGAAAATTGCAAATTTTTTCAAGTGAATTTAGATAAGGATTTTGAAAATATATTAAATTCAAAAAAAATACCTAATCCAAATATTTTACTTTTAGATCCCCCAAGAGCAGGAATTCATCCTAGGCTTTTAAAAAATTTGATTAAACTTGATACTAATAAAATAATTTACATCTCTTGTAATCCAACTACTCAAGCGCGTGATTTAAATGTTTTATTAGGAAGAGGTTATAAATTAAAAAAACTTGCAATGATTGATATGTTCCCTCATACCCCTCATATAGAAAGTGTAGCATTAATAACAAAAAAATAATTTTTAATACAATTCATAAAAAAATTCCAACCTAATGTTTAAATTATAATGATGGTAATTTTATTCAAAAAGGTATTCGAGAACCCATTCACTCAAATTATAAGTACCATATTTATTGTTATGTTATTAAGTGGATGGCTTATTAGTCAATTTGAAATTGCTCCAAATGGAGAGGATGGTTTATCTGAAGGAATGAATCCCTTTTGGTGGGCTATAGTTACAATGACAACGGTTGGTTATGGTGATTTTGCCCCTAAAACTTTTGAGGGAAGAATTCTAGCAATTATTATAATGTTTGCTGGAATTTCGTTAACTGCATTGTTAACCGCAACAGTATCATCAATTTTTGTAGCAAGGAGAATAAGGGAGGATAAAGGTTTGGAAATATTAAAAATTAGTGATCATATTGTAATTTGTGGTTGGAACAGTCTTGTTGATAATATTATAGATTCATTGCAAAATATGCATGAAAATAAAAAATTAAACATAGTATTAATTAACAATCAAAATGATGAGACAATTTCAACTTTTAGAAATAGTCATAAAGGAATAAATTTTAAATTTGTAAAGGGTGATTTTACACGCGAGCCAATACTTGATAAGGCAAATGTCAAAAAAGCAAAAACAGTTATTATTTTACCCTCAGATTATTTGACAAGTTCAACAGGTCATCCTGATGAGAAAACAATTTTCGCAACTTTAACAATTAAAACTTCTGCACCTAATTGTAGAGTTATTGCATTTATTGTAGATAGAGAAAATCTCACCCATATTAAAAGAGCAAATGCAGATGAAATAATACTTAGCGATGATTTTAGTTCTTATATGGTTGCATCTAGTGTAAACGAACCAGGAGTTTCTAGAACAGTTGAAAATTTAATGAGTTTAAAAACCAAATCAATTTTTAAACAGTTAGATATTCCAGATACATTTATTGGAAAAACATATGATTCCTTATTTAATTATTTTAAAAAAATGGGATTAATTTTAATATCAGTTTATTCTGAGGATGAAAAAATAGGAATTGGCGAAATATTATCTTCGGATACTTCAGCCTTAGATCATTTTATTGAAAGAAAATTAAAAGATGCCGGTCATTCTTTAACTGAAGAAAATAAAATGAATGTGATTGTGAATCCAAAAGATGAATATATTATTAAAGAAAATGAAAAAGCAATTGTAATCAAATAAAGTAGGAAATTTTATGAGAAATCAATACGAAAAATTTAAAATTTTTAATGGTTTAAATAAGTCTCAAATTAATTTATTTGAAGAGAAAATATCAATCATTAAACATTCAAAAAATGATATAATCTTTAATGAAGGGGAGAAAGGTGAAACTCTTTTTTTTCTTTTATATGGTGAAGTTGAAATTACGCAAGCACTAACTCTAGAATTATCAAAAGCAAATTTTGACACAAGAGAAAAATCAATTTTAAATCTTAAAAGTGATCAATATCCAATCTTTGGGGAAATGTCTATTTTTGGAACTAAAGAATTAAGAACTGCAACTGTGAAAGCAATTTCTGATTGCAAAATGGGAGAAATTTCTAAATTTGATTTACTTCAATTATGTGAATCTGATAAAAAAATATGTTATATAGTATTGTCAAATATTTGTTCAATTATTACTGATAATTTAATTAATGCCAATGCAAATATTTTAAAATTAACTACTGCTTTTAGTTTAATACTTGATAAATAGTTTTAAGTAATGCCTAAAGAAATAAATATTCCTAAAATCTACAGTCCTTTGGATGTAGAAAAAAAATGGTATAAACATTGGATTCAAAAGAAATATTTTGATGCTAAAGTAGATAAAAATAAAAAACCATATACAATTGTAATTCCACCGCCAAATATAACAGGAAGTCTTACAATTGGTCATGTTTTAAATAATACAATTCAGGATGTATTAATTAGAAGATCAAGGATGATGGGTAAAAGTACATGTTGGATTCCTGGCACAGACCATGCTTCTATAGCAACTGAGACTAAAGTAACTAAAATGCTCCTTAAAAAAGGAATTGTTAAAAAAAATATTTCAAGAGAAAAATTTATTGAATATTCTTGGGAATGGAAAAAGCAATATGGCTCTTTAATTACGGAACAATTAAAAAGACTTGGATGTTCATGTGATTGGAAAAGGGAAAGTTTTACATTAAATGAAAAATATTCAAAAGCTGTTCTTCATGCTTTTGTAGATTTGTACAACAAAGGATTAATTTATAGAGGTAATAGATTGGTCAATTGGTGTACAGCAAGTCAATCAGCAATTTCAGATGAAGAGGTCTATTTTAAAGAAATTAATGGTAATTTATGGTACGTAAAATATCCAATTTTAAATAGCAATGAAAAATTAATTGTTGCCACTACGCGACCAGAAACAATTTTAGGTGATACGGCCATTGCTATGAATCCTAATGATAAGAGATTCCTTAATTTTAAAAACAAATATGCAATTGAACCTTTTACTCAAAGAAAAATTCCAATAATAGCTGATAATTATGTAGATAAAAATTTTGGTACTGGTTTGGTAAAAATTACACCAGCACATGATCCAAATGATTTTGAAATATCTAAAAGACATAATCTAGAAATTATTAATATTTTAAATCCTGATGGGACTCTAAATAATAATGTTCCAAAATCTTTTGTTGGTTTAAATATTGAATCAGCTAGAAAAAAAATCGTAGACGAATTAAATAAATTAAATCTTATTTATAAAATTGAACCTTATAAAACCAACATTGGTTTTTCTGAAAGGGGGAATGTTCCAGTTCAACCTTATTTGTCAAAACAATGGTTCATTTCAATGAAAAAGCTTGCTTCTCCTGCTATAAATGTAGTGAAAGATAAACATATAAATTTTTATCCTAAACATTGGGTTAAAACTTACGAACATTGGATGGTTAATATTCAAGATTGGTGTATTAGTAGACAATTATGGTGGGGACATCGAATTCCAGTATGGTACTCAAAAAAGGATAATAATAAACTTCATGTTTCATTAACTCCTCCAAATGATAAAGATAATTGGGTTCAAGATGAGGATGTTCTCGACACTTGGGCAAGTTCATGGTTATGGCCTATGGCTGTTCATGATTGGCCTGAAGATTCTGAAGATCTTGAGTATTTCCATCCTACTGATGATTTAGTAACAGGACCAGATATAATTTTCTTTTGGGTTGCTAGAATGATTATGGCAAGTCTAGAATTCAAAAAAGAAATACCTTTCAAAAATGTCTATTTTACTGGGATGGTTAGAGATATGGACGGAAGAAAAATGAGTAAATCACTGGGGAATTCACCTGACCCAATAAAACTAATTGATGATTACGGTGCAGATGCTATAAGATTTGGAATAATGCTTGTTGCTCCTCAAGGCCAAGATATTTTATTTTCAGAGGAAAGAATAAAACAGGGTAGAAATTTCATGAATAAAATCTGGAACGTAGCTAGATTTTTATCTTTTTATTCTAATGATATTTCAATTCTTTCTGAAGATGAATTAAAAAATAAAAATTTAGATTTATCAGACAAATGGATAATAAATAAGTTAGATTTAACAATTGAAAGCATAAACTCAAACTTTAAAAATTATAAATTTAATGAAATTGCAAAATGTATTTATGAATTTGTTTGGTTTGATTATTGTGATTGGTATATAGAAATTATCAAATCTCGGTTGCAATCAGATGATGTAGAAGAAAAAATAATTGCATTTTCAAATGCTTTAACAATTTTTAATAAAGTATTAAAATTGATGCATCCGTTTTCTCCATTTATAACTGAAGAGTTATGGAATAGATTTAAATTAAAAAACAATGACTTAGATATTGTTATCTCTGATTGGCCACAAATAGGTCAATTTAATTTTGATAAAAAAATTAATAATCAATTTGAAGATTTAAAGAATTTAATCACTAAACTAAGGAATTTAAGATTTGAAATGAATATTCCTTCATCTCAAAAATCCGATTTATTGATAAAAAGTAAAAAATCTTTATTAATTTATAACAACATACAGTTGATAATGGACTTAGGAAATGTAAAAAAAATTGAATTCAATGAGAATATAAAAAGACCAAAACAATCGGCTATGATTATTTATAACTTAGTAGAAATATATATTCCTTTAGACAAGATTGTTAATGTTGAGCAAGAAAAGATACGTATTCAAAATAAAATTGATGGTTTGAAATCACGCTTGGAAGTTATTAATTTAAAAATCAACAATAAAAATTTTATTTCAAAAGCTCCAAAACAAATTATAAAAAAAGAATTAAATAAAGTCAAAGATATTAAAGAAAATCTTATAAAGCTTAACCAAAATATTGATTATCTAAAATGAAGAAAATTTTTTTAAAATTTATTTTTTTATCTATGGTCTGTTTTGCTCAGTCCAATAATGCATTTATTACAATATACAAAGACAACTTTGCACTTATACGTCAACCAATCAATTTTCAATTAAAATCAGGTACTAGTAAAGTTATGTTTTCCAATATTCCCCATGAGACAGATTTTAATTCAATTTTATTATCGATGGATAATGTTACTATTAATTATCAAGAATTTTTTAAAAACAATTTTGGAAGTATTTCATATCTTGATAGCCAAATTGAAAAAAACATTTCTATTACTACACAAGATGGTAAAGAAATTAAAGGTGCTTTAATTAATATTGAAAAAAATTGGTTATCCGTTAAATCAGGTGGTAAAATTAATTTTATTAATATTAATGATATATCATTAATTGAATCTTCGTATAAAAAAAATTATTCATTAACTAATCCAACAATTGAATGGGATGTAACTGTAAGTTCAAATGGTAAATATCAAGGTGAACTAATTTATGTTTCTAATGGATTTAATTGGGTTTCAAATTATCAATTAATTATGGATTCTGATGAATTGAATGCTACTTTAGTTTCAAAGTCAGAAATAAATAATTCAACAAATTTAGATTTTAAAAACTTGAAAGTTAATTTGGTTGAAGGAAATCTTAAATTAAACAATGAAAAAGCTATTGAAGATGATTACGTGATTTATAACATTCCAAAAAATATTTTTTTAAATAAAAATGATAAAGTTGTTACACCATTATTTCCTGAAAAAAAGATAAAATTTAACAGAACATATACATTTGAGAATACTGAATTAATAAAAAAATCAGAACCACTTTTGTTAGAAATTTCTTTTGAAAATGATTCATCTCAAATTAATAATATCATCCCAACTGGAAATTTTAATATTTACCAAAAAAACAAAAATGGTAAAATTTTGTTTAAGGGTGAGAACTTAATTAGTCAAATTGATATAGGCGAAAAAGTAATTTTGAAATCTGGAAGGTCAGAAAATGTATTTGGAAAAAGAGAAATCGTTAATATTGATAAAAAAAAGAAAAGTGAAGAAGTAACTATTTTAATTGAATTAAAAAATAATCGGAATGAGAAAATTAATGTCAAAATTATTGAACATATTTTTGGTAATTGGGTAATAAGAGAACCATCTCATGATTATAGAAAAACTAATTCGAATACAATTGAATTTGATATATCTATAAGTGGTTTAGAAACAGAGGCTATTTCATATACTTATATTAAGGATTGGTTATAAATTCAAAATATGAATGCATAAATCACCTAAAATACAGTCAAAAAAATATTCAATTAAAAGCAATTTAATATCTATAAATAATATTGGATCAAAAAAGATTCAAATTTTCAAATCTCTTGGAATTGAAACACCTCTTGATCTTTTATATTTCTTTCCAAGAAAACATGTTGATAGAACTTCATTTACCAAAATAAAAAACCTTAAAAAAGGAGATTTGGTTTCAATTATTGCTTCTGTTGAAGCATTTGGTTTAAGAAGATCTAAAAAAAGAAATTTTTTTGAATTAATCATTAGTGATAAATCAGGTATCATTAAATGTATTTGGTTTAATGGCTCTAATTATATGAATAAAATTTTTTCTATAGGTGATAAACTTATTGTAAGTGGTAAGGTTGATTTTTTTAAAGGTTATCAACTTATTCATCCTGAATATGATATTATTAATCTACAAGATATGGAACCATTAAATTCAGGTGGAATTATTCCTATATATCCAAGTAATGAGTTATTAAAAAAAGTTGGATTAGAAAGTAGGGGATTAAGAAAAATAATTAGGGAAATTTTATTAAAGTATAATTTTGAAGATCAAGAATTCTTTGAAAAAAAAATAATAAACAAAGAAAACTTATATCCCTTGAACTTAGCATTAAAAAATATTCATTTTTCTAAAAATCTTGATGAATTGAAAAAATCTATCTTTCGATTAAAATTTAACGAACATTTTTACATCCAGTTACTAATGGCCTATAGAAAAGTTAAATTAAAAAACCTCCCAGGAAAGGAGTTTTTATATAAAAAATCTTTAATCAGTCAAATACTTAAAAACATTAAGTTTGAGCTCACAAATGCCCAAAAAAGAACATTAAAAGAAATTTTTAATGATATGATAAAAGCTAAAGTGATGAATAGATTAATTCAGGGTGATGTTGGTTCTGGAAAAACTATTGTTGCAATAATTTCTAGTTATTTAGTAGTTAAGAATAAATCTCAGGTTGCGATAATGGTTCCAACTGAAATTTTAGCTAGACAGCATTTAAGTCAACTTTTAAAATATTTAAAAAATTTAAATGTTTCAGTGGGATTACTAGTAGGAAATTTAAAGAAAAAAAATAGAGTTTCTTTGCTTGATGATATTAAAAATGGAAAAATAGACATCGTTATTGGAACACATGCAATTTTTCAAGAGGATGTAATTTTTAAAAACTTAGGATTAATTGTAATAGATGAACAACAAAGATTTGGAGTTTCTCAAAGAGATAAATTATTTAAAAAAGGAAATAATCCTGATATTTTATCAATGACAGCTACTCCAATACCTAGAAGTCTTGCTATAGCATATCATTCTGATATGGATATTTCCTTAATTGATGAAAAACCAAATTTTCGAAAAAAAATAATCACAAAAGTAATTTCAAATAATCAAATTAATAAAGTTTATGATTTTATTAAAAATAAAATTAAAAATGGCGAACAATGTATTATTGTTTTTCCATTAATAAATGAATCGGAAAAATTAGATTTAAAAGCTGCAATAATTGGGTTTGAAGAATTAAAAAAAATTTTCAATAATTTAAAAGTTGAACTTTTGCATGGTAAAATGGATCAAAGTGAAAAAGAAATAATTATGAATGATTTTTCTAATAATAAAATTAATATTCTAGTTTCAACAACTGTTATTGAAGTTGGAATTGACGTTCCTAATGCAACTGTAATGTTAATAGAAAATTCAGAGAGATTTGGTTTGTCTCAATTGCATCAGCTTAGAGGTAGGATTGGTAGAGGTTCAAAAGAAGGATATTGTATTTTAAATCATACTAATCGAAATGAAAATTCTATAAAACGCATGGAAATTATGGAATCAACTAATGATGGTTTTAAAATATCTGATTATGATTTAAAATTAAGAGGTCCTGGTGAATTTTATGGCGAAATGCAACATGGTTTCCCTAAAATGAAAATTGGTGATATTATTAATGATTTAGAAATTATTAAAAAAGCAAAAGAGGTTGCATCTGATTTGATTTTTAAGGACCCTGAATTAAAATTAAGAAAGAATAAAAAAATTAGAGCAAATTTTTTTAAAGAATTTAAGAATTATATGAAAGTTGAAAATATTTTATAATGATAAAAATTAAACATTGTTTCCTTTGTGAAAACATTAATTTAAATAAAATTTTTTCTGCTATAGATTATATTGCAACGAAAGAAAAATTTGATATTTTAGAATGCCCAAAATGTGAAATAAGAATTACTTCTCCATTACCTGAAAAAAATCAATTAAAAAAATATTATGAATCAAAAAATTATAGGCCACATAAAAAAAAAACATATTCTCTTATTGATTTACTTTATAATATTATTAGAAAATATATGTTTTTTAAAAAAAGAAAATTGATTGAAAAACATTCTCATTTAAAAAAAGGGAAAATACTTGATATAGGATGTGGAACTGGTGAGTTTGCTTCATTTATGAAGAATTCTGGATGGGATGTTGTTTGTGTTGATTCATCAAATGAAGCAAGAAGTATTGCTATGCAAAGATTCAATTTGAAAGTTTTAAATATTGATCAATTTTTTGATTTAAGGAATATAAGGTTTGATGTTATTACAATGTGGCACACTTTAGAACATGTAGACAAACCAATAGAATATATTAATAAAGTAAATAAAATTTTAAATGACGATGGAAAATTTATTTTTGCTGTACCTAATTATGAATCTTTCGATAGCAAATTTTTTGGTAAGTATTGGGCAGCTAATGATGTCCCCAGACATTTATATCATTATAGTAAAAAAAGTGTTAAAAAAATTTTAAAAAAATCAAATTTGCTTATTTCAAATATAATAGGTTTACCATTTGATGCATATTACGTTTCTTATTTAAGTTCCAGATATAAAAAAACTTCATTATTGAATTCGTTATTAGTTGGTTTTATTTCAAATTTTAAAGCAAAATATACCAATAATATGTATAGTTCATTAATTTACATTGGTAAAAAAAATATGATTGAAAGGGAATAGGGATAATGGTAGATAAAAAAAATGACAAAGAAGATCAACTTCTTATTCAAATAATAACAATGTTTACCCAACAGTCTTGGATTTCAATGGGTAAGCTTAAAAATCCTGTTACAGATAAAACTGAAAGAAAACTAGATGAGGCAAGTTTTTATATTGACGTAATAGAAATGATGAAGAATAAAATGGAAGGAAATTTAAATTCGGAGTTGTCTACTTATATTGAAACAAGTTTAAATAATTTAAAAATAAATTATCTTGAAGAATTAAAAAAAACTACTGTAAAAGAATCAAGTAATGAATTAAAAAATGAAAATAACTCTAAAGAAAAAAATGAAAAAGAAGATATAAATGAAGATAAATAATATAAATTATTTTATATCTGGCTTTGTTTTTTTAATTACTTTTTTAATTTATTTTATAACAATGGCGCCAACTGTCTCTTATTGGGATTGCGGAGAATTTATTGCTACGTCATATATTTTAGGAGTTCCTCATCCACCGGGTAGCCCGCTTTTTTTAATTATAGGTAGAATATTTTCTTTATTTCCAATAAGCTCTGATATTGCATTTAGAGTTAATATTATTTCCCCAATTGCTAGTGCTCTTTCAGTTATGTTTCTTTATTTGATAGTTGTTCAACTAATTAATATTTATCGAGGAAAAATAAAAAATAATTTTGATCAAATAATTGTTTATGGATCTGCTTTTATAAGTTCTTTAATTTTTGCGTTTACTGATAGTCATTGGTTTAATGCTGTAGAAGCTGAGGTATATTCTTTAAGCACATTATCAACAGCTTTGGTAGCTTGGTTAATCTTACATTGGAATGAAAACTCTGATAAACAAGGACATGAAAGATTTTTGCTTTTAATTTCATATGTTCTAGGTTTGGCAACGGGGATTCACCTTTTAAATTTATTAGCTTTACCATTTATGGGAATGATATTTTATTTTAAAAAATATTCCTTTTCAATTCGTTCATTTTTAATAATGTCATTTATTACTGCAGTAATTTTTATTAGTGTTTATCTAGGTATAATAAAGGGAATTCCAAGAATTGCTTCTTTAATTGGGATTAATGGTTTAATTATCACAATATTTTTTTTATTTCTAATTACAATTTATGTTATTGTGAAAAGAAACAATTTTTTTTCATTTATTTTATCATCTTTACTTTTGGTAATTATTGGTTATTCTACTTATGCAGTTTTATTTATTAGATCAGCACAAGATCCTGCAATAGATGAAAATGATCCAGAAACAGTTGAAAGAGCAATAAAATATTTAGATCGTGAACAATATGGTGAATTATTTACTTTTCCAAGAAGATATGAAAAAGGAACAGTTGGTTCATATCCTCATAAAGTTTCAAAAATAGGCAACCCTTTAGATAATTCTAATTTTTCGAGTTCACAAGACTTTAGATATATGTTCCATGATTTTGAAAAACAATTTTCATTTTTTTGGGATTATCAATTTATAAGAATGTATTTGAGATATTTCTTGTGGCAATTTGCGGGAAGGGGACCTGCAGGCGAAAATTATGTTTCAAATTTTGGAGCTATAGAATCTAGAGCTGAAGATGGTGTGAATTGGTTCCAATTTATTCTTCCATTACCATTTTTAATGGGGATATTTGGAATTTATCATCATTTTAAAAAAGACCCAAAAAGAGCTTGGTCAGTCTTAGCTCTTTTTGTAATGACTGGTTTTGCTTTAATCATCTATTTAAATCAAGATAAGTTTCAACCAAGAGAAAGAGATTATTCTTATGTTGGAAGTTTTTTTGCTTTTTCTGTTTGGATTGGAATATTTTTAGAATCTTTTTTTGATAAATTATTTAAAGTAATCAAACGGAAAAAAATTTCTAACAATATTTTTTATTTTATCTGCAGTACTTTTTTAGTCATTCCATCAGTTATGTTTTCATCAAATTATTGGTCTCATGATAGGTCTGGTAATTTTGTTGCATGGGATTATTCTTACAATATTTTGCAAACATGTGAACCAAATGCTGTTATTTTTACAAATGGTGATAATGATACATTCCCATTGTGGTATTTACAAGAAGTTGAGGGCATTAGGAAAGATGTTACAGTTGCCAATTTAAGTTTACTTAATACAGAGTGGTACATAAAACAAATTAAGGATCAAAGAACTGGTGATAACAAAATCATCTCATTTTCTGAAAAGCAAATTGATAATCAAGAGCCAATTGGTATTAATCCTGCCACAGGAAATCCTTTATTACTAAAAGTTGATATATGGAAAGATACTCCAATTTCAATACCAGCAATCAATAATGAAAAGAATCTTGAAGGAAAAGTTTCATGGACTCTAAAACCAACTTTAGGAGCAGGTGGAATTAGGGTTCAAGATCTTATGGTTCTTCATATTATACAAGAATCAAAATGGAAAATTCCAATTTATTTTGCTGTTACAGTTTCCCCGAGTAATAGAATTGGTCTTGAAGATTATTTACAAATGGAAGGTTTAGCTTTTAAATTAAATTCTCACAAAGTTTCTTCAGTTAACTTTGAAAAATTAGAAAAGAATTTAATTTCTGATGTGAATGATTTAGAATGGTATGATAAATATAATACGGGATATAAATACAGAAATCTGAATAATGAAAATGTTTATTTGAACCCAAATATTCAAAAATTACTTCAAAATTATCGTTCTGCTTTTTTACAACTTTCTATGTATAAATATGATCAAATTAATTCTTTAACTAATTTCTCTGAAATTGATGAGTTAAAAGGAAATGTAATTAAAATTCTTGATTACATGTCAACAATAATGCCAGAAAATGTTGTTAAAATAGGTTCACCTGAAATGAAACTTCAAATTGCACAGTTATATCATGGAGTTGGAGATTCTCTAGATCAAAATAAAGCTCGTGATATTTTTAGGGAGTTTCATTCATCAAATAGACCTGAGATAATTGGTTTTTTATTACAAACTTATAATGAATTTAATTACAATGATGATGCAATTGAAGTTCTTGAAAAATGGTTATTAAATAATCCAAATGATCAAACTGCAATATCTCTTCTAAATGAATGGAAGAAAAGAGATTAATATAATAACTAATGAATTTCCATTAGTTTCAATTATTATTCCTCATTTTAATGGTGAGGAAATCTTAGTTGAGTGTTTAAAATCCCTAAAAAAATCTAATTATAAAAACTTAGAGATTATTATTGTTGATAATGGTTCAACTGATAATAGTATTGTTATTGCTAGAGAAAAATTTTCTAATATTAAAATTGTTAATAGTAAATATAATATAGGATATGCTGGAGGATGTAATTTAGGTGCTAGAAATGCATCAGGTGATTTTTTATTTTTTTTAAATAATGATACTGTTCAGAAGCCAAATTGTATTTCTGAATTAATTAGTACTTTTATTCAAGATTCTTCAGTTGCTGTAGTCCAACCTAAAATATTAAATTATTTCGATAAGACCAAATTTGATTATGCTGGAGGATGTGGTGGCCATTTAGATATTTTTTGTTTTCCTTTTGTTAAAGGAAGATTATTTCATTTTACTGAAAAAGATTATGGCCAGTATGATGTTGATGATGAAATCTTTTGGGCATCTGGCACAGCTATGATGATAACAAAAAAAGATTTTTTTGATTGTGGAGGATTTGATGAGTTATTTTTTGCTCATCAAGAAGAAATTGATTTGCAATGGAAAGTTCATTTAATGAATAAAAAAATTAAAATAAATCCAAATTCAATTATTTATCACAAAAATGCTATGACTTTATCTTCAGGTTCAGTTAAAAAATATTATCTAAACCATAGAAATTCATTGTTAATGATGTTGACTAATTATTCTTTACCAAATCTTTTTTTTATTTTACCAATTAGGGTATTACTTGAGTTTGTAGCACTATTTTATTCATTAATCTTAATCGATTTGAAGCATTTTATAGCAATTTTAAGATCTTTTATTTGGTTAATTTTAAATCCTATAAAAATTTATAAAAGAAGAAAAAGGTTTACTGAAAATCATAAAAGAAATGATATGAAAATAATTTCAAAAATGTATAGAAAAAGTATTGTTTTTGATTTTTTTATTTTAAGAAAAAGAAATTATTTTGATTTAGATATTGCATCTTGATATTTTTTTAGATTGTCAGGGTCAAAAATTAATAATTTATTAAGTATAATTTTTTTGTATTGAAATTCATCATTTAAATTAATAAAGTCTTCAATGTGTCCTTTAAGAAATATTGTTGTATAGTGTTCTCTTGGAAAACGTTTAAAAGTTTTATTTAAATTATTAATCATTTCTGAAAAAGCTAACTCAGCACCATCATAATCATTTTCTTCTATATACGCCATACCATCATAAAAATTAAATTTAGCAAGTCTTGAGTCTCTATATTTTGTTAATAAATCAATTAATTCAAGTCTGTCAGACCAACCTCTTCTATATTGTGAAGACATTCCTCGCATAGCAATTTCTCTGGATTTTTCATAAAATGAAGTTCCTCCAAATTTTTCATAGGTGTCTAATTCACCAGCAATTATAGTTGAACCATAAAATTCTAAAGCACTAGATAATGGTTCAAAAATTACAGGTGAATAATTTATATTTTGTCCAAAACTATAAGGAAATTGAATTGTCTTTGAAAAATATCTTTGATCTATTCCAGTGTTAAATAACAATTGAGCAGAAAAAAGTCTTTCACTTCCTTTGTCAGCAATACCTTCAAATAGAACTTGTATATCTAAAGGGATTTGAAGATCCTGAATTTCATCACCCCAATTTGTTAAAAGAAAAAAGTTTTTGATTGATTCATTAATATTAGAAGTGATTTGTTTGTCACCTTCTTTTAGTCTTTGATTATCAATTGTTATTTTAACACTCTTGAATTGAGCATTTAAATTGCAAAAATTAAAACAACAGAATAGTATAAAAACTTTTATTAAGATATTTGTTGATTTTTGATTCATATTATTAAAAAACTTTACTTATAATATAATAAATAAAATATTATCGATTTAATCTTCAATTTATTACGTAATTTTCTGATAATTAATAATTCTTAATTTAGAAATATGTCAAATATTAAATCTTTAATTGAAAATAAAAACGATTTTTTTATAATAGATAGTGCAAGAAAACTTTCAAAAAGACTAGATCTTGAAATCTATATTGTTGGTGGATATGTTAGGGATTTATTTACTCAAACAACAAAGGAATCCGACTTAGATTTTATGGTTGTTGGTGATGGAATAAAATTTGCTCAGGAATTTAAAGATTCACTTGGTGGATCAAAATTAGTTAGTTTTTCAAAATTTGGTACAGCCAGATTTATGATAAATAATAAAACTATTGAAGTTGCATCCTCAAGAATTGAAGATTACAAACTAAATTCTCGAAATCCTAAAATTGATAAAACTGATTTATCAACTGATATTTTACGAAGAGATTTCACAATTAACACGCTTGCCGTTTCAGTTAATGATCATGATTTTGGAAATCTATTTGATTTATTTAATGGAATCAAAGATATTAATGATGGTTTGATTAAAACCCCTCTGGACCCTGACAAAACTTTTTCTGATGATCCATTAAGAATTTTGAGAGCAATAAGATTTGCTTCTCAATTAGGATTTGAAATTGATAAAAAAACCAAATTAAGTATTCAATCTAAAGTTGAAAGACTATCCATAGTTTCATCAGAGAGAATTATTTTTGAATTTTTTAAAATTCTTGATTCACCCAAACCTTCCATTGGTTTAGAGCTTTTACAAAAATTATCAGTGATGAAAATAATTTTGCCAGAAATTTCTTCACTTTATGGGATGGAACAAACACCAGAATGGCACCACAAAGATGTTTTTTATCACACTCTTAAAGTTGTAGATAATATTTCAATGAAAACTAACAAAACAAAATTAAGATTTGCAGCATTATTACATGATATAGGTAAGCCTAAAACTAGAAGATTAGATAAAAATAAAGGTTGGACATTCCATGGGCATGATGCTGTTGGTGCGAATATGATTAATTTTTTAAGTAAAAGGTTAAAATTGTCTAAAGAAATGACAGAGTATTTAAAAAAGCTAACTTTGTTGCATTTAAGACCAATTTCATTGGCTAAAAAAGGTGTTTCCGATAGTGCCGTTAGAAGATTGATGGTTGCTGCTGGAGAGGATATTGAAGATCTTATGATACTTTGTAGAGCTGATATAACATCCAAAAATCCTAATTTAGTAAAAAAATATCTTCAAAATTTTGATAAAGTTGAATTAATTATGAATAATGTAAAAGAGAAAGATTCATTTAAAAATTTTCAATCTCCAATAAGGGGAATTCAAATTATGAAAGAATGTAAAATTAATGAAGGAAAGATTGTTGGTTTGATCAAAAAAGATATTGAAAATGCAATTTTAGATGGATTTATTGAAAATAATTATAAATCGTCCTATGATTATTTTTTAAAAATTAAAGAAAAATATATAAAATAAATGAGAGGAACTTTATAACTTGTAGATAGTATATATATTATTCAGGGAAAAAATGTTAAAAATTTTATTTATTTTCTTATTCTTTTCAATCTCTTTTGCCCAAGAAGTTTTTTCTCTTGAAGATTGTATTAAATTAGGTATTGAAAAAAATCCAAACTTAAAAATATCAAGACTTAATCTTATTAATGCAAAACAAGATAAAAAAAATAGTTTTTCATCAATTTTACCCCAAATAGGTGTTTCTTTCAATAATAATCAACAAGGGTCTTATACTAGCTATCAATATGGTATAAGAGTACCAGAATCAACATATTTTTCAAATTCAATTTATTTAAATCAAAAAATTTATGATGGTGGAAACTGGTGGAATCAAATTTCATTATATGATAAACTTTATAATCAAAGTTATCAAAATACGGAATCCATTAAAAATTTAGTTGTATTAAATATTAAAAAGGCTTTCTTTGAATATTTGAAGAATAAAGAACTTTATGAAGTTTCAAAAAAACAACTAGAATTATCAGAACAACAACTTGAAAGAGTTCAACGTCAATTTGAAGTGGAGGCTGTCGCAAAAACTGATTTATTAAAACAACAAGTTTTATTAGGGCAAGTGAAGGTTCAACTACTAAATCAAAATGCTTCATTATTAAATTCTAGAAAAATTTTAGCACAGACAATTGGTTTTGATAGTAATAAAGAATTTGATGTTATTGATGAAAATCCAAAAAGTAATATAATTGAAGAAACAAAAGAACAACTATGGGATTTTGTTCTAAAAAAAAATCCTGATATAATTCAAAAGAAAAATCAAATAATAATTTCCAAAATTCAAGTAAAAATAGCTAAATCACAATTTTATCCATCAATATCTGCAAATATGGGTTATGGAGGTTCAGCAGATGAATTTGATTTACTTTATTCAGATGTAGATAAATATTGGCAGGGGAATATGGGAATTTCAATTAATTTACCTATTTTTTCTGGAAGACAAAGATCAGTACAAGTTCAAAAATCCAAAATTAATTTAGATATTAGTAATGTAGACTTTGAAAGATATTTATCTCAAACTAAAACAATTTATGAAAATTATTATCAATTATGGTCTAATATTAATCAAACCATTCCTATCTTTATGGAAACAAAAATATCAGCTGAGGAAGATCTTAGATTAGTTCAAGAAAGATATAATTTAGGTGCAGCTACAATTCTTGATTTATTAAATGCTCAAGTTTCATTAATAAGTGCAAATAGTTCATTAGTGAGATCAAATTATGATGAAAAAATTCTTAGAGCTGAGCTTAATGCTTTGGCAAATAGAAATTAATTAAAGGAATATATGGCAAAAAAAAATAGAAGAAGATTAATTATAATTGGCTTAATAATAATACTAATAATCGGTGGTTTTATTTATCGAAACTCTTCAAAAGAAGATAAGCCAATAGAAGTGTTTGTTATTCCAATTGAAGCAAAAACAATTGTTCAAAAAATTTCTGCATCTGGAACAATTCAACCAGAAAAATCTATTGATATTAGTGCAAATATTAGTGCTCTTATAATGAGAATATTTGTAGATGATGGAGATTCAGTAATGATGGGACAAAATTTAATTTCTTTAGATAAAACCAGGTATGAGGCTTTTGCTGAGCAAGCTGCATCTAGATTAAGATCAGCAGAAGCAAATTTAGAAAAAACGAAGTCATTAAAAGACAGAGAAGAAAAACTATTTGACCAGCAACTGATCTCCAGTCAAGCATTAGAAAGTACTAGGGCATCATACGAATCAGCAGAAAGCGAGGTTTTTTCTGCTAAAGCTGCTTTAAGATCTGCTTTAGATGAAGTTTCTAAAACATCTTTACTAGCTCCCAATAGTGGTATTGTTACAATAGTTAGAAAAGAAGAGGGTGAAATGGCATTGGGTTCAACATACTCAGCTGATGTCATAATGAGCATTGCCGATTTATCTAAAATGCAAGTAAATGTAAATGTAAATGAAAATGATATTGTAAGTATATCAGAAGGAGATACTGCTGAAATTGAAATTGATGCATATCAAGATAAAATATTTTATGGTATTGTTACAGAAATAGCTCATATATCACTTACAAATAATGCAGGTACTCAAAATCAGGTTACAAATTATCCTGTGAAAGTCAAAATTTTGAATGTACCAGATGGAATAAGGCCAGGAATGAGTGCAACAGCAAATATTATTACACATGTAAGTAAGGATGCCATTTCTATACCAATTCAAAGTTTAACTGCTAGATCATCAAATTTTAGAAGAGAAGAAGGTCAAAAAGATTTTAAGGAAAAAGAATTTGACAAAAAAAGTTTTGGGAAAAATGATTTTGAAAATGTTGTTTTTATTTTAACTGATAAAGACAATAAAAATATAACCAATAAGAATTTTAAAACATTTGATGAAAATCATGAATTCTCAATAAGAAAAATACCATTAGAAGTTGGCATTTTTTCAGATACTGATTATGAAGTAAAAACTGGTGTAAAGATTGGTCAGATGATAATAACTGGTCCTTATTCTGCAATTAGTCAAGAACTTGAAGATGAAAAACTTGTTACTGTAATTCAAGATAAACCAAAAAAATATATGAAATCTGATGAAAAAGAATTTGAATGGGATTTTTAGATTTTTAAAATGAGTTTTATTATTTCATTAAAAGCCATTGAAAGATTTTATGATGTAGGTGGCGAGGTTGTAAGAGCTTTAGATGGATTAGATTTAAATATAAGTGCTAATGAATATATATCTATTATGGGACCCTCTGGTTCAGGAAAATCTACCTTAATGAATATGATTGGATGTTTAGATACTCCAACAAATGGTACCTATGAATTTGAAAATGAATATGTCCACGAAATGGATGAAGGTCAACTTGCATCTATAAGAAATAGAAAAATTGGATTTGTTTTTCAAACTTTTAATTTGCTTCCAAAATCATCTGCGTTGCGAAATGTTGAGGTTCCACTTATTTATGCAAACATCTCAAAAAAAGAAAGAATTGATAGAGCAAAAGAATCTTTGATTGATGTTGGATTAGAGGATAGAATGCATCATAAACCAAATGAATTATCAGGAGGTCAACGACAAAGAGTTGCAATTGCGAGGGCATTAGTAAATAAACCATCTATAATTTTAGCAGATGAGCCAACAGGAAATTTAGATTCAAAAAGTGGAGTGGAAATTTTAAATATTTTTAATCAACTTCATGATAAAGGGAATACTATTATTTTGGTCACACATGAAGAAGAAGTTGCAAAAAATGCAAAAAGAATGATTTTAATTCTTGATGGAAAAGTTAAATCAGATATAAAAAATTAAATAAGAGGTTTTAAAGATTATGTCTTCAATTTGGCAAAATATTCTTATTTCACTCACGTCAATCTCAAATAATAAGTTCAGGGCATTTTTATCTGTTTTAGGAATAGTAATCGGAGTGTTATCTGTTACATTAATGGGAACAATGATTTCCGGACTCGATCAAACTTTTGAAAAAAGTATGGCTAATTTTAGAAGTGATGTACTTATGATAAGTCGGTTTCAGTGGTTTGATGGAGATAAGGAATGGTGGCAAATGAGAAATCGACCAAGGATGAAACCAGAATATGTTGATAATTTGAGAAATAGATCTACTATGATTGATGCAATTGCGCCTGTTATGGAAAGGAGTGGTGAAATTTCAAGAAACAATGTTGAAACATATGCAAGGTTTTTTGGTACAACTCCAGAATATTTAAAAACTAATGAAGAACAAAAAATTGAATCAGGAAGATTTTTTTCAAATATTGAAAATGAAAATGGTGCAAGAGTTGTTGTAATTGGGAATGGTATTGCTACAGGTCTCTTTGAAAATGAAAACCCAGTGAATAAGTATGTTAAGATTGGAAGAAATAAATATTTAGTTATTGGAGTTATTGAAAAACAAGGAAGTTTTATGGGTATGTGGAGTTTAGACAATCAGGCTATAATTCCTTTTGGAACTTATCAAAGAAATTTCGCTAAACGTGGTTGGATGAATCTGAGAGTTAAAACAAATTCTGAAGATATCAATCTAGCAAAAGAAGAAATCACAGCTCAAATGAGAATAATCAGGAAATTAAAACCTTTGGAAGAGAATAATTTTGGAATAAATCATTCTTCAGGTTTTGAAGCTCAGTATAATGCAATCAAATTTACAATTGCTGGTGTAGGTTTTTTTATTACTGCTTTATCTTTAATTGTTGGTGGAATTGGTATAATGAATATAATGTTTGTTAGTGTAAAAGAAAGAACTAGAGAGATTGGTATTCGAAAAGCTCTTGGTGCTACTCCATTTAATATTATGGTCCAATTTTTAACCGAATCAATTATAATATGTTTAATGGGTGGTGTTTTAGCTATTGGTATTTCATTTATTATAAGTGATATAATAAATGACTTCTTCCCTTCAACGATGCCAATTAAGCTAGCATTGTTTTCAATTTTGATAAGTGTTTTAATTGGAGTTATATCTGGATTTATTCCATCTTCTCGTGCATCAAAATTAGATCCAATTGAAGCTTTAAGATATGAATAAAAACAAAAAAAAATCACATTTAAAAAATACAATTAAAGAAAGCTTTAGAATGTCACTTGAGGCAATTAAAGATAATAAGCTTAGATCTATTTTAACATTAATTGGTATTGCAATCGGAGTTTTTTCTGTAGTTGGCGTTATGACTGCCATTAAAACATTAGAAAATCATGTGAATTCTCAATTAGATATTCTAGGAAGCAATAAATTTTATGTTATGAAAGAACCTGCATTATCATTTCAACGTAGCAAAGAATATTGGAAAAGAAAAAATATAACTTATCAAGATTATTTAGATCTTGAAAAACTAGCTAAAACACCTCATAGCATGAGTGCTGAAATGGCAACATATGAAGATGATATTAGTTATAAAGACAAAGAATTAACAAAAGAAATAAAAATTTATGGGGCAACATTTTGGTCTGTTAGGCATCATCAATTTTTAATTGATTATGGTAGGTCAATAACAGATGATGATATAAGATTTAATAGAAAAGTAGTTATTCTAGGTCCCGATATAGTAGATATTTTATTTCCTTATGAATATCCTATTGGTAAAAAGATTAAAATAGAGGGTATTGAACATTTAGTTATTGGAGTTACAGGTAAAAAAGGTGAGATGTTTGGTGAAAATCAAGATTATATGGCTTTAATTCCTGCATCAACATTTACTCAATATTATTGGGATGAAGATGAATCAAATGTAGAAATAGTACTTGAATCAAAATCACAAGAAGAATTAAGAAAAACTATGGATGAAATAATTGGACATTTTCGAGTTATTAGGAAACTTAAACCAAGTGAAAAAAATAATTTTGAAATTGTGAATAATAAAGAACTTGCCAACCAAATTGATGGTTTTACAGGGGGTATAAAATTATTTGCTGGTGCAGTAAGTGTTATTGCACTTTTAGTTGCAGGAATTGGAATAATGAATATCATGTTGGTTTCTGTAAGTGATAGAATTAAAGAAATTGGTATTAGAAAAGCTATAGGTGCAAATCGTATTGATATTTTAATCCAATTTTTAATGGAAGCATTTTTTTTATGTCAATTTGGTGGAATTATAGGAATAGTTTTGGGCATATTACTTGGCAATTTAATTGGGATTGCTTTGAATGTATCTCCTGTAATTCCTATAGATTGGGCATTTTATGGTTTATTCATATGTTCATCTATTGGAATAGGTTTTGGAATTTATCCAGCATGGCATGCTGCAAATCTTGATCCGATTGATTCTTTAAGATATGACAAATAGATATCTTGATTGAACAAAAGTGTGGTTTTAAATTATGATAATTTTTAAAATAAAATTTTACTTATGACAAAACAAAAAAATGTATCTAGGGATGAAGTTATTAGGATCGCAAAATTATCAAAACTTCATTTAAATGAAGAACAAATTATTAAATATACTCATGACATCAATCAGATTTTGACTTATATGGAACAGTTAAATGAAGTAAATATTATAGATGTTGAACCATTAAGCCACGTCTTAGATCAGTCAAACATTGTAAGAGAAGATATTGTATCTGAATCATTAGATACAGAGCAAATTCTTGAAAATGCTCCTCAATCTTCAGGAAAGCATTTTGTTGTACCAAAAGTTATAGAAAAATAATAATGGATGATAAAAGTGGTTATAATTTTGTTGGAGTAATCCCAGCAAGGTACCACTCAACTAGATTTCCGGGTAAAGTTTTGGAGCCTATTGATGGTTTGCCAATGGTTGTAAAAGTTTACAATCAAGTTTTAAAATCAAGATTAAAAAATATAATTGTTGCAGTCGATAATAAATTAGTAGAAAAAAAATTAAATGATCTTAATATTCCGAATATTATGACATCTAATAAACTAAACTCAGGAACTGAAAGGGTCGCTGAGGTTGCTACAAAAATTGATGGTGAAATTTTTATTAACATTCAAGGAGACGAGCCGTTCATTGATCCATCAATAATAAATTTGTTAATAAATTTATTTAATGAAGTTAAATCAATTAAAATGGGAACTATTGCTTCTACTAAATTATCAAAAAATGAGCTTGATGATATTAATATTGTTAAGGTTTTAATCGATAAAGATAAAAAAGCAATTAAGTTTTTTAGAAAAAAACCTGAAATTAATTATCATGAAAAAGTGTATAAGCATTTAGGTATTTATGGGTTTACAAAAGAATTTTTAATAAAGTTTTCAACAATGAGTCCTACTATAGGAGAAAAAAAATTAAAACTTGAGCAATTAAGAGCTTTAGAAAATAATATTCCAATTAATATCGAATTAACTAATTTAGATTCTCTAGGAGTAAATACTCCTTCGGATTTATTAAAATTAAAGGAAAATTTCAAAATTGAATAATAAAAAACAAACAAAATTCATATTCGTTCTTGGTGGGGTAATTTCAGGTTTAGGAAAAGGAATTGCATCTGCATCGATTGGTTATTTGCTAAAAGGAAAAGGTTTAAATGTCACTATAATGAAATTAGACCCTTACTTGAATTTAGACCCAGGTACAATGAATCCTTATCAGCATGGAGAAGTTTTTGTTTTAGATGATGGTTCAGAAACTGATTTAGATCTAGGACATTATGAAAGATTTATTGATTCAAATATGACAAAAAACAATAATACAACAACTGGACAAATATATGAATCTGTATTAGAAAAAGAAAGAAGAGGTGATTATTTAGGTCAAACAATTCAAGTTATACCTCATATTACAAATGAAATTAAAAGTAAAGTATATTCAATTAATCAATCAAATGAATTTGATGTAGTTATAGTTGAAGTTGGTGGAACTGTTGGAGATATTGAAAGTTTACCATTTTTAGAAACCATTAGACAAATCAGATTAGAACAAGGTAGAGATAATGTATTTATATCTCATGTAACATTACTACCATATGTTGATGCAAGTGAAGAGTTAAAAACAAAACCTACTCAACATAGTGTAATGAAATTAAGGGAAATAGGATTAGAGCCCGATATGATTTTTTGTAGAACTTCAAATGAAATTTCAAAATCTGTCAAAGAAAAAATATCATTATTTTGTAGCGTTTCACCTTCACATGTTATTGAAGCAAGTGATGTTAAAAGCATATACGAAGTACCACTTTTATTTCATAAACAAAATGTTGAGGAGCTAATTTTAAGTCACTTAAAATTTAAAAAAATTAAATCAAATATTAATAAATTAGAAAAATTTATTGATAGATTTAAAAATCCTGTAAATTCTGTTGAGATCGCTTTATGTGGAAAATATACAGAGCTACCAGATGCATATAAAAGTGTGTTGGAAGCATTTATCCATTCAGGAGTTGAAAACAATGCAAAAGTTGAAATTAAATGGGTTAAGGCAGAAAATCTTGGATCAGAAGATTCTGTTTCAGAACAATTTAATAATGTTCATGGAATTATGGTTTTACCAGGATTTGGTGATAGAGGAATAAAAGGTAAAATTGAAGCAGCAAAATTTGCTAGAGAATTTAAAATACCTTATTTTGGTATATGTTTAGGTTTGCAAATAGCAGTAATTGAATTTGCAAAGAATGTTTGTGGTATTCAAAATGCATCAAGTTCTGAATTTGAGGATACTGAAAGTTCTATAATAGATTTAATGTTAAATCAAAAAAATATAAATAAAAAAGGTGCAACAATGAGACTTGGTGCTTATGATTGTAATTTAAAAATAAATTCATTGGCTTTTAAAGCATACAATAGTCAACAAATTTTAGAAAGGCATAGACACAGATATGAAGTTAATAATGACTATAGAAAAGTTTTGGAATCTAACGGGATGATTTTTAGCGGCATTAATAAAAAACTTAATTTAGTTGAAATTATTGAATTAGAAAATCATCCTTGGTTTTTAGGTTGCCAATTTCATCCAGAATTAAAAAGCAGGGTTAATAAGGCTCACCCTTTATTTAGAGAATTTATTAAATCTTCAATAATTTATAAAAACAGTAATGTTAAATAAAATTAATTTTAATAATAATTCATTGCCAATAATAGCAGGTCCATGTGTTATTGAGTCAAAAGATCATGTTTTTAAAATGGCTGAGAATTTAAAAAAAATCTTTTTTAAGCTTGATGTCCCTTTTATTTTTAAATCTTCTTTTGATAAAGCAAATAGATCCTCAATTGATTCATTTAGAGGACCTGGTTTGGAAGAAGGGTTAAAAATTCTTGATGAATTAAAAAAAGAATTTGATATACCTATATTAACAGATATTCATTCTTCAAATCAAGCAAAAACCCTTGGAGAAATAGTTGATATCATTCAAATACCTGCTTTTTTATGTAGACAAACTGATCTTTTAGTCGAAGCATCAAAAACAAAAAAAATTGTTAATGTAAAAAAGGGTCAGTTTTTATCACCAAAAAATATCGATAATATAATAAACAAAATTCAATCTACTGGGAATAATAAAATTTTAATAACTGAAAGAGGAACTTCTTTTGGTTATAATAATTTAGTTGTTGATATGCGATCAATTCCAATTATGCAATCAAAAGGCTTCCCTGTTATATTTGATGCATCACATAGTGTGCAATTACCTTCTTCACATGGAGATTATTCAGGTGGTGATAGAAAAATGATTCCAATTTTAGCTAAAGCTGCTGTTGCATCTGGATGTGATGGAATATTTTTAGAAGTTCATGATAATCCTAATTCTGCTATGAGTGATTCTTCAACTCAATTTCCATTAAAAGATTTAGAAAGTTTAATTCTATCTCTACAAAAAATAAAAAGTGCTTTATAAATGATTAATAAAATTAAATTGATAATTACTGATGTTGATGGTGTTTTGACGGATGGTTCGTTATATATAGGAAAAGATGGAATTGAATATAAAAAGTTTAGTGTTTTAGATGGAGCAGCAGTTAAATACGCTAAATTTGCGAAAATTGAAATTGCTGTAATCTCTGGAAGATATTCTGATGCAACAACTTCAAGAATGAAAGAATTAGGTTTGAATAAATTATGTTTTCAAGATGCTTTAAATAAAATTAAACCTTATGAAGAAATAAGAAAAAAATTAGATCTTGATCATGATGAAATAGCATATATTGGAGATGATTTAATAGATATTCCAGTTCTTGAAAAAGTGGGTTTGCCAATCTGTTCAAATGATGCACATGAATATGTAAAAAAAATCTCGAAATTTTGTACTGAATCAAAAGGAGGAGATGGTGTTTTTAGAGAAGTAGTTGAGTATATATTAAAAGGTCAAGGAAGATTTGAAGAAACTTTAAATTCTATCAAAGAACACATATATAAAAAATGAGTAAATCAAAAAATATTAAAATTGGTAAAAATGTAATTCAAATTGAAGCTGAGGCTTTATTGAGAATTAAAGAAAAGGTAGATAATGATTTTAATAAAGCAGTAGATCTTTGTTATGAAACAAAGGGGAAAATAGTTGTGATTGGTATGGGTAAATCTGGAATTGTAGGACAAAAAATAACTGCAACTTTAGCTAGCACAGGGACACAGTCTCAATTTATTCATCCAGGAGAGGCTCTTCATGGTGATATTGGAATGGTGTCCAATAATGATACGATAATTACAATTTCAAAAAGCGGTGAAACATATGAAATTATTCAATTAATACCAGTTTTAAAAAAAATGGGGATACCTATTATTTCTTTGGTTGGTAAAATTGATTCAACCATAAGTAAGAACTCAGATATTGTTCTTGATGTAAGTGTTGATAGAGAAGCATGTACTTTAGAATTGGCACCTACCGCAAGCACAACTGCTTCATTAGCAATGGGAGATGCATTAGCAATCACACTCTTAGAAAAAAGAAACTTTAACCCAAATGATTTTGCTAAACTTCATCCTGCAGGGTCACTTGGAAAAAAACTTTTATTAACAGTTGATCAAATAATGCATTCAGGTAATGAGTTACCAATTGTTAAAAAAACTTCAAAAATTAGTTCTATGTTATTATTGATTAGTGAAAAAAGATTAGGCTTGGCTATAGTTGTTGATGAAAAAAATAATTTATGTGGAATAATAACTGATGGTGATATAAGAAGAGGATTTGAAAAAAATAAAAATTTATATAATAAAACAGCAGAATTTTTAATTTCATCAAAAAAACCAAATTGGGTTGCTTCAAATACTTTAGCAATTGATGCTTTAAGGTTAATGGAAAAATTTTCAATTACTTCATTGTTAGTTTATGAAAAAGATTTTGATAATTCAGTTCCTCAAGGTTTGATTCATATTCATGATTTGATTAAGACTGGAATTGGATGAAATTTTACATAAAATTGTTTATTGTTATATGGTTTTTATCTTGCACTACTAATGAAAAAGAAAATGATTTTTTTCAAGAAGATATTTCCGATCAAAAGAGTTGGAATCCTACTATTATTTTAACTAGAGATGGAATTAAAAGATCTGTAATTAGATCTGAAAAAATGTATCAATCAGAAAAAAAAAATGAAATTATACTAGAATTAGGAATTGATGCAGATTTGTTTTCAAAAGATCAGGTTCATATGTCGAATTTAAAATCAAATAAAGCCATAATATTTGAAAAATCTGATAATTTATTAGCAATTGGAAATGTTAGAGTTTTTTCAGATAGTGGAATTACTCTATATACTGATTCTTTATTATGGAATAATAAAAGTGAGAGAATCTTTTCGAATGATTCTGTAATGCTAACAACAAATTTTAATGATACTTTGTATGGGATAGGATTTGAGTCAAATGCAGACCTAACTCATTGGAAAATTAAAAAACCATGGGGAGTTTCATCTGAAAATTAATTAAAATGGAAAATAATATTACATTAAAGTCAATAAATCTTGAAAAAAAATATGGTAAAAAAACTGTTGTTAAAAATGTTTCTCTTGAATTAAATAAAGGAGAGGTGGTAGGTTTATTAGGACCTAATGGAGCAGGTAAAACTACTTCTTTTTATATGATAACTGGAATGATTAGTCCCACAAAAGGGTCTGTTTATCTTGGTGATAAAAATATTACAAATTTTCCTATGTATAAAAGAGCAAGATTAGGAATAGGTTATTTATCTCAAGAGCCATCAATTTTTACTAAACTTTCAGTTGAAGAAAATATAAAATTAGTTTTAGAAATGACTAACTTATCAAAGAAAGAAAGAAGTAATCGTTTAGAAAATCTTTTAGATGATTTGTCAATTAACAATATTAGAAAAAATATTGGCTATCAGCTTTCTGGAGGTGAAAGAAGACGTACTGAAATTTGTAGAGCTTTGGTAATGAAGCCAAACTTTATTTTGTTAGATGAACCATTTGCTGGTATTGATCCTATTGCAGTTGAAGAAATACAAAGTATTATTAATGATTTAAAACAAAAAGATATTGGAGTATTAATTACAGATCATAGTGTAAGAGAGACATTGTCTATAACAGATAGAGCATATCTGTTATATGATGGTAAAATTTTAAAGGATGGTTCCGCTAAATATTTAGCAGAAGATCAACAAACAAGAAATTTATATCTGGGTTCAAAATTTAAATTAAATTAATGTCAAGATTAGTCCAAATACAAGAGCAAAAACAAAAATTATCACCTCAACAAGTTGTGTTTACAACATTGTTGGAGTTAAATGTAAATGATTTAGAAAAGAAAATCGTTAAAGAGTTAGAAGAAAATCCTGTTCTTGAGTTAGTGGATTTAGATTCTAACCAAGATTTAGAAAATGAAGATAAAGAAATTGAGGAGAAGGATTGGGATGAAATGAGTGGTTCTGATGAGGAATCTCCTAAATTTAATTCAAATAAAAATCATTCTGACTTTATTGCTTCTCAAAAAGAAAAAAATACTTTCACTGAAAATTTAATTGTACAATTAGGACAATTAAATCTTCCGTATAATGAAACAAAAATCGCAGAAACATTAATATGGAATATTAATGATGAAGGGTATTTGTTAGCTGATTTAGAATTAATTGCAGATAGATTAGATGTTGAAATTTTTAAGGTTGAAAAAATATTAAAAATTATTCAAAGTTTTGAACCTTTTGGTGTAGGTTCTAGAACTTTGCAAGAGTGTTTAGAAATTCAAATTAATAAAAAAAATAATAACTTTTTATCAAAGGAAATAATTGAGAATCACTTTGATGATTTCTCAAATAAAAGGTTTAATAAAATTCAAAAAAATTTAAAATGTTCTAATCAACAATTGAAAGAGGCTATTGATATAATTTCAACACTTAATCCAAAACCAGGTGATGGTGCACAGAATAATTCAAATTTTGCAATTCCTGATTTATTGATTGATGATGTTGATGGGAAATTAGTTGTTTCCCTAAATGATGGAAATTTTCCTGAGATAAAAATATCCCCAGTTTATAAAGAAATGTTTTTTTCGAAAAATAACAAAGAAAAAAAATTAGAGAAATTCCTTAGAGATAAAATTCAATCTGCTAATTGGTTGATTGAAGCAATTCAAAAAAGGGAAGTAACAATCATGAAGGTGATGTCCGCTATAATAAAAATGCAATCTGATTTTTTTAAAGGAAAAATAACAAATATTAAACCTTTGATATTAAAAAATATTGCAGATGAAATTAATATGGATATTTCTACTATTAGCAGAGTGACTAATGGTAAATTTGTTCAAACACCATGGGGAGTTTATGAATTAAAATATTTTTTTTCTGATAAAATAACAAATAATTTTGGAGAAAAAGTTTCAACAAAAAATATTAAATTATTAATAGAACAAATTATTAAGAATGAAGATAAAAAGAATCCATTTTCAGATGAAATTATTTCAAAGTTAGTTTATAAAGAAGGTTTCAATATTGCTAGAAGAACAATTTCAAAGTACAGAGAAGAATTAAAAATTCCAGTAGCACGATTAAGAAGAATGTTGGTTAATAAATAAATTAGGAGAAGTTAAATGGCTAGAAAAATTCAAGTTGGTGATCAAGAATATACTATCCCAAATTTTAATTATGGTGGTTTCATAATAGCTATTGTGTTTTTAGTTATTTGGGGAGCAATGAGCTCATTTTATGTGGTTGGTCCAGATGAGGAAGGAGTTGTTAGAAGATTTGGTAAATGGGTCAGAACTGAAGAAAGTGGTTTAAATTTTAAATTTCCTTACCCAATCGAACAAGTTGATCTACCTAAAGTAACTCAAGTCAAAGAAATTTCTGTTGGAAGTATTATTCAAGAAGCAAAAATGTTAACAGGAGATGAGAATATTTTACTTGTTGAAGTTAAAGTGCAATATAAAATTAAAAATGCTAGAGATTATTTATTTAATTTGAGGAATGTAGAAGAAACTATTAAAGATGCTACTGAATCTGCATTAAGACAAATAATTGGTTCTCATCCAATTGATGATCCATTGACCGAAAAAAAAGCTGAAATAGCAGATGAAATTCAAGTTTTGCTTCAAAGGATGTTAGACAATTATAAATGTGGAATTGATGTTCGTCAAGTTCAACTTCAAGATGTAAATCCTCCTAAAGAGGTAGATTTTGCATTTAAAGATGTTCAAAGTGCTAAAGAAGAAAAAGAGCAGAAAATTAATCAAGCTCTTGGATATCAAAATGATATCATTCCTAAAGCTAGAGGTGAAGCAGAGCAACAAATTAGAATTGCGGAAGCTTATCGTGAAGAAAGAATAACTAGAGCACAGGGAGATGTTTCTAGATTTCTATCCGTTTTGAAGGAGTATAGAAAAGCAAAAGATGTTACAGAGACTAGATTATATCTTGAAACAATGGAAGATATTTTACCAAAAGTTGAAAAAATAATTATTGATGATGAAGTAAACAACATGATTAATTTATTGCCTTTAGGTAAAATTGATCAAAAGGAGATGAAGTAAATGAGAAGTTTAATATTTATTGTTTTAATTTTATTTGGTATTGGGTTTTTCATTTCTGCATATACAATTGATGAAACTGAACAAGGTATAATTCTTGAATTTGGAAGACCTGTTGGGAGTTCAATTACTAAACCAGGTTTACATTTTAAATTTCCGTGGAGACAATTAGTCAAATTAGAAAAAAGAATATTAGAATATGATGTTGAGGCTAGAGAAATTCTTTCTTTAGATAAAAGAAGAATTGTGGTCGATAATTATGCAAGATGGAAAATTTCAGACCCCCTTCAATTTTATAAATCAGTAAGAACTATCAATGGTGGTTTAAATAGAATTGATCCTATAATATATTCAGAACTTAGAGTTGAACTAGGAAAACATAATCTTACTGAAATTGTTGACAATAGAAGAGAATCTATAATGGAAATTGTTACAAATCAGGCAAGGAGCAAATTAAAAGAGTATGGAATTGATCTTGTCGATGTGAGAATAAAAAGAGCTGATTTATCAGTAGAAAATGAAAAAGCTGTTTATGATAGAATGATAGCAGAGAGAGAAAGACAAGCTAAACAGTTTAGGTCCGAAGGGGAAGAGGAAGCTCTTAAAATTCGAGCTGAGACTGATAAAGATAAAGCAATTATATTAGCAAATGCTTTTAAAATTTCCCAAGAAATAAGTGGAGAAGGTGATGCGCAAGCACTTGAAATTTATGCCTCTGGTTATAAATCAGATCCGGAATTTTACAATTTTACTAGAACTTTAGAAAGTTATAAAAAAATTATTGATACTGATTCAAAATTAATTTTAACAACTGATTCAGATTTTCTAAAATTACTAAAACAAAAATAATGATTTAGATTTTGGATAAACAAATTGACTAGAAATCTTGTAAATATATCAGATTTTTCAAAAGTAGAAATCAATGAGATATTAAATATTGCATCTCAACTCAAGAATGAAGTTAAAAATAATATTAAACATCATCATCTTGAAAATAAAACATTAATTATGTTATTTGAAAAACCATCAGCAAGGACAAGAATTTCCTTTGAAACAGGTATGTGTCAATTAGGAGGTAACGCAATTTTCCTTGGTCCAAATGATCTAGCATTAGGTAAAAGAGAATCAATAGAAGATTTAGCTAGGGTTTTATCAAGATATAATGATATTATCATGGCTAGGGTTTTTGATCATGATCATATTGTAAAGCTTGCTAAATTTTCAACTGTACCAGTAATTAATGGTTTAACAAATTATAATCATCCTTGTCAAATATTATCAGATGGTTTTACTATTTTAGAGAAATTTGGAAATATAGAAAATATAAAAATATCTTTTATTGGTGATGGTAATAATGTATTTCATTCCTGGCTTTACATGGGTCAAAGATTTCCATTAAATATAAATATTGCATGTCCAAAAGGATATGAACCTAATAAAAATTTGGTAAAAAAGACTAAAGAAATCGGAATTAGTACTGTAAAAATATCAAATGACCCATATGAAATCATAACAGATTCTGATATAGTATATACTGATGTTTGGGCTAGTATGGGGCAGGAAAAAGAATCAATGATTAGAACAAATAAATTTTCACCTTTTCAAGTAAATGAAAGGTTAATGAAAGCAGCAGGTTCAAATTCACATTTTTTTCATTGTTTACCAGCTCACAGAGGAAAAGAGGTTACTGATGAAATTATTGATGGTAAAAAATCTGTTGTTTTTGATCAAGCAGAAAACAGATTACATGTTCAGAAAGCAATAATGGTATTTTTAATGAAATGAAAAATTGTTTTTTCATTTTTATAATTTTTCTACAAACCAATTTTTTATTATCTCAAAATTTTACTAAAGATCAATATCAAGCTGAATTAAAATTATTTTTAAATAAAGTAAAAGAAGCTGAAAATTCATTTAAAGATATTGATAAAGAATTAAATAAAAGATTTTCTTCAGAAAACCAAAAATCTCTCTACTATTTAGTTATAATTGAAGATTTTAATCAATTAAAAAAATTAGTAATTGATTTATCATCATCATCAAAAAATTTAGAAAATTATGTAATTAATTATAGGAAATCATTTGGTGTTGCTAAAGCAAAAAAAGATAATATTTCAGCTGATGATGAAATTTTCAAAAAAATTGAAAAACAATTTAATTTAATTAATGATTTATTTAAATCTGAAAATGAAAACTTAACTAAAATTAAAAATTTAGATGAGTTAATTAGTGAAAAGTTTAGTGAAGTTGATGAAATAAAAGAGTTGACCAAAAAGTTAGAAAGAGAAGTTATTTCGTTTAAAAGAGATATTGAAAAGTCTAGAGTTGAATCAAAAAAGACTGTTGATGATTATAACAAATCATCTTCTTGGTTAATTAATTTTCCAATTTATGCAGATGGTTTAGTAATTCGTGATGAATTAATTGGTTTTCAAGAAAATATAATTGAATTAAAAATAAAATTAGAAGAAAATGAAAATGATTTGAGAGGATTATTTTCAGGTATATCTAAAAACAATATTAAGGATCCATATGAATATTATCAAAAATTAAAAAAAAATCAGTCTGATATAATATTACAACTTAGAAACGATTTACAAGAAATTCCTAATAAAAGATTTTCTTTACAGCAGTTTCAAAACGATTTTGAAGTTTTTAACAAAGATGTTTTATCATCAAGAACAGAATTAGAGAAATTTATGAGACCTACATTTAGAAATATAGATCAAATTTCTTCAAATGTTGAATTAGTTATTAAAAATTTTGATGATATTTTAATCGATTTTGAAAATTTTCCTATTGTCATTATTGCTAAAACAATAAATGATTCTATAGCAATCATGAATAAAAATTTGATTTTAACTAAAGATTCCCTTAGAACTAATTTAAAAAAATATGAAAGATTTTTATCTGGAAAATATTTTCCAAAAGATAATGTAACTCATTTTCAGATTTTTGATTTAATTAATAATTCTGTAAATAAATTAAAAAATCAATCTGAGATACAATTTATTGAAATCAACTCTAGTATTGAGAGTTTGATTGACGTATCGAAATTAATTGAAGAGTTTAAAAATGAAATTGTTTTAATGGATGAAAAAATATTATCGCTAAAAGATAATATTATAATTAACAAAGAGATTTTTAATATAGATAGCATTAGATATAATTCACTTATTAATAAAATGCCTATAGATTTTTCTACAGAGGTTTTTCCATATTTAGAATTGAAAAGTTCATTTAATAAAATGGAAAAAAAAATATTTCTAATTGATTCAAAGTATGATTCTTTAAATTTTTTTAAAAAATCATTTATTGAACATGTTGCAACAATGAAAGGTATAAGAAATGAAAAAGAAAAATATGATATATTTAAAAATTTTGTAACTGACTTTAAAACTGTTAACAAATCAAGTTCTGAGGGATTAGTTAAATTTCAAGAATTAAATATAAATTTTAAAAATAATGTTAAAGAAAACTTTAAAAATACAGTTGAATTTTGGTCCATCGTTTACAAAACAAATGATTCAAATGAGACAAATTTTAGTGAAAATTTTGGTTATTTAATTGATTTAAATAGATTTCCTATTCCACAATATCATGGACAATTAATTTCAGATTACCAAATTAAATTAATAAGAAATAAAAAAAAATATATAATTAATTTTTTAACATCTTCAGATTTTCCAATCAAAGGTTTTCAAATTTTATCATCAAAAAATGAAGTTTTGATTGAAAATATTTTTGAGCAATGGGAAGAAATAGAATTAGATAATATTAAATATTTTTCTTGTTCTGTCGATGTTTCAATTAATTCACTTGATTCATTGATTCAATCTGAAGATCATATTTTAAAAATATTATTTACTTCAATGCAAAATAAAATTAATCTAACAATGTATGAAACTAAAATTTATAAAAAATATAAAATTCCAGAAAAAAGATTAGATGTTTGGTCAAATCAATTAAACATTAAGTAATTTATTAATATTACAATCATCTTCCTTTATAATCTTTCCAACTAACTTCATTAGTTCTGTATTCAATTGTGGAATTTATTTGTTTATCAACAATCACATGATAGTTTCCTGTTTGACCTGGTCTTAAGGAAGCATCACTAATAACACCAGTTTCAAATCTTGTTGTGCTTCCATCAACCATTGCTTCACCAGCTCCTAATGCCTCTGTTGTAGATGACCAAAGAAAAAAAGTTATTTTAACAAAATCTGCTCTTTTTTTACCTACATTTTTAACTTTCCCAAAAAATTCTTCGCGATCAGGATATTCAACTTTTTTATATTTTCCTAAAAATTCTACTTTAGGTCCTGGAAAAAATTGTTCATCATATTTGAGAATATAATCTTTTTCTATTACCAGCTTTCCTACGGATGTTTCAAGAATAATTATATCAAGATTTTCTGCTATTTTATGACCAACTACTATGGTTCCATTTTTTAATGTTATTTTATTTTTCAATTTAGGTAATTTTAAAATATTAAGTACATCTTCATCAATTTCAGGCAAACCCTTTTCAGCTATATCATAATATCTAACAACACTTTTAAGTGAGTCTACTTGACTTTGGAAAACTGTCATATTTGTTCCAAGTGAAAAAAATAAAGAATCAGTTTGTGATGATTGCTTTGTTATGCTATCAGTAATCGATAATGATAAGTTGGATAATTGATTTTTTAAATTTGAATCTGTTTGTCTTATTATTGTTGATAATGAATCTTTTTGAAGATTTTGTAAATTTCTTGAAGTATCAATTTTTGCATTTAATTGATTAATTTTAGATTTATTTAAATTCAGTTCTTGATTTATTTTTTTTTCTCTTTCAAGGAACGAATTCATTTCAGTTTTGGAGATTTCATATTCTTTAATTGTCATTCTAAGCTTTTCCATCTCAGCAGATATTTCGTCTACATTTTTCACTACTTCAAAGAAGAGATCAACTGAATCAGTTTCAAAAATAAAAGTACTTCCTGTTTCTAAACTGTCAGGAGGTAAAGGAAGCAGTGATTCAAGGATTTTAAGTTCTTCAGTTAAGGCTCTGTTATTTGACTCGATTGCAGTTTTTTCAATGTCATCAATAGTTTGGTCTGATATACTTCCGGAAATAGATAAATTGAAAGTTGAATATTTTGTTTTAAGATTCTCAGTTCCATTATTAATTGAAGAATAAGTTTTGCTGTCAACAGGTAAATAAGTTATGAAATTTGCTAAATCAAAAATTAAATCAGAAAATTTGTTTTTTTCTTGATTTACAATTTGATTTAGATCATTTTTTTCTTGTTCCTCAAAAATATTATTTTCCAGAAAATTAAAAATTTTATTTTGTCTGTCATTTATTATGATTAAAAAAGAGGCTATATGTTCTCGAATTCGATTAGCAGTAGGAAAAAATTCCAATTTTTGTTGATTTGAATTTGATAAAATTTCTACATCATTTTTAGATGTTTCAATGGGAGACGGCCTAGTTTGTTGCGATTGATTTCCACTACAACCAAATAAAATTAATATAAAAAAAAATAAATTTTTTTTCATTAAATCATTCATTATTTTTTTCTAAAGCTTTTTCTTGAGCAATTAATCCAGCTGTTCGGATTTCTGTTTTAAATTTTTCATGTACTCCTAATGTGTGTGCTAATTCAATAATATATGGATAGAATTCATAACTTGAGGGATCTTCCAGCATTGGTAATATTAATTCAAAAGTATTTGAATTTTTAAAATTTCCTAAGCCATTTATTGATTTAACTCTCAAATTTCTAGGAATATCATTATCCATTGCAATTTGAATTAGTGTAGGTAATATTACAGGGTCATTGAAATTTCCAAGTGCATCAAGTAATGTTCCTAAAAGTGAATAATAAGAAGCTTGGCCCTGATTATAAGTATCCATTAATGCTAAAATCAATCGTTCTTCTTTTATATCTTTCATCGTATTTATAGCAAAATCTTTTAATTGGTTTTGTGTTGATGGCTCAGTAAGCATTTCTGTAAACATTTCTATAACTCTAGTATCATTTTTATTACTAGCTAAAATTTCTATTGCTCTATTTCTTACTTTGATATCAAGTGATAAATCTTTTGAAATAAATATTAGGACAGGAATTACTTCATCATCATCCATGTTTCCAAGAGTATTTGAAACCATAGTAGCTGTACTATAAAACGCTGCTCTACTTCTTTCATAAATGTCAATTAAAGCTAGAACTTTATTTTTTGGTTTAACGTTTTTTAAACTTTTGAATGTAGCTGATTGAACTTCTCTAAGTTTTTTATCTACAGTAAAAATTGATTCCATTAGTGAATTTGAAGCTATAGGATCTTCTTCAAATTTTGATAATACATTAATGCTCGCTATCATTAAATCAATATCGATTGCTTCAGAGGTTCTTACATATTCAGATATTGCCTCAAGAGCTAGTGGATGTCTTGTTTCTGCAATTGATCTTACAGCTGATTTTCTGATTTCATTTTTTATATTTTTATCTTTATATATATCTATAAGTTTTTCAATTGAACCAATATCACCTTGAATATATGCTATTCTTAACTCTTCAATATAAACAAGCGTTATTTCTTCTGGATTCAAATCTTTTTTATTTTTTGAAAAAATATTAATGTTATTTTTAATTTGTGCGCATCCAATAAACAAACAAAGAATAAGTATTAATATTAAATTATGATTTTTCATTTCCATTCCTTTAAAAACAAATCTTTACCATCAAAAAAGGCATAAGTTTTCCATTTGATCCAATCTCCAAGTAAAATTAATTTACCATTTTTTAAATTAATTTCATCTTTTGTATGGTAATGACCTAAAAGTACGTAATCAATATTATCATTTATTTTATTTTTAGCAAAAATTGAAAGTTCAGATTTTAATTTTTTCATAAGATTATCATTTAGATTCATATGTTTTTTTCGGGAAAAAAATTTAGCTAATTCATAACTTAGATCAGGATGAATTATTTTAAATAAAAAAATAAAAAGTTTGCTCCTTATTATTTTTCTTAAAACTCTATATCCATAATCTTTTTTAAGAATTCCATCTCCATGCAAAATAAAAAATCTTTTTCCCTCAATTTGAATTTTTGCGCCATCAGGATATATATTTGCAAATAATTCATTATATGTAAAATTATTGATCCAAAAATCATGATTACCTGGAATAAAATTTACTTCAACTCCTTTTGATTTTAATTGAGAAATTTTACTTATAACATCAAAATAGTTTTTTGGAATAAAATATTTATATTCAAACCAATAATCAAATAAATCACCTACAATAAATAAAGTCCCACCATTTTGTAAAATATGGTGAAAAAAATTTGACAATGAATTGCGTTTTTCCAAATCATAATCTTTACCATTTAAATTTAAATGAACGTCCGAAATAAAATATATAGGTAGTTTCATAATTTTTTCAATTGTAAATAATTATCCTAAATCTAACAATAATTAGAAAATGAATTGAACATATTTGAAATAATTTTTTTTTTAACTATGTTTAGATGTATCTTATAGCAATTTAAATAATTTTAATTAGTTTATTAAAAATGAAAAAAACCTTTTACATCTTAATTTCTATATTTATTTCAATAAATTTTTTAAAAACTCAAAATTTTGGTCAAAATAAAGTCCAATATAAGAATTTTAAGTGGAATTTTATTCAATCGGCAAACTTTGATATATATTATTATGATGATGGCCAAAAATTAGCTGAGTTTACTTCAGAAGCTGTTGAAAAGTCTTATAATCAAGTGTCAACATATTTGGATTGGAAATTAAAAAAAAGAGTGTCAATAATTGTTTATAATTCACATAATGATTTTCAACAAACTAATGTAATTTTACCTTATATGCCTGAGGGAGTAGGTGGTGTTACTGAATTATACAAAAATAGAATTGTAATTCCATTTGAGGGTTCTTATGAGGCATTTAGGCATGTAATCCATCATGAGCTTGTTCATGCCGTAATAAATGATCTTGCTTACGGTGGAAGAGCTCAAAATATTATATCAAATAGAATACAGTTAACTATTCCACTGTGGATGAATGAAGGTTTATGTGAATATCTTTCCAGTCAATGGGATACAAGAGCAGATATGACTATTAGAGATATTGCTATCAATGATGTTATTCCAACTATACCTCAGTTGAATTATTATTTAGCATACAAAGGGGGTCAGTCAGTATGGAAATTTATCGTTGAGAAGTATGGATGGCAAAAAGTTGCAGAAATTTTTAAACAAGCAAAAAGAACTCAAAATGTTGAAAAAGCTTTTGAAAAAACAATAGGTATGAATTTTGTTGAATTAACTGAACAATGGCATAAATATATTAAAAAAGAGTACTGGCCGGATATTAATGGAAGGTCAGAAATAAAAGATTTTTCACAAAAAATTACAGACCATAAAAAATTAAGTAATTATTTTAATATTTCTCCTGCATTATCACCAGATGGTAATAGAATTGCATTAATCACTGATAGAAGTGGATACTCTGATGTTATAATAATTTCTGCTGAAGATGGTAAAGAAATAAGAACAATTGTAAAGGGTAATAGAAGTCCTGATTTTGAGGAATTAAAGTTATTGCAGCCGGGTATATCTTGGTCTCCTAATGGTGAAAAAATTGTTTTAGCATCAAAAGCAGGTGGTTCAGATGCATTGTTTTTAATTGATGTTAAAAATGGTAAAAGAGAAAAATTAACATTTGATTTATCAAGTATTTTTACTGCAAAATGGAGTCCTGATGGTCAAAAAATAGCTTTTGTAGGTAATAAATCCAATGCTAGTGATATATATGTATATGATTTTAAAACAAAAAAAATACTTAACTTAACTAAAGATGTATTTTCTGATTCTGAACCATCATGGTCATTTGATAGTAAAAAAATAGTTTTCATTTCAGATAGAGGTGAAAATATTAATAAAATTGAAAATTTTGATATTTCAAAACATGATTATTCTCAAACTGATATTTATATTTATAATCTTACTAACAATAAAATTGAAAGGATAACTAAATCAACTTTTTCAGAAAACTTTCCAACTTTCTCCAATAAAGAGAATAAATTAATATATACTTCAGATAATAAAGGAGTTTGGAATCTTTACGTTTATGATTTAGATGAAAATACTTCTTTTCCGATTAGCAATGTATTAACAGGTGTTTTTCAACCAAGTTTATCTCGAGATGATAGCAAATTAGTTTTTTCAGGTTACTCAAATAGAGGTTGGGATATTTATTCTATAAACAATCCATTTAAAGACAATAATTTAGATGTTAAACCATCGAATTTTATTTTAAATGGAACAGATAAAGATCCATTAGATTTATCGACAATAAATATAAATGAAATTGATGATAATAAAAATTTAGAATGGTCAAGCAACTCTTTTTCAAATTGGATTTTTGCTCCAGAATATGCTCATTATAATGATGGCATTTTTGATTCAACTGACTTAAAGAAAGAAGAACCATTAAAATTAAGTAGCTATAAAAATGATGATGGTTCATATGTGACCCAGTCTTACAAGACTAAATTTGGATTAGATTTAGTGTCTGGTCAATATATGTATAGCAATACTTGGGGTTCAAATGGAACAACTATTTTTTCTTTTAGTGATATTTTAGGTGACCATCGAATATTGATTGGTACTGAAATGGTTATGGATTTAAGTAATAGTGATTATTCTTTTCAATACAATTATCTTAAGCCAAGAAATGATTATGCAATAGGGATTTCTAATATTTCCAATATTTTTGGATCTCAGTGGAATTTTTTAAGATCCAGATACTTCTTACTTGGATTAAATATTTCAAGACCAATTTCTCGATTTCAAAGATTTGGAATTGGTCTATCAAATCATTCTTTGTCAAATAAAGAATATATTTTATCTGGTTATAACCAATATGCAGAAGTATCAAATGAAAAACTCTCAGTTTTATCATATTCATTAAATTGGACATATGATAATTCTCAATTTGGATTAACTGGACCATCAGATGGATCAAGGGGAAATATTCAATTTAATCAAAGTATAGCTGAATTTGGATACCCCATGGATTTTAAAACAATTCAAGTTGATGCTAGAAGATATTTTCGAATAGGAAAATTATATACTTTTGCATTTAGATCTATGGGTGGAATTAGTTTTGGGAAAAATCCTCAACGTTTTTTTCTAGGTGGAACTCAAAATTGGTTGTTTGGTAATGGTTTTTCAAATGGAGTGAAAGATAATTCAAGATGGAATCAAGAATCAGATGCTGATATTTGGAACAGACAAAAATCTGATTATTTAAAAGATTTATATTTTTCTGTTTTTGTTCTTCCAGTAAGAGGAGCTAGACTTGTAGAAAAATATGGAAATAAAGTTTTTCTAACAAATTTTGAATTTCGTTTTCCATTCGTTAACTATTTAGCATTAGGTTTTCCATTCAGAGTAATTTTCGGAAATATAAATGGTGCAATATTTGTAGATGCTGGTGCTGCATGGGAAGATGAATTCAATTTTTCTTCATTTAATCCAGTCTCAGGTATGAATCAATTTGATGATTTTATAGCTTCTTATGGGTATGGTCTAAGGTTGAATATAGGTTATTCTGTTTTAAGATTAGATATTGCTAAAGATTATTTATATGGAGGTGAAACATCTCCTTGGCAATATTATTTTTCACTCGGTGCTGATATTTAAATCATTTAAAAAGTGTAATTAGAGCCTTATATTTTAACTTGAAAAATTTAATTTTTTTGTGTGAAAAATGTGGTGCTGATTTCCCAAAATGGCATGGAAGATGTCCAAACTGCAAAGAATGGGATACATTATCAGAGTTTAAAAAACCTAAGAATAAAAAAACAAAACTCAATTACTTAAATGGAGAATTACCAAAACCAATAAATGATTTTTCTTCAGATTTAAAAAATCAAAGAATAAAAACTAATATTGGAGAATTTGACAGAGTCTTAGGAGGGGGATTCATTAATGGTTCATTAATTCTAGTTGGAGGTGATCCTGGAATTGGGAAATCTACCTTAGTTCTCCAATCTGTCAATTCATCAAAAATTTTGTCACTATATATTTCTGCTGAAGAAAATGAAGATCAATTGGCTAATAGAGCTAAAAGATTAGGTGTGAAATCAAAAGAAATATTTATTTTAAATGAAAATAACTTAGAAATAATTTTAAATCATATTGATAAAATTAGTCCCAAGCTTGTTGTTTTTGACTCAATTCAAACAATTTATACAAATGATTCTGATTCAATACCTGGTTCAATTAATCAAGTAAGAGATTGTAGTCAAAAAATTTTAGAGTTATGTAAGAAAAATAAAATCATCGGTATTATCGTTGGTCATGTTACAAAAGAAGGGGTAATAGCTGGACCTCGAATTCTTGAACATATGGTTGATACGGTTTTATATATTGAAGGTGAAAAAAGAAATGATTTTAGAATTTTAAGATCTATAAAAAATAGATTTGGATCTACAAATGAAATTGGTGTTTTTGAAATGAATTCAAATGGTTTAAATGAAGTAAAAAATCCATCAAATATTTTTATATCTGAAAGACAATTTAATGAACCAGGTTCAAGTGTTTTTCCGAGTATAGAAGGTTCAAGACCTATCTTGGTTGAAATTCAAGCATTAGTGACTAATTGTTCATTCGGAAACCCTCAAAGGAATGTTACTGGATTTAAATTAAGAAGATTATCTATGTTGCTAGCAGTTTTAGAAAAAAAATTAGGATTTTCATTAGGAGCAAGTGACATATTTATAAATATTGTTGGAGGGTTAAAAATTGAAGAACCTGCAGCTGATTTAGCTGTTGTATCTTCAATAATTTCAATAAAAAAGAATTTACCTATTAAAAAGGATTTAATATTATTGGGAGAGGTTGGATTGGCTGGAGAATTAAGATCCATTAATAATTTAGAAGAACGTTTAAAAGAATCAGCTAATTTGGGATTTGCTAAAGCAATAGTACCTAAAAGAAATTCAATTAAAAACTTTAACAAAATTAATTTAATAAGATGTGATTCCGTAAAAGATGCGTTTGAAAAAATTTTTTAAAAAAATTTGAGTTATTTAGTTCTAAAAAAAAATAAAAATTCTTTTGCAAGGACTGGTCAATTGTCTACCAAAAGAGGATTAGTATATACCCCAGCATTCATGCCAATTGGAACATATGGGCCAGTTAAATCATTGTCTCCAAAAGATTTAGATGATTTGGGTTCACAAATAATACTTGGTAATACCTATCATTTATACCTTAGACCTGGAATAGAATTATTAAAAAAAATTAAAGGTTTACATAATTTTATTGGTTGGAAAAAACCTATTTTAACAGATAGTGGAGGTTTTCAAATATTTAGTTTAGCAAGATTGAATAAAATTACAAACGAAGGAGTTTATTTCAATTCAACTATTGATGGAAAAAAACATTTTTTAACTCCTCAGTTATCAATGGAAATTCAAAAAGTTTTAGGTAGTGATATAATTATGTCATTTGATCAGTGTCCTCCTGCAAATATTGAGATTAATGAATTAGAGAAGGCTATAGATAGAACTGAGATATGGACAAAAAAGTGTTTTGAATATTTAAATTCAAATGATGATCTTAATAAAATGAAAACTCATTTTTTCCCTATAATTCAAGGTGGAACAAATGAAATTCTAAGGAAAATTAGTTTTAATTCAATACAAAAATACATGAAAAATGGTATAGCAATTGGAGGTCTTGCAGTAGGTGAAGATAAAAATGCAATGTTTGATATTATTTCTTATTTAAATACAATTATTCCAAATTCAAAATTAAGATATTTAATGGGAGTAGGTAAACCAGAAGATATTATTGAAGCAGTTTCATTAGGAGTTGATCTATTTGATTGTGTAATTCCAACTAGAAATGCTAGAAATGGTCAGCTTTTTACTTGGAGTGGAAGAATTAATATAATTAACTCTAGGTTTAAAAATGATTTAAAACCTATTTCAGAAAATTGCAGATGTTATACTTGTACTACATTTTCTAGAGCGTATTTAAGACATTTATTTAAAATAAACGATGTTTTAGGATTGAGATTGGCAACATTCCACAATGTTTTTTTCTATATGGAATTGATGAAAGAAATAAGAAATCAAATTCAAAAAGATACTTTTTTTGAATGGTCTAAAGAAATTAAAGAAATAGTATCATCTAAAGTTCAATAAAAAATTCATCATCTATTGAAATTCCTTTTAAACCAGTATGAAACCATCCAAACTTAAAATAATTTTCAATATCAAGATTCCCATAAATGTTTTGAAAAACATTATGACCTCTAACAACTAATTTTCCAATATTGTTCGACTCTTTAATTCCATCTTTATTTATTATAGATAATTCAGAATGATTCATACCTTTACCAATTGAAATAAAATCATCTAAATGAATTTTTGGTTTTTTCATATTCATGCTAGCATAACCACTTAGCTCAGATAGAAATAAACTTATTCGGAAATTAGGTTTTTTTGGAATTGATAAAATATTGTGTGGTAAAATTATATTGTCAATTTTTTTATTATAAAAATATTTTTCTGTAAAGAGTGTAATCTTTTTATTTGAATTAAAATCATGATTTTTATCTATGAATTCAAAGCTACTACCCATGTAGAGAGTTAAGGTGATTGCCAAAATTAAATTCAATTTTTTTTTAAATGGATACTCGTACATAAATAAATTTTCAATTTCCGGATTAAAATTTTTACTCATTCCCATTGTTGTTACTAGTATATTATAGTGGGATAAATATATTTTATTTTCACCCTTATTCTTAAATTGAATACATTCATCATAAAATTTATTTTTTTGGATTGGGAAAAATTGTGTGCTATAATTTTTAAAAATTTTTTCAAAATTTAAATCATCATTTTTTTCATTATCCAAATCAATTACTCCACCAATATTCCATATTGAAAATATTTCAATAAGTGAAATAATTGGATTTGATTCAGAAATTGAAAATGTTTTTTTTTCAATTTTTTTTTCAATTAAGTAATTTGAATATTGTTTAACTTTTTTTAAAAAATCTATGTACGATATTCCTTCATTTTTTATTTTTATAAATATTTTATTTTTATAAAAATTAGCTTGAGATTCTAATAAAGAATTTATATTGGGGTATGGAACCATTATTTCTGATGGGGGTACTCCTCTGAAATGTTGTGCTTTTATTTGATTATTTAAAATTTTAATTTGCATAACTAAATTATAGATTAAATATTATGTGAATTAATATCTTAATCTAGTTTTTGAAATTAACCATAAATTGTGAATTTTAATGAAAAATTATAAAAAATTTAATTCTATTCTTGAATCTGTTGGAAATACACCTGTAGTTAAGCTTAATCATATTGGAAGGGAATTTGACTGTGAAATTTATGTAAAATGTGAATATTTTAACCCAGGTGGTTCTGTTAAGGACAGAATTGGTATTAAAATGGTTCAAGATGCAGAAAAGTCAGGAAGAATCAAACCTGGAGATACCTTGATTGAGCCAACATCAGGTAATACGGGAATTGGTTTGGCTATTGCAGCAGCTGTAAAAGGTTACAGGATGATTATAACAATGCCTGAAAAAATGAGTAAGGAAAAGGAAGTAATATTAAAAGCTTTAGGTGCAGAAATTATTAGGACTCCAACTGAGGCTGCATTTGATGATCCTAAAAGTCATATAGGTGTTGCAAAATCATTAAATAAAAAAATTCCAAATTCACATATTTTAGATCAATATTCAAATCCTAGTAATCCGGATGCTCATTATAATGGTACGGCTGAAGAAATCTTAAATCATTTTGGTAAGGAATTGAAGATGATAGTAATGGGAGTGGGAACTGGCGGAACGATTACAGGCGTAGCAAAAAAAATTAAAGAAGTAAGAAAAGATATTCAAATAGTAGGCGCAGATCCATATGGGTCGATTTTAGGTGGTGGAAATGATATTAAACCATATAATGTTGAAGGCATTGGTTATGATTTTATTCCTGATGTTTTAGAAAATAATTTAGTAGATAAATATATTAAAACTGATGATAAAAATTCATTTCTTACTGCTAGGGAGTTAATTAAAAAAGAGGGATTATTCATTGGAGGTTCATGTGGTTCAGCAGTTTGGGCAGCCCTACAAGTTGTAGGTGAATTGAAAAAAAATGAGGTATGTTTGGTAATTTTACCTGATTCAGTTAGAAACTATATGTCTAAATTTGTTGATGATGATTGGATGAAAGATAATGGTTTTTTTGATTAATCTTTAAACTTGAAAAAAATTTTCATATTTAATTTAATAATATTTTTTGGTTGTGCTGCAATTAGTCCACCACCTGGAGGTCCAGAGGATAAAACTCCTCCTCAGTTATTATCAAGTATTCCTGAGTCTGGAACGTATAATTTAAAAGGTGGATTTAATGTAAAATTAATTTTCTCAGAAAGATTAGATGATAATATAAATAAATCAAGCATTAGAGTTTTACCTTTTGAAAAAACACCTTTGCAGTTAAAAGTGAATAAAAATATAATTGAAGTGTTATTTCCAGACTCATTAAAAAAAAATCAAACTTATCAATTAATTATATCAAGAGAGATTTTAGATGAAAGAAAAAATAAATTAGATAAAACTTATCAATTAGCTTTTTCAACAGGCGATTCAATTTCAATTGGAGAAATCTCAGGGAAGGTTTTTAATATAAAAAACAAACCAACATTTGTTTATTTATTCAATAATTATGAATCCTCAGATAGTATTTTCTTTAGAAAACCAGATTTCTATACTGAAACTGATGACTCAGGTCGATATTCATTTAAATTTCTTGAAAATAGAAATTATAGTATAATAGCACATCAGGGAGTTTTACCTCCAAATAAAATTGATTTTAATAGATCTCGATATGGATTATATAGCAAATCTATATTACAATTAGGTGAATCCAACTTTTTAGATAATATAAATTTGAAATTAAAAAACAATATAACGCCATTCAGTGTTTTATCTGTAAAAATGCAAGATAAAAGAATAGGAACTATAAATTTTACAAATGGATTTGATCTAAATAATCAGAAAAAAAATATTGAAATTAAAATTTATGATAGTCAACAAAAAAATATATCCTCAGTTTCAAACTTTTTTCAAGATTCGTTATCAAATATGTTAAATTTTTATTATGATAAATTTAATGATGAGGAAAATTATTTTTTTGAAATACTTAATTTAAGTGATACAACAAATCAAATAATTGATGAAAAATTAAGTTTAATCAACAAAAGTGAGATTGATAGTATTTTCCCAACTATCATTTCTTTAAAAAATACTAATAATATTATTTTTGATGGCTTTTATTCGATAGATTATAAATTTAATCAACCCATTATAATTAATGGAGAGCTTGATTCAGTATTTGAAATTTTTTCCGATTCCACAAAAATTACAGACTTCGAACTAATTTACACAAAACCAAATATTTTAAGTATATTAAACAAAAACAAAATTCGAGGTATTAATAATTTATCTGTTAAAATTTTATGTAATCAAATTAAATCTATTGATAATTTTTCAATGAAAGATTCTATTCTAAATATTTCTTATGAAGTTAAAAATAAAAGAAGGTTAGGTTCTATATCAGGAGAAATTATTAATTCTAATTCAAAAAATAATTTTTTAGTTGGATATATGGTTGATAATAAGAAAAATAACTTTATGATTAAATCAGATTCTCTAACAAATAAATTTATTATAAAAAATTTAAATGAGGGTATGTGGAATATTTATGCTTTTGAGGACATAGATAATAATTCTAAATATAGTTATGGAGAATTTTTCCCTCATACCCCTGCAGAAAGATTTATTAATTTCAATCAATTAATTGAAGTGAGAGGTAACTGGGAAAATACAGAAAATAATATTTTATTCCCTTAAGTTTAAATGAATTTTAAAATCAAAAAAATTTACGCTGTAATAATGGCTGGTGGCCAGGGAACTAGGTTTTGGCCATTAAGCAGAAAAAAACGACCTAAACAATTATTAAATATTATTGGCGATCAAAGTATGTTGCAGATCACAGTAGATAGATTAAGAAAAATTGATCTTATCGAAGATATCTTTATAGTAACAAACCCTGAGCTTGCTTCACAAATAAAAAAAGAAATCAAGGGGATAAATAATGATAATATAATCATTGAACCTTATGGTAAAAATACTACTCCTTCAATTGCTTTAGCTGCTATTAAAATTAAATCAATTGATAAAAATGCAATTATTGGAATTTTCCCATCTGACCATTTTATTATCGGTCATAAAGCATTTTTAAATTCTTTAAAAATTGCATCTGAATTAGCTTCAGATAAAAATTTATTAGTTACTATGGGAATAGTACCAAAATTTCCCCATACTGGTTATGGATATATTCAATATGATAAAAAAATATCTTATAATAAAATATCCTTTAATGTTAAAACATTTGCTGAAAACCCTTTGGAATCTGCTGCCATAAGATTTATTAAAAGTGGTGATTTTCTTTGGAATAGTGGAATGTTCATTTGGAAAGCAAAAACTTTTTTAAATTCTATGAAAGAATTAATTCCTGATCAATATGAAATAATTAAGGATATAAGTAAAAAAATAAATACGCCTGAATACAAAGATATTTTATATGAAAAATGGGAAAATTTAAAATCTGAATCTGTAGACTATTCAATTCTTGAGAAAGCTAAAAATATTTGTGTTATTAAATCTGATTTTACTTGGAGTGATTTAGGATCATGGAATACTTTTTTTGAATTTTTATCAAAAGATAAAAATGAAAATATTATTAAAGGCAATGGTTTGATTTTAAAGGGTTCTAATAATTTAATTCATTCAAATGATAAATTTACCGCTGTTGTTGGTATAGAAAATTCAATTATTGTAAATACAGATGATGCTTTGCTTGTTATAAATCGATCATATATTGATGAAATTAAAAATTTGTTAAATGAAATTAAATTGTATGGAAAAGAAGAATTATTATGAAATCGAAAAAAATATATGAAGAGTTTGAAAAACTCGCTATAAAAATGAATTTTAAAATTATTCATGGTGTTGGCGATTTTGATGGTGGGCTTTGCAATTTTAATGGTGATGATTTCATTGTATTGAATAAAAAAAAACCAATTGAACAAAGATTAAAAGTTTTGGTTTCCATATTTAATAAATTAGATTTAGAAAATAAATTTATAGTACCTGGTTTAAGAGAATATATTAAAGTAGAACAGACAAATTAAAATGAAAAAATTATGGGCTCCATGGAGAATGCAATATATAAAGTCTGAAAGAGACAATGGTTGCGTTTTTTGTGATAAAATCAAATCTAAAAATGACAGAGATTCTTTAATCTTATATAGGGGGAGCTTTAGTTTTATCATAATGAATTTATTTCCTTATAATAATGGTCATATAATGATTTTACCATATTTACATACAGCTAAACCTCAAGATTTAGATAAAAAAACTAAATTAGAAATTTTAAATTTATGTGATAAAAGTATGGATATAATCACATTAAATATGAATCCTGAAGGATTTAATTTTGGAGCTAACTTTGGTAAATCTGCTGGAGCAGGTATTGCTCAACATTTGCATTATCATCTTGTTCCAAGATGGAATGGTGATACAAACTTTATGCCCGTTTTAAATGAAACAAAAACAATTATTCAAGATCTTAAAGAAACATATGATTCTTTAATTGATCAATTTACTAAAATAAATGAATGATTTTAATTTAATTTGGTTGCCTTTTATATATTTATATTTGATAGGAGGAGTATTTTTTGTTTTGGGCTTATTTTTGATTATTAGGACTAATGCTCTTGAAGTTAAAAAAATAAATCATTTTAAATGGTTGTTAATATTAATAATTGGATTTTTTTATTATTGTTTAATTCATTTGATTTTTATAATTCTTGCAACTGGTAATTAATGATGGATTTTGTAATTGGAACAAATTTAGATAGAATAATTATTTTATCATATTTTCTACTTGTAATGGCTTTTGGAGCTTATTTTGGGAAATATAGTAAATCAACATCAGATTATTTTTTTGGAGGAAGACGTTTTTCATGGTGGCTGATTTCTATTTCTATTGTTGCTACAGGAATTGGTTCACATAGTTTTTTAAAGTACTCAACCAAAGCTTATGAATATGGTTTTTCTTCGACAATGACATACATGAATGATTGGTTTTTCATGCCATTATTTATGTTTGGATGGCTTCCAATTATATATTATTCAAAAGTTGCGTCAATACCTGAATATTTTCATAGAAGATTTAATTCTAATGCACGATTGATTGCTACTTTTATGATATTACTTTATATGATTGGTTATGTCGCGATTCAGCTTTTAACACTAGCTACTGTTTTGTATAAAATTTATTCAATTCCTTTAATGTCAACAGTAATCATTATTGCTATAGTTACAACTCTCTACACACATTTTGGTGGACAAACTTCAGTGATTTTCACTGATTTATTTCAAGGATTAATTCTATTGTTTTCAGGTTTACTTCTTTTTTATTTGGGAATAAATTATTTGGGTGGATTTTCGAATTTAAATGGATTTAATTTTTTTTGGGATAATTTAACCGTTTCTCAAAAATTACCCCTTGCTAATTTTAATAGTCCCCCAGATTTTAATTTTGTTGGAATTTTTTGGCAAGATGGAATAGCAGGTTCTATAGGTTTTCTATTTATGAATCAAGGTTTAATTATGAGATTTATGGCTGCAAAAAATGTTAATGAAGGTAGAAAAGCTGCGGCTTTTAATGTTTTGATTATATTGCCAATTTCTGCTATTGTAGTTTCAAATGCAGGATGGATTGGTAGGGTAATATCAAATACAAATCCCAATATTTTACCTTTGGATATGGCACCTAATGATGTTTTTGTAGTTATAACAAACTTAGTTTCAAGTCCAGGAGTATTTGGCTTAATTATTGCTGCTTTATGTGCTGCATTAATGTCAACTGCAGACACATTAGTTAATGCCTCATCTGCCGTAATAGTAAATGATATTTATAGACCAATCACAAAAAATAAAAATTCTGATAAAAGAGAATTAAATGTTGCTAGGTTGGCATCAATTTTAGTAAAGATAATTGCGGTGTTATTAGTTCCTTTTTTTAATAATTTTGATTCGATTTATGAAGCTCATGGATGGTTTCATTCAACTTTTACACCTCCATTGGTTGTAGGTATTTTTCTTGGAATTTTTTGGAAAAGATTTACTTCTTCTGCAATCATTGCAACGTTTTTAGTTGGTGGCTTTTTAATGATACTAGGACAATTTTACCCTGAATTAATTAAACCTTTTTCTCATGGCATTGAATTGAGGCCAGGTAAAGGATATTCATATATTGGTGCTTTGTATAATATTTTTGTTTGTGGTATTGTTGGTGTAGTTGTGAGTTTTTTTACGAAACCACCGGATTTAAAACAAATTAAAGGTCTTACAATTTTTGATGTTAAAGATTTAAAGAAAATTTTTAAAGGTTCAGAAGTTAATTTAGAGGGAGGAGAAAAAATATTAGTTCAGTGGAAAAAATCAAATCAGACAAAAGAATTTATATCGTTTTCAAAAAATGATATGGAAAAAATGAAAGCTAAAAAAGGTGATTTGGTTTATTTGACTGATTCAAGAAAATGGTTAGGTGGTTTGAAATCTATTCATTCAATTTTTAATAAAACTCATAATGAAGATGGTATTGTTTATTTAAGTAATTCTTTGATTGAAAGAGGTCTTTTTAGTAAAGATAAAACTTTGATTGCAGAAAAAGAGATGTAAAAAAGGATAATATATTATAATTAAATTTTCCGGAGTAGCTCAATGGTAGAGCGGATGGCTGTTAACCATTAGGTTGGGGGTTCGAGTCCCTCCTCCGGAGCAAAGTATATTTGCGTAAAGTGATAACACAAGATAAAATTGATGAAGAATTTATGTCTATTGCTATTAAAGAAGCAAAAAAAGGATATAATAATGTTCATCCTAATCCAAAAGTCGGGGTCGTAATCACTGTTAATAATAAGCTTATATCAAAAAGTTACCACAAAAAATTTGGTGGATTGCATGCAGAAAGAAATGCAATTAATTTAATTTCCTCAAATTTTTCTAAAGCTACACTCTATACAACTTTAGAACCTTGTTCTCACTTTGGAAAAACCTCGCCATGTGCAGAACATATTCATCCTTCAAATTTTGATAGAGTTGTAATCTCTTCATTAGATCCAAATCCTCGGGTTAATGGTAAAGGACTCTTAAAAATAAAAGAAAAAGGAATTGATATAAAATTAGGAGTGCTTGAGGAGGAATCTAAAAAAATTAATACTCCTTTTTTTACATATTTTGAAAAAAAAAGACCTTATGTTATTCTTAAATTCGCATCTACATTAGATGGATTTATTGCTATGGAAGATGGTACCTCAAAATGGATAACGTGTCAAAAATCTAGAAATGATGTACATAAATTACGATCTAATTGTGATGGAATTTTAGTTGGTAGAAAAACTGCTGATATAGATAATCCAGATTTATCATCTCACGGTAAAGGCAGAGATCCTAAAGTTTTAATTCTTGGCTCATCAAAAAAAATAAATAAATCAAATAAAGTTTTTTCTAAAAATCCATTATTTTTATCAAAAGAAAATTTGAATTTTAGCAATAATAAATTAGAAAATATTAGTCTTGTTTTGTCTAAATTATACGAAGAAAAAATTCAATCAGTTCTTGTTGAAGGTGGTAGTGAAACGTTAACATCTTTTTTAGAATCTCAACTATTTGATGAAATTCATTGTTATATTGGACCAAAAATATTTACAACCGGTATTCCAATATTTAACTCAAAAAACTCTTTACCTAATGATTTATTAAAAGTAGAATCTATTAAAGAATTTGATGATGATTTAAGAATAATATATAGAATGAAAAAATAATGTTTACTGGAATAATTGAAGAAATAGGTAAAATTAAAAAATTTACTATAAATGATGACATTGTTAATTTAGAAATTAATTGTAAAAAAATAATTCATGATTTAAAAACTGGTGAAAGTGTTAGTGTTTCAGGTATATGTTTAACTGTAACTAAAATCATAAAAAATTCATTTTCAGCACAAATGATTCCTGAAACAATTAATAAAACAAATGCTAAATATTGGGGTAAAAATACTCTAGTTAATTTAGAAAGATCATTAAAGCTATCTGAAAGGATAAATGGTCATATAGTGCAGGGTCATGTTGATGAAACTTTTCAAGTAAAAGATGTTAATGTAATTAAAGATAGTTGGGTGATTAGTTTTAACTTAAATGAAAAATTAAAAAAATTCATTATATATAAAGGGTCTATTTCAATTAATGGAGTAAGCTTAACAATTTCGAGTGTTAATAAAGATTTTTTTTCAGTAAGTTTAATTCCTGAAACATTAAAAAGAACAAATTTAGTTAATTTAAAATCTAATGATTTGGTAAATGTTGAAATTGATATATTCGCAAAATATATAGAAAATTTTCTTAGGAATTAAACAATGAGCATAAATTTATTAGAAAACGTTTTAGAGGATATTAAGTTAGGAAAATTTGTTATTGTAGTAGATGATGAGGATAGAGAAAATGAGGGAGACCTTGTAATGGCCTCTCAATTAATAACTCCTGAAGCAGTAAATTTCATGGTAAAAGAAGCAAGAGGATTAATTTGTGTTTCCATAACTGAAGAGAAATCTAAATTTTTAAATTTAGAAACAATGGCAAAGAATAATACAAGTCTTCATGAAACAAATTTTACTGTAAGTGTTGATGCAGCAAAAAATACAACAACTGGGATTTCAACAAAAGATAGATGTGAAACTATTAAAGTATTAGCAAGCAAAACTTCAAAAGCAGATGATTTAGTTCGACCTGGACATATTTTTCCTATAATTAGTAAAGAGGGTGGTACTTTGAGAAGAGCTGGCCATACAGAAGCCTCGGTTGATTTAGCAAAAATGGCTGGATTGGAACCATGTGGAGTGATTTGTGAAATTTTATCAGATGATGGATCCATGGCTAGAAAAAAAGAACTTGAAGAGTTTTCAAAAAAACATGATATAAAAATTATATCAATTTCAGATTTAATAAAATTTAGAAGAAGTTCTGAAAAATTAGTCAAGCAAATCGAAACTGTTGATTTGCCAACAAAATATGGAGAATTTAAATTACATTTATTTAAAGACCTTTTTGATGGTAAGGAACATATTGCATTATCACATGGAAAAATTAAAAATAATCAAAATATATTGGTTAGAGTTCACTCTGAATGCTTAACTGGAGATGTTTTTCATAGTTTGAGATGTGATTGTGGAGATCAGCTTGAGCAAGCAATCAAAAGAATTAGCCAAGAAGGATCAGGTGTAATTGTTTATTTGAAACAAGAAGGTCGTGGTATAGGATTAATGCATAAAATAAAAGCATATAAATTACAAGAGCAGGGTTTTGATACTGTAGAAGCAAATGAAAAGTTAGGTTTTCCACCAGATTTAAGAGATTACGGTGTTGGTGCTCAAATACTATATTCACTTGGTGTGAGGAATATGATCATCATGACAAACAACCCTATGAAGCTTATTGGTTTAGAAGGACATGGATTAAAAATTACAGATAGAGTTTCACTATCAATTAAACCAAATGATAAGAATAAAAATTATCTTGAAACAAAAAAATCTAAATTAGGTCATTTAATTGATTGATTCATGATTGCAATAATAAAAAGTAAATTTAACAAACAAATAACAAATGGGTTGTTATTTGGATGTAAACAAGCATTAATCGAATCAAAATATAATGAAGATTTGATTCAAATTATTGAAGTCCCGGGAGCTTTTGAAATTCCGTCAATTGCACAAAAATTAGAAAAAAAAGATTATAGTGCGATTATTTGTATTGGTGCAATAATTAAAGGTGAAACTGATCATTATCATTATATATGTGATGCTGTTTCTAATGGTGTTTTGAGGGTATCAATGAATTCTCAAATTCCAATAATTTTTGGTATTATAACTTGTCAAAATATAAACTATGCTATAAAAAGGTCCTCTACTAAGGATTTATCAAAAAATAAAGGTTATGAAGTGGGAAAATCCGCTCTTGAAATGATCAAAGTTTTTAATGAAAACAATTTATCTTGATAGCAACGCAACAACTCCATTAGATAAAAGGGTTTTAGAAAAAATGATTCCATATTTTACTGAAAAATATGGAAATACAGAAAGTCACAATCATTTTTTTGGATGGGAATCAAAAGAAGCTTTAGAAAACTCAAGGGAAGTAATTGCAAATTATATTAATGCAGATCCTAATGAAATAATTTTTACTAGTGGAGCAACTGAAAGCATAAATCTTGGTATTAAAGGTTTTTGTCAAAATAATTTTTCTAAAAAAAATCATATTATTTCCCAAGTAACTGAGCATAAAGCTGTTTTAAATACTTTGGATCAAGTAAAAAATAATGGTTGGGATGTTACTTTATTGCCAGTTGATGAATATGGTTTTATAAATAACAATGAATTAATTAATGCAATTACTTCAAAAACTTCATTGGTTGTATTAATGCATGCTAACAATGAAATTGGAACTATGCATGATATAAAAACAATTGGAGAAATCTGTAAAGAAAATGATTTATTTTTTTTTACTGATGTAGCTCAGACATATGGTAAAACCAAGTTAGATGTAAATTCTATGAATATAGATTTATTATCAGCATCAGCGCATAAAATTTATGGTCCAAAAGGTATAGGATTTTTGTACGTTAGAAAAAAAAATAAAACAATAGATTTGCTACCTCTTATTTCAGGCGGTGGTCAGGAATTTGGAATTAGATCAGGAACTACACCTGTTCCTTTAATAGTTGGTCTTTTAGAGGCTTCTAAAATAAGTTTTGAAAATTTGTATGAAGAGCAAAAAAAAACTAAGTTGTTAAGAGATAATTTTTTAAATGAAATAATTCAGTATTTACCCGAAACAAAAATTAATGGTTCAATGGAAAATAGATTAAATAATAATATCAATTTATCCTTTCCAAATATTGATGCAGAATCACTATTATCTAAACTTAATAATATTGCTTGTTCAACAGGCTCAGCCTGTTCATCCAATGCATTAAAATCAAGTTATGTTTTAAAAGCAATTGGATTGGATGAAGAACTTGCATTGTCATCCATAAGAGTTTCTTTTGGAAGAAATAATAGTAATAAAGAATCAATTTTTGCAGCAAACGAAATTATAAAAGCTGTAAAAACAATAAGAAAAAACCATTCTAATTTTTAAAAAAACTATTATACATCTTTATTTTTAGTTCTTAAGTTTTTATGTCTCTCAGCTTGCTACCTAAGTTAAATTATTTATTTAGTAAGGTAAATAGCCGATACTGCTCTACAGGAAACAGTAGAAACAGCTCCCGATCTCAATATTTTGAGATATACTTTGGAAAGGGACCTCATTTTGAATAAAAGAAATATTAATAATAATATATTAGATCAGTACGGAAGGATTTTCGACTATGCGAGAATTTCTGTAAATGAAAAATGTAATCTAAGATGTTTATATTGTATGCCAGAAGATGGAATAAATTTTTTACCAAATGATAAATTGTTAAATCTTAAAGAAATGAAATTTATTATAAAAGTTTTGAGCGAAAGTGGTATAAAAAAAATTAGATTCACAGGTGGAGAGCCATTGCTTAATAAAGATATTTTTTCATTAATTGAATATAGTTTTAAAACTGGTGTAGAATCAGTTTATTTAACTACTAATGGTTTATTGTTAAAGCAAAAAGCTAAAAATCTAAAAGAATCAGGGCTAACTGGTATTAATATAAGTTTAGATACTCTTGATCATCAAAAATTTGTTCAGATAACTAGAAGGGAAGGACTTGACAAAGTTTTAAAGGGTTTACATCATTGTATTTCATTGGGTTTTAATTCAATTAAGTTAAATGTTGTATTACTTAAAACTTTTAATCAAAATGAAATAAATGATTTTATAGAATTGACTAAGGATAATAATATAACTGTAAGATTTATTGAATTAATGCCTTTTGATTCTCATCAAATATGGAAAACAGGTAATTTTATTGGCATAGATTTAATAGAAAAATTAATTAGATCAAATTATTCCAATTTGGAAATTGCTACAGGATCTAAAACAGAACATAGAATTTATAAAATTACAGGCTATAAGGGTAAGGTTGGAATAATTCCAGCTTTTTCGAGGACATTATGTGATAAATGCAATAGAATTAGAATCACAGCTGATGGGAAATTAAGAAATTGTCTTTATTCGAATAATGAATTTGATTTAAAAAAATTAATTAATAATGGTATTACACATGAAAAGCTTGCTTTGGAAATAAAAAAAGTTATGTTTAAAAAAGAAAAGGATGGTTGGATTGCTCAAAACAATGGAAAAAAAATTCGAGAGAGCATGACGCAAATTGGAGGATAAATTGGAAAAATTTTCTCATTTAGATGAAAATGGAAATGTAAAAATGGTAGATATCTCTGATAAACCAATTTCAGAGAGAACTGCTATTTCTTCAGCTAAAATAAAAATAAGTAAAGAAGCAATAGAACTAATTAATGACGATAAAATACCAAAAGGAAATGTTTTTTCAATTGCAAAAATAGCTGGTATTCAAGCTGCAAAAAAAACTTCAGACCTTATACCTTTATGTCATCAATTAAATATTTCCTGGATTGATATTTCATTTGAAATCCACAATCAAAATATTTTTGTTAAATCATTTGCAAAAACTAAAGAAGCAACTGGTATTGAAATGGAAGTATTGACTGCAACAAGTGTTGCTTGTTTAACAATATATGATATGTGTAAGTCAATTGATAAAAATATTGAAATTTCAGAAATTAAACTTGATAAAAAAACTGGAGGCAAAAATTTATTTGAATATTACACTCCAAAAACTGCTATTTTAACATTATCTGACACACGTAACAAAAAAACTGATTCATCAGGACAAATTTTAAATCAAGGTTTAGAAAAGAATGGTTGTAATATCAAATATTATAAATTAATTCCTGATGATAGAAAAAAATTAGAGTTAGAAGTTGAAAATTTATTAAAAAAAGATTTTGATTTAATAGTTACTACAGGTGGAACAGGAGTAGGGCCTAGAGATATAACTATTGATACAATTAGTCCAATGTTATCTCAAAGATTAAATGGAGTTGAGCAAGCCTTACATAATTTTGGTAGAAAAAAAACATCAACTGCTATGTTGTCACGATTAATAGTTGGAAGAATTAGAAATACATTTATAATCTGTTTACCAGGAAGTAGTTCTGCAATAAATGATGCATTAAATGTTTTAATGCCTCATTTCCTTCATGTATATCCAATGTCAAAAGGTAAAAAACATTAATTTTGAAAATTTAAATATAATCGCATTCGTATTTATTTTTATTTCTTCTTTGTATTCTTCTGTAGGTCATGGAGGAGCATCAGGTTATTTAGCAGTATTATCCTTATTTGCTATTGGCCAAAATGATATCTTTTGGTTGAAATCGAATGTATTAGTTTTAAATATTCTGGTTTCTTCTATTGCTTTGTATAGATTTAGTAGAAAAGGATATTTGAATTTTAATTTTTCGTATCCATTTGTTTTAGGATCTGTTCCATTTGCATATGTAGGATCAGTTATAAATATACATCACTATATTTATGAAATTTTATTATCGATTACTTTATTTTGGATGTCAATAAAACTTTTATTTTCATTAAAAAATGAAGCAACAAAAATAAATCCGTCTAATTTTTATTTAAGATTTTCTATTGGTTCTTTTATTGGTTTTTTTTCAGGATTAATAGGAATTGGTGGAGGAGTATTTTTATCTCCGATTTTATTTTTTTTAAATTGGGAAACTACAAAAAAAATTACTGGTACTAGTACACTTTTTGTTTTTTTAAATTCAATATCAGGTGTAATAGGATTAAATAGTAGTTCAAATTTTTTTTTGAATCAAAATACCACTCTTTTTTTTGCTTGTGCAGTAATAATTGGTACTATAATTGGCACACAATTCTCATTAAGTTTTGGTTCAAGAAAAAATATTAAAATAATTTTATCTTTTGTTGTATTTCTTGCAGCAATTAAGAGATTTTTAATTTAAAGTTAGGAGTCTAAGTTGATATCTGTAAACGAAGCAAAAAAAATTATAAACTCAAAAATTTTTACTTTAGGTAGTGAAAAGATTAATATTAAAGATTCTATAAATAGAATTTTATCAGAACATATTTTTGCTAAATTTTCGCATCCAAGATTTGATAATAGTGCTATGGATGGTTTTGCGGTTAAATCAATTGATACTAAAGGCGCTTCAAAAGAGTTTCCAGTAAAACTAAATATTAAAGGTACTATATCAGCAGGATTAAATAATTCAAATAAAATAAATCATTCCGAATGTTATCAAATAATGACAGGGGCTGAAATACCATCAGGAGCTGATGCTGTAGTAATTGTTGAAAATTCAAGTGGATTTACTGAGTCAAACTTAGTAAATATTTTTAAGGAAGTTAAAGTTAACGAAAACATAAGACTCAAAGCTGAAGAAATTAAAAAAAATGCAATAATTTTGGAAACTGGTCAAAAAATAGGTCCATATGAGCTTGCGAATGCTATTTCTTTTGGTTACGAAAAAATTTCTGTTTACAAAAAACCAAAAATATCAATATTTACTACAGGGAATGAACTTGTTCTTCCTGGTGCTAAATTGAAATCAGGCCAGATATATAATTCGAATTTATTTTTATTAGTAGAGTTAGCAAAAAATATCGGATTAGATGTAGAGTATGCTGAAATTTTAAAAGACGATGAAGATGAGTTAAAAAATTCCATAATTAATGGATTAAAGAAAAGTGATATAATTATTTCATCGGGTGGAATTTCAATGGGAAAATATGATTTTCTTAAATCAGTCTATGAGGAAATTGGAGTAGAACAATTGTTTCATAAAATTTCTCAAAAACCTGGAAAACCGATGTTTTGCGGAGTTTCAAATAAAAAATTTATTTTTGGACTTCCTGGTAATCCAATATCGTGTTTAATATGCTTTCTCGAATATATATGGCCATTAGCTGAAAGAATGATGGGAAATAATTTTGAACATATTTATAAAGAAGCTGAATTAACAAATTCTTTTCCAATTGAAAACAATAAACATAGATTTTTATTAGGTAAAGTTTTTTTGCATAAAAAAAAATTATATGCAAGTCCATCAAAAAAATTAGGATCTCATATGTTATCATCAACAATAGATTCAAATGCAATTTTAATGTCAAATCCATGTTTGAATAAATTAGAAAAAGGGGATAAAATTAAATTCAAGTTTTTTCCTTGGATGAATTTGTAATGAATATCACTCCTAAAAAGTTGCAAAAATTAATATCAGAAAATTCGCTTATTAACATAATTGATTTAAGAAATGATAATCAGAAAAAAAATAACCCCTTAAAAAATTTAAAAAAAAGAGATATGAGTTTTGAAAAAATTAAAATTTCAGATTTAAATGAAAATACAATTTTAATATGTCAATTTGGAATAGAAACTGAAAAATTTATCATTGAGAAAAAATTAAGCAATGTTTATAATTTGATTGGCGGAGCTGCAGCTTGGAATTATTATATTTCAAAAAGAGAAGATATTTCTAGATATGCCCGTCAATTAGTTTTACCACAAGTTGGTGAAAAAGGTCAAAAGCAAATACTTGATTCAAAAATTAGTATAATTGGACTTGGTGGACTAGGAACTGTAGTTGCACAATATCTTGTTGCAGCAGGGATTGGGACAATTAAACTTATAGATGGTGATATTATTTCATTGACAAATTTACATCGTCAGCCAATTTATCCAATTTCCAGTATAGGTGATTCAAAATCAGAAATTTTAAAAAAAATCTTATTAGAACTTAATGAAAATTGTACTTTAATATCTTACAATAAATACATTGACGATGTAAATATTTCTGAAATTTTAAAAGATACAGATATAATTGTTGATGCAACTGACAATATAAATAGTAGACTTATAATTGACAGATTTTGTAAAAAATCAAAAATTCCATTAGTCTATGGAGCTTTATATAAATTTGAGGGTCAAGTTGCAGTTTTCAATCATAATTCAGGAATAAGTTATTCTGATATTTTTTCTAATAATAAGATTAATGAAAATTGTAATGATGTTGGTATATTAGGTATGCTTCCTTCGATTATTGGTAATATACAAAGTTTGGAGGTTTTAAAAATTATTTTAAATATTAGTCCAAATCTATCAGAAAAATTATTGATTTATGATGGTCTAAGTCATACAATGGAAAAAATTGAATTAATATAATGTCTATTGAAATTAAAGTTAAATGTTTTGCTCATGTTAAAAATGCTGTTGGTAAAGATATTATATCATTAAAAATGAAAGAAAATTCTACTTCCGATGATGTAGAAAAAATGATTAGAAAAATGACTAATTCAAAATTAAATAATATTGCTTTCAAAATAGCAGTCAATCAAAAATACGTTAGCTCAAATGTTTTACTTAATGATGGTGATGAGGTGGTATTAATATCTCCTGTGCAAGGGGGTTGAAAATGATTCAAGTTGAAATTAATAAAAAAATTATTACTCCATTTGAGGATATTGATTTTTTTGATTTAGGTTCCGAATTAGTTTTTAATGGTCGAGTAAGAAACATTGAAAATAACCAAAAAATTTTAGGTTTGTATTATGAACACTATGAAGAAATGGCCATAAAAGAATTAATTAAACTTAGCAATGAAACATTGGATCGATTTCCTATTAGACATTTATTTTGTAAGCATAGGGTTGGTGAGGTTTTATCTGGAGAGGTATCTTTATTTGTTTTAGTATCTTCATCCCATAGAAAAGAGTCATTTGAAGCATTGCAATGGTTTCTTACTAAATTAAAAAAACAATTACCAATTTGGAAGTGGATGATTTTGAAAAATGGAAAAAGAGAATTGGTAAAGTAGAATTCTTATTTTTAAAGAAATTATTAGGAACTTATTATGAAAAAACTGTTTAAACCTTTCTCAGAATTTTCAAAAAATTCAAAAATAAAATCAATTGATGAATATAATAATTTATATGAGAATTCAATATCTGATAAAAAAAATTTTTGGAATGAAAAAGCCGAAAGAATTGATTGGATAGAAAAATGGGATAAATCATACGATTATGATTTTGTTAATGGTAATATCAAATGGTTTGAAAATGGAAAATTAAATGTATCATATAATTGTTTAGATAGACATGTTCAATCTGGAAATGGTGATAAAATTGCTATTATTTGGGAAGGAAACAATCCTAATGAACAGAAAATTTTTACATATTCTAAATTGTTAAAAAAAGTAGAAAAATTTTCTAATGTTTTAAAGAATAATGGTATAAAAAAAGGTGACAGGGTTTGTTTATATTTGCAAATGATTCCTGAGTTGCCAATTTCAATGTTGGCCTGTGCTCGAATTGGTGCAATACATTCTGTTGTTTTTGGAGCATTTAGTTCGGATTCATTAAGAGATAGAATTAATGATAGTAGTTGTAAAATGTTAATTACTCAAGATACTGGTATAAGAGGTAACAAAAACAACATCCCTATGAAAGAAAATGCTGACTCTGCTTTGAAAAATACAAAATCAATTGAATCTGTTATTGTTGTTAAAAGAACAGGTTCAAAAGTTCAAATGTTACCTTCAAGAGATAAATGGTGGAGTGAAGAAATGAATTTAGTTTCTTCTCATTGTCCAATAGAAAAAATTGACTCAGAAGATCCTTTGTTTGTTTTATATACATCTGGTTCTACAGGAAAACCAAAAGGGGTTCTTCACACAACTGGAGGATACTTAACTTATGTATCTTATACTCACGAACTTATATTTGATTATAAACCAGATGATATTTATTGGTGTACAGCAGATATTGGTTGGATAACAGGTCATTCATATATTGTATATGGTCCTCTTTCAAATTGTGCTACAACAGTTATGTTTGAGGGAGTTCCAAATTTTCCTGATTTTGGAAGATTTTGGGATATTGTTGAAAAACATAAAGTAAATCTTTTCTATACTGCACCAACGGCTCTGAGAGCTTTAATGAAAGAAGGAAACCACTTTGTAACAAATAAAAATTTATCTTCACTAAGATTACTTGGTACTGTTGGAGAGCCTATCAAGGAGCCAGAGTGGATTTGGTATCATGAAATTGTTGGAAATAGTAATTGTCCGATTGTTGACACTTGGTGGCAAACTGAAACTGGAGGAATATTAATTTCTCCATTGCCCGGAGCAATACCGACAAAGCCTGGTTCAGCAACATTACCTTTTTTTGGTATTGAGCCTGTACTTTTAACTGAAAAAGGTGAAGAAATCCAAGGAAATAATGTTTCAGGTTTATTAGCTATTAAATCCTCTTGGCCCGGACAAATGAGAACCGTATATGGTGATCATAAAAGATTTATTGAAACATATTTTAAAATGTTCCCAGGTTACTATTTTACAGGAGATGGTGCAAAGAGAGATAGTGATGGGTATTATTGGATTACAGGGCGAGTGGATGATGTATTAAATGTGTCAGGCCATAGAATAGGTACTGCTGAAGTTGAGGGTGCAATAGGAAAAACTAATGGTGTTGCTGAGGCAGCTGTAGTTGGTTTTCCTCATGAAATCAAAGGACAAGGAATTTATTCATTTGTAACATTAATGACAGGTGTTCATCCTAATGAAGAAATAAAAAAAAATATATTAAAATCAGTTGTAAAAGATATTGGTCCACATTCAAAGCCTGACAAAATACAATTTACTGAATCATTACCTAAAACAAGATCTGGTAAAATCATGCGAAGAATTTTAAGAAAAATTGCTGAAGATAATGTTGAAGAAATGGGAGATATATCTACTTTAGCTGATCCAGCTGTTGTAAAATCTTTAATTGATAATAAAGTATAATGTTTTAAAATTGAATATTAATTAAGGAAATAAAATGAAAATAAAAAAAGGTGATCTAATTAATGATCTTAGTTTACCATCTATTGATGGAACACATTTTAAAATACAAGAACATAAAGGAAAAAAAATTTTTCTAACATTTTATCGTTTTGCTGCATGTCCTTTCTGTAATCTTCGTATAAATGAAATTATTAAGAGATATGATGAGTTTGGGGATAATTTTTTAATGGTTGCAGTTTTTGATTCTCCTTTAGAAAATTTAATTAAGCATGCTAAAAAACATAATGCACCTTTTCCAATATTAGCAGATGAAAATTACAAATATTATAAGAAGTATGGTTTAGAAAGATCTTTCTTTAAGTTTCTGAGAGCTGTTATTTTTAAATTTCCAACTTTAATTAAAGCATCTATAAAAGGTTTTATACCTATAGTTTTTAAGGGTTATGTTAGCACTTTACCTTCTGATATAATGATTAATTCAAATGGAATTGTTGAAGATGTGTACTATGCAAAAACAGATACAGGTGATCATTTGCCATTCAATAAGATAAAGAGTTTTTCTGCAAAAAATTAATTATTTTTGTGAATTATAATTTCACTCATAATACTTAAAGCGATTTCTTCTGGAGATTTGGCATTTATTTTAATCCCTGCGGGAGAGTGAAAATGTGATAATTGTTCTTCAGATAGTTTATTTTCAATTAAATAATTTTTAATTAGCGAAGATTTTTTTTCACTAGCTACTACAGCAACATATGGAACAGAATTTTTAATTGCTTCTAATGAAATTTTGTGGTCATCCCTATGATGAGTGACAAGAACAAAATAATCTAAATTAAATTTATCATAAGGAATTTTTTTATTCTCATTTATAATTAAATCTGCTTTCGAAAAATGTTCTTCTTCTATTTTTGATGTTTGAATAATGACTTTAAAACCTAGAGTTTTTGCCATTTTACACAATACTTCAGCTCCTCTTCCCATCCCTCTAATCATTAAATTAGGTATTTTAATTGTAGGTTCTAATAATATAGACATATATCCTCCACATGGAATTCCCATTTCCATTTTATCACTATTTAAATCTAAGTTTATTATTTTATTTTTTCTTTGAATAATTGTTTCTTTAGCAGATTCTCCTATTCTATTTTCTATACACCCACCTCCAATATAACCCATTATTCTTTTACCCTGATTATTGTAGATTGCTTTGTCTCCATTTTTACCAGATGATGAACCTTTTACATTAATTACAGTTGCTACAGCATAAGAAATATTTTCTTTATCAAGTTCAAAAATTTTTTTATTGATTTTATAGTATTTGTTCATAATTGATCAATTTTCTTTCTTGTATCAAAATCTTGAAATATTTCATTTGAATTTATTTTTATGGTTTTAATAAAATTAGGATTTTTATTAATGATTTTTTTAAAACCATTATCTCCTTGTAGATCATTAGCAAAATGAAAATATTTTTTTGGTATAATAATTGGATTTCCGATTTGATTTTTATATTCTGGACAAATTATAAAATTTCCATTGTTGTATAAAAATTCTTTCTTCATTTTTTCAAGAGTAGTGGTCGATATAAGAGGCATATCACCAAGTGCAATTAAAGTTCCGTCAAAATGTTTTTCTATTTTTAATATTCCTAATTGAATTGAAGTTGACAATCCCTCTGACCAATTTTTATTATAAATGCAATTTATATCAAACTTGGACAAGTTTTTATAAATCTTATTTTGCTCGAAACCAGTAATTGCATAAATTGGTTTAAAATTTGCTTTTAAAATAGTTTTGACTACTAATTCTATCATTGTAAATCCATTAATTTGAAATAATAATTTATTTGAATTAATGAATCTAGAGGAATTCCCAGCAGCTAGTATAATTGATGAAAGTTTCACATTTAAATTTACCAGAAAAAAAATGTATTATTCTAAAAATTATAATATAGTATTGTCAAAATAAAACTCTTAATTTTTAAAGAATATATTTATTTATTAAACTTAATATGTACTAGGGTGTAAATATTTTAAAAATGAGAAAACATTTATCTATTTTATCTTTCATATTTTTACTATTCGGATGTGAAGACCCCCTTGACTCTGTAGTAACAAAAAAGGATAGCAATGAATTATTTGAACTAACTCTTCAAGCTTCAAATAAAATTGTTAATTCTGAAAATTCCATTGATGTTATGGCCAGAATTAAAAGATTAAAAGATGGTAATTCAGATGTTTCTAATAAAGTATTGGGCGTTTGGGATTTGATATATGATTATCCAGATACACTTGATAATAATATATTAGAAATAAGTTATTCTTTTTTTGATGATAAAACTGTATCTAAAGTTGAAACTCACCATTTTGATGTAGTTTCTTTAGGTTCTAAAATTTTAGGTGAATGGTTGGTTACTGAAATTAATGAATCTGGTAATATTATTGATTTATCATCATCCCTTAACAAATATACTTTTAAAAATGATAGTAGTTTAGTTTTTAATAAAATTGATTCTATTTCGGAAGGTATAGATGTAGGTTTATTTTCTACACCTTTTTTAATTGACATTGATAAAGATGCTGATAAAGATCTCTTTATTGGATGCCAGGATGGAACAATTAAATTTTTTCAGAATACAGGAACAAGTTTAAGTCCAAAATATATATATTTAGAAAATTCAGATAATCCTCTTAATGATATAATTGTAAATGGATTTGCAACTCCGACTTTTGTTGATATAGATAAAGATAATGATTTTGATTTATTTGTTGGTCAAAGTGATGGTAATACAAGTTTTTTTCAAAATACTGGATCAAGCACTAACCCCTCGTTTAGTGAATTAACAGGAAGCAACAACCCTTTAAACTCTATTAATGTAGGTTATAATGCTTCAGCTAATTTTTTCGATTTTGATGGTGATGATGATATGGATTTAGTTATTGGTGCTTATAATGGAGAAATTAGTTTTTATCAAAATATTGGAACTTCGGAATCAGCTAATTTTAATCTAGTAAATAATAGTATTTCTTCAATTAGCGTGACTGCTCATTCAACTCCTATTTCTGTTGATATTGATAAAGATGAGGATATTGATATATTTTTAGGCTCTCAAGATGGGGTAATATCATTTTTTCAAAATCAAGGCGATAATACTTTTGTTCAAAAAAATGGAGATGAAAATCCATTAAATGCTATTGATGTAGGTCAAAATTCATTTCCATTTTTCACCGATATTGATTCCGATGGAGATATGGATTTATATATTGGTGAAGAAGAAGGAAATATAAATTATCTAGTTAATGGTGGTAGTCCTGAAAACCCTTCTTTTGTTATCAATTCAGAAAATTTGGGTTTTACAAAATCTACTACACGAAATGGTGGATGGAATTACAATAATTCTTCTAACGAATTAGAGGTTGCATTTAATGACATTTTAGGAGGAGAGTTAGAATCTGGAATAATATCATTTGATGGACACAGTGTGATAACTCCAATCAATGCTTACATGACTTGGTCAACAGATGCTAGAAATGTAATAATGCAAAAGGTTGGCCATGTAGATAACTTTAATGTACCTGAAGATTCAATAGTTACAGTTTCAGGTGGTTGGTCTTGGAATTTAAATGATACAACTTTAGCAGCAACTATCAACGATATTGAATTATCAGGATCATTGAAATTTGACACACAAGGTTCCGTTGTCCCAATAAATGGTTTTATGTATTGGACTACAACTGAACAAGGGCCTTTAACCCTTAAGAAAAAAACTAATGTTAGTTCTGGTAGTAGTTCTTATATGAGACTTTCGCTTGATGCTACGGGTGGTACTCTTGATATCCATCATGTAACTTCAACTAGTAGTATTTCAGTTTTATTACCTGATTCCTCAAATTCAAATTTTAAAGTGGAAGGATTGTTTGTTCCAAAAAGTAGTGCCAAAAGCGGTTTAATCTCAGCAAAATTCCAAGATTTATTCGTTAAGATGCCTGTAACAATTGTTGATCGTTAATTATGAAAAAAATTATTTTATATATATTATTTTTAATTTTTCCTTTTATTTTGATTTCTCAGTCAATGAAAAATTTAGAATATCAAGTATTGAAATTAAGTTATGTTGAAGTTGATAGAGCTTTAGCTATACTAAAAACTATGGGATATACTGTTGTTGAATTTAAAAGTGGAAAAGGCGAATTAGCTGGTGAATATTCTTTTGTACCGTCTCCAAGTGGTGGAAAAAATATCAATCAATTGGCTATTCCACCTAATTTACCCGTAATTATAAAAGTTCCAGATACTGAAACAGTAAGTCTTTTAACTCAAGAAAAAGGAAAAAATGCCAAAAAAGGTAAAAGTGAACTTGGTTTAGATTTAGCAGGAATTCCAATGGTTGGAACAACAGCAGGAGCTCCTCAACAACAATTATTAATTGGATATAATCCAAATAATTTTGAAAAAGTCGCAAAATTATTAGATTTAATCAATAATAAAATTGATATTCCTGCCGCTCAAATACAATTGGAAGCCCTTGTTATTGAAATAGATTCAGATAAATTAAATACATTAGGTATTGATTTTGGAGCTTCTCAAGGTGGTATTTCTGGACAATTTCCACCTCCTAATTCAACTACTGGATCACTTAATCCTTTCACATTAGTTTTTGATCGTACAGTTCTTGGAACAGCAACTGATTTTAATACAAACCTTCAAGCGTTGGTGAGTGCAAGTGCAGCAGAAATTTTGTCTAGACCTTCTGTATTGGTTCTTGATGGCCGTCAGGCAAGAATTCAAGTTGGTCAACAAATTCCTATTGTTAAAACTACAAGCACCCAAACTGCCGTTTCAAAATCAGTTGATTATATTCCTGTGGGTATTGTTTTAAATTTAAGACCTAGAATTAGTCAAGATTTAACTCGAATAACTATTCAGATTGAAACTATTATTACTGAAACTGAAGAGCGATTAGGAGCTTTGGCTACTACATCAGGTGTGCAAGAAGCACCGGTTATCAATAATAGAAAAGTTCAATCTTTTGTGAGAGTTGCAAATAATACTCCTTTTATTGTTGGGGGACTTATATCTAGAAAGAAAAGTGAAGTTACTGGAGGAATACCATTTTTATCTACCATTCCATTTTTTGGAAGACTTTTTTCTAGTTCAACAGTTGAAACAATTAGAAAAGAAGTTATTGTTGTTATTAAGCCCCATATTATATCTGAAGAGGGAGCAAATTTTAGCAGAGTTGTTCCATTAGATTCTGAAACTTTTAATGCTTTTGGAAATAAATTATTTCAAAATAGTTATAGAGTTCAAAATGCTGATGTTTATGACCTTTCTTTTATAGGACAAAGTCCAATATTTAAAGATATGTTAAAAAAATTAAATGCTGAGTCTGAAATTAATAAAACATTAAAAGTTACTCAACCATATAAAGGTTTGCTTGAGGGTGAAATTCCTGGGGAGGATATTTTAGTAAGAAGAATGCTTTATGATATAATTGAAAAGCAAAAATATTATAGATACATAAACCCTGAGAACGTAATATTTTTTAAAGATAATCCTAATGATCCTGCAGGTTTTGAAATAAATAATACTAATTTTTTAATTGGAGATGCAATTAAAAATAAAAATAAAGCATTGAAATTAACTTTTTCAATCAAAGAAAAAGCTTCTGCGCAAAAACCTTTTGTTAGACCTACTGCTACCGTTGATTATATAGATGCATCCAAATCCTTTAATTATAAAAAAGAACTCCAAGAGAGTAATATTTATGGTAAAACAAGTGAAGATGATGTTTTCTCAATTATTATTAAAGAAAAAAATCATGAAGAAAGATTATATGAGACTTTAATCTTAAGAAAGGTTTTAGAAATAAATCCTGACTTAAAATTATCAATTAATTCATTTAAACCAGGAATTGAAATATTATTTCCATCACCAGAAGTTTTAGAAAGTGATTCACATGTAGTTGATAGAGAAATAGCTAAATATTTTTCTGAAATAAATAATTATTATGGAATGTTTGAAAAAACCTTTAATAGAAAAACATCTGGAGTGGTGAAATTGATAAATGATTAACTTTTAATTTTAATTATTTTATGAAATTCATTTTTACGCTTTCTTTACTTTTTTTAATTAATTTTACCTCATCAAACATTTATTGTCAATCCAGAGAAGATTTAAGAAGAGAGCTTTTAAATGTTTACAGAGATATTGAGAAACAGCTTGAAGATGAAATTGATTTGTTAGTTATCAATATTAATGAATCTTTAAATGAAATAAGATTAATTAAAGCAAAAGCTAAGAAAATAGAATTAGAAGCTGATTCTATGAAATTTTATAATGATTTTAAGATTTCTCAGATCAATACAGATGTAGATAGTTTACTTTATGATACAAAGAAAAACGCTGAGTATTTAATTTCAATCGCGACTGAATTGACTAATTATTCTGAAACTTTAACTAAAATTACCATGGCTAATATTGAAGAAATAAGAGATAAAATTGAAGATTTGTCTTTGAAAAATGATAATATTTTTATTGAAAAAAAAGAAGAATCTAAATCATTATTGGATAATGCTAACAAATTAAACAAAAATATTAAAAAAGATTCTGATATTGGTAGTATTAGAGAGCATTTAAATTTTATAAAAGATAGAATAAAAGAACTTGAAGAAAACTAATTTAATTCTAACATATTTGTGATTTAAATCATTGTATGTTGGGGTTTGATGAATTAAGTTATTTACATATCTCTTTTTTAGATTTGTAATCATAAACTTGTTATAATAGGAGCTAAACATGAAAAATATGATAAAAATGACATTAGTATCATTTACCATTTTTGGTATATTGATAGCTGATGGACATTTACCTGGTGAAAATCATCATGATGGTGGTCCTCATCACTCTGCAATTCCTAAGGATCAAATTACTATAGATGATGGTGAAATAATTTTAACTCATCACAAATTTGGACCAGATGGATCTATTGAGGAATCTCATGAAGTTGTAATATACCTATATCCTAAAGATCCTCAAGCAGACATGGAAAATATGGATGAAATGGATCAAGAAACACCTCACGGTTTTTGGCAAGAAGCTACAGACAATGAGGATATGCAACCTCCATGGTCAGACCCAATGGAAATTGATCAATTTAGCATTGATGAGCATGGAAATTTAATATTGGCTCATGATGGTGAAGATTTGATAGTAAATTTAATACCTATGATGCATCATGGCGGCCCACACGATGGACCACACGATGGTGAAATGATGCCTCCAATGGATGGTGATATGCCTCCAACAGGTGGTAATATGCCTCCAATGGATGGTGATATGCCTCCAATGGACGGTGAGATGATGCCTCCAATGCTTCTTTCTGGTGACTGGTG
>sequence05
ACTCCCATATAATCAATGCACATTTCAGCATAATCAGTAGTATTAGAAGGTATTGGATTTATATCATTAAAAGGAATGCAGTCGTAATTTAAACCTGATGTATCACTACTAATATCTTGACAAAAGTTAAAATTCTCGTTCCATTCGCACCATTCAGGATATTCATTACATTGAAGTGAATCAAGATCAGAGCATTCAGCAAATAACTTACTAAAAGATATAAAGAAGAATAATGCTAAAATTTGTGAAGATAAATTCATCAAAAAATATAAATATTAATTTATAAGCAATATACGGACTTTCTTTTCAAATACTTTGCGGGGAACACGGATTAGTAAAAACAAAAAACCCCACGAATTTGGGGCTGGATATTAGTATATAAATTTATCCAGTTATTTTTTAACTGTTACATTTCTGCTAGTTACTATACCACTTGTAAAGCCAGATACAATGATGTCAATGAATTCTCCCTGAGTTTGTATTTCGTAATCCGTAGCACCACCTGCCATTTTACGGGTGTCAACATCATTAATTGGGACAAGAGAGATAACCCAAAGTTGTCTTTTTGACACTTCAGAAGTCCCCTGTGCTCCATTACCAACAATATGTGTATGGGTTGTACAGGCACTGAAAAATAGGACAAGTGATGTAGTAATTATTAATACTTTTGTCTTCATTCTATAAACTCCATATCAATCTTTAAAGTAGATAAACATGATTCAAATTCTGAAAGTTTATCATTAAATAGTAAATTTGTAACATAATAATATAAACAATATGTTTTCTCATGAATAGAAAATAATAATTTTATATTTGTAAGCGTCTTACCATTTATTTGATATTGTACAGTATTTATTCCATTTAATCTGAAAGACGATTTACTAATAGTAACAGTTTCAGGCATTGATGACAAATAATCCAAGTATGCATCATCGAGTTTTAAAAACACATTTGATTCATCAATTTTTGATATCAAAATCACAGAATTTTCTTGAGCTGAAAATGCTTTAATTAATTCAATGTTAAAGAATGAATTCCTTTCATTTTTCAACGCATCCTTTAATTGAGTAAATCTTTCTAAATCAATTTGATTATAGTTTTTTGGTAACCTAAGTGAAAATGGTCCAAAATTTTCAAAACCTCCTAATAATTTCAGGTTTGACCTAAATTCAAATTCTGGGAAATTATCATCTGCCTGCTTTCCTTTGCAGCCACTTATAATTAATAAAATTGATAGTAAGAATATCTTTTTCATTGCATCAAATAAATATCTCTCAAAAAAATCCGATAATCAAATCTACCCATCATCTCACAAACAAAAAACCCCACTAATGTGGGGTTGATTTTCATTATATTATTTAATTATGTGCCTTTATAGTAGCCATAGATGCATAAGGATGGATTTAAAACAAGCATCAACCAAAATGGTGGGGGTGGTCCTGAATATTCTGGGCCCCAATAAGGATGGAAAGTATTAAATAAGGCTATGAATAATAAAGTTATCATTAAAACGAGTTCACCAACTAGTACTAACCTTGCAGATTCAATGTCCTTAATAAAACTTAAAACAATTAATAATAACCCAATGCCAACACTATGTGCACCGACTACATCTGCTGTGCCTTGAACTGCAACTACTGTTTCAGGAGATGCGCCAGGAGCAATCATATCTTTGGCAAAAATTATTATTCCCCAAAGAGAAAGACCTAGGACAAGATGCATTGTTCCAACAATTTTAATTATTAAACTAATTTTCATTTTTAAATCCCCTCAAATTCAAATAATTTACTAATTATTCTAAAAACAAAAAAACTTTACCCATTCATTAGGTTACACCACCCTATTTCATCTGCGGGGTATTAATTTGGTGTATTAATTGTGCTATTATTTATGATTTAGTTTGCAAGGTATGTCAAATTGAATTGATTTTCATTAGGAATGGTTTACCGAGAGTAGATACAAAAAAACCCTCCTCAATAAGAGAAGGGCTTGATTTGGTGGGCGGTCAAGGATTTGAACCCTGGACCCCCTGCGTGTAAAGCAGATGCTCTAACCAACTGAGCTAACCGCCCAAAAACGATGCTAATTTAATAAATTTATTAAATAAAAAACTAATATTATGCTTCTGCGACCTGAGGAATAGAATTTATTTTTTTAATTTTATTTATTTTTGGATTTTTAAATGCAATTTTGATTACATCAGTTACTTCTTTAGCAAAATGAAAAGTCATGTCTTTAGCAACCCTTTGTGGTATTTCTTCAAGATCCTTTCTATTAAAATGAGGTAAAATAACCTCTCTTATCCCAGATCTATGAGCTGCGGTAACTTTTTCTCTAATTCCACCAACAGGTAAAACAGCACCTCGAAGTGTAATTTCTCCAGTCATAGCCAAAGTATCTTTAACAGATTTGTCAGTTAATAAAGAAACTATTGCCGTAAAAATTGCTGTTCCCGCAGATGGGCCATCTTTTGGTATAGCACCAGCTGGAACATGTACATGAATATCATTTTTCTTATGAAAATCAGGGTCAATTCCTAATAGTTTTGCATTTGATCTAACATAAGTCAAAGCGGCTTGAGCAGATTCTTTCATAACATCACCTAATTTCCCAGTAAGAGATAAAGAACCTTTACCAGGCATTTTTGATGCCTCAATAAATAATATTTCACCACCAACTGATGTCCATGCTAAACCAATCACAACACCGGGCGTTTTCATTCTTTCAGCCATTTCTGAATAAAATCTTGGTGCACCTAAAAAGTCGTTTACAGTAGACTTATTAATATTTGCTTTTTTTAGAGATCCATCAGCTTGCTTTCTAGCAATTTTTCTTAAAACATTAGAAATTTCTCTTTCAAGATTTCTAACTCCAGATTCTCTAGTATAGGATCTAATCAGTTCTTTTATTCCTGTTTCATAGAACTTAATATCTTTGATAGACAATGCATTCTCTTCAATTTGTTTAGGAATTAAATATTTCTTAGCTATTTGAATTTTTTCATCTTCGATATATCCAGAAAAATCTAAAATTTCCATTCTATCCCTTAAGGCTGGTACAATGGGATCTTTTAAATTTGCTGTTGCAATAAACATAACATTACTCAAATCAAAAGGGACTTCTAAATAATGATCGCTAAATGAAAAGTTTTGTTCTGGGTCTAACACTTCTAACAATGCGGAAGATGGATCACCCCTAAAGTCTGATCCAACTTTATCAATCTCGTCCAACATAAATAATGGATTGTTAGTTCCTGCTTTTTTTAAACTTTGAATTATTCTACCTGGAAGAGCACCAATATAAGTTCTTCTATGACCTCTAATTTCTGCTTCATCTCTTACTCCACCAAGGGAAATTCTCACAAATTCTCTTCCCATAGATTTTGCTATAGATTTTCCAAGAGAGGTTTTACCTACACCAGGTGGACCAACAAAACATAAAATTGGACCTTTTACTTTTCCATCTTTCGTTTTCTTTTCTTTTAGTTTTCTAACGGCAAGATATTCAATTATTCGTTCTTTTACATCATCTAATCCATAATGATCATTATCTAATATAGACTTAGCTTTTTTTATATTTACTCTATCTTTAGTTGTTTTACTCCAAGGTAAATCCAATAACCAATCAAGATAAGTTCTGGAAACTGAGTACTCAGGAGATTGTGGAGGTATTTTACTTAACCTATCAATTTCCTTACGTGCAACCTTAGATGCTTCTTTTGTCATTTTTGCATCTTTAATCTTTTCTTCTAAATCAGAAATTTCCGCTGATTCATCTTCTTCACCAAGCTCACGTCTTATTGCTTTTAATTGTTCTCTTAAATAATACTCTCTTTGTGATTTAGATATTTCATCCTGAACTTCAGTCTGAATTTTTTCTCCTAAATTTATTCTTTGAATTTCTCTATTTAAAAGTAATGTGGCTTTTTCTAATCTTTTTTTAACATTTAATTCTTCTAATATTTCCTGTTTTTCAGCTGTAGGTATAGTAACTAACGAAATAACTCGATCAGCTAGTCTTCCAGGGTTAGATATCGAATTTAAAACTCCGGAATGCTCATCTGTTAAATAAGGGGCGACTTTAACTAAATCATTAAATACAGATCTAATTGATTTTGCCATTGCTTCAGATTCTATTCCCTCAATTTCATCATCCTCAACTCTTTCAACAACAGCTTTAAAGTATGGATTTTTATCTGTAAATGATAATAATTTTACTCTATCAACTCCTTGAATTATAGCGGACTTACTATTATCTGGCATATCAAAAACCTTAAGTACCATAGCGAGAGTTCCCCATACATATAGACCATCACTTTTGGGGTCTTCTTGAGCACCATCTTCTTGTGCTACAACAACAATCATTTTTTTACCCATTGGAAGATCATCTATAAGCTTAAGGGATCTTTCTCTTCCAATATAAGTAGGTATTACTTGTTGAGGAAATAAAACTGTATTTCTTAGAGGCATTACGGGATAAGTTTCGTTACTATTATCTTGCTCAGCCATTTTTAATTGCCTTTCATTGATTATATAATTATTAATAGCAAAAAACATGCCAATAAGTTATTATATGTAATTTTGTCATTTTTAATGACAAAATGTCTAATTAAAATTAGATTTGTCTCAAATTTCCAACAAATTCTCCAAATGAGACAGCCCAATTATCTATTACATTTTCATGACCTATCAATTTGAAGTAATATTTTTCATTTGTAGTTTCAAGAATGGCAGCTAAAAGTCTATAATTTTCTTTCCTCACTGATTGAGACATTGGCATGCCGCCACCAGTAAAAGTTCCTTTTAAATCTGTAATTGTTATTTTCATACCTGCTATTGAAAAATCTCTTACTCTTGCTTTTTCTTTAGATGTAATTCCATCTATTTGGTCAAATTGTTTATACCATCTATCTAAATTGTCTTGTGTACTGCCTCCTATTGCATTAAACACAGATAATTCTGCATCACTATATTGAGAATCATTTGATGGTAGTTTAAACTGTGTTAATCTCATTGATGATTTTGGTACCTCTTGCACCCATCCTATTGGTAACTCAGCTGAAAGATTACCAATAATAATAAAATTATCTTTTTTAACATTTGCATCTAATAATTCAATTGGTTTTGAATTAGTCTTTTGAACAGAATTATTGTTCAAAATAAAAGCCATTATAATACCTGCAGAAATAATAAAAAAATTTGTTAAATATTTATAGTTTATCATATTAACTCATAGACATTTTAGCTTGGAGATCAGCTTTATAAGAGCTTCGCACTAAAGGACCTGATTCAACCCATTTTAAACCAAGCTCTAAACCATAATTCTTATATATTTTAAATTCATCAGGATCTACGAATCTTTCAACAGGCAAATGTTGCTTTGTTGGTTGTAAATATTGTCCGATAGCTAAAATATCACAACCCGTTTTATAAATATCATTAATCAATTCAAAAACTTCTTCAGATGTTTCACCTAAGCCTAACATAAAAGCAGTTTTTGTCTTTAATCCAAATTTTTTTGATTTTTTTAAAACACTCAGAGACCAATTATATTTTGCTTGAGGTCTAACACTTTTATAAAGTCTTGGAACAGTTTCCATATTATGTCCTAAAATCTCAGGTCTTGATTTAAAAATAATATTGAGTGAATCATCTTTATTCTTCATATCGGGTATTAATACCTCAACTGAACATTCAGGATTTAATTTATGAGTTAATTTAACAGTTTCAGACCATATTTTGGCACCTCCGTCAACTAACTCATCTCTATTCACTGATGTTATCACACAGTGTTTAAGACCCATTTGTTTTACAGCTTGAGCAGTTCTTAATGGTTCTTTAGGATCATCCCAAATTGGCTTTCCTGTAATAACACTACAAAAACCACATGATCTTGTACACACATCACCCAAAATCATTAATGTTGCAGACCTTCTCTCCCAACATTCATAAATATTTGGGCATAACGCTTCTTCACATACAGTATTTAAATTTTTATTTTTCACCATTGTTTTTAATTCTTTATAATTTGAACCAACAGTAATTTTGGTTTTTAACCATTTTGGTTTTTTATTAGTATTTTGATGGACTTTTTTCACAATTAAAACAATGAACTTGTATCTAAATTTTCAAGGGTTGAAACAAAATATTTTAAAAATTTTCCACCATCTGCTCCGTCAAGTAATCTATGGTCAATTCCAAGTGAAAAATTACAAATTGATCTAATTGCAATAGATTCTAAATTATCACTTTCAATGACAACAGGTCTTTTCTTAATAGCACCAACCCCCAAAATAGAAGAATTTGGTTGATTAATTATTGGAAGACCAAAAACACATCCAAAAATACCAAAGTTTGTTACTGTAAATGTTGAACCAGATAATTCACTTGGCTTAATTTGATTTTTTCTACTCCTTACAGCCAAATCATTGACTTTTCTGCAAATTCCAAGAAAATTTAGTTCATCACATTTAGATATAACTGGAACAATTAATCCTTTTTCCAAAGCAACAGCCATTCCGATGTTAATATTTTTTTTATGAATAATCTTAGTTCCATTCAAATGAGAATTAAATTGTGTAAGAGATTTAATAGTTTTAACAGCAGCCAAAATAAGAAAAGGCGTGAAAGTCAATTTGAATCCTTCTGTTTTCAAAAAATCTGATTTATTTTTTGAAACAAATTTAACAATATTGGTCATATCACATTCAGATGCAAGATATACATGTGCTGAAGTATCAATACTATCACGCATATGCTTAGCTATAGATTGACGCATTCTGTCCATATCCTCAACATATTCATCTAATTGATGAGAATTAACAATGCTATCTTCTTTTAAATTTTGACTTGTAAAGTCTTTATTTTCAGAGTTTTCATGATTTGTTTGATTATTTTTTTGTTCTAAATAATTCATCAAATCATTCTTTGTAACTCTTCCAAATTGACCTGAACCACTGATAGATGAAAGTTCATCATCACTCAAACCTTCTTTTCTTGCAATAGACCTTACTAAAGGCGTAAAAAATGTTTTTTTATTATCATTTAAATTATTTTCATTTTTGATAATTTTATTTTCAAGAATATTATTTTTTTCATTAATCACTTCTTCATTTTCTTCAATCTTTTCTTCAATCTTTTCTTCAATTTCATCCTGATTGGATTTATCATTTAGGGAAGATACATCAATTCTAGCGATTACTTCATTTATTGGAAAAACATCATTAGGTTTTGCTAAAATTTCTTTCAAGACACCATCAAAAGGAGAAGGGATTTCAGAATCAACTTTATCTGTCCCAATTTCCAAAAGAACTTCATCTTCTTTAATTTTATCACCAATGTTTTTTTTCCATTGTATAATTGTTCCTTCTGTTATACCCTCACCTAATTGTGGCATTACAATATCTTTTAGCATTTTAAACCCCGCTTCATTAATATTTTGTTAATTTAGTAACAATTTGAATAATTTCTTCTTTTTTTGGAAAAATATATTTAGAACTATCTTTTAATAATTCAACTTTTGAACCTATTCTTATTATGGGACCATCTAAAAATTCAAAAAAAGATTCAGAAATAATTGTAGACAATTGAGACCCTGGTCCTTGATCAAGAAGTTCTTCATGAATTATAATAATTTTATTAGACTTTTTTATTGATTTCTCGATTAGGTTTAAATCTAAAGGTTTTAAACATTTTAAATCAATAACTTCACAATCAACATTAAAATCATTTTCTAAAATATTTGCAACTTCTAAAGTTTTATGTACCATTAAACCATAAGTAAGAAATGTGATATCGTTCCCTTCTTTCTTTACAGAAGATTTTCCAAAAGGATGTAAATAATTTTCATCTGGTTCAATTGAAATTGATGATTCACTTTGATATAATTTTTCATTTTCAAAAAAAATAACAAATGAATTTGACCTACAAGACATTTTTAATAACCCTTTTCCATCCTCAGCATTTGAAGGATAAACTATTTTAATATTAGGTATATTTAAAATACCTGGATTCAACATTAAATTTTCAGAGTCATTTAAATTCGAAAAATCTTTTATTGGCACTCTTAAAACCATTGGCATGTTTAAAAAACTTTGATTTGTAAATAAAAAATTCAAATATTTTAAAGAAGAATATAAATCTTTTAAAGATGTTAATTTTACAATTGGTTTATATCCTGATATTGAAAAACCGATACATGCTCCAATTAAAGAAGAAGAATTGATTGGAAGTGAAATTACTCGTTTATTACTATATTTTTTTTTGAGTCGATTATTAATTTTTTGCTGATCTTTGTCAATTTTACTATAACATAATAATAATTTTTGATTTTCTAAAAATTCTTCAAAAAGAGCATTGTAAATAGATTGAGAAAAATTTATTTTTTGATCAATTGTATTTTTTGTAAAATCAAAATTAAAAGATATATTGCTTGATTTTTCTTTAAAATCAAGATCATCATCAAATAAATTTTGTTCAATTAAAGCTATATTATTATCAATATCTTGATCAATTTTATTTTCTAAGTAACTAAATTCATTTATATCACATATATCAAAATCAGTGATATTGGTTTTTAACTTTAACAATGGGTCGTTATCAAAATTAGACTCTGTTATTTTGTTATAATCATACTCTTTTGCATTTGATGAAAAATGTGAGGCGAGTGAAAAAGCATTTGAAATTATAACACTAGGCCCATTACCCATCCTTGCTCTTTCAACTGACTTTTGAAATGCTAAATTAGACTCAAAAAAATTTACTCCATCAATGTTAACTGTAAATAAATTTTCAAAACCTGATAGATTATTTAAAATATTTTGATCATTTAAATCCAAGTTTTTAGATTTTTGAATATGAAAAATTATTGGTAATTTTTTTAAACAAGAGCATTGAATAGTTTCAAAAAATTCCCCTTTTAACATATCTTTAAAATCAATTGATAAATAAACTACTTGATTTGAATTTTCATTAATTGAAGAAATAGCAGATCCAATTGAAGGCAAAATAACTGACTCTAAAAAACTACCTTTATTAATAATTTTAAAATTATAATAATTATGATTATTTATTTTTTTTGAATCAGAAATAAATTTAGTCAATATTTTTTTTAAATCTACTCCAATACCAATAGAAAATGCTAAATCTCTACTTGATAAATATGACCAGTCTTCTGATGGAATTAAATTATTTGCAGCTGCTATTTGGCAACCTTCAAATCCAGATGAACTAATTGATGAAAATAACTTTTGATTAGAAAATAAATAAAACAATTTTTCATCAAGCTGCCTAGACAGATACATTGATTTATAAATATCTAGAATTTTTTTCTTTGAAAAACCATGAATATTATTCATTACTTAATTTGACCCTATCAAAAGAAAAGTTTTTAACAAAATTTTTAGTAATAATTTTCTTTACTTTATTTATATCAACTTCTTTTTGCAATAAAGATTTCATTGAAGTTACATCATACTGGAAAAGCCCACATGGAATTATACCATCATAAAACTTTAAATTATTATTAATATTCAATGCAAATCCATGCATTGACACCCATTTTGAAAGTTTAACACCTAAAGCTGCAATCTTATAATCATTAACCCAAACTCCTGTAAATCCTGATCTTCGATGTGCTTTAATATTAAACTTTTTTAATGTTTCAATTAATACTATTTCTAGAGTTCGCATAAACCAAGATATACTTAATCTATGATAATGCAAGTCTAAAATAGGATACCCAACTAATTGTCCAGGACCATGAAATGTAACATCTCCTCCTCTTTCAATTTTATATATTGGAATATTAAAATCACGAGATTCAAGCAAATGATTTTGATTAGAGTTTTTACCAAGAGTATATACTGGTTCATGCTCAACAAAAAATAAAGTGTCTGGAATCAAACCTAGCTTTCTATTTTCAACTGCTTTTTTCTGTTTGTCCCAAGCATAGTTATAATCAAATTTAGTTAAATTTATTAAATGTAATTTTTTATTATTATTTTTCAAATTTTTAAATATGTATTGCCTCATTATATGCATCTGCAACTGCTTCCATAAAAGACTCAGAAATAGTTGGATGTGCATGTATTGTATTTAATATTTCATGTTGTGTAGTTTCTAATGTTCTCACAACTCCAGCTTCAGCAATTAATTCTGTTGCCTCAGAACCAATGATATGACAACCCAATAATTCGCCATATTTTTCATCAAAAATAACTTTTACCATTCCATCCGGTTCACCTATTGCTAATGCTTTTCCACTAGCCTGAAGTGGAAATCGACCTACTTTTAGAGAAAAACCTGCTTTTTTTGCAGCATCTTCAGTTAATCCAATAGATGCAACTTGAGGCCTACAATAAGTACATCCAGGTATATTTTGATAATCTATTTTTGTCACATTATTTTTATTTATATGTTCAGCAGAAACTCTTCCCTCAGCTGATGCAACATGAGCTAACCAGGGAGGACCAATAACATCACCAATAGCATAAATATTATCTATAGATGTTTGATAAAATTCATTTGTTTTTATATAACCACTTTCAATTTGAATTCCAATTTTTTCTAACCCAATATTTTCAATATTTCCTTGAACACCAATAGCTACTAATGCAATATCTGATTTAATGTGATTTGAATTGTTGTTTTCGTCAAGTAAGTTAATTTTTAAACCATCCTTTAGTTTTTCTATTTTTTCAACTTTTGTTGATAAATGAATATTAATACCCCTAGATTCAAATGATTTTTTTAAAATTGATGAAATCTCATAATCTTCTAATGGCAACAATTTTGATTGCATTTCAATAAGATTAACTTCTGTACCATACTCTGAAAAAAAACTAGCAAATTCAACTCCAATCGCACCTGCGCCAATAATTGTCATTCTTTTAGGTATTTCCTGCAAAATCATAGCTTCCTTTGATGAAATGACTGATTTACCATCTGTTTCTAAACCAGGAAAAACTTTATTTCTAGCGCCAGTGGCAATAATAATATTTTGACATTCATATAGTTCACTATTACCATCATTAGTAATTACCTCAATTGAATTAGTTGATTTTATAACCCCGCTTCCAGCAATATGTTTTATTTTATTTTTTTTTAACAAATATTCAATCCCTTTTGATAATCTTTTTGAGACGCTTCGACTTCTTTTAATTGTTTTATCAAAATTAACTGAATAATCTTTAATGTCAATTCCATATTGAGATGCATTTTTTATTAAATGTAAAACTTCAGAATCTTTTAGTAATGATTTCGTTGGAATACAACCCCAATTCAAACAAATACCACCTAAACTATCTTTTTCTATAACTGCCACTGATTTACCTAGTTGACTTGCTCTAATAGCAGCAACATAACCACCAGGACCACCACCTAAAACCAAAACATCAAATTTGTTCATGGTTTTTTACTCCCCTTTAATTGTTCTAATAATTTTATTTCAGACTCATAAATAGTTGGATCTGGAGTTTCAAGTATCATTGGCAAATTTGTAAATCTTTTATCATTAACCAAACACCAAAAAGTTTCCATGGTCAACAAACCTTTTCCAATACTTGCATGCCTATCAACCCGTGAACCACATTCTTTCTTTGAATCATTAACATGAAAAACTTTTAAATTATCTAAACCGATTTTTTTATCAAACTCATCAAAAGTACTATTCCATCCATTTTCTGTTCTTATATCAAACCCAGATGCAAAACCATGTTGAGTATCAAAACAAACTCCGATTTTTTCAATTTTAGAAACATTATCTAAAATTGTTTTTAAATGATCAAATTTATAACCAACATTTGTACCTTGTCCTGCTGTATTCTCAATTAAAATTTTTACATTTAATTTTGGTCTATTTTCTATACAATAATTTAAACTTTCTGCAATTCTTTTTAAGCACATTGTCTCATCCGTTTTCATATGTGATCCAGGGTGAAAAACAACATAATTAATTCCCAAATTATCACATCTATCTAATTCCTTTAAAAAAGCAGATCTCGACATTTTTAATTTTTTTTCATCAGGAGAACCCATATTTAATAAATATGAAGCATGACTTACTGATAATTTGGGAGTTTCAAGATCCATTAATTCTTTGAATTTTAAATAATTTTCTTTTTGAGGTTCCTTTGGAAACCATTGATTTTGATTTGCGGTAAAAATTTGAATTGAATTTGCATTAATTAAAGTACCTCTATTTGGTGCATTTTCAATACCTCCAGCTATACTCACATGTGCTCCAATCAATCCCATTGTTATTTATTATTTCCCAATCATTGAAAAAAATTCTTGTCTGGTTTGAATATTTTCTCTGAAAAGCCCTCGAACAGCAGAAGTAATCATAGATGATGATTTTTTTTCAACACCTCTCATTTGCATACACAAATGCTCAGATTCTATAACAACCACAACACCTTTTGGCGATAAAACCTCTTGTAGCGCATCTGCAACATTTTGTGTAAGTCTTTCCTGAACTTGCAATCTTCTTGCATAAACCTCAACAATTCTTGGAATCTTTGACAAACCAATAATTTTCTTATCTGGTAAATATCCAACATGAGCTATCCCTTTAAAAGGTAAAAGATGATGTTCGCATAAAGAAAAGAAATCTATATCTTTTACAGTAACAATTTCATCACAACTTTCTTCAAAAACAGCATCTCCTACAACTTCTTTTGGAGTTTGAGAATAACCTTTAACAAAAGCATGCCAGGCTTTGGCAACCCTTAAAGGAGTTTTTAATAGGCCCTCTCTTTCAGTATTTTCACCAATCTCTTTTAATAAATCTTTAGTTATTTCTTCTATTTTTTTCAAATTGGAATCATTCATTTTCAATTTTTGGTTTAAAAAACCATACTCCTAAATAAAATAAAGGTGTGTCAAACAAAGCAAAGAAAAATTTAAATAGATATGAAGAATAAATTAAGGGAATCAAATCACTTAATTCATTTACATTATCCCCTAAGTTACTTGCATAAAACAAAATTAACAAAATTGAAACCGTATCAACTAATTGACTACCAGTAGTTGAAAAAATATTTCTTAGCCATAAATGTTTACCTTTAGTAAGATTTTTCCAAAAATGAAATAAATTCACATCAACAGTTTGAGCAATTAGATAAGCAATCATAGAAGCTATAACATTACCAATCATGAATTTATAAACAGATTCAAAAACAGAAGTTCCACCTGAAACACCATTTGCATCAGATAAAAAATGACCTAACGTCATCAACCCAAGCATAAAAAAATTCATGGTAAAACCAACAATAACTAAAAATTGTGCTCTTTTTTTACCATACAACTCACAAATTAAATCAGTAGCTAGAAAAGTGAACGGATATGCTAAAACTCCAGCTGGAACAGTAAAAAAATAGAACCTTACAAATTTTGTGGTACCAATTATATTTCCCAAAACTAAAGCTGTCAAGAATATTGCAGATAAAAAAAGAAATAGTTTTTCTTTATATTTCAATATCCTCTCCAAAATAATCTGTATAAATTGTTGGTGTTTCCTTTAAACGAACTCTATATAATTTAACATCAATATCATTTGCAATTTGATTCCAAATCCAAATAACTAAGTTTTCAGTTGAAGGTTGTTTGTTTTTAAACCATTCAATATCTTGATCTATAGTTGAGTGATCTAATAAATCAACAACTTTCATATTTACAACTTTTTTTAAATTACCTAAATCAACTAAAAATCCAGTTTCATGATTAATTTTTCCAGTTACTGTAATCTCAAGTTCATAATTATGTCCATGAAGTTTATGATCTTTTCCAAACACCTGAAAATTTTTATTTTTATCCCAACTAGAATTGGAATATTGATGAGCTGCGCAGAATTTGAAAATTTTTGTTACAAATGGCATAAATAATTATAATCAGACTTATCTATAGTTAAATAATACATGTAAATTTAACGTTTAAAAATTGAATCCAAAAGAGTATACGATAAATAATTTCTAGGCTGAAACATCATTTAATATATTTATCAAATTTTTTCTTAAAGTTGATTTACTAAAAACCCATTTCCAACCTAATTTTTTAATTGATGAAATAAAATCTTTTGTTATATCATTTGATGTAACTATTACAATTTTTTCAGAAAAAGCACTTTTGTATTCATTCAATTTAATTTCATTATAATTATTTAAATCATCTAAATCAATAATTATGTAAGTAAAATGATTGCAATTAAAATCATTTTTATCAAAAAATTTAAACTGAAAATTTGCCATTGATAGGGAATCTGCTAAACTTGTACCAAATTGAAAATCGTCTATATACAATCCAACTTTTATCATTTTTATTATTTCTTAATTTTTTTTATACTAGGAACTAAATTCCAATTAAATTCATCACAATTCTGAATTTTCATTAAACTCTCAGAGCAAACATTTATTTGTGAAATAAATTCAGATGCATATATACCTCGAATATTTGAAGACCATGATCCATTGTTAGGACCCAACCTAGTAAGCTTTTTAATAGCTCTTTCCATTAAATTTTTCGAACCCTTTATATTATTAGTAGATAAATGATAAAATGATACAGTCAATTGAATTAATCCCTGAATAAACAATCTATCTTTCAAATAATAGTCTGACCACATTTCCTCCCATTCTTCATGTGCATCATAAAATTTTTTTTTATTAAATAATTCAACGCCTTTATTAAATAAATAATCTATTTTTTCAAATTCATTCATTTGGATAAATGTTTATCAAAAGAAATCAAATACTCAGATAAAAGAAACAAATAATCATTATTTAAATTTTTAATTAAAAATTGAATTGAATCAATAAACAAATATTTATGAGTCATATTAGAGTTATTATCATATCTCATTACTAATTCAACAGTCCAATTCCAAGTTGACGAAGATTTGGAATGATATAAAAATGAAGAAATAAGAATTGGATCTTTTTTATCCAAACCTTCAATCAATGAATTAACGCTTTTTTTTGAAACTTTAAATTGATTATTTTTATTTTGATTAACTTTAAAGTTTTTTTCAAAAAAAGAAATAATATTTTTTTGAAAATTTAATTGACGTGGACTTTCATAATTCCATAATCTCAATCCAATAGCATATAAAATTAATGAATTAAAATTTTGATTTTCTTCATTTAAAATTGGGAAAAAAATAATTGGATCAGTATTGACTTTATTTAAATTTTTCTCATAATTAAAAGTAATATTTGATTGAATTAAAATATTTATAAAAATCATAAATTCAGAATTTGCAAATCTTCCAGATCTATATATTGAATATGTTAAAGGACCAAGTAAATTAAAATTTGGAATCGATAATTCCATTAAAACCTCTAAAACTGAAATAGGATTATCAGACATAGAAATTATTTTCGCAGCCTCTAACTCAGCAATTTTGTGATTTTTTTGAACAACTGATTTTATAAAAACATCTGTTAATAATGGTGAATTTAACATTTGTGAATCAAGTTCAACTTTTTTGTTTTTTAAATTAATCTTCTGTGATGGAATATTTAATAAAACATCAATTGCTTTTAAAACTATTTCATATGATGGGTTTTTCAAATTTAATGAAGCAATATTCTTAAGAGAATTCAAATCTATTAGTGGATGATCATAGAAATTTTGATTATTAATCTTTACATCTTTATATGACGCTACAATAATAAATATATCTTGAAAGAAATCTTTTAATGAAGTTGAAGATGAAACAACTGATTTTGCAAATTTAAGTATCTCAGGTTTATTTTTTAAATGAATGTTTTTAAGAAATTCATTCATTAACATTAACTTTTTTTACACTTTCATTTGAATTTAATGAAAATGTTAACCTAAGAGAAAGACCTACCAATCTTGAGTGTTGAGTTGGCCATCCTCCAGGTGAAACATGAGGCAAATCAAATCTACCAAATTTTTCTTTATTTTCTTCTTTTGCAACAAACTTATCCCAAGACGGAATATATAATTTTGAAATTGGCATACTTGCAAAATCATGAAAATAACCACCTTCAATTCCAATTTTTCCTTTTCGAAAAATTCCTACTAATATTCCAATTCTTGAGCTAGAACCACTTTCAGAATAAGAACCGTGTGGAATCAGCATTCCTCTTAAAGCCCAATAAAAAGTACTTCCTTCTTTTTTTCCATCTAAAAATTTATAATATGTAAAATCTAAATTAGAGTTTGGCGTTAAACTCCATCCAATATTTAAGACATCTCTTTTTTTTTCTTTTTCATATAATGTTCTGGAATAATCAAAACCGGATCCATAAACTGGAACTCCCAGCCTTAATCCAACATCACTTACTTCTGATAATCCGTATCTATAAAATAAAACAGGAAAAATATTTTCAGTAGATAGGGTATAACCATAATATTGCTCACCTTTTTCAAGTGTGTGATCTGCAATTGTGGGATGAGAAGCACAATTTATAAATAATAAAAAAAAAGGAAATAAATATTTTTTTTTAAAAAACATTTAAATCTTTTTATCCATTAAATCATTTATATCAGAATACATTTTATCAATATCTTCATTAATAGTACTATTATAATAACCCCTTATTTGAGCTTGGTCATCTATGAGAATAAAAAAAGCACTATGAAAAATTGGATTTTCTGCATCACCAACTTTAAAACTTTCTAAAGCAAGAGTGTGAATTTCATTTACATCTCCTGTTAAAAAATTCCATTTTTTAAAATCTGCACTATATCTTTCACCATAATTTTGCAAAATATTAGGTGTATCATATTGAGGATTTACTGATATTGACAAAAGTTTTAAATTACTATTATCTGAATACTTTTCTTGAAAACCTTGAAATTGTGAAGACATTACAGGGCAAGGTCCTGCACAAGTGGTAAAAATAAAATCCGAGATCCAATAATTACCAAACAAATCTTGTTTACTGAATTCATTACCATTTTGATCATATAAAATAAAATTATTTATATTACCAAGAACTGGCAACGTTTTTTTCGAGAAATAATCATTCATCATCAATACCACAAAAACAGGAACTAAAATTAAAATGTATTTAATATATTTCTTTAATTTCAAATTAATCTCCTAACCAAGATTCAAAAATAAATTAAAATGTTTTATCCAATATTAAAATAAATAATAGTATTGGTAAATACATTATAGAACCAATTAATAATCTTTTAGCTTTTTTATATGTCCATTCTGAAAAAGTTTCAATTGATAAATATAGAAAAATTAAACCTATAAATAATGAACCATATAAAAATAATTCATCTGTTAGTCCAATCCATGTTAAAGAAGATGTAGAAATAATTAATAATATTGTAAAAAAAACACAATAAAATGAAGTTTTTTTCAAATTATAATCATAAATAGGTAACATTTTAAACCCAACTTTTGCGTAGTCTTCCCTATAAATCCAAGCAATAGAATAAAAATGAGGTATTTGCCAGAAAAATAAAATGCTAAATAAAATTAATCCACCTAGTTCTATTGTTCCAGTCCCTGCAACCCAACCACCTAATGGGGGTAGTGCTCCAGGAATAGCTCCTATCCATGTATTTAAGTTGGTTTTCATTTTTAACGGAGTATAGACAATAACGTACAAAAATATAGTTAAGAACGCTATGAAACCAACCATGATATCAACAAATATAAAAAAAATTACAACCCCTATTGCTGATATATAAGTACCAAAATTTCTCGCTGTATTAGGATTAATTCTTGATGAGGGTAAAGGACGATTTTTTGTTCTATTCATATTTTTATCTAAATCTTTCTCTAAAAATTGATTTAATATACTTGCACCTGAACAAACGCACATTGTTCCAATTATTGTATAAATAATTTTTAAAAAATTAAATGAAAATAAATTATTATTAATTGAGCCTAGATAATAACCAAGTATTGTTGAAAGCACAACTAACCACATAATTCTAGGTTTGGACAATTCTAAAAAAGAGAAAAATAAATTTGTTATAGAATTTTTATTTATTTTTTTTGAATTGTCTTTGGAAAACAAAAATGAAAAAAAACTTTTATTAATTTGGTATGAATTAAATGATTTTAACAATAGCAAAAAAGATGAACCTAATATCAACGCACCAGTCCAAACATGAAAAGTGGTTATCAATGGAGATTTTCTAGTCCATATTACAAATGCTGCTAGAAAAATTTGAGTTATAACAAGAAGAGTAATAAATAAAACTGGAATTAAAAGTTTATCATTGCCTCTATGAAATTTTAAAGTATGTAATAATAAAATTCCATTTGTTACAAAAACAATAATTGCACCAATTCTATGTAAGATATGAGTTGTAATTTGAAATAAATTTACTGAATTGAGACCAAGGTCAAACCTTAAATAATTAATTGAAGAAAGTAAATTTTCATTTGGAAAAGGAATCAATTGTCCGTTTGATAGTGGAAAATCAAGTATTGCCAAACCTGAATTTGTATGCCTCATTAATGCACCCAATATTAATTGTAGGTATACCATCAATGTTAAAACGAAAACCAATTTAATAAATTTTGAATGGTGACGTAGTAATGTATTTTTCTTAGAATCTTTTTTTATTGTTAAATAAAATGAAATCGCAATTGTTATACAAAAAAAAGTCTGTGCTAAAATACCATGAGCCATTGAAATCAAGGTTGGTAATAGAAATATTACTGTTAATCCTCCCAAAAGACCTTGTAGAACAACTGTAAACAAAGCTGCAAAACCTAATTTTTTAAGCCAAATTCTAGATTCTACTTTCCAAACCCAAAAAGATAATATCAAAATTAAAAAACCAACAAAAGATGCAAACAATCTATGTAAATGCTCATAGAAAATTCCACCAACCCATTTTGAATATGGAAAAGAAAACATAAATTCACCATATGTGTTTGGCCAATCTGGAACAGAAAGACCAGATTCATGACTTTTAACCAATCCACCCAAAAAAATTAGCCCTAACGTACAAAAGGCGGTAAACTGAGAATACCGCCTTAACCAAAAATGTGAGTTTTTTTTAAAAAAATTCAATTAAAATATATTTTATTACCAGTCATCTCCCCAATCATCCCAAGCATCATCACCACCACCAGATGATTCTTTGTCAATTTTAGCTTGTTCAGCTTGTGATAATGCAAAAACAGCTAAATCTTCTGCTTTAGACGAGTCATCTTTTTTTAGGAAATCAATAACTTGAGAAAGGGTAGCTTCTACTTCATAAGTAAAATCATAATCATCAATTTGCTGAATCACACTTAATGCTTTCATATAGGCATCAAATCCTTTTTGGGTGTGAACATGCACGTAACCCTTCATTATGTAGTGACTATTACCACATAATTGCGCACATGCTATTTCCCATGAACCTGTTTTAGTAGGTGTAAACCAAAATGGAATGCTTATTCCTGGAATAGCATCTTGCTTCACCCTCATTACAGGTATAAAAAAACTATGTATAACATCTCTAGTAGTCATTTCAATAGTAATATCTTTATTTACTGGCAAATGCATGTGTCCTTGTGTAGGGATTATATCATCACTAGCAAAAGTATCTTTTCTATCTAAACCTATAAAATTTAATCCTTGATCATCAATTAAATCAGGAGATGTTCTACCAAAAACTCCATCTTCTCCAGGGTACCTCATATTCCACTTAAATTGTTGAGCCACAACTTTAATGACTTCAGACTTAGATGGGTCAGGAACATTCTCAACTCTATTTGCCCAAACAGGAAACGAAAAACCTACCAAGAGAATAATTTCAAAAATAGCTACAGCAGCTTCAGAGTATGTTGAATAATGGTTTTTCATTCCTTTAGAGTCAGCAGGAACATTAGGTTTTTTTCTAAACTTAATTAATGTGTATATAAAAAATGTCCCCCATCCAACAAATAAAATTAGCATTAAAATATGAACCCATGACATCACAGAATCTATTGATTGTGATTGAGCCGTAAAACCATCTGGAAGACCTGATCGTCGCAATAATTCAAGCATTTAAAAACCCTTTAATTCTTTGTTAATTTGTTTTTGCCTTTTATTCAAAAAAACAACAAAGGAAATTATTCCACCTAATACAGTTCCAGTAACTCCAATTAAAGCTATTATAGCCATGTTTAAACCCTGAGACAATTCATCATTTGAATTAGCTCCATAACACACACTACAAGCCATTGAAAGAGAGGGAATAAGTGTTAAAAATAGTATAATAATATTTTTTCTCATAAATAACTCACATCTTTTAATTTTTTTAAAAACCAAAAACCATAAATAATTAGAGAAATACTAAATATCATCCCTAATAATCCAAATATAAAAAAACTTTCATTTGCTATAAATAAAGCCCAGTATGAAAACCCAAAGCTTAAAATAGTTGAAAGACTAATCAGTATAAGATGAAGTGCTTTTAATGACACCTTGTTCAATTTCTCCTACTTGATTATAAATGCTCCCAAATGTGATAAAAAATAATGAGCAAAGCAAAACTACCGTGATTCCTAAAAAAAGATAAATAATTTTTTTTTCATGAAACAAGTGCATGAAAAAACCAGCAACTAAAGTACCCTTTATAGAAGCAACAATCATTGCCAACAATACAGCTATCCACATTTTACCAACATCAATATAAGCAATAGCTACAGTAATTACTGTTAAAACACCCAGTGCAAAAAATATTCTAATATACTGATTAATTTCTTTTTTTATATCTTTTGAATTACTCATGTTATGACCCTGGAAGTAAATAAATTGTTGGAAATAAAAAAATCCATACAATATCAACAAAATGCCAATAAAGACCAGCTGTTTCAATCCTATTACAAAACCTTTCAGGTTCTTTATTATACATTTTTAAACCAGGTCCTAAAAAATATAAATTTACAATTAAACCACCAATTATATGAATTGCATGTAAACCAGTAATAGTATAATAAGTAGCATAAAAATTATTTTCACTAGGTATATGACCATGATCTATTTTAGGCAAATATTCAAAATATATTTTTATAAATAAAAATAGAGCACCTAGCAATATTGTAGCACCCATATAAATCTTATATTTTTGTATGTCTTTTGACCTTATAGAAGTCCAACTTAATAAAATTGTAACACTTGAAATAATTAATATTAATGTATTTAAAGTTCCGATAGGAACATTTAAAACATCTGGACCTGCATACCAACTAGGTGCAGCTGCTCTTAAAAGTATATATGATGAAAATAAAGCACCAAACAACATTACCTCTGAAGCTAAGAATAACCAAATTCCTAATTTTGAATTATATAAACCAGTGTCCAATCTTGGTTTAACTGTATATGGAACTTCCATAATTATACTTTCTCCGATTTTTTATTTTGTGGAACAAAATCAATGCCTTCTTTTAATGCATCTTCAGTACTGTATTCATATGCAGGACGATATACATTTGGAATTTCTTTGAAATTTAAATGTGGAAGAGGAGGAGATGGAGCTGCACTCCATTCAAGAGTTGTTGCATCCCAAGGATTACTAGATGCTTTTTTACCTTTAAATAAACTATAAATCAAATTAAAAATAAAAAAGAATTGAAATAAAAATAACATCTGAGATGAAAAAGCCATAAAGTCATTATATTGTATTGCTCCTTGTGCGTGCACATATGACTCACCTCCATCATACAATCTCCTTGAAACACCAGCAAGACCTTGAAAAAACATTGGGAAAAAAATTCCATTCATAAAAATTAAAGAACCATAAAAATGTATTTTACCCAACAATTCATTTGTTGTTTTTCCTGTAACTTTTGGAAACCAATAATAAATACCTGCAATCAATGCAAAAATGGTTCCTGGAGCAACAACATAATGAAAATGTCCTATGACATAATAAGTATCATGTAAATGTATATCTGCTGATGCTAAACCCAAAGGTAAACCAGTTAATCCACCAATACCAAACATTGGCAAAAAAGCTAAAGCAAATAACATAGGAGTATTAAATCTAATTGATCCACCCCATAATGATATGAATAAAGAAGATAAAATGATTACAGAAGGAATGGAAATTATCATTGTGGTTGTCTGAAAAAAAGCAGCCATTGTTGTACCCATCCCAGTTAGGAACATATGATGTGCCCAAACCACAAAGGACATAAATCCTAAAAATATTCCAGAATAAACCATTGACCTATAACCCCATAATGGTTTTCTTGAATTATTTGCTAAAACTTCAGCAACAATTCCTAGAGCTGGTAAAATCAAAACATAAACTTCGGGATGAGCTAAAAACCAAAAGAGATGTTGCCACAACAAAGGAGTACCTCCACCAGCTACATTTAGAACCTCTCCTCCAACATATAAACCAGAAGGAAGAAAAAAACTTGTACCAAAAACCCTATCCATAAATTGAAAAATAGCAGCTGCCTGTAATGGAGGAAATGCTAATAAAAGCAAGAAAGCAGTTATAAATTGTGTCCAAACAAAAAAAGGTAGCCTCATCCATGTTAACCCTGGAGCTCTTAATTGAACTACAGTAACAATTATATTTGCTGACCCTAGCAATGAAGAAGTTATCAAAAATAGCATAGATATCAGCCATATTGTTTCTCCAGTATTAGCAATACTTGCAAGAGGAGCATACATTGTCCATCCAGAAGATGCTGTTCCTGATGGCATAAAAAAACTTGACAACATGATTACACCACCAACAAAATAGACCCAATAACTTGCCATATTTAATTTCGGAAATGCCATATCTGGTGCACCAACTTGTATTGGAACAACATAATTTCCAAAAGCACCAACAGCTAGTGGAACTACTCCTAAGAAAACCATAATTGTTCCGTGCATCGCACCAAATGAGTTATATTTATCAGGAGTAAGCATACCTTCTTCTGATAGCAATCCTCCAATAAATGGTACAGCTTGACCAGGATTAGCAATATTCCACCTCATAACCAACATTAAGATAAATCCAAAAAGTAAAAACAATAGTGAAGTTATTCCATATTGGATACCAATAATCTTATGGTCGACTGAAAATATATATTTACGCCAAAAAGGCTCATTATGATGATCAGACAAATTTTACTCCTTTTTTGGTGGTCTTTTCATTACGAAATCTACAGAAGTTTCACCATCAGCGTCAACTTTGATTGTAGCAGTTTTTGAAGGCAATCTTTCGTGCCATGCCTTAAGAGTGTATTCACCAGGTGGTAAATTTTCGATAGTGAAGTTTCCATTTTCATCAGTGACAGCATAAAAGGGATGATTAACAACTCCAATATATGCTCCCATCCATGGATGAACATCACATTTCATTCTAACCATTACTTCAGCATCATCAAATTTTTTAGTTATTTTTTTTCTAGCTCCTGGCATTGCCTCATTAAATGCTTTATTATTTTTATTTTTAGGCATTGAATGAACATTATGCAATGTACCATCACTATTTAAAATGTCTATATTTTGACCTACTTGAACCCCTGAAACATGTGGAACATAAACACAGCCAATCTGATCAAGTACAACAGACTCTGATGGGACTTCAAATTTCTTTCCATTTAAACCCTCTTCAACATAAACAAATACGTTTTTTAGAGAACCATCATCTTTAGCAAGCAACCACTCAGACCTAGCAGGGCCACCAGCATGCTGACCATCACAAATTGGGTCAGCTGCCATTTTTATTGGTTTCATTTTTGGAATTCCACCCTCATATTTGACATTTCCTTTTACATCACCTGCAAAAGCGAAATTTGATTTTAATAAAATCAAACAAACTATTAAAAAAAACCTATTCAAAAAATACATTTTTCCTCCATTATTAAATAATATCTTTTACCAATCATCATCTCCCCAATCATCAAACTCATCATATTCATCAGTTTCTTCTTGGGGATTAAGAAAATCATAACCATTTTCTTCAAAAAAACTAGAAATTTGAGTTGAAATATCTTCCTTACCTGAAATTGTATAAACATAATTAGTCAAACCTCTTAAAAGATCATCTTCTTTACCAGCTAATTGCATTAAATCCGTTCCAAAAATTTCAGAAGCATCTGCAGTAGATAATTCTTCTTTACTTGGAATATATGGTTTTGGCATTTTTGTTCCAGGCATAATTTGCTGAGGGTTTCTAAACCATTCGACCAACCAATCAGCTCTTAATCTTTTTTTGGAAAGAGCTAAGTTTGGCGCCCAGGTTTGAGGGTCTCCAGTAGGTAATTCTTCGCCATAAAAGTGACAACTATTACACGCTCCCATATCATGTATAACTTTTCCTGACCTAAACATAGGATTATTTTTATCTACAATATAATCAGCTTCATATTGGACAGTATGATTATCCCAATATTGAAAATAAGAAATTAAGTCATTCCATTTCTTTTCCCCTAAACCAAATGAAGGCATTCTAACCATTATATTAGGTCGAATGGTTTTAGGATTTTCAAAAAAAGATAACAACCAGTCAGGATGAACTTTTGCTCCTTCAGTATTTAAATTTGGAGGACCATATTCTGGATTAGATTCATAATGAGCTAAAATATCTCCACCTCTACCCTCCATTATATGACAACCCATACAATTATTCTGTTTAACAACCCATTGACCTTCTTCAATAAAATCTTTTTTTGGAGTAGAAGATGGTACTTTATTAGGATCATTATTCAAAGCTAAAATATAGGTTGTAATCTTTTCTGCTTCATAATCACTAAATCCAAATTTAGGCATTCTCAAACCATCATAAGGACCAGCTACTTTGTTTTTATCAAAACTTCTTGGGTATTTTATTTTTTGTTTAAACCAAGAAATTCTATCGTGAGGTATTTTTACAAAACCAAAATCAAGTTTATTTAATGGTTTACTTCCTTCTCCATCCAAAGCAACACCTATTCTTTTTGCATCTTGATAACCCGGAATTACATGACATCCAGTGCAACCATAGTGTTGAACTAATTTTGATCCATTATAATCTATTTTCTCTTCAAGAGACATATCAGAGACAATTTCTTCAACTACTTTGTTTGAGTTTGATTTGGATAAAAACTCCTTCGCAATAAAAGATTGCATATCTTCATCAACAGGTGAAATATCAGTTGACATAAAATCATCATTTTTAAATTCAAGTAAATAACTTGTTAAATCAGCAGCTTGTTTATCAGATAATCTTAAATTAGGCATTAAAGTCTCTGGATGATAATTTTTTGGGTTTTTTAACCAATTAAACAACCATTGTTTATTTGTTTTTGAACCTAAACCAATAAGATTGGGTCCATATTCTTGTCGCAGAGTTGCAACAGTGTGTATGATTTCAACCGGCTCTTCTTGAATTTGATGACACCCCTTACATCCAAGATTATTATATAAATTTTCTCCATTTGAAAAATCACCAATTAATGTATTATTTTCCATTTTAAATGGTTCACTATTATCGAATAAATAATCAACAATAGCATGAATTTCTTGATTTGTTCTTAATGAATCAGTTTCATTTTCCCATTCCATCAATTCAAAAAAATTAGGCATCCAAGTATTATGTCTAAAATTTTGAGGATTTATGACCCATCTATATGTCCATTCTTTATCAGTCTTAGATGAGAGATGAGTTAAATTAGGGCCAATTCTTTGATTTAAATTTCCATCATACCTTTCAACATAATGACAACCATTACATGAGGCTTTTTCAAAAAGGGCCAAACCAATATTTAAGTCTTTTGACTCTGGAATTGAAGCTTCTGAGGAATGACATTTAAGACATCCTGCTTCATAATGCTGACTAGGATACATAGGTGTTTGCCAGTGATGCATTTCCTTCCAATCATATTTTTTTACCCATTCTTCTTCTTGCTCAGGTGATGAGGGTGAATGAGTAGAGGTAGTAAAATCTGTACCTCGACCTCTTCCAGCATGACAACTAGTGCAACCAAATTCCTCATTTGAATGCGCAGACGCACTTGAAACATATAAATCTAAATTAGGATGAGTTGTATATGGTTGAGGAGCATCTTCATAACCTTTTTTGTCAATACCTAAATGACATGTCATACATCTATCAACTCTACTGACTTCGGCAAAGATCATATTTTCCTTTATATCTGGAATGATTACTTGATTAATTTTATAATATGGATTTGATAAATCAAGAATAGGTAAATCTCTAATAAAATTAGCAATCTTATTTGGAAGAGTCATTGAATTTGGATCAACAGTTTTTAATTTTCTATCATATAAATTTTTCTGCATTTCCAATTGTGTTATCTTAGATAAAGATTGATCGTAAGAAGCAGTAATTTGACTTAATTTATTATTTTCGTTTAACAAACTGGCTTCAATGTCTTGAACCAACAAAGTATTCTTTTCTACATCACTGAAAAGTAAATCCATATTTTTTTTTGCTGATTCTATTTTTTTTGAACTGTAATAAGTTACAGCATATTCATATTCAAATTTTGCTACATCATAAACAGATTTTGCAAATCCTAATTCTTGATTGAATTTGAATTGATCATCTTTTAATTTAGATATTATTTCTCCAATTGAATCAATGTTGGCTTTTTTTACATTCAAATCAATTTGTGATTTTTCTAACTCATTAAGAGCAAGCTTATAATCCTCTAATTCTTCAATTCTTGAAGATTCATCACTCAAAAGATCAATTGTTAAATTTGATTCTAGCTGTCGGAATTCTTTTTGATAATCCTTCCATGAACGAACATAGTCATCTGCAAATGTCCATAAAATAAGAAAAAATAAAAACAAACTAGACATTGCAAAGAGTCTGTTTAAATTAAAAATATCGTAATGTGTTTCTTTAATTGACATAGTGAATTATATATTAAAAAAGTACTCCGGTATTGATATTAAATATTTCAAATTAAAAAACCATCTTAAATACATTTTAATTGGCAAAGAAATCATAGTAAGTGCTAAAAAAACAAACACAGCATAACTAAACACACCAATCTTTTCATAAATACGTTTGAAAATAGTTTTAGCAAATAATGGAGGTAGAATCAAAAAATACCCAAAGACTAAAATAAAACCAAATATTTCTCTGATTAAAATATTGTTTGGTAAACCTTGATTCAAAAAACGTATATATATTATTTCTGAGAGATTTATGTTTGTAAGCGGTTCAAGCTTATGAGTATCCCAGTATTCAAACGGACCAAAAAAATTCCAGTTTGGGCCCCTCAAAAAAGTCCCAACAATTATCAATAAATTCCATAAAACAATCCATCCAAACAAATAGACAAAAATTGCTAATCTTCTATTTTTATATTGATAAAATCCAGAACCTTCAGGGTTTCTATCTAAATACGGAATAGCAATTAAACCGAAAACTATAATCCCAGGCATTACGACCCCTGCAATCCATGGATCAAAATATACTAACATTTCTTGGAGACCCAAAAAGTACCAAGGTGCTTTTGAGGGATTAGGAGTAGCTGCAGGGTTGGCTGGTTCTTCTAATGGAGCGGACAATCCAATTGACCATATAAGCATAAAAGCCGTACATAATATTAAAGATATGAATTCTACATAAACTAGGTCAGGCCAAACCAAAACTTTTTGCTCTACTGGATAGTATTCATCAGGCTTTTGACCAGACTCAAGCCTATTATCATTAGCAACAGCCTGCTTCATACTAAGCCACAAAAAGAAATAAGCTAAAAAAAGCAATCCAACAATTGGAACGTTATCAGGTTTTAAAACTATTTTTTGAAAATCAGGATCATCTAGACCTATCAAAAGAAAGCCTATAAATCCAATCATTACAAGGACTAATCCAGCATTAGTCCAAAGATAATTAAGCCTAAATCTTTTGTGCCATTTATCAAAAAAATTATTAATAGGGAAAAAAAATGGAAAACCAATAAAAAATAATGTGAACATTATTGTAGGTTGAGATAAATAATCTATAAAATTTTTAAATTGATCCACAGTTAAAATTCAAGCCTAAGTAGGACCTGATATTCCCCCATCTTTTCTTACTCTCCAAAAATGAACGGCCATCAAAATCATAACAATAAATGGTAATCCAATGCAATGTAAGACATAAAATCTCAATAAAGCTCCTTCACCAACAAAACGACCTCCAATTAAACCAAATCTAGCATCAGCTCCCATATGAACAAAATTAATATCTCCAAGAGCAAGTAATGCGGCTCCGGGACCTTCACTACCTAAAAATGGTGTAGCCCTAGCCATATTTCCACCAACTGTTATAGCCCAAATAGCTAACTGATCCCAAGGTAAAAGATATCCAGTAAAACTTAACAATAATGTTAAAACAAGCAATATTACCCCAACTCCCCAATTAAATTCTCTTGGTGGCTTGTAAGAACCTGTCATAAAAACTCTAAACATGTGTAACCAAGTTGTAATGACCATTGCGTGAGCACCCCATCTGTGAATTTCTCTCATTATACCTAAGGGTACCTGCTCTGCCATATCAATAATATCATTATAAGCATATTCTGCTGTTGGCCTGTAATAAAACATTAATAAAATACCTGAAATAGTTAATACTAAAAAAAGGAAAAATGTCAATCCTCCCATACACCAAGTGAATTTAAGTTTAACAGCATGCCTAGGTAGCCTTACAGGATGAAGATGTAAAAAAACACTATTAAGAACGGTCATCATTTTTTGTCTTCGGGTTTTTGGAATACCAGAGCGAAATACAGACTTCCAAACTTGGCTATCTTGAATAAGTTCAAAAATATTTTTCTTTTTGGACATTAACTAAAGCTCCTAAAATTAAATTTTTAAAAAGGATTCAGGGTCAGACCATTGACCTTTTTCCTGCTGATATCTTCTACTTTTATCTACTAAAATCTGACCATCATCTCCAAGAACGATTCTATATCTTTCTAAAGGTCTAGGTGCAGGACCTTCAAAATGTATTCCAGTTTTTCTAAAACCACTTCCATGACATGGACATTTAAATTTATTTTCATTTTCAAGCCAACTCGGAGCACATCCTAAATGGGTGCAAACAGTAGAAAGTGCATAAATTCCTTCAGTATTCCTAACTATCCAAGTTCCAAATTTATCTTGCCACCTTAAATCTACAACATCCACTTCATAATCAGAGGGAATTCCTATTTTAAAAGACTGAGGAGGTTCAAATAAAACATTTGGGAAAAACAATCTTAATGGCATAGTAAGCAAGCCACCTAATGCGGCGGCAAATGTAATCCAAGCAAATGTAATCCAAGAAATAAAAGATCTTCTTTCAATCGTAGAGTTATTTGAATCTAAACCAATTGAAGGTTTTGGTGCAGAACCTATTTTCTTTTCTTCTAATTTTTTACTAGACATTCGATAATCCTCATAATGCAAGTGCTTTCATAGCTTCATCTCTAAGTTTTAAGTTATCATCTTTTTGACTAATTGATAAAACAGCTTTATCAATATCTTGATCATTAAGCAAGGGGGAAATCTTAACAGCAACCATTAAAACTTGTTCCTTTTCATATCTATCAATTGATTCAAATTTATTTAAATAATTTCTATCAAGTAAGTTTAAAATTTCATTTTTTCCGGAAGAGTCACCATGCTTTGCTAAAGAAATTGCTGCATTCCATCTAACATTAGGTTCAACATCATTTAAAAGATCTTTCAAAGCAAAGGTTCCAGATGTTTTTGGCATTTCACCTAGAGCTACAGCTATACGATTTCTAACAAGTGATGATGAATTATAAATTAATTTTGCAATTAAATCAACATTTGAATATTCGTTATAAAAACTTAATGCATAAACTGCATCAGCAATAACATTTTCATTTTCTTGATTTATAGCTGATTTAATCGTATCGAGAAACCTAGAATCTTTAGTTTGTCCCATAGCTCTAATTAAATATTGTCTGACTTGAGTATTTGGATCTAACAATGCATATTCATAGGCAGAAAGCATTTCATTAGCAAACCTATCTGAAATTGGATATTGATCTTTATCATTTAGCAATCTAGACAACTCATATGCTGATTGCCATCTTTTGGTTGCACCCCCTACCTTAATGTCTACTATATATTCTTCAATACTTTTTGATTCGTAAGTCAATAAACTCCAAATAAAAAATATAAGAACACCAAATGCAGCAATTAAAAAAGGAACCACAAAAAAAGAATGAACAATTACTCTAATCGTTGATTTTTCAGATTCCGCGTTTTTCATCAAATCATGCTTTCATTCTTAAGCTTACAAATATACACCAACTAATTTACTATAAACAGTAAATCACCTGCAAAAAAAATCGACAAAAAAATTTAAAAAAGTACCGCGGGAGAGACTCGAACTCTCACATCAAAAAGATACTAGCTCCTAAGGCTAGCGTGTCTACCAATTCCACCACCGCGGCTATACTATTGCAATCTAAAATATTCATTAAATATCTAATGAGTATTTTAAATCATTTATTAAATCATCTGAATCTTCAATTCCAACTGACAGACGAATTAGAGTAGGAGTAATACCCATATCAAGTTTTAATTTTTCAGGCATAGAAACATGAGTCATTTTATTAGGAACACATATTAAACTTTCAACACCACCTAAACTTTCAGCTAAAGTAAATAAACTTAATTTTTTTAAAAACTGATCTCTAAGCTCAATTTTTTCCAAGTCTAAACTGATCATATTACCAAAAATACTTTCACCAATTGGGTTGATTTGTTGTTTTTTTGCTATTTCAAATTGAGGATGATTTTCAAGGCCAGGGTAAATAATTTTAAAATTAAAATTATTTGACAACCAATTAGCTATTTTTATAGCACTATCTGATGCTTTCTGATACCTCATTGAAAGAGTTTTCACTGATCTCAATAATAACCAACAATCAAAAGGGCTTGGAACAGCTCCAGTAGACTTTTGAATAAAATGCAATTTTTCTGCAATTGAAGAATTGTTTGTTAATAAGATACCTCCAACTAAATCTGAATGACCACCAATTGATTTAGTTGTACTATGCATAACAATATCTGCTCCAAAAGTAATCGGTCTTTGACCATAAGGACTCATAAAAGTATTATCAATACATAATAAAATATTCAAATCTTTTGATATTTTTGAAACTTCTTCTATATCTGTTATTTCTAAAGAGGGATTCGTTGGCGTTTCAATAAATATGATTTTAGTATTAGGTTTAATTGAATCTTTGATATTATTTGAGGATGTTGTGTCTATCCAATCAAATTGAATTCCATGTCGAGACATAATTTTTGATGACATTCTATATGTTCCACCATATACATTTTTTGAAATAATAATATGATCACCACTATCCAATAGTTGAAAAAGAGACATAATAGCAGCCATTCCGGAAGAAAAAGCAATTCCAAACTCAGCTCCTTCAAGTGATGCTAAATTTTTTTCTAAATTTCTTCTATTAGGATTATCTGCCCTTGAATAATCATAATTTATTACACCATCAATTTCCTCAAGCTTAAAAGTAGATGATAAATTAATAGGTGGAATAACTGAACCTGAATCTGAATCCGGCTGATTTCCAACATGAATTGCCTTAGTTGAAAAATTTAAATCTTTTTTATTATTTTTTTTCAAATTTCATTCCTTAATATATAATGACATAATTAAAATTTTATGCTTTTACCCACTTTCCACTATCTATTAGTGGTTTTGCTTTTTTCCATTTTAGTTCTTTTGTTTCTTTACCATTGGTAATGATGATTTTATCATTTCTTCCTAATTTTGCTTCAATTTTAATAGGCATATCTTTTGGAATTTTAGAGTTAGGTACATTTTTGATTGGTTTTTTAGGTGTTGCAATCATACCATCTATACTTGATTGAGATGCTTTACTATCTAAAGTTTTAATTTTTTGATTATTGATTATTTTAGGAGCTTGATCCATTCCATGCAATCTGGTTCTGAATAATCTTTGAAGAGTATTTTTATTGACTTCATCTAAAAAATTTACAAACAAATCAAAACCTTCTGATTTATACTCAAGAAGAGGGTCTTTTTGTCCATAAGCTCTAAGATTAATTCCTTCTCTTAACTGATCCATCCCATAAAGATGATCTCTCCACATTTCATCAATCGTTCTTAAAGTTACATATCTCTCAAAACCTCTCATCACATCAGAGGGGACAAAACTTTCCCTAAGATCATAAATTTTTTCAATGTTTTCTAAAATATTTTTTTTTAATTCTTTTTTATCATTAGAATTTTTTATTTCAGAATTTAATTCCAAGGTGAAAATTGAAGATAACTCGTTTTCAATATAATCCCAATTCCATTCTTGAGAATCTTCTTCTGATTCACCAATATTATCTAAAAATACATCAACATAATCCTCTTGAATATTTAAAATCTCTTTTTTGATATTATTTCCATGCAATGCTTCATTTCTTCGGTTATAAACAACTTCTCTTTGCTGATTCATCACATCATCATACTCTAAAAGTCTTTTACGAATAGAAAAGTTTCTTCCTTCCACTTTTTTTTGAGCTCTTTCAATAGATTTTGTTACCATGCCAGCAGTAATAACTTCACCTTCCTCAACTCCCAACCTATCCATTATTGAAGCAATTCTTTCACTATTAAAAAGCCTCATTAAATCATCCTCTAAACTCAAATAAAAAACGGATGAACCAGGATCTCCTTGACGTCCAGACCTTCCTCTTAATTGCAGATCAATTCTTCTAGACTCATGTCTCTCTGTTCCAATAATATGCAACCCACCTAAATCAACCATATCATTTTTTAATTTTATATCTGTACCTCTGCCAGCCATATTTGTTGCGATTGTGACTGCAGATTTATTTCCAGCCATTGATATGATCTCAGCTTCTCTTTGATGTTGCTTAGCATTCAAAACATTATGAGGTATTCCTCTTCTTTTTAAAATTCTAGAAAGAGTTTCAGACGCTTCAACACTAATTGTACCTACAAGCGAAGGTTGCCCTTTTTCATAGCAATTTTGAATCTCATCTATAACTGCATTAAATTTTTCTCTTTTTGTCTTATATATAAGATCATTTCTATCGTCTCTTATTATATCTCTATTGGTAGGAATAACTGTCACATCAAGTTTATATATAGAATGTAATTCCTCTGATTCGGTTTCAGCAGTCCCTGTCATTCCAGATAGTTTATGATATAATCTAAAATAATTTTGAATCGTAATTGTTGCAAGAGTTTGAGTTTCCCTTTCAATTGTAACATTTTCTTTAGCTTCTAATGCTTGGTGAAGTCCTTCACTATATCTTCTACCAGAAAGTATTCTACCAGTAAATTCATCTACGATCAATACTTTACCATCTTGAACAACATAGTCTACATCTTTTTCATACAAAGAATATGCTCTTAACAATTGAGTTATATTATGAATTTGCTCACTTCTTGAGCTATGCAATAACCTAGCCTCTTCAGATAATTCATTTATTTTTGAAACATCTGATTCTTTTGATTGAATATCATCTAACATTTCACCAAGATCTGGAATCACAAACATTTCAGGATCTTTTGGAGATAATGCTACTCTCCCTTTTTCAGTTAGATCAATAACATTACTTTGTTCATCAATTGAGAAAAATAAATTTTCATCAACTTCATGTAGTTTTTTATCTCTTAGATATTCAGATTCAACATCTACTGCAAGCTTTCTTGTCCCTTTTTCTTGAAAGATTTTTAGAAGTCTTTTATTTTTAGGTGACCCTCTTAACGCTTGTAATAATTTCAAACCAGCTTGACTTTTGTCATCTTTTGATAATAATTCTTCAGAATCAGAAACTAAAGAATTTACAAGGAGGTTTTGTTCTCTAATTAATTTTTGAACTACGGGTCTCAAATCTTTAAAAGTAGAATTTGTAGGTTTATCTACAGCACCGGAAATAATCAATGGTGTTCTTGCTTCATCAATTAAAATAGAATCTACTTCATCAATGATTGCATAAGTATGCCCTCTTTGAACTTGTTCTTCTTTAGAAAGTGCCATATTATCGCGCAAATAATCAAAACCAAATTCATTGTTTGTACCATAAGTAATATCTTTAGAATAAATTTCTCTTCTTTGGTCTGGATTCATATCATTTAATATAGAACCAACCGAAAGCCCTAATCTTCTAAATATTTCACCCATCCATTCAGAATCTCTTTTTGCTAGATAATCATTTACTGTTATTACATGAACCCCTTTACCTGTTAAAGCATTCAAATATAATGGCATAGAAGCTACTAGTGTTTTACCTTCACCAGTTTTCATTTCAGCTACTTTTCCTCTATGTAAAATGATTGCCCCAATGATCTGAACATCATATGGTACCATATCCCATTTAATATTTTGACCTGCTACCGACCACTCTTGACCAACTAATCTTCGACAAGTTTCCTTTACAATTGCAAATGCCTCAGGTAAAATTTCATTCAATATTTCTTGATGAGCATCGTATTCTAATTTTGAAATTTTCTCTCTCGAGAGATCTTGATTTAATTTATCAGATTTGATTTCCTCTGAACAGGAATTAAGTAATGTTTGAAATTCCTGAGTTTTTTTAACTAATTGATCATCAGACTCATTCTCTAAAGATTTAGATATTTTATTAACTTCATCTACAATGGGAAGGAGTTTTTGAATTTCTCTTTCTGATTTTGTTCCAAAAATATTTTTTAAAAAATTAATAGCCATATATTATCTTCTATTCATTATTTAAAACTTGATAAAAAGAATCAAGAATTCCATTAACAAAAGAACTGCTTTCATCTGTGCTAAATTTTCTAGCAATTTCCACTCCTTCTGTTATACTAACTTTAAGAGGAACTTCTTCCACAAAAAACATTTCAACAATCATCATTTGTAAAATCAATAAATCAATAGTAGCAACTCTTGTTATATCCCAATTTTCTAATTTTTGTTCAATTTTTTCACGGGACCATTTCGATTTTTCAATATTTAGATCATATAATTTATTAATAAATGTTTTACCATTTTTATCAATAACATGATTTTTTAAAATAATTTTTAAAAAATCATTTTTTTTTGACTTAGAAATATCCAAATCAGAATCAATTTTATTTAATTCATAAGCATAAAGTGCTTGCAAAACTATCTCACGACTAATTCTTCTGGTAATATTTTTATTTTTTGACATTAATTTATTTCTACAGGATGGATCCAACCAAAAGGATCCTCTCTTTTTTGAAGCTGAATATCTGTAAGAATTTCTCTTAATTTCAATGATATTGGCCCTATTTCATCTGAGATCTTTGTAGTTGCTTCATTATTTGTAATTTTACCAATTGGTGAAATGACCACTGCAGTTCCAGTACAAAACACTTCATCAGATGATAAAACATCAGAAATTGAAATTTCTGTTTCTTCAACATCCATTTTTAAAATCTCTTTAGCAATCTGTATCACAGAATCACGTGTAACTCCTGCTAAAATAGCACCAGTTAATTTTGGTGTTTTAATAATATTATCTTTAATAATAAAAATATTTGCTGAACCTAACTCATCAATCAACAATTCATTCTCAGCATTTAAATACATCACCTCATCAAAACCTTTTGATTTAGCTAAATTCAAAGGATAAAGAGACGAAGCATAATTTCCAATTGTTTTTGCAGAACCTACTCCTTTTGATGAAGCACGATGAAATTCATGAGTAATTTCAACACTTATGCATGGAATTTTACTTCCTTTAAAATAATTTCCAACTGGAGATACATAAACCATAAAAGTATAAGATGGTGCATTCCTTAAACCTAATGTTGCACCTGTTCCTAAAGATATTGGCCGTATATATAAACTTCCTTTACCAAATGGAGGTATAAACTCATGATTGTCCTGAACAGTTTGCTCAACTGCTCTAAAAAATAATTGTTCATCAACCATAGGGATACATAATCTTTTTGATGACAATTTTAATCTTTTTTGATTCATATCAGGCCTAAATAAAACCACATTATTCTTTGTAGTCCTATAAGCTTTCATACCTTCAAAAACACCTTGACCATAATTTAAAACACCAGCAGTAGGTGGAAGATCTAAATTTCCATAAGGGATCAAATTACCATCATCCCATGCTTCACCTTCATTGCATTTAGCTAAAAACATGCTTTTAGTTGAAATTGCTTGAAATGATAAATTATTCCAGTCGATTTTCTTATTTGAGTTATTTTTATCCATGATCTATAGATTGTAATTTAAAAATTATTAACTAATTAATTTTTTTTAATTTGAATATGCATCTATAATTTTTTTTACTAGTAAATGCCTACCAACATCGGAATTTTTAAGATAAATAAAACCAATCCCTGAGACCTTTTTAAGTTTTTTTTCGGCTTCAATCAACCCCGAATCATTTTTATTGAATAAATCCATTTGAGAACTATCTCCATTGACAATTGCTTGTGAACTTTTACCAATCCTTGTTAAAAACATTTTCATTTGAATCTTTGAACAATTCTGGGCTTCATCCAATATTATAAAGGCATCATTTAAAGTTCTTCCACGCATATAGGCCAAAGGAATAATTTCTACTATCTTATTAGATAACATTTTTTTTAAACTTTCTATTCCTACCATATCTTCAAGTGCATCATATAATGGAGCTAGATAAGGATCAATCTTTTCTTTTAAATCTCCAGGAAGAAATCCAAGTCTTTCCCCAGATTCAACTGCGGGTCGAGTTAATACTATTTTTTTTACCCTTCTTGACTTATATGCTGCTACTGCAAATGCAACAGAAAGGTATGTTTTCCCTGTACCAGCAGGACCTAGTGCAAAAACAAGATCTTCTTTTTGAATAAGATCATAAAACTTTTTTTGATCATTAGTTTTGGTGATGATTTTACCTTTTTTTGTATTCAAAATTATTTGCTCAATAGATAACGAACTAACATTTTCATTTGATTCAAATAATTCAATAATTGATTTTATATCAATCAAAGTCAGAACTTTTTTTCTTTCTGAAACTTTAATCATTTCATCAAAAATAGAAGAAATTAATTTATTGTTTTCATTATTTGAAGAAATTGTAACAATTGAATTTCTTAGGGTTATTTTACAATGAAAAAAATCTTGGATGTAATCTATATTTTTATCACCTGCACCAAATAAAATTGATGGATCCAAATCACCTATATTTATTTCTTTGATCATTAACTCTTAAATTTAATATTATTATTTTATTTAAAATAATATTTGTCAAAAATTATCGTCAGTATTATTAAAAATTTTATAAATGAAAAAAGGCTGCCAAATAGTTTGGCAGCCTTCAATGATACTACTCCTTAATTAAAAAAAAGTAGATTTAATTTCCTGCAAAGAAAATTATCTCATTAACATCATTTTACCAGTAGCTATGGACTGTCCAGAAGTTACATTATAGATGTAAGCTCCTGATGGCACAGCAGCACCAGCGTTATTCTTTCCATCCCATGTTAATTCATAAGTTCCAGGTCTTTTAATCCCAACATTAAAAGATTTGATTTCATGACCAAGCACATCATATATAACCATTGTAACTTTACTCTGAATTGCAATATCAAATCTAATTTTAGTTGATGGATTAAATGGATTAGGATAGTTTCCTTTTATCTCAAATTTTGCAGGCAAATTTGCTCCATCTGAATCTACTACATCCAATGATGACCAAGTATCTAAAACACCTAGCTCATCAAGAATTGACCATCCTTTTAACCACTGATCAGCACCAAATGCACCTTTAAAATTTGTAGCTTCAAAAAATGTATCACCAGCTCTTGGAGAATCTACATTTTGAAAGGCTGCTCCACTTCCTGTTGGCAATGTACGAATATATTGAATGAAACCTGCATCATCTACTAAATAACGAATACCAGTATCAATATATCTTGCTGAATAATCTTCTTCAACATCTCTGTAGAACCTTGCAGGTGGAATATCCCACATAACGTTATTTGGTGACAAGTATAAATAATCACAACCAGTAGAGGCACTATTACCAGCACATTCTGTTGAAGGTATAGTTTGAGTTACATCTTCACTACCATTATTATCATTTCTTATACCACCTGTACCACCCAACATGATGTAATTTCTAAAATCACCACCAGTTCCTTCACGTAATCTAAGATGATCAGTATCACCTCCCATTACAGTTACATTCGAAAACATTGGGAATGAACGAGGTTGAGAATCATTATCACCACCAGTTCTATTATCCATTTCATGTGATTTATCACTATCTAATGCTCTAGCTACAAAAAGAAATTGTCCTTTACCTTGATATCCGTTATCTGTATCAAATGAATCGTCTCCGACTTGAACAGCTGAACAATACTTTAAATTTACAGTTCCACCAAACATCTCAAATCCATCATCCAGGTTAAATGCTACTTCTACATATTCAATTGTGGTACCATTTCCAACACCGCCCATAGTTAATCCATTAATTTCATTATCTGCAGCAATTGCACAACCACCATTCCAGATACGAACATACTTCATAACACCTGAATTATCAGCAGGGTCATTCCCACCATATGGAACACCAGTTAGACCTTCAATATTTGAAGTTCCACCTTCGTTTGAAATTGGAGCTTTACCTAAAATGATAATTCCACCCCATAATCCACGTCCATTTCCATAATTAGTATCACCCATTTGAAGTTCAGATCTGAAAGTAATTGGATTATCTGCAGTTCCCACAGCATCAATTTTAGCACCTTGTTCAATCACTAAAACTGGAGCAGGATTAGTAGCATTATAATTTGCATCATAACGACCAATTATTTCAGTTCCAGGTTGAATTGTTAACGTTACACCATCTTTGACAAATGTTTGACCATTTAAATAATAAGTGTTTTCAGAGGACCATGTTTGATCAGATGTAATATCTCCTTGAACAACCACTGTTTCTCCAGTCATAATACCATATTCATAAAGATAAGACCAATCCGCTAACCAATCAACAGTTCCGATCGCTCCCTTAAATGTTGTTTGCTCAAAAAAGTCATCAGCAACAACGTCATCAACATTATCAAATGCTGAACCATTTGTTGTGGGAGTAAGATTTAAGTCTATAACCATTCCCTGTCCATCAACTACAATTTCTAATCCAGGATCAGTTGATAAAGCAGAAAATGTTAGAGATGCATCATCTGTAGATTCGTCAAAATCTTTAAAATCATCTCCACCTAAGTCAACAGCTACATTATTTGGTGATATATATAAATAATCAGGATATGATAAAGAAGTATCAGAAATATCTTGAGTAATTACTTCAGAACCATTATTGTCATTTCTAAATGCGTCATCGCCACCAACTATTAGATAATTTCTAAAATCTCCGCCAGTACCTTCTCTTAAACGAAGATGATCATCTGCATTAGGTCCACCTATTGAAGTTACATTTGCAAATTTCGGATGAGATCTTGGCTGAGAATCATTATCTCCTCCAGTTGCATTATCCATTTCATGTGACTTATCACTAAAATCACCTTTAACAACAACTAAAAATTGACCACGACCTTGATATCCATTATCTGTATCAAATGCATCATCACCAACCATTACAGCTGAACAATATTTTAAATCAACAGTTCCACCAAACATCTCAAATCCATCATCAAGGTTCAAAGCAACCTCGCAATACTCAATGGTGGTTCCATTACCAACTCCTGCAAGAGTTAACCCATTTATTTCATTATCCGGAGCAATGGCTGAACCACCATTCCAAATACGAACATATTTCATAATTCCTGAATTATCTGCTGCATCACTACCCCCATATGGAATACCAGTCAAACCCTCAACATTTGAAGTTCCACCTTCATTGGATATAGGAGCATACCCTAAAACAATAACGCCTCCCCATAATCCGCGTCCGTTTCCATAACTTACATCACCCTCATCAAGTTCTGATCGAAAGGTAATTGGGTTAGCTGCAGTTCCCTGAGCATCAATTTTAGCACCTTGTTCAATCACTAAAACTGGAGCAGGGTTAGATGCGCTATAATTAGCATCATACTTACCTAATATTGTAGTTCCAGCTTCAATAGTTAATGTTGCACCTGATTTAACAAAAACTTGATCATTTAAATAATAAACTGAGTCAGCACTCCATGTTGCATTATCACTAATATTTCCAGCTTGTATGGAAACTGGCAGGTTTTCATGATCTGCTAAAACAATAGAGAAAACAGCAATTATACTTAAAAGATATTTGCAATATTTCATATGTTAATTCCTTATTTAAAAAATTATATTATATTGTAACCTTCTCATGTAATATTAAAATAAATGATTAGATTTTTGTTAGGAAAAAGATAGAATAGTATAAGAAAAATGTTATATTTTTATTTGGTTAAACTTTAATTATTAAACTGCAATCCAATTGAAAAACTTCTTCCTGGAGAATATTTTGTTGTGGTAAAAATTTCATCTCTGAAAATATGTGCTCGTTCGATATCATCACTTAATAAATTTTTAATACTAAGAGAAATTTTGAATGGTCCAAATTTTTGAGAACCCACAATGTTTAGAGAATTAAATGGAAGCTCCCATATACTTCCTGCAATATCTCCACTTAATGTTACTAATCTTTTACTGAAAGTATTAAAAGCTAAATTTAATTCACCACCAGTTTGACTCTTATAATTCAAACCGAAATTATAAACAATATTGGACTGCCCTTGAAGCGGCCTTGAAGTTTCATCAATTGGATTTACGAAAGGAATTGTTTCGGGTATTCCAGAGGGAGACAATCGAAAAACACTAACACTATCAAATACAACTACCTCAGATTGACTTAAAGTAAGATTTGTATTCAAAAAAAGAAAACCAAATTTACTTGGAATAAAATTAAGATTTTTTCTATACTCTAATTCAAAACCATTAATATCAGCATAATCTCCATTTTGCCAAGACTTATAATAACCTAGACCACTTTTCCCTACCAATGATTCTTCAATTGGATTATTAAAATGTTTATGAAAAAAACCAATTGAAATGAGTTCTAACCCAGATGGGAAATATTCAAATCTTAAGTCCGTACTATATATAGAAGAGTTTTTTAAATATGGGAATCCAAGAGCAACATCTGCTCCAAGAAATTCCACAAATTGATAAGGAGCGTACTCCCTAAATTGAGCACGAGCAAGAGTTTCAGAATAAGATGACCGAATTTTCATTTTATCAGATAGAGAATAATTTAATGTAATTGCAGGAAGTAAATTTTTAGATTTGTTTTCAATTTCAACACCTATAGTATCTCCAGTGGTATTCACAAATGATGGATTAGTTGATTCAATAGGATGATATGGTCTCATTGTCATAATATGATTTTCTGACCTAACACCTACACTTAATTGAATTTTATCTGACAGATCTCTATTAAGCATTATATAAAAAGCATCTACATCTTCATCAGCATTATATGCATCAAACCCACTAGTTTGTTCAGAAAAATACAATCCTTCATTAATAAATATTTCTCCATTCTCATCATATGAATTAGCCCAATAATTAGTTCCAAGAATACCATTTATGTTATTTTCATCAATGTGAGATTTAGAAGAATCAAATTGAAGAGTAGGATACATTGCCCAATCAAGATAAAGAGAACGCCTACCAAATGTTCTATCCTTACGATCCATTTTGAAACCAAATTTAAAATCACCAAAATATGTTTTTAGGGTGTGATCATAAGAGATATCCATTAATTTTTCATTTCCATCACTTGTTATAAGCTCTCCAGGTCTTGACCCATTCCTATTATAAACAGAATACATTCCATTATCACTATCATATTCCCACTCTGATCTAGTAATAAATGGTTCGTAAGAATTTGATTTGCCATAAGTATATTTAAAATCAATTTTGTTATCAATAAAACCAAAAGCAAACTGATTTTCTATTGAAAAAGTAGTTAAATTAATAGATTTCTCTTTATAACTCTGCATGAACATCAAACCGTTTTCATCAATAGTTCCATCATCGTTATAACTTCTTACAAGCTCTCCAGAGAGTCCTGAAGCTCTGGAAAAATTATCTTTTGATGTATGAGTATAGACATTCCTAAGTCCAAATCTTAAAACATCTCGATATGTCATTCCAATACTAGCATTCGCTCCAATATTTGATCCAGAAGAATAATGAATTCTTTCTAAGTCAATGTAACTTGGTCTAAGAAGTTTTTCACCGGGATAATCAGGATCATTGAGAGCAGTATATCTTTTATAAATATCATCCGTTCTTGATGATTTAGAGGAAAATGTTCCATCTAATAAAAACCCAAATTCAAGATCAGGATTAATACTAAACTTGGTTCCATATGTACCACTGATATTTTGAGGTAGACTAGCTTTTTTCGTATTTGTTAAGAAAACATTTGGAATTGACTGTTGACGCTTCCACACTTGACTAAACCATAAATTATTTCTTTCAGGAGTGGAGTTTAAAACAGTATCTCCTATAAAATTAATAAAATAATCAGTAAGATCGGTTCTAAATGTATCAGGTATAGTTGTATAACTAATTAATTCATTATCAAATTCTGTTGGTAGAGCTTTTTTTCTACCAATATCATATCCCATAAAATCTGAATTATTATTCAAATTTTGAACAATTGCATCACCAGGCATCAAATTTGAATTTACAGAGGTTCCAAACTTAATTTTGTAGGTTGTTCTTGATGGATATAATTTAGTTCTTATATTAACATTACCTCCTCCAAATGTACCTGGCAAGTTTGGCGTATAACTTTTAGCAACATCTATTCCATCAATTAATGAACTACTAAATAAATCTAAAGGAACGGACCTCTTATCAGCTTCAGGACTTGGCATACCAACCGAATTCATTTGAGCATTACTATATCTATCCCCTAAACCTCTAACAACTAAAAATTTATTGTCAACAATAGTAACACCAGTAACTCTTCTAACAGCATCAGCAACGTGACTATCACCAGATCTTGAAATTTGTTCAGCTGAAATATTATCTTGAACCTCAACAGCTATTCTTTTTCGTTCAAAAACTTCCAAATTAGTTCCAGTTCTTCTATCTGCTTGGACATAAACTTCTTCTCCTGATACTACTGCTGTCTCCAAACTAATGTTTAACTCTAAATCTTTCTTTTGATCAATAATAACGTTTGAAATGATTTTATTTTCATAACCTATATAAGAAACAATTAATGTATATACTCCATCTTCAACATTGGAGATAGTAAAGTCTCCAATCATTCCAGTAGCTGAACCTATTGAAGTTCCTTGGATAATAATATTTGCACCTATTAAAGGTTCACCTGAATTTGAATCAGTAATAACACCATAAATTGAAGAAGTATTTTGAGGGAATACAAAAGAAAAAAACAATAAAGCTATTACAAAAAATTTTTTCATTTAATAGTGTAAACTCATATAATTTTCATTAAATATTTATTTTGATGCAATATAATAACATTAAAATGTTAGATATGTGTTAGATATACAATCTTTGTTTGAATTTGAATTAGGTATTTATAATTTTAAATATTAACATTCAGTGAAAATTTAAATGTCAACTATAATTAACAAAATCACAAGCTGGGACAAAAATCTTTTTAATAAAGTTTTTGAATTAAGTCATAAAACAATCAAGATTAAAAAATTTTTTAGATTTATATCATGGACAGCAAACGGTCCTTTATATCCTATAATTTCAATTGTTTTAATTCTATTCAATTCAAAAATAGGTTTTGAAATATTAAAAATCGGTTTTTTTGGTTTTTTGATTGAACTTCCTATATACCTCGTTATGAAAAATTCAATTAAGAGACAAAGGCCTACAGTTTCTAAAGAATATCAACAACGATTCTATAAAATAGATGTTTTTAGCTTTCCTTCGGGTCATACTGGTGGTGCTTTTTTAGTTGCATATATATTATCTTCTTTTTTCCCTAATTTGAGTTTTTTCTTTTTCTCCTGGTCTTCACTTGTTGCAATATCAAGAGTTTATACTGGTGTTCATTATCCTACAGATGTTTTTTTTGGTGCAATTTGGGGGATATTATGTGGTATTGTGACAATAAATTTATTTTATTAATAATTTGAAAATTTTATTTGGGATTCAAGGTACGGGTAATGGTCATTTAACTCGATCCAGGATTATCATAAAACTTTTGAGATCAAAAGGTCACGAAATAGATGTTATCATAAGTGGAAGAAAAAAAGACAAACTTTGGGGGATTCAGGACTTAAAACCCTATAATGTTTTTGATGGACTTAGTTATGAATCAAAAAAAGGGAAAATACAAAAATTAAAAACTATAAAAAATGCAGGTATTTTTCAATTTTTAGAAGATTTAAAAAAAATTAAAAATGATAATTATGATTTAATAATTAGTGACTATGAGCCTTTATCAGCATACTTAGCAAAAAAGTGGAAAAAAACTTCAATTGGAATAGCACATCAATATGCTTTTGAATATGACATTCCCAAAACTGGATACAATTTATTTACTCATTTTTTAATGAAAAAATATGCTCCAGTGGATATAAATATTGGCCTACATTGGCATCATTTTAATCAACCTATTTTACCCCCGATAATTGAAAAAATTGATTTACATGACATAAATGAAAAAAGTGATCAAATAATGGTTTATCTTCCTTGGGAAGAAATAAAATTTGTATCTAAACTATTATCAAAAATTCAAAATATTACTTTCTTAATTTATTGTAATGTAGAAAAGGAAATAGTTGACAAAAATATTAAATATAGACCATTATCCAGAAAAACATTTTTAAAAGATCTAAAAGAATCTGAAGGTATAATCACTAATGCAGGTTTTGAAACTCCTAGTGAGGCACTTTCAATGGGTAAAAAGGTTTTTGTCAAACCATTAAAAGGACAATTCGAACAATTATCAAATGCAAAAGCTTTGAAACAATTAAACCTTGCAACCGTTGTGAATAAATTGACAAAAAAAAATATTGAAAAATGGTGTTTGAAAACTGAAAGAAAAAAAATTAAATGTGAGGGCGTAGCTGATCAAATTATTTATTGGTTAGAAAAAGGTGATTTTGACAGATTAAATGAACTTAAATCAAAATTTTGGAATTAATATTAAGTTTCTTTAGGTATTTTTATTGTAAAACAAGTACCATCATTTTCTTTGCTTTCAACAGCAACATATCCATTATGAGCTAATGCAATATGTTTAACTATTGCTAATCCCAAACCAGTTCCTCCTTTATTTCTACTTCTACCCTTATCAACTCTGTAAAACCTTTCAAAAAGTCTGGTTTGAAAATCTTTTATAATAAAACTTCCTGTATTTTTAACTGATATATGCAGATTATCAATTTTAATGTGAGCCTTAATATTAATATTAGAATTTAAACCACCATATTTTATCGCATTATCAATTAAATTTGAGATAGCTTGTCTCATAAGCTCAATATTCAAAGGAAAAGATAAATTTTCATCACAATCTAAATTAATATTATTTTTCAATTGAAAATTTTCATATTCTTTAATATTACCATATTTTAATATTATATCATCTAAACTAGAATTGAGCAAAGGTTTTATAGGTGTTATTATTTTATTTATACTTTCTTCTTCGGCTTGGGATTCAATTTTACTAAGCATTAATAAATCATCAATTATTGAACCCATTCTTCTAGAGTTTGATTCGATTGTTTTTAAAAATATTTTTTTTTGATCAGGATTTACAACTGATTTATTTTGAAGAGTTTCAAGATATCCATTAATTACAGTTAATGGTGTTTTTAGCTCATGAGAAACATTTGAAACAAAATCCTTTCTTACTCTTTCAAGCAACATTAACCTCGAAATATCATTCATAACTAAAATTATATCAAATTTTTTATTTTTTAATTCCCTTATTGGTGAAATCGTTATTTGTACAAAACTATTTATTTTTTTGTCAATATTTAAGTCAAATTGATTTGATTTACCTGTATTGATAGAAAGTTTAATAATTTTTATTAATTTTTTTGAAAAAATAACTTTTCGAAAATCTTTATTTACAATGTTTTGTTCAGGTTCATTTATCTTTAATATTTTAAGGAAAGATTGATTTGTAAGTTTTATTTTACCTTGAGAATTAATTAATGCTAAACCCTCAACCATACTTGAAATCAATGTAGTTTTTTCATTTTTCTCTTCATTTAATCTATCAATTCGTTTTTTTAAATCTTTTGACATTTTATTGAAAGATTCTGCGAGATTGCCAAACTCAAATGTTGATTGTTTGGAAATTTTCGAGGAAAATTCTCCTTCAGAAAAACGTTCAGCTTTAATTCTTATTTCTTCAAGAGGTTTAACAATCCTTCTTCCAATTATGAAAATTGTAATCCCTGAAATTGAAACAGCTAAAATTATTAAAGCACCTAACTTAATTCTTGCTGAGTTTAAAACTTCTTTAAGTTGAGTATCTGGAAAAGATGTCCTAACAATTAATTTTGAATTTTCAAAAGGGATAATTGATGCAAAATAAAACATTTTTTCATTTACAGAATCACTAAATCTTCTAGATGTACCAACAGAATTATTTAAGGCTTGAATTACTTCAGGTCTATTTATATGATTATCCATGACTTCAGGGTTTTTATGAGAATCCCCAAGTACAAAACCATTTTCAAGAATAATGGTAATTCGTGTATTTGTTGTATTTGCAATTTTCTTACATAGTAATGAAATATTTGGATTTTTTGAACTTTTATTTTTTTCTAAAAGATTTAAAAGTGGTTCTTCAATAAGCTTAGAAGTTAATCTGAGCTCTTCTTGTTTCTCTCTTAAGTAATTTTCTTCCAGAATATCATCAACTAAAATCCCCAAAAACAAAAATACTATAAAAGGCAGAATTATACCTTGCGGAATCATCATTTGAGACAATTTAGGTAAATGATGATATGAAGATTTAGTCATTATCTAGGAATCTGTACCCAACACTTCTTACAGTTTTAATATAATTACCATAATGTAAAAGTTTTTTTCTTAATCCAACTATTTGGAAATCAACTGAACGATCGGTAACCGGATAATTTTCTCCATGTAGAGCATCGATAATCATATTCCGAGTAAAAACCCAACCTGGTCGATTAATTAATAATGTTAAAATTTGAAATTCACTAAATGTCAAAACTATTTTTTTATCATCTAGGTTTACTTCTCTTTTCCCAAGATGTATAGATAAATTTTTAAATTTAATAACTTCACTTTCCTTATCTAATTGATTAAAAGCCGATCTTCTTAAGACAGCATCAATTCTTGCAATTAAGACTTTTGGGCTAAATGGTTTTGTAATATAGTCATCAGCTCCAATATCTAAACCTTTGACAATATCATTTTCTTCTCCTTTGGCTGTTAACATGATAATGGGAATTTTAGATGTTGATTTATCTTTTTTTAAAAGTTCACACACTTTTAACCCATTAATTCCTGGCAACATCAAATCTAATAAAATTAAATCCGGAAGAATTTCTCTTGCATATATAATTGCATCTTCACCATTTTCAAAAGTTTTAGTTGAATAGTTTGCTAACTCAAGATTATATGCCAATAGTTGAAGAATATCTGGCTCATCATCTACAATTAAAATATTTTTCATATGCTTCCAATAATTTAATTAAAAACTTTTAGAAAATAATATATATTAATTGTTAGAATTATTATAGGAATCTAAAAAAATTCGTTTAAAAGATTTTTCTTAATTAATTTCGTTTTAAATTTTTAATGGTTTTAGTAAAGGGGTCAAATATTATTTCTTATTGAAAAATTATTTCAATTAACGTTATGGACTTTTATCTAATAATTATTTTTATACTTTTTTTTGCAGCTTTTGCAGATTTAATTGTGGGTATTTCAAATGATGCTGTTAATTTTTTGAATTCAGCTCTTGGTTCGAAAGCATCTAATCGAGTGACAATTATGATTGTTGCAAGTTTAGGTGTTTTTTTGGGAACAACATTCTCTTCCGGAATTATGGAGGTTGCTAGAAAGGGAATATTTAATCCTGAAATGTATGTATATCATGAGGTAATGATCATTTTTCTTGCAGTCATGATAACAGATATCATTTTACTAGATTTTTTTAATACCTATGCATTACCAACATCTACTACTGTATCAATTGTTTTTGAAATATTAGGAGGAGCTGTTGCTATTGCATTGTTAAATATTTTAATATACAATTCAAACTTTTCTTTAATTGATTATATTAACACTTCAAGTGTATTTAAAATAGTATCGAGCATTGGATTATCGATTTTTTTCTCATTTATTTTTGGTTTTATAATTCAATTTATAATTCGATTATGGTTCACATTCAATTATGAAAAATCAATTAAATTAATAGGTCCTATTTTCGCAGGTATTGCAAGTGCGGTAATTTCATATTTTTTATTAATCAAAGGTTTAAAAGGGTCTAGTTTAATAAATGAATTTCAAAAAATTTGGATTGAAAATAATTTTAGCATGGTAATTACTTATGGCTTTTTTTCATTCACAATCTTTTATTATTTTGTATCATTTATTTTTAATGTAAATGTTTTAAAAATTACGGTTTTACTTGGAACATTCGCTCTTGCTTTAGCTTTTGCAGCAAACGATCTAGTAAATTTCATAGGCGCACCTATGGGAGCTCTTGCTAGTTATAATATTACGAATTCAATTCCTAACGTCAATCCTAATACTTTTTTAATGGATGGTTTAAATTCAAAAGTAAATGCTGAAACATGGATTTTACTTATTGCAGGAACAATTATGGTTATAACGTTATGGTTATCTCAAAAAGCAAAGAATGTAACAGAAACCGAAATAAATCTTGGTAGACAATCCCATGGAGTTGAAAGATTCGGCTCATCTGTTTTAGCAAAGGCTTTAGTAACTTTTGGCATTATTATTTCTAAGTTTATTTATAAGATAACTCCTGTGAAGATATCAAATTTTGTTTCAAAAAGAATAAACCCTAAAAATATTCCTGAAAATAAAAAATTAAATAATCCTCCTGCATTCGATATGATAAGAGCTTCAGTAAATTTAGTTGTTGCAAGTGCATTAATATCAATTGGTACTTCTCTAAAATTACCATTATCAACAACTTTTGTTACTTTTTCTGTTGCAATGGCTACATCTTTAGCAGATAAAGCATGGGGTAAAGAAAGTGCTGTCTATAGAGTTAATGGAGTTTTAACTGTTATTGGAGGTTGGATTTTTACTGCATTTTTAGCATTTTTTGCATGTTCGATTTTTACTACGTTAATTTATTTTTTTGAATATTATGCAATTGCAACTTTAATATTAGTTGCTGGTTACTATTATTTCAAATCAAATAAAATCATATTAAAAAAATAAAATTATTATTTAATTTTTTTTTGAAAAATTGTTTCACTTAAGTTTGAATTGATTTGGTAATCAATTGTTCTAAATGTTAATTGGGTTTTTTTCAAATGATCATACACCACAAATTCGGTTAATAAACGTATATCATCAATTTTTACTAAATTAAAAACTTCTATAGACCTAATCATTAAATCACTTTTATTAAAAAATTCTATTTTTTTTAAATCCAAATTATTTTTGCTTACCCATATAATTTGGTTATCATAATCATTTTTCGATTTTAGTCTATAATAATCAACATAGTTAACATCTTTGTCATTTAGCATATGGTAATTATTATTATTCAAGATGTCATAAAATTCTATAATATTGAATTCTAAACCCATAAATGATTGTTTGTTTTTTAAATTCAATTCTTTTTCTCTATTTATTCCCGGAATAAAAATTGAACGATATGATTTCGAACTATCAATATTTTCCCATATTAAGATTGAAGTACCTTTAATCTGTTTTGGATAAATAAAATTTATTAAACTTTTGAAATGATATTCTTTATCATTATAAAATTTTTGATGAATCATTATTTCTCTTTTTTTTTCTTTTTTTAAATCATTTATTGTTTTTGATAAGGTATATGAATAATGAATTGAAATATCATTAGGAATAAAAGATGACTTTAAATGTTTAATTATTTGATATGCATCAATATTATCATTTGCAAATATTGGAAAAAGAAATAAAAAAATTAAAATTATAATCTTCATAATAAATAGATTTATATGTTAAAAAGTTATAATTTAACTATTCAAAAACTTATTTAAAACCACATGTTAAGAAAAAAATTTATATTTTTGTTAATTTTATTAAGCTTAATAAAAGCAAAAGAAAATCAAAATATTATGATTAGATATAACTTAAAAATGCCCAAACCAAGCACACATTATTTTCATGTTGAAATGGAAATTTCAAATATATTTTCTGATTCGATTTTAGTAAAAATGCCCGTATGGGCTCCTGGTTCTTATCTAGTGAGAGAATTCTCAAAAAATGTAATTGAGTTTGAAGCAAAATCTGAAAGTCAAAAACTTGTCGACTATAAAATAAATAAAAATACATGGGAAATAAAAACAAAAAATATAAATAAAATAAATATATCTTATAAAGTTTATGCCTATGAACAGACAGTAAGAACAAGTTTTCTGAATGAATCAAGAGGATATCTAAATGGGTCCTCGATATTTATGTTTCTTGATGGAAAAAAAGGTCTGTCAGGTGAAGTAGAAATAACACCTCCTAAAAGATGGAAAAATATAAGTACTGGTCTTCCAAATGTTAAAAATAAGAAAAATACTTTTTTCTTTCAAAATTTTGATGAATTAGTAGACTCACCTTTTCTCATTGGTAATCACAAAATAATATCCTTTAAATTAAAAAATAAATTACATGAGATAGCTTTATATGGAGAAGGTAATGTTGATGAAAAAAAATTAGAAGATGACTTTAAAAAAATAATTTTAACAACCTCTGAAATTTTTGGTGACATGCCTTATGAAAAATACTTATTCATTATTTTAATGTTAGATAATAAAAGAGGTGGATTAGAACATTTGAATTCAACTACGGTTCAAGCCGATAGATGGATTTTTTCTGAAAAGAGATTGTATAATAAGTTTTTATCAACTGTTGCTCATGAATATTTTCATACTTGGAACATCAAAAGAATTCGACCAATTGAATTAGGCCCATTTGATTATGATATGGAAAACTATACAACTGAACTTTGGGTTGCTGAGGGTCTTACTAGTTATTATGACAATTTGTTATTATTAAGATCTAAAATATTAGATACCAGTGAATATTTTGATTTTCTATCTGATGATATTAATAGTTTTGAAATGAAATTTGGAAAAAATATTCAAACATTAAGTGAATCTAGTTTTGATAGCTGGATCAAATATTATAGACAAAATGAAGAATCTCAAAACACTATTGTTTCTTATTACTCAAAAGGTTCAGTAATTGGCTTGTTGTTAGATCTTACTCTCATTATTAAATCAAATGGAAAATTAAAATTAGATGATGTTTTTACTGAACTCTACAAAAGATATAATGAAACTCCAGACATTGGTTTTACTAAAGATGAATTTAGAGAAATTTGTGAAGGATTTGCTGGAGAAAAATTAGACTATATATGGAAATATGTTGATTCAACTGATCCGATAGATTATAATTATTTTTTAAAAGAAGTAGGTTATAGTTTTGAAAAGAAAGTTGATCAAGACAATCAAGAATCAAATACTCCATTTATGGGCTTTGAAATAAATAATAGCTCAAACCCAATTATTAAATCAATTTTAAGAAATGGTCCTGCTTTTCAAGCTGGTTTAAATGTTTTTGATGAGATTATAGCTATCAATAATGTTCGTATAAATAATGTTACACTTCCAAATAGAATTAATGATTTAGAAATAGGTAAAGAAGTTAATTTTTTAATTTCAAGAGAGGGAATACTTAAAGAATTAACTTTAATTCCGATAGATTTTGATAATAGCAAATACAACTTTATCAAAAATGAAAATGCAAGTCAAAAAAACAAAGAAATGTTTAATATTTGGCTTGGTGAAAATTGGTAAAATTTTCAGAAGAAGTTATCGTCCTCTTAAATGGTAACTTTCCAACTCATAGTTTACCCTTATCATACCTTTCAAGTTCAAAAACAATTATTTGTGCTGATGGAGCAGGAAATAAAGCAATTGAAAATTCAATAACTCCTGACTATATAATTGGTGATATGGATTCACTAAAACAAAATAATATTTCAAAAAATGTTATTTTATTAAAAGATGAAGATCAAAACTCTACAGATTTAGAAAAAATCCTTAATTGGAGTATTAAAAACAGAATTAAGGAGATCACTTTACTTGGGATTAGCGGTGAAATGGAAGATCATTCTTATATAAATCTCCATATAATGGCACATTTTTCTGATAGAATAACTATAAAAGCAGTGACTGATCATTTTACAATTTTACATTTAAAAAACTTAAATAAAATAAAATGTAAAAAAAATTCGAGAATTTCAATTGTAAAAGCCCATGACAATCCGATAATAAATACCAAAGGATTGTTTTATGAAATTATAAATGAGCATCTAAATCTACCGAGCCAGGGATTAAGCAATAAATCGATAAGCGATTCTTTTACAATAAATATAAAAGAAGGGTCTATTTTCTTATTTATCGAAAATTAAAATGGAACTCAATTTAAGCATCATAGACAAATTTCTTATTTATGGGTATTTTATTTTAATTTTAATAATTGGTTTATTATCACCAGCTAAAAAAAACCAAGATGATTATATTGTAATTGGAAGAAAGTTATCCATAGTCCCTTTCTCTATATCTTTAGTTGCTACATGGTACGGTGGGATTTTGGGAATTGGAGAATTCACATTCAAATACGGTATTTCTAATTGGTTTGTGTTTGGTTTTCCTTATTATATATTTGCAATTTTATTTGCATTGTTCTTTGCGAATAAAATTAATCAAGAAAAAATCATTACTATTCCTGACAGACTAAGAAAAAATTTTGGTAATACTGCAGGTTTTTTGAGTGCTATAATAATTTCAATAATTTCTTCACCTGCTCCATATATTTTAAGTTGTGCTTTACTCATAAACTTTATTTTTAACATATCCATTTTTTTATCCATTATACTTTCTACCATTTTAAGCATGATATATATGTATAAAAGTGGTTTTAGATCTATTATAAGAACGGATATTATTCAATTTGTATTTATGTTTGCTGGTTTTTTTCTTTTGGTTTTATTTTGTTTAAAGGATTATGGTGGAATTAATTACTTGTATGAGAATATTCCAAAACCTCATTTTGATTTGTTGGGTGGAAATAATATCCAATACATTTTAGTATGGTTTTTTATCGGTCTATGGACATTTATTGACCCAAATTTCTATCAAAGATGTATTGCTGCAAAAAATGATAAAACTGCTAAATACGGAATTTTAATTTCTGTTTTATTTTGGATGATATTTGATTTTTTAACTCTAATAAGTGGATTATATTGTGTGGCTATCTTATCAGATAATATAAATGAAGTATTAGCATTTCCTTATCTTGGAATCAAAATTCTTCCTCCGTTTATTAAAGGTGTATTCTTTATAGGCTTATTTTCAACTATAATGTCAACCATTGACTCAATGGGTTTTTTAAGTTCAGTGACAATTGGAAGAGATTTCTTTTGGAGAATAACCAAAAAATACAATGAAGAGATTTGGACAAAACTATCTTTACCAATAACAGGTTCTATCTCAATTGTAATTGTTTATTTTTTCTCATCTGTTATTGAAATATGGTATTTCATAGGAAGTATAATGATACCAGGATTAATCATTCCTTTTATTATTACATTCTCAAAAAAGATAACAATTAGAAAACCAACTTATATCATTATCATTCCAATAATGATAAGCATTTTATGGAATGTTTTCAAAGATCCTAATAAAGGTTATATTTTCGGCATTGAACCTTTTTTTATCGGATTGATCTCATCATTATTACTGACAATTATTTTTCAAAAGAAAAAAATAATTTAAATTATTCCATATCTTTTGAATATTCACCCTTAGCTGCGGCACTATTACATTTAGCTCTATGAAGAAATGCTTCCTTACCTGCTTCTAAATTTTCATCTTTTCCACTCCAAGCATTTAATGCAGCAGTTTGAAGAGCTCTACCATAAGAAAAACTTAATTCCCAAGGCTTGACTGTATCTAACTTATTCATTGCATCAAGGTGCTCTGTAGCTAGAAGATCACTTTGTCCACCTGATAAAAACATAATACCAGGTACAGCAGCAGGAACTGTTCTTTGAAAACATGTAACAGTTGCATCAGCAACCTCTTCAACAGAAGCTTGATCTTTAGAATCATACCCTGAAAGAACCATATTTGGTTTTAAAATTATTCCTTCGAGATAAACATCTAAATTTGATAATGCATCAAAAACTGAATCTAATACCTCTGTAGTGACATCAAAACTTGTATCAATTGAATGTTTACCATCCATTAAAATTTCTGGCTCTACAATAGGTACAATATTTGCTTCTTGGCACAATGAAGAATATCTTGCGAGTGCATGTGCATTTGCATCAATTGAAGCAAAAGTAGGAGTCTTATCACTAATAGTGATAACAGCTCTCCATTTTGCAAATCTAGCACCCAAAGAATAATATTCAGCTAATCTTTCTCTTAAGCCATCTAAACCTTCAGTTATAAATTCACCATCAAAACATGATAGTGGTTTTGCTCCCATATCAACTTTTATTCCTGGAAGAACCCCTAAATCTGATAATAACTTAGAAAAAGGAATTTCATCATTAATTGTAGATTGTCTAATTGTTTCATCATACATGATTACTCCACTGATGAAATCTTCCATTCCTTTAGCGGTAAATAGCATATCTCTATATTTTCTTCTATTCAGCTCAGAAGACTCTGTATTAATTGTATCTAAACGTTTTTTAATGGTACCTGTACTTTCATCAGCTGCAAGAAGACCTTTTCCTTTTGTAGCCATTTTTTTTGCATTTAATTCTAACTGTTCGAGATTCATTATAAACTTACTCCTTTTTTAATTCGAAATTTGACCAATTTCAGCAAGCATTGCTTTAAACCAAGTTGAATTGGCATCAAAGGGCTTACCACCTTTTATCTTATAAAAATCAATTAACCCCAGTAATCCCTTATTATCATTATCTAAACCAACTACTCCACTTTTACCTTGTAAAGCTTGATCAACGGCTATTACTGCAGTTTTTTTGATTAAATCTAAATCTTCATCATTTGCGGGTGCAGATCTAGCAAAATACCCACTTTTTTGAACTAAAATTTTATCAGCTTTTAGTCTTTCTCCGAATTTATTAGCAAACCAATTTCCCGGATTAATAGAATCTAATCTAACATGGCCAAAAGCGTCTCTTTCTACATCTTCTCCAATATTTTCTTTTTCTTTAATAATAGTATCTATTCCAGCTCCCTCACTTAAGAAAATATTAACACAATCATTATCGTCCATTATATTTTTTAGTCTTTCACATTCTTTATTAAAATCAAAATTAGATTCAGGAATATAAATAGCATGTACATCCCATCTTTTTTTTGAAATTAAAAATTCAGGTAAAAATTGCTTTGCTTGTAATTGTTTTCTGTAAATTTGTGCTGAGGCAGCAGTTAGCCAACCGCAATTTCTTCCCATGACCTCATGAATAATAAGTTGCCTATGACTGGTTGTATTTTCATTAGCTATATTTTCAAAAAAAACAGCACTTTGTTCAGCTGCTGTTGAAGCACCTAAAGTTTGAAAAATTGGGTATACATCATTATCAACAGTTTTAGGTAAACCTACAACAGTTAATTCAATTCCTTTTTTATCAAGAATCTCAACCAAACTAGCAGCCATTGTATTTGTATCATCACCACCAATAGTATGTAGAATAGAAACGTTATCTTTAACTAATTGTTGAGCAGCAACTTCTAATGGATCTTGCCCTTTTTTTATAAATCCTCTATTCACACAATCATCAGTATTTGTCAATTTGACCCTACTATTTCCTATAGGACTCCCACCAAAATCAAATAAAATATTTGCATTCTGTTTAACTTTTTCATTAATTGGTATATGATTACCTAATAATAAGCCCTTATATCCATGAGAATATCCTATCATTTCAACATCAGGTAATTTTTTTACATACTCAATTATGAGAGCACCAATAGATGCTGAAAGACAAGGTGCAATACCACCTGCAGTAAGAAAAGCTATTTTTCGATTATTTTTTAATGACATGTCTCGTGCAAATATATAAATAATATGTTTGCAAAAAAAGAGAGATAGTAAATATTTTTAAATAATAAATATTAAAATTAATATTAAGTATATTTCATATTATAAATTAATTAAAATAGGGATGAAACAATGTCAAAAGATTCACAAAAAATAAATAATTTTAAAGCATTTTGCGATCAATTTGAAAGAGCAGCAAATGAACTAGGTCTTGATAAAAATTTAGCCGATTCTATAATGATGCCAGATAGAGAATTGTCAGTTGAAGTCCCTTTAAATAAAGATGATGGTAATTTAGCAGTTTTTAAAGGATATAGAATTCAACATAATAATGCAAGAGGACCTTTTAAAGGAGGTATCAGATTTCATCAAGAAGTGGATCTTGATGAAGTAAGATCTCTCGCAGCATTAATGACATTCAAAACCGCATTAGTTAATATTCCTTATGGAGGTGGAAAAGGTGGAATAACAGTTGACCCAAGAAACCTATCTAAAAGAGAGTTAGAACAACTTTCAAGAAGATTTTTTAGAAGGATAAGTCCAATTATAGGAATTAACACTGATATCCCAGCTCCAGATGTAAACACAAATGCTCAAATCATGGCATGGTTTATGGATGAGTATAGTCAAAACAATGGGTATAGCCCTGCAATCGTAACAGGTAAACCTGTTGATCTAGGTGGTTCACTAGGAAGAGAGGCTGCTACAGGAAGAGGAGTTTTTTTCACTATAAAAGAAGTTGCGAAAGAATTTGAATTAAATCTTGACCAATCATCCGCTGTAATACAAGGTTTTGGAAATGTTGGTTCATATGCTGCACAATTTTTGGATGAAGTTGGTTGTAAAATTTTAGCAATAAGTGATATTTCCGGTGCTTATTATGATGAATCAGGTATTGATATAAAAAATTCAATTCAATATATAAAAGAAAACGGAAGTTTAGAGGGTTTTAAACAAGGTAAAAAAATAACTAACGAAGAAATTTTAAACTTAAAATGTGACTTCTTGATTCCTGCAGCACTTGCCAGTGTAATTAATAAATCTAATGCTGCAAATTTAAATTGTAAATTTGTTATTGAGGCTGCAAATGGTCCAACTACGCCTGGAGGTCATGACATTTTAAAAGAGATGAACATTCCTGTGATTCCTGACATATTAACCAATGCAGGAGGTGTAGTGGTATCATATTTTGAATGGGTTCAAAATCTTCAACAATTCAAGTGGAGTGAAGAAGAAGTTAACTCAAAATTAGAAAATAAAATTAGTTCAACTTATGAAGAAGTAACATCTGTCCGGAAAGAAAAAAATGTTTCTTTTAGAAGATCTGCATTCATGGTTGCAATAGATAGAGTTTCAAAAGCAGAGCTCATGAGAGGACTATAATTAATTTTATTTAAAATTTCTTTTTGTTTTTCCAGTAAAAATTTGTCTTGGTCGGGAAATCTTTTGTGATTTATCTTCTGACAACTCTTTCCATTGAGCAATCCATCCTGGTAATCTTCCAAGAGCAAACATTACAGTGAACATACTTGTTGGTATACCAATAGCCTGATAAATAATACCAGAATAAAAATCAACATTTGGATATAGATTTCTATCTAGAAAATATTGATCAGTTAATGCTACTTCTTCAAGTTCTTTTGCAATATCTAATAGAGGGTCACTGATTTTGAGTTCATTTAAGACTTTATCCGCTGCCTTTTTTAAAATTTTAGCTCTTGGATCAAAACTTTTATACACTCTATGCCCGAAACCATACAACCTAAAGTTAGAATCTTTATTTTTTGCAAGATTAATATATTTAGTAAAATCATTTCCATCTTCTTGAATCATTCTTAACATTTCAATAACTTTTTGATTTGCACCACCATGTAGCTTTCCAGAAAGTGCAGCAATACCTGCAGCAATTGATATGTATAAATTCGCTCCACTAGATCCTACAATTCTAACAGTAGAAGTTGAACAATTTTGTTCATGATCAGCATGTAAAATCAACAAAAGTCTTAAAGCATCAACTAAAGTTGGATTAGGAGAATATAAATCAGAAGGAGTGGCGAACATCATATGATAAAAATTTTCTTCATATTTAAGATCATTTTTAGGATAAATAAATGGCTGACCAATTGATTTCTTATATGAAAATGTTGCAAGGGTTTGCATTTTCGCAATTAATCTTAAAACATTTAAATCTAAATCTTGATTTTCACTACTTGGATAAAAAGTTGATAAAGTCGCGGCTGTTGAACATAAAACTCCCATAGGATGAGCATTTATAGGATATCCATCAAAAAGTTTTTTAAAATCTTCATGAATCATAGTGTGATGCTTAACATTATTTGCAAAATCTAAACTTTTTTCTTGAGTTGGTAAATCACCATAAATCAATAAATAACATACATCAAGAAATGATGCTTTTTCAGCAAGCTGTTCAATAGGATATCCTCTATATCTTAAAATACCCTCTTTACCATCAATAAATGTAATATCACTTAAGCAAGACCCAGTATTTACAAGACCAGGGTCATATGTTACGTATCCAGATTCTTTTCTAAGATTAGTTATATCTATAGCTTTTTCATTCTCAGAACCTTCAATGATTTTAAGATCTATCTTTTTACCGTCTAGTTCAATTTTAGTTGACTTCATAATTTTTAATTTAACTATTTATTGACATTTAATTTACAATATATTGAAATGGAATTTAAAATTTTTGAATTAACTTAAAAACAAAATCAGTATTAATTATTTACCATTTAAATAAAATGTTTTTAAAAATTAAAAAAATCATTTCAATATTTATTTTAATTTCATGTTCACACATATACTGTCTTGAATTAAGTAATCAAATATTCATTCAATTCTTTAAAATTTCTCCAAATGAAAAATCATTTGATGAAAGATTTAAATTAAAAAGAGGTCAAATAAAATTAATTAAAAAAATAAATAAAAATATTTTCATTGAATTTTCTCCTGATTTTCAAAGTATATCAAAATCAGAAATTAAACCATACTTAAAAACAGGCTTTATTTCATGGAAGTCAAATTATGGATTAATCTATACTTTTGGTTATCAATTTTCATCAATATATGGACCTCTTAGAATGAACTGGAGAAATCCATTTATTGATGGTGTTTCTGGAGTAGTAAATGATTTTCATGAAATTGGAGACTTTGGTTTATCTTTTAAATGGAATATAAAAAATGATTTTATTTTGAAATCAGGAATTTTTAATGGAACTGGATATAAATTAAATGAAAATGATAAATTTAAAAAAATCGAACTTTTACTATTTAAAGGAAAAGAAATTTTAACAAATCATTCTAATAATTATGGAGTTATTTTTTCTTTTGAACCATATGAGAATACGAATTCAAATATATTTTTTAACTATAGATATGGATTATTTTTTGGAAAATCGAAAGACTTAAATAGAATAGGAATAGAATATCACTTAAAATCAAATAATGAAACTAAAGTTCAGAAAGATCTTTTTACAATTTATTCAACAAATAAACTCAGAAAGAAAATAAATTTAATCAATAGATTTGAATTTCTAAGGGAGTTTGAAAACCATAATCCCTTTTTTAATTATTCCTCATCAAATTTAAATTATACTTTTGGCCTTTTAATTTCGTTGAGCCCCAATGTAAGTATATCTCCAAGTTCAAAATTTTCAATAAATAAAAAAGAGAGTTTTTTTTACTATAAACTAAACTTCATAATTAAATCTAGTTAATCAATTTTATATATGATTCCCAAACACTATTAGGATCAATATTATTTAAACAGATTAAAGGGTCTTTACATTTTTTTTCACCACATTGTTGACAATAAACATTTTTATTAATTACTTTTATTTTTTTGCCGACAGGTGCCGTCACTATAGGATTTCCAGCAGCAAATAAAGATATAGTTGGAACACCTAAATTAGAAGATACATGTCCTAATCCAGAATCTGTTGCAATCACGCCTTTTGCAAAAGATATAAGTGAAATAGTTTCTCTCAAGGAAATTTTTCCGCAAACTGAAAAAATGTTTTTATCATTTAGTTGTTTTATTATTTCAGAAGAAATTATTTCATCTTTTTTAGATCCGAAAATTAAAATTTTCATATTCTCATCTAATGCTTTATTACAAATGGAAATCCAAAAATCTACACTTATCATTCTATTTCGAGCATTACTTCCAACAAATAATCCTAAAAAAGTTTTTATTTTTAGTTTATTTAAATATTTTTTTGATTCTAATTTTTCTTCTTTTGAAAGTTCAATTTCACTTTTTATTTCATAATCTATTTTTTCTTTATTTATTAAAGATAAATATTTTTTTGATCTATGTATTTCGTGATGGTTAACATTTACTGATTTTGTCAATAAAATTGATTTTTTATATCTATCAAACCCTATTCTTTGATTTGCACCTGAAATCCAAGCAAAAAACGCAGTTCTCCAAGAATCAGAAAGAACATAAAAAATATCTATATTTTTTAATCTAAGAAGATTTAAAAAGCCTATTAATTCAAAGATTTTTTTATCTTGATCTTTTGTTATTATAATTAATTCATCGATATTTGAGTTTTTTTCCAGTACAGGTGAAACCCATTGTCTCGCAATACAAATAATTTTGTCATTTTGATGTTTTTGTTTACATGCAGCTAAAAAAGGTAAAGCCATGACACAATCACCGATCCAATTCGGAATATAAATTCCTACTTTCACAATTATATTTTTAAATACCTATTAATATCATCAACTATTCTTTCTGAAGCTTTCCCATCTCCATAAGGGTTATTTCCATTCCATTGGGGATTGTTATTTGCCCAACTAAAATTTTCATTAATTTTAGTTCCAATTAATTTTGATAAACCACAATCTATTCCTTCAATTCGTTCAGTCTCATTTCTACAGATTAATATTTTTTTTCTAAAAAAAGCACATTCTTCTTGAATTCCACCTGAATCAGAAATAACGAATTTCACCTTACTCAATAATTTTAAAAATTCTTCATATTTTAGAGGATTTATAATATTAATATTATCTAATAAATCTTTATTTTTAACCACTTCTGGATTTGGATGTAATGGAAATATAAACTCCAAATTTTTATATTTTTTTGCAAGTTTGTTTAAATCTTTAAATATTTTAATTATTGAATTACCAAAATTTTCTCTTCTGTGAATAGTAATCAATATTTTATCTTCATAAGTAATAGGAAAATTAAAATAACTTGATGCATCAATTATTGTATTACCAGTAACTAATATATTTTCAACACCTTCTTTTTCTAAATTTTTTTTTGCATTAAATGTAGGTGCCCAATTAAATCTAGATGTTTTTGAAATAATTTGTCTATGTAATTCTTCTGGAAATGGTGAATTTTGATTATAAGTTCTCAACCCTGCTTCAACATGACCAACTGGAATTTTTTTATAAAATGCTGAAATTGATGGTCCTAATGAAGATAATGTATCACCCTGAATAATAATTAGTTTAGGAGTTAACTTTTCCATTAACTCACCAGATTTTGAAATGATTAAAGATAATTTTTCTGATAACGATTGTTTTTTATCATCAATTTTAAAATTATAATCTGGTATAGGTATGAGATGTTTTACATCTTCATACAAGCTTGTATGTTGACCAGTAAAAACTAGTTTATATTGAATTTTTTTTTCGATTAATAAGTTTATAATTGGGAAAAGCTTAATTACTTCTGGCCTAGTACCAAAAAAAATCAATACAAAATTAGATTTTTCTATATCATTTTTCATTTTAACCAATTCCAAACTGAACGTCATAAAGTTTTTTATAATCTTTATTATTATTTAATAAATCTTTGTGAGTTCCTGTTTCAATAATTTTCCCTTTTTTTAATAAAATAATTTTATTTGCATTGACAATAGTTGACAATCTATGTGCAATAACAAATACTGTTCTATTTTTCATTAATCTTTCAATAGCTTTTTTCACTTTTTTTTCTGACTCACTATCTAATGACGAGGTTGCCTCATCCATAATTAAAATTGGAGGATTTTTTAACAATGCTCTTGCAATTGATATTCTTTGTCTTTGTCCTCCTGATAATTTAATTCCTCTATCACCTATAATAGTATTAAAACCCATTGGTTGATTTTCAATAAAATTTAAAGCATTAGCAACACGAGCAACTTTGATTAAATCATTTTTATTTATTCCTTTTTTCCCATAACCAATATTATTAGCTATAGTATCATTAAACAAAATTGTCTCCTGAGGGACAATTCCCATCAAACTTCTTAATGATTTTTTTTCTAATTCACGAATATCATGACCATCTATTTTGATTTTTCCTTGATCAACATCAAAAAACCTGGGAATTAAATCAGCCATAGTAGATTTTCCAGAACCACTTTCTCCAACGACAGCTACAACTTCTCCTTTATTTATTGAAAAAGAAATATTTTCTAAAATATTGATTGAAGAATCTTCATATTTAAAAAATACTTTGTCAAATTCAATACTAGATTTTAATTGATTAATTTTTATAGGATTTGCAATTTCAATAATATTTGATTTTGTATCAATAATGGAAAATACTCTTTCAGCAGAAGCAAATGCGGTCTGCATATCTACATTTACACTATTTAATGTTTTGATAGGTTTTAAAATTGAAAAAAGTATCAAAATAAATCTGATAAAATCTTCTGGATACATTGAATTATCAATCAAGACTGCTTGGCCACCTAACCATAGTAATATTACCCCCATAATTACTCCAATCATTTCTGTGATTGGAGGTGATGCTAAACGCAAAATAATTTGTCTTCTTTGAAGATTAAAATACTTTAAAGTTTCTTTGGAAAATTTTCTTTTTTCTGATTTTTCCATTACAAAAGCTTTCACAATCCTGATAGCACCTAAAACTTCTTGAAGAATTGATACTATTCCCGCAATTTGCTTCGTAGATCTAGTAGCCTTTCGTCGAATACTAAGTCCAACCCAAGCCATTAATGAAAATGCAATTGGCAAAATAACTAAAGAGTATAAAGCTAACTTCCAATCAATAAAAAATAATAAAGAAACAAAAGTTAAAATGTTGATTGGTTCAACTAATAACTTTTGAAAACTTACAGAAAAAGCATTTTTCATTATATCTACATCATTTAAAACAATTGAAGTAAGTTTTCCTGTATTTGACTTTTTGAAAAAAGAAAGTGATAATGAATTTAAATGATTAAATAAAGAATTTCTTAAAGTGTTAATAATTTTTAATTGAATCATTCCCGAAAAATAATTTTTAAAATAAAGAAAAATATTTTTCATTAAAAAAATAATAAATATTGAATAACATAGTCTTTTAAGTGTTCCAATAGCTGAATCATCAAGAAATAAATTATTTGACCACATTTTAAGTGTTTGATTCACGCTTCTATCTTCTGTTATGATTAATTCTTCCTGTGCAATTTTTAAAGTTTCAAAATCAGATAAAATATTGCTGATAAAAGAAGCTGTAAGCCAAATTGATAATGAATTAAAAAAAACAAATGCAAGAGATGATAAAATAGATAATAACAACAAAAAAGAATGAGGTTTAGCTAAAAATAATATTCTCTTAAACATATTTTAAATATAGGGGATTGATTGATTTGTCGGTTTATTTTAATTTATGAACATAAATTTTAAAAAAAATTATAAAAATAAGTTTTTTTATATTTATTAAATAAGTTATTATTATCATAATTAATAGTTTATAATAAAATGCGATTAGGTAAAAGAAAAATAATAGTAATTGGAGACAGAATTTTAATTAAACCAGATGAAAATTCTGAAAAAACTCCAGCTGGATTATATCTTCCTCCAACAATTCAAGACAAAGAAGATGTTTGGGCAGGGATTGTTACTGATGTTGGACCAGGAATGACCATATCTGATCCTAATAATATTGAAGAAGAACCTTGGAAAACATCAAGTGAAAATTATAAATTTATACCTACTCAAGTTGAAATTGGAGATTATGCTTTATTTTTAAAGAAAGCATCCGTTGAACTTAAACTTGACAATCAAAAATACCTAATTTTACCACAATCAGCTATTTTAGTAGTAATTAGAGCAGATATTTAATAAAAAAAAACCCTCAAATCACTTGAGGGTTTTTTTATCAATATTAAAATAAATTAATATATTTTATTCAGGGCATTCGCAACTAGGCTCTTCCCATGTTGCAAAAGGACCTTCATCCATATCATCACCAGATGTATTAGCCCATCCGTCACCATTTGCGTCTACAAAATATTCATCAAAACCTAAACATAATGCAGCACAATTTCCATCATAATGGTTGGTAGGTGCAGGAGGCCTAGAAGATGCAACTGCAAATTCATCAGGATCAACTATTGCGTCACCATTAACATCAGTAGCATCCCATCTAGCATCAGAATATTGTGGTCCTAAGAATTCTTTAGCTTCTTCTTGTGAAATTAATTCATCTCCATCAAGATCAATTAATTCAAATGGAGGAGGAGTTGGCTCATACTCATTATGAACTTGCCATTCTAATTTTTCAAGTTCATTCATGAATTTATCTTTGATTCCCTCATCAATATCATTTTCATCCATCCATTGAATTGCTTCTTCAAGCTCTGTACCAGCTAGATCATCTCCTTGACCATCTTTTTCACTATGTACGGCATCTTCTAAATTTTCGACAATTGTGGCCATATACTGGGCATCACCCTCATCAAGATCACCATCAGCAATCTTATCTTCCATAAAACCTTCTAAACCCATAATTACATAATCAACAGGTGTCATATCTCCATCATGCTCAAATTCATCGTGTGGTCCATCATGTGGTCCATCGTGAGACATCTCACCATGATGGTCATCAGCAGGATGTGCCCACCAGTCACCAGAAAGAAGCATTGGAGGCATCATCTCACCGTCCATTGGAGGCATATCACCATCCATTGGAGGCATATCACCATCCATTGGAGGCATATTACCACCTGTTGGAGGCATATCACCATCCATTGGAGGCATATCACCATCCAT
>sequence06
TCTCTGATCATGTGCAGGACCAGCCATTATTGCTCCTGACCCATAGCTCATGATAACATAATCAGATATCCAAATTGGTATTTTTTTACCATTAACTGGATTTATGGCATAAGAACCTAAAAAAACACCAGTTTTATTTTCCTGATCTAATTCTGTCCTAGATAATTCAGATTTTCTTGATGCTGCATCACAGTAATTTCTAACTTTGTCTTTATAATCATTTTCTAAAAGAAACTTTACTAGAGGATGCTCAGGCGCAAGCACAAGATAAGTTGCTCCAAAAATTGTATCAGGTCTAGTGGTAAAAACTTCAATTTTTTCATTAATTGATGGTAATTGAAAAGATATGTGAGCACCTTTTGATTTTCCTATCCAATTTTTTTGCAAATCTTTAATACCTTTTGGCCAATCTAAATCATCTAACCCTTCAAGTAGTTTTTCTGCATAATCAGTAATTTTTAACATCCATTGCTTCATTGGAACTCTAAAAACAGGATGATCTCCTCTTTCAGATTTACCATTTATAACTTCTTCGTTAGCTAAAACTGTGCCTAGTTCAGGACACCAGTTAACTGGAACTTCTGACTCATAAGCTAAACCTTTTTCATAAAGTTTAAGGAAAATCCACTGTGTCCATTTATAATAATGTTTATCTGTTGTATTAATTTCTCTATCCCAATCATATGATAAACCTATGTTTTTTATCTGTTTCTTAAAATTATCTATATTATTTTTAGTTGTTATTGAGGGATGAGTTCCTGTTTTTAATGCATATTGTTCGGCAGGTAATCCAAAAGCATCCCATCCCATAGGATGTAAAACATTAAAACCTTTCATTCTTTTATATCTTGAAATTACATCTGTTGCTGTATATCCTAATGGATGCCCAACATGCAAACCTTTACCAGATGGATAAGGAAACATATCAAGTATATAATACTTTTCCTTTTTTGATGAGTCATAGGATTTAAAGGTTTTATTATCATCCCAAATTTTCTGCCATTTTTTTTCTATTGATAAATGTTCGTATTTATGATCCATTTTAAAAAAATACCCCAATTAAAATTATCCCCAAAATTAAAAATATAAAGAATATTATTGTTAATAAAATTTTATTATTATCAATATAAATTTTAAGTTTTTCACCATAAACATAAAACAAGAATGCATTTAATAGAAATCTTGCCGATCTTCCTAAAGCAGATGCAACAAGAAATTCAATAAAATCTGCTGAAACAGCTCCTGCACCAATAGCAAAAACTTTATAAGGTACTGGTGAGAAAGCTGAAATTAATGTTGCAATAAAATTATAATTTCTAAATGAGGAGCTTATTGATTCAAATTCAATTCCATATCCATAAAAATTAATTATGAACAATCCAATTGACTCCATAAATAAATAACCTATTACATATGAGAAAATTCCGCCTAAAACTGAAAATAAAGATGCTAAAGAAGCATAAACAAATGACATTCTAGGATTGCTTATACACATTGCGGTTAATAAAAAATCAATGGGAAAAGGAGAAATTGACGATTCTAAAAAAGAAAAAATTATTAAAGCTAATAGTGAATATTTTGAATTAGCCCACTTAATAACCCAATCAAAAGATTTATTAACAAAATTAAACATTTACCAGAAAAAACTTTTTAAATACATCGTTATAAATTTAAATGTATCGGGAACATTTCTCATAGATGATTTTTCATTATTATAAATTGTTGGAATTTGAACATGATTTATTTTATAACCATTCATGACTGCTCTAATTAAAAATTCACTCTCATACTGGAATCCTGATTCAACACATTTAAAATCATTTATTACATTAACAGGAAACATTCTAAAGCCACATTGACTATCAAGTATTTTTGTTTTTGTTCGTAGTGAAATCAATAGACTTGTTATTACATTTGAAAATATTCTCAAAATCGGCATATTTTTTTTACTTTTTCTCCATCCGAGAATTATCGTTTTCTTATTACGCAAGTTTATAAAATCTTGAATTTTATTTGGTGAATGTTGCAGGTCAGAGTCAATAGTTATAATCCATTTAAATTTATTCTTAAAGGCATGATCTATACCAGATTTTATTGCTTCACCTTTACCCTTATTATTTTTGTGAAATATATGTTCAATATTATTGTTTTTTAAAATTTGCAACGACTTATCATTGCTACCATCATCAATAAATAATATTTTTATATTGTTTAAGTTTAAATCATTTATTTTTTGAAAAATTTTTAATATGTTATTTTCGCCATTGTAGTTTGGAACAAGGATTAAAATTTCTTTCATTTTAAATAGAAATTTTTATATCGTTTTATATTATTTATCTTCTTTGGGTTTAAAATCTAGGCTAACTGAATTAATACAATATCTAAGACCAGTAGGATTTGGACCATCGTTGAAAACATGTCCTAGATGACCACCGCAATTATTACAAAGGATTTCAGTTCTTACGAATGGTAATGATTTATCTATTTCTTCTTTAATTTTATCCCCAGAAATAGGTTCCCAAAAACTAGGCCATCCAGTACCAGAATCATATTTTGTTTTAGAGGAAAACAAATTATCTCCACAACCAGCACATATATACACACCTTCTTCTTTATGTTTGTAATATTTTCCGGTAAAAGCCATCTCTGTTCCTTTTTCTCTTAGTATTTTGTATTCTTCTGGAGTAAGACAATCTTTCCATTCTTTATCAGTTTTAACTGTTTTATTCATATTCTTTTCTTCTTTTTTGTTTGAATTTGGTGTATTGTATACAATTCCAAAAAATAAAATTCCTGAAATTATATATAAATAATATTTTTTTATTTTACTCATAATTAAATATAGCATGTTATTTATGTTAATTTAAGTAATATAAAACTATTAATTATTAGAATTTCTTAAATAAAAATCGTTTATTGCAATTGGATATTTACCACCATTCCATAAGAATCTTATCGAGTCCATGGTATGAATTTCTTCTAATTCATTTATTGGTTTTTGAATATGAATAAAAATTAATTTACCCAATCTTAATAGTTGTTCATCAGAGGGTGATGAGCCTAATACATCATTCATTAATTTTGAATGTTTTGATTTCATGTGTTTCATTAGCATCGACTCTAATTGACCCTGTAATCCTGGGATATATTTAGATTTTAATGCCATTGAAATTAAGTTTGCAGAGTTTGGATTATTTTTATTTTCAATTGCTATTCTAGATGCAATTAAATTTTCATATTCTACATTCTCTCTAAAAAAAGAAGGATCCTTGTTTAAATACAGCTCATTAGATAAATATTCTGTTGTTAAAATTATTTCATTCCAAAATGTAGATGCATTTATAGCACCAGTTATAAAGCTATCAAGTATAATGAATGTAGATGAGGTTTTAAAATATGTGCCATTTCTTCCGATAGGAACATTGCAATGAACAATAACTATTGATGGAATAAATATATTTTCATTATTAGTATTTAATAATAATCTTCGATTAATTATCTTTCCAATACAAGAAAAAGTCATCATAACTGCTTCTTCATAGTTATTTCTTCTTGGATTTATTGTAATTTGAAAAATTTTATTATTATTTTCTACTAATGTTGGTTCTTTATTATCCGAAAATTCTATTCTTAAATACTTTAAACCTTCTTTAACATTGTCATTAAAATTATATTTATTAGAAAATAATAATGAGATTAATAACATTTTAAGGAATAAAATTTTTAAAATCATAATTGATCTTCATGTATTATTCTGGGTTTAATAAAGTATATTTTTAATTCAGAGAAAAAATGTAAAATAGATTTTGATATTATTAAACCAAAAATAAATCCAAAAAACACATCAAAAGGATAGTGCACACCTACATAAATTCTACTAAAACCAATTAATAAAGAAATTGTAAACAAGTATTTAAATGATTTTTTAAAAAAAAAACTAGTTGTAAACGTTAATGCCATAGTGTTTGCAGCATGATTTGAAGGGAAACTATAAATTCCTCCTTTTCCAATTAATAAATTTATATTTTCATATAATTCGTGAGATGGTCTAATCCTTGAAAAATAAGGTTTTAATAATTGAGCAGAAATTGCATCAGTGATAATGACGGTAATTAAGGTTAATGAAAACGTCAACAATCCTTTTTTAGGATATTTAAAAATTAAAATTGCATAAAATAACAATATTATATAAATCCAATTTTTGGCGTTGGTTATTAATGGAAAAAAATAATTAAAAAAGGGATTAGATAATGTTGAATTAAAAAAAAATAAAAGATTAAAATCTAGTTGATTTATTACCGAAATAATTTCTGACATTTGAATATAAATTTAATTTTCATAAAATATTTCTTCAATTGTTAACTCATTTATTTTACCAATCTTAAGATCTTTAATATCTTGAAGGATTTCTTTTTTATCTCCTACTATGGTAATTATAATATTATTAGTATCGATGTATTTTATTGAACTATTAATTATTTGGTCTTTTGTTACATTATTAATATTAGAAGTATATTTATTGAAGCTATCTAATGGAAGATTTAAGTTTATTAGTAATGCTAATTGAGATGCATAATCTGATATTGATTCAAAATTGTTGGGATAACCAAGTGCCAAATAATTTTTAGCTCCTAATACTTCTTCGTTAGTTACGTTTTCTTTGATTTTTTTAAATTCATTAAAAAATTCAGTAATACTTTTTGCAGTTGCGTTAGTTTGAACTGATGATAGAGCAATGAATGGTCCTTTGTCTTTACCCATAATAAAATATGAGCGCGCTCCATAAGTAAAGCCATTTTTTTCTCTTAAATTATAATTAAGTCTTGATGTAAATGAACCTCCAAGAATAGTATTCATAATAGTAATTGGGAAATAATCAGGGCTTTCACGGCTTTCAGAAAAATGACCAATTCTGATTATGGATTGAGCAGCTTCAGGTTTATCAACTAGAAAAATTTTAACACCATTTAATTCATGATATTCTTCAATAGGTTTTGAATCAGGAATAATTGATTTTTCCCAATTTAAAAATAAAGATTCTAAAGATTTTGTTGCTTCAGACTCAGTAATATCTCCAGCAATAAAAAATTTGGCATTATTCGGTCTGTAAAAATCTGAGTGATATTTTTTAATATCATTTATATTTATATTCTTAATAGATGATTCAGTTAATGAAAAACCAAAAGGATGATCCTTATATAAAACAAAATTAAATAACCTTCTAGCAATCGCATTTGGTTGAGATTTTTCTTGGAAAAGTGACGTCAAAGATTTTTCTTTTAGTCTATTTAGTTCAACAAGATCAAGGTTTGGATTAACAACTGTTGAATAAAGCAAATTTAAACCTTCATTTAATTTTGATTTTGGAATATTCAATGAAATCCAAGTTGAATGTCTATTAGAAACGGATGATAAATTTGCACCTAAATAATCAATTTCATCAGCAAGTTCTAAAGAAGATAAACCTCCTGCACCTTCATCTAGAAGAGATGCGGTAAAAGAAGAAAGACCTACTTTATCTTTGGGATCATTATAGGTCCCAGAATTTATTTGAATAATAAATTGCACAATAGGTACATCATGTTTTTCCATTAGAAAGACTGGAATATCATTTGAAAGTGTAAAATTTGAAATATTCGGTAGTTTTAATTCATTAATAGCTGTTGACTCTGGAGGACTGGTTCTGTCAGGAAGTTTAGGTTGACAAGATATTAAAAATAATAAAAAAAATACTATAAATTTATTTAGGTGTGATTTCATTAGAATTTTTTAATGCTATTTGTTTTTGACCTTCAGGAACAATTGAAACTGTAACTTTATTCTTAGATAAATATTCTTTAGCAACCAACGAAATATCTTCTGGTTTAATTTGCAAATATCTATTTAAATCTTGATTGAAATAATTTGGTTCACCTGTATAAAAATAGTATCTATTTAATGCATCGGCCTTTCCGCTATATCCAGTATTCATTTCCATAGATCTAATAAAATAAGCTTCAAATTGATTGACACCTCTTTGAACTTCTCTTAGAGAGGGATTTTCATTAAATATTTTATTTATTTCTTCATAAATTTTTAATTCAACTTCATCAAGTGAGACACCGGGCTTAACGAATGCTTGGATATTAAAAGTAGATGACAATTTTTGAGATGATTGATAAACAGAAATATTTTGAACTATTTGTTCTTCATATACCAATCTTTTATAAAGTCTTGAATTTTTACCACCACCCAAAATATTTGCAAGTATATCTAATTCAGCATCTCCATCCTTAAAAAAAGGTGGTGTAAGCCAAGAAATGTGAATTAATGGTAGATTAACTTTGTCTTCAAAATAAACCCTTTTATCATTTGATAAATAAGGTTTTGGATGGGAAATTTTTGGAGGATCATTCCCAGCTGGAACATCCGAAAACCAATGTTTAATTAATTTGATTGTTTTTTTTGTATCAAAATCACCAGCTATAACCATGCTTGCATTGCTTGGAGCATAAAAATTATTGTAAAAATTAATAACATCATCATCTGAGGCTGCATTTAAATCATCCATTGAGCCAATTACTGGCCAACTATAGGGATGAGAATCATCATATAAAAGAGAGGGTAAAGCAAGTCTTAAACTTCCATATGGTTGATTTTCATATCTTTGCCTTCTTTCATTTTTAACAACTTCTCTTTGACCATCTACAAGTTCTGGAGTAACTACGTCAAGCATAAAACCCATTCTATCAGATTCTAAAAATAGAGCTAATTCTAGAGAGTTTGATGGAATGTCTTCAAAATAATTTGTTCTATCTTGTGTAGTTGAACCATTGAATCTACCACCTCTTGATTCAATCCATTGTATAAATTTTCCTTCGGGAACATTTGTTGATTTTTCAAAAAGTATATGTTCAAATAAATGTGCAAAACCAGTTCTCCCAGTCTTTTCACTAGAAGAACCTACATGATACCATATATTAACTGAAATCAATGGAAGCGAATGATCTTCATGTAAAATTACATTTAAACCATTTTTAAGTGTTAATTGAGTATAAGGAACATTAATAGAGGAGGCATTTATCGTTGAAAAAATAAAGCTTATAATAAAAATTATTATTGTTTTAAACATATGAGAGGTGCATCGGTTTGATTGAATTATATTTTCTTTGTATCAAGTAAAAGGCTCCAATTAATAAATAAGAGTATAATACAAAACTAATTAAGGTATTATAATAGAAAGGTAAAGCGTTAACGTAGCATGAAATAAAACCAATAAAATTTAGAGGATACATACCACTACCAATCCAAACACCAAAATTAGAAATTATAAAGAAAATTAATGATGAAGCTACTGAATTTAATCCAATACTAAATATGGAAATTTTAGGTTTTAAGAAAATAACCGACATTAAAATAATTAATATATAGCTAATATATTGCCAATAAAAACCATTATAAAAAAATATAAATGATGAATTAGTATATATAACATTATTAATGACTAAGTCACTAAAAAAAATAATTATAATGGGGACTAAAAACGCATAAGTTTTTTTCGTAAAATGAGAAGCACCAAATAAGCAAATAGCGCCTATTGGAGTAAAGTTTGGAGCATGAGGAATAATTCTCGACATGCAACCAACTATAATAAATAAAATTATCGTAAAAAGTTGAATATTAATTTTTGATTTCATATATATTAATTTAATTTTCAAGAATTTTACATTCAAGTAAAAGAAAACAAAATGAGTCGGAGCGACAAGATTTGAACTTGCGACCCCACCACCCCCAGCGGTGTGCGCTACCAAACTGCGCCACGCTCCGTTTATTTAATCAATTTTTTTTAATAAATCTTTTAACTCAAACAACACTTCGTCTAATAATTTTTTATATTCTTCATTGTTTGATTTACTATTTATGTTAATATTTTCTTTATTAGTTAATTCTTCTCTTGCACCATCGATTGTATATTTTTTCTTATAAAGTAAATATTTGATTTTTTTTATTAAATCAATATCTGTTTGTTTATAACTTCTATTTCCAGCTGAATTTTTTTTTGGTTTTAAGCTTGGAAACTCTGTTTCCCAATATCTTAATACATATTGTTTTAAATTTGTAATTTTACTTACTTCGCTTATTGAATAATAAAGTTTAGTAATATTTGATTCAACCATCATATAAAGTATTACTTTATAATAATTAATGCAAGCCGATTTAAAAGGTAATTAATGATTTTACTTCATAAAAGACTTTAACTTATCAAAAGCTATTTCTAATATTTTTATATCTGGTAGATATACTATTCTTACATGTTCTTTTCCATAGTCTTTACTAAAACCTGATCCATGAACTAAAAGAACTTTTTCTTGTTCAAGAAATTTAAGAACAAACTCTTTATCATTTTCGTATGGATTGTCTTCAATTTTCGGAAAAATATAAAATGCACCTTTAGGTTTTTTAACACTTAGACCATTAATGTCGTTAATTCTTTCAACGCAATAATTTCTTTGTTTTATTAATTTTTTATTATACTCATCCCTCCACTCATCACCTTCCGTTAAAGCTGCTAAGAAACCATGTTGAGCAGGTGTTGGTGCTGACAATCGTCCTCTTAAAAGTTTTTCAATTCCATCTCTAACATACTCTAATTTATTTTCGGGGTCATGAATTGCAATATATCCAATTCTCCAGCCTGGGGCAAAATAACCCTTAGAAATACCATTTAACGTGATAACCGGTGTTTTTTTTGATAATGAAGCTACAGAAATATGTTCGTTTGTAAAATTAAATTTATTATAGATTTCGTCAGATACAATTGTACAATTTGGATAGTCTTCAACAATTTCAATAAATTGTAATATTTCATTTTTTTCTAAAATGCTACCTGTTGGATTGTTTGGGTTAATTATACTTAATAATTTTACATTATTATCTAGTTTATTTTTTAAATCATCAAAATCAATTTTCCAATTATCATCTTCTTTAAGTCTATATTGAATTGCTGTACTTTGAAATATTGGTGGATATGAAACATATGGAGGATAAAATGGTCCAGGGGTAAGTATTTTATCATCTGGAAAAAGAAAAGATGCAAAAAGAATTAATAAAGCTTCTGAAACGCCTGATGTGATATAAACATCTGAGGGTTTGCAATCCCATCCACCATTTTTTTGATTTTTTTCAAAATCGGCAATAGCTGATCTCAGCGGTTCTATTCCATATGATGGGGAATAACCATTTTTTTGTTTATTTAATGCTTCTACATAAGCATTTAACATATGTGGTGGTGTTGGAAAATTAGGATAAGCTAACGGATCACCGATATTTAACTTTATTATTTTATGACCTTGATTTTCTAGTTTTGTAGCAGGTAAAACTAAGTCACGAATAGCGTACTCAACTTTTGAAACACCTCTACTTACAGGTATTTTAGTCATTATTTAAAATTTATTATTTATTAAAGTTGGGTTTTCTTCGGTTACCAAAATTTTGATTTTTTTTCTTATCTTTTTTCGGTGGTTCAACCCAACCCTCTGGAGGTTTATCTAAAGCTTTTAAGCTGACATCAATTCTTTTCATGTCGTCAACATTTATAATTTTGACTTTGACTTTATCACCAATATTTAGAACATCTTCTACTTTGTTTGTTCTTTGATAAGCTAATTCACTAATATGGCATAATGCTTCTCTTCCAGGCGAAAATTCAATAAAAGCACCAAAATTCATAATTCTTTTAACTTCTCCTTCAAAAATCATTCCAACTTCAGGGTCTCTAATTATTGATTCTATTATATTTTTAGCTTTTGTATTATTTTGTTGATTTTTTGATGAAATAATTACTATTCCAGAATCATCAATTTCAACATCACATTCATAATCTGATTGTATAGCCTTAATTGTTTTACCGCTTGGTCCAATAATTGCACCAATTTTACTTGGGTCAACTTGTATTTGTTCAATTTTTGGTGCATGAATTGATAAATTTTCATTTGGATTTTGAATTTCATTATTCATTAGTTCCAAAATGTGTAATCTACCTATTTTAGCTTTATCCAAAGTTTCTTTAATTAAATCAATAGATAATCCAGAAATTTTTAGATCAACTTGAATTGCAGTAATTCCTTCCTTAGTACCTGCAATTTTAAAATCCATATCTCCATAATGGTCTTCTGAACCAAGAATATCAATAAATGTAACTGATTTATTTTTATTTTGAATTAAACCAACACTTATTCCTGCAACATGACTTTTAATTGGTACCCCTGCATTCATCAAAGCAAGTGAGCCTGAACAAATTGTTGCCATTGATGAAGAACCGTTTGATTCTAAAATTTCAGAAACTATTCTTACAGTATATGGAAAATCTTTGTGTGATGGTAATACATATCTTAGTGCTCTTTCTGCTAAATTACCATGACCAACCTCCCTTCTACTTACTCCCATCATTCTTCCTACTTCTCCAACACTAAATGGGGGGAAATTATAGTGCAACATATATGTTTTCTTAAAATCTTGTTCTAGATCATCTATAAATTGTTCATCGCTTTTTGTTCCAAGTGTAACAACACCAAGACTTTGAGTTTGACCTCTAGTAAATAAAGCACTTCCATGAGACCTTGGTATAATATTTTGATTCATAGAAATTGGTCTAATTTCATCTAAATTTCTACCATCAGACCTAACATTATCTTCGGACAATAATCTTCTAATTTCATTTTTAAAAGAATCATCTATAAAAGATATAGAGTTTTTAATGTATTTTTTTAATTGATCTGAATCTAAATCAGAAAATTTATCTTTAACATCATTTGATATACTTTCTTTTAATTTTGAAATAAGAGTTCGTCGCTTGTCAGGTGAATCTTTGAAAATTATTTTTAATTCTTTTGTTACTTTTGGTTTAATGAAAGTAATTAGTTTCTTTTCAATTTCATCAGTTTCAACTACTCTTTTTTCTTTCGCAATATCTTTAATAAAATCAATTTGAAAATCAATTAAATCTTTTATTACTTCATGACCATATTGAACAACTGTTAGCAAATCTTCTTCTGATATTTCTTTAGATTCTGCTTCCATCATAATTATTGAATCTGAAGTTCCTGTCATAACCAAGTCAAGAGTACTTTTTTCTAATTCTTCAAATGTTGGATTGACAATAGTTTTTCCATCAATAAAACCCAGCCTTAAAGATGCAATTGGACCATTCCATGGAATATCTGAAATCATTAGTGCTATAGATGCACCTAAAGTTCCTAAAATATCACCAGGATTTTCTTGATCACTAGATAAAAGATTTATTATAACTTGAGTTTCACATTTAAAATCTTTTGGAAATAATGGTCTTATAGGTCTATCAGTTAATCTTGCTGATAGAATTTCTTTTTCTGAAGGTCTTGCCTCTCTTTTAAAATATCCACCTGGAATTTTTCCAGCACCGTAAAATTTTTCTCTATATTCAACTTGTAGTGGAAAAAAATTTATTCCATCTTTAGGTTCACTTGCTGAGTTAGCTGTGCATAATACTAATGTATCTCCATACCTAACTGTTACTGCTCCTGAAGATTGTTTTGCAAGAACACCTGTCTCAACAGTTAATTTTTTACCCGCTATATCTATTGATGATTTTTTAATACTCATTTTCTTACTGCTTTCTTTTTAACTATCTTCTAATTTTTAATTTTTTAATTAATTCTTGATATTGAGTATAATCTCTTCTGGAAATATATTGAAGAAGTTTTCTTCTTTTACTTACTAACGAAATTAAACCTCTTCTAGAATGATTATCCTTTTTATGTGTTTTAAAATGACTTTCTAAATATTTAATTCTTTCTGTAAGCATTGCAATTTGAACTTCAATAGAACCAACATTAGATTCATTATCACCATATTTTTTTGCTAATTCTTTCTTTTTTTGACTTGTAAGTGTCATATTAATCTCCTAATAATCATACATATGTTAATGCTTTATTTTGAATCTAGTTAGATAAATCTTTTATAAATTTTAAACACAATTTTTTATCTTTTTCTAATTGTACTTTTAAATTATCCAAAGAAGAAAATTTAATTTCATCTCTTATTCTTTTAATAAACTCAATATTAAATTGATTATTATTAAGTTTTATATTTTTGTTAGAAATAATATGTGTTTCCATTTGAAAAATATTATCATTGATTGTTGGTCTAAAACCAATATTTGTCATTGAATAAAAGTCTTTATTACTGAAAACTTCATATTCTCCAAAAAGTTTTATCTTGGTAAAATAAACACCATTTTTAGGTATTAATTGATTTTTAAATAAATTTTTAAAATTTATAGTAGGAAAACCTATTTTTTTCCCAAAACCTTTTCCAGATATTCTTTCTGCATAAAAATTGTAATTATTACCAATAATTTTAGATGCTACATCTATTTTTCCATTTTTAATATTATTTCTTATTTCAGTACTGCTAAATTCGATTAAATTTTTTTTAATTTTTGGTACTACCTCAAGATCAAAATTAAATTTTTTTGAATTAAATTTTAAAAATTCAACATTACCCATTCTATTTTTACCAAAACCATGATTATAGCCAATAATGATTTTTTTGGGTTTAAATGTTAAGATAAAATCTTTTAAAAATTTATCAGCAGTAATTTTAGAAAAATTATTATCAAATTTTAAAATCAAAATAATATCAATACCAGCTTTTTCAATTTTTTTTATTTTAATTTTGTTTGGAGTTAGAGTGTCATCCTTTTTATTAAATAAAATTGAACTAGGTTTAGGTTCAAAAGTTATTAAAACAGATTTTAAATTTAATTCTTTACTTTCATTTGTAATTTTATTTAAAATTTTTTGGTGACCTAAATGTAATCCATCAAATGTTCCAATTGTTAAAATTGTATTTTTAATACTTGGAATTTTATCTAGTTTGCTATAGAGATCCATTTTTTTCAAAGTCTATTAATTTTTTAGAATTTTCAAGAGTAAATTCACCAACTTTAGTTCTAGTTAAACTTACCAAATGTCCTACTGTGCCTAATTTTATTGAAATATCATAAGCTAATTGTCTTATATATGTTCCTTTTGAACATTTTACTTTAAATGATATCAATCCATTTTTAAAAGATATTAAACTTAATTCAAAAATTGTTATTTTATTAATAGGTGTTTTGATTGAAATATTTTTTCTTGCATATTTATAAAGCCTTATACCTGATATTTTTCTAGCAGAATAAATTGGTGTGGTTTGATTTATATCACCAACAAAACGATTTAAAACATTGTTTATATCATTTATTGTAATTTTTGGAACTTTTTTAGATTTAATAACAGTTCCATCTAAATCTAAAGTGTCTGTTTCTTCTCCTAATTTTAATGTTGCATTATACTCTTTATTAGAAAAAAGAAAGTCATTGAGTTTTTTTGTTGATTCTCTACCAATAGCAATAATTAAAACACCTTCAGCAAATGGATCTAATGTTCCACCATGCCCCACCTTCTTTTCACCAGTAATTTTTCTAATTTTTTTTACAACTTCAAAAGATGTTAACCCAGTTGGTTTATTAATAGATAAAATCAATTTTTATTTTTATTTATACTATTAAATAGCTTGTCAATATCTTCGGCAATTTCATTTGAATCGTCATAAAAAAAACGAAGTTCAGGAACATTTCTTGATTTAATACTTTTACCTAAAAAACCTCTAATTAGTTTTTTATTTTTTATAAAGTATTTAATTATTTCTTTATTATCAAACTTTGAATTAATTGAACTGATATAAATTTTAGCAATTTTCAAATCTTTTGTAAGAGAAACATTTTTAATTGTTATAAAACCCAATGATGAAAGCTCTAATTCTCTTATAAAAATATCATTTAAAACCTTCATTATTTCATTAGAAAATCTTTCATTTCTATCAAATGGTTTATTTTTAGTAAATATATCCAATAGTATAAAATTTTTTATTTAGAAAGAGTTCTTTTGATTTCTTCAGTTGTGTAAGATTCTATTATGTCTCCAGGTTCAAAATTTTTCATTTTTTCTAAACCTATACCACATTCTTTTCCTGAATCAACCTCTTTTACATCTTCTTGAAAATGTTTTAAAGATGAAATTTTACCAGTGTAAATTTGTTCATCCTTTCTTAATACTTTAACCATATCTGAACTTAAAATTTTTCCATCCAATACTTTTGAACCTGCAATGGTTCCAAGTTTAGTTATTTTAAAAACTTGAAGAACTTCAGCTTTACCAGTAATATTTTCTATTATATCTGGTTCTAATAATCCCTCTAAAGCTAATTTTATTTCATTAATTGCATCATAAATAACATTATAAAGTCGTACTTCAACTCCATTTTTTTTTGCTACTAAAGAGGCATTTGCATTCATGTTAATATTAAAGCCTATAATAACTGCATTTGATGCTGCTGCTAACAAAACATCAGATTCTGTTATAATTCCAACACTTTTATGCACAACATCAACTTTTACTTCATCGCTAGGTATATCAGATATTGCACCAATTAAAGCTTCCATAGAACCATCAACATCTGATTTAACTAAAAGCGGTAAAACTTTAGATGCACCATCTCTTATATCAGCTGAAATTTTATCAAGAGACATGGTATGAATTTTTTGTCTATTTATTTCTCTTTGAACTCTATCTCTTTCAATTGAGATTCTTTTGGCTGTTTTTTCATCACTTACAACCTTTAAAATATCACCAGCTTGAGGAACACTTTGAAATCCTAAAACTTGAACTGGCTGAGATGGACCTGCTTTATCTACTCTTTTATTTCTTTCATTCATTAAAGCTCTTACCTTGCCGTTATAATTTCCGCATATAAAAACATTTCCAACCTCTAATGTACCTCTTTGAATTAATACGGTTGCAATTGCCCCATGGCCTTTATCTAGGCGTGATTCTACAACAGTAGCTTCTGCAAATGTATCTGGGTTTGCTTTTAATTCTAAGACTTCAGTTTCCAATGCTAATAATTCCAATAATTCATCTATGCCTATACCATTTTTAGCTGAAACTGGGATACATTGCACTTTACCACCCCAATCTTCAACTAATACTCCGTGCTCAGATAATTCTTTTTTTACAAGGTCAGTATTGATATTTTTTTTATCAATTTTATTAATTGCAACCACAATTGGAACATTTGCAGCTTTAGCATGGTCTATTGCCTCAATTGTTTGAGGTTTCACTCCATCATCAGCAGCAACTATTAAAATAACAACATCAGTTACTTGAGCACCTCTTGCTCTCATGGCAGTAAATGCTTGATGACCAGGAGTATCTAAAAAAGTTACACTTTTGGTTGGGTCATTATTGAGATGGACTTCATAAGCTCCAATATGTTGAGTTATTCCTCCAGCTTCGCCTGCAACAACATTTTCATTTCTAATATAATCTAGCAAAGAGGTTTTTCCATGATCAACATGTCCCATTATTGTGACAACCGGAGCTCTTGGTTTTAATAATGACTTATCAATATCTTCTTCTTTCTCTTCTTTAATTTCGTTTATTTTTTCCTCGAGAAGAACAGCTTTAAAACCATATTCTTCTGAAATAAGTGAACTTGTATCAAATTCCAACCTTTGATTCATTGTTGCAATTAATCCTAATTCTAGGCATTTACCAATTATATCAGTAGGGCTAACATCTAAAACTTCTGCTAATTCTTGTACGCTCATATAATCCCTGATATGAATTTTTTGAATTTCTTCTTTAATTAACTCTTCATCAAGCTCACTTTTATCTTTTTTGTATTTTTTCTTTTTTCCTTTATTATCTATTGCAGCAAAGGTTCTTTTTATCGTTGAAGTGACTGAGGAGTCATCTTTATCTTTTTCATTTTCATTAATATTTTTAACTTTTTTTCTCGGATTTTCAATTTTGGATTGAATGTCAGTTAAATCAACTTTTCTAAATTTAGGTTTAGATGATTTTTGTTCTTTCTTATTTTCTTTTTTATTTAGTTCAACCTCATTTGATTTAACAATATTTATAGGTTTAGTTTTTTCAACTTCATTTTTAGGAGAAGATTCATCTTTATTAATTGTAGTAGATTTATTTTCAATTATTTGCTCATCTTCATTATCAATGTTCTCAAATTTAGTTTCTTGAGGCATTAAAATTTCTAGAGAAGAACCTTCAGTCATTTTTTCTTCTAACATTCTAGTATGAATTTCTTTTCTAGTTTTTTCTTTTCTGTATCTTTCAACAGTTGCTAAGTCTTTTTCAAACTCTTCAATAACCATTTGATATGAAACTTCATCAAGGGGACTCATATGACTTTTAACTTTAATATTCATTTTGCTCAAAAAATCCAAAATATCCCTATGTGATATATTTAAATCCTTTGCAACTTGCACTACTCTTCTATTTGATTGTGATGATTCTGACAAGATAAGTTCCTTTTTAGCTATTATTTAAATAGTTATCAATTCTTTCACTAATTGAGTTTAACATTTTTTCACCTAGACCTTTAATTAATAAAAGGTCGTCTTTAGTAGTATTTTTATACTGATCTAATGTATCTATATTTCCACTAGAAAGCATTTTAATCATGGATTCCGTTAAGGTTGAAATTTGTTCAATAAAAATTTCTTTTTCTTTTTTTGGAGTATTTTCTTCGTATTCTGACTTTTTAACAGCTTCAATTTTATAGCCAGTTAAATCAGACGCTAGATTTAAATTATTATAATTTCTTCCTACACCCGAATCTATTTCTTCATCTTCAAATACTGCTAAACAATGTTTGGAATTGTCATCAATATAGAGATTTAAGGGTTTTGCAGGAGATAGAGCTCTTGATATTAATATTTCTGGTTGATCACTTTTATTTATAACATCAATTTTTTCACCATTTAATTCTCGAACAACAGATTGAATTCTGCTCCCTCTCATGCCTACACATGCTCCAACAGCATCAATTCTTCTATCATGAGAAACAACAATGATTTTAGCTCTAACACCTGGTGCTCTAGTAATTTTTTGGATTTCAATTATTCCATCTTCAATTTCTGGTACTTCCATTTCAAAAAGTTTAGCAAGAAACTTATTGTCTGCTCTAGATATTATAATATCTGGTCCGTTAGATTTCATTTCTACAGATTTTACTATTGCTCTAATGGTGTCACCTCTCCTATATCTTTCATTCGGAATACATTCTGACCTTGGTAACCTTAATTCGCTTTGTTCAATATAAACATTAATATTATCTTTATTAATTTGTCTGATATCCCCAATTATAATCTCACCAACTCTATTGAAATAATTTTCAAAAGTATGTTTTTTTTCAATATCTTTTATTTGACCATTTAAAAATTGCTTAGCGGTTATAATTAATCTTCTTCCAAAAGAAGCTGGGTCAATTACATCAATAAATGGATCCCCAATTTCCATACTTGGTTCAATTTTTTTAGCATCGTGTAACGAAATTTCAGTTCCTTCAATTTCAACTAAGTCAACAACTGTTTTATTTTGATAAATTTCAAGTTCACCTCTTTCAATATTTACTATTACGTCGCAATTATCAGAAGTGCCAAATTTTTTTTCAATTAACGTTTTGAATAAGTTTTCTATTATTGTTCCAATTTCAGTTCTATCAACGTTTTTATCTTTTGCTATGTCTGAGAAACTTTGAATTAAGTCTTGCTTGTCCAATATTACTCCTATTAATTAATTTCTATTTGTAAAAAAGATTTTTCAATTTGATCAAACATCAATTTAAAAAAACCATTTTTGTTTTCAATTAAAATATTATCATCATTAACAAAATTAAGAATTCCAATTATTGGATTATTAATTTCTTTTTCATCTTTTAAAAAAACTTTTATTTTTTTGTTAATATTTCTTTTATATTGAAATATTTTTGTGAATGGTTGTTCCAATCCAGGCGACGTGACTTCTATCCTTACACCATTAGGAAATTTTTTATCTATTATTTTCAATTTTGTAATTTCTTTTGATATTTTAGCAATCATCTTAATATCAACGCCTTCAATAGTGTCTACAATAATTTTGATAAAACTCTTTGTTATTTTGCAATCAAATAAATAAACATTATTTTTATCTAAAATTTTTTCTATTTGTTTTTTTAACATTATTTTTATCTTAAAAGATATTTATATAAACTAACAAATTTATTAGATATATATTTCTGTAACAAGAAATGCTTGTATAATAATTTAATTATTTAAAATTCTTTTTTTTATCGTTTTATAATAGTTGAATATTCTTTCGTATTCATCTTTTTGATTTTCCTGAACATGATTATTGTTTTTTAAAATGTCCAATATTTGTTCTGACTTAATTAAATTTTCTGACTTTAAATATGAATTTAATGATTGAAATAACAATCTATTTTTAAATGATTCTGATATAGCAAGCTTAGATGCTTTTTCATATTCTTCTCCAGCTTTTAAATGTTTATTATTTATAGAATTAATCATTGCAAGCATTGAAAATGTGCTAGATAAATAAGAATCTGTATCCCCTTTTTTTATATAATTTTTAAAATATATTAACGCTTCATCATATTTTTGATCATCAAAATTAATTTTACCAATAAAATAAAGAGAAAGTTTTCCTTTATTTGAAGATTTGAAATTTAATTTCAAATCTTCAAATTCAATTAAAGCCAATTCAATATCCCCACTTTTATAATAACTCATCCCCCTATTAAAAATCTTATCAGCTTCATAATTTCTATTTACGTTTATGTAAAAATAAATAAATACAATAACTAAACATGTTAAAAAAGAAATTAATATTTTATTTGCAAAGTTTTTATTATCGATATAATAATTTTGAATTTTATATATTGATTCTAGTAAAAAATCATTTCTTATATCTTTTGATTCATCACTGTTTTTATTTGACATAACACCCTTTCTTTTAAAAAATTAGTGCCCCTGAGCCGATTCGAACGGCTGACCTAACCCTTAGGAGGGGTTCGCTCTATCCAGCTGAGCTACAGAGGCAATTCATTGGATAGATCTCTATTTATTAAATTTTTAACTGCTTTTAAAGGATTCAAATTTTTAAATAAAATATTATATACACTTTCACATATGGGTAATTCAATTTTAAATTTTTTTGATAATTTATATACTGCCTTAGAAGTATATATACCTTCGGAAACCATGTTCATTTCTTCTATAATATTTTTAATCTTTTCACCTTTAGCAATTTTTTCACCAACAAATCTATTCCTACTATGATTGCTAAAACAAGTTACCATTAAATCACCAACACCAGACAAACCAGAAAATGTTGATTTTTTAGCACCCATTTTTACGCTTAAATTAGTAATTTCTTTACAACCCCGAGTAACAATAGCTGCTTTTGTATTATCTCCAAATCCTAAACCATCAGAAATACCTGAAGCTATTGCAATTATATTTTTAAGCGAACCTCCTAATTCAACACCTATTATATCATCATTGTTATACACTCTTAAATTATTACCATTAAAAATCTTTTGAATAATTTTACTAGTATTCGGACTGTAAGATGAAACGACAATAGCTGATGGAATTTCAAATAAAATTTCTTCAGCGTGAGTAGGTCCAGATAATGTTGAAATAAATTGCTTATCAATAAAGTTCTTTTCACTAAGTATTTGGCTAATAGTTTTCAAAGAATCTATTTCTATTCCTTTAGATAAGTTTAAAATAATTGCTTTTGAGTTTAAGGGTAATAGATTTCTAATATTTCTAATTTCATTTGAGGGAACAGCAATACAAATTATATCAGCAGAAGAAATATTTTCTATTTTATTATTTATTATTTCAATATAGTTAATTTTTTTTGAAAAATTTAATTCATTTAACTTTTTCTTATCTATCATATAGTTAACTTTATTTCGATTTTTATAACAAATAGAAACATCGTGTTTGAGCTTAATCAAATGATGGGCAATAGTTGTTCCCCAGGATCCAGCTCCAATTATAAATATATTTTTTTTATCTAGCATAAAATAAATTGAAATCTTTACTAAATTTAATTGTTATTAATAATAATAATAATAACATTTTAAGATATTAATGCCGGGATGGCGAAACTGGTAGACGCGCCTGACTCAAAATCAGGTGATGGTAACATCGTGTGGGTTCAAGTCCCTCTCCCGGTACTAATTTATATTTGATTAAATATAAATTTTTAAATACTCTGAAATTCTTATTTTTTATATACATAGTTATCAACAAGTTATTAACAATTAAAAAAATATAAACAATTTTTAAAAACAATTTTTTTAAATAAAATTTCTTAATTATTTAACTGTTATTAAGTTCATTAAAAATATTTTAAGGAATTTGTTGAGAATAAAGCTTCAGTTAAAGCATTACTTAAAGAAATTGTTCTTAATAACAAAAATACTTGACATATGTATAAATAAGAATGTATTTTTATTCTGAGGTCTAATTTAGACCTCTCCCGCGAGGTAGGGGTAGCTCTTCTGGCGTACCGAGGTCATAAAGAATTCTACCCCTATATTTTTTATAAAAAAAAAGTGCTAATAAAAGCACTTTTTTTATTTATGGAATGATTTATAATTTAATCTCTATTTCTTCTTCTTCTTGAATTAGACTCTTCTTCTTCACCTTCTTCAGGTAATGGAGGAACTCTTTCATTAAGGGCTGCAACATCAGTTTCAAGAGTTACTAATCTTTGATCTAAGTCACCTTGAAATCTTCTAGTCTGTCTTTTGAAAGATTCAAAATCAGTTTTTGCTTTATCTCGCTCTTCACTGGCTATTGAAAAATTTTGATCAGTGTCTCTACTAAAGTTTTCTAAGTCTAATTTTAAATTTGCTATACTTTGTCCTAAAGAATCAGTTACACTAATTATTCTATTAACATTTGTTATAATATCTTTTTGTGCCTGTCTTAAATGTTTTCCTCGACCAATAAATTGCAGATTTAAAGTTTTAAGATCATCTCTGAATTCTTTATTTACATTATCAACATGTTTAGTTTGCAATTCAACTAATTGATCCATTCTTAAAAACATATTATCGGTTGTGCTTTTAAAAAATACAGCTGCACCAATCCATGCAACAACAATTAAAATTAGAAATTTATCCCTATTTTCCATTACCTCTCCCTTTATTTCTTATCTAATTCTTCTAGTTTCTTTTCCCATGCACTAAGCTCTTTTTCATTAGTATTATTATCTAAATTATCAGGTAAATCACTATTTGGCTTGGTTTTAATTTCTTTTATTAACTTATTTCTTTCTTTGTTGTTTTCCTTTAAGCTTTTCATTAAACCTTGAACTTCAGTGTTAAATTCGTTGATGGTTTGTTCCAGGCGAGACAGTAATTCTTCCATAAGAACAACTCCATAAGAACCACTAATACCATCCATTAAATCATCTAATTTATCAGATAGATATTTTTTTCTGTCATCTGAGTCTTGCAAGTTTACTGTCATTTAATAAAACCTAATTGTTAAAAAAAGATTAATTCAATAATTATATAATTTAGTTTAATTATTTCCGCTATGCAATTAAATGGATTATTTTTTTTTTTTAATTATTTTAAGGGTTTTTAATAAGTTATATAATTATTATTATCAAAAAAATCATAACCTTTTTTGTTCATTTTTTTAATAATTGGATTAAAAATTTTCTTTTGAATATCTACATTTAAATTATTTGAAGAATTTTTAATAACTTGTTTCTGGTTGTTACCAAAAGATATATTCGATGCTCTTTTAAAAATTTGAACTTCTGAGTCAATTGTAATAGTAATTCGATCATTAGATGAAACAAAAAGAGTGTAAGATATAGGTCTCAAAAACCTATTTACGATTTTTGTTTTAGTTGTAAATGTTTTATCTGTTTTATCAAAATAATCAATTTCATAATCTAAAGATTCTAAAATATTTTGAATATCATATAAAGATGTCATATTATCATTGGATAAATTAAAGTTAATTACCATAGGTGGAGAATTTGAACAAGAAATAAAAGTCAAAAAAAATATATAAAAATATGTTCTAATAATTATCTAATAAATTTTGGTTAGAAAATTCAGTTGTATCAGAATCAACAGAATCATTTTCAAAATAATTTAAATTGTAGTAATAAAGAGACAATGGTCTTTTAAAATTTTCAAAAATTATAGAACTTTTTGATGTTTCAACAATATCATCTAAAACTAATTCAATATTTATATTTTCTAATGACCATGAAGACCTATAGTAAACCCTGTTAACTTTAGGAAAATCAGAAAAGTTATATTCTCTGTTACTTCCTATTTCATTTTGAGATGTTCTCATAGGTGAACCGTATTTTGAAAATAATATTTTTTCTACTTCATAAAATTTTGATATTAGAGAGTCGATTTGATTAATTTTTAAAGTTGATAAATAATAAATATCAACTTTCCAGAATCTAGAATTTTTAAAAGAATAAATAAATTTTACTGAATCTTTTCCTAGAAAACCATCAAATGATACATTGGTGCTATCAGAAAAAAAATTTTTATAACTGGAATCTACTTTAAATGAATCAAAAGATAATCCCCATTTAAAATTGTTATATGATTTGGTAATATTTAGATTTTTAGAATCATTTGATAGCGAATCAATTGTTATATACGAAGAATCAATAAACGTTGAGTCTTGAGTAAAAACAAAAGAAGAGATAAATAAAATAAAAGATAGTTTTTTCATAAAATAATTATTTTTCTTCCATTTTTTGATTTTTTTTTGGCAAAATAATTGACATATAATTTAACAAATAATAACTAGCAAAAGTTAAAATAAAAGATTGTATATATCTTCCATTCCCCATTGTCATTCCAATTATAATTACAATCCAATACGGAGTTAATTTTTCCAAAACAGAATAAAAAGATTTAAGCTCTTTATATTTATCATAGGAAAAATATGACACTACAATAAAAAATGCTGCTGAAATCAAATAAGAATCAATTTCCATTGAAAAATTAATTAAAGATGTTGAGATGATAGCAATAAGTGCAAATAAACCAACTTTGTCCCTAGTAATTATTGAGCTATTACCTAGAGAAAGAACTACTACACACAATATGGTAAATAAAATTTTTACAGCAAATGCAATAGTGGCTAACAATTAAACAACCTTTTTTTATGATTTAGAATAACACATAAAATATTAATAATACTTTTGAAAACTGACAAACAAAATAAACCTATAATATCAATTTACCTATTCTATCAAATCTTGGCATACCACCCTTGAAGTTTAAAGAAAAATATGCAATTACAGCTTCACCTAAAATTAAACCCTCAGGAACAAAACCCCAATATCTTGAGTCAGCACTATCATCTCTATTATCTCCCATCATCCAATAATAATTTTGATTTACTTTATAATTATTTATTTTTGATATAGGAATTTCATTAATATATAAAAAATCTTTCATTGAGGAATCAAATTTAAAATTCCACGGGTTTAATAAATTTCCATTTTTATTAAAATTTGAATAATATTTACTAAAAAGATGTTGAACTTTTTCTTCAGGTGATTTTGAAAAAGTCAAAGTTCTAAATAAAAAAAACAGAGGAGATAATATTTTACCAAATGAGCTAGATGAAAATGACAAATATCTTCTAGCTATATCATTTGGGTCTTTTATCGTGAAAAGAAATTCATCGCTCCTATTTTTCATTTTTAATGAAACTTTATTACCGTCCATTATTATTATAGGAATTAAAAATTCCCAATCAGTATAATCATTAATTTCAATTAAATCATTTTTGGAGGGAATTATTATTGGACCCATATTATCTTTATTCCAATTATTACCAAGAAAAATACCAGGATCTTCTAAATTTTTGGGTATTATTTCTTTTTGGATGAATTTACCGTTTTTTGGAAAATTATAAATCTTATCATTAATAAATAAAGTCTTGTTATTAATAAAAATGGTGTCACCAGGATCACCAACACATCTTTTTACATATTTTTGAAAATTATCTCTTGGATATTTGAATATTGTAACATCACCTTTTTCTATTTTTTTATATGATGGAAATCTAGTCCAGGGAATGTTGAAACCTATGTCTGTATAGGGAATTCCGATCCAATCAGGCGTTCTCATTCCATATACAAATTTATTTCCAATTAAAAAATCACCAGTCATAATTGTGTTTTCCATAGATCCTGTAGGTACAATATAAGCTTCTACGATAGTAGCTCTTAAAGACAAAGCTATAATTAAAATTATAAACAAAGATTTTAACTCTTTAAGGATTTTTTTCATTACTCAAACTTATAATAATTATACGTTATCTTTAAAAAAATTTTTTATTGGGTTAAAAGTTTTTCTATGTAATTCACATGAATTATATTTTTTAATGTTTTCAATATGTGATTTTGTTCCATAACCTTTATTTTTTTCAAAATAATAATTTTTATATTTTTTTGACATTTTGATCATCAAATCATCTCTAAATACTTTTGCACAAATAGATGCCGCGCTTATAGTTAAAAACTTATTATCTCCTTTAATAATACCATTATTATTTATTTTTAAATTTGGCAAATAAAATCCATCAATTAATATATAATCAGGTTTGTTTTTTAGGCTCTTAATTGCTCTTTTCATTGCTAATAATGAAGCATTAAAAATATTTATTTTATCAATTTCATTCGATGAAGCTGAAGCAATTGAATATTCAATTGCCTTCTTTTTAATGATTTTTAAAATATTTCTTCTATTTATATCGTTTAATTTTTTAGAATCTTTTAGATTATTAATTTTAGTTTTTGGAGGTAATATAACTGCTGAAGCAATTACTGGACCAGCTAAAGCTCCTCTTCCCACCTCATCTACGCCAGCAATTAAAATCTTATTTTCCTTGAAGTAGTTTTCGTTGATGGTCTAAAATCATTTTATTTGCCATTAATTGATTTCCATTATAATGCAGAATAACAATTCTCAATACCGTTTCAAAATCAATTAAAGAGTTATCAGCATTAGAATAAATATTATCAATCATTAAAGTAATTTCATTGATTGTTGGAATTGAGTCAGAAAAAAATTCATTCAATCTTTTTACAGTTTGTTCTTCAGAAAAAGATCTTGACCAAAATTTATCTTGTCTTTTCATTTTATTTGATTCTTGATTAATAATAATTAATGATCTTTTAAGACCCAAATAATAACCTTTAACTAAAAATAATTTATTTTCTTCATTCAAATCAATCCAAGTATCTCTATTTATTTCAGATTGTGAAAATAAAAAACATAAAAAACTTAGATTAATTAATATTATTTTCTTTATCATCAGATTTTATTGATCTCCATAAATTTTCTTTTAACTTTTTTGACGTGTTAATTAGGTCTGTAAATTCATCATAATTTGCAGCAATAGGGAATCTTCTTCCAATACCAAAAGATTTGTCCCTTAATTTTAAAACGATATTTGATTGATTTCGTTTGAATTCAGAACTAAAAATTGGTTTTTGAATATCAATTACGTCCTGTAAAGATATTTCATGTAAATAAAGAGCTTCCTGGAAATTGTCATATTCATCATTATCATAAGAAATTATTGCATCTCTAGCTCCATTGTTTCTAATTATAGAATCAATAGGATTACTAATTTTTTCATAATCAAATGGATCAACTTGATCTTCTTTTAATTCGGCTGAAGGTTCTTTTTGTATTGAATTTAAAGGAATTATTATTTTATTGTCATGATTATAAAATTTATTACCATTAATCCAGTTTGCTAATTGATAAACTTCTGATTTATTAAGGTCTCCAATAGGTGACAATGCACCACACATGTCACCATACAATGTAGAATAACCAAGGGCCAATTCAGTTTTATTTGAAGTTGACAACAACAAATACCCGTATTTATTTGAAAAATACATCAAAATATTAGCTCTAATTCTTGATTGAATATTTTCATCTGCTAGAGTAGATAAATTATTTTCCTCATCATCAAAAAGGTTAGGCAAGTTGCTTTGATACACATCAACAATTTTGTTAATAGGAACTTGCAATGTTTTAATTTGAAGTGATTTAGATAATTCTATTGCATCAAAAATACTGTGATCACTACTATATTTAGATGGCATAATGAGTCCTAGAATATTTTCACTACCTAATGCTTTAGCTGCAAAATATGCAGTAATTGCTGAATCTATACCTCCACTTAAACCAATCAATGCTTTTTTATTTTTTGTTTTTTTAAAAAAATCGATAATTCCAAGAATAATAGCCTCATGATCATTCTTGATACAATTTTGAACTAACTCCTTAGATGGTTTTTTTAATATTTGATGTCTTGATTCAATTCCAAAATTTAATTTTGTATCAGCAATTAAAATATCTTCTTTAAATGAAGAAGCAAATAATAAAGATTCGTTAAATTTCGATATTGCAAAAGAACTCCCATCAAAAATAATTTCATCTTGAGCTCCAACTAAATTACAATAAAAAAAAGGGATATTTAATTTTGAAGTCATGACTTCTGATTCAAAATTAAGGAGCCTTTCGCTAGTTTTATTGAGTTCATATGGTGATGCAGAAATATTAATAATACATTCTGCATTACCTTTTAAAACCTGATCTGAAGTAATCGAGGGAGTACTCCACATATCCTCACATATTTGAAATCCAATTTTGCATCCCAAAACATCTACTACATGATAATTATTATTATTATCTCCCGGAAAACCAGGTTGAAAGTATCTTTTTTCATCAAAAATATCATAATTTGGTAATTTCTGTTTATAGTACCTATGAATGATTTCTTTATTTTGAATTACTACTAAGGAATTATAAAGAAAGTGGTTTTCTTTGAGAATTGTACCAATTACAATGGGAATAGAACCTATTTTATTTTTAATTATTTCTAGTGAATTTTGATTGTATTCGATAAAGTTTGAATTTAGCAATAAATCTTGAGCAGGATATCCTGAAATAGCCATTTCTGGGAAGACCACCAATTCTGCATCCATTTCCAATGATCTTGCATAATTAGATAATATTAAATCAATATTATACTTAAAGTCACCTAAGGTAGTGTTAATTTGACAAAGTGCTATTTTCATTTGTTTAAAATCATTTACAAAATCTATGGATCTAATCTATTTATTGTTCTTGGAAAAGGAATTGATTCCCTTACATGTTGAATTCCACAAATCCAGCATAAAAATCTTTCCACACCTAATCCAAACCCTGCATGTTGAATTGAACCAAACTTTCTTAGATCTAAATACCATTTAAAATCATTTTTTGAAAGATTATGTTCATTTATTTTTTTAACTAATTTATTATAATCAGTTTCTCTTTCACCTCCACCAATTATTTCTCCATATCCTTCTGGTGCTATAAGGTCCATTCCTAAAGCTAATTTGGGGTCTTTATTATCTAATTTCATATAAAATGCTTTTATTGATGCAGGAAAACGATGAACAAAAACTGGAGAATTGAAATTGTTGGATAAAATTGTCTCATCATTTGCACCAAAATCATTACCCCAATTCATATTACCATTATTTTTATTAATAATTTCAACTGCTTCTGAGTATGTAATTCTTGGAAATGTTTTATTAACAAAAGATTTTAGTTTATTGACATCTTTATTTAACAATTCAAATTCATAGTTACATTCTAAAATAATATTATTAAGTACATATTTTATTAATTTTTCTGCCCAATCCATATTTTCATTTAAACCACAAAATGCAATTTCAGGTTCAACCATCCAAAATTCAGTTAAATGACGTCTAGTTTTAGACTTCTCTGCTCTAAATGTAGGGCCAAAAGAATATACTTTATTAAAAGCCATCATGTTAGCTTCATTATAAAGTTGACCGCTTTGTGTTAAGTAAGCTTTCTTATCGAAATAATTAGTTTCAAATAAGGTGGTTGTACCTTCGCAGGAATTTGACGTAAAAATTGGTGTATCTATATTTAAAAAACCATTATTGTCAAAAAAATTTCTAATTAATTTTATTAGATGGGATCTAATTTTAAGTATTGAGAATTGTTTTTTTGATCTAATCCATAAATGCCTATTGTCCATCAAGAAATTTGTTCCATGCTCTTTCTTTGTAATTGGAAATTCCTCAGCTATATGATGTATAGTAAAATCAATTATTTCCAATTCACATTTATTTTCATCTTTGAAATGTTTTTTTACTTTTCCTATTACAGTTAAGGATGATTCTTGTGATAGTTTAGATAAATCATCAAATTTGGATTCATTATGTGAACTTTTTAAATAAATTGTTTCTAGATAACCAGAACCATCTCTAATAATTGGAAATAAAATTTTTCCACTGGACCTTAAATTAAATAACCAACCTGAAATTTCAATTTCTTGATCTATGTAATTTTTAATATCTTTAATATATATTTTTTTTATTTTTACCATATTGATGATATGTCATTTATAATTGAATTTGATATTTTTTTTATTGCTGTACTTATAGCAAGTTTTCTAGGGTCTCCTATTTCATCATTATCATTTTCATCAATTTTACCATCCTGATCATTATCAATTCCATCAGACGAAACATCAGTTTCAAGATTGTAAACACCCCAATTTGAATAATTTTTATTCATTAAAACTTGGTTATTTATTAAATCAAACCAAATTATGTTAATTCCAATTGTAAACCTATACTCTGTAACTTCTTCATTTGTTGAATAAGTATATGGCGAATCATTTATGGATTTAATAATACCTCTTAATTCAGAATCTGCATTATTAGAAATCTTTAAAATGTTTTCATCTAAAAAAATATCAGTAATTTCATCTGTAATTTGTTCTCCAACACCAAATTCAGGTGTTTCATTTAGTAATAATGGAATATTTATTGAATTAATATGAGATGGTATGGATCCGGAAAAAGAATAAATACCACAATTAGATATAATCAATGATGAAAAGATAAAAAAACATAATTTATTCTTTATTTTTTTTCTAATCATTTTCTTTATTTTTTTCAATATTATATTGATTGATTTTCCGATATAAAGTTCTCTCGCTTAATCCTAATACTTTCGCTGTTTTTCTTCTATTATTATTAAATTTTTCAAGAGTTTTAGTTATAAGTTCTTTTTCAATGTCAATTATTCCAAGTTCGCCTATTATATTTTCATTAAGCAATTTCTTAATATTACTTACATCATTAATCTGGTTCAGGTTATTATTATCTGTTAAAATTGGCACTTCTTTTTTGTTGTTATTATTAAGAATGCTTTCTTTTAGAGTATTTACTTCTTGTCTAAGTAAAAAAAGTTGTTGTAAAATAATTTCTCTTTCAGCCTGACTTGAAGATTTATCAACTGGAATAGGAAGTGAAACATTTTCATTATCAACTATTATATTTTTTAAGTGTTTTGTTATAATTTCTGCTGAAATTTTATTTCCTTTTTCAAGAATTATAATACTTTCTACAAAATTTTTTAATTCTCTTATATTTCCAGGCCATTCATATTGTTTCATTAAAGATATTGAATCTTTTGTAAAACCTCTAAAAATGATATCATTTGACTTCGAAAATAAAAGAGCAAATCTATCAATTAATTCTTCCATATCATCAAACCTCGACCTTAGACTAGGTACATTAATATTAACTGTTCTTAATCTAAAATATAAATCTCTTCTAAAATTTCCATTATTTGATTCTTCTAATAAATTTTTATTCGTTGCAGCAACTACCCTAACATCAACTTTTTTAGTTTTAGAATCACCAACTTTCATAAATTCACCAGATTCTAATACTCTTAATAATTTTACTTGGGTACCTAATGGCATTTCGCCAATTTCATCTAAAAATATTGTACCACCATTTGCTTCTTCAAAATATCCGATTTTTTCTTCTGATGCTCCTGTGAATGAACCTTTTTTATGCCCAAATAATTCGCTTTCAATTATTCCTTCAGGAATTGCGCCACAATTAACTGTAACTAATGATTTGGAATATCTGTTACTATATCTATGTATTGCTTTAGCGATAAGTTCTTTACCAGTTCCGGATTCACCAGTTATTAAAACAGAAATATCTATAGGAGAAATTTGAATAATCATTTCTAGTATTTCTTCCATCAATATTGAACTACCAATTATTCCAGTTTCTTTCTTTATTTTATTATTATCAAACATTATAAGCTCTTAACATTGTTGAAATTATATTATCTAAAGATGAAAAGTGTGGATTCCAATTTAAATTTTTAGAAGCAAGATTTGAACTTGCAATTAACTCCGCAGGATCACCATCCCTTCTGTTTACAAATTTATAATTTAATTTACTTGATGATATTTTAATGGTTTTATCAACTATGTCTTTAACTGAATAACCATTTCCAGTTGCAAGGTTAATTTCCAAGGGAGAATTTTTATATGTTAAATAATTAATTGATTTTATATGCGCATCTGCCAAATCTGTTACGTGAATATAATCTCTAATACATGTCCCATCTTTTGTTGGATAATCATTTCCATAAATATTTAATGATTCACCATTAATCAATGAATTCATTATAACAGGAAGTAAATTAGCAGGATTTTTTTCTAAGCCAATTACCCTTGATTTTGCATCATATCCAGCTGCATTAAAATACCTTAATGAAACATAATTAATATCCTTTAGTTTTGAATACCATTTTAAATAAAATTCAATTGAAAGCTTAGAAAAACCATAAAAATTTATAGGTTTTTTTGGATGATTTTCATCAATCGGTAAATATACAGGTGTACCATAAATTGCAGCAGTAGATGAGAAAATGATATTTTTAATCTTATAATTCAACATTTCATTTAAAACCATTAATGAACCATTAATATTTAATTCAGTATAAAGATTTGGATTTTTCATTGATTCAGATGCTGATTTTAAAGCAGCTAAATGAATTACACCGTCAATATTTTGAGACATTGCTTTTTTTAAAGTATCAATATCTAAAATTGAACCATTAATAAAAAAAACATCACTTGGAATATTTAATTTATCTCCTGTTGATAAATTGTCAATAACTACGACTTCATATTTTGAATTTAAAAGTTCTAAAATTACATGAGAGCCAATATACCCAGCTCCTCCAGTTACTAAAATTCTTTTCATGATTTTTCCATTGAATCTATATAATCTTTAATTTGGGAAGCTTTTTCAAAATTTAAATCTTTAGCTGCATTTAACATCTCTTTTTTCAATACCTCTATACCTAAATCTTTATCAAAGTTATCATAAAAATTTTCATCACTAATTTTTTCATTTTTAATATTTTTATCTGCAACTGATGTTGAAGAAAATATTTCTTCATTTGACTTTACTATTGACCTGGGAATAATATTATTTTTTTTGTTATAATCTTTTTGAATAATTCTTCTTCTATTGGTTTCATTAATTACTTTTTCCATTGATTTAGTAATTTTGTCAGCATAAAAAATTACTTTTCCATTAATATTTCTTGAAGCTCTTCCTGCAGTTTGCATTAATGACCTTTCCGATCTTAAAAAACCTTCTTTGTCAGCATCTAAGACAGCAACCAAAGATACTTCTGGCAAGTCTAATCCTTCTCGAAGAAGATTGATTCCAATTAAAACATCAAAAATACCTAGTCTAAGCTCGCGTAACAACTTCACTCTCTCTAATGAATCAATTTCAGAATGAAGATATTTAACTTTTAGATTAAATGATGAAAAATAATCAGTTAAATCTTCTGACATTCTTTTAGTAAGTGTAGTAATTAGAACTCTTTCTTTTTTTTCTAAACATTTATTAATTTCAATTAATAAATCATCAATTTGATTTATCGATGGTCTAACAAAAATTTCAGGATCAATCAAACCAGTTGGTCTCAAAATTAATTCAACAATCTCGCCTTTTGTATAATTATGTTCTCTATCAGAGGGTGTAGCAGAAACAAAAATACATTTATTAATAACATTTTCAAATTCTTTAAATTTTAATGGTCTATTTTCGAGTGCAGAAGGAAGCCTAAATCCATGTTCAACTAATGTTTCTTTTCTACTTCTATCACCAAAATACATGCCTTGGATTTGAGGTAATGTTACATGAGACTCATCCATAAATAATAAATAATCTTTTGGAAAATAATCAAAAAGAGTATAAGGTCTTTCTCCTTTTTTTCTTTCTGAAAAATACATTGAATAATTTTCAATTCCGCTACAATAACCAACTTCTAACATCATTTCAATATCAAAATTTGTTCTTTGTTCTAATCTTTGAGCTTCTAATAATTTATTATTTGACCTTAACCATTCTAATCTATCATTTAATTCATCTTTAATATTATCTATTACATTATTAATCATTTCATCATCAGCTACAAAATGCTTTGCTGGATAAATAAATATTGATTCTAGATTATCTAAAACATTTCCACTAATAGGATCAAAATAATATATCGAATCTATATTATTTCCAAAAAGTTCAATTCTTAAACCATAATTTTCATAAGCTGGATAAATTTCAATTAAATCGCCTCTTACTCTAAAATTTCCCCTTTCAAAAACTGCATCATTTCTATTGTAGTAAATTTCAACTAATTCTCTACAAAGATTTCTAATATTAATTTTTTCATTTTTAAATATCTTCACTACTTTTTTTTGATATTCTTTAGGAGACCCTATACCGTAGATAGATGAAACCGAGCTAACAACAATAACATCATTTCTTGTTAAGAGTGATTCGGTTGCTTTAAGTCTTAATTTATCAATTTCCTCATTAACAGATGCATCTTTTTCAATAAAAGTATCTGTAACAGGAAGATAAGCTTCTGGTTGATAATAATCATAATAACTAATAAAATACTCAACTGCATTATCAGGAAAGAGTTGTTTGAACTCACCATACAGCTGTGCGGCTAAAGTTTTATTATGAGACATAATTAAAGTGGGTTTATTTATACTTTCAATTAGGTTTGCCATAGTAAAAGTTTTACCACTTCCAGTGACACCAAGTAAAGTTTGCCATTTTTTTTCTTTCAAGCCTACAGAAAGGTCATTAACAGCTTTCTTTTGAGAAATAGTTGGTTTAAAAGTTGATTTAATTTTAAAATATGACATTATGTCCGAAATTTAAACTTTAATTCAGGATGAATCAAATTATAAATATATATAATTATTGTCTTAAATTATTTTTTATGTAATAAAACCAACTAATGGTTGCAAAGAATATTGAAGCAGATAAGAAATAATATCCATAATTAATATAATTTATAATATATAGGAATAATGCAATTGAAATTAAAAAAATAGTCCATTTTCCAAAAACATTTGAGCCATTATAACGATTAAATTTTCTTAAACTGTAAAAAAAACTTAATGAAATAGTAATCTGCCTAATCAAATAAAAAATTAAAAACCAAAATGGAAAATTTTTATCTTCATCAATTAATAAAAATAAAATGATTGAAGAAACTACAAAGAAATCACATAATGGATCTAAAATCTTACCTAACTCTGATTTTTCTTTTAAAATTCTAGCTACAAGCCCATCTAGCCAATCACTAATAATTGCAATTATTACTAATAATAAAGAAAATATTATAAAATTATTTTTTAAAGATAAAAAAATAGGAATTGATAATAATCCTCTAAAAATTGATATTGTATTTGAAACTGAAAAAAATGTATATTTTTTTTTAATCAAATAAAATCCCTCTTAAAACTTTTCTTGATGAACCTAAATTTCTTTTTATTACTTCAGATGAAGAAATAGATGCATTTTTATAAAAAATATTATTATCCAAAAGTAATGTTAAAATTTTTTTAAAATCAGAAGAATCTTTTATTGTAAATCCACCTTTCTCTTTTACTAATTCTTCAGCTGCATGGGATTTTTTATAATTAGGTCCAAATATTGTTGGAATATTTGCAATTGATGATTCCATAACATTATGAACACCATTAGAAAAACCACCTCCAATATATGCAATTTTAGATTTCCAATATATTTTATATAAATGCCCAATTTCATCCATTATAATTATTTTTTTATTAGATTGATTGTTATGAGAGAAAAGTTCATAATCAATTTTTTTATTTTTAAAGTAATTAATTGTATTAATTATATAATCTTTTTTTGGTTCATGCGGAACCCATATTAATTGAAAAGATGGATATTTATTAATAAAATTAATTATTACAGGTAATATAACTTTATCATCCTCCGGCCACATAGATCCAGCAACAATCGTTAATGGTCGTTTTTCATTATTATCAATTTTATTTTTTTTATTTTTTTTATCAACCATATCATATCTAGGACTTCCCAATACTCTTATTAAAATTTTTGATTTTTTATTAATAATCTTTTTTAAAAATATATAATCCGTCTCATTAATTGTGTAGATAGAATTAAATGAAGAATAAATCTGAGAATAAAAATTTTTGATTATAGGTAATAATTTTTTACTTCTTGAGGTAAACCTTGCAGAAAATATTGTTGTATGAATATTTAAAAAATTTGCAATCCAAATTAAATTTGGCCACACATCATATTCTGCAAAAATAAGTTTATAAGGTTTGATGATTGATAAAATTTTAAAAATTGAAATTGGTAAATCGAGAGGTAAATAAAATTTTAAATTTATATTTTCATCATTTACATTATCATAACCTGATGGAGAAAAAAAACTTACGATTATAATACAATTTTTGTCTAATTCTTTTAGTCCAGTTAAAATTGGCTTTACTTGTTCATATTCTCCATGAGAAGCACAATGAAACCAATATCTTGTATTATCTGGGTTTACATTTTTAAAATATTGTTTAATCTTTTTAAACTGGTTTTTTCTACCTGATATGCCTTTTTTAATTTTATCATTAAATATAGATAAAATAAATAATAGCAAAACTAAAATAGGTAAAAAAACTAAATTATAAATTAATATCCAAATTATCTTTATTATCATTTTTTATAATTTCATTAATAGATTTTAAAACTTTAATTTCATTTATGTTTATCATACAATATTTTTTATCTCTAATACATTTTTTTTGACCATTTTTTGAGCATGGTCTACACCAAATATCAGAATACAGATTTTTAGATTTTTTATTTCTTGTATTTCCTCCAGTTGCATTAGAAGTTGGTCCAGATATTAACACCACTGGCTTTCCCAATGCTTCTGATGCGTGAACAAGACCAGTGTCAGATCCAATGGTAATTTTTGATAAGAATATAATTGCAAAAGCTGTCCTTAAGTCTGTTTTATTTTTCAAATTTATAACGTTTTTATTTGATTTATAAATTTTATCACAAATTAAATCATTTTCTGAACCTAATAAAACTATAGGAAATTGTAAAAGAGGAATAAGTTTATTATAATTTTCCAATGTCCAGCTCTTGTTTTCCCACGCAGCACCTGGTACTATAACGATGTATTCGGAATATATTTTATTAGATTCTAAAATCTTTTTAGCTTTAGTTTTTTCTGAAGTAGATATATTAAGATAGGTTTTATTTTTCAAAAATATTTTACTTTTATTAACATCTAACAGCTTTTCAATTTCATCTAAAATATCATATTTTTTTTTAAACAAATTGATTTTAAAATTAAATAATATAAATCTTCTAATACGAAGTTTTCTAATGGTTAAGGATTTTGAATTAATTAATATTTTAACTAAAAAAGATCTTAATGAGCCATGTAAATCATAAATTTTAGAAAATTTATGATCATTTAATTTTCTAAAAGATTTAATTTGATTTCTGATAGTTGATTTTTTTTCAATTGTAATTATTTTATGAATAAATGAAATGTTTTTTAAAATTGACTTATTATTTTCAAGTGTAAGAAAATAAATTTTTGATTTAGGGTAGATTTGTTTTAAAAGTTGTAACGCATAGGTGCTGAAAATTATATCACCGATTGAGCTAAACCTTATTACTAGAATTTTATTCAAAATAAATAAAAATTATCTATTCCTTATAATATTATATTCACATATTTCTATTAAAGAATCTTTAAATTCATTATTTGGCATTATATCAAGGGATGAAACAGCAATATCTGTATAGTGTTTTAATTTTTTTTGCGCATAATTTATACCACCTTCTTCATTAACAATTTTTTTTAAATCAATAAGCTCTCTTTTTGAAGCTTTTTTTGATAAAGCATTTTTTATTAGTGATTTTGTTGAAGATGATAATTTATTTTCAAGGATATGAATCATAGGAAGTGTTATCATATTACTTGAAACATCAGCATTTGAATCTTTTCCAGTTTTATAAGAAGAACCCAAAATATCAAGCAAATCATCTTTAATTTGAAATGCTACACCTAAATTTTCACCAAAATCAAAAGATGCTTTTTTAAATTCATCCTTTGCATTAGATGTAATTGCACCCAGTTTTGTAGATGTAGACATTAAAGATGCTGTTTTGTCCTTAATCATTTTAATATATTTTTTTTCTGACATAGATTTCTTTATTGATCCTTCTATTTGCAACATTTCTCCGGAACTTAATCGCTTAGCAGTTGAAGAAATTAAGTCAAGTGAATCAAAATCTCTTAAAGAAATAAGGTTTTTCAAAACTTGGCTTAAAATAAAATCACCCATTATAACAGCTGTTTTGTTTCCCCAAATTTTGTGAATCGTAGGAAAACCCCTTCTTTTTTCTGATTTATCCACAACATCATCATGAATAAGAGTAGCTAGATGTAATAATTCAACCATCGCAGCTGCTTTGTATGTATTGCTAGTAGTTTTTCCACATAGTTTTGATATAAAAATCATTAATATAGGTCGAATACCTTTTCCATTATTTTTTATTAAATAATCACTTATAATATTTATTAATTTCACATCTGACTTTAAGGCATATGAAAACTCGTTTTTAAATAATTGAAGATCATTCCTTATAGGATATATTATTTTATTTAATTTTTTTAAATCTGCCATTTTATCTTTTAAAAATTGAACATAAGAATATACTTATTTCATATAATAAAATTAATGGTATGGACATCATTAGCAAACTAATTGGGTCTGGTGGTGTTATTAAAGCAGAAAGAATCAAGATTGTAATAAATGCATGTCTTCTGTAATGTCTCATAAATGGAGGTGTTAACAAACCTATTAATGTAAAAATAACAACTAATACAGGTAATTGAAAAAGTAATCCAGATGAAAAAATTAACCATAATATATAGCTAAAATAATAATTAATTGAAAAATTATTTTCAACATCAACATAACCCATTGATGAAAAAAAATTTAATGAAAATGGTATAATTATAAAATAGGCGAATATCACACCTAATAAGAATGAAATAAATGAAAATAAAACAATAGGAAGAGCATATTTTTTTTCATTTTGCAATAATCCTGGAGAAATAAATTTCCATATTTGAAATGTTAATACTGGAATACCCAAAATTAAACCACCCACAAATGCAATGCCCCATTTAATCATAAACATTCCATGTACTTTTAAAACTTGTAATTTAGGTGGTGATTCAAGCATGGTTGTTGGATATAATAATATTTGAAAAATTTCATCAATAAAAAAAAATATTATTCCAGCACCAATCAAAATACTGATTAGAGATTTAATTATTCTCCATCTTAATTCTTCAAGATGATCTATAAATGTCATATTTGACGAATTTGACATAATATTTTTTTACTTAATTAATAAAATTATAAAAAATAACTTTTAAACTTATTGTAATCAACAAATGATAATTCGTGTGAATTTCTTTTGATTAATTTCTTTGTTTCTAATAATTTTAACATTCTTGAAACTGTTTCTCTTGATGTTCCAGACATATTGGCTATATCTTGATGAAAAGGAAGCTTGGGGATTTTAACCAATCCATTTTTAATAACACCTAATTGTTCGGATAGCGATAAAATACTAATACCAATCCTTTTTTCAGCATCACTAAATGCTAAATTCTCAACTTGCTCATCAGTTTTTCTAATTCTTTTAGCTAATTCTGATAATAGTGAAATTGAAATTTGAGGTATTTCATTAATTAGTTGTAAAAAATCATTTCTTTTTAAAATCATTAATGATGTTTTTTCAACAGCAATTGCATTTGCAGAACGGGTTTTGCCATCTAATAATGAGATTTCACCAAAGAAATTACCTGATGACAATACTGCAAGTATAACTTCTCTCCCATCTTCGCTATCTCTTGTAACCTTAACAGAACCTTCTAAGATAATAAAAAAAGTATCACCAACTTCATCTTCCATTAAAATTATTTCTGATTTAGAATAATTTTTTTTTGTCATTTTAGATAAAATGAATGAAATCTGATTATCATCTAAATTGGAAAAAATAGGTACATTCAAAAGAAGTTTATTAGTAAGCATACTTTAAAGTTATTATTATTTATATAAAATAAGAAATAAAGAATTATCTTAATTTGCTTAATGAAAAATAGAATCATAAATTACATCAATATTTTTAGGTACAATTAATGAGCACAAGAACAAAATCAGTACAAAAAAGACAAAGAAAACAAATTCTTAATTATAATAGCAATATGCAATATAAAACTAAAATGAAAACTGCTATTAAAAAAGTTTTAGAGTGTAAAAAGAAAGATGAAGCAGATTCACTTTATAAAAATGCTATTTCAATTATTGATAAATTAAGTCAAAAGAAAATTATACACTCAAATACTGCTGCTAGAAAAAAATCAACTTTAAGTAAATTTTATAATTCTCTGTAATTGTCTTTTGGCTGATAATTAGGGGCATCTTCTACAATTCTTAAATCATGAGGATGACCTTCTGCATATGAGGCAGATGATATTTTTATAAATTTTGAATTATTCCTAAATATCTTAAGGTTTTTTGAACCTGTATAACCCATGCTTGATTTAAGCCCACCAATCAATTGAAAAATAACAGAATTTAGAGAACCTCTATAAGGAACCAAGCCCTCAACGCCTTCAGGAACAAGCTTAATACCTTCAACTCCTTCTTGAAAATACCTATCAGCAGTACCATCTTTCATGGGACCAAGTGAACCCATTCCTCTAAATACTTTATGTTGACGTCCATCATGAAGTAAAAGCTCACCTGGGCTTTCATCTAATCCAGCAAGTAAATTACCCAACATAACAGAATGAGCTCCAGCCCCTAAAGCTTTAGCCATATCACCAGAAAATCTAATACCTCCATCTGAAATAATTGGAATTTTAGAATCATTAGAAATTTTAATACAATCAAGTATTGCTGAAAATTGTGGGACACCAACTCCGCTGACAATTCTTGTTGTACAACTGGCTCCAGCTCCAATTCCAACTTTAACAGCATCTGCTCCTTTAGAAATTAAAGACTTCATACCTTCTGATGTTGCAATATTTCCAGCAATTAGCGGAATCTCAGGAAATTTACGCTTAATTTTTTCAACAGAATCTAACACTCCTTGAGAATGTCCATGAGCTGAATCTAAAACTAAAATGTCAACACCAGCTGAAACTAACTCTAAAGCTCGATCTTCCAAGTCATTTGATACACCTATTGCAGCAGCACATAATAATCTACCATGTGTATCTAATGATGCATTTGGAAACTTTTCTTTCATTAAGACATCTCTTACAGTTACCATTCCTTTAAGTTTTTTGTTTTTATCAACAATTAATAGTTTTTCTATTCTATTTTTTTGAAGTATTGACTTTGCCTTATTTAGAGTTGTACTCTCACTGGCTGTAATTAGATCCTTTGTCATTACTTGACTAACAAGTTGGTCAAGGTTGGACTCAAACCTTATGTCACGATCAGTTAAAATACCTAATATTTTTTCATTGTGATCAAGAACAGGAAGACCTGATATTTCATGGTTTTTCATAATTGAAATAGCATCTTTCAATGTTTTGTCAGGTGAAATTGTTACAGGATCTAAAATTATACCACTTTCAGCCCTCTTCACTTTAGTTATTTCTTTAACCTGTTTTTCAATAGACATATTTTTATGAATAACACCCAACCCACCTTCTCTAGCAATTGAAATAGCCATTTTATTTTCTGTTACAGTATCCATTGCTGCGCTAATAATTGGTATTTTGATTTCTATATTTGATGTTATGTTTGTTGACACATCAACTTTTGATGGTAAAACTTCTGAGTGAGAAGGAACAAGTAAAACATCATCAAAAGTGTAAGATTTTTTTATTTTTGTGTTATTTTTCATTTCTATATATAATTAAATATATAATATAATTAAACTCCAGCAAATACTTTCATTACATCAACTAATAATGATGGTTTTTTAAAAATTAATCTGCTAAATATTTTTGCTATTGTTCGTTTACTAGGATCAATTTTAGAAATAGTTAGAGCTATTTTATCTAAATCTTCATCTGTTAATCGAGCAATTGTTTCTTTAATAGAATAAAATCTTTCATGATTTTTCCCACCAATTTTATACCATTCCTCAGAATATTTATTTAAAAAGTTTTCAGAATAATTTTTTTCTTTTATTGATAATGCTGCTACTTCCCCAGCTAACATTCCTCCACGCATACCTGGAACAATTCCACCACCAGTCATAGGGTTTACCATATGTGCTGCATCTCCTGCTAACATGCATCCATTTGTTACAATTTTATTTAATGTTTTTGCACAAGGAACTCCACCTACTGTTGTGCTTAATATTGAACTTTTTGGAAATTTTTGATCAATAAACTCATTTAAAAATTTCTTTGCGGATTTATTTTTGCTATATTTACCAGAAACTGCTAATCCAACATTTGCAGAATTTTTCCCTTTAGGGAAAACCCATAAGTATCCACCTGGAGCCCATTTTTTAGACACATAGAAATCAAATCTATTATCCTGAACGTTTATTCCTGTAATTGTTTTTTGAATTGCAGATTCCATGTCTTTTAATTTAATCATAGTATTAATACCTGCCCACCTACCTACCCTACTTTCAACGCCATCAGCACCAATAACTATTTTTGACTTCAATTCAAAAGGTTCATTCTCATATTCACCTTTTACTCCTACAACTTTATCATCTTCAATAATTAAACCGTTCACGTAAGCCTGAGTTAATATTAAAGCACCCTCATTTGCGGCATATTGAGCTAAGTCAGAATCAAATACTCTTCTATCTAAGATATAACCCTTTTGCTTTAATGGAACATCTAAAACATGAGAACTTGGAGAAATTAATCTTAAATGATCTATTGTAGAACGAATCCATGATTTTTGAGGCTCTAAAAATATTTTAAGTCCTGCATCGCTGGCTGCTTCACCACATCTTACAGGAACACCAATTTCTCTATCCTTTTCTAAAACTATTACATCAAGGCCTTTACTCGCTGCATATTTCGCAGCAGTAGTACCTGCTGGACCACCACCTACAATTATAAGATCAAATTTATTTTGAAGAAACATGCTCTAAAACTTCAATTGGGCAAATATATACACATAATTTACAGTCAATACATGTATCATGAATAATTTCTATATTTTTTTCTTTTAATTCAATACAATCAACTGGGCAGACATTTACACAACATCCACAAAAATCACATGTATTTGGTTTAATCTCTATCAATGATTAAAAGTTAGGTATATTGTTAGTGACTTTAAATGTCGGATATATTTTACCATATAAAAAATAATTAATTAATCTAAGAAAATGAAAAAGAAGAAAAAAAGCAATGAAAATATAGGGTATTCGAGTTGAAATAAAAATTAATACAATAAACATAGGATAAATATAAGCTCTAATAATATGTTCGCTCTTAAAAATAAAAAATGCTACAAAGTAAAAAGGAATTATAATGGCTAAAGAGGTACTTAATATAGGGTCATTATTATAATAAGATATAAAAATAGAACTTATTTGTAACAATATTGAAAATAAAATAGTTTTTTTTGAATTATCTATCTTGTCAGTATAATTTAAATTAGATGAAATTATGTAAAGTGGTTTAATTAAAAGTATTGAGAATAGAGTAAAAATATATGGTAGTATGAAAAAAAAAGAATTAATAGTCATATAAGAAGAAATAAAATTTATATTTAAACCAATAAAAAATAAAGATGAACATTTCAATATTTCATAAAAAATTGAATTATAAAAATTTGTAACCACGTATTTTTTATTAGAAAAATAAAAATAAATAGTTAAGAAGATTAAATTTCCGATGAATGAAGAAGAAAACAATCTATCGTCAATTAAAAAAACACTTAAAAACAAAGAAATTAAAAGAAATAAGAGATAATTTAGGGGAATTTTTAATATTCCATTATAAAAATCAATAATAATTGTAAATAAAGATATTAAAATAAAAAAAAATAAGTATTTTAACGAAAAAAGAAAATCCCAGTATAAATAATCTGCAACTATTGAAAAACCTAAACCAAGACACATCCAAGTTATAAACAATGAATTAAAATTTATTCTGTCAAATGAAAGTTTTAGTAAATATTTATTAATACTAGAATAGAGGTTATTATCTTTTTTTATAAATCTTGATATAAACATTTTAAATTAACTTTTTCCAATTAATGAAGAACCAGAAGTTAAAAAATAAATCTCGTTAATTAAAATATAACCAACAACAATAGCCGATATATAAAAAATTATTATAGTAAAAGTCTTATTTAGATTAATAAATGAATTTTCATTATTAATTTCTGTAGTAAAATTTGAAATTTTAAATTCGAATATAATAAAAAGCGAAACTAACAAACCACCAATTGGAAGCATATATTTTGAAGACAATTCATCCATTAGATCAAAAAAAGTTTTATTTTCAAAAGGTGATATATTAATTCCACCTCCTAAAGACAAAGAACAAAAAACTCCAATTAAAATAATAAGCGTACCAAATGTTATTGTTGCTTTAAACCTAGACCATTTTTTTTCATCAACGAAATATGCTGTTACTACTTCTAATAAAGAAATTGCAGATGTTAAGGCTGCCATAAAAAGTAATAGAAAAAAAATAGTTGACCACAATTGACCACCAATCAACTGGTCAAAAACTGTAGGCAGAACTGTAAAAATCAATCCTGGTCCAGAAGCGGGGTCGGAACCAGTTGCAAATACTGTTGTAAAAATTGCAATTCCTGCAATTAAAGCTATAAAAGTATCTAAGATTATAATCCATAAAGAAGAAATAAATAAATCCTGATCTTTCCTTAGGTAACTTCCATATGCAACCATCGTTCCCATGCCAAGACTAAGAGTAAAAAAAGAATGACCAAGAGCAAGTACAATAGAATGCGGTGTTAAATCATCAAATTTTGGATAAAAAAGAAATTTAAGTCCCTCAATTCCACCAGGGGTTATTAAACCTCTTATTGCTAAAATTATCAATAAAATAATTACAAATGGCATCATTATTTTAGACCATTTTTCAATCCCATTTTTTATTCCATTTATTATTACAAACATTGTAATTAACATAAAACCTGCTTGCCAATATATAGGTTCAATAGGAAGGGAAATAAAATCAGAAAAGATAAGCTGAGTTTGCTGAATATTTAAATCATTCAAAAATCCAAATAAACTTAAAAAAGTGTATTTAAGGGTCCATCCACCAACAACTCCATAAAATGATAATATTACAACAGCTGAGAGAGTACCTAAAAAGCCATTAAAGACCCAAAATTTATTAGTTGATAATTTTTTATAAGCTCCAACCGCACTTAATTGGGTCTTTCGGCCAATCATAAGCTCTCCTAATAAAATCGATAGCCCAACAATAAAAATACATAATAAATAAATAAGTGTAAAAGCAGCACCACCATTCTCACCAGCCATTGTCGGGAATTTCCATATATTACCAACACCAACTGCCGAACCTGATGCAGCTAAAATAAATCCTATTCTTGAATTCCATTGTTCTCTTTTTTTCATTTTTTTTCTTCAATAAAAATTGTTTTTAAATCATCCATATGATAATCTACTGTCGAATCTAAAATACTGTATACATATACAAAAAAAGTATACCAAGCAAATTTATTTCTATTATTCAAATGATATAAATATAAAGAATTATCAGAAGATTCATTCAAATCATTAAAAGCTATCCTATGTTTATTAAATTTTGATATCATATAAAACTCTGCTGTAATTATAATCATTGACTTTAATATCTTACCATTCAATAATTGACCATAACCAGGAATCAAAGAGCTTGGAAAAATTTCTTTTTTATTTCTGATTGTATCATCAATTGAATTTTGATATGAAAACAATGTTGAAAATAAAAAAAAAGATATAAATATTAAATTTTTCAATTAATTAGAACTATTCCATATATAAAATGAATCTTTTATGATTTCTATTTCAAAAGATTTATTTTTACCATTTATTATTTCACCATCTACATGTATAGGGAGTGAAAAATCACTTTCAATCTTAATTTTTTTTGTTTTGTATAATTTTACTTCATCAATTTCTTCAATTCTACCATTAGTTAACTTTGGAAAATTTGCAACTATTTTAAAAGGAGAAATTTCTTTTAAATGACATACATCAAATAAACCATCATCAATCTTAGCATTTGGAGTCATACTTAATCCCCCACCTACTGACCAACCGTTAGAAATACATATTAAATAACTATTCGACGTAAAATGATTATTATCAAGAAGTATTTTAACTGGTACTGCTCTCCATTTATTTAATGTTTTGAGAACAGCGGCAACAAATACAGGTTTTCCTTTGAGAAATTTAATTTTCTTACTTTCAATGTTGACATATCCATCAAATCCAATTCCAACGACATTGATAAAATATTGTCCATTAATTATTCCAATATCAATTTTTCTTTTTTTACCATTAATTATATTATCTATTGCATCATTTATTTTTAATGGGATATTTGCACTTCTAGCAAAATCATTTCCAGTACCATTAGGTATTACTCCAAGTGGAGTATTTGACCCATAAAGACCATTAACAGCTTCATTAATAGTGCCATCACCTCCAAAAACAACTATAAGATCATACTCTTGCTTAAACTGTTTACATATTTTTTTTGCATCACCAATCGCGTTAGTATATTTGAAATCAAAAAAAATTGATTTTTTTTGTAGTATTGTTTTTAACTTTTTTGAAGATTTTTTTGCTGTACCCTTACCTGCTGTAGGATTAATTATAAATAATATTTTCATTTGTTTATACATGCAATACATTCAACCTCAATATCAGAGTTCATAGGTAATTTAGAAACCTGAACAACTGACCTAGCTGGTGGATTAATTAAAAATGTTTTCATGAAAACATCATTTAACTCATTAAATCTAGATAAATCGGTTAAAAAAACAGTTACTTTTAGAATATTATCTAATGAAGAATTAGAAGATTTAAGTAAATTTTTTAAATTCATCAAAACTCTTTCTACTCTATTTTTAAAATTACCATTAATTAATTTTGAAGTATTAGGATCAATAGGTATTTGTCCAGAAGTAAAAATTAAATCATTATGAACAACTATAGACCTATAAGGACCAATAGGCTTAGGGGTTAGATTATTATTTTTTTTATCAAGCATATAAACTTATGATTCTTCTAAATCAGTTAAAATCTTAACAATGTTTGATATAACATTTTGAAATAAGTTAATATTTTTAGCACCTGCGGTTGCAATATTTTTTCTACCACCTCCACCACCTTCCATCAAAGAACCTAAATGTTTAGCTAAAATAGAAGCATTAAAATTTTCAGTAATTAAATCATTTGACAAACCAATTACTATAATTGGTTTATCAAAATTTGAATAAATAATTGAAATTGTTTTTTTTACTTTAATAATAATTTTATTTGTAATATTTTTTAAATCATCAATATCATCCAATAATACATTTTCACATATAAGAAATTTTGAATTAAATGAAATATTTTTTTTAATTAACATATCTATATCTACAGACTTAGAAGCATTTATCTTTACCTTTTTATTAAGTATTTTCTTTTCTTCAATTAATTTAATAACCTCAGTTTGAATATTTTGAGTTGATGTATTTAATAATGATTTTAAAGTATTAATTGTTTTTTTATTATTTTGAAAAGTATTTAACGCTTTATTGTTAGTTTCTGCAAATATTCTTCTAACTCCTGATGATAAAGAAGTTTCTTGTTTAATAGAAAAAAAACCTATCTCGCCAGTCCTATCTACATGAGTACCACCACATAATTCGATAGAATAATTAGACATTGAAACTACCCTTACACTATCACCATATTTCTCATCAAACATTGCCTTTGCACCAATTTTTTTTGCATCATCATATTTTTTTTCTTTTGTGTTAACAACAAGGTTTTGAAATATCTTACTATTAACTATCGTTTCAATTTTAATAAGATCTTCTTCGTTAATTTTATTAAAATGTGTAAAATCAAATCTTAAATAATCAGGATGAACTAATGAACCAGCTTGATGTACGTGATCACCTAAAATATCAATCAAAGCTTGATGGAGTAAATGTGTAGCAGAATGATTGTTCTTTATACTATTTCTTCTTGAAATATTTACTTTACATTCAAATTCTTTGTTGTTAATCATATTTGCATTAAAAGTTGATACATGTATATGCTTATCACCTATATAAAAAGTGTCTAAAACGTCAATTTTGTTTTTATTATATATTAAATGTCCAGTATCACCAACTTGACCTCCCTTTTCAGCATAAAAAGGAGTATTTGATAATTCAAAATAAATTTTATCATTATCTAAATAATATTGTAAAATTTTAGATTTTGAATTTACATTATCATATCCAGAGAAATAGCTTTCACCTTCATTAATTTTTATCCAATTAATGTTGTCCATTTTTTCATCTCTAAATTTTTCTTTCTTTCTAGATTGATTTTTTTGTTTTTCCATTAATATATTAAAATCGTCTAATTTAACATCAATTTTATTTTCTTTTGACATTTGCAATGTTAAATCTATTGGAAATCCAAAAGTATCATATAAAGTAAATGCATTTTTACCTGAAATAAATGAATTTTTTGAAATTATATTATTAAATCTTTTTATTCCTAAATCTAAAGTATTCAAAAATGATTCTTCTTCAATATTTAAAATTTTTTTTATGTAATTCTTTTTATCTAATAATTCAGGATATTCTATATTCATAATTTTTAAAACAGGATCAACTAATTTTGACAAAAAAGGTTCATTAGAACCCATATTGTGACCAAATCTTACCGCTCTTCTTAAAATTCTTCTTGATACATAACCTCTTCCTTCGTTTGAAGGTATAACTCCATCTGAAATAGAAAAAACAAGCATTCTAATATGGTCAGATATAGCCCTATGGCCAATATAATTATCTTTATATTTTAGTTTAAATATTTCTTCTTGAGTATTAATTATAGGTTTAAATAAATCAGTATCATAATTGCTCGTTTTATTTTGCAAAACAGCACATAATCTTTCTAATCCGGCTCCAGTATCAACATATTTTTTAGATAAATTTTCCAATTCACCATTTTGCAGTCTATTAAATTGAATGAATACAAGATTCCATAATTCCCAATACTCATCTGATTTATTTACGCCAGCTTTTGATTGTTTTTGTAAATCTTCACCAATGTAATAGTGTATTTCAGAACAGGGACCACACGGACCAGTATCACCCATTTCCCAAAAATTATCTTTTTTACCTGATCTTAAAATTCTAGATGTATTTATATCGGTATAATTTTTCCAAATTTCAAAAGATTCGTTATCTTCTTCAAATACTGTAACCCATAATCTTTTTTTATCTAAACCATAAACTTCTGTAAATAATTCCCATGACCAAATTATTGCTTCTTTTTTATAATAATCACCAAAAGACCAATTTCCAAGCATCTCAAAAAATGTATGGTGAAATGAATCAATGCCAACTTCTTCTAAATCATTATGCTTACCACTAACTCTTATGCATTTTTGAGAATTATAAACTCGTTCACTAACTGGCTTTTCTTTATCAAGGAAAACATTCTTAAATTGATTCATTCCTGCATTAATAAATAATAAGCTAGAATCATTGATTGGTATTAAAGGAGAACTTTTAATATGTAAATGATTTTTAGATTTGAAAAAATCATAAAAAATATTTCTTACTTTATCAGATTTCAAAATATTTCATAACAACGGGTTGTATATCTTCCCAATTGAAACCTTTTCTTCTAATATAGTTAATAATTTTATTTAATTCTTTTTTATCCATTTTTTTATTTATTTTATTTTTTTTTCAAAAATTTCTCTAATAATATTGTACTTTGTTTTATTATCATAGATTTTAGATACAACTATTTCTATCGTGGATTGGTCTATTCCTTTTTTAAATAATTCATTTTTAGCGGCTAATGGACCTAATTTTTTATTTTTTAAATTATGATTTGCAAACATTTTTGCAAATTCATAATCATCAAGTAATTTATTTTTTTTCAAATGTTCAATTACATTAAATATAACTTCATTAGAAAATTTTTTTTTAATTAATTTATTCTTGATTTCGGAAGAAGACCTTGCTCTAATAGCTAATAAATTTAAAGCACATTCTTTAGCTTTAGATAAATTATTTTCAAAATTAATTTTATCAATATCAAAATCATTAATTTTCATTCCAATAGAAATATTATTTTTATTTAAAACATATTCTGAAACACTTAAAAAATAAATTTCATCAAGAAAGATAGAAACTCGATTATTATTTTTATTTCTTTTAATATTTGTAACTATTTTCATTATTAACAAAATATTTTTATTTAAATGTTATTCCTTTTCCTCAATTCCTAATGCACCACTCAAAGCATTTTCAATAGATTTGACAGCATCAGGGTTTTCTTTTAAATAAATCTTTGTATTTTCTCTACCTTGGCCAATTTTTTCATCATTAAACGAATACCAAGCTCCAGATTTATCAACAATATTACTTTCAACAGCTAAATCTAATAAATCACCCTCATAAGAAATACCTTCACCAAACATCAAATCAAATTCTGTTTGTCTGAAAGGTGCGGCGCATTTGTTTTTGACAATTTTTACTCTCACTCTATTTCCCACATTTATATCACCATCTTTAATTGCTCCAATTCTTCTAATATCTAATCTTACAGATGTATAAAACTTTAAAGCTCTTCCTCCTGGAGTTACCTCAGGGTTACCAAACATAATTCCAACTTTTTCTCTAATTTGGTTGATGAAAATAACTGAAGTATTTGATTTTGATACAATAGCTGTCAATTTTCTTAAAGCCTGTGACATTAATCTAGCTTGCAAGCCAACATGACTATCACCCATTTCACCTTCAATTTCTACCCTAGGAACTAGAGCAGCAACAGAATCAATAACTACTACATCAACAGCATTACTTCTTACTAGAGTTTCACAAATTTCTAAAGCCTGTTCTCCAGTATCAGGTTGAGATAACAATGTGTCTTCAAGCTTAACACCAATAGCCTCAGCATACTGAGAGTTTAAGGCATGTTCAGCATCAATAAATACACAATTACCACCATTTCTTTGAGATTCTCGAATAACATGCAGGGCAAGTGTGGTTTTACCTGATGCTTCAGGGCCAAAAATTTCAGTTATCCTACCTTTTGGTATTCCACCAACACCTAATGCTAAATCTAATGAGATTGAGCCAGTTTTAACTGCTTCAATATGCTTAGAAAATTCATTATCTCCAGATAATTTCATAATAGAACCTTTACCAAACTGTTTATCAATTTGACCAAGTGCTAAATCTAGTGCTTTATTTTTATTATCATTTTTTGATGCCATTTTAAAACTCCTATATTTTTTACAAATCCAACTTAAAACTTAACTAAATCTACTAAAGAAAAATTAATCAAACTTCACCAGAACTTTTAAGTGAAAAATCTTTCAAAATTTTATAAGCAATTTGATTATTATTTATTGTTGATTGATATAAAATTATTTTTTTAATAATAAAGGGAATTTCATTAAAACCAAAATTAATAAAATTTTTAGGATTCGGATTATTTTTTTTAGGATGTATTGATTTGGCAATAGTAATATGAGGTTTATAAAATACTTTTTCATTTGGATAGCCTATTTTTATCATAGATTGGGATAATTCATTAATGAATTTATTTAACAGGTCTAATTCTCCATTAATGTCGAGAAAATATACACGTGGTCTATTTATATTAGGAAATACTCCAGTTCTATTTATTAACAAATTTATTTGATTTGTTTTTTTTGAAATTTTATAAATAATATTACTAATATTTTCAATTTCAGAATGTAAAATAGGACCTAAATATTTGAATGTTAAGTGCAAATTATTATAATGCTCCCAAATTATTTTACTTTTACCAAAATTAATATTATTTTTTATTTTATTAATTAATGAAATAATTTCAAAAGGTGCAACAGCACCAATAAAAGTTTTAATTATTGGTTCATTTTTCAATTAATTTAACCTTTCAAGAATTTTAAGTCTTAGCAAATTAAGAATAGTTCTTGAAGAAAGTTCTTTATTCGTCCTTCTATGATTTGAAAGAATTCTATTTAAAACAAAATCACCATTACTATCATTAATTCCAAAACAAGTGAAACCAATTGGCTTGTCTTTTGAATCACCAGTTGGCCCAGCTATACCAGTTATTGACAATCCAATATCAGTATTAAATCTTTTTCTTACACCTATAGCCATTTCTTTGGCTACTTGATCACTTACAGCTCCAAACGTTTTAATTGACTCCTTTGAAACATTTAATAATGAAATCTTAGATTCATTTGAATAAGAAATAATACTACCTTTAAATATTTTAGAGGAACCTGGAATATTTGTTATTAAATCACTAGTTAAACCTCCAGAACATGATTCAGCAATAGAAAAAGTAAGTTTTTTGTTAGCAAGCAACTTCAAAATTATTTCCTCTAATGAAAAATTCTCATTAGTATAAACTTTATCTCCAAGTAGACATTCAATCTCACTTCCCAAACTATTTAAAAGTTTTAAAGATTTACTAAAAAGAATTATTTGCACCCCTTTAAAACTAGGTAAAAAAGATATTGAAATATTTTTTAAATCTAATTTGCTATAGATTAATTCTTGAATTTTAGATTCAACAATACCAAAAGTTTTTATTCTTAAAGTATAATATTTTTCATCTATTGAATTTGAAATTTTATTAACAACATAATTATCAAACATTTTTCTCATCTCTTTTGGAACCCCTGGTAGAAAAAAAAATTGTGCATTGTTAAAAAAATAATCAATTCCTCTTGCTGAACCTAAATCATTTGGAATTATATTTGTATCTTCAATATAATTTGACTGATTTTTGTTTATATCAGACATTTTAATATTTCTTTTTAAATATTTATTTTTCAATACTTTTAGATATTCTTCATCGATCAATATTTTTTTATTTATAAAAGATGAAAATGTTTTTAAAGTTACATCATCAATGGTTGGCCCTAATCCTCCAGTACAAATAATTATATCAGATTTAGAGTTGGCAATCTTAATTGATTCGATAATTTCATCACTATTATCCTCTGGGGTAGCTTTCCATACAGTTCTAACACCTAAGTCTGTTAATTTAGAACCTATATATGAAGAATTCGAATCTATAGTAAATCCTTTTAATAATTCATTTCCAATGGTTATAATAGATGCTTTCATAGAAATATCCAAAAAAGCTGAACAATTAATCCAGCATATAATCCAGCAATAATATCATCAAACATTATTCCTATACCGGAATCCCTTTTATCAAATACATTTGCTGGATATAATTTTATTATATCAAAAAATCTGAAAAATAGAAAGCCTAAAAAATACGAATTCAAACCATTTGGAATTAATAATAATGCAATCCACATTCCTACAAACTCATCTATCACTATATACCCTGGATCTTTTATATTATTTTTTTTGGAAATTATTTCAGAAGCATAAACTCCCACTATAAAAAAAATTATGATAATTAATGATTTAATTAGTAATGAATAACTTTCAATAAAAAACCAAATTAAAATAGAAAAAATTGTTCCAAATGTACCAGGAGCAATAGGTATATAGCCTATTTTAAAACAAGTTACAAATAATTCTAGAAATTTATGCAACATTTCCAGTGTTTTTATTAAATAAAAATTTAATACCATCTCTGTGAATATAAATATAATGCAAACCACTATAAAATGTAATAATTGAAGCAATTGATAAAAAAATCCAAGAAGTTGTTATTTGATTTTGAAGATTAAATAAAGTTAAAAAAACATATCCTAATTGATCAAAAAAAACAAATAAATGGTTTATAATAAAAATTTCTTCAATTACGTTTTGACACATGCTTGACAAAACATAGATTATTACAAATATTTGAATTGTTGTTTTAATTTTAGCTACATTACTTGTTACAAAAGCCAAATTATATTTTTTAAAAAAAATACGAATTAATGTAACAATTATATCTCTTGAAATAATTAAAAAGAACATCCAGTATGAAATAATATCTAAAAATAAAAATGATGAAAAAACACTAAGAGTTAAAATTTTATCAGCCAATGGATCAAGAAACTTTCCTAAAGTAGAAATTTGATTAAATTTTCTTGCAATGAAGCCATCAAAAAAATCAGTTATTGAGGCAACAGTGAAAATTAATAGCGATAAAAAAATAGAATTATTACTATTTGAAAAGAAAAAAAATAAAAATAATGGAACCAGAATGATTCTTATTAAAGACAGAATATTTGGAATCATTTAAATCTCACGCCTACCTTCTAATGCACTAACCAATGTAGCTTCATCTGTATATTCTAGATCTCCTCCAATAGGAATCCCTTTTGCTAATCTAGAAATTTTAATATTTTTATTTTTCAACAACTCAGAAATATATAATGCAGTAGTCTCTCCTTCTGAACTTGGATTAGTTGCAATTATTAATTCATCTATAGCATCAATTCTATCCTCTAAAGAATTTATATTTAAATTCTCAGGGCCAATACCATCCAAAGGTGATAATAATCCACCTAAAATATGATATTGACCATTATAAAAACCTGTTTTCTCAAAAGTTATTAAATCAATTGTATCTTCAACTAAACAAATAATTGTTTTATCTCTAGATTCATCAGAGCAAATTTTACAAGGTGTTATTTCTGAAATATTATTACATATAGGGCACTCATGAATATTATTTTTAACTTTTAATAATGTGTTAGATAAATCAGTTGCCCAAACCTTCTTAGTTTTAAGAATGAAAAATGCCATTCTCTCAGCGGTCTTCTTACCTATTCCAGGAAAATCAGATAATATATCTATTAATTTAATTAATGAATCAGGTAAAGATGACATTTAGTTTAATCCAGGAATTTTAAAACCATCACCAAGACCACCTAACATTCCTCCAGAAAGTTTACTCATTCTTTTCTCAGATTCTTTATTTGCTTTTTTTAAAGCATCATTTGTTGCATCAACAATTGAGTTTTGAATTTTAGATATATTATTAAAATCTAAAGAAGGATCAATATTGATATTTAAAACTTTTTGATTACCATCAACTGTAACATTTATTTTTCTTCCAAAAGAACTACCTTCAAATGATAACTTTGATAATTCAGATTTATGTTTATCTAAAGCTCTTTTCATTTCTTTAGCTTGTTTTAAAAAATCACCAATTTTTCCTTTATTGAACATTTTATTCTCCTTTTTTATTCAGCAATTTCACCACCAAATTTATCAATCATTTTTTGTGTTACTGGACTAATTTTATTATCATCAAAATTTGAATTATCATCTAAAATAAATTCGATTGCAAAACTTATATCAATATGTTTTTTCATAATAGATAATATTTTATTTTTATTATTATTTAAAACATCAATTTGAAAACTATATTTTTTTGGTAAGGAAATTTTTAAAATATTATCTTGAATAATATATGGTTTTGATTGAAGTAGAAAAGCTGCAATTGATTTGCTTTCATTTTCTATATCTATTTTTACTTTTGGCCAAACTTCAATAATTTTATCAATATTTAATTTATCCTCAGTAGCAAGATTTTGTATATCATTTTTATTTTTAACGGATTCTAAATTTTGAATTTTAAATTCATTTTTATTTTGTAAATCATAACTTTTTACATTAGAAGTATCAACAGTTTGATTTTCAATATAAATATTTTTATTTTGAGTTTCTTTAGTATTTACATCAATTAAAATTTCCTTTTTTTTATTCACATCATTTTGTTTATCTGAATTTAAATTGATTTTACTTAAATTTTCTTTGATTGTTGCTGAATCATCTATTTCAATTAATTTCAATAAATTTAATTCAATAAATATTTTTGGATTATTCACAATCTTAAAATTCATTTCAATTTTTGATATTTGATCTGATATTCTTAGTAAATGTAAATATTCCCATTTTTTAGAATTATCAAAATAACGATCTTTAATTTCTTCGGGTAAGTTTAAAATTTCTTTATAATTGTCTAATTTTGAACATAATAAATTAAGAATATGTTTATTTAATCCAGATAACAATTCATTTAATTTAAAACCTTTGTTGAACACATCATTTAGAATTAGTAATAGGTTGTCTTTATTTTTTGAATGAAAGGAATCTGTAATATTAAAGAATAGGTCTGTAGGAATCACACCTAACATTTTAATTGCTAGTTCATTCGTAATTTCACCATCAGAAAAAGCAATTAATTGGTCAAAAATACTGAGACAATCCCTCATGCTACCATCTGATAAATTTGCAATAATAGAATATACTGATTTTTCAACTTTTACCTTTTCTAAGGATGAAATATTTTCTAAACTTTTTTCAATATCATTTATTCCTACTCTATTAAAATCATATCTTTGACATCTAGAAATGATAGTTTGGAGGATTTTATTTGGTTCAGTTGTAGCAAAAATAAATTTAACATGTTGAGGAGGTTCTTCTAATGTTTTTAATAAAGCATTAAAAGCAATTTGAGTTAACATGTGAATCTCATCAATTATTATAATTTTAAAATTAGAATTGATTGGAGGATATTTAACAACCTCTCTCAGATTTCTAATTTCATCTACACCTCTATTTGATGCTCCATCTATTTCCAAAACATCTAAATTTGAACCATTTGTAATCTCTATGCAATTAACACATTCATTACACGGTTCACCAGATTGATTATTTTTGCAATTAAAGGATTTTGCTAGAATTCTTGCGGTTGATGTTTTACCTACACCTCTTGGGCCTGCAAAAAGATATGCATGAGATAATCTACCTTTTTTGAAAGCATTTATAAGAGTTTTTGTTATATGATCTTGACCCACTACTTCTTTAAAAGTAGTAGGTCTATATTTTCTAGCTAAAACTAAATAAGACAAAAATTGAACTCCATTTGATAAAAGTATATATTAATTTACACCTATTAATTAACACTTGGTACATACATACTGAAAAAATTATGATTATTTGGAACGATAAAGATTCAGAATTTTATGTTAAAAAATACGGAAATCATTTTTCAATGAAAATATTTTCACAATTGATATCTTATAAAAAATATGATTCGATTTTAGATATTGGTTGCGGGGGCGGACAATTAGTAAAGAGTATTAATAATAATATTGATATTGCAAAGATTTATGGAATTGACCCATCTAATAAAATGATTGAAATATCTAATAAAAGTATAAAAAGTTCAAATATTAAATTTTTAAAAGGATATGCTGAAAATCTAGAATTTAAAAATAATTCCTTTAATATAGTTTTGGTGTTGAACTCTATCTTTCATTGGAAAAATATAAATAATGGTTTGGAGGAAATTTTTAGAGTAATGAAAAAAAATTCAATTCTTTACATAGGTGAAGAAAGATTAAAGGATGGTTACCTTCATGGTAACCAAGAAATAAAAAATTGTTTAGACCTAAAAAAAATTTTAATTCAAAAAAGTTTTAAAGATATTGTTACAAAAAATTATTTCTTAAAAGATGAAGGGTTTTATTTTTTTTCAGCAAGAAAGGAAGAATAAATTATTTTTTACGTTTAAATATTGATCTTTTTCTTTTCTTAGGTTTTTCATTATCTGATTCAATATTATTACTGGTATCTACATTCTTATCTTCAAGTTTTTTCTCCCATTCGCTCATTTCTGACATCGCATTAGATAATGGGTCATTAAAAATGTTTATATCAGAAGATTTATTAATTTCTTTTTCATCAAAAATATTCTTCATCATTTCATTTCTTTTTACAGAATTTGATTTTAATTGTTCAATCAAAGCAAATAATTCATCATTAAAAACAGAAACCGTATTATGAAGTCTTAGCATAAGCTCATCTAAAAATGCTTCTCCATACCCAGGTGCTACAGAATCAGTCAACTCTTCAATTTTTGCCATCAAATATTTTTTTTGACCATTATTGTCTTCAATTTTTTTCTCAGCCATAACTTCCTTTAATGTAGTACATAATATAAAAACATCATTTTGTTTTTACTAATTCTTCAGGAGAAAAAACAATTCTTTCTTTAGGCGAAGTTAAATGTAAAATTGCTTCATAGATTTCATTTGACAAAAATAAACTAAATATAATTCCTGCAAACCTATTATACCAAACCATATCATCTTTGGGAGACCTTTGATTGTTCCACACCTCAGAAACTAATAAACCAAAAGCAGTTGAAGTAAAAAAAGAGATTTGTTTTTTTTTATCAATATTATTTTCTGAGAGCAATCTAAAATCAACATAATCAATATTCTGTATATCAAAACTAAATTGAGATCTAAATGACTGTATGTTTAAATATTCTTTTTCATATCCAACGTAAGTTCCATTAATCTTATTTCCATTTTTAATTTTTATTGTGCAAAATGTATTTTTAGGTATTTCATCTAGAATATTATAAGCTTTTAAATAACTCATATAATCATATTCTATCTCTTTTTGTTTTTCAGTTATTTGAGGCTTACTATTGATTTTATATTTTAATCTTTCTAACTGGACCCAATTGAAATACCTTTTTTTTAAACGATATTTTGTATTTCTTATATAAACTATTTTTGCCATATATCTATTTTCTGACAATTTATAAATTTGTGCACTTTCAAAACCAACAATATCAGGGAAAAGATCTAAAATAGAATTTTCAGCAGCATCAATTGTTATACCAACTTTTCTTGATAATACAATTATGTTATTAGATGTCTGGGATAAAAGAAAACAAGAAAGAAAAAAATATATTAAAATTTTTTTCAATTAAAATACTGTTAATAACCAATAAATACTAAAAATAGCAAAAAATATAGCTAGAATAATTAGAAAAAAAGCAGCTTTGCTGAAACCTTTTTTCCCAGAATCAAATTTTAATATAGTTTTCATAAAAAATCATCAAAAATTAAAAACTGTTTCTATTGTTGTTTGTTCAACTGGTTTTAGTCCAGTACCTAGGTCCCTATAGAATTGTCTATAGTCCCACACCAAACTAACACCTGGAGCGACTTCATAACCAACTCTATACCCTAGAACAGTATTAATTGATGGATTTTCAAAATCAAATGGATTGATATCATTATTTCTTTGATAAAAAGCTCTCGCCTCACTCAACTTAGGTATGTTTTCAGCATTGATAACCAACACAGAACTAAAACTTCTAAATTTAGTAGTATCAGCAACCATATTTGCATAAGAAGCATTAAATGTTGCTAAATTAAGAAAATCAAAACCTATAGAACCATAATAACCTGATGAATTAATTGAAGATGATGAATCTGAGAAAACTAACATATCTTTTGTAAAGACACTTGTATTATTGTTTGAGTAAACTGGTACTACTCTATTAAGATCATAGGCTTGATCAAAAAATTGTGGGATGAAATAATTATTTTTAATTCTATATTCTAAACTAAAATTAATAAAACTAAATAAACTTGCACGCAAACCAGGAACTGTTATGCCTGACCCCTTTCGCTCTATCCTATTGAATTGGTCTGTTGTAACTGATGGAAAATTAAGCGTATTATATTCAGAATATAAAATCAACGAAAATTGATCAGAATTAACAATTGGATAACCTATATCTAAAGAAAAACCAGATGCTTTACTTTTATTTTCTTCAATACTAAATGGTGTAGGTCTCAAAAATAAAGAATCATCTAATTGGTCAAAAATATTATCACCATCAGCGTCAATATCCCATCGTGCTGAATCTAAATTGGCATGAGGGTCTGGAATACCATCTTTATCACTATCATTCCAAATATTCGATGAATCAGGAAAGTCGTCAAAAATATCAGGGTAAGAATCACCATCTCTGTCTTTTAACCCAGAGAATTGATTGCTGTCAGAAACATAATTAATACCTATCGTAATGGGAAGGTTTTCAGAAACTTTATATGTCCCTCTTAAACCTAATAGGGTACCTCCCCTTGAAAAATCTTTTATATTTGACATAAAAATTTCAGTCCCAAAAGAACCAAAATTATTTCCTCCATTAAAACCAACTCTTCTAATTGAAGGAAATTCCATCATATTTGAATACGAAGATATAAGACCACCGTAGCCAAGTGTAACATTTTCTAGAGATCCGATCTTTAACCAAAAAGGATCTGATTTTTCACCATACCTAATAAAAAGAAATTTATCAATTAGGTCAGATGTTTCATCCCATTCATCTTTTCTGATATTACCATCTTGATCAACATAAAATACTAGATCAAGACCAATACCTAATTTTCCAAAATTTAATTCTGGTCTAAAAGCAAGTTGATTGTAAATTTGACCGTCAATAGTTACGGAACCAACACCCAATCCCATATCAAATGGTTTTGGTGTATCAGATGGTAATTCATCAACAGGCTCTTCTTCTATGATCTCATCTTCAATTTCTTCTTCAATCTCATCTTCAAGAGGTGATTCAGATTCAATAGGGTCTTCTAATTGTTCAATAGGATCTTCTTCAAATAAAGTTTCTGTAGGTTCTTCTATTACTTCTTCTGGAGTTTCTTCTTCAATAGTTTCAGTTTCTTCATTTGAATCTTCAGTTTCTTGCTCCGGATCTTCAGGAAGTTCTTCTGGGTCTGCTGGAGATGTTAATACTTGACCAGATGCTGTAGAAAGAGTCATTTCTCCAGCACCAAGAGAAACTGATTGACCACTTATTTCATTAAATACTTCAACAACACCCTCTAATCCATAAAATTTGTCAAAACCCATTTGATTAATAACAGACCAAAATTCAGTACCTTTAACACTAGCTACAGAAACTGGTGTTTCAACTCTAAAATCTTTAGTCTTCTCTTTTTTTACATCGTGTAATATCTTACCAAATTCTATATCTATTGTACGAGTGTTTTTAGTATCCATAAATTGAAATTGTGTATTATCTCTAATTTTTAAAACACTTTTATCGTCGATGAATATAACCATACAGTAGCCATCTTTTCCAACATTCATAATATCTCCAGATGAAACAGCATAACCAAGTGAAACTGAAGAAAAAGTAGGGTCTGTAATTTTTTTTATTTTAACGTCACCACTTAATTTGGTGATTCTAGCGATAGTTTCCTGTGAGTATAAAAAAGAAATATTAAAAAATATTGTAAATAAAAATAATACTCTAAATTTTGTAAATAATATATGCATTTTTCTTTGTTTAATTTAATTCAATTATTTCATAAAATACTAAAATATATGTAAAATTATAATGATTTATATCACAAGAATTAACTATGTGAATAGAAAAAATAATGAATTAAATTAGAAACTGAAAAAAATGAAAAACATAAATGAGTGATTTTTTTGAAAAATTAAAAAAAGAAGAGCCATATACTGAATACACTTTGGATATGTTCTCAAGAAGTGCTGGAAAAGAAGCATCAGAAATAAGCCAATTCAATAATTGGAGAAATATGGTTTCAGATGCTGACAAATACACATTTGAGGTTCCTCATCTTGGTGCTCAAAAACCAGAGATCTCAATTAAAAGAGAAAATGGTGACCAATATGATCTAATAAGCTTCTCCAGTTATAATTATCTAGGTTATTCTTATCATCCTGATGTTATACAAGCTGGAAAAGATGCACTTGATAAATATGGACTAGGTGCGACTGGATCTCCATTATTGAATGGAACCTTTGAAGTTCACAAAGAACTAGAGCAAAGTATAGTAGATTTTTATGGTCTAGATGGATATGGAGCAACATTGTTTTCATCTGGCTATGGCGTCAGTCTTGGAGTTATTTCAGCTTTTATTCACAAGAATGATCATGTTATTTGTGATAGATCTTCACATGCTTGTATTTTTGATGGTGCAATCTTATCTCAGGGGAAGATCTCATTATTCAAACATAATGATGCAGAACATTTAGAAAAGGTCATCCAAAGAATCGATCATAAAAACTCAAGAATTCTTGTTTGTTGTGAAGGTGTTTATAGCACAGATGGAGATTACGGTAATTTAAAAGATATTGTAACTGTCGCTAAAAAATATGGTGCTGCAGTTCTCGTTGATGAAGCTCATTCATTGCTACTTGCTGGTAAAAATGGTAAAGGCGTGTGTGAACACTATGATGTAATTGAAGATGTGGATATGATAGTTGCTACATTCAGCAAGTCTTTTGGTGGTGTTGGTGGATGTTTGTATGCAAAAAAAGAATTAACCAATTATATGAATTATTACGCTAGATCAAGAATGTTTTCCTGTGCATTGGACCCTGCAGTAACTGGTGGTCTAGTAAAAGCAGTTGAACTTGCTGGAAGCAAAGATGGAGATGAAAAAAGAAAAAGGATTATTAAAAATTCAAACTATCTTCGTTCATTATTAGAAGATAAAGTAGATATTGGTACATCAACTACGTGGATAGTACCCATTATTTATGGAGATGAAAGATTAACTTTACCTGTTAGTGATTACTTGCAAAAAGAAGGTATCGATATATCCTTAATGACCTTCCCTGCTGTTTCTAAAAATAGATCAAGAATTAGAGCCTTTGTAACATCAGAACATACTAAAGAACAACTCGATAAAGGTGCAGAGGTAATTTTAAAAGCAGCTAAAAAATATAATTTTTTAAAGGATTCATAATGAAACATACTCCGAGTGAAGATCTTTTGGTTTGGGAATTTGATTTTGCTTTGACCACTTTTTTTGAGGTAGAAACATCACAGATTGAAAAATACATACCAAAACAATTAAGTCCTATGGAGGTCTCTCCTGGTTTAGGACTTATCAATGTAACAGGTTTTAATTTTCCAGCTGGAGGATTAGGACATCTTCCTGAATTTCAAGAATTGATCTGTAGTATTATCGTTTCTCCTGATCTTTCAAGGGGTGTACCAAAGTTTGCTATGCATGTTATCTCTCTTGCAAGCACATCACAAGAACATCTCGATCATAGTGCTGAATATTACAAACTTCCTATTCACGGTCTTTTAACGGATGCTAAAATTGATAGAGATAAAGTAGCGATTAATTACTCTGATAATGATGGTCAAATTCTTCAGATGTCAAATTGTTCTCCTAAATTGAACTATAGAAATGATGAGAGATATTTTCAAGCCTATGCAATGGATGGTGATGACCTAACTATTGCTAATTGTTATATTGAATCACCTCTTTTTGAACATCAAGTAGTTGGAAATGCTGGTAGTCTTAATGTCCATCCCTTTCTAAAAAATATTGATTTTGATGTAGAACCTACACCTTATCTTCAAATGATCAGTCCTCCTGGACAAAAAGGTAAACAATTTTATTATAGACCAGAAAAATTTTAATTATCCATTTAATTTTTAGAAATTCTTTTTATTGGATATATCACTTTTCATTTCTGTTGCTTTCCTCCATTTAATTGCTGTTATTTCTCCTGGCCCTGATTTCTTTTTTATACTAAATAAATCTTTTACATCTAATTTCAGACAAAGCCTTTTATCGTCGCTCGGAATTGGTTCTGGAATAATTCTTCACTGCTTGGGAAGTATCCTCATTATAACATTCTTTGAAAGCTACTTATCCAACACCTATTTAATATTAGGTATATTAGGAGCATTATATTTTATTTATATAGGATATTCTGGTATGAGAAATAAAAGTAGTAATAATATTGAAAAGAAAAATAACAATAATATAAAAACCTCGCTAAATCACTTTTTAGATGGTTTTTATGTAAATATATCAAATGTAAAAGCATTTATTTTTTTTGTTTCCATATTTTCAGGAATGATGATCGAATCAGAACTTCCATTTAAATTTATAATGTCCTTATACCTTTCTTTAGCAACCGCATTATGGTTCTCTTTAATATCATTCAATTTAAATGTGAGTAAAAAATATTTATTAAATGAAAGAATACAAAATATCATAAGAAAAGTATCTTCATTTTTAATGATATTGATAGGAATATCAATATTGTATCAAATATGGAATGATATTATATAATTTTCAATGTTATAATTTATCAAGTGGGTCATAGATCATCATCAGTGGAAGAAATAAATGAAATAAAGTATCCTTTTTAGAATCCAATAAGTAAAAATTTCCTCCAACACTTGGAGGTTCTCCCTGTCCACCAGAAAATTTCAGTGAATTAGATAAAATACTCCCTTGTTGAAAATTTTCAGAAGATATCCAGAGTCCATTCACCAATTGAGGAAATGGGTTATAATAAAATTCAAGATCTAAATTGATGTGTTTATTATTCGAATGAACTATTTTTAAGTCGACCTTTGTTCGGTCATCTACCCTCTTACCATCAATCTTAAGATTATTTATAATGACCTCTTCATTTTTATCATTAATAAAATGGTAAAGGGACGGTTTATTATTGGAGCACGAAAAAAATAGAAAAAATAATATAATCGGTAAAATTTTATTTAATTTCATGAAGATTTTAAATTATCCACCAATACCTAATTGCTCCATCATTGAGCCGATATTGTAATAATTATCAGTTTTGATCATTAGTCCATCATCATCAAAAACAGTGATCTGGCAACCATGTAGCGTAGCTACTTTGTTAGTAGCTGGAATAGTAGATCCATCAGGCAATGGAAGATCTCCATCATTTGTTCCTTTAAAAGTTAATTCAGTTGCTACAGTATTACCTTCTTCAACATGCTTCCTAATAGTGACGTTCATATCAGAAAATGCACTCTTCCAGAATTGAAAGCTATTACGAATAGCCTCTTTATCTTTGTTCACCTCACCAGTTGCATGGTCTGTATCAATGCAATCAGTATGATATAGTGCTAATGCATCATCAATTTGATCAGCATGAAATAGCTCAAAGAACTTATCTATAGTTTTTGAATTCATTAAGTACTCGTTTTTTTGAAAGTTATAATCAAGCACCCAACCACCAAGTGTAATTTATTTAATTTAATTATGATTTGATTAGTAAAAAATAATTAAATACTAATTATTAACAATTGTCTCTAATATAAGATTTCAAATTATTAAATAATCACATTATATGAATAACTTTAAAGTACTATATTTATAGATTTAAATGTTTTTATATATATCTGTACAGAACTCAAGCAGTGTTCTATTTCCTGGTAATTTCACATCAATATCCTTAACAATAGAATCTAATGATTGACCTTTAGATTTACCTTCTTTTACCCGTTGATAGCATTCATTGATCTGGTCTCTGAGCGTAATAACATCATTGATATCACATAATGGTCCATGACCGGGAATCACTATGGTTTCATTATCCATGATACCTATAATTTGTGTCAATGAATGAATGAATCCATAAATACTTCCACCATTACTATAGTCTATGAACGGAAAACCATAAGTTACAAAAACATCACCTGCATGGATGACATTACCTTGTTTAAATTTAATTATTGCATCTCCACCTGTGTGAGCAGGGCCAAAATGAAATATTTCCACAGTCTCGTCTTCAAGATTAAGCTCCATCTTTTTGTGAAAGGTTATATTTGGCAATGAATTAGGGTCATGTGCAGGCTGAATAAACCCGTCATATAGTTGAACTTGTTCTTTTAACTTTTCACGAACATTATGATGTGAAATGATAGGTATTCCATCTTTTGAAAAAACATTATTTCCCTCTATATGATCAAAATGATAATGCGTATTTAAAATATATTTGACCTTTGATTTGGATATTTCCCTAAGAGCTTTTTTGACCTGTTTATATGTGGTTCTCCATTGATTGTCAATAACGATCAATCCTTCTTTTGAATTAAATACACCAATATTACCAGAATATGGAGGAGTTGAACTTGTATTACCTTTTATAAGAAAATAATTATCCTTAACAGGTATAACCTCTTCTTCAATTTTATTTGCTAATTCTTCCATGGTTTTAAAACCTTCCAATGGATCAACTTGAGCAATTGAGAAAGAAGTAGAAATTATCAATAGCATCAATTTTTTCATACTTTACACCTCTTTATGATTAATTATTTTGAAAAAAAGTTTCCAATGATCTTTTCATAATATCTGTAGATGGACTTCTTTTGGTCCATAATTCAAAAGCAATAGCACCTTGGTAGACCAACATACCTAAACCATCTAAAAGTCTCGCATTGTTGCTTTCACACTTCTTTAAAAAGGGAGTAATGGCTGGATTGGGTATAAGATCACATGTCAACATGTTTTGTGTCAATTGGTCATATTGTATTTTAGGAAGATCCTTATTTGGATATAGACCAATTGATGTGGCTTGGATCAATATGTCAATATCATTAATATCAATTTCATGATCCCAAAGTCTAAAATTAAGATTAAGATCATCAAATCTTTGAAGATCATTAATTAAATCCAATCCTCTCTTTTCAGTCCTATTTACAATCGTTAATGAGTTAATGCCCTCAATTGCAAGTTCAACAGCAATTGCTCTTGCAGCTCCACCTGATCCAAGTATCATTGCTTTTTTTGATTTTAGTTCAACAATCTTCGCATCTTTTCGTAAAGAGGTCATAAACCCTTTACCATCAGTATTATAGCCAGTTAATTTACCATTATCA
>sequence07
AAAAGCAGTTAAATACCATAATAATTCAATGTTGAATGAATAGAATAATAATGAAATAAAAAAAGATAAACCAATTGCTATTCCACCAATTCTTGGAATTGGAATTGTATGAATTTTTCTTTCAGAAGGAAAATCAATTAACCATTTTTTCCCAAATTTTAAAATGAGAAATGATAACCATAAAGTAATTGAAAATGTGAAAATAAAAAAAGGAAGAATATTGTACATAAAAATACTTAAAAGATTTGATTAATATGATTGATAATTTTTTTTATAACTTTTTTTTCATCAAAATTTTTTTTCATTATTTCTCTTCCATTTTCTCCTAATTTTTTTCTTTCCTGATATGATAAACTAATAAATTCCATAATCTTCTGATATAAATCTTTAATATTTCTAGGCTTACAAAGAAAACCATTTTTCCCATTAAAAACAATATCTCTACAACCTGTTACATCTGTTGCGATAATTGGCCTTCCTATTGAAGCAGCCTCTAAAAGAGATTTTGGCAAACCTTCCCTATATGAAGGTAAAACTACACATGATGCATCACTAATAAAAGGTATAACATTATCTGAACTTCCAAGATAATTAATATATCCTTTTTTTTGAAAATGATTTATTTCACTTTCAGTTATAGCCGTTTTATTTTTTACATTTAAATATCCTAAAATTTTAAAATCAACTTTAAAACCTAAATTTTTAATTCTTTTTGCAACTTCTACAAATTCAAAAAAACCTTTATCTTTTAATATTCTTCCTATAAAAAGAAAATTTAAAGTTGATGATTTTGGATATTTACTTAATTTAAATTTATCTAAATCAATTCCGGTTCCTGGAATAATACTAACAGGAATAGATTTTGAAATAAGTTTATTTTTAATAAATAATTTATAATCATCTTTATTTTGAAAAAAAACATAGCTTGACCTTATTAGTGCTTTTTTATAAAGAATTTTAACAAAAAAAGTAATCCAATTAGGATCAATAAAAACTGTTCCCAACCCCGTAATATTGTTGATATGTGGAATTGATAATTTTTGAGAAGCAAATGACCCGTATATTACTGGTTTGATAGTATAATGCAGTATAATATCAGGATTAATTTTTTTGTAAATTTTTCTTAAACAATAAAAAAATGATAAATCTTTGATTGGATTTGATCCTTTATTATCAACTTTAATTGAAAAAAAAGTACAACCTAAATCTTTAAGTTTTGTAGAGAAATTATCTTTAGGAGCTACAATAAAAATTTTATTTTTTTGTTTAATTAACTCTTTTATCAAACCCAAACGAAAATTATATAAATACCAGGAAGTATTTGCAGTTAATACTATTTTTTTCAAATTATAATCAAAATTAAATATTTGGATTAATTGATTTATATTTCAATAAATCAATTCTATTTTTATTAAGTAGGTAACTATAAAAAATAAAAAATACCACTATAAATCCAAACCTGTATCTTGAGGCTGAACCAAAGTTAAATACCACCATACCGTAAATTGACATTGATATGATTATCATCATTTTCAAATAGTTTGCCTTTAATCTTAAAGTTTTGAAATTAATTGGTTTAAGAACCAAAAAAATCATTAGAAAAAGAATAATAATATTTTCTATAGATTGAACAAGTTGTAATGGATTACTGGATTGCCACGGAAATGGTTTAAGCAACATATAAAATGATCCAATAGCACCCTGATAAAATAAATCAAAAAAATTATTTATAGGAATATAACCTTCAACATATGAGCGGGTATCTTCAAAAAACATATAATTTCTGTAATTATTTATTACATCAATAAAACCAAATCCAACTGGAATCGTGAACCTAGATAAAATCAAATTTTTTAACCCAAAAAATGCAAGTATTATTAGAAATAATATTCCAATTTTTTTATTTGAATCACCTTTTTTAAAAAAAAATAAAATCGTTGAACACATATTTATAATTAGAAAATTTTGAGGTTTTAAAAAAATCAAAGGTAAAGAACAAACAACTGAAAAAATGTATTTATCTTTAACTAAAAATTGATAAACAACTATAATCATAAATGTTAAAATCAACATTTCTCTAAGGCCAACTGATGAGTAAAGTAATAGACTAGGGTAAAGCAAATAAAATATTTCACTTCCATAAGTAAGAATGTTTTGTTTTTTTAAATAAAAAAATAAAAGTAAATAAATAATAAAATTTATCATTGATAAAGACTGAATACTTATGATGAATGGAATTGGAAAAATAGAAAATAAAAAACCTGATATTCCAACAGAGTTTACAAACCCATCAGCTGGTTCTTGGAATAATCTAACACTTTTTGCAGCTTCTAAATATCTCCTCTGATCACCCATATAACTTGAATCAAATAAAACATCATTTAATAAAAATATGGTAATAACATGAAAAATTAATAACATTAATTGCAAAGGTTTTAATTTTAAAATAATAGATATTGTAAAAACCAGTAGTAAAACAAAAAACTCTAAATTAATTAAATCTAAAAAAAAGTTGATCATTTCATTTTTTCCTAAAAATTGAATATAATGATCCTAATAAATAACCAGGAGTTTTTACAATATCAATAATCAAACCTAAAAATCCTATTTTTATCCATTTGAAAGGAAATATTTTGTTTAATTTGACATTTCTATTTATTGGAAAATATATTCCACGAAATAATATTGAAAATAGAACTAATGATGATAAATAAATTTTTGTAATATGGGGTATATACCAAATATTATCCTCCATCCAATTTGCTATTACATCATTCCATTGCATTACACTTAAAGATATAAAAATTATTATTATTATTTTGATAGTTTGATCAAATACAGTCATTCTTCTAACATTAATTAAAAAATTCGATATCTGAAAACCAATAAATAATGAAATAATAGAAACAACATAGATTTTAGAAATATGAGGAATAAAAAAAGGATTTGAATCCCCCCATTCACCAATGAGATGATTCCATTTAGGAATAATTAATGAAGTTAAAATAACAAATAAACTTAAATATAAATCTTTAGTATTTTTTTGGATATCTATTTTTGCAGAATGAAAGGAATAAATTATATATTTTTTTAATAGGTCAAATAGATTATCAGGAAAGGATGAATAAATAATATAAGATTTTGAAGGTAAAAAATAATCTATATTTAACTTTTTTATTTTGTTTCTCCAATCAATGTCATAACCTGCTCTAACAAATTCATTTAAACCTTCTAATTTCAAATAAACATTCTTTTTTACTATTGTACCAGGAAATGTTTCATGAGGAATATTTCCATAACTTGCAAACTGAATTAACTCTTGAAATTTAGTTTTTGATGAAAATTCAGTCATTCCAAAAACAACTTTATATTTTTTTTTATTAATATATTTAATATAATTTTCTATCCAATTCTCCTTAGGAATTGTTTTAGAATCTAAAAAACCTAACCATTTTCCCTTTGAAATTTTAACACCATAATTAGTGCTCTTTCCAGGATAAGATTTGTCAATATTGTGATAACTAAAAATCTTATTATTTAATAATTTTTCAATTTTTTGATTATCACTGGAATCAATTATTATTATTTCCAAAGGAAGTATAGTTTGATTTAGCAAAGCAACAATTAATTTTTTGATATATTCAATATCATTTAAAACTGGAATAATTATACTTAAATCATTTGGATTTAGATATTTTATTTTTTCATCCATTTTTGATACCATGATTCAAACATTATAATATTCCAAATTTGAGATGAATAATCAAACTTCCCTGATTTATGAAGATTCCACATTTTTTGAATTTCATTAACATTGAAGTAATTATGTTCTTTTAAAACATTATTAGAAATTAATGATTCTGACCAATCTTTAAGTGGATTTTTTAACCAATCTTTAAGTGGAATACCAAAACCAATTTTAGGACCAGAAATAATTTTTTTTGGAACATATCTATATAAAAGTTTTCTTAAAATCCATTTTCCTTCATTATTTCTATACTTAAAATTTTTGGGTAAACTTAAAGCAAATTTAATTACTTCAGGAGATAAAAAAGGAACTCTTGTCTCTAAACTTGAAATCATAGCAGCTCTATCAACTTTAACTAATATATCATCCGGTAAATAAGTAGTTAAATCAAGAAATTGCATGGTCATAGTTTTGTCATTAATAAGATTCCATTCTTTCGCATTATCTAAAGTCGATCTAATTTGATCATTATAAGTTAAATAATCATTGGGTTGATCAATAATTGCAACTAATCTATTATAGGTTGATCTTAAATCTTTTTGTTTTAAAATATTTCCCATTTTATAAAATTTATTTGTAATCTGGTAATTTGAATTACCAAAAAATATATTTTCAAAATTAGACATGTAATCATTTGGTATTGATTCAATGCTTTTCGAAATATATTTTCTCAAAATAAACGGGATCAACTTAATTATTGACCAATATTTTTGTGCAAGAAAATATCTATTATATCCTCCAAATAACTCATCACCCCCATCTCCAGTTAATGCTACAGTAACATTTTTTTTTGCCAATCCTGAAATTAATGTTGTTGGAATTTGAGAAGAATCAGCAAAAGGCTCATCATATATATTTGATAAATTAGGAATGACATTTAATAAATCATTATTTGAAACATATAATTCAGTATGATTGGTTTTTAAATGATTAGCAATTTTTTTTGCTTTTGAAGCTTCATTATATTTTTGATCCTTAAAACCAATAGTAAAAGTATTTATAGGTTTATTACTGACTTTTTGCATAATTGAAACGATTGTTGATGAATCAATTCCACCAGATAAAAAAGCACCAATTGGTACATCAGATACCATTCTTGATTCAATGCTTTTCTCTAGAATTAATTCTAATTGATTAATAGCATCATTTTCTATTCCATCATAGATATTACTTGATTGAGTTTTAGTTATTTCAAAAATATCCCAAAAAGGCTTGGGATTAGGAATTTTAAAAGGGTCTTTTAAACAAACATAATGTCCAGGTTGTAATTTTTTAATTCCTTTATAAATTGAAAGTGGAGATGGAACATAACTATATTTTAAAAACATACTTAACGCGTCTTTATCAATGACTGGGTTAAAAAAAGAATTAGAATGAATTGCTTTTAATTCTGAACCAAAAAAAAACTTTTGATTTTGAAAACCATAATACAAAGGTTTTTCTCCTATTTTATCTCTTGCAAGCCAAAATTCATTTTTATTTCTATCCCAAACTACAAAAGCAAACATTCCGTCAAATCTTTGTAATGACTTTTTTATACCCCATTCTTCAAAGGACATAAGCATAACCTCAGTGTCAGTATTACTTTTGAAATTATATCCTTTTTTTATTAAAATAGTTTTCAAATCTTTATAGTTATAAATCTCACCATTGAAAGATATTATATATCGTTTATTATTTGAGACCATAGGTTGATGACCTGAACTAGATAAATCTAAAATAGAAAGTCTTCTATGCCCTAATGCAATTCCCTTTTTTGGATCTATCCAGAAACCTTTATCGTCTGGACCTCTTGAAGATAAAGAATCAGACATCTTGTTAATAATTAATTCTAATTGCTCGGAACTATTATTATTGCTAAAACTACAATATCCAGTAATTCCACACATTTTATTTACCACAAAGCATATTAAAAATTTTAATTAATTTACTTGAATGCAAATCAAGTGAATAATTTTTTTTAACAATCTTTAAACTTTCCTCACCCATTTTTTTTCTTAAGATAGGACTATTTTTTAATCTTTTTAAATATTTTATCCAATCCTTTTCACTGTGAGCCAAAAATCCATTTTTGCCATGATTAATAATTTCATTATTTATACCAACTGGGGAAGCAACAACGGGTAATCCTGCTGCCATGTATTGTAATAACTTTAAACCACATTTTCCCCTTTCCCATGGATTGTTTGGAAGAGGCATTATGCCTACATCAAATTTTGAAATTTCTTTAAGCTCGTCATCTTCTTTCCATTTTATAATATTAACTGGAAAATTATTTAATTTTTTTCCGTCTACACCCACTGCAGTAAATAAAATATCATTTTCTTTACATAGATTTATTATTACTTGACTTATTTCATTAATATGAGAAGAGGTCGAAGATGAACCAATCCACCCAACTACAAACTTGTTTTTATTTAAATGATTAATTTTAATTACTGATTTTTCTGTATTAATTGTTGTTGGAATAATTTCTACATTTTTCACATTTGATTTTCTAGCATAACTTGCAATATATTCATTTCCTGCAATAATTAATGAGCTACTTTTTAAAATAAATTTGATTTTATTTGACAAAAATTTTCTAGTTATAAAATTTGGGTGTTGGTCATAACGATGATATACAGCGTCATCAAAATCAATAATAATTGGAATATTTGTTTTTAAAAAAAGATTTTCAATTAGAGAAGGAATCCATGGAAATAATTCTTTTTCAATCCAAATTAAATCATATTGTTTAAAAGAAAATGATTTTATAAATCTATTCCAATACGAAAAAAAAGGATTTATTGAAAAAATATTTTTACTTTTCAAAAGTATTTTTTGGGTGTAGTTATCTTTAAAAAATGGGTGGACCTCAATATTATATCCATTTTTTTTTAAATATGGAAAATATTGATAAAATCTATATCTACTACTTGGACCTATTTTACCATATCTTGTTAAAGCAAGAATTTTTTTCATGAAATTAAATAACTGTAAATTTTTAAATAACTTGAAACACCCTCTTCTAAAGAAAAAAATTCTTTTGCAGTTTTAATACAACGATTTCTCAATTTAGAATCTGATTTAAATTTTTCAATCGATTTAATCGTTTTGTCATAATTACTATGATCAAATTTTTCTAAAATGATTCCCGTATTGTTTTTTTTAATTATTTCAGAATGATCCCCAACGCCAATGTTTGTTATACATGGAATACCCGAAGCCAAAAACTCACCAAGTTTTGTTGCACATGATCCTTTTTTAGCATATGATGGTTTTATAAAAAAAATCCCGAAATCAATTTTTTTCATTTCGATTGGAATATTATCAAACGAACTATTCCCTAAATAAATGTCTTTCAAACTGATATTATGTTTTTTAAGTTTATTTTTTATAAAGACATGCTCATTCATATTAATAATTCTCAAATATGATCCAGGTTTTTTTTGTTTTAAATATTTATAAAAAATCAAAACTTCGTCGAAAATATACCACCCAGTCGCAGTTCCTACATAACCAAGATTTAATGAAGACTTGACCTGATTTGTTAATTTAATATTAAATTTATCTAAATCTGAGCAAGTACGAATTACCTCAATAGGTATATTCTTGTTTTTACAATTAAAATTTTTTTCCAGCTCTTGTTTTCCCGCAAAAGTTAAAGAAATTATAAAATCTGAATTATTTATTAATATTTTTTCTAATTTCTTTCCAATTTTATAATAAACTGAATTTTTAAGCCATCTATTTGAATCAACTTTTTCATCTATCCAAAAACCTCTCATATCAAAAATTAATTTTACTCTAAAAAATTTTTTTAATAACAATCCAATTAAAGCTGGAGGATAACTTCTTGCATGAATGCACTTTATATCATTGGATATTAAAATTCTAAAAGATTTAATAAAACACTTAGTTAAGTTCCATAAATTTGAAAAAATCACATTGGAAGTATAAATAATTTTTACCCAACGAATATCACTTGATGCGCAAATATTAACAATATTTTCATAATCTTTATTTCTTTTAAAATCTTTTTTTTTTTCCAATGTAACTAAATGAAAGCAATAATTTGAGGATAGTTTTTTTAAATATGATAAAACTTGAGATTGTCCCAATGGCTCAATAATTCCATCCCAAGAAACGTATAAAATATTTGCTTTCAATTGTTTAGATATTGTTTAACCTCTTTTAAATTATTTTGATGTTTAGCCATTGTTTTTTTTATCAAATCTAAATTATTTTTGGTCCATTCAATTGTTTTATTCAAACCTTCATCAATTTCAACCTCTGCCTCAAAATTAATAAATTCTTTTGATTTTATAGTTGAACCAAATCTCTTTCCGGATTTATCCCAATCTCTTGGTTTTTTTAAATCTAAGGGAGTAGTATTTCCTGTAATACTATTAATAAGTTTTGCAAGTTCATGAATAGAAGTTTCTTTACCTGATGCAAGATTATAAGCTTCGCCTGGATTTCCAATCAAAGCACACTGAATCAATCCTTTTACTATATCCTCTACAAAAATAAAATCTCTAGTTCCTTTTCCCCCGTTATCTAAGGGTAACGCTTCATTGTTTAATGATTTAAATATAAAAGTGGGAATTACATTTCTCCATACAGTATGCTGTGTTCCTCTCCATTTACCAGCACCTAGAATTTCTCTTGGACCATAAACATTTTGAAATCTTGCTTTAACAAAAGGCATACCATTTTTTTGAAAAAAATAATTACCATACATTTCACCGATTAATTTTGAAATTGAATAAGGACTGTCATGAAATAATGAAACTGATGCATCCTCATCAGTTGCATATGCAGAATCAAATGTTTTTTCTGCAACCGCACAACCTGCAGCCGAATAAACAACTTTTTCTATTGACTTAAAATCTGAAATTCTATTAAACAACTTTAAACTCGTTAAAGTATTATTTTGATGATCATCAAAAATATTTGCTATTGATGATTGGTTTCCATGGTAACATGATAAATGAAAAACATACTCAATATCTTCTCGTATTGATTTTATAATATCGTCATCTGAAACTGATCCTTCCAAAAATTCAACGTTGTTACTCATTGGTATATTTATTTTCTCTGATGATAATAAATTATCTATAATATAAATTTTCTGAGGATTATAATTTTCAATGATGAAATGTGCTAAATTACTACCAACAAAACCTGCTCCACCAACTATCAATATTTTTTTTTCATTTAAAGTCATCGTATTTATTTTTTAGTTCCAAAGAAAGATAAATATTCAACTGAGATCTTAGAAATTAAAAAGTCCTGAGATCTTTCAATAAGTTTTTTTTTATCATGTTTTTTATTTAATTGTTCAATAATACCATTTTTCAAATCATTTACATTATTAACTTCTACAAGCTTTCCATATCTACCATTTTCCAAAATTTCTTTTGGACCCCCAAAACAATTAGTGCTAACTATTGGCAATCCACACTCTAATGCTTCAACTAATACATTCCCAAACCCTTCACTTACAGAACTTAAAATAAATAAGTCAGCAGACTTATACCATGAATATGGATTAAGTACTTGACCCGGCATAAAAATTTCATCTTTTAGATTTAATTTATTGATTAATGAATCTAATTGATTTTTTAAAGGTCCATCACCCAAAATTGTTAACTGAGCGTCAAGTGATTTTGGCAACAATGAAAATGCTTTGATTAAACATTCATAATTTTTTTCTTTTTTCAAATTCCCAACACTTAAAAATCTTAATTTAAATTTATCATTCCATTTTTTTTCATTTGAACCAAATAATTTTTTTAGTTTGGTTTTTCCAAGAGCAACTGGATTATATATAACCCTAATTTTCTTTTTTGAGATAAAAGTTATTTTACTTAACTCATCTCTTACATCTTTTGAAACGGTAGAAATACCGCAAGCAAAACGATAAGTAATACCAAGAAAAAGTTTATTTAAAAATTTATATCTTGAATAATTATTTATTTGATATTTTAGTGAGTTATGATCTGTTATAAAAATTTTTCCTTTTCGTCCAGATAATATCCAGGATAAAATAGCTATTGATGTCAATGGCCACATATTTACCCAAATTATTTCAGGTTTACTTTTTCTTAATATATTTATTAATGGCAAAAAAGAATTTTTCAATCTATTAATATTTAAATATTTAATTTTAAGAGTATTTTTGTTTATTATTTTTTTTGACAGGCTTCCTTTATTACTTAATAAAATAAGTTCTATCTCAATTTTTTTTTCAATCCATTCATTAATTAGATTTACCGTAAGTTGTTCAGCCCCACCAATCTCTAATGATGGCAGAATAATTGTAATTTTCATATTTATTTTAAGCTTTTTTTAATAATTGCAGGAATTCCTATTGCAAGACTAAAAGAAGGAATTTCACCTTTTACAAGTGAATGAGCACCAACAATAACATTCTCACCTAAAACTGATTTGCGAAGAATAGTTGCTTTAGCACCAATCCAACAATTTGAACCTATAATAATTGGTGAACTGTTAAATTTGTTTAATTTAATTTTTCCATTTGAATAATCATGATCTTGATCCCTAATTGTAACATATTCTGAAACTAAAGTGTTTTTACCAATTGAAATAGATTTTCTAGATACAATAATTGAACCATTTCCAATAAAAACATTATCAAAAATTTTAAGATTACCACTTTTCACTATAATTGATGTATTAGATGAAATATTTACTCCTTTCATAATTTCCAAGACTCCACCATCAGTAACTCTAATATTAATATTTTTTCCGAATTTTACATTTTTTTCAATTTTAATTCCATTCTGAAAAGTACAAAGAATCAAATTATAATATTTTGATCGAAAAAAAATTATAAAATGAGTCATTAAAGAACTTAATTTTCTTAAAATTATTTTCATGATTTACCTTGGAAAAACTTTTCTTAAGTTTTTTGGGAAAATTAACCATAATTTAATTAAATAAAATAATATAAAATTTTTCTTAGGTTTCTTACTTGCCATAAAGAAAATCGATCTATCATTTTTAATTTTACCTGAAAAGGTTAAACTCAATATTTCTTTTTCTATTTTATGAACATAAGCTTTATATCCATATTTTTTAGAAAAAATAATATCTTTATAGGCTCTATCAACGATTTGTTGAATTTCATTATTATCTTTTAACAATTTTATCATTTCACTTAAATTTGATAAATCTTTTTTTAAAGAGAAATAATGTTTTCCTGGTTTTATAACACCAGAATATTTACCCTCTACAAGAACTAATAAAGTTTTATTTTCAATTGCTTCAAATATTCTAGGTGAAATTTGATTCATTAATCCTTCTTTTTCTGAATATCCGTTTGATTTTAAAACTTTTAAATATTCTTCAAATGTTAAATTTGGATTTTTTAACTTTAATTTTTTTTCAGTTTTGATTAAATCATTATTAAAATCAAATAAATTGGAACCACTTTCAGTACCAAGCATAGCTTTGCATTCTTGATTAAAATCAATCCATTTCTTACCATAAATTCTATCTTTATCTCTAAATGAAATATCTGATTTAATTTCAGAATTATGAAGTTCTTTTAATATTTTTTTAGGGAATGTAAACTTTTCTCTCACTAAACTTCCCCAAGAATATTCAGGTTCTCTACCTCTATAACCTAAATCAATTTTTCTAGATTCAATTGGTTTAATAAATTTTTTATTTAATTCCCAATCCTTAACATAACCTGTTAAGATTGAAATAAATCTTCTTTTGCTGGTAAGTGAATTATCATATATTTTCTTTATATGTTGTTTCGGAACACAACTATAAACTAAATCAAAATTAACATCTTGAATAAATTCTATATTTCTTCCTGTATACAAATACTCATCTTGCAGGAAAAGTATTTTTTTACCTGAAAATTGATTCAATTTACTTTTTAGCAAATAGTGTCGTTTTGGATCGTACCTTAAGGAATGATGAATTGCAACTACATCAAAATTATCAAATTTATTGAAATTTAAATTTCTAATTTCAGGTGTAAAATACCAATCAAGTTTACCATGATGATAATAACTTAATAAATTATGTAAATGTGCACCTACATGTGTTGAAAATGGTGCATAAAGCATTAATAATTTCAATTTAATAAGTTTTTATTTAGGTTTATTTAGGTTTATTTAAATGACTAAAAATTTCAGATATACCGTAATTATCATACCAAATTAATTGATTTTTTATGGTATCATTAAAATTTATTTTTGATTTCCATCCTAATTTTTTTTCTGTTTCTGATGGATCTAATACAACTTCTTTAATATCATCTTCTCCAACTGGTATGATTGGAACGTCAATGTTTTCTATATTAAGATATTCACATACTAATTTAAATATTTCCATTATTGAATGACCCTCTCCAGAAGAAATATTATATTTACCAGCAGGTACATCTTGAAAGAGTACAATATCCATTAAATTAAAAAAATCTTTAATATCTAAAAAATCTCTTACACTATCAGAACAAAAACATTTTTGATTGTCTTTTAAACGTTTATAAAAAGTAGGTATTGGACCAATTGCTAACCTAGGACCACAAATATTTGCTAATCTTAACGAAATAACAGGCAATTCAGATAAAAATAAGAAATTTTCAGCTGCCGCTTTAGAAATTCCATAACTTGTAAATGGATCTATTGAATGATTAATTGGAATAGGCAATACTTTAGGCTTACCATAACATAATGATGTTTGAAAATTAATAATTTTTTTTACATTATTTTCAAGACATATTTCAATAAGATTAATTGTACCATTAATATTAGTTCTTACATCTTCAGCAAAATTTTTTGGATCTTTATAAGAAGCTGCACTGTGAATAACATACTCAGGTTTAAAGTTTTCTATTGATGATCTCAATAAATCATAATCACTTATGGAACCTTCAATTAATTTAAGATTATCTAATTCTGGAACAACCTCTCTCTTTCCAGTAATAAAATTATCAATTAAACAAATTTCATGACCTTCCAATATATACTTTTCAAAAAGATTTGAACCTAAACATCCAGCTCCACCTGTAATAAAAATTTTACTCATTTTTTTAATTTTAAATGAGTGTATTCACCTAATGTACCAAATTCATAAAAGTAATTAATTGCAGATGAAACAGTATCTTTTAAAGATGAGAATTTAATTTCACCAAAATCCTTAAAAGTTTTTTCTGGGTCTAACAAAATAGAAAATACATCGTCATTTCCTATATCTCTTACCTCTGGCTCTGGATAGACTTCGAAATTCATAGAGTTAACAACCTCATCATATAATTCTTTTATAGAAACATCTTTACCTGATGAAAAATGATAAGTTCCACTTCCATACCCATCACATGCTTTAATGACTACTTTTGCTAAATCTTTAACAAAAACAAAGTCTCTTCTCGATTTAGTAATAAAACATTTTTTACCATCTTTTAATCTTTGGTAAAAAATCGGTAAAGGTCCAGCTACATTTCTTGGACCAATTACATTTGCAAGTCTAAATGTAACATAATCTAATCCCGAAATTTGTAAAAAATTTTCATTTGCAGTTTTAGTTATAGAATAACTTGTAGTTGCTGGTAATATTGGATGATTTAATGTTATAGGTTGTTCAATAGGTTTTAGACCATAACATAATGATGTTTGAAAATATATGAATCTATTAATATTATACTTTATGGAAGCTGAAATTATGTTTCCTCCACCAACACAATTTGTTAATGTGTCATTATACCAATCATTTGGATCTTTATAAGAAGCTGCTGTATGAATTACAATATCTGGTTGAAAATTTTTAAACAATTCATCAACTAGTTTTTTATTAGAAATTGTATCAATTGTAATTTCAAGATTCTTATGCTTACTTAAATGTTCAATTCTACCAGTTGCTAGATTATCAATAACATGAACTTTATCTCCTCTTTCAAGAAATAATTCTGCTATATGAGATCCAATTTGACCTAATCCACCAGTAATAAAAACTTTCATTTTAGTTATTTACTCCTTCAATATTTCAAACATTCATCAAAACTTATTTTTAAAATCAGGCAAAATATAAAATTTTTTTTTTTTAATAATGAAATAAGCTGGTTCAAAAGGAGGAAAATAAAATGCTCTAGCTTTTCTATCAATTTCAACAAAATTATCAATTTCTTTAATTATTCTATGATTATCTAAAGAATTTTTAGAATAAAATTTTCCCTCCTCATTTATTTTTGTTGGATGAATTTTTTTCTTTCCTTTTAAAAACTCAATAAATTCATTAAAAATTAAAATTGATAATTCAAAAGATTTCTTATGTAATGATAATGCAGTTTCATTATCATTAATTTCACAAGATCTTTCAAAAATAATATCTCCTGCATCAACTTTTTTATCAATCTTATGAATAGTTGATGAATATGTTGAATCATTTTTTAATATAGCATGATTAATTGTATTGTAACCTTTATAATCTGGTAATTTAGCATTATGTAAATTATAGGCATTTCCATTTATAATTTTTAATATTTTATCTGAAAAAATCCAACAATGTTGAACAGAGATAATTAAATTAATTTTATGTTCTTTTATAGAATCAATTATTTGATCTTCATTTCTTTTTTCATTTGAAATAAATTTTATGTTATTTTTTTTAGAACTTTCATAAATATAGTTTGATTTCCACCAATTAGTTTTTTTTTCATTAGAAACAACAGTTTTAATTTTAAGATTTTTTGATTGTGATTTAAATAATAAAGTATAACACTTTTCTCCAATTGGTTTTTGTCCTAAAAATAAAATTCTATATTTCATTTTGATTTATTTTTTTTACTTCATCTATAATTTTAAAAAAAATCGTATTAAAATAAATTTCATGACCTCTTGAACTTAAATGTATTTTATCTTTTAACAATAAATCTGATAAATTATATTTTTTTTGATTACAAGTTTCAATAAAAACTTTTTCTAAATCATTTAAAATTACATTTTTAGTTAGACTTGATGCTACTTCTCTAATTATTTCATTATATTGGTCATTACTTTCTTGATAAGAAAATGAAATATTATTAAAAGATAATTTTTCATTTTTTAGTGTAGGATGATTTGTATTTAAAAAAATTTTTTTACAACCAAAATTAAAACCTCTTGTAATAATTTCTTCTAAGTTTGCTTTAAAACTTTTTTTACTTACCCTTGGTAACCCTTTATCTGATAACCAATAGTTACAATCATTCATGCCAAATTGAACAATTAAAATTTCTGGTTTATAATTTTGTATTTCAAATGGCATTGTCTCTAGAGCTTGTCTAGTAGTTCTTCCATTTACTGCTGAATTTGCTACCAACACATCTAATTTATTATCTTCAAACGCTGATGAAATTTTAGGTATCCAACCCTTATGCACCGAAATACCTTGACCATAACAAATTGAATCACCAAAAAAAAATACTCTCACTAAATGTTATTTCCTTAATTAATCATTCTTTTAAATTCTTGTTCATTATCATGAAATTGTTGATACCATAATTCTAACGATAACAATGCCCACGTTTTTCTTGAAAATTGATTATCAATGAGTTTATCTAAGTTAATTGTTTTTGAATTAATAAATGGTCTATTTTTCATTTTTAAATTATTTAAATTATCAATCACAAAATCTTTAAGAGATGAATTAAACCACTCTTTTAGTGGAACTGGAAACCCCATTTTATCTCTTCTATTTAATATCTCATTAGGAATAGAATTAGTAAATGTTTTTTTTAATAAATTCTTCATTTTACCATTTTCAAATTTAATATTTGCTGGAATAGTTGCAACAAACTCCACTATTTCGTGATCTAAAAAAGGAACTCTACTTTCTAAACCATGAGCCATACTCATTCTATCTTCCACATGTAATAATGCTGGGAGTAAACTTTTAAAATCAAAATGTGTCATTTTGTCAAAATATGCTTCTTTTTTCACATTATTTTTATTGTTAAAAATATTCTTAAAATTATCAAAGACTTGACTTTTATCAAGTTCATTCCAATTTATTTCGTTTGATAAAGTTTTTGATCTATCAATTAAGCTAAAATACCTTTCATCCATTGAATCAAACAAACCTTGACTCCAAAAACTTTTTATTAAAGGTTTATACTCTTTTAAAATACCTAAATTTGGAATTATTGACTCAAGAGTTACAATATAATTACCATTTTTATAACTACCATCAATTGCAGCTAATAAACATTGCTCTAAATATCCAATCACATATCTCGCATATCCACCAAAAATCTCATCTCCTCCTTGTCCACCGATTACAACCTTTAAATGTTCTGATGCAAGTTTTGAAACCATATATTGAGGAAAAGATCCAGGCCCAGCTGTTGGAAAATCAAGATAGTAAATTATTTTTTCAATATTATTACTAAAATCTTTACTAGTAATGTCTAAAGTGAATAATTTCCCATTTATAAGTTCTGTAGCTGTGTTCGCATAATGACTTTCATCATAGTCTTTATAATTTGAAAAAAAACCATGAAAACCTTTTAATGGTTTTTTAATTGATTTAGTTGCTAGATTTAATAGTAAACTTGAATCAATTCCACCTGAGACATAACTCCCAATTTCAACATCACCAATTAGATGATATTTTATAGATTTTTGCATTAAATTGCTTAATTTTTCATAACAAAATTCAGAATTTAAATTAAAATCAACGTTATATTTCACATCCCAATATTTCCAGATTTTTATTGAATTATTTTTAATTAAAATAGCGTGGCCAGGGAGAAGTTTTTTTATATCTTTAAATAAGGTTGTTTCACCAATTGTGTATTGATATGTTAAATATTCAGCAAAAGCATTTTTATTAGTTTCTATGCTATCAACAAAAGGTAATAATGCCTTTGCTTCAGAAGCAAAATAAAATACATTATCTTTAATGAAATAATAAAATGGTTTAATTCCAAATCTATCTCTAGCGCAAAACAATTCGTTTTTTTTTGAATTCCAAATTGAGAATGAAAACATTCCCCTTAGATTATCTAAACAGCTTACTCCATATTTTGAATAAGCACTTAAAATACACTCGGTATCAGAATCTGTTTTAAAATCCCAATCATTTTTTAATAATGATCTGATTTCTTTATAATTATAAATTTCTCCATTATATGTAATCAAATTATTATCTATTCCTTCCATAGGTTGATTAGCCTTTTGAGATAAATCAATGATAGATAATCTATTATGTCCAAATCCAATAAATTGATTTGGATGAATCCAATGGTTATGAAAATCAGGTCCCCTATGAGATAATAATTTTATCATTGTCTTAATTTTCTTTTCAGGAGAATCGATTTTTTGAAAATTCATATTAAATATTCCAGAAATTCCACACATAATAAACTCCTAACTAATTAAGATTAGAAATTAATTTTGAAAAAGATGAATTATAATCCATTTTTTTTGCAATTTTAATTTTTTCAACAAAAGAATCATAATTCTTTGATTTTGTTCTGGCGATTAAAATTTGCTTTTCAAATTCATTAGCGTCATTAGCAAAAAAGAAAAATTTTTTAAATTTTTTTAAAGAATTTATTTCAATTGAAACTACGGGCAATCCACAGGCTAAATATTCAAAAGATTTTAATGGGAAAGCACTCTCAACAGTATATTTTGTTTTTGCAAATGGCATAATTCCCATTGTAGCTTTATAACCAAAACTTCTTAATTTTTCCACAGATTTAAATTTATGATACCTGAAATTTTTAAATTTAAAAAAACTTTTCCATATATTTTTATTTTCTAAATCATTAAAATTTGATCTTCCAAAAAAATGAAATTCCATATCACTTAATTTATATATCAAATCATATAATAATTTCATATTTAATCTATCGTTTATACCACCTTGGTAAAATATAATGTTATTTTTTCTATTTTGAATAACTTGTTTTAAATCCGAAGTTTTTGGAGCATAAAAATGAAAATCAACACCATTTGTTAAAATCATTGACTCTCCAATATATTTACCGTTATTTATATAACTACTATTTACTCCCTCGGAACATGAAACTAATAAATCTATATTTTGTAATACTTTTTTTAATTTATCAATATTAGGAGGTTTAAAAAATAAATCACTACAAAAAAAATCCTCCGTTGCATGAAAAATTTTCATATCAGACTTAAAATTTCTTATAATATCATCAAGTAAATAATTATAAATCCATAATAGAGGTTTTTTAGTTTTTATCTTTTCAAGAATGTTAAATAACTTATGTTGATTATTATTAACGAGATATTTTTTATTACAATGAACAATTATAATATTTGAGTTTTTGATTTTCTCAAAATAATTATCTCTAAATTTCAAATCAAATTGAAAAAAATAAACTGGACATAATTTTGAAAATCTTGATGCATAATGATATCTATTACTTCTAGCTTCTTTTTTCCATATTGAAAAAGTTAGCATTATAACAGCATCATAATTAAAATTCATTTTATGAATTGTTCTTCAGTTTTATTAGTTTAAAACCAATAATTTAACAAAGTTAGTTTTTTGATTTTGATAATATCTTCAATGATAAATATTTTATTCTTGCAAGGATATATTTTACTTTACTAAATATATTCACCCTACTTTTTAAATTTGAAAATTCTATTATTAAACTATAAATTACCTTTTTTATGAAAACATTATTTTTGTAGTCGCTAAATTTTTTGTTAGGTTCATTCATCCAACAAATAAAATCTTCTTTTTTAACATCTAATTTTTTACAAATATAATTAATATCCTGATCAATTGTTGATTTATCATATGAATTTTTCTTCATTTCATCAAGAGCTTCATCTCTAGTAATTTCTTCACTTAAAATTAAACTTGACAAATGAGCCTTTCTTTTATCATATCCAAATTTTTCGGGTAACCAATAACTTTGAAAAAATTTTGTAAAACGAGATTCATAATGTTTTCCACCATAATATTGCCAATTTAATTTTTCTTCAAGGACTTTAATTGCATCCATTTTCTTATAATCAATATAATTGAGAGGAGATATAATTTGCATTTTACGGATTCTTGGAATGAAAACATGATATTTAAAAGTTGAAACAAAAGGAAATTTTTTCCATTTTTTACCACCATGCTGTCTACAAATATCTTTCATGTGGACTGAATCCATAGCATCATGGCCCCATGCTACTGGTAAAACAGATTCGGAAGTATAATTGTTACCATTTATAACATATTTGATATTATTTTTTTCAGCAAATGAATATAAAACTGAAAAAAAAGCATGGTCTTGTGGAGTATCTTGGTTTGCTACACCAGCTTTAAAAAAAGCTGTTTGAACGTCTTTTATTGCCTCCCAATCAACAACCTCAGTAAATAATTGGATATCTAATTTTTTTACTATCTCCTCAATATTTCTTACCGCCAAATCCGAATTCCAACCTGCATCAACATGAACAGCTAATAATCTTAGATTAGCTTCTTTTCTTGCCCAATAAGCCAAATAAGAACTGTCTACACCTCCACTCAAACCGATTATTGCATCATATTCTTGGTTTTTTTGTTTCTCTTTCATTGAAACAACTATATCATCAAGTTCTTTTAAAACTTCTTTAGTACCAGGGGTCCAATTTTTTTTTAAACTATTATAAAATGAAATACAATGACTACATTGACCTGTTTCATCAAATGATATTTCTTCATCAGATGTATCCATTATACATTTGTTACATATTTGTAAATTTTTAATAATTTTTGAGGAATTATTCATTATCTCAGAAGATAATTTAAGAAGAAATTTGTTTAATTTCATTATATGTTGGATAAGAAATTAAAACTGCTTTATATTTTCCATGAAAAGAAAAAAAAGAACCTGCTGCTGCTGCATCAGCACCAACTTTTATTATTTTTTTTAAATCAGATATTTGACCAGCACCACCTAATGAAACAAGTTGACAAGACAAATATTTTCGAGTTCTTTCAACTAAATTCAAATCATATCCATTTCTCATACCATCATTATCGACACTTTGAATAATAACTTCTCCAAAACCTGTATCAGCACATCTAACTAAATATTCATCAAAAGACTCAGATATGATTCTTTTTTTTACGTGTGAGAAAATTTTATGAGTTCCAAAAAAATTTTTTTTTACATCAACACAACATACAACTGTTGAAGAGCCAAATTCTTTAATTAAAGTACGTGCTAAATCAGATTTTTTTAAAAAAGAATTGTTTATAATTAATTTTTCACAACCAGAATTTAAAATTTTTTCAGCTTGAAAAAGATTTTTAATTCCTCCACCATATGAAAAAGGCATGAAAGCTTCTGAAGAAACATCTTTTATAAAACTATAATTAGGTTCCTTATTTTTTTTTGATGCATCAATATCCAAAAAAGCAATTTCATCAGATTCTTTTTCACTAAAAATTTTAACTGCATTTATTGGATCACCAATGTATTTAGGTTTTTTAAATTTTTCCGTTTTGTATAGTACATTATCTTTAAGAAGTAATACTGGAATTATTCTTTTATTCATAAAAAAAGTCTTTCAAAAGTTGAAGTCCAAACCTATGGCTTTTTTCTGGGTGAAATTGAACACCATAAACATTGTTTTTTGATACTGCAGAAACAAAATCATCACCATAATTTGAAAATGATTCAATATTATTTTTATCTTTGGGTTTAAAATAATATGAATGAACAAAATAAAATCGTCTATCAGAATCTAAATTTTTAAAAATTTTTGATTTTCTTGTAGGTTTAACATAATTCCAACCCATATGTGGTATTGATAAGTTTTTATTTTCAAATTTTATCACCTCCATATCAATAAAACCTAAACCTTTTTCTTCACCCTCTTCGCTTGATTTACCAAGAATTTGAGCTCCTAAACAAATACCTAAAACAGGAATATTTTTATCATATACACACTCGTTTAAAACTTTAATTAAATTCAACTTTTTTAAACTATTCATTGCTCTATCATAAGCTCCAACACCAGGTAAAATAATAGCAGATGAATCTAAAATACAATCTGCATCTGATGAAGCTTTGGCATTAATATTAAGCCTTGATAACATTGAAATTAAAGAACCTATATTTCCTACTTTATAATCTACTATTGTTACATTCATTATAAATTTTAATTATTAATAAATTTTAATAATTTTTTACTTTCATTTTCCCATGATAGAATTTTTGCTGTTTTAATTGAATTTGTTTTAAAGAAATTAATTTTTTCGTAAGAAATTTTTAAAATTAATTCTGCAATTTTTTTTGGATCATTTTGATCATCATCAATTAATAAACCTAATGAATTTTCATTTACTATTTTTGCCATATCTGGATAATTTGAAACACAAAGCATTGTTCCTGACATAATATATTCAAAAAATTTATTTGAAAGATTAATTGTTTTTTGCTTTCCAGTATTCTTCATAATTAATAATCCAATATCTGATTTATTAGCTTCAAAAACAATTTTATTGAAATCAACTGGCTCAACAATTTTTATTTTTTTTGATAAATTAAATGAATTAATTAACTGGTTTAATGAATTAATATAATCTGAAGGACCACTTCCTCTAATCTTCAAATAGTATTTTTCAGGTAAAAAGTTCATGATTTTTATATATGTTTCTAACCCTCTTCCTGGAGCCAATATTCCATGATATAACATTTCGATCCTTGATTCAGAATTTAAAATTTTAGGTTCATGCTTTTCATAAAAAGGGGTGCTTCTAACAGTTATTAAATTTTTAATTTTAGGATATTGATCTCTTAATAATAAATTTAAACCATCACTCACAGTTGAAATACCATTTGATTTTGTGTAAAATTCGTTTTCAATATTTTTTATATAAGAGTTTTGAAAAATTTTAATTTTTAAATTTGAAAAAAAATCTGTTGAGTTTTTTTGAGATAAAGCATGTTCATGAACATCGACAAAATACTTTGAATTATTCTTTTTTGCTAATTTATAAGCTATTGGTGTAGTAAAATAATCATGAGTAAAAATAAAATCTACTTTAATATCTTTTAACAAATCATATATTTTACCATATCTATTTTCATCCCAATATCTATTTAAATAGTTTTTTTTATGATCAGAGAAAAATATCAAAATAAAGGTCCTCAATCTTTTTCTTTCATATTTTAATCTTCCTATAGGCCTTAAGAAAAAATTATCATAAAAAAACTTTAAAAAAATAAAGGGATCTAAAAAATTTGGTAAATATTTCAAAAATTTATGTTCTTTTTTATATTTAAATGCTTTGTAAATATTATCAAATGGAAAAGGTAATTTAGATGATATATTATTTTCTGAAGCGGAACTCTTGATATCATTAATAGCCAAATTAGATTTTGGGTTTAAATCGATAAATTTATAATGATTTATCTTTTTATCTTTTCCTTCATAACCTGCAATGATGACGTTCATACCATTTTGGTAAAATAAATTTGCTTGTCTAAGAACTCGCGGTTCTGAAAAAACAGGTGTTAGTGAGATTATAAGAACTGATTTAGTCTTCATTTAATAAAATAATTTGTATTTTTTTGTATTTTTTTGCTAATTCTTTCTTTTAAAAAGGGATAAACTTTTTCATTAATAAATTCCCATAATCTTTTTTCATAATTATTTAAATAACCTATAATTCTTGATATTAATTTTGAACTTTTATTAGTTTTTAATGGAAAGTTATTACTGTGTAAATCACAAAAAAACTTATCAATTTTATAAAAACTAAAATTAGTAAAATATTCAACATATAATGTTTCCATTTTATTGTTGTACTTTTCTTTTAAAGTTTCAAATTTTTTACTATTAATATTTTCTGTTTTATTAATTTTATCTAGAATTGTTTTTAAAAAATAATCAATTCTTAATTCGTTAATACTCAATATTTTCTCTTTACAGTTTTTAGCTATTTTTTTTTGAAGTTTTTTATCCTTTATAAACTCTAAAATACTATTTTTATCATTATTATATGGAAAAAAATCTTCATAAGGTTCAAGAATATCTCCATATTCACCTGGAACTAATAATTGAGCTGTCATAGTAAGTGCTGCTTCAAAGTTTCTTGGAGACAAACATGTCATTCTTAGATTTTTATTTTTTTCTTCAAGCAAAACTTTAATCACTTCTTCATTATTGCATCCATGTTCTAATTTATATGCATTAAGTTTTTCAACAACACTTAAATTTGATATTATTTCACTTGAACCACTATTAGATCCTAAAACAATTCTTCCGTTTATCAAGTAATTGATCCAATCCTCATTAAAATAAAATTTTTTTGAATCAACATCGACTCTCATTCTATAATTTTGAAAATCATTTAAAAAAATTTTACCGAGATCAGCTTTCAATTGCGCCATATTATTAGGAAAAGTAGGAGAACCTGAAGCTTTATAAATAACATCAAACTTTCTATTTTTTAAAGATTTAATTTTTGATGTAAGGCTTATCAAATCAGGTGTAATATATCCCGTATAACATGGTAATATTTCACCACCATTTTGCAAATATTTTTTATGAAGAGTATCTTTAAAATGATAAAAAGGTGATAATGTTAAATTTATTCCAAATTCATTTAATAATTCGTTTAATTCATCATTACAATAATAATCATCTTGAGGTAAAGCTATTTTGAATGATGATAAATTTTTAATAAATGAATAATTTTCAATAATACGCTCATAAGTTGTTTTATGAAAAATCATTCCTAGAAAACTAGAATTCAATATTATAACGTCAAATTCAAATTCTTTTAAAAATTCAGGTGGATCTAAACAAGCATTATGGATGATATAATTATTATTTGGAAAATAATTATAAAAACTTAATTCTAAATCGGAGATATTATTTATCCAGCTATCAGGATGTCCCATGTTATGCAAAATCAATATATTCATTTTTAAATTTTTACTTAAATAGTCATTTTTTGGGATTTATAATTAAAAGAGCTCTTATTTTAATCTTTTAAAGATTTAAATTTCCATTAGTTAAAAAAAATTATAAAAAAATTCTTATCAATTTAGTTCTAAGATTTTTTTTTGTGAAAAGAATATTATTAAAATTAATTTTTTCAATAAATTTTCTTATCTCTGGCATTTTAGTAAAATTTTTAAACTTAAGTTCAATTAATTTAATTGAACTTAAATGATATGGTTCAAAAAAAATATTTGGATTTTTTTTAAATAATTTCATCGAAAAAAAATAATCTGATGATGGTACATTTAATTCCTGATTTTGTTTACTTATTATGTTGATTGTTATAATATCATTATTTCTTTTTCTTTTTGGAAAAACATAAACTGTCTTAAAAAAATTTAAAATTTTAATTAATAAACCTATTAGTATAAATAATAATGTTTTTATTAAATCAACAAAATATAATTTCAAAATTAACCTTTGTTCCATTTTGGTTTTAATCTTACCAACCCGGCACCATACAAGTCACTTTTTGATGAGATTTCAAGCTTATTTATATTGACTGTAGCTGCGTATTGTGTATTAATATGATCGCCTGAGATTGTTACATTTAAATAATAAGATCCTCTATTCAAAATTAAATTATCATATTCTACACTAAATCGATTTTTTCCCTTTTGTAGACTAACCTTAAAATCAATCTCTTTAGTATTATTTGCAATAACATTTTGCCCAGACAAATTAAAAAAATTAATTCCTATCATTGCATTGTCAATATTTTTATTTGATTCAATTAATATTTTTAAATTGAAAAAACTTCCACTTTCTATCTTTTTAGTATATATCAACTTTAAATCTTTAATAAAATTTTTATCTAAATAAGTTTTTGATGATGAAACATCATCTTTCTCTGCTGAAAAACTTTCATATTCATCACAAATTTCTTTTGTTTTACCTATTTTTTGTTTTTTACCTTCTTCAATCCATAAAACTCGATTACAATTTGCTCTAATTGCATATGGACTATGTGACACTAAAATTATTGAACCACCGCTTGACCTAAATTCATTTATCCTCCTATAACACTTAATAGCAAAATTCAAATCTCCAACAGCAAGAATTTCATCAACAAGTAAAATTTGAGGTTCAATTGAAACTGCAATTGAAAATCCTAGTCTGGCCATCATACCAGAACTATAATTTTTTATTGGAGTATCAATAAAATCCTCAAGCTCACTAAAAGATACTATATCATCAAATTTAGATTTAATTAAATCTACCGAATAACCCATTATTGTACCGCAAACAAAAATATTTTCTCTACCTGTTAAAACTGGATTAAAACCAATTCCTAAAGATATCAATGCATTTAATCTTCCATTAATTTTAATATTTCCATTCGTAGGATATAATAAACCTGAAATTAATTTTAAAAGTGTAGTTTTACCTGCTCCATTATGACCAACTATACCTAGAGTTTCACCTTCCTTTAATTCAAATGAAATATTTCTTAAAGCCCAAAATTCTGTTTTTCTCAAATTCAAATTGTTATCAGAATTATAAAAAAATTTTTTAAATAAATCTACACCACCATAAACTAATGACCTTTTCAAATTTCTAGAAAATTTTTTAGATAAATTATCTACTATTAAAGGTGATTTTTTCAATTAATTCTCCATTCTTTCAATGAGAATTGGCATTGATAGATTGTAAAAAAAACATCCAGGTATAAACAAAACGAAAATAAAAACCATAATGAGAAAAAAAGATTCTATTGTATGCAGATCACTTAAATTAAATAGAAAACTTCTTGCTGTTAAAAAAAAGGGAGTTAAGGGATTGTTTTTTATAAATAAATTAAGAATGCCTGATTCAGGAATTGGATATAAAGCAGGAGTTAAAAAAACCAAAGGCCCTGTAATCAAATTAATTACCCGTTTTAAATCTTCAAAAAGAGTTATTATGGGTAGAACATATATACCTATAAGAAACCCAAAGAAGGAAATTCCTAAAATTGGTATTATAACAAGAAAACTTTGAGCTGTAAAACTATTCTCAATTATCATAAGTACTAAAATAATTGGAATGAATTTTAAAGAAAAATTTATCATTATATTTATAAATCCACTTACGATTAGCGCTAACCAAGGAAATTGAATTTTTGTTAAAACAGATTTATTAATTTGAACTTGATTTAATGGTGCATTCAATGAGTCTACAAATAATTGCCAAATTAAGGTGCCTGAAATAACATAAGCTGGATATGAAATTGATATTTCTGGTATATTAATAATATTTGAACGTTGGAGTAAAATAAATGATAATGATGTAACAAGTGGTCCAGCTATTCCCCAGAATATTCCTAAAAAAGATAATCTATATAATGATGAAAAATCTCTTAATGCTAATTGATATCCCAATTCAAAAATATTTTGCAATTTTATTTTCATTTATTATAATCCAAAATAGAAGAATAAATTTCATCCATTTTTTTTCCACCTGATTGAGCTGAATGCCATTTTAATGCAAATTCTCTTCCCCTTTTTCCCAAATCAATTCTTTTTTGAGGACTTTGAATTAAATCGATCAATACCTCTTTTATTGTTTCAGGTGTTGCAGAAATGACAGGTAATTCATCAACATAATCTGGAATTTCTTTCTTCATGCTAACTAACCACTCTGGCCTTAAAAAACAAACACAAGTTTTACCTAACATTAATGCCTCCCTTATATTTGCTCCAAAAAAACCAAATGTTAACATATCTACCACAATATCAGCTTGAACTTGAATATACCTTACTTCTTCATTCTTCAAATTAGATGCAAAAATAGGTTCAATTTGGAAACCCTCTGCTATTAATTCTTCAAATAACGGTTCATAAATATGTGAACATTTTATATCAACACCACCATCATTAGTTCTTTGTTTTTTATTTGCAATACTATGAAAAATTTTAACTTTTGCAGAATCTTGCAATTTAAATTGATTTGGAATTTTTAGATTTGGATTCCAAAAATTAGGATCTAAACAATAAAACTCTGGGACTTCATGAACGTTTTCATTATCGTTATAATCCTTTCGATTACCTCCAAGAGTACATTGAAAATCAGCCATTTGATTTCTAAACTTACCCCATTTTTCATTTACATAATCAGAACAAACTTCAGGTACTTCTTTCCATTTACAAATATTACATGTGTTATGTGGTCCCCATTTACTAAATGAACTTTGAAGAACTCCATCTAAACAACCATTGTTTGTATAAAGAATTTTTTTACCTAATAATTTTATATATTCAATTTCATTGATAGGCATATATTTTTTAAAACATTGATTTATTTTTGAACCAAATGAAATACCGCCTACATTTGAAAAATGAAAAATATCATATTTATCTAAAGTTTTTAAATAAAAATTGAATTGATATTTTAAATCCTTTTCAGAATTATATTTAAATAAATAATCCCATCCATGATAATGATGCCAAGATTCCTTATTACTATCCCAATTAAGTAAATCTGCCTCCCAACCATATTTTCTTAATTCTCTTGAAAGATACCAAGTATTATAATATTCACATCCTGCAAATAAAATAGAACCTTTAGTTTTCATATGGACGCCTCTTGGATTAAAAGTTTTTTAGACTTTTCAAATCCTAAATTCATTAAAACATCTATAATTGAAAGACCAGAAATAAATTTATTTGAATTATATTGATCATAATTCATTTGTTTATAATTTAAATATTTTACACTAATATTTGATTGTTGAAAAATAATTTTATCTAAATATTCATTTGCCCCATCTCCTGAGAGATAAATATTAGCTTTTAATTCCTTAATAATTGAAACTAAAAGTTCATTTGAAGCTCCTTTATGTGAAATGTTTGATGATAATATAATTTTTTTGAAATCAATATCTAGTACTTTACAAATATGAAAAATTAATTTTAAATTATATTTAGAAATATTGTTTTCACTATTTAAAATCAAATTCATTATAAATTCTTCAACCTCAAAATAAAAAGGTGCCTTTTTATAATTAACCTCAATTGTCTTTGATATTTTTTCTTTCCATTTTGCAGAATTATTAAATTCCATTTCATTAATATTCTTCACACCACTATAATTTCTTACTATTGGAGCTGTCAACCAATTTGATTTTCCAGAAATAATAATTTTAACTCGATTTGACCAAGAGCCACCTTTTTTAGGAAACTGTACATCATCTAAAATAACAAAAATATCACTTTTAAAAATTTTATTAAAATATCCTAACCAAGGAAAAAAATTTGGTTGATGCATTCCAACTATTTTATCTTTATTCATTAGTTATTATTTGAAATTTTTTACCATCAATATTTAAAAATAAATTATTATATCCTGGAAAAGAACAGGCGTTTAATCTTTTCATAAATTCTTTTTTATCAATATCAAAAGATAAATTGCAAAGCTTTTCAAAATCCTTTCGTGTGTTTTTTTTATTTGACCATTTATATTTATTACTAACCTTTAAATAATTTTCTTTATCAAAGTTTTTTAAAAGTCGTATAAATAATTTTAAACCAGCATCATTAGCTTTCATTAATAACTCATTGGGTTTTATCAATGATCTAACACTAAAAAACTCTACATCAATTATACCTCCTTCATCAACTTTATCAACCATAAAATGCATTGTTGCACCATATTTTTTTACATTATCATATACAGCAAAATGATGGGGATCTCTTCCTGGATATTTTGGTGATGCAGCATGAATATTTACAGATTTCAAACCTTTAATTTCTAATATTTTTTTTGGGACAATTATACTTGATCCGAAAGATATCAATAAATCATAATGTTGATTTATTAATAAATGATTTAATTCTTCTTTAGAATGAATTTTTGATATTTTTAAATCATTTCTTACAGATTCAGCTATTTGTAATAGTTTATTAGAAAATTTCTCATAAGATAAAATTGCTATTTTTTTTGGATTAATATTATCTATCTTTAGATTTCTCTTTTCCAAAATTTATTCTCCCATCTTTTTTGAGTTGTTCATTATAATTATCTAAAATATTTTTCGCTCTACCTTTTACACATCTTTGAATCCTATCATAAGGAGACGATATAACATCTTGCCACCAAGCGGGATGTGTTAAAACTTGAATATTTTTCTCTTTAGCTAAACTCAACACATCTGAGAGACGTTTAAACCTCCAATATCCATTAGAATCTGATATATATCCTACATTATTCTTAAATTGTTTTGAATAACAATTTATTAATCCAGTATATTTTTTCTTCTCAAATGATAATGAAAATAAGTTTGGATTATGAAAACTAAATACAATTGGTTTAATATTAAATAACTTAATAAAAATATTTTTTTCAAAAATTAACCATTTCTTTAAATCTTCTTCAGATTTTACATTGTAATAATTGATATCAAAATGAATTCCAATATTGTGCCCAAGATTAATAATTTGCCTTATAATTTCTGATTGTTCTCTCTCAAATAAATTATAAAACTCACAATGAAGATTAATAAAATAAGTTGTAACAATATTTTCTCTTTTCTCTAATTCTGCTAATTTTAAAGCTCTATTTAGAGAAAAATCACAATCATGCCTCCAAAGAACAAATTTTTGATTAAAATTGATGTTTTGATAGGATACAAAATTATAATTTTTTTTTGCTAAAACTAATAATTCCTGATATTTATTAATTGTGAAATCAGAAATATTAGGATTAATGGCTGTTGATTGGTTTTTTGAATCAATCATATAAATCTACTTCTAATTGATTTTATATATTTATCTGGAGAAATAATTTTACGATCAATTTCAATTTTTTTAATTTTCAAAATTCCTTCTCCACAAGCTACTTCAACATATGAAATTTCTCCAATTCTTTTAATTTCTGTTATTTGTCCAGGAACTGCATAAATAGAGTGTGAATAAAAACTTAATTCAGCATCCCAAATGATTATTTTTTTATCTTTAATAAATGAAAATGCTCCACTATATGGTTTATTATGAGCATTAATTAATCTTAAAATTTCATAATTAGATTTTGACCATTTAATAAGCCCATCTTTTGGATTAAGAGGAAAACAACGAGAAATTTTATTAGTATTTGTTGACTGTTTTTCAAGTATGTAAGAAGGATTAGTGGAAAGTTTCATAATTGCTTCATAAAAAAGTTGTGGAGTATTCAACAATATCCATGCCATTACTTGAGTTATTTTAGTATTAAAATCAATATCAAAATATTTTCTAGTAATTATATCACCGCTATCTAGTTCACCTCCAACCATCTTGTGTACACATAGGCCAATTTTTTTTTCTCCATTTAATATTGCCCAAGCTTGACACGCATTTCCTCTGTATTTTGGTAAATCTCCTCCATGAGCATTTAAAATACCCATCTTATAAATATTAATTATTGAGCTATCAATAATTGAAGTATAATTCATGCTTATACCAATATCAGGATTTGAAGATTTTATAATTTTTTTATGATCTTCGTAAATTTTAGGAGAATTAATAAATGGAACATTATGATCATTTGCCAATTGTTCAAAATCACTTGCTTTTTTAGTGTATTCCGGTGCTTCTTTAGAAGTTATAAAATGTACTATTTCAAAATTAGGATTATTAACAATCAATTTTGCAGTGTGATACAAAGATTCTGTTCTCCCGATAATTCCAACTCGTAATTTTTTTTTCATTTTTATAAATTAATTAATGATTTCAGCTTAGTTCTTATCCCATTTCCTTGAAATCTAAAATTTAATAAAGTTTCTGGATTTTGATGATATTTTCTTGTTGACTCATATTTATCAAGAGTATCACTATTTAAAAAAATATGAATTGGATGAAAATCAAAAACTTTCAAAGAATTTTCCGGAAAATCAGAAAAATTTGTTGTTTTCATTTTTAGAGAAACATTATCTTGCCATGAATGTGGAATAATTTTAATTCCATTCCAAAGATTCCATGGTTGAACACTAAATGAATTATTAAATGGAATAAAAGTATTACAAATATAATTTAATTTTTTTTCCAAAAATAAATCAAAAATTTTTTCACTTTGAAATAAAGAATGACTTCTTACACATTGTGATTCAGGTACAATTTCAATCATTCTATCAATTACTTCCTCTAAACTCTTTCCATTTAAATAATTACCTAGAATTAAATTATTAAAATTAGGATGTATTCCTAATTGAAATTTTGGATTTAATCTCAATCTATCAATAGTAGAAGTTTTATGAGTTATAAACCAAGTAGCACTGACATCAAATTTTTCAACTAAATCAATTGTATCATTAATAATTTTATCGTGAGCCCAATCAATATCAAAAGTTAGAAAAAAATTTTTCTCCCATGATTTTGGATTATTAACATTTATATCAGAAATTTTTTTAAATAATTTCATTTCAAATAACTAATTTTAAACCCTTATCTAAAGAAATTAAATCTTTAATATTTAATAACTTTAATAATAATTCATTACTTCCAATAAAATACTTTATTTCATCATTTGTAATTTTAATTTTTGCTTTTTTATTGATTAATTTTTCAAGCTTTTTAACTAAATCATTAAGACTCACTACCTCTGAACCACAAATATTAACTACTAAATTTTTTTGGTTAAAATTTCTATTAATTAATTCTCTAATAATATTAATAAGATCATCGATATATATTGGAGTGAAATATAATCCTTTACTTTGGGCAAGAAAAATTTCATTTTTTAGTTTGATTTTTTTTATAATTTCTGGAATAAGCATTTTTTTTTGACCAGGTCCATAAACACCAAAAATTCTCATGATAAGAGTATCAAAGGAATTATTATATTTTTTTACTATTTCTTCTCCAGCAAGCTTAGATATTCCATATAAGGATGATGGTCCTAATAATGAATTTTCAATCAATTTTTTTCTAGATTGAGAATATACATTACCTGATGATGCATATATAAATTTTTTCACTGAATTATTTTTTGACCATTCTAACAAATCTATTGTTGAATTAATATTTATATTAATTAGATTTTTAGCCTTTTTAGGAATTTCATTATAATAATTTGATTGAGCTAAATGAATAACAGTATCAATTTTTATATTTGGAAGTTTCTTTACCCAAGTATCAGAATTTAAATCAAAACCATTTTCTCTTGTTACTTTAATTAAGTTTATATTTTTTTGGTTCTTATATGAATCTGATAAATACCGACCAATAAACCCTGATTCACCTGTTATTAATATGGATTTTTGCTGATTTGAATTAATTTCTATAAACCTTCATTTTTAAAATATTGATTAATATTTAATAACGACCAAATTAAAAGTCTTCTGTTTTCATGTCCATTTAAATGAACATTAACCAACTTTGAAACTGAATCAAAATCTAAATAATTATATATCGGAGATTTTTTATTTATGATTTTATTTCTTACGTAATCAATACTTTCTCCTTTAAACCAACTTGCATCAGGTGATGAAAAACCTTGTTTTATTCCTTCAGAAATAGATTTTGGAACATATTGAGCCATTACTTCCCTAAGAATTTGCTTACCATCATTAGTTTTCTTAAAATATTTTTTTTTCTTTCCACCTAATTCATTTTCGTTCATTTGAATAATTTCAGTGAGGTTCTTTAATTTTAAGTCTACTGGGCATTTCATTGCAAAATCAACTAAATCATTATCCATAAATGGAACTCTAGTTTCCATAGAGTGGGCCATACTTAGCTTATCTTCAACAACAAATAATCCATGTAAAAAAGTTTTTGCCTCAAAATATAAAGAATGATTAATATAGTCCTCTGGGGATCTTAATTCATTTTGATGGGTTGAAAAAACATCTTTAAATATATTTTGAGTATTAATAGCTCCAATCTCATCCCAAATTGGATTAAATACTTGTTTTATTTCCGCTGTTGAAAGAGTTCTTTGCCAAAAACTATAATATTGATCTATGTAATGATCAAAGTCAATACTTTTAACAGCTCGATAATATCTCCAAGGGTAACCTCCAAACAATTCATCACCTCCAGCACCTGATAACACAACTTTAACAAATTTACTTGCTAAACCTGCAGCATAATAATTAGGATAACTTTGTCCAACTCTAGGCTCTTCTAAATGCCATGAAAATTTTGGTAAAATACGTTCCATATCTCCAGATTTTAAAACCATTTCATAATGTTCTGTTTTATAAAATGCAGACATAGCCTCTGCTTTTTCACGTTCATCAAATGCAAGTTCCAAACCCGAAGCTGAAGATAAATCAAAACCACATGTAAATGTTTTGATATAAGGCAATTCCTTAGAAGCAAGGGCTGTTAGGGTTCCAGAATCCATTCCTCCTGATAAATATGAACCAAGTTCTACATCAGAAATTAATTGTCTGCTCACTGATTGTTTTAAAAGTCTATCTAATTCCTCTAAATATTCGAATTTATTTTTAGACTTATGAGATTCTTTAAAATGATAATCCCAATATTGAAAAATTGAAATTTTATTACTTTTTTTATATTCTATCTTAGCAATAGATGCTGGTTTTAAAAGCTTTATGTTTTCTATTAAAGTTTTATCTGTAAAAATATTTTGAAAGGTAAAATATTCAAAAAGAGCTGTCTTGTCAATTTTTTTTACTGCTTTTGGATGTTTAAGTATAGCTTTCTGTTCAGATGCAAATAATATAATATCTCCCCATTTTGCATAATATAAAGGTTTAATTCCATAACGATCTCTAACTAAAAAAATATTTTGTTTCTTTTTATCCCAGATAGCAAAAGCAAACATACCATTAAATTTTAATATACTTTTCTCTCCCCATTCAACCCAAGCATTTAAAACTACTTCCGAATCAGTTTTTGAATGAAATTTATGTCCTAAGTTTTCTAATTCTAACCTAAGTTCTTTAAAATTATATATTTCACCATTATATGTAAGTACAAATCGGTTGTTATTGGAAACCATAGGTTGACTACCACTAGAAGATAAATCAATTATTGAAAGCCTACAATGCCCAAACCCAATATTTTTATTAGTATAGAAACCATTTCCATCAGGACCACGATGTTTAATGCTATCTACCATTTTATTAAGAACTGTCGATGAAACTGGCTGTCCATCTATATTTATAATTCCTGCAATTCCGCACATATCAAAAAATTATATCCAAAAAACTAATTATTATTAAACTTATTTTCTTGTCTCCATTTAATAAGTTTTTTTAAACCAGATTCTAAATTATACTTGTATTGAAAATCTAAATCTTTTTTTGCTTTAGATGGATCTCCAATTCTATTTTGAACCATTTGTCTTGCATCATCAACACTGTATGGATTATACTTAACAACTAAATTTGAATCTTTAAGATTTAGAATAAGATCGCACAATTCCTTAATAGAAGTTTGAATTCCTGTTCCAACATTATAAAATTCATCACTTATATCAGATTGCATTGCCAAAATATTACACCTACCTGCATCTTCAACATCAATAAAATCATAAGCTTGGCTTCCATCACCATTTATATTTGGTTCTACATTTGCATCAATTTTATTTAACATAATAGGTATTACACCTGTATAAGCTGCATTCTGATCTTGATGTGGTCCATAAACATTCATATATCTTAAACCTACATAACTTAATTTATACCTATCGTAAAAAGCTTTACACATTGCTTCTCCAGCAATTTTTGTTGCTCCGTAAAAATTCCTATTATTAAATGGATGTTTTTCTGTCATTGGAATTTCTACGGCATCTCCATATACTGAAGCAGATGAAGAATAAATTAATCTTTTAACATTATTATTAATACAAGCCTCTAAAACATTATATGTTCCTTCAATATTTACATGAAAAGCTGTTCTCGGAAAATCTTTACAGTGCAAAAGCCACATTGCAGCTAAATGAATTACGCCATCGATTCCATTCATAGCATCATTTAACAAGTCTATATCCCGAATATCACCACCATTTGGATATATTTTACATCTATCATCTTCTAAACTTTTTCTAATATTTTCAATATTTCCCCTTGAAAAATTATCATAAATCAATACTTCTTTTACGTTTGTTTTCAATAGTTCAGAAATAACATGACTTCCAATGAATCCTGATCCGCCAATTACTAATATCTTACTATCTTTTATTTCCATAAAATAATTTACTTTAATAATTCTTTATATTTATCAAAATTCAACATGTTAATATTGTCTAAAAAATAAGGTTCGACTTTAATTATATTATATTTTGAAGAAAAATTTAAAAATGAAAAAATATTATTTTTCTCTATAGTTGAATGATATTTTACATGATTGCAAAGGAATGAGCCTTTATAATTTTTCATAAAGATTTAAGAATTTTTCTTATTTTATTTGCTGTATTTCCTGAACCATAAACATTACTAGGCTCAAAAGGCTTTAAATCTAAAGTTAATGCTTTTTTTAAATCGTTTATATTAGGACCACAAAGAATATTAGCTCCAATATCTAACAATTCAACCCACTCTGTTTGATCTCTAATTGTTATGCATGGAACTCCATAAAAAAAAGCTTCTTTCTGAATGCCACCAGAATCTGTTGCGATTTTAGAAGCATTTTTTTCTAAAATAATCATATCAAAAAAACCCACTGGGTTTATTAATTTAATATTTTTTCCAATATTACATTCATATTCAGATACTTTTATTTTTGTTCTTGGATGAATTGGAATAATTACTTGAGTATTTAAACTAGATAAAGCATCAAAAATATTGTTTAATTTTATTGAAGAATCAGTGTTTTCAGGTCTATGAATAGTAGTTAAAATATAATTTTTTTTTTTAACTCCAAGTTTGTCTAATATTTTTGAAGAATGATCAGCTTTTTTTGAAAAATAAAGTGTTGAATCAAACATAATATCACCAACATTGAAAATTTTTTTTTTATCTATCCCTTCTTTAATTAAGTTATTAAAACTAACCTCAGATGGTACAAATAATATTGTTGCAATATGATCAGTTAACAATCTATTTATTTCTTCAGGCATTTTCCTATTAAAAGAACGTAATCCTGACTCAACATGTATGACAGGTATATGAATTTTTACAGCTGCCAAAGCCCCAGCTAAAGTTGAATTTGTATCTCCATAAACTAAAACAAAATCGGGTTTTTCTTTTAATAATATTTCTTCTACTTTTTCTAATTGCCTTCCTGTCATTGCTCCATGAGATAAATTTTGAACTCCTAAATTATATTTTGGAGTTGGAATCATCATCTCTTCAAAAAATATTTTACTCATATTATGATCAAAATGTTGACCTGTGTGTACAATAATTTCTTGAATTGATTGATCTTTGGAAAATTCTAAGCTAAGTACTGAAGCTTTGATAAATTGAGGCCTAGCTCCAATAATTGTAACTATTTTCATTCCAATCTATTACCTTTTTTATCAACTTTTCCAATTATTTTACCTGGATTTCCAACTACTAATGAAAATGGTGGAACATCTTTTGTAATAACAGTACCCGATCCAATCATAGCATATTCTCCTATAGTTACTCCACAAACGATAGTAGCATTTGCACCAATACTTGCTGATTTTTTTATTAGTGTTTTTTTGTAAAACTGAGAACCCCTTTGAGGAAACTCTGACCTTGGTAATTTAATATTCGTAAAAACCATAGAGGGTCCACAAAAAACATAATCTTCTAGTTCTACACCTTCATAAACTGAAACATTATTTTGAATTTTAACAAAATTTCCAATTTTAACATTGTTACCAACAACTACGTTTTGTCCTAAATGACAATTTTCGCCAAGGTTTGCTCCACTTAAAATATGTGAAAAATGCCATATTTTAGTACCAGAACCTATTTTAACATCATCATCTATAAATGAAGAGTGATGTACAAAAAAATTTTTTTTATCCATTTTCTATTAATTGATTTCCTGCATTTACTAAAATTTTTGTTACCTCTAAAGCATGTTTTCCATTTGCAATATCAAGTTTTTTACCATCTAAATGATTTATAAAATAGGATAATTCTTCAGCAAGTGGCATCTTATTTTCATATTCTATTAATGTAATTGGCCCATCAATTTTCTCAGGAATTCCATTTTCAAAATCAAATTTTTTAGTATATAATTTTAATGGCTTTCCATCTTTAGAATCTTCAAAAGTTATCATTGCATTTGAACCAATCACAACCAATCTTTGTTCCTTAAAAGGATGTAACCAACTAACAAATATATGTCCGTCTATATTATTTTTATATTTAATTTGTGTTAACGTTGAATCTGGAATTCCTTTCTGTAAAAATGTACTTCCATTTGATATAATTTTTTTCGGAGAAGATCCGATAAGATAATCGAAAATAGATATATCATGAGGAGCTAAACTCCAAAAAACATTTTCTTCTGTTCTCACTTTTCCAAGATTTAATCTATTACTATAAATATATTGTAAATCACCAATCATTTCATCTTTAATCATTTTTTTTATTTTTTTTATTGCTGGATGAAAAAGCATTAAATGTCCAACCATAAGATTAATATTATTTTTATTTGCAAGGTCAACCAAATAAGTTGCATGCTCAATTGATAAAGTAAGAGGCTTTTCAATTAAAATATGTTTGGAATTATTAATTATTTTTTTTGCAATATCAAAATGTGTCTCTGCTGGTGTAGCAACAACATATCCATCATAAAAATTTTTTGATAATGTTTCTTCAAGATTATCATGTATTAAAATATATGGGTAATCATTTCTAAATTTTTTTAATAAATTTTTATCTGCATCGACAATTCCACCAAGACATCCAAGCTCATCAAGAGTTCTAACATGATTTTTTCCCCAGTAACCAGCACCGACAACACATACTTTCTTTTGACTCAACTTTTTAATGCCCTTTTAATTATATCAGCAATATTCACAATATCTTTTTCATCTAAATATGGATGCATAGGAAGACTAAAAATTCGTTTTGAGACATCCTCACTAATAGGTAATGTTCCTGCTTTTTGATTTAAATATTTATAAGCGGTTTGCAAATGTAAAGGAGTTGGATAATATATTGCAGTTGGTACTCCATTATCCTTTAAATAAGCTTGAATTATTCCTCTTTCTATTTCATTTTTTGCCAATACTGAATATTGCGCCCATGCTGAAATATTGTTTGGACGAACATAAGGAGTTATTAAAACCTCTGATAAATGTTTATTATACATTTTAGCAATTTGATTTCTAGATTTTATTTCATCATCAAAAATTTCAAGTTTTGCAAGTAAAATAGCAGCCTGAATTGTATCTAACCTTCCATTTACCCCAATTCTTACATTGTCATATTTATCAGATCCTTTTCCATGAACTCTTATAGACTTAATTACATCTGCAAGTTGGTCATCATTTGTAAAAATAGCACCGCCATCACCATAACATCCCAAAGGCTTAGCAGGGAAAAAAGATGTTGCTCCACATAGCGTTAAACTTCCTGATTTTTTACCATTTTGAGATGATCCAAAACCCTGCGCTAAGTCCTCTAAAACCCACATATCATGAGATTTAGCGATATCATTTATTTTATCATAATTAGCTGGTTGACCAAAAAGATCTACTGGAATTATTGCTTTAGGATTCAAATTGTTTTTTTTAGCAAATTCAATAGAATCATTAATCTTTGAAGAAGAAATATTAAAACTGCATCCATTGATATCTGTAAATATTGGAGTAGCACCAAGCAGAGAAATTACTTCTGCAGTAGAAACGAATGTAAATGAAACAGTAATAACAGCATCTCCAGGACCAATTCCTTTAGCCATTAGCGGAAGTAATAATGCATCTGTTCCTGAAGAACATGAAATTGCATGTTTTACATTGACATATTCTGCTAATTTAGATTCCAGTTCGTTAATCTCAGGACCCATGATATATTTTCCGTGATCAAGAACTTTAGAAATATTTGAATTTATCTTATTTTCAATAATTTCGAACTGTTTTTTTAAATTAATAAATTCCATAATTATTTAGTAGATGCTTTCTGAAGTATTGAAATTACTTCTTTTGTATGATTTATTCCTGTTAAACATTTGTATTTATTTTGAATACAATCAAAAAAATGATTTATTTCAGCGCTTAACGGCTCTTCCCAATTAACACTAGGAAATTTTACATCCCCAGACCTATGATTAAAATCAAATATCTGATTATTATCAAAATCCATATTTTCTCCTAATATAGCCTTTCTATCAATTCCTTTATCATATATTGCTATTTTATTTTTTGATAAGTCATCATAAACAATCATTTTTTTTGATCCAACTATTGTTATCGTACGAATTTTGTTAGGGTCTAACCAACTAACATGAATATTTACTAAGATGTTATTTGGGTAGGTTAATGTTAAAAAAGACACATCTTGAATTCCCTTTTGTAAATAATCCATTCCATACCTTGACACTTTCAATGGTTTTAAATCTTCAAGCCAAAATTTAATTATACTTATGTCATGCGGAGCTAAATTCCATAATGCATCAACATCATTTCGTATTCTACCAAGATTCAATCTTTGACTATATATATATCTTATTTCACCTAAATCTCCTGAATTAATAATCTCTTTAATCTTTTTAACAGCTGGATTAAAAAGAAAAGTGTGACCTGACATTGCTACCAATTCATTTTTTTCTGATAAAAACTGAATTTTTTCTACTTCTTTAATTGTCGTTGCCATAGGTTTTTCCACTAAAATATGTTTTTTATTTTTTAATGCTTTTGTAGCTAATTGATAATGAGTTTTTACTGGTGTTGCAATAACAACTGCATCAATTTCAGCATTATCAAAAACATCATTTGCATTACTAGATACTTTAATGTTTGGATAAAGAGATTTAACATAATTTTTACGTTCATCAGATAAATCAACACACATTGAAAGTTCACATCTAGGATTTAATGCTAAATTTCTCAATAAATTTGGACCCCAATATCCCACACCAATTTGGGCAATTTTAATTTTTGACTTCAATTTTTATAGTACTCCTTGTACCAACTAATAAATTTTTCAATTCCATATTCTACAGATATTTGAGGTTCATATTCAAACTCATTAATTAATTCCTCAACATTTGCATGTGATTTAATTACATCTCCTGGTTGTAAAGGCATAAAATTAATTTTAGCCTTCATATTCAATTGTTTTTCAATCTCGGAAATAAAATCCATCAGTTTTACAGGTGTATTTTTCCCTATATTAAAAATTCTAAATGGAGCTTTACTCAATGATGGATTTAAATCATTTTTTACATCATAATTTTTAGAGGAATTTAAAATTAAAATAATTCCATTTACAATATCTGATATATACGTAAAATCTCTTCTCATCTCTCCATTATTATAAACATTAATTTTTTCTTTATTTAAAATAGCTTTTGTAAACAAAAAAAGTGCCATATCTGGTCTTCCCCATGGTCCATAAACAGTAAAAAAACGTAATCCAGTACATTTCAAATTGTACAAATGAGAATAAGAATGAGCTATGAGTTCATTTGATCTTTTTGTTGCACCGTATAAACTTACTGGATGATCTACTGGATCTTTCTCTGAAAAAGGATATTTTTCATTCATTCCGTAAACTGATGAACTGCTAGCAAATATTAAATGTTCAATCTTATATTTTCTACACATTTCAATTACATTAAAAAAACCATAAATATTACTATCGATATAAGCTTTAGGATGTGATAATGAATATCTTACTCCAGCTTGAGCCGCGAGATGAACTACTTTTGTAAACTTATATTTTTGAAAAACTTCATTTAAATCATCTTGATTAATTAGATCTTTTTTATATAAAAAAAAATTTTTGTAACCTTTTAAAATAGACAACCTATTTTCTTTTAAATTTTTATCATAATAATCATTTATATTATCAAGTCCAACGACTCGATGTCCTTCATCTAATAATTTCTTAGATAAATGAAACCCTATAAATCCAGCTGATCCTGTTATTAAAATCATTTGCTAAAATATTTTATTTAAAAATTGATTTAATTGATTTAATTGAAACATTTTTAAATTCTTCAAAAACTTGTTTTTCTCTTTTATCAATTATATTTAAGTATCCTTTAATTAATGAAAAAATTATTCCAAAACCGAATCCTATTAACATAAATCCAAGAATTACAATTGGCGATAAAGTTTTAAAATAAGAAACATTTAAATAAATTGGAGCTAAAGGAGGAATAGGATGATCAAGAATTTGAATAGTTGGAGACATTTCATACTCTTTTTGAATCTTCACTTGTTCTAAATTTTGATATAATGTTGTGTACAAACCTTTATAAATTGCCAAATCTCTATCTATTCTTTCCTTTTGAATCAATAATGCAGGACTATTAATTTGTCTGTTTGTTTCAAGAAAAATTTTCATTTTGTCTTCAAGAATAGTGTATTCATCCTGTATAACCTTAAGTCTTTGCTCAATAAATTCTTCAGTTCTATTCAAATCTATTTTATTAAAATAATCTGTAAATTCTTGTAATTCTTCCAATACAACATATGCAATATCAACAGCAAGTTTTGGCTCAATAGCTCTCGTAGTTATTGTTTGAAAAGATCCCATTTGATTAAATTCAACAAGACCTGTACCTAATGTGTCATTTATAACATGCATATATTGCATAACTAGAGTATCTAAACCTTGACCTCTATCAATTTTATATAAATCATTTTCATCTTTATAAACTATATATCCACTTGGATATTTAATACTTTTTAACAAACCAGATGGTTTATTAAAACTCTCTTCAAGCTCTAGCAATACGATTTCAAGTAATGTTTGTTCTCCATATTTGTTTGTGTTGAACTTTTCTTCAAATAATCTTTTAGCAAAACTATGAGTTCTCAAAAATTGTGGATAAAGAGAAGGTGATGTTAATGTAGAAGTAGGTGGAAGACTGGAACCACCTGAACTTGATGATCTATTAATTCCTAACATCCCTAATATTCCACTTGATGAAGATGATGAAGATTGATTTTGAACTAGCTGAACACCTCCGGGAATAACAATTTTCGAAGTTGTTATATATGTTTTTGTAGGATCTTCGTTTTTTAATAAAAAACCGAGCAATTGAAAAACTAAAAAAATTAAAAGACCCAGAAATCCCATCACAAAAGTAGATTTAATGGTGAATGATAAATTTTTTGCTATTGGTAGAATAATATTTGATAATGAAAAAAAATTATTTTTTGATGCTAAATCAATAAAATCATCATCAAATGAACTTTCTATATTTTGAGTTATATTTTTAATACCAAAATTATTATTAACTATAATCTCATATTTGGGGGGAATCCAACCTCTTGATTTCCAATTACTTATTGATTGTGGACTTACATTTAATTCTCTTGCACATTCAGCAAGGGATTTAATTCCACTTTCTGACATAATTGTTTGAAATTTTTCAAATTTCATTATTGTGTAGAATTTCCAGAAATTACATTTCCTATTTGAGTAACAATAACATAAGTTGTAATTATTTGTGTGATAGTATTAGACACACCCTCAACAAATGTTAAAATTTGACCCACCAAATTTGTTGATTCTACTTTTTCATAAATTTGAATTATACAACCTGGCTCAATATTTATATTTGAAAATCTTTTCTTTATTTTGACAGAACCATCAACATAATATACCAAAATATTATTTAAATCTGCATTTGGGGTCAACCCTCCTGCAATTTGAAGGTATTGATTGATTTTTCTATTTGATTTAAATGAAATCAACCCTGGATTAAAAACTTCACCTTTTATTTCTACAACATTTGATATTTGAGGCACATTTATTTGATCCCCATCTCTTACTACATTATTCAATCCCTCAAGAATGACCCTTTGATTATTTCGTGTTAAAATTATCCCCTTTTCATAAGCTCTAGGACTTAATCCTCCTGCTCTATTAATAATATTTAAAATAGTTTCATTATCCTTAAGAATTGGATAAATACCAGGGAAATTAATTTCACCAAACAAATTAACAGTTTTTGGAGGTAAAAAATTTAAATTGGGATAAACAGTTATTTGATCATAATTCTCTAATAAAATATTCTCATTTTCATCTTTATTAATGATTTTTTCTAAATCCAAGGTAATAACTTGACTAAAGTTTGATGTTATATCTCTTCTAATTAAATCAATTTTTTGAGTGTTAACTGATTTAAGAAATTCCTTGTCATTTATTCCACCAGCTAATTCCAATAAATCATATATTCTCATTGACTTAACAAATCGGTAATTACCTTCGTTTTTAACTTGACCATATGCATAAACTTGAGAATTTGTGTTTTTAATTTTAGGAACAACTATTTTGTCACCATCAGAAAAATTAATTTTACTCAAATCCCTAAAATAAAATTTTTTAATTGCATCATCATCAGTCAATCTTTCTGAACGACTTAATATTCTTGTAACTTCTGTAATCAAGCCGGCTTTTGGTTTAAAATCTCCACAAAATCTTAACAAATGATCGAAGTTTTCATTTTTTTTCATTTCATAAAAGCCAGGTTTATTTACTTGACCATCAATTTGAATTGTAGTTTGTCTTTTATCAACCAAGATGATATCTTTGTTTTTTAATCTAAAATCGTGATTGTTTTCGCCATAAACTAATAATTTATAAAAATCAATTTCCTTGAAAATATTACCATCTCTTAAAATCTTAATATTTCTTATTGATCCTGTTGTATCAATTCCACCAGCTTGAGAAATTGCTGTAATTACATTTGAAAAAGGATGAATGTTATACACTCCAGGTGAAACAACTTCACCAATGACTTGAAGATTTACAGATTGTATTGAAACCATAGAAACATCCATAAATGTTCTATCATCATCAGAATATAATGTGGAATAACTTTTACTAAATTCTTGCTTCAAATATTGTTTTAGTTCAGTTAAACTTTTACCGATTACAGAAATAAATCCAATAGAACGAACAAAAATTCTACCTTCCTTATCAACAATGAAAATTTCTTGTAAATCTGCTTGCCCCCACAATGATATTCTTATTTCATCACCAACACTTATTTCATAATAGCCTGGAATTGGTAAATTATCAAAAGTTGACCCTAAACTAGAATCAGGTAGAAAAAACCTCAATCCAAAATTTGCATTAATAATCTCATTAAATTGGAACTGTCGTTTAACTAAATTTCCTCTTTGAATATCTGCTTCAAGATTGATTCTAGTTTGTGTGTCTCTTAAACCAGAATTAATTTCATTAAAATTAGTAGAATCATTAAAACCTTGGCCTAAAAGAATAAAACTTACAAAGTAAATAAATAAGAAAAACTTTGTCATATTAAAAGTTACATTAATAATTTATAAAAATAAATGAATAGTTTACTTTAACCAGATCCTAGACGAATAATATTTTCAGAATTATAATTTTTATACACATTGCGTGTATCAATTATAAGACTGTCCGAATTTTTTATTTTTTCATAATCAATATTTGTATGATCTGTTAAAATTACAATTGCACTGTATTTAATTAAGTTAATTTCAGAGAGATTAAGATATCCTTTCTTAATTTCTGAATTCCATTTGATTTCTGATATATATGGATCATAATAACTTACGTTAGCACCTTGTTCTTCCAATAGAGCCATAATATCTAATGATGGTGATTCTCTAACATCATCAATATCTTTTTTATAGGCCATTCCTATTAATAGGATATTACTATTCTTTATTGTAATTGCTAAATCATTCAAAGAAAATCTTATTAATTCAACTACATGTTCAGGCATTGAACTATTTATTTGACCAGCCAATTCAATGAATCGGGCCTTGTAGTCAAGAGTTCTCATTTTCCAAGCCAAATAATGTGGGTCAATTGGAATACAATGACCTCCTAATCCAGGACCAGGAGTAAATTTCATAAACCCAAATGGTTTTGTTTCCGCAGCATCAATGACTTCCCAAGCATTAACTTTTAATTTTTCACACATTATTGCAATTTCGTTTACCAAACCAATATTAACTGAACGAAATGTATTTTCAAGCAATTTTACCATTTCTGCTGACTCAGGTGATGACACAATAACTACTTCATCAGTAATTTTTTTATATAATTCAGCACCCAAATTACCACATTCCTCAGTAACACCCCCAATTACCTTTGGGGTGTTTTTAATATTAAAAGTTTCATTTCCTGGATCAATTCTTTCTGGTGAGAAACATAAAAATAAATCCTCTCCAACTTTAGCACCTGAATTCAATAAAGCTGGCAAAATTAATTCTCTAGTTGTTCCTGGGTAAGTTGTACTCTCCAAAACCAATAATAAACCTGGATGAATATAATTTACTATTTCATCAATCGAAGATTGAATATATGAAACGTCAGGATCTTTTAATTTACTTAGAGGAGTAGGAACACAAATTGAAATAGCATCCATTTCAGAAATTACTGAATAGTCAGTTGTAGCTTTTAAAGATTCAGAATCAATCAACATTCTTAATTCTTTATCATTAATATCTCTAATATAATTTTCACCTCTATTTAATTGATTAACTCTATTTTCAGAAATATCAATTCCTGTTACTTTAAATCCAGCTTTTGCAAACTCTACAGCTAGTGGCAAACCAACATAACCTAGTCCTACAACACACAACTTTGCTTCTTTGGTATTAATTTTGTTTTTTATATTAGAAAGCATTTATTCTCCGTTATGAATTTTATCTAAAAAAAAAGCCCAATGATTTTTATCGGGCAAAGTATTTTTTTCTTACACATAAATTTTATCCAGAAACTACTTATAAATTAAACATAAAAAGTTAATTCTTAATGAATAAAATCAATTACTTTTTTGTTAATTCCCAACTTCCATTCCAATTATGACCTGGAGGATTTTTTAAATAATATTCACATCTTGGAATATATATTTGACTAGGATTTGTTTTTCTACCTGGAAACATTTCTTCTAATTGATCTGATGCTTTAAATGCATCTATTGCTTTCTTCCAATTTTGAGATCTATATAAATTCAATCCTTCATTATACGCTTTAAGCAATTTATTATAACCCTTTGGAATAGAATTAACTTCAGATATTAATTCATAAACTTTAGCTGGTTCTGTTTTACCCATTACGATAACGTAATCCAAATCTCTCCAAATAAATTTATCTTTACATTTTTTATAAGTTTCCTCTGCGACTTGAATATATACACCATATTGTTTTGCAGAAGCCTCTAACCTTGCTGCAAGATTTACAGTGTCTCCCATCATAGTATAATTCATCCTCATCGAAGAACCCATATTACCAGTTACCATAGGACCTGAGTTGATACCGATTCTATTTTGCATATTGTGAACAATCTCTGGCCACCTATTTCCCTCAGCTTGCCATTTTTTACGTAATTCAGCTAATCTTTCTTGCATTTTAATTGCTGTTAAACAACCCCAATATTCATGATCTTCAACTGGAGCCGGAGCACCATAAAATGCAACTATTGCATCTCCAATATATTTATCTAAAGTTCCTTTATTATCTAATAAAATATCTGTCATCTCAGTTAAATAATCGTTTAAAAGCTCAACTAGATCTGGAGCACTTAATTTTTCTGAAAATGCTGAAAAACTTTGAATATCAGTAAAAAAAGCTGTGTGGTATCCCTCATTTCCACCAAGCTGAGGCTCTTCTTTATTTTCATACATTTGATCGATAAGTTCTGGTGATATATAAGTGCTAAAAGTGTTTTTTAAAAATCTTTTATCTTTTTCAGCAATCAAAAAGTTATAAAGAAAGAAACCAATGTACGTACCTATAATTGCTATAATTGGCCTAACCATATCAATCATAATTAATTGATTTAAAAATTGATAATAAGAAAAAATTATCCAAACCATAACTGCAAAAATTGAAATAGGTAAAGACCAAAAAGGATTAGTTGGTATACTAACTATTGCACCAATAATAACAGACAACAATATTATTATAATAATTTTACTTTGAGTACTTAATATCGAAACAAACTCGTTTTGTAAAATTGAATACATCACATTAGCATGAATCTCAACACCAGGAAATGTTTCTTGAACAGGTGTATTTCTTAAATCATATAACCCTGGCAAAGAAGTACCAACAAATGCAACTTTGTCTTTCCAATAATCTGGGGGAAGTAAATTTGGGTCAACACAATACATATATGGTAAATAATTAAAGGTTTTATTTACTCCATAAAAGTTGACAAACATTCTTCCTTCATTGTCAATGGGGATTTCCCTAATGACTGTTCCAGAACTATCAGCAAGCGTGAGAATATTTTTTTCAAAATCATAATCAAATCCATTAGATGGAATTCCTAGTATATCCATAATATTTGCCATCACCAATGAAGGATATACATGCTCTGGACCTTCAAAAAAAACAGCTGTTGGAGCTCTTCTAGTTAATCCATCTAAATCTTGAGGAAATTCAATTGAACCAATTGCTTGAGATAGAGATAATAATTCAATATTTTTATTTCCAAATCTTTTTCCCGATGGAAGGTGGATTGCATCTTCCAGTGGAATATCTAGCAAATGGTCATTTCTTGAATATCCTTCAGGCTCTTTTTCCATTCTATATAAAAAATTTAATGAATCTTCATCCTCTAGATACATTGCATGATAGACCTTATCACTTTTAAAAGTAGAATTATAAATTTGTCTAGGGTTATTATCTTCAAGATATTTTTGTGCTAAATTTTTACCATCAATATTATTTTGTGAAATACTATTAACTAAGTCATATGTTGATGTATTTTCTGGATCAAAGATAATATCAAATAATAACCCTTTTGGTTTAATTAAGTTAATGTTATCAACTAAAAAACCCTGGTCCGATGAACCATCCTCATAAATTGGAACTGCAGCAAATTCATAATTTTCCCAATTATCTTTTCCAGATATTGTATACATATTATCATATGCTTCACCTATAAATTCAAATTCAGATGTAGAATCAATAATGGATTTACGAAAAAATTGATAATGTGATGGCATTGGTTCATAGTGAGGCCAAATTATTTCGACGGTATTAGTTACAACATCGATAAGTTTTCCATGGTAAGATTGAGGCCAATTGTAAAATCTTCCTAAACCTCCATTTTCTTTTGGACTCGTTGACATTGCATCAATATCAATGATTATAACATCATCAATTGAAGCTTCAGGTAAATTTGCTTTAGCTTTCATTCTACTATCATATAGAGTGAATTCATATTTGTTAAGCAAATTATTAAAAGAAGGAATTAAATAAGTCAAACTACTTATTAATAAGCCTATAGCTAATCCAATCAATGAACCTATAAGTATTCTTTTTAATAAATCGGACATGATTACATTTTTAAAAAAAATTTATTTGGAATCTTGTTCTAAATTCCATTTCACCCATGGATCCTGAGAGTCAGATTCTTGATCAAACTCAAACATGCTATACTTTCCATCTGAACGTAAATTAATTTGCATTCCTTCAACTAAAGTTATCCATTCTTCAAGAGTTACTTCATAGGGACCTGCAATTTGAGTAGGTGCTTGAATCGTTTGTACTGGACCAAGTGAAAATTTTGGAGAACCACTCCCCTGCTGTTGGTTTTGAAGGTTTTTCTTTCGCAACTCAGATAAATTATCAGGTGTATTAATATCTACTTTTCCTTCATAGACTAGAATCTCACTTTCTTCTGAACCTGCTTTTGCCCTGTATTTTGTACCTCTAATAGCAGCTACTGCGGTTGGAGTTCTCACAGCAACATTTTTTGTTTCACCAAATGCTGCTTTTGCTGCGACCCAAACATTTCCTTTATTTAAATTAGCATTAAAATCTTTTACCATAGGTTTAACACTTGCTGTAGTTAATTCTAATTCAGAATTCTCACTAATTCTAAGTTTTCCGCCACCATTCAAAGTGATTTCTGCTCTAGCCTTAGGCTTTGTTCGGACCTTATCTCCTGCAAAGACAGGTTGCCGAACTTTTGCCCTAACCCAATCAGCTCCGCCTTGTGATTGGACTTCTACTATCCCGAGAGGTAGGGTGATCTTACCAAATTCTGTTTTTGCAGGTTGAATTAAACTAATTGCACCAATAAAGGTTAATGAGCACAAAAAGTATAAAATGAATTTGGACTTCAACCAATTTCCTCATTATAAAAATTTTGTTTGATAGAATATAAAAAGTTGGATTTTATTAAATTAATTAAATGATATTCTAAAAAAATAAATCTCATTATTTATTTTAACATGATCATTTTTCTAGAAGCACTAAATGTTTTTTCATTATTTGAAATTGCTTCAATTCTCAGAAAATAAACTCCTGTTGCCATAATATCACCTAATTGATTTTTTCCGTTCCAAACCAATGAATGATTTCCAGCGGTATAAAAAACATTACTGGATAAAGTATTAATTTTTTTTCCTAATAAATCATACACTTCTAAAGATACCATACTTTCTAATGGCAAACTAAACTTGACCGTAGTTATAGCATTAAAAGGATTTGGAAAGTTTTGGGATAATTCAAATTCTTTAGGTAATAGATCATAAGAACTTATTGTCTTTTCAGTGAATTCTTTTGGCCCAGCAATTAAAACAAATTGTCTATCTGTATTTTCACATGAACAAATAAAATCATATGAATTATTATTTTTTAAATTTTTTGTTTTTCCTATAGACTTGTCAACTAGTATCAAATCCCAATTAGAAGGTAATTTATCTGTCCAATCAACCTCTAAATTAACAGAGCCTGATTCATTTGAAACAACACGAAATTTCCACTCATATCCCTCTAAATTTGATTTTTTAATATCAGATGAATAATATCCTGATTTTTCATTCCATGCAGTATTATCGAAAGCTAAAGAAATATATTGCCCAATGACAGGTGGCTCATTTCTATCTAAATGATCCCATTCATTCGAAGCATTTTCTATAACACCAAATTTATTATTTTTGTCTTCAAAATTATTAATTGTTGCAGAAATTGAACCTTCCCAATCAAACGGTTGTTTTAAAATTTTTCTATCTAATTTTTTATCAAAATATAATAAGAGCTCTGAATTCTCATTAGCATAGATCCAATATCCTTCACCAGGTTCAAAATCCGATGAAATTGAATATCCAGAACCATTATATCTATAAATTGATCCTTGAATTTGTGAATCATCATAACTAAAAACTGGATTAAAATTAAATGGGTTACCAATTTGATTCCAACCTTCATCTAAACTCATATAAAAAGTATCTTGTAATGACATTGAAACTCCTCCACCCGCTATCAAATCGGTTGGTTCACGAGTAATAATCCAATATGCTTTTCCAGGCTCCATATCTGCAGAAAAAGCTTCATAATAAGATCCATTTTCCCATCGAAATGTTCTCCATTCTTCAGGATTTTCTTCGCCTAATTCGTCAAACAATGAATTCCCTCTATCTAAATAACCAGGAACTGAAATCATTTTATATGATTTTGATCCAGTATTAGCTACAAAAAATTCTTCGTACAAAACATCTATATTTATATCATCACTTTCAGTAATATACCCAAATATATCTTCCACAATAATTCTTCCAATAATCCCATTTAAAGTAACATCATCACTAGGAATAATTCCTGTCCAGTCACCTCCTAATGCATCTCCAACGCCACTTAATGGAATTGAATACAAGTTAGACTCACCAATAAAGTAATCAAACTTAACGCCTACTATCTGCTCCTCAGTTGCAATACCTACACGTATTTCAGCATCATTACCCTCATAAACATCAATTGGAGGATCAATATATACAATTTCAACAGTTGATTCTGGTTCTTCTTCATCACCATAAAATAAGTCAAGAGATATATATTCATTACCTTGATCATTAGTATAAACTTCAGGAATATATCGATATGGTTCTCCATCATCAATGATTTGGTTATTATTTAGATCAAAGAAAACTTCAATTTCATAGGGCCCATTATTAGGAGTTATTCCAGGGTGATTTATTTGAAACCTCCATCCTCCTTGAGGAGAAGGTGTGCCCTCACCTCTAGTAATAGAAACATCTGGAGACGAAAAATCGGAATTCGGAAACCATAAATTAACGACCACATTACCATTTCCAATAGGATCAAATAAATGGACCTCTAATTCAATGGTATTTACTAAATCATTATCACCATCATTATCATTATCATTACCATTATCATCTCCACTATTGTCAAAGGCATCCAAACTTTCCCATACACCATTTCCGTTGATACTACCATCATTTCCTAAATCAGATGAATCAAAAATGATACTTCCACCTATTTCGTTAAAATGCCAAAGTAAAATAGTTTCATCATAAGGATCGTGTTTTACATTTGGGACTTCAAAACCATTTGGGTATTCAAGA
>sequence08
ATTAAATTAGTTTCTGCTGAAATTAATAATGAATTAGGAATCTTAGATAAATCAATATCATCACTAATAATACAGGCTTCACAAGAAGTTATAGATGGAAAACTTGATGATAATTTTCCTTTGGTAGTTTGGCAAACTGGTAGTGGAACACAAACCAATATGAACATAAATGAGGTTGTCTCAAATAGAGCCATAGAAATTTCAGGTGGAATTATAGGTTCTAAAAACCCTGTACATCCAAATGATCATGTAAATAAGTCTCAGTCAACAAATGATACTTTTCCATCAGCTTTAAATATTTCAGTTTCAGTATTAATAAATGAAAGATTATTACCAAGTTTAAAAAAAATAAAAAAATCTTTATCTAAAAAATCTTTAGAATTTAACAAAATTATTAAATTAGGTAGAACCCACCTTCAAGATGCAACTCCAATTTCTTTAGGTCAGGTTTTTTCTGGATATGAGTCTCAGATTGAACATTCAATCATGTCAATAAATAATGCACTTAAACATCTTTATGAATTACCATGGGGAGGTACAGCAGTTGGCACAGGTTTAAATACTCCATTTGGGTTTAGTGAAATGGTGGCTAGAAGAGTTTCTGAAAAGACAAACTTACCTTTTATTTCAGCTCCAAATAAATTTGAATCAATTGCAAGTCATGATTCTGCGGTTTCAATGTCAGGTGTTTTAAAAACATTAGCATCTTCCTTAAATAAAATAGGAAATGATTTAAGGTGGCTTAGTAGTGGTCCTAGATCAGGAATTGGTGAAATAATTTTACCATCAAATGAACCTGGTTCATCAATAATGCCAGGTAAAATTAACCCAACTCAAGTTGAGGCATTATCAATGATCATTGCAAAAGTTTTTGGTAATGATTCAAGTATAACATTTTCAGGAGCATCTGGAAATTTTGAGTTAAATGTTTATAGACCAATTTTAGCATATTCTCTTATTGAATCTGTGGTTTTATTAAGTGACGGATGTGATTCATTTAGAAAAAATTGTGTTGATGGTATTATACCAAATAAAGAAAGGATTAAATCTAATTTGGATAATTCCCTAATGCTTGTAACAGCTTTGGCTCCTTACATTGGATATGATAAAGCTGCAAAAGTTGCAAAAAATGCTTATGATAAGAAATTAACATTAAGAGATTCTGTCATTGAACTAAACTATATGTCTGGGGAAGAATTTGACGAAAAAGTAAATCCTGAAAAAATGATTAGTCCTTTTAAATTAAAATAAAGTTCATTTATTTTTTATAATGTCAAAACCACCCAATAATTTTTCTACATTAAAGAAAATATTTTTTCAGGTTATCATTATTTTTTTTACCACTATTATAATATCCTTATTGTATGTCAATTATCTATCTAGAGATTTACCTTCACTGCAACAATTAGAAAATTTTGATCCTGATGAAGCAACTGAAATCTTATCTGCTGATGGTGTTTTATTGAAGGAATTATATACTCAACGAAGAATGAGAGTTGATTTAGAAGAAATACCACAATTTTTAATTGACGGTGCAATTGCATCTGAGGATAGAAGATTTTATAAACATTGGGGAATTTCAATGCGAGATGTTTTGAGAGCTGTTATAATTAATGCAATTCCTCCGCCAAGTTTTAGACAAGGGTTTAGTTCAATTACTCAACAACTTGCAAGAAATTTGTATGATTCGATAGGCTTTAAAAAAACTATTGCAAGAAAAATAAAAGAAATGATTACAGCAGTACAAATTGAAAGAACATATACCAAAGATGAAATAATTGAAATGTATCTAAATTCTATTCATTTTGGACATGGGACTTTTGGTGTTCAAGTAGCTGCAAAAAGATTTTTTAAAAAAGATGCTTCTGATTTAAACCTTGATGAATGTGCTCTTTTAATTGGTGTGCTTCCTAGGCCCGCCACATATAGTCCTATAAATAATCCAGAGATTGCTTTGAGAAGAAGAGATATAGTTTTAAAATTAATGTTTGATCAAAAATTTATTTTAGAATCTCAATATTTAGAGTCTAAAGCTATGCCATTAAATGTTACTCCCAACCGTGATGATATTGGAAAAGCACCTTATTTTACAGAATATGTTAGAAGATTACTTGAAATTGAAGATGAACAATTAGGTTTGGATATTTATAGAGATGGACTAACTATTTATACAACAATCGATAGTAGGCTTCAAACGATTGCAGAGAAAGCTGTAATGAGTGTTATAAAAGATAATCAGGAAAAGTTAAATTTAAGATTGTTCAATAATAGAGAAGAATTTGAAGAACTAGCTTATTTAGGTATTTATCCAGAAGATTCAGTAAAAATAATGATGAAAGGTCAAAAAGCTCTTTATAAAGATTTAAGGGATAAATTATTAGTTCAAACTGCTTTTGTTGCTATAGATCCAAAAAATGGTCACATTAAAGCGATGATAGGAGGTAGACCAGATTATCATGATCAATATAATAGAGCGACTCAAGCCAAAAGACAACCTGGGTCAGTTTTTAAACCATTTGTTTATACGTCTGTATTAGATAATGGTTATCCTGTAACTTATCAATTATTAAATCAGCCAGTTGTATTAAATATTCAAAATTCTGAGGGTAAATGGGAAAAATGGATGCCAAGTAATTATGATGGATCTACGGGAGGTTTGACAACTTTAAGAGATGGATTAAAAAAATCAATGAATCTAATTTCCGTAAGAATGGTACAAGAACTTGTTCCAGCAGAAGTTGTGGCAAGTATGGCTGAAAGAATGAATTTAACTACATCTATTCGAGCTGTAGATGCAATTGCATTAGGAACTTCTGAGGTTTATCCATTAGAGATAACTTCTGCATATGCAACTTATTCTAATAATGGAGTTTGGTGTAAGCCTATTGGTATTAATAGAATAGTTGATAGATTTGGAGTAACTATTAAAGAATATTCTCCAAGAAGAGAAGAGGTTCTAAGTGAAGAAACAGCTTATTTAGTTACTGATTTATTACAATCAGTTGTAGATAATGGTACAGGAGGAAGTGCAAGGTGGAAATATAAATTTACTCATCCAGCAGGAGGGAAAACTGGGACTACTCAAAATTGGACTGATGCTTGGTTTGTTGGATTCTCTCCAAAAATTGCAGCTGGTGTTTGGTTTGGAGTCGATGATCCTAAGGTAAGTTTAGGGATAAATCAATCAGGTTCAAGAGCTGCATTGCCAGTTTGGGCAAAATTTATGAAAGCTGCTCACGATAGTATGGGATGGAAACATGAAAAATTTACGCAACCTGATGGTATATCTACTCAAAAAATATGTACAATATCAAAACTTTTACCAATTAGAAATTGTCCCGTAGAAAATGAAATTTTTATCTCAAAATATTCTCCATCTCAAAAGTGTAAAGTTCATATTGATGGATCTTCAAGAAGAGATAGAAATTAATTTATTTATTTAAATTTTTTGAAAAATAATTTTCATTAGATACTAAGTAAATTAGTATTAATCCAATTAATCCTAAAACAATATTAGGAAGCCACATAGCTAATCCACCATTAATCATATTTCTATCAGCCATTCCTTCTCCTCCAATCAAAAATAAATAATATAGTAAAATAAAAATAAAACTAAATACAATAGCAATAAAAAACCCACCTTTTTTATTAATTATTCCAAGAGGAGCACCAATCAAAATAAAAATTGTACATGCAATAGGTAGGGAAAATTTTTTATGAATTTCCACTAAATATTTATTTTTATTTTTTTCATAACCTTTAATCATTTGAATGTCAGCAAGTAATCTCTGAAAAAATACTTTTTGATTATCATTTTTATTATTTTGTTCGGCTATTTTTTTTATCATTCCAATATTGATCTGTTTTTTTTGTGATGTCAATTTCATAATTAGATTATGATGTTCAATGTTTTCAAAATTTGAAGAGTCAATTTTATTAATATATTTTTTCATTCTAGATTTAATTGACTTAATTCTTTTATTGAAAATATTTATTTTATTATTTAGCATTTTCACATTCATTTCTCTATCAGTTCTTAGATTTTTACTATTTTTAGTTTTAGTAAAATCTTCTAAAGAAATAATTATTTCGTGTTTTTCAAAAATTATTCTCCTGTAATTTTGTAAAACTTTAGTATCAACTTCATGAATTTCACCATTATATAAACTAACTAAAATATTGTTTCCAATTGTTTTAAATTCTCCCTCTTCAGCTCTTATTGTGGTTTGAGTTTTACTTCTGTCTTTACCATATATATGGATATTTTGATATTTATTTCTTTTTTTCCCTTTTATAATAAAACTATATTTGGGCAAATCATCTATGAAATATCCAACATCAATATTTAAATCTGGTTTTTTTTTATAAATATCTCTAGCCAACATTCTGGCTTTATAGTTCATTTCCGGAAGAATAAAATTATTAAAACCAATTAATGGAATTCCAACTAATGCAGAAAAAATTATACCTGGATATATTATTTTTAAAAAACTTATTCCTGAAGATTTAAGAGCAGTTAATTCATTGTCTTCGGAAAATCTGCCATAAGACATTAAAGTAGCAATTAATATTGCCATTGGAGTTGCCAAGGCTAATATCCATCCAAGATTCATAAAAAGATATTCCAAGATAATACTTAATGAAATTCCTTTACCTAAAAATCTATCGACTGCCCTAAGTAAAAAATTGGTAAATAGAAGAAATATGACAATTAATAGAGAATAAAAAAAAGGAGTAAAATGTTCTTTAAGAATATATTTTTTTAATAGTTTCATTAAATATATGAAAGGAAGGGTGAGGGACGGGGCTCGAACCCGCGACGACCGGTACCACAAACCGGGGCTCTACCAACTGAGCTACCCCCACCAATTATTTAAATTCATCTTTTATAATTTTAAATAGTATTATTCTATTTAAAAAGATTTTAATTGTCAAATAAATCTATATCATGAGAGTCAAGATGCCATTCTCGATTATTATTGTCTAAAACTTTTAGTTTCACAGGTTGTTCTTGAATTTCAATTAATTCGACAATTTCACCTTCTGATAATTGCCAACCCCATGACGATCGTTTATCTCTTACAAGCTTTAATTTACTTCCAATATTTAAATCATGAATTCTTATTTTATTTGACATATTCTCAAAAATTAGATTTTAATTACACATAAATTTAACAATGTTTGAAAAAAATGAATAGAAGAAAGGATAATTATTTGAATGCACAATTAATAGTATGATCATTAATCAATCCAGCTGCTTGCATAAACGAATATGTAATCGTTGATCCAAAAAATTGAAAACCTCTTTTTTTTAAGTCTTTTGAAATTGATTCAGAAAGCTTAGACTCACATGGAATTTCTAAAGAATTTCCCCATTTATTTATGATAGGGAAATTATCTGTAAAATTCCATATGTAATTACTGAAAGAATCAAATTCATTTTGTATTTCAAGAAATTTATTTGCATTATTAATTGAGCTTTTAATTTTTAATCTATTGCGTATAATCATAGAATTTTTTAATAGTTGGTTAATTTTTTTTTCATTAAATACAGCTACTTTTCTTGGATTAAAATTGTCAAAAGCAATTTTAAAAGCTTTTCTCTTTTTAAGAATTATATACCAATTTAATCCTGCTTGAAACATTTCTAAAACCATTAATTCAAAAAGTTTATGGTCATCTTTGATTGGTTTTCCCCACTCAGTATCATGGTATTCTAAATAAATAGGTTTGGATAATGGTACCCAATCACATCTATTAGGAATTTTCAAATTCGATTTTGACATTAATTTAGATTCCAATAATTAAATTAATTGAATAGATAGTTTTTTCTATTGATTCTTCTATTCCAGAAGGTGTATATCTATCACTTGTAAATAATTTTGAATGAGTATGATTTGTTGAAAAATTAATTATTAATTCATCTTTAAAGTTTAATGAAAATCCACCTGAGATTATATTTTGGTCTTTTGAATTGTCAAATTTATAATACGATGGTATATGAGAATGTCCCAAAATAAAACTTGTGTTAAAATTATTAAATTTGGTTGAATATGATAATCCTAAATTAAGTTGTAATGTAGATTTGTAATCATTACTTAGTGTAAGATTTTCTTCAATAAAATATTCTTCTGAGTTAGAGTCACTATTTAATCTAATGTTTGACCAGTTTTGCAATTTAAAAGAAGTTGAAAGTAATAAAGATTTTATCCGAAAAGATATTCCATAATCTAAATTATAAGGTGCTATTACTTTATAATCATAATTACCTATTAATGTTGTATCTGATAATGAATTATCATCAAAAGTCAAATTTTCTTTTAAGAGATGTTTTTCATTTACATTATATGTGAAAGGCAGATTAATGTTAAATCCTGTATTTAGATTTGAAGTTATTTCCGTTAACAACCCAATTGTGATTCTATTTCCTTTAGCTCTTAATTGTAGTGATTGGTCAAGTGAATATGATAAAAAGTCAGAAGGGAAAATGTTAAAATTATCACTTTGATCATTTTGATCGAATCTAAATGTATAATTTTCTTGATTGTTTATTGAATTGATTGATATTCCAAATGATGTTTTTTCTGATATTAAAATTCCAAAGCCAAAAGAGATTTGACTTATTTTACCAGATGATGAAATTTTTTCTTCTCTAAAAACATTTTCATTAAAAAAATAATCTATTTCATTATTATCAACTGTTATTGGAAAGAAAAGATTATTGTTCATACTGCTAAAACCAGAAAAATTTGAATTGTAATTATAATCTCCTATATTATTTAAACCAAATGCAAATACTAAACTTCCTCTGGTTGTAGGTACAGAGTATGTTCCTCCTAAACTATTTAAATAATTATCAATTATTGAGGTGTTAAATGAATTATTTAAAAAATTTATATTGTTCGTAAAGTAATTATTATTGAATTCAATGTTTAATGTTGATTTTTCGATTGAGGATAATCCAGCAGGGTTCCAGTAAATTCCAGAATAATCATTACTTAATGCAGAATATGCACCTCCAAGTCCTACTGCATAGGTACCAAAACCTTTTTCCTTTTCAAAAAGCCTTATAGCATCTGAAGAAGTTTGTGCTTGAAGTTGAAAAAAAATTATACAATAGGAATAATATAATATTTTAGAAACTTTAGTAATTATACTAGAGGAATTAGAAAAAATACAATTATCTTCTTCTGCTAGCACGTTTTGGTGAGGAATTTGATGAACTGGAAGAAGAAGATTTTACATTTCTTCTAGGTGAAGTGTAAGAACTTCTCGAGATTGGGTAGTTATCCCTAGTTCTAGTAATATTAGGTCTTTTATTTGTGTTTTTGGAATCTATATTTCCAAAAGTTTCATTATTTTTTTGTTTCTTTTTTTCTCGTTTGACTTTTGTCATTGAAGTTGGAGAAAAACGGATAGTTTGAAGATTTGACGATTCATTATTATTGAAAGAAGATTTAAAACGTTTATCCCAGTTTCTTGATCTAAAGTCATCGCTTGAAGTATAAACTGGTTTGATGCTATACATAGTTGAGGGATAAAACGTATTTTTATATCCTAAACCATAAGGAGAGTAGAAACTAGATCCATGTCCCAAGTAAAAACTATTTCGTTCCCAATAAGGATAATGTAAAGGTTGTCTAAAACCAAAAAAATCTGTTCTATTTCTGTTGAATCTATTGTAATCGTAAGAAAAAAGTGAATTATCATAAATTATATCACTTTTATAATCTAAATAGTCATCTTCATTGTAGAAATTTGAATTAATATTTGTAGTCTCATTTGGTGTATGAAACCATTTTAATTGTGTATAACACCCTTGAAAAAACAATAAAGCGATACTTAAAACAAATGTACTAAGAATTCTTTTCATTTGGTAAATTTTAAGTAGAAAAATATTATTATTCAAGTCTTTATCGGAAATTAAATTTGAAATTTCAATTTATATACTTTTTGCTTTTTATTTTTTCAAACCCACTTTTTTGTCAATTTGAAAGAAGAGAAATGAAAGCTATTCAGATTAATAATGATATAATTAAATTAGATGGTTTATTAAATGATAGTGAATGGAAAAATGCTATTTTTTCAAAAGGATTTTTTCAAAAAAATCCAAATAATGGAGAGCCATCAACTGAAAAAACTGAAGTAGGTGTTATTTACGATGACAAAAATATTTACATTGGTGTAAAGTGTTTTTATAAAGATATAAATAATATTTATGCTCATCAAAAGAAAAGAGATGCTCCTCTTTTTTCTGATGATCTTTTTTTGATTATAATTGATACTTATCGTGATGGTAGAACAGGTTATATGTTTGAAACAAATGCAAATGGTTTGTTGGGAGATGGTTTGTTAGGTGCAGGTGGAACTTGGAATATAGAAAAATCATGGGATGGTATTTGGGATGTTAAAACCAGTATAGATGAAAAAGGTTGGTATGCTGAATTCCAAATTCCTTTATCTACGATTAATTATGATATTCAAAATGATAAATGGGGAATAAACTTTGCAAGAAAAATTACATACCTTAATGAATGGACTACTTGGCAAAAATTAAATAATAATCAAATGACTTTTCAGTCAAGATTTGCAGGAATTCTTAATGGATTATCGAATTTAAGGAAAAATAATGTTTACGAAATAAAACCCTATGTTAATTATAAAGTTTTATCATCTGAAGAAACAAATAAAGAATCAATTAGTGATTTTGGTTTTGATTTTACTACAAATATTATATCTGGAGTGAAAGGTTCTTTAACATATAACACCGATTTCGCAGAAGCTGAAGTTGACCAGAGAAAAGTGAATATTACCCGTTTTCCTTTAAGGTTTCCTGAAAAAAGAAGTTTTTTCTTGGAAGGTTCATCAGTTTATACTTTTGCAAATAGAAATAATCAATTTCCTTTTTTTAGTAGAAGTATTGGTCTGTCTGATGGAGTGCAAATTCCTATTGAATTTGGAGGGAGAATCTCAGGACAAATAAATAATAATGAAATTGGCATTATAACAGCTAAAACAGGATCAACGAATGAGACACCTAGAGAAGATTTTATAGTGGCAAGATTAAAAAAACCTATATTTGAAGAATCATATTTTGGTTTAATTCATACTTCCAGAAGAGCTCATACTGATAGTATTTATAAAGATCAAAAATTGATTGGGTTTGATTTACAACTTTTTACTTCAAAATTTAAAAATAATAAAAACTTTTCCGTTGAATCTTTTTTTATTACACATGATAATCTAAAAGGTGATAATAACTCATCATTCTTTGATTTGTCTTCAAGAGGACTTAGAATTTCTTATCCAAATGATATTTGGAGATTTAGCGCTTCATATCGAGAGTTTGGCAAAGATTACGATCCTTCTGTTGGGTTTATTACAAGAAATGGAATTAAGAGAATTAATCCTCAAATTAAATTTAGGCCAAGACCAAATTCACAAATAATTCGTCAAGGTGGAACGGGTTTATGGTATGAATATTTGGTAAATGATCAAAATCTTTTTTTAAGAGAAAAGTACAGATTTACTCTTTTGGAGATGGATTTTGAAACTGGGGATAAAATAGAAATTCAGTATGAAAACTGGAGAGAATTCTTAGATGAAAGTTTTGAGATTATAGATGGGAATATTATTGATGTTGGAACATATTCAAATGATCAATTTGTAATAAAATTAAATACTGCTGGTCAAAGAAAAATTTCAGCTTGGAATTCATTTTCAAATGGTGGTTTCTGGAATGGTAACAAATTGAGTTTATCATCAAAAATTGGTTTTAAATTTTTTCCAGGTTTTGATTTAGCAACATCTATTGAATATAATTCAATCAAACTAAAAGATGGTGATTTCAATACAAAAGTATTTGCAGCAGAAATTGGTTTGTTTCCAACTATTAAATTGGCACTTTTGACTAATATTCAATATGATGATATATCAGAAATTTTTAGTCTTTATCAAAAAATTAGATACACAATTAAAAACGGAAGTGATCTATATATAGTTTTTAATTATAATCAATTAAGAGTAGATGAAAATTGGGATAGAAGAAGTTTTGTAAATTATTCTAGGGATAATTCGATTAAGATTAATTATGCATACCGGTTTTAATTTTCATTCCAGATGTTTTGATTGTTTTATATGAATCATTATCACGTAAAATAATTAAAGCTTCAACATCATCTATAGATTCAATTAATTTTATACCCTCATCAATTTCTAAAATCATTAATGATGTAGATAATGCATCTGCATCAATACATTTTGGTGAAAGAACTGTCACTGAAGCAACATTATTAATTGAAGGATAACCAGTCCTAGGATCTAAAGTATGAGAATAAATTTTTTCATTAATCATACTATATTGACGATAATCACCTGAAGTAGCCATTGAACGATTTTCCAATTCAATTATAAAATCGTAGTTAGTTTGAGTTTGAGGATCTAGAGAAGGCGTTTCAATGCCATAACTCCAAGTTTTTCCAAATTGATTCTTACCTATTGCACGGATTTCTCCTCCAAGTTCAACCATGAGGTCTTTAATTTTGTATTTTTTTAAAAATTCAAATACTACATCAACTCCATATCCTTTTGCAATTGCATTAACATCTATCGCAATTTTATGATTTTGTTTAATAAGTATATTATTATCAACAAAGATATTATCTGATCCAATGAAATCTAGTTTATCTTTTATTAAATATTCTGCAGGAATTTTTGTTATTTTTCCCTGACTAAAAGGACCAAAACCCCAAATAGATAATAAAGGGAAAATTGTAATATCAAATGCGCCTGATGTCTTTTTTGTCCAATATTTTGATTTATTGATTACATGTTCAAATTCATTTGAGATTTTAAAGTTGTCTTTTGATTTATTGAAAAGTGAAATTTCACTCTTTGGGTCGTATGTTGACATTTGAGAGTTCAAATTTTGAAAAATTGAATCAATTGATGATTTTGAAATAGATTTATTTAAAATATTATTGAACTTAATTTGATAATTTGTTCCCATAGCTTGGCCATTTATAATTTGGTAATTTTTTTTTGAATTACAACTTATATTTAATAGTGCTAGAATAATCATTAATAGAATGTTTTTCATAAGGAAAATTTAATATGGAAGATTTAAAAAGAAGAGATTTTATAAAAAAATCAATTAAGTTAATTGGAAGTGTAACATTTTTAAATTCTACAGGATGGACTTTTGCAGATAAAAATCGTTTTTCTTTATCTTTGGCTCAATGGTCACTTCATAGATCACTTATGTCAGGTAAACTTGATAATCTGGATTTTGTAAAAATTTCTAAAGAAAAGTTTGATATTAATGCGGTGGAGTATGTGAATACATTTTTTTTCAAAAAAGCAAAAAACAAATCATATTTGCAAGAGATGAAAAATCGTTCTAATGATTTTGGAGTAAAGAATTTATTAATCATGTGTGATAATGAAGGTAAGATTGGAGATTCTAATACCAAAAAAAGAAAAAAAGCAATTGAAAATCATTTTAAATGGGTTGAAGCGGCAAATTTTTTAGGTTGTAATACAATTAGAGTAAATGCATCAAGTGAGGGTAGTTGGGATGAGCAAAAGAAATTAGTTGTTGATGGATTAAGTAAATTAGTTGAATTTGCAAAAGATTTTGCAATCAATGTAGTAGTTGAAAATCATGGTGGTTTATCAAGCAATGGGAAATGGTTAAGTGAAGTAATCTCAAATGTTGAAGATGATTTTTGTGGCACTTTACCTGATTTTGGAAATTTTAAAATTCAGACTGATGAAAATAATGAAGAAATCATTTATGATAGATATAAAGGTTTAAAAGAATTAATTCCTTATGCAAAAGCTGTAAGTGCTAAGAGTTATGATTTTGATGAAAATGGAGATGAAACAACTATTGATTTTTATAACATGATTGAAATTGTTAAAAGTTCTGAATACAAAGGTTATATTGGAATTGAATATGAGGGAAATAGATTATCAGAATATGATGGGATTTTAGCAACAAAAAAGTTACTTGAAAAATTAATATAATCATTTATATCCATCCCAAAATTTTATATAGCAATAAAGCAAAATATTCATAAATGATTTGAGAACTTATAAATAGATTTTCTACGTTCGGGAAAAAGATAAAAGGATCAACCTTACTATTTTTTTTTGGAATTCGAAAAATTTGTGAATTATACGGAAAAACTTTATAATTAAGTTTTTCAAAGACTTTAGTAGATCTTTTCATATGTATATTTGATGTAACAAGTACAATACTTTTAATTTTGTGTTCATCCATAATTTTTTTTGAATAAAGAGCATTTTCTCGTGTGTTTCTAGATTTATTTTCAGACAAAACGCTGTTTTTATTAACACCGAATTCAATTAAAAAATCTGTCATTCTATCAGATTCTTTTTGATTTTCTTCAAAAATATTTCCACTTCCACCGGTCATTAAGATATAAGAAGCAATATTTTGATTATATAGTCTTATACCTGAAATAGATCTTGAAGGTTCACCACCTAAAACTACAATAGCATCAATTTGATCATATTGAGATACTGGATAGGAGTTTATGTGTATTGATTTAAACAAAATTCTTTGTATTGGAGTAATACTGGGTAAATAAATAATTAAAAGACCAATAATAAAGAAGGATTTAAAAAGTTTAAAATTTTTATTCTTATAAAAAATGAAAGAGGAGCTTATAAGTAAAATACCCATTGTAAGAGGATAAATTAACCAAACGAAAATTTTTGATAAAAAATGGTAAATTACCAAACTCCAATAAATGGTTTAAAAATTACCAAAAAAAGAATAAATAACATTATTAAGAAAGGAAATTCATTCATTATTCTAAAATATTTGGACGATTTATTGTTTGAGTTATTTTCAAAATCTTTTAAGTGAAACCCTAACCTCACATGCCATATAGTAATAAGAAAAACAAAAAATATTTTTATAATGATCCAAACATATATACCTAAAACATAAGCTAAATATAATCCACTTATCCAAACTAAAATCATAGATGGGTTTGCTATAAAATTATATAGCCGTTTTTCCATTATTTTAAATGTATTAGTAATTTCAGGTTTATTAATATTTTCAATATGATAAATAAATAATCTGGGTAAATATGCTAGTGCTGCCATCCAGGCAACCATAAACCATATATGAACAATTTTTACCCAATTATAGGTATTGGTTATATTTATTTCCATTTTGCGTTAGGTGGCATTGACATAAGAATAGCATCTGTATTTCCACCGGTTTCTAAACCAAATTTTGTTCCTCTATCATACAGTAAGTTAAACTCAACATATCTTCCTCTTTTGAGTAATTGAATTTCTTTTTGATCATTAGTCCAATTTATATCTTTATATTTTATTATTAAATCGTTTACATAGGTACTAAAGAATTTTCCAATATCAATTACATAGTTAAAATCTTTTGTAAAGTCACCTGTATTTAAGTGATCAAAAAAAATTCCTCCTATACCTCTAGTTTCATTTCTATGTTTTAAAAAAAAATATTCATCACACCACTTTTTATGAGATGGATAATAATTAGAATCATGTTTATCACATATTGATTTTAATTTTTTGTGAAATTTTTTTTTTTCTTTATCAAATTGATTAGATGGAGTAATATCCATACCGCCACCAAACCATGATTCTTCAGTATTAAGGAACCTTGAATTAAAATGTATTGAAGGTAACAAAGGAGAATTAGGATGTAAAACCACACTTATACCAGTTGCCCAATAGTTTGGATTTGTTTTGGTGCCTGGTATTTTAGAACGCATATTTTCAGAAAACCTACCAGAAACAGTTGAAATATTAACACCACCTTTTTCAATTACATTTCCAGTTATTTTCCCCATTGTTCCACCCCCAGATCCAGAATGGAGCCAATCAGTGAACATAAATTTTGATTTATCAATTAATTGAATTTGCTCTATAAGCATGTTTCTTAATTCAAGAAACCAATTTTCAACCTGTTTTTGTTTATTGGTTAAGTGATTTACCATTTTTCAATATTATCCATAATAATTTGTTTTATCATTTTTATATGAGACTCATCATCATTAAGACATTTAATATATTTAAAATTTTCACCACCATTTTCAATAAATAACTCCTTATATTGAATGTTTATTTCTTCAAGTGTCTCTAAACAATCCACGCTGAAACCAGGAGAAATGATATGGATATTTTTTATTCCATCCTTAGCATATTCTACAATTTTTTCATCAAGATATGGTTGCAACCATTTTTCAGGTCCGAATCTCGATTGAAAAGCCATGAGATATTCTGAACTTTTTAAACCTAATCTTTCAACAACTAATCTTGTAGTCTTATGGCAAAAACAAAAATAAGGGTCTCCGCTTTTTAAATATCTTTCAGGCATTCCATGATAGCTAAAAATTAATTTCTCAGGTTTACCATTTTTTTCAAAATTATTAATTATCGATTCCGAAAGTGATTTAATATAAAGTTTATTATCATGGTATCCTGACACAAACCTTACATTTGGCATCCAAATTTGTTTTTTTAAATAATTTGCTACTCCATCAAATGTACTAGCTGTGGTGGGTGAACCAGATTGAGGATATAAAGGAAATACAAGAATTTTTGAAATATTTTTTTCTTTAAACTCATTCATTGCTTTTTTTATAGAGGGGTTACCATATCTCATGGCTAATTTGATTTCAATATTATTATTATTTGATTCAATTGTCTGTTTTAATTTTTGAGTAATATTTTTTGAATATACCATAAGTGGAGAACCATTTTCAGTCCAAACTTCTTTATAAGCTTCTGCCGATTTTCTTGGTCTAACATTTAAAATAATTCCTTTTAATATTATTAACCATAATATTCTAGGCCAATCAACAACTCGAAAATCAGATAAAAATTCATTTAGATATTTTCTTAAATCTTTGGTTGATGTTGAATCAGGTGTTCCTAAATTTGTTATTAAAATGCCAACTTTTTTTTCATATCCAGAATATGTATTTTCCATTTAATATGATTCCTCAAATTCCTCTCTAATTTTTTCAATAAAATATTTTACATTGTATTCATAAGTGTTTGGTAGAACACCGTGACTTAGACTGCAAATTAAACCTTTTCTGTCTTTTGCGTTTATATTTAGCAATTTATTTTTAAATAGATTAAAATCTTTTTTAAAGTCTTCAAATGGTTTAGTTAAAGAAATTGGATTGAAATTTCCTTGAATAAAACCTCTATTATTTTTTTTTATAGTTTCAAAAAAACCACCTTCTTGTCCATAAACAATACCTGCTAAATTATATTCTTGATTTATATTTTTTTTATTTAGGATTGGATTGTTTTTACAGAAGTATGCTGTTTTTTGTTTAAATGAATTAAAAATGTTATCCTTCATAAACTTAATATATTGTTCAATAAAATAATTTTTTTCTAATTGTTTTGCTGAAGTATCAAATATATATACAATTTCAGCTTTATTTTGTAGTTGATTAGAGATGGAATTCTTTATAATAGGAAAAAGTTTTTCATAAAGAATGTACTCAATCATTTTTTCATTATGTAAATTCTTTATTTGAGGATGTTTGGTTAAACCCATACCATAAGAAAGTAAAGTCCAAGGACCTCCAACAAATCCTACTAAGCTTTTATTTTTTGGAAGTTTTTTTCTTGTCTTGATTAATGCTTCAGATTGAAATTTTAAATCATTTTCAATTTCTTCTAGGGGTTTATTAAGGCCAATTGTTTTTTTTGATAATAAATTTACAAATGTTGGTCCAGGATTATATTTTAAACCTAGTCCAAGCGAATCGAGAGGAAACAATATATCACTAAATAAAATTGCAATATCATAATCAAACTCATTAATTGGACCAATTGCTACATCAGATGCAAGTTCAGAGTTTTTACATAATTCTATAAACGAATATTTTTTTCTCATTTTTTGGTAATGAGAATGATATCGCCCTGCTTGACGCATAAACCAAATTGGAGGAACATTTTGAGTTATATTATTTAAGGCATTTTTAAACTTTTCATTTTTAATCATTTAAAATATCTTTCTTCCAATCTTCGTAAGATAAATAACATGTTAATTTTTTAGAATCAGGAATTATATTTTTAATTTTTTTATAACTATTCCCCATACCACAAGAGTGATTTTTGTTTAAAATTTCAGGATATTGAGATATTGCTTCTCTAAATGCAATGAAACTCATCCAAAAGAAAAATTTTCTTTTCTCAAATCCTAATGGAAATTTTGGATTTGTTAAATTATATGTTTCTATTGTATTCTTAGTATTTTCCTTATCTTTATAGCTTAATTTAAAATATTGATCTTTATCAAAAAAATTGAAGTTTTTATTTATTTTCTCTTCTCCCAAACCATCTGTTGTTCCATGTATCCAATATCCAAGTTTGCTTGCGTGGAACCAAGACTTCATTCCGCTAGTAATAACTATATTTGAATGATCTAATTTAGGTTTTGAATCTAAGGTATTGTATCTTGATATGTAAATATAGCTATTCTTAATTAGTTCAATTTTCTTATTAGAGTTTAATTGTTCTCTATTAAAAATTTTACTTTCAGTTAAATTTTTAGGAAAAATATTATTTTTTGATACTTTCTTTTTATTTTGAATTTTTTCGTTTATAATATTATAAGATTTAATAATTTCGCCGTCATCAGTTCTGCCGTATATTGATTTAATTGTTCTATTATTTTCTTTCCAAACAGATATTCCAAGTTCTAAATTACAACCACCTCCGTACTGACTTAATATTTCTCTCTCTTTGCTAACGTTATTAAAAACACTTTTATTGTTAATTTCATTAAGAATTTTTTTCATCTTATCGTTTTTTTTATTTACTTCAATACCTAAAGCTCCTTGACCTGGAGTAGTGGGAAACATTGATAGAGGTAATACTATAACGTGATAATTATTTAAACAAAAAATTATCTCTTTTTTAATTGATGAGTTTGAAATATCATATTTTAAAAGCCTGTCTATAGCAGCTTTTGCAACAACTAATCCATCACTTTCATCATTAATAAATTTTTTTATTCTTGTATAAATATTACCCCTTAAATTTTTAAATTCAATTCCTTTTAGATTTAAAGGAATAATATTCTTTAAATTATTTTTTAAAGCAAATCTTCTTCTGGGAGATGATGTCATGATTTTGATATTATGATTTATGTTTTTTTTTAAGAACAAAATATCTCTCATGTCTTCTCTAAAAATTGTTGCTGTGATATTTGAATTTTTATTTTCAACTATTGGATAATCTTTCCACGAGTGAATACCTAAGTCAAATTTTCCTGAACTAATTTTTTTTGAAACCTCATTTGTAAATATACCAATATCATTAATATTTGGTTGACTTATATTTAGATTTAAGTTTTTATCCGCTTTAGTTTTAATAAAATCGTAATCAATCTTGAGGTTAGGGTACAAATTCGAGATTGTTTTACCAACAGTCTCTGCTTGAATTTTTGATAATGTACTTTTTCTTGATAAAATTCTTATTTTTTGAAACATTTCTTATTTTTGCGTGTTAGTATATATAAGCTAATAAAATTTAAAATAAAATTTAATATCTTCTTTTATTTTAAACTACAGATTTGTAATTTCGAATCACCAGTCGAAGTGTTTAGGCTTAGGAAGTTTTTAGTTATACTAAATGAAAAATAAAACATATAAATCTATTTTTAAAAATAAAACATCAAAATTTTATAATGAAGGATATCAAAGAAAATTTCTTCCTATAGATCGTTCAAGAGAAACTTTTCCTATAATTGATTCAAACTTAAAAAAAATAAAGATTTGGTGTACTAATGATTATTTAAATATGAGTCATAACCAAGATGTAATTAATGAATCTATTAAAATCTTAGAAAAAGTCGGAACAGGTTCAGGTGGTACAAGAAACATCTCTGGTAATAGTCCTTATCATGAAAATCTTGAAAAAAAAATTGCATCATTTCATAATTTAGAAAAAGCAATTATTTTCTCTTCTGCGTACACAGCTAATCAAACTTCACTTTGGACTTTATGTAAAGCCTTGGATAATGTTTGTGTTTTTTCAGACAAGTTAAATCATGCTTCATTAATTCAAGGAATTAAAAACTCAGGTGCCCAATGTAAAATATTTGATCATAATAATTTAGAAAATCTTGAAATGTTGTTGAAAGAAACTGATAAAGAAATTCCAAAATTAATTGTTTTTGAATCCCTTTATTCAATGAATGGTACAATTGTTGAAGTTAATAAATATGTAGAGTTGGCAAAAAAATATAATGCTATGACATATTTAGATGAAGTACATGCTGTTGGGTTATATGGAGATAAAGGAAGTGGTTTAGCAAATTTTTATAAAGTGAGTGATCAAATAGATTTAATTAATGGTACTTTTGCTAAAGGTTTTGGTCAAATAGGAGGATACGTTGTTGGTAAATCTTATTTGATAGATTATTTAAAAACTTTTGCACCTGGTTTTATTTTTACCACTTCAATAATGCCTTCAACTGCTGGTGCCATAAGTAAAAGTATATCAATAGTTGAACAAGAAAATGAAAAAAGAAAATATATTCAAGAAATGTCAAATTATTTAAAAAATTTACTTAGAATTAATAAAATTTCATTTATTGAAAATAATAGTCATATCATTCCAATTATGATATATGATGCAATGCTTGTAAAAAAATATTCAAAAATTCTTTTAAATAAGTATGGATTATATATTCAACCTGTTTTTTATCCAACTGTTGAAAAAAATAAAGCTCGTTTAAGATTAACGATTACCCCAAAACATAATATTGAAGATATTCATGAATTGATTTATGCTCTTAAAGAAATTATTTCCCCAAAAGACAATTTGATTTCAATAAGAAAACAATTCGACTACAGTATTTGATTAAAAAGCGTTTTTTTTAATGAAAAATTCATCTATTAGCATTTCATTTCCCAGAACTAGAATGAGAAGAACTAGAATGAGAAAATTTTCTTTAGATTTGGTTCAGGAGACAAGATTATCTACATCTGATTTGATTTATCCATTATTTGTGATTGAAGGTCATAACAAAAAAGAGGAAATCAAATCAATGCCAAATATTTTTAGAAAATCTAGTGATTTATTATTAAAAGATGTTGAAAATTGTATTCAATTAGGAATAAAAGCTATTGCTATTTTCCCCTATATTTCAAAAAAACTTAAAGATGATAGTGGTTCTGAGTCTATTAATCCTGATAATTTAATATGTAATACTGTAAGAAAAATAAAAAAAGAATTTCCAGATATTGGAATTATATGTGATGTGGCTCTAGACCCCTATACAACTCATGGGCATGATGGACTTATAATAAACGAACAAGTTGATAATGATAAAACGATTGATCTATTAGAAAAACAATCATTAAATCAAGCTATATCGGGATGTGATATTATTGCACCATCAGATATGATGGATGGAAGAGTTGGAAAAATTAGAGATTTCTTGGATAAAAATAATTATATAAATGTTCAGATAATGTCATATGCTGCAAAATTTTCATCTTCTTTTTATTATCCATTTAGAGAAGCAATTGGTTCAAATTATATAGGTGATAAAATTGACAAATCATCATATCAAATCAATCCTGGCAATAGTAATGAATCGATTCGAGGGGTTTCTATGGATATTTCTGAAGGGGCTGATATGATAATTGTGAAGCCTGGAATGAATTATTTAGATATAATTTACAGAATAAAGAATACTTATGAATTTCCTACTTTTGCATATCAAGTTTCAGGTGAATATGCTATGTTGGAGCATGCATTTCAAAAAAAAATATTAAAAAAATCAAAAACATTAATTGAAACTTTATTATGTTTTAAAAGAGCAGGAGCAGATGGAATATTGACTTATTTTGCTTGTGAAGCAGCTAAAGAGATTATCAAATTAAAATAAATTAACTTTCATCTTCTTCTTCAGGATTATATAATCCGTCTTTATAGTCATTATGAATTTGGTTGATAGTTTTTAGGCTTTGAAAAAAAACAAAAATTGCTCCTACCAAAAAACCAAACATAAATATCATAATATTTAAACCCATAATTAGCTACTTTCATTTTCAATTTTTTTTATAGACATACCTGTTAAATAATACATCCAAATTGTTATTATAAACAATCCCCCTAATTCTCTTACAACTTCAACATTTTGATTTTTCATTTGGAATGTACCAAAAACACTAATCCATTCAATATTCAACGGTTCTTTTAAAATTAATAGAATTGAAAATAAACTTAAGCTTAAAGCAAAATAGCCTGATAAATACCATTTATTTATTTTCAGATGAAAAAGTAATGAAAAAAGGAAAGCGAAAAAATAAATTGTTATCCATATAAATGAATCTGGATCATTAAATTGAAGTAATCCACCAACAATAAAAATAAAACAAAAAATAATATTTAAGTTTTTAATCATAGTATAATTAATCATTTATAATTTTTTTTATTAGATGAAAAACTTCTGTTGAATCAATTTCAATTTTATTTTGTTGTAAATTTGAATTGCTAATGAAGATTGGAAAATCATCTATGTTTTCAGGAATTCTACCATGAGAACCCTTAATTAAATTAGCATTTAATGGTATGAAATCCATTAGAGTTCTAAATCCTAGCTTTTTCATAATTAATTTTAATATTACTCTTAATTTAATTAGTCTTTTTTGTGGGTCAAGATACATTTCAACAGGATCATAACCTGGTTTTTTATGGATATCAACTGTTCGGGCAAAGTCAGGAGCCTTTTTGTCATCATTCCAATAATAATAGGTAAACCAAGAATTTTTATCTGCTATTACAACTAAATCTCCACATCTTTCATGGTTTAAATCATAATCTTTAATTTTATCTCCAGATAATACTTTTTCGATTCCTGTTTGTTTATTAATTAGAATTTCAATTTTATTTTTAATTGATTTATCATTTAAATAAATATGACATATTTGATGGTCAGGAACTGAAAAAGCTCTACTTGAACCATGGTCTAATAGTTCAAGACCTTGTTCTAATCTTACATTTAAATAACCTTCATTTCTTAGAATTTTATTTAAATGAATTGGGTTATCTACATTTGTAATTCCATATTCTGATAAAAGGATAATTTGAGAATTTTTTTTATTATAATATTTTACAAGGTTTTCAACAACCCGGTCAATTTCAGTCAAATCCTTAGAAATTTTTGATATATCTTGACCAAATCTTTGAAGATTATAATCCAAATGGGGTAAGTAAATTAAGGATAATGTAGGATTATATAATTTATCTGTTAAAATAGAGGCATCCGCTATCCATTTACTTGATTTGATCGAAGTCTTAGGTCCCCAAAAATTAAAAAGTGGAAAAGTACCTAATTCATTTTGAATTTTATCTCTTAATTTTGCAGGAAATGAATATATATCTGGAATTTTTCTACCATCAGCTAGGTAATTTGGTCTTGGTGTTAAACTAAAATCAACAGAAGAATACATATTGTACCACCAAAACATATTTGAACAGGTAAAATCACTATTTTCTTTTTTTAAAACATCCCATAATTTTTTTGACTGAACTAATTTGTTAGATTGTTTCCAAAACTTTATTTCGCATTCATCTTTGGAATACCACCCATTTCCAACAATTCCATGAACATTTGGTTTTTCCCCTGTTAAATAATTTGATTGGGCTGTACATGTTACTGCTGGAAAACTTGGTTTAATTCGAATGATATTTTTTTTTTCAGAAAAGGATTTGATAAATGGTGTATTTTCATTTATCAAGTTCTTAGTTAAACCAACAATATTAATAACAACAGTTTTACGCATTTAATAACTTGTTTTGAAACCACTCAATTTCTCGAATTATAGAACTAGCTATTTCAGTTTTGAGAGATGAAGGTAAAACTTCCCATGTATAAGTTTCAATTTCTAGGTGTTCACATAAAGTTTTGTCAATATTTATATAATCAATTACTTTAAGAATATGGTCTTGAGTAGAATATAAATAATCAAATTTTTCTAAAAAAATAGGTACATGAAAATGCGCTCGGAGTTCTTTAAAAGATTTTTGATTTGAAAATAATTCAGGTAAATCTTTAAATGTTTTTACTTTATCATTTTTAAACTCAGTCACTTGATGTAAATAAATAGGCTCATCAAACTTTTTGAGAGAATTCCAAATTATACTTTCATTATTTTTGTTAAAAATAATTTTAAGTGCAGAACTGACTTGAATTTTACCAACTTTAATTTGATATGTCTTGAATTTATTAAAAGTGTGTATAGGATCTTCATAAGCCAAAGAAAAATGACAAATATCATAACAAATAGTTAAATATTTTTGTATACACTCTTTAGCTTTTTTTTCATTTAGTTTAAGTTTTGATTTAATTTTTTTTATACCAATTGGATAAAGAAAGTTTTGAAAAAAATTAATAACATCGTCAGAATTTTCAAGTAGTCCATTAGGTTCTGGTTCAATATCTAAATGTAAATATTTTCTAGTTTTTTTTTCGATTTGATAAAGATAAATGACAATTTCTAACATATTTTCAGCTCCTTTTATAAGAGCTTTATTTTTATCATCGTTATTTTTAAACCATAATTTGTAACTAATTGGTGATGAAGAAATTCCACCATTAATTTTTTTAGGTAACAAATATGCTAATTGATCAAATAATCTTTTGGTATAATCAATTCTTTTTTGACTAGTCCAGTCTGGTTCATGTACCAAATCTTTAACTTTTTTTCCGTGAAAATCTCCATATGGAAATCCATTCATAGTAAAAACATAAATATTTTCTTGATCTAACCAATTTTTAAAATCAATAAGATTGTTCCTAAAATTAAGTTCTTTACTTGCAAGGTTTGATAAACGTAGTCCTAATCCAAAACTTTTATTTGGACTGACTTGTTTTTTTATTTTTGGAACATATTTTTTGATGTTTTCAAAATGAGATTTCCAATCTTCTCCTGAGTGAATATTAGAACAATAAGTAAGATGAAAATTTTTGGATAATAGCATTTACAAATTATAATTTATCTTTTAGAAAGTTTATTAATTGCATTTCGCATAATTTTTAGATCAATATTATTAACATCTATTTTACTTCCAATATTTTTAATTAAAGTAATAGTAAGTTTACCACCTAAATGTTCTCTAAATTCTTGGATCCCACTTAATAATTTTTCCATTTCATTGTTTGTTTGAATTGGAATTTTAATGTCAAAACCTATTTCTTCTAAAACATTTAAGATCCTGAATAAATTTTTGTCAGATAGTAGTCCAATCATATTTGAATAAGTTACATCTAATGCCATTCCCATTGCAACTGCTTCTCCGTGACGTAAATTATAATTTGTTAAAAACTCTAATTTATGTGCTGCCCAATGACCAAAATCTAGAGGTCTAGATGAACCATTTTCAAACGGATCACCACCATTAGTTATATGATCCATATGAATTTCAGCGCATTTATAAATTAAGAATGAAATTTTTTCATAATTTCTTTCTGAAAGTATTTTTGAATTTTTTTCAATATAGTCAAAAAAAGTAGAATCTTTAATCAATGCAACTTTTATAGCTTCAGCAATTCCAGATATCCAATCTCGCTGATCAAGTGTTTTTAAAAAATTTAAATCGTTAATTATCGCATAGGGTGGCGAAAAAGTTCCTAAGAAATTTTTCTTACCGAATTCATTAATACTATTTTTCACACCAACAGCTGCATCATTTTGAGCGAGAACCGTTGTAGGAATTCGAATTAATTTAACACCTCTGTGGGCAATAGTTGATGCATACCCTGCCATATCAATTATAGCACCTCCTCCAATTACAATTATAAATGAATGTCTACATATATTATAATCATTTATCGATTTGAGAATTTTCTGGAAACTTTCTTTGTTATTTTTTTCAATTTCACCTCCCTTGAATATTAAAATTTTTTTTAATTCAATTTTAGTTGAAAATTTTAAACAGTAATCTGCAATTTTCTTCTTGATATTAGGATGTGAATTGTATACTCCATCATCAATTATAAATAGAGTTTTTATAATATTTTTTTCATCGAAACTATTTAGCACATCAAAAAGAAGTGAATTTTTTAAAGAAAATAAGTTTTCAGTAAAATAAAGTGTATAGTCATATTTAACACTAAATGAACGAGAAATTTTTGATAAGGATTTCATTTTTGAATTATGTTACATTAAATATTTTTGAAATATATATCGATAAAGGTAATAATAATAATATAAGAATTCCAATATGCCAACTAGAGTGTGCTATTGCTATTGAACTATTTAAAATAATTATACTTAAAACACCTGATTTAACAGCCTGTTTAATATTTTTTGGAGAATTTAGTTTGAATGCTTTTATTAAAGGTTTAAAAATCATAAATGAAAAAAAAATTAAGAATATTGAAGATAAAATAATCGATTTAAAATTAGTAAAGTGTAAAAAATTTACAAGTAAAATTACTGTTAAATATAAAAAAGCTGAAACAATTAAATTTCTTTTATTATTTCCATAAACTTCCCCTCTACTGATTAGGGTTAATGCAAAAATAAATATTATTGGTATTATAGTATATTCAAAATTTTTTAGTTCACCTAAAATCGAAATTCCAAGTAATAGGTTTAATGCTCTACAAATACCCATATTTAAAGGACCGAAAAAAATATTTTTTTTAAGAAATTTATTATATGAAAAAATTGATGTAAATAAAGTTATTGCAATAATACCAGAAAGTTTGTTTGCTAAAAAAGCTGTTATAATTCCAATTGCTAATAAAATTCCAGCAAAAAATAGTGCATTTTTATATGAAATTTTGCCACTTGGAATTGGCCTCTCAGGTCTTTCTTTTAAATCAATCTTGGAATCAAAAACATCATTTAATGTTATACCTCCAGCATATAATAATATAGATGAAAATATTAAAAATAATTGACTAGGATTAAAAAAAAAAAAATTATTAAAAATTCCTGCTAGAGACATACCAGCTATAACATCAGATGCAGCTGTAGGTAAATTAGCTGGTCGACATAATTGTAAATAAGGATTTATTGAAGAATTATATTTAAATAATTTTATCGATTTCAACTTTGGGTTTTTGCCCTCGTAAAACACTGTTATCATTAAACAGTTTTGTTTGGTCAATTCCAGAAATATTTTTCCAATGGTCTTCTTTCATTTTACCAGATTTTCCAAATACTTCAAGTGCGTTTTCATAACATGTTTTTTTAACATCTTTTTCTGAAATTCCTTTTTGTAGCATAAGAGAGGCAGTTTTTGGTACTGCTAATGGGTCACTTACACCCCAGTCAGCAGAGCTATCAACTATTATATTGTTACTACCGTATTTTTTAACTATTTCTGTCATCCTCTCATTTCCCATCTTTGAGTGGGGGTAAATAGAAAATGCAGCAATAAAACCTTTATCTAAAACATCTTTAACTGTTTCTTCATTATTATGGTCAATTACTACTCTTGAAGGATCTAGTTTGTGTTCTAAACAAATATCCATACTTTTGATTGTTCCTGATTTTTTATCTCTATGGGGAGTGTGAATTTGAATTAACATTTCAAATTCAATTGCAAGTTCTAATTGTTTTCGAAAATATTTTTCTTCAGATTTCGTTTGATCATCGTATCCAATTTCACCTACACCTACTACATTTTCTTTATGTAAGTAAAGTGGTAACAATTCCATTACTTGTTCAGCTAGTTCCTCATTATTTGCTTCTTTAGAATTCAAACCAATTGTACAATAATGTTTTATACCAAATTGACTTGCTCTAAATTGTTCCCATCCAACTAAACTACTAAAATAATCTTGAAATGAACCAACTTGAGTTCTTGGTTGACCTAACCAAAAAGAAGGTTCAATAATTGCAACAATGCCTGCATTTGACATTGCTTCATAATCATTAGTGGTACGAGATGTCATATGTATATGTGGATCAATGAATTGAAATTTTTTACTCAATTTTTAAAATTCTCCCATGTTAGTTTATTTGATAAAATTAAATTTTTTAATTTTGGATATTTATCTAGTTTTTTTTTTGCTAAGTCATTATTTGAATGATAACAACATAGTGCTGCAGCTTTATTTTCTTGAATATTTTTACTCTTGAATAAAACGTTCATATCTTTTAATAATATTTCATTTAAAAATTGAGTAGTCGGTTGCCATATTTCAGGATTTATATCTCGTGATGCAGCCCATCTCTCATGAGCGTAGTCAGAAATAATTCGAGCAAGATCCTTATTAGCTCTTTTTTCAATATTTAAAATATCTTTAATGTTTCTTTCCATAAAAGCAGCTTTCAAATACATTTGATTCCATTCTTCATTTGTAAAATATAAAGAGGGGTATGGATTATTAATGGCAATTGCATCAAAAACCGACGAAATATTTGTTCTAAGGGCATCTACAGCATGAAAATGAAAATCTTTGGGTTCTGGTAAAAAAATTAAAAATTTTAGAAAAGTTTCCATTTCTCTTTTATCTGCAATATGAATTAAATTTTTTACTTTATCTAAAAAAAAATCTCTTTTTTTCTTTAGAACTTTTACCAACATATAAATTCTGGATAATTCTAATAAATTAGCTTTTTGGATATTTATATAACTTAATTCTTCTTTATTATTTTCATAAGTAAAATTCAATTCTTTTATTTTTGTACCACATATGCTGTACATTAAAAATAAATCTTTGGATGATTCATTTTTAATAATGTAATTCAATTTTTCAGAGTACCAATCCCAAATTTTATCTTTTAAATTATTTTTTAAAAGTTTTTTAAGGTGTTTTGATTTAAAATTTTTTGTTTCAATCATAAATAAGTTGATGATAGATATATTAAAAATTCAAAAAAAATTATTCTTTAGAATTTTTTTGCCCGTAATAAGCATTTGGGCCATGTTTTCTTAAATAGTGTTTTTTTTGAATGTAATCAGGTAATTCACCAATATTGGAATTTAGATTCATAGAATCCAAAGCCATTTTAGCAACTCTTTCTAAAATTAATAAATTTTTTACTGAATCTTTTGGGGATTTTCCCCATGAAAATGGAGCGTGTCCAGATAATAGAATTGCAGGATTTTCTAGCGGTTTTAAATTTTTAAATCTTTCAATGATTACTTTCCCAGTATTCCTTTCATAGTGTTCTTCAACTTCTTTTTTTGTTAAGTGTCTAGCAATTGGAATATTACCATTAAAATGATCTGCATGGGTAGTACCTAAACAGGGAATTTCTTTACATGCTTGAGCAAAAATTGTTGCAAATATGCTGTGGCTATGGGCTATACCATTAATATCTTTAAAGTGATTATATAAATAAGCATGTGTAGGACTATCAGATGAAGGGTTTAAAGAACTTTCATTCGATTCATTTTCTAAATTAACTACAACCATATGATCAGGAGTTAGTTCATTATAATTTACTCCACTAGGTTTAATGACCATTTTATTTGATTTTCTATCAACACCGCTTACATTTCCCCATGTTAATGTTACTAGATCATATTTAACTAAATCCATATTAGCATTATAAACATCGTTTTTTAATTTAGAAATGACATCCATTTAGCTTGTGCCTTTAACTTTTCTTTGCATATCTCTAACTTCTAATAAATCCTTCATAATATTAAACATACTCCCAGATGATTCTTTTGTTCCAAAAGAATCATGAAGTTTGCTATAAATTTTGTATAATTTTATATATATATCATGGTTCTCAGCAATTGGATTGTATGTTTTATCTGTTCCAGTCATGTAATCCTGTGCATCAGAAACATTTTTAAACTCACCAGCAGAAATTGCACCAAAAATCGCTGCACCTAAAGCTGGAGTTTGATGACTTTTTGAAACTTTCATCGGAATTCCAGTAACATCAGCATAAATTTGCATTAGAAAAGGACTTTTTATAGCTAAGCCTCCACAGTTGACTATTTCTTTAACTTCAACATCATATTCTTTTATTCTATTTATAATTTTTAAAGCGCCAAAAGCAGTAGCCTCAACCAGTGCTCTAAAAATTTCATGTGGACTAGTATGTAAAGTTTGCCCTACCATTAAACCAGTTAGTCTAACGTCAGTTAATATTGTTCTGTTCCCATTATTCCAATCCAAAGCCATTAACCCTGATTCACCTGGCAATAATTTTTCCGCTTCTTTTTGAAGATTTTCAAATTTTTCATCAAAATCAATATTTCCTTCTTCATCTATTTTTCTTGATCCATATTTTGAAGGTGTTAAATGATTTACGAACCATAAAAATATATCTCCGACTGCAGATTGACCGGCTTCAATACCATAGTGACCTTCCATAACTGAACCATCAACCACACCACAAACACCAGGGATATCATTTAATTTATTTTTATTATTTTGCACCATTATATCACAAGTGCTTGTACCCATAATTTTGACTAAAGTACCTTCTTTAACACCAGCTCCAACTGCTCCCATATGTGCATCAAATGCTCCCACTGCAATAGAAATTCCTTCTTTTAAATTTAGTTTTTTTGACCACTCTAAATTTAGTTTTCCGGCTTCTGTTTCAGATGTGTAAACTTTGTCAAATAAGTTTTGTCTAAGATCAACGAGTTTTGAATCAAGTTGCTCAATAAAACCAATATCAGGAAGACCGTTCCAATCAGTGCTATACATAGCTTTATGACCAGCAGCACAAACACTTCTTTTTATCTTATTTGGGTTTATTTCTCCTGTTAAAACAGCAGGTATATAATCACAAAGTTCAACAAAACTATATGCTTCATCAAAAACAGCAGGGTCAATATTTTTACAATGTAAAATTTTGCTCCAATACCATTCAGAAGAATAAGTTCCACCTATTTTGTCAAGGTATGCAGGTCTAATTTCTTTTGCTAAGAGAGTTATCTGTTCTGCTTCTTTAAAACTTGTATGATCTCTCCATAACCAACACATTGCATTTGGATTATTTTTAAATTTATCCAAAAAGGACAATGGATTACCTTTTTTATCAACTGGAATAGGACTACTTCCGGTAGTATCTACTCCAATACCAACAATATTATACGAATCAAAGGAGGAATCTTTCTTTTTTGCTTTTTGAATTGCTCCCGAAATTGTAGCGGTTATACCATCTAAATAATCCTTAGGGTTTTGTCTTGCTAAATTAGGATCTGAATTATCTAAAATTATACCATTTTCACCACTAGGATATAAAAAAACAGATGAAGCAAGTTCGGTTCCATCACTTATGTCAACAATTAACGCTCTGCAAGAGTTTGTACCATAATCAAGACCAATTGTGTATTTTTTCATTTTATTATTCCTTGATACAATCAATCAATTTTCTTGTAAAAACTTAGTGGTTTCACTATTAAACAACTCAAGATTTTCCCAATGACAGGCATGGCCTGTTTTTGGGATTCTAAGTATTTTACTGTTTGAGATTTTTTCATTTAAAGTTAAAGAAAAAGCTAGTGGAGTAAATATGTCATTTTCACCAACGACTATAAAAGCAGGAATGTTAATTTCATTTAATCTATTTAATGAGTTATGGTTCATGCATGCATTTAATTGACCATCAAACCCATTCTCTGATTGAGGTTTAGGATTATTTCTTGCATCAATTTGACCTTGTTTGAGATCTTGTATATTTTTTCCAAAATAATCTGTAGCAAATATCCATAATTGTATTAATTCCATAAAATCACCTGGATCACAGACTTTTCTTAATTTTATTAAATTTTCATAAACAGAAACTGCATATTGATCAAATTTTCCCCAAGTGCTAATTAATACCATACTTTTTACTTTATTTGGATGATTTAAAGCTAAACTCTGCGCTATTGTTCCTCCCATTGAAATACCAGCAATTCGACAAGATTGAATATTTAATTCGTCCATTAAACCAGCTACATCATTTGCCATCATTTCACTACTATATGGACCTTCTGGTTGATCTGAATTTCCAACTCCTCTATTATCAATCATTATGCATCTAAAATGTTTTGAATATTCGTTCACATGTAATTCCCATAATGATCCCGGGGCTCCAAAACCCATTATAAGAATTAAAGGTTCACCAGTTCCTTTTTCTTCATAGTACATTTTAATTCCATTTGTTTTTATGTATGGCATAATATTCTCCAAATATTAATTGTTAAACTTTAAGTATAATTAAAATCCTCTGGCTGCTAAATTATTTAATCTTTTAGAAATATCACTAATACCATCAATCATCAAGTCATGATATTTTTTACCATTTGTTGTATCAACCCCATGTCCATCTCCAAGATCTCTTAATGGTTTTAATGCTTCATCATTATGTTGAAAAATTTCAACAAGTGCATATTTTAATTTTCCAGTTTTTACACATTCTGATAATAATGTACCTATCCATCCATCATCTGAACTTAAACAGCCCCTGGTAGTTGGAGCAGATGCATGAAAAATTCCTAGTTCATCAGATTTAGCTATTTCGTGAATTATATTAATATTTTCAATCATATTAAGATCGGAGTCCCCACAATGAGATGAATCAATTAAAACTTTAAAAAAAGGGTAACCTATTGATTTATTCATCCCTTTTACTAAATCCCATGATTTTTGAAGGTTTGTAAACGTTTGAAATTCACCTAACCTTAAAAATTCAATATTCCATTCTTTAATTGATGAATTTTTTATATCAGCTTCATTAAAAACTCTAGTATGTAACTTTATATTTTGTGATATTGCTGCTAAATAATCTTTACCTACTTTAGGTTTATCATCTTTTTTCATCCATTCTTCTATTGAAGTTGAAGAGCAAATTTCTATGTTATGTTTTTTTGCGGCATCGACACCTGCTAAAAGCATATCAACTACTTTATCTTCATCTTTAGGGTTCATTGGATCAGCACCTCCAACCATTAAAATAAATAAAACATTTAATTCAAGTTTTTTTAAGTTCTCAACTAATTCTGAAAGATCGTTTTGGTTGAGACCAGGAAAATAAGAAACTTGAACGGTATCTATCTTTATGTGGGAACTTATTTTTAAATGTTTTAATCCATCAACAAGTACTAATTCTCCATTTTCATTTCTAGGTAAATTACCTTGCTCATCAGGCACTGCACCACCAACAAATTTTAAATAAGTAGTTAAAACTCCAATTTTGGTTTTTCCATTAACGTCAATGTAATTTTTGAACATTTATATTTATATAAAGGCTGCTAAGTTTTAGCAGCCTTTTTTTCTTCAACTAAATTAATAGGTTTATATCCTCCTATAGAATTGAAGTAAAATACTAATCCTCCAAAAACTATAAAAAGAATACCTGGAAATACAGTAGCAAACCTTAAAACATCTCTTCCAGCTTGAATGTCAGCAGTTGAGTACATATCATTTAGTTCTGTTTGTTCTTCAGCTGATGCTCCTGATGTGCTGTTTATGTAACTATTTTTTAATTCTGGAATTATAGCATCGTTTTTCATCCATAGGAAAGATTTCTCTTGAGATGCAGCTTCAGCAAATATAGGATCTTTTTCAGTAATTTGAGAATGAATAGAGTTATCAAATGCTACACCTAGAACTTGAGCCCCTATAATACCATTAAACAATAATCCTAAAGCAGAAACTGTGTTTAAAGTTAAAGCACCTCCTTGAGGATACCTCTCAGATGTAAAACCTAATATACAGGGCCAATAAAATGTTTGACCTAAAGCATAAATGATAAAAGCAATTAGAATTGCTAAACCTGATGCAGAAGATAACCAAAAAAGACCTACAGCAGAAAATAAACCACTTACGCATAAAATCGTGACGGGAGTACCAAATTTTAAAATTGTTCCAGCTTGCAATCTAAGAATCATCATGATGCTTGCTGAAAAAATTATTGAAAATATAGGGTCAATTCCAAAACCACTTACAACTGGTGTCATTAATTTTTGAATCCAACTATCAGTACCTAATTCAGCTGTTGCAATTGGCAACATTAGTAAACATAATAAAAAGAAAATTGGTTGACCAAGAGATTTAGTATAAAACCCGAATGCTCCACCCATAACTAGACCTAAAATCATACTAATTGTAAACCAATTTCCGGGAACATTAAAAGATGTGAATAGAGGTAAAACGTTACCTATTTCATAAGTTAGTAGACCACATGCAATTGTAGCAGTTAAAAAACCAACTTGTTTTAACATATCCATAAATGGCACACCTGCTTGAACTCTCTCATCAACAGGAAAAACACTTTTTAAAAGCATAAATCCATAAATGACAGCTGGAACTGCAATCCAAAGAGAATGTATATTCCAACCAACAAAAATTCCTTTTGTTAGAAATATCATTAAACTACCACTTATTAGTCCTGCAGGCCATGCAGCATGAAGAATTGCTAACCATTTAGTTTTTTCTTTTGGATAGATTGCTGCACAAACAGGGTTTATAACAGCTTCAACTATTCCATGACCAAGTCCCATAAAAACAGCAAAAAGATATAGCATGCCAAATGAGTTAGCAAAAAATGTTCCTAATCCTCCAACTATTTGTAATGCAGCTGCTGCAAACATTGGTGCTTTATAACCAGTTTTATCTACTACAAGACTAAAACCAATCATAGTAATTGCAACTGGCCAAAATTGTGCTCCAACAATTTGACCAATTTGAAGATTAGTTAAACCAAGCTCAGAGCCATAAACGCCACCCATAGCAATTCTAAATGCTAAAGAAACACCCGCTGCAGCTAAAGAAAGAAAACTTGCCCAAAAAATGGTATTTTTTTCTTTTTCAGATAAATCAGCACCTGTTATTATTTTATTCATATAAACCCCCTATTTTACTCATCTAGTGGTTGTAACCATATATTTGAGTATCTTATTTTTGATAAATCGGATTGAATTCGAATAGGACCTTTTTCAACGATTTTACTCGTTTTCATTTTTGAAGGGTCCCAATCCAATACGATCATTTTTTTTGAAAGTTTTTCGCCAGAAATTAATTTTTTAACATCACTGTCTTTTAAAGATTTATTGTAGAAAGTAAGTTTTCTAATTTCTCCATTAAACACCTCAGCAGGAAATGGATCAGGTAATTCAGAGGCACCCAGTTTAAATACTTTTGATGATTGACCTACTCTAAAAACTAAATCGGAAACAGAATCAACAATATCATTTTCAATCTCATTAATAAACTTTCCATCTATATATAATTTAAGACGTCCGTTTTTTGAAGATAAAATGACATTATGCCAATTATTATCACTTAAATTAAATTCTACATTATCAGGCTCATATAAAAATTTATAGCCATCAAGCCAATTTGATCCAGGAGCACCACCGCCATCTCTATAAACGAGCATATTATCCCACCATAATCTTAAACCTTTTGAACCATCTGTCCATCTTTCATTCATAGGTGCACTACTAAATAAATATCCTCCCTCTGATGTTTTAAATTCAGTTTCAACAGCCCAATTTTTATTATTAAGGTTATATTTTGATGAACCTTCTTTTTCATTTGACATAAATAGTGTGCTAACATTTCTTATGCCATAAGGAGTTTTTCCTACTTTTGGAACTACTTTATCATGAATTTTAACTCCATTTAAATAAACTGTTATTTCAGGCTTTCCTCCTTGGTAATGACGATATTCAATATCAAGAGATTGCCATGTATTAATTTTTTTTGAGGGATTTGATGATGGTGCTATTATGCTAAAAATCGAACCATTACTAATAATGGTTGGATCTTTTTCATAAGAATCTTTTATTTCTATTTCATATTTTCCGTTTAGAAAAATCCCACCAGTCCCTTTAAATTTTTCAGGTACATAATCTGGTTCGTTTGGAATTAGAAAATCTACATGAAGCTTATAATTACCATAATCTTCTCTTGTCATTATACTGCCATAACCTGGTTTTGCTTCTAATGACCCGTCAATAATTTCCCATCTTGCTTCATCATATGGAGGGGAAGGAGAAACAGCTCTGGCATCTGGAAGCATTGCAACTGGTCTGACACTTAAATCCCAATGTCTCCATTTTGATTTATCTTTACCATCAAAGAGAATTACAGCATTTTCAGGTATATTTGTTGATGGAGCTACTGGAATTTGCATTTTCTCAAATTTACCGTTTAAAATTACAGAGTTTTCTATTGCAAGATCTTCCTGTGGTCTATTATGAGGATTATTATTTAAAACACCAAAAGATCCAACATCAAATGGTGATTCGTTTTCATAAAACGATAAATCTCTATTATCAAGAACACCATGTTCAGGAACTTCTCTATCAAGTGCCCAATAAATAGCATTATAGATCATATTTATAAAATCTGGATGTCTAAATTGTTCTAAACCACCTAATGATGTATACATTAATTTTTGACCTTTTTTGTATTCATTTATCCATGTTACTGGTTGAGCTGGGCCATTAACGCCTGTTTTACCCATCATTAAGGGTGTGGCAGTATCATTTAAAGGAGCTGTGATATAAATTCCTGCTCTGTCATTCCAAAACCTAAATTTTGGAACTCCTCTTAAAATTGGATGATCTAATTGATCGCCATCAACTATGGTCGTAGTTCCTTCCTCATTTCCAGCATGCCCTTTATAATGACCTCCGAAAAAAGGTACAAACCAATCTTTTTTATCCATTGGCCACATACCATGACTAGTTGTTCTTAGAGCGATAGCTGGTTTCCCTGAATCAAAATATTCTTGAAGAAGTTCATATTGTTCGGGTGGTGGAATTCTAAAACGAATATGCATTACCAATAAATCTGCATCTCTAATTGCCTCAAGCCCTTTTATTTCATCAAATTCAGGAATAGTTACTTCGCCAGGCATATCATAATCAGTTACTCCTGATCTCCATGAATGTATTACTGTGGCTTTAATATTGAATCTTCTCTCAAGATCATCTGCAATTTTTGGCAATGACCAATGTGCACCATATTCTTCTTCACCAGCCCAAAAAACTACATGAGGCTTATGATCATCGGAATGACCTAATGAAATAAAAAAATAATTAATAATTATTATAGTGATTAGTTTGTGAAAAGAAAATTTTGATTTGTGCATAAAAGTTTTATCCTTAGTAAAATAGTATGTAAATGATTGAATTCTAAATTTAGAAGCCCAGACGACTTTAAAAATTTTCTATGAAAATTTCAAGTAATTAAAATTCAATCTTTTTTTAAATAATTATCTTCTCATTCTTTCAATGAATCTATAATTTTGTAATTCATTGCTATGGGTTGAATGTATTAATCGAAAATTTGATGACCCATTCACATCACAAAAAACAAATATAACACCACCTTCAATACTATGATATCTCCAAATTTCATTTGGTCTTATATCTCCATCATACTGATCTTGCATAATTTCATCTGGTTTTCCATGAGCAATATATACTCTTCCTCTATCAGTTTCATATCCTTTTTTTAGTCCCACAGAGTACTTTTTATTTACGAATCCTACTCTTTTCATAGTTTCAACCCTGGTTTCATTCTCAATTGTTGATGGATCAGAATCAATTAAACTCCAAAACTGTGTAAGAAAATCAACTTTTTCTTCATGGGATATTAATTTTTTATAATTTCTTTTTTCTCTTCCAGTTGCAAAATGTTTGATAATTTTAAATTCCTCATCTAGACTCTCAATCGATTTAATACCTATTTTAGCTTTTAAAAATTCAACATTTGATAATTTTGCAGAATTGGTAGTAGCAACGAAATCACTTACAATATTAAATTTTTTTTGTTTACCTAACATATAAACTCCCATTGAGTCCTCAAAAATAACTTCAAGTAGGTATTCTCCATTTATCAAGTTATTTACAGAAATCATTCCAAAAAGTTGGTTAATATTTTTATTTAAAATTTTATTATAATTTTCAGAAATTATTTTTTTCCCACTAAAATCTTTAACAAATATTTTAATTCCAATATTTGATGATGCTTTTTTATTTAAATTAAATACTTCAAGATAATAGTATAAGTTTTTATTTTCTTTCCCATAGTTTCTACTTGGATTTGGAATAACTTCTATAGAATCTTTAACGAATGATTCAAAACTTTCTTTTGATTTATTTTTAATTAAATATGCAACTTCTATATCACTTACGTAATTGTTTTCTCGTGTAATTGCAATTTCATTAATTTGAGATTTAATATTTATTTTATTTTCAGAGTTATCTTTATCAAAAATATTCGCATTAAAATTTACTGCATCATTATTGATTAATATTTGGAATGCATTTTGGTAAAATTTGTTATTTTTTAATGAGTTGACATCTTCAACGGTATGAGAAATTGAAAAATTCAAATCTTTAATTTTCTTATTTCTTTTATTTAAAATTTCAATATTGACTAGCAGATTTGCTATCCATTTATTATTATGTTCATTATAATTCAATGTTGATTCATCAAAAGAAATATAAATTTCAAGAATATTTTCTTTATTATTTTTTTTAAAGACTGCGTGATCAGCATCAATAATTATTTGTTTTTTTTCAAATCCATAAAGATTTTGATTGATTATTAAGAAAAATAATAGTTTTAAAAAAAAATATTGCATTGATGATAATGAAAAACTAATATTATATGGGCTATGTGATTTCAATTTTAATTGTCAAATCATTTTTTTTACGTTTCACAAAAATTATAATGTAATTATGATGTGGAATATATAAACATTATTTTACATGTAAAAGGAGCTTCAAATGTTTAAAAAAATTTCTTTTTCTTCAATAATGATATTTTTCTTAATAAGTTGTTCAACTAATTCTTCTTCAAGTTATGAAACTCAACAATGGATGGTTTATGAGGGTGGTGAAGGTCCTGGGAAAGGTAAACATGTTGTTTTTATAAGTGGAGATGAAGAATATCGATCTGAAGAAGCATTACCGCAATTAGCGAAAATTTTTTCTAAACATCATGGTTTTAAATCAACAGTTTTGTTTTCAATAAACAAAAAAACAGGTTTAATAGATCCTGAAACATTAAATAATATTCCTGGTTTAGAAGTGTTGGAGTCTGCAGACTTAATGATTATGGCTTTGAGGTTTAGAGAATTACCAGATGACCAAATGAAACATATAATTGATTATACCAATTCAGGAAAGCCAATTATAGGTTTGAGGACTTCAACTCATCCTTTTAATTATGTTAAAGACAAAAAAAGTAAATATTACAAATATACATTTAATCATGAAGAATTTGAGGGAGGTTACGGTAGACAGGTTCTTGGTGAAACTTGGGTAAGTCATCATGGAGCTCATGGTAAAGAAAGCACTAGAGGTTATGTAGCAAAAGGAATGGAGAATCATCCTATTGTTCAAGGAACTGAAGATATATGGGGTCCGACTGATGTTTATGGAATTAATGATCTCACTGGAGATAGTGAGCCATTAATTATGGGTCAAGTATTAACTGGAATGAATCCTTCCGATCCAGATAAGGAATCAATTTCACAAATGCCAATTGCATGGATCAAATCATACACAGGTGAAACTGGTAACAAATCCAAAGTATTTACTTCAACAATGGGCGCTGCAACAGACTTTGAAAGTGAAGGCTTGAGAAGACTTTTAGTTAATGCAGCTTATTGGGGTTTAAATATGGAAAATCAAATACCTGAAAGATCAAATGTTGATATTGTAGGAAAATTTAATCCTACAGATTATGGTTTTGGAACACATGTTAAAAATATCAAGGTTTCATCTCACGCAATGGATTAATTAATGCATATGAGACTATTTTATCTTTTCATTTTTTTTATTTTATTTAATGGTTGTTCAAATTCTGACAATAAAAGTATTAATTCAAATGAAATCAACGTTTTAATTTGGGATGAGCAACAATCTGAACAAAAAGAAGCATATGATAAATTCATAGGTGAGGTGATTGCTGATCATTTAGATAAAAACCCTAAAATTAATACTAAAAGTGTTAGCATTGATGATAGTGAATACGGATTATCAGTTGAGTTATTAGATTGGTCAGACATAATTATATGGTGGGGTCATGTTCGACATGATGACATTCCTGATGAGACAGTAGATGAAATACTTAAAAGATTAATTAATGGTGAGCTTGACTTTATTGCTCTTCATTCAGCACATTGGGCAAAGCCCTTTATGGAAGCAATGAATTACAAAACAATATCAAATATTAAAGATAATAACCCTGAATATTTTGATAATTCTGATTATTCGATAAATTATATAGAGCCATTTGTTGATAGATATGCTCCAGAAAGAAAAGATGTTTTAACTCCCAGAGCGGAACTTAGAAAATTTCCTTCTGGAAAAATAAATGTAAATATATATTTACCTAATAGTTGTTTTCCTGCTTATAGGCCAGATGGAAAAAGTAGTTTTATTCATTCGCTGAAAACTGAACATCCAATTATGAAAGGTATTCCTCAAAAATTTGAGATTGCTTCAACTGAAATGTATGATGAACCATTTCATGTTCCTGAACCAGATGAGGTGGTATTTGATGAAAGATGGGAAACAGGTGAATGGTTTAGAAGTGGGGCAATTTGGAATATAGGTAAGGGACAGTTGTTTTATTTTAGGCCAGGACATGAAACTTATGATGTTTTTGACAATCAAAATGTATTAAAAATAATTGAAAATTCATGTTTTTGGATGTTTGATTCATAGATTTTTTTATATATACCTTTAATTTGCAACTTTCTCTTATGAATTAATGTTATTGTATTAGTTATGCTTTTAAAAAATATATATATAGCCTTTATTATTATTTTATTTAGTTGTAGTCCAAAAAATAACGATATTTCTAAATCATCCCTTTCTTTTAAGAATGTAACTATTTCTTCAGGATTAGGAGATTATAAACATAATAATGGTGCTTTCGGAAAAAAATGGTTTCCTGAGCCAATGGGTCCAGGAGGTGGATTTATAGATTATAATGGTGATGGATGGGATGATTTATTACTTGCGAATCATTCTTCTTGGGAAAATGACAAAGAAAAGAAATTTTCTGCATTAAGACTTTTTGAAAATAATCAAGATGGAACTTTTACAGATAAAACTATTGAAGCAGGTCTAAATGAAATATACACTTATCCACTTGGCATTTGTGCTGCCGATTATGATAATGATGGAGATCAAGACTTTTTTTTGACAACTCTTTATGAAAACATGTTATTTAATAATCATAATTCAAAATTTAATGAGGTTGGGGAAAAATCAAATATAGCAAATCATCGAGCATTAAGCACTTCAGCAATTTTTTTTGATTCTGATAAAGATGGTTGGCTTGATTTATATGTTGGAAATTATACTGAGTGGAGTCCAGATACAGATGTTTGGTGTACTTTTCAAGGTAAAAAAGGTTATTGTACACCTGAGGTTTATGATGGTGTTCCCAGTAGATTTTATAGAAATAACAGAGATGGAACTTTTACAGATCAAACATCAGTAGCGGGTTTTTCACCTGCTCCAGGGAAAACTCTGGGTGTTTCAGAACTTGATTTTAATAAAGATGGATTTCCAGATCTTGCCGTTGCAAATGATCTTGCAAGAGATTTATTATATGAAAACAATAAAGATGGTACATTTAATGAGATTGGAACTATAACTGGTATGGCTTATGACGAAATGGGGAAGGCTAGAGCTGGTATGGGTATAGATGTAGGTGTAGTTGATACTACAGGTGAGCCAACAATATTTGTTGGAAATTTTCAAAATGAAATGTTTAGTGTTTACCAGTATAATCCAGCAGGTTATTTTACAGATATTGCAGCTAAATCCCGACTTGGAAGAGAAAGTTTAAAGGTGCTAACATTTGGAATGTTTTTAGTAGATATAGATTTAGATAGCGATTTAGATTTATTTGCAATTAATGGTCATATCCAAGTAGAAATTGAAAGCGATAATAATGAATTTGAATTTAGACAATTACCGCAACTTTTTTTAAATAACGGAAATGCAGTATTCACACTTTTTGATAGTGATAAAAATAATGCTTTTGATGAGCCAATTGTAGGAAGAGGTGGAGCATTTTCTGATTATGATAAAGATGGTGATATTGATATTTTGTTAACAGAGAATTCTGGGGGAATTCATCTTTGGAGAAATGATATAATTAATAAGTTTACACCAAATAATGATTTAAATTATTTGAGAATAAAATTAAAAGGAAACAATTCAAATCAAAATGCTATAGGGTCTGTTGTTAGTTTATATGTTGATGGGGAAAAAATATCTAGAAGAGTAAAAACGGGTTCTTCATATTTATCTCAATCAGAAAAAATTGTAACTTTCGGTCTAGGAGAATTAGAACAAATTGATTCACTTAAAGTAAATTGGTCAAGTGGTAAAAAAAGTATTTTTCACAATCTTGCTTTAAATAAGGAAATTGAAATTTTTGAGTAAATGGACTGTAATATTATTTTTTTTAATTTTTTCTGCTTGTGAAAAAAAAGATAAACAAAATCAAATTTCTTTAAGTCAAAAAGAATTAGCATCAAAAGGAGTAAATTTTCTTAATATTTCAAAAAACCTTTTAAAAATCAAACAATTTGAGCAATCACTTTTAATGATTGATTCAGCAGAAATTTTTATTCCTAATTATATTGGTGTACATTTTTTGAGAGCAAAAGTATTTGACGAATTGAAGATGTTTGACTTATCTAAAGAGAGTTATGAAAAAGTATTAACGATTAATTCAAAATATCCTGGAGCAAATTTTAATCTTGGAAATAATGCTTTAATTGTTTCAAAATTTGAGGAAGCTTTAAATTATTTTAATAAAGAATTGGATGTAAATGAAACACCTAAGACTTGGGTTAGTATTGCTATTGTTCATACAAATTTATATCAACCTGATAGTGCTGAATTTGCATTAAAAAAAGCACTTAGGTTGGATGATAAATATTCTAAAGCATTAATTTTATTGGGTCAATTCTATAAAGATTCTGGAGAAATAGACGAAGCGATTAATTTTACTAGAAAAGCACTTGATTTAGAACCACAAAATATTGATTATCAATATTTTTATGGATCACTTTTATTTCAAAATAGTGATTTTAAATTAGCTTTACCATTTTTGCAAAACGTTGTCAAACAAAAACCTTGGGACTATTGGGCTTATAACAACTTAGCACAGACTCTAATTAGAACTGGTAAAAAAGCAGAAGGTGAAATAATGTTAATTTTATCTGATAGTTTAGAAAATAAAAATTCAATAATTGATTTAGCAAAAAATCAGGCTCAATCAAACCCTTATAATGTTGTTAATTGGATCAAACTTGGTGATGATTTAAGAAGTGTAGGTAGAAAAAACGAAGCTCTTGATGCTTACAAATCAGCTTTGTTTGTTGATCCAAAAAATGAATTTCTTACAGAAAATGTTGCATTGTTTGCATTGGATTTAAAAGATACTATTTCTGGTGTTCATCTATTAGAGAAAGTGGTTAGCTTGAATGATAAAAATGCAAATGTTTGGTTCAATTTAGGAATTATTTATGCGCATCAAAGTAAATATGTACAATCCAAAAATGCTCTTGAAAAAAGTTTAGAACTGAAACCAGATGATAAAACAATCATTCAGCATTTAAATCAAGTTAAAGAATGGGTTAATTAATTTCAACTTTTTGAATTGTTTTGTTCTTCTGTTCTTGTATAAATTAATCTTCCTGATTCATAGTATTCTCTTTTCTCAAATTCTCCATTTCTGTCCCAATAAATCCAATCACCTTCTCTTTTTCCTGAATCAAAAATTCCTTCGTTCTGTTTTACTCCATTGTCATACCAAACTTTAGCTTGTCCATTTGGTTCACCATTGACTAATGTAGTACTACCTTTAATTTGACCATTAGGCCAATATTGATTCCAGGTTCCATTGCCTGAACCATTTTTAAACATACCTTTTGTTCTTAAATTTCCATTCGAGTACCATTCATAAGTAAGGCCTTCAAGTTTTTTATTTAAAATTGTTCTGACACCTCTTTTTTGTCCATTTTCATACCAATATGTCCATGTACCATCCATTGAGTTTTTATTTCTAGTGCCTTGAAGTTTTTTGAATCCATTATGATACCACTCAACATGACGTCCATGCATTTCTCCATTTTTATAATTCCATTGGGCTCCAGGTTTACCATCAGTAAACCATTCTTGTTGTAGGCCATCCATTTCATTATTTTTATAAATATACTTTTTTAATAAAATTCCGTCCTCACTCCAGTGTTGATGAATACCATGCATTAAACCATTTTTAAAATAACCTTGAGATTTTATCGCTCCATTTTTGTACCATGATGTCCATTTACCTTCTTTTTCTCCTTCAAAAAGTGCACCTTGTTCTTTTTTTTCACCTGAATCATAGTAAATTGTATCAATGTTTTTATTAGATGTATTGTTGTTTTGACAAGAAATAAGAATAATGCTTAGTATAATAAATTGTTTTTTCATAACGATCCTTTTAGTTAGAAGTAGCTCAAAATTACTAATTTAATTTACATATAATTGAATTTTAGTATACAATACCAAAATAATATTAAATTATAATATAATTATTTTAAAATCATTAATGAAAAAGATACTTACAATCGGACCAATAATTTTGATTTCCATTTTATTGTTTATTTACTTTAATAATACAAATAATAATTCCATAAATGAAAATGTAAATAATTCATTGATTTCAAATGATGAAAGTCTAATTCTTCCAGGTCTAGCTTTATCAGAAAATCAAAGAAAATATATATGGGATATTGAACAAAAAGCTACTGAACTAAATTCTTTTGGATTGAAAAATTTAAAACAAGTGCTACAGTCTAAAAAAATGAAAGATTTAAGTTTATTATTAATGAATGATTTTAATGCACAAGTTCCTGATTCAAATAAGGTAATAAATTTTGTTAATTCTTATTTTAAATCAACTAAGTTGGAATTATCAGATTTAAAGTATGAATTATTAGATAAAGCATCTTTTTTAAAATGGATATCAAACAAATCATCAGATTTCATTGATGAACCAAAAGTTAAAATAAAGTTTTCAAAGTTAGAGCCAGTAAATAGAAACAATTATGATGGGTTTTGGAAAATCAAACTTAAAATTAATGTATCTGGAAAATCTGATTTTGGGTATAGCGAAGATAATTATATATTTTTAACAGAAATAAAAAAACCAGAGCCAGTTTTTGTTTCTAATGGTAATTGGATTAAATCTGTTAATGTCTTGCATTATAGTACATCATCAACAAAAAATTTTTTAATGACAGACAATACTTCTGATTTTGGAATAGATATTTCTGAATTCCATGATAATTGGGAAGCTCCTGCAAATAGAACTATTCCAAATACTGGTGGAGTGTATTCTTTTGATTATAATAAAGATGGTTATATTGACTTATTGATTGATGATGTAACCCATTATAGAGGTTTTATATTATATAAAGGTACAAAAGAGGGAGTTTTTAAAAATTCAACTGATGAAGTAAAATTACCTCCCTTGCAATCACCATCATTAGTTGCTATTGCAGATCTTGATAATGACGGTTGGGAAGATATTATTATTGGTCCAGGATTAATTTTTAAAAATAATTTTGGTGAAAATTTTGTCAATGTAAGTAGAAATTCAAACCTTTCTAAATTAGGTAACTTAAGAGAAACACAAAATTTTAGTTCAATCTCTGTTGCTGATTATGATAGAGATGGTTTAGTGGATCTTTATATTTGCAGGTCAAGTCCCAATCCAGATGGTGGGTCATGGATCAATGGAAAAATGGAAGATAATTACGAAACCCAACTTTTGAAAAATAAAGGTAACTTTATATTTGAAGATGTCACAAAAAAGTCTAATGCTTCAGGTGAAAAAAGATCTGTTTTTACTACTGTCTTTTCAGATTTTAATAACGATTTTTGGCCGGATATCTATTTGATTCATGAATTTGGAAATGGAGTTTTATTATTAAATGATCAAAAAGGTAAGTTTGAGAAAATTATGATTGCTGAATTTGCATCAGATTTTGGTTCAATGGGATTAGCTAGCGGCGATTTTAATAATGATAAAAATATAGACATATATGTATCAAGTATGTATTCTAGTGCGGGAACAAGAGTAATCTCAAATTTAAAAGAAAATTCTTTTGATAAAAAAGTGATGTCAGAGTTAAAAAGTATGGTAAGAGGAAGTCAGCTTTATTCAAATTTAGGAGAATTGAAGTTTGAAAAAATGGCTGATAAATACAATTTAGCTTCAGTGGGATGGGGTTATGGTCCAATAATGAGTGATTTGAACAATGATTCATGGTTAGATATATATACTACTTCTGGATTTGTTAGTAGAAATAGAGATAAGCCTGATGGCTGATCATGTTTATGGCAGGGTGTCGTGTCACAACCCTTTGATAGAAGTTGTAAAATTCCTCCCCCAGGAACACCTAATGAAAAATTAGGAGAGTTTTGGGAGGAGAGTCCATGGACAATTGCATCAAATGAGAATCTAAGCGCATTTGAAAGAAATAGATTTTATATAAATTTTTATGGAGAGAATTTTTTCGACATGAGTTTTGTATCAGGCACTGACACAGATGGAGATGGTAGAAGTGTTATTTCAGCTGATTTAGATAATGATGGAATGAATGAGTTGATAGTCAGGCAGGTCGGAGGGGGTCCGCTAAAAATTTTTAAAAATAATTTCCCAAAACTTAACTATATAAAAATAAGTCTTAGGGGTGTTGAAAGTAATAGTTTTGGTATTGGTTCAAAAATTGAAATTAACGCAGAAAGTCAAAGTATTGTAAGAGAAGTTTATCCAATAAATACTTATCGTTCACAATCTCCATCATTAGCACATTTTGGTTTAAATGAAATAAAGCTTATTGATAATATAAAAATATATTGGCCATCTGGTAACACCCAAAGCTTTTCGGATATTAAAGTTAATCAACATTTAATAATAACAGAAAACAGTCAGAGTTATGAAACATTAACTTCATCTAATAATTAACTTAATTAAAACTATTTAATCATGAATTTTAAAATACTTTTAGTGGTTGCAATTTTATTTTTTTCTTGTTCGGAAAGATATGATAGTGATTCGCTTTCTGATGAGGAGTTTATTAATGCTCAGAAAATCATTACTCTTCTTGAAAAATCTCAAATAAATCTCAGTAGGGGTAACTATCAATCATCTATTAGTTTTGTAGATAGTGCTTTAAGTATTGATAAAAATTTAATTTATCCTGTTTTTGTAAAGGGAATGATTTATGAAGATCTTAATCAATTTGATGTTGCAGATTCTTTATACAAGAGAGTTTTAAAAAAAGTACCAAATTTTAGAAGTGCAAATTTTAATTTAGGAAATATTGCGCTGGCAAAAGGGGAATATTCTAATGCAGTAAAATATTATAAAAATGAGGAAAAAAATTATTCAACGCCTGATGTTTTAACAAAATTAGGTGTTGCATATGCTAATATTTATGAGATTGACAGTGCTTTAGTTGTACTTCAAAAATCAATTTCAATTGATAGTTTAGCATCAGAGGCATTTATGTTGATTGGTAAAATTTATCGTGATAATGGAGATATTAAAAAAGCGAAAAATTTTATGAGTAAAGCTTTAAGTATAGAACCTAACAATTGGGATTATCAATTGAATTATGGAACGTTGTTATTTAAGATGGGAGATTTAAATGAATCCTTATCTTATTTGAAAAATGTTGTTAAGGTTAACAAGTGGCATTATGCATCTCATTATAATTTAGGTCAGCTTTTATCGAGATTAGGTAAAAAAGATGAAGCAAATAAATATTTATCAAGAGCAGATACTCTTCAGCAGGCAAATACTAGAATTGGTTTTTTTCAAGAAAATTTAAAGTCAAACCCTGAAAATATTTCTGATTGGTTAAATATGGGTATAGCTTTACAATCAATAGAAAACTTTTCTGAAGCATATGAGGTTTTTAAAATTGTTGATCATTTAGATTCAAACAATCTTGATTTAAAACAAAATCTTGCTTTTTTGGCTATATCTAATGAAGATACTATTTCTAGTATAAAATATTATCAATCTATATTATCAAATGATAATTCAAAATCAGACATATGGTTTAATTTAGGACTTATTTATGCTTATCAAGGAAAATTTAATAATGCTAGCAGATGTTGGAAAAAAACTATTGAATTAAACCCAGATGATAAAACTGCTATAAAATATTTGGAAAGTTTATCCAAAATAGAACAACTTCCTTTTTATGATTTGAATTAATATTATTTTTTTATTATTCCACTCAAATTTTAACTAAAAATCTTCTTTTATTTATTTTTATCGACACAGAATTAAAAAATAATTAAAATAAATTCTACATTAACTATCCTTAATTACAAAAATTAATAGAAATGACTTTTTAGGATGAAGTAAATATATTTTTTTTCAATTTTACACTATTTGAGGAAAATATTTTTTTTCTAATACTAATCTAATGTTTTAAAAATTTAAGAATATTATTCTAATTGCATTAAAATTTTAAATAAATAAATGTTTTTAAAAAATTATATTGTGTTACTTTTTTTGTTCTCTTAAATATTTTTTTAGTCATTATTTGTGAAAAAAAACTTGACATATCTTACTAGAAGTTCTTAGACTTTGTTAGTGGGAGCGTTGTCCCTTATTTGGGCCGTTCTAATTAATTTTAGAAAATTTATAAAATATGAAAAAATTATTAACAACAGGGGAAAAGACAATCATGATAAATAACAAATCAAAATTGTTAACAATTATTTCTGGTATTATGCTTTTTGCGTTTGTTGCTTTTTCGAATGTGATTACAGCACAAACTACAACAGGTAAAATATCAGGTAAGATTACAGATGGTGACGGGCAAGCATTGCCTGGAGCAAACGTGCTTGTACAAGGTACTTCGTTTGGTGCCGCTGCTGATGAAGAAGGAGATTACTTCATTCTTAATCTAGCACCAGGTTCATATAACGTTGTTGTACAGGTAATGGGTTACAAAACAACTACTGTTGAAGGTGTTCAGATTAGTTCAGGACATACTACTCCAGTTAATGTAGCCTTAGAGACAGAGGCCGTTGCTGGTGAGGAAGTCGTTGTTACTGCTGCAAGAGAAGTAATCGAGATGGACAAATCTGCTAGTGTGGTAACTGTTACTTCAGAAGATATATTAGAAGTGCCTGCAGTTAAAAATCTACAAGATTTCTTAAGAAAGCAATCTGGTTTTGACATTGGTGAGAACAATGAGATGTTGCTTAGAGGTGGTGGTGTTGAGCAAATTCAAATGCAAGTTGATGGTATGATGCTTACCAACAATGCTCAAAACAGACCTATGGTATCAATGCTTAACTTAAGTTCGATTCAAGAAATGCAAATTATTAAAGGTGGTTTTAATGCAGAATATGGAAACGCAAGATCTGGTTTCTTTAGTGTTGTATCTAAGACAGGTGCAACTGATAGATACTCAGCTTCAGTTGACTTAAGATTTGCACCTCCACAACTTAAGCATGGTGGTCCTTCACTAATTGATACAACTAATTATTATTTAAGACCATATTTTGATCCAGCAGTAGCTTTTGTTGGAACAATGAA
>sequence09
GAAAGAAAAATTCATACAATTCCAATTCCAAGAATTGGTGGAATAGCAATTGGTTTATCTTTTTTTATTTCATTATTATTCTATTCATTCAACATTGAATTATTATGGTATTTAACTGCTTTTCTAATATTATTTATTTTAGGTATTATAGATGACTATAGTTCTATTAGTTGGAAAATAAAATTACCCATTCAGTTGATTGTTGCTTCTATAGTTATTAATAGATTTTTAGGTTTAATTACTTCAATTTCTTTTTTTCATATAACCTTAAATTTCCCAACAATTATTTTAATTATTATTTTTTTAATTTGGTTTGTTGGAATTCTGAATGCTGTGAATTTAATTGATGGTATGGACGGGTTATCTGGAGGTTTTATGGTAATTATTACATTTTCATCAATAGTCATAGGAATTTTAACTGAAAATTATAATTTTGTTTCACTCAACTCTTTATTATTAGGTTCATTAGTAGGTTTTTTATTTTTTAATAGAAGACCTGCAAGATATTTTATGGGTGATTCTGGGAGTTTAATTCTTGGATATCATGTTGCTTGTTTACCCTTAATTTATCATCAATTTTCAAGTAATAGTAATGTATTAGAAATCACTCCTTTTCTAATTTTATCTTCTTTTCTAATTATGGATACTACTCGAGTTTTTTTTAGTAGATTATTAAAAGGGAAAAATCCAATGAATGCAGATACTATTCATTTGCATCATTTAGTTTTTAAAGAAACAAAATCTTATATGGGAACATTAATTCCTATTTTTTTTGTTACTTTAATTGGAGGTATTTCATCTATATTGTTTTTTAAATATGATTTTGGGTATTTAGGAATGCAATTTTTCTTACTTATTTTAATTTTATTTATAATTATTCCTCCAGTCCCTTTCTATGTTCCTCTAACATCTAAATTAAATAATTTTATATCTAGTCTTAAAACGTCACGTTTTAATGATAAATATCTATTTAGAGTTCGTTTTTTAATACCTTTAGGTATTTTATATTTATTAATTCTTTTATTTTCAAAAATAAATAAAAATAATTTAGATAAAATTTTTTTAATTGAATTTAATATTTTTGATTTGGGATTATTCATTGGTTTTAGTTTTTTATTAATATTTTCATTGATTAGGAATCATGCAGATGAATCTTTTCAAAGTAGAATTGTACTAGTAATATTAATTCAATCTTTTTTATTATTTTTTCTAGATGGGTCTAATTTTTCTAATGAATCATTCTATTTGAGGAATATAATTTTAATAATAATGATTTTAATAACTGGAGTTAATTATTTTCAAAATAGTAAGCATTTAGGTTTTGAGTTTTGGTCAGTAATTGATTTATTAATTTTAATATTATTTATTGCTTTAGTAATTTTAAAAATAAACGGTGTTCAACTTAGATTATTTTCTATTTTAGAGATATTAGTATTTTATTATTCTCTTAGTTTATATGCTCAGAGAAGACATCCAAGATTAAAAATTTAATTTTTTAAATTTTATATCAATACTATAGGTTGGAATAAATTTAAACTTTTCAATTAAAGTGTTTGTTACTGGATTGAATAAGCTGATGCAAAGTTTAATATCTTTAATGATTTTAAATTTTTTAAAATAATTATTCATTGGAAAATAAATTCCAATATCTGAAGCTATAGGTATTGAATTAATATTTATTTTTTTATGACCTAAAATATTAACGAAACTACCACCAATATTAATTTGATTATTTAATTTTATAGTGTAAAGCAGTTGTGGGAAAAAAATATTTAAATAATTAGTATTTAAGTTTTTTCTTAAACCAACTGCTGTAGCTAAATCTAATTTATTAGAATTGTGAAATTGGTAAAATAAACCATTATAATAAGTTGAAAAATCTTCTTGATGAATAGAATAATATCCATGGAAATCTATTTTTTCACTTATTCCATATCCAATTACAATATAGGATTGACCATTTTTAAAGTAATTAAATGGATTCCAAGTTAAATCAATTTCAAAAAAATTTTTACCAGTAGAGGATCCATGATCAAATGCTCCTGAAGCAAAAATTTGATTTAAAAATAAAAATATAGTTATAATTTTTTTTATCATTATTTAAATCCAAATAATAAAAAATATACTTTTAATTTTTTTTTTATAGTACTATTTTTTCTGAAAATGTAATTTATCATTGTTCTTTGACAATGGGGGCGCTTGGCTTCGACAGAAAATAGGAAGCATTTTGTTGCATGTGCAGTACTCAGGTTATCTGCATAATCTGCCTGAAAACAAACAAATGCCAATAACGGCAACATTGCTTACGCTTAAATAGTGTAAGTCGTTCTACTTATACTTTGCTTATCAGTTTAAGATAGAGCGTAGATTCGATAAGCTAGTTTTTACAAATGTCCTTTTTGTAAAACGAAATTTTAAAGGACTGCTTTTATTATAAGATTGTTTGATATCTGAAATAAATTAAGATAAAAATCAAACTAAACATGTAGAAGTAAAATGAATCTTTTTTTTGGACGGGAGTTCGATTCTCCCCGCCTCCACTTAAAAATATGTCTATTTTAAAAAAAATAATTTTCTTTCAAATTATATTTTCAACATTTGTTTTTACTCAAAACTATTACGTTGCAGATCCAAATGAATTATTAAAAAATGAATTCATAAGCAATGCTGAAAAAAAATACATTTCATCAAGTTTGTTTAGGCCATCAATTAATATTGATAATTTAAAGACCAATTGGTCTTTAACCTTTAGAGCAGATTATTTTGATAACAATGGTGCTCCAAATTTAGAGAATACCTCAATCAAATGGATAGGTAAAGGGGTAAGTAGATACAGCTCATATAAATTATCTTTTATAAATGATTTTTTCTTTTTTTCAATTGAGCCGTATAGTTTTAATAGTGAAAATTTAGATTATGATGTTCCTCTAAGAAAAGGTATTTATTCAAGAATGAATGATTCTAGGCCTCATAATGATAAGCCAATCCAATGGAATGGAGTAAGAGAGTTTCAATTTATAACTCATTATAAAGGAATTGGAGTTGGAATATCAAATGCAAATATGTGGTGGGGTCCAGGAATTCATAGTTCCCTACAAATGTCAAATAATACAAATGGATTTAGATATTTTAGCTTAGGCACATTTAATGAAAAAAATATAGGTCCAATAAAATTAGATTTAAGATATGTTTTTTCGAAATTAGATGATAGAAACATTGGGGAGCCATATTTATCTGCTATTCTTGGATCTTTTACTTTTTCCAAGAATCCGATCTTCACTTTAGGTTTTTCAAGAGCGTATATTTCAGGGCATGGTAATTATGCACCAGATGTATATAATCTTACTTTAAGAGAAGCTATTGATTTACCTCTTGAAGATTTATTTTTAAATAAAAAACAAGTTGATCCAAATAATCCTGAAAGTGCAGTTGATTTATGGGATGAAATTCTTGTAGGATATTTGGTGGCATCATTTCCTAGGTCAGGTTTAAAAATTTATATTGAATATGGTAGAGATGATCATGCTTGGGATTGGGATGACTTCAAAAGGCAGCCTGATCATTCTGGAGCAGGAGTTTTTGGATTAAGAAAATATGAATTATTTGGTATTCAGAATTTAATTGGTGGGTTGGAATATACTAGTTTGATAAAGTCTAAATTTTGGTCAAGTAGAGTTCCTGGAACTTGGTATAGCAAACAGGTTTATGACTATAATAGTTATAATGGTAGATGGTGGGGTGCTCATAGTGGTCCAGACTCAGATGATCTATATATTTATTTTGGTTATTATGGAAATAAATTTAGATTTATTCCTTCATTTAATTATGAAAGACATGGTGTAATAGATAATAATGCATTAATTATTGAAGAACTTTCTTATTTGGGTTTTAATCCTGAAACAGGAAGATGGGAAATTAAAACTCAAGATATTATTACTGAAAGACAAATTAATATTTGGCCTGAAGTAAAAATGGAATTTAGATTAAATATTGGATTTACACTTAGAGATATTGATATAAATTTTTACTATGAACATGAAGTAGTAGATAATTTAGAGTTTAAATGGGGGGAAAGAGAAGGCAAAGTTTTTTGGGTTAGTTTTGATAGAACCTTTAATATTGGAAATTTGAATTATTTTGCCAAAAACAAATAAAAATACGTTATCTATAATTATAGTAACTTTTAATTCTCAAGATTGTATTGAAAATTGTATTAGTTCAATTTCAAAGAATTATAAAAAAAATTATGAAATTATCATTATTGATAATAATTCTTCAGATAATACTATCGAAATAATTAAAAAAAATATTAATTCAAATATAAAATTTATTCAAAACAAGAGAAATTATGGTTTTACTAAAGCTGTTAATCAAGGATTTAAAATTTGTAGAGGTGAATATATCTTAAATTTAAATCCAGACGTAGAAATATTAGATAAATCTATTGAAATTCTTATTGAAAAAATGAATACAAATAATTCTATAGGAATAATTTCTCCGCAATTAGTTTTTCCTGATGGTAAAATTCAATTTACTTGTAGAAGATTCCCAACATATTGGAATATTTTTACAGAATTAATATTTCTTAATCAATTTAGGCCAAAAAGTAAATTGCTAAATGGATGGAAAATGGGTGATTTTAATCATAAAACAGAAATGAGTGTTGATCAAACCGCAGGTGCTGCTTTTATTATTAAAAAAAAATTATTTGATAAGCTTTCTGGATTAGATGAGCGTTTTCCAATGTTTTTTAGCGACGTTGATTTATGCAAAAGAGTAAAAAATTTAAATTTAGAAATTTTCTATACAACTAAATCTAAAATGATACATATTGGAGGAAATAGTATTTTTAAATATAGAATTCGTTCAATTATTACATCATCAGTTTCAATGATAAAATTTTTCTTTAAACATTATAATTCAAAATTTAATTTAATAATAAATGTATTTTTTTCTTTGATTTTAGTTCCAATAATTTTTTTTAGAATTATAAAAAGTCTAATTATTTCAAGAAAAATATTTCAAAGAAAAACACTTTAATGAATGCTAAAAAATTAAGAATTTTCGGTTTTATTTTATTTGGGTTTTTGGTAGTATCTGGAATTATATTAAAAAATAACACATTGTTTTTTATAGCAATTTTTAATTTAATAATTAGTATTGTTTACCCATTATTTTATTTCAAATATAAGATTTATCAATTATTTCAAATTTTAGGTAAGTATATAGGTAAAATAAATTCATTTTTAATAATTATGTTCCTTTTTTATTTTATAATTACCCCTATGTCGATTTTTTTGAAATTATTACAAATAGACTTATTAGATAAAAAAATTAATAAAAAAAATCTATCATACTTTAGAAATAGAGATGTTCCACCAAATTCTTTAACAAAACAATTTTAAATGAAATTTTTATTTGAATTATTTGAATTTTTATATCTGAGAAAAAAATTTTGGTTAGCTCCAATTATAATAATTATGTTATTATTTGGGTTGTTAATTATTTTTTCTGAAAGTTCCGCAATAGCCCCCTTCATTTATATTCTATTTTAAACAATATTGTCAAATCATAAATATATATTAGGTATTTCGGCATATTATCATGACTCTGCTGCTTGTTTGATTCAAGATGGAAAAATTTTAGCTGCTGCTCAAGAAGAAAGATTTACAAGAAATAAGCATGATAAATCATTTCCGAAAAATTCAATTGATTTTTGTTTAAAAGAAGCAAAAATAAATTTCAGCAATATTTCATATATTGGTTTTTATGATAAGCCCTTTTTAAAGTTTGAAAGAATTTTAGAAACTTATTTGTCAGAAGCTCCAAGAGGATTCAAATCTTTTTCAAAAGCAATTCCTGTTTGGATTAAAGAAAAATTATTTTTAAAAAAAACAATAATTGATAATTTTTATAAATTTTATGAAATAAAAAATAAATTTATAATTGAGTCTAAGCTTTTATTTGCAGAACATCACATTTCTCATGCTGCAAGTGCATTTTATCCTTCTCCATTTAATTCTTCAGCTATTTTAACAATGGATGGTGTTGGTGAGTGGGTAACTACTTCTATCGGGTATGGTGAAAACAATAAAATAAATTTTTTAAAAGAAATTTATTTCCCACATTCTTTAGGATTATTGTATTCTGCTTTTACTTATTTTTCAGGTTTTAAAGTGAATTCTGGGGAATATAAATTAATGGGATTAGCTCCTTATGGAAATCCTGTTTATAAAGAATTAATAAAAAAAGAAATAATTGATATAAAAGAAGACGGTTCCTTTAAGTTAAACATTAAGTATTTTAATTATACTGTTGGCTTAACAATGACTAATTCAAAATTTGATAACTTGTTTAAAAGAAAACCTAGAAACCCAGATAGTAATGTTACTCAATTTGAAATGGATTTAGCAAAATCCATTCAAGAAGTTATTGAGGAAGTGATATTGAAGCTTGTAAAAACTACAAAAACAATTACCAATTCAGATAATTTAGTTTTAGCAGGTGGAGTTGCTTTAAACTGTGTTGCAAATAGTAAAATAATAAAACAAAATCTTTTTAAAAATATTTGGGTGCAACCTGCTAGTGGAGATGCTGGAGGGGCATTAGGTGTTGCACAGCATATTTATTTTAATCATTTAAATAATATTCGAACAGTTAGTTCTAAAAGAAATGATTCAATGAATGGATGTTACTTGGGTAAAAGTTACTCAGATAGTGAAATAAAAGATTTCTTAGATTTAAAAAAAATCAATTATATACAATACCAATCTGAAGAAGAATTTATTGAAAAAATTTCAGATTATATTATTAATGGGAAAGTTGTTGGATGGCATCAAGGAAGAATGGAGTTTGGCCCTAGGGCATTAGGCAATAGAAGTATACTTGCAGATCCAAGAAATAAAAATATGCAAACTATTCTTAATAAAAAAATTAAATTCAGAGAATCTTTTAGACCATTTGCTCCTTCTATCTTAAAAGAAGAGTTGAATAATTTTTTTGATATTGAAATAATTGATTCTCCTTATATGTTGTTTGTTGGAAACTTAAAAAAAAATTTGAGAATAAATAAAAACAATGAAGAAAATTTATTTGGTTTAGATAAATTAAATTTTGTTAGATCATTATTACCAGCTATTACACATGTTGATTTTTCATCAAGAATTCAAACTGTAGATAAAAAAACAAATCCAAAATTTTATAAACTTTTAAAATGTTTTGGATTAAAAACTGGTTATCCAATTTTAGTTAACACATCATTCAATATTAGAGGTGAGCCAATTGTATGTTCGCCAAAAGATTCATACAATTGTTTTATTAAAACTAAAATGGATGTCTTAGCATTAGAAAATTTTATTATTATTAAGAATTAATAAAAATATTTTTGAAAAATAGATAAGAAATATAACTAAATTTAGTATTAATAATTTGATTGATTTGCCCCGGTAGCTCAGCTGGATAGAGCAACGGACTTCTAATCCGTAGGTCAGTAGTTCGAATCTACTCCGGGGTACATATTATTTACTATAAATTTTGAGGCGTCTTTATCAATCATTTATTATTTAGGTTGGGTATATTAAACTAATGACTGGACGCCTCAAATGAGGTAGGCGTCATTCAAGGGATGAGACAGGGTCAGGGGTTTTAAGGTATAAAAGAATGACGCCTTAAAATCTTATGACTAATTTATATTTAAAAATAATACATGTCAAGCACTTTTTGCACGTTTTGCACGTTTTAAAGAAATAGATAACAAAATATTCATTACTTTTAATTCACAAAATAATTATTTATATTTGTTTTGTTTGGTGCTATTCAACAATGTTTTTTTATGTTAATGTTATTTAAAATTTTTTTTAAATATTATAATGGAACCCAATTTATTTTTTTGAGTTAAATGATTATTACACTGAGGCAAAAAATTTGCGATATTTTTATATAAAACTTATTTTTTTATTAATTTTTCTTTTTGAATCTCTTTTATCTGAATCTCCAAATAAATTGGTTGAATTTATTTCATCTGGTTCTTTAGATAAAGTTGATGTGAAAAATACACCATTTTTCCCATCGCCTGGAAACACACTTGATGGGGAATATATTGAATCCTATAACATTAATAATTCACTAAGCTGTGGTCAAGCAGGTTGTCATCCAGATATTTACCATCAGTGGGAAAGTTCAGCACATAGAAATTCTTCTTTTAATAATCCTTTTTACAAAAAATCAGTGGAATATTTAGTTTCTACTGGAGATACTGCAGCAGTAAGATGGTGTGGTAGTTGTCATGATCCAATAATGTTGTATTCTGGTCTACAAGAGACTTTTTTAGAGGAAAACATGAAACTACCAGAGGCATCAGCTGGAGTAACCTGCGAGGTTTGTCATGGTATGGTTGATATACCAGATATAACCGGAAATGGTAATTATGTTTTGGATAAGATTGATAATCATCCAGCTTTGGGAAGACAAGCTACTCTTAAAAGACTAAAAATAAAATTAAACCCAAAAAAACATTCTGCGAATATGTTAAAACCACTTCATAAACAAGAAGAGTTCTGCGCATCATGTCATAAAGTAAGTTTAGATGAACCAATAAACCATTACAGATGGATGAGAGGTCAAAATGAATATGATGCATGGCAAAATAGTGGTGTAAGTCATAATGCTGTTGCATCATTTTATAAACCACCTGTTGCTTTAGATTGTACAAGCTGTCATATGTCGACAGTTTCTTCTACAGATGCAGGAAATAAAAATGGAAAAGTTAAAAATCATTGGTTTCCTGGAGCAAATACTGCATTACCAGCTTTAAAATCAATTGATGATAAAGATTGGATTAAAAGAACTTCTGATTATTTATCAAGAGACCGTATCGCTGTAGATATATTTAGTGTTAAAGTCGATGGTGTGAATTATTATGCAATTGAAGATAATTTAAAACTTAAACCTGGACAAGAAGTAGAATTTCATATCATTGTTAGAACTCTAAACGTAGGTCATAGTTTTCCTGGTGGAACAATTGATTCAAACGAAGCATGGTTGCAAATAATAGGAAAATTAAAAAATGAAAAAATAATTTTTTCTAGTGGTTTAATTGATTCAAATAAATTTGTAGATCCTTCATCACATTTTTTTAGAGGTGCCTTGCTTGATGCTAATGGAGAATTTATTTTAAAAAGAAATCCTCATGAATGGAGAACAACTTTATATAAAAATATTATCCCCCCAGGTTCCGCTGATATTATCAGATACAATTGGAAAGTTCCTGATGATTTTAATTCAGAAATTCAATTAACTGCATCAGTTATGTACAGAAAATTTAATAGAGAAATAACAATTTTTTCTTTAGATGAACTTGTTGATTTGCCAGTTGTTAATATGGCTTCTGATAAAATGACAATTTCATCAAATTTAGAAACAAGTTATAATTTTAAATCTCATATAAGGTTTAATGATTATGGAATTGCACTATTAAGACAAAACAAATTAGGTGAATCATTAAGTGCTTTTGAAAAAGTGATTGATATAAACCCTCTATATTCTGATGGTTATATCAACGCATCAAGAGTTTTGATTAAACAAGGTAATTTTGAAAGAGCAAAAATCTATTTAAAGAAAGCTATTGAAATTGATAAAGATTATCCTAAACCATATTTTTTTATGGGTTTGATTTATAAAACTGAAGGTGATTTTGATTCTTCAATAACAAATTTTAACAAAGTTTTAAAAAATCATCCTAGAGATAGAAATGTTTTAAAAAATATTGGTCAGGCTTATTATTTAAAGAATGATTTTAAAAATGCAAAAGAAAGTTACGAAGACGTATTAAAAATTGATCCTGAAGATCATGATGCTCACTATAATTTAATGCTCATTAATAGAAATTTAGGTAATATTGATTTGGGAAAATTTCATGGTGAAAAATATTTAAAATATAAACCTGATGAAAACGCAAGATCGATATCTCGATCAGCAAGATTAAAATACCCATATGCAAATAATGAAGCTCAACAAGTCCATTCCCATTCATTGAAGTAATAAAATTTCCTTCAATTCATTTCATTTTTGATTAATATTAGATTAGTTAATTCAAACAAAATGAATAAAAACAATTTATTTATAATTCTTTTTTTGTCAATTTTTATTTTTTGTTGTGAAAATTATACAACTGTAAGAATTGATTCTCCTGAAAATAATGAGGTGTTAAGTAAATTGTTCAAAATTGAAATTAGTATAACTAATAATGATTCTATTCAATATGTAGGTATCATTATTAATGAAGATACTCTAGATGATATTGATTATGATGAACCCTATGCTTTTTTTGTAAATTCAATTGAATTTGAAAATAATTCAAAAAATACAATTATGGCTTATGCTTATGATTATGATGGAAATAAAATCGAAAGTGATTCAGTTATAATTGAAATAGATAATTCTCAATCATATCCTAACCAAATAAATATCCAAGAAATACTATTCTTAAATAATCAATTTGAAATAAAATGGAATAGTGAAGAAATAAAGGATTTTAAAAGTTATGTTGTTGAAAAATCATTAAATCCAAGAATGGAAAATAGTGAAATATTATCAACAATTTATAACCAAAAACAAAAATCGTTAATTGATAGAGAATCAGATGAAACTATTGCAAATTATTTTAGAATAAACATTGTTGATACATTAGGGTTTGAAACAAAAGGTAAAATTTTTAAATCTAACATTTATCCATCACCAAAACTTTCTGAAATAGTTTCTATAAGTTATGATTTAGACAGTATGCAAATTAATTGGACAAAAAATAATTCTAAAAATTTTCTTAATTATAAAGTTTTGTCTGTTAATTCATCTATGGAAAAAGATACTATTGCTGAAATTAAAAATATTTTGAATGTGTCTTTAAGTGTGCCGTCAAAAATTTTCATTCCATCTAAAAAAAATAAATTTAGTATATTAGTTGAAAATAAATTTGGTCAAACTATAGAAAGTGAGGAAAAGTTTAATACAATTGATCAAAATCCAAATCCAGTTTTAATTGAACATATTTCATATGATCTTAATAAAATGGAAATTAAATGGAATAAATCTATTGATAACGATTTTAAAAAGTATGAAATAATTTATAGTAATAAAAAAAATGGTATCAAAAAGCTATTAGGAAATTATTACAATAGAGACTCTCTTAAATATAATGTTTTTGATTTTGATCCTACTATTGAAAATTGGTTTTGGATCAAAGTTGTAGATTTATGGGGATTAGATTCAATAAGTGAACCCATGTCTAATTTTATTGATCAATTACCTGATACTAATTCAATTAATTCAATTGAGTATGATGAAAAAAACTTAGTAATAAATTGGAATAAATATAAGCAAGATGACTTTAAATCATATCAAATTTTACATTCATTTTCAGAATTTGGGGAAAAAATAATATTGAAAGAGATTGATGATATAAATCAGTTATCTTTTAGTACAAATACAATAAATCCAGTTGTAAAAAATTGGTTTTGGATTAAAAATATTGACTATTGGGATCAAAGTTCTTTAAGTAACCCCAAAAGCAATAAAGTTAAATCTCTTCCTCTTTCAATATCAGTAGATTCAGTTTGGTTTAATGATAAAAGAATAAATGTTGAATGGGAAAAAAGTAATTCAAAATATTTTAATCATTATCAACTTTTTTGGTCATCAACGGAATTTGGAGAAAGAGAATCAATTATTAAATTATATAATCAAGATAGAAACTTTTTTTCCAGTGAAAATTTTGATTTTTCTAAGGAAAACTGGTTCTCTTTAGATCATGTTGATAATTGGGGAAATAAAATTTCAGGGAAAAATATGTCAAACTCGCCTAATTATCCACCTTCTCCTATACCAATCATTGATATTACTTATGATGTAAAAAAAATCAATATTAAATGGAAAAAATCAATAGATGAAGATTTTAAACAATATAATTTATTTTTTTCAAATCAAGAGCAACAAAAGATTTCAAAAATCCGAAGTTTTTATTCTATTTCAGATACTTTTTTTCAATTTATTCATGATTCGACTTTTAATCCTTCAATTTCAAAATGGTTTTTTATTGAAACAGTTGATCAAAAACACCAATCTAGTAATGGACCTGTTTTTGAAGTCATTGATAATCCTCCAAAAAATTCTATTTTAGATTCTATTAAATATAGTTCCGAAAGTTTTTTGTTTTCTTGGACTTCAAATAAAGAAAATGATTTTTTGAAATATAATTTATATCAATCAGAAAATAAAAATATGAAAAATGAAGAAATAATTTTTACAACGGAAGATATAAATGATACTATTTTTACTTTACAGGGTATAGACTTTTGGGAAACAAAATATTATAGAGTTGAAACTGAAGATGTTTGGAATTTAAAAAATTCGAGTGAAATAATGATCGGAGATTCAAAAAGTATATTTTATAAAATTGAAAATACAAAAGTTCATCAAAAAGGCAACTCATCGGTTCAATCTTTAGATGGTGGATTTGTTATTGCCGGTGAAGTTGATAATAAGGAAAAAAATGATGATATTTTTATTCAAAAAATTAATACAAAAGGGAAAATAGATTGGATAAAAACATTTGGTGGAAAAGGTGATGATCGAGCATATTCAATTAAGAATACAGCTGATAAAGGTTATGTTATTATTGGTTTTACTGAAGCATTAATAGAAAAAAATGGTGATATATGGGTAATAAAAGTCGATAGAGAAGGAAAAATGGAGTGGAACAGAACTTATGGTGGCTTTAATTCTGAAATCGGTTTTGATATTTCTCAAACAAAAGATAATGGATTTATAATTCTTGGAAATACTTTTTCCAAGGGAAATGGTACCTCAGATATTTGGTTAATTAAAACTGATTCTAATGGCTTCCCAATATGGAATAAAATTTTAGGAGAAAATGATTGGGAGGTTGGTCATTCAGTTTATCAAAAATCAGATTCAGGTTTTGTTATAACTGGATATAAACAAAAAGTTGATAAAGAATTAAAAAATATATTTATAGTAAATATTGATAAAAATGGAAATAAAATTTGGGAAAAACTATTAGATGAAAATAATAATGGTATTGGTTACGAAATAAAAGAAACAGAAGATAAAGGCTTCGTGATTTTAGGTTCAACTGAATCTGTTCTTCCTTTAAAGACTAATGTCTTCTTTGGAAAAATTAATTCTTTTGGGGATTTAATTTGGAAGAGAAAATTTGGTGGCAATAATGACAATATATCTTTTTCATTTGCAAAATCTTCGTTTAATAATTTTACGATTGCTGGTTCAACAAAAAAAGTAAATGATGAAAAAAATAGTTTTTGGATTTTAAAACTTGATTCTTTTGGAAAAGAAATGTGGAAAAATTCGTTTTATGAAAATTTTGATGTTGAAATAAAAAAAATTATTAAATCAAAAGATGGTGGATATTTTATGACTGGTTCTGCTAAATCATTTAATCAATCAAGCAAACTATTGTATATTAAAACAGATTTTGATGGAAAAATTTCAAAATAATTCTTATTTAAATAAACAATTATTTTATTTAGTTAATTTACCAAGATTAATCTCTGTTATATTCATAATAGAAATTTTCATTGCAATTATATTTTATACCGGAGGAACTTTTTTAGATAATTCAACTCATGGTTATATTTTTGATAAAAATTTTTTGAGTGATTTAGGTAGGTGGAAATCATGGAATGAAAATCAAAATTTTATCTCATTTATTTTTTTCAATTTTGCATTTTTTCAAACCGGATTTACATATATGATATTTTACATAAAAATGACTTCAATTTTTAAAAAAGAGAAGAATTTATATGTATCATCAATTTTTGCATCATTTTTTGGATTTTTGGGAGGACTATTTATTATTGGTGTTGGTTTTACTCCGGCAGATATATATAGAGATATTCATTTTATCTTTGCAATTTGGTTCATTAGATTTTTTTTAATTTCTTCAGTTATTTATATATTTATTTTTTTTCTATCAAAAAAAATTAAATCTATATATTCTATTGTTTATCTTATTTATTCATTGATAATATTAATTCATCTATTAATTGGTGAATTTGGACCAAACATCAGTGCTGGTGGAGAGACTGCTTTAAAAACTCATGTTATTTCTCAGAAAATTATTGCATTTTCTTCAATCTTATTAATTTTATTTCAAACATTTATTAATAAAAAATTAATTTTAACTGAATTTTATAAATAATAATATTTCTTACTTGCCATTTGGATATTAAACAAATTAATTTACATACTAATTAATTATACTTAATTCTAAAAAGAGAGGATGTAGAATTGAAAATTTTTTTAATGGGGTTTGGAAGAATTGGAAGAAATATTTATCGTCTAGGATATAATAATTCTGATTTTGAATTTGTTGGAATAAGTGATCTGGGTAGACCGGATACATTGTGTTATCTGCTCCAAAATGATTCTTTACATGGTAAGTTTGACCATAAAGTTCAATGTTCTGGGTCAACTATGGATGTTGATGGTAAATCAATTGAAATTTATCCTGGATATAGTCCTTCTCAAATACCTTGGGATAAAATTGATATTGATGTTGTAATTGATTCAACTGGTGTAATTTGGGATGATAATGAACTTAAACATTACAATTCAAATGCAAAATTAACAGTGATAACTTCTAATACAAATTATGATTTTGACCGAATAGTTATCCCTGGAATAAATGATGATTCAATTTCTAAAGGTGATTCAATTATTTCTCCATCATCTTCTACTACTCAGGCTCTAGCATTAATGTTAGATGTTTTAGATTCTGGTTTCGGCATTCAAAATTCAATGATGACAACAGTTCATGCATATACTGCTGATCAGCCTTTAGCTGATGATACAAAATTTAGAACTAGAAGAAGTAGGTCTGCAGTAGAAAATATTATACCAAATCATTCAGAATCTCCAAAAATTATTGAAAAGATTTTACCCAAATTTAAAGGTAAAATTGCAGGAATAGCTTTAAATGTTCCAACTCCTAATGGTTCTTGTGTTGATTTAACTTCTGAGTTAGATAGAATTCCAAAAATCGAAGAAGTTAATGAATTGTTTAAATCAGCTTCAGAAAATTCTCACAAAAATATTATTGGTTTCACTGATGACCCGATAGTTTCAACTGACGCTGTAGGAATATTAGAAACTATGATTTTTGATTCAAAAGCAACAATGATTGCTTCAAATCATTTTTTAAAAACTATTTGTTGGTATGATAATGGATGGGGTTTTTCAAAAAGAATTTTGGAAACAATTTTAGCTTATAATAATTTAGGAGGTAAGTTTTGAGAGTAGCAATTAATGGGTTTGGAAGAATTGGGAGATCAGTTTTTAGAATTTTAAATAAAAGAACTGATTTAGATGTTGTTGCTATAAATGATTTGTCAGATAGAGAAGCTTTGTCATATCTATTGAAATATGATACTGTTATGGGAAGGTTTGATGATAAAGCAGATATAAATGATGGAAAATTAAAAACTTCAAATCATTTAGTTACCTTCTTTTCAGAGCGAAATCCTTCTGATTTGCCATGGAATGATTTAGGAATTGATGTTGTTATAGAATCTACTGGTGTTTTTAGAGAAAGAAAACAATTAGAACAGCATTTAACCGCTGGAGCAAAAAGAGTTATTTTAACTGTACCATCAAAAGATGAAATAGATTACACTGTTGTGATTGGAGTAAATGACAAGGGTCTAACAGATGATCATAAAATTGTATCAAATGCAAGTTGTACAACTAATTGCTTAGCTCCAATGGCTAAAATTCTTAATGATAATTTTGGAATAGAATTTGGTTTAATCAACACCGTCCATGCATATACAAATGATCAAAGTTTAGCAGATGTTCCACACAAAGACTTGCGAAGAAGTAGAGCAGCAGCCGAGAATGTGATTCCTACAACTACTGGAGCAGCTAGAGCTGTAGGTAAGGTTCTTCCTGAATTAAATGGAAAACTAGATGGTATTGCGATGAGAGTTCCAGTTCCTGATGGTTCAGTTGTAGATCTTGTAGCAAGATTGAAAAATGATGTTACTTCTGAAATGATTAAGGAGGCTGTCAATGAGGCTTCAAAAACAAATGAATTATCCTCAATTATTGATTATCAAGATGAACCTATTGTTTCTACAGATATTATAGGTAATAGTCATTCTTCTATATTTGACTCTCCATTTACCCAAGTTATTGATGGTTCATTAGTAAAAACTGTAAATTGGTACGATAATGAATGGGGTTATTCAAATAGAGTTGTTGATTTAGTATCAATTTTATCAAAGTTATAATTTTTATTTATTGAAATCTGGAAATATTATAGTATTTAGTATACTTTTTCTTTGGATAGCTGTATTTATAATAATTGTTTATATGCTTTAATATTAATTCAAAACTATAAGATTATTTCTTTTGAATTGACAAATAATTTGTAGTCCCAGCAACATTCATAGGTACACCTCCTGTAAAAATAAAAAGTTCTCCATCTTTAATTAATTTTTTTTCATCGAGAACTTTTCGACATAAAGCAGGTATTTCATCAATATCTTTATATTTCCCAACTACAATAGCATTAACTCCCCAAAGAATTGACATTTGTCTCGCAATATTTTTAAATGGAGTTAATGCAATTATAGGTGACTTTGGTCTATGTCTGGATATCATTCTAGCAGTTCCTCCACTGTGAGTCATTGTAACAATTGCGCTAACTTTAAGGTTCTTAGAAACTTGACTTACAGCATGACTAATTCCTTCAGGGGTTTTTGTTACTTGTTCAGGAAGATAATTTTCGTAAAATAAATTTACATTTTCATTGTCTTTTATAACATTCTGTAATATTTCTATTACCTTTAAGGGGTATTTCCCAACAGCTGTTTCACCAGTTACTAATAGACCGTCAGCACCATCATAAATTGCATTTGCAATATCACTCACTTCTGCTCGTGTTGGAAATGGATTTTCTACCATATTTTCAAGAAATTGAGTTGCTATTATTACTGGTTTTCCTTTTGAGTTTGAAGTCTCTATTATTTTTTTTTGTAAAAGAGGAACTCGAGTTTCAGGTATTTCTACTCCTAAATCACCTCTAGCGACCATTAAAGCATCAAATGATTCAACGATACTGTCTAAGTTTTGAATAGCTTCCCATTTTTCTATTTTTGCCATTACGGGTAAATGTATATTTTGTTCTGTCATTATTTTTTTAATTTTTTTATAATCTTCAGCTGATCTTACAAAAGATAAAGCAATCCAATCTACTCCTTCATTTAAAGACATAATAAGATCATCTTTATCTTGATCTGAAATTGTAGGAATATCAAGTGAAATTCCAGGAAAATTAACACCCTTTCTATCCTCAACTAAACCACCCACAACAACAGAGCATTTTAACGTATTTGGTGAAATTTTATTTTCAACAATTAACGATGTTCTTCCATCATTTATTAGAATTTTTGCACCTTCTGAAATATCAGTAAATTGAAAACCTTGTGTAACTAAAATATCATTATTTTCTTTTAAATTAGGATCATTTGAAATAGTTAATATATCTTTTTCTGATAAGTTTGGATTACAATTTATTTTTTCGATTCTAATTTTTGGGCCTGCAAGATCTGCTAAAATACATGGAGACATACCCCATTTATCTTTTAATGTTTTTATCAATTTTATTTTATCAGTTTTTTGTTTTTTTGTTCCGTGTGACATATTAACTCTAAATGCATTTACACCTAGGTCAAGCATTTTTTGAAGAGATTTTTTATTATTACAACTTGGTCCTACAGTAGCTAATATTTTTACTCGATTATTATCCATATTCAACTGTCTCTATCTCCTATATTTAAAGGTTATAATATAATTAGTTTAATTTTAAAAAGTAATCTATCAATATTTAAATTAATAATTATTGACAAATCAATATTTTTTAAAAATAAACACAAAAAAATTTTTTTTTTTTTTTAAATTTCCATACTACTAATGACAACTAATGAAGTTAAAGAACTTATTGAAAATGGACTGAAAGGTTCAAAAGCTATAGTTAATGATGATCAAAATTCCGGAGATCATTTTTCAGCAACAGTGATATGGCATGGTTTTGAAGGAATGTCTTTAATTCAACAACACAAAGCAGTTTATGAAACTGTTTCTAATTTCCTAACAAAAGAAATTCATGCTCTTCAATTAAAAACTAAGATTAAATAAAAGGAAGTTTGAAATGGATTTAAAAGAACAAATAACTAAAACAATTAATGATAATATGGTAGTTCTCTACATGAAGGGTACAAAAGAAATGCCAATGTGTGGATTTTCAAACGCTGTTGTACAAGTTTTAAACACTTATGGATTGCCCTATGTAGATGTAAATATTTTGGAAGATCCAAACATAAGAATTAAACTTTCTGAAATCACAAACTGGCCAACAATTCCTCAGTTATTTATTAGTGGAGAAATGGTAGGGGGTTGTGATATTACTTTGGAAATGCATCAATCTGGAGAATTAAAAAATAAATTAGATGAAGCTCAAAAAAAATCTATAAATTAAAACACTGTTATTGATGTCATCTGAATGATTTAATAAATTATTCATCTTTTTTGGCCCCTTCGTCTAGTGGTTAGGACTCAAGGTTTTCATCCTTGCAACAGGAGTTCGATTCTCCTAGGGGTCACATTTTTTTTGATGAGAAAAATGGTTTTTTGGAAAGTCTTTATAATTCTTCTAAATATTTTTCCCAATCCATTTGTAAGATTGGCAAATATCTTTGTAAAAAAAACAAAGATTAAAAACTCTTTTTATTTATTTAATAGTAAACAAAAAATTCCTCTAAAAATATATTTATCTAATAATAAACAAAAAACACCTACTTTAATTTTATTTCCTGGCGCAACTCCATTGGGTGAGGATCATTTAATGTTAAACAAATTTGCAAAATCAATTTCATATGCCGGTGTAAATGTATTTATTCCCAGAATTCCAGATTTGAAAGAAGTTAAAATAAATGAAAAGTCTATTGATCAAATGATTGATGCATATAATTCAATTGTAGATAGAGATTATGTTGATCAAAAAAAAATTATTGGAATTGGTCTTAGTTTTGCAGGAAGTTTGTGGATTAAGGCATCTACAAGTGCAAAAATAAAAATAAAGCCTGCTAGGGTAATATCATATGGAAGTTTCTTTGATTTTAATGATACTATTAAATTCATTATGACAGGTAAATGCTCTATTGGTGAAAAACATTATAAAATAAAACCAGATCATTGGGGAAGAATAGTATTTTTATATAATTACTTAGATTACTATCAATATTCAGGAGATAATAGAAAAATTAAATTATTTTTAAATGATAAAGTTCTTAATGATGGTAAAATGTCCTTGCAAATTATATCTGAATTTAATCGACAAGATAAATTATTCTTTGAAAAGTTTTTTTCTGATGATACTAAATTTTTGTTAAAGATTAGCGATGAAATAATTAAGAATGTCGAACATAAATTAAAAAAAATATCACCGAAAAATTTTGTATATAATGTAGATTTCCCAATAAGCTTAATTCATGGTTTAAATGATAGTATGATACCATTTACAGAAACTGTTAAGTTCGATAAATTTTTAAATGAAAAAAAAATAAACGTAGATACCTTTGTTAGCTCATTTCACGAACATGCAACGATTAAAAATAATTCAAAAAGTTTTTTTTTAAATTTAAAAGAATTAAATAATATGATGCAATTTATTGCTAAAATTTTTAAACCAATATTGAAAAAATAAAGAAAATTGATAAAAAAGAAAAAACTTGACTTTTCAGACGAGAAATTCCTAATATACGGCAAGGGTGCGATTTTCGCTCTCAAAACAAAATAAAGGAGAATATTATGGCTGAAGTCGTCGCAAATACAGGTGTCAGTAAAGAATCTGGCTATCTATATTACCTCGGTAAGGACGGGAATGTTTGGCGCTCCAAAATGGCAAGAGCTGGTAAAGGTGGAGGAAATGCAGAAAAAGTTGCTGATGCAGGTGTTACACGTGAATCAGGTTATCTTTATTTCATTGACAAAAATGGAAATGTATCAAGGTCACCAATGGCTCGAGGCCGTTAAAATATCTAAATTAATATAGATAAATAAAACCCCCGTTAAAACGGGGGTTTTTTTATTTCTTATTATAATAATATATTAAATTACAAAATGTTTAAAGTCTTATTATTATTCTTAATTTTTTTTAATTCTTTGCATACTATACCTAGGTTTTCTTTAATAGAAGGAACAAGTTGTAAACTATGTCATGTTAATCCTAACGGTGGATCTTTGAGAAATGATTATGGGATTATAATTGCTTCGGAAGATATAACTTATGAAAAATCAAAAACAATAATTAACAATAATGATTTAGGTGAAATTTCAGATCATATAAGAATTGGTGCTGATTTAAGGATTCAATCAATTAATGATAAGAAAAAAAATGTCATTTTTCCTATGCAACTAGATTTATATTCTTATTTTAATTATAATAATTTGCTAGGTTTTTATATTGAATCAGAAGCCCTTATTGATAATACTGAATATTGGACTATTGCGTATTTACCTATTTTTGATGGCTATGTGAAAGCAGGTAAATCCAAACCTTATTTTGGATTGAATATAGATGATCACACTTCATTTATAAGAGGTGGAAATATAAACAGAAAGTTTGGTTTAGATAAAGAAGGTTCTATTTTCTCTCCTTATCAGAAACCAGTTAATATAATAGAGGTTGGATTGAATTTCTCAGAAATATCAATTATCACAAGTATTGCAAACAATTTTATTGGTTATAATTCTTCAAATATTGGTTTTTTAGGAATTCCAAATAAAAGAACATATAGTTTTAGAGCAGAAGCATACTCAAAGTTTTTAAATAATAATATTTTTTATGGACTTTCATATATAGAAGAAGAAAAAATAAAGTTAAAAAGTTTATTTAGTGGGTTTTTTGTAAATAAAGTTTCAATGATGACGGAGATTGATATTATAGAAAATTGGGTAAATGATAAGCAAGGAATGGCGACTTTTTCAGAAATAGCATTTATGTATAAGCCTGGACTAAATATTTTATTTCAATATAATTTTTATGATGAAGACATTCAATTTCAAACTAACGTTATAAATAGATATGCAGTTGGTATAGAGTTTTTTCTTTTTAATTTTTGGGAGTTTAAATTTCAAACAAGATATAATAAATTAAATAATCTTAATTTTGAGCCAATTGAATTTATAACTCAATCTCACTTTTGGTTTTAAAGGAGCTAATATGAAAACTTATTTTATGTTTTTTATCATTTTATTTTCACAATTTATTTCTGCTCAAGAAATTAAAAATCAAAAAATATTATCTTTTGAAACAAAAAAAGAAATGATGGATTACATGAAAAAAGAAATTTCCGCTCCATTGGGTGTTAAATGTTCTTATTGCCATAATGTAAGAGATTTTGCATCAGATGATAAGAAAGAAAAAGAAATTACTCGACAAATGATGATTATGACAAATTCAATTAATAAAAATACTATGAATCCTCTTGCTTATGATCCTGTAAATTGCTGGACATGTCATCAGGGAAATACAGACCCTTTAAGGTCAAAAGCAATTCCTGCCAAAAAATAAAATCAAATGTATACAATTTTAGTTTTATGAAAATTAGTTCTGTAATTGATTTTTCAAGAAATAATCAGGATTTATTTTTATCTCAACTTAAAGATTTTATTAAAATCCCAAGTATTTCTAGTAGTCCAAATAATAATCAAGATGTTCAAAATTGTGCAAAATTTTTATATAATGATTTAATTAATATTGGATTTACAAATGTAGAAATAATTGAAACAAAAAAACATCCAATAGTATATGGAGAGTTGTTTTATTCAAAAAGATTACCGACTATATTAATTTATGGACACTATGATGTTCAACCAGTTAATCCATTAAAATTATGGACATCTCCTCCTTTTGAAGCTACTATAAGAGATGGAAGATTATATGGTAGAGGAACTGTAGATGATAAAGGTCAGGTACATCTTCATTTAAAGGCAATTGAATCTTGGTTGAAAGTTCATAAAAAACTTCCTGTTAATATAAAATTCATAATTGAGGGTGAAGAAGAAATTGGAAGTGAAAATTTAGAACCTTTCATAAAAGAAAATAAAAACAAATTAGATTCTGATTTAATAATTATTTCAGATACTAGCATGATTAAAAAAGGTTTTCCATCGATAACATATGGTTTAAGAGGGATATCATATTTTCAACTTGATGTAAAGGGTACAAGCCAAGATCTCCACTCTGGTATGTATGGAGGTGCAGTAAAAAATCCTATAAATGCGTTAGTTGAAATTCTAAGTAAGCTTAGAAATTCAAATGGTAAAATATTAATTCCTAGTTTTTATGATAAGGTAAGAAAAATATTACCATCAGAGAGAAAAAGTTTTTCGGAATTACCATTTGATGAAGTAGAATTTCAAAAAAATATCCAAGCTCCAAAACTTTTTAATGAAAAAGAATATTCAATTTTAGAAAGTTTGTGGTGTAGACCATCATTAGATATAAATGGTATTTGGGGTGGGTTTACAGAGGAAGGTTCGAAAACCGTAATTCCTTCAGAGGCACATGCAAAAGTAAGTTTGAGGCTTGTGCCTGATCAAAAACCAAATGAGATAGAAACTTTATTTGAAAATTATATTAAAAAAATTTCACCTAATGAGATAAACATTCATATTGAAAGAATGCATGGAGGAAATCCCTTTATAAGTGATATTACCCATCCAGCATTCAAGGCTGCATCTTTAGCACTTGAAAAAGGTTTTGGTAAAAAAGCAGTTTTCATTCGAGAAGGTGGATCAATTCCAATTGTAAATAATATGTGTGATGTTTTAAATGTAAATTGTTTGCTTATAGGATTTGGTTTGCCAGGTGAAAATGCGCACGCGCCTGATGAATGGCTTGATTTAGACAATTATAGACTAGGTATTGAAAGTGCTATTCATCTTTATAAAGGTTTAAGTGAAGTTAAATTTTAAATATTTTATAATTTTTATAAATTTACTTCTTAATGGGTTTTTATTTTCTCAAAATAATTTAATTGACGAAATTCAAATATCCGGAAATAAAAATACTAAAGATAAAATCATACTTAGAGAAATTTATCAAGAAAAAAATTCTTTTTTGGATAGTAGTGTTGTAAAAAGTGACATTCAAAGATTGCTTAATCTTGGAATTTTTACAGATGTTAGGTTTGAGGTAAAAACTATTCAAGATAGATTAATTCTAAATTATCATGTAATTGAGCATTCTTTAAAAATTATTCCAGGATTCACTCCAATTTATTCAGAAGAAAAGGGTTGGTCATATGCATTTTTTGCTGAGATTATGAATTTTAGAGGACTGAATCAAAGTTTGGATGCTGGTATGATTATAGGAGAAATGAATACAATAGGAATTTCATTTAAAGATCCTTGGATCATAGGCAATCACATTTCATTTGCATTTGATATTATGCTTGATGAATGGAACCATACTTTTCTTCCATATTATTTATATAGAGATTATTATGGAATTAGTTTCGGAAAATGGTGGGATTACAAATTAAAATTATCTTTAGATTTAGCATTTAGAAAAGAAAAATTTTCATCTAAGGATTTAAATTTTTCAACTGATGAATTTAAAATTTTCAATATAAAACCAACTTTTAGTTATGATAAAAGAGATGTTTATAGAAACCCAACAACTGGTTTTCTAATATTTTCTATTTTTGATTATAATCATATTTATAACAAAGATACATATCGATTAATTGTTACTAATTCATTTTCTAAATACTTTAATTTCAAAAACTTTACATTTGGATTTAACACATCTTTTTCAACCCTCTTTGGATATGATGATCAAAAAATGATAAAGTATTTTGGAGGTTTAAATTCAATAAGAGGTTGGAAGGTTCCTTCGTCTATGAATTTTAAAGACTCTAATGATCAATATAGATTTGGAAATCATAATCTAATTTTTTCTTCAGAAATTAGAAAAGATTTAATCAAATATAGTTCATTGAATATTATGGATTTGAACTTTGAAAAGGGTTTAACATCATTAATATTTTATGATATAGGATTTAATTCACAAGAATTGGAAAGCCTTTTAATTTCAAATAATTTACCATTAATAGGTTTTGGATTTGGATTAAGAGTTCCTTTTTTAGGTAATGTTATTGGGCCTGATTTTGGTTGGTCTTATTATAATAAAAATTTTATTTCTTCAGCTATTCATATTAGAGTTGGTCATAAATTTTAGTTTATTTTTTTTTAAATAATTTAATTTTATGAAATTTATTTTCTGTTCCATTTAAAATTCTTTTAATGTTTTCTTGGTGTGTAATTAATACAAATAGTGGAATTACAATTGAAAAGACAATAATACTCATATTGATTTCAAAGTTGAAGAATAAAAATAAAAAAATAAGTGAAAATGGAAAAACTAATGACGCTAAAATTGAACTTAGAGATACATAGCCTGATAATAATAAAGTTAAAAAAAAAATTAATAAACAACTGATGAATGAAAAAGGTGTAATCGCTATAATTAAACCAGTTAATGTGGCAATCCCTTTACCGCCTTTAAATTTTGAAAAAATTGAAAAAGTATGTCCAATTACTGCACTTGATCCGGCAATAATTTGAACAAGACTTATAAAAAATTCTGAATTATTATTTAATATTAAAAATGGTGAATAAAAAGTAACAATCCATCCTTTAAAAATATCAATGAGACCTACTAATAATCCTGGTTTAATACCAATCGATCTAATTACGTTAGTCATTCCAGGGTTTCCGCTTCCCTCTTTTAAAATATTAATTCCATAGCTCCTACTAATTAAAATGCTAGTTGGGAAGGATCCAACTATATAGGAAACAGTAATAATGATAAGAATGATAATCAAAACTTTAAATAATTATAGTTAAATTTAATAAAATTATGTAGTTTATATTAATATAAAAATTCTTTAAATCGGCTCGGAAGTTTTGTCTCACCCTCCTTAACCCCACTTGTCTTTCGAGCCGTACATACTGATTTAATTTAGCTTGGAATTTGATTTATATCAGGAGCAATTACTCCACCGGAAATAATAACTTTGAAACCCTCTTCAACGGAAATATTAGCATCTATTGTTTTATTTTTTTTCATCATGAGGAAATATCCTGTTGTTGGATTTGGAGTTGTTGTTACAAAAAGATGATAATATTCGATTCCGTTGTGATCTTTTGATTCTCCTGTCACAAATGCAAGAGTCCAGCTCTCAGCATGAGGGTAGGGAATTAAAACTGTTTTTTGAAAAGCTTTTTTAGATGATGTTCCAACCGATTCAACAATTTGTTTTGCTGTCCCATAAATCGTTTTTGCAAATGGGATTCTATTAATAATATTTTCTCCAAATGTAATTAATTGTTTTCCTAAAAAATTAGTTACCAATACGCCTAGTAAATATAAAATTAATAATGTCAACATTATTCCTACTCCAGGTATATCTAAAGGGATTATAGTGTCAATCAATGGAGATGCAAGATTGTCAAAGAAATTAAATAAAAAAAGTAAAATCCATATAGTGGCCATTATGGGGGTTAGAGTTATCAACCCAGCTGTAATTTTTCTTCTTAGATGTTTAACCATGAATAAATTTAATTTGAATTATTTAATAATTTGAAAAAAAATAATTTTTTTACGTTAGTGAAAATGGAAGTTTTCTTAGCCTTTTTCCAGTAGCATTAAAAATTGCATTTCCCAATGCTGGAGCAATTGGAGGGAGACCAGGTTCTCCTGCTCCAGTTGGATTTTCTGAACTTTCTACAATATATGTATGAATTTTAGGCATTTGATCAATTGAAAGAAGTTGAAAGTCATGAAAATTTGATTGTTCAACAGCACCATTTTCAATTGTTAGTTCGCCAGCTAAAGTTGAGGTTAATCCATAAACTATACATCCCTCCATTTGAGCTTTTACCCCATCTGGATTAATTACGATTCCACAATCTACAGTTGCATATACATTATCTATTGAAAATGTATTGTCTTTATTCATTGTAATTTCTACAACTTGAGCTGTCCATGAACCAAAAGATTCATGGATTGCAAAACCTCTTCCTTGATTAGGTTTTAATTTTTTTGTAAACCATTTTGATTTTTCTGCTACAAGATTTAATACACCAAGATGACGTTTTGATTTTGATAATAATTTTTTTCTGAATTCGATTGGATCTTTTTTATTGATGAATGCTATTTCATCCATAAAACATTCGTTTGCAAATGCATTTTGAGAGTTGTAAACAGCCCTCCACCATCCAATTGGAACTTCTGTATTAGCACATTTATATTCAATTAACATATTTTTAAATTCATAAGGTAAATTTATACCGCCTTGTCCTACAGTACCTTTATCTAAATCTCTATTCTCGTTATCTCCCCAATGATATGCACTAATTGAAGGTGAAATTATTTTATGACACCATGATGTTGGATTGTTTTTTTTATCAAAAGTTGATACTAGCTTGTGAACACTTGCAGGCCTGTTCATACCATGTTTTAAGTCAGTTTCTCTGTCCCAAGTTAATTTTATTGGTTTTTTAATTACTTTTGCAATTTCAACACATTCAAGAGCATAATCGTTAAATAATCTTCTTCCAAAACCTCCACCAAGTAATGTAACATGTACTTTAACATTGTCTGGATCAAAATTTAAATTTTCTGCAATATCTTCCTTAAGTCCACCTGGAACTTGTGTTGGAGCCCAAACTTCACATAAATCATCTGATACTTTAGCGACACAATTCATAGGTTCAAGAGTTGCATGAGCTGTAAATGGAAGTTCATATGTTGATTCTAAAGTAAAACTGGATGATTTTATTGCTTTTTGAACATTTCCTTTTTTCTTGGCAGTTGTTGCTTTTAAGTTTGATTTTTCAATCATCATATTTTTAATTTTTTCAGAATTCCACTGATAAAATTCACCATAATCCCATTGAACTTTAATTTTGGACTTTGCTTTAAAGACCGACCATGTATTTTTTCCAACTATGGCAATTTTATTATCAAACTCAAAAATTTTAATTATTCCTGAAACTTTTAATGCATCTGATGAATCATATGATTTTAATTTTGATCCAAATGAAGGACATTTTATTATTGTTGCATATAACATATCAGGAACAACAGTATCTATGCCATACATTGCAGAGCCATTTGTTCTATCAACAGTGTCTAAACCTCTCATAGATTTACCTATGATTTTAAAATCACTTCGGTTTTTAAGTTTTGGATTAGAAGGAACAGAATATGTGGTTGCTTTCTCAACAAGTTGTCCAAATGTAAATTCTTTTTTTGTTTTAATATGAATTACTTTGTTTAGCTCTGCTTTACATTCATTAACATCTACATCCCATTTTTCGGCTGCAGCTTTTATAAGCATTTCTTTAGCAGCTGCACCTGTTTTTCTTAATATTGGGAATAGTTCCCTTATAGAGCCACTTCCTCCAGTACCTTGATCTCCATATTTTGATTCATCTGCATCAGCTTGCAAAACTTTTACTAAATTCCAATCAGCTTCTAATTCTTCAGATAAAATCATCGGTAGGGAAGTTCTTACATGTTGACCCATATCTGATTTAGTAGCAGTAATTACTATTGAATTATCAGAATTAATTGTGACAAAAGCACTAGGAGTAAATTGTTTAGATTTTAAAGATGAGCCATAAAGTTTAGTAGTATTGGGTAAAATACCTAAAATTAAACTTGTAGTTGAAGATGCAATTTTGATAAAATCTCTTCTATTGATATTTTTTTGATTCATCATAATTCTTTTGCAGCTTTTTTAATAGCTTTTCTAATTCTTTGATATGTACCACATCTACATAAATTCATTTTCATTGCATTATCAATGTCATTGTCATCAGGATTATTATTTTTTTCCAGAAGGCTAGCTGCAGTCATTATTTGACCTGATTGACAATAACCACATTGAGGCACTTCTTCTTCAATCCAAGCTTTTTGAAGAACATGTGAAGTATTTTCTGATAGACCCTCAATAGTGGTGATTTTAGCACCATCTTCCAGGTTGTCAATTGCGGTTACGCATGATCTTGTAGCTTCACCATCAACGTGAATTGTACATGTTCCACATAGACCTCTACCACACCCAAATTTTGTACCAGTAAGCCCTATTGTATCTCTCAAAACCCATAAAATTGGTGTATCATCATCAACTGAAACTTTATGAGTTTCACCATTAATTTTTAAGGAATATTCTTTCATAAACACACAAATATATTTGTAATAATATAATTTAATGATTTAATTGAGTCAAGCAGTGAAAAAGATTTTAATTTTGAGTATTAAATTTTTTCTGCCAAAGTAAAACTACTGGACTAGCAATATAAATTGATGAATATGTTCCAACCATAACACCTATTATCATCGCAAAAGCAAAATATTTAATCACTTCACCTCCTGATAAGTAAAGTATAAATACAACAATAAATGTAGTTAATGATGTAATAACAGTTCTGGAAAGGGATTCATTAATGCTTTGATTAAAAATTTGAATATTTTTTTCAGATTTAATTTTTTTCAAATTTTCTCTTATTCTATCAAATACCACAATTGTATCATTTAAAGAGTAACCCACAATTGTTAAAAATGCAGCAATGATGGGTAAAGAAATTTCATACCCTAAAATTGAAAAAATTCCTAGTGTGATCAGAACATCATGAACTAAGGCAGATATTGCACCAATTGCAAAACTCAATTCAAATCTGATGGATATATAAAGTAAAATACCTATTATTGCGAAAATGATGGACATTAAAGCTTTTCCTTGAAGTTCGGATCCTATTTTAGGACCTACTGTTTCAAATCTTCTAAATTCAATATTTTCATTTGGAAATTCTTGAGAAAAAACATCTTTTAAAATCGATAAGATATCTTCGGATTTATAACTACCCTTTATCCTAATAATAATTTCATTAGAACTTCCAAAAGTTTGAACTTCAGAAATTCCAATATTTAATTTATCTAGTGAACTTCTTAATTCTGTAATATTTGGCGATGATTCCATTTGAATTTGAGCAAGTGTGCCACCAGTAAAATCAATGCCTAAAATTGGGCCTCCTCTTAAAACCAATGATATAATACCAGCTAAAATAAATGAACTTGATATAACTAATCCAAACTTTTGAGAACCTAAAAAATCAAAATTTGTTTTTTTTATTAATTTCATATGCTTAGTGACTTTAAGTTTTTATTGTTCGTTATAATATTGAATATTGTTTTAGAGGTAAAAATTGCAGTAAACATACTTGTTAAAATTCCACAGCATAAAACAATTGCAAAACCTCTAATTGGACCAGAACCAAACTGATATAAAATAAGTGCTGCTAAAATTGTTGTTACGTTAGCATCAACTATAGTAGTGATTGCTCTGGAGAAACCACTTTCGACCGCAGACTTTGATTTTTTACCTTTTTCTAATTCTTCTCTTATTCTTTCAAAAATAATAACATTAGCATCAACAGCCATTCCCACTGTTAAAATTAAACCTGCTATACCTGGTAATGTTAAAGTTGCATCTAACATGGACAATATTGATAAAACTAATATAAGATTAAAGATTAAACCAGTTGATGCTATGAAACCTGATCCGCGATAGTAAAAAACCATGAAAATCAAAATTAATATTAATCCTATTATAACAGAACGTGTGCCTTTCTCAATAGAATCTCTTCCTAAAGAGGGCCCAATTGTTCTTTCTTCAATTATATTGACTGGTGCTGGAAGGGCGCCTGCTCTAAGAACAATAGCAATGTCTTTTGCTTCATTCATATTAGCAAAACCTTCAACTTGAGTTTGTCCATCACTAATTTTAGATCGAATGGTCGGAGCCATTCTTACATTATTATCAAGGACAATTGCAAGTCGTTTTCCAATATTTGCTCCTGTTAATCTAGACCATATTTTAGCTCCTTCTGAATTCATGCTTAAGCTAACTATTGGTTGACCATTATAAAAACTAGCTTTCGCTTCTTGAATTAGACCTCCGCTTAAACCTTTATTTGATTCAAGATGATACATTTTAAAAAATGATTCGGTTCCTCCCTCTGGAAGAGTCCATACTTCTTTATCTTTACTAAACGAAATTTTACTCTCTTCATTTTGTAATGATGTTTGAATATCTTCCATTTCAATGATTTTTTTAATAGCAAATAAGTTTTTTTCTGGTACACCCAAATCATTTCCAGTTTGTCTTAGAAGAGAAGAAAAAGGTCTTTCTTGAAAAATATCCTTGTCTACAACAACACCATCTGATGTGTTACTTGACATTAGTGTGTCATCATCTACAGAACTGAATAGCTCAGTAATTGAAACTTCTTGATCATTAGTTGTTTTGGTTTCAGCTGGTTCAAAGGAATCAGTTTTCTCATCATTGCTTGAAACAATAGCAGCAACATCAGAATTCCCCTTGAGAATTTTGTCAATACGAGAAATTAAATTTTGTGTTATTGCACCATCTTTAAGAAGAGAAAATTCTAGTAAGGCTGTGCTTTGTAATAAAGATCTAGCTCTTGAAGGATCTTGTACTCCAGCAAGTTCAACGATGATTCTTTGATTACCTTGTTTTTGGATTGTAGGTTCAGAAACTCCAAATTCATCAACCCGATTTTGAAGAATTTCTAGAACTCTATTTAAAGCATCATCTCTTTCTTTTTCAAGAGTTTGTTTGATTGTTAAACCATTTGAAGATATATCACTAAAATATCTATTTAATCTTAATTCATTATTTTCCGAATCTTCGATGAATTGATCAATAAAACTTTGATTTAAGTTGTAATTTTCCTTGGTATAATTAAAAGTTGTATAAAATTTATTGTTTTTATTATTAGCAAGGTTTTCAATGAGGGTAGGAATGTCAATCTCAAGTAAAATATGCATTCCCCCTTGTAAATCTAATCCTTGTTTTAGAACTTTGTTTTGCAATTTTTCTAATTTTCCATCAACTAAAAGATTATTTTTTTCTTCTTCTGATAAAAAATTAAATTTGAAAGTTGGAAATAATGTATAGATTGCCCATAACAAAATTAATCCAATAAATAATAGTCTGGGTGTTTGTTTATTCATATTTACATTTTGTTTAAATTTTCATTAATAAAAACATTCAAATATACTTTGATGATTTTTCACTCCATAACATTTTTTTATAATTAAACTTATTTTTAGTATAGTTTAACTTAAATTAGAAATTAGATATGGGAAAAATAATAGCTTTTACTAATCAAAAAGGTGGTGTTGGTAAAACAACATCAGCTATAAATGTTGCAACCAGTCTGGCTGTATCAGAATTAAAAACCTTAATAATTGATTTAGATCCGCAAGCAAATGCTACAACAGGTTTTTCTGATTTATTTGAAAAACAAAAATCAAATATTTATAATGTTTTAATTGAAAAAGAATCTATTTTATCTTCAATTACTAAAACAAAATTAAAATTTTTAGATATTATCTCAAGTACTAATGATTTAGTAGGAGCTGAAATTGAATTAGTAAGTATGATCGGCCGTGAATATAGGTTAAAAGAATGTTTGAATGATTTACAAGACAAATATGATTATATAATATTAGATTGTCCACCTTCACTTGGATTATTGACCTTAAATGCTTTGTCTGCATCTAATTCGGTATTAATTCCAATTCAATGTGAATATTTTGCTCTAGAAGGTTTAAGCCAATTATTACAAACCGTAAGATTAGTTCAAAGACATCTAAATAAAAATCTAGATATTGAAGGAGTATTAATTACAATGTATGATTCTAGGTTAAATTTGTGTAAGCAAGTTGAAAAAGAGGTAAGAGAATACTTTGATGGTACAACTTTCAAAACGATGATAAGAAGAAATGTTAGATTAAGCGAAGCACCAAGTTTTGGTAAACCTATATTGTTATATGATGCAAATTCTACTGGTTCGCAAGATTATTTAACTCTAGTTCAGGAGATTATAAATCGTGAAAACAAATAGACTTGGCAGAGGGATAGGAGCATTAATTGAAGATAAATTAAATGACCAATCATCACAAAATATTATTAAAAATATTATGATTGCTGATATAAAGATGAATCCATTTCAACCAAGAATAGAATTTGATGATAATAAAATCAAAAAATTAGCTTCTTCTATAAAAGAAAAAGGATTAATTACACCAATTAGTGTAAGATATATAAAAAATTCATATCAGTTAGTTGCTGGAGAAAGAAGACTTAGAGCTTCAAAAGTTGCTGGTTTAAAAGAAATTCCAGCATATGTTTTAAATATTGAAACAGATTTAGAAATGATGGAATTAGCTTTAATTGAGAATTTGCAGAGAGAGGATTTAGATATATTTGAAGAAGCAAAAGCTTATTTAATGATGATTGAAAAATACAAGTTTTCTCATGATGAAATTGGAAAAATCGTAGGAAAAAGCAGGGCAAATATATCTAATACTTTAAGGTTGTTAAAGCTTCCAAAAGAAATAATGGAGAGTTTAAGAAAAAAGGAAATTAGTGCAGGTCATGCGAGAGCTTTGTTAGGAATTAAAAATCCAAAAAAAATTAAAGAAGTTTGGCAAAGAATATTAGAAAGAGAAGAATCTGTTAGGTCAACTGAAGAACTAATTTCATTTCTTAATAAAAAAGAAAAAGAAAATAAAAACTCAAATTCTGATATTACAAGATTTAACAATCATTCATTAAAAGTTAATAATTTTAAAATTTTAGAAGATGAATTAATAGAAATCATGGGCACTAAGGTTGTTATTTCTAAAAAAAATAAAATTGGAAAAGTAGAAATTAGTTTTTTTTCAGATGATGATTTCAATAGATTAATAGAAATTCTCAGGAAAATTAACATCAATTAAATAAAATAAAATTGTGGCATCAGAAAAATTTACATTTCTTATAGTTTCTCAAAAATCAGAAAAAACATTAAAGTTTCAATTTAATTTGAGAAATTTAATTATTGTCTTTTCTTTTATTATTTTAATTATTTTTTTAGGTTTTTTTTCGATTTATAGAGCATATAAAATTAATTTTGAATATGTCTCAATTAAAAAAGATTATGAAAAAATGTTATCTGAGAGAAATAAAGTTATTCAAATGACTAGAGACCTTAATAGAATTAATGAAATGGATGTTTATGTTAGAAATTCTTTGGGGATTTCAAATAGTTTTGATTCTGATACTTTATTAAATAGTTATGTAGAACAAAATATTCCTGTTTCATATATTAAAAATATTCCCTCTTTTTCTCCTGTTTCAGGTTTTGTTTCTCAAAAATTCAATTCAAAATCTGAAAAGAATATAAACCATCACACAGGTTTAGATATTGTAGCTCCTTTAAAAACTCCTTTTCATTCAACCGCAGATGGCCACGTATTATTTTCTGGTTGGAAATATCCATTTGGAAATACAATAATTATATATCATGGTGAGGATTATTTTTCATTTTATGGTCATAATTTTGAAAACCTTGTTTTTGAAAAAGAACGTGTAAAAAGGGGACAAATTATTGGATTGATTGGTAATAGTGGGGAAACTAGTGGTCCTCATTTACACTTTGAAATTTGGAAAAATGGGGTTGCAATTGACCCAAGTATATTTATTTCAGAATATAGATTGGAGAATTAAATTTGGGGATGATAAAAAAAGAATTAAATAAACATGTTGAGACAATGATTGGTGAAGATGTAACAATTTCAGGAGAATTAAAATTAAGTGGTGGAGCTATAATTTCAGGCATGATTAAAGGAGATGTTATAACTTCTGGAATAATTAGGCTCACGACAAATGGAGTAGTTGAAGGAAATGTGATTGCTAGCGAGGCTACTGTTGGAGGAGAGATTCGTGGAAATGTTAGAGCTCATAAAATAATTCTTAGAGAAAATTCAAAAGTTGATGGAGATATTATTTACAAGAAACTAATAATTGAGGAAGGTGCAAGTTTTCAAGGTAGATGTGACTTAGATACTGATGATTCTTTTAATGATTCAATTAGTAATTCTCAGCAAAAAACGAAAGATGATTGAAAAAATAAAAAAAATTTCAATCATTATTAGTAAATCTGCTCCTTATTTGAATATTGTATATTCTCAGGCATCAGCTGTAATTATCTTTTCTATTATAGGCTATTTTTTAGATTTATGGTTTTCAACTGAAATTATTTTCACCTTAATAGGTTTAATTATAGGTTTGGGTTTTTCATTATATCTGCTTGCAAAAACGATTTGGAATAAATAAATGAATTCTAAAACATTTTCAACTTATATAGTTTTATTTTCTTTAATGACATTTTTGATATTTAGTTTTCTTTTAAAGTTTAAATTGGAAATTTTTTTTGGGTTGATCATTCCATTATTTGGGAGTCTATTCTCTTCGAATATTGTTTATTATTTATTTAAAAACACTCCTAAAAAATTAACATCATTTATGATTCAATCATTTTTTTTAAAGATGTTGGTTTATGGATTTTTTTTAATTTTATTTTTCAATTTTTCTTCTTTTAATCAACGGGTTTTTTTTATTAGTTTCATTAGTTATTTTATTACGTTTCATTTAATGGAAGCGTTATTTATTAAACATATTTTTAATAAAGGATAAAGTACTTTTGGCTAAAGAAAAAAGTCAAAGCGTTATGGATAGTGTTGGAGATCATATTCTTCATCATATTTCTAATTCTTCTTTAGATAAAGATTTAATTTTTGAACTTCCAACTATATTTGGAATCAATTTTTCAGTTACAAAACATGTATTAATGATTTGGCTATCATGTTTAATTGTTAGTTTAATTGTAATAATTCCAACAAGAATATATATCAATAGTAAAAATAAAGTTCCTAGCGGTATGTCAAATGCTATCGAGGCTGTTGTTTCTTTTATAAAAGATTCAATTGTTAAACCAAATATTGGTTCTAAGTGGTCAGATACTTGGACTCCATTAATTTTAACTTATTTTTTCTTTATATTAGTTGCTAATGGTATTGGATTAATTCCTATTTTTGATTTCATAGGGGCCTCAAGTAGATTTATTTTTGGTCTTAAATATGGAGAAGATGCTTTTGTGAATAACCTTTTACATGGTGGGGCCACTGCAACTGGAAATTTTTGGGTAACTTCTGCATTGTCATTTATTACATTTATATCAATAATAATAGCAGGAACTATGGCTCATGGCTTTATTAATCATTGGAAAAATATCGTTCCAAAGGGTTTGGCATGGCCCGTTTATATTATTTTGATTCCAATTGAAATTATTGGAATGTTTGTAAAACCGTTTGCGCTTACAATGAGGCTTGCGGCAAACATGACTGGTGGTCATATCGCTATTTTAGCAATTTTATCATTTATTGCTATTTTTGCAGAGGTTTTTAAAACTTCAATGGCTGGTTTTGGTATTGCATTGTTTGCAGTACCTCTTGTATCGGCTATTACAGGTCTTGAAATTATTGTTACAATAGTTCAAGCATATGTTTTCACATTACTATCAGCTGTATTTATAGGTATGGCTATTAACGTTCATCATTAATTAGGAGATATAAAATAATGGAAGCTACTACATTAATTCCAATAGGTATGGGACTCATCGTAATTGGAGCTGCAATTGGTATTTCAAGATTCGCAGCAGCAGCAGCAGAAAGTATTGCTAGACAGCCTCAGGCTGCAGCGGATATTACTGCCGCTATAAATTTACCTTTGTTCCTTCTTGAAGGTGTTGCAATCATAGCTGAAGCTCTTACATTTGCAACGATCTTTTTTGGTTAAAATTAAAATTCAAGCAACAGAGGAGGGTAGATTATGAAAAATTTCATATCAAAATTATTTTTTGATTTAGGTAGACTAAAAGTTTTAACAATAATTTTTCTTGTTAATTTTTCTTATGCCGCAGAATCAGCAGATGATTCAAACCCTCTTCTTGTTCTTGACCCAGGTCTTTTTGTTTGGACCATTTTAAGTTTTTTACTTTTAATGTTTCTTCTTTCAAAATTTGCATGGAAACCATTGCTGAAAATGCTTAATGAAAGAGAAGAAAAAATAAGAACAGCTATTGAAAAAGCTGAAAATGCTGAAAAAAAACTTGAAACTCTAAATGAACAAGGTGAAAAAATACTGAGTGATGCTAGATCTGAATCTCAAAAATTATTGTTATCTACCAAAGAAACAGCACAAAATCTGAAAGAAGAAATTGAACGAGAAGCTAAACAAAAAGCAACTTCAATTATTGATCAAGCTAGAGTGCAAATTCAAGCTGAAAAAAATCAAGTTTTAAGTGAAATCAAAAATGAATTATCTTCATTTTCAATTATGATTGCAGAAAAATTAATTAAGAAAAATATTAATAAAGATGACAATATGAAATTAATTAATGAATCAATAGAAAAAGTTAATAAAATTAATGAAGCATAAATCTAAAGTAAAAGTTTACACTAATTCCTTAAGAAATATTGCATCTAAAATGAAAATTTTTAAGGAGGTGAATGAATCTTTAAATATTATTCTTACTTTTTTTCAAAAAGATTCAACATTTAGAAGTTTTTTATATTCAAAATCAATTAATGGAGATGATAAATCTTTGATTATATCTAAAATTTTCAAAAAAAAATGTCATCCAGTTGTTTGTGAAATGATAAGTATTTTATCAGATAAAAATGAATTGTCTTTATTAAAAAAAATTACGCAAAATTTTACAAAACAAAATAATCAAATAAGCAAAATTATAAAAATAAAAGCTTATTTAGCTAAAGAATTAAATGATGATGAGCAAAATATTATAAAATTGAAAATGGACAAACTTTTTAAAGAATCAATCCAACTTGATTTTCATGTTGGATCTGAATTAATTGGTGGAGTAAAACTTAGAGTTGATAACTTATTGATTGATGGTTCAATTCAAGGGCAATTAAAAAGATTAAAAGATCAAATAAATTAATATTAAAAAAAGGTTTTAATTGATATGGAAATAAAAATAGATGAAATAAAGAGCTTGCTCTCAGAAGAGATAGAAAAGTTTAATGTTAACATTGATGTTTCTGAGGTTGGAGAAGTTTTAGATGTTGGAGATGGTGTAGCTAGGGTAAGTGGGCTTGAGAATGTTATGAGTTCTGAATTAGTAGAATTACCTAATGATGTTTTTGGTATGGCTTTAAACCTTGAAGAAGATAATGTTGGGCTTGTACTTTTTGGTGAAAGTCAAAAAGTTAAAGAGGGTGATATTGCTAAAAGAACTGGTAAGGTTGTTCAAGTTCCTGTTGGAAAAGAAATGTTGGGAAGAGTTGTCAATCCTTTAGGTCAACCAATAGATGGTAAAGGAGAAATAAAAAATAAAATATCTAAGCCAATTGAAGAAAAAGCACTTGGTGTTTTGCAAAGACAACCTGTGACTGAGCCATTACAAACTGGTTTAAAATCAATTGATAGTATGATTCCAATTGGAAGAGGTCAAAGAGAATTAATAATTGGTGATCGTCAAACTGGTAAAACTGCTGTAGCAATAGATGCAATTATTAATCAAAAATCTACTCATGATGGTGAAAATCCAGTTTATTGTATTTATGTAGCAATCGGTCAAAAAGCCTCAACAGTTGCTCAAGTTGTTGCAAAATTAGAAGAGAGCGGAGCTATGGAGTATACGATTGTAGTAACTGCAAATGCATCTGATCCAGCTCCATTACAATTCATTGCACCATATTCTGGTTGTACAATGGGAGAATTCTTTAGAGATAAGGGAGGTCATGCATTAGTTGTATATGATGATTTATCTAAACATTCACAAGCATATCGTCAGATGTCACTTCTTTTGAGAAGGCCACCAGGTAGAGAAGCATTTCCTGGAGATGTTTTTTACCTTCATAGTAGACTTCTTGAAAGAGCAAGTAAATTAAGTGAAGATTTAGGTTCAGGTTCTTTGACTGCTTTGCCCGTGATTGAAACTCAAGAGGGTGATGTTGCAGCTTATATTCCAACAAATGTAATATCAATAACTGATGGGCAAATTTATTTAGAATCAAATTTGTTTAATGCTGGAATTCGTCCTGCTATTGATGTGGGAATTTCCGTTTCAAGAGTTGGAGGAAATGCACAAATTAAAGCAATGAAAAAAATTGCAGGTATGTTAAGGTTGGATCTAGCTCAGTATAGAGAGCTTGAAGCTTTTGCCAAATTTGGCTCTGATCTTGATAAAGCAACACAGAGACAACTCACCAGAGGTGAAAGAATGGTTGAGATTTTAAAACAAGGTCAATATGAACCACTCTCCGTTGAAAAGCAAATTGCAATAATTTGGGCAGGAAATAGTGGACATTTAGATGAAATTCCTATTGAGAAAATTAAAGATTTTGAAGATGGTTTTTTGTCATATTTAGAAACATCAGAGAGTTCAATTTTAGCTGATATTATTGATAAATCTGAGATAACTGACGAAATAAAAAATGATCTTGAGAAAGCCGTAAATAATTTTAAAAAAACATTTGCATAGACTAAAATGGCAAATTTAAAAGATATAAGAGATAGAATTAAATCTGTAAAGAGTATTCAACAGGTAACTAAAGCTATGAAATTAGTAGCTGCTGCAAAAATGAGAAAAGCACAAGAAAGAATGGAACAAGCAAGGCCATATGAAGAAAATTTAGCAAATATGATTTCTTCTCTAATATCTAATATTGATGAATCGTCATCTCCACTTTTTCAATCAAAAAAATCTAAAAGGGAATTATTAATAGTTGTTACTTCAGATAGAGGAATGGCTGGTGCATTTAATGCAAATATTATAAGGAAAGCTGAAGAAAGAGTTATTTTGCTCGGAAAAGAAAATCTTGATTTATTTTTTATAGGTAAAAAAGGAAGTGATCATTTTAAGAGTAGGGGTTATGATATTGTAGATTCTTATAATGATTTTTGGAATGATCTTAATTTTACTGATGCTATGAAATTTTCATCTGATGTAATTAATAAATTTTTAGAAAATGATATAGGTAAAGTAAATGTAGTATATAATTGGTTTAGGAATGTTGCGGTTCAGGAAGCTAGGTTTGAAAATTTTCTACCTATCGCTTTTGAAAAAAAATCAAATTTTTCTAATGATGATCAATTATTTGAACCTTCAAAAAAAATGATTGTAAAATCGTTAATACCTAGACATTTAAATTTTCAAATATGGAAATATCTTTTAGAGTCTTATGCAAGCGAACAGGCTGCAAGGATGGTAGCTATGGATAATGCTACTGAAAATGGACAAGAATTGATTAAAGATTTAACTTTAGATTTTAACAAAGCTAGGCAAGCAGCTATCACTAAAGAAATGTTAGAAATTGTAGGTGGAGCTGAAGCCTTGGCAACAAATTAAGGTAAAAAAAAATGAAAAAAATAGGAAAAATTTCACAAATAATGGGAGCAGTTGTTGATGTGTCATTTGAAGATGGTCAAATGCCAAATATTTTAAATGCATTATCAATTGAAAGAAATGATGACAAGCCATTAATTTTAGAAGTAGCTCAACATCTTGGTGATTCAATTGTAAGAACTGTTGCTATGGATTCAACAGATGGTTTAATACGTGGTCAAAAAGTAATTGATACTGACAAACCTATCACTGTACCAGTAGGTGAAAAAACACTTGGTAGACTTTTTGATGTTCTTGGTAATCCAATTGATGGAAAGGAACCTCCTCAAACGAAGATAAATTCTCCAATTCATCGTAAAGCTCCAGAACACAAAGATTTGAGTACATCAAGAGAAGTTTTAGAAACGGGAATAAAAGTTGTTGATTTAATGGAGCCATATACAAAAGGTGGTAAAACGGGTCTTTTTGGAGGAGCTGGTGTAGGTAAAACAGTTTTAATTCAAGAATTAATACATAATATTGCGACTGAACATGGAGGATATTCTGTTTTTTCTGGTGTAGGTGAAAGAACTAGAGAAGGAAATGATTTATTTAGAGAAATGACTGAGTCTGGGGTTATAGATAAAACAGTTATGGTGTTTGGTCAAATGAATGAACCTCCAGGTGCAAGATTGAGAGTAGGTTTAACTGGATTGACAATGGCAGAATACTTTCGTGATCAAGAAGGTAGAGATGTTTTATTATTTGTTGATAATATTTTTAGGTTTACTCAAGCAGGTTCAGAAGTTTCCGCGTTATTAGGAAGAATGCCATCTGCCGTAGGTTATCAACCAACTCTTTCAACAGAAATGGGAGAACTGCAAGAAAGAATTACTTCAACTAATAAAGGTTCTGTGACTTCAGTTCAAGCAGTATATGTTCCTGCAGATGATTTAACAGATCCAGCGCCTGCTACAAGTTTTGCACATCTCGATGCTACAACAGTTCTTGATAGAAGGATTTCTGAGCTTGGAATTTATCCTGCTGTAGATCCTTTAACATCCTCATCAAGGGTTCTTGATCCAAATGTAGTAGGAGATAAACATTATAATGTTGCAAGAGAAGTTCAAAAGATCTTACAAAAATATAAAGAATTGCAAGATATCATAGCTATTCTTGGATTGGAAGAATTATCTGATGATGATAAGATAATTGTTGCTCGTGCTAGAAAAATTCAAAGATTTTTATCTCAACCTTTTTTCGTGGCAGAACAATTCACTGGTACTCCTGGAAGGTATGTTAAGCTTGAGGATAGTGTAGATGGCTTTGATAGAATTATAAAAGGTGAATTTGATGACCTTCCTGAACAAGCATTTTTGTATGTTGGAACTATTGATGAAGTAGTAGAAAAAGCAAAAGGAATGAATTCTGAGTGAGTTATTTTGATTTAAAAATTGTAACTCCTACAAAATCCATTGATTTTGAATCAGTAAATTATGTAAGATGTCCAGGATTAAAGGGATTATTTGGCATAATGTCAAATCATCAAAAGGGAATTTTTGCTTTAGACATTGGTGAAATTAAAGTCGATAATAAAAAATCTTCTTCATTTTATTCAACAAGTGGTGGATATGCTGAGTTTAAAGATAATAAATTATTATTATTGCTTGAAACTGTTGAATCTAAAAGTGAAATTGATAAAATCAGAGCTGAAGCTGCTTTAAAAAGAGCAAATGAAAGATTAAAATCCAATGAAGGGGACGAAACTAGAGCAAAAGCATCGCTAATAAGAGCTCAAAATCGATTAAAAATTATTTCAAGATAATTTTATATATTTAATAAAATAAATTAATATGTTTAAAAGAACACATACTTGCGGAGAGTTAACATCATCTAATGTAGATCAAACTACTTCATTGAATGGTTGGGTATATCGTACTCGAGATCATGGCGGACTTATATTTATTGATTTAAGAGATAGGTATGGTATAACACAAATAAAATTTGATGAAAATGATTCGGAAGAAGCTTTTTTAACTGCTAAAGCTATTTCTATTGAAGATGTTATATCGGTAAAAGGAACTGTGGTTTCTAGAGATAGTGAAGCTATCAATAAAGAACTTTTAACCGGTGAAATTGAAGTTAATATTGAATCTATAATTATTTTAAATGAATCTAAGCCATTGCCATTTATGATTAGTGATAGAGAAGGTGCATCTGAAGAGACAAGATTAAAATATAGATATTTGGAATTAAGAACCGACCAAATGCAAAAAAATATGCTTATCAGACATAAAACTTATCAAGAAGTAAGAAAATATTTATCATCAAATGATTTTATTGAATTTGAAACTCCTGTTCTAATGAGAGCAACTCCTGAGGGAGCAAGAGATTTTTTGGTTCCAAGTAGGCTTCATAAAGGTCAATTTTATGCACTTCCTCAATCACCTCAACAGTATAAACAAATTTTAATGGTTTCAGGGTTTGATAGGTATTTTCAAATAGTAAAGTGTTTTAGAGATGAGGATTTTAGAGCTGATAGACAACCTGAGTTTACGCAAATTGATATTGAAATGTCTTTTATTGATGAATCGGATATAAAAAAATCTGTTGAAGAATTGGTTTGCAGTATATTTAAGAATGTAATTAATTACGAATTAAAAAATAAATTTCCTAGAATCTCATATAATGAAGCATTGGAAACTTATGGTAGTGATAAACCAGATTTAAGATTTGATTTAAAATTAGTAGATTTTATAAAATATACATCCCAATCAAATTTTTCAGCAGTGAAAGATTTATCTACAGTCAAAGCAATTGTTGTTCCCAATGCAGAGGGATATTCGAGAAAAGTTATTGATGAATTAATTGATTTTGTGAAAGAGTTTTCATCCCAATCAAAAAAAACCCCGTTAAGTGGTTTAGCATGGATGAAATTTTCTGACTCAGACCTTATTGGTGGAGTATCTAAATTTTTTGATCAAGACTTAAAAAATGAAATTATCAAATCATTAAAATTAAATGAAAATGATTTGATTTTATTTGGAGCAGGAGAGAGAGAAACTGTATTATCTACAATGGGAGCTCTAAGATTAAAAATAGCTGAAAGAAATGATTTGATCAAACATGATGACTTTAAACCTTTATGGGTAGAAAATTATCCTTTATTTCAAAAAGATGAAGATACTGATAAATGGACATTTGTACATCATCCTTTTACTTCTCCATCAGAAAAAGATTTATACTCATTTTCGGATGATCCAGGAAAAGCTGGTTCAAGAGCCTATGATTTAGTTATTAATGGTTGGGAAATTGCTGGAGGATCAATAAGAAATCATGATCCTAAAGTACAAGTTGAAATTTTTAAAGTTTTAGGTTTTTCTGAAAAAGAAGCAAAAGAAAAATTTGGATTTCTATTGGAAGGATTGAACTTTGGAGCTCCTCCTCACGGTGGTATTGCTTTTGGTTTTGATAGATTAGTGATGATTTTAGCTGGGGTTAAGCAAATTAGAGATGTGATTGCATTTCCTAAAACAACAAGTGCAATTAGTTTAATGGATGGTTCCCCAAGTGATATCGGAGAAAAGCAACTCAAAGAATTAGGTATTACTGTAAATCGAAAAAGAAAAAATTAGAGTTCAATTTAATTTTTCTTCATTATTTTCCTCATAAATTAAAAATATAATACTACAAATATTTATTATATAAGATGTTTTTAGTCAAATAAGTTAATTTTTAACCAATAAGACTAAAATTGTCGTATTTATTTCTTGACATAAATTAATCTATTTGTCAAATTATTAGTATGAAGATTAATAGATATTTATTGGTTATGATTTTTTTCATATTTACTGGATGTGAAGACGATCCGATTCTTGAACCGCAAGTAGAACAAGAAGAACAGGGAAGTTATGGAAATCTATCACTTCCAAATGAACAAAATGTTAAAAAGAAAAATCCTAAGATTTTTTAATAATTTAGATGAACTATAATATTAAAAATTTGTTTCTTTCTTTATTTTATGTGTTTGGTTCATATGTTTTAGCATTTAATTCAAATTCTGTAATTAATAAGAAGGTTAATACTCAAAATTCTGAAAATACAATTCAGGGTTATGTATTCAGAGCTGACTCAAGAATTCCATTAATAGGAGCAAATATAATTTTAAAATCCAAAGATGGATCTAATTTTGGTGCTAGCAGTGATAAAGAAGGTTATTTCTTTATAAAAAGTATAATTCCAGGAGATTATGATGTCATTGTATCCTTCATAGGTCATGAGGAATTTTCTCAGAATATTCTAATTGAAGAAAAAAATGTATATAATTTAGAGGTTTTCTTGTCTATTCAACCTATAGTTATGACAAAATTAAATATTATAAGTGACTCAAAATCTTCTTATGATAATTTGCCCGGTGCTGCCACAATTATAGATTCAAAAAGAATGAAAATAATTAGTCCAATTGGTACTCAAGAAATTCTTGAAAAAATACCTGGAATTTCAGGTTTTGCAGATGATGGAATAGGAAATTCTAGAATAAGTATTGGTATAAGAGGGTTGAACCCAAGAAGAAGTTCAAGAACTCTAATTTTAGAGGATGGCATTCCAATTCAGCCTGCATTATATATTTATCCTAATATGTATTATAATCCCCCATCTGAAAGAATCAGTAGAGTTGAAGTAATAAAAGGTAGTGGTGCTATTGCTTTTGGTCCTCAGACAATGGGTGGAGTTATTAATTATTTTACCAAACGTCCTAGAAATAATTTTGGTGGTCTTTTTAGATTTACAGGAGGGGAAAATGGTTTTCTAAGTTTATTTTCTGAAATTGGAGGATGGGGTACTGATAAAATAAGCCCAGAGTTACAACTTCTATACAAAAGAGGAGATGGTTTTAGAGATAATAATAATTTTGAACAGATCAATTCCACTTTTAAACTAACTAATCAAATTTCAGAGAAAAAAAATATATATTTTAAAGCAAATTTAAATTATGAAAACTCAAATGCAACTTATACTGGACTGACTCAATGGTCATTTGAAAACAATCCAAACTTTAACCCTAAAAACCATGATAATTTTAAAATTATTAGGACTTCTTTTGATTTTATTGAAACAACTAACATAAATTCAAAATTAACAAAGACTAGTTCTGCATTTATAAATTATTTTGACCGAAGATGGTGGAGAGAAAATGATATCTTTATTAAAGAAACTGATTATGGAACAGATAATCCAAAACCTCAACCCTATTATAGTAATGCCGATTTAGTAAGAGTGGGTGGGGGTGTAGATAATTTTGGAATATTAAGAACTTTTTATGTAATTGGATATGATCAAAATTATAAATACGAACATTCAATTTTAGGAAATAAAGCTAACTTAGATATTGGAGCAAGAATTTACTGGGACAGATTTATTGATGATAAACAAACAGGTGTGAACGTTGATTCAAGGGATGGGATCTACTACATAGAACCTGAAAATGAAACAGATTCACCGGAAATCGTAGGTCAAAGTCATCATTATCAAACTATGGCACTTTCCACATATTTTTCTGAAAAAATTGATTTTGAAATTATTTCATTAAGTCCAGGATTAAGGATAGAAATATTCGAACAGGAAAGAGTAGATAGATTATCAGGATCTTTATATCAAGATAAGAATTTAATAGTTGTTTTACCTGGGATAGGGTTCAGTAAATCTTTATTTGGAATGAATCTTTTCGGTGGATTACACAGAGGCTTTACACCTCCATCTAGTGGAGCATTAAAAATTCTTAATTTTGGAGATAATATATCTAGCGGTGGTTTAGATTTGGAGTCTGAAAAAAGTTGGAATAAAGAAATTGGCATCAGGGGTGATTTAAGATTACTTAATTTTGAATTAGCAGGTTTTCATCTTGATGTAGAAAATTTAGTTGCCGCTGGAAGAGGTACTGCATTTAAAAATTTAGGTAAAGTGCAAACTTATGGTTTAGAATTTAATGCTATGTTTCGTTTATCAGAGTTAAATAAAATGATTCCAAATATTTTTGCAACATATACATATTTACAAACAGAGGTTCTAGATGGTGAAATAGTTTCTTATGTATCTGGCACTTATGGATCAACAATATCAATCAATGGTAATGAATTACCATATTCTCCTAAATCTACTCTAATAATTGGTTTGGAAATAAGTCCTATTAATAATCTTGATATTATGTTTGACTATAAATATGTGAGTAGTGTATTTACAGATTTTGAAAATATTATTGAATCAGATAATTTAGGAATATCAGGTTCTATTTCATCATATGGAATTTATAATATGTCATTGAATTATAATTTTGGTACAAGCTATAGAATGTTTTTGACAGGTAAGAATTTGACTGATGAAATCTATATTGGTTCTAGGCTTCATTCAAATCCTGGCCAAAAATCAGCAAATTTAAGTTCAGGTATCCTTCCTGGACCAAGAAGGCAAATTAATTTTGGTATTGAATATTTATTTTAAAAATGAAATTATTAATTCACTAATAAAAATGAAGTTTATTGAAAAAAATAAAATAATTGAAAGTTTAACATACAA
>sequence10
CTTTAATAGTTTATTTTTTTCAAATCACAATATTATTCAGCTAAAATATTTATCAACAATAAAATAAATTCATCAAAAATTCAAATACTTAGTAGTAAACTTTAATTTTTTCAGAAAAAAAGGATAAAATACTAAATATTTATTGTTTTTTTAATTTTTACGTTATAAAATTAAGGCGTTACAGTGGGTAACAGTTATAATTAATTAAATAAAAGGAAGTTATAATAAAATGAAAAAGAAAATATTAATAATTAGTTCTGTATTTATGTTTTTATCATATTTTGGTTCTAATCTAAATGCTCAGGTTACATTAGGTGGTGAGCTGTATAGTCGTTATGTTTGGAGAGGTGCAGACTTTGGTAATTCTGCAAGTTTTCAACCAGCTTTCGATTTTACATCAGGTCCTATTTCTGTAGGTGCTTGGGCTGCTTATTCTTTAACCGCTGATGGAGCTGCTGCAGACGAAAGTGATTTGTATGCAACAGTAGCTTTGGGACCAGCATCAATTACAATTACAGATTACTATTTCCCAATGACTGATGGAGATGGTGGTATGTTTTTTAATTTTGACGATGGTGGTGCACACTATATTGAGGCAGCAGTTTCTGCTGAAGTAGGTCCAGCTAGCATTCTATTGACATCATTTATTCATAATGATGATACATTATATGGAGAAGTTGGGTTTCCTGTTGGTGACCTAAGCTTTTTTGTTGGTGCTAGTTTAAATGATGGTGGAATGTATGGAACAACTGAAGCAGGTTTAGTGTCTGTTGGTTTCAGTGGTGGAAAAGAAATTCCAATTTCATCAGAATTTAGTCTGCCTATTGGAGTAACATATGTATTGAATCCTACAGCTGAAAAAACATGGCTTATTTTAAGCATGTCATTTTAATAATTAAACTAGGGGTATAATATTATGTTAAAAAAAATAATGTTAGCTTTGACCTTCATTTTTGGAGGTCAAATGCTATTCGCTGAGAGTGGGTTAACAGTTGATGAAAATGCTTTTGCTATCGACAACTTTTTCCTATTCATTTGTGCAGTTCTTGTTCTTTTCATGCAAGCTGGTTTTTCAATGCTTGAAGCAGGACTGAATGCATCTAAAAACACAGTTAATATTTTAATGAAAAATGTTATGGATTTAGGTCTAGGTGTTTTATTGTATTATGTAATTGGTTATGGAATAATGTATCCAGGAGACTTTAACGGATATTTTGGCTTTGGTGGCTTTGGTGTCAGTGAAGCTGGAACAGACGCAGTTCCAGGAGGATTAGATCCACAAGTTGACTGGTTATTTCAAGTGGCTTTTGCAGCTACTGCAGCAACTATCGTATCAGGAGCTGTAGCTGGAAGAATGAAATTTGTAGGATATCTTGTTTATACTGTTGTCTTAACCGGTTTAATTTATCCAATTAGTGGAGCATGGAAATGGGGTGGTGGATTCTTAGATGCAATGGGCTTCTATGATTTTGCTGGTTCATTGGTTGTTCACGCTGTTGGAGGTTTTGCTGGTCTTGCTGGTGCTATTGCATTAGGACCCAGAATTGGAAGATTTTCTTCTAATGGTGACTCCAAAGCATTACCTGGTTCTAATTTAGCTATTGCTACTTTAGGTGTATTTATTCTATGGATTGGTTGGTATGGTTTTAACCCAGGAAGTCAACTTTTGATTTCAGGTTCGGTTAATGTACATGCTGTTATGCTTATCGCAGCAAATACAACATTATCAGCTGCTACTGGTGCTGTTGCAGCCACCATATTTGCGTGGTTTGTCTATAGCAAGCCAGATTTAACTATGGCAATCAATGGTGCTTTGGCTGGTTTAGTAGGTATCACTGCAAATTGTGATTCAGTTACTAATGGCGAGGCAATTATTATTGGTTTAGTAGCAGGTATTTTAGTTGTTATTGGAATAATGATTCTGGATAGCGCTAAAATTGATGATCCTGTTGGCGCATGGCCTGTTCATGGTCTTTGTGGAATCTGGGGTGGAATTGCTACAGGGATTTTTGGTGGCCATCCAATTGGTGCTCAAATAATTGGTAGTATTGTGATTCCAATTTGGGCATTTGTAACAATGTATATTGTTTTTATGGCCTTAAAGTCAGTAGATATGCTAAGAGTTTCTGAAGAAGATGAGTTGAAAGGATTAGACATAAGTGAACATGGAATGGAATCTTATGCTGGTTTTTCAACTAAGTAAGTAAGTTAATGAATATTATGCCTAGAGAAATTACTATAGTAAAAATTGAAATCCTGTCTTGGTTTCTCCCCCAACCCAAACTATATGATTTTTCTTAGGCATAATTTCTTATTTAATATGAAAAAAATTGAAAAGAACCTAAATTTTATATACATCAATAATGATATATTTAAAAATAGGAGATAATTGAATGAAAATGATTCTTGCAATAGTTCAACCAGAATTACTACCAGATATTAAAGAAGGTCTTTTAAAAGCTAAAATTTCAAAATTCACAGTATCAATAGCTAAAGGTCATGGTTCAGAAGTTCCAATTGAAGAAGTTTATAGAGGTATATCTTATGAACTTGAACTGTCAAACAAAATTAGAATTGAAATCGCTGTAAATGATGATTTTGTTGATCCTGTAGTAGAAGCCATATGTGAGGTTGCAAAGGAAGAAGGTACAGAAGGAAGAGGTAAAATTTTTATCTTACCAATTGAAGACTGTATTAGAATTAGAACAGGCGAGAGAGGAATAGAAGCTATAGGATAAAGTTTATTTGATTTATTAATTGAATAATTATACCTAAAAAATTTAAGTAATCTTAACTGTTTTACCCTAATCACCCCTTATTACTCATTTTTTTTAGGTATATATTCCTGTAAAAAAATTTTTTTTATTGAACTTAAAAATTTTAGGACATTATATTTTAAAAATAATAATTTTGTTGGATTTTTTAAAAAAAACATAATAAAATAAATAATTATATTTAGGAGAATTTAGATGAGTGAAAAATCAAAATTAGAATACATTTGGCTTGATGGGTATAAGCCAACTCAAAGTTTAAGAAGTAAAACACAAATCAAAAGTAATTTTTCAGGAAAGCTTGAAGATTGTCCAATGTGGTCTTTTGATGGAAGTTCTACAGAGCAAGCAACAGGAGGTGACTCTGATTGTTTGTTGAAGCCTGTTGCAATATTTCCTGATCCAGATAGAATCAATGGATATTTGGTTATGACGGAAGTTTTGAATGCAGATGGAACTCCCCATGAATCAAATGGCCGTTCAACTATTGATGACGATGATAACGATTTTTGGTTTGGTTTTGAACAAGAATATTTTCTATGGGATCCCGAAACTAATTTGCCATTAGGTTTTCCTGCTAATGCATTTCCTGGACCTCAAGGTCCCTATTATTGTAGTGTGGGAGCAAAAAATGCATACGGTAGGGATATTATAGAGTCTCACTTAGATCAATGTTTAGATGCTGGTCTTAATGTTGAAGGCATAAATGCTGAGGTTGCTTCAGGTCAATGGGAATATCAAGTTTTTGCTAAAGGCGCTAAAGAAGCTGGAGATCAAACCTGGGTATCTCGATATCTAGCAGAGAGAAATGCAGAATCATATGGAATCGCTATCAATTGGCATCCTAAGCCAATCAAGGGTGATTGGAATGGTTCAGGAATGCATGCAAATTTCTCAGATGGAAAAATGAGAGCAGCGGGTGATGAATCAGTATTTACAAAAATTTGTGAATCTTTTGGAAAAAATATTAAAAAGCATATAAGTGTATATGGTGCAGATAATGACCAAAGATTAACAGGTGCTCATGAAACTCAATCAATAGACAAGTTTTCATTTGGTGTATCTGATAGAGGAGCATCTATTAGAATCCCTGTTGGAACAATTGAAGATGGTTGGAAAGGAAGATTGGAAGATAGAAGACCTGCATCAAATGGTGATCCTTACAAAATTGCAGCTGCTATCATTAGTACTACGAAAGATGCTTATTAGAAAAAAAAATAAACATACTTTTTTTAAAAAAACTCCTGGAAACAGGAGTTTTTTTTATTATTGAACATTAAATTAAATTATGTTAAAAAGATTAAAAGTTAAAAATTATGCACTAATTGAAGAATTAGATATTACTTTTGGAGAAAATTTAAATATTTTTACGGGTCAAACTGGAGCAGGAAAGTCAATCATAATTGGATCAATTAATTTAATTATTGGTGATAAAGCTTCATTAGAAATGATTAGAACAGGTGAGGAAGAGGGATTTGTTGAGGCATTTTTTGATTTAAATATTAAACAATCTAATTTGAAAAATTTTAAAGATTTAAATCAATCTTTAACGATAAAAAGAGTAATAACTAAGAATGGTAGAAGTCATGCATTTTTAAATGGAAATCAGGTTTCAATAGGAAAGTTAAAAGAGATTGGATTTTTGATTATTGATATTTTAGGTCAACATCATCATCAATCACTTCTAAATACAAATAAGCATAGAGAATTATTAGATCATTTTGCATTAAAAAATTTAAGAAAAGATGAATATTATCAATTATATAAATTAATTGAGAAAAAACTAAAATTCTTGAATGATTTAATGCATTCTGAAGAATTAAGTAAAGAAAAAGAAGAATTATATAAATTTCAAATTAAAGAAATTAAAACTGCATCAATTGATATCGATGAACAATCAAAACTTGAAGAAGAATTAATAATTTTAGGAAATGCACAACAATTAAAAGATACTGCTCTAAAGATCAATTATTCATTATCTGAAGAAGAAGATTCAATTCTTAATAGATTAAGAGGTATGTTAAAAGCATTTGACTCTATATCATCTATTGATAGTAGTATGAAAGACAAAATTGATCAATGGAATGAATCTATTTTTTCACTCGAAGATATTTCATTTGAGCTTTCAAGGTATAGTGAAAAAATTAATTATGATCCTAAACGTTTATCTTGGGTAAATGATCGATTGCAATTATATAAAGATTTATCAAAAAAATATGGAAATGGATTTGAAGAAATAATGGAATATAAAAATAAAATAGAACATTATCTTAAAAATCTAAATAATAAAGATGAACAAATAAAAATTATTCAAAACGAAATATATGAATCAAAAGAAAAACTATATATTTTAGCAAAAGATATTTCAAATAAAAGAAAAAAAGGTGCTAAAATTTTAAAAGAAAAAATTGAGAATGAATTGAATGAGTTGGGAATGAAAGGAACAAAATTCGATATTGATTTTTCTCCAATTTCAAATTCTAAAGGTTTAGAGCTCAAAATAAAAGAAAAAACTGTATATGTTGATGAATTTGGAATTGAAAATGTTGAGTTTTTAATTTCACCAAATGAAGGTGAACCTCTTAAACAATTGATTAAAATTGCATCAGGAGGTGAAATGTCTAGAATAATGCTGGCTATTAAAACTGTATTAGCTGAGTTTGATTCTATTCCGGTTTTAATCTTTGATGAAATAGATTCAGGAATTGGTGGAGATATAGCAAGTTTAGTAGGAAAAAAATTAAAAAACCTTTCTCAGAAACATCAATTAATATGTATTACCCATTTACAGCAAATTGCTTCATTTGCAGATCAACATTTTCAAGTAAGGAAATTTGTCATTAAAAAAAGATCATCTATTGAAGTAGCAAAATTGAATACAGAGGAAAAAGTTGCAGAAATTGCCAGAATGATTTCAGGAGAAAAAATTACAGATATTACTTTGGAAAATGCCAAAGAATTTTTAAAGATTGGTGCGGAAGCATAAATAATGATTATTTATAATCGAACTCAATATAAAAAATTAACAGATAAACAATATCAAGAAGAAAAACGATTACTTCAGATTGAATTGTTGAAATTACAGGAGTGGATAATTAATAATCATAAATCTGTAGCTATTTTATTCGAAGGAAGAGATGCCGCAGGAAAAGGAGCCACTATAAGAAGATTTATTGAGAGATTAATGCCAAAAAGTGTCAGAGTCGAGGAATTGGGTGTTCCTTCTGAAAATCAAATAAAAAATTGGTTAACTACTTACAAGAATATTTTGCCAAAACCTGGAGAATTGGTATTTTTTGATCGCTCATGGTATTCAAGAGCTTTGATACAGCCAGTAATGAATTATTGTACAGAGAATCAATATAAATTTTTTATGAAAAATATAAATTCATGGGAAAATGAATTAAAATCAAATGGAATTATTTTAATTAAATTTTATCTCTCAGTTTCACAAAAAAGTCAAACTCTTCGATTTAAACTTAGAGAATCCAGTCCATTAAAATATTGGAAATTATCAGAAAATGATTTGGAGGTTGCAAAAGAATGGGATCTTTTTACATATTATAAAGAGCAAATGTTTAATGAAACATCTACTCAAGAAAACCCGTGGGTAATTATAAACTCTGATAATAAAATGATTGCTAGATTAAATGCAATGAGATATGTTCTCACAAAAATTAGTTATAAAAATAAAAAAATTTTAAAATCAAATCAATGGTCAGAAGAGATAAAAGATTATTCTATTAGATTAAACAATATTTTATTTAACAATTTATCTAAAGAACAATATGAATTACTCTTTAGCATGCAAGCTCATAAATAAATGGAGAGAATAAGAACAGCAGGCGGTTTAGTGTTTTATAAAAAAAGTTTTTTATTAATTTTTAAAAGAGGTAAATGGGATTTACCTAAAGGAAAATATAAATATGGTGATACAGATCAAAAAACAGCAAAAATAGAAGTTTTCGAAGAGACTGGCTTGCCTATAAATCAATTAAAAATCATTAAAAGGTTAATTCCAACATACTATATAAAATCATTTAGTAAGAAAAAAATTCAAAAAAGAACAACTTGGTTTTTGATGAATTTTACAGGTGATCCCGAAATACAATTAATTCCAGCAAAAAAAGAGGGAATTACAGAATGTAGATGGGTACATAAAAAAGATTTAAAAAATATTCTGCCTAAAGCCCATTTGAGAATTGTTTATCTTTTTGATTATTTGAAACAATTGCCATTGTATAAAGATTATTTCAAATAATTTTATTATTTGAAATTTTTTGGAAACCTAATTTTATCTATTTTACCAATTCCTTCTTTTATATTAGAGTATTTTTCTATATTTAAAACTATTGTAACAATTGAACAGGTAGGTAACTTTAAAAGGTTATGATTTGATATTATTTCAATTAAACTATGAAATGTTGGATTATGACCAACCAAAGCTATATGATTAAATTGCCTTGAGTTGGTTTTTTTAATTATTGAAAAAATATCAAGAGTACTGGAATTATATATTTCATATTTAATATTAATTTCATTTAAAGGATAATTTATCTTTGACGAAATTATTTTAGCAGTATTAATAGCTCTATTCGCTGGGCTAGAAAAAATTTTATCAAAATAAATGTTTTCCTTCTTAAGTATGGTTCCCATTAATTTTGCATCTTTAATTCCTCTTTCTGATAAAGGTCTATCAATGTCTTGAATATTAGAAAAATCCCAAGATGATTTTGCATGTCTTATAAAAGTAATTTTTTTCATAAAAAAAATTACTTATTGGCGAAATAAAATAAAAAACTGAATAAAAATATTTTGTAAACTCAAAATAATATTTTAATTATTTAATTCAATTTTTTTTAATAATTTAATTTGTTTATTATTCCAAGTATCATTTAAAAATTTAGTTGAAAACCAAGTATTTAAAATTTCATTTAAATTTTTAGAATTTAAATTATTTAAACTTAGTGCTAAAACATTTGCATCATTCCATTTTCTTGCACCTGCAGCAGTTTTAGCATCATTGCAAAGAGCAGCTCTTATTCCATTAAATTTATTTGCAGCAATGCTTGCACCCGTCCCTGTTCCGCATAAAACAATTGCTTCATCAGCTTTATTTTTTAATACTAATTCTACTGCATTTATTGTAGTTTTAGTCCAGTCTAAATTTTCTTTATCTTTTGGTCCATAATACATAATTTCATGATTACGTTTTTTTAATTGAAAAATTAATTCATCAATTATTTTAGTTTTTTGATCAGTACCAATAGAAATTATCATAGGTTAAAGTTTCTTTATTATGAAAAAAAAATTGAATTCCATGTCACTAGAATTTATAAGAAATAAAAATATTTTTAATAAAAAATTTTATTTTATTTTATTTCCTATTTTATTTGCTATTATATCCTTTAGTTATCTTAAATCACCAAAAATAAAATATGAGGGGATTTTAAGCTTTGACGATATAAAAAAGGATGTAGAGGTATATTTTGACGATTTTGGATCACCACATATATTTGCTGAAAATAATGATGATCTTTTTTTTACTGCTGGTTATTTAATGGCGCGAGAAAGATTATTTCAATTAACTATTAACGCCTATACTTCGGAAGGAAAATTATCAGAAATTCTCGGTGAGGAAAGTATTGAAATAGATCAATTCATACGAACTTGGGGTATCCCCAAAATTTCAAAAGAAATGATAAATGATTTAGATGAAAATTCACTAAATATTTTGAACAAATTTTGTGAAGGAATAAATAAATATATATCAGAATTAGGAAATAATTTGCCTATTGAATTTAAAATTTTACAAATAAAGCCAATTAAATGGGAACCATACCATATATCAGGTTTTTCAAAGTTGATGGCTTATTCACTTTCACAATCTTGGTATCCTGAAATGTTATTTGGAAAAGTTGCATCTATGATGGGAGCAAAGAAAACATTAGAATTATGGCCATATTTCCCAAATGAAAAACCAAATGAACTTCCAGAAATAAAATTTGATAATTCTAATATTTGGGAAGAAATTGTTCATGTTGATAAGAAAATAAGAAAAATATTAGGAACAGCAACAGGACATTTGGGTTCAAATAGTTGGGTGGTTGATGGTTCAAAAACAATTTCAGGAAGACCAATTTTATCAAATGATCCTCACCTAGGAATGATTCAACCATCAATTTGGTATGAGATGCACCTTAATGGTGGTGATTTTAATGTGTCTGGCGTTACTTTTCCGGGAGTTCCCTTTATCATAATTGGGCAGAATCAAAAAACAGCTTGGGGATTTACTAATTTAATGTCAGATGATTTAGATTTTTATCATGAAAAAATAAACCCTGAAGATGAAAACCAATATTTTTTTAATGGAAAATATATTGATATGAATATAAGATATGAAAAAATAAAAATAAGAGGCGATAAAGAAAAATTAATTCAAATTAGGGAAACTCATAGAGGACCAATAATTTCAGATATTCATTCTTTGACAAAAAAATCAAATAATGTTTTTTCATTTAGTTGGGTAGGTAATGAATATTGGAATGAAATAGAATCTTTTATAAACTTAAATAAGATGACTAACTGGAATGATTTTTCCGATGCTGTTTCGGGTATGTCTTCACCAGCTCAAAATATAATTTATGCTGATGTTGACGGTAATATTGGATGGAGAGCAGTGGGTAAAATACCTATTAGGGATGGTGGAAATTTTCTTTTACCATTACCTGGAGAAACATCAAAATATGATTGGAAAGGATATATTCCTTTTGATGAAATGCCATATGAGTTTAATCCTGATAGAGGATACATTATAACAGCAAATAATAAAACAATTTCTAATGATTATAATCATTATGTTTCAAGCTTATGGCATAATAGTTCCCGATATGATAGAATATTTGAGTTAATAAATGACAGAAATAATTTAAATCAAAATGATATGAAAATAATTCAAAATGATCTTATTTCGCCTTTCGCAAGGAAACTATCAAAAAAAATAATAGTTCCTTTTAAAAATTATAATTATTCAGATGATAATATTGAATATTCAATTGAATTGCTAAAAAATTGGGATGGAAATTTCAAGACTGATAGTAAAGAGCCTTTAATTTTTAGTGTAATTTTAATGAAAATATTAAAAAATATTTACTTAGATGAAATGAAAGTCATCGGAGAAAATATATATTCTTCTTGGATTGGTCCTGTTGGTGGAAGGGGAAATTGGGCAATATCTTTAAGAAATCTAGAAGGATTAATGTTTGGAGAGTATTCTTCGTGGGTGGATGACATTGAAACATTAAACTATGTTGAAAATTTAGAGGATATAATAATAAAATCTGTTAAGGAGGGAGTATTACAACTTGAAAATGAACTAGGTTACTCTCCTGTTAATTGGTGGTGGGGAAGATTACATAAATTGACATTTCGTCATTCAATTGGCAATGAAATTAAAATATTAGATAGAATTTTTAATTTTAATATTGGTCCTTTTGAAAGTGGTGGTTCATCAACAACAATAAATAATGGTGAATATTCTTTTTCTGAACCTTTTTTACAAACGGCTGGAGCTTCATTTAGAAGAATAGTAGATTTTTCCAATTTAGATAGTACGGCATTTATTTTAACTACTGGACAATCTGGAAATCCCCAATCTATTCATTATGATGATCAAACTCCACTTTACTTAAATGGTAATTATAGAAATATTTCTTTTAATAAAAATTCAATTAAAAATCATTCAAAAAGAAAGATTTTATTTCAATCTCAATGATTTTATATGTAATAATTTTTTGTTTCTTTTTTTTTATTGTGAAACATTTATTTTTTTGGAAGCCTTTAAACACTGATTATCTATTTTCAAACGGTCCTTTAATGATGGGGCATAGGGGCGTTCCAAATGAATTTCCGGAAAATACAATTGAAGGTTTTAAAAATTTAATTAATAAGGGTATTAATGGTATTGAAGTAGATGTTGTTAGGACAAAGGATAATCATATAGTTTGTTCGCATAATTATGATTTAGAAACTGAAACAAATGGCTTAGGTTATATTTTTAATAAATATTATTCTGAAATAAAAAAATTTAATACATCTATTAAATTTTTAGATAAAAATCATATTTCAATTCCAAAATTAATTGATTTAATTAATGAATTACCTAAAAATATTATTTTTAATATTGAAATTAAATCAAGATTTTTGTTTGATTTAAAATCAGTTCCATTTGTTTTGAGAATTTTAAAAGATAACAAAATTAAAAATAGGGTCATAATTTCAAGCTTTAATCCATTGGTTTTATTATTTGTTAAAATAATGGATAAAAAATTTGCAACAGCTTATTTATGGTCAAATTTGAATGTGCCATTAATTTTATCAAAACCTTGGTTGGTAAATATTGTTCATCCAGATTTAATTCATATAGAAGCACATTTAATTAATAAAGAATTAATTTTATATTATAAAAAAAGAGGTTTAAAAATCAATGCTTGGACTGTAAATAATTTTCCATCAAAAAAATGGTTATTAGAAAATGGTGTAGATGGAATTATTTCAGACTTTCCAACAGTTATGCTTTTAAATAAAAATATTTAATAAATAATTAAGTTTAACTATTTGATAAAATTTTTTTAAGAAATAATTTACTTGGTTGTAAAAATGTCTACATTGAAAAAAATAATTATAAAAGGTGCCAAAGAGCACAACCTGAAAAATATAAATATTGAAATACCAAGGAATAAATTTGTTGTAATAACTGGCTTGTCTGGATCAGGAAAATCATCTTTAGCTTTTGATACTATATATGCTGAAGGACAACGAAGATATGTTGAATCTTTATCAGCATATGCCAGACAATTTTTAGGACTAATGGAAAAACCTGATGTAGACTACATTGAAGGTTTATCTCCTGCAATCTCAATAGAACAAAAATCATCATCTAGGAATCCTAGATCTACAGTAGGAACCGTTACAGAAATACATGATTATTTACGTTTGTTGTATGCTAGAATTGGAAAACCATATTGTTATAATTGTGGAGATTTAATATCTAAGCAAACTGTTCAACAAATTGTTGATTCAGTATTATTAAATGATATAGGAACTAAATTACAGATTTTAGCTCCAGTAATTAGAGGAAGAAAGGGTCAGTTTAAAGATATTTTTCAAAATTTAAAACGAGAAGGTTTTGTAAGGGTAAGAGTTGATGGAAAATTAAGAGATATATCTGAAAAAATAATTTTAAATAAAAATAAAAAACATAATATTGAAGTGGTAATAGATAGAATTATTATAGAAAAAGATATCAAAGAACGAATTACGGATTCTATTGAACTTGGTCTAAAAATGGGTTCAGGATTAATAATTGTTAACATTTTACCCAATCAAGAACATTTATATAGTGAAAATTTTTCATGTCCGAAATGTGATTTAAGTATAGAAGAAATATCACCTAGAATGTTTTCATTTAATTCACCATATGGTGCTTGTAAAACGTGTGATGGATTAGGCACTAAAATGGAAATTGATCCAGACTTACTCGTTCCAGATAAAAAAAAATCACTTATTCAAGGAGCTATTGTTCCATTAGGTGAGCAACCAAGAGGAAATTGGTATAGTTCAATTCTGAAAAGTTTAGCAGAATATTATGATTTTAAATTTACAACTCCTTGGTATAGGTTGTCTGAAAAAGCTCGTTTTGTATTATTACATGGAACAGGAAATGATAATATTAAATTATACTATAAATCAAAAAAATTCAAAGGTGAATATGATGGTGGTTTTGAAGGAGTTATTAAAAATTTAGAGCGAAGATATCATCAAACTAATTCAACAAGTATTCGAGATTGGATAGAACGATTTATGAGTATGCAAAATTGTCCCGGTTGTAAAGGTTGTAGGCTCAACAAAGAGAGTTTGTCTGTCAAAATTGCAAATTATAATATTGGACAAATTTCTGAATTGTCAGTTGAGGATTTATTAATTTTTTTTCAAAATTTAAAAATTTCAAAAACTGAAGCAAATATAGCTGAACAAATTTTAAAAGAAGTTAAAGAAAGATTACAGTTTTTAGTTAACGTTGGATTAGAATATTTAACTTTAGATAGAACAGCTACTACTTTATCAGGTGGAGAGGCTCAAAGAATTAGATTAGCTACACAAATTGGTTCCCAATTAATGGGAGTTTTATATGTGCTGGATGAGCCATCAATCGGATTACACCAAAGAGATAATGTAAGATTGATAAATACACTAGAAAGATTAAGAGATCTTGGAAATACAGTGTTAGTTGTTGAACATGATAGGGAAACAATTGAAAGAGCTGATTACGTGATCGATTTAGGTCCTGGTGCAGGAGAAAATGGTGGTAAAGTTGTTTTTGCCGGCAGTCCATTAGAAATAAAGAAATCAAGGAAATCAATTACTGGTCCTTATATTTCTGGCAAAAAAAATATTGAATTGCCTCATAAAAGGCGAAGTGGAAATGGAAAATTTGTATCTTTATTTGGAGCATCTGGAAATAATTTGAAAGGGATTGATGTAAAATTTCCACTTGGAAAATTAATATGTGTTACGGGAGTTTCTGGTTCTGGTAAAAGTACTCTAGTTAATGAAACATTTTTTCCAATTTTAAGTAGCCAACTTAATAATTCAAGAAAAAAATCTCTAAATTACAAATCAGTTGATGGTTTATTATACTTGGATAAAGTAATAGATATTGATCAGTCACCTATTGGAAGAACACCCAGATCAAACCCTGCAACCTATACAGGTGTATTTACTTATATAAGAGAATTATATTCAAATGTATCAGAATCAAAATTAAGAGGATATAAACCGGGAAGATTTTCATTTAATGTGAAGGGTGGAAGGTGTGAATCTTGTTGCGGAGATGGAATAATTAAAATAGAAATGCATTTTTTACCTGATGTTTACGTAGTATGTGAAGTATGTAAAGGATTAAGATATAATAGAGAAACACTTGAAATTAAATTTAAGGATAAAAATATTGCTGATGTTTTAGGAATGACTGTCGATGAAGCATTTAATTTTTTTGAAAATATTCCACAAATAAATAGAAGGTTACAAACTTTAAAAGATGTAGGTTTGGGGTATATTAGATTGGGACAACAAGCTACTACTTTATCAGGTGGAGAAGCACAAAGAGTGAAATTATCTTCCGAATTATCAAGAATAGGAACTGGAAGAACTATTTATATTCTTGATGAACCAACAACTGGCTTACATTTTGAGGATGTAAAGATGCTATTAAAAGTATTAAATCGTTTGGTAGATAAAGGAAATACAGTAATTATCATTGAACATAACCTTGATGTTATAAAAATGGCTGATTGGATTATAGATTTGGGTCCTGAGGGAGGACACAAGGGTGGTGAATTGGTAACACAAGGATTACCAGAAGAAATAGTTAAAAATAAATTGTCTCACACTGGAAAATATTTAAAATCAACTTTGAAAGGGAAATTGTAATGTCAAAAGATTTAGATAATCTAACAATTAATACACTAAGATTTTTGGCTGCTGATGCAGTTCAATCTGCAAATTCAGGACATCCAGGACTTCCTCTTGGTGCAGCACCAATGGCATACGTGATTTGGAAAAGACATTTGAAGCATAATCCAAAAAATCCAAATTGGTATGACAGAGATAGATTTGTTTTATCTGCTGGACATGGATCAGCTTTATTATATGCTCTAATACATTTATCAGGATATGATTTATCTTTGGATGAATTAACAAACTTTAGACAATGGGACAGTAAAACTCCTGGTCATCCAGAGTATGGTCATACACCTGGAGTAGAGACTACTACTGGACCCTTAGGTCAGGGTTTTGCTAATGGTATTGGTATGGCAATGTCAGAAAGATTTTTATCAAAGAAATATAATAAATCTAATCTTAATGTTGTTGATCATCATGTTTACGGAATAGTGTCTGATGGAGACTTAATGGAAGGAATTGCTTCAGAGGCAGCGTCATTGGCAGGTCATTTAAATTTAGGAAAATTAATTTATCTTTATGATGACAATAATATTACAATTGATGGTTCTACAGATTTAGCTTTTACAGAAGATGTGGTTAAGCGATTTGAATCATATAATTGGCATGTTCAAAGTGTTGATGATGGAAATAATATTGATTTAATTGATATGGCTATTGAAACTGCAAAAAAAGATAACAGGCCATCATTAATTAAAGTAAAAACAATTATTGGTTATGGAAGTCCAAATCAAGGAACTTCTTCTGTTCATGGATCTCCACTTGGAGATGAAGGATTAAAACAAGCAAAAAAGAATTTAGATTGGGATTATAATGAGAAATTTTATATACCTAAAGAATCAAAAAATCATTTTAGTGCTATTAATAATGGTGAAAAAAATGAAAATAAATGGAATCAATTATTTTATCAATATGGAAATGAATTTCCTGATTTAAAAAATCAATATGAAAATGCTATGAAAGGTATTTTTCCGATTAATTGGAAAGATTCATTGCCAAATTTCAACCAAGCAGATGGACCTTTAGCTACCAGATCTGCTTCTGGTAAAGTTTTAAATAGTTTAGCAGAATCTATAGATAATTTGTTTGGAGGTTCTGCAGATTTAGAACCTTCTAATAATTCATATCAAAAAAATAAAAAAGTATTTAATAAACAAAATTTTGATGGAAATAACATTCATTATGGTGTTAGAGAGCATGCGATGGCATCAATTGCAAATGGTATGGCTGTGCATGGTGGTGTAGTTCCATACGTGGCAACTTTTTTAATATTTTCAGATTACATGCGAGGAGCTATTCGCTTGTCAGCTTTGATGGGAATCAAAGTGATTTATATTTTTACTCATGATAGTATAGGAGTAGGTGAAGATGGTCCTACTCATCAACCAATTGAACAGACAATGTCTTTGAGGTTAATTCCTGGTCTAACTGTAATAAGACCTGCAGATGCTAATGAAACAACAGATGCTTGGAAAATAGCATTGGAAAATGATGGTCCCACAGCAATTCTATTAACAAGACAAAAACTTCCAATCATTAATTTGGATGCAGTGAATCGTTCAAAAGAAGGTTTAAATTGGATAGAAAAACAAGAAGAGAGGCCAGACTTAATTCTTTTAGGATGTGGTTCAGAGGTCGCATTAGCTATTAATGCACGAGATGAGTTGATTAAGGAGCAAATCTCTGCTCAAGTAGTATCAATTCCTAGTTGGGAATTATTTAAAGGAACTGGTTTTGGTGATAATGATATTCCTATTATTACAATTGAAGCAGGAACAACTATTGGATGGTCTCAATTTTATTCAGGTAAAAAAGGTGAATCTATTGGAATAGATAGATTTGGTGCTTCTGCTCCAGGAAATATAGTGATGGAAAAACTCGGTTTGAGTGTAAAAAATATAGTTACAATAGCTAAAAAACTTTTAAATAAGTAATTGAATTTAATCAATCAATTGGAATCGCATTGGTCTGATATTAAATTAAACTATGCTATTTAGCTTTACATCTAAACTTTTTTAAACATTAATGACTAATGAAAATATAATTAATCCAACCTCTCAAGATGATGATTTTAATCTTGACCAATCACTACGCCCATCTTCTTTTAATGAATTTATTGGACAAAATGAAGTTATTGAAAATTTAAAATTATATATCGATGCTTCTCAAAAAAGATCAGAATCATTAGATCATGTTCTTTTATTTGGACCTCCTGGATTAGGGAAAACCACATTAGCTCAAATTATTTCAAAAGAATTAAATGTTGGTCTTAAGCAAACTTCTGGTCCTGTAATGGAAAGAGCTGCAGATTTAGCAGGGATTTTGACAAATTTAAAAGATAAAGATGTGTTGTTTATTGATGAGGTTCATAGAATTAATAAAGTTGTGGAAGAATATTTATATTCTGCGATGGAAGATTATGGTTTAGATATTTTAATAGATAAAGGGCCTAGTGCACGAAGTGTTCGATTAAATATAGAACCATTTACATTAATAGGAGCAACAACAAGATTGGGTAGTTTAACTTCACCAATGAGAGATAGATTTGGTGTGGTATTAAGGTTAGATTTTTATAATGATGAAAACCTCATGGAAATAATAAAAAGATCCGCGAAAATACTTTCTGTTGAAATTGATTCGGAAGGAGCAAAAGAGCTTGCATCTAGGTCTAGGGGTACTCCTAGAATTGCCAATAGAATTTTGAGAAGAACTAGGGATTATGCTGATATTAAGGCTAATGGTAAAATAAATAAAAAAATAGCTATGAAGTCTTTATCAAAGTTAGGAATTGATGAATACGGACTTGATAATATGGATAGAGATATTTTATCTGCTCTTGTAGAAAAATTTAGTGGAGGTCCAGTTGGATTAAATTCATTAAGTGTTGCTATCAGTGAGGATTCCCAAACAATTGAAGATGTCTATGAGCCTTTTCTTATTAAGGAGGGTTTTATTAAGAGAACAGCTAGAGGAAGAGTAGCTGAAATCAAAGCATTTGATTATTTGGGAATTGAATTTAAAAACAAACAACAAATTTTATTTAATAATTAGGAGAATTATATGCTTTTTGAAAAACGAGTAAAACTTAGACTAAATGATTTTGATTATAAACTTCCAAAATCTCGAATAGCTCAAGAACCATGGCCACGAAGAGACCATTCAAAACTTATGGTCTTAAATAAAAAAGATCAAACAATTGAACATAAAAAATTTCATAATTTACCAGATTACGTTAAAAAAAATGATTTGGTTATTTTGAATGAAACTAAAGTTTTTCCTGCAAGACTTTTTGCAATTAAAGATAGAACAGATGCCAAAGTAGAAGTTTTTTTATTGAGAGAGTTAGAAAATGATTTATGGGAAGTTCTTGTAAAGCCCGCTAGAAAAGTTAGAATAGGAAATAAACTTCATTTTACTGATAATGTTCATTGTGATGTAATAGATAATACTGTTTCTGGTGGAAGAGTAGTTAGATTTGAATATGAGAACGAAGATTTTTATAATATTATTGATAGAATAGGTCATGCTCCATTACCTCCTTACATTGGTAGAGAGGATACTGAAAAAGATAAAGAAAGATATCAAACTGTTTTTGCATCAAATAGAGGTGCGGTAGCAGCTCCAACAGCTGGACTTCATTTTACGGATTCTGTCATCAAAAAGATTACAGATAAGGGAGCTAAAATTGGTAAAATAGTACTGCACATAGGTTTAGGAACCTTTAGGCCTGTTCAAGTTGAGGATTTAACTAGGCATACAATGGATTCAGAATATTTTCATGTTCCCCCAGAAACTGCTCTGATGATTAATGAAACCAGGGAAAGAGGTAAAAATATTTTTGCAGTTGGAACTTCATCTGTGAGAGCTCTTGAAACTGTAGTTGTGTCTGGTTTCCAAGTTACTCCAAAACGAGGATGGACTGATAAGTTTATTTTTCCTCCCTATGATTTTAAAATGACAGATGCTATAATTACAAATTTTCATCAACCAAAGTCCACACTTTTAATGCTTTTATGTGCGTTTACTGAAAGAGAATTTTTATTTAATGCATATAAGGAAGCATTAAAAAAAGATTATAGATTTTTGAGCTACGGTGATGCAATGATTATAAAATAATAAATTATGAAAAATGCAGGTATAATTTTGGCTGGGGGTAGTGGGTCAAGATTTGATTCAACTTTATCAACAAAAAAACAATTTATTGAATTTGATGGGGAACCACTTTTCTTTAAATCTTTAAGATGCTTTGATGCATCAAAACAGTTTGATGAGATAATTATATCTCTTCCAAAAGATGATTTGGAATATTATAAGAAGTCTGTAATTAATTTGTCTTTAAGTTCAAAATTAGACTTTGTTGAAGGAGGAGAAACTAGACAAAAAAGTGTTTTGAATGCTTTTAAAAAAATTAAAGATTTTTTTGATGTTGTTGTAATTCATGATTCTGTTAGACCATTTATTCAAATGAAATGGATAAATAAATTAATAGAATTAACAAATCAATTTGATGGAGCTATTATTGCAGTTCCTTCATCTGATACAATTAAAATTTCAAAAGATAAAAAAAAAATAACAAAAACATTAGATAGAGATAAAATTTGGTTTGCTCAAACCCCCCAATCTTTCAAGGTTTCAATCTTAAAGAAAGCATTTGAATATAGTTCAGATAATAATTTTGAATCAACAGATGAGTCAGGATTGGTTGAAAAAATTGGTGGAATAGTTGCATTGGTTTTAGGTAATAACTTTAATATAAAATTAACGAATAAGGAGGATTTATTGATTGCTCAAGCAATTCTAAAAACTTTATGATAAGAACAGGAATAGGATATGATGCTCATCAATTAGGTTATGATTACCCTTTAATTATAGGAGGAGTAAAAATACCATCAAAAAAAGGTAGTATAGGTCATTCGGATGGTGATGTATTATCCCATTCAATTGTTGATGCTATGTTAGGTTCTTTGTCTTTGGGAGATATTGGTAAATATTTTCCAAGTTCAGAACAAAAATGGAAAGACAAGTCCAGTTTGTTTTTTTTAAAAAAAGCAAATCAATTAATTATTGACAAGGGATATAAAATAAATAATATAGATTCAACTATAATTTTACAAGAACCTAAAATTAGTAATTATGTTCATAAAATTATTAAAAAAATTTCAAGTGAAATTCACATTCCCAGCGATAATGTATCTGTCAAATTAACAACAAAAGACATGTTGGGATTTCATAAAAATTCATCGGGTATTGAAGCTTTAGCTATAATTACTGTTAGTAACTAAAGAGGTAAATATTTCTATAAATTTAAAATCATATGCTAAGATTAATATAGGTCTTAAAATTTTAAATAAAAGATTTGATGGAAGACATAACTTAGAAACTATTTTTCAAGAAATTTCATTATTTGATGAAATCAAAATAACTCCAAATAAAAAATTTAATTTAAAAGTTAATGATCCTAATATTCCTAAAGATGAAAATAACTTATGTTATAAAGCTTATTATGAAATGAAAAAAAAATTTCCACAAATAAGCCCAGTTTCTATTGATCTATCTAAAAACATACCTATAGGTTCTGGATTAGGAGGAGGGTCAAGTAATTGCGCATCAGTTATGCTAGGTTTAAGTAGGTTGTTCAGCTTAAATATTAATTTAACTCTATTAAAAGAAATAGCTTCGAAACTAGGTTCTGACATCTCATTTTTCTTTGATGGCGGCACTCAATTGGGGCAAGGTTTTGGTGGTGATTTAAAAAAAATTTCTTTGCCAAAAATTAATTATATATTAATACTTTTGCCTGATATTAATATTTCAACCTCTTGGGCATTTAATAACTTAAAAAACTCCTTGTACGAAGAATCAATCAAATCTAAGTTTAGTGATATTCATAGATTAAAATTTAAATGGAAATCTATGCAAAAGTTTTTTGAAAACGATTTTGAATCTATAGTATTTCGGACATATCCAAGAATTGGTGATTTAAAAAAAAAATTGCTTCAAAATGGAGCATCATATGCTAGTTTGTCGGGTTCTGGATCGACTGTGTTTGGAATTTTTGATGATTTTAAAACTGTATTAAATGCAGAAAGAAAAATTAATCAAATTAAAACACACCTCGTTAAACCGATTAAACATAAAAAAATATTTGAATACTAATTTAAAAGATTCATGGGATGTGGTCTAATGGCAAGACACTCGGCTGTTAACCGGGCTGATGTAGGTTCGAATCCTACCATCCCAGCAAAATTTTTTTTTGCCGGGTCGTCCAATGGCAGGACTGCGGCCTTTGACGCCGTCAATCTTGGTTCGAGTCCAAGCCCGGCAACCAAATTAAGAGAAAGAACATGAAAATATTTTCTGGAAGATCAAATAACATTTTAGCTAATGAAATTGCTAAAAATTTGAATGTAAAAATAGGTAAATCTACATTTCGACAATTTGCTGATGGTGAACTATGGTTTAAATATGAAGAAAATATTAGAGGACAAGATGTATTTGTAATTCAATCTACTCATCCTCCTGCAGAAAATATTCTTGAGTTAGTATTAATGATTGATGCGGCTGTAAGGGCTTCAGCAGATAGAGTTACAGCAGTAATACCTTACTACGGTTATGCTAGACAAGACAGAAAAGATCAACCACGAGTACCAATTTCGGCTAGATCTATGATGGATATTTTAGCAAGTGTTGGTGCAAGTAGAGTGTTGGCAATGGATTTGCATTCAGCTCAAATTCAAGGATTTACACATTTGCCATTTGATCATTTATATGCTAGAAAAATTATTTTAAAACATTTGAAAAAGTTGCAACCAAATTCAAAAGATACTGTCATTTTAGCTCCAGATGTGGGAAGAGCCCCAATGGCACAATCCTATGCAAAACATCTTGGTGTTGGATTTGCTTTGATTGATAAAAGAAGAATAGAACCGAATAAAGCCAAAGTTCTTCACATGATTGGAAATCTTGAATCAAAAAAAGTTATAATTTTGGATGATATGATTGATACAGCAGGAAGTATGATAAATGCAGCGGAAACAGCAATGGAAAATGGTGCCAAATCTGTTGTTTCTGTAGCTACTCATGGTTTATTTTCTGATGATGCAATTGATCAAATAATGAAATCATCAATTGAAAAAGTAATTGTTGCAAATACTGTGCAATTATCTGAAAAAAAGTACTTTGAAAAACTTGAAATTATCTCAGTTGCACCGCTTTTTGCAAATGCTATCGCAAATATTCATAGTGGTGAATCTGTAAGTGCCTTATTTAATGTATAAACGGAGGAAAAATGGCGGAATTTAAAATTGAACTCAATGAAAGAAAAGAACTGGGAAATAAGAGTTCAAAATATTTGAGAAATAATGACATGGTGCCAGGTATTTTTTATTCATCATCTGAAAAACCATTTCCATTTTATATAGAAAAAAAACATATGTATGATGCTTTAAGGTCTTCCTCAAGAGTATATTCTATAAATATTAATGAAAAAGCATTATATGCAATTTTTAAAGAGATTCAATATCACCCTGTTTCAGAAGAAATAATTCACATAGATTTGTATGGTGTGAGTCTTAAAGATAAAATTAATTTGTCAATTCCCATTGTTCTTAATGGTGAGTCACCAGGAGTTAAAATGGGTGGGATGATGACTCAAACACTATTAGAACTAGAAGTAAGTTGTCCCGCCTCTAAAGTACCAGAGTCTATTGAAATTGATATCTCTACATTAGAACTTGGAAGCATTTTACACGTTTCTGATTTAGAGTTTGATGATTTTGAAATAATTACTAGTGATGATGCAACTATTGTTTCAGTCCAAGTACCAAAAGAGGAGCAAGATGAAGAGTTAGAAACTGAAGAAGAAATAGATGGTAAATCTTCTGATGAAGAAGAAAATAAATCTCCAGAAAATGAAGGAAGCGAACAAAATTAAAACATTTGTTGGATTAGGAAATTTTGATTCAAAGTATAGCAATACTAAACACAATGCTGGTTATTGGATTGTTGACGAGTTGTCAAAACGTTTCTCTGAGAAATTTCAAACTTCAAGACAATCTTATGTTTATGCAATAAATAAAAAATATAATATTGTTTTAATTAAACCAACTACTGGAATGAATTTAAGTGGTATCGCCGTAAAGCAGGTTTGTAATAAGTGGAAAATTTCACCTTCCAATATATTTGTAATTTTGGATGATATTGATTTACCTCTTGGTTCTATAAGAATAAAACCTGAAGGAGGTGATGGTTGTCATAAAGGTTTGGAATCTGTTTTAAATCATATGGGTACTAAAAAAATTCCTAGAATAAGATTTGGTATTGCAGCTTCTGATCAAATTAGACCTTCAGAAAAATATGTTTTAAAACCATTTAGAAAAAAAGATGAAAATTCAGTAAGTCAAATGATTTATCAAACTGCAGACGCCATTCAATTTTTAATAGATAATGGTATACAAAAAACTATGAATAAATTCAATTAATGATAGATTTAAAGTCAAACTATGTTTTTATATTTATAATCTTAAGTTGCATTTTAGGATTAATTTACTCTTTTTTAAAATCTAGATGGATTTTAAATCAAGATCAAGGCAATAATGAAATCAAATCTATTGCTTCTAGTATTCAGGAAGGAGCAATGACTTTTCTAAAAGTTGAATATAGAGTCTTATCTATATTTGTTTTAGTGGTTTCTTTTTTATTAGGGTATTTAGCTCTGAATAATAATGAATCAAGTATTTTGATTTCTTTGTCTTTTATTATCGGTGCATTTACTTCAGGATTATCTGGATATATTGGAATGTGGATTGCAACTCATTCAAATTCTAGAACTTCCAATGCAGCGCGTAAAAACTTATCATCTGCTTTAAAAATTGCTTTTACAGGTGGTTCTGTAATGGGTTTATCAGTAGTTGGTTTGGCTGTTTTAGGTTTGAGTTTATTATTTCTACTTTATGAGAATATTTTTACTAACGATTATAATAAAATATTAAAAATTTTATCCGGATTTTCGTTGGGAGCGTCCTCAATTGCTCTTTTTGCAAGAGTTGGTGGAGGTATTTATACAAAAGCAGCTGACGTAGGTGCAGATTTAGTAGGAAAAGTTGAAGAAAATATACCTGAGGACCATCCTTTAAATCCCGCAACTATTGCAGATAATGTAGGCGATAATGTAGGTGATGTAGCTGGAATGGGAGCAGATTTATTTGAATCTTTTATAGGATCTATTATAGGGTCAATGGTCTTAGGAGCAACAATTTTATATATGGGAAATTTTGAGCTTAGTTTTGTTCTTTTACCCTTAATTATAGCATCTTCAGGAATTATAGCATCTATTATTGGAGCTTTAATTGTTTCTTGGATGACAAATTCTGTAAAGTTGAATAAATCTCAAGGTAAAAAATTTGATGATATAAATAATCCACACAAGTCACTAAACACTGGTATTATGACTTCTTCATTTATAATGGCTTTATTTCTTTTTTTTGAAATAAAATATCTGTTGCCAAATTCATTTGAACTCAATGGAGTTTCATATTCAAGTTTTGGAATTTTTGTAGCTGCCTTAATTGGTCTTTTTGCCGGTTTAGGAATAGGTTTTATAACTGAATTTTACACTGGAATGAATACCCCTTCTACAAAGAAAATAGCATCTCAATCTGTAACAGGGGCAGCAACTAACGTTATTTCAGGCTTGGGAATAGGTATGCAATCTACAGCAGTACCTATTTTAATTATTGCTTCAAGTATTATTCTAGCATTTCATTTTGCTGGATTATATGGTATTGCAATTGCAGCTTTAGGGATGTTAGCCAATACTGGAATTCAATTAGCTATTGATGCATATGGACCTATATCAGATAATGCAGGAGGAATTGCGCAAATGTCTGGTTTGCCTGATGAAGTTAGAAAAAGAACTGATAAACTCGACGCTGTTGGTAATACTACAGCAGCTATTGGTAAAGGATTTGCCATAGGTTCTGCTGCATTAACGGCTTTAGCTTTATTTGCTGCTTTTATGGTTCAAACTGAAATTAATACAATAGATATTTCTAAGCCTACCGTTATGGCTGGATTATTTGTTGGTGGTATGCTACCATTTCTTTTTTCTGCATTGGCTATGAATGCAGTTGGAAATGCTGCAATGTCAATGATTAAAGAAGTAAGAAGGCAGTTTAATGAAATACCCGAATTAAAGTTTGCTTTAAAACTATTTTCAAAAGGAAACATTTCATCTTGGAATGAGAAGGACAAAGCTGTTTATTATCTCGGAATTAAGAGAGCAGAATATGGAAAGTGTGTTGAAATTTCAACCAATGCAGCTATAAAAGAAATGATTCTTCCAAGCTTATTAGCTATTGCAAGCCCAATTATTATAGGTTTTATTTTTGGGCCAGAAACTTTAGGAGGTTTGCTTGCTGGAGTTACAGTTACTGGAGTTTTATTAGCAATTTTTCAATCTAATTCTGGAGGAGCATGGGATAATGCTAAAAAAATGATTGAGGATGGTATTGATTTAGATGGAAAAAAATTTAGTAAAGGAAGTGAGGCTCATAAAGCCTCTGTTGTTGGTGATACTGTTGGAGATCCATTTAAAGATACTTCAGGACCTTCAATTAATATTTTAATTAAATTAATGTCTGTGGTGTCTTTAGTGATTGCGCCATTTATTTCATAATTTTAAGGAGATTATATGAGATATTATGAAACTATATATGTAGTTCATCCTGACTTCGAGGATTCTAGATTAGATGAAATTAAGTCTAATGTAGATAAACATATTAAAAAAAACTGTGATGAAATTATAAATTCTTATGTTTGGGGAAAAAGACGCTTAGCATATGATATAAATAAAATAAGTTATGGTACATATATAATTGTTCACTATTCTGTAAAAAAACCTTTTATTAAGGAATTAAATTCTTGGATGAAAATTCAAGAAAATATTCTAGCAAATATGACGATTCGTTTAGAAGAACAACCTACAGCAAAGGAAGATAATAAAGATAGTGTTGCTAAATCTGTTGAATTAAAAAATAATGTTAAGAAAAATGATAGTAATGAAGAAAATATTAAAGATAAAAAAGAATTAGAGGTCAAGGAGTAAAGTATGTCTGTAATTGGTAGAGGTAATGTTTGTAAGTTTTGTGAAGATAAATCAATTTCGATAGATTATAAAAATGTAAAAATAATTAAGAAGTTTGTGAATGAACAAGGTAAAATTATTCCAGGACGGGTAACTGGTGTCTGTGCAAAATGTCAAAGACAATTAACAAAAGCAATAAAAAGAGCTAGAAATATAGCATTAATGTCATATACAGGTGATAGTTTTAGCGCGTAAGGAGGAAACTAATGCAAGTAATTATCAGAAAAAAAATTGAAAAGTTGGGTGATATTGGTGATATAATTAATGTTAAAGATGGTTATGCAAGGAATTATTTACTTCCAAGAGGTTATGTAGTAAAAGCAACTCCTGGAAATATTAAGGAAGTTGAACTGATCAAATCCCAAATTAAAAAGAGAAATGATAAGAAAATTAATAATCAAAAAGAATTAGCAAAAAAAATATCTCAACTTAAAATAAACATACCAGTTAAAGTAGGTGAAGATAATCAAATTTTTGGTTCAGTTACTTCAGCTAATATAAGTGAGTATCTGATTGAAAAAGGTTTTGAAGTTAATAAAAAATCAATAAAATTAGATGATCCTATAAAAAGTCTTGGCATACATAATGTAATTTTAAAGCTAGATGATGGTATTGAATCAACACTTAAAGTATATGTTATTAAAGAAATCTAAACTATATAATATAAAATTTTGTATGTAAACATTTCTTTTCCTATTTCTAGTTGGAAAGTATTTATTTATAAAGTTCCAATTGATTTACAATCTCAAATTAAAATAGGTTCATTAGTAAGTGCACCATTAGGAAGACGTTCTAAAGTTGAAGGAATAGTAATTGATATTCTTTCAAAAAATAATTTTAAAGGAAAAATTCAATCCATTATATCGGTTAATTCAAATTTAATAACTGATTCATCAATGTGGAATTTAATTAAATGGGTTAGCAGTTATTATTTTTCACCTGTAGGGCAAGTTATGAAGGCTGTAATTCCTAAAGGAGTTACTAATCAGCCAAAATTAAAAAAAAATATATATGTAACAATTAATGATTTCAATAAAAAAACATTAATTGATATAAAACCATCAGCAAAACAACAATTAAAAATTATTAGTTATCTTAAAACGAAAGGTGGAAATGTATCTTTAAATGATTTAAAAAAGGAATCCATTCAAGCATTATCAATATGTAAAAAATTAGAAAAGAAGAATATAGTTAAAATAATCACAAAATATTCTGAGCCTAATTTCCGAGATCTTCAAATAAAAAGGATTAAAAAAAAAATCAATTTAAATGATGAACAAAAAAATGTTGTAAAAAAAATTCAACTTTCAATAAATAAAAATAAATATAAAGGATTCTTATTAAAAGGAGTAACAGGTTCAGGAAAAACAGAAGTATATATACATTTGGCTGATTATTTAAATAAAATTGGTAAAACTTCAATCATTTTATTACCTGAAATATCTCTTACACCCCAAATTGCTGGAAGGTTTAGTTCGGTTTTTGGTAAAAAAGTTGCAATCTGGCATAGTAAAATGAAATCAAATGAAAGAGTTTGGATTTGGAATCAAATTAGAAAGGGTAAAATTGCAGTTGTTGTTGGAACAAGAAGTGCAATTTTTACTCCATTACCAAATATTGGTTTGATCATTGTAGATGAAGAACACGACAGTAGTTTTAAACAAGAAAATTCCTCACCTAAATATAATTCAAGGGATTTAGCATTAGTTAGAGCAAAATATAATGATTGTATTGCATTGCTTGCTGGAGCTACACCTAGTATGGAATCTTATTACAATCAAAAAGAAAAAAAATTATCTCTGCTTGAAATTAATAAAAGATATGGAAAATCTAAAAACCCTATTATTAATTTAGTAGATATGAATTTAGAAAGAAAAAATAATGAAAATCAAAATTCAATTTTTTCACAATTATTAATTGATTCAATTGCAGAAAAAATTGATAAAAAAGAACAAGTGATTTTGCTTCAAAACAGAAGAGGTTTTTCAATTTTGAATTGTAATGAATGCCAAGAAGTAGTAATGTGTGGTCAATGTCAAATTCCACTCACATTCCATAAATCAAAAAATCTATTGATATGTCATTATTGCAGTTTTAAACAAAAAATCTATACTAAATGTAGTAAATGTAATAATAATTTAAGCTTTCTTGGTGTAGGAACTCAAAAAATTGAAGAAGCTTTAATAAAACTTTTTCCTACAGTATTAATTAAAAGAATGGATTTTGATTCTACAAGAAAAGCGGGTGAACATTCAAAAATTTTAGATGATTTTTTAAAAAATAAATTTAATATTCTTTTAGGTACTCAAATGATTGCTAAAGGATTAGATTTTCCAAATGTAACATTAGTTGGTGTTATCAATGCTGATATGAATTTATTTATTCCAGATTTTAGAGCTGGAGAAAAGACATTTCAATTATTATATCAAGTTGCTGGAAGAACAGGAAGGGGTGAAAAGCCTGGTAAAGTTGTTATTCAAACAAATAATCCAAATGATGTATCAATCTTTTGTGCAAGTACATTAAATTTAAATAAATATTATTCAACCTGTCTTAATGAAAGAAAAGAATTAATGTATCCACCTTACAGTAGAATAACTAAAATAGAATTTTCAGGAAAATTTGAAAAAACATTAATTAATATTGGTGAAAAAATTGTAAATGAAATACCAGCAAATTTGAAATGGCTTGAAGTTATTGGACCCAATCCTTGTCCTATTTTTACACTAAGAGGTAAAAAAAGATATCAAATTATTTTAAAGTCATCAAAAAAAATGGATTTAAATGGTAGATTATTACATGATTTGATTCGAAAAAATTTGTTTGATAAAATCAACTTTTATAATAAAAAAAACTTACAAATTTCGATAGATGTTGATCCTAATAATCTTTTATAAAATATTAACATGAAAAAAATTATAACTTATTTATTTATGTCTTCAATTATATTTTCTCAATCCGCTTTTCAATCAATTCAAATTATATATGATTCTAAATCCCTTGGCCTCTCAGGAGTTGGAATTTCTAATTCTAGATCAGATGAATCTGAATTTCAAAATCCTTCATTATTGTCCAGTAATAATAAAAAATTGAAACTATCTTTTATTCAATATCCAGCAAATATTAATTCTCATTTTTTTAATTATACAATGAAATTTAAAAATTTATATTTTTCAGGACATTATAAAGGAATAAATTTTGGAAATTTTCAAAGATATGATAAAGATGGAATTGGCTTAGGTGAATTTTCAGCTAGAGATAATTCATTTGGGATATCAGTTGCAAATTCACTGTCAGAAAATTCGGATTTAGGAATTTCTTTAAGTTTGTTTCAAAGTAGAATAGATAATTTAAGTTCAATTTTAGGCCTTATAACAATTGGAGGAAATGTGAATTTTCCATCCTCAAAATTTTCAATAGGTGGAGTAGTAAGAAATATCGGATTAGTATTTGACCATTATACAACACATGAAGAAATAATTCCTTCTTCAGCAGGAATTGGACTATCAAAAAAATTGGAATATTTGCCATTAACTATTTATTCTGATATTTTATGGTGGGAATCAAGAACCATTTTAAAATTTGGAGGAGAATTTCTAATAAATAAAAATTTTCAATTACAAATTGGTACATCTTCTAATAAAAATAACTTTAATACAGACTTAGTATGGCGCAATATTTTTTCAGGTTTTTCATCAGGTTTCATTTATAATACAGGTAAGCATTCAATCGGTATGTCATTATTAAATAATGGTATTGCTGGAATTTTAATTGGAATTGGTTTTTCAGCAAATTTAAATTGAAATCTTCAAAAAATAAAAACTCAAAATTAGACGATTTTATTAATAATCCTAATAAATCATTGTGGGATTTAGCTATACCAATGATGTTTGGAATGATGGTTCAAACAATTTATTCATTAGTTGATATGATATTTGTTGGAATGGTTGGTTCAAATTCACTGACTGCATTAGCATTTAATTTACCTATTTTGTTTTTTGGAATGGGATTAGTATTTGGTTTGGGGTCAGGTGTTACTGCAGTTATTGCACAATATATTGGTTCAAATGATTTAGAAAAAGCTAATAATAGTGCTCAACAATCAATTTATATGGGTTTAATAATTGGTTTTATTTTAACATTTGTTGGGTTGGTTTTTGGAAAAGAAATTTTAAAGTTTTTGGGTACTCCCTTAAATATTTTACCATTAGCTTGGAATTATTTTAGGATTATAGTAAGTGCTTACGTTTTTATCGTCATGTCTATTTTTTTTAGATCAATATTTAGTGGTGAAGGTGATATGAAAACACCTATGATTGTAGGAGGTTTTGGAACAATATTAAATATTATTTTAGATCCAATTTTTATTTTTTATTTTAACATGGGTGTTGAAGGAGCAGCATTAGCTACTGTAGTTAGTCAAATTTTTGTTTCATTGATTTTCACATATTTATTGTTAATTAAAAAGTATAGTTTTATTAAAATTTCTCTAAGCCTTTATAAGTTTTCATTTAAAATACTGCTGAAGATAATTAAAATTGGATTACCAGCTTCTTTTTCAATGATAATAATGTCTGTTGGTGGAGCTTCATTTAATAGAATTTTAGTTGAATTCTCTAGTGATGCTGTTGCAGCATTTCAAATTGGAATTAGATTAGATCATGTTTTTTTAATTCCTGCAATTTCAATATCAACAAGTGTTGTTACATTGGTAGGAATGTTTTACGGAGCTAAAAAATTTAACTTAGTAAAACAAATTACGTTTTATGCAATTCGATCTACTGTATTAATTGGAATCATAATTGGTTTTTTATTCTTTGTTTTTTCCGATAATATTGTTTCTGTTTTTAGTGATAATATAAATATTCAAAAAATATCTTCTCAATATTTAAGATATTTTGTTTTTGGATATCCCTTTGTTGCAATTAGTATGATAAGTGGTAGAGCCATGCAAGGCTTAGGAAAAGGTATACCCATGTTAATTTTAACATTATTAAGAGTACTAGTTATTAGTTTAGCATTTTCTTTCTTTTTTGTATTTTTTTTAAATAAGAGCATAGAATGGGTTTGGATATCTCAAGTAATTTCAGTCATTTTTTCTTCTTTTATCGCCTGGCTTTGGTTAAAATATGTTTTTAAAAAAAAAATTTAGAAAGTAAGAAATGAAAAAAGTTGGAATAAATCAATTTGTTCGAAGACAAACTAAAGGTTCTGGAAAAACTTATTCTGATCAATTGAGTTTTGAGGAAATAGCCGAACATGCTGAAAAACAAATATTGAATGGTAAATATAAAAATGGTTATAGAGATGGTGTAATAATCGTTAGCGTAAGTAATGAATTGATAAAAAACTTTGTTTGTCCTTTTGTAAAAATTAAAAATAATACTAAACTTTTTGCCAATTTTGTTCGCAGGAGTCCAGGTGAGGACCCATATATTCAAATTTGTGCGTTGAATGGAAAATTACTTATCACTGGTAAAGTTAATTTAGTTCTATATAGCAATGAAGTTTTAAAAGAGAATAAAGAAAATTCCACAAATTGTGAATGGGAGTTAATTTCTATATTATCAATTCCAAAAGGAATTAATGAAATTCCAATGGGGCCAGTTACCATGATGAGAAATCAACTTAATTTAAAAGGTGGTACAAAAGGAAATTATTCTTCAGCTGATTGGGCAAAATCAGTTAAGTTTTGGCAAAATTATGCTGTATTAAAATCTTTAATTAATTAAATTGAAATTAATAAATAAAATATTTTGTGATATTTTTAATAGTTGTAATTTGAAATATAGTTTTAAGGGGTTTTTGATTTAGTTTGGTGTCATTATGGTAAGTTTATCAGTATTAAAAGAATTAGTTAAAATTGAAAAAAGAGCAGCCTTAGTTCCAGAGAGTGTAAAAAAACTAACTAAGATTGGAGTTTCTGTTTTAATTGAGGAAGGTACTGGTGTAGAAGCTGGATTTAAACCTGAAGATTATATAAATGCAGGAGCAAAGTTAACTTCAAATCGTGAAGAAATTTTAGAGTCTAATTTAATTTTAGGCGTAAGATTAGATCTTCTAGATGATAAAGAATTAGACAAATTAAATAAATCGATTTTAATTGGTTTTTTTAATCCATTTAATAATATTAAAAATATTGATTTGTTAGCTTCAAAAAATTTTACATCTTTTTCAATGGAACTAATTCCGAGAATATCGAGAGCTCAAAGAATGGATGCATTAAGTGCTATGAGTTCAGCTGCTGGTTATAAGGCAGTTTTATTAGCTGCAAATTCATTAAATAAATTTTTTCCTTTAATGATGACAGCAGCAGGAACTATTTCACCTTCAAAAATATTAATTATTGGTGCTGGTGTAGCTGGTTTGCAAGCTATTGCTACTGCAAAAAGATTAGGTGCTCAGGTAAAAGCATTTGACACAAGACCAATAGTTAAAGAACAAGTTGAAAGTTTAGGAGCGGAATTTATAGAACTAGAGACTACAGATGATGCTGAAACTTCAGGAGGTTATGCTGAAGAAATGTCTGATGATTTTTACAAACATGAACAAGAAATTATCGCTAAATATTTATCAGATTCAGATGTTGTAATTACAACAGCTCAAATATTTGGGAAAAAATCTCCTCTTCTGATTACAGGTTCAATGGTTGAATCTATGAGGTCAGGAAGTGTGATAGTTGATCTTGCAGCTGAAAATGGAGGTAATTGTTCATTTACTGAGCTTAATAAAACTGTTGTTAAAAATGGTGTTATCATTCATGGATTTACTGATTTACCAAGCACTTTATCATATCATGCTAGTGAAATGTTAAGTAGAAATATATCTGCTTTATTATTTGAAATTATAAAAGATGGAGAAGTTAAATTAGATTTAGAAGATGAAATAATTTCATCAACTCTTTTAACTCATAAAGGAAAAATTGTAAATCAATATGTAAAAAAAATGATTGAAAAGGAGAAATAATAATGTCTTCGGATATTTTGTTCCAGTTATATATTTTTATTTTGGCAATTTTTGTTGGTTTTGAAGTTATAACAAAAGTTCCTCCGACTCTTCATACTCCGTTAATGTCAGGATCAAATGCAATATCTGGAATAACAATAGTTGGTGCAATAATTGCTTCAGGTTCAAAAAAAATAATAATTGAAAGCTTTTTTGGTGATATTGATTTAACAGCAATCTTAGGTTTTATTGCAATTATATTTGCAACCATTAATGTGGTAGGTGGTTTTTTAGTTACAAATCGTATGTTAAGAATGTTTAAAAAATAGATTTATGATACAATCATTAATAATTCCAGTACTTTACTTATTATCTGGTGTTTTCTTTATTGTGGGGTTAAAACTTTTATCCCATCCTAAAACAGCTCCCAGAGGAAATTCTATAGCAGCTATAGGAATGCTCATTGCGATTATAGCAACTCTTTTAAATAATCAAATTTTAAGTTACGAGTTAATTTTTTCAGGGATAATTATTGGTGGTTTAATAGGTAGTTTTGCTGCAAGAAGAGTAGAAATGACTTCCATGCCTCAATTAGTTGCTCTTTTTAATGGATTTGGAGGTGGAGCCTCTCTTTTAGTTGCTTCAGCTGAATTTTATAGAATTCAAAATAATATTGAAGAATTTATTTTTTTTGCAATTTTACTTTCAATTTTTATTGGTGGTCTAACTCTTACTGGAAGTATTGTGGCATTTGGAAAACTTCAGGGAATAATTAAAGGATCTGCAATAAAATTTAGGGGACAAAATTTTATCAATGCCTTACTCTTTTTGACAATCATTGTTTCTGGTTTTTTAGCAATTTTAGGTAATTTCGAATTTTCTACTGTTATCATAGTTTCTATTTGTATTTCATTGTTATTGGGTTACTTAGGAGTTATTCCAATTGGTGGAGCTGATATGCCAGTAGTAATATCTTTGCTTAACTCGTTTTCTGGATTAGCAGCAGCTACTACGGGATTTGTTTTATTAAATAATTCTTTAATTATTAGCGGTTCTCTGGTTGGTGCAAGTGGAATAATATTAACAAATATTATGTGTAAAGGTATGAATCGAACTATTTGGAATGTTTTATTTACTGGTTTAGGCTCCAATAGTTCCAGTAATCAATCCGTAGCAAAAAATGCAGAAAATAAAATTGCTAAATCCTATGAACCAGAAGATACTGTTGTTATTTTTGAAAATGCAAAAAATATTATAGTGGTTCCGGGATATGGAATGGCTGTTGCTCAAGCTCAACAAATAGTTTCTGAGTTAGAAAAAGTTTTAGAATCAAAAGGCTCAAATGTGAAGTATGCAATTCATCCTGTTGCCGGAAGAATGCCAGGTCATATGAATGTTTTGCTTGCAGAGGCAAATGTTTCATATGATAAATTATTTGATCTAGATGATATTAATCCTGAATTTGAACAAGCAGATATAGCTATTGTTATAGGTGCAAATGATGTTGTAAATCCTGCTGCAAGGAATGATCAATCAAGTCCTTTATATGGTATGCCAATTTTAGATGTAGATAAAGCACAAACAGTTTTTGTTTTAAAAAGAAGTATGAATCCTGGTTTTGCAGGAATTGAAAACGAACTTTTTTTTAACGATAATTCAATTATGCTTTTTGGAGATGCAAAAGAAACAATTTCACGTTTAGTTTCAGAGCTTAAACAGTCTTAAGTTTTTTATAATTTCCATTTTAGAATTTCTTTAAATCCTATACCTAAGTAGAAAGAATTATAGGTTTCATTTTTATTAATAATAAATTCTTTAAAAATATATTTTTCATATTCAATTCCAAAAGTAAGATTGAGAAATTTATTTAACTGATAATTAATTTTGCTTGAAACTTCATATCTGTTAGATAGTACTTCATTTGGTAGTAAATCACTAATTTGGGTAAAATATTCAAAGTCTAAATTCATAAAAATTTTTGAAAAATTAATATCCCAAAAAAAACCATATTTCAAATAAGAGGTTTTTCTAGTATCATTTAAATAATCTGACATATCATATGAAAAAGCTATTTCAGAAGTTAAATGATTATTCGGTTTGTCAAAAATAAATGCACCAAAACCTTGATTATAATGGTATCTAATATTTAAACCTGAAACAGAATTTCTTCTTAAAGAAGTTACTGTAAATCTATAAATAGAAGGGAAAACCTCAATTTTATTGCTTGATTTATACCTTGCAGTTATAAAACTACTTTTAGATTGAATTATTGATAAAAAGCGAATATCGTTAAATGTATTTTTATTAACTCTTTTTAATCTAATAAAACCAACACCTCCAGGACCATTTAATTCACCAATACCAATTTTTCCATAACTTGTCCAAGTCGGAAATTCTTTTTCTTGAGAAAAAGCTAATGAGATTATCGTTAAAATGACAAATATGCGCAAGATTTAATTTTTAATTCTATATCCTATTTTGAATAGCCATATTGATATTGAAGTAAATAATATTGTCATGAAAATTGTAATGATTATGGATATTGAAAATGAAGTATCTCCAATATTTAATATTGAATATCTTAAACCATTTATTACATAATATATTGGATTAATTAATGATATTTCTCTCCAAAAAGAAGGAAGCATATCAATAGAATAAAACACTCCTCCTAAAAAAATTAGAGGAGTGACGAAAAAATTTAATATAGTTGCAATATTGTCCCATGTTTCTGATAATATTCCAACTAATAAACCAGCACTAGAAAATGCCCATGAAACAATAAATAATAAAAATAATACTAAAATTGGTTTTTCAACTGGCATTTGAACAAGAAAAACTCCAAGTAATAAAACTAAAACTCCATTAATGAATCCTCGAACAGTACCTCCTATTATAAATGCTATTGCCATTTCAAAATTACTTAATGGAGTTATAAGCATATCCTGCATTTGCTGAAGCAGTTTCATTTGTAACATACTTGAAGCTGTATTGTTAAGGGCATTGGTAATCACATTCATCATTATTAGACCTGGAAGAATATAGATTGTATATGAAACACCATCTATTTCAGTAATTCGTTTTTGTAATGTTAAACCAAATATTATCATATACAAACCTGATGTAATCAGTCCTGGTATAATAGTTTGTCTCCAAACTGAAAAGAAACGACTTATTTCTCGATATGTAAGAGTTGAAAAACCTACCCAATTAATCATTAATTTTTCTTCCTGTTAGAGATACGAAAACATCTTCTAAATTTGGTTTTAATATTTTAACGTTATTTAGTTGACAATTATTTTTAATTAAGATGTCAATTATTTTTGGTAATGACTTCTCAGGGTTGTTAACTGAAAAAATTAGTTTGTTTATATTTTCTTTTGATGAAAATGTATATTTAAATGATTCTAAATAATCTAATTTAGATTTATCAATTACATTTAGATCAACTTCAATCGAACCTTTTCCAACTGACTGAATTAATTCTTCAGGTTTACCTTCTGAAACAATTTTACCTTCATTAATTATTGAAACATAGTCACAAAGTTTTTCTGCTTCTTCAATATAATGAGTTGTTAGGAGTATAGTTTTTCCATTTTGGTGCATTTCTTTCAAATAATCCCATAGCATATGTCTAAGTTCAACATCTACACCAGCTGTTGGTTCATCCATAATTAAAATATCAGGGTCGTTTACTAATGCTTTTGCAATTTGAAATCTTCTTTTCATTCCTCCAGATAAAGTTCTGATTTTATTTTTTCGTTTTTCATAAATTCCTAATTTTTTCATGATATCATCTACAATATGCTTTGCTTTACTAGATGGAATACCATAGTATCCAGCTTGAAATAACAATAATTTTTCAATTGAAAAAAACCAATCAGAATTAAAGTCTTGTGGAGATACTCCAATTTTAGAGCGAGTAAATCGAAAATCTTTAATTATATCTTTACCAAAAATTGAAACACTACCTTCTTGTAATTTTACTAAACCTGTAATAATACCTATGGTTGTAGTTTTACCTGCTCCATTAGGACCTAAAAGTCCATAAAATTGTCCTGGTTTTATTTCAAGATCAATTCCATCTAATGCAAGTGTGTTTTTATAAGATTTTTTCAAATCTTTTATCTTGATAGCTAATTCCATAATATAAAATAAAATTTAAATCTTAGTTAAATAAGAGAAATTTATTGTAAAAACGCAGCTCCGAATACACCTGCTGAATCCCCCATTTTATTTTTTAAAAGAGGGGTTTTAATATTTTTACTAAAGGTAAATTTTTCTATCCATTTTGGACCTTCAGTATATAGGAAATCTACTTTCGAAAGGCCTCCTCCTAAAACAATAACTTCTGGATCAATAATATTGATTACATTTCCAAGTGCCATTCCAAAATTATTTAAAAAGTAGTTTTTCCAATCCTGAGGAGGCTGTTTTGCAATATCTGTTACAATTGCTTTTTTCTTAGTTAAATCAAAATAATATTTTTCTAAACTCGGCCCAGATAAATATTGCTCAACACAACCTGAATTTCCACAATGACATTTTTTACCATTTGAAAACAAAACAGAGTGACCCCATTCACCTGCAATATTATTTAACCCAGAAAAAACTTTTCCATTAATTGTGATTCCACCGCCAACTCCTGTTCCTAAAATTACACCAAAAACAATTTTTTTATTTTTTGCTGCTCCAAGAGAAGTTTCAGCTTGAGCAAAACAATTTGCATCATTTTCAAGGATTGGTTCACAACTAAATATTTGTTCAAGGTCTTTTTTGATAGGTTTGTCAATCATTACTATAGTATTACTTTTCTTTAACATATCACCGTTGTTATTAAGAGGTCCAGGAACTGAAACTCCAAAATAAAATTTATCTCCCAAGTGATTTTTTATTTTAAAATGTAATTTTGATAGTTGATTAAGGATATGTTCATAACCATTAGCTCTCTCAGTAGGTACTCTCGTGCGAATTAAAATATTATCATTTGAGTCTAAGACAACAGCTTCAATTTTAGTACCGCCAATGTCAATTCCTAATCTATTCATACTTCCCTTTGTATTAATTCAAAAAATTTTTTTTCATCGATAATTTTAATATTCAAATCTTTTGCTTTATTTATTTTACTACCTGGATTTTCTCCAAAAACTAAATATGATGTTTTATTTGAAATAGAAGAAGAAATTTTCCCTCCATTTTTTTCAACAAGCTCTTGAGCTTTTGCTCTTGATATTGATTTAAGAGTTCCCGTAAAAACAAATATATCTTCATTTAACAAATTAAATTTATTTTTATCATTATCTTTTTCTATTATTTTGAGACCAGAATCAAAGCAATTATTGATGATTGTTTGATTTTTTGCATTTTTAAAAAACTTTTCTATAGCTTCTGCAACAGTCGGTCCTATTTCATTGATTTGAATCAATTCATCTGATGAAGATTTTGATAATTCTTTTAAAGAAAATTCATTGGATAAAACGTGAGATAAGTGTTCTCCAATGTTTGCAATTCCCAAGCCATGTATAAATCTCCACATCGGAATATTTTTTTTTGAATTTATAGCACTGATTATATTTTTTGCTGATTTATCAGCCATTCTATCTAAATTAGATAGCTGTTCATGATTTAAACTAAAAATATGAGAAAAATTGTTTATAATTTTTTTATCAACCAACTGATCAATTAATTTTTCTCCAAGTCCATCAATATCTAAACATCTTTTGCTAACAAAATGTTTAATTCTTGCTTTTACTTGTGCATCACAATTATAATTATTACATCTTAATGCAGATTCATTATCAAGTTTTATTGTAGTATAATTACAAATTGGACAATTCTTAGGTAAAAAATATTGTTTTGAATTCTCAGGCCTTTTTTGTGTTATTACTTTTATGACTTCAGGAATTACTTCACCTGCTCTTTGAATTAGAACAGTATCACCAATTCTAATATCTTTTCGATTGATTTCATCTTGGTTATGTAATGTTGCATTTGTAACTGTTACGCCACCAACTTTCACAGGTTTTAATTTTGCAACAGGTGTTATAGTTCCTGTTCTTCCTAACGATGGAACAATATTTAAAATTGTTGTTGAAACTTGTTGTGATTTAAATTTTCCAGCTAAAGCCCATCTTGGTGATCTGCTTCTAATTCCTAAAGTAGATCTTTGTTCAGGGTCATTAACTTTTATTACGACCCCATCTATTTCGTAATCAAGAGAATTCTTTTTTACTTCCCATTTTTCTGTATATAAAATAGCTTCTTTTATATTATTACATATTTGGGTGTTTTTATTAGTTGGAAGACCCCAATTTTTTATTTTTTTTAAAATTTTATCGTGCTTAAGATTATAATTGCCTGCTAATTCATATGCAAAAAAAATTAATTTTCTTTTAGATGTAACTGAAGAATCTAGTTGTCTTAAACTACCAGCTGCTGCATTTCTTGGATTAGCAAAAGATGTCTCATTCGCTTTTAATCGTTCCTCATTTAGTTTTTTAAAACTATTTTTTTCCATAAGAACTTCCCCTCTTATTTCAACTATTTCAGGAAAGTTTGAACCAAGCAGTTTTAGGGGTATTGATTTAATAGTTCTGAGGTTTTGAGTTATGTTTTCTCCTCTTAATCCATCGCCTCTTGTTGAACCTAAAATAAAAATTCCGTTTTCATAAATCAATTCAACAGCAAGTCCATCATATTTGAGTTCAGTGACATATTCTATTTCTTTTTCAGTTTTTAAACCTTTTTTTACTCTCTCATCAAATGCTAAGATTTCATTTTTATTCATAGCATTTTCTAAACTAAGCATTGGTGTGGAATGTTCAATAGTTTCAAATGTGTTTTTTGGTAGAGAGCCAACTCTTATAGTGGGCGAGTCAAGTGTTTTGAATTGGGGGTTGTCTCTTTCAAGTTTTTCTAATTCTCTAAATAACAAATCATATTCTTGATCGGATATTTCAGGATCATCATCAACATAGTATTTTCTGTTATGAAAATTAATTTTTTCTTTTAAAGAATTGATTTTTTCTAAGATGTTCACTTTAACTATGGAGTTCTTTCTTTATAATATTCAATTGGGTCAATAAGCTTTAGCTCTATTGGTTTTAAAATGCCTTGGTCGTTTATAGGAAATGCATACATTCCAGAATTTTTTATTTTCGCTATAAAAAAATAATATATTTTTTCCCCTGGATATATTTTAGGATCGTATTTAAATCTATATCTTCCTTTGAAAAACTTTAGTTTTTCTTCTCTAAAATTTTTTGATTCATTAGTTTTAAAATAAAAATTAATTGATTCTAAAGAATCGTACGGAATATCCGAAAAAACTTCAAGAAAATAAGGTCTTCCTTGAAAAAAAGGATTTGGTGTTTTATGAAGCAATTTAGATTCTAAAGGGAAAACTTTCTCAAAAAAGGATAAATTTTGAGGAAAAACTTCAATACTTAATAATAAAAATAATACAAAAATTTTAAAAATTTCTTTCATGGATAAAACCACTTTAATTGAAAGTTATGGAAATTTAATTTAAGAATCAGGAAAAGAATTAGATTTTTGAAAGTTAATACAATTATTATACCAGTCATCATAATTAATTGATTGTTCCACAAAATGTTTAATTGCACATTTAGCATCTCCTTTGCAAATGACAGGTGGAGAAGACCTGCTATCTGAATGAAGTACAGCAATAAAAGTTTTTGGAGGAATTTTAAAATATGGTTCTAATCCAAGCATTGCATCAAAAGCAAAACCCAAACCTTCATTTTCCCTAGATCTATTGACTTTTAAATGAATCTGATAAGTTTTACCTAACTTTGAATCCACATATACTTTTGCTCCTAAATAATCTGGAGAGCCTGGCATTTTTTTTAAGTAACTGCCTGTCATAGCAACGATTTGTTCATTTGAGAATTTAGTTCTTGAAATTTGTCCGAAAGAATTATTTATTATTAAAAGATTAATTAGTCCAATGATGAGTAAAGAATTTTTAAAACCCATTTTTCTAAAAAGTAACCCTTAAAGAAGTTTGAACTGATCTTATGATTAAGAGAGCATCTGCTCCACCAACATTACCATTTGGCTTGAATCCACCAGTCACTAAATCTGCTTTCATAATTCCTCTTTCTGAGCACAGAGCCATCGCAGGATAGGCAAAATGTGAGCTTGAAACATCAGAAAATCTAGAAGGATTTTCTCCAAAATATCTTGTTTCAAGTGATTCATCTCGAGTCACCATTGTAAGAATTTTAGCAACTGCTCTAGCATAACCAGCTCTGGTTACAGGTTCAGAAGGATAAAAATTTCCATCTGGATCAGGTTCAACTACTCCTAATTTGATTGCTTCTTCTATCCAACCAGAGGCCCAATTATTATTGACATCAGATGGTAGGTTAAAATTAGAAGTTCCCATCAGTTGTGAAGGTGTTTGAAATGTAGGAGTATTATTTGATGGCATAAATCTTTCAAAAAGTTCGGTTAATTTTAATTCTTCAATAAACAAAACAGTCATATCAGCTCTTGAAATTTTTGTTTTTAAAGCAATTTTTTTACCAGCAGTAGTGCCGGGTTGTGCACGAACAATTTTTTGAGATAAAGCCCACATCTTATCAGCTCTTCCAGCAAAGGTACCCTTTTTTTCAACTAGAACTCGAAATTCAGCATCAGCTAAAGAAAAATCATAATTTTGCATATATGCCATTCCCCTCCAGAAAAAGGCAGCTTCGAACTCATCATCAAGTTTTAAGGCAGCTTTAAATTCATCTAACGATCTGGTAAGCCATCTTTGATTTTCATTTTTATGAGCAATCCATAATCTTCCTGATAGTACTCTAATCTCTGGATTTTTTTTATTTGTTTTTAAAGCTGTATCCATATTTTTTCGACCAGTTTTAAGATCTCCAGTTAATCCATATGCCAACCCTAAACCAGCATATCCCTCAGCAAATTTTTTGTCAAGATCTACAGACCTTTGGAAAGATTTAATTGCAGATTCATAATTTTCATCATCTAGATATCTCATTCCAGCTTTGTAATGATACTCAGGAGTATCAACATCAGATTGTGATGTGACTTGAGGACCACATGCAAAAATAGAAAGTAAAATAGGAACGATAATTAAATTTGAATTGAATTTATACATAAGTAAACCTCTCCATGTAAAGAATTTAGTTAAAAGTTAATGGCCTATCTTTTCAAAAAAAAACCATTTTTAAAATAAAATGATTTAAATCACATAATTTTCCAAAAAAAATTGACTAATTTCATATTTAATAATTGTTAATCATATATATCTTAAATAAGTTGCAGTGGTGTAGTAAATGAAAAGGGAAAAAAAACGTTGATCAGAAAAATTTATCTTATTTTTTCAGTTTTATTTTTTAATTGCGTTCTTTTTTCGCAAAGTTCAAATATAAGTGCTGAGGGTTTTGGTATGACTGAAGATGCAGCAATTGAACAGGCAAAAAGAGCAGCTGTAGAAATTGGGATCGGTACTGTTATGTCATCGGAAACAGTTGTGAAAAACTCTGTTTTATTTTCCGATAATATTTTTGCTAAATCTACTGGTTTTGTAAAAACATTTACAGTTACAGATAAATTTCAAGGCCCTGATGGATTGTGGACAATAACTATCGATGCTGTTGTTACTGAAATAATTGATGAAATTTTGCAGGACGAATTAGCAGTTCAAACCTTACTTAATGCAATGAATAGACCTAAAATTATTTTTATGATAAAAGAACAAAACTTAATTGATAATACTCCAACAGATTTTGCTGAAACACAATTAATTAAAATGTTTTATGATAAAGGTTTTGATGTAGTAGATCGGCAGCTTGTTCAAGCTCTTAAGGGAGAATCAGATTATACTCAAGCTTTGTCGGGTGACGTTAGCGCAGCCTCCAAAATTGCAAGTATGTTAGGAGCTGATATTATTGTAATTGGAACAGCAAAAATTTCATCTGGTGGGGTAATAGGAGCTGGTAATTTTCAAATGACCTCTGGTCAAGCAGATTTAAATGGTAAAATTGTGAGAGCTGATACAGGTGAATTATTAGCAATTGTTCCTCAGGCTAGAGGTAAAAAACCTCACATCTCTCCATCTACCGCTGGAATTAATGCTGCAAATGAAGCTTCATCAATTCTTGGGTCAGATATCATTGGTCAATTAATTAAAAAATGGAGCACTCAACAATCTAATGCTGTAAATGTCTTTTTAGTTGTTGAAAACGTTAATTTTTCTAGTTATATGGCTCTTGGAAATCATCTTAAATCTCAAATGATTCCTGGAATTCAAAGTGCTTTTGAAAAAGGTTTTAATGATGGAGTGGCTGAATTTCAAATTTTATATGAAGGCAAATCTCAAGATTTAGCAATGGCACTTATGCAAAATCAATCAGCTGACGCGTCAATTGAAGTTACTGGATTATCAGGTAATCGTATTTCAGCTCAAATTTCTCAATAATGGAGATCAAAATGAATCAGTTTAAAAAAGTTATTATTTTTATGTTTATTTCATGTTCCCTTATAAATGCCCAAGGTTGGGGATGGGGAGCGAATGATGCAGTAGAGCCAGCAGAAAATGGTGCTCTTAATTATTCAAATGGTTTTATTGTCGCAACAGGAATTGGTGCGATTTCACCACTTGCACAAAATCCGGGTATGGCCCGTGCAACAGCAGTTAGAGCAGCAAAAGTTGATGCTATGAGAAATTTATTAGAGACAGTTATGGCAGTAACAGTTACATCTGAAACTACTGTTAGAGGTGCTGCCATTGAAAATGATTTAGTAAAAACCAAAGTTGAAGGAATGGTTAAGGGTGCAAGAATTAAAGATATTGATGGTGATGGAAGAGGAAGTAGCTCTGACATTCGTTATTTAAGTGATTCTTCAATAGAGCTTGAAATGGAAGTGCATATGTCAGGTATTTCTGAGATTATTATGCCAGCTGTAGGGTTTGCTCCTCCAGCAGTTTCATCAACACCTGGTTTGCCAGCTCCTCCAGCAGCTCCATCAGCTCCGCAACCTGGAAATATAACAGGTCTTATCATTGATGCTAGGGGTTTAGGTGTAAGACCAGCAATGTCACCAAAAGTTCTAGATCAAAATGGATCAACAGTTTATGGGCCAGGAAATTTTACTCGAGAGTTTGCAGTGAAATTTGGGGTGGCAGGATATTCAAAAAATTTAGAACAAGCACAAGTTGATCCAAGAGTCACTGGAAATCCTCTTGTCGTTAAAGGGATTGGCATTCAAGGTCAAAATAAAACGGATATTGTAATTGCTTCAAATGATGTTAATAAAGTGAAAACTGCTGACATGAATGGGAAATTTCTATCGAATTGCAAGGTAATGATTCTCATTGATTGATATTTTTTTTATATTTGAACTTACTTATAGGGAAGTTTTAAATGCTTAGACATGTATTAATATTTGCTTTTTTTTTCATGCTTAGTGCAACTACTATCAATGCACAAAATAAAGATGAAAATGTAAAACCTGAAATCACTCAATTAAAAGTAGGTGATATAGCACCTAAATTTGCTCTTAGAACTTTGGATGGTAAATATGAAATGTTGACTAGATGGTCAGGGGAACAATTATCTCGTCCAGCATCTCAACCTACCAGACATATTGTTTTAGTTAGTTTTTTTGCAACTTGGTGTCAACCATGTATGAAAGAATTGCCATTACTTGAAAATCTTTGGCAAAAATATCAAAAAGATGAAGTTAGAATTTTTTTAATTGACATCACTGATGCAACACGTTCAGTACCTCAATATGCAGATGCTCCAAAACCAGGACCTTTTTTAAAAGAGCGTGGTTTAACAATGCCATTATTACTTGATACTTATGGCAAGGCGATGGAGACTTATGTTCCAGACAGAGTCCTTCCGAGATTGTTCGTTTTAGATAAATATAGACAGATCAAATTGATCAAAAGAGGATTTCATGAGGGTGAGGATTTTGAAGGTGAGCTATCAAAAGTAATTGATGAATTATTAAAACAAGACGGGGAAAAGAAGTCTTAAAAAAATTGATTTCAAGTGTTGCAAATCACAGCTTTTTTAAAAGTTTAAGTTTATTTTGGAGTTAGTATGAAAAAAATGATACAAAGATTATTTTTGACAATCTTTACAATAATTTTATTACCTATTGGTTTAATTGCTCAGGATAAAATGTTTTTATCTGTATTAGATCTTGAAGGAAGAGGTATATCTGCCTTAGAAGCAGGAAGTTTAACTGACAGATTACGCTCAGAGCTTTCTACAACGAATGCAGTAACCATTGTTGAAAGAGGTCAAATGCAAGAGGTCTTGGATGAACAAGGTTTTCAACAAACTGGTTGTGTATCATCTGAGTGTGCGGTTGAGGTTGGTAAACTTTTAGGTGTATCTCACATGGTAACAGGTTCTATTGGAAAATTAGGTACAACCTTTACTCTTGATGTAAGAATTTTTAGTGTGCAGGATGGTGGGATTGTGAATACAGTTAGTAAATCTTATCAAGGTCCTATTGATGGTCTTTTAACCCAAATTGAAATGACTGCTTGGGAGCTTATTGGTCTTACTCCTCCTGCAGGAAGATTTCCGGATGCAGCACCTGCTCAAGTTGCTGCTTCTGAGCCAGCAAAACCTGAGAAGGTGAAGAAAAAAGGTGGTGGAAGAAGGACTTTAATGTTGCTTGTTTTAGCTGCCGCTGGAGGTGGTGGTTATTATGCGTATAGTGAGGGAATGTTTGATTCTGGTTCAGACGTTCTTCCAGAACCACCAGCACTTCCATAAAAAAATAAAGGTTTAACATTTCATGAAGAAATTTTATTTATTTTCCATTTTAATTGCTAATCTTGTTTTTTCCCAACAAACTGCAACCCGGTTGGGTTCTGATCTTGAAGGTTCGGCTCAGGAAGTTTTTTTTGGTTATTCAGTTGCTTTAAATAGTGCTGGAAATATTTTAGCTGTTAGTTCTCCTGGAGCAGATGTTCCAGCTGCAAATGCAGGTAGAGTTGATATTTTTCAATATGCTTCAAATTCTAACCAATGGGTAACTTCTGCAGCATTTACAAAAGGTAGGGCTAATGAATATTTTGGAACTTCTTTAGATATAACTGGAGATGGAACTAGTGTTGTTGTTGGGGGTGAAGAATATAATAATGGCGCAGGATCTGTTAGCGTTTTTCAAAATTCTGGTGGTTCATGGGGTCAAAAAGGAAGCACTCTAACGGCTGATGCTGGTGATAGATTTGGTGTCTCGGTGTCAATTAATAAATATGGTGATATTATTGCCATAGGTTCTAGTTATGATGATGATGGTGGGATAGTTAACAGAGGTAGTTGCTCCATTTATCAATACCAAATAGATAACTGGGTACGGATCGGTTATATCTGGGGGAGTTCTGCCAATCAAAATTTTGGTGAATCTGTTTCGCTTGACAGCACAGGTCGTAGGGTTGCAGTAGGTTCTATTGGTGGTAATGGAAGTGTAAAAGTATTTGATTTTAATTCATCAACAACACAATGGGATCAAA
>sequence11
ACAACATCAACCGGTTTTTCTATTTGATTAATATCCTCATCAACAACATCAACCGGTTTTTCTATTTGATTAATATCCTGTTGATCAATATTCTCATCTATAACATTAACCGTTTGATTGAAATTTAAATCTTGAAAACTATTTCCTTGAGGATCTAAATTTTTAATCCATTCAGGAAGATTTTGATTTAATGGATCAATATTTTTATTAGAAACTGTATCATTAATTAATTTATCATCTTGATTTGATATTTTTTTGGTTCGACTTTGAACCCATTGAGATATCAAATAAACAATTAAAATAAATATCCAATAACTAATATCCATAACACAAAAATATTAATTTAATTTTCTTTATTTTGATCATTTCCTTCAGAGATTGAAGATCTCATATCTGTATCAGCTTTAATATTTTTCATAGAATAATAGTCCATAATTCCCAAGTTACCACTTCTAAATGCATCTGCCATTGCTTGTGGGACTTGTGCTTCAGCCTCTACAACTTTAGCTCTCATTTCCTCTACCAAAGCTGTTTTTTCTTGTTCTTCAGCAATAGCCATTGCACGTCTAGTTTCAGCTTTCGCTTGAGCAACTTTTAAATCAGCCTCAGCCTGATCTGCCTCCAAATGAGCTCCCACATTTTTACCTACATCAACATCTGCGATATCAATACTTAAAATCTCAAATGCAGTACCAGCATCTAGACCTTTTTCAAGTACAAATTTTGAAATTGAATCTGGATTTTCTAAAACAGTCTTATAAGATTCAGATGAACCAATCGCGCTAACTATACCCTCACCTACCCTTGCAATAATTGTTTCATCAGTAGCTCCACCTACCAAGCCAGGTATATTTGTTCTTACAGTAACTCTTGCTCTAGCTTTTACTTCAATTCCATCTTTCGCAACCGCAGCTAAAGTTCCACTGACTGGTGCATCAATTACTTTAGGATAAACGGAAGTTTCCACAGCTCCTTTAACATCCCTACCAGCTAAATCAATTGCTGTGCATGTTGTAAAATCTAATGGAATATTAGCTTTATCTGCGGCTATAAGAGAATTTGAAACGTTAGCTACATTTCCTCCAGCCAAAAAATGTGTTTCCATCATTCCAGCATTAATTTTAGTCAATCCAGCTTGTTGCATATTAATAATGGAATCAACTATCAATCTTGGAGGAATTTTTCTCAATCGCATTCTTATTAAATCAATTATAGAAATTTTACCCAATCCAAGAGAAACTACACTTTGAACCCATAAACCTAATGGAACAAAATATAATATTAAAGATATAAAAAGTATGACAACAATAACTGAAATTATAGGTAAATAATCCATTCTTTCTCCTAATTATTAGTTTTTCTCACAACAATTCTGTTACCATCAACTGATAAAATTTGAACCTTTTCTTTTCTATCAACAAATTCACCTTCAGTTACAACAAAAAGTTTCTTAGATTCAAATTCTGCCCAACCAGATGGTCTTAAATCAGATGTAGCGAAGCCTAATTTACCAACAAAACTCTCTAACCCTATAGAAGTATTATAGCCCTCAGAACTTTTTTGAATCGTCTGTAAAGTTAATTTCTCCCAAAATTTCGTTTTTGATAATAATCTAAAAATTAAAAAAATTGACAAAATACTACCTATAGTCGAGATAGCAAAAGCCCATGAAGCAGAATTATAATCATTAGTTAGTGGGTTTTCAGGTATCAATAACATAAACAACCCACCTAAAATAACAATTAAACCACTTATTCCAAGTAATCCAAATCCTGGAATTATAAAAAATTCTAAAAGTAATAATAATATACCTATTCCAATTATAATTAATTCTGGCCCTGTTGCTAATCCTGTATCAATAGTTGAACCAAAAAAAAGCAATAAACTTAATATTCCAATTGAACCAGGGATTCCCCACCCTGGAGATTGAATTTCAAATAATAATCCTAAAAAACCTAAAGTCATTAGTAATGAACTAACAGTAGGATCAGTTAGAAACCTTCTCATGCTTTCAACCCAATTAATTGAAAAATCAATAATTTTTGAATTCTCCAAATTAATTTGCTCTAATACATCTTGAAAAGTTTCTGCTTTTCCATCAGCTATTGAATATTTAATTGCTTGGTTTGTAGTTAAAGAAATTAATTTTCCTTCTTTTCTACCTTCAATATCATCAACAAAAATTGAATCACCATTTATAAATAAATATTCAAAATATAAATCCTCATCAACCATTCCTCTAGCAATTTCACTATTTCTTCCATTACTTTCAGCCGTAGAAGCCATTTCTTCTCTCATGTAAGAAATTACTTTTTCACTTCCTTTATTTCCAGACATATCAACGGCTGTTGCAGCTCCAATAGTAGCTCCAGAAGTCATATAGATTTTATCACAGGATAAAGAGATCAAAGCCCCTGCAGATATTGCCCGCTTATTAATGAATGCAACTGTAAGAATTGGAGAATTTAAAATTTCGTCTTTAATTTGAGTTGCACCATCAACTCTTCCTCCAAAAGTATTTAAATCAAAAACTATTGCATTAGCACTATCATTTACAGCTTCTTCAATAGATCTTTGAATATAATTCGGCAAACCTAAGTCAATAGTGCTTTGAATAGGAACTCTGTAAACAGTATCACATTTCAAAAAAGAAATAAAAGTTATAAATGTTAAAATTAATGTTTTACAATAGTTCATATAAAGAAATTACTTGTAAATTATGGCAATAATCAACAACTAATGAAAACAATAAAATATTTTATAACAATAGTATCATTAAATACATTTCAAATTTTTACTTTAATTCTTAATCCATCATTAAGATCAATTTTAGGGAAATTAATTGGAAAATTATTTTTTTATGTTCTTAAAAAAAGAAAAGAAGTTGCATATTTACAATTGAAAAAATCTTTTCCTAAAAAGACCAATAAAGAAATAATAAAAATATTAAAAAAAACTCATACTCATTTTGGTCAAATGTTTTTAGATGTTTTATGTTCACAAAAAATAATAAAAAATGAAAATATAAAAATAATAAATGAAGAAGTTTTATTAAGCTTAAAATCAAATAATCAAGGATTTATATTACTTACTGGGCATTTAGGTAACTGGGAAATCATTCCTGCTTGGATGTCAAAAAATAAATTTAATGTTAAAACTGTAACTCAAAATCAAAAAAATAAAGGAGCTCAATTTTTTTTTAATAATCTAAGAAAGCAAAATGATATTAATCCAGTTTCAATTCATTATTCATCAAATAAGATGATTAATTTTTTAAAAAATGGTAACACTTTAATACTTGCAAGTGATCAAGATGCAGGGAAAAAAGGAGAATTTGTAAATTTTTTTGGAAGGAAAGCTTCTACGCCAAGAGGTGCTTCAGTTTTTTATAAAAAAACAAAATGTAAAGTTATTGCAGCGTTTTGCTTAAAAAAGAAATTTAAATATTCAATTGAATTTATAATAATTGAACCAAATAAAAATTATACATCAATTATGCATCAATTTACAGAATTGCTGGAAAAAAAAATAAAAGGAGAACCTCATCAATATCTATGGTTTCATAGAAGATGGAAAACCAAAAATGAAAAATATTGACAAATTGAATGAATTAATAATACAAGCTGTAGATGTCTTAAAAAATGGTGGAGTAATTGTATATCCTACAGATACAATATATGGTTTTGGAGTTGATTCAGAAAATGATATTGCTGTCAAAAAATTAATAGATATAAAAGGAAGACCAGGGCCATGGAGTATTGCTGTGTCAGATAAAAATATGTTAGAATCATATGGGTTTGTTCCCGATTATCACAAGCAATTTTGTGAAAATAAACTTCCTGGACCAAATACTCTAATTTTCAAATCAATAAATAAAAATATTTCTAAATACTTACTAGGACCAAATAATTCAATTGGTATAAGAATTCCTAATCATAACATTCCAAACAAAATTACAAAACTTTTAGGCAGAGGTATTACATCTACAAGTGTAAATAAAACAAATACCAAACCAATTAATGATCCTAAAAAAATTAATGAGAAATTTTTTGATGAAGTTGATTTAATAATTGACGATGGAAAAATAAATAATTCAAACCCTTCAAATATTTTTAGTGTTACAAATAAAAAAATAATCCAAATAAGATGAAACCTTTCATAATTTTATTTTTTTTAAGCAACATATTTAGTCAAAAAAATATTCAATTCAACAATGGAGAAGAAATATTTTACAACGTAAATCTAAACTTTATTTCTGTAGGTTCAGCAAAAATGAGTATTAATAAAATTGAAAACGATTCTGACAATTATTTTTTTTCTTTCTTACTCAAAACAAATAAAATTTGGGACAAAATTTTTCCTATTAGAGATACTGTAAAAGCTTGGATTGATACAAAAGAATTTTATACACAAAAATTTCAAAAAATTATAATTGAGCCAAATTACAAAACAAACTTAGATGTAACATTTAATTATGAAAAAAATTTTTATAGTTCAAATAATAAAAAGATAGATATTTCACAAAAAGTTCGAGACCCATATTCTTTTTTTTACTTTTTAAGAACAAGAAATATTAAAATTTATGATGAATTTCTATTTAATATTTTTGATAACAATAAAATTTATAAGGTAAAGCTATCTATATTAAAAGAGGAACGAATTGATAGCAATATAGGAAAATTCAATTGTTTCCTAGCTGAAGCCATAAAACTTGATGAAAATAAATCAATAATGAAAATATGGATGACAAATGATAATAAAAAAATTCCAATAAAGATTATATCAAATGCAAACTTTGGAACATTAAATATGTTAATATCAGATATAAATTAACCAGTTAATAATCTACTAATATCATTGAACATTACTAAAGCCATTAATAACAAAAGTAGGGCTACACCTATTTGTTGAATGAACATTTTTACTTTTGTTGAAATTGATCTTCTAGTAATGAATTCCACACTTGTTAATAATATATGTCCTCCATCAAGACCTGGAATAGGTAATAAATTCATAAAAGCAAGATTAACACTGATTATAGCTGTAAATGATAATAATGAAATAATTCCAGCTCTCGCAGAATCACCTGCTAATTGAGCGATGAGAATTGGTCCTCCAATGTCATTAAATGAGGCATTTCCTGAAAATATCATAGCCAAAGATTGTACAATCATTTTTAACCAAAAAATGGTTCTATCAAAACCACTATAAATTGATTCAAAAAAATTAGCTTTTCTAATTTCAAAACCACCTTGAACACCAATTATTCTAACTTCTTTTATTTCATTGCCATCAGGAACTTTAGCTTCTTTTGTTGGTATTAATGCGTTTTTAATAACTTCATCAGAAATCCATTTAATTTGAATATCTCCATCAACATTTTCTTTAATTATCGTAGTTGCTTCTGACCATTTATCAATTGAAACATTCTCAACTTCTAAAATTCTATCACCAGATTTAATTCCTGCCAAATCAGCAGGATACCCAATTGATACTTCTCTAATAATGGGTTCATCATTTTGAACAGAAATACCTTGAATCATTGTAATTCCAGAAAAAAAAATTATAGCCAGAAGAATATTCATTATTATTCCTCCAGACATAAACCATATTTGTTGTAATTTAGTTTTAGAATTTAATTCATCACTAGCTCCGGTGACATTTGAATCAAAACTCTCATCAATAAAACCAGCAACCTTAACATATCCACCTAGAGGAATAATTGATAAAGAATATTCTGTGCTTGTTGAATATTTTTTTGAATTTATTTTAGATTCAAAAATTGATTTCCATTTTATTTTTCCTTTTTCATCTTTTCCAAAAAAATAAAACTTAAAAATTATTCCACTTTCTGATGGAGTAAATGAGATTAATTTTGGGGGGAAACCCACTGAAAATTCTTCAACTTTTACGCCAATAGATCTTGCAGCAATGAAATGTCCCAATTCATGAATGAATACCAAAACTCCTAAAACAAAAATCATTGCCAAAATAGTTGTAAACATAATCAATATACCTCTTTTATTTAATTAATGACTTTAAAAAATCATTAATCCAAACTTCTAAATCATACAAATCTGAAACCGATGGATTTTTTTTCCAATTGTGAGATTTATATACTTCATTATTTAATTGATAAATTTCATTAAATGAAATTTTATTTTTTAAAAATAAATCAACCGTAATATCATTTGAAAGATTTATAGAAGCACAAGAAGTACCTCCTTTTTTCAAAGCATTGTATGCTAAATCAATTGATGGATATTTATTTAAATCTGGTAATTCAAATGTTAAGTTTTCCATTTTTGAAAAATCATTTACAATACCCATACTTGAATTTAATCTATCTGGATATGTAAGTGCAAACTGAATTGGTATTTTCATAGTTGGTCTTCCCATTTGTGATTTAATTGACCCATCAATAAACTCTACCATGCTATGAATAATTGATTGAGGATGTATAACAATCTCAATTTTATCATAATCTATTTTAAATAACCAAAATGCTTCAATTACTTCAAAACCTTTATTCATCATTGTAGCAGAATCAATAGTAATTTTTTTTCCCATTTTCCATGTAGGATGATTTAAGGCTTCATCAACAGTAATTGAATTGAAATCTGATAAAGATTTTTCCCTAAAAGGACCTCCGGAAGCTGTAAGGATCAACCTTTTAACATTTTTTATTTTTTCACCAATTAAACATTGCCAAATAGCGCTATGCTCACTGTCTACAGGAAAGATTTTTGCACCTGTTTTTTTACAAATATCATTTATAATACCTCCGGCCATAACCATAGACTCTTTATTACTCAAAGCAACATCAACTCCTGCTTCTAATGCTTTAATTGTTGGCTCCATCCCAGGACCTCCAACTATGGCATTTACGCATATATCAATATTTTCAATTCCTGCAATATATAACAAAGCATCTCGTCCACATAAAATTTCAAATTTATTACTTAAATTAGTTTTTAATTTTTTATAAAGATTATCATCACCAATACAAATAATTTCAGGCTGAAATTTATTTGCTTGCTCAATTAACAAGTCTATGTTTTTATTTGCTGATAAATATTTTATCTTGAAATCAGAAAGATTATTTATAACGTTTAAAGTATTTAATCCTATAGATCCAGTAGAACCTAAAATACCAATTTCTTTCATTAAGTTATATCAAACCTCTAGTACTATTTTCAATAAATGAGATTATTTTTTTCACCTCAGGATTATCAGGAAAAGTATTTTTAATTTGAGAAACTGCTTTCTCTCTTGATATTTTTTCTCTAAATAATAATCTATATGCTTCTTTTATAATTTTTCTTGTATTTATTGAATAACCATTCCGTCTTAATCCTATTGAATTAATTCCTGAATATTTTAAGGGTTCTCCAGCAGCCATTATAAAGGGTGGAACATCTTGAACCACTCGATAACCTCCACCAATAAATGAATAACACCCAATTTTACAAAACTGATGAACTAATACTCCACCACTAATTATAACTTTATCATCTATTTCTACATGACCTCCCAAAGTTGCTAAATTAGACATTATTACGCTTTCACCAATTATACAATCATGAGCGACATGTGTTGAAGCCATTAAATAACTTTTATTTCCTATAATAGTTTTTCCTGATTCAATTGTTCCTCTATTGATAGTAACAAACTCTCTTATCATTACTTCATCACCAATAATTGTTAAAGTTTCTTCTCCTTTAAATTTTAAATCTTGAGGTTTTTCACCTATTACCGAGGAATGATATATTTTACAATTTTTACCTATTTCAGTACCTGAACAAATGACAACATTATTTCCAATCCATGTATTGTCTTTAATTTGAACATTTGGCTCAATAATTGAAAATGCTCCAATAAAAACATTTTTTCCAATATTCGAATCTGAACTAATAATAGCGGAAGGGTGAATATTTTTTGAAATAGTTATTCTTTCCTATCACCAAGTGTAGTAATAAAAGTACATTCTGCAACTAATTGATTATTTACAAAAGCTTTACCATGAAGTTTACAAGTACCTAATTTTAATTTTAAAAGATCTAACTTAAAATAAATTTGATCTCCAGGTAATACTTGTTTTCTAAACCTTGCAGATTCAATACCACTAAAATACATTATTTTTTTTTCAGGCTCATCAGTTGTATGTAACAGTAAAAAACCTCCAGCTTGAGCCATTGCTTCAATAATCAAAACCCCAGGCATCACAGGTTGATCTGGGAAATGGCCTTGAAAAAAGGGTTCGCTTATAGATACATTTTTAATAGCTGTTAAATTTACACCAGGTTCCATATCTAAAATTCTATCAATTAATAAAAATGGATATCTATGTGGTAGAATTTTCTTAATTGCACTAATATCAAAAAGATAATTTGAAGAAATTTCAGCTTGATACTTTTTTTGTAATATTTTCTTTGCATACTCTTTCTTAATATTTCTCACTATTCCAACATTTGCTTCGTGTCCAGGTCTAGCTGCTATAATATGTCCTTTAATTGGCATACCTAAAAGTGCTAAATCACCTATCACATCCAATGCTTTGTGTCTAACTGGTTCATTTTCAAATCTTAACTTCACGCCATTTAAAATTCCATTTTTGCCAATGTTAATATCATCTTTAATTTTAAATAATTTTTTTAATCGATTAATTTCGTTTGAATCAATATCTTTATCAATTATGACTATAGCATTATCAAGTCTTCCACCTTGTACCAAACCATCTTCTCTTAAATGCTCAACTTCACTTAGAAAACTAAATGTTCTAGCAGGGGCAATCTCATCTATAAAGCTATCTATAGAATGAATAGTTAAATATTGAGTTCCTAATAATGGATGTTTATAATCTGTAATACATGTTAATCTATACCTATCAGATGGAAGAACTGAAATATCAGTTTTTTTAACTGGATCATTATAAGTAACTGCTTTATCAATTTCTAAATACTCTCTTGCATGTGACTGTTGAACTATTCCTGCTTTTTTTAAAACTTCTACAAAATCTTTAGAACTTCCATCCATGACAGGAGGTTCTTTATTAGTAAGCTCCATTAATACATTATCAATTCTCAAACCAGTTAAAGCTGCCAAAACATGTTCAACAGTATGAATCCTTGTCCCGTTTTGTGCTAGAGTTGTTCCTCGAGATATATCAGCTACATGTTCAATATCAGCTTTTATTTCAGGAGAACCATCAATATCTGTTCTAATAAATCTTATTCCAGAATTATCTTTACTTGGTTTAAACGTTATAGTACTTTCTACTCCGGTATGCAATCCTATTCCAGAACATGAAACTGGTTTTTTTATTGTTTGTTGCTTAGCCATTTTCTTCGATTTTTTTTATTTTTTTATTTAATTCTTTAATTTTATCAAAAAATTCTGGTAATAAATTTAAACTAGCATCAACTTTATTTTTCTCTGAAATTTTCCTTGCTGGCATTCCAGCATAAGTTTGATTTCCAGCCAATGATTTTGTTACGCCTGATTTTGCAGCTAGTTTTGCTCTGGTTCCTACAGTAATATGTCCTGAAACAGAAGCCCTTCCACCAAAAGATACAAAATCTTCAATGATGGAACTACCTGCAACAGCTGTTTGAGCAGTCAGAAAACATCCTTTTCCAATTTTAACATTATGAGCTATATGAACTAAATTATCTAGTTTTGTATTTTTACCTATGACTGTGCTTCCAAGTGTTCCTCTATCAATAACACAATTTGAACCTATCTCAACATCATCCTCAATTATAACATTTCCTATTTGAGGTATTTTATAATTTACATCATTTTCCGTAGCATATCCGAAACCATCACAACCGATTACAGTTCCAGAGTGAATAATTGAATTATTCCCGATTATAGATTTAGGGTAAATCATGACTGAAGAATTAATTTTTGAGTTATCACCAATTATTGAATTTTCATTTATTTGACAAAATGAATCTATGAAAACATTTTTACCAATTTGAACATTTTTTTCAATAATTGAATAAGGACCAATATAAATTGATTTGTCAATCTTACATGTTGAATCAATTATAGCTGTAGGATGTATTCCTTTTTTTATAACAATAGAATTTTCAAAAAAATTTAATATTTTTGATAGAGCAATTAGAGGATTCTTTGAAACAATTCCATTGAATCCGTTTAGGTTTTTTTCATCATCAACTAAAATTGCTGAAGCTTTTGACTTCGAAAGATATTTTTTATATTTAGAAAGATGAAAAAAAGAAATAGTTCCAACCTTTGAATTTTCAATCTCAGAAACACCATTAATCTCTATTAAAGGGTCCCCTACTAATTTCCCCTTAACCAATTCAGATAATTCAGATAAAGTAGCCAATTTTAAATTAATTTGAATTTGTTGATTCTTCAGTTAATCGTCTTAGTTCATACAATACATCATCAGTTAAATTATGGGTTGGTTTACCATATAACAAACTTACTGAATCTAATATATAATCATAGCCTTTATCTATAGCGACTTTATTTACAGCCCTTTGAACTTTTTGAATTATTCGAGTTTCAAGTTGCAATTGCTTTTGATAGAGCTCTCCTTGTGGACCAACTTTCTGAGTTTGAAAATCATTAACTTGAGTCTCTAAATTTACGATTTCTGCTTCTTGTTCTCTTCTTCTCTCAGGAGAACTCATTAAACGTTGTGTTTCAAAAGCTGATTTAAGACTATCTAATCTTTGAGCCATAGTTTGAAACTCAAACTGAACTTTTCTAAACTCAAGCTGTAGTTCACTTTCAGCTTCTTTAAATTCTTCATATTCAGCTCTAATTCTTTCAGATTGTACAAATCCTATTTCAATTTGTGCAAATGAAAAAACTGGTAATAAAAATGAAAAAATAAGTAATATACTTTTTTTATAAAATTTCACAATTTCCTCCAATTAATAATTTTCTCAGTATCTAATTTAATCAAAAACTAATTTAAAAGGGCATTCCAAATAGTACATGGAATCTCCATCCTTCAGGATCTCTTTGAGTATACTCAATATTATCAAATCCATATCCTAAATCAAAACCTAACATTCCAATCATTGGCATAAACATTCTTATCCCAAAACCAGCAGATTTTTTTAAATCAAATGGATCCATTTCTGTTAGATATAACCAATTATTTCCGAATTCAGCAAAAATCAAACCATAAACAGTAGGGTTTTCAGAGAATGGTACTCGCAATTCTGTCATATACTTTATCATTGCCCTTCCACCCATTGGGTAATTATTATATGGTCCAACAGTATTATCTTGATAACCTCTTAATAGTGTACCATATGGAATACCACTTCCTCCCATTATAAATTTTTCATCTATTGGAACTAAGGTATTATCAGTATGCTTTGGAACCAATTCTTTAATAGCTCCAAATTGCCAAGATGAGACCAGAGCCAATTTCCAAAATGGATTAGTAAACCAATTAAATTTCAAAGTATGTTTATGAAAGTTTTCGTGAACAGGTAAAACTTGAGAACTAAGTGGACCTCCAGATAAAGTTGATGTCCAGTTAAAACTTGAACCTTGTGATGGAAATTCGGGATGGTTTCTGCTATCTCTTGTAATTGTTTGAGATATACTTAAACCAACACTATTTCTAACTCCCTCTAGACCATAAGCTGCTAAATCTTCAGGATTTCCTTTATATGTTTTTTGTGATGTACTTAAAGTCCAAACGGCGCGAAAATAATTATCTGGCCATTTCAATCTTGTACCTACTCTAATACTTGCACCAGCCATCTCCCTATCAAAAGGAATACTATAATAATATCTATTTTGACCTCTCAGATAATAAAAAACAGAAAAACCTAATAAAATGGGCCTATCGTTTACCATAGGATCAGTAAAACTAAATGATGTACTACGATATTGAGCAGCTCTAGAATTAATACCATATCCAAATGATCTTTGCATATTTCCCTGGACACCTTGGCTTATATTTAATGCTAATTGTTGACCTTTTCCTCGAAAATTATTGAATTGAACACCAGCTCCACCCATCAAACCGTATTCAGCAGAATAACCAAGATTAGCATTAGCTTGGTCCGATGATTTTTCCTCAACTGTTACTAGAATATCAATTTCATCATCATCAACGGGAACCACATCTGGACGTACATCTGCAAAATAATTTAAAATAAAAATTTCTCTAGCACTTCTCATTAAAAGTTCTCTATTAAAAACTTGACCAGGAATAAGTTTCATTTCTCTTCTAATAACGTTCTCTCTAGTTTTATCATTACCAGTTATATTTAATCTTCTTACAGAAACTTGGTGATTTTCAACTATAACAAAATTCACGTCTAATGAATCTTGATCTATTGGATTATATTCAGGTGTTATATTACTATAGATATAACCTTTATCCATATATAACCCATGTACATTTTCATTAACTATATTTTCAAATTGTTCTGCATTATACACATCACCCTTTTTCATATTCAAAGCATTATCTAATTGATCATTTGTATAAAGCTTGTTTCCATCCCAACTAAAATCTCTAAAATAATATTTATTGCCTTCATATAGATCAAGTATCAAAATCATATGTTTACCATCTTTTTTATATGCTATTGAGTCTGATATGATTCTAAAATCTTTAAAACCATTATTTTGATAAAATTGAGATAACAAAATTTTATCATTATTAAATTTTTGTTTTTCAAAAGAAGATCTCCAAAACATGAATGATCTTTGAAGTTTTGTCTCCTTGAAAGTTTTCCTTAATTTATTTTTTTTAAAAGATGAGTTGTTAATAAAAACTATATCTTTTATTTTAACTTTCTGACCTAATTTAATTTTAAAAGTTAAATCACTTACATTTTCAATTTTTGATTCGGATAGTGAGCCTACTACACTACAATTTATAAAACCAGATTCAGATAGAATTTTTTTTATTTTTTCTTCAGATTCTTTTACAATATGGGGAAGAATACGTTGACCAGTATTCAAATCTAATTCACCCTCTATTTCATTTCTTTTTTTCTTATCTCCTTTAAAAATTATCTCCCCTAAAATTGGAGTTTCTTCTACTATAATAATTAAATCAATTCCATTTAAAGTCTCTCTTTCTAAATTTATTTCAATATTAGAAAAAAAACCGGTCGCCCATAATTTTTTTACTGATTTTCCAAAGTCTCCTGGGACGACTTTTTGACCTTCAACCAGACCAGACGTATATTTAATAACAGAAGATGTTGTTAGATTATTTCCCTTAACCATCACTGAATTAATATTTATTGGCTCAAGAGCGTTCTGACATAATAAAGAATTACAGAAAATAATAAATAATAGGTTGATTTTTAAAAAATATATAAACTTCATCTTATTTGTTTTGAAACTTTTCCAAACCTTCTTTCTCTTGATTGATAGTCTAAAATTGAATTATATAATTCATTAGCTCTAAATGCCGGCCAATGAGTTTCAGTAATAATTATTTCAGAATAAGCCATTTGCCATAACAAAAAATTACTTATTCTTGATTCTCCACTTGTTCGAATTACTAAATCAGGATCAGGTATTTTTTTTGTATATAAATACTCAGAGAAAGTTTTTTCAGTAATCTCAGAATTAATAATGTTTTTTTCAATATCACTTTTCATTTTTTTTACAGCATCTAAAATTTCTGTTCTCCCACTGTAATTCAATGCAAGAACTAAATTTAAACCAGAATTGTTTTTAGTTTTTTTTATACCCTTCATCATTTCAACTCTTGGTTTTTCTGGAAGTTCCATAATTCTTCCAATAACATGTAATCTTACATTGTTTTTCATTAATTCATTAATTTCATATTTAATTGTATCAACTAATAGATTCATTAATGCAGAAACCTCAATTTTAGGCCTTCTCCAATTTTCTATTGAAAAAGTAAATAAAGTTAAAAACTTTACACCAAGTTCACCACATTCTTGAGTTATTTCTTTTACAGAATTAATACCCTCTTTATGTCCTGCTATTCTAGGTAGATTTTTATTTGAAGCCCATCTACCATTACCATCCATTATAATTGCAATATGCTTTGGAATTTTTTTAGAAGATAATATTTTGTTTTTTTTAGAATTCACTTTTTGAATTGTTTATATAAAACATAAATCAATATTTGTCATATAACTCTGCAGTATGATGATCAAATAATTTAATACTTTTTGGTATTTTTTTAAAACCTCTAAATTCCATTTTGCATTTGTAACATACAATCACTTCATCAACATATTTATAAAAAATTATATCAATAATAAGCACAACCACCAAACTTATTCCGTAAGTAAAAGGTAATAGTAATGAACCAATAACAACAAATAAACAACCTAATTTCTGATTAAAATCCTTTCTTTTGTAAAATTCTTTAGAATTACAAAATGAACATCTTTTAAAAATTAAATTTTCGGAATGAAACAAAAAACGCTCTTCTTTACATTTGTCACATTTGATTTTTTTACTTGAAATCGTAGAACTATAAACATTATTACAACTATCGCATTTTTTAGAAAGTGTAAGCACTTATAAAAAAATCTTAAATTGAATTGCATAATAATTAAAAATGAGTGAACTCATAAAAATACAAACTACTAAAACATATAATAAACCTGTAGCTGATAAAGTTGACTCAATATTAATAGTTTTATGAGTTAAAAATGATAAGAAAATTGGAAAAATTATACCAAAGAAAAATGCTGTCCAAAGAAATATCCCCTCATATCCAAAGATAAATTCATAAATTGGAATTGAATAATTAAATACTTGAACATCATAAAACAATACAACTATTAAATCTAAAATTGATCTTAGAATAACCATAACAAAAAACATCTTATTGATATTTTTAATTAATAATATTGGCAAGTCTACATCATCTAAATAAGAATGTCCTACTATTAAAGAAAAACATGAATTTGATAAAATTAAACCTCCAAAAATCAAAATTGGAAAATCTTGAAAACTTATATTTATCAAAGCAAAAGATATAAGAATAAAATTTCCAATACCGAGCATAGAAATTAATAAAATCGAAATTAAATTTATATTTTTATGTTTCCATGAAATTATTGTTATAAAAACAAGGCAAAAAACCCACAGTAAAAATAAATAAAAAATATTATTACTTATATTAGATTCAATTAATAACAAATTTATAAAGATAGCAATTGTTGATGAAATAGATAATACTAAGTTGTGAACTTTAATTGTTGTATAATTTCTGGTAAAAAGTAAGAAAACAGGTAGCGTAGAACTAAAAGACAATAACGTGATTATCAATAAAGCAGTTAGCATATGTTAATCTTCTTATTGATTTGAAACTATGATTTTATCAACAATTGAACTAAAAATGGTGCTAATTTTAGAATTATTATTTTTGATATTAATTGGAGTTCCGCCATCACTTGTTTTCATTAGCTCAAAAGAAATTGGTACTTGACCTAAGAGAGGAACGTTTAATCTGTCACTCTCTAATTTTCCACCGCCTTTTTTAAATAAATCTATTTCAAATTCAAAATTACCATTTTCATTAATTTCAAACTCTTGGTTTGTTTCACTTAATATTAATTTACTTTTATTTTTAAAGTTTATATTATCATTTGTTATCTTGCCAGAAATTACCAATCCAGACATATTCTCAATCACTCCAATTACAGGAGTGTTAACTTTTGCAAACATATCAGCACCTTTTCTTACATCAGATAGTGCCATATCTTGCGGAGTAGTAACTATTACAGCACCAGTTAATTTTAATTTTTGAACTAATGTTAATTGTATATCTCCTGTACCTGGTGGCAAATCAAGTATTAAGTAATCTAGATCTCCCCATTCAACATCTCTAAAAAATTGCTCAGTCATTCTTGCAACCATTGGACCCCTCCATATAACTGGAGAATCATTTCCACTCAAAAAACCAAATGACATGATTTTCATATTATGTTTTTCTAATGGAACTAATTTATTATTTTCAGTCATATTAGGTTTTTGGTTTACATTCAAAAGAATTGGTAAACTTGGACCGTAAATATCAAGATCTAAAATTCCAACTTTAAATCCTTTAAGCATTAAATCAGTAGCAATATTTACTGCAACTGTAGACTTCCCAACTCCTCCCTTACCACTAGCTACTGCAATAGTGTTTTTCACATTTGGTATTAATTCTGAACCTATTGTTTGGGCTTGTTGTTTTTTTTCACCTACAATTTCAAATGATATATTATCGAAAAAACCATTTAGAATATTTTTTATTGAATCAATTATTTCATTTTTAACAGATTCGCTTACAGAAGACAATTTAAGAGAAAGTTTTAAATTATTTTTGTCAATTTGTAAATCGTCTACAATTCCAAAAGAAACTATATCACGGCTAAAACCAGGATATTTAATCTTTTTAAGAAGTTCTAATGTTTTTTTTGAATCCATTTAAAAATTAAATATGATATAAAAAATATATTTTAAAAATCACACTATTCAGGTGGTTCTTGACCAAAAAATTTATAATTCAAAGGAATAAATTTTGACCATTCTTCTGGAACTTCATCCTCTTCAAAAATAGCCTCAACTGGACATTCAGGCTCACAAGCACCACAATCAATACACTCTTCCGGGTCAATATATAATTGTTTATTATCAGCTACAAAACCTTCTGCTTTTACTTCAGCTCCAGCTCCTTTAGTATCTTCTGGGCCATGAATACAATCAACTGGACAAACTTCAACACATGCCGTATCACAAACACCAACACAGGGTTCGGCTATAATGTAAGTCATATAGTACCTCCAAAAATTTTAAGTATAAATTAAAACACAAAACAAATTTAAATTTTTCTTCTGTTCTTAAAAAGCTTTTTTGAAAAAAAGTAGTTTTTATTTGAAACTCTATTGTAGTATATGTTAACTTTAACATAATCTAATTGGATTAAATTAATGTCAAATCAATATGATCACTTTAAAACTGTTCCAGAAACATCTGAGGAACCTGGGAAAAAGAAAAAAAAACCAAAGTTAATGGCCGTGGTTGATGAAGACAATTGCACTGGATGTCAAGTATGTGTCCCTTTTTGCCCAGTTGATTGTATTGAACCTGTGAATTATGAAAAATATGAAATTCCCATTCCTCCAGTTCAAGTAAGATTTAATGAATGCATTGGATGTCAAATATGTGCAAAAGTATGCACGAAACTCACATGGGATGCAATAAGAATGATTCCAACAAAAGAATTTGAGGATGAATATGGAATTGATGTTGGTTAAATCAATTAAATCTTAAGTCACCCAGAGTATTTATATCTCCAGTTTCAAACTTACCTAAACTAGTATCCATAAATTGAACCAAAATTTTGGCTCTCAGTGATATATCATCCAATTCAAGTAATTTTTGTTTTTGTATAATATCAATTGGAAGATATGATACCAAAAAATTTACAGCCATTTCAAAATCTATTAATTCTTTAAACTCATCTGGTATTTTTGGATAATCATTATCAATAGACATTCTTTCAAATGCCCTAAAAACTTTCTCTTTTAACAAATCTAGATTTTCATCTCCATATATTTCATTTATTACTTCTAACTCAGCCACTCTGTATTCTTTTTTAGATTTGATTTCATTTATTTTAACTTTTTTTAACCCTGAGAGTAAAATATTATATGTTCCAGTTGGTGTATCATTTTTTATTTCAATTCGACCAAGACAACCAATCAAATTGATTTTAGGATTTTTTTCATAATTATTCTCAAAACCAGGTTTAAGTAAAGATATACATATAGTTTTTTCATTTTTTAAACTATCAACTAACATTTTCTTATATCTATCTTCAAATATATTGAGTGGTAGAAAAGTTTTAGGGAAAAAAACTGTTTCAGGAAGTGGGAAAACAGGAGCTTTCCCAGAAAAATTATTTAATTTAAAGTCCATTTTAGACAAATTTACTTTAATTTTATGTATACTCCATCATTTCGTTTTTCAATAGGATAAGTTTTTAGACAATGAATTTCATTTTCTATTGCTTTTCCTGTTTTAGGATCAAATTTCCAATTATGCCATGGACAAGAAATTATTCCATTTTTCAATGTTCCATTTCCAATAGAACCACCTCTGTGTGGACATCTATTTCCAAATGCCATCAAATTTTTATTATCTTTAAATAAAGCTATAGTCTTATTTTTAAATTTTAGAACTTTACCATTTAATTGCAAATCATCCAAATCACAATCAATTAAAACCCAATCACTCATAAATTTTTTGAAATATTCCTTTTCAATCCAGAGTATTTTGTTCTTTTAACTGGACTACCTTTAAATATTTTTTTATACTCGTCAAGGGTGAGGTTTTTCCAGTCTTTCTTTTTCTTTTTAAGAATTTCAGGATTAGGTTTAAAATCATCTTCGATGCTTTTTTGTGAAAACTTTTCATTCCATGGACAAACTTCTTGACATATATCACAACCATAAATCCAAGAATCTAAATTTCCTTGATATTCAACTGGAAAATCTCCCCTGTGTTCAATTGTTAAATATGAAATACATTTTCTAGAATCCAATACATATTCGTCAACAATTGCATTTGTTGGACAATGGTCAATACAAGCTGTGCATGACCCACATAAATCATCTTCAAAAATCGGATCAAAAATTAAATCTATATCTAAAATTATTTCAGCTAAAAAAATCCAGGAACCATAATCTCGTGTAATCAAATTTGTATGCTTACCAATCCATCCTATTCCTGCTTTCTGCGCCCAACTTTTTTCCATTATTGGAGAAGTGTCTACGCAAATTAATGCTTTTACGTTTTTTTTATTTAATTTTATAAATTCAGTTAATTTAATTAATTTTTTTTTAATTATGTCATGATAATCTTTACCCCATGCATAATTTGATATTTTAAATTCATTTGTTGACTTTCCATGAAAATAATTCAAACCTAAACTAATTATAGATTTTGCCTCAGGGAAATAAGTATATATATTTTCTCTTTCATTTACTCTCTTTTTCATCCAATTCATTTTTCCATGATAACCTAAGGTTAACCATTTATTTAATCTTTCAGAATCTCGAGAATAAAAGTCAGGCTTTGCTATTCCAATCTTTTGAAAGCCTAATTCATAAGCTTTATTTTTGATATTTTTTGTTAATTTTAACATTCTTAATGTTAAAAGTATTCAATATAATTTATTTTAACTTCCCGGTTATAATAATCAACTTTTTCGTTATCGAATAACAAATTATTAAAGTGTAAATCTAAATGTAAATTTTGAAAAATAGAAAATCTAACACCTGCATTGAGAAAACCACCATTTGAAAGCGAAATTGTTTCTGCTGTCATATTATTTTGGTTTAGAGCAGCATTATATTCAATTAAAAAAGATAGTTCAGGATTAAACTCAATATCAAAACCTGTGAATAAATTTAAATCATCATCCTGATCTGTATTTTCAGTTAAATTATAATTAACTCCAAAATGTAAACCCAAATTACCCAAAATTGATTTCCAATTTTTTGAACTAACTAAATACAAACCATAACCTTTTACATCATATCTTCTGACTGAATCAGCCTCATTATATTTACCGAAACCTTGACTATCTACACCCAAGGACAAAGCAGGTAATCGTAAACTTTCATCTATAATCCGATATTTAAACATCAGTTCAGGTCTAGGATTAGGAATAGGTTTTTTGTCACCAATCAAATTACTTGCTCCAAGTGATAATCCGAACATGAATCTATCTGAAAAACCTACAGAAAGTGAATTTAACAAACCACCATCTTTTTGCATTCTCATTGATGCAGAAAATGATCCTCTAGTTAAACTTCCTGCAGTTGGAATCGTTATCAAAGATGTTGGTGGAGGATAAAGCTGTTCTTGAGCTTCAACAAATAAAAATGTAAATAAGATGATAAAAACTAATTTTTGCATATAATTGAATATAAGTAGTTAACATATGAACTTGCAACAAACTTGCTATTATTTTCAATACTTGAGAATAGGATAAACAATTTCCCCATTTCTATCAATAACTTCCTTAATTTTAATTAATTGCAAAGATAAGATTTCATTAGAATTTTTTTCATTAAACCTCACTAATTCATCATTTATTTCATAAAGATTAACAAAAAGTGAATCATCATTTTTCATAATAATTAGATCTGTATCTTTAAAAAAGATATTTAATTTAGTGTTTAAGTCAAATTTATTTTTTGATATCTTATCTATAATATATGAACTTTCTGGTAATGAATTGCGTTTATTGTCGAAATTAATCTCAAAATTTTCATAATTATTTAAATTTGAAATATTTATTCCAGCTTGACTAATCCTTTTGTAATTAGAATCAAATTCGGTAATAATATAATTTTGAGTTTTTTTATCATAAATATATTCAAATGATCAAATATTTTTACCAGATAATGAATTAATCCACTTTTCAGATTGAATTAATCCTTCATCAAAATAAGTGAATTTAATTTCACCTAACTTTGAATTATTGGATGACAAAAATTCATACCTTTCAATTTTATTTTTATCATTAAAGTAATAATTAGTAATTCTATTTGAAAAATCATCGTTATTAAATTTATTAAATGCATATTTAATAAATACATCTGACATTTTTTCTTTTCCAAAGATAGACATTTTAAAAATAATGTTTTTTTTATAAAAAACTGTTCTAAATAGAGATTTTTCATTATCATAATCATAAACCTCACTTGAAATTTCTTTAAAATTTTCATCAAAATATATTTTTGACAATATTTGATTCTTAGAGTATAAAGCTTGAATATGTGAAATTTTTGATGCTTTTATTAAATCAATCCTAACATCATTTTTAAAATCTTTTTCATTCTTATAATACCTAATAAATTCAAAATCTTGAGCAAATAAAAATAACGGTAATAAAATTAAAAATTTCAAAATTAAAATAAGTCCTTAGTTTTCTCATAAAGATAATTTCCAATTTTCTTTGAGCCTAAGGGTGTATTATGAGAATTATCATAAAAATCATTTTTAAGATCAAACTCTAACTCATTTTCTAAATCAATAAAAATAGCATCTCGATTATTTGATACCTTTTTCAATGAAGCATTCATCATTTTTATCATAACTCTATAATCCAATCCATTAATTTTATGACCATCTAAATTCTCCAAAAAAGGAATTCCTATAATTTTACCATTTAAATAATCATATGTTCGCCTAGAAGATTGTGATACAAATATTGGCTTAGCTCCAATCTTATATGTTTCATCACAAAGAATATTTAATCTTATTTCATATGATTTAAGTTTATCTTCCATTAAATCAAAATGATTATTTAAATAAGGGTTTGAAACCCAATTTGAAAAAGAAAATTCATTTATTTCATTTGAAAGATTATGATTTAATCCATACGCATTAGCAGATATTAAACCTTGAATTAACCTATATAAATCATATAAAACACTTTTAGATTTAATTAAGGTTTTTAAATTTTCATCTTGTAAAATTAAATCATCATACGAATTTTTATGTTCTATGTAAAAATCATTTATTCCTACATAGAACAAAACATAGTCAACTTTTAAACCCGATATTTTCGGAAACCAATCCCTAAAATTTAGAATGTGACCATAAGTTGATTGCCCATCAACACCTGCATTAACAATAAATACTTCTTTATTATTTTTACGAAATCTATTCTGCATTATATCTTGAAAAGTATGTCCATCAGAAATATAATGTTGATCAGTTGTACTTCCTCCAACCGTTAAGATATTTATTCTGTTAGTACTGGGATAATTTCCTCTCAAACCCCATTTATCTCTTGAATATACTATTTTATCATCATTCCATTCATAGATTCCTCTTAGATTATAATTAATCTTTCTATTATAAATTATATTAAGATTTTGAATAGATTCTTCTTTAAACCAATTACCAAAAAATATTTCAAAACAAATTAATAAAAACATTAATAAGAAAAAATTATAGAAAAAAATTTTAATTATTTTATTAAGCATTTATTCTTATGGAATAACAATTTTTACTTGAAAAATATGTGGAATTCCTAAATCATGATTAGATAAATTAAATGCATAGGAAATTGCTATTTTAGATTTTTCTATTTCAAAACCTCCACTAATTGAAAAGTTATCTTTATATAAATACATACCTGACATTAAATGAATATTATTTATTGAAAATTGATTTCCAAATCGATATGCAATTTTATTTGATTCAAATAAATCTATACTACTTAATGAAGTAAATTTTATTTTTGAATTTTTTAATATTGGTTGAAATTTAAGACCTAATGATCCTTTTGTAGGAAGTTTTGGAATATTTGAATTAAACTCATTCATAAATCCCAAATTAATTAAAGATGCTCCGATTGATAGATTATATGAATCCAAATTATAAATCAATCCTACATCTGTTGCAAATCCTTGAGAACGAAAAATGTAAGATTCAATTCCAATATATTTAATAGAAGCTCCAAATTGGAATTGGTTTTTATTTCTTGCTAAAACAAGTTCAAAGGAAGTTCCATTATTTGAAAAATATGATAAAGGCTCAGATGTTGGAATATCATTCCTAAATTCAAGATTATCAATACTTAAGCTTTTTATTCCCAAACCTAAAGTATAATTTTTTGTAAAAGGTTGAACAATAATCAATGAATGTCCCTTTGCATCTAATAACCATGAATTATAACTTATATAAGCATTCATTTCCTTATCATTTGAATATAAAAGGGCGGGATTTAATCTATAAAGAGATGGATTATTTGTGAATGCAACTCCTGCTTCAGATAATGAAAATGATTTGCTATTAAATGGGATTTTTAGAAATGAAGTTCCAATAGCAAAATATTGATTTAACAACAAAAAAATTACTAATAAAACTTTCATTAAAAATTTAAAGTATAAGTAAAAATATGGCTTATTCCCTCGCCTACACTACCCAATAAAAATGCATAATCAATATTTGCATCATCTTTTTTTAACAATGAATATTCTAAACCTATTCCAACTGCAGGAGATAAATCATTTATACCAGCTCTTAGAAATATTTTATTTGTAGGCTTAAACTCACCACCTATTCTAATTCGATTCGAATTAATTGAATTAATTGATCTAAAAAAAGTATAATCTCCAATTATATCATATTGATTACTTCGTGAAACAAATCCCAATGAAATTTCCATTGGAAAGATATCTTCATATGTTGAACCATTTTCTAATAAAATATTACTTGTGTTCCAAGTATATGAAGCATTTATATTTTTTATAGATAATCCTAGATCAAAATTTTTAGATTGCTTAAAAAGCATTCCAGCATCAATACCAGTTCCTCTACTATTTAAATTACCATCAAATGGAAGATTTTGAAAAAATACCTTAATATTAATTCCTAAACTTATTTTATCAGAAACTCTATTCGAAAAACCAACTAAAATTCCATATTCATTAGTTGAGAAGGAACCTGTTGGAGCACCTGAAGCATCTCTTCCATCAATATTATTTACTCCAGCATTTATAATACCTATGCCAATTCCTGCAGTTGGTTGAAGTGGAGTTGAAAAAGACGCAGAAACTAAATATCTATCTAAAGACAATAAATGATTTAAAACTGAACCAGATCGATTAGTTAAAAAACCAAGAGAAGCTGGATTATGGTATCCAGGAAATCCTGGGTCCATTACAGCTGTAAATCCTCCTCCTGCAGACATAGAATATGCTGTAGATCCTAATCTAAGAAAACTACCTGAGTGACCACCTATTCCTTTACATTCAACTATTGAGTTATTTAAAAATAGAACTATTATTATAAGAAATATATTTTTCATTTTACTAAAACAACTTTTACCCAATGAGAAGTATTATCATAAAATAGTTTGCAAAAATAAGTTCCATTTGAGACTAAATAACCAGAATCATCTCTTCCATCCCATTTTAGTGAACCTTGACCTATTCCCCTAAAATAATCTATTTCTCTAACTTTTTGCATAGCAAAATTATAAATTGTCAATTTTATTAAATCCGATTGTTTTACTTTATAATAAAAACGTAAATAACCATCACCATTCATCAAATTATGAATTGATGGTGAGAAAGGATTTGGATATGCATAAGGTTTATTTGATGAATAATTCGACCTATAAATTTGCCATATTGGAGCATTAAAACCAGGCGTATGTAATCTACCTAATCCATCAGCGCTACCAATCCACAATTGATTACTATAATAATTTCTTGTATCGTGCAAAACTGAAAAAACATCATTATCAATAATTTGATCATTTCTTAATTTATCTATTGCAGGGTCGTATAATGCAAAATTTTCTCCATCAATTGATTTCCATAATCCATTCCTAGAAGCAAAGTAAACTAAACTATCTTGAACAACAATATTATAACCATATTGATCCATTAATGAATTTATATTTGACCAAGTCTCACCATCATTTCTTGAATAACTCACTCCACTATTTTCACCAACTTCATTTGCACTTCTTGTTACAGCCCATATTGTAGTCTTTCCATTCCATTGTTGTTTTGCAATTGAAATAACCCAATTACCAGAAATGCCATCATTAGGAAAAGAATAATGTTTCCAGTTAATACAATTATTTGTCGAACTTCTATCGATTATACCCCTATTTATTCCATTAGCAGTACCAACCCAAATTGTATCAGAATAAACTAGAACTGAAAAAACTTTATGATTATGATTTCCATCTGGTGGATCACGAGGATTTAATTGATAATTTTCATAAAATTCTCCACAATTAAATGAAGACCGATTATCATCTGGGAGAGGAACCCTCTCCCAGTTTCTAATACTATTTCCTTCATTTTGTTTTTTTAATCTTCTTAAACCACCTGCCCAACTAGCAGCCCAATAATATTCTTTTCCGACTGATAAATCATAAGTGATATTATTTTCAAAAACAGTTACTGGCAATGCACTAATTTCAAGACCTCCCCAATTAAGAGTACTATCATCTTGATTATCAATTGGTTGCTCAAAAAATTCCCATTCAATTGGATTAGTTGGACTTTTTCTAGAAAAATTACCTATAACAATTCCTGCCCCAACACTTTCTCCATCTTTAGAATTTGCAACTGAAACTATTAAGGTATCATTACCAGTAGTAGGATTTATTTTTTTACCAGCGATAGCTATGGCTGAAACTCCACCTGATGGTAAATAAGTGCTTTTGGTTCCATTAGTCAAATTATTTGAAACATTAAAAGTTCTAAAATTACTATTTCCCCCAAGTGAATCTAATTGATAAGAAAGGCCTTTTCCTGTTCCTAACCAAATAATACTATCAGTGGGATTAATTGAAGTTTTTATTTCAACTATAACATTACTTTTTAAACCTTCTTGAATTTCATCAAGAGAAGATGTTTCTTCTAAAAATCTTAATGGTACAATTTGAGATAATAGAGTTGAAAAACTTATTAATATATAAAAATAAATTTTAATCATGGTAGAACTTCAATTTTTTTTATTGAATCTCTAAAAGCACCATTTCTATCTTGAACTCTAAATTTCCAGTCCAAATTTCCAGTTGTTGCATTATAAGGCAATTGTAATAATCCTGAAAAAATGCCATCATTTGCTGTTTCATCTCCATAATGCAATGTATCTCCGGAATCATCTAAGAATACGTAATTACCATTATTCAATGGAGTTAGTTCATTATTTTCATTTTTATAAGATAAAAAACCTACCCATTGAATATCATCAAGCCCATTTGGATCATCAACTCCAACTTTAATATTAATTAATTTTGCTGAACCAGATTCACTTGGCCTAGTTACAGTTTCTGGCAATTCAAACGAAGTAAATAAGGGCCATAAATTTCCTAAGCTAAATTTAGAAGAATCTATAAAACTATTTCCATTTTCATAATGAGCAATTACTTTTATATATATTTTATTAGTATCTGAAAGTGAAATTGGATTTAAGGTAATTGAAGAAAGTTTTTTTGAAACTGCAAAAATATTATCTCCTTTTAAAATATCTCCAGATTTTCCTGAATCTGCTAAAACAAATGAATCTCCTGGACTTGAAAAATTTGTTTGTCCATGCCATGCTAATCTAACATAACGCAAACTTAATCCATTAAATGGGTTTTTTAATTCAGTTGCTAAATAAATCTCTTCATCATTCTGCAAATAATTAAAATCAATGCTTTTAATTGGATCTACTTCATCTAATGTTTGAGTAGGAGATGAACATTGAAAATATAAAATAAATATTCCAAAAATTATTAATTTGTATTTTTTGTATAACATTAAATCTTTACCTGTTTCAATATTTAATTTATTAAATATATATGATTAAGTAATAACTTACCAATAACCCCAAGACTCTCAGGACTACACTTATCAGGAGTATCCTCAAGAGTGTGCCAATATTCATAATCAAAATCTATTATATTAATTGATGGAATCCCTCCTACATTATATAGAATGACATGATCATCTTGTACAAAACTAGATATTTCATTTTTAAAAACACTAAATCCCATTGTTTCTGCCTGGCTCCAGATTAAATTAACTAAATCAGGATATTGTTTATAAGAATATCCTTCAATAGGTATTTCTAAATTTTTATCCCCAATCATATCAATAAGAATACAATATTTAGGAAATTTTGTTGGAATATTTTTAGATAAATATCTAGAACCAATAAAATAATGTTGAAGCTCACCACTTTTCCCAATATCCTCTCCATCAATAAAAATTAAATCAATTCCAATATTAGGTGATTTTACTTTTAATTGATTGGCAATCTCTAATAATACAGCAACACCACTTGCTCCGTCATTAGCACCTAAAATTGGAATATTTCTTTTTGAAAGATCTTTATCTAAATCTGCCCAAGGCCTAGAATCCCAATGGGCTGCAATCCAAATTCTTTCATCTATTTCAGGATTAAATTGAGCTATAATATTAGTTAATTTGATAATTTTACCAGTGTATACAAATGAATGCATAAAAGATTGCTCAATAACATTATCTGCAGATGATGCAATTGTTTTTACGATGTGATCTTTACCTTGCATATGAGCTTTTGAACCTGGAACTCTAGGACCAAAATCACATTGCTTCTCAAGATATGAAAAAGCTCTTTTTTCATCAAATAGAATTGGTTCATTTGCAAAAATAATTGATTTTAATAATAATAATAATAATAATTTCATTTTTTATCCTTGAATTGGAACATTTACATCAAACCCAAAATCTCTATCAACTTTTCTTCCTATTATTTTTGATTGACTTTCTCTATACTCATACCAAATTCCTCCTGTAATGTTTTTACCAAATGTATAAGATATTCTTGGTGATAATTTCCAAGATTTTCTAATGTCAGTTGTTGATAAATCATATTGAATATCATTTCTTTCCTTTGTAACTGAATTACTATAGTCAAAAGTTAAGGTAAAATTTATAGTATTATTAAATGTAAAATCTCTAAAAAAAGGTAAAGGAATATTAATTCCTCCACGATATGCATAATTTGAACTTGCTGTTAAAGTATTATCTTTTTTAAATCGTGTACTATTAATACCTCCGTATCTATTATCAATTGTAGAAACAATTGCGTATCTACTTGAAAGAGTAACACCTCCTTTTGTGGATAATGATATACCAGCTAATGGTGAAAAAGATGATGTGTATTTTGATGTTTGCAAATCTTCATTTTTCCAAGATTTAGTTTGTTTTCCATTAAATACATGTTCGATGGTTGCAGTTCGAGCAATTTTTTTTATGAATGGAAATTTTTCAACACCACCAAATCGAAAGCTCCAACCAGGAAAAGCAAATCCTTCATCTCCCATTATTCCTATTGGAATGAAATCACTCGTCTCTGTTTCTGTTTTTATTTGACTACCATCAATATTTGTTGATTTATTTCTTGAAAATCCAAATGATGTATTGATTAATCTTGTTAGAGCAATACCTGACCTAATAGAATAATCTTTTTGAGATTGTGTTGAACCCGTATTTACTCCAACTTCATCACTATAATTTAAATTATGTTGATTTTGAAACCCGAATCTATACGCGAGTGAAGGAATTCCCAAAACACCAAATCCATTTTCAGTTCTATTATTTCCATAAGTTAAACTTATAGGATTAATTCTTGTTGCAGTTGAATGAAAAAATTCAAAAAGTTTTTTTGTTCGTGGATCTATAACTTTTTGATTTTGTTTTTGTTTTTTTTCATTTGAAATATCCTCTGAATTATCTTTTGTCCTACCCCTTCCTCTTGATCTAGACTTTTTTGTAATTGAAGTAGATGTTGGTTTATAAAAAATTTCAATTATTGCCTTAGGAGTAATATTTAAAGACGTTGAGAATCTACCTTGAGATGTAATTCTAGCACCTTCTTGAGTGCTTTCAATTGGTTTTGCCCATCTGTAATTCGAATTTATATTAAAATTTGGTCTAAACCAGGTTGCAATTACAGGACTAAATGATGTGGTTATATTTTCATTAATATCAGTTACTATACCGGGGTCTATTTTATTAATTGCTTTTAAATAATTATTTCTATAATGATCTAAATCACTTTTAATTACTTTAGAGTAATTACTATTTAAATTTTCTAAAATTTTATATCCGAGTCTAAAATTTCTATCTAATCCCAAGTTATAAACACTTTTAGATTCACCTATTCTTGGAATATTATTATTTATTACTTCACTTGCCTTTAAATTTAAATCAAAAGTGGATGGAGTATAATAAAATCTAGTATTAGAAAATTTCTTTCCAATAATCGGAATTTTATTAAAATTTTTAAAAGGTGTAAAAAAATTATCTCTACCAAAATTAAAATTATATCCTAAACCTCCAGTATTAGTTTGATTTAATCTTTCAAAAACTTGAACATTAGAACTTTTACTTCTACCAGTTGAAAAATTAAATTTTATTTTATCTATTGTATTTCTAGCTAACCAATTATTGGATCTATTCCCCTTTGAAAAAGAGGTATTAAAATTAAACTGATCTCCTTTATTAACCACACTATCAGGAGCTTCTTGATGTAATAACCTTATATCAGTTCCTGGTAAATATTTTGGAGTAGAAATATTTTTTGAATAACTAAAATTAACAGGAACTTTTACACCCCATTTACTAGGAAGAAACTTATGTAATTGAAATCTTGTATCACTACGAAACTTTCCTTCTGTATTTCCAGTACCCAGTCTTTCCTGCAACACATGAAAGTCACCATTTTTTCTAGAATAAGAAATAGTACTTGTAGCAATATCAGCAATTCCAATTCTAGATTGAACTCTCATTGCGTTTCCAGCATCTTTTCTAACTTGTGAAAGCCTAAGTTCATCTAACCAAATTTGTCCAGATATAGGATTTAAATTATTTTTATTTTTCACTCCAACAATAAAATATTGTATTCTTGAGAGAGCAGGATCGCCATTAATTGTATAAGTTCTTAATGAATCATTATTATTTTCATCAATTTGAACATAAACTCTTGAAGAATCAGTTATTTTAAAAATATCATTTTCACTAAATTTTTTATAATCATCATTTTTTTTCTTTAATGATGTCAGAAAATTTAAATCCAAATCCAAATTATTTCTCTTTCTGACCTTATCCCAACCTGAATAAATAGGATACCTTATTTCATAATAATCATTTGATCTTCCAAACTTTATAAAAAACTCTAAATCTGTATTTTCCTCATTTATATTATCACTATTTCCATAAATGAACATTTTCATTTTTTCATACATTAAATAACTTTGCGCTCTTTCACCTTTTAATTCCATAATATTTTTTTGAGCTGCACCCTCATGCCCAGGTAAAAGATTTTCAAATTTTAAAACTAAAGACTGTTCCTTTAATTGAATTCCATTTAATTGGTCATATTCTCCTTGTACACCTATTTCTTCAACACTTCTTGCATATTCTATGTTATCCTCAGTGTTAATAACAGTTACAGCAAAAGAAGTGTCTGATTCGTCATAAGAAATTGAATTTTTTTCCTTAACACCTAATTCTTGCCATTGATTTGCTACTATTTCAGCTTTCGCAATTTTAACATTATCTTCATAAGAGCTTCCTGATAATGTCAATCGAATAAATTTGATTGTATCCCAAGTAATCGAACCATTTGCTCGAGCTTTTTTAAATTCATTAAGAGGTATTCTATATAATCTCCATTTACCCATATTGGTAATGTTATATCCAGCGTTATATTTTTCCCAATCTGTTGAAAACTCATTCAAATCAAATGTAGAAGTAAAATAATCATTTTTTGAATCAAAATTACCATCTCTATTTATATCTTCAGTATCAGGATATCTAGCACCCTCTAAAGGTCTATCAGAAGTACCATTTCCTTCTGTTCCATTAATATTTTTATATTTCTCGCTTCCTTCTGCAGTACTTTCATTAAAGCTCCAATTATCATTATTTGGGTCTGATTGATCAATATCATCACCAGAATAAATTAAATCACTATAAAATGGATTTTCAAGAGCTTGTTCATAAGTTATTCCATCAAGACATCCTCCATATCCATCCTCATATTCATCACTACAACCATCAAGGCCAACATCCTCTTCATCTTCTAGAAGAGTGTTTCCAGTTAATAAACCACCAACAGGTTTATCTTCAGTATCAAACACTCCATTTCCATTTTGATCTTCACTAATAAAACCAAGATCAACTGTCATTTTAGATTGAGTATTTTGATCTGTTAACAACCAAACTTCAAAAAACTTACTTTGAGTTTGATTATAATCGCTTGAATACAAACTAGAAGTTATACTTGCCCAACTTGAATCAGGATTTACAAAATTTTGATTATGATTATCTCTTCTAGAATAATTTAATACTAAAATATCAGTTAATTGATTTTGGGCTCTCAAACTGGTCTGTTGATTTGGCCAAATATCTTGAGTAACAACTTGTGTCCAAGGATTATACCAAAACAAATCAGATCTTAATAATGGATTTTTATCAAGTGGTGAAGATGATTTTGACCAAAATCTTCTTCTAATTGGTAGATGAGTTGTTCTTTTTGAACCCTCAAAATCATCAATATACGATACACCTTTTGTATCACCTGTTGCCTTATTGTTTATATGATTAGGATTAGGAAGAACTTGTGCAATTTCACCCTCAATATCTACAGATGATGGTTGATCTGTTTGAATTATTGGTAACTTATTTATTACTCTTGTTAAACCATCTAATTCAAAAGAATGTTTACCATTAATGTCCCAAATAAAATTTCTTATTGGTTCATAACCAACCTCAACTTTTTCATTTATCACAGATTGATCATAAAATAGGGCAGTTGCTCCAATAAATGATCTATTATCAACACCAAAATCCATTTGAGCTCGACTTCCAATCATTGCTTTCTTATCTACAGACATTATTTCATTTCTTTCAAATAAAATCTCTAAGTCAGCTCCAGGTTCATTGTAAGCTTCTGTTAACAAAGTCAAAGATCCAGAGAAATAATCAATAACATAATCTTTATCTTTTATCAACATTACATTATTTAATAATACTTCCTCACTGCCTTCAACTAATGTGAAACCACCTAAATTTATTGTTGCACTCTTATTTTGATATTCTACTTTGATATCAAATTGAGATTCATTTCTAATATATTGATCATTTATTGTTCTATACAAAGAAGCAGAGTCTGGTAAAATTTCACTTAATTCACCACTTCCATTTCCTTCATTAAATGTACTAGATAAATTTTTATCTAAATATTCAAAAGGATGTAACATTGGAAAAAATAATTCTCCAGTGACAAGATTTATAATGTTAGGATTCATTCTATCAATTAAATCATCTGGTGATAAATTCCCATTAGCATCTAAACTATCTAAGCCAAATAAATTAAGAAAAGTTTTTCCTGATTTTTCATCTCTTACATTATCACCTAAACTTCCGTTTTTATAAGTTATTTCTAAATTTAAACCATCTGGGTTTATATTTCTCGCACCCAAATAGTAAACATTTTTAAACTCTAGTGGCCATGTTGGATGCCCAGGATTTGGAGTAAGTGGTTTTATTAATTTTAAATTAATTGTATCTCCTTCAGTAACAGTTGAACTTAATTCACCTATAACTTTGAAGGGTTCTTCTTGTCCTCTTTCTTTTAAAGAATATGAAATAGCAAGAATTTCATTTTGGACAGGAGTAGTCATTCTTATGTATCCTAAATCTTCACTTACAATGTAATCCTGGTTTCTTATCAATCTCGTAAAAAAACTTCCCTCAGTATCTTTTGAAAATTCTTCATCAAGCTCACTCCATTTATTTGTTTGTGATGAAAAATTTGGTTCTACATATGCCAAACCATAAATAGTACCAGATCCTGCAGCTGCTCCTACAGATTTATAAATTTCAATATCATCAATAACTACATTACCAATAATATGCTTACCATCCTTTAATGGATAAAACCCAGGCAAAGAAAGCACACCACTTGATCCAGTTAAAATATCTCCATTTTCATTTAATAAAAGTCCACCATTCCTAAACGTTTTATCAACAAAAAAATATTGATTACCTCTAAAATTATAATCAGGAACAGTTTGTCCTTGAGATTCTGACCCTGCATTGAATTTTTGTTTATCTTTTTTTGTTCTTTCTATAGATGCAATGGATGTAATGTCAACAGGACCAAGTTTCATAGTTGATTTGACACCAAACAAACCTTTGCTTTGACCGGAAAAAGTAACAAACTGAGTAGATGGTAATGAAAGAGAAATATTTCCTGCCTCAAGGGTTTGAAAAATTTCATCCTCCGTCCCTTTATAATTTATTTTAATATTATTTTCAAAATCAAAATCTCTTTCGCTATTGTAGTTAAGATCAACATTAATCCTATCTCCTACTTTACCCTGAACTATAACCTGTTGAGTTTCATCAAATTCAAAATGCGTAGTTTGAGATTCTCTAAAATTTGACCTTGTAAGCTCCTGGTCTTGAAAAACTAATTTTCCTGATAAATTAACATTTCCATTTACTGTTAAAGAAGCTCTTCCTAATCTTGTATCTATAGCTACCAATTCCAAACCATCTCCACTAACAGTTTGTGATATTTCATTTGAATCAATATCTTGAATACGTTTAAAATTATTAAGTCTGTTGATCTTTAATTTTTGGTTAAAATAATATTCAAGCGTCATTTGAAAAGGTATTTTTTCATATCTTCCATTCATGGTTTCATAAAAAGTAATATTATTTCTACTATCTGAGAAATCTACCCACCTATCAAATATTTGAAAATTTGGTTTTAAAATATTATTTTTTAATTGAGAATTAAATTGGAAAAAAATTGATGAATTAATGAATTCTGGGAATGGGTATACACTAAATTGAGAGTAAGGAAGTAAAAAAACTTCTTTATTAAAATGTAAAGAATCACTTGATTCATCTTGAAAACTTTTCAAAAAAGATGAAAAAAAGAATAGGTTTATAACTACTATTCTGACAAATGGCCAGACTATTTGAAACATTTGAGCTCCGCAAACAATTATATATTTCGATGGATACATCCTCATACCCAAAAGACTAAAGTAGCTATTTTTCTATAGAGACTCCTTTATTACTACTGCAATTTACTTAATTATATCAAATTCTCTAAATTTAACTAAAATATTTCTTACTGCTTCTGCCCTATGACTAATTTTGCTTTTTTGATGTGAAGACAAACTCGCATATGTTTTTCTAAGTTCCTTTACAATAAAAATTGGGTCATATCCAAATCCATTATTACCTATCTGTTCTTGTGATATAAATCCATTAACTTTCCCCGTAACATCAAATTTTAATTTTTTATCAACATATGCAAGAACAGTTTTAAAAGAAGCAGTTTTTTCATCTGAAGAAAAATCTTTAACTTTAAATAAAAGTTTATTGATATTATCTTCAACACTACAATCCTTACCAGCATATCTAGCTGAAAAAACACCAGGATCACCATTCAAACAATCAACCTCTAGCCCAGAATCATCAGCAATACAAGGTAAACCGATTTTATCATGAATTTCTTGTGCTTTTAAATAAGCATTCTCTATAAGTGTTGATCCAGTTTCCTCAACTTCATTTATTTTATTTTTAGGATCTATTTCACTTAAAGCAATTAAGTTTAAACCATCACAATTTAATAGCTGTTTTAATTCTTTGGCTTTATGTTCATTTCTAGTTGCAATTATAATTTTCATCAGTAGATTAAATTAACTAAATAAATAGAAATGACAATCAAAAAAACTTTTATTATTCTAACTACTCACTTCCCTCCAAGTAAAGGGGGTGGTATTCAAGAATGGTCTTATGGGATAGCTAAAGAACTATCATTAAAAAATTACCTTGTAAAAGTATATTCCAGAAGAAAAGATAATAAACTATCAATTCATCAAAATGAAAAATTTTCTGTAACAAGAATGAAAGGTAGAAATTGGCATCAATTTCATTTTATTTATTCTCTTTATTATTTATTCAAAATTTTAATTTATGATTCTAATTCTACAATAATTGCAACGACTTGGTTACTTTCTAAACCTTATGTTTTTTTAAAAAAAATTTTTCCTAAATCAAAAATGATAATTGTATGCCATGGACTTGAGGTAACTAGTTTAAAAAAAAATAAAATGAAAATATTTGAAAATGTAATTAAAGCATCAAATCTTGTAATCTGCGTAAGTAATTTTACGAAAAATGCTGTTCTTAAACATTGTGAAAATTTAACAAATAAAAATCATATTCAATTTATTCCGAATGGAATAGACCCAAAAAAATTCTCTTTTAAAACAACAAATGGAAACATTCTAAAAGATTATAACATAGATTCTAAATCAGTTATCATTACTACTCTATCAAGAGTAATAAGAAGAAAAGGACATGATCTAGTTATTAAATCAATTAAAAAATTAATTAAAATATATCCTAAAATTCATTATGTAATAGCAGGACACTATAAACCTGGGAATGAAGATAATTACAAGGAAGAACTTATTAAACTAATAAATAACTTAGGTTTAAATAAAAATGTTACATTTATTAATTATGTTCCTGAAGACAAAATAATTAATCTTTATTCTCGAAGTAATATCTTCATTATGGTTAGTAAATTATTACCATCTGGGGACAGTGAGGGATTCGGCATTACCTTTCTAGAAGCTAATTTTTGTGGTTCTCCAGTAATTGGAAGTAGATCAGGTGGAATTGCAGATGCAATTGAACATGAGGTTAGCGGATTGCTTGTAGAAGAAAATAATGTAGATTCTATTTGTCATGCAATAGATAGAATTCTTAAAGATAAAAGTTTAAGAGAAAAACTAATTATTAATGGTAAAAAAAGAGTTTTAGAAAATTTTACTTGGTCAAAGATAACTGATAAAATCATAGAAAAATTAAATTATAATGAAAAATTTTAAAAACAGATTAAACACTTTTATAAATTATTTAGTAAAAAATTATTCAATGAAATCTTTAGATGATGAAATTTTATTTTGCACTGTTACAAATGATGAATTTTTTCCTGGAACAGCTGTAATGCTTTATTCAATGAAAAAACATCTCAAATCATTTAATTCAAATCATATAAGAATCTTTTTTGATAATAACATTTCACCATTAAGTCATGAAAATCAAGCACTATTAAAAAGTTTATCATCAAACATTGAATTGATTGAAATAAATGACAAAATTTATAGAAATGCAATTTGCAAATATGAAAAACATAGATTGGCATACCTAACCATTGAAGCATTTAATCAGAATGATTTCTCAAAAATTGTTTTTTTTGATGGTGATATGTTAACATTAGATAATTTTTCAAATTCTATTAATTTTTCTTTTCCAGTTTTTGGTTCAAAAGATGGGAAATTTAAAAATAGTAAAGGGCCCAGATTTAAATGGAAAAGCATTAATACTGGCTTGTTTGGTTTTGATTCAAAAAAAATACCATCATCAACCTATTTAGATTTAAAAGAAATGGTAAAAAAAAGAAATGATCCTAATTCAGAACTTCTTGATCAAAAAATGATAAATAATTATTTTTCTCAAAATAAAATTTCTCAATTATTAATTCATCATTATAATAACTTTAGAGACTATGGAGCATCTGGAAATGGATCAGAGGAATTTTTTAAAAATAAATTGAATAAAATAAAAATTCTTCATTACTCAGGTTATGAAATAAGACCAAAACCATGGGAAATTTCGATAGTTAAACAAAAAAAATTGAATACACACTTTGCATATCAATTATGGCTAAATTATGCCAATGATTTAATAAATGAAATCCCATCATTTAGTAAAATTTTAGAAAAATAATTTCTTTTTATTTTAATTTACTTTTTTTTAGTGATTTAGCTTTGGTTCCGAAATTTCTAGAGTTTTAACACTGAGGACGTAAATCTTTATATATTAAACTTTTTTCATTTAATCTTTTATAAAAAAATTATTCTTAAGTCCTCTCAATAATTTTAAATTATATTACATAAAATAATTATATTTTATATTTAAATATGTTAGTTTTAATAAAAATTGACATGGCTTGGTAGCTCAGTTGGTAGAGCA
>sequence12
ATAAATCAATTCTTCTTTAGAATTATTTTCTCTTAATATAAAAAAATCATTCTTTCTTTTTTTTTCTTTATCAACAAATACTTCATTTCCTTCCATAAAATAATAAGAACCTTGGTAATGCCACTTAACATTCATCAATTCTTCAATTTTATAATCTTGAGAAATAAGATGATTAGAAAAACATAAAATAATGAAAAGTTTTTTTAACATTTAATCTTCCGTCATCAATGAAGAATAAACAAGATGCTGAAAATAATTATAGAAAGATTCGTCTTTTGAAGGTGCAACTTGATTCATTAAAATTCCAATCATATTTTCTTCTGGGTCAGCCCAACATTCAGTAAAAAAATATCCTCCCCAACCAAATGTGCCATTAGATACTCTAGAATAACTTGTTTCCTCATTTTGAACAACACTGACACCCAATCCTATAACAAATTCTCCACCATAAAATACTTCTAATGGCTTGTATATCATTCTTGCCGTTTTTTTACTAATAATCTGTTTTCCATACATATTACCATCGTTTAATATCATTTGTAAAAATTTTCCATAATCATATGCAGTACTCATAATATCTACTCCACCCATAGCTATTTTATTAACATCATTTTTGTAATGTTCATGATTAAAACGTAAATGTGGGTATTTAATTAATTCATTTTGATCTGAATCAGGAAAATCTTGTAAATCCTTAAAAAGAATGAGTTCTCCTTTTTCATCATATGAATAAATGCTTGCGATTCGATCCCATTGTGATGAATCAATTCCAAAGCCTGTAGCTTCAAGTTTTAATGGTCCAAACAACTCATCTTCCATAAACTTTGAAAAAGGTCTACCATCTAATACTTCTATCACTCTTCCCAAAACATCCATATTTAATCCATAAGTATATGTTTCACCGGGTTCATGAAAAAGAGGAAGCTTAGATAATTTTTTTATATTTTCCTCAAGAGTGATAGAAAAGTCAGGAAAAGCAGACTGGACGCCTGATTTTAAATAAACATCTCTTCCGAAATTATCATCAACAAATATTGGATAGGGAATTCCAGAAGTATGTGTAAACAAATGCTTCATTAATATTGGCTCTGTAGCTTTTCTAGTTTTAATTTTTCCATTATTTTTATTGTAAGAAACAAAAACATCTGGATTTGAAAATTCAGGTAGAATATCAGCTAACTCTGTATCCATGAAAAACATACCTTTGTCATGTAGAATTAAAGCACCAACGGTTGTCATTAATTTTGACATGCTTGCTAAAGTAAAAATAGTATTTTTGTTCATTTTTTTTTGATTTTTAATATCAGCAAACCCAAATGCTTTTTCATATACAATAGATTGATCTTTGATGACTAATGCAACAGTTCCTGCCACCTCACCTTTTGCAATTCTATCTTTAATTAAATCGTCAATTTTCTGAAGATGAATTACATTCATGTCAACTTTTAACGGATCTACATATTTAAATACCTCATTTTCTCTTTGAGAAAAAAGAATTGAGGTCACTATAAAAATACAAATGATGGTTTTTAATGAATTGTACATTATGATATCCTTTTTTTAAGTGCGCCTGACAAGATTTGAACTTGTGACCTCTAGCTCCGGAGGCTAGCGCTCTATCCAGCTGAGCTACAGGCGCTTATTATAGTAATTTCTCAGCTGATTCAATAGTATTTTCAACTAACATAGCAATTGTCATAGGTCCAACACCACCTGGAACTGGAGTAATGGCTCCCACTTTATCAATTACAGAGTCTATATCTACATCCCCTACTATTTTACCATTTTTATCTCTATTGATTCCAACATCAATTATGATGGCACTTTTTTTAACCATATTCGCTTTTATTTTTTGAGGAATTCCAACGGCAGCGATTAAAATATCAGCTTGTTGTGTAAAATAAGATAAGTTAGATGTTTTTGAATGACAAATAGTTACCGTTGAATTACCTTTATCTGACCTTGAAGATAATAAAGAAGCAATTGGTTTTCCCACAATATTACTTCTACCAATGACTACAGAATGTAACTGCTCTGTAATAATATTATAATATTCTAAAATCTTAATTATCCCTTTTGGTGTACAGGGTATATATCTTGGATTCCCTGAGAAAAGAAGACCCATATTTTCTGGATGAAAACCATCGACATCTTTTTTTGGATCTATTTTATTTAACAAATAATTAGAATCTAAATGTTTTGGTAGAGGTAATTGTAAAAGGATTCCAGTAAATCGAGAATCTTTATTTAATGAATCAATTAATTCTAGGAGCTCATTTTGCTGAATTTTTTCAGGTAGTGAAAAAGTTTCTGAATGAATACCCAAGTCTTTAAATTTTTCACTCTTTTTTCTAACATAAATTTTAGAAGCAGGATTACTTCCAATTAAAATTACTGCCAATCCAGGTTTTATGTTTTTATTTAATAGTAATTGAATTCGTTCAGGAACAGAATTGTAAAAATGATTTGCTACTTCAACACCAGATAAGATAAGTGTTTTCTTCATTTATTAAATAATCCCTATAATAAATGATGAGTTAAAAATTTAATATACTGGAATATTTTCATCTAAAGCCTCAGAAAGCGTTTGAGCTTTTTCTTCAACTTCATTGACCAAATTATTCATTTTAGTTTTTTCAGCAAAATAGTCATCTGTAATACTCATAGCAGCAAGAATTGCAATTCTTGATGTTGATTGAGATGAAGGTAGTTGTTCTTTAACTTCTCTCATTTTTTGATCAACATATTTGGCAACATCAGCAATATAACTACCATCAGCTTCAGCTTTAACAGTATATTCATGCCCAAAAATAGATACTCTTGCTAAATTCCCATCAGTAGCCATTATTTATCTCCAATAAAATGTTCGTTATTTTCAATTAAATCAATAATCTTTTTTATACTAATTTTTAAATCATCATTAGAAGAATTATTTAGAGCAGTAGAGACTGTGGTCTCATTTGCTCGCAACCTTTTAATCTCGACAATTGCGTTCTTTACTTTATCCTCTAACGATGAAAGAAATGGTAATTCTGTGTCCATATTATCTTAATTTAGCATTTAAAGTTGAAGATGTCTCTAAAATAATTTTATTCATTATCTCATCAACATCAACATCAACCAAAGTTCTTTCAACAGATCTAAATGTTAATTCAAAAGTTACACTTTTGCAATTTGAATCAATTTGATCTCCCTCATAAATATCATATAGTCTAATATTTTCCAATAAATCAGTTCCGAATTTTTTAATATTGGATATGATATTTTCAGTCTCAAGAGATTTTAATACTGTTAATGAAAGATCTCTAGTTATAGATGGATAAATGGGTATATTATTATACTTAGAAAAATAATTTAATTTTGACAAAGTTGACAACTTAGAATCAAACAAAAATATTTCTTGGTCAATTTTGAATTTTTTCAAAATAGTTTTATTAATTTGCCCAATGATAAATAAAACTTTATCGTCTTTAGAAAAAGATATTTCATTATTTAAAAATTCATGAATATTTGATTTAGAAATTGAATAATCAATATTGTAATATTTTAAAAAATTAGCCAAACACCCTTTAAGTAAATAAAAATCATTTTTTGATTCAGCTTGCCTCCATCCCTTTTCAATACTTTTACCTGTTATGATTCCTGAAAAATTAAATTCTTCATTTCTTTTATTATCTATCATTTCAAATACGGTACCATATTCATAAAATGAGAGGTTTTTTTCTCCGTGTCTAATATTATAGGAAACTGAGTTTATCAAACCTGTTATTAAATTTGTTCTCATTGATGACATCTCTAAACTTAGAGGATTTGATATTTCAACATATTCCTTTTTAGGAAAAAAGAATTCCTTTTCTGGATTGATCAGTGAATTAGACATGATTTCATTAAAACCAACAGAAGAAAAATAACTTTTCAACCTATCGATATAATCTTCTTTATCACTAAATATTGAGTTTAAATCACTAGTGTAGGAAAATTTATTGGGTATTTTATCAAATCCATAAACTCTTGCAAATTCTTCGGTTAAATCAATTGGTCTTTCAATATCAGGTCTAAAAGAAGGAATAATACATTTATAATCATCACCTTTTTGAGAAAAATTTATTTCTAATCCAATTAAAGTCTTTTTTATAAAACTATCATTTAATTCAATTCCAATTTGATTTGAAACCTTTTTCTTATTAAAAGATATTTCTTTTAACATTATTTTTTGGGGATAAAAATCATTCTCTTCAATATTAGAAAGACTTTTTTCTGTCAAATCATTGATTAATGATAAAGTTCTATTAATCACCTTATCATGATCATCAAAATCAACACCTCTTTCAAACCTTTTTGATGCATCAGTAGACAAACCTAATCCTTTAGAAGATTTTCTAATACATACTGGGTCGAAATATGCACACTCGATTAAAATATTTTTTGTTGATTCAGTAACTTCTGTATGTTTACCACCCATTACACCGGCAATTGCAATTGGTGTTTTTGAATCACAAATTAGCAAATTATTCTTATTTAAAACTCTATTATTGCCATCTAGTGTTAAAAATTTCTCTTTAGATAAAGCTCTTCTAATATTAATATTTTTAGTTTCTAATTTATCTAAATCAAAAATATGAATAGGATGACCAAATTCTAATAAAACCAAATTAGAAATATCTACAATTGAATTAATAGACTGAATATTATTTTTTTTTAATTTATCTTTTAACCAATTTGGTGATTTTGAAACATTTACATCATTAACTACCACACCAGAGTATCTTGGGCAGTCAATTAGCGAATCAGAAGAAATATTTAATTTTTTAGTATTACTTTTAATAAGATTATTTGATATTTGAGGAAGTTTAATTTTTTTGTTTATTAAAAGAGAAACTTCTCTAGCAACACCTAAATACGACATGCAATCTGGTCTATTAGGTGTTAACTCTATATCTAAAATTCTTGATTTTTTTTCTAAAGATGACTCAAGACCAAGAATAGTCAATTTTTCACATAATTCATCATCAGAAAATGGAAATTCAATAAATTCTTTTAACCATTCTATAGAAATAATCATTAAAACTGTCTCAAAAATTTAACATTTCCATTAAAAAACAATCGAATATCATCAATTCCATATTTTAAAATTGCCATTCTCTCAATTCCCATACCCCATGCGTACCCTGACCATATTTCAGGATCATAACCAACATTTTTTAAAACCTCTGGGTCAACTAATCCACAACCTAATATTTCTAACCAACCAGTTTTTTTACACATTGAACAACCCTTACCTTTACACATCATGCATGAAATATCAACCTCAGCACTTGGCTCTGTAAAAGGAAAAAAGCTTGGTCGAAACCTAGCAACTACATCCTCACCGAAAAATTGTTTACAAAAATACTCAATCGTTCCTTTCATTTCTGAAAATGAAACATTTTTATTAATGTAAAGACCTTCTATTTGATGAAAAAGACAATAACTTCTAATACTTATAGCCTCATTTCTATAAACTCTACCTGGGCAAATCACTCTAATAGGCGGCTCACTGTTTTCCATTAAATGAATTTGTGTATTTGAAGTATGAGTTCTTAAAACATCATTAGTATTTATATAAAAAGTATCTTGCATATCTCTAGCAGGATGATGTTTAGGAATATTTAAAGCTTCAAAATTATGATAGTCGTCATCAATTTCAGGACCATATGCAACAGAAAACCCAATTTGCGAAAAGATTGATTTTATTTCATTAATGGTTTTTGTGATTGGATGTTTTGTACCATAGGAGATTGAATCTCCAGGAAGTGTTAGATCAATCAGATCATTTGAGGATTTATTTGTACTAGAATCAAAAGATTTTTCTATTTCTTGAATTGATTTTGAAAATGATTGTTTTAAATCATTAATTTTTTTACCAACAATAGGACGTTCAGAAGAATCAACTGTTCCTAATTTGGTAAATAAATCAGATAATTTTCCTTTTCTAGAGAGATATTTGTTTTTTAAATCATTTAATGAATCAATATCATTACTATCAATTGATTTAATATTTTTATTAAATTCAATTATTAAATTATCAATTTCATTATTTAATGTCATTTAAATCAAATTTAAGATTACTTTATATCCTCTACAATTTTGGTAAAAGCATTAGGATCCTTTACAGCTAATTCGGATAACATTTTTCTATCTAATTGAATATTATTTTTTAATAAAGAAGAAATAAATTTTGAATATGTTATCCCATTCATTCTAGCAGCTGCATTTATTCTTGCTATCCATAATGCCCTAAATTCAATTCTTCTTTTTCTTCTGTCTCTATAATTATATAACAAACCTTTTTCGACAGCTTGTTTTGCAGTTCTATATAGCTTGCTCGCAGCACCATAATAACCTTTGGCTTGTTTTAAAACTTTTTTATGTTTCTTTTTTCTTGCTACAGAATTAGTTGCTCTTGGCATTTTTGCCTCCTATTTTCCAATCATTGATTTTACTCTACCAGTATCAGCCTTGCTTACTTCAGTTCCTTTTCTTAATGATCTTTTTCGATCCATACTTTTACCTTTAAGCAAGTGTGACTTATTAGCTTTATTTTTTTTTATTTTGCCTGAGGCTGTTAATTTAAAACGCTTAGTAGCGCTACTTCTAGTTTTCATTTTTGGCATTTTTCATCCCCTTCGATTTATTTTGGTGACATAATGATAGAAATTCTTCTACCTTCCAAGTCACCTTTCTTTTCAATGTCTGCAACCTCACTTAAGGATGAAGAAACTTTATTGAAAAGCTGTTCACCCAAATCTTGTCTTGTAATTTCTCTTCCTCTATACATAACTGTAATTTTCACTTTACTACCTTCAGAAATAAATTTTTTAATTTGGTTGATTTTAATTTCAAAATCATGATCGCTAATTCGAGGACGAAATCTAACCTCTTTTACTTTAATTACATGCTGTTTTTTCTTATTTTCTTGATCTTTCTTTTTTTGATCATATTTAAGTTTTCCAAAATCCATTATTTTACACACAACTGGTGTTGCTTTAGATGCAACCTCAACTAAGTCCAAACCAGAATTTTCTGCTAATCTTAAGGCCTCTGATTTGGATACAATACCTAATTGTTCACCCGTAGCTCCAATCAACCTAACCTCTCTAGATCTTATACTTTCATTAATATTTATATCAGTTATTTTTGCGATTTTTCATTTCTCCTTTTATTATTAACCTCATCTAGCAATTTTGACAACAATGAATCTAACTTCATTTGACCAATATTACCTCTAAATCTTTGCCTTATTGATATTTCTTTTTTTTCAAACTCTTTTTCACCAACAATTAACATATAATTTATTTTATTCAATTCTGCATCTCTAATTTTTGCACCTATTTTTTCGGACCTTGTATCAACTTTAACCCTCATATTATTTTTGTTTAAAATTTCTAAAATTTCATATGCGTAATCATTGAATTTTTCAGATATAGGCAAAATTATTACTTGAACTGGAGCTAACCATAGAGGTAAATCGCCACCAGTATGCTCAAGATATACACCAAAAAATCTTTCTAACGAACCAAGTATAGCCCTATGAATCATTATTGGTCTCTCATATTCTCCATTCTCAGCAACATATTTTAAATCAAATCTTTCAGGCAAATTAAAATCTAATTGAATAGTACTAAGCTGATGATATCTTCCTAAAGCATCCTTTACTCTAAAATCAATTTTTGGACCATAAAAAGCCCCTTCTCCTTCTTCCTCTGTAAAATCAATTTTTTGTTCAGTTAGAATATCTCTTAAAATAGCTTCCGATTTATCCCATAGTTTCGGATCCCCTAAAGCTTTATCGGGCTTTAAACTTAATTCAACTTTAATTTTATCAAAACCAAATACATCAAAAACATGTTTAATCATTCCTATATTAACTTTCATTTCCTCATATATTTGATCTGATGTGCAGAAGATATGCGCGTCATCTTGAGCAAAACTTCTAACTCTAGTCAAACCTGAAATGACACCTGCTTTTTCAAATCGATGTAATCTTCCAAAATCAGCAATTCTATATGGTAAATCTCGATATGATCTTAGTTCAGATGAAAAAATAATTGTATGACCTGGACAATTCATAGGTTTTAAACTATATTCTTTTTCCCCAACCTTTACATGATATAAAAATTCTTGAAATAAGTCCCAATGACCTGATTTTTTCCAAAGTTCTATATCAAAAACCTGAGGAGTAATCACTTCTTTAAAATCATTTTGCTTATAAATTTCTCTAATAAATCCTTCTAATTCTCTATAGATAATTGCACCAGAAGGCAAAAAGAATGGGCTGCCAGGTGACATAGAATCAAACATAAAAAAACTTAAATTCTTACCTAGCTTTCTATGGTCTCTTTTTTTTGCTTCTTCGATAAATTGTAAATATGATTTTAATTCTTTTTTGTTGAAAAAAGATGTTCCATAAATTCTATGGAGCATTTTATTTTTTTCATCCCCCCTCCAATAGGCACCTGAAGTAGATAGTAATTTGAAGTTTTTTATCATGCCAGTGGACTTTACATGAGGACCTCTGCATAGATCAACAAAATCACCTTGAGTATAGGTAGTTATTTCCTCATTAAGTGGAAGTTCTTTAATAATCTCAACCTTATAGGATTCATTATTATTTTTAAATATTTTTATTGCCTCATCCCTAGAAATTACATTTCTTTCAATTGGATAATTATCATTTGAAAGTTCAATCATTTTATTGTGAATAAGCTCTAAATCTTTCTCTGAAAAAGGATTTTCAACATCAAAATCATAAAAAAATCTATTTTCGATAGGTGGACCTATTGTCATTTTAGATTCTGGAAAGATAATTTTTACTGCCTGAGCCATTAAATGGGCAGTACTATGTAAAAGAATTTCATGAGAATCAATAGATTGAATTCTTATTAATTCAATAGATGTATCTTCATTAATAGTTGACTTTAAATCTTTAATATTATTATTTACTTTAACTGCTATCACATCAGAAATATCTTTATATTTATCTGAAATGATATCAAAAAAAGTTAAGTTAGAAGGGTAAGATTTTTCGGATAGATCTTTAAATGTAACTACAAAATTATTCATCTAATTAAAAATCAGTTATCAAAATTAATGTGCATAAAAATGATGATATAAAAGAAATTCCTTATCAGTTGTATAAATAATTAACATTTATGAGTTCAAATTTATAAAAAAATAGCAACAATTAGAAAAGTATTTAAAGTTATTTCATTAATAACATTTTGTGAGAAATTATAAAATCACTAGACTCTAAAATAAATATGTAAACACCTGATTCCACATTTTCTCCATTATCATTCTTTAAATCCCAATTAAAAGAATAAGATCCTTTTGTTAAAAATTGATTATGAATATTTTTAATTTTTTTACCTAAAATATTATATATACTTACTTCAATATTTAAAGAGTTTTTAATAAAATAATCAATTTTAGTAGAGGAATTAAAAGGATTTGGATAGTTTTTTATTACTATATCCTGGTTATTATTTTTATTATCACCATCCAAGCTTAATATATTATAAGATTCAATAGGCCCATATGAGATTAATTCCTTTTCACTTAAAACTCCATAATCTAAAGGATATTTTCTAACTTGGAAAATAGGGTTTCTTGATGGTGATTCATTATAATTTAGAATTCCTGAATTATTTACTGGGTTAACATACTCCCAAACAATATTTTTATTATTATCAATTTCAAAAATTTTACCTTTTACTCCTTCGCAAATTAAAATATTTCCATTCGAAAGAGGTTGAGAGCCTGAAATTCCAGCTGAAAAAAAAGTGTTAAAGCTTTCTTCATTATAATCTATTATTGATTCAAATGGTAAAAAAACACCTGAAGAATCAATGTCATATTTTCCATCTTCATTTAATGGAGTTTGAATTGTCTCAATAGTAGAGAAATTTCTAAATCCCCCACCATTATTAAAAAATCTTATGATTCCTTTTTCTTCATCTATCCAGTGTGCGTCATGAACAAAAAATAATTTTTGATCATCAAAATCACCCATATCGTACATTAAAGGATTACCCCATCTATATAGAATATCACCACCCATTTCATAATTTCCACCTTGGTGAGAAGATGATTCTAAATTTGTTGTACTATGGTCAATAATGTAAATTTCATTTGAGAAAGGTGATGTTATTAAAATTTGATCTAAATATTCATTGTAATCTAATGAATTGAAATGTAACCAATCTCCAGTGTGACCTTTATTAATATCAATTAATTGATAGTTTTCACTTACTGAATTAAAATTTTCTAGAGTATCATTAAAGTTTTGAACTACATGTTCAAAAACGTTCCATTTCCAAACTATTTCACTATTTGATGGATTTATTTCGACAATTTCTTCACCCCACAACTCTTCTTGGATATTACCATCATGATTAAAATATAATTCAGGATCTCTTCCAAGATTCAACATTCTTTCTAAATCTATTTTTTTCCAAGAAATTGCTAAAATATTTCCATTTGGAAGTATTTCAATATCATGATGCAACATTTTATTTGGAGTAGAAAGGTCATAATTCCAGATGACTTCTCCATTCCATGACAATATTTCAATCCCTCCAGTTGAACCACCAACAGCATCAAAATTTTCATTATTAAGAAATATTGACCTAACAAGATTACCATTAGGGAGTAGATAACTAATTAATGAATTATATTCACTGTTCCACTCATGAACCTTTTCACCGTTATTATTAATGAGATAAGTTTTTTTGAGAGATATAGGATTTAATAATATATATCCATCTGAAACATCATCAGTTTTAGAAATTAGACCAACTGAATTTTGTTGAGGAAAAATTAAAACATTACAAAAGAGTATTATTATTATAATATTTTTCATAAAACGTGGGCGATACTGGATTCGAACCGGTGACCTCTACGATGTCAACGTAGCACTCTAACCAACTGAGCTAATCGCCCATAATAAGATTTAATTTAAAGATATTATTTAAAATTAAGAAAGTCTGGTTTTTGAATTTCAAAATCTAATTTATTTTTTCTTTCAACAACAATGTCAGAATTCTTTGGCATATATTTTTCCATATCCTTTGTAATACGTTCAAAATGCATAACAAAATTATATACCTCTTGTTTTGTCATGTATTTTGACTTGCTTCTGCTCTTATCCATTTCAATAGCAGTCTTTTCTTGAAGCCATCTATTCTCCAGTATTTTTTCAAAGCTTGGAGATTTAATATATATCTTTAAATCGAATAAATTAAAAAGATCTTGATATATTCCAGATAAATTATCATTTACCCAATTAACCCAAATACCATTAGGATCAAATTCTCTTTCAAGGGAATTAATTGGAGTTTTTAAATTTTCAGCAGCTTCCGGGATTGCTCCTACACACCAACCATCAAAAATTATAACTTCTGGAGTTCCTTCAAATTTTTTCCACATTGATTTTGGTAGCAAATCATCAAATTTTTTAGAGAATTTTGGAATTAATGAAATTTTATCTGCATCAGACTCTAAGGAATTAATTGTATCTAAACCTAGAGAAATATCATGTGTTCCAGGAACACCTCTTGTTGAAAGCAAAGGATGAACTTCATTCGAGAGTTTTATTCTTTGTTTTTTTGATAAATAAATATCATCAATTGAAAAAGATGCGACTTTACAATTAAAGTGATTAATTAGTAAAAATTTTATGAAATCTGATATTGTTGATTTTCCAGAACCTTGACCTCCAGAAATATAAAATTTAAATACATTATTTTCTTTTAATTGCTTTGATATATACAATACAATCGGAATTATATTATTGATTAAAAAATCTTTGTTTAATTCTTTTATATTTTTTTTATCTGCTAAAGATTGTAAATCATTTTTATTAAGCTCATAAATATCTACACAATCATTAAAACTTATTTTTGTTTTAATTAACATATAATCAAATCACATTATTAGAAATCCAAAGTGTTTCATAAGGTTTCATGTTAATTTTTCCATTTATTGAAGAAATTTTATTTTTAGTTATAATATCAAACCAATCTTCTGTTTCTATCAAATTAATACTTGAAAGGGGAAATTTAATTTTTTCGTTAGTAATATTTGAAATACAAAAGATACTTTGAGTTCTATCAAGGTCTTGTCTCCATAAACCAAATATTTTGTTTCCTAAATTTAATGTAAATTGAGTTGAATTTGGGTGAAATGCAGGTTGATTAATTCTAATTTCTAATAATTCGTTAATTTTTTTATATATTTTATAATTTACTGAATCGGAATTATCTAAAATTTTAAATAGATCATCTTTATTCCATTGGTATCTATTAATAATTCTATTTTCACCACCGTTTTCAATTCCATTTAAATTATTTTTTGTTCCTAACAAACTATGAATATATATTGCTGGGACACCCTCAAAAGCAAACATAATTGTATGAGCACATATAAATCTTTGGAATAAATATTCATCTTCGCCATCGAAAGTTCCTCTCATACTATCAAAAAAAGAAATGTTTATCTCGTATGGAGTTTTATCTCCCCATTGGGTTGTTCTATATGATATTTTACCACCAAAAGATTTCATCAAATCTAATAATTTTACAATTTCATTTTCTTCGATATAACCCTCAATAGGTCTTAAGCCAATACCATCATGTGATGCAATAAAATTAAAATATGCATTTCCATTTTTAGCTGGAGGCATTGTCATCGACCACTTTCTAAGCTCACTACTATCTCCTTTTGTGAGAGTAAAAAGAATTAATGGCGCTAGTGTAAAATTATATATCCAGTGAGCTTCATCTTTGTCACCAAAATATGTTAAATTTTCTTTGTTTGGAATATTAGTTTCAGTTATCAATACTGATGCTTCATTCAAATAATCCAATACTAATCGTAAAATTTTAATTAAATAATGGGTTTCAGGCCTATTGATACAATTTGTATTTTCTTCTTTCCATATATATGCAACAGCATCTAGCCTAAAAATTTTAATATTTTTTTGAATATAAAAATTGAAAATATTGATAAACTCAATTAAAACCTTTGGATTTCTAAAGTCGAGGTCAATTTGATCATGACTAAAAGTACACCAAACTTCACGTTCTCCACTTCTAGTTTTTACGGTTTGAAATAACTCTGATGTTCTCGGCCTTACAACTTGAGGAACTCCATTCCAATTATTAACATTAATAAAAAAATCAGAGCCATGACCATTTTCATTTAAAAAATTTTCAAACCATTGACTTTTCTTAGATGCATGATTTAGAACCATATCAATCATAACATTATATTTAGTTGATATTTTAGATAAATCTTTCCAGTCTCCAAGGTTTGAATCTATCTGATAGTAATCTTTAACAGAAAAACCCTTGTCTGAGCTTGATGGCATAAATGGCAAAATATGTATGGAATTAATTAAGGGATTAAATTGGGTCAAAAAATGGTATAAACTTTTTAATGGAGATTCTTTACTATCTATAATAGAGTCTGCATAAGTTATTAAAAAGACGTCTTTTTGATCCCAAACATTAACAACTTTTTTATTACTGGAAATTGAAATTGGTTTTAATATGGATAATATATCAGATGAAATTTGATTTAAATCAAAGTCGTTATTTTTATAAACTTTCTTTAACAAAAAAAGAAGTTTTGTATTAAAGTCTTTAGCATTCATATAAAAAAATTATTTTTTATTATCATTTTCAACAGCATCGATTAATTTTTCATAGATAAAGGGAATTGCACTTCTTACTCTACTCCAGCTTGGCATAAGTGCCATCTCCATTGGTTTATCTAATACCTGCTCTCCAGCTTTAATAATGTTTTCAGCAAACAACTCAACATTTTTTTCTTCTTTATTAATATCAACATCAATATCATTCATAGAAGCATCGTAACTATAAGTAGAAATATAATCAAGAGCAGTTCGATAATAAGTTGCTTTTAAAGCCCTTAAAGCATCAGTATTGAACCCAATTCCTTGTGAAGCTAATTTTCGAATTAAAGTCTTACTAATATCAATTGACATTTTGGATAAACCTTTTTCAGGATCATTGAAAGATATATCTTGATGCTTATGATCATATTTATCGGCTATATCAACTTGGCAAACCATATTGTTGGCAAAATTTCTTTGAATTTCAGATAACATTCCAACTTCTAGACCCCAATCATAGGGTATACGAACATCCCTAATTAATCTTCTCCTGAATGAAAACTCTCCTGATAGTGGATAACGAAATGAACTTAGAAAATCTAAAAAAGGAGAATAATCACTACTCATTTGTTTTAAAGCTTTAATTAAAGGAGTAACTAATAATCTTCCAACCCTTCCATTCATTTTACCATCTGCTATCCTAGAATAATAACCTTTACAGAAGTAGAAATTGTATGCGGGGTTAGCAATTGGATAGAAAAGTCTAGCTAATAATTCTCTATCATAAGTTAAAATATCACAATCGTGAAGAGCAACAGCTTCACAATTTTTTAAACCATATATATAACCCATGCAATACCAAACATTCCTTCCCTTTCCTGGAACTGATTCATCCAATCCATTTTCCTTTAATAAATTTGAAACTGCTTTCATATTTGGTCCGTTATGCCAAATAATTCTAACCTTTTGAGGAAGTTGACTAAAGAAATTTTTTGCATGATTGAACTCATCCTCATTTGCATTATCTAGGCCAATAGTTATTTGATCTAAATATTTAACTTTTTTTAACTTATTAACAATATCTGGAAGAGCTGAACCTGATAACTCAGAGTATAATGAAGGTAAAATTAGCTGCATAGGTCTTTGTTTAGAAAAATTCTCAAGTTCATTTTCAATGTAATCTAAATTTTTAGTTCTAAAATTATGAAAGGTAGTAATTATACCATTTTGGTGAAAATCTGACATTATATTTCCTTTAATTTATTTTTTTTATTGGAGGCATCATTTTTAATACTTGCTCCCATCCTTTTGGAGCTACAATTGAACTGTAAAAAACATCTTTATCTTTTTTTAAATATAATTTTTTATTAGAAAAGGCTTTAACAATTCCAGAATAATCAGTGTTTTCTAACATTGCAATATCATTTGGGCTATCACCCAAAGAAATTGAAAGAAATTTTTTTTTAAAAGTATTTTTATAAATTTTTAAAATCAATTTTAGAGCTTTTCCTTTATCTACATTTCCAATAAGATGATAAAATCTTCCTCCTTTTAAAATTTTATAATTATGACTATTAACAATAAAATTAAATTTTTCAAATAATTCTTTAGTTCCATTCCATAAAAAAGGAAGAGAGAAATCTCTTTTTTTTGAATTCATTAAAATAGAATTTGAAAGTCCAGTTGATTCTTTTAATTCTTTTATATTCATTTTATATAAAAATGAACATTTTGATATAAATTTTTTACACTTTTCTAAATTCGTAAATTTAATTAGGTCCTCTAAGTTAGAACCTAAAACTAATTTATAATAACCTTCCTGAGTTTGCAATTTATTAGTTAATGTTAACTTTAAATTAATTGGAATAAAAATTGCCGAACCATTTTCAACAATAAATGGATTTTTTAAAAAAGAATCTTCACAGATTTTTTTTACTTCACTAAATGTTTTACTAGTATTAGGTATAATAATTGTTTTTTTTGAAATTTTTTTAAAAAAAACTAATATTTCATCAAATGAAAAGTTTTTATGATTAAGAAGTGTTCCATCAAGATCTGAAAAAATAATTATTTCTTTATTCATTTAATACTATTTGAATTAGTATTTAATTTTGAATAATATTCTTTTTCATCATTAAAGACATTTAAAGCTTTAGTTATTACAGGATCATTCTCAAAAGATGATTCAATTCTTTTTTCCAAACCTCCAAAAATCCAGATAATATCCCTTGTTAATAATAATTTTATATCATCTTTTTCACTATCAAACATTTCTTCAATATTTTTTTCAAAATATTTACTTATGATATCAATTGAGTGTTTTAAAGAAATATCAGATTCAATTTCATCTTTAAGATTGTTTTTTAATAAATTTAAATTATCATCCATAGGTGTATCTAAATTTATATTTTTTGATAAAATAAAGTTCTTAAAATCAGAAATTATATTATCATTTATCTGTAAAAAATTTAGATCGGGGTTTTCGTTTTTAAGCTTTGTTGCAAACTGAAAAAAATAACCTTTTTGCCATATTTTTTTAGTTAGCATACCATAATCTAATTTATCTTCAATAAAATAATCAGGAGAAATACCTCCATTTGAAAATACTTCCCTACCATTTATTGTTGTAAAAACTGAGTCATTCTCAATAGATAAAGATGTTTTACTCTTAATATTTTCATCTATGTAACCTTTTTTTTGAATTAATCTTCCTGATGGAATATAATATTTTGCAGTTGTTATTTTAAGAGTTCTATCGGAATCTATTGGGAAAGCAGTTTGAACTAAACCTTTTCCAAAAGAATTACTTCCAATGATTACTCCCCTATCGAGGTCTTGAATAGTTCCAGCTACTATTTCACTTGCAGATGCAGAACCACCATCTATCAAAATGGCAATTTTAGTATTAACGTTTACAATAGGGTCATTTTGTGAAAAAAACTTTTTTTGAGATCTTTCAGTTCTTCCAGAAATTGAAACAAGTAAATTCCCTTTTTGAATGATTAAATCGAGAATATCAACTGCAGAATCAAGCAATCCACCTGGATTACCCCTAAAATCAATAATTATATTTTCAACTTCAAGATTATTGAAAGAAGATAATTCTGATCTCATTTCCTTAATAGAATTTCTAGAAAATCTATTTAATCTAATATATGCTGTTTGTGCATTAATTAGTCCTGAATAACTAATATCCTTAATATTTATTTTACTTCTAGTTAAGTGAAATTCAATAATTTCACTTCCCCATCTTAAAATAGTTAATTTAACATTTGTATTTTCAGGACCTCTAATTTTACTGGCTGCATTATCTATTCTCATTTCGAAAGTAGAAAGACTATCTACTTTAATTATTTTGTCACCACTAATGATTCCAGCTTTTTGAGCAGGAGAGTTATCCATAGGTGATATTACAGTCAAAGTATCATTTCTTACACCTAATTGAATACCAACACCACCATAATTTCCCTGTGTTATAATATTTAAATTATGATTATCATCTTCGATTAAATAAGTAGAATAAGGGTCAAGCTTTGAGAGCATTCCATCAATAGCAGCCTTAGAAAGAACTTCAGGGTCTAAATTATCAGAGTAGTTAATATTAATTCTTTTATAAACATCATAAATATCCCTCCAACCTGATGAAACATCTTTATATAAATCAGATTTTGCAAAACTTAAGAGTATAATTAAGGATAATGTTGAAAAGATAATTTTTTTACTAAAAATTTTGTTTATTAAAGAGGTGAATATTTTCATTTTATATGATTTAAATAATTTTTATATACTTTTAATTTTAAATTTTCTGGTGAATCTATTGCATTTAATAAATGAAATCTTTTTGAATTTTTTGCAATCTCTAAATATCCATTTCTTACTTTAATCAAAAATTCCTTACCTTCAAGTTCAATTCTATCTTTATTTTTATTTTTCATTCTTAACATCGAATCTTCAACTTTTAAATCAAAAAGAAAAGTTAGATCGGGATTAGCATGAGTTAATGAAAATTTATTTATTTCATTTAACCAGGAAATATTAATTCCTCTTCCATAACCTTGGTAAGCGATCGTAGAGTCAATATACCGATCACAAATCACAATAATGTCACTATTTAATTTAGGTAAAATAATATCATTTACTAATTGATATCTACTTGAAGCGATCAATAATGCTTCAGTTTCTGGTGAAATCAATGAATCTCTATGATTAAGTACTAAATCTCTAATTTTTTCTGATAGTTTAGTACCACCGGGCTCTCTTAATAAAACAACAGTATGACCATCACTAGTTAATTTATCTTTCAAAAAATTAGCTTGAGTAGACTTACCAGATCCGTCAATTCCTTCAAAAGTAATAAACATAATAAAAATAAGATTTCAATTGGTAAAATTAGTTTTGACTGAATTTTTACCAATAATCAATGTTAACTCTCCTTTAATTTTTTTTTCTTCAAAATAAATTAATGCTTCAGATAATTTACCTCTCCATATCTCCTCATGCAATTTTGTTAATTCCCTACAAATTACAATAGGTCTATCTCCTAAAAAATTAAAAGTATCATTTAAAGTCTTTGTTATTCTTTCCGGAGACTCATAAATAACAATTGTTCGGGTTTCATCTTTTAAAAATGTTAATCTTGTATTTCTTCCTTTTTTTTTTGGTAAAAAACCTTCAAAAATAAATTTATCAGTAGGAAGACCAGAACTTGTAATTGCAGCTAATAATGAAGATGGACCAGGAATAGATATAATTTTAATTTTATTTAAAATACATTCTCTTACAAGCTTATAACCTGGGTCACTAATTAAAGGAGTACCAGCATCAGAAACTATTCCAACATCATATAATTGAAGAATATCAATAATTTTTGGTATTACTTTTTCTTTATTAATATCATTATAAACTATCATCTTTGGAAAAACATTATATTCATTTAATAATTTACTAGTTCTTCTAGTGTCTTCAACTAAAAGAAATTTTAAATCTTTTAAAACATTTACTGCCCTATAGGTAATATCAAGCATATTACCAATTGGAGTACTTATAATAAATAATGTTTTCAAATTAAATCAAAATGAAAAATCTAAAATAAATATAAACTAGAGGAGCTGAGAATAATATCGAATCGAATCTATCAAGAAAACCACCGTGCCCTGCTAATAATGAAGATGAATCTTTTAATCCAAAATTTCTCTTTAAAAGAGACTCTGCTAAATCTCCAATTTGTGAGCCAATAGATATAATTAGAAAAATAAATAAAATATCAAAATGACTTAAAAATTCATTAAAAATTTTATCAAATGATAATAAATAAAATAAAATATATATTAGAAAAGTTCCAAACAAACCTCCAAAAGAACCTTCTATAGTTTTATTTGGACTAACTCTTGAAAATAATTTATTTTTACCTAAAAATTTACCAAAATATAATGCTCCAGTATCACAAAACCAGGTTGATATAAAAATAATAAAAGTGATAACCATTCCTAAGTCATAAAAATCTGTAGATTGAGTTTGAATATTTCTTAATAGAAATAAAGAAGATAATAAAGTTGGAATATATAATAAACCTGTTAATGTAATTGAAATGTTTAAAAAAGCGTTCTTTTTATTTCTAAACAATTCAAATATTATTACAAAAAGTACAGTTAAAATAAAAAAATCAAAAAAACTGAGAAAAAATATTTTATTATTATGAATAAAATTTATTAATAATACTAAAAATGAAATTATATATCCTGTTAAAAATTGGGGATAAATTTTTTCTTGCTTAGGTAAAAGATAAAATTCTCTTAAACAAAAAAAGTTTACTACAGATATAAAAAAAAGAAAAAAATAATCTCCCATAAATATCAAAAAAACTATTAATGGTATACCTATTAAATTCACAATGCTTCTATTTTTTGAAAATTTTATCATTTTTATTGGTCTTTACGTTTCATATATCTATTATCACCCCACTCGATTACTTCAATTTTTACTCTCGCAACACCTTGTTCTAAAAAACCTAATTTTATGGCAGCTCCGTAAGAGCAATCTAAAATTCTTCCTTTAGCATAAGGACCCCTATCATTAACCCTAAGAGTGGCTGTTTTTTTATTAGTCAAATTTGTAACTCTAATAATAGTATTAAGAGGTAATGTTTTATGAGCTGCTGTTAGCCCATACATATCATATGTTTCCCCATTAGCGGTAATTTTTCCATGAAAATCATCAGCATAATAAGAAGATTCCCCTATGATAACTTTTTTATTTTTGAAATTTTTAGGGGATTTTGAAGATGAATTATTTTTTGGTAAATAATTTCCAGAACCATATCTTGGTGAGGAAGTGCAACTCAAAAAAAATAAAATTAAAATTATTTTAAAAATAAAATATTTATTTTCACTAAAAATTTTCATCAACAATACTACCAATCTTCCAAGGTTTAAATGATACCGTTCCAAGTGATATATGATTTGCACCTAAATTTATATAATTATTTACATCAGCTATTGAGTCTACTCCACCACCAGCGATAATTTCAATTTTATCACCCCAGTTTTTCCTTATCAATTTAATTAATTTTTGAACGTAAGGTTTTAATGGTTTTCCTGAAAGACCTCCATGAACAACAGGTAATGTGTTACAACAATGAATTTGACTGAAACCAAGATCATTAATCAAGTATTTTAATTCATCAAGTGTAGTATGAGGAGAAACTTTAGCAATACACCAATTTTTATTTTTTGATTTTTTAGATGTAAAAAGTTTTAAATCGTCAGAAGTAAATAAATTTGATTTTTCATCAAGATTAGGACAACTCAAATTAATTTCAACATTTATATCATCCCCAACTATTTGATATAATTTTGACCAATCAGATCTATTAATTGCTGCTATAGATAAAATTTCTCTACTAACAGTTTTACTCAAACCAGTTTTAACTCCTGGATTAGGAAGTCCTAATTTATTTACCCAACCATCTTTTTTAAAATCATATCTTAATGTTGTTATGATTTTATAAATTCTTTTTAAAAAAGTTGCTCTACTATCTAAAGTCCATGTGCCAGTTACAGGAATGACATTATTTTTTCCAGTGAACTTTAAATAATTTCCAAACGGGGCTGCAATAAAAAATTTCATAACAAATTAATCATTTTTAATAGATATTGAATCTGGTAAAATAGTAGAAGCTTTATCCATTACAACCAATCGTTTTGATGCAAAAATAGCTTGATCAGATAAAGGGTGATTTTCTTTAAGTTGTTTATAATAAGAATAGGCAGAGTGAAAATCATTTAAATTAAAATCATAAATATATGCAATTGATAAAATAATTGATGAATAATATGAAGTTTTTGGAAAATCTTCCAATATTTTTTTATAAAGATTAATTGCTTCAGCTGGATTTTGATTTATAAAAATTTCAGCATTTAACATTCTTTCTCCTGCTAAGTCTTGTATTTCTAAGCCAATTGAATTTGATATAAATCTACTATAATCTGTATCAGAATAATCTTTTAATAATTTATCTCTTATATCAATTCTAAGTTTGTTATTAGAAATTTTTTGATATAAATGATACAAAGAAAAAAGAGATTTTGGTGAAAAGGATGAATTGGGATAATCATTAACTATTATATTAAAATAATTAATCCCATCATTAATATGATTAAATCTAAAAGCTTCAATTTCAGCAATACTGTAATAAAAAAAAGATATTTTATTATGAATTGTTTCATTTGTAAGATTTTTAACATTAGTTGAGTCAGTTTTAATAAAAGCTTTATATATATTTATTGAATCATTATAAGATTCAACTAAATTAATTTCATTTATTCTTGACTTTGATGTTGAAATATAAATTGAAGATGGAAATTCTAATTCAACATTTTCATACATTTTTTTTGCTTTAGAATAATTTTTTTCAATATCTAAAGAGTAATTCCCAATATTGAAATATGCCTCGGCTGAAAATATTGTTTTAGGGTATTTTTCAGTTATTTGCCGGAAAACATCAATGGATTCATTTAATTTATTTTGAGTTAAAAGGAGATTTGCTAACTCTAGAAGTAGTTCAGCATTGATAGATTCAAATTTTTCATTATTAACAAGAGATTCTATTATAAGAGCTGCTTCATCCCATTTTTTCAATTCTCTGAGAATCCTTATAACCATAATGTTAGAATATTGATTAATTTTTATTGAAGGATGAAAGTTAGCAGTTTTCTTAAAATTTTCAAGAGCTATATCATATTTTTTTTCATTGTAAGCTTTTTCTGCTATTAAATAACTAGCTTTCATTCTACTTGACCTATCTTTTGCAATTAGAGCACGTTGGTTTAAATAATAGAGAGAAGAATCAATAATATTTGTTTCTTGATATATTTCTGCTAAAGAAAGATAAGCTGTTAATAAAATAGATTGTTCCTCATTTTTTTTGAGAGATTTTGAATTATAAATTATCTCTTTTATATCTTTAATAATTTTCTTGTCATTAAGAATATACCAATCTGACTTAAGCTTCCATAATTCAGATTCAATAATTTGTAAATTATTCAAATTAAAAGAAGATAATTTTTCGAGTGTTGATTTTGATAAAACATATTCGTTTTTATAAAAATGAGCTTTAGATTTTAAAAATAAAGCGGATGGTACAAATTTTGATTCTGGGTAATTTTCAATAACAACATTACATCTTTCGATAGTTTTGTTAAACAGATCAATAATTGAACTTGATAAATCTTCACCATCTTTTAAATCAAGAATTTGAGATTGTGCTTGATCATAAAATTCATTTGCATTGTGAAAATAATTAAAATAAGCACAACCTGAAGAGATTATAAGATAAAAGGTTAAAATTAATTTTAAATAAATAAATTTTTTTGTCATTTTTAATAAATTAATTAATCAATTCTAAATAAATAATTATTTTTGTCTAAAACTAAACATAAATTAACCCCTAAAACTTAAACTAATGAAAAGTTATTTTATTTTAACAATTTTAATATTTAATTTTCTGTTTTCACAAGAACCAGATTCTATTTCATATTCAAATAATGATACTGGATATGTGCAAATCAATACAGATTCAATTGGACTTAATTTATACATCGATGATATTTTAGTGGGACAATCTCCATTAAATGATCCAATTCCAGTAAAAACAGGATTTCATAATGTAACTTATATTGAACCGAATTATATTACTGCTCTTAAAGAACATTTTTCTGAAGATGAAATAAATTTTTTACTAAAAGAATCAACAAAAAAAATATATGTGTCTAAAAATAAAACAGTTTTTGTCAATCTTTGGTGGAAAACTTATGAAGATAAAATAAAAAATAGAAAAAAAATGAAATGGATTAGAACTGGCCTTAGTTCAATTATAATTTCAATTTTAATTATTTTAAATTCTTAAAAATACAACTTTCAGTAGATAATATTTAATTCGTAATTTATAGTATGAAAGAATTTGAAACTTTTGATACACCGATAGAATTTAATCCTGATTACGATTGGCCTGAAGAGGGTACAGAATTAGATTGTCCAAAATGTGATAATCAATTGACTCTCAATATAAAAAGAAGCGATTACAAAGGAAAACCATGGTGGTGTGGGAAATGTCGCTGGCAGTTTTCTAATGAAGAAGCTACAAAATAGATAATCATTCAATAAATTAATTTGGAGTTAAATAATGCTTAAGATTGGCCCCTTTAGAGGATATTATTATAATACAAATATAATTAAAAATTTATCAGATGTAATAGCACCCCCATATGACGTCGTAAACAAAGAAGAAAGAGAAGTTTTAGCTAATAGATCTAAATTCAATTTTATAAAAATGACTCTTCCTTCAAATTATGATCCAAGCAATAGTTCCAATGAGAAATTTTATTCTGAAGCAAAACAAAGATGGAATAATTGGAAAAAAAATGATATTATTTCTCTATCCAAACCATCAATATGGCTACTTAAAGAATCATATGTTTCAAAAAATAATGAACATTTAACCAGGTCTGGTTTCATGGCATCATTAGATGTTACTAATGACTCAGATAAATTTGTTTTAAGACATGAGAGAACACATCAGGCTCCAAAAATGGACAGAGTAAATTTATACAAATCAACTCTTTCAAATTTAAGTCCTTTGTTTTTTATTTACCAAGATGATCAAGAACAAACAAAAGAGTTTATAAATCACTTTAATAAAATGAATATAAAGTCAGCTATTTTTGATCATAGAGGAAAAGTTAATTTAGAACTATTGAGATCTTCAGATATTGATTTCATAAAAAAATTTAGCAATTCATTTGAGGGTAAATATGCATTGATCGCTGATGGTCACCATAGATATGCAGCATCTAGAATACTTGATCAAGAAAATACTTCTCCAAATATTAACACATCATCTTTAATGGGTTACCTAGTACCTTCATCAACTCCAGGTTTAATTGTTGAAGCCACTCATAGGGCAATATTTAAATTAAATAATTTTGATGAAGAACTATTTATAAATAAGATTAATGAATTTTTTGCAATTGATTCTGATTTAACTAATTCATCATTTTCTATTCACACTAAACTTAAAGGTGAAATTAAATTAACACCAACCCAAGATACTATTAAACTTGTTGAGTCAATTGTTAAAAATGAATTTTTATCAAAAATTCCAGTTGTAATTTTAGAAGAAATAATTTTAAAAAAAATTACCGGAATGAATTCTCAAAATATTAGCCACAGAACAAACCTAAAATACTTTCAAGATAAAAATCTTTGCTCCAAAGAATTAAATAATAATAATTGGAATTATGCTATAACCGTACCTCCATTGTCAGTTGACGAAATTTTTAAAGTAACAAAATCTGGAGCAATTTTTCCTCAAAAATCAACATATTTTTATCCAAAAGCACCAACAGGCCTTGTAATGAGATCTATGGAGAAATAATTATGTCAAAAAAACCCAAACTTTATATACCAGGACCAACTCACGTTCAAAATGAAGTATTATCATCGTTAAGTGATTATCCTATTGGACACAGATCTAAAGAATTTTCAATTCTATATGATGAAATAATGAAACCACTCAGTGAATTATTATTTACTAATAATAGAATATATTTAAGCACAAGTTCAGCTACTGGTTTGTGGGAAGCAGCTGTAAGAAATTCAGTACAAAAAAAATGTGTGAACTTTGTATGTGGTGCATTTTCTAAAAAATGGCATGACATCACAACAATGTCGGGTTTAGAAGCTGATATGATTTCAGTTGATTTAGGAAAACCAATAACACCTGAAATTGTAGATGATGCATTATCTTCTGGTAAATATGATGTAATGACTTATGTTCATAATGAAACTTCAACAGGACTAATGAATCCATTAGAAGATGTGGCTGAAGTAATGAAAAAATATCCTGATGTTTTATTTTTAGTAGATGCTGTAAGTTCACTTACGTCTGTAAAAATTGAAGTCGATAAATTGGGAATAGATCTAATTCTTGCAAGTGTTCAAAAAGGGTTTTCCCTTCCACCTGGATTTTCATTTTGTACAGTTTCTAATAAATTATTAGAAGCTAGCAAGAAATGTAAAAACAAGGGTTATTATTTTGACTTTGAAGTTTTTGAAAAATATGCTTTAAAATCTCAAACCCCTTCTACCCCATCTATTCCACATATGTTTGCTATGAAAACCCAACTTAAAAAAATATTTGAAGAAGGTTTAGAAAATAGATTTTCAAGACATATACAAATGGCTAATAAAATGAGGAAATGGGCTATTGATAAAGGTTTCGGATTATTTCCTGAAGAAGGTTATTATTCAGAAACATTAACATGTATAAAGAATGATTTAAATATTGATGTGAATGATTTTCAAAGAAAACTTTTAGAAAAAGGTTATATGATATCAGGTGGATATGGACCTCTTAAAGGTAAAAATTTTAGAGTTTCTCATATGGGAGATATTAATATGGAAGATGTTAATGAAATTATAGAGGTTATGGACCAAACATTAGAGGAAATGTAATGAATAAAGTTTTAGTAACTGACCCAATATCAGAAGAAGGAAAAAAAATTCTTCTTGAATCTTCAATTGAAGTAATTGATGCCTCAGATAAAAATTTAGAAGATATTGATTTAACTCAAATAAATGGTTGGATTATTAGAAGTGGAACCACGATTACATCCGATTTAATAAAAAAAGCAACAAATTTAAAAGTAATAGGTAGAGCAGGGGTTGGTGTTGACAATATTGATATTAATGCTGCAACTCTTAATGGCGTATTAGTAATGAATACTCCTGATGCAAATACAATTTCTGCTGCAGAGCATACAATTGCTTTATTATTATCTTTATCAAGAAATGTACATGAAGGATATCATGCTATGGTTCATGGAAGATGGGATAGACATAAATTTATAGGTTCAGAGCTACAAAATAAATCTATAGGTATTGTAGGGCTTGGTAAAATTGGAACTGAAGTAATTAAAAGATTACACGCTTTTGATATGAAAATTTTGGGTTATGACCCATATGTTAAAAAAGGAAGCTACGAATTAGATTATGTAGAAATTATTGAAGAACTGGATGAATTATGCAAAGAGAGTGATTACATTAGTATCCATATTCCTAGAACTAAGAAAACAACAGGTTTGTTTAACATAGAAAAATTTAAATTAATGAAACCTAGTGCTAGAATAATCAATTGTTCTAGGGGAGGCATTATTGATGAAGTTGACCTTTTTAAAGCCTTAGAAGATAATATAATTGGCGGTGCAGCTCTAGATGTTTTTAATGAGGAACCAGTCAAAGATATTCCTTTGTTAAAGGCTAAAAATATACTTTATACACCACATTTAGGTGCTTCAACACAAGAAGCTAAACAGGGAGTTTCAACAACTATTTGCGAAAGTATTAGAGATTATCTAAATGAACAAAAGATTGGTAGTGCTATTAACATTCCAATAACTGATATGAGCATATTAAAATCTTTAGAGCCACATTTAAACTTAGCAGAAAAACTTGGAATATTTATGCAACAACTAGCAAATCCTCCAATTGATACAATGTCAATATCGACAGGTGGATCATTAAAAGATGTCAATATTATAACATTAGCTTTTTTAAAAGGTTTTTTTAAAAATATTCATGATGAAAATGTAAACTATATTAATGCTTCAGCTGTAGCTGAAAAAGCAGGTATTCTTTTTGATGAAACATATAGTCATAAAAAAATTAACTATGATAATGAAATCTCTGTAACAATAAATAATACAATTACAATTAAAGGAAGTTTGTTTGATGGTTCTTTACCAAGAATCGTCCAGATAGATGGTTTTGATCTTGATCTTGTTCCAGATGGAAAATTCATACTCATGTATAATAGAGATGTACCTGGTGTTATTGGAAAAGTTGGTTCACTTTTAGGAAAGCTAAACATTAATATTGATGGATATTACAATTCTACAAATAAAAATACGGAAAACAAAAGCGCTATTGGTCTCGTTAAAATTCATTCGAATCCAAACCAATCTATTCTTGATCAGATAATAGCATTTGAAGAAGTAATATCAGCTCATATAATTTCACTTGATTAAAAACTTTCTGATGAAAAATCAGATTGTTTTTTTATTTTTATTTTTTACACCTTTTAATACTTACTCACAAACCATTCCTGGTATTAACAATCTAATTGACAACAATCTAGATTTATTAAAAAATAAAAATATTGGTTTTATTACAAACCATTCTGGATTAACTAAAGAAGGTGAAAAATCTTGGAAAGCTTTAAATGATTTAAATAATATTACAATAAGTAAACTTTTTTCCCCAGAGCATGGTTTTTTAGGTGAATTTGCTGATGGCGAAAAAATAGATTATGTTAAAATAGATTCATTACCAAAACTTTATAGTCTTTATGGGAAAACAAGAAAGCCAACTTCAGAAATGTTTTCTGAGTTAGATTTAATTATTTATGATATTCAAGATGTTGGAGCACGTTTTTATACTTACATCTCTACTTTAGGTTATTGCATGGAAAAAGCTGCAGAAATGAATATTGATTTTATTGTTTTAGATAGACCAAATCCACTCTCCGGAAATTTAATTTCAGGACCTATTCTTGACATGAACTATTCATCTTTTATAGGAATGTATCCAATTCCCTCTTTATATGGGCTAACAATCGGAGAATTAGCTAAAATGATAGTAGATATGGGTTGGATAAAAAAAAATCCGAAATTGACCGTTATTCCAATGAAGAATTGGTCAAGAAATTTTTTCTATAATGATACTGAACTTTCATGGGTTCCTCCATCACCTAATATTCCAGACCTAGAAACTGCCATTATTTATCCAGCTACTGTATTGTTTGAAGCAACAAATATTTCTGAAGGTCGTGGCACATCAAAACCTTTCAAAACTTTTGGTGCACCTTGGATAGACAATAAAAAACTATTAAGAGAGCTAAATAAATTAAACTTAAAATCTGTAAAGTTTAAAAAAACTAGCTTTACTCCCATTGAAATTCAAGGAAAAGCTGTTAATCCTAAATATTTAAATAGTAAATGTTTTGGAATAGAAATAACTATAACAGATAAATATAGTTACGATCCTGTTTTTATCAATTTAAATTTAATAAAAACAATTAATGATTTATTTCCAGATAATCTTATTATCAATGAAAAGAGAATGAGTCAATTACTAGGTTTAGAAAAACTCAATATATATTCTAAAAAAACACAGTTAAATAAAATTGATGAGTTTAAAAATATCTCAAAATCTTTTTATATATATTAATCATCAACTTTTGTTTTAGGATTTCTAATCCAGGATCTTCTCTCTTCAAAAACTTTTATTCTTAAATCTGCCCATTCATTAATTATTTCAGTTATAATGTTTTTTTTATCTTCTGAAAAATTTTTATTTACTTCTTCTAGTAGTTCTGATTTTACTTTTTGAACTTCTCCATAAGAAACATATTTTTCATCGGCCCATGACTGTTTTTTATCTTTTGCTATCTTTTTCTCTTCATCAATGTTTTCAATATTTTTCTTTGTGACAAAATAAAATATCAAAACAAATATTAATACTGGGATAAATAAATATATTAAATCCATATATTAAACTCCTATATTGAAAGATTTATTCCCAAGATTGGCATCCAGTAAAATAATATCATTGATATAATTACAATCAATGCCAATGGCCAAGCCAATGTTGCACCTCTCATAAAGTCTTTAGCTCCAAGCAGACCACTACTGTAAACAATAGAACTTGCAGGTGTACCAATAACCAACCAAAAAGCAGCAGATGTAGAAATTGCAAGAGCAATACCAATCAAAATTGGATTTGTTCCAGAAGCTTCTGCCATTCCAATTATGACAGGCCCTATGACTGCAACAGTAGCTCCTGCACTCATTAGATTTGTTAAACTTGCTCCAACCAAAACCACAAGAACAACTAATGGAATACCTGAATCCATACCCAATGGTTCCACTAAACTAATAATTGATGATGCTAACCAACCAGCAGCACCTGTAGATTTAAAAACTGAACCAAGGGAAATAGCACCTGCATATAAAACCACAACCCCCCAACTTATACCCTCTTCATAATCTTTCCAGGTTGTAAGACCTAGAAGCATATATGTCACAGCTCCTGTAATGGCAATACCACCTAAACCTAATGAAAATCCAAATAAATTTTTTATAACAGTTTTATCAGTTATCCACATAAAAATGACAATTGCCATAATAAAAATAACCAACCATTGTTTAAAGGTCATTTTACCGTATTTTTCGAGATCTGACCTTAAGACAGAAACAGCATTTGAAAGATCACTTACTTCAGGCTTAAATAATAATGGAAGTATTAATGACATAACTATAATCATAAATAAAGTATAAGAAACTCCCATAGAAAGCCATTGAACAAAAGAAACATCAAATCCAGCATCCGATAAAAAACCAATCATGATTGCATTTCTTGCTCCACCAGTTGGAGACATTGGACCCCCTATCATACATCCAAAAGCTATTGTAAGAGTTAATAATTTCCCCAAGTTAGGACAATTGATATCTTTGCTAGTTAAAGTAAATAAAGCAACTGCTATTGGAAGATACATCCCTGCTACAGCATGCTCTCCAATAAATGCAGCAGGAATTGATGTTCCAATTAACAATCCAATTATAATTCTTCTTATATTAGTTCCTGACAAGCTTAAAACAAGCATTCCAATTCTTTTATCGATACCGTATTTAATAAAGGTGGCTCCTAAAGCAAGAGAACCAGCAATAAACCAAACTGCATCATGAGCATATGTTGATACTATTTTTGATGGTTCTGTTACACCAAAAAATAATTGGACCAAACCAATAGATAAGGCAACAGCGGGTAATGGTACAGCTTCAGTTGCAAAAAAAATAACACACATTGAGAGAAGCGCTATGATTACTTGAATATTAAATGAAATTTTATCAACAGAGGTGTTATTTTGTGCTTCAATAGATAAATTATTAAATACAATAGATGCTTGATCTATCATGGATTGTGGAGTTGGAATGAATATCAAAAATAAAAAAAGGAAAACTCCAATACCCAACCATGTAAAGTCTGTTTTTTTAGCAAAACCTGTAGCTTTTTTTTCATTTTCAGACAATTATATCAATCTTCCATTTTCCAAAAGGCAATACCACCGGCTTGTTTACCGATATCTATTTGATCAATTAATTTTAATTTATGCAAATCAATAACATCAACAGTACCAGGTTGAGCGCCGATTCCTTCAACTGTCACAAATGCGAATTTACTATCCGGAGAAATTACCACACCATGTGATACCTTTCTTGAATTTTTAATTTTTGCTAATTCAACTCCTTTATTAAGATCCCAAATACCTGTATATCCATCAGGCTTATAAGTAACAACCAAATATTTTCCATCATTTGATACTTCACAATTATAAGGACCTTTTGATGTAGAGAATTTTCTTTGAATAGACCATCTTTTAATATTAATCTCTAAAACTTCATTTGTACCACTATTTACAACATAAAGTAATTTATCATCAGGACTAGGATAAACCCAAGTAGGCATTGACTTATCCATGGTATGATTTGAATGATTATGATGCATTTTTGAGTGATGAGACATCTTTGAATTTGAAGTTTTTAATTTTCGAGTTATCACCATTTCTGCAGCATCTAATTCAAATAATTCACCTGACATCATTGCAACTGAATAATGCTTTAAACCATTGTTAAGCAATCTAGATCCATGTGGCATAATACCCGTTTCTACTCTTTCAATTTCGATCATCATTTCAGGGTCTACAATGGAAACTGAACTTATCTGATCATGACCACCATGAAGATTGAAGTTAACAATATATAATAAACCTGTAGATCTTGAAACTTCTAATGTTGCTGGGAAAAAACCTAACTCAACTTGACCTACAATATTATTAGTTTTAGTTGAGTATTTATATAATATACCATTAGGTGAACCAACGCCATGAGCCATTGATAAATACCAATAATCGCCATCCGGGGAAATATTAATTCCATGAGGACCTTCAATTTCAACAGGATTAACACCAACTTTTATGTTTTCATGTAAATAAATTTTATTTCCATCAAACCTTAATAATGACACTTCATCTTCAGATTCTGCAGTTGCATAAATGAAATAATTTTTTGAAAAGATTATTGATTGAACTAATAAAAAAACTAAAATTGATTTATTTGTCTTTATCTTCATCCTCATCTTTGCTTTTAAATTTAACTGCATAAAGACCGCTATTCATATCTGAGAAAAAAATCAAATCCTTGTATGGCATTGCACCCCATGCCATAGGAGACCAAGCAACCTTTCCATCAATATGACCAGAGTAAAATGAAGCAATTTCCCTACCCTGCTTATACAAATCACCCATCAATTCTCCAGAAATATCAAGAACTCTTAAACCTGCTTGATAATAAGCAGCTATTAAGGTATCACCCGTAATCCAAAAATTGTGAGTTCCGGCTTCAGGTACTTGATAAATTGCTTCTTCTATCGGATTTTCAGGGTCATCAAAATTAATAAAATGAAAACCTCCAGATGGATTTGAAGGTTCAATATTTGGAGCTCCAATATTTCCTCTAGGAAATTTTTCATCCCCCCCAACAATAAAAAACTTGCCTGTTGATTCACTTAAAAAAGGAAATGCAGCATGATTTCTTTTTGAAGGGTCGCTAAGACTTGCGATTGGTTTTGGATTTGAAGGGCTTCCTTTACCAGATAATGATAACAAAGGATGGTTTTTAATAGATGAATTATCAATTTCTCCTAAATTAGGTCCTCCGATATCAATTGCATGGACACCATCAAGCCAATTCGATGAATAGGCAATACCATCAATCACCCAAACGTCATGAATATGATGGCCAGCAGTATTTAATTCATAAACACCAACTCTTTTTGGGTTTTTAGGATCATCAATATTAATTATATCAAATTTTCTACCATTATTAACTGAATAAACATGATTCTCATAAATAAAGGCATTATGTACTCCACCAGTCATATCATCATCGTATTCATAGTGAATTTTGACATTAAAGGGATCAATAACATCTAATATTACAAACCCATTTTTCCTATTTGAAGCTCCTTCCCTAGTAATAACTCCAATTTTACCATCAGATGAAATTTTAACATCATTTACAGTCCTGGCATCAACTTTAACTGTATCTATGCAAATTATATTGGATGGATCTGTAACATCCCAAAAATATGCATGACCATCACCAGACCATGTTCCAGTAACTGCAAAATCTTTACCCACATGCTCTCCAATTCCAGGCCAAACCCAAAGATCAGATGTAAAGTAATCAGGCACTAAACCGATTCCAACTAGATCTAAATCAGATCGAATATTTCTAGGAAGAACATTTATTGATGTATAGGATGAAACACCACCAGTTGTTGCGTAAATTGTGTATACTCCAGGAGTTTCTGCAACAAATTTTCCATCATGAGAAATTTCAGCTGAAGCAGGCAAACCGAAATCTAACGCATCAAATCTATATTCATCACCTAAAACATTAACTTTTGCAAAATCCTTACCATATGGAATTTCAGGTGTTCTTGAAAAATGAATTCTTCCGTTAAATGAAAAGGATATTGGAACATTATCTATTAATTTTTTATTTGCATCAAAAGCTTTAACATCAAAACTTACAACATCACCTGTCTTGACCAACTTTTTCGATGAGGTTAATTCAATCTTATTAATTGGGTTTTTTAATATTTTTAATTTTAATTTTGATTGAATATTTTCAGCTGTAGCTGTGATAGTCAAATTACCATCTTTTAATAGATGTAAATTTCCAAAATCATCTATATTAGCAATTTTCTTATTATTAGTTTTTAATTTAACAATAACATCTTCCCTTAAAATACCAGCCTTATCAATTACTTGAGGTTTTAAAATTAATGTAGTACCAGAAAACAATGTTTTAGGTGCATTCATTTCAACCCTATCAATTTCAGGGAATGGAACAGTAATTTTTATTTTATCGTATTTTCTATCAGGACGATTAACTGTTATACTTCTTACGTTAAGTGTTAAATCACCTGACTTAACTGCATTTATTTTGACATTTACAGAATGTTCTCCACCACTCATTCTTGGGGTGGTTTTTAATGACCCTCTATCAAGACCATATACATAAAACGGATTGTTCGAAGGTTCATCTCTGTTGAAAATTGAAATTCTTACAATTGCTGAGTCACCTACATTTAACACAAGAGAATCAGGCTCAAATTTAAAATGAAGTGAATCTGATATCGTTGCAGTGGAATCGTTTGTTAAAGCAAAAGAAATGTTAAAGTTTAAAAGAAAAAAAGCGATAATTAATTTTTTCATGTATATGACCTTACTTGTATAATTCATTATAATTAACAATTTATTAAAACTTTTATATTAGTTCATCAAATTTTTTATTGAAAACTAAATAAAATTTTATACATTATTTAGCAAATTTGAGGGCTAAATGAAAAAATCAACCTATTTTCAAAAACTTGCTTTAATTAACATTATAATTGCTTTCTTTTTTTTACAATCTTGTTCACAAAAAAATACGATTTCTACTGAAAATTGGATATCATTATTTAATGGAAAAGATTTAAAAGAATGGACACCAAAATTTACAGGATATGAATTAGGTTTAAATTTAAAATCAACCTTTAGAGTCGAAGATAATTTATTAACAATCAATTATGAAAATTGGGATGAATTTAATGGCGAATTTGGCCATTTATTCTATAAGGATAAATTTTCTCATTATAAAATAAGAGCAAAATATAGATTTTTTGGTAATCAGCTTAAAAACGGTCCAGATTGGGCTTACAGAAATAATGGATTAATGCTTCATTGTCAAAATCCAAAAACCATACTCAATGACCAAGAATTTCCTATTTCAATTGAAGCACAATTATTAGGTGGAAATGGTGTTGACCAAAGAAACACATTGAATTTGTGCAGTTGTGGAACCGATGTAATTTATAAAAATCAATTTCATACTGATCATTGCACTAATTCTTCCTCAAAAACATATCATGGAGATGATTGGGTAAAAGTTGAAATTTTAGTTCTTGGCGATTCACTTTTTAAACATTTTGAAGAAAATGGAAAAAATGTAATTGAATATTCAAAACCTACAGTTACAGGTGATTATGGTTCTCTAGAATATTACCCTGCAGGAAGTAGAGTAATGGATGGCTATATAGGGATTCAAGCAGAAACTCATCCAACTCAATTTGAATACATTGAAGTATTAAATTTATCAGGCTGTATGGATAAAAAAGCTAGGAATTACAAAGATTATTATGTTAATCCAAATGATAATGAATGTGAGTATTAAAAATAAAATAGTCTTATTTTGTTTTTTTATTTTTTTATCATGCAATCAATTAACAACAATAGATTCATTAAATATGAATAATGATGATCCTGTTTTTTTAACATCTTTTAAAAATAATACTAATTTACCCCCTACTGAACTACATAAAGACTTTAACTTGTCGTTGTGGGCTAATGATTCATTAGCAATGGACCCTATAGCTTTAAGTATAGATCAATCTACGGGAAATATTTATTATACAAGAGGTAAAAGAATAACTCATTCTGAGTTTGATATACGAGATCATCCCAACTGGATGACTAAATCAATTTCTTGGGAAACAATTGAAGATAGAAAACAATTTCTTAGAGAAAATTTTTCACAGGAAAATGAAGAAGGTAAAAAATTTTTAAAAGATTTAAATAATGACGGTAGATTAGACTGGAAAGATTTAACGGTTGAAAAAGAACAAATTTGGGTTGTTTCTGACTCTGATATTGACGGAATAGCAGACAAATCATCTCTTTATATTGAAGATTTTAATGAAGAAATATCAGATTTAGCTAATGGTGTAGAATTTTATGATGATGAAGTATTTATATCAGTTGCTCCTGATATGTGGAGGACAAAAGATACAAATTCTGATGGGAAAGCTGACTTTAAAGAATCATTAAGCAGAGGATATGGTGTTCATATAGGATTTGGTGCTCATGGTATGTCGGGTGCTAAAATTGGACCAGATGGAAGAATTTGGTGGTCTATTGGTGATATTGGTATGAATGTTATTGATAAAGAAAATAAAAGATGGAAATATCCAAATCAAGGGGTTATAGTAAGGTCTGAAATTGATGGAACTGGATTTGAAGTATATTCTGCGGGGCTAAGAAATACTCATGAGTTTGATTTTGATAAATTTGGTAATTTAATTGCCATTGATAATGATGCAGATCATGATGGAGAGAGAGAACGTTTAGTACATTTAATAAATGGATCTGATGGTGGATGGAGAATAAACTGGCAATTTGGAAAGTATAATGACCCAAAAAATA
>sequence13
AAAACTAAAAATTTTTTAAAATTATTATCATCTCTAGGAATCGAAAATAAAAAGGTAGTTTTTTTCCCAGCAAAAAATTTAGATGTGACTTTTAAATCAGCTAGAAATCTACCTAATGTGACAGTTGTTGAATCAAAAAATGCTTCAACATATGATTTATTAGATGGTGATGTGCTTTTATTTGATAAAGAAGGTATAAAAAACCTTAACAAACAATTAGAGGTTTAAATATTTATTATGAATATAAATGAAATATTAATAAGGCCAATTTTGTCTGAAAAAATGAATAAACTTGAGGTTAAAGAACGAAATAAATCATATGCTTTTAAAGTAAATGTTAATGCTAACAAAATTGAAATTAAAAATGCCGTTGAAAACAAGTTTGATGTTAAAGTGATGAAAGTTAGAACTATGAATTTTTTTGGTAAAAGTAAGCAAATGACTGTAAAAAGCGGTGGTAGAGCTATTAGAACCTCTGGTAAAAAATCTAATTGGAAAAAAGCTATTGTTTCATTGATGGATGGTGAATCTATTGATTTTTATTCCTCTTATGGTGGGGATAGTTAAAAATGAGTGTAAGAAATTTAAAGCCAACTACACCTGGCCAGCGTCAAAAAAGTATTTCAAATTTTGATGATATTACAACTAACGTCCCAGAAAAATCTTTATTAACTAAAATTAATAAGACTGGTGGAAGAAATAATAAGGGAAGGCTTACAAGTAGAAGAAGAGGTGGGGGGCATAAGCGTCAGTATCGAATAATTGATTTTAAAAGAAATAAATTTGATATTCCTGCTAAGGTAGCAACAATAGAATATGATCCAAATAGATCCGCGAGAATCGCATTACTTCATTATGTAGATGGTGAAAAAAGGTATATTATTGCGCCTTTTGGTATAAAAGTTGGTGACGAAATAATTTCATCATTGAAAAATGCACCTATCAAAATTGGAAATGCTATGCCTTTACATAAAATTCCAGCTGGACAAATAGTTCATAATATTGAGTTAATTCCTGGAAAAGGGTCGCAAATGGTTAGAAGTGCTGGTTTGGGAGCTCAAGTTTTAGCAAAAGATTTAAATATGGTGACTATTAAATTGCCTTCAGGAGAGACTAGAATGTTTTCTGAAAATTGTTTAGCAACTATTGGCGAGATTGGAAATAAAAGCCATGAGACTATTAAGCTTGGAAAAGCCGGAAGGTCAAGGTGGTTAGGTAAAAGACCAAAAGTTAGAGGTGTTGCCATGAACCCAGTAGATCATCCCATGGGAGGTGGTGAAGGTAAAAGTTCTGGGGGTCATCATCCTACAACTCCTTGGGGTAAACCCACTAAAGGGTATAAAACTCGTAAAAAAAATAATCCATCCAATCGATATATTACAAAAAGGAGAAAATAAATTATGGCTAGATCCATAAAAAAAGGCCCATATATTGATGAGAAATTATTAAAGAAAATTATGAATATGGAAAAAGAAGGTAAGAAAAAGGTTATTAAAACTTGGTCAAGAAGGTCAATTATTGTACCTGAATTTGTTGGTCACACTATTGCAATTCATAATGGCAAACAATTTATTCCAGTTTTTATATCTGAAAATATGGTTGGGCATAAATTGGGTGAATTTTCACCAACAAGAACATTTAGAGTACATTCTGGAGATAGAAAGTAGATATGGAATCAATTGCTAAATCAAATTTTTTTAATCAATCTGCAAAAAAAGTTCGAAAAGAACTACAAGTTATTAGAGGTAAAAAAGTGGAAGTAGCTTTGAATACTCTTCAGTTTGCTCCACAAAAAGCTACAATAGTTATAGAAAAAACAATTCAATCTGCTGTAGCTAATTATTTGCAATCTGATGAAACAAATGAGCTTAATGCTGAAGGTTTATTTGTGAAAGAAGCTTATGTTGATGAAGGTCCAACTCAAAAAAGATTTAGACCTGCATCTATGGGAAGGGCTTCTCGAATTAGAAAACGAACTAGTCATTTAACTATAATATTAACTGATAAAAATAAGTAAAGGAATTAAGCTTGGGACAAAAAACGCATCCAATAGGATTTAGATTAGGAATAAATAAGCCATGGATTTCTAATTGGTATGGTGGAAAAAAATATTCTGATTATGTTGCTGAAGATATTATTTTGAGGAAGTATATAAATCAAAGACTTTCCAATGCTGGTATTTCAAGTATTTCGATTGACCGTACATCAAAAAAATTAACAATTACAATTAATACTTCAAGGCCAGGAATAGTTATTGGTAAAGGTGGAAAAGACGTTGACCAATTGAGAGAAGAAATTAAGCAATTGTCTGAAATTGAGACTCAGGTTAATGTTTCTGAAATTAAAAGGCCCGAAATGGATCCTAAATTAGTGGGTGAAAATATAGCACAACAACTTATCAAAAAAATCAGTTATAGAAGAGCAGTGAAAAAAGCAATTCAAGCAACGATGAGAATGGGTGCTGAGGGTATAAGAATTAGAGTTGCTGGTAGATTGGGAGGTGCTGATATAGCTAGAAGAGAAACTTTTATGGAAGGAAGAGTTCCACTGCAAACATTAAGGTCAGATATTAATTTTGCAATTACTGAGGCAAGAACAACATATGGTATAATAGGGTTAAAAGTTTGGATTTGTAATGGGGAGGTTTCAGGATAAATGCCGTTAGAGCCAAAAAAAGTTAAATGGAGAAGACATCATCGAGGTCGAAGAAGAGGCTTGGCTACTAAGGGTAGTCATGTTGCATTTGGGAGTTATGGAATGAAAACATTGGATGCAGGTTGGATAACAGCAAGGCAAATTGAATCTGCACGTATTGCAATTATAAGAAAAATTAGAAAACATGGTAGAATGTGGATTAGACTTTTTCCAGATAAACCAATTACAAAAAAACCTGCAGAGGTTAGAATGGGTAAAGGAAAAGGAGCCCCTGATCAATGGGTGGCAGTTGTTAAGCCTGGTAGAATTTTATTTGAGGTGGAAGGCGTTGATAAAGAGTTAGCAACTGAAGCATTTAGAGTGGCTGGTCACAAATTACCTGTTAAAATTAAAACTGTTGGAAGAAGAGAATTTTAATTATGATAAAGCAGGAAATTAAAGAAATGAGTTTAGATGAACTTAAAGTTAATTTGAAAGATAAAAAATCTCTTTTGGAAGATTTAAGATTTCAAAAAGCTTTACAACAATTAGAAAATCCCCTTCAAATTAGATTAATTAGAAAGGAAATTGCTCAAATTAAAACTTTGATTAATGAATATATTTCTGGTAAAAGAAAAATTGAGGATAATTAATTATGAGTGATAGAGGTCAAAGGCAAGTTATTGTAGGTATCGTTGTAAGCGATAAAATGCAAAAAACAGTTAAAGTGGAAGTAAAACGAAAAGTTTTACATCCCGTATATAAAAAATATATTACAAAAAAGAAAAAATTTAGTGCTGATATGGGAAAGTTTGAATGTTCAAATGGTGATAGGGTAAAAATTGTTTCATCAAAACCAATTAGTAAAACTAAAAGATGGAAAGTATATGAAATTCTCGAAAAAAATAATGAGCTTTAAATTAAGTAGTAAATAAAATGATTCAATCAGAAACAAGATTAAAAGTAGCAGATAACACAGGAGCCAAAGAGGTTTTATGTTTCAAAGTTCTTGGCGGTTCAAAAAGAAGATATGCTTCTCTTGGAGATATTATTGTAGTATCTGTTAAAAATGCCATTCCAGGTGGTATAGTTAAAAAAGGTGAAACATCAAGAGCTGTGATTGTTCGAAGTAAAAAAGAAGTTAGAAGAAAAGATGGTTCCTACGTAAGGTTTGATGATAATGCAGCTGTCTTGCTTAATAGTGCGGGTGAGCCAAAAGGAACTAGAATTTTTGGTCCTGTTGCAAGAGAGCTTAGAGATAGAGGTTATATGAAAATTGTTTCCATGGCGCCAGAGGTAATATAATGAGAATAAAAACTGGAGATATTGTTGAAGTTATATCAGGGGATGATAAAGGTAAACAGGGAAAGGTTTTAAATTTTAATCCTAAAACTCAACGAGTTCTTATTGAAGGAGTTAATTTTATTAAAAGGCATTCAAAGCCAAGTCAACAAAATCAACAAGGTGGAATTGTTGAGCGAGAGGCTTCATTGCATATTTCTAGCGTTATGTTAGTTGTGTCGGGAAATAAAACTAAGGTTGGATATAGATTTTTAGATAACGGAAAGAAAGTTAGATTTTCAAAAAAAACTAATGAAGATATAGATTCTTAAAGAAATAAAAGTATATGAATAAAAAAATCAAAGAAAATAATAATTATAAACCTAAACTAATTGATCATTATAATTTGAAGGTAATGCCTCAATTAAAAAATAATTTTAAATTAAAAAATAATTTAGAAGTACCTAAAATTCTTAAAATTTCATTAAATATTGGTTTGGGTAGTTCCAAAGATGATAAAAATGCTATGCAAAATGCAGTTAATGAGCTTACAACTATAACTGGTCAAAAAGCAGTCATAACAAAAGCAAGAAAAGCGATTTCTAATTTCAAAATAAGAATTGGTGATCCAGTAGGGGTGAGAGTTACATTGAGAAAATGGCATATGTATGAGTTTTTTGAACGTTTAATCTCTATAGCTTTGCCTAGGGTTCGAGATTTTAATGGTCTATCTACAAAGTCATTTGATGGAAGAGGTAATTATAACTTTGGTTTGAAAGAACAAATAGTATTTCCTGAAATTAACTATGATAAAATCGATAAAATTCGTGGTTTAGAAATTACAATAACAACTAATTCAAATGATGATTTAAAAACTTATTTTTTATTAAAATCAATGGGATTCCCATTCAGAAGCGATACTTTTTATGAAAAAAAATATAATGAACTTAATGAAATTAAAAATAATTAAAAGAGGAAATATATGGCACGAAAAGCTTTAATAAACAAATCGAAACTCAAACCTAAATTTTCAACCAGAGGTTATAATCGTTGTTCAATGTGCGGAAGACCTAGGGCTTATTTGAGAAGATTTGGATTGTGTCGAATGTGTTTTCGAGAATTAGCACTCAAAGGTGAGATACCTGGTGTAACAAAGGCAAGTTGGTAGTTTGAAGGGAATAATATTGTGACAATGACAGATCCTATAGCTGATTTATTAACTAGAATAAGAAATGGTTTGCATTCAGGAAAGAAATTTATTGATATGCCCTCTTCAAATTTAAAAAAACGAATACTATTTATTTTAAAAGAAGAGCACTATATTGAAAATTTTATTCTATTAAATAATCCTATTAAGAAAAAAATTAGAGTTTTTTTAAAGTATGATATTGGTGGAGAACCTGCTATAAAAAATATTAAAAGAGATAGTAAGCCTGGTAGAAGAGTGTATGTTGCAGCAGATGAAATTCCCCGTGTATTGGATGGTTTGGGAATATCAATACTAACCACGTCTAAGGGTGTAATATCAAATAAAGTCGCAAAAAAACTTAATGTTGGTGGTGAAATAATCTGCACTGTATGGTAGTGTTGGGAGAATAATTATGTCAAGAATTGGAATTAAACCTATTGAAGTCCCTGAAAATGTTAATATTTTAAAAGATAGTGATAATTTAATTACTATTACTGGTCCAAAAGGTGAGTTAAAAATGAAATTTAACCCTGATATAATTATAGGTCAGGAAGAAAGTGTTGTTAAAGTATCTCGTAAAACAGATGATAAGACACAAAAATCCCTTCATGGTACTACTAGAGCAATAATATCTAATATGATTTCTGGAGTTACAAATGGATTTTACAAAGAATTAGAATTACGAGGAGTTGGATTTACTGCTCAAATTCAGGGTCAAAGATTGAAATTAACACTAGGATTTTCTCATGATGTTTATTTTTTTCCTCCAAATGGTATTGAAATTAAAACAACAAAAAGCATGATAACTATTTCTGGTATTGATAAACAATTAGTAGGACAAGTTGCTGCTAAAATTAGATCGATAAGACCGCCAGAACCATTTAAAGGTAAGGGTATTAGATATCTTGGAGAATATGTTAGAATTAAAAAAGGTAAAACTGTTGGTGAATAATAATGAATAAAGAAATTCTAAAATTTAATCGTCGTCAAAAAAGAAGAGCAAGAAGTAAAGGTGAAATCTTAGGAACTAAATCTAGACCTAGATTAGTAGTTTATAAAAGTATTTCAAGTATATATGGCCAATTAATTGATGATATAAATAATGTAACATTAATTTCAATTTCTTCAAGGGAAAAAGGGATTGTTAAAGAAAAACTTACAAAATCTGAGGTTAGTAACAAGATTGGCAAAGAATTAGGTAAAAGAGCAACTAAGAAAAAAATTTCAAAAGTTGTTTTTGACAGAAATGGTTTTTTATATCATGGTAGAATTAAAGCTTTTGCTGATGGAGCAAGAGAGGGAGGATTAATATTTTGACAAAAGTAGATCCTATTGGTTTAGATTTAAATGAAGAGACTGTAGTTAAAATTAATAGAGTTGCTAAAGTAGTTTCCGGAGGTAGAAGATTTCGTTTTAGTGCTTTAGTTGCAATTGGTGATGGTAACGGTAATGTGGGTTTAGGGCATGGAAAAGCAAATGAAGTATTAACTGCAATTGCTAAATCAAAAGAAAATGCAAAAAAAAATTTGTTCCGTGTTCCAATTATTAAGGGAACAATTCCTCATAAAATTATTGGAAAATTTGGGGCAGCCAAAGTTATGTTAAAGCCTGCATCTCCAGGAACTGGAATTATTGCTGGGGGAGCAGTTAGGGCTTTGATTGAACAAGTTGGCATTACAGATATTCTTACTAAAAGATATGGTTCTTCAAATATTAATAATATTGTACGAGCTGTTGAGACTGCTTTAAGAGAGCTTCAGGATCCTGTTTCAGTAGCAAATAGAAGAGGTATTACTATTGGTGAGGTTTATAGATAAATGGTAAAGAAAACTAACAAATCACTTCATATTACTCAAATTAAAAGTGGAATTGGTCATAATAAAAAAGCAAAAAAAACACTTATAGCTTTAGGATTGAAAAAAATGAATCAGACAGTTATACATTCTAACACACCAATTATAAGAGGAATGATTAAAAAAATTAATTTCCTTCTGAAAGTTGAGGAATCGTCTTGAAATTAAATAGTTTAAAATCACCTTCAAGCTTTGGTAAAAATAGAAAAAGGCTTGGCAGAGGTAGAGCATCAGGGACTGGGAAAACAGCTGGAAGAGGTAATAAAGGATACCATTCAAGGTCAGGAAGTAAACAAAGACCTTGGTTTGAGGGTGGTCAAATGCCTCTTCAAAGAAGGGTTCCAAAAAGAGGTTTTTCAAATTCATTATTTAAAAAAGAATTTCAAATAATATCAATTTCAAAAATTTTGAAATTAGGTTTAAATAAAATTGATTTAGCTTTAATGATTGAAAAAAAATTAATCAAGAATACAAATAAACCTGTTAAGGTTTTGGCAAATGGAAAGATTGATAAATCTGTTGAAATTTTTGCTAATGCATTTAGTGAAAGTGCAATGAAAAAAATTGAAAAAAACGGTGGGAAAGCTCATATAATATGATTGAAAAGATAAGAAATATTTTTTCTATACCAGAGCTTAGGGATAGAATTATTTTTACTTTGTCAATTTTAATTGTAGTAAGAATTGGTGCTCATGTACCTGTTCCCGGTATAGATACAGTTGCACTAGGTGCAGCAATTCAAAATTTTCAAAATACTCTTTTTGGATTATATGATATGTTTGCTGGAGGGGCTTTTCAAAAAGCAACAATATTTGCACTTGGAATTATGCCATATATTTCAGCCTCTATCATAATTCAATTAATGGGTGTTGTTGTTCCTTATTTTCAAAGGTTGCAAAAAGAAGGTGAAGAGGGAAGAAAAAAAATAACTCAGCTTACAAGATATTTCACAGTTTTAATTGCATCTTTGCAGGGTTATAGTATTGCAATTTTTTTAGAGAATTTGCAATCAAGTGTAAATGGTTTACAAGTTGGTGTTGTACCTGATCCTGGTTTTGCATTTAGGTTGTTAACAATGATAACATTAGTCACTGGTACTATTTTTGTAATGTGGTTAGGAGAACAAATTACTGAAAGAGGGATTGGAAATGGTATTTCCTTGATTATAATGATAGGTATTGTTTCTGCCTTACCTAATGTCATTGTTACGGAAATATCATTAATACAAGAAGGTGTCAGAGGGCCGTTAACTGAAATTTTATTGTTAGGTATAATGTTTGTAATTGTTGCATTTGTGGTTTTATTAACTCAGGGTGTTAGAAAAATTCCAGTGCAATATGCTAAAAGAATTGTTGGAAGAAAAGTTTATGGTGGACAAGCTACTCATATTCCGTTGAGGGTAAATACTTCAGGTGTTATGCCTATAATTTTTGCTCAATCAATTATGTTTTTGCCAAATACAATAGCTATGTTTTTCCAAAATAATGAATTCATGCAAGGAGTGATGAGAGTATTTTCTCCTCAACATTGGGTTTATTGGTTAGTTTTTGGAACTATAATAATATTTTTTACTTATTTCTATACTGCTATTGCATTTAATCCTCAAGAAGTAGCAGATAATATGAAAAAACATGGTGGTTTTATTCCTGGTGTTAGACCTGGGAAAAAAACATCAGAGTTTATTGATAATATTTTAACGAGAGTAACTTTGCCTGGATCTTTTTTCTTAGCCTTTATTGCAATTTTTCCATTTATTTTAATGAATACAATGGATATTGGTTATGATTTAGCATCTTTTTTTGGTGGAACTGGTTTGCTTATTATAGTAGGTGTTGCTCTAGATACTCTTCAACAAATCGAATCTCATCTACTTATGAGACATTATGATGGTTTCCTTAAAAAAGGAAAAATAAGAGGAAGAAGGAGGGCATAAATTGATTCACATAAGAAATAAAGATGAAATTGGTTTAATCAAAGAAAGTAGTAGTATGGTTTTTGATGTTTTAAACTCATTGACTGAATTAATAATCCCAGGAGCTTCTCCAAAAGAGTTGGATTTATTTGCAGAAAATTTTATAAAAAATAATGGAGGTGTACCTGCTTTTAAGGGATATATGGGCTTTCCTTCTACTTTATGTATTTCTATAAACGAAGAAGTTGTTCATGGAATACCATCTGAGAGATTGTTGAAAAATGGTGATATTGTTAGTATAGATTGCGGTGTTTTTAAAAATGGGTTTTATGGTGATAGTGCTAGAACTTATCCGGTGGGAAAAATATCTAAAGAAGTGAAAAATTTACTTGATGTGACAAAAAAAAGTCTTTCATTAGGTATTAAAAGTGCAAAAGCAGGTGGTAGATTATCAGATATTGGATATGCTATTCAAACATATGTTGAAAAAAATGGTTTTTCAATTGTTAGAGATTTAGTTGGTCATGGAATTGGAGAAAATCTTCATGAAGAACCACAAATTCCAAATTATGGTAATAAAGGAGAAGGTGTAGTTTTAAAAGAAGGAATGTGTTTTGCAATAGAACCTATGGTAAATATGGGAAAAAATGAAATTTTAACTAAACAAGATGGTTGGACAATCTATACAAAAGATATGAAGCCATCTGCACATTTTGAACATACTGTTGTTGTTAGAAAAGATGGTGGCGAAATATTAAGTACCAGGTTTATTAATGAGAAAGGTTTGACATAAATTATGAAAGTTAGATCATCAGTAAAAAAAATATGTGATAAATGTAAAATTATTAAAAGAAAAGGAGTTCTACGAGTGATTTGCGTAAACCCAAAATGTAAACAAAGGCAAGGATAAGTATGGCTAGAATTTCTGGTATTGATTTACCAAGAGAAAAGAAAATTAAATTTGCTCTATGCTACATATATGGAATTGGTCAAACACTTGCTTCAAAAGTACTTGAAGATGCAAAAATTGACCCAGATATTAGAGTTAAGGATTTACAAAATAATCAGGCAACTGCAATAAGAGATGCTGTTTCAAAGCTTAAAGTAGAGGGTGAGTTAAGAACTGAAAATACTATGAATATTAAACGTTTGATGGATATTGGTTCCTACCGCGGTTTAAGACATAGAAGAAGTTTGCCGGTTCACGGGCAAAATACCAAAAATAATGCTAGAACAAGAAAAGGAAGAAAAAGAACTGTGGGTTTAGGTAAAAAAACTGTAGGTAAAAAAGGATAAAAAAAGAACACATGGCTAAAATTCAAAGAAAAAAGAAAAAAAAAGTTTTAATGTCTGATGAGGGAATGGCTCATATCAAAGCAACTTTTAATAATACAATTATTACTTTAACTGATATAAATGGTAATGTTATTTCTTGGGCAAGTTCTGGAGCATTAGGTTTTAAAGGATCAAGGAAAAGCACACCTTTTGCTGCAGGTCAAGCTTCAGAAAAAGCAGCATTAGAAGCTATTGAATTAGGATTGAAAAAAGTTAAAGTAGAAGTTAAAGGACCCGGTTCAGGAAGAGAATCTGCGGTTAGATCTTTAGGGGTTGCAGGTCTCGAAGTTGTTTCGATTAAAGATGTGACACCAATTCCTCATAATGGTTGTCGTCCATCAAAAAGAAGAAGAGTTTAAGGAATAATTATGGCAAGATATATTGGACCAAAAGCAAAAATTGCAAGAAAATTTGGTGAAAATATTTTTGGTAATTCTAAAATTTCAAAAATATTAGAAAAAAAGAACTACTCTCCAGGACAGCATGGTCCAACAAAGCAAAGAAGAAGTTCTAATTATGGTTTACAACTTCGAGAGAAGCAAAAAATCAAACATATGTATGGTGTTTTAGAAAGACAATTTAGAAAATTTTTTAAGAGGTCAGATAGAATGGATGGAGAAACAGGGTTAAATCTTTTACAATTATTAGAAAGAAGATTAGATAATGTTGTTTATAGAATGGGTTTTGCTCCTACGAGATCTGCAGCAAGACAATTAGTCTCACATAAACATTTTAAAGTGAATGGAGTTTCTGTAAACATACCTTCATATATTGTTAAAATAAATGATGAAATTAGTATTCGAGACAAAAGTAAAAAGCTTGCTATTGTTCATGATTCAGTTAAGCAAGTTAAAGGTGATTTAAGTTCTTCTTGGTTATCATTAGACAAAGCTTCTTTGTCTGGAATAATTACTAAACTTCCTGAAAAAGAAGATTTTGATCCAACAATAAAAGTCCAAATGGTAGTAGAGCTATACTCTAAATAGTTTTCAGAAAGGGAAAAAAATAATGAGTTCTAATAATGTTCAATTAAAATTTAAACTAGATAAAAAAACAAGAACAAATTTCTATGGTTCATTTACTCTTGAACCTCTAGAAAGAGGAGCAGGTATAACAGTTGGCAATGCAATGAGACGAGTTCTTTTAACAAGTATTCCTGGGGTTGCTATCAATGCATTAAAAATCGATGGTGTTTTGCACGAATATGCAACTTTGGAAGGTGTAAAAGAAGATGTGTCTGATTTAATTCAAAACCTTAAACAAGTAAGATTTAAACTCACTGATCCTAAGCCTGATAAAATTCAATTAAGTTTTAATGGAAAGGGTGTATTTACAGCTAAAGATATCGATAATGCATCTGATCAATATGAGGTAATGAATACAGATTTGTATATTGCAACTTTAGATAGTTCTGCAAGTTTCACTATTGAGCTTCAATTAACTGTAGGAAAAGGTTATGTTGATGCTGATAGTCACCAAAGAATAGAGTCACCAATTGGTATGATATTTATTGATTCAATATTTAATCCAGTCACACAAGTTTCATATGATGTAAAGCCGGTTTCTTCTGCAAAAGATAGTATGGAGAAATTAAATTTAATAGTTACTACAGATGGTACAATTTCAGCTGAAAATTCTGTTAGTTTTGCTTCAAGAGTTTTGTCTGATTATTTTGCAATGTTCCAAATTTCTGATGATGAACCAATTTTAGAAATTACTGAAGATATTGATGAGGAGTCATTAAGAATCAGAGAACTATTATACAGATCTATTGATGAAATGGAATTATCAGTAAGAAGTCATAATTGTTTGAAAGCTGCTGGAATTAATACAATCATGGATTTGGTATCAAAAGAAGAAAACCAAATGTTAAAGTATAAGAATTTTGGAAGGAAATCATTATCTGAATTAATAGAAAAATTAGATGAGATGGAGTTATCCTTTGGAATGGATGTTGAAAAATATATAATTGTAGTTGAAGAATAAGTTATGAGACACCAAAAAAAAATAAATAAAATTGGAAGAAATGCTAGTCATAGAAAAGCTACTCTGGCTAATCTTGCATCTTCACTAATTGAATATAAAAGAATAAAAACAACTCATTCTAAAGCCAAAGCAACACAGCAATTTATTGAACCATTAATTACCAAAGCTAAAAGAGGTACTCTACACGATAGAAGAAATGTTTTGAAATTTATTTCAAGACCTGATATTGTGGGAATACTTTTTGATGAAATAGGTCCAAAATTTAAAGATAGAAATGGTGGATATACTAGGATAACCAAGTTAGGTTTTAGAAAAAATGATGCTGCTTCTATTTCTTTGATTGAGTTTGTTCTTTCATCTGAATCTAATACGAAATCAGACTCTAGCGAATCAAATTAAACATTTGAGTTTTGTTTTAAAAAAAAATTTTAAGCTACTTTTTTTAGTTTATTCTTTTTTTTTCTTTCCTCAGTATAGTTTTTCATCAAATATAGATTCAAAAATAGAATTTAGAGCTATTTGGGTTTTAAGAAGTTCATTAGTAAATAAAGATGAAATTGATAAAATATTAGAGTTTGCGAAAGATAATAATTTTAATCATATCTTTTTACAAGTTAGAGGTAGAGGGGATGCCTTTTATAATAGTTCCTTTGTTCCGAAATCTAATTTAATTAAACCTAATAATTTTGATCCATTGTCATACGCACTGCAAAAATCAAAAAAACTAAATATAAAAATACATTTATGGTTAAATATGTTATTAATTTGGTCATCGAAAACTAAACCAAAAAATTCATTTCATATTTATAACAATCATTCTGATTGGATTGATAAAAGTTTTTTACCAAAAGAAGAATCAAATATAAATCACTTTAAATTTTTATCTCCATCTCATCCAGGTGTTAAAAATCATTTAAAAAATGTAATAAAAGAATTATTACTAAATTATGATTTTGATGGTATTCATTATGATTATATAAGATATTCAGATTTAGATTATGGTTATAATGAGGTTGCAATTTCAATTTTTAAAAAACAATATAAATTAGATGAAAAAAATTTTTTTTTTGATAATAGAATTTCTGAAGAATACAAAAATAATTGGAATGATTTTAGAAGAAATCAATTATCTAATTTAGTAAAAGATTTAAGTTTTGAAATAAGAAAACAAAAAGATGCTATTATTATCACAGCTGCTGTTAAACCAAATGTAATTGAGGCTCAAAATAGATTTTATCAAGATTGGTCAAAATGGATAATTAATAAATCTATTGATTACGCTGTACCAATGAACTATTCAAAAAAAAATAGTGTTTTTGAATCTAATATATATGGAGTTTATAATATTTTCCCATCAAAAATAATTATGGGTATAGGTGTTTATAATCAAGATTTAAATTCAGTATTAGAAAAAATAAATATTTCAAAAAAAAATAAATTTTTAGGTGTTTCTTTTTTTTCCTATGATTCACGAAAAGAAAATCCAAATTTTTTTTCAAAAATTAAAAGCGAATTTTAAAATTAAAAATTTTTTTTAAAAGTTGATAATTTTACTTGAGTAAGTTATTTTACCTGTGGGAAATGATAGGAATCACACATTGAAAACAAAACTTTTATTTTTACTTTTCTTTTCAGTTACATTTATTTTTGGTTCACAAAAATATATTTCGCAAATTCAAAAGACTGCTAAAAATTACAGAGTTGAAATAAAATCTAATCAAATCAATAATGTTGTTTCAAAAGATGGTTCTATTTCTTTAAACCTTGAACTGACAAGCAACAGAAATAATTTTGAAATGGTAATGCTTGTTGGTTATATTTCTGCTGGAAGTGCATTAAAAGCTGGTATGAAGTTTGATGAAGTTATAATAACTGTTAATGTACCACTTGGTGATGGATTTAAACTTGTTACAAAAGGTAAGCTTAATGAACTAAACCAGTTGATGAATGGTAAAATTAATACTTCACAATTTGTGAGAAAAATTGAATATCTTTAATTAATTAATTCAGGGAGAACATATAATATGGATTTTGATCCTTTTTCGCTTCAAAGTTTATTTCAAACTTATCTTAGGGCAATAGGTTGGTCAGTTGTCGCAGCATTAGGTTTTTCTATTGGAATCGGACTTGCTTTAAAAGTTTTTGATATAATGTCTGTTGGAATTGATGAATGGGAAGAAATAAAAAAAGGTAATATTGGTGTTGCTCTAATTTTTATTTCTCTTATAGTTTCAGTAGCTTTTCTTGTTCACAAAGTTTTGTAAACAAGGTTTTAAATTTAAACAATTTCAAGGTTTGAGTATTTAATCTCACCTTATATTATTTTTTTTTAAGGAAAATAAATTTGGCTACCACCGCTGACATCAGAACTGGTTTAGTTATAGAACATAAAGGAAACCGATTGAAGATTGTCTCTTTTCTTCATGTCAAGCCAGGAAAAGGTGGTGCTTTTGTTAGAACTAAACTAAAGAATATAATTACAGGTCAAGTTATAGATGAAACATTTAGATCTGGTGAAAAAATTATACCCATCCGTATTGAAACTCAGCAAATGCAATATTTATATTCCCAAGACAACTCTCATATTTTTATGAACACTGAAAATTATAATCAAATAGAAATATCATATAAACTAATATCTGATGAAATTAAATTTATAAAAGAAGGGTTGAATGTAGATGTTGATTTTATTGATGAAGAGGTTATAGGAATTAATCCACCATTATTTGTTAATCTTAAAGTAACTAAATCTGACCCTGGTATTAAAGGAAATACAGCTACAGGTGCAACTAAACCAGCTACTCTTGAAACTGGACTTACATTAAATGTCCCACTTTTTATAAATGAAAATGATATATTAAAAATTGATTCTAGAACCGGTGAATATATTGAGCGAGTAAAATAATATGTTTGAAAAGTGGGATAAAAAACTTCAAAAAATAATTAGTATTTTAGAATCAAGCGACATTAATGAGATTGAGATTAGTTTTTTTGGTAGGAAGTTTAAAGTTACTAAGTCAAGTACCGTTGTTAATGAAGCTTTAATTAATAAGCAAAATATTTTAGTTCCTGAAACTAAAAGTGATTTAACTAAAGATGATGTATCTAAATCTACTGATGATAGCTCTGATCCTAATTTAAAATATATAACTTCACCAATGGTAGGAACTTTTTATTCATCTCCCAGTCCAGATTCTTCTCCTTATGTTGATATAAATGATAATATTAGATTAGGACAAACTATTTGTATAGTTGAGGCAATGAAAATTATGAATGAAATAGAATCTGATATTAATGGAAAAATTATTTCTATTTTAGTAAAAGATGGTGATCCTGTAGAATACGGTCAAAAATTATTTCAAATTAAACCACAATAAATTCTAATTATGTTCAATAAAATTCTTATTGCAAATCGTGGTGAAATAGCTCTAAGAATAATTAGAGCTTGTAATGAACTATCAATAAAGACGGTTGCTATTTACTCATCTGCAGATCAATATTCATTGCATGTAAAATTTGCTGATGAAGCAATTTGTATTGGTCCTTATACAAGTACTGAGAGTTATTTAAATATTAGTAGAATTATTAGTGCTGCTGAACTAACAAATTGTGATGCAATTCATCCTGGATATGGTTTTTTATCAGAAAATCCTCAATTCGCGCAAATATGTAAAGATAATAATTTTATATTTATAGGACCTAGTGGTGATACTATTGAATCAATGGGAAAAAAAGCAAATGCAAAATCATCAATGCTTAGAGCTGGTGTTCCAGTAATTCCTGGGAGTAAGGGAATAATAAATAATTTAAAAGATTTGAAAAATACTGCCAATGAAATTGGATATCCTATAATACTAAAAGCTTCATCTGGAGGTGGTGGTAGAGGTATGAGGGTTGTTCATAATGAAAAAGACTTAGAGTCAGCTTTTAAAACCGCTTCATCTGAATCTCAAATTGCATTTAATGACCCAGATATGTATTTAGAAAAATTTGTAGAAAACCCGAGACATATAGAAATACAAATTTTAGCTGATAATTACGGAAATGTAGTTCATTTTGGAGAAAGAGAATGTTCAATTCAAAGAAGACATCAAAAATTAATTGAAGAATCTCCATCACCAGTAATTAATAATGATATAAGAGAGAAAATGGGTCTTTCCGCTATTAAAGGTGCAAAGTCAATTAATTATTCTGGATTAGGAACTATGGAATTTTTGTTTGATGAGAAACTAAATGAATTTTATTTTATGGAAATGAATACAAGAATTCAAGTTGAACATCCTGTTACAGAAATGGTAATTGGAAAGGATTTAGTTAAATTGCAAATTAGAATAGCTTTTGGTGAGAAAATTTCTGATAATTTGAATAAATTAGTGCCAAGAGGCCATTCTATAGAATGTAGAATTAATGCAGAAGATCCATTGAAAAATTTTATGCCTTCTCCTGGAATTATTAGAGAGTTTCATTCTCCAGGTGGTATGGGAGTAAGAGTTGATTCTCATGTATATTCTGGTTATTCAATTCCTCCTTATTATGATTCAATGATTGCTAAATTAATTGTTCATGGTGAAAATAGAAATGAAGCAATCAATAGAATGAATCAAGCTCTTGGAGAATTTATTATTGAGGGTCCAAAAACTACGATTGATTTTCAAAAAGCAATATTGAAATCAGAAAATTTTAAAAAAGGTATTTTTCACACTGGATTTTTAGATGACTTTAAATATCCATAAAATAGAAAGATTAATAATATGAAAATTCCAAAAGATTTATACTATACTAAATCGCATGAATGGTTAAAAATAAATAATGATGAAATTATTATTGGCATTACAGATTATGCTCAACATGAATTAGGTGATATAGTTTTTGTTGAAATTGACAAATTTGATCAAAATATTGATTCTGGTGAAATTTTTGGAACAATTGAGGCTGTAAAAACCGTTGCAGATTTATATTTACCGATCGCAGGTAAAATTTTTGAAAAAAATGAAAATCTTAATGAAAAACCTGAATTAATAAATCAATCTCCTTATGATGATGGATGGATAATTAAAGTAAGGCCAAATGAATCAATTGATTTAAAATTATTTCTCAATGAATCTTCATATAATGAATTGATAAGTTTTTAAAGATTGTAATATGATTTATAATAATTTATTAAAAATTAAAAATAAATATAAAGCAGGCTATTTTGTTCTTATCGATCCTGATATAAAAAATGAAAATAAAATACTTGATATTGTAGATACAATCAATAATTCAAATGTTGATGGTATTTTAATTGGTGGTAGTCTAATTATGGATAATGGTTTTAACGAAAGAGCCAAAAAAATTAAAAAAATATCTAATGTTCCTGTCATTTTATTTCCTGGTTCTGTTAATCATATTAATCCCTACTGCGATGCAGTATTATTTATGTCAATCATAAGTGGGAGAAATCCAACTTATTTGATTGGTGAACACGTTGTTGCTGCTCCAATTGTTAAAGATCTAAATATTGAACCAATACCAACAGGTTATATGATTTTTGAGAGTCAATCAATGACCTCAGTAGATTTTATGAGTGGTTCTAAACCTTTGCCAAGAAATAAACCAGAAATTGCAGCTGCTCATGCCTTAGCTGGTCAATATTTAGGTATGAAACTAATTTATTTAGAAGGTGGAAGTGGTGCAGAAGAATCTATACCAAATAATGTAATTAAAAGAGTCTCTCAATTTATTGAAATTCCTGTTATGGTTGGTGGAGGTATTAAAAACCCATCAACAGCTTCAGAAAAAGTTGAAAGTGGTGCTTCATTTGTAGTAACCGGTACTTTTAATGAAGAAAATATATCAATTTCTAAATTAAATGATTTTGCGAATGCAATTCATGGAGTTTAAAATCGAAAAATTAATAAAAGATAGAATTAGTTCAAGCTCTAAAATCATAAATAAACTTATAGATGATTGTTCATCACAAATATTTAGTGCTTCTAATATAATTAAAAGTTCTTTTTTGAATAAAGGAAAAATTTTTTGGTGCGGGAATGGTGGAAGTGCTTCTCAGGCTCAACATTTATCCACAGAAATTATCGCTGGTATGAATAGACATGATTTAATTCCAAAATCATCTATTTGTTTAAATACAGATTCAACATTTCTTACTGCTTGGTCAAATGACGTAGGGTATGATTCTATTTTTTCAAGACAACTTCAAGGAATTGCTTCAAAAAATGATGTTTTATTTTCTATATCTACCAGTGGAAATTCAAAAAACATTATTAATGCTATATTAGAAGCAAAAAAAATTGGTATGAAAACTATTACTATGACTGGCATGACAGGTGGAAATTTAAAAAATTTAAGTAATATTGATATTAAAGTTCCATCAAACAATACACAAAACATCCAAGAGTCTCACTTGGTAATTGGCCATATAATATGTGAAATAATTGAAAATTTTAATATTGAAAAAAAATAAATTAAAAGATTTTCTAAAACCTTTTTTATTATTTTTACGTATTGAGAAAAATCTTTCACAAAATTCAATAGTTGCATACGAGAATGATTTGAATAGATTTATAAATTTTGTCTATTTTGAAGATGAAAAAAATAAGATAGATTCTTCTTATATTCAAAATTACATTTCGCAATTAGTTGATTTGCCACTAGAGGTTTCTACTTTACAAAGAAATTTGTCTGCATTGAGATCATTTTTTAGTTATTTAATAGATGAGAAAATAATAAATATAAATCCAACAGAATTAATTGATATTCCTAAAAAAACAAGATCTTTACCTGAAGTTTTAACTCAAAATGAGATAAATATTTTATTTAATTCTATAAACACCAATAATCCTATTGGTATACGAGATAGAGCTATGTTTGAATTATTATATTCTTCTGGTTTAAGAGTGTCTGAAATGACATCAATTAAAATAATTGATTTTCTTGATGATAATGAATGGTTAAGAGTTTTTGGTAAAGGTTCTAAGGAACGTCTTGTTCCGTTAGGTAAAGAAGCTTTAAAATGGATTAATTTTTATTTAAATAATTCAAGAAATTATCTGTTTAATAAAAATAAAAAAAATGATTTTTTATTTATTAATTTTAGAGGTGATGGTATAAGTAGAAAAGGAGTATGGATGTTATTAAAAAAATATGTATCATTATCAGAAATATCCAAAAATATTTCCCCACATTCATTAAGGCATTCCTTTGCTACACATTTGATTGAAGGGGGAATGGATTTAAGAGCAGTTCAAGAATTGTTGGGTCATTCAGATATTTCAACAACTTCAATTTATACTCATCTTAATAGAACTTATTTAAAAGAAGTTCACAAACAATTTCATCCAAGATGGTAGAAAATTATATATTAATTATACCATCAATTTTATTAGCATTAACGGTACATGAATACTCTCATGCATGGATGGCCTATAAGTTTGGTGATCCAACATCAAAGATGTTAGGTAGATTATCTTTAAACCCATTTATTCATCTTGATCCAATCGGAACTGTAATGTTGTTTCTTGTAGGGTTTGGTTGGGCAAAGCCAGTTCCCGTTGATTTACGATATTTTGCAAATCCAAAAAGAATGATGCTTTGGGTAGCGCTAGCAGGACCTTTATCAAATATTTTTTTAGCCTTTATTTTTGGTTTGTTAATAGTTTTTTTTTCAACTTCAAATTTAATGTATAATCAAAACACAGCCTTTATTGGGAACATATTGGTATACAGTTTACAAATAAATTTAGCGTTAGCATTTTTTAATATGTTTCCAATTCCTCCTTTGGATGGTTCGAAAATTTTAAGAGGAATTTTATCATATAAATTTGATAATTTTTTAAATCAATTAGAGCAATCAGGTCCATTTATTTTAATAGGTATTATTCTAATAGGTTATCTAAGTGGATTCAGTATTATTTGGTTTATAATAAGTCCACTTATTAATTTATTTTCATCAATTTTTACTTATGGTTTATTGTGAAAAAAATAAATTTTAGAAAAATAATTAATAATAGACCTTCAAAATTTTCACTTTTAAAACTATTTATTTTAATTTTATCAACTTTATTTATATTTTTTTATTTAAATAATCTTGAAATATAATTTTGAAAAAATAATTGAATGTGTACCAAATTTTAGTTTTGGTGAAGATAAAAGAACTATTGACCTAATATGTAATAAAATTAATTCTGTTGAAAATTCTAATGTGTTGGATGTTTATTCTGACAATGATACAAACAGATCAGTTATTACTTTTATTACAACTCCTGATAATTTAATAAATACTTCATTCAATGTAATTAAAGTTGCACTGGAAAATATTAATATGGAAACTCATTCCGGTGTTCATCCAAGAATTGGAGCAGTTGATGTTTTTCCTATTATTCCGTTAAAAAATATCTCATTAAAAAAGTGTATTAGTCTATCAAAAATTCTTGGAAAAAAAGTTTCAACTGAATTGTTTCTTCCGGTATATTTATATGGTTATTCTGCATCTTCACAATCAAGAACAAGATTAGAAAATTTGAGAAGAGGAGGATATGAGGCTTTAGAAGATAAAATTAAAAACAAGAAATTAACTCCGGATTATGGAAAAAATTTATTTAATAAAAAATCTGGAGCTACTATAATTGGAGCAAGAAATTTATTAATTGCATATAATGTAAATTTGAATTCAAGTTCAAAAAAAATTGCACAAAATATAGCTAAAAAAATTAGAGAATCAGGATATATTAAAACTAATAAAAGTGGTCATATTTTATATGATAATAATCAACAGCCACAAAGGGAATATGGAAAATTGAAAAATTGTAAGGCTATAGGTTGGTATAGTAATAAATATAAAAAAGCTCAGGTTTCATTTAATATAACAAGTTTTTTAGAAACTCCTCTTCATACTCTATTTAATTTAACTTCAGTTGAGGCTTTAAAAAATAATGTTCAAGTTTCTGGAAGTGAGATTGTTGGTTTAGTATCAAAAGATGCATTATTATATTCAGGTAAATTTTATAATAAAGCGAATAATAAAACAAAATATAGTGAAAAAGAATTAATGGAATTAGCTGTTAAAAAATTAGGTTTGAATGATTTAAATGATTTTAATCTTAATAAAAAAATTATTGAAAATTCCATTTTATAATTACAAAATATATTTATGACGAAAATAAAAATCTTAAATGAAGATTTAAAAAATAAAATTGCAGCTGGTGAAGTTATTGAAAGACCAGCATCAGTTGTTAAAGAACTCTTGGAAAATAGTTTGGATGCTGGTTCTACTGAAATAAAAATCATACTTAAAGGAGGTGGAAATACATCAATTATTGTTCAAGATAATGGAATTGGATTAAATAAAAGTGATTTAATTTTAGCTTTTTCTAGGCATTCCACTTCAAAAATTTCTCATTTAGATGATTTATTTAATATTAATACTCTTGGATTTAGAGGAGAAGCCCTAGCTAGTATAGCATCTGTAAGTAAAGTAAGAGCAATATCTTGTGAAAATGAAGATGATATAGGTAATGAGATTACAATTATTAATGGCAATATATCAAATACAAAATTTTCTCAATTAGAAAAAGGAACTTTAATTTCTGTAAGTGATTTATTTTTTTCCATACCTGCTAGAAGAAAATTTTTAAAGAGTCAAAAAACTGAGTTTAAACATATTGTTTCTCTAATAAGACGAATTGCTTTAGCTAATCAAAATGTAAAATTCATTTTGGAACATGATGATAAATTAATTTTCAGTCTTAATCAAGATAATTTAAAAAATAGAATATGTTCACTATATAATAAATCTTTTTTAAATGATTTAATTGAAATAAATAAAAAAAATGAATTTTTATCATTAACTGGTTTCGTTGGTAATCTTAACTTAGTCAGAAAGAGAGTAGGTGAACAAAATTTATTTTTAAATGGTCGATATATTGTTAGTAGGCTCTTAAACTCCGCAGTTTATTCATCTTATAAATCGTTAATAAGTAGAGGGGAATTTCCGTTTTTTGTTTTAAATATTGAAATTCCTCCTGATTTAGTAGATGTAAATGTGCACCCAATGAAAACAGAAGTGAGATTTCATGATGAATGGAGAGTATATCATTTTATTAAATCCACCATTTCAGAGTATTTAAAAAATATAATGATCACTATTCCAAAACTTAATATTAATGAAAATATAAAAAAAACTAATGAAAATCATTTTCAATCTTCAATTTCATTTAATAATCAAAATATTAAATCAAATTATTTAGATAAGCTTGATAAGGCAAAAGAATATGTAAAAGAAATAAATAATGAAAATATTACAAACATCAATCAAAGTAATGAGAATTTAAAATTAGAGAAGATTTGGCAAGTTCATTCTAAATATATTATCTCACAAGTTAATAGTGGATTGATTTTAATCGATCAACATGTTGCTCACGAGAGAATTCTCTACGAAAAAGCTATTGATGCAATGATGGGAAGTTCTCTTCCTAGTCAAACTTTATTATTTCCTAGATTAATTGAATTCTCAGTTAATGATTTTGAAACTGTATTAGAAATTTATTCTCATTTAGAAAAACTGGGTTTTAGAATGACTAAGTCAAAGAATAATTCTCTAACTATAGATGGTGTTCCCCTTGAATTACAGTGGGGAGAAGAGAAAAAGGTTTTAAATGAAATTATTGATTATTATACAAATGAAAAAAAGATTCGATCATCTTTTATGGATTCATTAGCTGCTTCTTATGCTTGTAAAGCAGCTATAAAAGCAGGAGATGTGCTTAATGATGATGAAATGCATTCATTAGTCGATAGGCTGTTTGCAACTAAGAATCCATACTTTTGTCCTCATGGAAGACCAATTATTATTAATCTCTCTCTTGAAGAATTAGATAAGCGTTTCGAGAGGATTTAAATTTTTTAGTTTGAAATCAATTATTATTGTAGGACCAACAGCAGTAGGTAAAACTAATTTATCAATTTTACTTGCAAAAGAAATTAGTGGAGAAATAATAGGCTTGGATTCAAGACAAATATTTGATTTTATGCCTATTGGCACATGCCAGCCTTCAAAAGAAGAAATGATGGGTATAAAACATCATTTAATTGGTTCTCATAAATTGAATAGAAAAATTTCAGCGGGTAAATACTCAAAATTAATTTTTAAATGTATAGAAAAAATTACAAAGAAAAATAAAATTCCAATTATTTGTGGAGGTAGTGGTCTTTATTTTAGAGCAATAGTTAAAGGATTATTTGAAGGCTCAATTACAAATTATAATATTAGGAAAAAATTAATTAAAAGGCTTGAATTAGAGGGTTCAGAGCTATTATTAGATGAATTGAAATCTGTTGATTTAAATTATTCTAAAATAGTTCATAAAAATAATGTCAAAAGATTGTTAAGAGCGCTTGAAATATATTATATAACTGGTAAAGGACCATCTGAGCATTTTAAAATGCAAAAAATAAAAACAAATGATAATTTTTTTAAAATTTATTTAAAAATGGACATAGATGCCTTAAGAATAAAAATTAAAAATAGAATTTTATCAATGATTAAAAATGGTTGGATTGAAGAAGTAAATCAAATTGCATCAATGGATTATAAAAACTCAACTCAAGCTATGGAAAGTATAGGTTTTAATGATGTTAATGATTTTTTAAACAAAAAAATAAATTTAAATGAATTAATTGAACAGATTAACGTGAACACAAGACAATATGCAAAAAAACAGATAAAGTGGTTTGACAGAGAACAATTTGATTTAATTATTGATATAACTGAACAACATAAGAGTTCAGTTATAAAAAAAATTATAAATAACTTTTATAATATTAAATAGGATATGTATATTGCATTGCCCTTTAAGCTTTCCAGAGAGGAGGTAAGGGTAGTTTAAATCCTCCCCTGTAGAGGATTTTTTTTTATATGAGTGAAAAAACAAATATTATTCTTTCAGAAACAGAAATAAAAAATTCAATTATTCGTATATCGCATGAAATAATTGAAAAAGTAAATATTAAAAATCTTGTAATTATCGGGATAAGAAATAGAGGGGAATTCATTGCAAAACGAATTTCCCACAACATAAAAATTTTTTCTAAAATAAAGATACCAACTGGGTTTTTAGATGTTACTTTTTATAGGGATGATTTTCAGCAAAGATTATTACAACCACAAATAAAAGGTTCTGATATTAATTTTGAATTAAATGATAAAATTGTTTTATTAGTTGATGATGTTTTATTTACAGGAAGAACTATTAGAGCGGCGTTAAATGAGATAATGGATTACGGAAGACCATCAGTGGTTTCTTTAGCAGTTTTAATTGATAGAGGTCATAGAGAAATGCCTATTAAGGCTGATTTTGTTGGTAAAAATATTCCAACATCTAATATTGAAAAAGTTTTAGTTAGATTGAATGAAGTTGATAATGATGAATCAGTATATTTGGTTAAATCTTGAGATGTAATTATGGGTTTGTTAAAACAAAAACATTTGATTGGTTTGCAAGACATATCTAAGCATGATATTGAATTAATTTTAAAACATGCTTTTTCATTTAGAGAAATTCTAGAGAGACCTATAAAAAAAGTACCTACTTTAAATGGTAAAACTATTGCAAACTTATTTTTTGAAAATTCAACTAGAACTAAAATGTCATTTGAATTAGCTGAAAGAAGATTGTCAGCTGATACAATAAACTTTGCTAAAAATACTAGTAGTATTAATAAAGGAGAAAGTTTTAAAGATACAATTCAAAATATTGAATCTATGAAAATTGATTGTATAGTTATTAGGCACAATTCTTCTGGATGTTGTAATCATATGAAACAATATGTTGATTCTGTTATTATTAATGCAGGTGATGGCATGTATGAACACCCAACCCAAGGATTACTAGACATTATGAGCATAAAGGAAAAAAAAGGTAATATAAAAAATTTAAATATTGGCATTATTGGTGATATATATCACAGTAGAACAGCCAGATCTAATATTTTTGGATTAATTAAAATGGGTGCAAATGTTATGATATGCGGTCCTGCAAATCTAGTGCCAAATAATATGAAAGAACTAGGTGTTAAAATAAATTATAATATTGATGAAGTTTTAGAATGGGCTGATGTGATAAATGTTTTGAGAATACAAAAAGAAAGGTTTGATTCAAATTTTTTACCATCTTCAAGAGAATACAGAAATGCATTTGGGATTACAAAAGAAAGGTTAGAAAAAATAAAAAAAGAAATAATAATAATGCACCCTGGGCCAACAAATCTAGGTGTAGAAATTGATAATTATGTTGTAGAAAGTGATCAATCAATAATTCTTGACCAGGTATTAAATGGAGTGGCAATTAGGATGTCAGTGCTTTATTTATTATTATCATCAAAATAAATATGAATATTAAAAAAAATACAGAAAAGATTTTATTAAAAGATGGCTTGATCATAGATCCTTTTACAGAAAAAAAGTTCAAAGGTTCTATACTTATTGAAAATGGTTTTATTTCGCAAATAAGCAAAGAAATTTCTAATGAAGATTCTCAAGTTATTGATTGTGAAAATCTTATTATAACTCATGGTTTTTGTGATGTTCATAGTCATTTTAGAGAACCAGGTGACGAAGATATGGAAACTTTAGAAACTGGATCTATGTCTGCCATGTCAGGTGGATATACTGAGGTTTGTGTAATGCCAAATACTAAACCTGTTATTGATTCTCCGGAAACAATTAAATTTATTATTGATAAATCACAAGATCTACCAATATCAATTTTTCCAATTGGAGCAATAACTCTCGGTCAAAAAGGTAATGAATTAACTGAATTTTATGAAATGAATAAAACAGGTGCAATTGCATTTTCTGATGATGGTATTCCTGTTACTAACTCTAATGTAATGCGAATTGCACTTGAGTATTCTAAACCATTAGGAGTACCTATTATTAATCATGCTGAAGATTTATTTTTAAAGAATGATGGACAATTAAATGAAGGGATTTTATCTACAAGATTAGGTTTAAAAGGAAATCCTGACATTAGTGAATCGATTATGATTAATCGTGATTTAGAAATAAGCGAATTTACAGGAGGTATGCTACATATTCCACATGTTAGTTCTAAAAAATCTGTTGATTGGATTAGATTAGCTAAAATGAATGACAATATTAAAGTATCTGCCGAAGCAACTCCTCATCATTTAACTTTTGATGACACAAATCTTATTCCATTTGATACAAACTTTAAAGTTGCACCTCCATTAAGAACTTCAATAGATAGAAAAGCTTTAATTAATGGACTTATTGATGGTACAATAGATTGTATTGCTACAGATCATGCACCTCATTCTATCGAAAAAAAAACAAATCCCTTTGATTTGGCTCCACCAGGTATGATTGGACTTGAAAGTTCATTCGGTGCAATAAATAAAATACTTTCTTCTGAAAAATTACCTATTGAAAAAATTATTAAATTTTTAACTACCAACCCTCGTAAAATAATGAAATTAAATCAAGACCTTTTCAAAGTTGGAACTTTAGCTCAAATAACTATTTTGGATAAAGACAAAGAATGGATTTTTGACAAAGATTTTATTTACTCAAAATCACATAATTCACCTTTTATTGGTAATAAATTAATAGGAATGATTAAAATTGTAATTTCAAAATCCTTTATATTTCAAAGATAATTTTGCATTTTTTTTTTTTTAATAAAACTTCTTGATGAATAAGCTGTTTTTTCATTATCTTTGTTTGCTAAACTAAAAGGCATTTTGATGAAAACTTATTCGATTAAAGCTTCTGAGATAAATAAAATCTGGCATATTGTTGATGCAAAAGATAAAACCCTTGGAAGATTGGCTTCTTCAGTATCTCAAATTTTGAAGGGTAAACATAAGCCTACATATACCCCACACATGGATATGGGTGATTTTGTAATCATTATAAATGCTGCAAAAATTAGAATTTCTGGAAATAAAGATAAGCAAAAACAGTATTTTTCGCATAGTGGTTACCCAGGAGGTACTAAATTTGTTGATTTTCAATCTTTGAAAAAAAACAATCCTGAGAAAATTATTGAAAATGCAGTTAAAGGAATGCTACCCCATAACACATTAGGAAGAAAAATGTTAAAAAATCTTAAAATTTATAGTGATTCTACTCATCCTCATGAAGCTCAAAAACCAATTATAATGGAATTATAAACTTGCCAAATAAAAAAGATACACTTTCAAACAGAACAGGTAGAAGAAAAACTTCTATTGCGCGGGTAAAAATATCAACTGGTAAAACCAAATTTATGATTAATGGTAAAGATTATAAATCATATTTTGGTAGAATAGTTGATCAAAAACTTATTGAACAGCCTTTTGACATTATCAAAACTTTTGATTATGAAATAAATGTTAATGTTAGGGGAGGTGGCTTAACTGGTCAAGCAGGAGCAATAAGACATGGAGTTTCAAGAGCATTAGTTGAAATTAATGATGAATTTAAATTACCTCTTAAAAAAGCTGGATTGCTCACTAGAGATGCTAGAGAAAAAGAGAGAAAAAAATATGGTTTAAGAGGAGCACGTCGAGCTTTTCAATTTTCTAAAAGATAAGGATTTATATTGGAAGTTAATTTTGATAATTTACTAACTACTGGAGCTCACTTTGGTCATTTAACTCGAAGATGGCATCCTAATTACAAACCTTACATTTTGATGGAGAAAAATGGTATTCATATCATTAACCTCGAAGAAACAATAAAAGGTTTAAATAAATCTCTTGAATTTTTATCTGATTTAATTCTTGATGGTGGAGAAATCCTTTTTGTTGGAACTAAGAAAAATGCAAAAGATATAATTCAACAAGAGGCAGATAAATGTGGTATGTTTTATGTTGTAGAAAGATGGTTGGGTGGAACATTAACAAATTTTTCAACAATTAGAAAAAGTATCAAAAGACTTCAACTATTAGAGAAAGAATCTAGTCCAGTTTATGAAAATGCAACAAAAAAGGAATTACTCTCACTCGAAAGAGAAATGATTAGGCTTCAAGATCAGCATAGAGGAATTAAAGACATGAAACGTTTACCCTCTGCATTATTTATTGTGGATGCTAAATTTGAATCAATTGCTATAAATGAAGCAAAAAGATTAGAAATTCCTGTTGTTTCAATTGTTGACACTAATACTGATCCAAATATTGTAGATTATCCAATTCCAGCAAATGATGATTCAATAAGAGCTTTAAAGTTAATAATTAGTCAGGTTTCTAAAACTATTTGTGAGAGAAGATCAATTGAGTATCCAGATTCTTTGAAAACAAAAACCGATGAAAATGATGATTTAACTGAAAGTGATATTTCATCTAAAACTTTAGAAGAAAATAATCTTTTAAATGAAAAAGATAATACTGAAAAAAATGATGTATCAACTATTGAAAATGAAAATTCATTATTGAAAGATGATGTTGATTTAATCAAAACTGAAGATAAAAACATTTTAAATGTTGATAAGTCAAATGATTCAGATATTAATGAAGTTAAAAAAGAAAATTAAACAAAGGTTGTAGATTTATATGTCAACAAATATTATAAGTGCTTCGATTGTTAAAGATTTAAGATCTAGGACTGGTGCTGGAATAATGGATTGTAAAGATGCACTAAAAAACTGTGATGGTAATTTAGATGATGCAATTGATTTTTTAAGAAAAAAAGGAATTGCTAAAGCTGAAAAAAAATCTGGAAGACAAGCTGAGCAGGGAACAGTTTTATCATATATTCATCCTGGAAATAGAATTGGTGTTTTGGTAGAAGTGAATTGTGAAACAGATTTTGTTGCTAAAACAGATGATTTTTTAAATCTTGTAAGAAATATTGCTATGCAAATTGCAGCCACAAATCCTATTTCTCTTGATAGAAATTCAATTGATGAAGCAAAAATAGAAAAAGAAAAACAAATTTTATTAGAACAAGCTAAATCTTCTGGGAAGCCTGAAGCAATTCTGAAAAAAATTGTTGATGGAAAAATTGAGAAATATTTTCAAGAAAATTGTTTAATTGAACAACCATATATTAAGGATAATGATAAATCAGTTCAAGATATCTTAACTGAATCTATTGCAACGCTTGGCGAAAATATATCAATTGCTAGATATTCTCGATTTGAAGTAGGTGATATTACTATTTCAAATAATTCCAATTAATAAAATTAAATTTTAATGACAAAACCAATTTTTTCCCGAATTTTACTCAAATTGAGTGGAGAGATATTAGCGGGTGAAAAAGGTTTTGGATTAGATCCCAATGTAGCAAAAAAAATAGCTCTTGAAATAAAATCTGTTAATGATTTAGGTGTTTCTGTTGGTATAGTTATTGGTGGAGGAAATATTATTCGCGGAGAACTTGCAGAAGTACAAGGAATGGATAGAGTTTCAGCAGATTATTTGGGAATGCTTGCAACAATTATAAATTCAATTACACTGCAAGATGCTTTAGAAAAAAATAATTGTGAAACAAGAACTTTGTCAGCATTATCAATTTCTCAATTAGCAGAACCTTATATCAGAAGAAGAGCTATAAGGCATTTAGAAAAAAATAGAGTTATAATCCTTGCTGGTGGTACCGGAAATCCATACTTTAGTACTGACACTGCTGCAGTTCTTAGGGCTACAGAGATTGAATCTGAGGTTATTATTAAAGGTACTAAAGTTGATGGAGTATATAATAAAGATCCAATTAAATATAATGATGCAGTTAAATTTCAAACTATTTCTTACAGGGAAGTATTTGATAAAGATTTGCAAGTTATGGATATGACAGCTATTACATTGGCTAAAGAAAATAAATTACCAATAATTGTTTATGATGTAAATCATGAGGGTGGATTAAAAAAAATACTAAGTGGTAAAAAAATTGGAACATATGTAGGTAGTTAAATATGAATGATAATATAAAAAGTAATATTAGTAAAAGAATGAATCAAGCAATTGATCATTGTGCATCAGAATTATCTCAAATTAGAACAGGCAGGGCTTCAACAACTTTATTAGAAAATTTAAAAGTTCATTATTATGGTGTCCCTACACCTCTTAATTCACTTGCTACAATCACAGCTCAGGAAGCAAGACTTCTTGTTGTTCAACCATTTGACAAGAGTATTATTCAGGAAATAGAGAAGTCAATTCAATTATCAGAATTAGGACTTAACCCAAACAATGATGGAACATTAATTAGAATTCCGATTCCTTCGTTAACAGAGGAGAGGAGATTGGAATTAGTTAAAATAATTAATAATCTTATTGAGGAAAGTCGTGTTTCGATTCGAAATATTAGAAAAGATTTAAACAATCAAGTAAAAGATTTAAAAAAAAACAGTGAAATTTCTGAAAATGAAGAAATATTTCAATTAGAAGAAATTCAAAAAAACACGGATGATTATATATCTAAAATAAATGAAATGCAGAAATTGAAAGAAAAAGAATTATTAGATAAATAATAATATATTTATCTTAAGCTTTGGCTTTTACTCACATTTAGAAAACCCGCAACTCAAACACATTACACATCCATTTTCATGTTTAATATTACTTCCACATTCAGGACATATTGTCATCGTTTTTGGATTATAATTAGGTGCATTTTCTGGAGATGAGTCAATCATAGTAAATTTAGTTTTTGTTGAATTTAATTCATCATCATCTATATTAACTGTATTATTGATTGACAAAGATTTATTTTCATTTTTTTCAACAGTTCCCCCCTTTAAGTAAGATTCTAATGCTTTACCAATAGCATCGGGTGTTGATAGAATTAGTTGTCCATTTTCCCAAGTTGGGTTAGGTCCACTTATTCCTTTTAACTGTTTTACTACATCATTTGGATCAATTCCTGACCTTAGAGATAAAGATATAAGCCTGCTAATTGCTTCAGATTGGGCTGCAGCATTTCCACCGGCTTTACCAATAGTTGTAAAAACTTCACATAATCCATTTTCATCTTCATTAATGGTTATATATAATGAACCTTCACCAGTTCTTATTCTTTTTGTTACACCTTGAGTTTCACCAGGTCTGAATCTTGGGCGTAAATTTTTCTTTGATCGTACCGGATGTGATTTCTCACTTTGTTCAGAATTTAATAAGCTTTTATCTTCATTTGAATCAACTAAACTTCCGGATTCTTTTTCTTTTTGATCTTCGGTAATTAAAATACCTTCTCTTGAACTTTCTCTATAAACAGTTATACCTTTTAGACCAGCTTTATATGCAGTCATGTATATATCACCTACAGTTTCTTTATCAGTTTCTGCTTTAAGATTTACAGTTGAGCTAATAGATGTATCAATATATTTTTGGATAACTCCTTGCATTTTTACTCTAAAGTAGGGATCAATATCATGGGCAGTTACAACATAATCAGGAAGATCAGAATCACCTCCAAACAATTCCTTGATACTCGGATGATAAACTTTAAATTCTTTGAAAGTATTGCCATAACCTTCATTTTGTTTTACTCTTCTGAAATAAGAACTCTGAAACATTGGTTCAACTCCAGATGTTACTCTTGCTACAATAGCTCCTGAACCAGTTGGAGGAACTGTTAATAAAGTTGAATTTCGTATTCCATTTTCTTTTATTTTTTCTCGAAGTGTTGGACTCAGCTTTTCTATAAATTTGCTTTTTGAGAATCCATTCCAATCAAAGTTTGGAAATGAACCTTTTTCTTTTCCAATTTCGACAGATGTTTCATAAGCTGTATCTCTCATTGCTTTACATATTTCATCTGCCACTTCTAATGCTTTTCCACTATCATAAGAAATTCCCATTCTTATAAACATATCTCCAAGCCCTAATAGTCCTATTCCTACTCTTCTATCATTGATAGCATTTTGTTTTTGTGCTTCAAGTGCGTGACGATCGATATTATATTCAACAACATTGTCCATAAATCTTGTTGCTACGCTAACGGTTTCTTTGAATGCATCCATCATAAAATTTTGATTCTCATCAATAAATCTAGCTAAATTAATAGATCCAAGGTTACAACATCCTCCATCTGGTAGTGGTTGTTCTCCACAAGGATTTGTTGAAACAAGAGGTGAACAATATTCTGCATTATGATGATCTTTCATTGTATCCCAAAAAATTATACCTGGTTCAGCACTAGCATGAGCAGACTCAACAATTTGATTCCAAAGGTCTTTAGCTGGAACAGTTTCATATACTTCACCATCAAATGTGAGGTTGAATTCAGACTCTTCATCAACAGCTTTCATAAATTCATGTGTAAGCAATACAGAAATATTTGAATATTTTACCATATCAATATTTCCATTTTTAATATTTATAAATTTTTTAACATCAGGGTGGTCAATTCTGATAGTTTGCATATTTGCACCTCTTCGTCCGTGTTGAGCTATTGTATTTGTGTTCTCACTAAAAAGATTCATAAATCCAGTTGGCCCGCATGATTCACCACCTGTACCTCCAATCTCAGAACCACTTGGTCTTAAAATAGATAAATCATGTCCACATCCACCGCCAAATTTATAGGTTATAGCTTCATCTTGAATAGTATCATATATTGATTTTATTGAGTCTTTTTTTATAGCAACAACATAGCAATTGTTAAGTGTTGTTGTTATATCTTCTCTTCCAGCTCCATGCATAATTCTTCCACCAGGAACGAAACGAAAGTCTTCTAAAAGAGTAAAAAAACGTTTGTACCAAAGATCTACATCTTTTTCAACATTTGCCATTGCTTTTGCAATTCTTTTCCACATATCATAAGGATTCTTTTCCCATGGTGCTAAATATTTATTTTGTAATACTTCTTTTCCTAAATCATCATCTTTATAGTATTCATCTATCGTGTATTGTTTTGGTGTTGATTCACCAAGCATTTCTGGAAGGTCAGTTTTCAGTCCTTCTTCAGTTGTGTTATTTGGTGTTTGTCTACTATTGTCTATTGAGCCCGAGGATTTCTCCTTGGAGTCAGAAACAGGAAATTCATACTGCATTGCGTCTGCCATAAGTTACTCCAAGCTATGTTAATATTATGTAGACCAGCAAGGTTAGAACCGAGTTGGAATGCCCCGCGAGGGACAGAAATAATATAGTTTTGCTAGAAATTTAAGACAAGAAGAAACGTGAAAATGTTTATTTTTTTTTAAAAAAGTTTTCATTTTTATCAATTTTTCTTTCGATAATTGAGATATGTTTTATGTTATTTTTCTATTAAAAAAAGGTAAATTTACATTATGTCAAAATTGCCAATAGTAAGTATTATAGGAAGACCAAACGTTGGTAAATCAACATTGTTTAATAGAGTTCTTCATAAAAGACATTCAATTGTAGATAAAATCGAAGGTATCACAAGAGATAGGATTTACGAGAAAGTCGAATGGAATTCTAAAATATTTAATCTTGTAGATACTGGTGGATATATTCCAAATAAATCTAATGTTATTGATACTGCAATTAGAGAACAAATAAATTTAGCTCTACAAGAATCATCACTAGTTTTATTTTTAGTAGATGGCAAAGATGGTTTATTGCCTTCAGATAAAATTCTTGCAGAAATAATTAGACAATCTGGGAAAAAAACAATTTTAGTGATTAATAAGATTGATTCAAATGAAATGGAACCACTTTCATCGGATTTTCTAAGTTTAGGTTTCACAACATATGCTAGTATATCTGGTCTTGCTGGAAGAAAAATAGGTGATTTATTAGATTTAATTGTAACCGATCTAAATAAAAACAAAGAACTAAACAACAAAGTAAATGAAAATGAAATTAGAGTTGCAATTGTAGGTTGTCCCAATGCAGGAAAATCATCTATTTTAAATAGATTGTTAGGTGAAAAAAAATCAATAGTTACAAATATTCCTGGTACTACAAGGGATGCAATTGATTCTGAGATAAAGTTTTTTGAAAAAAAATTTATATTAATAGATACTGCTGGTTTAAGAAGAAAATCAAAGGTTAAAGAGAATATTGAATTTTATTCAACTGTGAGAACTAGGCGTGCTTTGGAAAATTCTAACATTGGAATTGTTGTAATTGATGCCGAATTAGGTTTTATTAAACAAGATAATCAAATTGTTGAAGAAGTTATTAGGCTAGGTAAAGGATTGATTATTATTGTAAATAAGTGGGATTTAATTGAAAAAGAAACAAATACAATGAAAACATTTAAAAATAATATGATTTATAAATTTCCCAATATCCAAAATTTTCCAATATTATTTGTTTCTGCAAAAACAAATCAGAGAATATCAAATGTTATGAAAGAATCTCTAGATGTTTATAAATCATGGAAAATAGAATTTTCAACTTCAAAAATAAACAAAGTTCTAAAAGATGCAGTTGAAAAATACAATCCACCATCTGCTAGAGGAAAACATATAAAAATCAAATATGCAACCCAAACAGGTACTAAACCTCCTAGAATCGGAATATTTTGTAATTTTCCTCATCTAGTACCCATGTCCTACAAAAATTATTTAGAAAATCAATTTAGGCTTTCACTTAATTTTTTTGGAACTCCTCTTATTATTAAATATTTAAAATCATAAATTACATTCTTCTTAAAATAGATATTTTGTATTAAATTTAATCAACGATCGCGGGGTGGAGCAGCTTGGTAGCTCGTCGGGCTCATAACCCGGAGGTCATCGGTTCAAATCCGGTCCCCGCTACAGACGAGAAAACCCAATTCTTAGACGAGAGTTGGGTTTTTTTTTATAATCTACTAACTAATTTTAGATACAATTAA
>sequence14
AATGAAAATAAAAACAGAAGTTTTTCTTTAAGAACATATTATACTAATGAAAATAAACTTGTAGATTTAAATTCTAGGTTTAGAAATCATACAACCAAACTTTTTCCAAAACATGGTATTGAAAATATTGGATATTGGGTTCCACAAGGTGAAGATAATATATTGATTTATATTGTCGCTTTTGAAAATGAAAAATCAATGGGTAAAAGTTGGGAATCATTTGTAAACGATCCAGAATGGAAAAAAACCAAGTCAAAGTCTATTGAAAATGGTATGTTGGTTGATAAAATAATTAATGAAAACCTAACACCTACTGATTATTCATATATAAAATAATTAATCTCTCAAACTGAGGTAAATACGAAAAATATTTTTCTTATAATCTCATTTATTTTTGTTGTAATGATAGTTTTATACTTTATCATTAATAAAGAAAATATTGATCTTTTGAAAGAAACTTCAAATGATGAATTATCATATGCTAATTCATTTTACTCTAATCATATTGAAACAATATTTAATGAGAATTGCATTGCTTGTCATCATGATAAAAAAAAATTAGGAGGTTTAAATATGCTTTCTCCATCAAAAATTAATTTGGGTGGAAAAAATGGTTCTGTAATTACAATTGGAAATGCTTATAAAAGTGAAATTTACAAAAGATTAATACTCCCAATTTCAAATGAAAAACATATGCCAAAAGGAAAAGATTCATTAACAAAAGATGAAATCAAATTAATCGAGTGGTGGATTAATTCTGGAGCATCATTTACCAAAAAAACAGATAATTATATCTTTCCAGAAAAAATAAAATCCATTTTAAATTAAAAATAATAAGTTGTTTTTATTCATATTATATAAAACCATAAAAAAAATCACAATTTTTATTATGGTTGTTTTTTATATAAACGTTGGTATACTTCATTTTATAGACCCAGATTGGTTTTTACCAATTGTGCCACCATATTTACCTTTTCACTTAGAACTTGTGTATATAAGTGGTTTTTTTGAAATATTACTTGGTTGTTTATTAATGTTTCAAAAAACTCGTGCATTTGCAGGAAAAGGTTTGATTTTATTGTTGTTAGCAGTTTTTCCAGCAAATATTTATTTAGCTCAGACCAATGGAGCTGCAATGAATACAACTCCTTTAATTGCTTGGGGGAGACTTCCTATTCAATTTATATTTATAGGATTAGCTTATTGGCATAGTTTGGACAAATAATTACTATTTTTCTAAATCCCTAACCCAGATGTTTCTAAATCTCACGGGGTTACTATGATCTTGCAATTGGATAGGTAACCTATCTTGATGCATAACATATGGTGCTCTAATTTTATGAGATGTAGGACCTAGAATTTCTTTATGATTTTGAATTAGAACTCCATTATGTATAACGGTTGCATATGCAGGTTTAATTAAATTTTTTTCTGAATCAAATCTGGGTCTGGTAAAAATTATATCATAAGTTTGCCATTTTCCAGGTTTCATTGCAGCGTTGAAAAGTGGAGGGAATTGACCATATATTGCACCTGCTTGTCCATCAGCATAAGTTGGATTATTATATGAATCAAGAACTTGTATCTCATATCCCCATCCTCCTGCTCCAGCCATAAAAAAAACTCCACTGTTTCCTCTACCTTGACTTTCGCCTTCAATTTTAATTGGAGTAGACCATTCAATATGTAATTGAACATCACCAAAAGTTTTTTTGGTAATTATACTACCTGTTCCTTTTTTCGCTTCAAAATAATCTTTAGTAGACTTCCATTTAATATTTTTACCTTTAGTTGATTTCCATTCATCAAGACCATTTCCATTAAATAAAATAATTGCGTCTGAAGGCGCAGATGAGTTTTGAGAAAAATTACCAACTTCAACTATACTTGGTTTAGGTCTATCAAGATCATGAATTTTATATTTTTCTGCTTTTACTACATTTATGTTTACTAAAAAAAAAGTAATTAAAAAAAAGTAATACTTTAATATTGAATTTGTCATTTAGAAAATCCCCTACATTGTCGTATTTTTAATTTACAAGAAAAACTAAACAAATGAAATTTTATCAAAAAATTATTTTTGTATTAATTTTATTTTTCTTTTTTAATTGCAAAAAATCAGAAAAATATATTAATAATCATAAGTTAACTGATATGGTATTAATCCCTGGAGGAACATATAATAGGGGAGCTAATAGCCATCAATCTAGTCCAAATGAATTTCCTGTTCACAAGGTTCAAGTTGATAGTTTTTATATGGATATTCATGAAGTAACTAATAAGCAATTTTTAGATTTTGTTAATGAAACAGGATACATAACTACAGCTGAAAAACCTATCAATTGGAATGAGCTAAAAAAACAACTTCCTCCAAATACACCTAAGCCAAGTAAAGAATTTTTATTACCAGGTTCATTGGTATTTACTAAAACAAAAGGACCTGTTTCACTTTTAAATGAATCAAAATGGTGGAGTTGGGTTCAAGGTGCAAGTTGGAAACATCCTGAGGGTCCTGGTTCTGATATTAAAAATAAAATGAATCACCCTGTTATTCATGTTTCATGGTATGATGCTTTTGAATATGCAAAATGGGCAGGTAAAAGATTACCTACAGAGGCTGAATGGGAATATGCTGCAAGAGGAGGAAATAAAAATCCAATATATCCATGGGGAAATGATTTAATTATAAATTCTTCAAAAAAAGCAAATTTTTGGCAAGGAAATTTTCCTTATTTAAATACCCTTGAAGATGGTTTTGAGTATTCTTCTCCTGTGAAAACTTACGATGCTAATAATTATGGTTTATATGATTTAGGTGGAAATGTATGGGAATGGTGTTATGATCTTTATAATGAAAATGCTTATAAAATTGAATCTAAAAAAGATCTATGCATAAATCCAAAAGGGCCAAAAACATCTTATGATTCAAATGAACCTTTAGCTGTTAAGAGAGTGATCAGAGGGGGTTCCTTTTTATGTAACGATAGCTATTGTACTGGTTACAGAGTTTCAAGAAGAATGAGTACCTCCGAAGACACAGGATTGAATCATACAGGGTTTAGATGCGTTAAATCTTTTGACAGCTGATTTTTCTTTACTATTACAATCTTATTTTATAATTTTGCTCAATGATTGATTAATTTCAATTTTCACCGGGGCAAAATTTTTATATACAAGGGGAGTTAAAATGAAAAACTATAATCTTTTTAAGTTAAGTACTATTTTTTTTATTATTTCTTTAATTTTTATTTCATGCAACAATAAATCTGCAAAGATACCAAATGTTAAAAATGAAGAAGCACAAATGTCTACAAGACCCCTATATGATGAAGAATTACGACCACAATTTCATTTTAGCCCAAAAGAGAATTGGACAAATGATCCTAATGGAATGGTTTATTACAAAGGTACCTACCATTTATTTTTTCAACATAACCCTGTGGGAATTAATTGGGGAAATATGACATGGGGACATTCAGTTAGTTCTGATATGGTTCATTGGGAAGAAATAGAAGATGCTATTGTTCCAGATGAATTGGGTACGATTTTTTCAGGTACAGCAACAGTTGACTGGAATAATTCTGCAGGTTTTCAGGTCGGAGATGAAAAAACTATAGTTGCTTCATATACATATTGTGGAAGTTGTGAACAATTTGGAGATCCAGGACCAGATGAACCATTTACTCAAGCAATAGCTTACAGTACAGATGGTGGAAAGACTTTTACAAAATATTCTGGAAATCCAGTATTAGAAAATATTGCTGGGGGTGGAGATAGAGATCCAAAAGTTTTTTGGCATGAACCATCACAAAAGTGGGTAATGTTATTATACTTAGATTATAAAACGGATGATTTTTGGACTCATAGAAATTGGAGATTTGCATTTTTTAATTCCGATGATATGAAAAACTGGACAAAAGTAAGTGAAATGAAAGATATTGAAATGTTTGAATGTCCAGAAATTTTTGAACTTGCTATTGATGGTAATGAAAATAATAAAAAATGGGTTATTTATGGTGCTAGTGGAGATTATATAATTGGTGATTTTGATGGAAAAACATTTACACGAGAAAGTGGAAGGTTCAGAGGAGATTTTGGACCTAATTTTTATGCATCTCAAACATATAATGATATTCCCAAATCAGATGGAAGACGTATTCAAATTGGTTGGATGAGAGATGGTGAGTATCCAGGTATGCCATTTAATCAACAAATGACTTTTCCGGTAGTTTTAACTTTAAAAACTACTGAAGATGGAATTAGAATGTTTAAAGAGCCAATTAAAGAAATTGAATCAATTTATACATCTAATTCATTATCACTTTCGAATCAAATAGTTAAGCCAAACGAAAATATTCTTGAAGGTTTTCAAGCTTCTTTATTAGATGTGGAAGTAATTGTTGAACCAAGAGGTGCATCTGATTTTGGATTTACAACCAATGAATTAACAATTAGATATTATGTTGATGAGGGTGTTTTAGCATCAGGCAATCGTTCTTATCAAAAGCATACTGCTCCTTTAAAACTAGATAACGGGACATTAAAATTGAGATTGCTCATTGATAGGTCTTCATTAGAGGTTTTTGGAAATGATGGAAGAGTTACACTTTCTTCAAACTATAATGGTTCTGATTCAGTAGAAGAAAATAATATGAATTTGAGGTTTTATTCCAACGATGGTGAAGTACTTATAAAATCATTAAAAATTCATGAACTAAAATCCATTTGGACTGAATCCTAGAAGAAACAAATGATTTAAAGTCAAATTAAATTTTAATTTCTTTAAAAAAATTAATTTTATTTAAATCATGGTATAGAGATTTAACTTCTTCATTATTTAAATGATTATTTTTATCTCTACATAAGCCACAATTTATTCCAATTTCATTCATTACAATTTTTGATGATGGTAAATAATTATGTTTTGACATAATTTTTATATACTTAATAGAAAACTCTTGTAATTTTATAGCAATATTTTTTTTATTAGAGTTAAAATTTTCTAGAATTTTATTGTTGAGTGACCCTGCAAAGTTATATGTACTGCCTATAGCTCCAACACATCCTAATTCTAAAGCAGATATTAACATATCATCAACTCCAAATAGAATATCATATTTTCTATTGTTTAAATTGATACACTTTTTAAGCATTTCTAAATTAGTGTTATTATACTTCAAGCCAACTAATGATTTTAATTCTTTATTAGCAATAATTAAAAATTTTTCCATATCAATTTTTTTCCTACTGAACTTTGGACTTTCATAATAAAAGTACGGAATATCAGGGGTAGTATTTAGAATGGGTTTTAACCATTTTGCTAATTCTTCAGGTGAATTAACGTTAGGATCTAAACATAGTGAGCTTATGAAATCTGCACCTGAATTTTGAGCTTCAATTCCAAGTTTTGATGAACTAGATTGTTTTTCATGACTAATATTGGCAATAAATATTAAGTTGGTATCTTTAATAATATTACCCCACTCTTTAAAAAGTTTTGATCTTTCGTTAACTGAGAATGATAGTCCTTCACCAGTTGTGCCACCAACATAAACACCTGAAATATTACATTTATATAAATATTCTGCTTGTTTTTTTATATAATTAAAATTTATAGAAAAATCTTTATTTAGGGGTGTATGAACTGCAGCAATGAGACCCTTAATTTTTATATGTTTCAATAAAAAATATTAACTATAAATAATAATTTATTTTTCTAATGCCCATTTTATTCCTCTTTGAAGGATTGTCCATGCTTCAGGTATATCAAATACATCTCTGGTATGCCCTAAAGATGTATAAAAAACTTTTCCTTTTCCGTATTTTTTTTTCCATACTACAGGCATTGTAACACCATCTATCCAATAAGAATGTTCATCATTAAAAGTAGTAGTTGCTAATACTTCATTAATTGGATCAACATGCATATAATACTGTTCTGATTTGACTTTAAAATCTTTTAACCCTTTAGTAATTGGATCGTCATGATCAATAATATTTACAGTATAATCAATAATATCACCAGGATGTGAAACCCATTGACCTCCAACCATGAATTGATATTCGACATTTTTTCTAAATGCATCTCCTAATCCTCCATGCCACCCGGCTAAGGAAACTCCTCTATCCCTTACTGCTTTTAACAAACCTTTTTCTTGGTCTTCAGTTATTTCAGACATAGTATATATTTGAAGAACAAGGTCAAGTTTTTTCATCAACTTTTTATCTAGGTAAGAATCAAGAGAAGGTGAAACAGTTACGGTATGACCTTCACTTTCTAACCATGGAACTATTAAATCACGCATTTTTTCGGGCTCATGTCCTTCCCATCCACCATAAACAAAAAGTATTTTTTTACTATCCTTATTATCTTTTGTGTATATAATTGAATTAAAAGATAAAATAAATATTATAGAAAAAATTAATGTTTTAATTTGAAAAATTTTCCTCATTTAATCTCCCTTGTTATGATTTTAGATATTTCTTCCAATTTAAATAAGTATTTTTGTATTCATGTAAAAATTTAATATCAGGTTGATATTCTTTAATAATCTTTAAATTTTTAAAGGATGTTGAAAAATCTTTATAATATCCAATTCCTATTGCTGATCCAGTTGCTGCTCCTTGTGCTCCATCTGTATTATAAATTTCTATTTTAGTGTTACATATATTTGCAAAAGTTTCACAAAAAATTGGACTAAGAAAAAGATTAGCATTACTTACTCTAATTACATTTGGTTTTACATTTATATTTTCCATTATTTCAAGACCATATTTAAATGCGCATGCTATTCCCTCTTGTACAGACCTAATGAAATGATTTTTTGTATGTATATTGAAATTTAAACCAAAAATATTTGCTCCGATATCTTTATTATTGAATATTCTTTCAGCACCATTTCCAAAAGGATGAATGACTAATCCATCAGAACCAATATTTATATCTTTGCACATATTGTTCATTTGTTCGTATGAAAATTCATTATTAAATAGTTGATTTTTTAACCAACTATTTAAAATTCCACAACCATTAATGCATAATAAAACACCATATTTAGGATTTGAAAGTTGGCTATTTACATGTGAAAAAGTATTTACTCTCATTTGTTTATCAAAAACGGGTTTATCAAAAACACCATAAACTACTCCTGATGTACCAGCTGTAGCTGCAAATTCACCAGAATTAAGTACATTTAGAGAGAAGGCATTATTTGGTTGATCACCTGCTCTATATGAAATGGGAGTACCTTCTTTTATTCCAGTTTCTTTTGATGCCTCATAGGAAAGTCTACCTTGATCTTCAAAAGTATTAACAATTTCAGGTATTAAATTTGTAGATAAATTAAAATAATCAAATAGTTCTTTCGCTAGTGATTGATTTTTAAAATTCCAAAATACACCCTCTGATAATCCAGAAATAGTTGTATTAATTTTACCTGTTAATTTATATGCTATGTAATCTCCTGGAAGCATTATACATTTGATTTTCGAATAAATATCTGGTTTATTTTCTTGAATCCATTTCAATTTACTTATTGTAAAATTTCCAGGAGAATTGAGATAATTGTTTAAACAATGATCTTTTCCTAAATCATTTAAGGCTCTTTCTCCTATTTTTACGGATCTGCTATCACACCAAATTATAGAGGGATGTAAAATCTCATCGTTATTATCTAGAATAACTAAACCATGCATTTGATATGAAATACCAATTGAGATTATTTCATCATTTGAATTAATATTTGCTACAATTGCTTTAGAGGATCTTATTAGATTTTCCCACCAAAGCTCGGGATTTTGTTCTGCCCAACCGTTTTTTTTTGCAATGATAGGCATTTCTTTTTTAGGAAAAAAATCTGAAGTTTCAACTTTACTGTTTTCTAAATTTAAAAGAGAAGCTTTTACAGAGGAGCTTCCTATATCAAATCCGATTGAAAATTGTTTTTTGGGCATAATAATCTTTTCTTAGAATGATTATAAAACTAAATATTTCATTTAATTGAAACAAAATATTTTATTGCATAATTTATCGAACAAAATTTATCTATATTATTAACATTATATATGGGGAAAAAAATGTCAAGAAATATTGTTACAGGTAAAACAGAGTTTTTTAAAGATATCAAAAAGATTCAGTATGAGGGTAAGGAATCTGATAATCCTTTAGCATTTAAATTTTATGATCCTAAGTTGAAAGTAAATGGTAAAACTTTAGAAGATCATCTAAGATTTGCAATAGCATATTGGCATACATTTGGTCCAAATGGAGCGGATCCTTTTGGAATGGATACAAAAGACTATCCGTGGTTGAAAAATAATGACCCTTTATCACAATCTATGGAAAAAATGGATGCTGCTTTTGAGTTTATTTCTAAAATTGGCGCTCCATTTTATTGTTTTCATGATTTTGACATTGCAAATCCAGCATCATCATTTTTAGAAAGTGAGAAAAGACTTAATAAAATGGTTGATTATGCTTTAGAAAAGCAAAATGATTCAGGTATTAAACTTTTATGGGGAACTGCAAATTTATTTTCTCATCCTAGATATATGAATGGAGCATCTACTAACCCAAACTTTGAAGTAGTTGCATATGCAGCAGCACAAGTGAAAAATGCAATTGACGCTACAATTAAATTAGGTGGACAAAATTATGTTTTCTGGGGCGGAAGAGAAGGTTATATGTCTCTTTTAAATACTAATATGAAAAAAGAACTTGAACATTTAGCAATGTTTCTGACTCAAGCTAGAGATTATGGAAGAGCGAATGGTTTTAATGGTACTTTTTTAATTGAGCCAAAACCTATGGAACCCATGAAACATCAATATGATTTTGACTCTGCAACTGTAATAGGCTTTTTGAGAGAATTTGATCTTGTTGATGATTTTCAATTAAATGTTGAAGTAAACCATGCTACTTTAGCTCAGCATACATTTCAGCATGAACTTCAAATTTGTACTAACGCAGATATGTTGGGAAGCATTGATGCAAATAGAGGTGATTATCAGAACGGATGGGATACGGATCAATTTCCCATCAATATTTATGAGTTAGTTGAGTCAATGATGGTAATACTAAAAAATGATGGTTTTAGTACAGGTGGTATTAATTTTGATGCCAAGGTTAGAAGAAATTCAACTGATTTAAATGATATATTTATTTCTCATATATCTGGTATGGATGCATTTGCTAGGTCACTAATAATAGCAAATAAAATATTATCTGATTCAGAGCTTCCTAAATTATTAATGGAACGTTATTCAAGTTTTCAAACAGAGAATGGAAAAAAATATGAAAAAGGGGAATTAACTCTTGAGGAATTGTATGATTTATCCTTAAAATTTGGAGAACCTGAAAAAATTAGTGGAAAACAAGAATTATTTGAATCAATAATTAATAATTACATATAAGAAAGTCTTATGAATAAAAATATTTTAAAAATTTCAATTTTAGTTAGTCTTTTTTCATTGAATTTTAGTTGTATAAAAGTAGATGGAATAGAATATAATAGAAAAATTTCCAAAGTTAATACTGAAGTTAATAGAGACCGTATGCCCTGGGCATTTAGGATTAATATGGACGAAAGAGTAAGAAATATAATTCTCGCTTTGAATAAAGAATTGTGGTTGGCTTATGACGCTCAAAAATCTGGTTTGTATAAAGCATGGGTTGGTGGGGTTAATTTTGATGGAATAATTTATAATAACGCACATGGTCTTCAACCAACTTCAAGGGGTGTTCCCTACTTAGTTGATGAGTTAAAAGAATCTCCTTGGTCCATTCATACTGAAAATGGTTCTCAAAAGATTGATGCTGAATATAATGGATACAAACTTTTTGGTGATAAGATAAAATTGGAATACAAAATTATTCTTGATAATCAACAAGAAGTAATAATATCAGAAACTCCAGAATATATTGAAAGTGCAAATATGAATCCTGGTTTGCATAGAGAGTTTACTGTTGTTGGTTTACCAAGTGGTTATGAACTTTCTCAAAATATTAAATTTGAAAATTTAATTGATGTTGATAATCTACATTCAAATTCAAAGATTAATATTAAATCAATAAAAACTAATAAAGATGAAAATGGTTTTAAAGTTGATGCTGAGATTTTCCTTAAAAAAAATGGTAGTACTATTTTACAATCTTTTTTTCCAAAGAATCTATATGTCCATGAAACTAAAAATAAAGGTTCTGAGCAAAAAGTTGTTAATTCAGTTTATGAAGAGCTTGATGGTAAAGCATTAATTGGAAAATTAGGTTGTGTTGCATGTCATTACATTGATAAGGGTGTTTTAGGCCCTGCATATCAGGACGTAGCAAATAAATATGATAATTCTGACGAAACAAAAAAATATTTAGTTAAAAAAATACAAACTGGCGGTAAGGGTGTATGGGGTCCTCGTCTAATGCCCCCGCATCCTCACATTGATGATGCAACAGGATTAAAAATTGTAGATTTTATATTATCACTGGATACTTTCCAAGATGGTGAATATTTATCAGGTGTAGCGGTCGATTTTTATGATGTAGGTCAAGAGCTTCCATCTATGCCTAAATTATTACCTGGTCAAAACCCTAGTGTATCACAAGTTTTTCCAGATCTATTTTTCCAATCAGGTAATCCTGATGTAGGTTGGGAAGATCAAACAACAGATGATTTTCTAGATTTTTTTAGATATTTTACTATGGATATTGACGCTTATCTAAAAATAGATGAACCTGGAGAATATGAATTTAGATTTTTAGCAGATAAAGGTGGTTCATTTAAATTAAATGATGAAGAACTAGGTTACATAGAAAATTTAGGTTATGTCGATTGGGGAGGAGGTAATCCTGAAAGATTTAATGAATATTTTGAATATTTTAAAGCGGAATCCTCACCATCACTCAAGAGTTATGGCTCAAAATTTTTAGATAAAGGTTATCATAAAATTGATATTGAATTTTATCAAGGAATTCTTACAATGGCTATTGTGTTACAATGGAGAAAAAAAGGAGATTCTAAATTTGAAATGATTCCAGAATCTGTATTGTTTCATGATCCTAGAGATATTAAACCTACCTCTGCTGGACTAAAGGAAATTTATAAAACTAGTCCTCCTGGATTAGGTGGTTCATTAATATCTGTTCATCCAAGTTTTGATTTATTACCAGCAAGACCTGATTCATTTGAACCTAGAGTTGGAGGAATGGACTTCTTGTCAAATGGTGATTTAGCTATAGCAACTTGGGATGGAGAGGTTTTCATTGTAAAAAATTCAATGTCTGGTGATCCTTCAAAAATGTCAGTTAAAAAAATAGCAGATGGTTTGTGTGAACCTTTGGGTCTTGCAGTAGCAAATGATGAGATTTATGTTCAACAAAGATGGGAACTAACAAAGCTTATTGACCTTGATGGGGATGAAATTACTGATCATTATTATCCATTTTCTGATGATTGGGAACACAGTTCAGGTTTTCATGCTTGGGGTTTTGGATTAACATATCGAGATGGATTTTTCTATACCAATACAGGTCCGCAAATTAATTATGGAAATCCTAAAGATGCTGGAAAAACTCTTAAAATATCTATTACTGATGGAACATGGAAAGCTATTGCTCATGGCTACAAGGCACCAAACGGTATAGGATTTGGTTATGGTGGTGATCTTTTTACAACTGATAATGAAGGTGGGTATGTACCAACAAGTAAATTGATGCATCTTGATCTTGATAATGAAGAAGAATACCCATTTTTCGGAAATGCTTATGCTATGGGAAAAGATAGAGCTTCAGCAAAAAAGGTTGCAAAAAACTATAAAATTAAACCTCCAGTAGTTTGGACACCACAAAATGAAATTGGGAATTCTCCTAGTGAGCCTGGTATCTTAAATCAAGGACCTTATAAAAACCAAATGATAATGGGAGATGCAAGACATGGTGGTCTAAAGAGAGTTTTTATTGAAGAAGTAAATGGACAATTACAAGGTGCACTTTTCAGGTTTACTCAAGGTCTTGAAGCAGGTATAAATCGTTTTGTTTGGGGGCCAGATTCATCACTATATGTTGGTGGAGTTGGTGGAACTAATGATTTTACTTGGGAAGGTAAAAGATTTGGTCTTGAAAAATTGACTTATAATGGTAAAACAACATTTGAAATGCTTTCAGTTAAAATCAAATCAAATGGTTTTGAGATTGAATTCACTGAGCCAATTAGGTTAGGAGATGGAATATCACCATCCGATTATCTAGTACAACAATGGTGGTATGATTTAGATAGTGAAGGTGGAGTAAAACAAGATTTGCAAACTTTAGATATAGAATCATTATCGATTTCAACAGATAGAAAAAAAGTTTTCTTGCAAATTAATAATTTGAGTCAGAGTGATCATAAAGGTTTTGATGTAGTTTACATTAAAATGGTTAAACCTTTTTTTAGTGAAAGCTTACAACCACTATGGACATCTGAAGTATGGTATACTTTAAATGAAATACCATCTGCAGTAAATTCTTCTAAAACCTTAACATACTTCAGAGAAGATAATCTATTGTCAAAAGAAGAAAAAAAATATGGTTGGAATCTAATTTTTGATGGAGAGACTTTTAACGGTTGGAAAAACTTTAATAACAAAAAAATAACTAATGATTGGGAAATCGTTAATGGAATGATTTCAAATAAATCTCAAAATGTATCTTTAGTTTCTGAAAATGAATATGAAAATTTTGAACTTGAATTTGATTGGAAAATAGATAGAGCTACTGATGCTGGATTTTATATAAACCTTACAAGTGAGTTTTTAAAGAATAAAAACTTGCCTCCAGGCCTTGAAATGCAAATTATTGATGATAATTCTCATCCTGATGCTGCTGAAAGTAATACTAGAGTTACAGGTTCATTATATGATGTTATTCCATCTAAATTATTAATCTCTAATCCTCCAGGATCGATCAATCATTCTAGAATAGTATCTAAGAATGGTCAAATACAATATTGGTTAAATGGATTACTTGTTTTAGAATATGAAACTAATGGAGATTTTTGGAATAAAGCAGGAGTTGAGCACCCTTATTTTTCTTATAATATGAATGATAGTGGTTATATTGGCATAAGTGCACAAGAAGGAAAAATTTCTTTTAACAATATTAGAATTAGAAATTTAGCTGAAAAAGAATTAATTGGAAGTTTAGATTAATTATGGAGCTAATCTAAATATTTCCCAATTTTTTTCTTTTTTTTCAAAAATAAACCTGTCATGACTTCTGTTATCTCTTCCTTGCCAAAATTCCCAAATTGATGGTTTGATTATATAACCTCCCCAAAAATCAGGTCTTCTAAATTCAATATGTTTAGTTTTTATTTTTAAAATTCTTTTTTCAAGTATTTCTCTATTTTCTATAATTTGACTTTGGGGAGATGAAATTGCGCTAATCTTTGCACCATCAGTTCTAGAATTAAAATAGTCATCTGAAATTTTTTTTGATGTTTTTTTTATTGTTCCTTCAATTCGAATTTGGCGATGAATTTCCCTCCAATAAAAAACTACAGAAACCAAATTATTATTTTTGATTTCATTCCCTTTTTTACTATCATAGTTTGAAAAAAAAGTTATTGAATCATTTATTATGCCTTTAAAAAGCACATATCTGACTTTAGGAAAATCATTTTTTGATGTTGCAAGTGCCATTGCATTTGGTTCTTTTACTTTTGATAATAGTGCATCATTGAACCAATCTTGAAAAATTAATATGGGTTCTTTTTCTAAGTCTTTTCTTTCAAGTTTTTTGTTTCCATACTCTAGACGAATTTCTTTTAATATTTTATCTGTTATTTTCATTATTTATATTATAACATATACTAATTTTACATTATTTATATTTAATTTTTCAAATGATAGTTAATAATTATTATCAAATATTAAAATCAAATTATTCTTTAATTGACCTTAGATCTCAATCAGAGTTTGAAAAAGGGTCATTTCCTAATGCTATTAATATTCCTATTTTGAATGATGATGAAAGAGAGAAAGTTGGAATAGAATTTAATAATTTTGGAAAAAACTCTGCTTTAGATTTGGGAAAAAAATTAGTTAATAATTCGGAAAAAAAAAAAAGAGTAAATTTATGGTTAAATCATTTAAACAAATTTCCTAAAACCAATCTTTTGTGTATGAGAGGAGGTTTGAGATCTCATATTGCACAAGAGTGGCTAAGGGAAAATGGAAAAGAAGTCCCATTAGTTTTGGGTGGTTATAAAAAATTAAGAAATCATTGTATCAAAATTTTGGATAGAATTGAAGAAATAGATCAAAATTGGATTATTATTGGAGGTAGGACGGGATCAGGAAAAACCAAACTAATTAAAAAAATATCAAATAGTATTGATTTAGAAAATATAGCTAATCATAAAGGTTCTGCATTTGGTTCAAATACTACTTTACAGCCTTCAACGATTAATTTTGAAAATAAATTAGCAGTTGAGTTTTTACAAAAAAAATTAAATAAATTTTTAATACTTGAGGATGAATCTAGGTCAATAGGTAAGAGAACAATTCCTGAAAAATGGTATCAAAAAATGAAAAAGTCCCAAGTTTATATTCTTGAAACAACTTTTGAAGATAGAGTTTTAAATATAAGAAAAGAATATGTTGATGAAAAGATTCAATCAAATGTTACAAAAGAACTTTTAAAAAACTCAATTATCAACTCTTTATATAATATTAAAAAAAAATTAGGAGGAGTAAATTTTCAAAAAATTTCAAATATGATTTTAAAATCTTTTTCTCAAAATAATATGAATAATCATAATGAATGGATTGGATCCTTGCTAAAGCTATATTATGATCCAATGTATGATTATCAATTACTACAAAAGAAAGAAAGAATTTCTTTTGCTGGAAACTTTGATGAAATAAAAAGTAAATTAATCGAAAGATTTTAAATAAAATTAACAAATAAATGTTTTCAATTGGAGAATCTCAATGCTAGTAAAAAATTTTTATAAAATAACATTAATTTTTTTAACCACATTTTTTTCTGGATGTTCAAATTCTTCAAATATTTCTGAAGACATTTCTCAAGAAAAGGAAATAGAAGTGAATATAACAAACCCTTTTTTTAATAAAAGCACTTTAGTTTATGGTTATCCACATTTTGACAAAATAAAAAATTCTCATTATTTACCCGCATTTGAAAAGGGTATGAAAGAACACATAAATCAAATTAATGAGATAATTAAACAACAAGAGAAACCAAATTTTGAAAATACTATTATAAAATTGGAGAAATCTGGAGAATTATTAAATCGAGTTTCTTATGTTTTTTATTCAATGTCATGGGCAAATACAAATGACAGTTTAGAATCCATAAGAACAGCAATAGCTCCCCAGTTATCTGCTCATAATGATGAAATATTGTTAAATGAAAAATTATTTAATCGGGTGGAGAATATTTTCAAAAATAAAGAAAATCTAACTTTAGATAGTGAATCATTGAGGCTATTAGAAGAAACTTATAAATCATTTATAAGATCAGGGGCTAAACTTTCTGTAGATGATAAAGAAAAATTAAAGCAAATAAATGAGTCTATTGCACAGAACACCACAACTTTAACTCAAAATGTTCTAAAAGAAGTGAACGAATTAGCAATAGTCGTCGATAATCGTAATGAGTTAGATGGATTATCTGAGTCAATGATTGAAGTGTTATCACAAGAAGCTATAAAAAGAGGATTGGATGATAAATTTGTTATTACTTTACAAAATACAAGTGGTCAGCCAATATTGGCAAATTTAAAAAATAGAAAACTGAGAGAAAAAATCCATAAAACTTCTTTATCTCGAGGTAGTAGTGGGGGTGAATTTGACAATAGAGAAAGCTTTTTAAATCTTATAAAATTAAGGACACAAAAAGCAAATCTATTGGGTTTTAACAATTATGCTGAATACTCATTAGATGAACAAACTGCCAAAACTGTCGAAGCTGTAAATGAAAGATTAGCCAGTTTAACTCCACCGTCTGTAAGGAACGCAAATAAAGAAGCAATTGAGTTGCAAAAAATAATTAATTCTGAAGATAATAATTTTAAATTAGAATCATGGGACTGGGATTTTTATAGTGAAAAATTAATGCAACAACAATATCAGTTTGATGAGTCAGAGATGAAACCGTTTTTTGAGCTAAACAATGTTTTTTTTAAAGGAGTATTTTTTTCAGCTGAAAAACTTTTTGGATTAAAATTTAAAGAAATTACTACTTTACCAATTTATCATCCAGAAGTAAGAACATTTGAAGTTTTTGATAAAGATGAATCACTAATATCAATTTTTATACTTGATCCTTATTCACGATCTTCAAAACGTGGAGGTGCTTGGATGAATGCTTATGTTCCACAATCAAAATTACTTAATCAAAAACCTATTATTGCAAATCATCTAAATATAAATAAACCTGCTGATAAAAATGATCCTACTTTAATGACATTTGATGAAGTAATTACTGCTTTTCACGAATTTGGTCATGCAATACATGGAATTTTATCGGACGTAAATTATCCATCTTTTTCAGGGACATCAGTTCCAAGAGATTTTGTAGAATTTCCTTCACAGGTTTATGAAATGTGGGCAACTTGGCCTGAAGTATTGGAAAATTACGCAATACATTTCAAAACAAATGAACCCATGCCAAATGATTTACTGCAAAAGGTTTTAGATGCAAGGAAATTTAATCAAGGATTTAAAACAGTAGAATATTTAGCAGCGTCTTTGTTAGATCAGGCATGGCATCAAATTAGTATTGATGAAACACCTAATTTAAATGATTTTCTTACATTTGAATCTAATGCTTTAATGAGCGCAGGAATTAAATTAAACACAATTCCACCTAGATATAGAACTACTTATTTTTCCCATATTATGGGTGGTTATTCCGCTGGATATTATTCGTATATATGGAGTGAAGTTTTAGATGCTGATACAGTTGAATGGTTTAAAGAAAATGGTGGATTAAAGATGGAAAATGGTGATCATTTTCGAGAAACTTTATTATCAAAAGGCGGTAGTAAAGATGCCATGAATCTTTTTATGGATTTTAGAGGTCAAAAGCCTGATATTAAACATTTATTAAATAGAAGAGGTTTAAATTAAATCATATTTAATTTGAATTTTTATGAATGTAAAATATTTTATTATATTAGTTTTTTTTTCTTTAGTCTTTTCCCAGCAAGTAACTATAGATAAGAAAAAAATATTAATTTTACCCCAGAATAAAAATGATGAAATTTCTTATCAAATAACACGAATTTTTTCAGGACAGGCAGCAAAACTTAAAAGATTTGAAATTATAGATAGAAACAATCTATCAAAAATACTTGAAGAGCAATCATTGGGACTCACAGGAGTTATTATTGATGATGATATAGTAGAAATTGGTAATATTGCTGGTGCAGATGAAGGAATTCTTATAAATGTAATAGCTTTTGGCCAAAAAGGAGTTAAACCTAAAGAAGAAATAGAAGAAGAAAAAAAAGATAGAGAAAAAATTAGAAAATCTGGAGTGGTTTCAATTATTGCCAGAGATATAATAAAAGCGGTAATTGAAAATGATAAAAACAAAAAAAATGAACTCTACCCTAATAATATCCATACTACAATTAGGGTTCAATATGACATAATAAACTTAAAAACTGGTCAAACAATAGATTCTTACACCTCGAATTCAAATTATACTGGAGGTAATTTATCATATTCTTTATCTCAGGCATTATCAATTATTTCTCAAGATATTCAATTTAAATTGAGATCTTTTTATTCTTTAACCAGCGAAGTCCTTGATGTCAATGGAAATAATTTGACTATGTTGTTGGGCTCGAATATTGGTGTAAAGAAAGGATCAATTTTTATGATTCAAACACCTGAAAAATCAAGAGAAATTCGAGGAAGAGTTATTACTATTCCTGGTGAAAATATTGGATATGCAAGGGTAGAAAGAGTTAGTGATGATGCAAATACTAGTAGAGTTTTAAGAAAATGGAGTAAAATTAAGCCTGGGATGATTGCTTTGGAAAATCCAAAAAGAACTTATGTTGGAAGTTTTAGTTTTGGATTTTCTGAAACATCTCCAGAGGCTCTAATTAATCTTAAAATTTCAAGCAATCCTTTTGGTAAATTAGATGGAAAAATTTCATTTCAAGGTGGCTCCTTAAAAACAAAATTTTTGACATATGATCAAGAAGTTTCATATAAGTCTACTGGATTTGTTGGTTTAGGAATACATCTTGATTATAATCTTTTAAATGTACCATTTGGATTATTAACAACTGGTTTAACTTTACCATTTTATTTTACCTCAACAAAAGATGATTATGATAATGAAGTGAGCAGTGTTTTATCGGGATTATTATTAGAAAGCAGTTTGTCATTTATGATAAATCCAAAATTTGATTTTATTTTTAATTTATCCCTTCCAATTACAGAGTTTAACAATAGTAATTGGACTTTTTTAGATGAGAATGATGATGATTCAAGCAATGAAACTGATGCTGTTTGGATTAATCAATATTCTCCAGAATCTCTATTTCAAGATTTTCAACTGTCCTTGGGTTTTAGATTTTTTATTTTTTAATTCTAGGTAATAACTATTTCAATTAATCACAAATTCACAGAAACTTTAATCATTGGGAGTGGAATATCTGGTTTAACATGTGGTAATATTTTAGAAAAAGAAAAGAAAGATTTTTTAATAATTGATAAAAATAATAAAGTTGGTGGTCGAGTTCAAAGTGATTATTTGGATGGATTTATTCTTGATAAAGGCTTTCAAGTTTATTTAACTGATTACTCATTGGGGAAGAAATTTTTAAATTATTCAAATTTAAACTTTTGTTTTTTTAAACCAGGAGCCAAAATTTATAAAAATTCAAATTTTTACCACATTTCAGATCCTTTAAAAAATCCTCAAGAACTTCATAAAACATTATTTTCTCCATTAGCATCATTCAGTGATAAATTAAAAATTCTTTATTTAAAAAACCTTTTATCAAAATTTGATAATGATGATTTTTTAAATGATAAAGATATGTCTACAAAAGAATATCTTAAAAAATTTGGTTTTTCATTAAAATTCATAAATGATTTCTTTGTTCCTTTTTTTGGTGGAGTTTTCTTAGAGAATGAATTAACAACTTCATCTAGTTTTTTTAAATTTGTTTTTTCTAAATTTTCTAAAGGAAGTGTTGTTATTCCAAAGAAAGGAATGCAAGAAATTCCAAATCAATTATATAATAATATTAGTGAGGAAAAAGTTATATTAAATACTAAGGTTGTTTCATTAGATAATAATAAAGCAATTATTAATGATGGAACTTTTATAGAATTTAAAAAACTTGTTTTAGCTGGAGATATAAATGATGTTAATCCTAGAATGATAAAATATAATAGTGTGAAATGTTTTTACTTTGTTTGTGATGAAAAAATTTCTAACGATAAATACATACATCTTTTTCCTGAAGATGATTTAATTAACAATGTTGTATTTATAAATAATATATCACCAAGCTATGCGCCAAATGATGTTTCGCTTTTGTCTATATCTTTAATTGGAAATTTTTTAAAAACAGAAAACTTAATTAAAATTATTCAAAATAAAATTTCTAAAATTTATAGAATCAACTTAAATAAGATTCATTTTTTAAAAAAATATCAAATTGATAAAGCTCTTCCACATCAATCAAAAGGGTATTACGAGAGAAATATTAAACCAAGTAGGGATTATTTTTTTTCTGGCGATCATACAACGCATAGTTCAATTGAGGGAGCAATGTTAAGTGGAAAAAGAATTGCAGATAGATTAATTAATTAGATTTTTCTTTTCTAATAAAAACTGGGTTAATTTCCGATGAGTCTTTTCTGCTATATAAATAACCACTAGTATTAAAATCAAGCAAATCACTAGTTTTTTCTATTTTGTTTTGAATAATGTATCTTGACATCATTCCTCGAGCTTTTTTTGCATAAAACGAGATTAATTTAGGAACACCATTTTTAATGTCCTTGAATATCGGTGTTATAACTTTTCCATTTAAAGTTTTTAAATCAACAGATTTAAAATATTCATTTGAAGCACAATTAATTATTGTTTTATTTTTATGTTTTTTTAATTCTTCATTTAATTTCAGGCTAATTTTATTACTCCAAAATTCATAAAGATTTTTATTGGTTTCAATTTTTAATTTAATTCCCATCTCTAATCGATATGGTTGAATTAAATCTAATGGTTTTAACAAACCATATAAACCTGATAATATTCTAAAGTGATTTTGAGCATATGAAAGATCGTTTGAGTCAAATGAATTTGCATTTAACCCAGTGTATGTATCACCTTGAAAAGCAAAAATTGCTTGTTTTGAATTTTTAATATTGAAAGGTATAGACCAGTTTTGAAAACGGTCTGAATTTAAGCTTGCTAACTTATCACTTATATTCATTAATCTTTTTAAATCTTCTTTTTCAAGTTTTTTTGTTTCGTTAACTAGTTTAGATGATTCATTAAGAAAGTCACATTGTGAGTAACTATTTGATTGTGAAGGTGAATCAAAATCTAGAGTTTTGGCTGGGGAAACAACTGCAATCATTTTTATCCTTTATATGGAATATAGTTATTTTTTTAAAAATTTAAAATATACAGGGTAGAGAATTTTTCTTATTGCAATAGGGAAAACCATTATAGGGTAAATGAAAATTCCTAAAAAATTGTTTTTGTGTTTAAAATTCAATTCATCTTTAATAATAATAAGTTCATTTTTTTTATATATGCGATGAATGTGTAGCCAGCTAATTAACCCAAAAGGTAAAATTTTACCATGGTCTTTAAATTCAAAACTATTATTTGAAGATTCAAAATCAGAGTGATAGACTGACATCGTATGCCATTTAAATAACCAGATTTTAAATTGTGCTTCCATATTATTTTTAATGCCTTCCCATTTTAATATTTTAACTGGCTGTCCAATTATTAAAAATTTTATAAAAGCTGGTTCTTGAAAGTTTTTTTTAATTTGATTTAATGTTGACTTTTTTATTGAAACTTCTTGGGTATATTTCATTTAAATAAATTTTTTAATATTTGAATTTTATTATTAATACAAATTCTCTTAATTTAATGGTGTATATAATGTATAAATTTAAGTTAATTATATTTACAATAAAACTAAGTTCAAAAGTATGGATTTCCAATTGAAGGAAAATAAAATTTCTACAACTGATGCAATTAATTTAGAGCATAAATATGGAGCTCATAATTATAAACCATTACCTGTTGTGTTAAAAAAAGGAGATGGGATAAAAGTATGGGATGTTGAAGATAATGAATATTTAGATTTTTTATCTGCTTATTCAGCTGTTAATCAAGGTCACAGTCATCCTAAAATAATTTCAGTATTAATTGATCAAGCTAAACAATTGCAATTAACTTCCAGAGCATTCTACAATGATGTTTTAGGAACATATGAAGAATTTATAACGCAATTATTTGGTTATGATAAAGTATTACCAATGAACACAGGCGTTGAGGGGGGTGAAACTGCAATTAAGTTATGCAGGAAATGGGCTTATAAGGTAAAGGGTGTTAAAAAGAATAAAGCAAAAATTTTATTTGTTGAAGGAAACTTTTGGGGAAGAACATTAGCTGCATGTTCATCTTCATCTGACCCTGATTGTTATGAGGATTATGGTCCGTTTATACCTGGTTTTGAAATTATTCCATATAATAATTTAGAGTCTTTAAGGATTGCTCTGCAAGATGAAAATGTTGCAGGATTAATGCTTGAGCCTATTCAAGGAGAAGCTGGTGTTATTGTTCCAGATGAAGGTTATCTAAAACAAGCTTATAATTTATGTAAGGAAAACAATGTACTTTTTATTGCAGATGAAATACAAACTGGATTAGGAAGAACTGGTAAAATGTTGTGTTGTGATTATGAGAATGTAAAACCAGATATTTTAGTTTTAGGTAAGGCACTTTCTGGAGGAATGTTACCAGTTTCTGCAGTATTAAGCTCCGATGAAATAATGTTGACAATTAAGCCTGGTCAACATGGTTCAACTTATGGAGGAAATCCATTAGCATGTAAAGTTGCTCAAACTGCATTATCAGTAATCATAGAAGAAAAAATGGTTGAAAACTCTTATAATTTAGGAAAAATTTTTAGAAGTAAAGTTGCTCAAACTATGGAAAGAACAAATTTAATCAAGGAAGTAAGAGGTAAAGGTTTATTAAATGCTATCGAAATTAATGATTCTCCAAATAGTCGTACCGCTTGGAATATTTGTATTGAATTAAAAAATAATGGACTTTTGGCTAAACCAACTCATGGTAATATTATAAGATTTGCTCCTCCTCTTATAATTAACGAAAAATCAATTTTGAGAGCATGTGAAATTATTGAAACATCATTTTTAGCATATGAAAAAAAATAGTTTTACTGATAATTTTCAAAAAAGACATATTGGTCTATTGTCAAATGATGAAAAAAAAATTCTAAACTTTTTGGGGTTTAATAATCTTGATGATTTTATAAATGAAGTAATTCCTAATTCAATTAAACAAAGAAAAAAATTAATCTATCCAAAGAATTTATCAGAATCTAAAGTCATCGAGAAATTAGATGAATATGCCAAGTTAAATACAACTGGTAAATGTTATATTGGTCAAGGTTATTATCCTTGTATTATTCCTCAGGTAATTTTGAGGAATATTTTAGAAAATCCATCTTGGTATACAGCATATACGCCATATCAATCAGAAATCTCCCAAGGTAGATTAGAAGCCTTGTTAAATTTTCAAACTATGGTTAGCGATCTTACTGGATTGCCTATATCTAATGCATCATTGCTTGATGAGGGAACCGCTGCAGCTGAAGCAATGAATATGTTTTTCAGAAAAAGTAAAAATGGCTCAATTTTCTTGGTAGATTCTGAATGTCATCCACAAACCATTGAGATAATTAAAACTCGTGCTGAAGCTTTGAGTATTAAAATTAATGTTGAACATTACTCAAAATTTAAATTTAATAATGAAGTTTTTGGTGCTATTATTCAATATCCAAATTCATCAGGTGAAATCATCAATTATTCTGATTTTATCAATGAAGCTCATAAAAACAACACTTTTGTTTGTGTTGCTTCAGATTTAATGGCATTGACATTAATTAAGCCCCCAGGTGAATTTAATGCTGACGTTGTAATAGGAAATTCACAAAGGTTTGGTGTGCCACTTGGATATGGAGGTCCACATGCAGCCTTTTTTTCAACTTCGAATGAATTTAAAAGATTAATTCCTGGAAGAATTATTGGTATAACTAAAGATAAAGACGGAAATAATGCATTTAGAATGGCACTTCAAACAAGAGAGCAGCATATTAGAAGAGATAAAGCTACTTCAAATATATGCACTTCGCAAGTTTTATTAGCCATAATGGTAAGCATGTATGGGGTTTATCATGGTCCTGAAGGTTTAAAATCAATAGCTGAGACAATAGCGTCAAAAACAAAATTTGTTCATAAAATATTAAAAAAATCAGGCATTGAAGTTTTGACTTCAACTTTTTTTGATACAATACGTTTTTTTCCACAAAATGATTGGAAATTAATTGCTAAAGAAAAAAATATCTTTATTAGAGAATTTAATGATAATTCAGTTAGTGTTTCTTTAGATGAAACAAAGGATGAAAATGATATTATTAATCTTTTAAAATGTTTTGGAGTTCAAGTTAAAGATGTGGTTTTGGAAAAAAATAATTTTAATGGACATAAAAGAAAATCAAGATTTATGCAAAATGACGTCTTTAATTTTTTTCACTCAGAAACAAAATTAATGAGATATATAAGGAAATTAGATAAAAAAGATTTTTCATTAGCCAATGGAATGATTCCATTGGGTTCTTGTACAATGAAATTAAATGCATCTTCTCAACTACATTCTTTAAGAAATCCAGGTTTTTCGAATTTACATCCTTTTGTAGATAAAAAACATTCTAAAGGTTATAAGTTAATGATTGATGATTTAAAGAAATGGTTAACTGATATTACAGGTTTTAATGATATATCATTTCAACCTAATTCTGGTGCCCAAGGAGAATATGCAGGTTTATTAGTTATAAGAGCTTATCACAAAAAAAATAGTCAACAAAATAGAAAAATATGTTTAATTCCTTCTTCAGCACATGGAACCAACCCCGCAAGTGCGATTTTAGCAGGAATGGAAGTTTGGGTCATTAATTGTGATAATCATGGAAATATTGATAAAAATGATTTAATTGAAAAAGTAAAGAAGGCCAATAATGATTTGGCTGCATTGATGATAACTTATCCATCTACTCATGGTGTTTTTGAAAATGATATGATTGAAATTTGCAAAATTATTCATGAAAATGGTGGATTTGTTTATTTGGATGGAGCAAATATGAATGCAATGGTAGGCCTCAGCAAGCCAGGTGAAATCGGAGTTGATGTATGTCATTTGAATTTACACAAGACTTTTGCTATTCCTCATGGAGGAGGAGGGCCGGGGATGGGGCCAATTTGTGTGTCAAAAAAGTTAAGTCCTTTCTTACCTAAAAATCTCTTTGAAGATAACAATAATAATAAAATTGGACCTATTTCTTCATCTGATTATAGTAGTGCATCTATTTTGACAATCCCATGGTCATATATTTCTATGTTGGGTGGAAGTGGCTTATCAAAAGCTACTAAAATTGCTATTTTAAATGCTAATTACCTTGCAAAAAAATTATCTAATCATTATAAAATTTTATACACTGCTAAAAATGGTCTTATAGCTCATGAATTTATTATTGATTTAAGACCATTTAGAAAAAGTGCTGATATCTCTGAGGAAGATATTGCAAAAAGATTAATTGATTATGGTTTCCATGCCCCTACTATGAGTTGGCCAGTCGTAGGAACTATGATGATAGAACCAACAGAGAGTGAGGATATAAATGAGCTAAATAGGTTTGCCGAATCAATGATTAGTATTAGAAAAGAAATCAAGGAAATTGAAGATGGAATATGTGATAAAAATAATAATTTGTTAAAAAATGCACCTCATACAGCCTTAAAATTATTAGAGGATAATTGGAATTATTCTTATTCGAGAAAACAAGCTGCTTTTCCTTTGAAAAATTCTAATGAAAATAAATTTTGGCCAAGTTGTAGTAGAGTAGATAATGCACTTGGTGATAGAAATTTAATATGTACATGTCTTCCAGTTGAAATGTATAAAAAATAAAATCATGGAACCTATTTTTTATATTATAATTATTACAGCGATTGTTTTTGAATATTTAATTTCATCAACAAGCACTATTTTAAATATGAATAGTATTTCTGAGACTCTTCCAAAAGGATTTGAGGGGGTTTACGATGAAGATAAATATGCAAAATCACAAAAATATTTAAAAAGCAACTCCCAATTTAGTTTATTTTCATCTTCATTTAGTTTTTTATTAATAATGGTGGTTATTCATTTTGGGTTTTTTGGAATTTTAGATGAATTTGTAAGATCCAAGACAACAAATCCTGTTTATGGAGGATTGGTTTTTTTTCTTATAATATTTGTAATAAATGATTTAATTAATCTCCCATTTTCCCTATTTAAGAATTTTGTAATTGAAGAAAAATTTGGATTTAATAAAATGACAATTTCAATTTTTATTAAGGACAAATTAAAAAGTTATTTCTTAATTTTTTTTATTGGTGGAATTACAATGTTTTTAATATTATCTTTTTTTAATTATTTTGATGAATTTGGTTGGTTGATTGTATGGATTTTTTTAACTTTTTTTTCTATTTTAATTCAGCCAATTTTTATTCATTTTATAGCTCCTATGTTTAATAAATTTACTCCTCTAGGTGATGGTGAATTAAAAACTGCTATTGCTAAGTACTCAAAAAAAAATAATTTTCCAATATCAAAAATAGATATAATGGATGGAAGTAAAAGGTCAAATCATTCAAATGCATATTTTACTGGTTTTGGTAAGAGTAAAAGAATTGCATTATTTGATACTTTGGTTAAAAATCATAATACGGATGAGATAGTTTCAGTTGTTGCTCATGAGGTAGGTCATTATAAAAAAAAACATATATTATTTGGTATGATTGTTAGTGTAATTCAAACTGGATTAATGTTATTTTTGTTTAATATCATAATTAATAGAGTTGGTTTGTTTAATGTATTTGGGGTTTCTGAGCCTTCAATTTATGGAGGGTTAGTTTTTTTTGGATTGTTATTTGCTCCTTTAAACATGGTAATATCATTAATTTCAATAGCAATAAGTAGAAAGAACGAATTCGAAGCAGATCAATATGCTTTAGAAACTACTAAAAATCCAAAAGCGTTAATTTCTATGTTAAAAGGTTTAGCTTCAAGTAATTTATCACATTTGACTCCTCACCCGTTTACTGTATTTTTAGAATATAGTCATCCTCCTGTTTATGAAAGAGTAAAAAAAATTGAAAAAAAATAAATATTTAGTAATTAATTCTAATATGAATAAAGATAGTAAATCTTCATTTATAACAGATTTGTTAATAAAAAAAATAAATGAGAAAAATGATTCCAAGTTTAATAGTGAACTAATTCTATTAAGTGAATTTGATCTTCCACTATGTAATGGAAGTAATCATTTAAATAATAAAATTGTTTTAGATTTAAATCATAAAATAAATAAAAGTGATGGGATTATTATATTTACACCTATATATAATTATAATATTAATTCAGCTTTGAAAAATTTAATTGAAATGACAGGAAATGCTTGGAAGGAAAAATTTTTAGCATTTGTTTGTATAGCAGGCGGTGAAAAGAGTTATATGTCAGTTATGTCCTTAGCTAATTCATTAATGTTAGATCATAGGTGTGTTATTATTCCAAGATTTGTTTATGTTACAGGTACTGATTTTATTACTGATTCTAAGTTAAATGATAATATAATGACTAGAATTAATGGCTTAGTTGATGATTTAATAAAGTTTGTAAAGTCTTTAACTTAAAAAAAGGAAAATCTAAAAATGCAAAAAGGTAGTATTAATAGAGTTATTTTAGTTGGATATTTAGGATCTAAGCCAGAATTTGCTCAAACTCCTAGTGGAACTAATGTTGCAAATTTTAGTATAGCAACAACGGAAAGTAGAAGAAATTCTGAAGGTATTAATGAAGATAGAACTGAATGGCACAGATGTGTTGTTTTTGGAAGGTCAGCTGAAATTGCACAAAATTATTTAGACAAAGGTTCTTTGATTTATATTGAAGGAAGATTGCAGACTGATTCTTGGGAAAAAGATGGTATAAAAAGAAGCTCAACCAAAGTAATTGGAGATATGTTTACAATGATAGGGCCAAAACAAAATTCTCGTTCAAATGAAACATTTACTGAGCCGGTAAATGAACCTAATAATACAGAAACTTTTTCTAATAAAGCTTCTAATACTTCTAATAGTAACAATACTGAAGATGATATTGATTTGCCATTTTAGTAATAGTAATAAAAATAAATACTAATATTTATAATTTTAAGTATATTATAATATGATAATGGATAAAAAAGATAAAGAAATATTAAATATTCTTCAAGAGAATGGAAGAATGACAGCTAGTGAAATTTCTGATAGAATTGATTTATCAATTCCAACAGTAGCTGAAAGAATCAGAAAACTTACTGAGTTTGGGTTTTTAAAAGAATTTAGAGCAATAGCTGGAGCAAAAAAAGTTGGTTATGATGTAACAGCATATATCTTATTAGATATGTCATCAGCAAGTGACTATAATGATGTTGTTGAAAAATCAAAAAAAAATAGTGAGGTCTTAGAGTGTCATTCAATAACTGGAGAGGGTTCTCATATTCTAAAAATAAGAACTCGAAACACATCTTCTCTTGAATTGTTATTAAGGGACATTCAAGCTTGGCCAGGGGTTAGAAGAACAAGGACAATGATTGTTATGTCAACAATCAAAGAGACTACAAACTTACCTATTTAACTGTTAATATTTTTTTATTCCCTCTATCTTTTTCTATTAATAATTCAGTAAATTATAAGCAAATATGTTTCTTGTTTATATGTTTTTGTGGGTGATTAAATAAGATAGCTAGTCTTGTGTGTAAAAAATGGTAATTTGATGAACGTATCCAACAAAAAAAATAATTTTCCTAAAAAACAGGGCCTTTATGATCCTGCGAATGAAAAAGATAGTTGTGGATTAGGTTTTGTTGCAAACTTAAATGGAATTCCTTCCAGGCAAATTGTATTGGATGCATATGATATGTTGAGAAATATGGATCATAGGGGAGCATGCGGTTGTGAGGAAAATACTGGTGATGGCAGTGGTATTTTAACAGGGTTACCCAGTTCATTTTTGAATAAAGTAGTTTCAAATGAATTAAATACAAATCTTCCAAAAAATGGGATGTTTGGAACAGGAATAATATTTTTACCAACTATAAAAAAAGAAAAAGAAGAGTGTGTTAATTTTTTAGAAAAAATTATTATAAACAGAGGTCATAAAATTATTGGATGGAGAAATGTTCCTGTAAGTTCATCTAAAGCTAATATTGGCCCCTCAGCAAAAGCCTCTGAGCCTGATATAATGCAAATATTTATAGGACCAAAAAATAATTTTTCAAGTAGTGATTTTGAAAGAGAGTTATATCTAATAAGAAAATATTCCTCTCATTATTTAAGATCAAGGAATTCATTAAGTCAAAGTCATTTATTTTATATATGTAGCCTTTCTACAAAAGTAATTATTTATAAAGGAATGTTAACTACAGATCAGTTATCAATTTATTTTGATGATTTAAATGATAAGGATTTTGCATCTCATATCGCTATGGTTCATTCTAGATTTTCTACAAATACTTTTCCAAGCTGGGATAGAGCTCAGCCATTTCGATTTATGAGTCATAACGGGGAAGTAAATACTGTTAAAGGAAATACTAATTGGATGAGAGCTCGTGAGGGAACTCTTAGCAGTGATTTATTTGGAGAAGAATTAAATAAATTATTTCCAATTATTGAACCTGATGGTTCAGACTCAGGTAATTTTGATAATGTTTTAGAGTTCTTGTTAATGACAGGTAGAACTCTCCAAGAATCTATTTTGATGATGATTCCTGAAGCTTGGCAAAAACATAAGGATATGGATAATTTCAAAAGAGATTTTTATGAATATCATTCATGTATGATGGAGCCTTGGGATGGTCCAGCATCCATTGCATTTACTGATGGTGATTATATTGGTGCTATTTTAGACAGAAATGGTTTAAGACCAAGTAGATATTATTTAACACATGATGATAGAATTATTATGGCAAGTGAAGTTGGAACAATAAATCTTGATCCAAAATTAGTAAAATCAAAAGGAAGATTACAACCTGGTAAAATACTTCTCGTTGATATGAATCAAGGAAGATTGATTCCAGATGAAGAAATTAAGCAAGAGTTTTCTACTAATAGACCCTATGGTAAATGGTTGAAAAAAAATAAAATTTATATTGAAGATTTGCCTGATATTCCTAACTCTGAAAGTTTACATCAAGACAACTTAATTCAGAGAATGCAAGTGTTTGGTTATACTTCTGAAACAATGAGATTTATGCTTATTCCTTTGATTCATGAAAAAAGGGATCCAATTGGTTCTATGGGAAATGATTCTTCTTTGGCTTGTTTAAGTGATAAGCCAAGAATGTTATATGATTATTTCAAGCAAATGTTTGCTCAAGTAACTAATCCTGCTATTGATTCTATTAGAGAAGAAATCATTATGTCTTTAGAATGCTATATTGGTCCAGAAAGAAATTTAATTGAATCGACTGAAAAACATTGTAATAGGTTGAAAATTTCTCATCCTATTCTATCTAATCAAGAATTACATAATGTTAAGAATATGAATCATGAATCATGGAAAACAAAAACCATCGATATAACTTTTGAGAAATCTACAGGTTCTTCTGGTATGTTGGATGCAATAAAACGAATTTCTTTAGAGTCAGAAAATGCTGTAAAAGATGGTTTTAGTTTGATAGTTTTATCTGATAGAGCAATTAATAAAAATAAAATGCCAATAAGTTCAATTTTAGCAATTGGTTCTGTTCATCATCATTTGGTAAAAAAAGCTTTAAGAACTCAAATTGGTATAATTCTTGAAACTGGTGAAGCTAGAGAGGTTCATCATCATTGTTTATTAATTGGGTATGGAGCAGATGGAATTAATCCTTATCTTGCTTTTGAATCATTATGCAAATCAAGGTTAGATGGGTTGACTAATAAAGAAAGTTTCCCAGATGATGATTCTATTATTTCTGCATATAAAAAAGGAGTTGCTAAAGGAATTTTAAAAGTTTTAGCTAAAATGGGTATTTCCACATTACAATCATATAAAGGGGCTCAGGTATTTGAAGCTATTGGTTTAAAAGACGAGGTGATAAACTTAGCTTTTGTTGGAACTGCTAGCAGAGTTCAAGGGATTGGTTTTGATGTGATTTTTGAAGAAAGTTTAAGAAGGCATTCATTGGGATATCCTAATAAAAAAGAAAGAGCTGTTGTTGATCTGAGCAATCCAGGAGAATTTCATTGGAGAGCAGAAGGTGAAGTTCATGCTTGGAATCCTGAATCAATTTCATATTTGCAAAAAGCATCATCCGAAAATAATATCAAATCATATGAATTGTTTTCTAAGCATATTAATGCTCATTCGAAAGCAAAATCTACTCTTCGAGGTTTAATGGACTTTTCTTTTAATGAAACAATTCCAATTGAAGAAGTAGAGCCGGCAAGCGAAATAGTAAAAAGATTTTGTACGGGTGCAATGAGTTTTGGTTCAATTTCATCAGAGGCGCATGAAAGTTTAGCTATTGCTATGAATCGAATTGGAGGAAAAAGTAATACTGGTGAGGGTGGTGAAGATCCAGAAAGATTTAAATTAATGAAAAATGGTGACTCTAAAAGATCTGCAATTAAACAAGTTGCTTCAGGTAGGTTTGGGGTTAGTATTTGGTATTTATCTAATGCTGATGAAATCCAAATCAAGATTGCTCAGGGTGCTAAGCCAGGTGAGGGTGGTGAATTGCCAGGGCATAAAGTAGATGGAATAATTGGAAAAATTAGAAATTCTACTCCTGGTGTAGGTTTGATAAGTCCGCCCCCGCATCATGATATTTATTCAATCGAGGATTTAGCTCAACTTATATATGATTTAAAGAATTCAAATCCTTCCGCTAGGATAAGTGTAAAACTTGTTTCAGAGGTAGGTGTTGGAACTATTGCTGCGGGAGTTACAAAAGCTCATGCTGATCATATAGTTATTGCAGGTGCATCTGGAGGAACTGGTGCTTCCCCTCTTACAAGCATAAAACATGCAGGCTTACCATGGGAATTAGGAATCGCTGAAACTCATCAAACCTTAATTTTGAATGATTTGAGAAGTAGGGTTGTATTACAAACTGATGGTGGAATAAAAACAGGAAGAGATGTCGTAATAGCTGCTTTGCTTGGAGCTGAAGAAATAGGTTTTGCTACTGCTCCATTAGTTACAATGGGTTGTATAATGATGAGAAAATGTCATTTAAACACTTGTCCTGTTGGCATTGCAACTCAAAACCCAGAATTAAGAAAAAAATTTTCAGGACAGCCTGAATATGTTATTAATTACTTATTTTTTGTTGCTGAGGAAGTTCGTCAATTAATGTCAGATTTAGGTTATAAGAATTTTAATGAAATGATTGGTAGATCAGATAGATTAATAATGGAAAAAGCTATTAACCATTGGAAGTCTGATGGAATTGACCTTACTTCAATTCTTAATCCAGTTAAAAAACCACATGATCGAGTGGGGACTTATTGTACTCAAAAACAAGATCATGGTCTAGACTCTGCTTTAGATAATAAATTAATAGAGTTGTCTCAAGACGCAATTGATCATGGTAAAAAAGTTCATATAAAGTTACCAATTAAAAATATTAATAGAACTGTTGGAACTATTTTAAGTCATAT
>sequence15
CAACAAAAACAGTTGAAAATAGCAATACTGCGGCCAAGGATAATTTTTTCATTTAAGTAATACTCCGTTAATGGTACTAATCTATTATAAAATTATTAAAATTCCAATAAGGATAATATGTAAATATATTGAACTAAATTAAATATTATTTATTTTTCATCAATATGGCTTTATTAACATCTACAGTTAAAAGACAAAACAAACCTGTAATAAAAAAAAATAAAACAATGAAAATACCTGCCCGTTGGGAATCAAAAGTTTTTGTAATTATTCCTAAAAGAAATGGACCTAAAAAAGATGTAAATTTTCCAGAAAATGTATAAAATCCAAAAAATTCATTAGAATATTTTTTTGGTACTATTCTTGCCATTAATGACCTGCTAGAGGCTTGATTAGGTCCAGAAAAAATTCCAACTAAAATTCCAGCTATCCAAAACATATTTTTATTTTGAGCACTTATTGCCAGAATTGTTCCAAAAATTAAACCAATCAAACTTATTAAAATTGTTTTTTTACCTCCAATCTTATCATCAATAGGTCCAAAAACTAAAGAACCAATACCTGCAGTTATATTTAAAATAATACCGAATAACATAATTTCAGAAAATGAGAAATTAAAAGTACCTGATGCGTAAATAGCTCCAAAAGCAAAAATTGTTACTAAGCCATCATTATAAAAAAGTCTTGCTATCAAAAATTTACTTATTTCTCTGTAATTATTTAAATCACGATAGGTAATTTTTAACTGATTAAATGAATCATTAAATAATTTAAAAAGGTTTTTGTTAAATTTTACTGATTCATCTTTCATAGAGAAAATTAAAGGACATGAAAATATTAAAAACCAAAAAGCAACAAGTAAATTTGTAGCTCTTATGTTTTCACCGTTTTTACTAAAACCAAACCATGGAGTTTCAGCTTCAACAAAACCAATCATTGCTATAAACATTACAACTAATCCACCCATAAATCCTGCAGACCATCCATATCCAGAAATTTTTCCAACTCTGTCCATTGAAGTTATATCAATTAAATATGCATTATAAAAAACTTGTCCCAATTCAAAAGCGACATTTGCTATAATAAAAAAAAATAAAGCTTCAAAAACCATTCCCTCAGATGGAAAAAATAATAAAACAGTTGATAGGAAACCTGCAACTGCAGTATAAATCAACATCTTTTTTTTTAACCCGCCTTGATCAACAATGACGCCAAGAAGTGGTGACAAAATTGCAATTAAAATTGCACTAATAGAAATACCTCTTGACCAAAATAATGTTCCAGTAATTTCATCTGGAGATATAACTTGAGTAAAATAAGTTGCATAAACAAAGGTGACAACCAAGGTGAAAAAAGCAGAATTACCAAAATCATATAAGCACCAATAAAAAATATTTTTTTTATTATTTATCAATTATTTTTCCTACCAGAATTGAAAAAAAGTTATGAAAGATAAATTTAATCGATACGCATGCCAATTATGATTTGTTATAATCGGTATATTTAAAGATAAATCTAATTCAAAAGGTATTGAAGATATTTGATTACTAAAATAAGAATTATGAAATGTTAATGATAACTTTTGATACACCATTAAAGTTTTTGTATCATATCCTTTGTGAATATCAGTTCCTCCACCCATCCATTCATTCCAAAAACTATTTTTTGAAAAGTATTTATCTCTATTTTTATAATACCAAGTTTGACCAAAAGAAAATGATAATCTTTTAGGAAATAATTCAATAGACGCATTGAGATTTCCTAAAGTTTCATTTCCTAGCTTCATCCTGTAAGTATCACCTAAGTTCAATAAAATGGATTCATCATCAATAATGAAAATACCTCTAGGAGAAACTCTAGTATTAAATTTACCCTCTCTATTAAAAATTGATTTGATCAACCAATTGAACCTTATCAACCTAGATCTATAATTGGTGTAAAATTCTCCAAATAACGATGCATTTAAAGCTGATAATCCTTTTCCTAATGGTAATTCTTTAAATTGGTTTGGAATTAATAAGTCATTTTTTTTGTATATACTTAAAAGTTTTGCAGAAGGAATTGTTATACCTAGACCACCATAAACAGAAAATATAGATTCACCAACCCAAACTGGAGATCCAAAAAGATGAAAGTTGACACCTAATTTAATATCTCCTAACCCTGAAGATGACCTTTGAGGATAAAAATAATTCATTATAGAATCTATTGATGTTGAATCAATAGATTCAGAAAATGGATTATAATTTGAATCATAAATTACTTTGAATGGGTCATTCCCAGAATTTAATGCCCAAAGAATCGAATATTCTCCAGATTCATCATAATATGCATTATAAACTGAATTAATCTTTTCAAACATAAAACTTGGAATTGAATCTTTAATAGGTGAACTAAAAATCTCTTCGAAATTTTTTTTATTTTCATTATGATAATTCAAAAAATCTTCAATTCTACCATTTTCAAATTCCATACCATTCCAAGACCAATATTCATTTTGATTAGCTGTTAAAAAGACTGGGATTGAAATCATAAGTGTTGTTTTGTTTGATATTCCAAATTCAATATCATAAAATATTTTGTTATAATTAAATTTGCTTTCTGTATTAAATATTTGACCATTTAATTTTACAGAGTCAGGACCAAAAAAATTTTCTGTAAAATCATAAAGTTGAAAACCCCAACCTTTACTTGAGGATAATGCATCAAAATCAGTAATTATTTTTTGTACATTTTCCGAAACAGTTATTTCGAGATCACCTAAATCATTTAAATCTTTAAAAGAATTTTGATTTTTGTGGTCAAAATATTTAATATCATAATTTTTTAATGTAAAAACTTCTGAATGAAATCCTTTTACTTTACCTGATGATTTCCATTGTGAAATTGACTGCTCATTATTTACAGAAAATCTCCAAACATTTTTTGGTAAGGTAAAATTTGAAAAAGCATTTAAAAATGAAAAAGTGAATAAAGCTAATAAAACATTTTTCATTAATTATATATTAAAAAACGTTCTCTAAATTCATTGAATTTAATTACTTCTTTTGACCAAGTAGCTGGAAGCTTATTAATTTCACGTTTTTGTGCAATAAATAATCTTAAGTAATTATGACCAAATAAAAAGTCAATATAATTTGACCCTGTCCATTGAAATCTTCTATCTAAATTTGCAATAATTGACAATATCGAAAGAGCAGTTTTCAATGGGTCAAACTTATCTATATCATAAATTTCCAATTCAACACCATAACATTTCGTTCCTTTATATATTGGATTTGAAATTAAATTTGATATTGAGTCAGGAAAGAATTCTGTTTTTATAAAATTAACACCCTCAAGTTTTTTTTTTCTTAACCCTGATATCAATTGATCTGGAACGAGCCATGGAGAACCTATGACCTGAAATGGTTTTAAAGTACCTTCACCAAATGAAAGATTTGTACCTTCAAACAGAGACATCCCATATGATAATTTAAGAGCTTTGTAAGAGTTTATATTTTTCCAATAAGGTAATTTAAAATTATAATCAACTATTGATCTTTTCCAATTTGACATAGGTAGAATTGTTAAATCACATTTTAATGATTTTCTAATCCAACCTGTTTCATTTATCATCAACGCATATTCACCTATTGTAAGACCATGACGAATTGGAACAAGATGATATCCTCTAAAAGATTGATATTTAGGTCTAACAATAGGACCATCAATAATTACACCATTTAATGGATTTGGTCTATCCAAAAGTAAAACAGGGATTGAATTTGTAGAAGCAGATTCCATAATCTTTGTTAAAGTTGTCATAATAGTGTGGAACCTAATTCCTGTATCCTGAATATCAATTAATATAATATCAACGTCAAATAAATCGTTTGCTGTTGGAATATATTCATTATTCCACAACCTTTTAATTTTTGAATTAAAAATTAAATCAATATTATTTTCTGAAGATTCAATATTTTGATAAGGATTTAACAAAACTCCATGTTGAGGAGTAAAAACTACTTTAATTTGAAACAAATCACTATAATTAGATAAAATATCCAATAAATGATTTCCATTTCTATCAACTGAAGTTTGGTTAGTAAAAACTGCAATTTTCTTATTTTTTATTAAGTCAAAATTTCTCTCAATTAAAATATCTAGACCTGTAAATACACCTGGAAGAAAATCCATATTTGGAACATTAATTATTTTAGAATTATTATAATTTTGATTAAAAACCAAATTACAACTTAATATTATTAAAAATATATTGATCTTCATTTTTTTGAAAATAATTGATTAAGTATAAAAGCAAAAATGACCATAATTAATGAACCTATCAAAGTAAATAAAGGCCATGCAATAGAAGTGAAGTTGACGATATAAATCATAGATAACATCGAAATCATAAAACTTATAACAATAAAAAATGTTGAAATATTTTTTTTCATGAAATTTAATATAAAAAAGCCCAACATTCCTCCATAAGTAATTGAAGATATAGATAATGCAATTTCAATCAAAGGACCACTTGTTGAAGTAAAAATTAATGCACTAAATGCAATAATTAATGCCCAAAGAAATGAAATCAATTTTGAAAACTTAATATTATAATTTGCTGGAATAATATCTTTAATCCAATCAGTCATAGTTGATGAAGACAAAGAATTAATTGAAGAGCTTAATGTTGACATTGCTGCTGAAAAAATTGAAGCAATTAAAAAACCTTTTACTCCAGATGGTACGTAATTTAATAAAAATGAAGAAAAAACTTCATTTGAACTTATTTCTTTGCCTTCGTAAAAAACCCAAATGCCAATTCCTATAAATAAAAAAATTGCAAATTGTATAAATGCAATAAAACCACTTCCAATTAATGCTTTTCTACTTGAAGAGATATTTTTTGCAGATAGTAGCCTTTGAACCATTAAATGGTCGGTTCCATGAGATGCAAAAGAAAGAAAAATTCCACCGAAAAACGAAGTGAAAAAATTATATGGATTTGTCATTGGGTTAGAAAATTGTAAAAATTCAAATTTTTCATTTTTCAAACCAATTTCAATTATTGAATAAATGCCACCATCAATTAAAATATTTAAATAATATATTGTCAAAAACCCACCAATAAGGTATATAAAAAATTGTATACTATCAGCCCAAATCACTGATTTAATTCCTCCATAAATCGAATATAATAAAGTTGTAATAGTAATAATAAAAATACAGATAGTATATGACCATCCTGTAATTAAAGATAAAGGAATTGCCGTCATAAATAATCGAACACCATCAGCTAAAACTCGAGTAACTTGAAAAACTGCAGAAACAAATCTTTGAATATTTTTACCCCATTTAATTTTTAAAATTTCATAAGTTGATTCAATTGAATTATTAAAATAATATGGTAATAAATAGATACTAATCAAAAACCTTCCAACAATATATCCCAATGATAATTGCAGAAAACCAATATTACCAATGTATGATAATCCTGGTATACTTAAAAAAGTAAGAACAGATGTCTCTGTGGCAACAACAGAAAGCATTATCAAATACCAAGAAATTTTTTTTTGTCCTAAAAAATATTCCGAAGTAGTAACTTGATTTCTTCCATTAATATAACCAACAAATAAAATGATAATGAAATATATAATTATTACTAATAAATCTAAGTTTTGCAAATCAATTGATTTATTTAAGAGTCTTCATTACATCATTATGAAAATTTACTCTGAAATCTCTCATTCCAGATCTATTTCTTGATGGGTGTACTCTATTTGTTAATACAATAATACCTATTTTTTCGTTTGGATCAACCCACATTGATGTTCCAGTAAATCCAGTATGACCATAACTACCTTCAGAAAAGAAATCTCCTGCTAAACTTCCTTTTTTTGATGGAGTATCCCATCCTAAGGCTCGGTTGGTACCTTCTGGAAGATTTTGTTTTTCAGTAAATTGATTTATAAGACTTGAATTAAAATATCTTATACCTCCTAAATGACCACCATTTATCATCATTTGACAATATTTAGCAAGATCATCAGTTGTTGAAAATAACCCAGCATGGCCTGCAACACCCCCCAATTGCCAAGCTCGTTCATCATGAACTATTCCTTTTAATAGACCTCTGTCATAAATAGTATCAACTTCTGTTGGAACAATATTTTTAAGATACTTCGGCAATGGATTAAAAAAAGTATTTTTCATTTTTAAAGGTTTAAAAATATAATTTGAAGACAATTTTTCAAATTTCTTGTTCGAAACGATTTCTAAAATATTTTTTAATAGAATTGGACCGAAATCACTGTAAACATATTCTGATCCAGGATCATTTATCAATGGCTTTTTTATAATTTCTGAGAGAATTTTATCTTTAGAAAAATCAATTGGAAAGGTATCAAAAGCCATTAATCCAGAAGAATGTGTTAAAAGATGTCTTATTGTTACTTTATTTTTTTCTTCACCTGAAAAAATAGGTATGAAATCTTTTATTGGTTCATCTAAAGGTAATCTCTTTTGGGAATATAACTTCATAGCAACTGGAGTAGTAGCAACAACTTTAGTTAACGAAGCTAAATCATAAATTGATTCAGAATTAATCTTAATTTTTTTTTCATATGTTTGATAACCAGATTGAAAATTAAAAACTTTTTTTCCGTTTTTTAAAATAACTACAGATGCTCCAGGGAAAATTGAATCATTAATTGCATTATTGATAATTTTCTTTGCACTAGAAAAATCATAAGATTGATAATCTTCACTCAAAATATTTTTTTTATGTCTATTTAATCCTTTTCCTTGTTGAAGAGATTTAGATAAAGTTACAGGAAGCTTTCCATTTATTTCTTCAGATCCAAAAAGGGCGTCAACCATTGCATTCATAGAAATAGAACCATAATAATAAGCTGCAATATAAGTTTCTATTGAGTCTACGTCATCTAAATATGGTGATCCAAAGGAAGTTACAATAATAGGTTTATTTGTTTTTTGAAGTTTTTGTATTAATTCTCTATGAGAAGAATCGATTGTATAAGTACCAAGGTCTTGTGCAACTCTTATTAAAAGTGATATTATTATTAAATCTGAATTTTCAAAATCATTAATAATTTTATTAATTTCTGATTTTGAAAGTGTTTTTGAATAAAAATCAGAAATAACATTCCCATGTATTCTTGAAATTTTAGATCTATAGGTATTAGAATATTTTAGCATTCCTTCACTAGTGGCCAATAATAAATGTCCAATTGATTTTGTTTTTGAAATGTCTATCGGAATTAAATTATTTTTATCATTGATTAAAGTAATAGATTTTTTTGCTGCTTGAGCAGCAATTCTTTTATGAGATGGTTTACCTAATATATCCCTTGATTTATTAAAATCTATTTTTTTATTATTCCATAATTTTAAATCAAGTTTTGATTTTAAGATTCTTTTCACTGAATTATTAATTCTCTTTTCAGAAATTCTTCCACTTCTTACAGATTCAATTACTCCTTTAATTGCTGATAAATTATCAATAGGTAATAATATAATATCTGAACCAGCTTCAATTGTCTTAATTGCTGCTTCTGAAGACCAATAAGATTCTGTAATACCCCCCATTTCCATTGCATCTGTTACAATCAAACCTTCATATTTGAATTCTTCACGTATAATTTTTCCACTTAATTCATAAGATAATGTAGCAGGAGTATTAGTAGAGTCCATACTTGGTACTGCAATATGTCCTGTCATTATCATTTTGACATTAGCTTCAATTGCTTTTTTAAATGGTAATAAATCAATTTCTCTAAATTTTTTTTCACTTTTATTAATTACTGGAAGGGTTGTATGAGAATCAGTGCCAGTATCACCATGTCCGGGAAAATGTTTAATACAAGCAATAATACCATTTTCTTGACATCCTTTAATAAATTCTGATGAGTATTTTGTTACGATATCAGGAGAATCACCATATGAACGAAAATTAATTATTGGATTTTTAGGATTACTATTTACATCTAAAACTGGAGCAAATGTAACATGAACGCCAAGCGCTCTTGACTCAATTGCCGTAATTCTTCCGTGTTCATATGATAATTTAGAATCATTTGTAGCTGACATTGCCATGCTTGATGGAAAAAGAGTTGCTCCGGATATTTTTTGACCAACCCCTCTTTCAAAATCTGCTGCAATTAATAAAGGTATTTTTGAAAAACTTTGTAATTCATTCAAATTATAAATAGTTCCATGAACAGAACCAACATACGTTACAATTCCACCAATATAATGTTTTGTAATCATTTTTTTTATTTCAACAAATCTTGAATCATCATTTCTATAAAAATCTCCAGTATATCTAAGCATAAACATTTGCCCAATTTTTTCTTCTAAAGATAATTTATTGATGAATTCATCAACATTCATTGAAAATGCATTCAAATAAAAATTTAAAAAAAGAATATTTAAAATAATTTTTTTCATAATTATTATATTATTTAATAATCTTAGTTGCTCTCTTATCAGATATAGATGTGAATAAATTATATGGGTTAAGCTCTATATCCTCAGCAATAATTTCAATAGGTATGTGATTTTGATTATCTTTTCCCCAAATTAATACTTTTTGACCCTCAGCAGGTTTATCATTTTCAAAATTAACCATAAATTGATCCATACAAATTCTTCCACATATTTTATATTTTTTACCATTCCAATTTACATAACCTCTTTCAAACCATGCTCGGGGCATTCCATCAGCAAAACCAACTTGAATTACTCCTATATTTGAAGATTTTACAGTTTTATATAACCCACCATAGCTAATTGGAATATCTTTTTTCACTCTCCTAATCAATACAATTTCCCCTTTAAAATTCATAACTGGTTGAATTTGAGGAACTTTTTTTAAAGAATTAGAGGGTAAAGCTCCATATAATAACATTCCGACCCTTACTAAATTATAATTGGAATTATCAAGATTTGAAACACCTCCACTATTAGATATATGTACCCATTTCAAATCTATTTTATTTTTAATTATTGATAAAATATTATCAAATTTTTCTTTTTGATTTATTGCAAAAGACAAATCGCCTTCATCTGCAGTAGCTAAATGAGTATATATTCCATCTGGAATTAAATTTGTTTTTTCAATGAAATTATTTAAAAATTCAAAAGAACTTTCATAGGGAATTCCTAGTCTCGTCATTCCTGTATCTATTTTTAGATGATACTTAGGAAAATTTTGCTTCTTTATCATATTTTCTATAAATATTTCTAAATCAGAAAACCAAGAAACGTTAACAATAATATTATATTTTATTGCTAACTTATATGATTCTCTTGACAATCTTTCAAAAATAATAATATCAGCATTAATTCCATTCTTTCTAAGCTCAATAGCCTCATCAATTGTAAAAACAGCGAAAAAATTAACTCCTAATGATTCAAGTTTTTTCGAAATTGGAATTACCCCGTGACCATAAGCATCTGCTTTGACTACAGCTAATAGAGAATTATCACCTATTATCTTCTTAATATTAATATAATTATTTTCTAATCGATCTAAATCTATTTCTATAATTGGCTTAGCCATGATTAATAAATTTTTTATAATTATTTGGATTAATATTTTCCAAAATACTTAGTCCACCAAAAACTGCTTTATGATTGCTTTTTTTCCAATCAATATCAATTAATTTTGAAAAGAGCATTTTTCTATAAAATTCATTTTTCAAAATTAAAGAACCATGAATTCCTATTTTATCATAAATAATATTTTTTGATTTTAAATCCATTACAATTTCTTTTAAACCATCGCATCCATCATCACATATTTTATACGCAATTTCATTTCCAATCTCAGCTAATTTAATAATTTTTGGTGATAAATTAGCCAAACCAAATCTACCTTCTTCTCCTAAGCTATAATTTAATACTTCATCAAAGTTGTTTTTGCCATAATGTTCTTTTACAAGTTCTATTAATTCCTTATAAAAAGTATTATTTTCAAAACCCTTATTTGAAATTAAAAAAAGAATAAGAGTTTTTGCAATCCAATATCCACCACCAATATCATTTTGATCAAATCCCAAACCACCAGAAATAACAAATTTCTTATTTTCATTTGAATTAGAAATACCTATACTACCTGTTCCAACCAATAATGTAGTTCCTTTATCATCGCCCCAAATTGTTTTATGTGCAAGTTCTGCATCAGATGTTAAAATAATTTTTTTTCTAGGAAAATAGTCTTCAAAAAAATCATTTAAACTTTTACTGTATTTTTTATTACTTATTCCAGCTAAACCCAAAATAACTGATTTTACTTTGTCTTTGTTTATTCCATTTGAGTCAAACATGTTTATTAATACTTCAATTAAATTCTTTATTCCAAGAGATCCATAAAAATTGGGGTTGCTACCAGGCCCTGACCTTTCATATTTAATATACTTTTCAACATCAGCAATTAAAAAATCTGTTTTAGAACCACCTCCGTCTATTGAAAGAATTAAATTACTTTGATTCATGTTGTTGTAATAAATCAATTTTTAAATCTTCAAAATTTGTAAATGTTTTTGTTGAGCAACCCAATATCCATGAACTTGTTTTATTAATTGGCAAATTTAAAACTAGGTAAACTGGTTTGGAAAAATAATATGCCATAGTTAATTCACCATGAGTACCGCCACCTAAAATGACAGATTCATCCCAAAAACAAATGATGTAATCAGCATTATTTTTTATAAGGGATAAATCCCTATCAATTATTTTATGTATTATATTATTAAATTTCTGGGGGTTTTTATTAATCCAATTTCTATAATTTTTTATTTCGTATTTAGTTAAAGTTTTCTTTTGAATTTCAACAGGATCAATAACATCATGATCAAGATTTTCCTTTAACCATAGTTTAATTTTATTTCTCCATTGAGAACCCGAATCTTTTGCATTTTCCATACCACCTGATAAATATGCAATCATCTGTTTAAATTTTTTGAGTATATGTAAATGTTAAACATGTAGTTAATAATTATAAAAAAAAGAACAAAAATTAAAAAAATCATATCAAAACTATAAATAAACAAAATCGATCTTAAAGATTCAACCATTATATATGTTGGAAAAAACTCTATAAAAATATGTAAAGAATTTGGAAAAAAACTAATTGGAATTAACCAACAAGAAAAGAAATAAATAAATAGTAAAAATAAAAAAATTGGTATACTAGATTTTTCAAAATTATAATTTGACATTCCAAATGTAAAACCAAGGTTTGATGAAAGAAAAATATTAATAATTATAAAAAATAAATAAATAAAATAAAATTGAATGTTAAAAAAAACACCTATTAAAAGTTGTAAAATTATAAAAATCAAAATTGATCTTGCAAATTCTAATGGAATAATAGATAACAAATAATTAAAAATAAATGAAATTTGAGATATAGGAGAAATATTAATTTGACTCAATAATTGTGATTTTTTTATAGTTTGTATGTCAGAATAGGTAAATAAAAATGAAAATGCAAATGAAATTGAAAAGATAATTCCTATTAAAATCCAAGATTCATTTGGAAAATTTTTGTAAACAGGGGATTGTGATGATAAAACAAAACCTACTGCTAACATAAAAAAAATAGGTAATAAAAGAGAAATTGAAATTTCAAATAAAAAATGATGTAGAAAAAACTGTATTCTTCTTACAAAAAACGCTTTAAATATGTTCACAATTCATTCCTTGGTAGAGTTTAAAAAAAGAGTATCTAAATCAATTTTATTAATTTCAATATCTATTAAATTGTCATTTAAAACATTTTTCAAAACTTTAAACAGTTCTTCTTTATTTTTTCCATAAAATTCAAAAATATTTTTATCTCGTTTCGATTCGATTAATAAAGAATTGTTTGACAATTCATTAAAAAGTTTGTCATTTAAGTTTTTAAACTTTAAAACAAATTTATACAAGTTTCCTGTTTTATTAATTAATTGATTATAAGTTCCATCAAGTACTATTTTACCGTCACTTAAAAAAATTATTCTTTCATCGATATTTTCAATCTCTTTTAAATATTGCGTTGTATAGATAATTGTTTTATCATCTTTGATTTTATTTATAAATTTCCAAAATCTATTTTTTGATTTTAAATCTAATGATATTAGAGGTTCATCAAGCAAAATAATAGAGGGGTCATGTAATAAAGTTCTTACCAACATAATTTTTCTTAAAAAACCAAAAGATAACTCTTTTGGAAACTTATATAGTAGTTTATCTATACGAAATTGTTCACTTAGAAAAGATATTCTTTCAACTATTAGTTTTTGATTCATTTCATAAAGTCTTGCATGAAATTGAAAATTTTCCAATATATTTAAATTTTCATCTAGATTTATATACTGAGGCATATAACCAATCTTCGAAAATATTTTCTTTTCTCTGTTTACAATATTATTACCATTTATATAAATTGATCCAAAATCAGGTGATAAACCACCAGCAATCATATTTAATAATAATGATTTTCCTGAATCATTAGGTCCAAGAATAGAAGTAATAGATCCTCTTTCAATTCCAAATGATAAACCAGCTAAAATAGATTCTTTTTCTATGTTTTTACCAATTTTTTTTAATGATACTGAAGCTTCCATATTTTAATGGGCACTAAGCCAAGAATCCCCAATTCCATAATCAACTACTAGAGGAACATTTAATTTCATAGCATTTTCCATTTCATATAATACCATTTTTTTAAGCTGGTCAACTTCCTCTTGTGGAGTTTCAAAAATTAGCTCATCATGAACTTGTAAAATCATTTTTGATTTTAGATTATTTGATATAATATTCTTATGAATTGAAATCATTGCAATTTTAATCAACTCTGCAGCAGTACCTTGAATTGGCATATTAATTGCAGCCCTTTCAACTGCACTTCTTATTCTTTGATTTTTATTTAAAATATCATAGCAATATCTTCTTCTACCTAAAATAGTTTTAACATATTTATTTTTTTTAGCAAAATCTATAGTATTTTCAATATAATCTTTTATACCTGAATATCTATTAAAATATGATGTTATTATTTTTTTTGATTCAACCATTGGTATTCCTAATTCCTGAGATAACCTATAGGGTCCAGCTCCATACATTACACCAAAATTTACTATTTTAGCAGTTCTTCTCATGTCAGTTGAAACATCCTGAATTGGCACATTAAAAAGATTAGAACTTGTCCTAGCATGAATATCTTCATTGTTAATAAATGCATCAATTAGATTCTTGTCTTTACTTAAATGAGCCATAATTCTTAATTCAACTTGTGAATAATCTGCTGAAAAAATTTTCCACCCTTTTTTTTCAGGAACAAATGCATTTCTAATTTCTTTTCCATCACTTGTTCTTATAGGAATATTTTGAAAATTAGGGTTACTACTTGACAATCTTCCCGTTGATGTTATAGTTTGACTAAAAGAAGTATGAATTCTTCCAGTCTTATCATTAATTAATTCTGGAAGAGTATCAATATAAGTAGATTTTAATTTTTGAATAGTTCTATACTCTAAAATTTTTTTTGGAAGCGGATGAATATTTTTTAAAAATTCAAGGACTGTCACATCGGTTGATCTTTTTTTAACTTGTTTTAAACCAATTTCATCAAACAAAATTTCTGAAAGCTGTTTTGGAGAATTAATATTAAACTCTTTGCCTGAAATTTTAAAAATTTCTTTTGATAGAGAAAGAAGTTTGTTTTGCATCCAAAGAGACATATTTATCATCATTTCTTTATCAATAAAAACCCCATTTAACTCCATTTCAGTTAATACATCTATTAAAGGTAACTCTATATTTTTATAAAAATCATATAAGTTATCATTTAAAATTTTATCACTTAGTATGTTTACAAGCTGCAAACATATATCTGAATCTTCAACAGCATAAAATTTAATTTTTTCAAGCTCAACATCTCTCATATTTTTTTGATCTTTTCCAATGCCAATAACTTCAGAAATTGGCATCATTTCATAATTAAGATATTCTTGACTTAAACGATCTAATTTATATGTACGTTCTTCAGGTTTGATTAAATGAGATGCAATCATGGTATCAAATGAAATTGGAGTAACATTTATATCATGTCGTTTAAAAATCAATAAATCATATTTTATGTTTTGACCACATTTATGAATTTTTTTACTTTCGAGAATGTGCTTTAACTTTGAAAGAACAGTATTTAAATCATTTTGACCACTAAAAATATTTTTCTTCTTTTCTGGAAATAAAATTGGAACATACCATCCCGAATTTTCTTTAATTGAAAAACTAAGACCTACGATATTTGCTTCAATTGGATTAACGCTAGTAGTTTCTAAGTCTATTGAAATTAAAGTTGAATTATTTAATTGACTTACGAGGCTATCTAATTTTGAATCATTATCAACTATTAAATAAGATTTTTCAATTTTGTTTATTTTTTTTTTATTTAAATCAAGAATATTTAATTCTTTTTTAAACTTATAAAATTCCAATTCATCAAAAATATCATTTACTTTTTTGAAATTAAATGTTTTTAATTTCATATCATCAAAATCAACATCTAATTTCATGTCAGTCTTAATTGTTACTAATTTTTTTGATAAATAAGCTAATCTAGATTCATTTTTAAGACTTTCTCTTATTTTTTTATTTTTTACATCATTAGCATTTTCAATTATTTTTTCAAAAGAACCATATTTTTCTAATAATTTTACTGCAGTTTTAGCACCTACTCCTCTCACACCTGGGACATTATCTGAACTATCACCCATTAGTCCTAATAAATCAACTATTTTCGATGGAAAAACACCCCATTTTTTTTTAACCTCATTTGGACCAAAAATAATACTAGATCCATTTTTCCCAGGGGTGTGTAGTTTAATATCAGAATCAATTAATTGCATAAAATCCTTGTCACCACTTATAATTCTACAATCTAAATTGTTTTTTTTTCCCATAATAGCAAGTGTCCCAATTATATCGTCAGCTTCAAATCCATTAACTAATAAACTTTTGATATTCAATGAGTCAACTAAATCCCACAAAATAGGGAGTTGAGATCTTAATTCATCAGGCATTTTTTCACGAGTAGCTTTATATTCAGGATACATTTCATGTCTGAAAGTTTTTTCTTTTCCATCAAAAACTGCAACAATATAATCAGGAGATTCTTCTTTAATTAATTTTAATAAAGTATTTGTAAAACCATAAACTGCACTAGTATGTTGACCCTTAGAATTAATTAATGGGTTTCTAATTAGAGCAAAGTGTGATCTATAAAGAAGTGCATAACCATCTATGAGATAAAAACTATTTTTTTTTGTTTCTTTCATTATTTATTAAGATTTTACATTTACTTATATGTACAACCTAATGTAAGTTTATAATAGTTTTAAATAAAAAGATAACTAATTTGGAGAATTTTATGAGTCAACCATTTACTTTACCGGATTTACCTTATTCACAAGATGCATTAGCCCCTACTATATCATCAGATACAATAGGTTTTCACTATGGCAAACATCATGCCGCGTATTTTAACATGCTTAACAAGCTAGTTGAAAATACAAAATTTTCTGAAATGAAACTTGAAGAAGTTGTTAAAGAAACTTTTGGAAATTCAGAAACACAAAAAATATTCAATAACGCAGGTCAAGCATGGAATCATATACTTTACTGGAATCAAATGAAACCGGGAGGTTCAAATAAACCTTCAGGTAGGTTACTTTCAATGATTGAAGAAAGTTTTGAAAGTTTTGAAAAATTTAAAGAACAATTTGTAGCTTCATCTGTTGGTGTTTTTGGAAGTGGTTGGTGTTGGCTTGTTCAAAATGATACAAATCTTGAAATATTAGGTACTCCTAATGCTGAAAATCCATTATGTCATAATAAAAATGCTCTTATGGGTATAGATGTCTGGGAACATGCTTACTATTTAGACTATCAAAATGTTAGACCAAATCATGTAAAAGCAGTTTTAGATAATATAATTAATTGGGATTTTGTTTCTGACAGATTAAGTTAAAAAATATTATAAAAAAGATAGGGGATAATTATCTCCTATCTTTTTGAAATAATTGGTAATATCAGCTTCATTGATGTACCATTTTTTTCTGAAGAAGATTCAACTTTAACAACTCCACCTAAAAAATCCTCAACAATTCTTTTAACCATACTTAAGCCAATTCCCCAGCCTTGCTGTTTATTTGAAAAACCCGGCCTAAAAATATTATTCCAATCTTTTCTTGGTATACCATTACCATTATCATTTATAATAATAATAACATTTTTTGAAACTAACTTTACTATAATAGATATAAAACCTTTTTTATTTACTATAGAATCAATTGCATTTTTAATTAAATTTTCTATTGTCCATTTTAATAATACTGGTGATGTAAAAATTTCAATATTATTTGATTGAACATCTAAATTAATTTTAATTTCATCTTTGGGTAATCTTCTTTTAAAATATTTAGTTAAATCAACTAATAATTTATTTATAGAAATTAATTCAAACTTTGGCTTTGAACCAATTTTTGAAAATCTCCTACTTATTTCATTTAATCTTTCGACATCAGCTTCCATATCTGGAATTAATTTATTTACATCTTTAGGATAGTCACTTAATCTTTGAATCCAACCCATTAGTGAAGATACTGGAGTTCCAAGTTGATGAGCAGTCTCTCTTGCCATTCCAAACCAAATATTTTGTTTTTCAGCTTTTCTAATAATTTCAAAACCAATAAAACCTAATAAAATAAATAAACTCACTCCTATAAGTTGAGCATAAGGAAGAATTTGCAATCTTTTCACAATCAAAGAATCCCCATAATGCAAATAACCGATTTTGAATCTTTTTGTATCTTGAATATTTATCTCAAGAGGTATGGGATTATTTTGCTTATTCATTGATAAAATTATTTTTTTTATATCTTTATTAGATAAATTATTTTCATCATTTAAGTTTTTCCAGATTACCGGATTACCTAATGTATCAGATTGAATAATAGGAAATGTTACTTTCTGAATTATCTCACTAAAAACAAAATCAAGTTCTACATCATTAGCTTCTGTTATACCTTTAACAATTAATTCAGCATATAGATTCATCGTCTTTCTACTATCATTTCTTAAATTATTAATAATAGATTGATTATAAATGAACAGGCTTGTTATCATAGCCATAGCTAAGATAAATAACGCAGTCTTAATATTTTTTAATTGTTTATATATCCACATAGATGAAATATATAAATTGAAAAATTGGTATACTAAGAAATATAATTAGTTTTTTTCATGTGTTCAATAATGTAATCCACTTCATCATCAAGTGTAGAAGTTGAAGTATTTATTACAATTTCAGGATTTTCTGGTTCTTCATATGGATCATCTATACCTGTAAAATTTTTTATTTCACCAGCTCTAGCCTTTGCATAGAGGCCTTTTACATCTCTTTTTTCGCATACTTCGAGTGGACATTTCACAAATACTTCAATAAAATTTCCGATCTCATTTCTTGCGTAAAGTCTTTCAGATATATAAGGAGAAATAAATGCACAGACCACAATAACTCCATGTTTAACTAATTGTTGAGCTACAAATGTAACTCTTTCAATATTTTTATCTCTATCTTCCTTACTAAAGCCTAAATCTTTTGTCAGTTTTTGTCTTACAACATCACCATCTAAGATTTGAACCCGATATCCCATATTTATTAACTTTTCTACTAAAGGGATAGAAATAGTAGTTTTACCAGAACCTGATAAACCAGTTAACCAAATTGCTACTCCATTATCATAATTATTAAATGCAGTAAGAGGTTTATTTTGTTTCATTTTTATAATACCTTAATAAAATTTTATTAATTTCAGGACGAGTGAACTCAATTGGTAGATTTTCGCCATTTAACAACATTTCACGAACTTTTGTACCACTTAAAAATATTTTTTCTTCATTTTTTGCAATTGATGTTTTAGATGTTGCCATACCTTTTGTTCTCTTACAATAAAAGGAATGTTCAAAAAATAAAAGTTTGATTTGAATATCATTAAAATCAAAATTTTCAAATATTTTTTGAGCATCATATGTTCCATAATAATTTCCAACACCAGCATGATCTCTCCCAACAATAAAATGAGTGCATCCATAATTTTGTCTTGTCAATGCATGAAAAATAGCTTCTCGGGGACCAGCATAACGCATAAAAGCGGGATAAACTGCTAACATTGCATGTTTTTGAGGAAAATAATTTTTTATCATAGATTCATAACATTCCATTCTTATTTCTGATGGAATATCATCTTTTTTCGTATCACCAACAATTGGATTAATTAACAAACCATCAACTTGCTCTAATGCACATTTTAACAAATATTCATGAGCTCTGTGAATTGGATTTCTTGTTTGAAAACCAACTATAGTTTGCCATTCTTTTTTAACAAATTGTTCCCTTAAATCTATTGGTTCATAAATATAATTAGTAAAATTCTGAATTTGATTTATTTTATATGCTTCTACTTCACCAGCAATGTACCAATCACCTGAGTTTTTTAATACGTTTACACCTGGATGATTTAAATCATCAGTTAAATAAACTGATAATGCTTCTTCAGTTTTATTAGGTTTAAAAATATCTGAAATAAATATTTTACCTATTATATTTCCATCTTTATTAGATAACAATACTTCATTATGATTTTTAATTCTATTTAATTGATCATCTGAAACAGGTAAAACAATTGGTAAAGACCAAACAAGATTATTTGATAATCTCATATTTTTAAGGACGGACAAATAATCTTCTTGATTCATAAAACCCGTAATAGGACTAAAAGCACCATTGGCAATTAGTAAAAGATCTGAAATTGAACGATTAGTCAATGAAAGTATTGGTTTATCGAGTTCAGAGTTTGAATCTCTATTGCTATAGAGATTTATCAATTTATTTCCGTGAGGTTTTATCATAAAATTTTAATTAAATAGACTGCTAATTTAATACGAATTTTATTTTATAACACGCATTGGTCTAAAAAAAATAAAAGAAATGATAACTAATAAAAAAAACATAGTATATGAAATAAAATTCGAGAGTAAATAAAAATTATTTTTGGTTTTAAAAATTATTTCATGTTCACCAGAGGGTACAAAAACACCTCTTAAAACATGATTAGTCCTAAAAATATTTGTTTTTTGGTCATTAATAAAAGCTTCCCATCCTGGACCATAATAAATTTCAGAAAGTACAAGAAAACCATCACCTTCAATATTTACATCAAAAATGATTTCATTCTCAGAATATTTTTTTAATTCGATATTACCTTTCTTTAAGAAATTTTTAACATTGTCATTTTCTTTATAAATAATAGCATGATTTTTTGAATCAAATTTCTTATCTAAAAGTTTATTTAAAGATTCTTTTTCATTAGTAACTTCAAGATTATTAACAAACCAAGCTTTTTCATTAACTTCTAAATTTTCATAAATATTAAATTGGTTTACATTAATCAAAGCAAATCTTGGGTCATTAATTTGTTGCTTTGTTACTATATATTTAATGTTCAACATATTTTGAATATTCTTATTATTTAATGCTTTGCTATCAATTAAATCTTGGTAAATACGTAATTTTACCGGCCTATATCCACCAACACTAGGAATATTAAAATTTGAATAAAAATTTGAATTAAATTGTTCCAATGGAAGAATTCTAAATTGGTCAATATTTTTTTGTAAAAATTTCACTTCATTAGTTGGTCTAAATTGTGATGAAATGAAGGAGCTGTTTTTTAAATTTAAAAATTCAGTATTAATAATTATTAAGTCAATTATTAAAATAAAAGTGAAAATTGGGACAACGAAATTAATTTTTAAAAATTGTTTTTTCACAAACCAAACTAAGAAAATTGAAATAATTGATTGAAATAAAATCAATAAAAAACCTTTATTAAATAAAAAAATTCTTAATGCTTTAATTTGATTTAAAATAATTTGATCATATTTAAGTTCATCTCCTATTTTTAAGAAATCAATAAAATATCTACCAAAAATAAATAAAAATAATGACAGAAAGAAAAAAGGCATCATTAGGTATATAATTTTATTTATTTTTTTTTCTTTTTTAGATTGAAAATATTTAATTATTCCAGAAAGACCTAAAGTAGATAAAATTGCAAATGTGAATGGTAATAAAACATAAATCATTGATGGAACTCTAAAAGAACTGAATAATGGAGCAAATTTATAAATTGGCCAAAATAGTAATGGGAAAAATTTACCAAAACCAATGATTATAATAATTAAAGTTGAAATAATTATTGACCAATAAAAAGATGATAATCTATTTATAAAAAAACCTACAAAACTTAAAAGAACTACTATAAAACCCATATAGTGGGTTGATTGAGTAAAAGGCATCATTCCCCAATATGAAACAGAATTAATATCTCTTGTTGGAAAATTTTGTAAACCAAAAAAATATGGATTAAGAAAAGAAATAGATTCATTTGGGTGAAATGACCATTGAGTCGTATAATCCCATTTTTTTTGGCTAGTATCTTCATCCATTTGATTAATTGTAGATCTAGTAGATTCCTTATGAAATTCATATATTGAATAATAAGGGTTTGCAACAGTAATTATACTTATTAAAATAGACAATATTAGAAAGGAAAAAGATTTAAAATGAATTTTTAAAAAAAAATTTTTATTGTAAAATGATGAAAAAACATACCATAACCAATTAAAAACAATTAACATCCAAGTGTAATAAACGATTTGAACATGCTTTGTCCACAATTGAAAAGCAGTAAATAAAGATAATAGTAAAATGTATTTTATTTTTCTTGAATCAATTATTTTTGTTGAAAATAAAATTATAAAAGGAATAAAAGCTATTGCATATAATTTAGCTGGATGACCAGCATTTATCAAACCAAAACTATAGGGAGTTAATGAAAAACATATTGAACCAAATAAACATATATTTCTTGTTAAGTTTATTGAAAGCAAATAATAAAACATTCCAATTCCAGCAATTAAAAAATGAAAAAAATATCTAAGACCAATATTAAAATTAAAAAAATCAAAAAATTTTCTTATTGGGTCAGCTGGAGCATATATAAATCCTCCATAAGATGGCATGCCTGAAAATAAATTTGGAAACCATTGTGGCATATTATTAAAGTTGGTTAAATAATTTTTTGCCCAATTATCAATCGGAATTCTATTAATCAAATCTGCTGATTCTGGTATCATGTTGAATAGAATCATTTTATTTAGAAAGAAAAAACTCAGTAAAAATAAAATAATTATATAAAATAAATTATTTTTTTTCATCAGACTTTTCTAACTGATTGATGTAATTAATCCAATTATTAGGATTAGTACTGGTTTTATAATAAAAAATATTTGAGGTGTATTGATGCGTGAGAAAAGGAATTTGTTTATAAAAATAAAGTTCAAATTCATTTGATAATTTAATTAATGTATTTTTCTTTTTATTATCATTTTTCAAAAAATTATATGATTTAAAAACTGTTGATCTAAGATTATTTTTTTTTGATTTAATATAAAAATGATAACCAGTATCAGGCGATGAAATTCCTGTAAAATATTCTAAATAATATGAAAGATTTTTAACTAAAAAATTATTATTAAGTCTTTTTCTTGTAGAAAATCCAAACAAACGAACAAATTTTCTAAGAAAAAAATTTAATAATCTTTTTGATTTTTTTGGATATGGATACCAACTTGTTTTATCAGTTAAAATCCATTTAGTTTTAGAAAAGAAAAATATTGGACTTGGAAAATTATGAACTTTTCCAAGTTTCCAATTAGGATAAGGTGCACCAACTGCAATATCTCCATTTATTAGTTTTTTAATACAAAATAAATCCCATTTTTTTTTAAATACATATGTATCCGGGTCGATTATAAGGGTGTAAAAAGAATTAATTTCTTTCATTGCTCTATCTAATCCTAATGAATGTGAAATAGAACGTTGTTTTAATTTTGGTAAAAAAGGTATTATAGTAATTTTTTTTAAATCATTTATTAATTTAATCTTATTATATAATTTTTTATCCTTACCATTAGTATTATCTATAATTATAAAAAAAAGTTTCTCTTGGTCATATGCTTTCTCTTTGAGATTTGAAATAAGTCTTATAATATGATTTGATGAAAACCAATTAACTAATACTATAGAAATATTTTTATTTTCAATCAAAATGTTAAATTGAACTCAAACTTTTAAATTTAGTTTTTAAATAATCAAATTCTATAGGGATTTTAGACTCTTTTATTTCTTTACTTCTATTTAATTTAGGGTCAATGAATTTGCTTATTATTTCTTTGTCAAAATCAATTTTTAAATATTCAAACATTTTGGATATAACGTAATTTGAATTTTCTATTAATTTTTCATAGAAAAAATAAAATGTTGGTAAATTGTATGATTCAATAAATGTTAAAGCTCTTCTATTATAAACTTCCCAAAGTTTTAATCCAGAATAAATATCAAGTTTATCTCTTTTCTTTAATGAATTTGCAACTGCTAAAGGTTCTCGAATAGTAAAAATAATTTTAATATCTTCTTTATTATTATTTTTTAAAATTATATCTAACCAATGATCAAGAGTTAAACATGTCCTTGGATCTTTCCAACCCCAATTCGAGTATTGAAGATTTTGCTTATTAACTAAATATTTCATTTTAATCTCTGTTTTTTTTTCAGGTAAAGGAAAGGGTATATTATAATTTAAAGATTTAACATTATAATTCACTTTTTTTAGAATTTGATCATTTATTTTTCTAAAATCATAATTTTCATAAAATCCCTTTGGGTTTTGTGGTAATGGTTTAGGTTTAAAATTATCTTTTGAACCCATAATAATATTATTTAAGTGCAATATTCCTGATATAGCTGAAGTTCCACTTCTGTGCATTCCTAAAACTATAACAATCATTATTTTTTATTCTTTATTAATACAAACAATGCACCGTTTGTAAAAATTTCATTGAGAAATGGTATTTTAGAAAAGGGATTTTTAAAAGTAGGTAAATTAAATCTAAATTTATATGCAGGTCGTAAAAAATATAAATTATTTTTTTTAATTATAAAATTTGATTTGGCAAAAAGTTTTTTCATACCACTTACTGAAATTCTTGTTGATTTAGTAGCTAATAAATATCCAATTGATTCTTTGGGATGATTTACAAAAGAAAGAAATCTTTTATAAAGAAAATTAGGTAATAAATGAATATAAGGTATTTTACCAATATTATTTTTGATAGTTTGTTGATGACCAGCATATGGACAATATTTTGGAGGAAAAGAAATAAACAATTGTCCTTCATCAGATAATAAATCATACATATTTTTTAAAGCATTAAACTTATCATCTATATGCTCTATTACATCACGTATAATAATGAAATCATATTTTTTATTATGTAACTGTTTATATGATTGTTTATCACATATATCACCAGTTAATAATTTTAATTGATTTAAATTATTTAATAATTCAGAGTGAGAAAATCTTAAAGGTGAAAGTTCAATTCCTGTGGTATGAGCTCCTTTTTCTTGAAAAAATTTTAATAATCCAGCTTCAGCAGGACCAATTTCAAGAACAGATTTATCTTTAATTTTTTTTATATCAAAAAACTCATATAAAAACTTTTCACCATACCAATATTGCTCATAATATGCTCTCATACTTCTTTTGTTAATCTCAGATTTATTACGGGGAATTTTTTTATTCTGTTCTTTTTTTAGAAGAGTTAAGTGACTTAATTTGTTATTCTTTTTCATTAGTTATAATATTTTTTTCTAAAACCTATAAACTCATTTTTTTTAAATATAAATCTATTTATAAAATTATATATAAAACCAATACCATATCCAAATATTTGAATTGGAATTATTAGTAATAATAAAAAAAAAGACTTAAAACTCTTAATTTTAATTGAACCAAAAACTGAAACTATAATTAAAAATAAAAATAATATTAATAAAATAGTTAAAAAAAAGTAGGTTTGAAAAAAACTACCTATTATTAAAAAGAAAATAGAAAAAGTTGCTAATGAAGGAATATAATGTAAGGTTTCAAGCATTTTTTTATCAATCACACCAAGATTTATTCTTGCAACACCCCAGTTAAAGACTTGTTTAAAAAATTTTTTTAATGAAGTTCTCCTTCTGTGATAAACTATAGCATTTGATAAAAAATTTACATTATAACCATTATTAATAATTCTATTACTAAATTCAATATCTTGTCCATGTCTTAACTTTCCAAATCCTCCAATTTTTTGAAATATAGAACTCTTTATTCCCATATTATGACTTCTTGGATAAAACTTTGCTAACCTTTTATAACCTGAACCTCTTAAACCACCAGTAGTGAAAAAAGAATTCATACTAAAATCTATAGATTTTTGTAAATCAGAAAAATTGTCTTTAAAACTATCTGGTCCACCAAATGCATCAAATTTTATTTTTTTATATTTTTTAATAATTTCTAGCAACCAATTCTTATCTGCTTCACAATCTGAATCAATAAATAAATAAAAATTTCCGTTCGCATTTTTCATGCCATTATTTCTAGCAGCTCCAGGACCTTTATTTATTTGTGTTATTAATCTAATATTAATGTTTGAATCAATAATTTTATTTTCAATTATATTCCTAGAATTATCAGTAGAACCATCATCTACAATTATAAGCTCATATTGATTTGGAGAAACTGACTGATTAATTATTGAATCAATTAGAAATAAAATTTCATCTTGTCTATTATAACAAGGAGTTATAATACTAAAAAATAATTCCATTTGTTAATTTAATTTTTATCATGAAAGATAATTTCATCTTTTTCATCAAATGATTTATGATTACTTTGAACAATCATTTCTCCAATTAACCCAATAGAAAAAAATTGAACTCCAATAATTATTAACATAACTCCTAATACTAAAATTGCTATATGTTTAGAAAATGGTTCACCTATATAATATTTTAGATATAAGACCCATAAATTTATAAAAAAACCAATAACAGAAAATAAAAAACCAAAGAAACCAAATAGATGTAATGGACGTTTTAAATATTTAGTCAAAAATAAAACCGTAATTAAATCAAACAATCCTTTAAAATATCTTTCATTTCCATATTTACTATTTCCAAATTTTCTAGGTCGATGGTTAACAATAAACTCATCAACTTTAAAACCTTTTTTAAAAGCAATAACTGGAATATATCTATGCAAACCACCATAAACATTAATTGATTTAATTACAGTCTTTTTATAAGCTTTTAATCCACAATTGAAATCATGAATTTTAATACCTGTTAAAAAACTAGTAGTGAAATTAAATAATTTGGAAGGTAAAGTTTTTGACAATGGATCATTTCTTTTTTTCTTCCAACCTGAAACTAAATCATAACCATCATCTAATTTTTTTAATAAATTAGGAATTTCTGAGGGATCATCTTGCAAATCGGCATCCATAGTAATTACGTAATCAGATTCAACCCATTTAAAACCTTCATTAAGAGCTGCAGATTTACCTTTGTTAATGGTAAATTCGATTAGATTAATTTTTAAATCATTCTTTTGCACTTCATTAAGAAATTCCGAAGATCCATCATTGCTTCCATCATCAATAAATAAAATACAATAATTATTATAGTTTTTTAATGAAAAATGGATTTCATCAATCAGAAATTTTAAGGATTCTATCTCATTATAAACTGGAATAATAATCGATAAAGAGGATTTATTTTTCAAAAAACTATCTATTTATTTTATTTAAAACTCGAGAATTACTTTTGTCAAGATCTAAAATTTTTTTGTAATAAAATTTTGCATCTTCGACTTTATTAATTTTCATATAAACATCACCAAGATGTTCCAAAACGACAATATTATTAGGGTCTAACGAAATTGATTTTTGAATATAATCAATTGCTTTGTTATATTTTTTTAATTTATAAAAAATCCACCCTATAGTATCTAAATATGCTGAATTATTTGGTTCTAATTCAATTGCTTTTTGAGACATATTTAAAGCTTCCTTTAATTTTAATCCTCTTTCGGCAAGTGTATAGCTATAATTGTTTAAAGCTTGAGCATCTTTTTTATCTGAATTAATTAATTCTTTATAGAAATTTTCTGACATTGGCCATTGACCAATTGAGTTATGCGCATTAGCTAATAAATGTTTTGTAGAACGAGAATTTGGTTCAATTTTTAAAGCTATATTTAAACTTTCAATAGCTAATTCAAATTTCTTTTGATTATTATAAGCTGAACCAAGCATATAATTTATTGTAAAATTACTAGGAAACTTATTTTTTGCTTTGATGAGAATTGATATAGCATCAACAGAATTTTTTAAATTAATATAAGATAAAGCTAAATTTGTATAACCTGAAATTTCACTTGGAAATAATTCAATTTGTTTTGAAGAAAAAAATTCAGCAGAATTAAAATCTTGCTCAAAAATTGCTAATCTAGTTTTATAATATAAAATCCCTGGAGATATTTCTCCATTATTATATAATAAGGAGAAAATAGAATCGCATTTAGAAAATTGATTTTGTTCAAAATATAAAATACCTAATCTCTCTTTAATTATTGGATCATCACTTGTTAATCTTGATAAATTATTTAAACCATCAATTGCTTTGTCAAAAAATTTAAGCGATGATGCTAACTCTGAATAATCTTTCCAAAATTGTAAATTTTCAGGTTGAATTAAAACCAATTTTTCAAATGCTTTAAAAGAAAATTCTATTTCACCATTTATTTTTGATAATTCTGCAGCTCTTGACAAAGCTTGAATTTGAGTAGAATCTTTAAGATAAATATTCCAGTATTTTTCTTGTGCAGACTTAATATTCCCTTTTCTATATGATATTTCAGCTAAAATGAATGAAAAATGTATATCATTTGGGTAAGTTGACTCAAGAATTAAATATTGCTTTTCACCTAAGTCAATATCTCCTCTCATTAAATATTGTTGTGCTAATAATTCTCTAATTTCCTTTTTTGATTCATTTAATAACAATGCTGCCTTTAAAGTTTCTTCTGATCTTTCAAATTTATTCAATCTTAAAAAAACTTCAGCAAGAGATAAATAAATTGAAGCAGATGATGAATCATATCTCAAAGCATCTTGAAATTCAATTACTGCCATTGAATAATCACCTTGAGAAAAATACATTTCTCCATCAAGAAAGTGATTTAATGCTTTAGAATTAATTTGATGTTCATAATCAAGGGTTGAATTTTTAAGATTCTTTTCATTTTGAATATTAGAATCTTTCAAATGAAGGGAAGGATTATTACAACTAATTATTAATATTAAAAGAATAAAAAAGTTTTTTTTATAATTATAATTGAAAAAATATTTAGTCAATACTAACATTATTTCCACCATTTCTTTTTACTTTATACATTGCTTTATCAGCAAAAGAAATTAATTCAGAAATAGTTTTTCCATTTTTTGGAAATTCAGCAAGTCCTGCACTAATTGTCATTTTTTCTTTGATCTTATCTTTTTTAAAATCAAAAAATGATAAATTTTGAATTATTCTTTTGATTGAATCAATTGATTTTACTTTAGAAGTATTAAGTAAAACAACAGCAAATTCTTCTCCTCCATACCTAGCCACTAAATCAATTGTTCTAAAACCATTCTTTAAAATTTTTGCGGATTCTTTAAGGACATAATCACCAAATAAATGACCATAATTATCATTAATTCTTTTGAATTTATCTAAATCAAGTATTATTAATACTATTGTTTCATTGTATCTTTCTGCTCTCCTTACCTCCTGTTTAAATCTTTCAACAAAAGATTTATGATTTAATAAATCAGTTAAACCATCATGCATAGAAGTATGTCTTAAAGTATCATATTTTTGCCACCAATTAATTATATTTCCAAGTCTATGAGAAAATAGTTTTAATTTTTGACTTTCAACATTTTTAAAACTCAGTGAAGTAAAACTTTCTAGCACAAGACAACCACAAACTTTATCATCTGTTTTAAGAGGAACTCCTAAAAATGATAAAAATTGATGATTAAGGTTATCAGATTTTTCATATCTATCTATAAAATTATTTGTTTTATCAAATGTTTTCTCAAAATTAATAATTTTGGAATTTTCATCATCCATCAAATTCCAAACTGGAGTATTACTTCTTCTAATCTTTTTACCTTTTGTGAAATCATCATTATATCCATTTACTATTACAGCCTCAGCTTCATCTGTATCATTTGAATTAATTATTAATAGAGTTATTTTATCGAAACTAAAATTTTCATTAAGAAATATAGAAATTATTTCAAAAAAATTTTCTTTTGATCTTGATATATCTAATTTTGAAGATAATGAATCTAATTTGCGAGTAAAATCAATTAATGATGAATTATTTGAGTTAAATAATGTGTTAAATATTTTGTTAAACATTAAATGTAAATTAACTTAAATCAAGTTAAAATGAAAGTTCAAGAATTTTTGTTTATGGAGTAAAATCTACAGTTTTTCCTCTTGGCTTTAAAAAATTATTTTTATTTTTTTGTTGAGTAGAGTCTGCAATTGAATCAATATTTGATTCATTTGATAAAATTGTATTAGGTTTATTAATATTCAAAAAATTATCTTCACTTGTTGATTGCACATCACTTCTATATTTACTATTGTTATTAGATAAATTAAAAATGATCATAAAGATGAGAATAGTTGAAACAAAAGTACCTAATAAATACTTAGGTTTATAACCATAAAAATTCTTTTTATAAAAA
>sequence16
GAACCTGTGGAGGAGGAGAAGTCATCTGAGGAACCTGTGGAGGAGGAGAAGTCATCTGAGGAACCTGTGGAGGAGGAGAAGTCATCTGAGGAACCTGTGGAGGAGGAGAAGCCATCTGAGGAACCTGTGGAGGAGGAGAAGCCATCTGAGGAACCTGTGAAGGAAAAAGTTTCAAAGGAATCAAAGTCAAATAATACTAAAAAAAGTAAATCATAGAACTAAAATGCCTAAAAAATTAAAAAAAGTAGGTAAAGTGGTCAAAGCCGTTGGATTAAAAGGTGATGTCAAAATATTTCCACTTGATTCGTACATTGACCATATTCGTAATCAAAAGTTTTTATTTATCGGTGATAGCCCTGAAAAAGCAAAAAAACATTATGCTTCATTTGTAACCAAATCTGGTAAGTTTTTAAGATACAGGATTCATGATAATGTTGATAGAAAAGATGCTGAAAATTTAGTTGGAAAATTAATTTTTAGGACTGTTTCAGATAATGAAATTTTAAATGATGATTTAATTGGTTTTTTAGTAGTAACTACAGAGGGATTACCAATCGGAATCTTATCAGATATACTTTCATTACCAGGTCAGGAAGTTTTAAGTATTGATTCTGGAGAAAAAGAAATATTGATACCTTCAGTTCCAGAAATTATAAAAAAAATTGATCTTAAAACTGAAAGTATATTAATTTTTCCAATGGAAGGTTTATTAGATTTATAATGCAAGTTTTTATAGTAACACCTTTCCCAGAATTTCTTACTATATATTTAAATTCAAGTATTTTAGGAAGAGCAAAGAAAAAAAAAATTGTTGAATACAATATTATTGATTTAAAAGATTTTGGTAAAGGTAGGCATAATCAGATTGATGACCATCCATTTGGAGGAGGTCCAGGTATGATCATGTTAGCTGAGCCTTTTTTCAATGCTTTAGAAAAAATTAAAAAGATTTATAATGGTTCAAAAAAATTAAAAATAATTTTACCATCTCCAAAAGGTAAAATCCTTTCTCAATCTATTTCAAAAAAATTATCTAATTTTGATGGTTTAGTCTTTTTTTGTGCTCATTATAAAGGTGTTGATGAAAGAGTAATTGACAAATTAGTTAATTATGAGCTTTCGATAGGTGACTACGTTTTAACTGGAGGTGAACTTCCATCATTAATAATTATTGATTCTATTGTTAGATTAATTCCAGGAGTAATTGGTGATCAAGAGTCAGCTAATCTTGATTCATTCTCACATGATTTATTAGATCATCCTCATTATTCAAGACCACGTAATTTCAAAGGAATGAAAGTCCCTGATGTTTTAATGTCAGGTAATCATGCTAATATTGAATCCTGGAGAATGAAACAAAGAGAAATTACAACCAAAAACAATCGTCCTGATTTATGGGATACTTATAAAAATAAATTATCTAAGTGAGGTATATAATGGCACAACCACATGAGTTTTCAAAAGATTTAGAAAAAAATAACTTACCTGATTTTAAATCTGGTGATACAGTATGCGTTAATGTTAAAGTTATTGAAGGAGGAAAAGAGAGAATTCAAAAATATGAAGGAATTGTTTTAGCTAGAAAAGGAACAGGAACAAATTCAACTTTTACTGTAAGAAAAATTTCATCGAATATAGGTGTTGAAAGAATTTTTCCTCTTCATTCTCCAAATATTGATAGTATTGAACTTCTTAAAAGGGGTAAAGTAAGAAGGTCAAAAATTTATTACCTGAGGGATCTTAAAGGGAAAGCTGCAAGAATTAAAGAAAAAAGATAAAAATTTAATTATTTTTAAAGATCAAAATATAGTTCTATTATTAACGAGTCTTTGTCATTTTACTGTACATGCATCAATATTATTTTTTCCAACTTTAATTTACTTATATGTTGAGGAATTTGATGTAGATATAAAATTTCTTGGTTTTATTTATATGATTTCAAACTTTGTATTTGGGTTTGGATCTTTATTTACTGGATACATTGAAAATAGATATGGAGAAAAGAAACTTTTATTATTGTTTCAGATAGGTTCATTTTTTTCGTGTTTTTTTATAATATTTTCACAAAATATTATTTCATTTGCTTTTTTTCACATTTTATTATGTGGATTTATGTCAATTTATCACCCAGCTGGTTTAACATTAATTTCTAGAAGAACTAGTTCCTTAAGTAAGTCGATGAGTTATCATGGAATTGCAGGAAGTTTAGGATTGGCCTTTGGTCCAATCCTATCTTCAATATTGACTACATTTATTAACTGGAGATATGCTTATTTTTTAGTAATGATAATTTTTTTAATTCTTTTTATTGCAACTTATTTTTTACTTGAATTAAAATTTTATAATTATAAAGTTAAATCAAAAAGGAAATTATTTAATCAAAAGTTAATTATTTTTTATTTAATTAACTGTTTAGCAGGTATTGCATTTTCTTCGTTTTTAACATACATGCCAATTTTTTTTAGTATTAAACTGATGAATATAAATTTAATGCCAATTTTAATAGGAGGTTTTTTTACAACATTAGTTTTATTAGCTGGTATTCCTGGTCAAATAGTTGGTGGAATAATTGGTGAAAAATATAATAAAAGTTTAATAATCATGATTTTGTGTTTATTACATATTCCTCTTTTAATTATCATTCCATTATTAAAAGGATATGTTTTAATATTTTTTACATTACTTTTAGGTTTTATAAATTTTATCTTTCAACCAATTGGAAATTCAATTATTGCTGATTATACTTTTTCAAGTCAAAGAGGTTTTGCCTATGGTTTATCGTTCTTCTTGGGTTTTGGTATTGGTTCTTTTGGTTCTGGAATTGGGGGTATATTACTTTCAAATTGGAATATTTCTTTAGTATTTTACTTCGCAGCATTAGTAATGATTTTATCAATTATTCCATCTTTATTTTTGTTGAAATTTGATAAAAAGAATAATTAAAATTTTATTTATGGAGTTTTAAATGGAAAGACGTGAAATTCCCTCAGTAAATTCGGTTTTAGAAAAATTAGATATTGACGAAATTAATTTACCTAGAGAATATCTATTATTAATTATTAAAAAAAAACTTTCAGTTTTGAGAAAGCTGGATAAAAAAGATTTGAATCTTAAATCAAAAAAAGATATTTTAAATCAAATTTTAAATAAAATTAAATCATTAAATAAAAATAGTTTATCAAAAGTAATTAATGGAACTGGAATAGTTTTACATACTGGTTTAGGAAGAGCTCCAATTTCAAAAGATATTTTATATGATATTGCAAATGATCTATCTGGATATGCTAACTTAGAATTTGATATAATGGATGGTATTAGAGGTGAGAGATTAAACCATGTTTCAGATTTAATTTCATCAATTGTTGGTTCAGAAAGTTCAATTATTGTAAATAATAATGCAGCAGCAGTTATGTTGGCAATCAATACATTGTCCCAAAAAAAAGAAATAATTATTTCTAGGGGTCAATTAATTGAAATTGGTGGTTCATTTAGAATTCCTGATGTAATAAATAAAAGTGGAGCTGTTTTAAAAGAAGTCGGAACAACTAATAGAACTCATCTGCTTGATTATGAAAAAGCATTTAATAAAAATACTGGTGCAATAATGTATGCTCATACTAGTAATTATAAAATTGAAGGTTTTACAAAAGAAGTGGAAATTAAAGATTTAGTTAAATTATCAAAAAAAAATAATATTCCACTTATTGTAGATTTGGGTAGTGGAGCTCTTTTAGATTTTAAAAAATTAAATTTACCAACAGAACCTTTAGTTAAAGATATTATTAATTTAGGAGTTAGCTTAATTACTTTTTCATCAGATAAATTAATAGGAGGTCCACAATCCGGTATAATTTCTGGTAAAAAAAATATCATTGATAAATTACATCAAAATCCAATTTATAGATCTCTTAGGTGCGATAAGTTTATTATTGCTATCTTAGAAAGAACTCTAAGACAACATAATTTTGATAATCCAAATTTTAACATTCAAACTCTTCAACTTCTATCAGCTTCAAGAAAAACACTTAAAAAAAAGGGAGTTGAAATTTTAAATAAAGTTTCAAATCAAACATTAGAAGAGTTTAATATTGAATTAGAGGATTCTTTAGTAGAGGCTGGTAGTGGTTCGCTTCCAATAAAAAGTATAGAAAGCGTATGTATTAAAATTAAATCATCAAGATTTAAATCATCTGAAATTTCTAGAAAATTTAGAAATTTTAATCCTCCTATCATCGGTTATATTAAAAAAAATCATTTTTACATTGATTTAAAAGCTATTTTAGATGATGAAATAAAATACATATCTTCTTCAATCAATAATATTTAAATGAAACAAATAATAATTGGAACAGCAGGTCATATTGATCATGGTAAAACAAGTATAGTAAAAAAATTAACAGGTGTTAATACAGATGTTTTAACAAATGAAATTGCTAGAGGTATGACAATAGATTTGGGATTTGCTTTTATGTCAAATGAAATAACCATTATTGATGTGCCTGGGCATGAAAAGTTTATAAGAAATATGGTTGCGGGAGTTAATTCAATAGATATAGGATTATTAGTAGTATCAGCTGATGATGGAATAATGCCCCAAACAAAAGAACATTTTGATATTTTATCATATTTAAAAATTCCTTATGGAATAGTTGCTCTTAATAAAATAGATTTGGTTGATGACGAAGATTGGTTGAATTTAATTGAGCATGATATAAGAAGACTTTTAAAAAATTCCTTTATGGAAAATGCTCCTATTATTAGGGTTTCAACAAAAAATAATTTTGGGATTGAAAAATTAAAAAAAAATATAAATTTAATTTCAAAACAAAATTTTAATAAAAAAGACAGAGGCTTTTTTAGGTTACCAGTAGATAGGGCTTTTTCATTAAAAGGTTTTGGAACAATTGCAACAGGTTCTGTATCAAGTGGTAAAATTACTGTTGGAAAAAATATTCAAATATTACCAGTTGGAGTTCAATCTAAAATAAGAGGTATGCAAACACATAAAAAAGAAGTAAAGACAATTAAAATTGGAGAAAGAGTTGCTATAAATCTATCCAATATTGATAAAGAAAATATAAAAAGAGGTAGTCAAATAATTGAAGAAGGATATGTAAAAAATTCACAATTGTTTTTAGCAGAAATAACATTAAATAAAAAAAATAAACGATTTATTAAAAATAATCAAAGATTAAGAATTCATATTAATACTGATGAAGTCTTGTGTAGGGTTCAATTAATTAATAAATCGAAAAAAATCTTAGCGGGTGAAACTAATAAAGTATTAATTAAACTAGAAAAAGAAATACCAATAATTATTGATGATTTATTTATTTTAAGATTTTATTCTCCACAAGAAACAATAGGAGGAGGCAAAGTTTTAATAACAATTCCACAAAATGAAAAAAAAATATATTTTAAAAATTTAAAAACAATTCATTCTTCAAATAAAGATAATAGATTGAAAATGTTATTTACTTTGTATAAGAATAATCCTAAGAAAATTTCAGAATGGATAAAAATTTGGAATATGTCATCAAATAAAATTAAAGAATTATTTAACCAATTTGACTCGGTTTATTTCGGCTCAGAAGAAAATAATTATGTTACTCTCAATTCAGAAATACAAAATCAACAAAAAGAATATTTAGATTATCTATCTATAAATTTAGAAAATAATAAAAACCAAAAATATTTTTCAAAAGCTGAAGTTTTTAAGAATTTGAACTACAATGAAAGTTTATTTAATTATATTACTTCTATATTAGTTAAAAAAAATAAAATTAAAATTAAAAATGGTAAAATAACTTTATTTAATTATAAACTTAACTTAAATCCACAAGATGAGAAAAATCTTAAAAAATTGAATTTAATAATTAAATCTTATAATTTTTCTCCACCAGAAATTAAAATTTTATCAAAAGAAATTGATGTTGATTTTAAAAAATTAGTTGATTTATTATTTGTACTTTTAGATCAAGGTTCAGTTGTTCGTATTACAAATGATATTTGGATAAATAATAATAAAATTGAAGAATTAAAAAATAAAATTAAATTAAAATATCAAAACAACCTAGAATTCACAGTTTCTGATATAAAAGAAATGGCTGGTATATCTAGAAAATATGCAATACCAATTTTAGAATTTTTTGATAAACAAAATTTTACTATCAGATTGAATAATGTTAGAAAATTGAAATAAAAATGATATTAAAAAATTCTCAAAAAAAACAAACTCCATTAATGAAGCAATATTATAATATTAAAAAAGAGTACTTAGATAGTATTCTATTATTTAGGATGGGTGATTTTTATGAAGCTTTTAATTCTGATGCTGAACAGCTTTCAAAAATTTTAGGAATAACTTTAACTAAAAGATCAAATGGCGCTGCATCTGAAGTTCCATTAGCAGGATTTCCTTATCATTCCTTAGAAAATTATTTAATCAAATTAAGTAATGCAGGTATAAAAATAGCTATATGTGAACAAGTTGAGGATGCTAAAGATTCTATTGGAATTGTAAAAAGAGAAGTTGTTGATGTTATTACTCCTGGAACTTCAATTTTATTTAATTCAACTGAAAAGAAAAATAATTTTTTAGGTTGCATTCATAATAAAAAAGATATTTACGGATTATCACTTATAGATATTAGTACAGGAGAGTTTTTGATAGTTGAAGGTTCTGAAACTCAAATAATGGAAACTTATCTTAAGTTTAACCCCTCAGAAGTAATTCTCTCAAATAAAAATAAAATTTCTCAAACAAGCTGGTTAAATAAAATTAATCCATTTAAGTCAATAATGGATAATTGGATTTTTGACTATGAATTATCTTATAATGCTTTAATTGATCATTTTAAAATTTCATCATTAAAAAGCTTTGGATGTGATTCAATGGATATTGGAATAATTTCAGCAGGGGTAATAATAAGATATTTAACTAATAATAATTTTAATGAAATAAAACATATCACAAAATTGACACCATATACTATTCAAGACAAAATGGTGTTAGATGATTTTACAATTAAAAATTTAGAATTATTTAATACAACTTCCGCAAAAGAATTTGGATCATTTTTTTCGATTATTGATAAAACCATTACTTCAGGTGGATCTAGATTGCTTCGTCAAAAAATAAATTCACCTTCCCTTAATCTTAAATTCATAGAAAGTAAACTAAATTTAGTTGAAAGTTTTCTTGAAAATGAAAATTATGCTAATGAAATGAGAATGATTTTAAAAAAATCAGCTGATTTAGAGAGAATTTTAGGGAAATTAGCAAAAAAAAAAAACAAATCCAATAGATTTATTATCTTTAAGTACAACTCTATCAAATGTTGAAATTTTAAAAACAAATCTACTAGCGTCAAATTCTAAATTTCAAAAATTAATTTCAGAAAAATTTATTGATACTACCATTATTGAAAAAAAAATACAGTCAAATATTTCTGAAAATAGTTCAGCAAATATTATTAATGGTGATGTCATTTTAGATGGAGTCGATTCAGAACTTGACGAATTGAGAAAAATTTCAAATTCAAGTAAACAAACATTGTTAAAAATTGAGAATAGAGAAAGACAGTCAACACAAATAAATTCGTTAAAAATAAGATATAATAAAGTTTTTGGTTATTATATTGAAATTTCAAAAGCTCATAAAAATAAAATACTTCCCAAAAATTATATTCGAAAGCAAACACTAATTAATGCTGAGAGATATGTAACACAAGAATTAAAAGATTATGAAGAAAAAATATTATCTTCAGATCAGAGGATTATTGAAATAGAAAAGAAAATTTTTGAAGAAGTATCTAATTTTATTTTAGAAAATTCATCAATTATTCAAATAAACTCACAAATCATCAATGATTTAGATGTTTATCTTTGTTTTGCATTAATTTCAAAACAAAATAATTATGTAAAACCTACTTTTGTAAATGATACAATAATTAATATAAAAGATTCAAGACACCCTGTTATTGAAAAAATTATTTCAAATGATGAAAAATTTATTTCTAATGATTTGTTTTTATCTTCAAATGAAAGTCAAATCCATATCATTACAGGACCAAATATGGCTGGAAAGTCAACTTTTTTGAGACAAATAGGTTTAATAGTCATTATGGCTCAAATAGGATGTTATGTTCCTGTTTCATATGCTAATATTGGAATTGTTGATAAGCTTTTTACTCGTGTTGGTGCAAATGATAATTTGATAGAAGGAGAATCAACATTCATGGTTGAGATGATTGAAGCAGCTAATATTTTAAATAATGCTACTGAAAAAAGTTTGATTTTATTTGATGAAATTGGTAGAGGTACTTCAACTTATGATGGAGTTTCTATTGCTTGGAGTATTGTAGAGTATTTACACAATAACAAAAATTTTCAATCAAGAACTATTTTTGCAACTCATTATCATGAATTAACTGAATTAGAAAGTAAATTAGATAGAGTTTTTAATTTTAATATATCAGTTAAAGAAATTGAAGAACAAATAATTTTTTTAAGAAAAATTAATAAAGGATCTTCAGATAGAAGTTATGGTATAAATGTAGCACAAATGGCAGGTATTCCTTCTGAAATTGTTGATAGGTCATATCAAATTTTAAACAAACTAATAGAAAAAAATTCATTAAACATTAATCACGTTCAAAATAAAACAAACAAATTGAGTAAAAAAAATACTATTATCGAAGATAAAGTTTTAAGTGAATTAAAAAAAATTAATCCAGATAAATTATCTCCAATTGAAGCTTTAAAATTTATCTACAACATTAAAAAAAATATTGAATAAAAAATTAACAATTATTATGTTTTTATTTCCATTGTTTCTTACTGGAGAATCCATATGGGTAAAATATGGTAATCAAGTTTTTAGAGGTGTAGGAGATGCAAAATCAATTGCGCTTAGTGAATCTGAAATTGCCTCAGCAACAGGGCCTTTGTCAATTTTATATAATCCTTCTTTACTTAATAACTCTAAAACAAAAAAACTTGTTTATTCACACCAAGAACGTTTTTCAGGAACAGTAATGTTTGATGTTTTTGGTATAGATTTACAAAAAAAAAATAATAATAGTTTTTCATTTGTTTTTATTAGGGAATCCGTTCAAGGTATACCAAATACAAACAATGCCTTATTAAATAATTCTTTATCATTAAATGATTTGAACCAAAGGATTTTAGCATCTAAAGTTACTTTTTTTAATCAATCTCAACTAGCTACAATAATTGGGTTTTCAAAATTATTTTCTAAAGCTAGTTTTGGTGGAAATATTAAATTATTAAATCATAATATTGGTAATTTTAATGGTTGGGGAATTGGTTTTGATATTGGAACAGTTTTTAATATTTCTGATAAGAATAGAATAGGATTTTCAATAAAGGATGTTACAACTTCATGGATAGTTTGGGATTCCGGAACAATTGAAAGAATTTTACCTGAACTTAAATTTGGACTTACAAATAATTCTGAATTAAAAAAATATTTGATTCAAATTAATTCAATGTTTTCAACAGGTGTTAAATTATCTGGAAAAGAATTATTAGATGATTTTACTATTGGGGATTATGGTTTTGAATTTAGAGCTGGATTTGAATTAATATATAAGAAAAAACTTAAAATTAGATTAGGTAGAAATCCAATAAACGGAAAATCAATTGGTGTTGGAACGAAAATTAAATTTGTTGATTTAGATTATGCGTATGTTCCATCACCAAATGGTACAATTCTTGGCAATAGTCATTATATTTCATTTAATATTGGTTTGGATGATTTATCAAAACTTGTTTTAAATTAGATAATATTTTATTGGTATAAAATGATAAAAAGCATGACAGGTTTTGGAAGCGCATCATTATCTAATGAGTTTTTTAATTTATCAATTGATATTAAGTCAGTTAATAGTAGATATCTTGATTATAAAATAAAATTACCCAAAGAAATTGAAAAATACGAACCTGATCTTATTTTAAATATTATAAAAGTTTGTAAAAGAGGTAGAATCTCAGTAAGTATAAATTTAGATCCTATTAATTCCGAATTAAATAATTCTCCTGAAATTAACAAATCTTTATTTAAATCTTATAATACATTTGTTGATAAGTTAAATAAAGAATTTAATTTAAATTTTAAAATTAATGATTTATTTGAAATCAAAGATTTTATTCTTAGAAAAAAGAAAATTTCTGTATCAAAGAAATCTTTACTTTTTACATTTGAGAATGCTTTAGAAAAACTTGAAAAAATGAAGTTAAATGAAGGTTCTTATTTGTTTAAAGATATTAAAAAAAGAATAGTTCATTTAGATAAAACTATTAAAAAAATAAATGATACATCAAACAAAAATTCTTTGTTAGTTAAAGATAAATATCTTAAAAAAATAAAAAAATATGTTAATGAAATTCAAATTGATGAATCTAGATTAGCAATGGAAGCTGCAATTTTATCTGAAAAAATTGATATCACTGAAGAATGTGTAAGATTTAATAGTCATATCCAACAAATTTTAAAATTAATAGAAAAAAATAATCCTATTGGAAAAAAATTAAATTTTATACTTCAAGAATTACTTCGTGAAACAAATACGATTGGCTCAAAGTCAAATGATATAAAAATTATTAATCTTGTTATGGTTTTAAAAGAAGAAATTGAAAAAATTAAGGAACAATCCCAAAATATTTTATGAAAGGTAAATTAATAGTAATATCTGCCCCATCAGGAGCAGGAAAAACAACTATTGCTAGAAAACTACAAAAAATTAATATAAATTGGGATTTTTCAGTTTCATGCACTACTAGACCTAAAAGAAAAGATGAAGTAAATTTTAAAGATTATGAGTTTATCAGCGAAAATGAATTTAAAAGAAGAATAAATAAAAAAGAATTATTGGAGTATGAAAATATTCATGGTTATTTTTACGGTACTCTAATTGAAAGAATTCAACAATCTTTGAATGAAAACAAAACAGTTATTGTTGAAGTTGATGTAAATGGTGGATTGGCAATCAAATTAAAGTACCCAGATAATGCAGTATCAATTTTTATTCATCCTCCGAGTATAAATATTTTAAAAGAAAGATTAATAAAAAGAGGTTCTGATTCATTAAATAATATTAATAAAAGATTGAAAAGAGCAAATATGGAAATAAATAAAAGTAATAGCTTTGATATTCAAGTTGTTAACATTGATATTGATAATGCAGTAAATGAAATAGATAAAAAATTAAGTGTAATTATAAATAAGGAGATAAAATAATGTCAGAGAATAGAATTAATTTGAAGAAAATTGATGATAAATCCGAAGATATTTTTGAAGCGGCAATCATAATTGGTAAAAGAGCTAGACAAATAATTTCTGAAAGAATTATGAAAAATGAAATTCATTCATTTGAAAAAGATTCAGAGTTAAATGAAGAAGAGTTTAATGAGATAAAAGATGAAATTGGTATGAATTATGTTGAAATGACAAAGGCTACATCAGTTGCTATTGATGAGTTTTGTAATGATGAAATAGATTGGAAATACGAAGAAAAAGATATTGAAGAATAGATTTGTATTAATAGTTTTATTTTTTCATAATGAATAAAAATCCTACTAATACAAAATATTTTAAACAACTAAATGATTTTTATGGAAATATTTTTTACATAAATAATAAAAATACAGTTTTTCATTTCCCTTTCAATCAAGATTCAGTTCAATTGTTTCATAAAATATTAAATCAAATTAATTTTAAAAGAAATTTTGTTTTAATATATGTTATTCCAGAATGTTTTAATTCTCAAAGTATAAATTTTAAAATAATAAAAATCAAAAATGTTTCTTTTTTTTTAAAAAAAATTAAAGAAATTAAAATCAAAATAGTTATTTCATTAAGAAAAAACCCTATAAATAAATTATTATCAAAGAAAGTATCCGTAGAACATTTGAGATTAAAGAATTGGTCCTGGAAAAAAATTAATTTAATCGTAAGTTATAATCCTCTCGATTTATTAAATAATCAAGATTTAAAAAAAATGTATGTAAAGATTTAAAAAAAATAAATTTTTTTTTGTTAGATTAATGTAAATGATAAAGAAAAAAATTAAAAATTTAAAAATTCAACCTCAGTCAATTGAAGCTGAACAAGCTGTACTTGGTTCCATGTTAACTTCATCTGAAGCTGTAAATAAAGCTCAAGAAATTTTAAGTGCTGAATCTTTTTATGTTGATGCACATAAGAAAATTTTTGAAGTAATGATTGAATTATTTAATAATAATGAACCAATTGATGTTTTATCAGTTGATAATAAATTACAACAAAACAATCAAATTGATTCAGTTGGTGGTTCTTATTTTATAACTGGTTTGCCAGATTTAGTTCCATCAACAGCAAATGTTGAATATTATGCAAAAATTGTTTTAGAAAAAGCATCATTAAGAAAATTAATAGAAGTATCAAATGAAATAAATTTACAAGCTTATGAAAATAGTGGAGATTTTGAAAATATACTTGATGATAGTGAACAAAAAATATTTGCACTATCACAAGGTAAAATAAAAAATAAATTTCAAGCATTAAAACCTGTGCTTCAAAAGTCGTTTGAGAGATTAGATGAAATTTCAAAAAATCCTGGTTCAGTTACAGGTGTTCCCTCAGGTTTAAAAGATTTAGACAAACTTACATCTGGCTTTCAACCAGGAGAATTAATTATTGTTGCAGGAAGACCAAGTATGGGTAAAACTGCTTTAGCATTAACTTTTGCTAGAAATGCTGCTATCGACTATAAAATTCCAATTGGAATTTTTAGTTTAGAGATGTCTAACGATGCTTTAGCAATGAGATTATTAACAGCTGAATCAAGAGTAGATTCACACTTGGTTAGATCTGGTATTTTACCAAAAGAACAATGGAGAAATCTTTCGATGTCAGTAGGAAATCTTGCTGATGCGCCAATCTATTTAGATGATACCCCAGCTATGGGTATAACTGAATTGAGAGCAAAATCTAGAAGATTAAAATCTGAAAAAGATGTTAAGCTTCTTGTTGTTGATTATCTTCAATTAATGAAGGGCCCTCACAATGTTGAAAGTAGACAACAAGAAATTTCTCAAATATCTCAATCTTTAAAAGCACTTGCTAAAGAGATAAATGTACCTGTTTTAGCTTTATCACAGTTATCAAGAGCTCCTGAAGCCAGAAGCGATCATAGACCAGTTTTATCTGATTTAAGAGAAAGCGGTGCAATCGAGCAAGACGCTGATCTTGTAATGTTTTTATACAGAAAATGGGTATATTCAAGAGATGAAGAGGATAAAAGAAAAGCAGAAATTATAATATCTAAACAAAGAAATGGGCCAACTGGTACTATCAACGCTACATTTATTGATAATTATGCTAAATTTGAAAATACTTCTCTGATAGATGTCCCATCAGAACAATAATTTTTTAATATGAGAATAGCTAATTTAATTCCTACAGTAACTGGGTCATTTCCAAGTGATTTTAATGAGATTATTAAAAGTATTAATAAAAATCAAATATATAAAAATAATAAAGCAGAAAAGCTGTTATGGCCAGCTTATCAATTTAGTAAACACTACCATGATGGCCAAAAAAGAAAATCAGGTAAACCCTATTTTGAGCATTGCGTAGCTGTTGCACAATTATTAGCTGATTGGCATATGGATGTTAATACAATAATCGGAGGAATTTTACATGATTGTATAGAGGATACGCCTGTTTCATTTGATGATATATCTAAAGAGTTTGGAGATGAAGTAGCATCATTAGTTGATGGTGTAACAAAATTAGGTGGAATTGAATATGATAGTAGGAAAAAAAAACAAGCTGAAAATTTAATGAAAATGTTTTTGTCTATGGCCAAAGATCTTAGAGTGATAATTATAAAGTTTGCAGATAGACTTCATAATATGAAAACTATTGAATATTTATCATTAATTAAACAAAGAAGAATAGCAATTGAGACAAGAGATGTATATTCTCCTCTAGCTCATAGATTGGGAATGTTTGAATTAAAAAGTCAATTGGATGATCTTGCTTTCAAAACTCTTCAACCTGAAAAATATAAAATTGTGGATAAAAATTTGAGATCAAGAATATTAAATAGGAGTAAGTCATTAAAAAAAATAACGAATAAAATTAAAATTAATTTAAATGAATTGAATATTAATTATGAATTAAAAACAAGATTTAAATCTCATTCATCAATTTATGATAAAATGTTAAAGACTGATAAAGACTTTGCAGAAATTTATGATATTTATGCAATAAGGATAGTAGTCTTAACTAAAAATGATTGTTACTCAACATTAGGGTTATTACATCAATTTTTTACTCCAATAGCTGAAAGATTTAAGGATTTTATAGCTACGCCAAAAATGAATGGATATCAATCTTTGCATACAACTATAATTAGTTCTTCAGGTGAAATGATTGAAATTCAAATAAGAACTCAAGATATGGATAGAAAAGCTGAAATTGGAGTTGCTGCTCATTGGAAATATAAAGGTGAAGATACTTCTGAGAGTATTGATAAACATGTAAAATGGTTAAGAGATTTGCTAATGATATTAAGCGATGAATCCTCTGACCCAAGTGAATTTATGAATTTATTAAAAATAGATTTATTTCAAAACGAAGTTTTTGTATTCACTCCTGATGGTGAATTAATTCAATTACCATTAGGATCTACTCCAATCGATTTTGCTTATGAGGTGCATACTGAAATTGGTGATCACTGTATAAGTGCTAAAGTTGATGGAAAAATTGTTCCTCTAAATTCACAATTAGTTAGTGGGAGTACAATTGAAATTATCACTTCTGATTCTCAAAAACCCAGTACTGCATGGTTAAAATTTGTTAAAACAACAAAAGCAAGAACGATTATTAGAAAATCATACAGGAAATCTGAAAAAGAGAGTAGTGCAAAATTAGGTAAAGAAATTCTTGAAAAAACTTTAAGAAGATTAAAAATGTTAGATAAGCTTACAATTCTTTTTTCAAATCCTAATTTATCTGGATTTGAAAATAAAGAATCTTTATTAATTTCAATCGGAATAGGAGAAATCACAGTTAGAGATGTTTTGTTAAAGTCATTTCCCTCAGAACAAGAGGTTGATGTTAAATTATCTAAACGAAAAAATACCAAATCTTTTTTTAATTTAGCAAGAAATAATGTTTTTGGAATTTCAGTTGATGGAATTGATAATATTTTAATTAATTTAAGTAAATGTTGTAATCCAATTCCTGGAGATGAAATCATTGGTTTTGTTACTAGAGGAAAAGGTGTTTCAATACATAGATCCAAATGTAATAATCTTCCAATTCTAAGTAAATCTTCTGACAGGTTTATAGAGGCAGAATGGAAACTTGGTGATAAAAAAGAATTTTTATCAAAAATAAATATTATTTCCGAGGATAGAAAAGGATTGCTAAAAGATATAACTGAGGCAATTTCAGGAAGTAAAGTAAATATAAATAGTCTAGATACTAAAACCCAGGATTCATTAGCTTCAATGGTTATTATTGTTTCAGTTTCAAATGTAAAAAGATTAAATCAAGTCATAAGAAAAATTGAAAATATCAAGGGTACTTTATCAGTTAAAAGATTTAATAAAAATTAATAATATGTGCGTTAATAATCAAATTCCAAAAGTCGGCAAATTTTTGGGTATTGATTATGGATCAAAAAGAGTGGGAATAGCAATTTCAGACCCATTAAGAATCTTTGCTTCTCCTTATGATACAATAATTGTTAATTCACAAAATAATCTAATAAAAGAAATAGAGAAAATTATAATAAATGAAGGTATTGTTTATATTGTATTTGGTTTACCTATAGGAATGAATGGTAAAAATACATCTCAAACTAATGAAGTAAATGATTTTATAATGAAATTTAAAAATAATCATAAATTACCATTTTCAACAATTGACGAGAGATTGACATCAATTCAAGCTATGAAATTATTAAATGATCAAGGAATTAAACATTCTAAAAACAAATCTTTAATCGATTCAACAGCTGCATCAATAATTCTTCAAACATTTCTTGACAGCATAAAGTGATTAATAATAAAATTAAAATTAAGTTATCAATTTTATCCTCTGTTTTAATAGGATTGTCATTTCAACCTCTAAATTTAGGCTTTTTAGCATGGTTTGCTTTGTTACCATTTATCATAATTTTATTTAATTCATCTTCATTCGAAGGCATGATTTTTGGTTTTTTAGTTGGTTTGATCTCAAATTTAATATCTTTGTATTGGTTGTCAGCAAATATAGGAACAACATTTGTAGTTGGATTAATTTCTTTGATTAGCACTGCAATTTATTTGTCAATTTTTTGGTCAGTTTTTTCATTAATATTTTGTTTTATTAATAATAATTCATCAAAGGGAATTTATTTTTTCCCTTTTGGATGGGTCATTTTTGAATATTGTTTTTCTACTGGAATAATGGGTTTCCCCTGGATGTCATTAGCAACAACTCAAACTGATTATTTACCTATTATTCAAATCGCTGAATTTACAGGAATTTTTGGAATTTCATTTTGGATAGCTTGTTTAAATATTATTCTTTTTAAAATTTTTTCATCTAATTATAAAATTAAAATAAAAAATTTCAATAGTTTCATATTTTTATTAGTAATTATATGGTTGTTTGGATATTTAAGAATATTTAGTTTGAAAGATGAGTATTCTAATAAATTAGAAATATTAGTTGTTCAACCAAATTTAAATCCAAATGAAAAGTGGAATAAAAAAATAAAAGAAAAAATATTTGATGATTTAATTGAACTATCGAAAGTTAATATCAATTATTCAACTGATTTAATTATATGGCCCGAAGTAGCAACTCCTTTTTATATTTTTAAAAATAATTCTAAATTAACTCAAATTAGACAAAAATTGCTTAAATATAATTCATATCTTTTAACGGGATCGTTAGATTGGTCAAATGAAGAAAATAAAATTAATAATTATAATAGTGTTGGTTTAATTGGTAAAAATAAAAAAATTTCAACGTATGATAAGATTAAACTTGTCCCTTTTGGGGAATTTACCCCTTTCTCATTTCCATTTTTAAATAATTTAAATTTAGGTAACTATACGCCAGGGACTAAAAATACTGTTTTCCAAGTTAATAATTTTAATTTCATTACAAAAATATGTTTTGAATCAATTTATCCTTTAATTTTTTCAAAAAGTGAATATAAAAAAATGAATATAAACTTTTTGGTCATCATTGTTAATGATGGATGGTTTGGAAATTCTGCTGGACCATATCAACATTTTGGGATTTCAAAATTAAGAGCAATAGAAAATAGAATTCCTGTTATTAGATCTGCAAACACAGGTGTTTCAGCAATAATAAATAAAACAGGTGAAGTAGAAAATAAAATTGGAATTAATAAAAAGGATGTTATCTTAGGTAACATTACACCTGGAAATTCAAATACTTTTTACTCAAAACATGGAAATTGGCTAGTAAATTTATCCTTATTTTGTTTTATATATTTCTCATTTTTAGCTATTAAAAGAAAAATCAAATGAAATTATTATTTTTTATATTATTATTATTTACTTTTTCTTTTTCTGAGACAAAAAATTATAATTCAAAAAAATATATAATTCAATCTGCTTTTTTCCCTGGGTTGGGTGAATATAAAATGGGAGAAATTAAAAGAAGTAAGAAATTTATTTTCGTTGAGTCAGGATTAATTTTACTAGCAATTGAAACTTATTTAAGAAATCAAAGGAATATAAAACAGATAAGTTCATTTTCTGCTAATCATGCAGGTGTAAATATTTCAAATAAAAGTGAGAAATTTATTTTAGATATTTCTAATTATTTATCAACAAGTTTATATAATCAAAATCAGCAGAGATTAAGATATTCAAGTGAGATTTATATTAATGAAAATTATCAATGGGAATGGGATAATATATCTAATATGGAAAAATTTAATTCTTTAGTTTCAAATAAAAATAAATCAAAAAAATTATTATTTTTTACGTTTGGTGCTATGTTTTCGAATAGAATAATTTCTATGATTGATGTTAATTATTTAAATAATTTAAAGAAATTAAAATTAAGTTTTGTTCCTATTTATAATAAAGAATCATCTTTACAATTAATTTTAAATTTTTAAAAACATTATGAATAATTATCAAATTTTAATTGAATATAAAGGGACTAATTTTTTTGGTTGGCAATATCAAAATAATAAACGAACAGTGCAGGGTGAAATTCAAAATGCTTTAAAAAAAATTAATAATAATAAAGAAGTAAAAATAATTGGTTCTGGAAGAACTGATACAGGAGTCCATGCTATTGGTCAATCAGCAAGTTTTGAAATTGAAAAAAAATGGGATCAAAATAAACTAAAAATGGCCATAAACGGAAACCTATCTGATGATGTAAGAATTTTTGATTGCAAAAAAAAGTCAAAAACTTTTCATGCAAGATTTTCTGCAAAAAAAAGAAAATACATATATAAATGTTTTCCTGGGAAATCGGTAATAAACCGAGGTTTGGTTTGGGAAATTTCTGAAAAAATCAAACTTGATATTTTAAATGATTGTGCACAATATTTAAATGGAAAAATTGATTTTACTACTTTTTCAAAAAATAATCCTGAAATTAAAAATAGATTTTGTAATGTTTGTTCTTGTCAATGGATAAATAATTATCCATTTTACATTTTTGAAATTGAAGCAGATAGATTTCTTCATCATCAAGTTAGAATTTTAGTAGGAACTATGATTAAAGTTGCTGAAAATATAATATCAAAAAATTATTTCGTTGATTTATTAAATAATAAGGTTAGGAACCCTAAAATTTTTAAGGCCCCATCATATGGCTTGTATTTGAAAAAGGTAAGTTATTGATCTCATTTAGAAAATATTATTTTTTACTATTTTTAATTACAAATTTGTTAGCAAATGTAACTGAAAATAGAAAAAATGCAATCACAAAAGCTGTAAAAAAAATGGGACCAACAGTTGCAAGTATTAATGTTGTTAAAATTAAAGAATTTTCTAATCAATATTATTTCAATGATCCATTTTTTAGATATTTATACCCTACAATGATAAAAAAAATACCAAGTTTGGGTTCTGGAGTTATTATTAGTCCTGATGGTTATATTTTAACTAATCAACATGTAATTGAAAACTCTATAGAAATAATAATAACACTTTCTGGAGGTAAACAATATGATGCTGAAATAATTGGGGAAGATAGAAAATCAGATCTTGCTCTTTTAAAAATCGATGATTCAGAATTACCTTTTGCAAAATTTGCTGATTCAAATGAAATTTTAATTGGAGAATGGGTAATAGCTCTTGGAAATCCATTTGGTTTATTTGCTTTAAATAATCAACCTACAGTAACTGTGGGGGTGATTAGCTCGAAAAATTTAAATTTTGGTACTTTATTAGATGGAAGAGAATACAAAAACATGATTCAGACTGATGCCTCAATTAATTCTGGTAATAGTGGAGGTCCTCTTTGTAATGCTGATGGTGAAGTTGTTGGTATCAATACTTTCATTTATAGTGGTGAAAATAATGATCAAGGTTCAATTGGTATTGGTTTTGCAATACCAATAAATAGAGCTATCAAAATAGCTGAAGAATTGAAAAAATACGGTAGAATGGAATTTTAAAAACAATTATATTTAGTAGTATTAATAATGAATAATAAACGTCAAATTTGGATTATAGTACTGATTTTGTTTGTTGGGTCAATGATTGGAACTTTGTTTGGTGATTTAATAGCTTTTATTTTACCTGATGGAGTTGTTAAACAATTTTTTTTACAAAGCACTAATTTTTCATTATCAAATTTTTTTGGTGATGATGATTATATTTTTCTTAATTTAGGTGCTATTGGGATTGTTTTTGGACTAAAAATAAAATTAAACTTTACTTCAATAATTGGATTCTCTGTTTCTTATTATTTTTTAAGATATTTTCGTTAAATCTTGGAGGTTAATCATGAATTTATTAGATATTCATTTTTTAGTTAGTATTGGTGGTTGGGAGGTTTTATTAATTTTTTTAGTCGTTTTATTATTGTTTGGTGCAAAAAAATTACCTGAATTAGCTAAAGGTTTAGGAAAAGGGATTAGAGAATTTAAGGGAGCTGTTGAAGGTATAGAGAAAGAATTTGATGATGCCGTTGATTCAATTGATAAAAAAGAAGATGATAAAAATACTTAATTAAATCGTGATTGAAAATTCTAAAAAATCTAATTCTATTATCTTTAAGGGTAATCCTTTATTTATTAAAAATAAAATAGATAATAGTATTTTGAATGGTGCAACGTTTACAATTAAAGATAATATTTCAATAAAAGATTGGCAATTATCATGTGCATCATTCACATTAAAAAATTACAAATCTTTATATAACGCAACTGTTGTAGATAAAATTTTAAATAACGGTGGTGTAATTATTGGAAAAACCAATCATGATGAATTTGCAATGGGATCATCTTCAGAACGTTCAATTTTTGGGTCTGTAAAAAATTCTTCTAATGATAAATATGTTGCAGGAGGTTCTAGTGGTGGCTCAGCAGTAAGTGTTGCATTAGAAATTTCTGATTTTTCTTTAGGATCTGATACAGGTGGTTCTATTAGGCAACCAGCTTCTTTTTGTGGTGTTTTTGGTCTAAAACCAACATATGGAAGAGTATCTCGATATGGTTTAGTAGCTTTTGCCTCTTCATTTGACCAAATAGGTCCATTTTCTAGATCTACTCTTGGTTTAGCTAAATGTTTGGAAGTTATATCTGGGTATGATGAAAAAGATTCAACTTCCTCAAAAGAAAAAGTGCCTCCTTACTCAAAAAATATTGAAAAAAATATTCCTAAAAAAATTGGAATTCCATGGGAATTAATAAAAACAGGAACAAATAAAGAAATTTTAAACAAATTAAATATTTTAATTGATTTCTTAAAAAAAAATAATTGTGAAATTATTGATATTAAATTACCAAATTCAAAATATGCAATTGCTGCATATTATATTTTAACTATGGCTGAAGCTTCTTCAAACCTTGCAAGATTTGATGGTGTGAGATATGGATTTAGAGATAGTTCTAATGAACTTGAGTCAATGTATCTTAATACAAGGTCAAAGGGTTTTGGTGATGAAGTCAAAAGAAGAATAATATTGGGAACATATGTTCTATCTTCAGGTTATTATGATGCTTTTTTCAAAAAAGGACAACAAGTAAGAAGATTAATTAAAAATGACTTTGAAAATGTTTTTAAAAATGTAGATGTTATTTTGCTTCCCACATCTCCCACTCCTGCTTTCAAACAAGGAGAGAATTTATCTGACCCGTTAAAAATGTATTTATCAGATGTATTTACTACCCCAGTAAGTTTAGCAGGATTACCTGCTTTAAGTTTTCCAGCAGGAAAAACAAAAAATAAATTACCAATTGGATTACAATTAATCGGAAATTATTTTAAAGAAGAAACAATTTTAAATTTTAGTCATTATATAGAAAAAAATTTTAACTTTGATTAAATGTTTAATTTTTCTAATCCTTGGGTTTTAATATTTTTAATTTTTATTCCTCTATTATTTTTTTTAAAAAAAAGTAAAACTTTTCTTAAAGATGGTTCAATTCAGTTTTCTAATATTTCGCATTTAAAGAAAATAAAAAATTTAAATGGTCAGAAAAAAATTAATTTCCTATTATTTTTTCAATTATTTATTATTTCAACTTTAATATTTGTTTTAGCTGGCCCAAGATTAAAGTCTAATTTATCAGAATCTATTTACAATGTTATTGATATAAATTTAATTTTGGATATAAGTAGTAGTATGCGAGCAGAAGATTTTAAACCAAATAGATTGGAATCAGCAAAAGAAACTGCAAAAAAATTTATTGAATATAGAAGAGGTGATAGAATTGGTTTGTTAGTTTTTGCGGGTGAAAGTTATATCCAATGTCCATTAACTTTAGATTATAAAGTTCTTTTGCGTTTACTTCAAAATGTAAAAATAGTAGATGAAAAAAATGATGGAACAGCGATTGGAATGGCTATTGCTCATGGAATAAATAGATTGAGAAATAGTAATTCTAAGTCACGAATTATTATATTGTTATCAGATGGGAGTAATAACGCTGGTGAATTGGAACCAGTCACTGCTGCAAATTTTGCTAAAGAATATGGTATTAAAATATATGCTATTGGTGTTGGTGCAAATAAAGAAGCACCTTTTCCATATATTGATCCTTTTGGAAATAAATCTTATGTAAATGTAGATGTCAAAATTGATGAGAAAACTTTGAAGGATGTGGCTCATGAAACAGGTGGTTTGTATTTTAGAGCAAAAGATGAAACTGAACTTGAAAAAATATATGATGAAATAAATAAAATGGAAAGATCAAAAATAAAAATTAAGGATTATACAATGTTTACGGAGTTATTTTCATTTATTTTAGTTCCATTAATTATTTTATTAATATTTATTGAATTTTTATATCAATTTGTTTTTAAAAAAAGAATGTAAAATGATTGAGTTTAAATATCCATATGTTTTATTATTATGTTTATTTTTGTTAATATTTCTAATATTTAAAAAATTTTTTAATCAACATCAAAAGAATCAGTTTTCACAATGGATTGATGAGAGATTAATGAAAAAGCTAAATTTTAGATTAAATAATAAAAATATTAAATTGAAAAATAATTTAAGAATAATTGGAATTTTATTTTTGATATTTTCAGCATCTGGTCCTCAAATTGGTAAAGGGTTAAAAAAAGTTGAAAGAAAAGGTATAGATGTTTTATTTGCTTTGGATATTTCATCAAGTATGTTGGCACAAGATATTAAGCCAAACAGACTAGAAAAGGCAAAATTTGAAATTAATAAGATGATTAATTCTATGTATGGTGATAGAATTGGTTTAATTATTTTTTCAGGTTCTGCACATTTATATTTACCATTTACCACTGATTATGATGCCGCTAATCTTTTTATTAATTCAGTAGATACAGAAATGATTAGAACTAATGGAACTTCAATAAGTGATGCAATTGAAGTTTCTAAAGAATCATTTTATCAATCAGATAATAATAAAGTTTTGATTCTTATCAGTGATGGTGAAGATCATCATGGAGAGTCATTGGAATTAGCAAAGGAATTTAAAAAAAATAATATTATTATTCATTGTGTTGGTATTGGTACCAAAGAAGGTTCATTGATTCCAATTTATGATAAAAACTCAAATTTTATTGATTATAAAAAAGATATAAATAATAAGTTAGTAACCTCTTCACTTAATGAGGAGGTTCTTTTAGAAATTGCTAATATTTCTGGAGGAAATTTTTTTAGAATTGATAATATTAACTCTAAAATTAATGATTTATATCAAAAAATAAATATTATGAAAAAAAATACATTAAATACGCACGAATATTCTCAATTTGTTGACAGATATCAATTTTTTCTAATTTTTTCAATTATTTTATTTGTGGTTGATTTTTTACTTCCAACATCAAACAAACTAAAAGATGATGAAAATTAAAATTTTATTATTATTAAATATATATTTGTTTGCACAAGCTAGTGAAAATGATTCTTTAATAGAAATTGATAGATATTTAAGGATTTTGAACGAAAATCCAAATGTTCATGAAGCGAATTTAGCAGTTGGTAATATTCTTTATGATTCTGAAAAATTTAGTGATGCTGAGGTTTATTTTGAAAAATCTACTGAATCAAATAAATTAAAATTAAAACATAAGTCATTTTATAACTTAGGAAATTCTCAATTTGAGCAAGGTAAATATGAAGAAAGCCTAGATTCATATAAGAAATCAATTGAATTATTTCCGAACGACTTAGATTCAAAATATAATTATGAGTTGGCCAAGATGATGGTTAAAAAAAATAAAAAAAATTCTGATCAAAATAATTCAGATGATTCAAAAAAAGATGAACAAAATAAAGATCAAAATGAATCTACTAATCAAGGTTCTAATGAGGATAAAGAAGAAGAACCTAAAGAACCTAGAAAGCAAGATTCTAATGAGGATAAAGAAGAAGAATCTAAAAATCAAGATTCTAATGAGGATAAGGAAGAAGAATCTAGAAATCAAGACTCTAAAGAAAAAAATAATGATAATACAAAAAGAATTGATAAAAAAAATGAAAAGATATCACCCAATGCCGAAAGTATACTTAATGCATTAAAAGCGAATGAAAATAATTTAATTCGACCCCAAATTGATCAAAATAAATCTAACACAATATTAAAAGACTGGTAATAATGTTAAAAAATTTAATTTTAAATGTTTTTTTAATAAGTTTTGTTTTTGCAAAAATTGAAGTTTCTACTACAGTTGATTCTAAAGAGATTTATAATTATGAAAATATAAATCTAAAAATTATTGTTAATCAGTCTGATGGTTTTCCAATTGTTGAAAACTTTGAACTAAATGATTTTGAAGTTTTATCTGGACCTGCTCAATCTAGTAGCTTTCAATGGATTAATGGGAATATGTTATCTAAAAAATCTTTATCATGGACTATTTCTCCTAAAAGAACGGGTGATTTGCTAATTCCTGAGTTTGAAATCAATGTTGATGGGAAAAAAATAATTACTAATTCAATAAAAATAAAAGTTTACGATAATAATAATTCTCAATCGTTTAAAACAAATTCTTCTGAAAAACCACCCATTATATTTATAGTTGCTAAATCAGACAAGAAAAAATTAATTAAAGGAGAGCAAGTAAATGTAGAATATAATTTATATTCAAAAGCAAATCTTAGACAATATTCATTTAAATCAAAGCCTAAAGGACAAGGTTTTTGGAAAGAAGAACTTTATGAGCCAAAACAACCAACTTTTAAAGAAATAAATTATAATGGAGAAAAATATAATGTTTCAACAATTTATAGAATTGCACTTTTCCCAACAAATATTGGTGAATTAAAACTTGATCAACTTATTTTAAGTTGTTCTATAGAAACACCCTCATCTAGAAGAGATTTTTCATTATTTGATGATTTTTTTACAGATTCTTTTTTTTCAAGAACTCAAGAAAAAATAATTAGTTCTAATTCTTTAACTTTTAATGTTGAGGATTTTCCATCTAAAAATAAACCAGAGAATTTTACTGGTGCAGTTGGAACCTTTATTATTTCATCAAGTGTAGACACTAATAAAGTAAAGATTAATGAACCATTAAGATTTAATCTAAAATTATCTGGAACAGGAAATTTAGATCTTTTTGAAATTCCAGAACCTGACTTTCCATCTGGATTAGAAGTTTTTCCACCTAAATCTGATTTTTCGAAAGACCCTTTTAGAGATAAAATTTCAGGAGTAAAAAATTGGGAATATATTATTATTCCTAGAAATGTTGAGGAAATAAAGATTCCCTCAATTGAACTTCCATTTTTTAATCCCATTACTTCAAATTGGAATACAACAAAAACAGATATTTTAAAGATTAATGTTCTTTCAGATCAAGATCTTTTTTCTAGAAGTAATTTTAAAAGTAATCAATCTGGAATTATTAATAAAGAATTAAGATATATTAAAGAAAGAAAAGTTAGTTTTACTAAAAATGGTTCATCAAAATTAATTCCAAATATTTTTTGGATTATAAATTTTATATCAATTATGATATTGATAATCCCTTATTTAAGTAGAGATTTCAAGAATATATTTGTTAGAAAAATATCTTTTTCAACAAAAGCAAAAAATTCTATCTCAATAATTAAAAATGAAGATTATAGTAAACTTCATAATATAATTATTGAGTTTTTTTCGAATAGATTAAATATTCCAACAAATAAATTAAACATTCAAATAATTAAGATAAATCTATTGAAATTATTAAAAGAAGAAGAAGTAATAGAAATTGAAAAAATTTTAAAAATATGTGAAGAAAAAAAATTTTCAAACAATAGTTTTAAAAATGAAAATTTTAATAGTATTTCAATTAAAATTATTAATTACATTTCAAAAATTGATAAAGTATATGATTAAAATAATATTTCTAAAAATTGTATTGTTAGGTTCAATACTAAATGCAGAACAAAATATTCAAAATATTTTTGAAAATGGAAATAAATTTTATTTTAATAAAAATTATTCTATGGCTATTCAAAGTTACAATAAAATATTAAATCTCGGATTTTATCATGAAAATCTTTTTTTTAATTTAGGGAATGCATATTATCAAAATAATGAATTAGGAAATGCAATTTGGAGTTATGAAAAAGGATTAAAAATAAATCCCTTTGATAAGGATTTGGTTTATAATTTAAGTTTTTGTAATTCGAAGTTAGCTGACAATGTAATTAGACCTAAACAATTTTTTTTATTTAATTTTTACTTAAATACAATTAGGTATTTAAGTTTTCCAAAATGGTTTGTTTTATTTAGCATTACTTTCTTTTTATGGTGCTTATTAAATAGTATTATTAAGGTTTTCAATTATAAAAAAAATATTTTTTTTAAGTCTTTTAGATCGTTTTTATTATTTAGTTTATTAATAATATTATTATTTCTTTATGATATAATTTTTAATTTATCAAAAGTTAATAATGGAATTGTGGTTACGGAAACAATTGATATCTTATCAGCACCATCTAAAAATAGCAATTTAGTTTATACAATGAATGAGGGCTCAAAATTAAAGATAATAAATTTTAATGACTTATGGTATGAAATAGAACTTTTGGATGGTAATAAGGGATGGGTATTAAAAAATAATATCAAAGAATTATAAATATGAATAAAATTTTATTTTTATTATTGTCATTTGGAAGTCTATTTAGTCAAAATACTAATATTTTTGATGAAACCTTTGATCCATCAAATCTAGTTGAGCCAAATTTAAAACTCCCTTTAATTGTTAAACCTAACGATGAAAACCCTGAATTTTTAAATAACACCATTGTTGATTCAATAATTGATGGATTTAGAATTCAGGTTGCTTCTACTAATGATTTAGATTTTGCAAATTCATTATCAAATAGTATTAAAGATAAATTTAATTATGAAACTTATATAATTTTTGATTCTCCCAATTATAAATTACGAGTAGGTGATTTTATTTCAAGAAAAAATGCTGAAACTATAAGAGTTAATCTAATTAAAAATGGTTATGATAAATCATGGATTATTCGTACAAAAGTTTATAAAAAATAAATATGGCTGGTCACTCTAAATGGTCCCAAATAAAAAGAAAAAAAGCCATACTAGACTCAAAGAGGGGTCAAATTTTTACTAAAATAATTA
>sequence17
ATAAGTACTGGAATTGATGATTCAGCTAAAATTTTAAAGTCTAATGGATGGAACTTATTAATAAGAATTCATTTTCCTCTTATAAAAACAAGTTTTTTAACAAGTTTTCTTTTAGTGTTTACTGAAGTTGTGAAAGAATTACCAGCAACTTTGATTTTAAGACCCTTTAATTTTGACACATTAGCTGTTTCAACTTACATTTACGCAGCTGAAGAACGCATGTATCAAGCTGCAACACCAGCTATTGCAATTGTAATAGCTGGTTTAATTCCAATTATATTTTTATCAAAAATGATTCAAAATTCAAAGGTAAATAAATGAGTGTAAGTTCAATACTTGAAATTTCTGATTTAGATTTTAATTACGAAAAAGAAAACTCAATATTAAGAAATTTTAATTTAATAATTAAAGAAGGTGAAATAATCTCTATTCATGGTCCATCAGGATCCGGAAAGTCAACATTATTAAGGTTGATTGCGGGTTTTGAAAAACAATCTAAAGGAATAATTAAAATAAATAATATAATTGTATCTGATAAAAATAATTTTGTTCCAACAGAAAAAAGAAATATTGGGCTAGTTTTTCAAGATAAAAATTTATTTCCTCATTTAAATATTAAAAAAAATATAATATTTGGAATTAGAAATCATCCTAATAGAAATACAATTCAAGAAGATCTAATAAAATTATTTAGACTAAAAAAATTAGAAAAGAAATATCCTCATCAACTATCTGGTGGAGAGCAACAAAGAGTTGCAATAGCACGATCTTTAGCAACTTCACCAGAATTATTGCTTCTTGATGAGCCATTTAATGCTTTAGATGAAGTACTTAAGAAAGAATTACAAGATGAAATGAAAAAAATATTTTTAGAAAAAAATCAAACTATTATGATGGTTACTCATAATCAGGATGAATCAGAATTTTTTTCATCAAAAATCTTTGAAATTAAAAAGGGAAGACCTAGTTTAATAAATTTCTAGTAATTCCACTTCAAATAATAGGGTAGCATTTGGAGGGATTGGACCAATTCCAGATGAACCATAACCTAAATTTGGAGGAATGATTAATGTTCGTTTTCCTCCAACTCTCATTGATAAAACACCTTCATCCCAGCCTTCTATAACAGAACCTACTCCCAAAACAAACCCAAATGGTCGACCTTTATCAACTGAACTATCAAATTTAATTCCTTTATTATCTTGGCTGTTTTCATCGTAAAGCCAACCAGTATAATGAACTGAGACTCTTTGACCTTTTTGCGGAGATGTACCATCACCTAAAACATTATCTTGATATTTCAAACCTGATTCATTTTCCATAAATTCTCCTGATTTTTGACTGCATGCTATTAATAAAATAAAAACTATTAAAAAAATTTTTTTCAATGTAATTACTCCTTTGTTTAAAACTTATTAATTTTAGATAAGAATACTACAGGTTTTTTATAAAAATTAAAAACTTTTTCACAACTTTGTTTTTGCTTAATTAGCTACCTAAATTAAACTATTATGCGTTCACTAATAATTACCTTATTTTTTTTAATTCAATTTCTGATTTCTCAATCTGATGATAGATTAAAGCTTTTAAGAGCTGATATACTTGAGAATATAATGAACGAAAATAATCAACCTGTGCAATATTTAAAAGGTGATGTAAAATTTAAAAAAGGGGAAGCAATTATAAATTCTGATGAAGCATATTATATAGATAAAAATGGAATTGGAATTTTTGTTGGAAATGTATCTATTGTTGATGAAGAAAAAATTTTCAAATCTGATTCAATTAAAGTAGAGTCTAAAAACAACATTTTTTCTGCATATGGTTCAGTAACATTTGATGAAAAAAAATATAAGCTTGAGAGTGATTCCCTTATTTTTTATAGCGAATCTGATAGTGGTATTGCTTTTGGAAAAGTTGAATTTCAGCAAGATAAACAAACAATTTTTGCAAATAAAATTACTTATTTAAAAGAGCTTAATGATAATGCAAGTTATCAGGCTGAGGGAAATGTTAAAATTATAAATGATAACGGAACTGCGATTTGTGGGGCGTCTACGTATGATGCATTAGAAAAAAAATCAATTTTATCAATTGAACCTTCATTGACACAAAATGGACAAATTTTAGAAGGTGAGAACATAGAATTATACTATGAAAACGATGAAATTAATCGTTTGTTTATAAATAATAATGCTCAAGTTATTTATAAAAAGAAAGGAAAAATCAGTTTAAATGATAGTTTGAATGTTGAAAACAAAGATTTTATTGATGATATGTCAGGAAATTCGTTAGAAGCATATTTAAAGAATGGAGAAATTGACTCTGTTCGTCTTCAAGGAATGGCAATAACATTAACACATTTATTTGAAGATTCTATTTTTCAAGGGAAAAATATTGCTAGCGGAGATACTATTAGTTTGAATTTTAAATCTGATTCGCTTGATAAAACTCAGTTGTCAATAATTAATGTTATGGGTGGAGCTAGAGGAGAGTATGAACCAGATTTAAGTTTAAATAAAATAACTAATAATATCATTTATAGTGCAGATACTATAAAGTATAACATTCCAAATCAGACTACAAATATGAATAATAGTGTAATAATCGATTATGGAGAAACAACTCTGGAAAGTGGATTTGTAAAAGTAATGTGGAAAGATAATATTATGACAGCATCTTCAGGAAAGGATAAAAATGAAGAAAATAGACCAAAGTTTATTGAGAAAGGAAGAGATCCTTTAATCGCTGATTCATTAACATATAATCTTTCAACAGGACAAGGAAAAGTTAATCAAGGAAGAACTAAAATGGATCAAGGTTATTACAAAGGAGCAGAAATAAGAAATAGAGAGGATAATATTCTTTTAATGAAAAATGGTATTTATACAACATGTGAAAACATTGATCATCCTCATTTTCATTTTGGAAGTAAACATATGAAAGTAATTTTGAATGAATTAATTGTTGCAAGGCCTCTTATTCTTCATATTTTTGGAATCCCTGTTTTTGGAATTCCTTTTGCAATTTTACCTGATCAAGGTGGTAAAAGACATTCTGGATGGATAATGCCTGCTTATGGTCAAAGTTCAAATCAAGGAAGATATTTAAGGGGTTTAGGATATTTTTGGGCAGTAAATGAATATTTAAATAGTCGCTTTACTTTAAATTTTTATGATAAAAAAGGAGTGGTGTTTGAAAACTCAAATAGATATTTTAAAAGATATTCCTACAATGGGAATTTTAATTTTAAATATAATAGAACAGTTTTGAATAATGATATAGGAAATTTTTTTTCGGATCCTGGCTCAGTAAGATGGTCAACAAATTGGACTCATTCTCAAATTTTAAGAAAAAATCAGTCTTTAAATATTAATGGTAGTTATTATTCTGATAGTCAATTTAACCAAAAACTCGGTATTCAAAGAGATACTAGATTAAACCAAAGTGCAGTATCAAATGCTACTTATTCAAAACGATGGCCAAAATCCAATATTAGTTTTTCATCAAATATTTCCCAAAACACAAATTTAATGGTTAAAAGCAAAATTGATACTTCATCTATTTATTATGATCAACCTCTAACTGAAAATAGAAAACTTCAAGAAAATAGAAATGTTTTTCCTACTTTAAATTTTAGAAAAGGTCAATCAAAACTATTTAATTCTCCATTATATTTTTCATACAACAGTAATTTTAAAAATAATGGTTCAGGATTTTATAAATCATATGCTATCAATGATTCAACATATGCTTGGGGTGAAAAAGAAAATGATTTTAAAAACAGTTGGATTCATAATTTTTCATTATCAGGAACTTCAAAAATTTTAAAATATATTTCATTAAGACCAAGAATAAATTTTAGAGAAGAGTGGATAACTCAATATTTTGATGCAGACTCTATAGACTCTAATGGGGAAATATTAAATAAAAAAACGATTAATGAATTTAAAACAAGACATGTTGGATCTTTATCTCTCAGTACAAATACTAAAATATATGGTTTGATTCCTATTAATATAGGTGGTTTGAAAAGTCTTAGACATACAATTACACCATCAATAGGTTTCTCATATAGACCTGATTTCACTAATAATTCTTTTGGATATGTAAAAAAAATATATTCATCAAATGGAAATAGTGAGTTGTTTGATCCTTTTCAAGGTAGTCAAATTGGTTCTACACCAAGCGCTGAACAGAAAAATATGAATATCTCAGTTAAAAACCTTTTTCAAGCAAAGATTAAAGAAGGTGAGGAGGAGCGTAAAATAGATAATTTGCTTACCTGGAATATAAATACAAGTTATAATTTTGCAGCTGAGCAATTTAAATTATCTCAAATTAGATCTTCATTTAGATCTGGATGGTTAAAAAAAATGAACTTAGATATTTCTATGACGCATGATTTTTACAAAATAGAAACAATAAATGATAAATCTATTAGATATGATGAAATTAATAAAACAGAATTGGGAATACCCATACCAAGATTACTTACTATGAATGCTGCTACAGGATTTAAATTTTCTGGAAATATATTTGGAATTAGAAAAAAAAATGTTGAAAAAGATACAGTTATAGTTGATTCAAATGATTTTGTTGATTTGATGGATGGTGGAATTGAAAAAATAAATAAAAAAAGATCAAATTTTTCAAAAGGTGAAAATTGGAATTTAAATGTATCTTTAAGATATTCCACTAACAGGGTTGATCCAATAAATCCTCGAAATACTTTTTGGGCGAATTCAAATCTTTCATTTCGGTTTGGTGGGGGGTGGCAAGTAAGATATAATGCAAGGTTAAACTTGATAGAAAAAGATTTAGTTAGTCAGGATATTAATATCTATAAAACACTTCATTGTTGGGAAATGAATTTTACCTGGACACCAACGGGATATGGTAAAGGTTTTTATTTTCGAATTAATGTTAAGGCACCAACTTTAAGAGATATTAAGTTAGAACAAAGAGGTGGAAGATGGACTGGTCCTGGTTTACCTTAGTTTTTTTAAATTATATACATAACTTTTAATATATGAAAAACAATATTTATTCTATAAAGGGAACTAAAGATATTTTGCCTATTGATTCAATAAAGTGGAAATTTATTGAAAATAAAGTCCATCAAACGATGGAGAATTGGGGATTTGGTCAAATTAGAACTCCTGTTTTTGAAAAAACACAATTATTTAAAAGAAGTGTTGGTGAAGAAAGTGATATTGTGTCAAAACAAATGTATTCTTTTAAAGATCAGAGTGAAAATGATTTAACATTAAGACCTGAATTAACTGCTCCAGTAATGCGAGCATATATTCAACATAATATGGAAAGGCATTACGGAAGTTTAAATAAATTATATTATATTGATTCTCTTTACAGACAAGAAAGACCTCAAGCAGGAAGATTACGAGAATTTAGTCAATTCGGTGCTGAGGCAATTGGATCAAAAAACCCAGAACAAGATATAGAAATAATTTTTTTAGTTTTAAATATTTTTAAGGATTTAGGGTTAGATAATCTTAATATTTTAATTAATAGTGTAGGTTCTATTGAATCAAGAGAAAATTATAAAAAAGATTTGATTAATTTTTTTGAACCACATAAAAAAAAGCTATCAGAAACAAGTAAAAAAAGATTGCAAACAAATCCCCTTCGAATTTTAGATTCTAAAATACCTGAGGAAATAGAAATTTTAAAAAATGCTCCTGATATTTTTGATTACTTATCTAAAAATGATAAAGAACATTTTAATTTTATCTTATCTACAATGAAAAGTTGTAATATAAAATTTTCAAGAGATCCTAAACTTGTTAGAGGTTTAGATTATTATTCTAGGACAACATTTGAAATTATTAGTTCTGATGTTGGAGCTCAAAGTGCAATATGTGGTGGTGGAAGATATGATTCATTAGTAGAAAAATTAGGTGGAAAACCTACTCCAGCAGTTGGATTTGCTGCTGGAATTGATAGGATTTTAATTGCTTTGTCTAATAAAGAAATTTCGCAAAAAACTTCATCACTTGCTATTCAAATAATTTGTTTTGAAGATATTTTTAATCATAAAATATTAAGTAAAATTTTAGAATTGAGAAAATCAGGTTTAATCGTTTATTTTGATACATTGCGTAGAAGTATAAAAGCTCAAATGAGAGAGGCTAATAAAAATAAAGTTTCTCATGTTATCATTATAGGAAGCAATGAAATGGAAAATAATAAAGTTCAAATAAAAGATTTAAATTCAAGCAAACAAGTTGAAATTGATTTTGATGAAATCAATAATTATTTTAAAAAGTAATTTTTTTATTTTTATTTTTTTTTCAATAATATTAGTAACGTTAATCTTAGAAATAATAAAGTAAAATTTAAAAATGTCCAAACAATCCGTTATAATAGTTGAATCACCTTCAAAAGCAAAAACTATTCAGAATTATTTAGGTGATAATTATAAAGCTATTGCATGTAATGGTCATATTAAAGATCTTCCAAAAAAAGAACTTGGTGTTGACATAGATAAAGATTTCTCCATTAATGAAGTAAAACTTCCTGATAAAAAAGATTTTTTTAAAGAACTAAAAAAATTTACTAAAGAATATGAAAAAATTATAATAGCAACCGATCCTGATCGCGAGGGAGAAGCAATTGCAGCACACATTGCACAAGAAATTGATGAATCAAAAATTTTTCGAGTAAGATTTACAGAAATCACTAAAGATGGAATAATTAAAGAAATGAAAAAACCAGAATCAATAAATTTTGATTTGGTTGAAGCAAGACAAACTAGAAGAATAATTGATAGATTAGTTGGATATAAAGTATCAAGAGTTTTATGGAGTACTTTAAGAAAAAATATGAAATTTGTTGATGTTTCTTTATCAGCCGGTAGAGTACAATCTGCTGCATTAAGAATTATGGTTGAAAGAGAGAGATTAAGACAATCTTTTAGATCAGCTACATATTATGATTTAAAAGCAGAATTTGAGAAGAATACATTAACATTTAATTCAACGTTATTTCAAATTGATAAAACTAAAATAGCTCAAAGCAAAGACTTTAATGATAATACAGGTGAATTAATTAATAATAAAGTTATTTTGATCACTGAAAATGAAGCTAAAAATTTAATAGAAAAAACAAAAAATAATAATTGGATTGTTGATAATGTTATTGAAAAACAAAGGAATTCTAATCCCAAACCACCTTTTACTACTTCCACTCTTCAACAGGAGGCCGCTAGAAAATTAAAGTTTTCTGCAAGAAATACAATGAGAGTTGCTCAAAAATTATACGAGCAAGGTTTTATTACATATATGAGAACAGATTCAACAAATTTATCTGATGAGGGACTTAAAGGATCAAGATCTGAAATTTTAAAAAAATTTGGAAAAGATTTTTTACCTGAAAAACCAAATATTTATGTAACTAAAGTAAAAAATGCTCAAGAAGCACATGAAGCAATTAGGCCAGCAGGAGTTAAATTTTCTAATGTAAATGATGTGAAAAATAAAATTGACGCTGATGCAGCAAAATTATTTGAATTAGTTAAAAAGCGGACTATTGCTTCTCAAATGAAACCAGCTATTTTAAACCAAACAAGCGTAGTTATTAAAAATGACAATCTATATTTTAAATCTACGGGACAAGTAATCATCTTCAAGGGATATATGGCAGCATATATTGAGAGTTTTGATGAATCTAAAGCTCATGAAGAAAACAATTTACCGAACTTGATAGAGGGGGAAAAACTAAACATAAATAAAATTAATTTAGAAAAACATGATACAAAACCTCCTGCAAGATTTACTGAAGCATCTTTAGTAAAAGAGCTTGAATCAAAAGGAATTGGCAGACCTTCTACATTTGCAAATATAATTGATAATATTGTTTATAGGACTTATGTCGATAGAAATAAAGGAAAATTGACTCCAACATTTTTAGGAATTGCTGTAACTCAACTTTTAGAGAATCATTTTAATAGTTTAGTTGACTCTCAGTTTACAGCTAAAATGGAAGACAATCTCGATGCAATATCAAGGGGTGAGATAAAGTCAATTCCATTTATGAAAGATTTTTATTTTGGATCAACTTCCCAAACAGGACTTTCTAAAATGTTAGATGATAAAGTGGATATAGCTAAAGCATGTACTGTAAATATAAACTATGATGAAAAAAATAAAATTGAATTGAGAGTTGGTCAATTTGGTCCTTTTTTACAAAAAGGTGATTTAAGAAAATCTGTTCCATTTGAAACTTATCTTGGAGATTTAAATATTAACAAAGCAGATGAAATTCTTAACAATGAATTGAATGAGAATAAAGAAATTGGAAAAGATTCTGATGGAGAGGTAATTTACTTAAAAATAGGACCATATGGACCCTATCTTGAAAAATCTGAATCAAAAAGTAGAAAAAGTATTCCTAAAGGATTTCCAATTTCAGATGTGGATTTAGAATATTCTTTGAAACTTTTCTCTTTGCCAAAAGTTTTGGGTAAACATCCTGAATCAAATGAAGATATAACATCAGATTATGGTAGATTTGGACCATATGTATCAGCTGGTAGAGGTCAAAATGCAAGTATTCCAGTTAATTTATCACCACTGACTATTACTTTTGAAGAAGCCTTAGATTTAATTTCAAAAAAAACAAGTTCATCAAAAGAGATTAGAACGGTTGGAACACATCCTAAATCAAATAAAACAATCATTGTAAAAGAGGGAAGATATGGTCCTTATTTAACCGATGGAAAAGTTAATGTTTCAATACCTAAAAATTTTAATAAAGAAACTATATCATTGGATGAATCTATTATTTTAATAGATAAAAAAATTAAATCTCCAAAGAAGAAATTAAAGAAAAAGAAAAAATGAATAAAATAATTCTGCTAATATTTTTTTTTAATTTTATTTTAGGAAATAATTCCCTTGTTTCAGATTTAGAAAAATCTTTGATGGCACCATGTTGTTGGACAGGAACTGTTGCAGACCATGGGAATCCAAATATGGAGAAAAGCATTAAAGAACTTGTAAACAAAAATATGAATAAAAAAGAAATTTTAGATCATTTTGTCAATATATATGGAGAAAGAATTTTAGCAGTTCCAATCGCAAGGGGATTTAATTTAATGGCTTGGATTGCTCCTATATTAATATTAATTATCGGTTGTATAATCCTTTATAATTATATAATAGTAAGAACTAAAATTTCTCCGAAAATAAATTTTTTAGATTATAAAAATGTTAAAAATAATGATTTGATAGAAAAAGAATTAAAAGAAATGGAATAAAAAAACAAAAATTTATGATTAAAAAATCAATGGAAAAATTAGTTTCTTTATGTAAAAGAAGAGGTTTTATATTCCCAAGTTCTGATATTTATGGGGGTTTAGAAGCTACAAATGATTACGGACCTTTAGGGATAGAGCTAAAAAACAATATCAAATCTTTATGGTGGAAAGATATGGTGACTTCTCGAAATGATATTGTTGGAATGGATTCTGCAATTTTTATGAACTCGAAAGTGTGGGAAGCGTCAGGTCATATAAATGAATTTCATGACCCATTAATAGATTGTAAAAAATGTAATGCGAGATTCAGAGAAGATCATATTGATTTAAATAAAAATTGTCCTAAATGTGGAATTAAAGATTGGACTGAACCAACACAATTTAATTTAATGTTAAAAACTCAATACGGTCCATCAGAACAATCTTCATCCGTTGTTTATCTTCGTCCTGAAACTGCTCAAGGAATTTTTGTTAATTTTTTAAATGTTATTAATTCCTCAAGAATGAAACCTCCTTTTGGTATAGCTCAAATTGGAAAAGCTTTTAGAAATGAAATTACAACTGGTAATTTTCTCTTTCGTTCTCGAGAATTTGAACAAATGGAAATGGAGTTTTTTGTTAAACCTCAAGAAACTACAAAATGGTTGGAGTATTGGACTGATTTAAGACTTGAATGGTATAAAACTTTAGGAATTAATGAAAAAAAATTACGTTTAAGATCTCATGAAAAAGATGAATTGGCTCATTATGCAGCTGCTTGTTATGATGTTGAATATAATTTTCCTTTCGGATGGTCAGAATTAGAGGGTATTGCTGATAGAGGAATCTTTGATTTACAACAACATATGAATCATAGCGGAAAAAAATTAACTTGGTTTGATTCAACTGAAAATCAGCATATTACTCCTGCAGTAGTAGAATCTTCATCTGGTGTTGACAGAACTGTCTTAACAGTTTTATCTGATGCATATCATGAAGAGGAGGTTAATGGAGAAAAAAGAGTTCTTCTAAAACTTCAACCAAAACTAGCACCAATAAAAGTTGCAATTTTTCCTTTAATTAATAAAAATGAATTACCCGATATTGCAAATAAATTAACAAAGAACTTGTCACAGCATTTTTCAACATTTTATGATAGTTCAGGTTCAATTGGTAAAAGATATAGAAGGCAAGATGAAGCAGGAACTCCATTTGGAATAACTATAGACCCGGATACATTAAAAGATAATTGTGTTACTATTAGAAGTAGGGATAGTATGAAACAGCAAAGAATAAATATTGATACTACTTTAAAATTTTTAAATAAATATATTAACAAGGTTGATTAATACTTTTATATCAGTAATTATACCAACTTTTAACAGAAGTTCATTTTTAACTCGATCCATAAATTCTGTTTTAAATCAAACTTACAATAACTTTAAATTAATTGTAGTTGATGATGGATCAGTTGATAATACAAGCGATTTAATTAATAGCAATTACAAAAATATCATTTACTTGCATCAGAATAATAAAGGTGTAAGCTCTGCAAGAAATTTAGGCATAAATACAACTAAATCTGAATGGATAGCTTTTTTAGATTCAGATGATGAGTGGCATCCGAAAAAATTAGAACTCCAAGTAAAAGAATTAAAAAAAAATCCATCATATTTTATTTGTCATACAAATGAAAAATGGATTAAGAATGGGAAACATTTAAATCAAAAAAATAAACATCAGAAATATGGTGGATGGATTTTTGATAAATGTCTTTCTTTATGTTGTGTCTCTCCATCAAGTATAATTATTCATAATACAGTTTTTAAAAATTGTGGAATTTTTGATGAAAGTTTTCCAGTATGTGAAGATTATGAATTATGGTTGCGAATATCTTCTAAATATAAATTTTTATATCTTCAGGATAAATTACTAACTAAATATGGAGGTCATTCTGATCAATTGTCAACAAAATATTGGGGAATGGATAGATTTAGAATTGAAGCTTTATATAAATTAATAGATGTTGGAAAATTATCTTTCCAAAATTTAAAAATCGCTAAAAAAATGCTAAATCATAAAACAAAAATTTATACTGATGGGGCTTTAAAAAGAGGTAAAATCGATGAAGCAGAAAATTATTTAAATAGATTGAAATTAATAAATTGAAACCTCAAGTAAATTTTGTAGTTGCTCTTCAAAATGAAGCAAAACCATTGATTGAATATTATAAACTTACATTATTACATCATTATCCATTCAAAGTATATAAAAATGAAAATAAGTGGCTAATAGTATCAAAAGTTGGCAATAAAATGATAAAAAAAGCCTGTCTTCATTTATCAGAAATTTCACATTCTCATTTAAATACAGTTTGGTTAAATGTTGGCACAGCAGGTCATTTACATTACCCTTTAGGAACAATTTTAATAGCGAATAAAATTATTGATGATCATACTAAAGCAATCTATTACCCTTCTCAAATAATAAAGGATAACTTAAAATCAACTATAGTAAGAACAGTTGAAAAAAATGTAAATGATTATAATGAAAAAGAAATTTTTGATATGGAAGCATCTGGTTTTTTTCATATATGTTCTAAAATAAGTTTAAACGAATTAATATGTTCAATTAAAATAATTTCAGATAATAAAGAATTTCCAAATTTTAATAATAAATTAATTTATTCATTAATCAAGAATTCTTTAAATAATTTAAGTGGAATTGTTGATCAATTCTATAAATTATCAAAGAAACAGTGCTCATTTGTTTTAACGAATGAACATTTTGAAATTTTTTTAAATAAATGGCATTTTAGTTTTACGCAAACTTTTCAACTTAAAAAAAAATTAAATAAATTGAGATTTTTAAAACCTAAGATTGATTATTTTAATGAATCTAAATCATGTAAAAATTCAAAAGAAGTTTTAAATTTTTTAGAAAATGAGTTATTAAATTATGATTGAAACAATTTATGTTGAAGAATCTGTTGAAGAACATTCCAGAACAAAAAAAATCCTAAAAAAATTCCCTAATTCAACTATAATTGTTTGTGATCGATATAAAGAAATATTTAATAGAAAAAAACAAAATTTTAGAATTCAGAAAACTTCTCCTTCTTTAATAATAGCAAAAAAAAATAATAATTTTGTATTACCAACCCCAAAAGGTTTAGGAATTGGTTCTAACAAAAATTATTATTTTTCACATATGTTAAATTGTTTGTATGATTGCAGATATTGTTTTTTACAAGGTATGTACGAATCTTCAAATTTTGTATTATTTATTAATTTTGAATCATTTACTAATAGTATTGAAAAAATTATAAAAAATAATTTAAATGGTGAAAAAATAACTTTTTTTTCAGGTTATGATTGTGATTCATTAGCGATGGAATCAATAACTGGTTTTGTAAAATTCTTTTTACCTTTTTTTGAAAATAAACCTAATACTGAAATTGAATTAAGAACTAAAAGTGTAGCAATAAATGAAATTTTAAATCATAAACCATTTAATTCATGTATCATTGCATATAGTTTTACTCCTGATGAAATTGCAAAAAAAAATGAACATGGAGCCCCACCTGTTAAAAGTAGAATTAATGCTATGCAAAAACTTTCAAATGCTGGATGGAAATTAGGATTAAGGTTAGACCCATTGATTTATCATTCTAATTATAAAGATAATTATAAAAAATTAATCGATGATATTTTTTTAAAAATTTCTGTGAAATCTTTTCATTCTATTTCGCTTGGTGCAATGAGATTTCCAAAGAAAATGTTTAATAAGATTTCAAATTTATATCCAGATGAAAAATTATTTTCAAAAGATTTTGTTCAAATAAATAAAATGAAGTCATATCCCAAAATTATAGAGTCTGAAATTGTTAATTATTGCAAAGAATATTTAAAAAAATATATTGATGAAGATCAAATTTTTTCTTTTGATCCATATTTATAATATTTTAATTGTTTCAATAATTAATTTAGACAAATTCAATCTTATTTTATTAGCAGAAGCTATCACATCATTGTGAGTAATAATTTTAGAATCTATACCAGCAGCATAATTTGTTAAACAGCTAATAACTGCAATTTCCATTTTAAGAGATGTCGCAATATTAATTTCTGGGACGGTTGACATTCCAACAGCATGAACTCCCATTTTTTTTAAATAATTAATTTCTGATGGAGTTTCATAGCTGGGCCCTAATGTCCATCCATAAACACCTTCATTATATGGGATTTTTTTATTTTGAAATGCTTTTTTTAAAGCATTTGATAATTTGAAATTTCTATTTTTTTTTAAGTATTTAATAGAAGGATTTTTATCACTCATAAAAGTGAAATCAACATAGCCTATAATATTTAATATTGTAGATGGTTTATTAAGTTTAAATATCGATCCTGAACAATTAGTAATTATTATTTTTTTAATTCCTAACTTATAAAAAATTTTTACTATGGATTCAATTTGAACTTTATTCCAACCCTCATAGTAATGGAATCTTCCATTTGACATTAAAATATTTTTATTATTTATTTTACCAAATACAAATTCACCTTTATGACCTTCAACTGTAGGTAATGGAAATTTTGGTATATCATTATATTTTATTACTTTTGTAGTATCAATATTCTCTGATAAACTACTTAGCCCAGATCCAAAAATAATTCCTATCTCAGGATTAGATTGTCCTTTTAATTTTATATAATTAACAAAATTTGATAATGAATTCATTTTTATTATATATTTCCATAATTTAGGTGTTGAAAGTTAATATAAAATTAAATTTTATAATAAAATCTTAATTTTCGGAGGAGATTAATTTAAATGGAAAAAGATGACATTAAGTTATTAGAAGAGATTAGAAATACTTTTCAAAATCTTTCAAATGAGTTAGAAAAAAAAATAATTGGTCAAAAAGAAATTATTAATTATTTATTTATAATTTTATTAGCTCGAGGACATGGATTGATGATTGGAGTGCCTGGATTAGCTAAAACATTATTAATTAAATCTTTATCTGAAGTAATGGATTTAAAATTTAATAGAATTCAATTTACACCAGATTTAATGCCATCAGATATTACAGGGACTGAAATTTTAGAGGAAAACCAAGTTACAGGTAAAAGGAATTTTAAATTTTTAAAGGGACCAATTTTTTCAAATATTCTACTTGCTGATGAAATAAATAGAACTCCTCCTAAGACTCAATCTGCTCTTCTAGAATCTATGCAAGAACAAAAAGTAACTATTTCTGGAAAAACTTATTCATTAGATTCTCCTTTTTTTGTTTTAGCAACTCAAAATCCAATTGAACAAGAAGGAACATACCCACTTCCTGAGGCACAACTTGATAGATTTATGTTTAGTTTAAATATTAATTATCCAACTTTGAAAAATGAAATAGAAATTATTAAAACTACAACTTCAGAAAATAATAATAAATTAAATCCCATGATTTCGAAAGAGGAAATCATCTCATTTCAATCATTATTGAGAAGAGTTCCAGTATCCGAAAATGTTATCAGGTTTGCTGTTAGTTTAGTCACAAATTCAAGACCAAACAAAAACTCTCCAAATTTTATCAATGATTGGGTTGAATGGGGAGCTGGACCTAGAGCATCACAATTTTTGATTCTAGCTGCCAAAGGAAAGGCTATTTTGTCTGGTAGACCTAGTCCAAATATTTCAGATATAATTGCTGTTGCAAAGCCAGTTTTAGGTCATAGAATAATAACTAATTTTAATGCTGAAAGTGAAAATGTTAATATAGATATTATTTTAGATAAATTAATTAATTTTTTGAACAAGAATTATGAAGTTTAATCATAAAAAAAAATATCTTAATCCAATAGAAATTGCAAAATTAAATAATATTTCAATTAAAGCCAAATTTGTTGTTGAGGGATATTTATTAGGATTACATAAAAGTCCTTATCATGGTTATAGTGTTGAATTTGCAGAACATAGATCATATGAAGCTGGAGATGAAATAAAAAAAATTGATTGGAAATTATTTGGTAAAACTGATCGATATTATATTAAAGAATATGAAGAGGAAACAAATTTAAGATCATATATTATTCTAGATACAAGTAAGTCTATGAATTTTTCAAATGCATCAATTTCAAAACTTGATTATGGAAGTTTAATTGCCTCATCCCTATCTTATTTAATGCTCAAACAAAGAGATGCAGTTTCATTAACTTTATTTGATGAAAAAATTAAAGATTTTATACCACCTAAAAGCAATCCAAATCATATCAATTTAATTTTTAGTAAACTTGATAAAATAATATCTGGAAATAATACTAATATTTCAACTATTTTGCATGAATTAGCATTAAAATTAAAACAAAGAGGCTTAATAATTTTAATTTCTGATTTACTTGATAATCCAAAAGAAATTTTATCTGGATTAAAACATTTTCTTTATAATAAGCATGAAATAATTGTTTTTCATTTATTTAATCCTAAGGAATTAAACTTGGATTTTTCTTCAAGGATTAAATTTAAAGATTTAGAGACAGGAAAAGAAATTACTACTGACCCATGGCTTATTAAATCAGATTATGAAGAATTAACTAATGAATTTCAAAATTATTACAAAAAAGAAATGGGAAATAATAAAATTGATTATATTCAATTGTCAACTGAACAGAGTTTGGGTTTTGCTCTAAATAAATATTTAAGTAAAAGAAAGGCTTGTTCTTAAATATTTACATTAACCTCCAAATTCTTTTGATTTATCTAGCCACTCTTTAGCTTCTTCAGGTCGACCAAGCCTCATTGTGACTCTAACCATTGCTTTCAATAAATAAACATTTTCAGGATCATTTTCTAATGCTTGTATGTAATAAATTTCGGCGTCTGACCATCTTTCCATTCCCTCATAGGCCTCTGCAATTCCAATAACACCCATTGCATCATCAGGGTCAAGGCTTATAACTTTTTGAAATTGTAATTCCATCATTTCATAGTCTTGAATTTGGCCATAAAGAACCCCAAGATTAAAATGAAGATCAGTTGCTTTAGGCGCTGACCTAATAGCTTTTGTATATGCAAATATTGCTCCATCAATATCACCGGTTTGATAAAAAGCATCTGCTAATCTTGAAGCTCCTGTGGCACTTGCAGGTTCAATTTTTAATCCTTCTTCAAGATATTTAATTGCAATGTCAAATTCTTTATTATCTAAGAAAACTTTTCCTGCTTCAAACAATAAATCTGGATCTTCAGGATTTTTTTCCATAGCTTCGTTTAAAGTCGTTTGAATCATATCTTTATTATTAAGTCCAATATGACAAAAAACAAGATTTTTATAGGTCAAGACTTCATCTGGTTTTATTGTTTTGGCAATATTAAAAGCTTCAACAGCGTTGTTAAAATTACTTGTTCTATCTTCACCACTACTTTGAATTGCGGCATTATAATTATCTGAGCCAATATTAAATAATCTAATCCAGTGTTTTGTTCTTTCATCTTCTATTTCTGTTTGAATAGCTTTACCACTAGATGGTAGTTTAAATTTAGGATTTAATTCAAGAACTTTATTAAACATTTGATTCATTTCTTTATACTGTTCATTTCTAGCATAAACGTGTTTTCCTAAAAGGAAATAAGCTTCAGGATCTTCAGGAGTTACTTCAATTGCAGCTAATATAAATGCTTCAGCTTCATCAAATCTTTGTTCTTTAACATATAAACGTGCAGATGCTAATTCTTCAGTAGCACAACTTGAAAAAATAATAGTTATTAATAACAATAACATTATCTTGTAAATATTTAACAAATTCATTTAATCTCCTTAGATGTTTTTTAAATTTAATTCTTATGTTAGGGTCATTCAAGTCAAATAAAATTATTTTTTAGATATTCTATTCTTTGTTTTAAAGATGATTGATTCATTTTTTTGAAACCTTCTAACCCAAAGCCTTCAACACAAAATGAAGCTGAAGCAGTCCCCCATAACAAAGCTTCACTGATATGAAATCCATTCGCAATTGCAGCCATTACACCACCTGCAAAACTATCACCTGCTCCAGTTGGATCAGTTATTTTTTTTATTGGATACACTCCAATTTCAATATTTAAATCTTTTGAAAAAAGTTTACATCCAGCTGAACCTTTTTTTATAATTACCATTTTCGGACCCATTTCTAGAATTTTCGGACCAGATAAATCTAAATCTTTACAATTTGATATTTGGATTGCTTCACTTTCGTTTATGAATAATATATCAACCTTTTGTATTACTTCATCTAATGCACTCCTAGTTGATTCAATCCATAAATTCATTGTATCACAAGCAATAATATTATTGCTCGAGTTGATTTGTTCTAGAACTTCTAGTTGTAAGTTTGGATGAATATTCCCTAAATAAATAAAATCTGAATTTTTATTTTTTGATGAAAGTTTTGGATGAAAATTCTCGAAAACTCCTAGTTCAGTAAATAGTGTTGTTCTATCTTCCCAATTTTGATGATATTTACCTCCCCAACTAAAACTTTTACCTTTCACTATTTGAAGATCTTCCAAATTATTGCCATATTTATCGAATAATTTTTTTCCTTCTTCGGGATAATCATCACCAATAATTCCAACAATATTAATATTTGAATTTAAACCAGCAGTTCTTGTAAAATAGGTTAATGAACCACCTATTGTTTTACCTGATTTTTTATCAGGTAATTCCAACCAGTCAATTCCAATTGAACCAACAGCGAGTATAGATTTTTTATACATTTTTCAATCAAAAGTTTAATAGAATCAAGTATTTAGTTCAAGTAAATGTTTCAAAAATAAAAAATTAATTTATATAAATAAATGCATGACAATCTTTACTTTAATTGCTAATTTTATACTATGGCTTCAAAAAAATATGCTATATTAACTGACATTCATGGAAATTTAGAAGCTTTAAAAACATCTTTATCCATAATAAGTCAACAAAGTAATGTAGAAAGAATAATTTTTTTAGGTGATTACTTTTCTTTAGGACCAGCTCCAGAAGAGGTATTTAATATTTTATCTAATATGTCTACAGAAACTGTTTTTATAAGGGGAAATCATGAGCGTTATCTGCTAGAAAAAATCTGGGAAAACGAAAATCCTAAAATTGAAGGAATGAAGTCTAATGATCCAGTGTTGAATGGTATAGTAAGTCATCAAAAATGGGTTTATGATCAAATAGGAACTAAGCTTTTAGATTTTATTGAACAAAGAACTAAAATTTCTCATAATGAAATAATTGGTTCAAACTATTTGGAATTTAGTCATGCTTGGTTCAAAAGAGATGAAAAAGTACCATCTGTAGATGAGGCTAATGAACTTTCAAAAAAATATCTTAACCAAAATGAAAAAATTAAAAAAATTACTTTTGTACATGGACATATACATCTTGAAAGAAATGAAAAACATAATAAATTTTCTATTTATTGCCCTATAAGTACTGGTCTTCCATTTGATAAGCTTACTAAAGGTTCAATTGGGTATTTAGAAATTGATGAAGATGTTTCTTTTAGAATTAAAAGATTTGATTATGACATGGAAAAAACAATAAGTTTGCTTTATAAACGAAAACCACCTTTTTATAAAAATTTAATTCAAACTCTTAAGTTTGCAGAAATTAAAAATAATCAACTTTAACATTTTAAAATTTTTATAAATTTAAATATAATATGATTTATTTAGATTATTGTTCGACTACACCAGTTGATGAGCAAGTTGTCAATACTATGAGAAAAATAGATTTGGAGGTATTTGGTAATCCTTCAAGCATTCATCAGTTTGGACAAAAAGCTAAAGCAATAATAGAGTCTTCTAGAAAAGATATAGGTAGTATTCTTGATTGTTCATCAGATGAAATTATATTTACAAGTAGTGGAACTGAGGCAAATAATTTGGTTTTATGGGATGTATTTCAAAAAGGTGGAAAACATATTATTATTTCTAATATAGAACATCCCTGTATATCTAAAACATGTTCTGTTTTGAGGAGATTTGGAGTAAAAATAACTAAAATTCCAGTTGATCAAAATGGAATTATAAAAATATCAGAATTAAAAAAATCAATTAATAAAAATACTGCTCTAGTTTCAGTTATGTTAGTCAATAATGAAATTGGTACAATTCAACCAATTCAAGAAATAATTAAAATATGTAATTTAAAAAAAATACTATTTCATACAGATGCAATTCAAGCTTTTGGAAAAATTGATTTAAACTTTAAAAAAAATAAACCAGACATGGCTTCATTTTCTGCTCACAAAATTTATGGACCAAAAGGAGTTGGTGCTTTATATATTAAAAAAGGAATTAAATTAAATCCTTTAATATATGGTGGTTCGCAAGAGATGCAGATTAGAGCTGGAACTGAAAATTTATCTGGTATTGCTGGATTTGGACTAGCTGCAAAATTGGCAAATGAAAATTTAAAAAACGACTCTATTAAATTAAATAAATTAACAGATAAGCTTAAAAAAGATATTTTTTCTAATATAGAAAATGTAAAAATTTTATGTAATTCCTCTAATCAGATCCCAGGTTTTATATCATTGGAATTATCTGGTGTCAGTGCTAATGATTTATTAATTAAATTAGATATTGATGGATTTGGGATCTCAACTGGAGCAGCTTGTTCTTCAGGAGTAAATAAAACTTCTTCAGTTTTATCAGCAATTGGACTAGATCAAAAATCTGCTTCTTCAGTTATTAGAATTTCACTTGGGAGATATACTAATGAATCTGATTTAAATAGTTTTGTAGATTCTTTAAGTAAAAACGTAAAAAAAATAAGATATGAAAAATAATAGAGTTTTAGTTGCAATGTCAGGAGGTGTAGATAGTTCTGTTAGTTTGATTAAAATTTTAGAACAAGGATATGAACCTATCGGTGTTACTATGAAGCTATGGGAAAGTCCAGATGGTGTTCCAGCAACGGATTCTTACTGCTGTTCATTAGAATCAATAAATAATGCTAAAATTATTTGTCAGAAATATAATGTACCACATTATACATTAGACTTTAGAAATGAATTCAAAAAAAATGTTGTTGATTATTTAGTTAATGAATATTTTAATGGAAATACTCCTAATCCTTGTATTAATTGTAATAAATATTTAAGATGGGGTTCATTAATTAATCAGGCAAAAATACTTGAAGCAGATTTTATAGCAACAGGTCATTATGCAATAATAAAAAAAGATAAAAAATATGGTTTTACTTTAAGTAAAGGAAAAGATACTTTAAAAGACCAATCATATGTATTGTGGAATATAGATAAGAAATTATTAAGTAAAACATTGTTCCCATTAGGAAAATTGTCTAAAGATGAAGTAAGAAAAATTGCAGTTGAGAATAAATTAATTACTGCAGAAATTCCTGATAGTCAAGAATTATGTTTTTTGCCAAATTCAGATTATCGTCAATTTTTAAAAGATTATGCACCTAAAAGATCATCTAAAGAAAAAGAAGGAAACTTTGTTCTTGAAAATGGTCAAATAATTGGAAAGCATATGGGTATTTCAAATTATACAATTGGACAGAGAAGAAAGCTTGGTTTAAGTGGGCCTGAACCGAATTATGTAAAAAAAATTGATAAAAAAAATAATATTATTCAAGTATCATCAAGAGAAAAAATGTTTTTCGAAGATTGTAATGTAAAAAATTTAAATTTTTTAATCCCTCTAGAAAAATGGAAAAAAAGTTCAATTACGACTTACATACGATACAATCATACAGGGGTAGCTAGTGAAATTGAATTTTTAGAAAAAAACGAATTAAAAATAAAATTTAAATCTCCACAATTTGCTGTAACTCCTGGTCAATCAGCAGTATTTTATCAAGATGATTTATTGTTAGGTGGAGGAATAATTTCAAAATAGATAAGTTCATTATGATTTTAAACTAACATTTTGTTAAATTATTGCATGAAAAATTTTTATCTAATTTTTACTATCTCATTTTTATTTATTTTTATTTCTGGAATTAATTGTCAATATAGAACTAAAATTCCATCATCAGGAGTTTTTGATTCAAACAATCAGAATGATGAAATGAATTTTTTTGATTTATTTAATTCTGATAAGTTTTCAATGAATCATAGCTTTGGAATGGGTATGAGTTCTTTAGGTGGAATATCTAAATCTTATGGTACCTATACAAATAATATGAATTTTAGATTCAATGATAAATTAATGTTAAAATCTTTGATTTATTTCGTTCAACCAAGTAATGTTCAAAATTTGAATTCATATCCTGTTAATAATCCATCCATTTATTATGATGCAAATTTGAATTATAAAATTTCTGAAAATATAATTTTTCAATTATCTTTAAGTTCTTCTCCTAATTATTATAGATATAATTTAAGTCCATTTAGAAATTCATATAATTGGTAACTTTTATAAGTGGAAAAAATTAAAAAATCTTTAAAATTTTTTTTAAAACTTTCTCCTTTTTTTACAAAATATAATATTTTTATCGTTGTTTTGTGTCTCATTTCTTCTAGTTTTATTATTTCTATAGTTGACAGACATTTAAAATTTGGTATAAAAATGGATTACAGTTTTTCTAATACTCCTCCTCATTTAATTATAGATCCTATAAAAGAATATGAAAATTCTATATATAAAGATATAAAAGTTGAAGTTTTAAATGGTTGTGGGGAAAAAGGAATAGCTAAAGATTTTTCAGATTATTTAATTAATCAACATGTCGATGTAGTGAGGTCAGAAAATACTCCTGGTAATAATTTTGATTATAAAAATACTCAATTAATTTTAAGAACTGAAGATTTTCAGGATATAGCAAGGATAGCTTCATTGTTAGATATTAATCCTAAAGATTCAACTAAGGTAATTGTTGAAACTAATTTAAATTTATTAACAGATGTTACTTTAATTATTGGAAAAGATTTCAAAAATATTATTCCTGTTCAAAATTTTATTTTATCCCAACCTTAATTATTTATTTAAAAAAAAATAAAAAATAAGTGTCATTATCATATCAAATTGCTAAAAAAGCATCAAAACTTGCATTTTCAAAAAAAGCAGAAGATATTTTAATAATTGAAATTAAAGATTTAACATCAATTTCAGATTACTTTGTTATTTGCACAGCTAATTCTGCAATACATGCAAAAACAATATATGAAACGATTTTAGATGGTTTTATTTCTAAAGAAAAACCCTATCGTATAGAAGGGTTGAATAATTCATCATGGATAATTATGGATTATGTTAATGTTGTGGTTCATATATTTCAAGAACAGGAAAGAAATTATTATTCAATTGAGCGGCTTTGGGTTGATGGAAATTTTGAAAAGTTTAAAAATATGGAATAATATATAAAAAATGTCAATAATATTAATAAAAAAAGTAATTAAGAAATCTATTTTTCAATCCATTAAATCATGTAATTATGATTTAAATATTAATGAAAAAGATATAAAGCTAGATGAGACAAAAAATAAAGATATTGGTGACATTTCAACAGGCATATCATTTATATTATCAAAAAAAAATCAAGAGACACCAATTCAAATAGCTGAGAATATAGTTGAAAATATTTCTGTAGATAAAAACTTGATAATAAAAATAAGTGTATCAAAACCTGGTTTTATTAATTTTTATTTAAATATTAAAATTCTCTATGATAATTTGTTTCAGATAATTATTAAAAATAAAAAATATGGACAATCTTCAATCGGAATAAATAAAAAAGCTTTAGTGGAGTTTGTTAGTGCTAATCCAACAGGTCCCCTTACCGTAGGTCATGGAAGGCAAGCAGTTCTTGGTGATGTAGTATCAAGAATTTTAGAGTTTAATGGATATTCAGTTGAAAGAGAATACTATTATAATGATGCAGGAAGACAAATGAGAGTCTTAGAGGAATCAATCAAATCTAGATTTATTCAAATATTTGATGAAAAAAATAAATTTCCAGAGGATGGTTATTTTGGTGAATATATAGAGGATATTGCAAAAGATATATTAATAAAAGAATTAAAATTAAAGAATTTGAAAGAATTAAATATTTTTTTAGCAAATTTAAATGAATCAGATAAAAAGTTATATTTAAAAAATATTGATAGAATTAATTTTAGAAAATTTGGTGAAAAAGTAATTTTTAATAATATCAAAAATACTTTAAAAAAAATAAATATTAATTTTGATAATTTTATAAATGAGCAAAAATTTTATGATGATGGAAGTATTGATTCAATATTAAAAATTTTTGAAAAAACAAAATTATCCTATAAAAAAGATGGTGCAGTTTGGTTAAAAACCTCGAATTTTGGTAAAGAAGTTGATACAGTAATTATTAAAAACACAGGAGAGCCAACATATAGATTGCCTGATATAGCTTATCATAGGAACAAGATTAAAAGAGGGTATGATTTAATTATAAATATTTTAGGAGCTGACCATAAAGATACAGTTCCCGATGTTTTAAACGGAGTAAAAGCATTAGGTTTCGAAATAAATCATATCAAAGTATTAATTCATCAATTTGTTTCATTAATTGTAAAAAATGAAAAAATAAAAATGTCTACTAGAAAAGCTAACTTTGTTACTCTAGATGATTTAATTGATATGGTGGGTGTGGATATTACTAGATATTTTTTTATTATGAGAGGAAAACAAAGTCATTTGAACTTTGATATAGACCTTGCAAAAAAAGAATCTGACGAAAATCCTGTTTATTATTTACAATATGCTTATGCAAGAATATGTAATATTTTAAAATTTTTAGATGAAGAAGTTAGTCTTAAATTAAAAGAAACTAATTTTAATTTATTAGTTGAAAAAGAAGAAATTAGTTTAATGAAATGTTTAAATTGTTTTGATGAAATAATGATTGATTCATTAAATACTTTAGAGCCACAAACCTTAGCAAACTACTTACAACAACTTGCAACAAGCTTTCATAAGTTTTATGCTAATCATAGGGTGATTAATAAAAATAAAGAATTAACTAATTCAAGAATAAAATTAATCTTATCAGCAAAAATTGTACTTGAAAATGGTCTTGATATTCTTGGTATAAATCATCCTGAAAAAATGTGATCTTTTACTTTTAAAAATTAAAAAAGGAGTTTTTATGAAAAGATATTTCCTAATTATAATAATTATAATTTTCAACATCAATCCTATTGTTTATTCCAAACAAGATGATTCAATTAAAGTATATCTTTCTCAATTTGAGGATTTTATTAGAAATGAAATTTCAAACTCTTCAACAACAGGAAGGTTCCAATTGCAATCATTTAATATTGATAGAACTCATTGGCATTATATGCTTGATACTTCCACAGGTAAACTTTATAGAATGGAATTAGGGAGAACTCCAGATAGAAGCGAATGGAAATTGATGGGAAATGGTATTATTGAAGAAAAAAAAGAAATTTTTGAAGATAATTTGAAATAATGAAAAATTATATATTAATAATTAGTTTAATTTTCATGTCATGTGAAGAATCTAAAATTGATTTTATTGAAGTGAATGCGAATGATATCAAAAATGAAATCAATAAATTTAAAGGGAAAAAATCTGTCTTAGTTAATTATTGGGCTACAAATTGTAGCCCATGCATTGATGAGTTTCCAATGATTATGGATTTGTCAATAAAATATGAGGATAACTTAAAGGTTTTTTTTGTTTCTACTGATTGGTTAGAAGACAAAAAAAAGGCTTTAAAATTTTTAGCTTCTCAAAATGTTGAGGGATTATCTTTTTTAAAAAACCAAAAAGATAATGACTTTATTAATCAAACAAATGAAAATTGGAGTGGAGCTTTGCCATTCACAATAGTGTTCGGAAAACAATCTGGAAATGTTGTAGATTTCTGGGAAGGAAAAGCCTCTAAGAAGAGATTTATAAGAGGAATTAATATTGGAATTAATGAAGGAGAATGAAATGAATAAAATTTTTAATATAATTATGATTTTTATTTTGACAACTTTTTTGCAATCAAAAGAATTAGAGATAGGTTCCCAAATTCCTTTGTTTGAAGTCAAAATGGATCAAGTCAATGGAAATCCTATAAGTTTGAAAGATGCTATGGGTAAAAAAGGTTTAATTGTTATTTTTTCATGTAATACTTGTCCTTGGGTTTTAGCATGGGAAGATAGATATAATTTAATTTATAAAAAATACAAAGATAAAGGTATTGATATGGTCGCAATTAATTCTAATCAGGGAACACGAAATTCTGGAGATAGTATGTCAGATATGGTGAAGCATGCAAAAAAAGCAAAGTATGAATTTTCATATACATTAGATGAGAAGTCAAAACTTGCCACTGCTTTTGGTGCGACAAAAACACCTCATGTTTATTTATTTGATTCTAATGGGAAATTAGTTTATAAGGGTGCAATAGATGACAATTCTAGAAATCCAAAAAAAGTTGAAGATAATTATTTAATGGATGCATTAGATTCTATGGTAGAAGGCAAGAAAATTTCACAAGTTTCAACAAAAGCAATTGGTTGTACGATTAAATATGTAGATAATTAATTTAATTCGGAGTGTGGCGCAGCCTGGTAGCGCACCTGGTTTGGGACCAGGGGGTCGAAGGTTCAAATCCTTTCACTCCGACTTACTCGAACCCTTCTCCCACAGAGAGGGGTTTTTAGTTTTATATAGGAGAACTTCTATGATAAATACTATTTTTAGTGTTAAGAAAAATAAAATTATATCAAGTCAATTCATTATAAAATTCAATTAATTAAAAAATAGGGTTGATTTTGAAATGAATATAGGAATTATTGGTGGTGGTATAATTGGGTTAGCTTTAGGATATAAACTCCAATGTGAAAAAAATAATAGTATAGATATCTTTGAAAAAGAAAAAAAAATA
>sequence18
CTCTCTTTTTCTTGATCCATCCAATCCATCGTTGCAGCACCTTCATGAACTTCTCCCAACCTATGAACTCTTCCGGTATAAAATAAAATTCTCTCTGTAGTAGTAGTTTTACCGGCATCAATATGAGCCATAATACCTATATTTCTTACTTTATCTAAAGTTATTTCTTGCATTTTTTACCTGTAATGAGCAAAAGCTTTATTTGCCTCTGCCATCCTATGTGTATCTTCTTTTTTCTTAACAGCACCACCATCATTATTAGCAGCATCCACAAATTCAGCAGCTAATTTTTCTGACATACTTCTACCTTTTCTGCTTGTAGCATAAGTTATGATCCATCTAGTTGCAAGAGCAAACCCTCTCTGTGCAGGGACTTGAATTGGAACTTGATAAGTTGCCCCACCAATTCTTCTGCTCTTTACTTCAATTAAAGGCTTAACATTTTCCATTGCTTTTTTGAACATTTCCAAAGAATCTGATTTAGTTTTCGATTTAACAATATCCAAAGAAGAATAAAAGATTTTTTCAGAAATACTTTTTTTGCCACCTCTCATTAAGTTATTGATAAATTTTTGAACCATTAATTCACCATAAATAGGGTCAGGTAAAATTGCACGTTTTTCAGGTCTTCTTCTTCTCATTTATTCCCTTGGTTTTTTCGCACCATATCTAGAGCGACTAGTTTTTCTATCATCTACACCAGAAGTATCCATTGTTCCTCTAACAATATGATATCTAACACCAGGCAAATCTTTAACTCTTCCACCTTCTATCAAAACCAAAGAATGCTCTTGAAGATTATGACCCTCTCCTGGAATATAGGCAATAACTTCAATAGAATTTGTTAATCTAACTTTAGCTACTTTTCGCAAAGCTGAATTTGGTTTTTTGGGAGTAGTTGTATATACACGTGTACATACACCTCTTTTTTGTGGATTTGACTGTAGAGCTGGAGCACCTGTAGACTTAGTAGTTCTTTTTCTACCTTTTCTTACCAATTGATTAATTGTTGGCATTGTTAGTCTCCTCTTCTACTATTTCTTTTTCAATTATTTCAGAATCATTTTCAGAATTATCTAATTTTGAAACAATTGGGTTTTTACTACTTTTAAAACCTGTCCCTGCTGGAATAAGTCTTCCAAGTATTACATTTTCTTTTAAACCTAACAATTTATCGCCCCTACCTTCAATAGATGCATCTGTTAATACTCTAGTTGTTTCCTGAAATGAGGCAGCCGATATAAAACTTTCAGTGTTTAAAGAAGCTCTAGTGATGCCTAATAACAAAGGTCGTGACGTCGCAGGTTTAGTTGATCTAGTTTTAATTCCTTTTTTACCATCTTCTTTGAGCTTTCTGTTAATTTCAAGATGCTCAGTCCTTAATATCATTTCACCTTCAGAAAAATTAGAATCTCCAACATCAGTTACAATAACAGATTTAATAATTTTATCATTTTCTCTATTAAGTTCATTTCTATTTACTCGATCAGCAGCAAGAAAATCAGAATCTCCTGAATCATCAATTTCAACTTTTTGCATCATTTGCCTAACGATTACTTCTATATGCTTATCATTAATTCTAACACCTTGAAGTCTATATACTTCTTGTATTTCATTAACTAGATATTCTTGAACTCTCTCTGGACCAAGAATACTTAAAATATCATCTGGTGAAATTGAACCTTCACACAACCTATCACCAGCACTTACCCTATCTCCTTCATGAACAATTACATGCCTACCATAAGGAACCTTATATTTTTTTGTAACATCATGTGGCCCATTAACACTAATTTCTCTTATACCTCTTTTTACTTCACCAAATTTCACCAAACCATCTATTTCTGTTACCACTGCTGGACTAGTTGGCTTTCTTGCTTCAAAAAGCTCTGCCACTCTAGGAAGACCACCAGTTATATCTCTAGTTTTACCTATGTCTTTAGCAATTTTCACTAAAATTTGTCCAGCATCAGCTTTTTCTCCATTTTTGACCATCAATACAGCCTTAACAGGTAAAATTGTTCCACTTGAAATAATATTTTTATCTTTGTCAACTATATCTAAGTGAGGAGCTAATCTTCTATTTTTTGACTCAATTGTTACAAGTTGTTTTTTTCCACCTTCAACAGCCTCTTCGTGATAAGTCTCACCTTCAACCATATCAACAAAATCAACTATTCCTGAGTTTCTAGCTAAAATAAAATCTGTGTATGGGTCCCAAGTAAATAAAATTTGACCTGCTTCTATCTGATCTCCTTCATTCACCTCAAGAGATGAACCATAAGGAACATTATAAACAGAAATACCACCCTTTTTATCTTTTATTTTGATGGAAGAATTCCTTACCAAAACTCTAGAAATATTTTCTTTAAAACCATCATCGTCTTTGACTTTTGCAAATTCTAAATTATCAGAAAATTCGACAGTTCCATTTCTACGAGATTTCATTTCTGACTCTTCGATGATCCTAGAAGCTGTACCACCAATATGAAAAGTTCTTAATGTTAATTGAGTTCCAGGCTCTCCAATACTTTGAGCAGCAACAATTCCAACAGAAGAACCCATACTTACAAGCTTATTTGTATTTAAATCTATACCATAACAAAGCTTACATACACCTCTAAGAGATTCACATGTTAGAACAGACCTAATAAATACTCGGTCGATTTCGTTTTTAGTTAAAATTTCAGCAACTGAAGAATCAACTAAAGTACCTACTTTTAAAATCTTTTTTCCATCGACATAAACATCTTCTTGTAAAACTCTCCCCCTAATTCTTTCACTTAGCGGCTCAATAATTTCTTCACCCTCTTTTAAATCACTAATCCATACACCATTAATAGTTCCACAATCATCTTCTCCAATCACCATATCTTGAGCAACATCAACCAACCTTCTAGTAAGATATCCAGCATCAGCAGTTTTTAAAGCAGTATCTGCTAAACCTTTTCTAGCACCATGAGTTGAAATAAAATATTCTAAAACAGTCAAACCTTCTTTAAAATTTGAAGTTATAGGATTTTCAATAATCTCACCTTTACTACCTGTCATAGATTTTTTTGGCTTTGCCATTAATCCTCTCATGGCCGCTAATTGCTTAATTTGATCTTGACTACCCCTAGCACCAGAATCTGCCATTACATAAACTGAATTAAAACCCTGTTTGTCATTCATAATTCTATTCATCATAGCCTGAGATGTATCATTAGTTGCATGAGTCCATACATCTATAACCTTATTGTATCTTTCACCCTCAGTCAGAATTTGTCTAGAAAATTTTCCCTGAATGGAGCTGATTTCATTTTCAGCTTTAGAAATTATTTTTTCTTTTTCATCTGGGATTAATACATCTGAAATTGCAATGGAAATTCCACTTTTTGTTGCATACTTAAATCCTAAATCTTTCAAATCATCAAGAAATTTGACAGTTTTTTGATTTCCAACGGTTAAGTAAATATTGTAAATAATATTTTCAATTTTCTTTTTGTTTAATACTTCATCAAGATAACCCATTTCATCGGGAACTATAGAATTAAAAATAGCGCGACCTACAGTTGTTTTGTTTTGCCATTCACCCAAATGCTTAACATCTACAATCGCATGAAGACCCACCCTTTCATTTTCATATGCTATCAAAACTTCATCAATAGAAGAAAATCTCATTCCTTCTCCCAAATCACCTTTTTTTGATTTAGAAATATAATAAGCACCCAAAACCATATCTTGTGAAGGTATTGTCAATGGATATCCATGAGCAGGATGTAAAATATTATGACTAGCAAGCATTAACATTCTAGCTTCCATTTGAGCCTCAACAGACAATGGAACATGGACAGCCATTTGATCACCATCAAAATCAGCATTAAATGCAGAACATACTAATGGATGAATTTGAATAGCTTTACCATCAACTAGAACTGGTTGAAAAGCTTGAATACCCAATCTGTGAAGAGTTGGAGCTCTATTTAATAAAACAGGATGGTCAGTAATGACATATTCTAGTATTTCATACACTTCTGGAGCTCTTTCTTGAACCATCAACTTTGCACTTCTTGGAGTATTAGCTATACCCCTAGCTATTAACTCATGAATAATTTGAGGCATAAATAATTCAGCAGCCATATCCTTTGGAAGCCCACATTCATGTAATTTTAAAGTTGGACCAACTACAATTACTGATCTTCCTGAATAATCAACTCTTTTTCCTAATAAATTTTGACGAAACCGTCCTTGCTTCCCTCTTAGCATATCACTCAAACTTTTCAAAGGTCTTCTGGTACCACTACTTACAGCAGTTCCCCTTCTTGAATTGTCAAATAATGTATCTACAGCTTCCTGTAACATTCTTTTTTCATTTCTTAAAATGACATCTGGCGCTTTTATTTCCATCAATTGTTTTAATCTATTATTTCTAATAATAACTCGACGATAAAGATCATTCAAATCACTAGCTGCGAACCTACCACCCTCCAAAGGTACTAAAGGCCTTAATTCTGGTGGAATAACCGGAAGAACAGTTACTACCATCCACTCAGGCTTATTTAATTTTGCTTTTAATTTTGATGGGTAAAATGCTTTTACCACCTTAAGCCTTTTAAGTGCATCAGCTTTTTTTTGCTTTGAACCAGTCTCTTTAATTAATAATTCTAATTCTTTCATTGTTGAGGTAATATCCATGGTTTTTAAGGCATTTCTAACTGCCATTCCACCCATGTCGGCATAGAAATAGTTATCCTCGTCTTGATCCTCCTCAGAAACAGTATGTTTACCAAATTTACTTTCAAGCTCACGATACTCATTCTCATCAATGAGCTCCATTCTTTTTTTATCGGAAGAACCTGGATTTATTACAATATATGCTTCATAATAAATTACTTTTTCTAAATCTCTAGTTGAGATTCCTAATAAGTGATTTAATTTTCCGGGAACTGAACGTAAAAACCAAATATGAACAACAGGAACAGCCAAAGTGATATGCCCCATTCTTTCTCTTCTAACTTTTTTTCTAGTTACCTCTACACCGCATCTATCACAAATAATTCCCCTATATCTAATACCTTTATATTTTCCACAATGGCATTCATAATCTTTAACTGGACCGAATATTTTCTCGCAAAACAATCCATCTTTTTCAGGTTTATATGACCTATAATTTATAGTCTCAGGCTTTAAAGTTTCACCATAAGATCGTCTTAAAATATCTTCAGGGGACATCAAACCTATAGTTACTGATTTAAAATGATTCGGATTATCTTCTTTTTGCGGATTTATATATACCAATTTTAACCACCTTTAACTTTTTAATTCTATATCTATACCTAAACCTTGGAGCTCTTTGACTAAAACATTAAATGATTCAGGAATTGAGAAGTCCGGAATATTATCACCCCTAACAAGAGCATTATAAACTTTAGACCTACCATCAACATCATCTGATTTTCCAGTTAATAATTCTCTAAGAGTATAACTAGCGCCATATGCTTCAAGAGCCCAAACTTCCATTTCGCCTAATCTTTGACCACCTTCTTGAGCTTTTCCACCTAAGGGCTGTTGTGTAATTAATGAATAAGGACCAGTTGAACGAGCATGCATCTTATCATCAATCATATGAGCTAACTTCATAACATATATACAACCAACTGTAACTGGATAATGAAACTTCTCACCTGTTCTTCCATCCCATAAATCAGCCTTACCACTAGTTGGCAAACCTGCTAATTCTAATTGCTCCTGAACTTCTTTAGGAGATGCTCCATCAAAAGGAGAAGTCTCATAATTCTTACCAAGCTTCATACCTGCCCAACCAAGCATTGTTTCATAAAGTTGACCTAAGTTCATTCTTGAAGGAACCCCTAATGGGTTTAATACGATATCTACTGGGGTACCATCAGACATGAATGGCATATCTTCTTCTGGAACTATAGTAGCAACCACACCCTTATTCCCATGCCTTCCAGCCATTTTATCACCAACTTTAACTTTTCTTTTATTTGCTATGTAAACTTTTGCAAGTTTTGACACGCCTGGCTGTAATTCATCACCTACCTGCAATTTGAAGATTTTTCTTTCTAATCTTTCTTCTGCCTGCCTCCACTCACGATCAAATGAATTCCATACTTGCTGAATTTGAATCCAAACCTTATTATCCTGAACCCAAGAATGATCTCTAGAAATACGTTCCAAATCTAATGATTTTAATCTTTTAGAAGATAATTTAGTAGAAGCTTTAATTAATGTTTTACCATTAGATATATCTCGCAAACCGTTGCTTATTTGATTTAGCAATAACTCAAATAACATTTCATCTCTGGTTTTTTTAATTTTTTTCTTAATTGCTCTAGTTTCTTCTTGAAATGCTTCAATTTCTTTTTTTTCTACAGCTCTGGATTGTTTAGTTTTTCTTTCAAAAAGCTGAGTTTTAATAACCACACCATTTGTCCCCGGAGAAGCTTTTTTTGATGCATTTTTAACATCACCTGCTTTTTCCCCAAAAATTGCTCTAAGTAATTTTTCTTCAGGTGTAGGGTCAGTTTCACCTTTTGGAGTAACCTTACCTATCAATATGTCAGAGGACCTTACTCTTGCACCCTCTCTAATTATGCCATTTTCATCTAAATCTTTAGTAGCCTCTTCACCAACATTCGGAATTTCTCTTGTTAATTCTTCTTCACCCCTCTTAGTATCACGAACTTCTAAATCAATTTCTGAAATATGTACAGATGTAAAAACATCATCTTTTACCAATCTTTCACTTAAAATAATTGCATCCTCAAAATTATAACCTCTCCAAGGCATAAAAGCCACCATTAGATTTCTTCCAAGAGCCAGCTCACCTGACTGAGTAGATGGACCATCTGCAATTAAATCACCTTTTTTTATTTTCTGACCAGCTGTTACAACAGGTCTTTGATTCATACAAGTATCTTGATTGGTTCTTGAATATTTAATCATAGGTATTTTTAATAGATTTTGATCAGAGGTCATTGCAAGATCTTCTGGAATATCTTTTGTTCTAATTGCAACGGAATTTGCATCTACTGATTCTACAATACCGGAAACAGGAGAAAATAAAGAAGTTCTAGAATCTCTAGTGACAATTTTTTCCATCCCAGTACCAACAATTGGAGCCTCTGGCTTAATTAAAGGAACAGATTGTCTCATCATATTAGAACCCATTAATGCCCTATTGGCATCGTCATGATCTAAAAATGGTATCAAAGTTGCTGCAACACTCAATACTTGATGAGGTGCTACATCCATAAATTGAACCTCTTTCACATTAACAACTGGAAAGTCACCTCTAATCCTAACCCTAACCTTATCAATATTAATTTCACCTTTTTGGTCTAAATTTTCTAATGGCTGGGCAATTTTAGACCTGTCTTCATCTTCTGCTGAAAGATATTTAATTTTTTTTGAAACAAATGCAGAACCATTTTTAGACTGAACAACCCTATAAGGAGCTTCAATAAATCCCAACTCATTAACCATTGCATAAGTTGCTAATGATGAAATTAAACCAATATTTGGACCTTCAGGAGTTTCAATTGGACATAATCTTCCATAATGCGTATAATGAACGTCTCTAACCTCAAAACCTGCTCTCTCTCTTGTTAAACCTCCTGGCCCTAAAGCAGAAACACGTCTTTTATGTGTAATTTCAGCAAGAGGGTTAGTTTGATCCATAAACTGGCTCAATTGGCTAGTACCAAAAAATGTATTTATAACAGTTGTACAAATTCTTGAATTAATCAAATCTTGAGGAGTCAAACTTTCCGCTTCTCTCAAATTCATTCTTTCTCTAACAGTTCTGGCCATTCGACTGAATGCTATTGAGAATTGATTAGTCAATTGCTCTCCAACTGTCTTCATTCTTCTATTACCTAGATGGTCAATATCATCTGGCCCTCTAACTCCTTTTCTCATATCCATTAAATATTCAATGACTTTAATTATATCTTCAGTAGTCAAAACAGTGTGCTCTAAATCAACATTTAAATCAAATTGTTTATTTATTCTATATCTACCTACTTTTCCTAAATCATATCTTTTAGGACTAAAAAACATTCTTTCAATAAATTTTTGAGCAGTTTCTAAATTTGGTGGCTCACCTGATCTTAAATGCTGATACATAAGCGTAAGTGCATCATCAGTATTTTGAGTAGGGTCTTTTTGCATTGTATTTAAAATTAATTCAGCAGCTAAATCATCCATTGACGAAACAACTTCACAATCTTTAATGCCTGATGATTTTAATAAATTAAATGCATCTGAATTAATAACACTTCTACTTTCAGCTAAGATTTCCCCAGTTTTAACATCAATCACATCATTAACCAAAACTTGACCTATTAATTTTTTTGAATTTTTAGCATTAATAACTATTTTTTTAGAGAGACCTAAAATAGTGAATATATCAGAATCTGTTGAAAATCCTAAAGCCCTTAACATTGTAGTTACAGGGAATTTTCTTCTTCTATCTATAATTACATAAAGACAATCTTGAATATCTGTAGTAAAATCGATCCATGAACCTCTAAATGGTATAACCCTACCCTGATAAAGCCTTGTTCCATTAGGATGAGTAAATTCATCAAAAAACACCCCAGGAGACCTTTGAAGCTGACTTACAATTACTCTCTCAGCTCCATTAATTACAAATGTACCTCTATTTGTCATGTAAGGAATATTACCAAAGTAAACTTCTTGCTCAATTGAATGAGCATATTTTGACCTATCAAATTCATCAGTAATATGTAAAACTAAACGTACTTTTAAAGGAACTGCGTAAGTAACACCTCTATCCATACACTCCTCGGGGCTATATTTTGACGTACCAAAAAAATAACCCTTATATTCCAATGTATAGTTTTTGTGACTATCCTCAATTGGGAAAATATTTTCTAAAACTTCATTAAGACCAATTAATTTGCGATCACTTTCTTCCACACCTATCTGTAAAAAATTTTTAAAAGAATCAATCTGAACACCTAACAAATCTGGCATTTGTAAGTCAGTTTCAATTTTGGAAAATGAGCTTCTTTCAAAAGAATTATTTTTTGTCAAGATATTATCCCCTATCAAATATTATAAATTTTACACATCAAAATGGTAATTATTTTAGATCTACTTCAGCTCCAGCTTCTTCAAGCTTAGCTTTCATATCTTCAGCATCCGCCTTTGAAACACCTTCTTTAATAGATTTTGGAGCTCCATCCACCAAGTCTTTGGCTTCTTTGAGACCAAGCTCAGTAATTGTTCTTACAACTTTAATTACTTGTATTTTTTTGTCACCCCCAGATTTCAAAATAACATCATATGAATCTTTTTCTTCTGATTCAGCACCAGCATCACCAGAAGGGGCAGCAGCAGCAACAGCAACAGGAGCAGCAGCACTTACTCCAAATTTTTCTTCAATTTCTGAAATAAGTTCAGATATATCTAGCATATTTGCTTTTTCCAGATATGACATTACGTCAGCTTTTGATATTTCAGCCATGATTATAATCCCTCTCTTTCAATTAACTTGATTTAGTTTCTTTAATACTATTTAACACATTTAACAAACCGCTCATAGAACTTCGAAGCGTAGAAGCAAATTTTGACATTGGTGATGAAAGCCCAGAAACAAATTTTGTCAACAATACTTCCCTGCTTGGCAAATTAGCAACAGCAGAAAAAGCACTTTGATCCATAACTTTCCCATCCAATACAAAAGCCTTTACAACAGGTAGTTCATGATTTTTTTTAAATTCTTTTAAAATTCTTGCTGGAGTAGTAGGGTCATTATATGAAAAAGCGATTGCTGTTGGACCCTTTAAAACATTCTCTAGTTCTTCAAAACCAGCATTTTTCGAAGATATTTCTGCCAATTTATTTTTCACTACACAAAATTCTATACCATCTGCAGTAAATTTTGATCTTAATTCAGTAATATCTTTAACAGATAAACCTAAATAATCTGTAAAATAAATACCAGATGCGCTCTCAAATTTAGAAGAAAACATATCAACTATTTCCAAATTTTGTTTATTTGGCATTAAACACTTACTCTTTCTATTTTTAATCCAGGACCCATTGTTGAAGAAACTGTAATTTTCTTTAAAAAAGTTCCTTTAAAAGATGGAGGCTTAGAATTTGAAATGGTTTTCAAAACAGAATTAAAATTTTCAACCAATTGTATTTCTGAAAAAGATTTTTTTCCTATTGGAGCATGGACAATTCCATTTTTATCAACTCTGAGTTCAATTCGACCTGATTTAATATCTTTTACAGAGGCAACCACATCAGATGAAACAGTTCCACTTTTTGGATTTGGCATCAATCCTTTAGGTCCAAGAATTTTTCCAAGCTTTCCAAGTTTAGGCATCATTGATGGATGAGCAACAATAACATCAATATCAGACCATCCAGATTCAAGTTTTTTTAAAAAATCATCATTTCCAGCATAATCTGCGCCCGAATTAAGAGCTTCTTTAATATCAGTTTCATTTGACAAAACAAGAATCTTAATCTTTTTCCCTGATCCATTTGGCAAAGAAGATGTAACTCTAATATTTTGATCAGCGTGCCTCGGATCAACACCAAGATTTAACGCTATCTCAATAGTTTCATCAAATTTCAATGTTTTCAAATCTTTAATAAGGTTTATAGCTTCATCAATAGAGTATTCTTTATTAAAATCAACTTTATCTGCAATTTCTTTTTTCCTTTTTGTAAAAGACTTCATAACTACTTAACTTTCAAACCCATACTTTTTGCTGTTCCTCTAATCATTTCAACAGCAGATTCTATAGAGTTTGCATTTAAGTCATCCATTTTTTGTTTTGCAATTTCACTCAAATCTGACTCTGAAACTTTCCCAACTTTTTCTTTATTTGGCTCCCCAGAACCTTTTTTTATATTTGCTGCTTTTTTTAATAAAACAGCAGCAGGAGGAGACTTTGTTACAAATGTAAAAGATCTATCCTCAAAAACAGTAATTTCGACTGGAATTATTGTACCCATACTATCTTGAGTTTTATCATTAAATGATTTACAAAAATCCATTATATTTATTCCATGTTGCCCCAAAGCTGGACCAACAGGAGGAGCTGGATTAGCCTTACCTCCTGGAACTTGCAATTTAATAACTGTTGTAACTTTTTTTGCCATTTTAATCCGTATGCTTTACGTGTTCAACTTGTAAATAATCAAGCTCAACAGGAGTTGATCTTCCAAAAATAGACACCATAACTTTAACTTTTTGCTTATCATCATTAATTTCAATCACAGTTCCTTCAAAATCAATAAAAGGACCGTCGTTAATTTTAACTAAATCTTTTAAATTGAATCTTGCGGCTACCACTTCTCGACCTGTTTTAATTTCAACTTCACCCAAAATTCGATTAACCTCATCTATTTTAAGTGATTCTGGCTCACCTTTGGGTCCAACAAAACTCATAACACCATTAATATTTTCAACCTGATGTCTTGACTCTTTATCTAAATTCATTTTAACCAAAATGTATCCAGGATAAAAAACCCTATCTTTAACAATTTTTTTACCAGCCCTCATTTCAACTACATTTTCGGATGGTACTAAAATTTCGGAAATTTTATCAGTTTCTTCTTCGCCTATACCAATTTCACTTATCATAGTTTCACGAATTTTTTTTTCTTTACCTGAAAGAACTCTCAAAGTATACCACTCCATCATAATACCACACTTGCAATTCTTGACAAAAAGAAATCAATAAAAAACAAAAATATACTTAAAATTAAAGACAAACCAAGAACTACAAATGTTGACCCTCTTAATTCATCCCATGAAGGCCATGAAACTTTTTGCATTTCAAACTGAACACCTTCAAAAAAATTTTTAACTTTATTAATCATAATTTCCTAGCAGGTGAGGCAGGAATTGAACCCGCAACCCCCGGTTTTGGAGACCGATGCTCTACCAATTGAGCTACTCACCTAATCTTCTCAAAATTATCATAGAACTCAATTTTAACCTTTTCAACAATAAAAACCTTTATTTAGTTTCCTTATGAATTGTTCTTTTCCTACACCTAGGATCGGGGCAATACTTTTTGTAAGAAACCCTATCAGGATGCAAACGCTTGTTTTTAGTCATTGTGTAATTTCTTCTATTACAATCTGGACATTCTAGCGTTAACAAATCTCTTTTACTATTAGCACCCAATATTACTCCAAAATTTCAGTAACAACACCAGCGCCTACTGTCCTACCACCTTCTCTTATGGCAAAACGAAGCTCTTTTTCCATTGCAATTGGCGATATTAACTCAATTTCAAGTGAAACACTATCACCAGGCATAACCATTTCAGTCCCAGAAGGCAATGTTGCAACACCAGTAACATCAGTTGTTCTGAAATAAAACTGAGGTCTATAACCCTTAAAGAAAGGTGTATGCCTTCCACCTTCTTCTTTTTTCAACACATAAACTTCAGCTTTGAATTTTGTGTGCGGAGTAATAGAACCAGGTTTAGCACATACCATACCTCTCTTCAAAAACTCTTTTTCAATACCTCTCATTAAGAGCCCAGCATTATCTCCAGCTTGCCCCTCATCGAGCTCTTTTCGAAACATTTCAACGCCAGTAATAACAGTTTTTTTATCAGCACCTAAACCGACAATATCAACTTCTTCACCAACCTTAACAATACCTCTTTCAATTCTACCAGTACCTACAGTACCTCTACCAGTAATACTAAAAACATCTTCAACTGGCATTAAAAATGGTTTATCAACATCTCTTTGAGGCTCAGTTACATAACTATCGATAGCATCTACTAAGTCGATAATACATTTAGATTGAGCTTCATCCTCTGGCGAATTTAAAGCATTTAATGCACTACCCTTGATAATAGGAATGTCATCACCAGGAAATTCATACTCATTTAATAATTCACGCAATTCAAGCTCCACCAACTCGATTAATTCCTCATCATCAACTTGATCAATTTTATTCATAAAAACTACCAAGTTAGGAACGTTCACCTGCCTTGCCAAAAGCACATGTTCTCTTGTTTGAGGCATTGGTCCATCAGCTGCACTTACAACTAAAATAGCACCATCCATTTGCGCTGCTCCAGTAATCATATTTTTTATGTAATCAGCATGACCAGGACAATCTATGTGAGCATAATGCCTCGATTCACTTTCATATTCAACATGAGCTGTTTGAATTGTAATACCACGCTCTCTTTCTTCAGGGGCATTATCAATACTTCCAAAATCACGCAACTCACTTAATCCTCTTTTAGATAAAACTGTTGTAATCGCTGCAGTTAAAGTAGTTTTTCCATGGTCAACGTGACCAATAGTTCCAACATTTAAATGAGGTTTACTTCTGTCAAATTTTTCCTTAGCCATTGAAATATCTCCTTTTATTTGTGAAATTTATTTTTGAGCCTACGACCGGAATTGAACCGGTGACCTCGTCCTTACCAAGGACGTGCTCTGCCAACTGAGCTACGCAGGCAAATTCTCCACTTGCCGAATAGCTGTAATTGAATTTGGAAGAGCGGCGGACGAGATTCGAACTCGCGACCCTCAGCTTGGAAGGCTGATGCTCTACCAACTGAGCTACCACCGCAAACATTTTCCTCACATATTGATAGTTAAGTTTTTTAAAAAATGTGGGGAGAGATGGATTTGAACCACCGAAGGCTTTCGCCGCCTGATTTACAGTCAGGTGCATTAGACCACTCTGCCATCTCCCCAAAAGCTTATTTAAAAAATAATAATGATCTTTTAGTGTGATGAATAAATCAGATGTAGACAAAATTAATTTAAATCTCATAATACTTTGCAAATGTTTAATTATAAAATTCATTTCAAATAATAATTAGCTGTTAATATGTTTTGAGCCACCGGAGGGATTTGAACCCCCGACCGGCTGATTACAAATCAGCTGCTCTACCAGCTGAGCTACGGTGGCGGAACTTTTTACCACTTGCTGAATGTTAATTTTCTGCATACCATTCAACATGGAAATACAGGTAGAGGTGATATATCTTCGATGACACGCTTTTAGCATAGCCCCGAAAATTAAATAGATAATAACAATATGTCAAACATAATGTTATTTTTTTTTATTTTTTTTTATTTTATGATAATTCCAGTCTCTGAATCATCAATATCAATGCCCTTTTCCTTAAAAAATAATCTAATCTCATCAGCACGACCCCAATTTTTATTTTTTCTAGCTAAATTTCTCTCATCAAGGAGTTTTATATCATTTTTACTTAATTTTATTTTTGAAGATCTTATTACACCTAAAACCTCATCAATTTTATTTAAAGCAGCCAAAGTCAAGATAGCTTCTTTATAAGTAATTTGTTTTTTATCAAGTTTAATATTTATTTTTTTTATATAATTAAATATTACACTTAAAGCTTTAGACATGTTAAGATTATCATTCATTGCAATTTTAAAATCAACTATTAATTGGGTGTTCATAATTTTATTATTGTCTATTTCAACATCACCTTTTGATAATTCAAATATTCTATTATAAAAGTCTTGGATTCTTTTTAAGGCATTATTTGAAGAATTCAGATTAACATCATTTAAATCAATTTTATGACTGTAACTAGATGAAATTAAAAAAAATCTAATTGTATTTACATTATAACCTTTTTTTATTATGTCATTTAAAGTGTAAAAATTATTTAAAGATTTACTCATTTTTGAACCATTTATTAGCAAATGCTCGCAATGAACCCATAATTTTGCAAAAGTTTTATTAGTAGCACAAACACTTTGAGCAATTTCATTTTCATGATGTGGAAACAATAAATCTATACCGCCACAATGAATATCGAATTCAGTTCCTAAATATTTCAAAGACATTGCAGAACATTCAATATGCCAACCTGGCCTACCATTTCCCCATGGAGAATTCCAAAAAATATCTCCATCATCGACTTTTCTAGATTTCCATAAAGCAAAATCATTAATTGAATTTTTATCATACTCATCATTTTTTATTCTTTCAGTCTTTGATAATTTTGAAAAATCTATTTTAGATAGCATTCCATAATCTTTAAATGAATCTATTTTAAAAAAAACTGAACCATCTTGAGTTTTATATGCATGACCTTTTAAAATTAACTTTTCAATTAAATCTATCATGTCAGAAATATGATCTGTTGCAAAAGGAATTTTATTTGGCAAATCAATTTTTAATTTATCAGCATCGTTTTTAAAACTTTCAAAATATTTTTTCGTTATTAATTCTAGGTTTTTAATTTTACCAGAACATTTATTTATGATTTTATCATCAATGTCTGTAACATTCATTACATGCTGAACATCAAAACCCAAAAAAATTAAATATTTTTTTAATAAATCAAAAAAAACAAAAGATCTAAAATTTCCTATATGTGGGTTATCATAAACAGTAGGACCACAACTATACATTTTAATTTTATTTTTAAGAGGCTTTAAGTCTTCTTTTTTTTTTGAAAGGGAATTATATAGGTTAAGTGTCATTTTCTTTTTAAGGCTAATTTGCAAATTTCTAAAACTAATTCATTAAAATTGATTTTATATTGATTTGCTGCTTTAGGTAATAAACTTTTTGAAGTCAATCCAGGGAGAGTATTTATTTCCAAACAATAAAATTTTCCTTTTTCATCCATCCTAAAATCAACTCTAGAGTAATCTAAACAACCTAATGCATCATTTAACAATATAGAATAATTTGACGCTAATGATGATTCCATTTCATTTAATTCTGCAGGACAGATATATTTAGTTTTATTATCAACATATTTTGCGTTGTAATCATAATAAGAACCTTTAGTTTTTATTTCAACGCATGGCAACGTAATATTGTTCAAAACTCCTACTGTAAGTTCCCTTCCCTTTATATAATTTTCAACAATAATTCCTGATTTTTTAACAAATTTTTTTAATTGTGTCATTTGATTTAAAACATCTTCAAAAGAATTAACTATTGAAATACCAAATGTACTCCCCTCTTCATTTGGCTTTATGACTGATGGGTATTTAAAATTATATTCATTATATTTTTCAAAAAAAGTTGATCCTGGAAAAAACTTCCAGTCTGGTGTAGGAATATTATTTTTTAACATAATTTTTTTTGTCAGATGTTTGTTTATTGCTATTTTTGAAGTTGCTGAATTTGACCCAGTATATAAAATATTTTCTCTTTCAAGAAATTTTTGAATTTTTCCATTTTCACCATCACCCCCATGTAATGCTAAAAACACTAAGTCTGAATCTTTTAATTGATTTATATAATTTTCAATTCGACCATTGTAAATACAACTTTTTACATTAATTTGTTGATCTTTAAGAGCTTTAACTACAGCATTTCCTGTCAAAATAGAAATATTTTTTTCAGAGGAATTTCCTCCCATTAATACAATTATTTTCAACTCTTCATTCCCTTGATTAAAAATAATGCGCAGTCTAACAAATTTTTACCAATAAAATCAGGTCTTATATTCTGCTTTTCTAGTTTTTTAATTGACAAAATTCCTTTTCCAGTTTTAACTAAAATTGATAAAGCACCAATTTTTTTAGCAACAATTATATCAATATCAGAATCACCAATAACAACTGATTGCTTCAAATCGATATTATATTTTTTTGCAGCCTCTAAAAACATTCCTTTTTCAGGTTTTCTACATTTACAATTATGTAAAGGTAAATGAGGGCAAAAAAATTTGTCTTTAAATTTTATATTTTTTTTTAATAATAACTCATCCAATTTTTGATGAATTTTATTTAATTCTTCAATATTTAAAAGACCTCTACTAATTCCTGATTGATTAGTTGTTAAAATAAAATGAAACTGTTTTTTAGACAATAAACTCAAAGATTCGAGAACATCATCATAAAGAAAAAAATTTTCAACAGATGAAATATATCCTGGATCAACATTCAAAGTTCCATCTCTATCAAAAAAAATATATTTTTTATTAACTTTATGAATCACTAGTATTTTTTAAAAATAAACTCATAGAACTTTTTATAAAAAAAACACCTCCAATTATAACCATAGGAAAAAATCCAACAAAATGATTTAAAATAGCAAAAGCTTGTGATTTGTCAATTGAGATTGAAAAAAAATCAGTAAGAATCAATACAGCTGTAGCATGAAATGTTCCAATATAACCAGGAGCAGATGGTATTGCAATAACCATTCCTGTAGCAAAAAGAACAATTCCAGCTTCTAAAAAAGAAATATTTATATCAGTTGCAACTACACAAAACCAAACTGAGAACCAGTACATGAACCAAAGTAAAAAAGTGTAAAACATTACAGAAACCGGTTGATGTAATTTTCTAATAGTAGATAGACCATCAATAAAATTATTAATCATCAAGTTAATTTTTATTATATAATTATTTTTTTTAAATGAAGAAAAACTTTTGACCAGAAAATTTTTTTTTATTTTTCCAAAAAATAAAATAAAAATAAATAAAAAAGACATAATTAAAATTAATACCATAAAAGAATTTCTAAACCAAATAGGAACATCATTTATTATTATTAATATAATAATTAAAAAAAAAGCTCCAAGTAAATCCAAAAATTTTTCAATAGCTATAGTTGCAAAAACAGTAGAAACTGATATTGAATTATATATTTTATTTAATGCATTAGCTCTTAGATATTCACCCAACTTAAAAGGTAATACTGAGTTTCCAAAGTATCCAATCATAGTAGAGAAAAATAAATTATTAATTTCAAAATTATTTATAGGTTTAAGCAAGATTTTCCATCTAAAAGACCTTACCAAAACACTTACAATCATTATAAACATTGATAAAAATATTAATGGCCAGTTAACCAATCCTAATACATCAAATAAATCATTAAAACTTAATTTACCAAATGCTATATACAGCCCAAAAAGACTAACAAAAAATCCTAATAATTTTTTTTTCATTTTATTCTCTTAAATCAATTATTTCATTTGCCTCTAATATTTTATCTTTCAATAAAAAAGGTTTTTTTAAGTCAGAGCATGATAATATTTCAACTTTAATTTCCAATTCATCTCCAGATATAGCTCTTATTGATTTTGGTATATAATTTTGTGAATCTGCATTTAATTCTAAAATATCAAAACCTATTTCGTTATTTGGAATTAATGAAAAAACCAATTGATTGTTATCAATTTTTGATTCATAAATTGAAAAATCATCAAATTCATTTAGCAAAACTGCAAAAATATTAGATGAATCTGTTCTATTAAAATAATCTAAAATTACCTGGTTTTCTTGAATGTATTTTATTGAAATCAAGGATTTTTGTATTAGGACTTCCATATATGGCAAAACCAAGTAGAGGTAATTTTTTCCAAAAATTTTTAAATCCCCCTGACCTTTCCAATCTTTATTATTTAATTTGTAATACCAAATCACTTCAAAAGAATTTCCTTTTTTTGCTAAAATTTTATCTGATATTTTATATAAAAACTCTGAATTATCTTTAGTGTGCAAATATGAACTATATATGGATATATATATTAAAATAGAAATAATTTTTTTAATTAGAGGGGTCATCACTATTAAGTATTTGTAAATAATTTTCATCAACTAAAACCTGCCTAGCTTTACTTCCAGTAAATGGACCTACAACGCCAATTTGTTCCATCTGATCAATTAACCTTGCAGCTCTTGAATAACCAATTCTAAATCTTCTTTGTAATAATGAAATTGAACCTTGTTGATTTGTAATTACCAAACGAATTGCTTCATTTATAAGTTCATCATTATCATTGTCGGAATCATTTAAACCATTTTCATTCAATGAATTTGATTTAGTACCTTCCAATAAAATTTCATTTGAAATAGGTTGATTTTTTACGTGACTAACAATTTTATTAATTTCATCAAGAGTAACAAATGAATTGTGAAGACGAATTGGATCTGAAGATCCAGGTGGTAAAAAAAGCATATCTCCTTTCCCCAATAATTTTTCTGCTCCATTTATATCAATTATTGTTCTTGAATCAATTTTAGTTGCAACTTGAAATGCAATTCTAGCAGGAAAATTAGCTTTTATAACACCTGTTATAACATCCACAGAAGGTCTTTGAGTTGCTAAAACCAAATGAATTCCAACTGCTCTTGCCATTTGTGCTAATCTTGCTATAGATTGCTCAACATCTTTAGGTGCTCTTAACATCAAATCTGCAAGCTCATCAATTATTAATACAATATAAGGCATTGTCTCTAAATCACTATTATTTTTTGCTTTTTCTCTATATTCAGCAATATTTCTCACTACTGCATCTGCTAAAACATCATATCTTCTAGACATTTCTTTTTCAGCTGCTTTTAAAGCTAGAACCGCATTTTCAGGTGTTGTGATTACATGTTCATCAACATCTTCATTTGTTATTAAATGATGCTTGTCTAAAATTCGATAAGCAGCCATCTCTAACTTTTTAGGATCTATTAATATAAACCTAACCTCATCAGGTGTTGATCTATATAACAAAGATGAAATAATAGTATTTATACATACAGATTTACCAGAACCAGTTGTCCCAGCGATTAATAAATGAGGTAATTTATCTAACTCTATAATAAAATTTTCTCCAGTAGTGTTTTTTCCTAAAGCAACAGTTAAATTAGATTTTGAAGAAATAAATTTTTCTGAATTAACTACAGTTTTCATATAAACTGTAGAAGGATTATCATTGGGAATTTCAATTCCAACAGATGATTTTCCAGGTATTGGAGCAATTATTCTTACTCGAGGAGCTTTCATTACTCTAGCCAAATCATCAGAAAGTTGAACAAACTTATTAACCCTAACACCCTCAGCTGGCTCAAGCTCAAACAATGTAATTACTGGACCAGGGGAAATATTTACAACATTACCATCAACTCCAAAAGTCAGAAGAGATTTTGCTAAAAAATCAGCTTTTTCTACTAATTCTTCTTCAGAAATACTTGGAGATGAATCATCTGGATTAATTAAATAATCTGAAGAAGGCAATTTGTATTTTTGTTTTAATTCCTTTTTAATATTTTTATTGTAATCAATTTCATTTTCAACTATCTCCTCTTTTATATTATAATCGAGAATAGAATCATTTTGTTCTTCATTTTTATTTTTATCTTTTATAAAATTTTCATTTTTAAAATCAGAAAAAGATTCTTCGGAATCACTTAAACTTGAATTATTATTTTGGAAATTTAAATCATTAATTAAATCTGATTTTTTAATATTCTGTTCGATAATATCTCCTGATTTCTCAGAAATATTTTCATCATAATTTTTATATATTTCATTATTTTTTATTTTAGAAAAATTATTTCGGTCTTCATTTTTTTTTAAATTTTCATTTTCAGACAAGTTTTTATCTTTTGGTTTAAAAAATTTTAATATAATATTTAAAATCTTTTCAATTGGTTTATAAAAATTCCAAGAAAAAAAAGCCCTAATATTAATTAAAAAAATTGCTACTATAAAGATAGCTAACCCAAAACTACCTAAAAAGTCATTCAATAAACTTGCAATTAAAAAACTATATAAACCTGATAAAGAAGTAAAAAAAATCAAATCAATAAAACCTAATATTATTGAAAAAATAAAAAAAGCTATTAAAAAATGGATTGATAGTTTTAAGAATGATTTTTTAAAATTTTTACTAAAAAAAATCCAACCCCAGAATATCCCAAACATTGGAACAATATAAGAACTGAAACCAAAAAGCATTTTAATTAAAAAATGTGAAATATAAATACCTATTATACCAGCTCTATTTGAAATTTCAATATTTGGTGAAATTGAAGGCTCTTCAAACTCATTAAAAGTAAAAATTGAAATAAATACAAATATTGATATCAATATTAATAATATTCCAATTATTTCATTTTTTTTATTCATAATTCAAAGTTAGACAATTACTTTTTAAAAATGGGGTTTTTATAATTTTCCCAGAGAATTTTTTATTTCTTATTTCAACATCAATATCTTCATTTAATAGACCATATTTTTCAATGATATATATTATTCCAATTGATTTTTTTAAAGCAGGTGAATAAGTACCACTAGTAACATAACCTATTTTTTCATTATTTTTAAAAATAGGTGCACTTTTTCGGGGGATAGCATTACCATTTACTACAATTCCTCTTAAAACTTTTTTTTGATTATTATCATAAAATTTTAAAATTTCATTTTTACCGATAAAATCATTTTTTTTAAAATCAACTACAAATTTTAAACCTGCTTGAATTGGATTTATATCTTCATTTATCTCGTTTCCATATAAACAATATTTCATTTCAATTCTTAAAGTATCTCTTGCAGCTAAACCAATAGGTTCTAAATTAAATGATTTACCTCTCGTTAAAAATATATCCCATATTTTTTTTGCGTATTTATTTTGCACGTAAATTTCAAAACCTTTCTCTCCAGTATAACCGGTACGTGAACAAAAAACATCCACATTATCAATATTTAAATTCATAAATGAATAATATTTTAATTTTTTTAACTTCTTATTTTTATTAGTTACATCAAACATTAGATTTAATGATTTTGGTCCTTGAATAGCAATTAATGAATAAAAATTTGATTTATTTTCAATTGTTACCTCTCCAAAAGAATTTTTATTTAACCAATCAAAAATTTTTTCAATATTAGTAGCATTTACAACCAATATATACAAGTCTGAAAACTTGTAAAGTAAACAATCATCTTTTATTCCACCATTATAATTACATATTAAAGTATATTGTATTTTCCCAACTTTTAAAGCATCAACATTATTAGTTGTTATTTGTTGTAGAAATTTTGTAGCATCTTTTCCTTTTATAATTATTTCACCCATATGAGAAAGATCAAAAATACCAACATTTTTTCTAACAGCATTACATTCATTCAAAATACCTGAGAATTGAATCGGCATTTCATATCCTGAAAATGGTAAAATTTTTGCACCAAGTTTTATATGTGAATTATATAAAGCAGTTTTTTTCATTAAAATCATAATCTACTTAGAGCTTTTTTTATTACCTCTTCTAACTTACCATTAAATTGATCATCATTTTTCATTTCTTTTATTACGTTTTCAACGTCAATTTTATTAATTCCTAAAGAAATTAATGATCTAGCTACATCTAAATGCAAACTATCAACTTCAGTACGAATTAGATCTTTTTCAGATTTTATATTTAATTCCAATTTATCTTTTAATTCCAACACAATCCTTTGTGCTGTTTTTTTCCCAATTCCTGAAATTTTTGTTATTTCATCAATATTATTAGATTTGATATTTCTTATAAATGCATTTGGACTTGTATATGATAATATAGAAATAGCCATTTTAGGACCTATTTTTGAAATGTTTATTAATTGTTTAAACAAATCAATTTCATTGTTATCTAAAAAACCATATAACTCTAAAGCATCCTCTCTTACATTTAAATAAGTTAATATTTCTATTTTTTCATCAGATAGTTTTGATAAAGAATTTATTGAATTTATACTCATCATTACTGTCATTGAAAAAGAACCTAAATCAACAACAATATAATTTTCAAACTTGCTTCTTATTCTTCCATTAATTGAATAAATCAATAATAATCTCCCTTAAATTTGATGAATGTGACAAATTCCAATAGCAAGAGCATCATATACATCAAATTTTTCTTTTTTTTCTTTCATTGATAAAATTGATGACACCATATACTTAACTTGTTCCTTGGATGCGTTACCATTTCCAACAACTGACATTTTAATTTTTTTTGGTGAATATTCAAAAAGAGGAATTTTATTTTTTGTAACTGCAAGGGATATAACTGCCCTTGCTTCAGATAAAACCATTGTAGATTTTATATTTTTAGCATAAAAAGCTTCTTCAATTGCAAATTGATCTGGCGAAAATTTGTTTAATAATTCATTAATTTTATTAAATAAAAAATATAATCTTTCATTGTTTTTTTCTTTTGCGGATGTTTTAATAACTCCATAATCAACTAAACTTATTTTGCTTAAGCTATAATCTAAAATACCATAACCAGTAATTGAAATACCTGGATCTATTCCTAAAATTAACATTTAAGTTCTCAATTAGTTAATTTCAAAATTAGAGTGAATTTTTTGAACATCTTCATGTTCATCTAATTTCTCAAATAAATTAATTATTTTATTAGAAATATCATTGTTAATTGAAACCGTATTATCGGAAACTTGTAAAATTTCAGAAGAAATGATTTTGTAATTATCTTGTTCTAAAGTTTTTAAAAATTTGTTCATTTCCTCTGGCTTTGTTTCAACAATATAAATATCATTTTCTTCACTGAAATCTAAAATATTAAACTTTAAAAATAATTCCATTAATTTTTCTTCATCAATATTTGATTTATTAATTATAATATTTCCTTTTCTTTTAAACATCCAGGATACACATCCTGATTCACCCAAATTACCACCATTTTTAGCTATCAAATGTCTTAATTCAGCAACTGTTCTTTTTCTATTATCAGTTGCAACCTCAATCATAATTGCTACTCCCCCTGGACCATATCCTTCAAATATCATTTCTTCATAGGAAACCCCAGGTAACTCACCTGTACCTTTTAATATAGCTTTTTTTATATTATTTAAAGGCATATTTGCACCTTTTGCGTTAGTAATAGCTTGTCTGAGCCTTGGATTTGCATCTTCATCTCCTCCTCCCATTCTTGAAGCAATTGTTATTTCTTTAATTATTTTAGTAAAAATTTGACCCCTCTTTGAGTCTAGTATGGCTTTTTTTCTTTTTATTTGGGACCATTTAGAGTGCCCAGCCATATTTATTTTTTATAAACTTTTGTACGAATAATCCATGATTTATCATAACCATTTTTAATTAGATTAACTCTTATAGTTTCA
>sequence19
TAAAGAAAGTGAATCACAAAGTTCTCATATTGCTAAATATTTAGCCACATTAAAAAAAGATTCACCAGAAGAAAACATTGGTTTTCAGGGTGATAAGAATAAAGGAGAAGCTATATTTCATGCTTATGGATGTATAAGTTGTCATGCGACCCCAGGTAATCATTCAGAGGATAAATTAAATAGAATTTCACTTGATTACGTTGAATCTAAGTGGTTCCCAGAAGCTTTAAAAAATTATCTTTTAAATCCAAGTAAATATTATGATGCAATAAAAATGCCTAATTTGCAATTAAATGATCAAGAAGCAAAAGACGTTTCAATTTATTTAATTGAAAATGGTAGTAAAGAATTTACATCAATCAATAATTTTGAAGCTGATGAAGAAATTGGAAAAAATTTATTATACTCATCTGGATGTATGAATTGTCATGTTATTCAAAATCAAGAAGCTATAAATTATTCAGTAAAAGATTTTAGTGGTTTAATTAATTCTGAATGGGTTTCTGGTTGTGTTTCAGAAACAAATAATCAAAGAAAAAATGCTCCAAATTTTCAATTTTCCGATATTGAATTAAATTCTCTTTTAAAGTTTAAGGAAAATCATTTAGAAACAGTTTTTGAATCAAATAAAATTTACATCGCTGAACGTCAGTATAGCTCTTTGAAATGTAATAGCTGTCATCAAATGAATGGAGTACAAAGCACATGGGAAACCGTAACTAGTGAAGAAAATTATTCATTCACTCATGAAGGCTTAGCAAAAACAATGGGAATAGAAAAGATTTGGGAAATTCAAGAAAGACCTAATTTATCGGTTGTAGGTGGAAAATTAAAAACAGATTGGATGACTAATTTCATAGCTGGAAAAATTGATAAAAAACCACGAGGAGGTTTAATTGCAAAAATGCCAGCTTATGAAAAATTTGCCAAAAATATATCAGAAGGATTATCTATGCAGCAGGGTTTTGGTCCAAATGATAATTATGGAGAACAGATATCTAATGATAATGAAATGAAAATTATCGGTGAAGAATTAACTTCTATACAAGGATATTCCTGTGTTACTTGCCATGGTATTGGTGATGTAGGTGCAAAAGGTGGAATACCAGTTCAATCAATTAATTTTCAGATGGTTCCCCAAAGATTAAGAAAAATATATTATCATAGATTTATGATTAATCCTCAGAGAATTATTTATGGAACTTCAATGCCAAAATATACTATTGAAGATGGTTCAAAAACTTGGCTTGATACCAAGTATGAGGGAGATTCTTATAAACAATTTGATTCAATCTGGGAATATATGAGTTCTATATCAAATTAATTATCTACTAACTCTTGCCCATGTACCCAAGAGGAAGGCATCATGAGAAGGATCTTGTGAACGTAATTTTCTAAATTTTAATGAACCACCTGTAGGCCCAACCTTAAAAAAAGATATTGCATCATAGTCGAAAGTTATTAAAGTATCATCAATGACTGAAAAGGTTCCTGATTTTCCACCCATAGCCCAACAATAACCATCGCAACTGGCATAAAAGGAAGAATCTGCTAAATCTATCTGTAAAGTATTACCTTGACCTTTTGACCATGAACCTTGTATTGTAATATCATATAACTCTTCATCATTTGAACAGCTAAATGAAAATATGAATAGTAAAAATAAGATTGCTTTTAGTTTCATTGGGTGTAAATCTTTCTCATGTTAATATAAATTTATGAGAAAAAAAATTAAGTTCAAATTATATAAAATATATAAAAATTAAATTTTTATATTCTTAAATTAGGTAGATGGGGGATTAAATGAATAAATTAATCAATTTTATATTAGGGAGTATTTTAATTTTGTCAATAATAGGTTGTGATGATAAATCAATATTTTTGTCAGAGAAAGAATATGGTGTTTTAGATGATGGGACTATTATAAAGCAATATATCTTTGAAAATGATAATCAAATGAAAGTAAAAATTATAAATTATGGTGCAATTGTAGTTTCAATTGAAGTCCCTGATAAATATGGAAAAATCAATGATGTTGTTTTAGGTTATGATTCAATTGAAGGTTATGTTCAAGATCCTTCATATTTTGGTGCAATTGTAGGAAGAATCGGAAATAGAATTGCAAAAGGAAAATTTTCTTTGGATGGTCAAGATTATACTTTAGCAATTAATAATAATGAAAATCATCTTCATGGCGGGATTAAAGGATTTAATAAAAGAGTTTGGTCTCCTGAAATAATAAAATTGAACGATGCTCCTGCTTTGAAATTAACTTATGTAAGCTCTGATGGAGAAGAAGGATATCCGGGTAATCTAACTTTAGAGGTGACTTATTCAATATCAAGTGAAAATGAATTGATAATTGATTATCTTGGTAAAACTGATAAAGCTACTATACTTAATCCAACAAATCATTCATACTTCAACCTTGGTGGTGAAGGAAGTGGGGATATTCTTGATCATATTCTTAAAATTAATGCTGATTATTTTACTCCAGTTGACGAAGGTTTGATTCCATTAGGAGATCACAAAAGTGTTTTGGGAACTCCAATGGACTTTTTAAGTCCCAAAAAAATTGGTGATAGAATTAATAATAATGATGATCAGTTAAAAGTTGGGCTTGGTTATGATCATAATTGGGTTTTTAATGATTGGGATGGTACGTTAAAACTTGGAGTTTCTCTGTTTGATCCTCAATCTGGAAGATTAATGGAAGTTTTGACAACAGAGCCTGGTGTTCAATTTTATTCAGGAAATTTTTTAGATGGAACCAATATTGGTAAAAATCAAAAAGCATATCAATACAGATCTGCTTTGTGTTTAGAAACAGATCATTTCCCTGATTCACAAAACAATCCAAATTTCCCAAGTGTAATTCTAAGGCCAGGAAAAGAATACAAACAAAAAACTATTTATAAATTTTCTACAAAATGATTTATGAATTTTATAGAAGGCACATTATAAAAAAGAAAAATTTAAAATTTTTTTTATTGACCTTATTTTTATTTGCTTGCTCAAATAATAATGTTTCTGAAAGACCAAATATTATTTTTATTATGTCTGATGATCACGCAGTCCCTGCTGTTAGTTCCTATGATGGATTTCTTTCAAATGTTTTTAAAACTCCTCATCTTGATCGTATAGGAAAAGAGGGTGCTATTTTTAACAATGCATTTTGTACAAATTCAATTTGTACACCAGCTAGGGCAAGTGTGCTTACTGGAAAATATAGTCATGTAAATGGAGTCTATACTCTCAATGAAAAAATTTCAGATTCACAAAATACTTTTCCAAAAGAATTACAAAAAACTGGTTATTATACAGGGATGATAGGTAAATGGCATTTACATACTGAGCCAAGAGGTTTTGATTATTGGAAAGTAATGATTGGTCAAGGTTTATATCATGATCCAATATATTGTGAAATGGGTAAGGGATGGTCTCCAGATCCTGAAGATGGTACTGGGGTTAAATATAATGGTTATGTAACCGATATAAATACTGATTTTGCAATAGATTTTTTAGATAATAGACCAAAAGATAAACCTTTTATGATGATGCTTCATTATAAAGCTCCACATGATGAGTGGGAGCATAGTGAAAAATATTCATCACTTTTTGAAGAGATTGATGTTCCTGAGCCTGAAACGTTATATGATGATTATTTAACTAGAGGCTATGGAATGTATGAAAACACTCAAAAAATAGGTGAAAATCATACATTTTACGAAGAAGAAACTGGTCATTTGCTGGGAAAAGAAAGAAAATCAGCTCAATATCAAACATATATTAAAAAATATCTTAGATGTGTAGCTTCAATTGATGAGAATATTGGAAGAGTATTACAATATTTAGATAACAATAATTTAACTAAAAATACAATTGTCATTTATACATCTGACCAAGGTTTTTATCTAGGAGAACATGGTATGTATGATAAAAGATTTATGTATGAAGAATCATTACAAATACCTTTTTTAATAAGATATCCAAAAAAAATTAAACCTGGAACTGTAAATAATGATGTAATATCTAATATAGATTTTGCTCCTACAATTCTTGATTTTGCTGGAAACAATATACCTAAAGATATACAAGGGAAAAGTTTTAAAGGGTTTTTCGAAAATTCTAAGAGTCTAAATTGGAGACAATCTTTATATTATAGATATTGGATGCATGGTGCACATTTTAATATTCCTAGTCACTATGGTATTAGGACTAAGGATTTTAAATTAATTTATTTTTATGCGAAAGGTTTAGGATATTCGCATGATAAATATTATCCAACTGATAATTGGGTATATAAAGGAAATGAAATTAAAGATTCAGAAGATTATTGGGAAATGTATGATTTAAGAAATGATCCAAATGAATTAAATAATATTTATGAAAATTCAAATTATAAAGAAATTAAGGAATCATTAAAAAAAGAATTATTTGATTTAAAAAAATATTATAAAGACACTGATGAATCTTTTCCTGAACTATATAGTCTTACAAAAAAATATTTGATTAATTTTTTTTAGTCAATTTGTGATAAATACATTTAAAACAAAATTTTTTTATTTTATTATTATTTCCATGCTCGGAAGTTCTATTTATTCACAAAGTTTATTTCTTAATGAAATTATGTCAAAAAATGAATCATCATTACAAGATAAAGATGGTGAATATGTAGACTGGATAGAAATTTTTAATGGGTCAGATTTTACAGTAAATCTCGAAGGTTATAAATTAACTGATAATCCTGATTTACTTTCGAAGTGGATTTTTGGTCCCATATCGATTCCTGCAGATAGTTTTATTGTCATCTATGCATCTGATAAAAATAGAAATCTTTTAATTGACGATTTACATACAAATTTTAAAATTAAATCAGCTGGAGAAAGTATAATTTTATCTGATCAAAATGATCAAATTATTGATTCTGTTTTCACGAATGTAATTCCAACTGATATTTCAAAAGGAAGAATGCCAGATGGAAGTAACAATTGGGTATTTTTTCAAAATTCCAGTCCTGGAGAATCTAATTTACTTGATGCAGTTGTAGAATTTAAAATTATTGAGAATCCTAATTTCTCTATTGATGGAGGTTTTTATGATGATCCTGTTAAATTAGATCTTTCATTATCTAATAATTCAGATGAAAAAATAATTTTATATAGCTTAGATGGTTCTGAACCAAGCATTGTTTATTCTGATACACTTTTTATTTCAAAAACTACGGTTGTTCGATCAAAAGTAGTCAATTCAAATGATGGGCAAACAAGTAAAATTGAAACTCAAACTTTCTTTATTAATGAAAACATTGATCATTCTTTACCAGTTTTTTCTATAGCGACTAACCCTTCTAACTTTTATGGTGAATCAGGTATCCTTGAGGAAGAAAATTTAGTTTGGGGACCAAATAATGCTTTAATTGATACGGAGATTCCAATTAATATTGAAATGTTTGAAGAAGATCATGGTAATTTAGCATTTAATCATCTAGCAGGTTGTGAATTATTTGGATCTGGATCCACATATGAGCCTCAAAAATCTTTAGCAATTTATTTCAGAAGTAAATATGATGTAGGTGAATTAAAATATAAATTATTTGAAAATAGTCCAATATCCGAATATGAAGCTTTTATTTTAAGAAATAGTGGAAATGATATGTATGCAACTCATTTTAGAGATGCATTAACAATTTCTCTTTTGGATAATAATACAAACTTAGATTACCAACATTATCGACCATCGATAGTTTTTTTAAATGGTGAGTATTATGGAATTTTGAACATTAGAGAAAAAATAAATGAACATTATATTGAACACCATCATTTTGTGAGTAAAGAGAATCTTGATTTATTATCCTATAAAGAGGTTGAGCAACCTGTTATAATTCATGGTGATATTCAGCAATATACAGATTTGTTAATTTATCTTCATAATAAAGATTTAAATGATAAAGATAGTTATCCACATATAGCTGATATTGTTGATATTGAAAATTTAATAGAATATCAAATAATGGAAATTTATGTTGGCAATATTGATTGGCCAGGAAATAATCATAAATTTTGGAAATCTAAATATGATGGAAGTAAATGGAGATGGATTCTTTTTGATACAGATACAGGATATGGATTATGGGATGAGTGGTGGCAAGATGGTAGGACAGGATATAAAGTAAATCATTTTCATCATGCTACAAGTTTAGGTTATGAGGGTGGAGGATGGCCAAATCCTCCATTTTCAACATATATTTTTAGGAAACTTATTGAAAATGAATCATTTAAAAATCAATTTATTAATCGTTTTTTAGATCTTTTAAATACAAGATTATCTTCAAAAAATGTTATAAATACAATTGACAGCTTAACTTTCAAATTACAATCAAGTATGCCGAGGCACTTGGAGAGATGGGATGTTTGGGATGATGATTTGCCAGAAATATATGACTATGAAGTTGGAAAATTAAAAGAATTTGCAATTAATAGACCAAGATTTTCAAAAATGCATATGAAAAATTTTTTTAATTTAAATACGGAAAAAACAGTAAAATTGAATATTATTCCAAAAAACAGTGGTTCAATCATTTTTAATTCACTAACAATTGAAGATTCTGTTTGGAATGGATCCTATTATAATAATGTTCCAATTAAATTAGTTGCAGACCCTAAACCTGGTTTTAAGTTTTCTGGTTGGTCATCTAATTCCTTACAATCATCAAATAATGAACTTAATATATTTCCAACCGATGAGGAGTTAACTGCTTTTTTTTTACCTGATTCAAATGGAGATATTATTATAAATGAAATTAATTATAGTTCATTTAATATAGCTGATTCTGAAGATTGGATAGAAATATTTAATTCGACTTCAGAAGAAATTATTTTAAATAATTGGAGTTTATCTGATAATAGTTCTGAATCATTTACATTTCCAATTGATTATAGTATAGGGCAAAATAATTATTTAATAATTGCAAAAGATCTGGATAAGTTTTCTAAAATCTATCCTAATATAAAAAATGTAATTGGTAACTTTCCATTTGGATTGAGTTCTGAATCTGATAGTATTATTTTAAAAAATCAATACGGTGAAATTGTTGATATTGTTTCATATGAACCTGAGTATCCATGGCCAATAAAAGTTAATGATTCTGGTCAAACATTAGAATTAACAAATCCAATATTAGATAATTCTTTTGGTGATAATTGGTCTTTATCAAAAGGATATGGAACTCCAGGTCAAAGAAATTCAAATTATAGTTTTTTAAATCAAACTAATTTTGAAACTTCAAAATTAGATAGTACTTTGAGTTCTAAAATAATTAATTATCCAAACCCATTTAGTGATAATACAAATATTGAATTTTTTTCTGAAAAAGATGGATTGGTAGAGATAAAAATTTTTAATATTTTAGGGGAGTCTATAATTTCTTTAAGTAAATTAAATAGACCTTCAGGAATTTACTTTGACAAATGGAATGGTTTAGATTTTTCTGGTAGAAAGGTTTCATCCGGGGTTTATATAATAGTGCTGTATATTGATTCTAAAGTATATGCGTCAAATAAAATATTAATTTTTTAAAAAAGAGGTATTTATGTCAATTAAATTAAATTTCAGGTTAATTCAATTTTTTTTATTTTTAATCTTTAACATGTCAATTTTTATTTTTGCTAATAATCCTTCAAAATTATTTGAAGATTATAAAGACTTAAAATTAGAGTTAATTACTGATGAATTAGAAATTCCATGGGGAATGGATTTTTTAGATAATGGAGATATTATTGTAACGGAAAAAAATGGTTCAATATTTAGAATTAATAATAATGATAAATTAATTAAAATTATCGGAGGGCCAAAAAGTACTGAAACTGGTCAAGGTGGTTTATTAGATGTTCAATTACATCCAAACTTTAGTAAAAATAAATGGATATATTTTTCTTATAACAAGCAGAAAAAAAATAAATATGCAACAGCAGTATCAAGGTTTATACTCGATAATAATAAATTAACAAATGAAAAAATAATTTTTGAAGCTTTACCATATTCTGGTAAGCGACTTCATTTTGGTTCAAGATTAGAATTTGATAAACAAGGATATTTATATATAACTGTAGGTGATCGTGGGTCAAGAGATATAAACCCACAAGATTTATCTAAACATGCAGGTAAAGTACATCGAATTTATGATAATGGTGATATACCAAAAGATAATCCATTTTATAATAAAGAAGGCGCAATCAAAAGTATATTTTCCTATGGTCATAGAAATCCACAAGGAATGATTCTTAATCCATTTACAAATGATATATGGACTCATGAACATGGGCCAAGAGGAGGTGATGAAATAAATATCATAAATAAAGGTTTAAACTATGGTTGGCCTGTTATTACATATGGTATTAATTATAGTGGAACTATCATTACCCATGAAAAGAAAAAAGAAGGAATGGAGCAACCCTTACATTATTGGGTTCCATCAATAGCTCCTTCAGGAATGACTTTTGTTGAAGGAAACATATATCCCTCATTGAATGGAAACTTATTGATTGGTTCTCTTAAATTTGAATATCTTCATCTTTGTGTTATGAATAAATCAAAAGTTATATCTGAGCATCGTCTTTTTGAAGATATGAGAGTAAGAAACGTAAAACAAAGATCTGATGGATATATTTTTTTCTCGGTTGAGGAGCCAGGAAGAATATATAAGATATTACCAAATTAAAATTTCATTATTCTTCTTGCTTTGAAGATGTAAAGAAAAACTCTAAATTCAGTGCTGATTTAATAGTTATGTGGAACAAATGATGAAAATTGAATTACTTGATACTACATTGAGAGAGGGTGAACAATCTGCCAATGTATCATTTACTGTTGACCAAAAAATAGAAATTTTAAAGTCATTAGATGAATTTGGTGTAGAATTTATTGAAATTGGTCATCCTATTGTATCGCCAGATGTTCATGATGCGGTTGAAAAAATTTCCAAAATTGAAACAAAAGCAAATAAACTTATACATTCTAGAGCAATGAAAGAAGATATCGATTTAGCCCATTCTTTTAATATTGAATGGATAGGTATTTTTTTCGGAACCTCAGATTTGAGTCTTAAACATAAATTTGGAATTGACAGATCAGAAGCAATTACAAAAATTGTTGATGCAGTAAAATATGCTAAGGATAAAGGAATGAAGCTAAGGTTTACAGCTGAGGATGCTACAAGAACAAATATAGAATACCTTATTGAGGTAGCCCAAGCTGTTTCAGATGCAGGAGCAGATAGGTTTAGTATAGCAGATACTGTTGGTATTTTGACTCCTGAAAAAACAACTAATTTAGTTGGAAAAATAGTTAAAAAAATTGATATCCCAGTTCATATTCATTGTCACAATGATTTTGGGTTGGCAGTTGCAAATTCTGTTTCTGGTTTGTTGTCTGGAGCTCAAGTAGCTGATGTAACGATAAATGGAATAGGAGAAAGAAGCGGGATTGCGTCTCTTGCAGAAATTGCGTTATTATTAAAAACACAATATGATATAAAAAATAATTGGGATTTATCTAAAATTTATAAATTATCAAAAAAAGTAGAGAGAATGTCTGGTATATTTAATTCTGAAAACAAGCCTATTGTAGGTATCAATGCTTTTACTCATAAAGCTGGACTTCACTCTAGAGCTGTAATTAAAGACCCAAGAACTTATGAAGCTTTCGATCCTAAAATTATTGATAGAAGTAGAGATATTTCGATAGATAAATATTCTGGAATTGATGCTCTTGCATTTAGATTAAAAAGTCTTAATGTTCCACATAATAAAGAACAATTATTTGAGATTTTAAAAGTAATTAAATCACATCCTGAAAAAAGAAAATTTAATGATTTAGAAATACTTGAATTGGCAGATGACATTCTTAAAGTCGATATCAAAACATATGTACCTATCGATGTAGAAGCAATCCTTAATATTGAATTAAATAGTGCAGTTTATACATCAAGAATAACAAGATGGTTAATGTCAAGAAATCAAGTTAAGGATGTGTATGAGGTCGCTGGAGATTATGATATAATTGCTCATATAAATGCTAGGTCAATAAGAGATTTAAATGATATTGTTGAAGAATTACGTGTTAAAGAAGGTGTTCTTAGAACACATACTAGACCAGTGTTAAAAGGTTATTCAATTAGTCAAAACAAATAATATTTCAGTTTTATAAATGCAAACTCTAACTGAGAAAATCATATCAAATTATATTGATAAAAAATCTTTTAAAGATTCTGTTAAACAAGGTTCAGCCTATTGGATTGAGCCAGAACATGTAATGTCACATGATAACTCTGCGGCAATTATAAATAAATTCAATGATTTTAATATCAAAAAAGTAATTAACGAAAAGCAACCTATAATTGCATTAGATCATAATATCCAAGATAAATCAATTGGAAATAAAAAAAAATACTCTCGAATTGAAGTTTTTTCTCAAAACAATAACATCACTTTTTTTTCTTCTGGAAAAGGTATTGGGCATCAAATTATGGTTGAAGAAGGTTTTGCTTTTCCTGGTACTTTTTGTGTTGCATCAGATAGTCATGCTAATATGTATGGAGGAATTGGTTGTTTAGGAACTCCAGTAGTAAGAACAGATGCTGCAGCAATATGGGCAACTGGTAAAATATGGTGGAGAATTCCAAAAATTATCAATGTTGTTTTCAATAATAGATTAAGAGAAGGAGTGACTGGTAAAGATGTTATTTTAACTCTTATTAATCAGGTTGGAAGAAATGTTGTTCTTAATTCTGCTATTGAGTTTACTGGTGAAGGTATTAATAGTTTGTCAATTGATGATAGATTAACAATTGCAAATATGACAACTGAGTGGGGAGCTTTATCTGGACTTTTTCCAATTGATATTATATTAATTGAATGGTTAAAAAAACATTCTAGAAAAAATAAAAATTTTAATAAAAATAAAATAAATAGTTTAATTAAGAACCCTTTGATTGCAGATTCTAATGCGAATTACTTTAAAACAATTAATGTGGATTTAAATACAATTAACCCATTTATAAGTGGAGCTAATGACTGGGCATCAAAATCTTTAACAAATGAAAAAATTTTTATTAATAAAGCATATTTAGTCTCTTGTGCAAATAGTAGAGAAAGTGATTTAAAAACAGCAGCAAATATTTTATCTAAAGGAGAAATTCATCCAAATGTAAAAATGTATTTATCTCCAGCTTCAAATCAAGTCCAAAAACAATTAGAACAAGATGGAGTGTGGAAAGTTTTCTTAGACGCTGGTGTTAATATTTTACCATCTGGTTGTGGGCCTTGTATTGGCCTTGGTGAAGGAATTATAAAAAAAAATGAAGTAGCCATTTCATCAAGTAATCGTAATGCTCCTGGAAGAATGGGTCATAAGGATGGAAAAGTATACTTAAGTTCTCCTGAGACAGTAGTAAAATCAGCAATTAAAGGATATATTTCTCATGATGAGAATTTTGAAATAATACCTGATATTTCTATTGTCGACAATAATCAAATTGATGATAAAAGTAAAATTAATTCTAGTGATTTGGATATTCCAATGATTACAGGAGAAGGAATTTATTGTTTTGAGGATAATATTACAACTGATGGAATTTTCCCTTCTTCCCATACTTATAATGAAAATTTATCTAATATAGAGTTAGCTGAACTATCTATGAAAAATTATGATGATAATTTTTTCAAATTATCAAAAAAAGGTGATATTTTATTATCTGGATATAACTTTGGAATTGGTAGTTCTAGGGAACAAGCAGTCACATGCCTTAAAGCTAAGGGAATTAAATTAGTTATCGCAGCTTCATATAGTTCAACATATATGAGAAATGCATTAAACAATGGTTATGGATTAATAGAATGTCCTAGTTTAATAAATAAACTTAAAACTATTTTTTCTAAGCCTAAAAAATCGATTAGGTTAAATTCAATAATAAAAATTGATTTTAAAAATTCAAAAATACATACTGACTTATTTGATTGTAGTTTTTCATTTAAAAAATGGAATAATTTAGAATATGAATTAATTAGTAGTGGAGGATTAAAAAATTTTATTATTAAAGAACGAGATAAAAAATGAAAAAATATAAAATAGCATGGTTGGCAGGAGATGGAATAGGAGCTGAATTATCTGTTTTGGCAAAAAAAGTTTTAAATGTTTTACAATTAGGTGTTGAATATGTAAACGCTGATATTGGTTGGGAGTTTTGGAAAAAAGAAGGAAATCCACTTCCTTCAAGAACAATTAAAATTTTAAATGAGACAGATTGTGGTTTTTTAGTATCTATTACATCTAAATCAAATGATGATGCCCAATTGGAACTTAATAGTGAATTAAAAAATTTGAATTTGAAATATATTTCACCAATAGTTCAGCTTCGAAAAAAATTTCAATTACATACGAATATTAGACCATGTTTTTCATTTTCTGGAAACATTAATAACCTTAAAGAGAACATTGATTTAGTAATTTTTCGTGAAAATACTGAAGGTATGTATTCAGGAGTAGAATTTAAACCAGTTTCACAAGAACTTTATACTGTTTTAAAAAAGTATAATAAAAATATGGATCATTTTGATCAATTTAATTTAAATGATTTAGCTATTTCAACAAGGATTATGTCAAAAAATAGATGTAAGTCAATAGTTGATGAAGCATTTCAATATGCAAAGAAAAATAATATCAATAATGTTTCTTTAGTTGATAAACCTAATGTTTTGAGAGAAACTGGACAGTTAATGATAGATTGTGCAAAAGAAGTTTCAAAATCTTACAGTGGAATAAAATTAAATTTATTTAACATTGATGCAATGTGTATGCAATTAGTAAAAAATCCAAATAAGTTTTCAGTAATAGTTGCTGAAAATATGTTTGGAGATATTTTATCTGATCTTGCAGCTCAGTTGGTTGGTGGATTGGGATTTGCACCATCTGCAAATATTGGAAATGATTATGCAATTTTTGAACCATGTCATGGTTCAGCACCAAAATATACTGGTTTAGATAAAGTAAACCCAATAGCTACTTTTTTATCATTAAAAATGATGCTTGATTGGCTTGATGAAAAAGAAAAGTCAAATTTATTATTAGAATCAATTAAAACTGTAGTTTTGGAAAGAAAATTTGGTACTTATGATATGGCTCTAAACAATAAGTCTTCAGAATTAACTTTAGAAATTTGTAGGCATATAAAGAGATTATCCTGATTTATTATAATAGCAGGTATATTTTTTTTCTATTTTAAAATTAGGTTCAATAATAATACTAAATAAATATCCAAAAAACACACATGAAAACATTCCAGTAAATGCGAACATTAATGGATGAATAAAATTATTAAAAGTCAAAAAATATTGAATTAATGCGCTTAAAAACAAACCTATTATTACTCCATAACTGTTTGATCTTCTTGTAAATATTGCCAATAAAAATAAGCCTCCCAAACCACCTCCAAATAATCCTATATATTTAGTAAATTCTGTCCATAATGAGTCAATATTCCATGTTGACATAGATAATGCAAAACTTATTCCAAATAAACCAGTTACAATTGTTGTTATTCTAGCGATTAACAAACTAGATTTTTCTGTTAACCCTTTTTTAAATCTATTAAAAAAATCAGTTGTAACCACAGCTGAAACACTATTCATTCCGCTATCTAGGCTAGACATAGTTGCAGCAAAGATTCCTGCAATTAATAAACCTGAAATACCTTGCGGCAAGCTTGTGGATATAAACCAAGGTAAAATCCCATCAATATTTTCAAGATGAATGTTTATTCTATTTGGATAAATTTTATAAAATGAATAAAGTGAAGTACCAAGGCTAAAGAAAATTAATGTTGAAGGGATTGTTAAATAAGCATTTGTAATTATACTTTTCTGTGCTTCTTTTTTATTCTTAGTTGTTAAATATCTTTGAATAACTGATTGATCACTTCCATAAGAAATTATATTACTTCCTATCCCACCTAAACATAGTACCCAAAAAGTTGGACTTTTAAAATTAAAATGAAAATTAAAAACTTTGAATTTTTCATCTTTAAAACCTATTGAAATAATATCTTGAATTCCATTATCTAAATGAAATTGAATAATGAATAATGCTAAAATAGCTCCTCCAAGTAAAACAAAAACTTGAATAACATCTGTCCATATTACAGCTTCAATTCCACCAAGTACTGTATACGTTATAGCTAGAAAACCCATTAAAATGATGCATAAATTAATATTTATTCCAGATGCTGCTGATAATGCAATTGATGGCAAATATAGAAGTGTTCCTAATCTTACAAGCTGAAAAACAACAAACATTGCGCTACTAACTAATCTTACTAGAATATTAAATCTTTTTTCAAGATATTGATATGCTGTAGTAATATCTAATCGACTATAAAGTGGTATTATAAAGTAACTAATTATTGGTGCAATTAAAATAATAGTAAAGTTTAAAATTACCCAAGTCCAATTACCAGAGTAGCTTTTTGCTGGTATAGCCATAAAAGTGATAGCGCTTAATTGAGTTGCAAAAATACTAAGTCCTGCAGCCCACCAGGGAATATTCTTATTAGCTCTAAAAAAATCATTAATTGATGATTTTTTTCTTGAAATATGAAAACCAATATAAATTATTAATGTTAGATACAAACCTAAAACAATATAATCAATTGTACCAAAATCAGTTCTTTTTATTGGTGTTGCAAGCCATGTATTGATATTATTTTTTTTTTCAAATGAATTATTTAAAAAAAATAGGTTTTCGTTTATTTTAATAATTTTTGAATTATTAAAATTTTGAAATGGGACTTTATCACTTTTTATCCAGGTGTCTGTGACAGTATTATAAGAGAAAATTGTTCTATTATTTGAAAAAATAGTTAATTGGTTTGATCCTATTGGTATTATAGAACTATTGTAGAAATTAAATTTAGAATTGAATTTTATCATTGAAATTGAATTCAATTCTTGAGATTCTAAGTCATATTTATAATTTTCAATTAGTTTTTTCTCATCAAATAAAAAAATAAGTTTTTTGACTCCATTGCTTTGTGAAGCAATTAAGAAATTATTTTTACTATTAAAAGAAAATGAATTTATTTTTTCCCAAATATTTTTGGAAAAATTTAATTTCCATAAATTATAAATTAATTTTTCTGGGTTCTGTACAAAAGCATAAATATCATTATTTATTTCTAAAATTTGAACATTTGATGATGTGAAATTTGGATTTGCAATTTTCCAATCAATAATTATTGAATTATTATACTTTTTAATTAAAAAAGATTTTAAAATTAAGTTTTTTTCATGTTTAATGATTCCAATACAAAAAAGACCATTTTTTGTAGAAATTGATGAAACTTTTATAATATTAGATGGAATAGAATTTTTTTTAACATTCCAAAATTTTTGATCATTTGTATAATATATGTGTTGATTTTTTAATCCATTTGATAAAATTACTGTATTGTGATGTGTGCCAAAAAAACTATTGTTTAAATTTTCAATTTTTAAATCATTATTTTGAATGAATACTTCTTCCCAATCAAAATAATTATTAGCAAATAAATTTTTACTAAAAATAAGGATTAGAAATATTAAAGTTTTTGTTTTGATAATTTTTACCCGCTTTAATTTATTTAACATATTGTTAACCTAAAAATAAATATTGTATTCATATATTCTCACAGTTTATATTTCGACCAACTAGTCGATATATAAAAAGTATTATGGTATCTGAAAGACAACAAGAAGAACGAAAAATTAGAAGAAAAAGAATTTTAAATGGTGCTTTGGAAGTATTTCATAAAAGTGGAATTGAAGGTTCAACTATGGATGAAATAGCTAACGAAGCAGGTTTTGGTAAAGCTACTTTGTATTATTATTTTTCGTCAAAAGAAGAAGTTTTTTGTGCTATCATGGAAAAGGGATGGAAGCCACTTTGGGAAAAATTAGAGGATACTATTCATTCTGAAGGTTTAAAAGAAAATGAATTGTTTATCGAGGCTTTGTGTAAAGTTGCAAATATCATTTTAAAAGATAAAAATTTATATCGATTTTTATTTACTGCTCCCAAATCCATTACACATATGCCAGAAAATCTTCAAACATGGAGAATATATCAAAATAGATTGTATGGTTCTCTTCGAGGCTTACTTGAAGAGGGAATAACTAAAAAACTATTTCCTAAAGCAAACTCCGAAATACTTTTTAAAGCTATCGGTGGTCTTTTTCATGGCGTTTTATTTTTAGGGAATGAAGAAACTAAACAAGTTTCAAAAGCTGATATAAAAACACTTTTAGAGCAATTTTTAAAATCCAATCAAGAAAAAGTTTAATAAAATTGAAAAAAAAAATTCCCAATTTATTTTGGGTAATAATTTTAAGTAATATATCATTATTTTCAATGAATAATTATACTATTTCAGGTAGAATTATTGATAGTCAAACTAAACAAGGGATTGAAAATGTTAATATTTTTATTGAAAAACTCGGAGCAGGTTCTTCTTCTTCTTCCGATGGTTATTTTAATATTGAAATTGAGTCAATTGTATTTCCTATTACTTTATTAATAAATCACATAGGATTCTCACCTAAAAAAATTCTTTTATTTGATTTAAATCAAGAATTAATAATTGAGCTTGATGAAAGTTTTTTTGAAATGGATGAAATAGTAATAACAGGAACAAAAACAAGTAAAATTAGAGAAAATGTTCCTATATCTACTCAAATTATAACTAATCAAGAAATATTAAATTCTGGGGAATCAAATATAGCTGAATTATTATCATCATTTTCGGGAGTAAATCTTCAAACTTCTGTTGATGGAGGTTCAATTTTGAATATTATGGGTATGGATTCTAGGTATATTTTAATTCTATTAGATGGTCAACCTATAACAGGTAAATTCAATAATAGAGTATCTCTAGATCAAATTTCAACAAAATTAATTGATAAAATTGAAATTAGTAAAGGTCCTAGTTCATCTCTTTATGGAACTGAAGCAATGTCTGGAGTGATAAATATTATTTCTCATAAAAATTTAAATGAAGATTTAATTTCAGCAAATATAAGGTTTTCAGAATCAGAGAAAAAATTAAACTTTAAAGATTTACTAAACACTTCCCTTTTTAGAAATTTTATTTTTCAGAAAAATGCTTCAAAATTTTCTTCAAGTATAAATTTAAATTCAGATAAAATTAAAACTGATAAAACTGTTCAACAAATTGATGCAGATAATATCATTAAAAACTCAGGATTATTTAATCTCAATTATAAATTTAATGACAATAATGCATTGTCATTTTCATCTAATATTTTTCATCAGAAAGAAAATGGTGAATCTTCATTGATGAATACTAAAACTAATATTTTAAGAAATTCGTTTAATGTAAAACATAATTTTCAAACTAAAAATGATTGGTATATTGATCAAATTATCCAAAAACAAAATTATGAAAGAAATTATATTCAAAATAGACCTTGGGGAGATGAGGTTAAAAATGATATAACTTCAGAGGATAACTTAGAGTATGAAATAAAGTTTACAAAAAAAAGCAAGTTGAATATAATTAATTTAGGATTAGAATCTTCAAAATCAACATATCAGAGTGATAGAGTAGAAAATAATATTCAATCAGTTTTAAATAATAGTTTTTACTCTCAATATGAATATCATTATAAAAATGGATTAAGTGTTATTTATGGTGCTAGAATAGATTTTTTTTCAGAATATGACGAAGTATTTAGTCCAAGAATTGGTATTTTGTATCCAATTAGATCAAATTGGAAAATAAGGACAAGTTGGGGAAGAGGTTTTAGATCACCTTCTTTTATGGAAAGGTTTATAGATTGGGATCATGTCCAATTTGGTTATCAGGTATTAGGAAATCCTAATTTAAAACCTGAAAGTTCTATTGGATATTCTTTAGAAGTTGAAAATTATAAATTATCAAAATATCAAATAAGTATTAGAGCCTATCATACTGCATTTGATAACCTGATTGAAGATTATTCAATTAGTCCTGGAGTTTTAAGTTATAGAAATATAATCGATGCAACATATTCAGGTGTTGAAATAAATGGAAAATGGAATACATATAAATTTTGGTTATTTTCTTGCGGTTTCAATTATGTAGATAATAGAAATGAAGAAAATAAAATAATTCCAAATACTCAACCTTTTTCTGGAAATCTAGGACTTACGTTTAATTATAAAAAAAATAGTTTCAAACTAAATCTTAAATGGATTGGAAAATATTATCCCCAAGATTATGACCCTTTGATTGGTGAATACACGAAATCACAAAATTCATTGCCTAATCAATATTTGTTAAATATGAATCAAAATTTTTTATTATTGAATAATATAAAATTAATTGTAGGTATAAAGAATTCTTTTAATTACACAAACAGAAGATATGGACCATTTTTGGGGAGAGTTTTTTTTGCTGAGATATCTAATAATTTTTAATTTAAAATCAATAAATGAGAGGTGCGAATGATTAATAAACACACAATTATTACATTATTTTTTTTGGTATCTTTTGGATGTGAGAATCCAAATAGTGAAGACAATGAAGAAGAAGAAATTGTTGTTTTAGACATTGTGAGTTCAGATGTAAATGAGGAACCTTATTATTATAATTTTCATGAAAATTTGAATGATTCTACTGATTGGCAATTGATGTATCATAATCAAGAAATTGCTGGTACAGGTTATTCAATGCCAAATATTAGTTTAGATAGCACTAAAGTTATGTTTGCTGTTGATTCAGTTATGGTATTTGATGATATAATTGATTCACCATCTATGTCGTCATTTATGAATTCTGTTTCTGATTTAAATTATTTGGGAAAATATGAAATATTAAGTTACGATATGACAGTTCATAAGGTGTCTACTTCAAATTTAGTGTATTTTATTTATGATATAAATTCTCATCAAGTTTTTAAATTATTTTTTAATGATTATAGTGCTGGTGTAATTTCATTTAAATATGCAGAATTACATTTCCAATAACATGTATAATAATGATTAATAATTATAAAAATATAAATATAAATTTGAATTTAGTGTATATAATGGCCTAAATTAATTGTATAATTCAAGGAGTTTATTATGGTCTCAAAAAAAGTTATTTCTAAATTAAATGAACAAGTTTTACATGAGGCTAATGCTTCTCAAAGTTATTTAGCAATGGCTATTTGGGCTGATACTAAATCTCTTGATGGTATTGCAGCTTTCTTTTATGAGCAATCTGAAGAAGAGAGACAGCATATGATAAAGATAATAAAATTTATCAATGAAGTTAATGGAAAGGCAATTATTCCAAAGTTAGAGGCTCCAATTCCTAATTTTGATTCAATTAAAGATGCTCTAGTACAATCTTTAAAAAATGAAAATCATGTGACATCTTCAATAAATGAATTAACATCTTTGGCGTTAGATGAAAAGGATCATGCATCATATAATTTTCTTCAATGGTTTGTTGAGGAACAACTTGAAGAAGAGCAGCAATTTCAATTTTTGATTGATCGAATAAATATGATTGGTGAAGAAGGGTTAAGTATTCATGCAATGGATAAATTAATGGGAAAGTTAGCAATATCTGAAGAAAAAGAAGAAGATGCTTAAATTAATGAATTTATTTCTCCAATTGATTCAAGCAATAAATCAGGTTTAATTGAGCTATTATTAAAAATTTTTTCTCTAAATTTTCCAGTTTTAACTAAAATAGTATTTATATTAAGTGATTGAGCACCTTCAATATCAGCAAATAAATCATCACCAACCATAGCAACGTTCTTTGGTTTTAATCCTAATGAATCAAGTGCTATTTTATAGAATTCCTTACTTGGTTTTCCGATGACTGTTCCTTTTTTCCCACTACAATATTCAAGTGCACTTACTATTGATCCAATGTCGATTTGTAAATTATTTTTTTTTTGAAAATATTTTCCTTTATGAAGACTTATTAATTCACACCCATTCATCAATAAATTAAATATTTTATTTAAATCTGTATAATTCCAATTATCTCCTCTATCTCCAATTACAACATATTTTTTATCTTCTTTTTCTTTATCAAATATAGAATATTCTTTCAATAAATTTTCATTTAGATATAAATGAGATGAAGGGGATCCAATTTTTTTTAAAAATGAAATACCAGCTATTCCTGCACTAATGATCTGATTGTTATTAATATTCAAACCTGCATTTTTTAATTTATTTACAAGTTGGTTTTTATTTTTTGTGGTATTGTTTGTTAAAAATATATACGGAATTTTATTTTCATTTAAACTTTTAATAAAATTTAAGCTACCATTTATTAATTTATTTGATGATAATACTACTCCATCTATATCAATTAAAAAACCTTTGATTAAATTATTTTTTATCTTCATTTAATATTAAATTCAAAATATTATATAAAATTATATATCAAATTTATATTAAACAAAAATAACTTAATTTTAAAAATACTAGAAAGATGTATATAAAAAAAGAAAACAAAATATTTGTTTTAGATACCAACGTTATACTTCATGACGCTTCTTGTATACATTATTTTGAAGATAACGATATAATTATTCCAACGATAGTTTTAGAGGAGCTTGATGATTTTAAAAGAGGAAATGATGAAATAAATTTTAATGCTAGAGAGTTTTTGCGAACTTTAGATATTTTAACAGAAAATATTGTTGATGGTGAAATTCCAGAGTTAGGTGATGGAAGAGGTTCTTTGAAGGTGGTTGTAAATCATAGATGGCATCCTGATATTCATAATGTTTTTAGTGAAGATTCACCGGACCATAGAATAATAAATTGTGCATATAGTATATCAAAAAATACAAAAAATAGAAGAGTCATATTAGTATCAAAAGATAGTAATGTCCGTTTAAAAGCACGTTCTTTAGGGTTGTTTTCAGAAGACTACTCAAATGATAAAGTTGAAAAGAATGTTAATGAATTATATACTGGTGTAAGAACTTTTGATAACGTTGAATCTAAATATATAAATATGCTTTATGATTCAAAAAATATGATTGAATCAAATAATTTTGATATAATAGATAAACCCCTTTCAAATGAAAACTATATCTTAAAAAATGGTATTAAATCAGCACTTGCTACATATGATCCATTTAATAAGGGGTTTAAAGTAATAAATAAAATTAGTGCTTTTGGAATTATCCCTAGGAATGCTGAACAATCATTTGGTATATCAATTTTAAAAAATGAAAAAATAAAACTTGCTACTTTAACTGGAAAGGCTGGTACAGGAAAAACTTTATTAGCATTAGCTTCAGCGCTTGAAAGTAGATCTAAATTTAGACAAATATATCTTGCTCGACCTATTATCCCATTAAGTAATAAAGATTTGGGTTTCTTACCTGGAGACCTAAATTCAAAACTAGATCCTTATATGCAACCTCTTTTTGATAATCTAGATGTTATAAAACATAATCTAAAACCAACAGATAATAGGATTCAAATTATAAAAAGAATTTTAGATGAAGAAAAATTATTCATAACACCATTAAGTTATATTAGAGGGAGAAGTCTTCAGAATATTTATTTGATAGTTGATGAGGCTCAAAATTTAACACCACATGAAATCAAAACAGTAATAACAAGAGCCGGCGAAGGAACAAAAGTGGTATTTACTGGTGACATTCATCAAATTGATCATCCATATTTAGATAGTCAATCAAATGGTTTAGCGTATATTATTGAAAAAATGAAAAATCAAAATTTGTATGCTCATATAAATCTTGCTAAAGGCGAACGATCAGAACTATCAGAAATTGCTAGCAATTTATTATAGTTTTTTATCAAATCGAAAATTAATTAAATATGAAATTTTTTTTTACATTTTTATTTTACATTTTATCTTTTCTTAAACCTTCAGAACTTGATTCAATAAAAGATTCAATTTATTTTGAGCTTGATCCTATTATTGTTACAGCTGATCGATTCGAATTAAATCTAATTAAATCATCTTTCTCAATCGATAAAATTGAAAATCAAAACTATGAAAAAAATCTTTCAATTAATGATTTAATTAATTCATCAGCTGGAGTTTTTAATCAAAATGCAAATAATTTTGCTCAAGATTTAAGAGTTTCAATTAGAGGTTTTGGTGCAAGATCATCTTTTGGAATAAGGGGAATTAAAATAATAGTTGATGGAATACCTGAATCAACACCTGA
>sequence20
ATAAAAAAACTAATTCCAAAAATATACAGAATTATTAAAAAAAGAGGTTTTAATTTTGAAAGTTTATTAGAATCAGTTTCACTTTGAATTAAATCATCTGATTCTTGAATAATTTTATATTTTTTAGGAATAGATTCTTGAAGTTTTAAAAAAGAAACTGTTTTTTTAAAATCTATTTCTAAAGATGAATTTTCTAAGTCAATGGAAACTTCATTAATATTAGAAATTTCCGATATATTTTTTTTAATTTTATTTACACAACCTTCACATGTCATACCCTCAATTCTGTAAGATTTTTTCATTTTATATTATCAATTGTCTAATCTTTTAAGTAATTCAAATCTATATATGCCCGAATTATGACCATCACCCCAATTAAATTGAAAACCATAATATCCTACTTGCTTAATACCTAATAAATTGTATCCCGATTCATTCTTAGCTTTTCCATAACCCATATAAACATTTCCAAAGGCATCTTTCTCTCCTGAACATTCAGCACAAGGACAATTATCTCTTATTGTTTTAAAATCCAAAAAAGTTTCTTCTCCATTTTCCCATTTAATAATTAGATTTTCATTTATTAGTTCATATTTTTCTGGAGAAATTTTATTCATACATAGAGGCCCTTGTTTTATAATTAAAGATGTTTAAATTTAACAATGAAAAATTTAGAATTTATATTTAGAATATTATATTTATGATAATCTTATCTAATTGTCATACTTTTTTTTACTGGTCCAACCAATGATTTCAAAGCTTGGTAAAATAATTCAAATTCCAAGCTTAAAAAAATTATCTTTTCAAAAATATTTACTCATAGGGAGAATGTAAATGAGTTTACTTGCAAATCTAGTAAAACTTCAAGAAATTGATTCATCCATTCAGTCGATTGAAGAACTTCAAGGAGATTTACCAAAAAATGTTGAAGAACTAAAAACAAATTTATCTACAATAAGTAGTCAAATTTCTAATGATGAAAAAAGATTACAAGAAATTGACATCGAAACTAGAAAAACTCAAACAATCCAAAAAACTAATAAAGATAAAATAAATAATCTTCAAGAACAAGTTTATAGAGTTAAATCAAATAGAGAATATGATGCATTAATGTCTGAAATTGATCATTTAAAAAATGAATTAAGTGAATATGAACTAAAAGAATTGGAGCTCAGTGAGGAAAAAGATAACTTATCAAATAAATTAAAAGAAAATCAATCTGAAAATGATGTTATAGCTGAAAAATTAGACAAACAAAAAACTTCACTTGATAAAAATATTGTTGAAACTAAAGAAGAACTCGGTAGTTTAAAAACCAAAAGAGAAATCATTACATCAGAAATAAGCGAACAACATTTAGGCCTCTATGATAGAATAAAAAGCGCCAGAGGAGGAGTTGCAGTTGTTCCTGTTAAAAATCAAAGTTGTGGTGGTTGTCATTCTAAAATTCCTTCTCAGCTTGAAGTTTTTATTAGAGATGGAAATAAATTAACACAATGCAATGTGTGTAGACAAATTCTTTATTGGGATGATAAATAAAAATCTTTGTAATTTTATTCTACAATAGAGTCGTTCGTGTGATTACCTAACTGAATATTAATTAGTTGGGAGGAAAGTCCGAACACCGCAGAACAGGATGCCTCTTAACGAGAGGGGTTTCATTTTTTGGAATACGGAAAGTGCAACAGAAAGTAAACTATTCCTTTTTGGAATACAGGTGAAACGGTAGTGTAAAAGACTACCAGTTTTAGGTGAAAACTTAAAAGCTATGTAAACCCCATCCGGTGCAAGATCAAGTAGGAGAGAAAAAGTTGTTCGCTTTGTTTGACTCTCGGGTTGTTCGCGAGAACTAAATTGTGAAATTTAGTCCAGATAAATGATCACAGTTCTAAGGAATTAGAATACAGAATTCGGCTTATAGAGCGACTCTTTAAAAATTATGTACATTTGGAATGAAATATCATTTGATATAACTTTAGTAAATAAACTTGCTTTAGAATTTAAAGCTACGACTGCAATTGCAAAAGTATTGGCAAATAGAGGTATTACCTCATTAAAATCATCTCTACCTTTTTTCAATCCTAACTTAAATAACTTACATGATCCTTTTTTAATGAAGAACATGGATTTAGTAACAAATATTTTAATTAAATCTATAGAATCAAATGAAAGAATTTTTATTTTTGGTGATTATGATGTTGATGGAACAACAGCTTCTTCTGCTCTATCAATGTTTTTAAATGAATTAGGCTGTGAAACAAAAGTTTATATTCCTGATAGAAAAAAAGAAGGATATGGATTATCAATAAATGGAATTGATGTTGCAATTGATTGGAATGCCGATATTTTAATTACTTGTGATTGTGGGATAAATGCTGTTGAACAAGCAGAGTATGCGAAAAAAAAAAATATTGAATTAATAATTACAGATCATCATTCTCCAGATGATCAAATTCCAAAAATTGATTTAATACTTAATCCAAATCAAAAAGATTGTAAATATCCATTTAAAGGTCTTTGTGGTGGAGCTGTTGCATTCAAACTAATGCAAGGAATTATTAAAAAATTAGGAAAAGACATTGAAATTGCAAATAAGTATCTGGATTTGATTTCATTAGGAACAGCTGCCGATATCGTACCATTGCTTGATGAAAATAGAATAATAATGAAAATTGGTTTAGCGAAGATTAAAAATTCTAAAATATCAGGATTAGTTAAATTATTACAAATAAGTGGGTTATTTGAAAAAGAAATTTCAGTCGGTAGAATAGCATATAATATTGCACCAAGAATTAATGCAGCAGGTAGATTAGGTGATGCAAATAGAGTGGTTAATTTATTCACAACAAAAAGTGAAGTAGAAGCCGTTGAATTAGCTAAAGTTTTAAATGAAGAAAATAAAATAAGACAAAGTATTCAAGAAAGAATGCTTAAAGAAGCAATGAAAAAAATATCAAATGATAAAGAATTTAAAAATGAAAAAGTTTTAATTATATGGGATAAAAATTGGGATGAGGGCTTAATTGGAATTATTGCTTCAAAATTAAAAGAAGAATTCAATAAACCAGCTATTGTACTTTCAATTAAAGATGAAATTGCTAAAGGTTCAGCAAGAAGTATTCTTGGGTTTAATTTATTTGAAAAATTAAAAGAATGTAAAGATAATCTTATTTCATTTGGAGGACATCCAATGGCAGCTGGTTTAAAACTAAATACTAAAGATTTAAATAATTTTAAAAGAAGTTTTGAAAAAATTGCTAAAAATTCACTAAAAAATTCTAATATGAATAAAATACTAGATATTGATGCTGAGATTAATTTTGAAGAAATCAATAATAGATTTATTGATTTTTTAGAAAAAATTGGACCACATGGACCCGGAAACGCAACTCCTAAATTTATAACACGAAATGTCCAAATTTTAGACCAACCAATGTTAGTTGGAAATAAAAAACATCTAAAAATGAAGTTGATAAAAAATAATATATTTTTTAATTCAATAGGATTTAATTTTGGATATAAATATGAAGAATTATTAAAAAAAACGCAAATTGACATTGCATATATAATTGAAAAAAATTTATGGAACGGAAATTCAACAATTCAACTAAATCTAAAAGATATAAAAATTTAATTTATTAATAAATGTCAGCATTAAGAAAAAAACAAAAAATTAAACTTTCTCAAAAAGAAAATAGAAAGAAAATTAATCGATTTTTAATTTTTAGTTTACTTACAATTTCAATTTCATTATTATTTCCTGGTGGAGAACAGTTAGATTATAATTATCAAATTGGTGATATCACGAGAGAAGAGATAGTTGCTGATTTTAATTTCCCAATCCTAAAATCTGAAGATCAACTAGAAAAAGAACTCATTGAAGCAAAAACAAAAGTTCCCTATGAATTTCAAAGAGATCAAAATATATCAATTGATCAAAATCAAAAAATAGAATTTTTTTTTAATGATATTAAAAATTTATCAACTGCCTCAACTAATTATCAACGAACATTACAACTTCTTTGGGAAAAAAAATATGAGGACGATGAAAATAAAGTCAAAACTAACGCAGTAACTGATAGTGCTCTATTTTCAGATCTTAAGGAATCATTTTTAAAAAAATATCCTTTTGATATAGATGACCCTCAATGGATAGAATTAATATCCGAAATAGATCAAAATGGTAATAAAATAGATTTAGATTCTTTAGAACTTATATCTCTTAATATTTCTAAAAATAACTGGGCATATGGTATTTATGATATTCCAAAAAATAATATTATAAGTGAAGAAATCAGTTTATCTATCAATGAAATTTCTGAAATAATAAATAAAGATAATTTTTATGATTTAGAAGAAGCATGGATTCAAGCAAAAAAAGAAGTAAATGTCACCTTTCCAAATGATGAGTTACTAAAAGATTTAATTTATAGTATCATAATTGAATTTATGAAACCAAATCTAATTTTTGATTCTGAAAAAACTGAACGAAATCAAAATAAAACAACTTCGATAATTCCTAGATCAAAAGGAATAATAATGGAAAACGAAAGAATTGTCGATGCTAATATCAGAGTAAATGAAGAAATATTCTTAAAATTAGAGTCTTACCTTTATGCAATCAATCAAAAAGAAAGAAATGAAACTGGACTGTCATTTATTTTACCTTGGATAGGAAGAATATTAATTGTATCCTCAATTTTATCTTTATTTTTTATCTATCTAAAAACATATCGAAATGAAGTTTATAATAAAAATCAAAATCTAATTTTATTTTCCTCACTTTTTTTTCTTATAATTACATCATCTTACATATTTGTTTTAAGATTTAATTTTTCTGAATATTTGATTCCTTTTACAGTTGGAGCAATGGTCATAACTGTGTTATTTGATGGAAAAATCGCTTTTAATGCATCTATAATTCTTGCTATTTTGGTTGGATTTGTAATTGGTGGAAAACTTGACTTTGCCATTGTAGGACTTTTTACGAGTATGGCAGCCATTTATTCAGTAAGACAATTAAGAACCAGAGCACAATTATTTATCGCAATTTTGTTTATAATTTTAAGTGGGTCAATAGTTATTTTAGGAATTGGTTTAATAAAAAAACTCCAATGGAATATAATTGGTGATAATTTAATTAATATGCTTGTAAGTGGCTTGCTTGCTCCTTTAATTACTTATGGAATCAGTACTTTTTATGAAGTTATTTTTAGAGCAACATCAGATTTAACCCTTTTGGAATTAACCGACTTTAATCATCCACTTTTAAAAAAATTATCTCAAGAAGCAAATGGAACTTTTAATCATTGTATTGTTGTAGGAAATCTTGCGGAATCATGTGCTAACGCAATTGGAGCTAATCCACTTTTAGCCCGAGTTGGAGCATATTATCATGATATTGGAAAGCTTTCTAGGCCTGAGTATTTTGTTGAAAATCAATATGGTGCTGATAATCCTCATGATGAGTTAACGCCATCCTTATCATCAAAAATAATTATTGGTCATGTTAAAGATGGAATTAAACTTGCTAAAGAATATCGATTACCTCCAGCAATAGCAAATTTTATTCCAATGCATCATGGCACATCAAAGATTGACTTTTTTTACAACAAAGCATTAGAAATGTTTGATAATGATTTTTCTAAAATAAATGAAGATGATTTTAAATATCCTGGACCAAAACCAAATACAAAAGAAACAGGATTATTGATGATTTGTGAAGCGGTTGAAGCAGCAGTAAGATCATTAAAAAATCCAACTTTAACAAAGATTGAATCTATGGCTGACAAAATTATTCAAAAAAGATTACAAGAAGGTCAATTAGACAATTGTCCACTTACAATTAGTGATTTAAATAAAATTAAAGGTAACGTAAAAGGGAAATATGGAATGATGTCAGTCTTTAAAGGAATCTATCATTTGAGAATAGAATATCCCAACCAAGAAAAATCTCAATGATTCAGATAAAAACTTTTATTGATCCAAAACTAGAAAATTTCAATATAAATGAAACTAATTTAAAATGTTTGGTTTTAGATCTTTTAAAATTCCACAATCATAATTCAGCAAAGATATCAATAATTTTTAGCACCTATCAAATTTTAAATGATTTAAAAATTAAATTTTTTAATCTTGATTATTTAACTGATGTTATTGCTTTTAACTTGAATGATGTTAAAGAAAATATTGAGGGTGAAATATACATTTCACCTGAAATAGCTAAAAAAAATGCAAAAAAATTCAATAATTCATTTGATAATGAAATTAAAAGATTAATTATTCATGGTAGTCTTCACTTAATAGGATATTTAGATGATACTAAAAATCAGAAATCAAAAATGAATAATATTGAAAATAAATTTTTGAAAAATAATGTACTTGAATTAATATGTTAGATAATATTTTTTTTCAAATATTTGCTTTTATTATTTTACTTATCTTATCTGCATTTTTTTCAGGAAGTGAAGCTGCTTTTTTTTCTATTGACAAGAAAAAAAAATCTTATAAAAACAAACATCAAATCATAGAATTATTGCAAAAACCTCGTCGTTTGTTAATTGTTCTTTTAACGGGGAATACGATTGTTAATACAACAATGGCGGTTTTAGCAACATTTATTACAGCAAATATTTCTGAAATGTTTGAACTTAATGTAACAGTTTTAATAATTTTTCAAACATTTATTCTTTCAATAGCTATTGTACTAGCTAGTGAAATAACTCCAAAAATTATAGCTATTCAAAATTCAATATCATTTGCTGAAAAAGTTTCAATTCCAATAAAAATATTAATTTGGATTCTTAGCCCTATTGCAGTTCCACTTTATACATTAACAAAGTTTTTATCAAAGATTATACCTGGGAAAAAAGAAAAACTTTTTGAAACTGAAGATGAAATTAAAGCTCTAGCAAATATTGGTGCTAAGACTGGCTCCATCAAATATGATGAAAGTAAAATGATTAAATCTGCTTTAGATTTTTCAAGTACTGTTGTAAAAGAAATAATGGTTCCAAGAATTGATATTATTGGAATTAATATACATAAATCTCTTTCTGAAACAATAAATATCATAAAAAAAAATAATTTCTCTGTTTATCCTTGTTACTCTGAAAATCTTGATAATATTAAAGGCTTTTTATATTCAAAAGATGTTTTACCTCACTTAAAAAAAATAAATCAAAAACTAAAAATTTCATCACTTTGCAGAAAAGTATTTTTTATTCCCGAATCTAAAAATATTGATCAACTATTAAGAGATTTTCAACAAAGAAAAGAAAAAATTGCAATAGTAGTTGATGAATATGGAGGAACTGCTGGTTTGGTAACAGTAGAAGATATAGTTGAAGAAATTGTTGGAGAAATTCGTGATGAATTTGATAAAGAATCACCAATGATATTAGAATTAACAAAACAAAACTGGCTGGTTAATGCAAAAACACCCATCAATATTTTAGAATCTGAACTAAATATTACATTTAACAAAGATAGAGAATATGATACATTGGGAGGATTTTTATTTTATGAATTTGGAAATATTCCGATCGTAGGAAATTTCATCGAATATCAAAATTTAATTTTTAAAATTATTTCTATGGAAGGAAATAGAATTTTAAAAATCAATATAATTAAAAGAGGCTTTAATGAAAAAGATTGAAAATCTTTTGTCTACTATAAAAAAACTTAGAGGTGATAATGGTTGCGAGTGGGATAAAAAACAAACCAGTGAATCTTTAATACCATATTTAATTGAAGAAGTATATGAAGTAATTGATGCAATTGATAAAAAAAATAGAAATAATTTATTAGAAGAATTAGGTGATCTTTTAATTCATGTATTATTTCAATGTGATATTGCTAATGATAAAAAAGAATTTAATCTTAATGATGTAATTTTAGTAGCAAATCAAAAATTAATTGAGAGACACCAACATATTTTTTCAAAAAAAGAGATTTCTAAAAATTCAAATTGGGAATTAAATAAGCAAAATATAAAAAAAAGAAAATATAGATTAGATGGTATTCCAATTAATTTACCATCATTAATCAAAGCAGAAAGATTACAAGAAAAAGCTGCAAGCGCAGGATTTGATTGGGAAAATATTAATCAAGTATGGAACAAAATGGAAGAAGAAATTCAAGAATTAAAAAAAGCAAAAAGCAAAGACGAAATAGAAGAAGAAGCCGGTGATATACTTTTCACTGTAGTTAACCTTTGTAGATATTTTAATATATCAGCAGATAATGCACTTAGAAAATCTAATTACAAATTCTTAAAAAGATTTAATGGAATTGAAGACCAATTGAGAAATCAAAGCAAACAATTTGAAAATGTTTCAATGGATGAACTAAATAATTTATGGAATGAACAAAAACAAATTATTTAATTTTGATTAATATATTTCTATTTCGTGGACCATCAAATTCACATAAATAAATTCCCTGCCATACACCCAGAATTAACTTTTTATTATTAAAAAAAACTCTTTCAGACGAACCAAAAAAAGAAGTTTTAATATGACTATCAGAATTTCCTTCATTATGTAAAAAATTTTCATCATTAGGAATTAATTTATCAATGAAATATTTTATATCTCTCATCACATCTGGATCAGCATTTTCATTAATAGTTATACCACATGTAGTATGAGGAACAAAGATATCTACTTCACCTTCAGTCAAATTAGATTCTAATAATAATTCATCAATATAATTGGTAATATCAATAAAGTCTGTTCTTTGATAGGTTTGAATATTTATTTTCTTAAACATTTCAATTATTAATTAACCTAATCCAACATCAAGAATCATCATTACAGTAAAACCAATCATAGCACCAATAGTTGCTATATCAATATTACCCTCTTGAGCACTTTCAGGAATTACTTCTTCAATAACAACAAAAATCATAGCACCTGCAGCAAAAGCAAGAGCATAAGGGAGAATTACTGTTGATGAAACAACTATTACTGCACCAATAACTGCAAAAATTGGCTCTGGAATAGCAGAAAGTTGACCATACCAAAAACTTTTTAATCTTGACACACCCATTCTTCTTAGAGGCATTGAAACAGCAAATCCCTCTGGAAAGTTTTGGATTCCAATTCCCAGAGCTAAAGCAATTGCACCTGAAAATGTTGCAGAATCTAAATTTGAAGCAAGAGCGCCAAAAGCAACTCCAACAGCTAAACCTTCTGGAGCATTATGTAATGCGATAGCAATTACAGTTAAAGTTGTTCTACGCCATGATGTCTCAATTCCTTCAGCATCTTCTTTTGGATATCCTATATGTAAATGAGGAAGAATTTTATCCATAAAATAAAGTAAAGAACCACCTAATAAAAAACCAATTGATGGTGGAAGCCATTTTGGTAGAGTTGAACTTTCTGACATTTCAATAGCAGGCGCTAATAATGACCAATAACTAGCTGCTATCATTACTCCGGCAGTAAAACCCAACATGGCATCCATAACTTTTCTGTTTAATGATTTAAAAAAAAATACTGCAGATGCGCCCAATGCTGTCAATCCCCATGTAAAAGATCCAGCTAAAAATGCCTGTAAAACTGGATTAAATCCCTTAAAAGTTTCAATCATTTTACACCACTATTTTCATTAAAAAATTTATCATAGAACAATGAAGCTAATATTCCTCCAATGATTGGTCCAATCCAATAAAGCAAATGATTTTCCCAATTTCCAGATATCAAACTTGGTCCAAATGTTCTTGCTGGGTTCATAGATGCTCCTGTTAGAGGTCCACCTGCAAAAATATCAATTGTTACAACCAAACCTATTCCAAAACCTGAAATATGTTTTATTGGACCACGATGATCAACCGCCACACCAAAAATTGATAATACTAATAAAAAGGTTAAAATCATCTCAATAAATAAACCGTCAAAAAAACCAATACTTTCATTTAAAGACTGACCCCCTAAATCGAAATCCATTGAATTAGGAATTAAATTTCGCAAACAAATTGCGGCAAAAATAGAGCCTAAAGTTTGTGCAAAAATATATGAAGAGGCTGTCTTAAAATTTATTTTTTTTGTTATAAGAAAACCAATAGTTACAGCTGGATTAATGTGCGCTCCTGAAATGTGACCCAAAGATGAAATCACTAAAGCAACAGTTAAGCCATGTGCAAGAGCAACAATTAAAAGATCAGAATTAGTATTTATAATGGCTGCGCCACCAATAAAAGTTAGAAAAAAAATACCTATAAACTCAGCAACAGATTTTTTTAAAACATTCATATTAAACCAGAATTTGTTTAATAATTTTATAACAATTATAATAATAATAATAATAAATTATATATATGAAAAAAGTAATCTTTATTTGTACTGGAAATGCTTGTCGTTCACAAATGGCTGAAGGTTTTTTAAATTATTACAAAGGTAATAAATATGAGGTTTATAGTGCAGGAACAAATCCAACAAGAGTCCATCCTGCTGCTATTAAAGTAATGTCAGAATTAAAAATTGATATAAGTAATCATACATCAGATCATATGAATGATTTCTTAGATAAAGGAATTGATATAGTTATTACAGTTTGCGATGATGCAAATCGAAAATGTCCTGTTTTCCCTGGAAGTCAAAAATCAATACATTGGTCAATTAAAGACCCGTTTATAAACTGGTCTGATGAAGATCATTTATTAGAACCATATAGGAATGCAAGAGATATTATTTTAAATAAAATTAAAGAATTTATTGATTAAAATAACAGTAATAATTTCATATTATCAAAACACTTTACTAAATTCACTCTTTAATAAATTATAAAAAACTAATATGTCTCCAAATAATATTGACCAAAATAAAAGACTTACTACATTATTTAAAATTTTAGATAATGAAAATCAAATTCTTCAAAGAACTGATCAAAAAGCTACCACTCTTTTATCAATCTTAGGAGTATTTATGGTATTCTTTATAATTCATTTTTTAAAACTACAAATGAATTGGCTAATTTTTCTTTTTGTTATTATTTATTTCATTGCTGCTTTTTTAACCATCATGAATTTAATTTTGGTAATATCTCCAAGAGTTAAATCTGAAAAACTTGAAGATGATGAGGATAATCATGCTAACCCATTATTTTTTGCAGGAATTAGTAAGTATAAAGATTCAATCGAATATTCAAATTATTTAACTTCAATTGCATCAAATGATGAAAAAATCTATAGACTTTTTGGAAATCAAGTATTTGCTTTAGGAAAAGTTAATCTTTATAAATTCAAACATATGAATAGAGCAATAATATGTTTCATTATTGCAATATCATCAGAATTGACAATTATTATTACAATGGCATGGGCAAGAGCCTTTCCTTTTCTTGTTCAAAAATTTCCTAATCTCATTGATATAATAAATTAATATTTTGAATAAAATTTTACTTTTAATTGTATTAACCATTTGTTTTAGTTGCAGCCCATCTGCTGGACCTCCTGTGATTGGAGAACAAGGTCCAAAAGGACCAAAAGGAGATCAAGGCCCACCTGGTCCAAAAGGAGATCAAGGTCCAAAAGGTATACCTGGAAAATCTATTTCACCTGAAGATCTTGAGTCAATTAATAATGCTTTAATTGAATTAAGAGAAAAAAATAATTTAAATGATAATAAAGAGTATATTGTATCTATTGTTCCTTATCAATTTGGGATTGCTCCTCCTGTATTAGGTTTTGCTGCTCTATCAAGTTTTGGAGTTATATATAAAATCGAACATAAAAATATTATAACACCTGGTAACGAGTATATTAACGTAGGTAGAATAGATAATAGAAATGATTTTATTTCTTTAAGTCTTTTACCTGCTCAAGATGCAGGTGAGTCAATTTTTTTAGCTGTAACAAAAAATGGACTATCTTATATTTCAAAAGATTTAAAAGTCTGGAATTTTCAAGCACAAGTCCCTATAAAATAAAAAGAGGCAAAATTAATTTTGCCTCTTTTTCATACAATTTAAATTTATACTTGTAACTAAAAACCAAAAGCAAGACCAGCCCATAAAGTACTAAAACTATTTGAACCCGGTACAACACCTTCTGCTAATGTAATTCTATAAGTTAAAAAGGAGCTAAATGTTAATAATTTTGCTTGAAGACTTGCTTGTACATGTAAACCTGAATTATCAAACCAATTATCTCGATTAGTCACAAAATCCTCAATTTTGTTCTCTAAATTTACATCAGAACCACCATTTACCAGATCACCACCTAGCAAATCACTCATCATATCTAAATCTGCTCTTTTGGATGAAACATGAGAATTTACTCCTCCACCTAAATGAAAAGAGCCACCTCCTAGAAATGGAATACCAAGACCGATCATTTTTTTTCTAGCAGTAAAATAAGTTGAAATTCTTGTCCAAGCAAATTGTGTTGTAGGTAAAGAAGTAATTTCATTTTCAAATTTTAGATCGTACGGAACAGGAGCAATTTCTACACTTGCTTCAAGATCAATAAATGGAATTGCATCAATATATATAAATCCACCTATACCAACTCCATCCGAACCTGCAAAACCAGGACTTTGTAATGAATAAAGTGAAGTACCATCATTCCATCCATCAACTGTAAAATTATCTCCTAATCCTTTTATTCCTATACCAAAAAGAGCTTCAGCCTTTTCAACAGGGAAAAATAATGACAATACTATTATTGGTATCATTAATCGCTTCATATATTATTCTCCATAATTATTAGTTGGAAACATTTTAAATTATCATCCAAATTTTACACTTTTTAAATAAATTATTTTAGTATTTTATTGTTAGTGCCTAATTTGTATTTCTAAATTACTAAATAGTATTTAACCTATGAATCATTTTATTATATACCAACTAATTTTTCTCGCTTTCTTCGAAATATCATTTTGTCAAGAATATTTATGGCCAACTAAAGAAGGGAAAATTATTTCCTCAAACTTTGGTGAACCTCGTCCAAGAAGATTTCATGCTGGTATAGATATTATTTCGAAGGAAAAAAATATTAATCATGAAATCTTTGCAGTAGAAGATGGGTATATACAAAAAATTAAAATTTCATCTAATGGATATGGAAAAGTGATTTATCAAAAACTAATTGATGGAAATATTATTATTTATGCTCATTTATCTTCATTCAATAATTTATTAAACCAAATATCTAACATTGAGCAAGAAAAAAACAACTCTTATGAAATTGAAAAATTTTTTGATAAAAATGAATTTTTAATAAAAAAAGGTGATTTAATTGGATATCTTGGTGAAACAGGAGGAGCATATGGACCTCATCTTCATTTTGAGATTAGAGATAGTTTAAATAGACCAATAAATCCTTTATTAAATGGATTTGGAATAATAGATAAACATAGACCAATTCCAAATGAAATTGCCCTAACTCCGTTAGATAAAAATTCAATAATTAACGGTCATAACCTTACACAAATTTTTAATCTTAAAAAAAAAGATATTGGACAGTATGAATTTCCTGATACAATTCATGTATATAATAAATTTGGTGTAAGTTTAAAATCTATAGACAAAATTAATGGTCTTTCATGGAAATATAATATAACTGGAATTTCACTTAATGTTAATGATGTTGAATTATTTAGAATTGAATATGATAAGTATGATTTTAAAAATAATCATTTAGAAGAAATAACAATTGATAACAGTCTTAGAAGGTTAAATGATGGAGATTTTCATCGACTGTTCTTAATTAATAATAATCTAAAAACAAACTTCATTAAAAATAACTCAAATGGTATCTTAAATCTTTCGCAAGGCTATCATAATGTTTTAATTAAACTATTTGATCATAACAACAATATATCAACAATTAAAGGAACTTTCTATGTTGCGCCTCCTATTCAAATAGATGTAAAAATAATAGAAAAAAAAGAGGACTCAGTTTTCTTCCAAATGATTCCAAAAGGAAATCCATTTCCAATTCAAAATTTTGTTTGCTATATATTCAACAAGAAGGGTTTTCCAGAAAAAAAATTGGGAAATTTATCATTAAAAAAAACAAAGAAAGGTTTAATTATAGAATTAAGTGAAAAAGATTTAAATAATAAAATCTTACAATTCATTGGAATAAATAAATTTGGAGCAATATCTGAACCTCTAAATTATCCATATGAAGTGATATATGATGACTATTTAAAAACCGATTTTGAACTGAATATTTCTCACCTTGAAAAAACTGTTATTTTTGAAATTTCTTCAAAATCTTTTTTACCTCATAAAACAGAAATTAAAGTAAAAAAAGATGATGTAACTTTTTTAAATCACAAACAACTCAGACCAGGTGTTTTTCATACTTCACCATTAAAAATTAATGAATTAAAAAATATGAAAAATATAACTTTTAACATTCTATCAAACCCTAAAAGAGAATTAATTTTTTCATTTGAACCATCAATTTCTACCTTTTCTAAAAGTACATTTTCTAATGACAAAAACTGCAACTTAATTATTCACGAAAATACTTTTTATGATACAACTGCATTTTGGATAAGAAAAGTAATTAATAACAATACTATTAAAGATGGTAGACAAATATCAGATATCTATCAACTTAACCCTTTTAATATTCCTTTAAAAGATTCAGCTGTAGTAAAAATCAAATTAAAAGATTTTGAATCTACTGATAAAAAAGGGGTTTTTTACTACGATAAAAAAGAAGGATGGACATACTTAAAATCTAAATATAATAATAAAAATAAATTTTTTGAAGCATCTCTATTTAGTTTAGAATCAGTTGTTATACTAGAAGATACCATCAAGCCTGTAATTAGAGAAATATTTCCTGGTAATAATGGAATTTATAAAAGTTCTGATGTAAAAGAAATAAAGTTAAAAATAAATGATGAATTATCAGGTATTTACAATAAAAATCAAGTAAATATAACATTAGATTCAAAAAAAATTTTCTTTGACTATCACCCTATTAAAAAAACAATTAAACATAATTTAATAAATCAATTAACTCCTGGAGATCACGAAATTTCTATATCAGCAAAAGATAATGTTGGAAATATTACAATAAAAAAAATTAATTTTAATATAAGAAACTTATAATGTTTTTTCCTTACAAAGACGATAATCCAAGAACTATAACTCCATTGGTAACCTATTTAGTAATTGGATTAAATATTCTTATTTTTACAATTCAAATTTTTGGACAAAATAATTTAATTAGTTATTTTGCAATAATTCCAAATACCGTTTTCACAGATTTCCCTTATTTTTGTTTTACTTTAATATCTTCAACATTTCTTCATGGTAGCTTTATGCATTTATTTGGTAATATGATATATTTATGGATTTTTGGGGATAATGTTGAAGGATATATGGGACATTTAAATTTTCTCATTTTTTATTTTTTTTGTGGAGTTATGGCTGGAGTTTTACAAACATTATTCAATCCAATTTCAATAATTCCTATAATAGGAGCAAGCGGAGCAGTAGCTGGAATTTTAGGATCATATTTAATTCTTTACCCTAAAGCTAAGATTCATTCTATAATATTTATATTTTTTTATTTTACATCAATTAAAATTCCAGCATTTATTGTTTTGTCATTTTGGTTTTTAATTCAATTGAGTAATGGTTTTAACTCTCTTGGAATGAATATTTCAGGAGGAATTGCATGGTTTTCTCATATTGGTGGTTTTTTAACAGGTTTAATATCTATATATTTTTTCAAAAAAATAAGGTTTTTAAATAGATGAATATAATTTTTTTAGGGCCTCCTGGTATCGGAAAAGGAACCCAAGCAAAAATAGTAGCTCAAAAAAAACAAATTTTACATTTATCTACAGGCGACATGTTGAGAATTGCAATTGAAAAAAAGAATGAAGTTGGTTTATTAGCAGAATTATATATGAATAAAGGAAGATTAGTTCCAGATGAAATAGTTCTTGATTTAGTATCTCAAAGATTAAAACAAAAAGATATTCAAAAAGGTTTTATTTTTGATGGTTTTCCAAGAACGTTAAATCAAGCAAATGAGCTAAAGTCTTTATTAAAAAAAATTAATTATAGAATAGACCATGTTATTGCTTTAAATGGTAAAAATGATACATTAGTCAATAGGTTAACTAGTAGAAGAACGTGTTCAAAATGCCATCAAATAATTAATTTAGTTTTTAATCCTCCAAAAAGAAGAGATGTGTGTGATAATTGTGATGGAAAATTAGTCCAAAGAGATGATGACAAATTAGAGATTATAACTAACAGATTAAGAATATATGAGATTCAAACTAAACCACTCATTGATTTTTATTCTAATGAAAATTTATTAAGAAAAATTAATGGAATTGGAAACCTTGAACAAATTACTAAAAGAATAGAAAATATATTATGATTAAATTGGGTATAACTGGTGGAATTGGATCTGGTAAAACTACAGTTAGCAAGGAATTTGCAAAACTCGGTGGGTATCATATTAATGCGGATAATGAAGCAAAGAATTTATTAATTAGAAATAAAATAATAAAAAATAAAATAATCAATGAATTTGGAAATGATATTTTAAATGAAGAAAATAAAATTGACTTATACAAACTATCTAAAAAAGGATTTTTAAATAAAAAAAATCAACTTTTACTTAATTCAATAATTCATCCTAGAGTTACTTTATTTATTGAAAATCTTTTTAATATAATGAAATATCGATATAAAAAAAGATTATTTATTATTGATGCTGCTCTAATTTTTGAATCAAAATTAAATGAAAAGCTTGATTTTATTATATTTGTAAAATCTGATATCAATACAAGAATGAATAGAGCTTTACTAAGAGGAAAACATTCAAAAGAAGAAATTATTAGAAGAGAAAATCTTCAAATGGATCAGGTTTTAAAAGAAAAAAAATGCGATTTTATTATAGAAAATAATCAAAACTTTATCAGCTTAAAAAAACAAATTTATCAGATTTATAATCAAATTATTTCTTAATCTTGTATTTGTTAATTGCCCTTGGTTTTGACAATATTTCATTTAATAAAATTGCTTTTCTTAAATCATTCTTGTTATGAATAAAATTATAAATATTAAAAGATTTACTTTTTAACTGATTAGATTTTTTCTGATATATATTTTGAATAACTGGTTCAACACTTTTTATTTGACTAAAATTTACTTCTGTTTCTTTGATATCCTCATCAACAACATCAACCGGTTTTTCTATTTGATTAATATCCTCATCAACAACATCAACCGGTTTTTCTATTTGATTAATAT
>sequence21
AAACAATAATTCTGATATGGTATCTTTATTTTCTTTAGTTTCAAAAATATCAATTAATTTTGAAGATTTCTTTATTTGTTCATTTTCGTATAAATACAACCCAATTTTTTTTAATAGAATATTTTTAAAGGAATTAGTTGAAAAATTTTTTTTTATTAACATAAATACTTTTTTATTACCACTGACTAAAAGTCTAATTAATTCTCTTTCTTTTAAATTAAAATTAGATTTTTCTTTGATTTTAATAGTTTGAATTTCGCTATTATTAATTAATACTTGGTTAAATCTTTTTAAAAGAAATTGTTCGTCAATTTTAATTAGTTCAGCCATTTTTTTAATCATATCCGTTTGAATGATTTCATCATCTATTTTAATTAGTTCATTTATTATTTCTTTAGTTAAATTTGATTTTTCAGAACTATTATTTAGATCATAATCTGAATATTTAAATTGAAACGTTAGTATGTCTAGTGGTTTTTTTATTAATTCATGTAGATTATTAATCCCATTGTTTTTAACAAAACTATCAGGATCTAGTTGGTTTGGAATTTCAATAATTTTTGGATTTATTCCACCTCTTAATAAATTATAACTAGCTGCAATTGAAGCTTTTCTTCCTGCATTATCTCCATCATAAACAACAAATACATTATCGACAAACTTTTTCAATTGAGATACTTGCTCTATAGTTAAAGAGGTTCCTGATGATGCTACAATATTTTTAATTCCATTTTGATGTAATTGTATTAAATCCATATATCCTTCAACTAAAAATGCAGTCTTTTCTTTTCTAATTAGATCTTTTGATTCTGGTAAACCATATAAAATTTCACTTTTATTATAAATTTGAGTTTCAGGAGAATTAAGATACTTTGCTGGTTCATTACCACTTATATCTCTTCCACCAAAACCAACTATTTTATTTGATTTATTTCGAATTGGAAAAATTATTCTGTTTCTAAATCGATCAAAAGTACCTTTTTTTGAATTAATGAATAATCCAGATTTATTTATTAAGTCAGATGAAAACTTAGTTTTTAAATGATTAAATAAATCATTCCAACTATCATTGGCAAAACCTATTTTAAAATCAGTTATTGTTTTTTCTTGAATTCCTCTATTATAAAAATATTCTTTTATGTTTTTATTCCTCGAATGATTGATATTATTTATGAAAAGCTTTTCAGCTGAGATGTGTATTTCATAAAGTTTTGTAAAAAAATCTAAGGAGGTTTTATTTTTTTCATAATTTAAACTAATTCCATATTTATCAGCTATTTTTTCAAGTGCTTCAATGAATGAAATTTTTTCATAATCCATTAAAAAAGTAATTGAATTGCCTCCAGCACCACATCCAAAACAGTGAAAAATTTCTTTTTCTGGAGATATACTAAATGAGGGGGTTTTTTCATTATGAAATGGACATAGACCAAAAAAATTATTTCCTCTTTGTTTTAGATCAACATATTCAGATACAATATCATAAATTTCTGCAGTATCTCTGACTTGATCAATTATATGTTGAGGTATTTTTTTCATTTTATTTTTATATTGAATCTTTAAACCAAATTTTAATTTCAATAATATTTTCTTCTAAATTTAGATATTGGATTATTTTTGAAGAAAATACTCTTGAACTTTTATAAAAAAAAGATTCTTCTTTGGTTTCATTCATAATAGCAGAAGTTGTAAAAATATCTAAACATAAAAATAAAAAAATTCCCAATAAATATGATTTTATTAGTCCAATTATAACTCCTAAAATTTTATTTGAAAAATTTATACCTTTATTTATAAAGAAAAATTGAATAATCCTCATCAAAATTCTTACTATTAAAATAATTAAAATAAATATTGCTATAAATGAAGATAACAAAATTAAATAGTAATCAAAGGGAAGAAATGAAATTAAAAAATCACATAAATTAATATGAAACTTTATACCGAGAGTAAATCCTAGGACTAAGCCTAATAGTCTTCCAATTTCATCAATAAAACCCCTCATAAATCCTATGACCCCAAAAACAACGAGTAAAATTGAAAAAATTAAATCAAAGGGATTAATCAATTTCCAAGTTTTTCTCTAACTAATTCTTGAACTAATTTACCATCAGCGGTTCCTGATAATTTTTTCATTAATTCAGCCATTACTTTGCCGATATCTTTATTGGAATTAGCATTCAATTCATTAATAACTTTATCTATTTCAATGTATAATTGTTTTTTTGATAATTGTTTAGGTAAATAATTTTGAATTATTTCTAATTCTTCTAATTCAATTTTTTCTAAATCTATTCTATTTCCTTTTTTAAACTGTTCCGCAGAATCTAGTCTTTGTTTTTCTGCAGTTTTAATAATTTTTATTATTTCTTTATCATCTAAGGTTGAATTTTTCTCAATTGATTTTTCTTTAATTTTAGATTTTAAACTTCTTAAGGTACTTACTTTTATTTTATTTTTTTCTTTCATGCCATTAATCATGTCTAAAGTTATTTTTTCTTCAATTTTCATAATGCTCCCTTTAATTTTATGAATAAATCACTTTAAAATTTTGATTTTTTTTTTCACTAATGCCCAATTCAAGTTTATCAAAATTTTTTAGAATACCTACACCAGAAGGTGTTCCTGTAAATAATAAATCACCTTTATTTAAAATTATTTTTTTTGATAATTCAGATACTAACTTAGGTATTTTGAAAATCATATTCGCTATATTACCTCTTTGAACTTCAATATCATTAATTTTTAACCAAAAATCATTATTTATTTCATCATAATTAAATTTTTTTGATTTTGTTAATACTGCTGAGTTTGGAAAACATTTAGATTCAAACCAAGGCAATCCAGATTCTCTATTTTTAATTTGTAATTTTCTATTTGTTAAATCTAGACCAAGAGAATACTCGGAAATGAAATCATAAACCTCTTCTTCATTACAAAAATGCAGTTTTTTTTTAAAAGTTAAAACTAATTCTAACTCATAATGAATTTCGTCGTTTTTATTAAGTAATATATTTTTCTTTTTTGAAATACATGTTGAGTTTTTTTGAAAAAAAATTGGTTTTTTAGGAATTTCATTTTTTAATTCCTTTATATGGTCAATATAATTATGTCCTACACAATATATGTTCATTTATTTTTTTTAATAATTTTTAAAAAACTCAATCATCAATGTATTTGAAACATTTATTTAAATGATATTTAAATTTGTTCAAACTATATCATAATTTAGTTCTAAAAACATATGAGTCACATTATGTTTTTCTTGGTTTTTTCTTTGCTGCAGGGAAAAGGATATTATTTAATATTAGTCTATAACCTGGTGAATTTCGATGTAAAGCTAAGTCAGTAGGTGGGTCTCCAACATAGTGTTGATAATCTTCAGGGTCATGTCCACCTAAAAATGTAAATGTACCTTTTCCAAAATTTCCATGAATATATTTTATTTGATTTTGATTTTCTACCTCACCAAGAATAGTTACGTGTTTTTTAATTGTTGATCTTTCAAAACCAGTTGTTTGACCCATAAATCCTTTAATTACATCTACATGATTTTGTGTTAACATTGTTGGTACTGGGTCAAATTTTGCAGAAAATTCAAAAAGGGTGAAATAATCTTTTTCTGCTGAACTCGAATGTGGATTGTCACTTGGTGGGTAATCAATATTAGAAAATTCATAAATTAAAGGGTTTGTAATTATTTCAAAGTTCTCAAAAGCTAAAGTTTGGTTAAAATCTATCAAATTATTAATATTATTATCGGTTGGAGTGTTATCAATGAGTTGATCCACAATATCTAAATTTCCTGAAGCCAAAGCAATATCATACGAATCTGTAGCTGAACACATTGCAAAAAGAAAACCTCCATTACCAATGTAATTTTTAATATTTACAGCAACATTTTTCTTTTGCTCTGATACTGATTTAAAGCCTAAGTCTCTTGCCAAAACCTCATACTTATTTTTTTGTTCTATGTACCAGGGTGCATTGCGAAAATTCCGATAAAATTTTCCAAATTGACCAGTAAAATCTTCATGATGTAAGTGGAGCCAATCAAATTTATTCAATTCTCCATTAAAAACTTCTTCATCCCATAAGGTTTGATAGTTTATCTCTGCATATGAAAGAGCTAATGTTACTGCATCATCCCATGGTTGTTTATTAGGTGGTGTATATACAGCTATTTTTGGTGCTTTCTCAAGTAACACTATTTCCATATTTTGAGATTCAACAACATTGTATATTTCATTTAATTCATTTCGTTTAATAGTTTGTATAGAAACACCTCTTATTTTTGTTTCTTCTATAATTGATGGTATGTAATCGATTAGAAAAGAACCTCCCTTATAATTTAAAATCCAATCAACATTAATATTATTTTCCAAACACCAAAAAATAATACCATATGCTTTAAGATGATCTTTTTGAGAAATATCCATTGGAACTAAAATTTTTTCAGATTTAATAATAGTTAAAAATAGAAAAAGTAAAATAAATTTTTTCATTATTGAAATTATTCCCCTTTAATTTCTCTTAATCTATATCTAACAGGTTCAGAGTAAATACTTTTAGGAAAATCTTGTAAAAACTGAAAATACAATTTTTCCGCTTCAATTTTTCTGTTAAGGTTTCTATCAGTTATTTCTGAACTAAAAACCATAGCTTCAGATTTTAAAATAGAATTTTCTAATGTTTTGAGAAGAGACAAACTTTTTTCATAATTTTCAAGTTGTTGATTAATTTGTGCAAGTCGAAATGTGGTTTCTGGAATTATAGATGTTTTACCATAGTTTTTTAGGACATCATTAAAATAAGACATAGCTTCAATAATTTTGTTTTGTGCCAAAAGTTTTTCACCAATTAAATAATTTAAAAAAGCGTCTTTATTTTGGAAATCATTTTCAATGTAATGCTTTTCTATATATTTTTTCAATTCAATTAAATCATTGAAAAAAATATTTTCATATTTAATTAATAATAATATTTCGGATATAAGGTTGTTTGAAGTTTCTAATTTTCCATTTAAAAAATATTTTTTTATTAAATTAATTTTAATTAATTCTTTTTCTTGATTGTTGAAATATGAATTTTCAAGCATATTCTCTAATTGAAATATTGATTCGTCGATTTTACCAGCACTAAAGTTTACATCTGATATTCTTAGGTTTGATTTTAGATAAATATCTCTAATATTTTTATTTGAAGCAGACTTATAAGATTGAATAGCTCCTTCAAAATCATGTGTAATTAAATATTTTAGTTCAGCAATTCTGAAATGTGCTTGGGAAGAAAAATCATTTTCATTCATTCTAGTTAAAATAGAATCATACATATTAAATGTTTCATTAATTAATTCTGTAGAAAATTTTTGATTCATTAAAATTGATAATTGAAAAAAAAAATTATTTGCAAAAAATCCGCTTATTGATTTCATTTCATTATTAGGTTGCATTTTTTCTTCATATGATAAAGCAATACCATATAGTGTCTTGGCAGTTAACTTTGATAAAGATTTTTCATTTAGTTCATTTTTATTTTTCAATGATTCTAATATTTTCGAATAAACCATCATGGATGTCTCAATTTCTTTTTCATTTCTCAAATTATCTGCAAAATTGATTTGAAATTGATAATCATTTTCATTTTTTAGTGGCAAAAGATTTAACTGATTAAGAGCCTCAGTATAGTTTTTCGTTTTCAAAAGAAAGTCAATAAAAACATGAATGATAACTTTATTTTCTGCTGAAGTATTATTTTGAAAATAATCATTAAATGATTTTTTAATTATGTTAAAATTTGTCGTATCATCTGAAATGATTAAAATTTTTGAGGAAATTATATTTAATTGTTTAGGTTTTTTTTTTAAAAATTTTAAATATTCATGAATAGAGGTATAAAAATCTAATTTTTCAGATTTGTAATTTCCTAACTCATAACTTAAAAAACTTGAATCATTAAATTTTAACCTTCCTTTTTCAACTAGAGAAATCAATTTTTTATCAAGTTTATTAGTGGAAAAAATTTGAAATAATAAGTAATAAATTGTTTTATTTGATTCAAATTCCATTAATAAATCATTCCAATATTTAATTGCTTTGTCTTTTTTATTGTTTTTTAAATATATTTCACCAATTTCAATTTTAGTTTGAAGATCATTGGGGAATATTTTAATTCTATTTCCAAGCAATTTTTCTAATTCTAAATAATTTTTATTTCTTTTATAAAGTGATTTTAATTGAAAATAAATTCTGGAGTTTTTTGGATCACTATTTAATAATTCTAAATATATTTCTTCAGCTAATTGAAATTTTCCCATTCTTTCATAAGTTATAGCTTGTTTAAACAGTTGTTCGTTAGTGTTTAATTGTTTCCCAATTAAAAATGAGAAAAATAAAATTAAAAATATAAAATTAATGTGAAGAATTTTATGCATTTAAAGAGAGTCAATTAAAGTGTTGAAATAAATCTTAATCATATTTTGGTAATCAAGGGAATAGTCATTTTCCAAAGCTTTTTGAAGAGAACTCATTATAATACTTCTTCTTTGAACTAAATCTTCTGGTAAACCACTAGGGGCGTTATATTCAATATTATTAGCCATATTTGAAATTCTTTTTTCATTATAATCCTGTTTATTTAATGCTTTTTGAGAATTGAGCATTCTTGATAGAATTTTATTTTGTTTATCAAGTATAGTTGATGTTATCCTATTATTTGATAAATCATTTAAAATATCTTCAATATCATCATTAATTTTTTTTATTTGATTTTCAGTTGATTGTGAAAGAGAAAGTTCATCCATCATTTGTTGTATTGATTTTTTAATTTCAGATTGATTATTTATTAATCTTTTAATGAAATTTTCTTTATCATTTTCATTTGTTTGTCCCAGCATAAATGATAATGTTTCAGAATTAATTCCGTCTTGTGAATTAGATAAATTCTTCATTTGTTTTAAAAATTCTTCATATCCCGATGCTGAACCTGATGTTTTCATATTCTCCATTGATTTTAAAAGTTCAAAAGCAGTTTCATTAAGTGATTTAACTATTTGTTTTTGGTGATTAGATGATTCAAGATTTTGTCTCTCTTCTAATTTTTTTATTGATTCATTCATATTATAACTAGCTTTACCAATTAATCTTCCTATTTTAGGAGTAATAGCAAATGTTTCAGAAGATAACTCAATAAAAGTATTAATTAATTGATTTAATTGATCTTTTAAAAGTTGTTGATTTCTTGCAATTATTCTTAATCTTGAGCTGAAGCTTGGGATATTAATTGTTGATGAATTTAGTAATTCTTGTTTTTTTGAAAGATAAATTGTTTCTAATAATATTTTTTCAAAATTTACAATCATTTGATTTGTTGTAAAGTCAGAGAATTTTTTAGAAATATTTTTAAATTTTAAATTAATTGATTTCATCTTATTTGAAATTTCTTTAGATGATTTTACTGATTCATTTATATCATTTTTAGACAAATTATTTTGATTTTGTTTCATCTGATTTTTACTCGAATTGATTTCATTTGAATTATTTAAATCATTTAATTCATCAGAAATTTCTTGAGAAAAAGGTTGTATTAATTTAGATGTTGAATTCATTATTTTTAATGTTCTATCAAATTCATTTTCAATTTCATTTTGTTTATTTTTTAAAATTTTACTATTAAAATTATTTGTGATATTGTTTGAAAGATTTTGCTGACTTTTTATAATATTTTTCATCCTTTTTTCAATTTCTTCTAATTTTCTTTCAACATTAATTCTGTTAAAAATTTTAATAAATCTATCTAAGTCTCTTTCAATTTGATGTGAATTTGATTGAATTTTTTTTAAAGAACTTAATAATTCATCAGGAGTTACTTTTTCAAGATTGTTTAAAAGTCCATTTAAATCATCTGTTATTTCTTTATTCATAATTTCTTTGATTATATTTTGTAATTTTGAAAATTTATTAATCATTTCTTTTGAAAATAAATTATTATTATCACTTTGATTAATAATTTTGTCAATTGTTTGACTTATGTTTTTTAAATCATCAATATTTTTATTTAAAGTTGATAATGATTGTTTAATTTTTTGTTTTTCATTCCAATCAATTTTTTTTGATTTAATTAATTTTAGTTCTGATTGTCTAATTGCTTTTGTTGATTCGTAAATATTATTAACAATTTTAGAAATTTCTTTTTCTATTTCATTTTGATTATCATCATTTCTTTCGAAAAGTTCTGCTAATGATGGGAATTTAGATATAAATAAATTTGATTTTGTTTTTTTGGGACCAGAAACCAAATCATTATCATATAACTCAAAATGATAGTTTATCTCATCTCCAGGTACTAATTCATATTCACTAATATTCCAATCAAAATAAATGTCTTGAGATTTCATTTCATTTTTTCCATTTATTGGAATTTTTTTAACGCTTACTATGTTTTTTGAAAATGGATTATTTGAATTTATAATTTCAAATACTACTTGAAGGTTTGAAAATCCAAAATCATCAATAATCTGTAGATGTATTGGAATTTTAAAACTTTCATCAATCTCATTGTTTAATTCTGGATAAAATATTTTTAATTCTGGGAATTTATCTATGATTGGAATAATTTTATATTTAATTGAATTTAAGTTTCTAATTTTTCTAAAATCTGAAATATTTATATCAAAGAAACCTTCATTTTCAACTAAAATTTCTCCAAAAGCTTTTTTTTTATCGATATTAAGTTTTATCATATCTTTTTTATCTTCAAATGATAAATGACTTTCTCCTAAGTTTTTGTTTGATTCAATATTAATTTTAATAATTGAACCTTTAAGAGATTTTATTTCAGCGATATTTCCTTGCTGTTTAAATTGATTTAATTTTGAATATTTAGGAGGTAAAATATTAAAATTAATTTTTTGAATTTTGGGTCTATCAATTACTTCAATAGAGTTTATATCTGAAGAAATTTCATCCCATTTTTCCCATGATTTATTAGAATTAACATATCCTCTATAACTTAAGTTTTGATTTATATTTTTTAACGTGTAATTATAAGTATTTTTTTGATCAGCTTTTATCCATTTTTTTTCATTAAAATTTTCACCTACAAATTCAACTTGTATTGAATCGGGAGAATTTCCTTTTGTTAAAAAAACTACATTTGCAGAGTCTCCACCCATAATATAAATATTTTTTTTCATGCTGTTTATTATAAAAGGAGTTGGGGGTTTAAATTCTTTAGAAAAATTAATTAATCTATAGCTTGAAAAAATAAACTCAGGCAAATAAACAAAACAAATAATTAAAAATATAAATGAGATAAAAATTGTTTGATTTCTACGTTTTAAAATCTTTTTTGGAAGTTTTTTGAAATTGATGTTTATTTTTGAAATTTGGAGATTAACATTTTCAATTAGCTTATTAATTAATGAAGTAGATATAGACTGTGAATTAAATTCTTTCTCAAGCTGAATAGCATTTAATAATTCATCTTTTGAATCAAAATGATCTATGCCTATTTCAATTGCAATTTTTTCGTAGGAGTATCTTTTTAGCTTATTATTTTTAAACAAATAAAAGATAATTAAAGAAAAAATTAAAAATATAAAAAAAATTATTATTATTAATGATTTTAAAAGAATCTTTAAACTACTTGGAAACCAAAATATAGATTCTAAGAATATTATTAAGAAAAGAAAGCCAATTGAGATTAACAGGGTTGTCCAAAAAAGAAATAAAAAATCGTCTTTTAATTTTTTAAATTGAAAAAATTTCAGATTTTTTTTTATGCTCATATTATTATTGAATTAAAGAGTAAGTAAAAATATTTACTCCCATTTTGAGTGCTTCATTTCTTTTAAATTCACTATTATTGTGAACTGATGCGTCTTCCCATCCATCTCCTAAATCTGTTTCATAAGTATAAAAGAGAATCAATCTTTTATTATCAAACAAACCAAAACCTTTTGGGGGTTTATTATCATGTTCATGTATTTTGGGTAATCCATTTTTAAAAACAAAATAAGATTTAAATATTGGGTGATCAAAAGGTAGCTCAATAAGATCTTTGTTTGGAAAAACTTTTTTTATTTCTCTTCTAAATGATTTATCTAATCCATAATTATCATCTACATGTAAAAATCCACCATCAAGTAAATGTATTCTTAAATTTATAATCTCTGTATCAGTAAGTTTAACGTTACCATGTCCAGTCATGTACAAATATGGATAATTAAATATGTTATTGTCTTTCAAAGAGATCTTCACTTCTTCGTTATGAACTTTGATATTTGTATTAAAATTAATGTAATTTAACAAATTAGGAATAGAGCTCGGGTCACTATACCAATCTCCACCTCCAGAATATTGTATTCTACAAATTGTATGATTTTTATCATCTGAATAAAGAAAGTTAATACCCATAAATAAAATAAGAGTTTGAAAAATTAAAAGTTTTGAAAATATTTTATATGAAGTCATTTTTTTATATAATTTAAGTAAATTAAAATTATTAAAACAAAAGTCAATCCTAAATATTAGATAGAATTTATTTAAGAAAAAAAATGTATAAAACAATTAAACAGAAAACAATTTTTTATATTTTTATTATTTTGTTTATTCAAAGCCATTTATCTGGTCAAGAAATTCAAGAAGAAGATTCATTGAATGTAATATCAAAAACAAAAATTAATAATAAGAGATTTAAAATTAAACTTCCCAAAGGCTTAAAAAAAATGACTCAATCACTAATTAATGGAGAACAAAGAGTTGTGGAGTTAATTTTTAGACCGTTAGAATTTAGAGAACCTATTATAAGTATACCTGCTGAGGGTAAATTTGGTCTTGGTTATTATGGTTTTGGAGGAATTGATAAAAAAATAAACTTGAATGATGGTTTTGAATCTATTCAAGCAAATAATATTTTATCATCTTTTTATGATTTTGAATTTGCCCAAACAAATTTATCATATTTATTTTTTAAAAAAAGTTATACAGATATTTTAACTGGAATTGGATTTAGAAGATTTTCACCAATCTTTACTAAACCTAAATTACCAGAATCATGGGGAGTTGACCGAAAGTTCTCACCAAATATTTTAGAAATGAATATTGTTACATCATATATTGTTATGTGGCAAGCTTCTTGGTTTTTTCAATTTAAATATTCATATGGAACAAACTTTACTAGATTTTATCAAAATAAGTCTATGGATTTAAATCCATATAGTATTGGATTGACTTCATCATATTCCTTAGGAATTAAAAGAGTATCTGAAACAATGTCTAATGCAAGATATGCTTGGGGAATTGAGTTAAGACATAGTTATAATAAATTAAAAACAATTAAATATAATTCTGATTTTTCTCCTATAAAATCAATGACAATTCCAAATTATGGACTTTTTTTTACTCTTAGTGCTTTTTACGGAGGAAATAAAACTGCTGGAGACGAAGCTAAAAAATTATTTTTAAACAAAGATTATGTTGAAGCTAAAAATAAAATGAATCAATTTTTAAATCAATACCCAAATCATGCAAAATCATTAAGAGCTAAAAAATTATTAAAAAAAATTAACGAAAAAATTCCTGGACAATTATTTATTCAAGGAAATCAATTAAAAATAAATATGAAAATTGATAGAGCTTCAGATAAATATTTAGAGGCTATGGTTAATGCAAATGATATTTTGAAACCTAAAATTGCAAATGAATTAGAAAAAATATCAGATATATATATATTAAATGCAAAAAAATTATTTAACCAAAGATTGTATGATAAAGCATTAGAAGAAATTAAAAAGTCAGCAGCAATTTCAGAAAATGGAGTTTTAGAAAAAAATAAACTTGAAGCGAAAATAATTATGAAGCAGGGAGATGAGTTAGAATTAGTTGGTTTGCATCTTCAAGCAATAAAAAAATATAATAAGGTTCCCGAACTTGATAGAAGTTTAACAAATAAAGCTTATGAAGCTACAGTCAATAGTACAGTTAATATGTTAAATGATGTAAATCAGGCCAAAGATATTCCAACATTGAGATTAGCACTTCAATCTTTAAAGAATGCTGAACTTTTCTTTAAACCTGCAGATTTTAAATATAAAGATTATATAAAAATAATTGAAAATCAGCTTTCATATCAAGATTCTATTGAAGTTAATCAAGAAATAAAATATTCAACAATGCAATCAAGAAAAATAATTGATGAAAGAAATAGAAAAAAAATATCTATTGGTATGATTCTTCCAGAGGTAGAGGCAATAATGGGAAAACCTACTAAAATTATCAATAGCACAAAGAAAAATAAAAATTATCAAATGTGGATTTATGAAACAAAAAAATTAAAAAAAACATTTTATTTTGAGGAATATATATTATTTAAAATTGCAAATTAAATTTATAGTAAATGCGAATTTTTTCTCACAAACATAATTTCTTGAAAAATTATTTTTAAAATTGCAGTTGCAGGAACTGCAAATAACATTCCGAGAGGACCTAATATTGTTCCTCCAATTAATAAAGAAATCATAATCATTAATGGATGTAATCCAACACTTTTTCCCATAATTGCTGGAGTAATTAATGTACCTTCTATTTGTTGAACAATCATAAACATTAAAACTATATCAAAAATAAAAAAAGGAGAAGGAATTACGCCAAATAGAACATGAGATGTTGCAATATCATTTCCAATATTATTCATAAACGCAATTAATATTGCTGGAATCATTCCAACAAAGGGGCCTACTAAAGGAATTAAATTTGCAACTCCTGCAATAATTCCTATGAAAATTATTAATGATATATTTGCTCCTGAAAAATTTAAAATTATTAATCCTAAAATTGACATCCCCCCAACGCTTAACGCAGCAATAAATTGACCTCTTAAATAACTTGAAACTGATTGTTCAATATTAAAAATTAATTTTAACCCGCTTTCAAAAAATTTATTTGAAATTCCAGCTACAAGAGTTTTCCTGAATGAATGATATTCTGATAATAATATTATTGTAAATATTAATATCATTATTGCATTTATTAAAAAACCTCCTACAGCTCCTGCTAATGATGCTAAGCTATTCAGTGCTGAATCAATAAACTTACTTAAAGTAATAGCAAAATCGTTATTTGATGGAATAAAATTTGAAGCAAATTCAGGCAATGATTCAGATATTCTATTTCCTAAATTATTGAACTCTTCTGTAAGAGTTTGTGGATTTACTCTTTGAGAAAATTCTTTTGCTTGATTAGATAATTGTGTTATGAAACTTGTAAGAAAAACTCCAATTATAAAAATAACAAAAAAGGTAACAATAAGAACGCTCATTCCTCTATTTTTTATTTTTCTCTCTAAACTATCAACAGATGATAATAATAAGGAAGTAAATAAAAATGCAAAAACAAGTTTTAAAATAACATCTGATATAAAAGGCCAAATTAACCATATAAAAAAACTTGAAATTATTATTATAAAAAGAGAATATATTAATTTAATATAATTTTGATTTTCAGTGTTATTTATCATTTTTTTGTTTATTGAGTAATAGTGAGTTGGTTTGTCTTAATCTTTCACCTAGAATTTGTCCAAGATTAAAGAGTATTTTATTTGTAATTACAGGGTTTCTATCTTTTAATGCTAGAAGGTCTGGTGTAAAAAAACCTATTAGTTTAGATTCTGACAAACTAATTGCATTAGCAGATCTTGGTTCATCATCAAATAATGCTAATTCCCCAAAGAAATCTCCTTCTTGAAGATTAGCTAAAACTTTTTCATTTTTATTTTCACCAATTGAGATTTTAATTGATCCTTTCATGATAATATACATTCCTTCTCCAGGAGCATTATTTTTGAAGACAAATTCATTTTGACTAAAATTTCTATGATGAACTAATTTTTCAAGTTCAAGAAATTCTTTTTTAGTAAAGTTTTTAAAAACAGGAATTAATTTTAATGTATTGATTGTCTCACTTTCTTTATTGTCCCATCCTTTAAATAAATTAGGCCAAAGTCCATTTTTCATGATTTAAGCTCCTCAAAACTTCTAAAGATTATGCTTCAAAATAACTAAGTGTTTTTTGTTTGGCAAGAAGAATTCATTTTTAATAATTTAATAATAATGAATATTAGCAGTAATTTTAAAGATGAATAAATTAATTCAAATATCAATTTTTTTAATTTTTTGTTTAAAAACCTCTTTATTATCTCAAGTAGAAAATATTGAGAAAGATATACAATTTAATAGTAATGAATTAAATAAAATAAGAGGAGAGATATCTGAATTTGAGAATAAGATAAAAACAACTTCAAGTTTAGAAAAAAATGAAATTCAGAAATTAAATGATATCGATGAAGAAATTTCTTTAGTTAGAAATTTAATTTTTAGATTAAGGAAAGAGGAAAAATCGCATATAAATAGTATTGATAATGCTAATAGGGAAATCAAACTTCTTGAAAGAAATCAAACAATACTATTAGATAGGTATTCTAATAGGTTAGTAAAAACATATAAAAAAGGTGCTCTTACTAATATAGAAAAGATTATAGACTCAAATTCATGGAGACAGGCAGTTTATAGAACTAAGTATATTAAAATAATCTCTGACTATGATAGAAATTTGCAAAAAACAATAAAAAATAATATGAATGAGATTCTAAAAGAACGTAAATCTATTAATAATAAACTAGAAAATTTAAATCTTATAGATAAAGAAAAATCGTCCAGAAAAAAATGGCTTGAGCAAAGAAGAAAAACAAGAAATTCAAAATTGGAAAATTTAAAAAGAGACAGACAACAAATGTCTATGGCGCTATTAGAAAAAAAGAAAGCAGCTGATGAAATGAGAGAATTAATAGAAACTTTGGAAAAAGAAAAAGCATTGAGATTAGCTGAGTTAGAAAAATTGAGGAACGAGAAAAAATTAATTTCAGAAACTGAAATAACAAATATGAAGGGTAAATTACCTTGGCCAATTGATGGTATAATAATTTCAAAATTTGGTACTTTTCAAAATCCAAATCTTAAAACTTTAACTGAAAATACTGGTATAGATATAAAAGCAAAAGATGGAACGGAAGTAAAGTCTGTTTTTGATGGAATTGTTACTACAATTACATATATAAGAGGGTATGGAAATACGATCATCTTAGATCATGGAAGTAATTTTTATACTGTTTATACTCATGTTTCTGATGTAGAAGTTGAAGAGAATAATTATGTTGAAGCAAGACAAGTGATTGCATATGTTAGTGATTCAGGTTCATTAGATGGATCTAAACTTCATTTTGAAATTTGGGGAAATAGAGAAAAAATTAACCCTGAATTATGGTTAATAAAAAAATGATTAAAATTATTGGTCAAGATTATATTTGGAATAAATTAAAATTAGTACATTCAAAAAATAAAGTTGCTAATGCATATTTGTTTTATGGATCTGATGGAACAGGTAAAGAGGGCATGGCAATCAAGTTTTCAGCCTTATTAAACTGTCAAAATAAAAATATTGCTCCATGTGGAAAATGTAATTCTTGCTTAAAAATAAAAACTTTTCAGCATCCAAATATTTCTTTGATTATTCCACTTCCAAAAGAAAAAACAATTAATAAAAATGATAATCCTAATAAAGCACTCACTAATAAAACTTTAGAATTAATAATTCATTTGTATAAAGAAAAAATTAAAAACCCCTATTTAGAATTCAATATTCCCAAGGCAAACACGATTTTAATAAATTCAATCAGAGATATTAGAAAAAAAATTTATATGAAGTCATTTGAAGAAGGTTTTAAATGTATATTAATTTTTGAAGCTGAGAAATTAATGGGTAATCAACAAGAGTCAGCTAATGCATTATTAAAAATTCTCGAGGAGACCCCTTCTAATTCAACATTTATATTATGTACTAAATTCCCAAATAAATTATCAAATACAATTAAATCGAGATGTCAATCAATTTATTTTGCACCATTGAATGAAAATGAAATTCTAGATTATGTTTCAGAAAACAATAATATCTCAAATGAAAATTCAAAAATAATATCCAACCTTTCAAATGGAAGTTTAAAATTAGCAAATAAAATTATTTCCAATGATTTATTAAAAATTCATGGAACAATTTTGAATTTAATAAAAGATATAACAACA
>sequence22
TCACAGTCAACTGGGTATAATTTATCAACTCCTTCAATAGTTAATTCATTAGTACCTATCCCAGCTATATTTGCTCCCATATTATTTAAAAATTCACATAAACATGTTATCTCAGGTTCAATAGCAGCATTAATTATTTTAGTTACACCGTTTACCTTAACAGATGCCATTACAGCATTACCAGTTGCACCAACTGACGAAACAGGGAAAACAATTTCCCCTCCTTTTAAATGATCACCATTTGCAATAATATAACCATCAGAAAGATCTACCTTAGCGCCAATTTGTTTAATTGCATCAATATGAAAATCAATCGGTCTTGGACCCCAAGCGCACCCTCCTGGCATAGATACTTTTGCATAACCAAACCTAGATAAAAATGGACCAAGAACATAAAAAGAAGCTCTCATAGTTTTCACTAAATCATAAGGAGCCTCGGGATTATTACAATGATTAGTGTCAATTTTTAAGATATCACCATTTAACTCAACCTTTGCACCAATAATCTCTAAAAGCTTAATCATTGTAAGAGTATCTCTAAGCTTAGGAACTCTTTTAATTGTGTATTTACCAGGTTCAATTATCGTAGCCACCATGATAGGTAAAACCGCATTTTTAGAACCACTAATAGAAACATTACCAGATAATGTTCTACCACCTTCAATCAATAGTTTATCCATATTTATATCCTATAAAATTTCATATTTTTTTAAAACAGTTGGTAGCATGTCAATTAAATCAGATGGAATTAATCCTCTAACTCCTTTAATTTTTAATAATTCATCAGCAGTTTTACCATGCAAAAAAACACCTATAGCAGAAGCTATAATAGGAGAAAAACCTTGACATACAAATGAGGAAATCATTCCAGATAAAATATCACCACTTCCTCCTACTGCCAAACCCTGATTACCAGTAGTATTTTGCATTAACTTATCACCATAACTTATAAAAGTGGTTGGACCTTTTAAAACAACTATCTTATTAATTTCATTTTGAATTTTTAATAAAGATCTAAGTTGGTCTTCATTAACCTGTTCGTATGAAATATTAAATAATCTTGAAAATTCATAAAAATGAGGAGTAAGAATTATTTCTGATTTTAAATTATTTAAAAAGTTCAATTTTTCAGAAAAATAAAATAAACCATCTGCATCCAAGATTATTGTTTTATTTGAGAATTCAAGAATTGATTTTACTAATTCTCCAGTAGTTTTTTCTCTTCCTAAACCAGGTCCAATTAATATTGCGTCAGCCCATTCCAAATGTTTAATAATATTGGACTTATTTTCAATTCTAAGAAAACCACACCCTTGATCTTCTACAGGAATTGTCATTGACTCAGTCAATTTAATTTCAAATATTGAATTTAATGATTTGGGAACTACAACTTTAACTAAACCTGTACCTGAACGATATGCGGACATTGCTGATAAACATGCTGCTCCAGTCATACCTTGGGATCCTGCCAAAACAAGTAATTTCCCTTGATCATATTTGTTAGAAAATTTATCTGGAGTAAAAAAATTATTTTTTATAAATGATTCATTTATTTTAGAAATATTCATTTTATAAATATTAAAGCGACTGCAGTTGCATATTCATTAGTATGTGAAATTGTAATTTCACAAGTATACTTCTTTGAATTTGAAAAACTCAAATTAACATAAGGTGGTTTATTTATTTCTCTTAATATTTCTATTGATTTAAATGGAACTAAATCTTCACCATAAGAAAATAAGGCTTTTTTAACTGCTTCTTTAGCTGCAAATCTTCCAGAAAAGTGTATTTCTGGAATGTTTTTAGATAAACACCATTTAACTTCACTATCAGTAAAAATTCGATTAAAAAATCTATAATTATAATTTTTAACCAATTCACTAATTCTATGAACTTCTACAATGTCGGTTCCAATTTTAAAATTATTTCTCATTTATTTTTTTAATAATATCAACAATTTCAAAAATATTCTTTATATCCCAATCTGCTCCAGAATAGTTTCTATTAAAAGTATCTCCATATTTTGCAAAAATTGTTTTAATACCTAGATTTTTTGCCCCAACCATATCTCTTTCTGGCCAGTCACCAACCATGATAACGTTATCAACATTTATTTTTAATTTTGATAATGTTAATTCAAAACCTTTTGAAGAAGGTTTTCTTTCTCCAATATCATCAAAAGTTAATACTAGATCAAAATAATGGTGTAAATTTAAATAGCATATTCTCAACCAAGCTTCTCTTCTAGGAGCATCAGATATTATAGTTAATTTTATTCCCATTTTTGATAATGCCATTAAAGTTCTTTTTACTCCAGGATAAAGTGATAATGCACCATCTCTTGCTCTTCTATAAGAAACAATGGCTGAAGCTAAAAACTTATAATTAACCTCTCCATTAGTTTCATTCAAAAAGTCATTAAAAATTAATTGATTTTCCCAACCGTTCTGTTCATACATTTCCATTATTCTATTATAAGCCTTTTTAGGGTCAAGATCCATTCCAGCATCTATCATACCTTCAATTGCCGCAGAAATAGCATTTTCTTTCATTTTAACGAAATCTAGTAATGTATTATCTAGGTCAAATATTATCGCTTTAATCATATTTTTATAATTGAAATAAAAAAGGCGCCTTAGCGCCTTTTAATTATTGTTGATACTTCTCAGGATTTTTGATTTTATCAATTTCATATTCAGCATTTTTTCTCCAGGAACGATTTTTTCTAGCATTTTCAAATGCTGCTAAAGCTGCAGTTTTATTTCCAAGACAAACTTCAGCTAGACCGAGCTCAAAAAAAGCTGGAGCATAATCACTCTTTAAATCTAAGGCAACCCTAGATGATTCTTTTGCATCATCACATAAACCTTTAGCATTTTGTGATTGAGCAAGTAAAAACCAGGCTTTATTTTTTTTTGAATCTAAAGCAGTTGCAGTAGATAATGAATTAAATGCATCATCCCATCTTTCTTGAGTATTCAAAATTTGACCTAAATCAACGTAAGCAGATGCATAAGACGGATCAACTTGAATAGCTTGATTAAATGAATTTTCAGCCATTTTATAATCAGCCTCTTGCATATATATTTTACCCTTTTGAGCAATAGCTTTTGCATAAGAAGGGTTTACTTCAATAGCTTTATCTAATGATGATAATGCTTCATTAACATCACCATTTTTTTGATAATTCAAACCTAAAGAAAACCAACCTTTTTCATATTGAGGATTAACTTCGACTGTTTGATTAAAGTAATCGATAGCCATTTCAGTATCACCTAATCTTGTATATACGTTAGCCAACATATAATAAGCCCTATGTTCATTTGGATTCAATTCTATTACCTCTTGATAGAATTGTTCAGCACCTTCATAATCACCTCTTTTATAGGATTTATTTCCTTCATTGTATGTTTTTTTAGCAGTGTTAGATAAAGTTTTGATAGCTTTGTCATAATTAGGGTCAATTTCAACTGATTCTTTATACAATTGAATTGCATTTGAATTATCATTTAATCTTGAGTAAACAATACCAATATGGTATGTAGCAGGTGCTAAAAAATCTGGAAATTCGACTTTAATAGTCTCAAAGTTATTGATAGCTCCATCAAAATCACCACCTTGAAGACTTTTCATAGCAGTTGCCCAAGACTGACTTAATGGAGATAGATTATCAAATTCATCTCTATAATCTTGATTAGTATTATCATTTTCAATTGCTGCTCTTAGAAATTTTCCAGTATTCATTAAGTCGTATTTAGCATAATATACTTTACTTAATAAATAATTTATTTCTGCATTATTTGGATCAACATCTAATGAAGAGATTAATTTTGATTCAGCCTCTTCTAATTTATTTGATTCAATTAAATTGGAAATTTCTTCTGCAGTTTGTGAAAAAATTATATTAACAACTATTATGAAAATTATGATTGTATATTTAGTCATTTTTAAACCCTCAAATTAATTTTTTTTGTGCCGAAGGCGGGACTTGAACCCGCACGTCCTTTCGAACACTACCCCCTCAAGATAGCGTGTCTACCAGATTCCACCACTTCGGCATGACACAACTATTCATTATCTATCAGACTTTCTTCAGGTAATGATACAGGTAAAGGAAGTTCGGCAGCAGGTGAAACATTTTCACTTGCTCTCTCTCGAACAATCGAATTGGATGATGATTGTGATGGAACATTAACTATTGAAATTAAAATAGCTAATAATAAAAAGAATGTCGCAAGACCTATAGTGATTTTACTTAAAAAACTTCCTGCTCCTCTTCCACCAAACATAGCAGTTGAAGCTCCTCCAAAAGTTCCTGACAAACCACCACCTTTACTAGCTTGCATCAAAATTACGCCTATTAGCAAAAGAGAAACGATAACGTGTAATGTAACTAAAAAACTATACATGTTTTACCTCAGTTATTATTTTTGAAATTTCACAAAAGTGATCAACATCTAAACTTGCACCGCCAATTAAAAAACCTGAAACTTCATCAATACTACTTAATTCATGAGCACTCGAAGATTTAACACTTCCACCATACAATAAATTTAAATCATTTGGTGAAACATTAAAATAATCAGAAATTATTTTTCTAACCAATATATGAGCATTTTTAACTTGTTCAACACTTGCACTTAAACCAGTTCCTATTGCCCAAACTGGTTCATAAGCAAAAATTATTTTAGATAATTGGTCTTTATTAATTTTAGATAATAAAAAATTCAATTGTTCTTCTAAAATATTTTCAGTCTTACCACCTTCTCTTTCATCTAAGGTTTCACCGATACAAAAAATTAGATTTAAATTTTCATCTAATACTTTTTTTGCTTTTTTAACAACAATTGAATTATCTTCATTAAATAATGTTCTTCTTTCTGAATGACCTACTACAACATGATGAATATCATTTTGTTTAAGCATTTGGGCAGAGATTTCACCTGTAAATGCACCCTCATCCTCGTAATAAACATTCTGTGCACCTAATTCTACATTTGAATTCGAAGAATTAATAAATTTATTCATAGAAAAAAGTGATGTAAAAGGGGCACAAATAATAATTCTCAGATTTCCATAATCTAATTCTTTTAAATTTAATTTTTCTAGAAATTCCAAAGAATCATCTATGTTTTTATACATTTTCCAATTAGCCGCAACAATTGATTTTTTCATTATATCATCCTTAATGCTTTAAATGCAGGTAAGTCTTCTCCAGATAAAAGTTCTAGCGAAGCCCCCCCACCAGTTGAAATATGGGTCATATCATCCCAAACACCTAAATCTTTAATTGCAGAGGCTGAATCACCCCCACCTATTATCGATGTACCTTCATTTTGGGTCATTTCAGAAACAACTTTAGCAATTGCATTAGTTCCTTTTGCAAATGATTCTGTTTCAAAAACTCCCATTGGACCATTCCAAATTACTGTTTTACTATTCAAAATAACATCACTAAATCTTTGTATAGTATCAGGGCCGATATCAATACCTTCTTCATCTTTCTCAATTTCATTAATTTTTCTAATTGCATTTACAACTCCAGAAGAAAAATCTTTTGTTACCGAAACGTCAGATGGTAATATCAATCTACAATTATATTTTAATCTTGATTCTAAAATTGAAGATGCTTTTTCAAATTTTGATTCATCATAAATTGAATTACCTATCTCATTACCCATACATTTTAAAAAAGTATATGCCATACCACCACCAACAATTAAATTGTCAGCTTCGGACATAAACCTAGTAATTAGAGGTAATTTTGATGAAATTTTTGCACCACCAAGAATTATAGTAAATGGTCTCTCTGGAGATTTAATTGAATGATGTAAAAAATCATATTCTTTCTGAAGTAAAAAACCGGGAAAACAATTATCTAAATATTTAGTTACTCCTACATTTGAAGCATGAGCTCTATGGGCAGTTCCAAAAGCATCATTTACATACATAGTACCATGAGAAGATAGTTTTTTTGAAAAATCAAGATCATTTTTAGTTTCTGCATTATGAAATCTCAAATTTTCTAACAGATGAACTTCCCCAGGTTGTAAACCCAATGACACATCAGTTGCGTCTTCTGAAACACAGTCATGTGAAAATTTTATAGATATTTCAAGGAGATCACATAGTTTCTCACCAATTGGCATAAGACTTAGTTCCTCATTTACAACTCCATTGGGTCTTCCTAAATGAGACATTAATACTACTGAAGCACCTCCATCCAAGCAATGCTTAATAGTAGGTAAGGCTGCACGGATTCTAAAATCATCCATAATTTCACCATTTTCAATAGGAACATTAAAATCTACTCTAATAAGTACGCGTTCATTATCAAGTTTATGATTTAACAAGGAATTCATTTATACCTCTTGCTTATATGAATCAAAAAAAACACTTGATAACTTAATTTTTTTGTATTTCATATAAAAGATTAATCAAGTTTAACTGAAACAATTTTTGAAACACCAGATTTTTGCATTGTAACTCCATATAAAGATTGTGCTGACTCCATTGTTAATTTATTATGAGTAACAATTATAAATTGAGTATTTTTAGAAAATTTTTGTAAAACATTTGTAAATTTTAAAATATTATTATCATCAAGGGGAGCATCTACTTCATCAAGTATACAGAATGGACTAGGTTTTACTAAATATATAGCAAAAAGTAGTGAAATAGCTGTAAGTGATTTTTCTCCAGATGATAACATTCTTAAATTTCTTGTATGCTTTCCAGGTGGTTTTGCAAAGATTTCTATATCAGCGTCTAAAGGATCATTATCTCCAATGAGGTTTATATCTGATTCTCCACCATCAAAAAACATTTGAAATGTTTTTTTGTAATTATCTTTAATCTTTTGAAAAGTATTTAAAAATTTTTCTCTAGCCTCCTTATCAATATTATCCATTGTATCAATTAAAGTCTTTTCAGATGTTTCTAAATCATTTTTTTGATTATTTAAAAAAGATAATCTTTTTGATTCTTCATCAAATTCATCATTTACAGCCATATTTATAGGACCAATATTTTCTATGCTAGTTTTAATTCTATTTATTTGTTCATGTAATTCTTCTTCATTAAATGAAATATTTGTTACTTTAGGAATCTCAATAGAATATTTATCTTTAATTGAATCGTGAATATTTTTCAATTCTGATTTTTTTTCCACTACTTTAAGCTCATGATCTTTTATAGTATTTAAAATATTTTCATTAATTTTCTGTTCATTACTTATTTTTTGTTCAATTATCTTAATTTCTTTATATGTAGAATTAAAATTTTCATCCATTAAAGATTTTTCATTTATAATTTTTTGTAAAAATGAATTGTATTCTAAATTATCTTTTTCAAAATTATTTTTTTCTTTTTTCATTTTTATTATGTTTTCTTCTAAAAACAATGTTTCAGATTGAATTTGTGAATTTCTTTCTTTTATATCAGAAACAATTTCTTGGGAAGAATTAAGTCTAAATTGAATATTTTCAAGTTTACTTTCTAATGATACAAGTTTAATTCTACTATCTTGTAAAAGTAAATTTTTATTGTCTCTTTCATTCCTATCAATTTCTAATTGAGTATTACTTTTTTTAATTTCTTCTTCAAGGCTAAGTAATTTTTTTTCAAGTTGATGAAGTTCAGGTTTTAATTTTTTAAAATTTTCTTTTAAAACTTTCATCTCTTTATTGGTTGAGGAAAATAATTTGTTATTTTGTTCTAATTTGATTTTAAATTCAAAGATAGAGGATTCTTTTTCATAAATTTTATTTTTAAGAATATTTATCTCTGATGACAAACTTTTTAAGCTTTCATCTTTAATTTTAATTTCATTATCAAAATTTTGAATTTTATCGTTTGATAATTTTATTTTTCGTTCAATAATATTATTACTTTCAATTAAAGCTTCTATATCTTTAGTAATTTTTTTTAATTTGTCATTCCTTCCAATAAGAGAAGAATTAATATTGTCTGGCTTTGAAATAATTAAACCAAATGAGGAATAAATATTTCCATCTAAATCCGCTACTTCTCCATAGAAATCTTCATTTTCAATTAGCTTTAAAGCCTCATCTTGATTCTCAACGACATATTTATTTTTAAAAATCAATTTAATAAGGTTAAAGAATTTATCATCAGTACTAATAAAATTAAATCCTTGATTTGATATAGAGTCATTAACTAAAGAATCTTTATTTTTAAATTGATCTAAAGATATTAACCATGACTGACCTACTTTTTGCTTTTTTAATTCTTTCATTATGTGAATACAAGTTTTTTTATTTTTACAGATCATAGCTTGAGCTAGCGGACCCAATAATGAATTAATTGCATTTTTATATTTATCTTTAACATTAATTAAATCACTTATTGTTCCATATATATCTTCAAATTCATTTTTATTATTAAGAATGTATTTATTACCTAATGAATAACCTTCTCCCGATACAATCATTTCATTATAAAATGATTTTTGTGAATTTAATGATTCTAAAATATTGATATTTTTATTATAAGTATTTTCAAATAAACTTTTTTCTTCTTCATTTTTATTTTTTATTTTAATTAGTTTGTTTGAATCATTAATATTTTCATTCTTTTTTACATCTAGTTTTTTTAGTTGAGATTTAAGCAATTGAAGTTTTTTAGATGATGAATCAACCTCATTACTATTAATTTTATTTTCTTTATTTAAATTATTAATAAGATCATTTTTCTCATTTATTAAACTAGTTGTTCTTAACTCATTTGATTTAATATCATTACTTTTGTTTACGAATTGAATTTGTTGATTTAAATTATTTTGATATGATTTTCTACTATCAATTAATTTAATTTCAGACATTTCTAATTCATTTTTTTTAAAATTATAATCTTTTTTATTTTTTTCTAATTGAGGTTTTAAGATTTTAATATTTTTTAAAAATTCCTGAATTTTATTATTATTTAAAATTATTTTTTGATTTCCATCTGATGTTTCTTGATTCAATTTTATAATGTTATGTGAGGAATTATTTATCTTTTCATTTAGGATTATAATTTGATTTGAATTTTTTTGTTTTTTCAATGTGAAGTCATCGATTTCAATCTGAATTTTTTTTATTTTTTTTTGTTCAATTTCAAAATTTGATCTAAGTTTTTTTAAATTATTTTCATATAGTATCTGATTTGAATTATTTGAATCTTTATTATTTTTTATTTCTGAGATAGTTTTAACCAAAGGTTCTATTTCATCTTGTAAATTTTTTATTTTTATAGAAGCTAAACTCAATTCATTTTCTTTTAATTTTTCAATTAATGTTTCATGCCGTTTAAATCTTTTCATTTGCAATTGAAGACCATTAACTTTTGTATCAACCTCAACTATTATATCATTTAATCTTTCTAGATCAGTTTTTGTAGATTTTAATTTTAATAGAGTTAATTTTCTATCATGTCGATATTTGTTTATTCCTGATGCTTCTTCAAACATTTTTCTTCTACTATTTGTATTATCACTTAAAATATCTTCGATCATTTTTAATTCAATGACTGAATATGCATCTGAACCCATTCCAGTATCTACAAACAATGAAATAATGTCTTTTAAACGACAAATATTTCTATTGATCATATATTCACTTTCACCATCCCTAAAAATTCTACGAGAAATTTCAATTTCATCATATTCAATGGGAAGTATTCCACGATTATTTTGAACTTTTAAAGATACTTCGCATACGGAAAGTGCTTTTAATGATTCAGAACCATTAAAAATTATATCATCTAAAGTAGAAGAACGAAGCATAGTTATTTTTTGTTCACCTAAAACCCATCTGACTGCATCAACAATATTTGTTTTTCCACAACCATTAGGTCCTACGACAGCTGTAATTCCATCACCAAAAGATAACTTTTCTTTATTTGCGAATGATTTAAAACCATGAATAGATAATTCAGATATATACATATAAAATTTATCCGGGAGGCCAACTCAATTTTCTTTTTGCCAACATATGTAAATGAATATGGAATATTGTTTGACCACCATTTTCATTACAATTAAAAATCAGTCTATAACCAGATTCAGAAATTTTATTTTCTTTAGCAATTTCTTTTGCAGCAAAAAATAATTCTCCTATTAAGATTTTATCCTGATTTTCAATATTATTAATTGTAGAAATATGTTTCCTAGGTATAATTAAAATATGAAATGGAGCTTGAGGATTTATATCATTAAATGCAATCAAATCTTTATTTTCATAAATTTTTTCAACATTTATTGTTTCATTAGAAATTTTACAAAAAATACAATCTTTCAAAATATATCCTCATGAAAAAAATGATCAATTAATCCAGTAGAAAGTATAGCTGCAGTTTCGGATTTTAATCTTCTGGCTCCAAGCTTTGCAAATTTAACTTTTCTAGTTTTAAAATTCATTAATTCTTTTTTTGAAAATCCACCCTCTGGACCAACAAGTAAAATTACATCCTGGATTTTATTTTTTGATAAAATATTTTTTAATGAATTATTTGAATCATTTTGATCCAAAACTATAATAAACTTAGAACTAAATTTATCAAACCAATCATTTAAAGGAATTGCCTCGTTAATTTCAGGCAATTGACCTCTACCACATTGCTTGATTGCAACTTCTGCTTTTTTAATCAATCTCTTTACATTTACTTTTTTTAATATGCTATGTTCTGTAATCAAAGGAGTAATTGAATGAACTCCAAGTTCAGTACATTTTTCTACTACTAAGTCAAGTTTTGAACCTTTTAATAATGACATTCCTAATTCTATTTTAATTCTAGATTCATTATAATTTTTTTTTATGTCTACGATTAATCCTTGAACAAAAGAATTGTTAATTTTTTTTATAATACCAGTATATAAAAAACCTTTTTTATCTATTAAATAGATTTTTTCATCTATTAAAACTCTAGTTACATTTATTGCATGATGAGCTTCACTACCATCCAGCATAAAAGAATTGTTAATTATATTATTTTTTGAAACTATAAAATGACGTTTTTCAGACAATTTATTTAATATTTTGACCAAACATTAATTTAATGATTGTTCCATTATATTTATTTCTTCCATCAACAATATCGCTAGTATTAACATGGTCATATCCAATAAAGATAGAAATAGTTTGTCTGGATTGGATCATAAAATCAGCACCTAAGCCTAAAACAAAACCAGAGTTATAATAAGTATTAGTATTTTTTAACTTATTATTAAATTTTCCGTATTCTGGAACATCAATTAAAGCAAGAGGACCAATTGAGAACATAAAATAAGGTGAAAAATTATTCGCTATTTGACCAACAAAGGGATGATATTTAACACCAAACAGTGATTGAGCAATATAAAGATCAAATTTATTTACTTTATATGGATAATATGACCAATAATCAACAACGGTCATTTCACCTTCACCAGTAACTTCCATAGCTTTCAATTGGCCAAAAAATTGGAATTTTTCAGACAATGGTTTTACCATGAACACACTAAGACCTGAACCAAAATCAGCAGTTTCTAATGAAATACCTCTATTAGCTTTACCTAAACCAATATTGGAATTGAATGTACTAGGTTGAGATAGTAAAATATTAACAAATAAGAATAAAGTGATTATAAAATATTTTTTTAACATAATGTTTTTAATATAATTGGTAATTTAAAACTAATTTAATTGTTTTAACAACTCTCTTGATTCAAAAATTTCTTTTTTTTGTTCAATCAATAATTTTGGGTCAGGTATCAAATTTGAAAGTTTTGTTAATAATAATTTAGCTTTTTGAGACTGACCATCATAAATCAAAGCTTTTGATAAAAATTTAATTTGTACTGGAGTTGCAGTTCCAACATTATAAGCTTTTTCAAGTAATTTCAATGCATTCTTTTTATCAGGCCAGGTTAAAAAAAATGGAATATATGGAGCTCTAAAATTCACTACTCCTAACATAAAATATCCTCCCCCATTTTCACAACTTGGATCTAATTCAATAATTTTTTCAGAATGAGCTTTAATTTGATCAGCAACACCTTCTCTAGCTGCAGCTAAAACTCCATAATTTTGTCCCCAACTTCCTAAATTAACTATATACCAATACCTTATTTTAGGGTCATCAGGATATTTATCAATTAATTCCTTTCCAAGAATTTTTGCTTCTTGAAAAATATTTTTCTTTGTTTCAAAATCTTGAACAACAAATTCTCCTTTAAAATAAAGTGATTTAAGTAACATTAAAGATGATAATTGATCATTATTATCTTTTCTAAAAAAATAAACCGCAGAATCAATTTTAGAATCTACCGCAATTATCCCATTTGCTCCTTCAGACCGATCATTATAAAACATCATCCCTTTTTCAAAATTAGTTTGTGAAAAAATAAATGAATTAATAATTAATATATTTACAATAAACTTCATTTATAATGAAAGTAAAGATAACATAATATATATTAAAGCAGTCGTTGAAATAATTGCTGTTGAGGCAGTTTTTGCAAAAGGCCATGGAGTCATATCAACTGGAGATTTTGATTTAATTTCACTTATTTTTATTTCTGAATCTGATTTTGGTTTTATAATTCCGATTAACAACATTACTAACACTGAAAAAACAAAACTAATAAAATATCCGTGAAGATAATGTAATTCTCCATTTGCATTAGATAGATATGTTGGTACATTTTTTATATTAATAAAAGTAAAAAATGCATACATTGAGATGCCAACCAACATTCCAACTTTAGCTGCAATTGCTGGAACTTTTTTGGTTGTAATTCCAATCAAAAAAATACCAATAATTGGTACACTATATAAACCATTAACTTGTTGTAAGTATGTAAATATCGATTGCATTTGAGATAAAAACGGTGCAATTATAATTGAAGCCAAAGCTAAAAAAATTCCAAATTTTTTTCCAATAGAAACTATCAATTCTCCTGAAGCTTTTTTATTAATATATCCTTTATAAAATTGTAAGGAAAATAAAGTAGAAGCACTATTAAGAGCACTATTAAAAGAGCTCAAAATAGAACCCATTAAAACTGCTGCAAAAAGACCTAGTGACCAATTAGGTAAAACATGTCTTACTACAGCTCCATATACTTGATCAGCTTTTGAAATATTCAGTTCATTCATATGTAAAGCTATTAATCCTGGTAAACATAATAATATTGGACCAATTAATTTTAATGAAGATGCGAAAAGAACACCCTTTTGACCTTCAGCCAAACTTTTAGCAGCCATTGCTCTTTGTACTATAACCTGATTTGTAGACCAATAGAAAATATTTATAAACATCATTCCTGTAAATAATGTTGGCCATGGAACAGATACTATCTTTTCATCTACATTAGAAATAGCTAAAACAGATAAATATTCAGGTTTTTTTTGAATTAATATATTTAAACCATTGAAAAAAGAACCTTTACCTAAAGAAAATAATGCTAATACAGGTATTGCCAATCCTCCTATTAACAAACCTATTCCATTTAGAGTATCACTTACAGCAACAGATTTAAGACCACCAAATATTGCATAAGAGCTTCCAAGCAAACCAATTATTGCAACAACTAACCATAAAGGTATATTTAAATCAAACATTCCAATTAAAGCTAAAGAACCAGTATACAAAACAACTGGCAAAAGAACAGTTACATATCCAAAGAGAAATAATCCTGAAACAATAGATCTTGTATCTTTATCAAATCTTTTTTCTAAAAAGGCAGGAGTGGTTGTAAATCCACTTGACAAATATATAGGAAGAAATATAAGAGCGGTTGCAATCATTGCAAAACCACCTAGAACCTCCCAAGCTATTCCAACCAATGCTTTATCACCAAAAATAGTACCATTCAATCCAACTAATTGTTCTGTTGATAAATTTGTAAGTAGCAATGAGCCTGCTACAACTGGCCAAGAAAGAGCTCTCCCACCTGTAAAAAATTCTTCAGTAGGATTATCTGATTTTTTCATTTTTGAAACAATCATATAGGTAAAAAATCCAACAGAAGACGTAGCAATTATAAATGAAATAATTGATATTATGTTCATTAAAACCCCATAAAATAATTTATTAATTAAACATTTTTAATCATAAAAACAACAATGAAACTTTTAATATTTTATAGATTTAAAAAAATAATTAACTTTTAGAATGAAATATTTTATTTGGATTTTAAGTGTAATAATTTGGAATTTTTTATTTCCCAATGCTGAACCTATTTATGATGTTCTGATGGCTATAATACTTAAGCATATTTTTGATTTAAAAGATATATCTAGTAAACTGAAAAACTTATATTTTAAATAAATTATTAATATCCTTAAATGATTTAAATTCTAAAGCATAACCATTAGGATCAAAAAAAAACATGGTTGCTTGCTCTCCAGGTTTCCCTTTAAATCTAATATAAGGTTCAATTTCAAATTGAATATTATTTTTTAATAAATTATCCTTTAGGGAATGCCATTTATCCCACTTTAGAACTGATCCAAAATGAGGAACAGGTACTTTATGTTCATCAACTGGATTAAAATAATGTTTTTGTTTAAAATCATTTACATAATGAAAAACAAGTTGATGACCAAAAAAATCAAAATCAACCCAGGTTTCATCTGACCTTCCTTGCTCGCAACCTAAAATATTTTTGTAAAAGTCTATGGCTTTTTTTAAATCATTTACAGGAAAAGCGGCATGAAATGGAGGAATAAACTTCATATAAATAATTTAACAAACAAAATCATATGGATGAAAAGGGAATTTTCTTTTACTTATCCATTGATATTGATTCTTAGAATATAAATAAGCTATTCTTGCAGCTATAATTGAAGATAAAAAATGGTCATTTTTTGATGCAATAATTGGTAAATCAGAAATTTGTCTTTTTTTTAAAAAACTTAAAATATTTTTTTTTGCTTTTGCATTTTTTTTTACATTATCTATATCTACTTTATTTGCACCATTAATTAGTAATGAAATGAAAGGATGAACTTCTATTATTTTAGGTTTATTGTTTAAAGTTTCTAAAATTCTTGTAATTGAAATTCCCCTTAAAGTTAAATAAGACATTCTTGTCATTGTAGGTGTCATTACTGAAGAAGTTTTAATATTCTTTTCTTTAAGAAATTCTCTTAGTGATTTATCACCTTCTCTATCACCACCATTCATATTATAACTTAAAGGAGAGTCCATAGCGATAAATAAATGATTATTTTTAGATAAATCTTTTACTGTATTAAATATAAAATTATCATCTGCACCAATCTTATAATTTATTAAAACAAGTTTTTTTTTGGAATAATCAAAATTAAACCAACTTATGACAGTATCAATTACGTTTACGGGTCCTGAAAGATCAATACCACAAAAAATTTGATTCATTACAAAATTTAAAAAATATATTTATTTCATATAAATCATTTTTTTACTTTGAATAAAATCACCTGCCTTAATTCTATAAATATAAATACCTGCGCTTACTAAATTTCCAAAATTATCTTTTCCATCCCATTTCGTATTATGAAATCCGATTGGTTTATTTTCTGAAACAAGGGTTTTAACTTTTGTTCCTAAAAGATCATAAACTTCCAAAACAACTTTAGAATCTTTAATTATTGAATAATTAATATTTGTAAATGGATTAAATGGATTTGGA
>sequence23
TAGCAGTAACAACTGAAATCAATAAAGATAATATATATTTTTTCATAATATTCCCCATTTAGTTATAGGTAATATATAAAAAAAAATTAGTTGAATAATAAACTATTTATTTTAGATTAAATAAAATTGGCTCAAAAGAAAAGTAGGGCGTTGGGGCTGATTTGGAAGGGTTACGAAACTTTTGAGCCAAAATTTATTAAGTTTACTTCCATTGTTGCCTTAATTTATTATAATTTTTAATATAATACAATAAAAATTTAATAAATTTATATAATTTTAATTAATTAATTAATTTTAGATGTTTTTTTGTTTCTTCTACACTTCTCAGAGCAATATTTCACTTTATCCCAATTTAAAGACCACTTTTTTCTCCAATTAAATTTTAAACCACAAACTTTACAAATCTTGAAAATTGATTTATTATTCAATTTGAGCTTTAGATCTCTTAATTATATTTATTAAAGACTTGCTACCTGTCCTTAATTTTCTTTCTTGAGTTGTAAAGTCAACCTCATATAATCCAAATTTCATTGAATATCCTTTAGCCCACTCAAAGTTATCCATTAACGTCCAGTAAAAATACCCTTTAACTTTAACACCTTCTAAAAGTGCTTTATTTGTAGCATATAAATATCGATCAATAAATTTAGATCTAATTTGATCAGAGCTATCAGCAACTCCATTTTCTGTAATGTATATCGGAACATTGAGTTTACTTATAGTTTTTAAAGCTTTATATATTCCCTCAGGGTAGATTGGGTAATTCATATCTGTTTGAGTATCTTTTTTTCTAATTTGAAAAACAAAAGGTTCATTTGGATTCATTTTACCTTTCACATGAAATCTACTATAATAATTAAGACCAATAAAATCAAGAGAACCTGGTGCTTCATTATTATTAATATCATCATTAACCAAACCAGGCATAAAGAATGTAGATTTTCCCTCCTTTAAAAACCTAATTGGTTCGTTTGTAAAAATATCATTCAATAAACTGCTCATGTACAAATCCAATGCATTCAACCTGTTAAAAGGATCAAATTGAAAAATATTTTTAACCATTCCAATTTTCACATTATTTCCATTAGGCATAGATTTAAGACTTCTATAAACTAAAACGTGAGCATTTAACATATTTTTCAAAACTTTACTAGCTAACACTGGTTCTCTTTTACCTGGGGGAAATTCAGCATTAAAATAACCTTCAGAGACATAAACCATTGGCTCATTTATAGTACACCAAAATAACACAGAATCGCTAAATTTTTTAAATGCAAATTCTGAAAAATGAACAAAGTCCATGATGTTCTCAGATTTTTCAAATGCTCCTTTTTCTTCAAACCAAATTGGATTGCTAAAATGATGTAGGGTTATAACAGGAATTATATTGTTTTTAATCAAAGTATCAATTTTTTTTTTATAATGATCAACTACAGAATTGTCAAATATTCCTTTTTGCGGTTCTATTTTTGACCATTCTATTGAGAATCGATAATGATCTACACCCAATTCCTTCATTAGTTGAATATCTTTTAAGTAAAGATTCCAATGATTAGATGCTATACCAGATTTATCACCATTATGAATATTTGGAATATTATTCTTTTTAAAACCATTTTCAAAAACATACCAATTATTGTTTACATTATCACCCTCAACTTGATGAGCTGAAGTTGCTGTACCCCAAATAAAATTTTCTGGAAAAACAAAACTTTTAGTATTTATTTTAGACCAATTCCATTCAAGCTCTGGATTTTTATAATTAAAATAAATAATAAATGTTAACCATATCCAAAAAATTATAGATAAGCTTATAAAAGATATTTTTTTCATATCATCATTCTAACTTGAAATTTTTGAGAACCAATCTTCAATGATTCTTATCGAATCAATAGTAATTCTATGACCAATTTTTAATTCATGAAATTCAATATTTGCATTCATAGCTTCAAAAATTTTTTTAGTTTCATATGCATTTTTAATTCTTAAAACCAGATCTCTTTTTCCATGTATAATTAATAAATTTAGATTTTTATATCGTGATAAATTATCATGAAATTCAAAGTCTTTAAGCAGTCTAGTACTATGAGCGATAAAACCTTTAAATTTTTCAGGATATTTTGAAAGCATATGTAAAGCCATCATACCACCTTGACTAAATCCACCAATAAATATTTTTGTAGTATCTATATTATATTCATCTTTTATATAATTCATAGTATCTAAAATTAATTTTTCACTTTTTAAAATATGTGATTTTTTTTCTTTAAGATCACCTTTTAAATCTATATCTATGTGAAACCATTTATTGTGAAGAAATCTTAAAGAAATTAAAGACAATTTAAAGGGCGCTCTCATTGAAACAATCAATGCTTCATGATTAAAATTTCTTATAAATTTATTAAAATGTCTTTCATTATCACCATAACCATGCATTAAAAAAATAACAGGAATTTTCTTGTCATTAAAAGATTGTTTGCTTGTAATAATTTTAAGTGGGGATTGTGAAAATAAACTAGAAAATAAAAATAATGAAATAATATATTTCATCTATAATTATATACCCGCTTGAACTCGTTTAATCATCTCATCAATTTCTATTTCTAGAAAATTTAATGGAAGAGCACCATTTGATAAAATTGTATCATGAAATTCTCTTATATCAAAATTCTCACCCAATGATTCTTTTGCTTTGGAGCGAAGTTGAAGTATTTTATCCATTCCAATTTTATATGCAGTTGCTTGTGATGGCATAATTATATGTCTTTCAACCATTTTAATACAATCTGATATATCATTTGGAGTATTTTCCGAATAATACTTAATACCATCTTCTCTTGTCCATTTTTTACTATGAATTCCAGTATCAACTACCAACCTGCAAGATCTCCATAATTCCATTGACAGTCTACCGAAATCAGAATAAGGGTCAGAATAAAAACCTAATTCTTTTGGTAAATACTCAGAATACAATCCCCATCCTTCAATATAAGAAGTATAACCTCCAAATTTTCTAAACTTTGGAATATTTTGAAGTTCTTGAGCAATTGCTATTTGCATGTGGTGACCTGGAATTCCCTCATGATAAGCTAAAGCCTCCATTTCATATTTAGGCATTGCTCTCATTTTATAAAGGTTTGCGTAATATGTACCTGGCCTTGATCCATCTGGAGCTGGTCTTTGATAAAAAGCTTTGCCAGCAGATTTTTCTCTAAAATCCTCAACAGCTTTTACAATCATTCTAGCTTTTGGTTTTGTTATAAACAATTCATCTAATCTCAATTCCATCTTATCAATGATGTTTTTTGCCTCAGACATGTAAGCCTGTTCTCCTTCGATAGTTTGGGGATAATAAAATTGATCATTTTCTTTTAATTCATTAAAAAAATCCTTTAATGATCCAGAAAAACCAACACTTCCCATAATCTTAATCATTTCATTATGAATTCTTTTTACTTCTCTTAATCCAATTTGATGAATTTCATCTGCAGTCAAATCCGTTGTAGTTGTACGCTTAAGAATATGTTGATAAAAAACATCACCTTTTTCCCATCTCCAAACTCCATCATCTTCATCATAATTATTTGCTAATTCGCTAATTAGAGATATTAAACTTTCATAAGCTGGTTTTAAAGACTGATTTAAGGCTTCTTTTGCATCTTCAATCAACTTATCCTTTTTTAACTGTTCAATGTCAAGATTATTAATTTTTAATAAAATATCACTGAATAAAGCTGATGAGTCAGAACTAGAAATTGAAAAAGGATATCCGGAAATTATATTCCTAGAATCATTCAAGACATGTTCATAAACAAATTTTTGAGCGACTATTCCAGCTGATTCCTTTTCTCTAATATTAATTTCGAGCTGTTTGAACAATGCTTTAACACCATTTAAGCGACTTATATAGTCAATTGCTTCTTTTTCTGAAGAAACGCTATGCATATTAATTAAAAAAGAAGGAATCTCAGATTGCATGCCAAACATTTGATTAACTGGATATTCATAATATGGAGCCGATCCGAATAACCTATATTTCTGATCTTCAATTTGGTCCTTAAGTTCTTTTACATACAATTGATAACTAAGTAATGTAGATTTATCCAAAAGGTCAACACTCACTGAATCTTTTAACCAAACTAAAGATTTTTTGGTTTGACTTAAATCATATTGTTCCTCTTTTGGTGAAATATCATTCCATTTGTCATAATTTTTTTTAATTCCAAGGCTTGTTTGCAACTGAGGTTTTCTATTAACAAGGTTATTAAATTCCTTTTCAAAATATTCATTTACTTTTTTTGATTCTTCAATAATATTTTGTTTTAAAATACTTTCATTAGAAAATGAAGTATTTGAACAAGAACTAAAAATTATTATTAAGCTTAAAATTATATTTTTTTTCATTTTAATCCTTTTTATTTGAATTAGTTACAATGAAGTTGGAAAAAATTGAATTTAAAAATTGTAAAAAAAGAAAAAAAATTATTAATGAGATAAAACCAACCGCAAAAACTATTATATCATGAAAACTTTTCTGTTGTAATAAAAAAATTTTATCTAACATTGTCAAAACTATTATAAAAAAAAGAAAAGCAACAACTATTGAGATAAAAATCTTAATGAAATGATGTGAGAACCTCATTTCTTAAATCTACTAATAAAATCCCATGCCATTCTAGATGTATTTACATCAGTTTGAACACCCTGATATAAAACATGACCACCTTCATTAATTGTTACAAGAGAAACCTCCGTTTGATTATCACAATTTTCATATGTTAGGGTAAAATGGTCATTTGACCTCCAAGTTTCTTTAGGTTCACCTTCACAATTATTTATTTCTTTCCATGTGTTTAAATTTTCTAAAGCACCAGGAAGATCACTTGGATAGTACAAATCATCCTTTGTGCCAAATAATGTCATAACAGAAACTGGAGAATAATTTTGAGACTCAGGAACCAAAAGATGTAGAGCTATACAAGCAACCGAGGATACAATATCACTTGCCTCAACTGCCATTCTTTGTGCCATAGCACAACCATTTGACAATCCAGTAAAATAAATTCTTTTAGTATCAATATTATATTGATTTGATACTTTTTCGATAAGTTTTCTTAAAAAATCTACGTCATCTATATCATCATCAGAGGCAGGTGGACAACATTCTTCACCACTATTCCATGAACGTGCCAATCCATAAGGCCAAACTAATACAAATCCAAATGTATCAGCTAAAGATTGAAATCCAGAAATATTTTTCTGATCTTCAACAGTGTCACCCCAACCATGAAGATCTAATACCAAAGGATATTTATCATCTAATTTATCAGGAACATGAACGTCCCAACACCTATATAAACCATCAATTTGAATACATTCATCACCATATTCAGCAAGGTAATCGTCTTCATAATTTTCATTTGATTCAGAAACAGTTCCAGAAATTAACCAAGCTTTATTTTCTTTCGTTAGAATAAAACCCATTTCAACTTCACCTTCATCATCAAAAATCAAAAACTCAGCAACATCACCATTCAAATCAACCTTAGATGTATTAAGATTAATTTCAATGCCATCAATCATGCCAGCATTTATTACTATCTTCCAGAACTCTGCAACTTGTTCTTTACCACCAATTTCTTCAGAAAAAAAATCATTTGAGTAAAATTTAGATATTTCTCTCGGATTTTCAGATAATACTGCTTGCTTCCATTGCATCATAGTACTCATTATAGATTTATTATCATCTAGTTTGTTAGAACAAGCACTAAAAATTATTAGTAGACTTAAAATTATATTTTTTTTCATTTCATTTTTTTTCATTATTTGGAGATTGAAACGTATAAACTTCATGACTTTCAACATCTTTTGCGATTAATTTTGCAAACTCATCACTTTCTCTTCTACGTTTTATTTCTTCCATATCTACATCAAAGTTCATCACCATAGCAGTTTTATCATCTACTTTTCCATATAATATCTTTCCTTCATCAACTCTTTTTTGATTATCATAAGAAGAAAGAAATAATTTTTCCCAAGAGTCAAAATTTGTTTTAATGTGAATTACAAATGCCATATTCATTACTTATTTCCTTTAATTGTTATAGGTAAACATTTACAAGTTAAATATTAGTAAAATTTATTTTGAAATAGAAAATAATTTAAAATTAGTTAAACATCTCCAAATCCATTCTAAAGGACCATATTTAAATCTTCTTTTCCAAAAAATTGTAAAAGAAATCAATATCATCCATATGAATAAAGTTATAAATAATTGACCAATTCTACTTATATAACCAAAAAAACCTAACCCGTATCCATAGAAAATGAAAGTAGCTATCATTGATTCAAGCAAATAACATGTTAATGCCATTTTACCAATTGATGAGAGATGATCCTGCAATTCATTTAGGACATTAGTTCTTACCCACAATTTGATAAAACCAATATATCCAAAAACTATAAAAGGGGTTGCAATATTATTTGGTATTCGTGAAATAAATTCTAGATAATTCGCATTGCTTTTAAATTGATAAGTAAGTATTAATCCAACTATCGATAGTGGAATTCCAAAACCAAAACCAAAAAAAACCATTTTTTTATAAAAAGAAGGACTCTTTGAATTATTTAAGATATTCATTTTGAACATTGCCATACCGATTAGCATCATGCCAAATGCTCTAGAAAGAAAATCAATTGCAAACATGGTCTCTTTTAATATAATAGCTAAATTTTTTATAGGTTTTGAATTATATTTAGATTCCCGATAATTAATTTGATCAAGATATTTTCCTCTAAAAAGATTTAATTCTTTCTGAATTTGCTCCTCAGATGGATTCCATTTTTTTTCGATAGCATTTAATTCTTCAACCTCAAATTCATTTGCAACATTATTATATATAAAATAATTAGTTCCAGAAGGAATAAAATAAATAATAAAACCTAAAATCAATAATGTTCGATTTGATACTTTTTTAAAAAAATATAAAAAATAAGATAAACTTCCGTAGAGGATTAAAATATCCCCTCCCCATATATATGTAAAATGAATAGTACCAATACAAATCAACCAAAAATTTTTTCTAAAATAAACCCAAATAGGTCTTTTGTAACCTTTTTGTTTTAAACTATTTATGTAAAGTAATGTACTAGCGCCAAAAAGTATAGAAAAGATCCCCATAAATTTTTGATCAGCAAAAATATGACTAAAACAGTATACTATATGATTTAAAAGATTAGGTTCATATACAAAAGGACTTAAATATGCAATTTTTGGCATAGAAAAATGCATGATATTCATTATTAAGATACCTAAAACTGCGAAACCCCTTAAGATATCTATTGAATGAATTCTATCTGACAAAGTATTCTTAATTATCTTTTTCTGAATTTTTTATTATTGTTTTTAGAGTTGGAAAATTTTTTTCTTCTATCTCTATTTCTATTTTTATCTCTATTTTTATTTCTATTTTTATTTCTATTTTTATTTCTGCTTCTACTTCTGCCTCTACCTCTGTTATCATCTTCAACTAATGGTGTTGAAAGATTAATATCTTGAGAATTTTTATAATAGGATAAATATCTGTTGAATTCTATTGAAACGAAATGCTTTATCAGTTGTTCACGATCTAAAAAATTAAGCTTATCATATATATAAGGTAAAAATGGTTCGATTTGTTTTTCATTAACATCTACCTTCTCAACATTATCTATTAATCTATATAATCTTTTTTTACATATATCTAATCCACTTGGAACTTGTTTTTTTTTGAAAGATATTTTTGAAGCATTTTCTATGTTCCTCATCTTTCTTAATTCTCTTCCATGTATAATAACTATGGAAACACCCTTTTTACCAGCTCTACCTGTTCTACCACTTCGATGAACATAAATTTCATTATCATCTGGAAGATTATAGTTTATTACGTGAGTCAGATCATTTACATCTAATCCTCTAGCAGCAACATCAGTTGCAATTAATAATTGAATTTGTTTTTTTCTAAAACGTAACATCACATCATCTCTTTGAGCTTGAGATAAGTCACCGTGAATTGTATCAGCATTATAATTATCTTGCATCAATTTATTAGCAACATCTTTAGTTTCTGCTCTAGTTCTACAAAAAACAATTCCGTATATATCAGGATTAATATCAGCAATTCTTTTAACTACTTCATATCTGTGTTTTGCATTAACAACATAGAAAATATGTTCAATATTATCTGCACCCTTATTTTTTACTCCTACAGAAATCTCTAATGATTGTTTCATATATTTTTTGGTAACAATCTCAACTTTTTTTGTCATTGTTGCTGAAAAAAGCAATGTTTGTTTAGTCTTATTAGAGGAATCTATAATTGATTCAAGGTCATCTTTAAATCCCATAGACATCATTTCATCTGCTTCATCTAGAATAAGATAATTAATTTTATCTAAAATTAGTTTTTTTCTTCTAAGCAGATCTGTAGTTCTACCTGGTGTTCCAATCACAATTTGAGGTTTCTTCTTTAATCCTCTCATTTGAGTGTCAATTCTAGCTCCTCCGTAAATAGGTACAATATTGATTTTTTGAAGATATTTTGAATAATTGATTAAATCTTTTGAAATTTGAATGCAAAGTTCTCTTGTTGGACACAAGACCAACATTTGAACATTATTATTATTCAAATCAATAGATTGTAATAATGGCAATGCGAATGCAGCAGTTTTACCAGTTCCTGTTTGTGCAGAAGCAATCAAATCTTGTTTTGAAGATAATAAATGAGGAATTACTTTTTGCTGAATTGGAGTAGGAGTTACAAAACCTAACTCATCAATAGCTTTCATAATTTCAGATTTTAAAGAAAAACTTGAAAACGTATTATTTATCTTTTTTTTGGGAGGAATCATATCGACAATATTAAATGAGTTTTGTATTTTATACTAACGATAATAAAATTAATATTATTTAAAAGTATAAAAATTGAAAAAACTACAAAAAGCTGTAAAAATAGGAAAAATTTTAGATAATCTATATAATGAAACTCCAGTACCGCTTAATCATACTAGTGATTATACACTATTAGTTAGCGTTATGCTATCGGCTCAAACTACAGATAAAAAAGTAAATCAAGTAACTCCAGCACTTTTTAAAAAGGCAGATACACCAGAAAAAATGTGCAAACTTCAAACATCAACTATACAAAAACTCATCAAGGAGATCGGACTTGCTCCAACTAAAGCAAAAAATCTAAAAAAAATGGCAGAACAATTAGTTGAAAGTGGCGGAATGAAACCAGATTGGGATTTTTTAGAAAGTCTTGCAGGCGTTGGTCATAAAACAGCTAGTGTAGTGATGGCTCAATGGTATAATATACCGGCATTCCCAGTAGATACTCATATTCACAGGCTTGCATCAAGATGGGGACTCTCAAAAGCTAAAAATGTGGAAATGACTGAAAGAGATCTAAAATTATTATGGCCAAAAGAAACTTGGAACAAACGACATCTGCAAATTATTTTTTTTGGAAGAGAATATTGCCCAGCAAGAAATCATGATCTAAAAGAATGTGAAATTTGTTCCTGGGCAGCATCCAAAAAAAGAATCTCAGAAGAGATGAAAAAATAAAGTTCTAATCTTCTTTTGCAGTAATACCTACATAAAGTGAATAAATAGGTAATAGAATCCAGATCACCATAGCAAAAAGTGGTGCATTTAAATAATCTGCGCTTTCAGGATAGTTATTTGGTATATCCACTAATCTAATCTTCAATAGAAGAATATCCATAATCACTAAACATACACCGATTCCAATTAGAATTTTTTTAGAATTTTCAAGATCTACACCTCTACATAAGAACATAACAACACCTATTACAAGTGCCATCGATCCAGCAAGTTGATTGTCAATCCCAATAACAAAAAAAGCTTTTTCGCTTAACCCACTGATTTGTTGAACGCCCATAGGACCTAAAACAAAAAAAACAATGATATGAAATAAGAACCAAACTGATAGTGCTGTAAATACTGCTTTTGGTTTTAACATGTTTTACCCTTTCAAAAAATAATTAATGAAAACTAATGAAAAAAAATATATTAAGATAATCTTTTATCTATTCTAAGGAATCTCTAGGTGCACCTTCAAAGATGAAAAAATTTTGATATTCGTACAACTCAATAGATCCATCGCCATTGGCATCCAAATCATAAAACATTGGAAACATAGGAATAGTTGAATCTCCTTCAGAGAGATAAAAATCAAAATCTTGTACTAGACGTCTCTCATTTTGAATAAAATTTTCTTTTGAAGATAAATATTCTCTATTTTGATTTAGTTCGTCTAAACTTTCATTTGGATCAGATGATTCAGATTCAACATCACCCCCTTGAGAAACTGAAGGAGGCATACTACCGCCCCAATTCACATTGATAATCTTTCCTTCTGAAATGACCCATTCACCATCACCATAATCCAAGAAAAAATCTGGTTGATGAACTATTTCACCATCTTCATATCTTATATTGTTTGATATTACACCAGTAAAATCAGACCCTGGATAATCTTGGAGATTTGGAACTATTATTCCATTCATAATAGCTCCAGTAAAATTTGCTTTATTTGCAGTAAACTCTAGTAGGTTTGCCCCACTAAAATTCGCTCCAGAAAAATTTGTTGGAGTATCAAAACTGGTTGCCATAATAGCACCACTTAAATTTGCAGCCTGAAAGGTGACATTATCAAACCTAGCATAAGTAAAATCAACTCCTGATAGATCAGCACCAGTAAAGTTGTAAGGGTTACCATTAGTAGAATTACCATTAAAATTGAAATTTGCACCTCTTAAACTAGCACCAGAAAAATTTAAGGCATAATCATGAGTCCATCTCATACCATTCGTACAAGAGTCATCAAAACCCAATTCATTGTAAGCTTCACAAGCTACTTTTCCAAAATCAAAATTATCAAAATCACAATTACTAAAATCGTGAATATTTAAATTCTGTATTAGATCTTTAAAATTTCTTTCACATTGAGACTCAGACTGAGCAAAAGAAAAAAACATCATAAAAAATCCTAAAAAAATATTTCTTATCATTATTTAAACCTTTAAAATTTTATTAATTTAATAATTATTTTTTTGAATTGAATCAACTTTCAGTTTAATGATAGATATAATTTAGATTTGAAAAATCTATAAGTCTAAAGTAAAGGTATTTATTTCACCAAAACCTTTTATGTCTCTTGTATGGGAATCTAATTGAAATTTACTTCCAATTAATTTTTTTGTCTCTTCTGAAATTTGAATTTTTCCTACCGGACATGTTGTTTCTAATCTATTTGCTAAATTTATAGTTGAACCCCATAAATCATATGTATATTTTGTCTTTCCAATAACACCAGATATTGCCTCACCAGAATGTATTCCAACTCTTAAATCTATGATCATTTCAGCAATCTCTTCATTAATAGTTTTACAAATTTTATTCATTTCCCTAGCCAGAGAAATAGTATTTAATGCACTTTTTATTGGATCACCTTTTAATCCACCAACAGCAAAATAACTATCACCTATAGTTTTAATTTTTTCAATTCCTAATTTTTTTGCCAATAAGTCAAACTCAGAAAAAACTTTATTTAAAATTGTCACTACATTTAATGGATTCAAATCTTTTACTTGAGGAGAAAAATCAATAATGTCAGCAAACATTACAGAAACCATTTCATGCTTATCTGCTATATGAACTTCACCAGATTTTAGGCGATATGCAATTTCATCTGGTAAAACATTGTATAATATAGTTTCAGAACGTTCTCGTTCAATTTCAATATCTTTTAATAGTTGTTTTTCTTTATCTCTGAGTTGTTTTTTTTCAATACAAGTTGAAATTCTTGCATCTAATATAGATTGAACAAATGGTTTTTGAATATAATCATCCGCACCCATTTCAATACACCTATATATACTATCAGTATCATCCATTGATGAAACCATAATTACAGGTAAATCAAAAAAACGCTTATCATTTCTTATGAATTTTAAAACTTCATATCCATTCATCTCAGGCATAATTATATCTAATAATAAAACGTCAAAATGATTTACATTTTGCATTAATTGTATTAATGAATCTTGTCCATTGTTCGCAACAGAGACAGAATGTCCTTTTCGACTTAATCTCTTTTTCAATAATTCTGTATTATTAGGATTATCATCAACAACCAAAATATTACCGGTAACTTTTACTTGTTTTTCATCTGGACCAAGGGGCTCTATACTTTGAATAACATCTTTTACCATTGAAAAATGTCCAGAATTAAGGTCTTTTTTTCTTAAATCATCTGTTTCAAATGAATTAAAATGAATAATTGACTCAAGTTCAATTTCAAGTAAACTTGCAGATTTTAATATTTTATCAATATCTGATTTAAAATGATCAATTTTATTCAAAATTTCATTTTCATTTAAAAGAGACATTGAAACTTCTAAAATAGTATTTAAAGGATTTTTTATTGCTGATTCAATTTCACGACCCATTTCAAGAACTGATTTATTTAAATCATCATTACCAGAAATCTTTAATGAAGATTCAATTTCCATTAAAATTTTTTTTCCAGCTTTATTAAGTTTTTTTAAACTACCTACTTCAATTTTAATATTATACTCTTCACAATCCTCAATTAACATTTCACTATAACCAAGGATGGCGTTAACTGGGTTTTTTAAATTATGTCTTGCTTTACTTAAAAAGGCTGATTTAGTTCTCTTATCTAACATAAAAATTGATTTAACCAATAAATTGATTAATTTTTCCTAATAGTCTTTTAAATTCTATAGGCTTAGTATCATATTCATCAGCACCTGCATCTAATGCTTTTTCCCTATCACCAGCCATAGCATGAGCTGTAAGGACTATTATAGGTATAGACTTAGTTTTTTCATCAGATTTAATATTTGAAGTAGCTGTCCATCCATCCATTACTGGTAAACTTAAATCCATTAAAATTAAATCTGGGTTGTCAGTTAAAGACATTTCTACTCCCTTTTGACCATCCTCTGCCATTATAATTTGAAAACCTTTTCTTTCTAACCTTCTAGAAAGCATATCACGATTCATTTCATTATCTTCAACTATTAGAATTTTTTTCATTTTGAACCTTTATTTTTTTGATATTTTCAGAAACCTCTGATAACAATTCATCTTTAGTATAAGAACCTTTTTGCATGATGGCCTCAACATTACCTTTCAATCTAGAGTGATCCTTTTTTGAAAGATCTTTTGCAGTGATAACTACAACAGGAATATCTATCCAATCTTTATTTTCCCTGAGGTGTTCTGCAAATTCAAAGCCATCCATTTCAGGCATCATTAAATCAAGCAATATCAATCCTGGTTTAGAATTTTTTACAATTTCTAAACCTTGTTTACCATTTTTTGCTGTTTTCACTTTATAATTATTTTTTTCTAAATTTTTCTTCATCATTTCACTTGTAATTTCATCATCTTCAACGATTAAAATAGAATGAGAGTCAGAAAAAATTTGATGTTTTTTCAAAATTTCAGATAATTGATTCCAATCAACAGGTTTTGTTAGATAATCGGTTGCTCCAAGTGAATATCCAAGGTCTGGATCATCAACTAATGTTAACATAATTACTGGAATATTTTTGGTTTTTTCATTTTCTTTAAGAAGTGCTAAGACTTCCCATCCATCCATTCCTGGCATAATTACATCTAATGTTATTAAATCTGGCAAATGTTTTTCAGCTAATATCAAACCATCTTTACCAGTCTTAGCTTGAATTACTGAATAATCATGTTTTGATAATATTTTTTTCATCATGTCAAGTGAATTTATATCATCGTCAATAACTAAAACTTTGTATTTAAAATCTTCAAAAATTTCAGTCTGATTTGATTTTTTAACTTCTTTATCAATTTTATCAACTACTATTTTCGGAATAGAAACTGTAAAAGTAGTGCCTTCATTATAAATAGAACTAATATTGATAGTTCCACCCATCATTTCCGTAAACATTTTTGTGATAGTGAGACCAAGTCCGGTTCCACCAAATTTTCGTGTTGTATCTTCCTGAGCTTGTGTAAAAGGTTTGAAAACTTTATCGACTTGTTCATCAGTCATACCAATACCAGTATCTTTAACAATGAATATTATATTATCTAAATCAGAACGAACATTTAAAAAAACATTACCATTTTCAGTGAATTTTGATGCATTACTTAACAAATTAAACATAATTTGCCTGATTTTCGTTACATCAGCTTTAAATATTCCATCTAACAAACTCGATTCAATTTTTAATTTATTTTTATTTTTTTCAATAAGGGGTTTTATTGTTGATTCTACTTCCTGTAAAAGATTTTTAGGTGCATATTCTTCAATAAATAATTCCATTTTTCCAGATTCAACTTTTGAAAGATCTAAAATATCATTTATTAAACCTAATAAATGTTTTCCTGAACTATTTATTTTATCTAAATCAGGAATAAAATCTTGGTTTTCATCTTCAGCATCTTCGATAAGCATCTCACTATAACCAATGATTGCATTTAATGGAGTTCTAAGTTCATGACTCATATTTGCTAAAAATGTACTTTTAGCTTGATTGGCGTTTTCAGCATCAATTCTTGCTTTTCGAAGTTCATCAAGACTTGTCTTTAATTTATCAGATGTGATTTTTTCTTGCGTAATATCATCTGCTAAAATGAGTATATGAGAAGAAACACCTTTGCTGTCTTTTATTGCTATTTTTTTTGTTCTTAACCAGACCATCCCTTTAGAAGTTTTAAGTTTTTCTTCAGGAATTAATTTCAAATTTCCACTTTGAATTACATCTCTATCTGCTTTTTGAAATTCAACTACTTGATCTTTAGGAAAATAATCAAAATCTGTTTTACCATTCATACTTCCATATTTAATTTCATTCATTTGATAAAAACTTTTATTTACAAAAGTAAATGAAAGATTTTTACCTTCTTTTAAAATTACATTGGTCGGCATATTATCAAGAACTGATTCATATAAATCTTTAGTTTTTGAAATTTTTTCTTGAGCTTTTTGCAAAGTATCATTCATTTTCTTTCTATCGGTTATATCTTCTGCGATACCAAGCAAATGTGTAGGTTCTCCATTATCGTTTAAAATAGGAACTTTCTTAGTCCTTAACCAAAAAGTACCATGAGGAGTATCAATTTTCTCTTCAATTTCAATTAATTTTTTATTTCTTAAAACTTCTCTATCAGCATTTTGAAAACCTTTTGCTTGTGGAGCAGGAAAAAAATCAAAATCTGACTTACCAACCATACTATTTGGTTTTGCACTATTAAATTTTTCAAATGAAGTATTAACAAAAACTAACTTTAAATCAACAGCATCTTTTAAAAAAACATGAGCTGGCAAATTATTTAAAATTTTATAGAATAATTCAATATTTATCATTTCAAATGACATATGATTTGTTTAAAAACCACAAGACCTTTTTTTTAATTTAAGAAAATTTAAGGTTTATATTTTAA
>sequence24
ACCAAATGCTGTTGATTCAACTGATCAAAACTTCAATGACATTCCTGATTTTATAGACAATCTAGCCAATGCTGCTGATCACACATATGAAGTTTTAATTAATAACTTACATTACAATAAACCTCCATCTGATGGTTGGCAAGAACACAATGGAGGGAGTGATGCTTATGATATATACGTCAATGATTTAAATTTTGTTTTTTATGGGTACACAACTCCAGAAAATTTATCAAATTCATTTAATGGTGATAATGAAAATTCTCCCCAAAATGAAACAAATTCTGTAACAAGTTATATTGTTATAAATAATGATTTGGAATCAATGAATTGTGAGAGTTTTGATTGTGTCAAGACTACTTTTGCACATGAGTTTTTTCATGCAATTCAACTAGGTTATGACTCACGAGATCAACTTTGGTTTCTTGAAGCAACAGCCACATGGGTTGAAGATGAGGTTTTTGATGATATTAATGATAATTACCAATATTTAAAATTCTGGATGGAAATACCACATGTAGCATTGGATAAACATAGATCTCCATATTGGTATGGGAGTTGGATTTTTTTTAGATATATTTCAGAACACTTAGGTGGTCCTGAAACTATAAGAGAAATTTTTAATCAAAGCATAATAGATGATAATTCTATAGATAACTTCAATTTGGAAACAATTGATAAAATTTTAAAATCCAAAGGTTCTTCTTTTCGTGAGATATTAAACAAAATGTCAATTGCAAACTATTTACTAACTTCAAATTCGAACTTAACTGAATTTAATTATGAAGAAGCCGAGCAATACAGAGAATATGGAATTGAACCTCACATTCATCAATCTCTTGGAATTAATTCAACCAATACTTTGATTGAATATTTTGGCCCATCCTTTATGCATAATTCGTCGCATTATATCAACCTCAGTTTAAATAACGAAATTAATAACTTAGAAATAGACTTTTCTACATTAGAAAATTCAAATATGAGTGCTTATTTAATTTCAAATAGAACTTCAAATAATCTAAATATACACAGAATAAGAAATTCTACTCCAGTTCCTATATATAAAGGCAATAATTTATTATCCATTATTTTAACTACTGATACTGTAAGTTATTTTGATTATCATTATTCAATCAAATTAAAAACTGATATTAAATTTCCCACTTCACTTTATATAGATTATAATTTTCCTAATCCATTTAATAATTTTACTTGGATTCGTTTTTTTATTCCAGTATATGAAAATATATCTCTATCAATGATTGATATAAATGGAAGAAAAGTGAAAGATATTCCTATAGATAGATTTCAAGTTGGTTATAATGAATTAAAAGTGGATACAAGCAATTTAACATCTGGTATTTATTTTTTTAAACTTGACGGAGAAACTAACAGTATTTCAAAAAAAATTACATTAATCAAATGAAATCTTACCTGAAGAATATAATTCTACTAAACTATCATATCCCCCAATTGACTTACCATTAATCACAATTTGAGGAACAGTTAAACCACCTGTAATTTCTTTTAATTGGTCTCTACTCATATCTATTTTTTCAATATCAATCTCTTCAATTGAAATATTTCTTTCATTAAAAAATCTTTTAGCATAAATACATGAAGGACACCAACTAGTTGTATACATAATTATTTTCATCATAATGATTTTACTCTTAAACTTTAATTTTAAGCAACTCGCTCCAATCCGTTGTATATCTGGGTGATAGATTTTCTTTTTTTAAGCTCCATTTTCTATTGACACCATGCCCTAATAGTCTAATTTTATCTCTTCCCATAGCATCATTTATAGAATCTACAGCATCATATAAAATTCGTTGTTTTTCTGTTATTTGATGGTTGCTAAAAATATTTAATTGAATTTGATTCGCAGGTACAATATCTCCAACTATAACACCAGATTTTTTATATTCTAAATCTTCAATATAAATTGATTCTAAAATCTTAACAGCAATATTAACTAAATAAATTGTATTATTAGTTGGTAAATCTATAATTTTTGATTGATATCCATGGTAATATGCTTTTGGACTATCAAATCGATTAGTTTGAATTGAAACACTTATATATCTTGCACAACTACTTTCTCTCCTAAGTTTTTCAGCACATCTTGTTGCATGAGCAACAATTGATTCTTTAATTAATTTAAAATCTTTAATCTTTTTTCCAAATGACCTGGAAGTACAAATATTTTTTTTTCTGTTTTTATGTATTTCTAGAGATATTTTTTTATGACCTTTAAGTTCTTCTTGAGTTTTTAATCCGACTATAGTCATATTATTTAAAACCCAATTTTTATCCAAACAAATAAAATCATAAGCTGTTTTAATGCCATTTGAATATAACATTTTAGAATAACGTGATCCTATACCCCATATTTCTGATATTGGTAAATTTTTTAAAGCATGAATTGTATCATCATAATTAAACAATCCAAATATGCCAGAATTAGTCTTTCTTTTCGCTATATAATTTGCAACTTTAGCTAATGTCTTAGTAGGTCCAATACCAATAGATATAGGAATACCAGTCCATTTTTTTACAGTTGATTTCATATCTAAAGCTAATTCTATAGGATTTTTAATACCTGTAAAATTCATAAATGCTTCGTCAATACTATATATTTCTATTTCTGGAGACATTTTACTTAACAAAGACATTACTCTAGATGACATATCACCATAAAGAGAAAAGTTCGTAGAATAAACGTAAACATTGTTTTTAATAATGATATCTCTAACTTTAAAAACAGGGACTCCCATTTTTATTCCAAGCTTCTTTGCTTCATTACTCCTTGCAATAACACAACCATCATTATTAGATAAAACAAGGACAGGCTTATTATTTAAAACCGGGTTAAAAACTCTTTCGCAAGAAGCATAAAAATTATTGCAATCCGCTAATGCTATCATCGATTACTATGAATAGTATGTGTAACTACTCCCCAAATTTCAAATTCCATTTCATCAGTTATATTAATATCAGGATAATTCTCTGTTTTACTTTCAGCTCTCAGACAAATTCTTTGATCTTTAATAATGTATTTTTTCACTGTAAACTCTCCATTAACTATAGCGACTACAATATCATTATTTTTAGGGTTTAATGATTTGTCTACAACCAATAAATCCTTATCATTTATTCCAGCTTTTTCCATGGAAACACCTTTTGCTATAATGAAAAAAGTTGCAACTGGGTTTTTTACTAGATATTTATGCAAATTCAAATCCATATCAAGATAATCATCTGCCGGTGAAGGAAAACCAGCAGAAACACCACCCTCATATATGGGTAATTTTTTTAAAACATCACCCTTATTACCATAGAATATTATTTGTTCATTTTTACTTTTTTTCATTTTTCGTATATAATTGTCCACAAGCAGCATTTACATCTTTTCCTTGACTCCACCTAACTGTTATAATAGTACTTTCGTTTTTAATATTATTAATAAAATTATTAATCTCATACTCTGTAGGCCTCTTGAAACTCTCTCCTTTGATAGGATTATAAGGAATTACATTAAGTTTACAATGCAATGATTTAATAATTTTAGCAAGCCTTATAGCATCTTCATAAGTATCATTCACACCTGATATAAGCACATATTCAATCATCGCAGGTCTTTTCAACTTATCACCATAATCTTTCAAAGCATCTAAACATGATTTCAGATTGTACTTTTTATTAATTGGCATAAGTTTACTTCGCTCAAAATCATTTGTAGCATTAAGACTAAAGGCAATATTGTATGGATGTTTCTCTTTTGTATATTGCCTAATTTTTTTTACCATACCAACAGTTGATATTGTAATTTTTCTTGCTCCTATATTTAATCCTTTTTGATCATGAATGATATCAGCTGCTTTAATTACATTATTATAATTCATCATAGGTTCACCCATGCCCATAAAAACAATATTAGTAATCTTTTGCTTTGTCTCTTTTATAACAGATAAAAGCTGTCCCATAATTTCTGCAACTGTCAAATTTCTCAATATTCCCATTTTTGCTGTAGCGCAAAATTTACAATCTAATGCACAGCCCACTTGTGAAGACAAACAAACTGTATTTCTTTTTTGCTCTGGGATAAAAACTGTTTCAATAGATAATCCATCATTTAATTTAAATAAAAACTTTATTGAAGAAGTTTCTTTTGATATTACACTATCAGATATCTTAGGAAGGCTCAAAAAAGCTGAATTCTCAATATTTGATCTAAATCCCTTTGACAAATTTGTCATTCGAGAAAATTTGACCTCATTATACTGGTAAATCCATGAAAAAATTTGATCTCCTCTATATGACTCTTCATTAATAGATTCAGCAAAATTCCTTAATTCATTTCGAGTCAATCCTATTAGATTAATATTTGACATAAGTATTAGTCTTTAAAATCAAGAGGATTAATTATTATCTCTCTACGACCCTTAAAATAATCATATATAACATAACTTACCGAACTTAAAGGGATAAACCCTACTCCTTGTCTGTAAGCAGTAACTGCAGTACGAAATACTTTGTTAAAATTATAAAATTCTTTTATTGCTCTATAATTTAATAAAAAACCTAAGGAAGTAATTCCTAAACCTATTAAAGCTCCTTTTTTTACTGCTAAATCAGAAATAGAATTATCTAAATGTACCGATCTAATATCCCTGAGTTGTATTTCTTTTCTTAAACCATCTGATGAATTTTCATAAACAACTTTTGGATTATACATAAATAACTGATTTTGAAATTCCCTGTAGTGAATAGTATCATTTTTGACTGTTCTTATAAAACCTCCTCTTCCAATAGCTTTTTTAAAAAAAGTATTTATTTGAGGGTCTATATAAAACAATTTTCCTTTCGTATTATGAATATATAAAATCGAATCTAATAGAAGAGATATTGCCACATTAGATCGCAAAACAATATTAACCGAATCATGTGTTATTTTTGACACATATCCATTTTCTGAACTACCATTTTTTAAAATAATTTCGTGATTAATTTCTCCTTTAGAAAATGAAGATAATATTAAAAACATTAATACTAAATGCTCTATTTTTTGTTTTATATTCATAATATAAATTACACTTAATATATTAATTTTTAATACTTTGGTTTGAAATAAAATTATGATAAAAAAATTAAGTCATATAATATTCATTTTAATTTTCACCTCATCAGTTCAGGGGCAATATAAAATAAGCTATAGATTAGGATTAGGTATTGGTTTTACAAAACCAGACAACTTTAATTCATCTTTATCATCAATTGAGTTATCAAAAATTGGTTCTACTTGGTTTCCAATACATCATGATTTATCAATTAATATTTATCCATCATTAAGAATTGGTTATAAGAAATTATCTACTAAGCTAATAACATATAATAGGTCCTCAAATAATTATATTTTACCTATTATATTTCATGGAATAAACATTGAATCTTTTTTTACATTTAGAAAAAGATTTGAAATTAATTTTGGTCTTTCACCTATGCTAGGAAATGCGAAATTTATAAATAATAAATTAACAGCTACAGATGAAAAACTTGGGATAGAAGGTAAAACAACTGCTGAAATCAAAAATTCTACATTCGGTTTTTATAGTTCAATAGGTCTAAGAATGTATTTAATGTCATTTCTTTCTATTGATGGAAGTGTAGGATATATTTATGCCAAATTTGATGAAAAGTGGAAGAGTAAAGCTAATGAAAATCCTATTTCTGGAAGCATAGATATGACCAAGCCTTTTTTTCAAATATCAACAGTAGTTGGATGGTAAAAAAATGAATTTTTGTTTAAATCTATGTTTTTTTCTTTTGTTAATGACACCTCAATTAGTATTCAGTCAAAACTCAGAAATTGAAGAAATATCAAAAAAAGATATATTTCTCGTAAGTTGCAATCATCCAATCATTAATAAAGCAAGTCAAAGTGGACTAGCATCTCTAAAAATAAAAGAAATTCCTTCTTTTATATTTTTTAACATTAAATGTAAAGTTCAAGCTAGAAGAGAAAATATTAAACTTAAAAAATCTAATCTTTTTAAAGAGAAACAAACTTTTCAACATAATTTAAATAAAAAAATTTCTGGACCTGGTGCTTTAATAGCGAGTTTAAGTTCTCTAATTTTATTTTATACTTATATGGGTTTAATTGCTAATTCACAATAATCTTTTAAATTAATCTCTTTATAAAAATATAATTAAATATAAATTCACTTATTATTTGAGGAATGATGAAATAATCATTTAAAAAAAGGTTTGATTTTATTTCCTATTAAATCAATTGAATTGAGAAGTTTTTTATGAGATAATGCTGCAACATTCATTTGAAATGTTAATCTTGATATACCTCCTAAACTTTTACTATGATCATTTATTTTCTCAATAGCTTCATCTGGATCCCCAACAATCAAAGCACCCTTAGAACTTATCTGCTCTTTAAATCTATCACTAGTAACAGGGGGCCAACCTCTCTCTTTTCCTATCCTATTAAATACTTCTTTATATCCTGGATAAAAATCTTTAATTGCTTCTTCTTTGGAATTTGCTATATATCCTAAACAATGAATTCCAACTTTCATACTCTCTATGTCATGTCCAGAAGAAAGATATGCTTTTCGATATAAATCAACAAATGGTTCAAACCTTCTTACCTCTCCACCTATTATTGCTATCATCAATGGCAAACCAAGTTTGCCTGCTCTAATAAACGATTGCGGAGTACCCCCAACTCCTAACCAAATCGGTAATTTTTTTTGAACTGCTCTAGGATAAATTTTTTGATTTTCTAATTTAGGTCTGAATCTACCTGACCAATTTACTGTCTCATTATCTCTAATATTCAATAATAAATTTAATTTTTCTTCAAAGATATCATCATAATCATTAAAATCAATACCAAATAATGGAAATGCCTCGCTAAAAGAACCCCTTCCAGCTATAATTTCAGCTCTTCCATTAGAAATTATATCAAGTGTTGAAAAATTTTGGAAAACTCTAACTGGATCCGCTGCACCTAAAACTGTAACTGCACTAGTTAAACGAATTTTTTTTGTTTTTGATGCTGCTGCTGCTAAAATAACTGATGGTGCTGAATCTAAAAACTCTTCCCTGTAATGTTCACCAATACCAAAAATATCTAATCCTGATTTTTCTGAAAAAACTATTCTTTCTAACAAATCATTTATTGCTTGAACATTAGCCTTTTCATTTGATAGATGATTTCTATTATTTACAGCTGCAAAACTATCAATTCCGATTTCCATTAAAAATTATAAAACAATCATTAAAATAAAATATGATATGTTTGAAATAAATTTATATTCATTACATTTAAAATTTTGATCCATATATTTAAATTACATATATCTTAGGAGTAAAAAAACAGTTAGTGAATGCTATATTGAACTCCAATAGTTAATTGATTATCTAATTTCATTTTGACCCCTTTACTATACCATATAATTGGGCTTTGAAATTCAACTGCTAATCTTAAACCATTTAAAAATGAATCAGAAAACAAATAATTAATAGCTAGTCCACCCAGAAATAATTTACTCTCACTATTTTTAATATCAGACTCAGGGGTATTTGTTGCAATAATTAAATTATCACTTCCAGAAACAGAAGTTAAAAAATTATAACTTAATGTTGATGATATTGAAATTGAAGAATTAATATTTTTACTTACCCAACTATTAACATAATATTTACTACTATTTGAATATCCTGCTTCATTTTCAAAAAATCTAAACAAACCTCCAATTTGAGAACCATATGAAAAACTTTTAAAATATTTAATTGCGGTCAAACTAATTTTAGGGTCTATAGTTCCAGAACCAAGTTGCATTTCATAACTATTTCGCATCATTTCATGATCATGGCCTAAAAGCTCATGATCCTGATTATGCATTTCCATTCCCATCTTATGATTAGTGGTAATATCTCCAAACGGTAGGGATAAACCAATATTAGTATGAATTTTTAATTTATTTTGATTATACAAAGAAATCATAAATGAAATAGATGGATCTCCTATTCCTATTGTCGAATGATTCATTTTCATCTCTGAATGTGAATGCCCATCATCTGTATTTGCTCTTATATCGACCAACTTATTCATCTTCATTTCATTTTGAATAAAATTCAACATTATCATTATAGTTATCTTATCTGAAACACCATACATCACACCAAACATATCCATTTTCATTAACATATTTTGGCTATAATAATTATATCCAAAATCATAAATATCTTCAATTGACATTATATTATTATTATTATAATGCCAACCATTTGAAAAATAATTTCCATTCATAGTCATCATCATTCTTCTGTATGAAAACATCAACTCTTTTTTTTTGTGTATATGATCACCCATAATAGAAATAGGTGCGTGTTCATCAGGTTTTGACGAAGCTATCAGAAGAAAATTTTGAAATAAAAATAAAATTAAAATAAGTTTTTTTATCATCGGTAAACGACGAATTTAAATATTAAATATTAAAAAAAAATAAGTTTTTTACTTTAAATAAATTATTTTTTGTGTTCTTTGCATATCATTTGAAACAAAATTTATAAAGTATATACCGCCTGCTACTCTTTCATTTAAATCATTTTTTGCATTCCATACCAATTTGTTTTTTCCATTAATAAATTGTTTATTTAAAAGGGACACAATTTTATTGCCACTAATATCATAAACATCAATTCCTAGTTCAATTTTCTCTAATGTTTCAAATTCAATATTGATGTTCGAATTAAATGGATTTGGATAAATAGATTTGATTTCAAACGAATTTGGTAAAATTAATTTATCATTCAAACTTAATCTTGATTCGGAATCCATCCAATTTAATCGATTTTTAGTCCATAATTTTAAATAAGCTATTTCTTCTTCATAAGTATCAAAAACATAATAATTTGGCCATAGGTATGTTCCTAAGTTTGGCCATCTATTATAATTACGTTCGATAGCATCTCCCAAATAGTTTGACATACTATCTATTTTGGAAAAAATATTTTTTTCAGATAAAACAGAATATCTTAAATCAGTATATCGTTTTGAAAATTTTTTTTGAAAGTTTTCATCATTCCATAATTTTTTCCACCAAAACGCAATTGGATCATCTGTTGGATTATATTCTAAAAGCCAGCCTGAAGTAGTCCAAGTTTCACCATAATCACAATTACCATATCCATGATTTAAATCCCAAATAGGGCCTGCAAATAATTTATTTCCAAGACTTTCTTTTTCTTTATATACATAAGTGCTTAATCTATATGCATCTACATTTTTTGATAATTCTTGTAAAATTATTAAATCAATAAATGAATTCACATCGATAATATTTTGATATTCCATTTCTTGGTCTGAATATAAATCACTACTTATTATTTTTTCAAAATCATCAATATAATTTTGTATATAAGTTTTTTGTTTTTGAACAATATCACTTGGTTTTGGATAATGGTAATTATAAAATGTTCCAAATAAAGATTCAAAACCTCCTAAATTATCTCCTGTCCATGCCCAATCAAATTTTAAAATATATCCTCCTGTTAAATCATCTCCCTCAGTTTCATTTTCATCTAATTTTGAAATATTAATTCTATTTTTGTCTCTTTTAATCTTTTCCATTAAAACATAAATGCCTTGATATTGACCATTTAACCATAATTCACAAAATTTTGATCGAGCCGAATATCTTCCCATTTCTTGAGATAATTGATAAGTAAGAACATTTCTCATTAATGATTTATCTGACCAAGGTGCATATAAAACCCAATCATTTTCATTAGGCATTCCTAATAATGAAACATTATTATTTTCACCTTTATTATTAACTGTTTCAAAACGATAAGGTTTTTTTGGTTGAAACTGTGATGTATTTCCTCTTAGCTCAATTGTAATAGGACCATCATAATCATTAAAATCATCATTTATTTTATTTATTATATTGGAGTTATTTATTATTCCCATATGAGCTGGTATTCTTGGTTCATCTGGAATAATTTCTCCAAAAGTATTAATCATAATAATAGGCAGATTACTTTGATTATATGAAATTGGAACTCTAAACCAATCAGGAACATTTCCAAATAAATCAGAGGGGTTTAACATTTTAAATGAAAGAAAAAAATTTGAAGAAATATCTGAAGAACTTTCTCCCACATTATGAACCTGAATTGCTAAAACATTATCTTTGGTGAGTAAAATTTCTTTTAAAAATAAAGAGTCAATTAAAAACGTTTCTGGTTCACCACCATCTTGCATTTTTGCCTCATGATCATTTGAAGTTGTCATATCAAATGGAACAAAACTATTTTCTTGTCCTAAATTTTGAGACCTAGCTATCTCATAACCATTTATATATGCAACAAAACCATCATCGTAATCAGCACTAAGAATTCCAGCTTTAATATCTTCTAAATTTTCAATCCTAAATTTTTTTCTTAAATAAACAGATAATGTGTTATCTATAATTGTACCGTCATCATCATCGGAATAACCAAACCCTCCAATTCCTGAAGACCAACTTGAATCATTAAATTCAAATAGGTTCCAATTTTCAGAAATTTCTTCAGATGGAAGATAATATTTCCATATATCATTTGAATAAATAGCAGTTTGCCAATTTTGTTGAGAAAATAAAACGCAAAGATTTAAAAAAATAATTATTAATGTTTTAATCATAATTGAATATTAATATCATAATTGAATACTAACATAATTATATTTAAAGTAAAAGAATGAATCCATTTGTATTTCAAATTAATATTAAACCAATTAGTAAAGAAAATATAGGTTTACCAAAAGAAAAAATTCAACAATCCAAATTAAATTTTAATGGATTAGAAAATGATTATAATCATTATAGATACAAAAAAAAACAAATAGATCCAAAAATGGCCTTATTAATTATATCCCATGATTTAATAAAAAATTACAATCAAAACGGATGGCCAGTTAAAGCTGGTGATTTGGGAGAAAATTTAACTATTAAAAATTTAACTTATTCTTCCATTAAACCTCATCAAAAATATCAAATAGGAAATACTAAAATTCAAATTACTTTTCAATGTGATCCTTGTAGAAAATTAAGATTTTTACCATATGTTGGGAATTCTAAAATAAATCAATTCATCAAATTTCTTATGGGTATAAGAGGATGGTATGCAAAAGTCCTAGAAACTGGGACTATTTCTCAAAATGATTCATTTGAATTAATTAAATAATGATATTAGAAACTTATAAATAAATATCAATGTTCATAATTATTTCATTTATTCTCATTATAACATTCTTAATCCTATTAATAGGAAAATTTAAAATCCACCCATTTATTACACTTTTATTAACATCTTTAATCATTGGTAAATTAGGGGGTTTGGATAATCTAATAATAGTTGAAAGTATCAAATCAGGCTTTGGAAATACTTTGAAATCAATTGGAATAATTATTGCTTTTGGAACAATTATTGGTACATACCTTAATAAAAATGGAGGTGCGTTTTATATTTCTAATCTTATTTTAAATACTATTGGAAAAAACAAAACTAGTCTTGCTATGAATATTACTGGCTTTTTTGTGTCTATACCAGTGTTTTGTGATTCAGGATTTATTATTTTATCTCCAATTTGTCAATCATTAAGTAAAAAAATTGGAACTTCAATAACAGTTTTAGCTGTTTCATTAGCAACTGGTCTATATGCTACTCATGTATTTGTTCCTCCTACACCAGGACCTTTAGCATCTGCATCTATTTTTGGAGCAGATATTGGATTAGTATTGATTTTTGGATTACTTATCGGTATACCTGTATCACTCTCTGGATGGATTTGGTCAATTACTTTTTGCAAAAAATTTAATATTTCAGGACATTTTGATAAAATTGATTTTAATAAAAATATTAATAATTTGGTAATCTTACCTATTTTAATTCCAATTTTTTTAATAGGATTAAAATCTATCATACAAAATATATACTTCGATCAAAGCGAATCTTTTTATGTATCTTCGATATTGTTTTTAGGAGAACCTATTATATCTCTCATGATAGGAGTTTTTTTATCAATGATATCTACTTTTGATAGACCTCTAACTCTTCAATTTGACTGGTTTAATGATTCACTTAAAACTGCTGGACCAATTTTATTAATTATTGGAGCTGGTGGTTCACTCGGAAATATTTTACGTGATATTGGAATTGAAGAAATTGTTGGAACAAATCTTGAAAATTTAAATATTGGTATTTTTCTACCTTTTATAATTGCTGCTTTAATTAAAAGTGCCCAAGGTTCATCAACCGTTTCAATAATAACAACATCGTCTATAATAGCACCATTTTTAAATACTTTAGGATTATCTGGAGAAATTGGAAAGGTACTTGCAGTATTATCTGTTGGAGCTGGAGCAATGACAGTAAGCCATGTAAATGATAGTTATTTTTGGATGGTATCTCAGTTTTCCAAGATGGATACCTCAATTGCTCTAAAAACATTAACTATAGGAACTTTAATTCAAGGTTTAGTAGGTATAACAATTATATTTTTAATATCGTTAATATTAATCTAATTCAAATTTTTAATTATATTATTTAAAACAAAATCAAATAAATAAAATGTAAAAAGCTACTTTTTTATTCTATAATTATTTCGTCGATATGCAATTCAAACTGCTCTGCTTTCTTATTTCCTATTAAAAAACCAAGCTCAACAATCTTTTGTGAATCAAAATTTGGAATATCTAAAGTTCTTCCTCTGAAAAGTGGATATAAATCTTTCAATGGAAATTCATATATGAACCAATTTTTAGAAGTTTTAAAATTTATAGCATAAGAATGATAATCATAATAATTAGATTTTATTCTTAATTGATATGTTTTACCATCACCTTTCATTCTAATTGACAACTTTTGAAAGTTATCTGTTTTTATTGCTTTAAATCTATACCTAACTGAAGAAAATCCACCATTATTTTCTAGAGATACTATTCCTTTAAATATTCCATGACCATCTTCCGATAGAAACATCTTCCCAGATGATCTTCCACCCATAACATTATCATCTACAATATTCCATCCAGAAATTGTTTTGTCTTTTTTAAAGTCAAAAATTGTTAATGAATTATTATTTGAAAAGAGCATAATTATAAGTAAAAAGTTAATAAAATTTATCATTTTTAATTTTTAAATGTTCTCATATAGTGAAATAGATATTGCTGTGCGTATCCATAATTTGGTTTAAAATGTCTTTTAATAAAATTATTTATTGTTTTTTTATTTGGATTACCCTTGAAATATAATTGACTAATTGCTTTATTGATCCAAGTATCTACTGGGAATGACTCTTGAAATCCATAACTGAATAATAAAATACAATCTGCAACCTTAGGACCTACACCAGGTAAAGTTAATAATTTGCTCCTTGCTAAATTATAATTTAAAGTTCTCAGTTCATTTAAATTTATTTTATTTGAAGAAACCATCTGAGCAGTTTTTAAAAGATATTTAGCCCTATATCCCATACCACACTGCATAAGATCATCCTCGCTACATAGAGAAATTTTATATGCTGAAGGAAAAGACATTAAATTATTTTTAGATAATTCTCCAAAATTATTACAAATTTTTTCAATTATCCTCTCTATTTGAATGATTTGCTTATTACTTGAACAAATAAAACTAGCTATAGTTTCCCATGGATCTTGTTTTAGTATTCTCAAACCACTAAATAGATTTACTGCTTCCTTTAAATAAGAATCATTTTTGGGGAAATTTCTATAAATTTTATTTAAATCTATATTGATTTGCAGATAATCCTCTAACCATACAGAATCTTTAATAAAAGGAGTGACTTCAGCAATTAATGAAGATTTATTTTTTTTTAATTTAACATATTTATTACTTATAATATTTTCCCAATGATTATTTATTTTTTTCCATCTGAATGTTTGACCAGATGTTAATGTAGCTTCAAGATCATAATTTATATTTTCAAAAATAAATAAAGATGATTTAGCCATAAAAAAGTTGTCTATGTCTTCGCAATAGACAATCATTCATAATAAATAACATATTATTTTTTTCTGCTAATTCTTTTGCTTCTAAACTTATTACACTATCCTGTAACCACAATGCTTTTGCATTTATTTGTACTGCTTCTTGAGCAATTGAATAAACATGTTCTGATCTTCTAAAAACATCCACAATATCAATTTCTTCTTGTATGTCAAGCAAAGAAGGATAACATTTTAGTCCAATAATTTCTTCTTGGCTAGGATTAACAGGAATAATTTTATAACCATTTTCTTGAAGATATAAAGAAACATAATGGCTGGGACGTTCCAGCCTTGGACTCATTCCTACTACAGCAATTGTTTTAAAGCCTAAAATTTTTTTTACTATTGTTGTATCTGTCATAAATATATAATAACCCCGCTAAAAAACGGGGTTATATATTAATAAATATAATTAAAATTACTCAAATTTCTCAAGAGACCAACCGATAGAAGCACCTATAAAACCACCAATAATTCCACTACTAATAAAATCAATTATTATATAATCTAAGGTAATAAAACCATCCATTAATGCAAAAAATTGCAAATTAATAAACATAAAAAATAAAGCATTTATCCAAGCACCATTAATAGCTCCATCTTTTAAACCTTTTATATTCATTTTATCTAAAATTAAAATCATGGTAATGTTAAAACATAGTATAGCAAACATAAAAATTCCAAAATCTGGAGAAGGTTTCATTATTCCAGGAAAATCTGCTATCCATTTTTCCATATGTGAACCATAGTAAAGTAATTGCGCAGGTATACTCGCAACTATAGCAGTAACAACTGAAATCAATAAAGATAATATATATTTTTTCATAATATTCCCCATTTAGTTATAGGTAATATAAAAAAAAAAAATTAGTTGAATAATAAACTATTTATTTTAGATTAAATAAAATTGGCTCAAAAGAAAA
>sequence25
AAAAAATAAGTTCACTAATATAAGGACTTACAAGGCAACAACCCGAGTTCAAATCCCTGTCTCTCCGCATCAAAATAAATTTTGCTGAAATTATGTCAAGAATGAAGTTTTATCCTGAGGTCCAAAGCATATAGGTATGTACAAAATAAAAAGAACTTTGGAAAAGTATTATTAGATTTTAAAGAAGATTATGATGAGTAAAATAAAAATAATCATATTGCCAATTTTTTGTAGTTCATTATTATTTTCATCAAATACTATTGAATATTCAATTGGATTAAACGATAAGCTTGGATACTTTGGACCGTTTACCAAAAGTTGGATAAAAGAAAAAGATAATAAAGAATCTTATATAGTAGTTGGTTCATTAGGACTTTTAGGTGGAGTTGGATATGGTCAAAAATATTATTTTTCTAAGGGGTTTTTTACACCATATTTTTCATTAACAGGTTTTGGATATTATGTTCTTGCTATAGGTGCAGTTGGGTCTTTAGGTGTTTCAGGTACTTTGGGTTTTGATATGACTGCAATTAAATGGAAAAAGAAAGAAATTATTTTACAATTTGGTATAACTTCATTATATGATTTAATTAGAGGTGAGAATCTAACAATTGGTGCGGACAATGGACCATCTTTTCTTATGCCTTCATTTAATATCAAATTTAAAAATAGAAAATGATAATATAATTATTTAGGAGATAAAAAATGTTAAAATGGCATAGAAATACAACTGATTGGTTTCAAAATAAAATTGGTATATCTAATTATGTTATGTTATGGATATCTTATATCAAGGGATTAATACTTGGTTTATTAATATATCATTTTTTAATTAAATAATTATTGTATGAGAATTAAAAATTTAAAATATATATTAATATGTATTTTATTACTCTCAAATCTTTGGGGTCAAAAAGAATTAAATGGTTTATGGATAGATGACGAAAATAGAGTTTTTGAGTATCCAAAATTACAATCAACAGGATATGAAATATTTAAAGGTAAATCATCTCAATTTGTTAAAGAGTGGAGAATTACATGTCAAATTTTAGATAATAAAATTTCATGTATAGATACCATATATAATAATTACAAATTAATTGATGCGTGGTTTGGTGATTCCTATATCATTTGTGAAAACCCTAATCCAATAGATAATGGAGAAATCGAAGAAAATATTAGGTATTTTACACTAGTAAAGGATGATGAGATTTTAGTTGGTAATATAATATATTCAAAATTTGAATTATCTGATGATATAAAAGATGTAGAGAAAGTAATGATAGGTGAGTTAGAAAAGGTAAATCCTTTTCATGATAACAATCTTTCTAATTGATATTATAAATTAAATGAATAAGGAGAAAAATCATTTGGTCAAGATCAGTAAATATATATTAACGGTTATGATTATTCTAATTTTTACATCTTGTTATAATATTTCTAAAAAAAAATTGGCAACTGGAGCTATTTTATTACAGACTTTAGACCAATTTCATAGACCTGAAAGTGTTGTTTTTAGTTTAAATGGAAAATACCTCTATGTAGGTAATTGCGCATCAGATCTTTTTGGAGAACAAAAGGAAAAAGTAGGTTTTTTGAGAGGAGGAGGTGCTATAAGTCGTTGTACCGTTGATGAAAATGGAAATGTTGAGGTAGAAAAACAAAAGTTTATTACTGGTCTAAATGGTCCTACTGGTCTTTGTATACTTCCGAAGGCAACAAAAAAATACCCAGTAGGAACTCTTATGGTAAATCAAGGTATGTCGCTACAGGTTGATAATGATGGAAATAGTATTACTAATTTAGAAGACCTTGGAGTTGGTGTACATTTTTATGATCCTAATAACGGCAAATTATTAGGTCGAATTCCAATGGGTCCAGGAAGTAAAGCTGCTACTGCAATTGGTCATGTACCATTGCTTCTTAATAGTATGGCATTTGATATGAATGGAAATCTTTATATAACTGATACTGCTATTGGTGGAGATCGTTTAATTCCAAGAGCTTATCAGTATCCAGGATTAATACGAATTGAACATTCATCAATTGATAATATATCCGAAGATGGTATCAGTTTTACATTTATTCCAGGAGTTCCTAATGGAATTAATTTTTGGGAAAAGGAAGATGCTATGGTTTTAGTTACAATGGGCGGTAATGATAAGCCTGGTGGTACTGCAATTTATAAACTTCCTATAGAATCATTTCCAATGAAAACTGTTCCAGCTCCTTTATTTAATGATGTTGGCAGAGCGGATGGAATAGCATTTTCACCAAAAGGAACTATTATAACTTCACGTTTTTCAGGAGATTTATTGGCTATTCCTATAAATGGTCAACCTCGTTCATTGATTCTTGAACCCTTCAAAGCTCCAGCTGACCATCGTTTGTTAACACTTGAAGATGGAAGTTCTATTCTTGCAGTTCCCGAACAAGATCGTACAGATCCAAAACCTTGGAAACAAAATGTTAAAATAATTAAAATCCCTAAAAAGTTTTAATAGTTAGTTTTTTTTAAAAGGAGATAAATTAAAGAATGAAACATTTATTGATTTTACTATTTTTTATTAGTTTGGTCTATTCAAACTCTGATAATCATGATCAAGATAGACCGAATATTCTTTTTATTTATTCTGATGATCATACTTTTCAAGCTGTTAGTGCATATGAAAGTTTTTTATCAGGTGTTGTAGAAACACCCAATTTAGATCGAATAGCAAATGAAGGAATGCTTTTTGAAAATGCATTCAATACAAATTCTATTTGTACTCCAGCACGTGCAACTGTTTTAACAGGTAAATATGGTCATAACAATGGTTTAAATACCCTAGATAGAGCATTTGATGGCAGTCAACAAACATTTCCAAAACTATTACAAAATGCGGGATATTATACAGCTGTTGTAGGTAAATGGCATTTGAAAACAATTCCAACCGGTTTTGATTATTATAATATTATGCCCGTTCAGGGACGTTACTTTAATCCAATAATGACAGAGACAGGAATGCCTTGGTATCAAGTTCCTGGTGGAGATCCTGATATTCCATATTGGAGAGTAGAAATGGATAAGCCTGGTGGACTTTATTCGAAAGGTATAAAAGAATATAAGGGGCATGTTACTGATGTTGTTACTGATATCTCGCTAGATGTTTTAAAAAATCGACCTAAGGATAAGCCTTTTATGATAATGTATCAACACAAGGCACCACATGATTTATTTGAATATGATAAGAAATATGCTGATCTTTATAAAAATATTGATATTCCTGAACCAATAAGTTTACATGATAATTACGATAACAGAAGTACAGCGATTAAAAGAACTATTCAAAAAGTGCATATGGAATATGGAGATGAATTTTCAGAAGCTGTTGAAGATGGAGAGCTTATTCCAGAGCAAGACAGATATTTATTTTTCCCAACATTAGAATATTTGCATCAATATTTACATGAAAATAAAACTAATGAATTTGATAATATTTTGATGTCAATTAAAAATAATGATAATCCATTTAAGAGTATGATAAAATCTATTTTTGGAAATAATAAAACTGATTTGTCAACTGAAGACCGTAGAACTCTTGCATATCAGATGTATATTAAAGCTTATTTGAGATGCGTCGCAGGAATTGATGATAATATCGGAAGGGTTTTAGACTATCTTGATAAAGAAGGTTTGGCTGAAAATACAATAGTTGTTTATACATCAGACCAAGGGTTTTTTCTCGGAGAACATAATCTTTTTGATAAAAGATTTATGTATGAGGAATCATTACGGGTTCCATTGATGGTTAGATATCCTAAAAAAATTAGAGCAGGATCTGTAACAACTGATTTTGCTATAAATACAGATCTTGCTCCTACATTCTTAGATTTGGCTGGTGTTGATATTCCAAAAGATATGGATGGTGTAAGCTTTAAACCAGTATTAGAAGGTAATACGCCTGATGATTGGCAAACAGATATGTATTATCGCTATTGGATGCATCGTGCTCATTTTAATATTCCAGCTCATTATGGTATAAGAACACAAAGATATAAGTTAATTTTTTATTATGGGCTTCCATTAGATGCTAAAGGAGCATATGAAATATCTACAACTCCAGAATGGGAATTATTTGATTTGAAAAATGATCCAAATGAGATGAATAATATTTATAATGACCCAAGCTACAGTAATTTAATTAAAGAGTTAAAAACACGATTGCTTGAATTAAAAGAACAATATGGTGATCGAGATGAAAAGTATCCAGAGCTTATGTCAGTTAGAAAGAAGTTTTGGTAGAAATGGGTATTTTTTATAAAGTTGAAAAGATAAAAAAAAATATATGGTAGATAAAAATAAAAAGAATTCTAAAAGGAAATCCGTGATAAACATTAATGATAAAGGTAGAATAGATTCTAACTATAATTTTATTTTACCTATTTCAGATGATGAGCTTAAAGTTAAAATCATTAATAATGCTTTCTCTAAACCAGAATCAATTGATGAAATAATGTATTATAAAACATTGAGTTTAGAAGGTAAAAATGATTATAAAATAAATTTTCTTAAAAATATTAATTTTACTCAAGTATGGAAAACTTATACTTTTAATGAGTTGGTATTATATTGGCAAAACAATATAACTAAATTAGCTAAAGAAGAGGGTCATGGTAAAAGAAAACATTCAGATGTCCCAGACCCTAAAATTTATGCTAAAGCAGGTGAGGGTATATTTAAGTCTTTGGAGGAAGACAAGTTACTTTTATTATTTCAAACCAACCATATAGAACCAACTATATGTTCTGTTAGAAACCAAGTCTATAGGCAAGCTTTAATATTAGCTTGTTTTCAAGATGCAATTAAAATAGGAATGTTAGACTTGGGTGTAGGTATAACTGAAGGGATGTCAAAACATTTGTTGTTTCCCAGATATATTTATGAATGGGGTTTTATAAAGGCTCTGATCTATGAAAATGAGGATTTAGCACCGAGAAAATTAACTGATGAAATGTTACAACATTTACAAGATGCAGACTTTAGAGAAAGAATAAGAAGATTTGATATGTTTGACAAAGAATTGACACCTCAAATAAGACCAAGAGAACCAGATAGTTTGTCTGATATAAAAGAAGCTAATGATTGGAAAGATGTTCAAATAAGTTTGAAATTAATTATTGCTGGAAGTTTTGGTGTAAGGGTAAAATTAAATAATTGGGGTAAGTCAAGAGATTATCAATTAAAGGATTTCGGTTTTCTTTCAAAAGAGGGAAAGTTAAATGTAGGTTTTCAAAAATTTATCTTAATGGCATTTAATGGTTATTATTTGTCTGAAAAAAATAGTAATCAAAAGGTACTTCAAAATCAATTAAATAAAATTAATAAAAGTTTTAAAGATGCTTTTGGTATAAAAGAAGATCCAATCTATTATAACCAAGAATCAAAAGTTTATACATATAAATTTGATATCTTAAAAATTGATGGAAAAGCTGATTATAAACATTTTAGTCATTCATTATATTATGATCAAGCCGTTGCACCAGACGAATCACCAAAGCAATTACTTTTTAATGAGATTAAAATAATAAATGAAAAATATCAATCTAATGAAAAACTTGAACCAGACGAACATCAAAATTTATCGAGCTATTGGACTAGATTTATTCAGCCTTTAAGACCTGACATAATTCGCCCTTCTGATATTTATGATGAATATTTAAATGAATTAGAGGGTAGATTGCATATTGAAAAAGAATTTACAAAAAGGTTAAATAATGAATAGGCATGTTGAATTAAATGAAAGAGACATTCAAATATCAGAGTTTCAAGATTTATTAATAAAACTTATATTTGACGATAGTCCACCTTCTCCTCCTATGAACAGAAGGCAGCACAAGTTAGTTACGAGTTTATGGTATAAATATAAAAGTCAGAATCAATATTATCTTACAGAAATCTTTAAGCCTAATGATAGTTATGAAGATTATTTAAAAGAAAGAAGTGAGGCTAAGATTGTTAATTCTAAATCACTTTATACCAAACCAAAAGATTTTATTATTGAGATAGATGCTTGTTTTTCTCCTAATAGTTGAGACATGAATCCTTAATTTAAAAAACTACTAAAAAAACAGATGAAAAATTTTCAATTAAAGTTATTTTGTTTATTTTTGTTATTATTATCATGTGATGAAAATATTGATTATGGATTAATTAAAGATGAACCATGTACTGCAGTATATTCTCCTGTTTGCGGTTCTGATGGAATAACTTATGGTAATGATTGTTATGCTCGAAATGCTGGCGTGGATGAATATTCAGAAGGTGAGTGTGAGGGTTTATAATCAAAAGGTTGATTGATATTTTTTATATTGTATATTTATGAAGGAAATTTTCAAACGTATTACTGAAATCTTTTTTAAAAGATTTTTGATAATTTTATTGTTAATATTTTTTATTATTTTTCTCAATTACATCGATTTTTAATAATGAATTTTGTAGATTATTTATAATTTAATTATTTTAAAATGTATAGATTATTTAAACTTCTCACTTTTAAAAAACTTCAATTATTAATTACTGGGTTTAAGCTTGGTCTTTTTATTGCTACAAGAAGACAGCAAATCCTTTTTTATTTAAAGATTATAAGACATTTAAAATTTGAAGATTTAATTAAATTTTTTCGAATGATAAAAAAATCTATTTATAAACAGCTAAAAAAATAATCTTCTTAAAAAATCATTTCTTAAAGTTTTTGTTTTATTTTACTTAAAATATTATTTATATTTAAGTATAATATTTAAATAATTAAGGTGTTTGTAAAATGAAAATTAAAAATCTTTTGTTTTTTGGTCTCTCTTTTTTTGTTATTTCCTGCGATAGTGAAGATACTAGTGCCGAGTCTGAGGATTCTTCTTCAAATGTTGATTTAACTGGAGTTTGGACTAGAACTAACTCTGGAAATTATTTCGGTACTTGTTTAGATACTCCACCTGATAGTTTAGATTATCCCTCGTCGACTTCATTTTCTTATACTTTAGCTGAAGACGGAACATATACTACAGATGCATACTCTCTTTTAATTGATTGTGCAAATCCAGAAGATGATGAAATGTATCAGTATCAATGTGTTGGTGAATGGGTTTCGGATGGAACTTCAGTATTTTTCTTGAATGATATGCTTACAGAGATGACAGATATAACTAATATAAATGATGTTATTGCTTTTGGAGATCAATGGTTTTCTTTTTATGAACTAAATGATGATTTAACTGAATTTTCAATTGGTTTAGAATCTACAACTGGTTTAGGTGACATGTGCCAATATGATTTATTTGTAAAACAGTAAGATTTGAATTTAATATTTAATAGTAAGAAATGATTTATTGATGACTATTTTTGTTTTATGCTTATCTTTATTGGTTTATCTACATATTTCTGCATAATTTATTTGTTATAAATAAATTTTAAGGAGATGCAATGGAAAAACCCCTAAACAAAATTTTAGTTTTTTTAAGATATGTTTTATTATCTATTATTACCTTGGGTATTTATCCATTTTACTTTTATGTTATAAGAGCAGAAATGAATAATAGGTTATTAACAGATATTCTTACAGAGATTAAAAAAAATAAAGAATTAAGCTAGAACAAAAAAAAGTTTTTTTTAACGTATAATTTAATTGATTTTTAACAAGGACACTTACAACCATCGCCTAAGTTCAAATACTTCACAGGTAACTCCTTAATAATTATGCTTTTTAAAAGATAATGTATATTTTAGCAAGGATATTTTTTCTTTTTTTTACATTTACAACGCTTTGCAAATTTAATTTTAAACATAATTTATTATTTATTTTTTTGATCTAATTTATTGATGGAGTTATTTTCTTAAACTGTAATCAAAGAATATATTAAAAATATTGTGCTAATGATGAAGCCAATCCATGCTCCAGCATATTTTATATTTTGAACAATGCTACGATTGTTTGACATATTTGTTAAATCAGAGTATTTATCCATTACAATATACATACATCCAAAAATTGACCAACTTGCAGCAGAAGAAAAATCTGAAACTCTAAGATAGATCAAACCAATAGCAATTAGTTCAAACCCTATCAGCAAATTTAATATTTCCATTGTTTTATTCATTTTTAACAAACGCACTCATCATCGCAACATGATAGATCTTCTAAATAGAAATTGTAATCTTTATATTCTTGAATAACATCTTTTAATTTTTTTTGACCTATTTTTTTTGTTTTTGCAATCTTTTCTGCAACAATTGCAAATCTTTGTCTGTATTTGTAGATAAAACAAAATAATGCTGAACCGTGTTTAACTTGAGGCCCAACTAAAAAAAGATTTTTTGTTTTTTGTGATTCATCAAAATCATTTAATAAAGGATAACCTTCATCAAAGTCAAATAAATTCTCAACTAATGTTAGGCTAGTAGCAAAACCAGTACAATTTATTGGCTTTGTTTTAGAATTAAAGGTTTTATTATTGGAGGTTTTTATAGTGTATTGATTATTTTCAAATTTAACTTCTTTTACTGATGTTTTTTTATGATAATGAATATCATTCATAGCATTTTCAATTCTATCTCTAGTAAAAGGGGAGAGTGAATAGCTTGAATCACTATTTACTAAATGCAAATAATCTGAACTGTCAAGGAGAAGAACTTTTTTTCCTAACTCTGATAAATTTACTGCTGCATCAAATCCAGATTCATATGAACCAATAACAACTTTTTTTTCACCTTCTAGATCGGAGAAGGACTTTACCTGAGAGTAATGTGTGCAATGCTCATAACCTTTAAATGATTCTTTTTTAGGATATTGATATTCACCAGCAGCCCAAATAACAAATTTACTTTTGTAATCTTTATTATTTGTTTTAATTATAAAAGATTTTTCATTCTTTTCAATTTTTTTAACATTAACTCTAGTCTTAACATTTAATTCAAAGAATTCTGATATGCTAACTAAATATTTTGCATAATCTGTACCTGTAGGATGTTCAGTTCGAAGATAAAATGCTGGAGAAGTATCTGGAGTAATAGCGTTTAAATCAACCATTTTAAAAAAATTTCCTGTAAATGAAGGAGATATAAAACGTGTTTCTTTAGGCCACTTACGAAAAGAAGAACCAATTGAATTTTTTTCTAAAATAATATAATTGATACCTAATTTTTCTAAAATAATCCCAACACCTAAACCAGCAGGGCCTGCTCCAACAATGGTAACATCATATTTAAAATCAGTGTTATTTTTATTTTTTGTCATTTTTAGTTTTAGCTAGGTAATTAGACTTCGTTTATTTTTTAATAGTTAAAAATTTTTTTCAAATAATTTATATTTTTTAAATAATGTAAAAAATTATATCTAAATATAATGAATAGTATTATATTGAAAATAACAAACATTATAAGGTATATATTATGAAATATTTTCAAGGAATGTTAACTGGTTTTTTCGTTTCTCTTTGTTTTTTACTAATCACTGCTTCAGATCATCATAAACCTAATAAAAAACCAATAAAAGCAAGTCAATATAAAGTTGTTAGCGCAATGTTAAAGGATAAATTAGAAGTTAAAATAGAACAACATCTTAAAGATGGTTGGAGACTTAGAGGAGATATATTAGGTTCTGATGTAGGAACATTAGGCTTGATTCAAGTAATGGTTAAGTGATTTTTATTTATATTTATTGCTAAAACTTTTAAGAAAATTTGATTCTGCATGTAATTTTAAAATAAATTTTAATTATGGGAAAAAATATCATCCTTTTTTAAAATTTGTTTACTTACATGTAGATAAATTTTCTAATATTTTTTTAATACATCTATGTTAACATATAGTTTTTAATATAAATTTATTGTCACACTTTTTTATAATTATTAAGAGGTATTTTAGTCAAAATGAAACTTATTTATTACCAATTATTTTTTTATTTATTTTTCCTCAACATAGTTGAATCAAAAGTTCAAGATAATATTGTTTCTGGAACTGTATCAGATTCTTCAGGAGTATTACCTTTTGCAAATGTTTTTTTAAAAAATACATCTATAGGAACTACAACAGATCAATTTGGAAATTTTAATTTAAAAAATATTCCAGATGGTGAATATACAATAGTTGCTTCTTTTATATCCTATGTTAATGATAAAAGAAATATATCTATATATGGAGACTCTACTATTATTATTGATTTTACATTAGAATTAGACCACTCCATGATAGATCAAATAGTTGTTACATCATCTATAAAACCAGTGTCTAAACTTGAAAGCGCTGTCCCTGTTGAAGTTTATACACCTACATTTCTAAAATATAATCCATCTCCTTCAATCTTTGAATCAATGCAAAATATAAACGGAGTTAGACCTCAGGTAAATTGTTCGGTATGTAATACTGGTGATATTCATATTAATGGACTTGAAGGTGCATATACTATGGTAATGATTGATGGGATGCCTATTGTAAGTGGTCTTTCAACAGTTTATGGGCTCAATGGAATACCTCAATCAATAATTGAAAGAATAGAAATAGTTAAAGGTCCAGCAAGTACTTTATATGGTTCAGAAGCGGTTGCTGGTTTAATAAATGTAATTACAAAGAAAACAGAAAGGGCTCCAATTTTCGCCACAGATATTTTTGGAACTTCATGGGGTGAGATGAATACTGATTTTTCTGGCAAATTCAACTTGGGAGATAACATTGTTTCATTGCTTGGAATAAACTATTTTAATTTCAAACAAAGAGTTGATAATAATAATGATAATTTCACAGATGTTACTCTCCAAGATCGAGTATCTATTTTTAATAAATT
>sequence26
CTAGGAACAGGAGTTGACTCATTTCTCCATGAAATATTGCTTCTAAGTAGTGACTTATTAAAAGAGCCTTCAGGTTTAGAAATTAATTCAAGGGAAGAAAATGGAGTTTTATCTGAAAGTTTGCTTGCAATTATTTGATCCATTGAAGCGCCACCTGATTGTTTAATATGACTAATTCTATCACCTTCAACACAGGGACGGACCAACCATGTAGCAGCTGCACCAGGATGACTACCTTTTGTTTCGCTACCAAGGCCTGAAATAAATTGAACATCATTTTTTAAGCCATCAAATGATTTCATATAAGGGTTCATTTTTATAATTTTCGAATTAAAAGTTTCTGGTTTCCAAGCATCAGTAGGAATACCATTTGGCATATAGACGCAACCCATTCGAATTGGAGTTTCAATTGATTTAGAAGCAGCTCTTAAACTTCTGGGAGTCATAACGTCTAGTAAAGGAAGGCCAAGAAAAGCAGTAGCAGTTCCAACTGCACCTCTTAAAAATTTTCTTCTTGATATTTGCCAATCACTCATTATTAATCACCTATCAAAATATCGTTAATTTATAGGATTTTTCCTAAACCTAAATGGTTCACTTAATACAACTTCATATATCAATTGTCTAGATTGAAAATTATTATCTTTTAATTTATTTAAAATAGTAAAAATGCTTCTTTCGTCAGCAAGATGTAAATCCCTACTAATTGCGTAAGATAATAATCGTGAAGTTATATGTCTTATAAATTCATCTCCTTTTTCATTAATAATAAATTCCCTCAATTCATAAAAACCATCAATACTTTTACCATTTGGTAAAATTGTAGATGTATTTTGTTTTTCATCTCTAATTCTTCCAACTGCATCAAATTGTTCTAACGCTAATCCATATGGATCAATATTATCATGACATCCTGCGCAAACCACATCTTCTCTGTGAGCAGCTAACATTTCTCTTAAACTTTTTGCTTCTGATCCTTTTTCATCAGAACCTAATGCCGGAACATTTGGTGGGGGTGGGGGTGGAGGTTCACCTATAACAACGTCAAGAATCCATTTTCCTCTAAAAACAGGGCTTGTCCTTCTTGGCGATGAAGATACTGTTAATACTGCTGCTTGGCTAAGTAAACCGCCTCTTTTTTTAGTATTATCAAAACTAACTCTTTGCCAATCTTCGCCTATTAAATTAGCTTCGTAACCATAATGTTCTGCTAAATCTTTGTTCATATATGTTCCATCATCATCTAGTAATTTGAATAAAGATTTATTGTTTTTCACAACATCAGCAAAAACATAAACACCTTCATTTTTCATTGCATTCAATTTGTTTTTTGTAACTTCAGGAAATCTATCTGAATCAGGGTTATATGTATCACCTAAACCTTCGGTTCTTAACCATTGGACAATAAATCTTTCAAAAAATCTATGAGCTTTTGGATTATTAAGCATCCTATCAGTTTGTTTTATTAATTCATCTTCGGAATTTAACTTTCCATTTTTAGCAATATTTAATAATTCTTCATCAGGGGTACTTGACCAAAGAAAAAAAGATAATCTGGTTGCTAAGTCTATACTTTCAATTGGATATATATCAAGATTTTGTTGATCAATTTGTTCATTTCTTAATAAAAAAGATGGAGAACAAAGTGCAGCTTTTATTGGTGTTTGAATTGCTATATCATAAGGAATATTTTTATTAATATTATCTTTAAATAATTTTAAATATCTATTGAGCTCAACTTCAGTTGGATCTCTTCGAAATACTTTTGTTAAAAATGATTCAAGAACTTGACTTGCTGCATTTTCAGCAGAAATATATTCAGGATGAATAGTTTTAATATCCCCATTCCATAAGAAACTAGAATTATTTAAGTCATTGAAATTTATTGATTGAGTTAATAATTGCATTTCTTTAAATGAATGTGATTTTGTAAAATATTTAAGTTCTTTCACTCCAGGATAAATGTCTATTCTTTCATTTGAGGCTTTTTGAGCTGCTAAATATAATTCTTTAGAAATAAATCTATCTTTCTCTAAGGTATTTTCATCAAAAGAATGTTCAATACCAATAGTTTTGCCAAAATCTACAATTGAAAAAAAATATTTATTGAATTCTTCCTCGTTTCCAACTACGTCATAGAACTCGATCATGTCAATTATTCCATCATTAGTACAATCTTTTCCATTATTTATTTTTTTTGTACATAAAATATCAACTTCTTCAAATGGAGGAAAATTTCTTGGAAGTTCTTCATATACACGTTTGGATTGGCCCTTACCAATTTTAAAGAGATGACCATCATCATCAAATTTTTGAAAATTATTTGCTGAAATCAAAAATTTTCCATTTAGGAACAAAGAGGCTTGTCCATTAGATACATTTAAACCTATAATGTTGGTTTTATTTTTATCAATTTGTAGGTTATCTACTTCAAGTCTTTTATTTCCCTGAATCATATATGAAATTGAATTTTCATCAAAGTATAGTTGTTTTGACTTACGTAAAAAGCCATCTAAATGTGTTGATTTAAGAAATACTCTTCCTGTGTTACCATTAATTTTTGCAAATATAGAAAAATTATCATTTAAATTAATATTTTTAGATTGATTTTTAGATGCTACAAACAATGCTTTTTCTGCTTTGTAAGGAGCTGATGGTTTCATGAAAACAAGTTTTTCATATGCTTCTTTATTTGACCAAACTTTGTTTATTATAATATTTGCCGCATTTAATGATTGTTCAAACCATAATGGTTCTGTTGTGAGAGTGGTTATATCATTATCAAAAGCATCTTCAACAACCAATTCAACTGGAAGTAAATTTTTAGGTAAATCATTCATTTCAAATATGTCTTCTACACTAAAATCATATTGATGTTTTGTTAATCTACTTGGAATTAAATAACCAGGGTCATGAGGTATTTTAGTAATATCAACATTTTCTAGAGTATATGATAACCAATTTACCAATTGATTTCTTGCTTCATCAGTTAAGGGGTCTTCTTCTGGAGGTGGCATTTTTTTTTGATTTATCATATTTAAAGCTCTTGAATAAATATTTCTATATTCCCAAACATCTAATTCTTTATCTTTTTCTAATGTTGTAAAATCTATACCTGCTTCAGTTGCCCAATCGCCACCATGACATTTAAAGCAACTTTCAAAAATTTGTTTTATTGCAATGTCGGTATTGGGACTTTTGGTTGACGAGATTCCAAAAGAAGATAATAGAAGGTATATTAATATTATTTTTTTCAACAAAATTCACCCATAATCGAATAGTATAATTATAACAATAAAATATAATGATGTATTTTTTAAAACGCAATTCAATCAATCAATATAAATTATCATTACTATAATAAAAATTAAATAGATTTAAACATGAAAAATATTCAAATACGAAAAGCTAACATTAAAGATGTTAAAACAATTTATAAGTTTATAAAAAAATTAGCTAATTTTGAAAAATGCCCAAATGAAGTAACTACTAATCTATCTTTGATAGAAAAAATATTTCAGGATAATTCAAATGTTTTTTCACTTATTGCATTTAACAATAATGAACCTATAGGATTTGCTGTATATTTTTTTAATTATTCAACCTGGACAGGTAAAAAAGGTTTATATTTAGAAGATTTATTTATAAACCCTGAAATGAGAAGTTATGGTGTTGGATTAAAAATGATGAAAAGTTTATCTAAAATTGCATTAGATAATGATTGTGCAAGAATGGAGTTTAATGTTCTTAATTGGAATACAGATGCGATAAAATTTTATGAAAAGTTTAATGCGAAGCCTATGAAAGGTTGGACCCTTTTTAGAATTGAAAGAAATGAAATAGAAAATATTAGTTTAACTTAATATTTTCATCAATCGAATTTTTGAAAAGTTCAAATTCTTTAGAGCCGTAAAACATAGAACTAATTATTTCTATAACTTCTTTTGTTATGTTTTCTGGGTTTTTATTTTCTTTTTTTAAATAAAATATAGAACCATCTAGAGAAACTAACTTATTTGTATGATAGCCTAATATAATTTCAGTATTAAAATAATATCTTATTACATAAGCACATGATAAGGATGTATTAATAAATAATTTATCAAAAACCTTTTCATTTTTAATAGTTGTATAAAGTTTTCTTGAGGAATTTTTCATAATTTTTTTTGATGAGCTTAAAGATTCTAGTACTTTAACCTTTTTTTTATTTTCATTCGCAAAAATTAGGCAGATAAATAATAATATATAAATCAATATGTTTTTAAACATTATAGTTTTAAGATTTATTAAATTTTAGGAATAATTAAAAGATATTCACAAGGAAAAAAATGATAGTACTAATGTCATGTAATGATAGACCTGGAATTGTTTCGATTTTATCTGATATTGTTTTTAGAAATAAAGGTAACATACTAGATCTTCAACAACATGTTGAGATCGAAGAAAATAGATATTTTATGAGATTATCTATAGATAATTCAACTTTAACAAATGATTCTAAAAATAAAATTAAAGAAGAAATTAATAATTCATTTATTGATTTTGATGCGAAAATTAGTTTTTTTGATGAAATAACTCCAATTTCAATTGGAGTTTTTGTTACTAAAGAATCTTTGCCACTTTATGATATTTTAATCAAACATAATTCCGGAGAATTGAATTGTAATATACCAATCATAATTAGCAATCATGAAGATCTAAAATATATTGCTGACAATTTCAATATTCCTTTTGCTCATTTCTCAATAGATGCAGATTCAAAATTTGATCAAGAAAAAAAAATTATTAAAATTTTAAAAGATTATAAAGTTGATTTAGTTGTTCTTGCAAGGTACATGCAAATTCTAACTTCTAATTTTGTAAAAAATTTTACTTCAATCAATATTCATCATAGTTTCTTGCCAGCATTTAAAGGTAAAAATCCATACAAGCAGGCTTGGGATAAGGGAGTAAAAATAATTGGTGCAACTGCTCATTATGTAACTGAAGAGTTAGATGAGGGGCCTATTATATCACAAGATGTTTTTCCTGTCAATCATAATTTTTCAGTAAAAAAATTAATTGAGGTTGGACAAAATATTGAACGAAGAGTTTTAACCTCTGCATTAAAATCTCATCTTGAGCATAAAATTATAATATATAAAGGCAGAACTATTGTTTTTTATTAAATGTTTTTTTGGTTTTTTTTTAAATTTTAATTCAAAAATGATTAAAATCATATTATGTTTAATTTTTATTGTGCTTTTACCAAATTTAGTTTTTACTCAAACAGAAATAGATATTTTATATACTAGTAACACTAATGGTGCCTTAGAAAATTGTAGATGTCCAAATAAGGCATTGGGTTCACTTGAAAAAAGAAAATATTTTATCGATGAATGGTATAATAATAAACCAAATACTCTTTTTTTGGACTCTGGAGATTTCTTATCTGCTAAGAAAAATGAATTTAAAGATAGTATAGCATTTAAGATTTATGAAATGCTTCCGTATGATGCTATTGGTATTGGTGATCAAGAATTTTATAATGGAATAAATTTCATTACAAATTTAATTGACAACTCTACACTACCATTTATTTCACTAAATATTTCTATTCCAAAATTTAAAAATGTTAATGATTACATTATATTAAACAAAAAAAATATAAATTTTGGAATTATCTCAATTATTGATCCGGATATTTTCAAGTTTTATCCTAAAAGAATAAGGAATAACGTTGAAGTATTTGATTTTAACGTAAAATTAGATGATCAAATTAAATTTTTAAAAAACAAGGTTGATATAATTATTTTATTGTCTCATATTGGTATTGAAAAAGATCGGGACTTAGCAAAAAAGAATAATCAAATAGATATAATTATTGGAGGACATTCCCAATCTTTTCTAGAAAAACCTGAAAAAATTAATAATACAATAGTTGTACATTCAGGAAAAGATGGTTACAATGTTGGACATTTGAAAATAAAATTAAACAAAAAAAATAAAATTCATAAATTTAATGGTGAATTAATTCCAATGACTTTAGATATGAAAAGTGATTCAACAGTTTTAGAAATGATCAAAAACTATCACACACTAAATCAAAAAAAAGATATCAAATTAAAAAATGATTGATTTTTTTGATAAAATCCCTTTTTCTAATCCAATCATTTTATCAATTTTTATTGTATTGTTTATAATAACCTTTTTATCAATTTTAAAAAAAATAATTAAAGTTGGAATTGTAATTTTTATTTTATTTATTTTTTTTATGATTTATTCAGTTTATACTGGTAAAGATGCTATTGAAGAAATTAATGCTATTTTAGATCAAGCATATGAAATAATTGAAGATTCAATATCAAGCTTTGGTGAAAATCTTAAAGAAAAAACATCGAATGCTGTTGAAGAAAAAATAAACAATGTTATAGATGAAACTTTCAATTCTAATAAAAATTAATTATTGATTATTTTTTCTTATCCTCCTGCTTAAAACTTTTACAATCCCTTGCATAATATCCATTCTACTTGCCATGAGATCATAAAAATCCTCACCATAAATTTCAAGTAATGTAGTTTCTTCTTTAGTTGTGATTGATGCTGACCTAGGCTCTTGATCAAGTAATGCCATTTCACCAATACAATCTCCTTTTGATAAAGTAGTAAGTTCTTTATCATCAATATGAACTTTCACTGAACCACTTATTATTATAAACATTGAATCTCCATTATCACCATGATTCATGATTGTTTCATCAGCAGAAAATTCTCTTTCTTTTGCTATTTGAGCTATATTGGATACTTCTTGACCAGAAATATCCTTGAATAGATCAACACCTTTCATAAATATCGTTTTTTCTAAAGTTGAGTACATAGATAGGTTATCTAAAATAAATTTTTCTGATGGAAAGTCCGAAACATTTTTTAATAATGATTCTTTTTTTTTCCAATTAATTGAACACAGTTCTTTTATTTTAAAATCAGTTGAAATTTGAGACCATTTAATTTCATTTAAGGAGTGTTTTTTTCTCATAAAATAATCTAAGCTTAAAGCTACATTCCAAGAATTATTTAAATTAAACCAATTTTTTATTTCATTTGATTTATTTAACTCCTCAGAATTTTTTATTTGTTTTTCTTGAGTAAGATCAAAAATAGGAATTAAATGTTCTCTTATTTCTAACGAAAGAAGATTTTCAAGGATTTCTAAAACATTTGATTGAGAATTTGATTCTTTTGAATTAATAGCATTAAGGTAAGTTTCTATTGGACTATCAGGGAATGACAAAAGAGCTAGTTTTAGAATTATCGACCTTTTTTTATTTAATGACGTAATCAATTGATCTGTTATTAAAAATGCATCATCATCATTTTTAAATTTTTTAATTAGTTCTAATTCTAATTTGCATTCACTTACTAAATTGATTAATAGTTTTTCAGATTTTTCAATAGTATTCTTATCTAAAGGTAATCTTTTTGCTAATTTAATTAGCGTATCAGAAAGTTCTTTGATTACATCGAGGTTGTTTTCATAATTGCTATCAAAAAGTTTTTCAGGATTAACATTTTTTCTGTAATCACTTATTGCTCTTATTGGACCTATAAGAGCATTTCCACTTTTAGATTTATCATTTATTATTTGAATAAGATTTTTTGACACAATATTTTTGTCAAAAGATCTTAGGGATCTTCTTGAGGCTGGTAATGTATTTGAATTATTTAGGTTATTAATCAATGGGATTATAAGATTGGTATCTTTTCTTTTTTCTGCAAGTTTAGCAGCATGAGTTCTTACATCAGATGATTGATCATTTAATAATTTTGCAAGTCCATTACTCGACAATATATCGGATATATGACCAACTGAATTCAGAGCAGCAAGTTTTGTTTTTTCGTTTGAATCAAATAACATAGAATTTATAGTTTTTCTAGCGTTATCTTTATTTTTATTCATTAAAATTAAGCTTGCACATGCTGCAGCTCGAATGATTTGATTTTTATGTTCAATGAATTCTGTTAATTCATCTGAAACTTTATAATTTTTCCTTATTCCAAAGCTTATAATTGCTCTTGAAGCAAGTAATTCATCTGTATTATTAATAATAGGGTAAATCATTTCATTTGAAATGATATTTGAATGTTTACTTGTCATAATTAATAATTTACCTTTAATCTCATTTGAACCGTTTTCGAATAAGTTTATCAAATCTTTTTTCCATGAAGTAAGTGATAACCCTTTCATTGTATCTAAAGCAAATAGTTTTTGATTATCATCGCCCTGCAATAATGTTTTTTTTATCGTGTTAACAATAGTTCGATCATTAATATCAATATCTAATTCTTCAAAATCTATTCTTCTTTTTTCAATAGCTTTTGTAAGTTCAGAGACATATCCTTTTTTTAATTTAAAATTTAAAATAATCCATAAAATTAACATTCCTAGTGATGGTATAGATAGCCATCTTATATTATCATGAGTTTCAAAACTCAACAAGAAAGATATTCCAATAATTAATAAACCTGCAATTCCTCCAGCTGCATTTTTTAAGGTTCCATCAATAAATGGCTTTGCTTGAGTTTTATGGTCAATTGGTACTGGTAACCATAATAGTTGTTTTGTTGTATCGAAAATAGTAAATCTAAAAATATTTTCACTTGCTTTTGCTAATATGGCAGTAAAAATCACAGGTAATATTAGTATTGAAGCTGAACCGATTAATAAAGCAAGTGGAAGCATCATTACTCCCCATAAAACTCCAAACCTAGATAAAAACCTTCCTGTAACAAAAAACTGAATCATTACTGAAATAATTCCAATTGCACCATACATTGTCCCAAAAAGAGATGCCATAGCTTCTTCATCTAAATTAGAGCTAACAATCATCTTCATTTGAAAATCAACTAGTGCTGTTATTAATGCAGCACATATCGTTGTAAATGCCATTATTCTTAAATATTTTGATGGTATTAATTTTTTTGATTTTGATTCAGTAGAGTTTTTCATTACAATTGATTTACCTGAACCACGATTATCTATTTCAACATATTTTCTTGATAAAAAAGAGGTGATTGTTGCTAAACCAATAAAAATTGATGTTGCAGGCAATAAAATATCAGTTCCAAAAGAATTGATTATAGTACTCATTGAAAATCCAATTATACTATTTGCAATAGCTGCACCACTACCAATTAAGCTAAATAATCTTTTTGCCTCTCTTGCTTTGAAAGATGAACCAGTTAAAATCCAAAATTGAATTGTCATAAGTGTAAATATTACCTCTGACCAAACGTATAAAACTGGATATACCCATTCAGATAATAGAAATTGAATAGCAATAAAACTTATTGATGTAAATAAAAATGTAGATATTATTTGTGGAACTATTGGGATTTTAGATAAAAATTTAGAGGTTAATGCTATTGTTATTCCCATAACAATAGCTGTCAAAATCATCATGTGTGGCAAATAAGCAGGATCAAATCTACTTAAAAAGAAAGTATCTCTTGCTGTTCTACCAAATAAAAATGAACCAATTAAAAAAAAGAAACTTAAAAAAAATGGTAGAATTTTTTTCCCTTCACCATTTTTAATCTGTAGAGCACTTCTTAAGAAATTCATTTTAGAAATCTAATATTGATTCAATAATCAAACTAATTATTAATATGAATTTTTAGTCGTTTTCTTTTTTCTTAATTTCTTTTAGCATTTCTTTTTTCCACCAGTTAGCTTCTTGAGGACTTAGCCCAGTTTTTTTTGGTTTAAATTCATTTGAATTAGAAGTTTTTTTATTTTTTGAAATTATTAGATTATAAAATTCATCTGGTGATAAGTATTTACATCCAAAAGAAACTATTTGACGTCTTAAATCTTTATCATTCGTTATAATAATTGCATTTTTCATAGATTTTGCTTTTTCAATTATTATTGTATCCGCATCTTTTTGATTTCCACTAAAAAAAATATTTAAGTCCTTATTTGTTTGTGGAATTTGAAAGGGTTGATTTCCATCAAAAATTAGATGAATTTTTATTTTTTTTTTTAAACTATAATTTTCGCAGTCATCAATTATTCTTTCAAGACAATTTGGATAGTTTTTTTCTAATATATAGATATAATCAGGAATTGAATTTATAGTGTTGTGACCATCTACAATATACTTAACCATTGTTATTTTCTTCTTCAGAAATAGTTTTCATAGAAAAAGCATGAATATCTTTTCCAATTAAATTACCTAAAGATTCATAAACTAATCTATGACGATCAATTAAAGATAGATCATTAAAAGATTTTGAGATAATTATAGCTTTAAAATGAGAGCCAACATTTTGATTTTGTTTATGTCCAGCATGTTTATATGATTCATCTTCAATTTTGATATATTCAATATCAAGGTGATTTTTCAATAAATTTTCGATTTTTTCAAGTATTTTCACTTAGAGGAATGGTTTTAAAAATGAATTAGTGGCTCGGGCCGGAATCGAACCAGCGACACAAGGATTTTCAGTCCTCTGCTCTACCAACTGAGCTACCAAGCCAACAAGACTGAGAAATTAATCTTAAAAACAAACAAAAAGCAAATC
>sequence27
ATTAAATTAATGAATAATAATAATCCATCAATTATACCTAGAAATCATGTTGTTGAGGATGTTTTAAATGAGTCTGTAAATGGCGATTTTGAACCTTTTAAAAAATTTTTAAACTTGTTGTCTTCACCATATCAAAAAAATGAAATTGCAGATTATTATAAATTTCCAAAAGCAGACTTTGATAAGACTTATCAAACTTTTTGTGGTACATGATTAATATGAAAAAAAATCCTATTCAATTTTTTGATGACTGGGCTAAAGAAAATAAAGATGAAGGAATGGTTAAAAATCATTTTCAACCTGTTAGGGAGATATTAAAGTCATGTCTTCCCTCTAAAAAAAAATTTTCTTTTGTTGATGCTGGTTGTGGTAATGGTTGGCTCGTTGAATATGTAAATCAAATGAATAATTGTACATTTTGTTCTGGAGTAGACGGATCTTATTCAATGATTAAAAAAGCAAAATTGAATTACCCTGATAATATTTATTTTGAGTCAAATATAGAATCATGGATTCCTGAAAAAACTGTTGATTTTGTATTTTCAATGGAAGTTATATATTATTTAAATAATCCAAAAAAATTTATTAAAAATATTAGGAATAAATGGTTGAGCAAAAATGGAGTTTTCATATGTGCTTTAGATTATTATTTTGATAATAAAAGTTCACATAATTGGTCAGAAAAATACCAAATTAAAAACATGACCCTTCTAAGTAAAAAAGAATGGCTTCAAATTTTTTCAAAATTTTTTCAAAATGTTGAGATTTCACAAATTAATATGAAAGAGAACTGGCAAGGGACTTTAGTTTTTAAATGTAAAAAATAATCTTATTCTTTGAAAATTTTATCATCAATACCTTTATTGATTCTATAATTAAAATATTGTACTTGAATAAAACCTCTTACAATATCGTTGTTAAATTCAAAGTTTTTTTCACTTCCCATAACAACATTTAGATCTCTATTAATCCATTTTGTAAGTCTAGCATCCTTTACATAATATTCTACTTTTGATTCAATTGGCATAAAATAGGTATTTTTTATTAATTCATATTTATTGTTGATTTCAATTAACTTAAGTGTATCAATTTTCGTAGTTACATTTGTGATTACCCAATTATTTGTATCAATACTTACTTCAACAGTTGGTTTAAATGTTAGTTTAGCATATTCATTTGGCATATCAAGAGCTAGACTGTCCACTATGAGATCTCCATGAATTATTATGTTGTCTTTTTTTGCGTTTGGATTTTGAGCCATAATTCTCATGTTTTTTAAATTATCAAAATTCTCTAGGGGAGATGTAAATATTCCAGTTTTGGGTAAAAGTCCAAATCCTTTAGTTTTTAGTTTAACTTTATTTGGTTGTTTAAAAAAAACTTTGTATTTCTTTTTAGGCATTCTAAAAGCCGGTATCTTAACTGAAATTTCTAGATCTACTTCATAATCATTAATTGATCTATATTTTTCTTCAGTTAAATTAATTATTTGAGAATAATCTCTAATATTACTATTACCAACTAATAAACAATTAAATAAAATAAAGAAAAAAGAATAAAGAATTTTTTTTATCATGATAAGATTTCTTTTCTATTAAAAATTATAAATGCTATTATTAAAAAAAATAAAGACCAAAATGTGCATACTCCAAATGAAATGAAAATAGTATTCCATGGAACAGGATCATGAAATGATGATAAAAATAAGTCTAAATACCCTGTGAAAAGGTAGGGGTTCATATTTTCGAACATTTGTAAAGGTATAAAACTTATTATTGAACCTATAAATACAACACTTATAGTGATAATTATTGGCGTGACACTGTTTTTAGACATTGTTGACAACATTAGACATAAAAAACTTGTTGTTAACATTACTGTTGTAGATACTATGTAAGCTAGAAAAAACCTCCAAATAATATCATCCTCAGATAAAAATAATAGTCCTTTATGAAAAACTGCTAAATCACCAGAGCCTAGAAACAAATAACTAATAAGGAGAGTGTAGAAAACAAAGAAAAACATCAATAAAATAGTGTAAATACTAACTATTATTAACTTTGATAATAAAACTTTTGACCTTGATATAGGTCGAGTAAGATACATTCTAAAAGTACCATCTGAGTATTCTCTTGAAAAAATTTCAGAAGCTACAATCGTAGATAAAAACGGCATTTGCGTAATTAAAATTCCTATAATTAAGTATGTAGACAAATAACCGTTTGTTAAAGTTCCAACAATCATAAAAGAATCTCTCAATTGTCCATATATTTGTGATTCAAGATATTCTGCTCCATCACCAATGGCTAGGATAATTAATGGAACAAGAATAAAAAGTAATATGAAACCTATATAAGTTCTCTTTTTATTAAGTACTTTAATGAACTCATTTATAATTAATGATCTAATCATAAAAATATTCCACTAGTGAGGACTCTCGTGTTAAAGATTTTATATCTTTAATATTTTTAAAAATTAAAGTTTCTTCAATTCGTTTTTCTTCTTTTTTTTGAGATATTAAAATCGAATTTTCTAAATTATATATGATTTTAATGTTTTTGATTTTTTTTAAATCATTCAATGCGGGAGTAGAATCATTAACTTCAAGCCTATAAAAACGTTTTTTATTTGTTAGTTGGCTTAGATTTCCGGAAATAATTAATTTTCCTTGATTTAGTATAGCAACATCAGTGCACATTCTATCAACTTCTGTTAATAAATGAGTTGATATGCATATGGTTTTACCCATTTGTTTTAATTTGAATAAAATATCTGCCATTTGATTTATTCCAACAGGATCAAGACCATTATTGGGTTCATCTAAAATTAAAAAGTCCGGATCGTGAAGCATTGCTTGAGCAATTCCCAATCGTTGTTTCATACCATAAGAATATTCACTAACTCTACTTTTTTTTCTGTCATTTAGATTAACAAGTTCAAATAATTCATCAATTTTTTTTTGTTTTGTATTTGTAAGTCTCCCAAAGATTTGAAGATTTTTTTCTGCACTTAGGTATTCATAAAATGATGGACTTTCAATTATAAAACCCATTTTCATCAAATGATTATCAGAAGAAACAATTGAATTGTTTTTAAAGAGTATTTGTCCATTCCAATTTTTGATTAACTTTGCAAAAATTCTCATAAGAGTAGATTTTCCGCTTCCGTTTGGGCCTAAAATTCCAAAAATAGAATTTTTAGGTATTGAAAAAGAAACATTGTTTAAGACTTCAAGGTCTCCAAATTTTTTGTAAAGATTATTTATTTCTATGATTTTTTCTATTTTCAATATTTAAAAAAGTATATTTAAAAAATTACGTTAAAACTCAATTAGTGCTTTGCCATCAAGGTTAAATTTATTCACTAATTTTGAATCATAAAAACTTAATATTGTTGGTACGATATCAACAATGTATGTTTCCTTAACATCAGATTTTTTTCTAATATTTCTAGCATATAAGATAATAGGTATGATTCTTTCTTCCTCTGTTTGACCACCATGTGTACCCCCTAATAAAAATTTTTTTCTTCCACCGTGATCACTTGATATTATAATCAACCATTCTTCATCATTATAATTTTTTCTTAATTCTGTTGCTTTTTTTAGTTCACCTACATAAGAATCAACTTCCTCAATTGCATTTATATATCTTTTTCCATCTAAACTATATCCATATAGGTGACCTGCTAAATCTGCATTATCTATATGAACAAATATTATATCACTTTCAGTATTAATAATATGTTTTTTAGATTCAATTGCTATTGATCCATCATATGGTTCAATGTGGGATGTAAAAAAAAGTTCTTTATCAAAAATTTTAGTAATAATCGGGTTCCACATTGTTAGAACTGATGTCTTTATATTTAAACTTGATTTAGTTAATAATTCATCAAAAGTAACAATTTTTGAATTATCAACATTTTTGAAAAGATTATCTTTTACAGTATGCTTATCATACCAAACACCTGTAAGTAGTGACGTCCAACCTGGTCCACTTCTTGTTGGCTGATTATTTATAGAAGACAAAGCGTTGTCAAAAAAAATTCCGTTATTAATTAACTTATCAATATTTGGAGTATTTGCAATTTTTAATACATCTGGTCTGCAACCATCAATTCCAATAAGTAATACTTTTTTTGATGAAGCTAATAGAACACTTGCTAATATGTTTAAGATGACAAAAAGATATATTCTTTTCATTGGAGTAATTTATTATGAATTTTAGATTAAATATCAAAATTATATAGCATGACTAAATTTCTACCAGGTTCTGGCATAATATCCTTAGTCCTCGATAAATGATTGTATGATAGTTGATTAAAAAGATTGTTCACTTTGATAGTTAAATCTCCTTTACAACAATCACATTTACATGCATTTATCTTTTTTGTAAAAATCAAATCTGTTATCATACTAGAAGGGGTAAAAGTTTCAAATTCACCCAATCTATTTTGATCATCTAATTTTATTAAACGAATTTTAAGGTTTGAGTTTTTTAGTGAAAAATTCGTTGAAAAAATTTGCTTCGTAGGGTTCATATATGATAATGGAATATTTTGGTCTAAGTTATTTCCAATAACATTTGAAAAATCATAGGATAAATCAATGGATTTAAATTTCATTTTTAAGTTTACTTCAACTCCCTTTATCTCAGCATTTTTCTCATCAATTTGATATTTATATAGCCATCCAGATCCACTACCCCATTCAATAAAATCTGCACCAGCACATGGATGAGAGTAGCCTAAAATGAACTCTTCATTACATTTTCCAGTTTTATCCATTTGAAAATAATTATTACTAAAATTGTAAAAAGGATTAACATTTATATTAAAATTTTCTGATTCATATTCGATAGATGTTTCAAAGCCTAAAGTGCTTTCTTTATTTAAATTTGGTTTACCAATTTCATATGAATAAATACCTAAATGGGGTCCATCTGAATATAATTCCTCTATACTTGGACCTCTATTAGAGTTTATTAAAAATGATTTTATTGTAAAATTATCAATTTTTTTTCTTATTCCTAAAGAATATGAAATGAAAAAATAACTTCTGTTCTTTATTTCATTAATATCAAGATTAGAGTATCTATTCATTTGAGGATTTGGAATAATATTTAAAAAATCTGATCTAATAGAAGTTAATAAATCAAATGATTTTAATTTTTTTTCATTAAATCCATACATTGAAAAATTATATCTATTAGTCAATGGTGTCCAAACAAACCCATCTGGCATTAATTTTTTATAATTGAATTCTGTTCCAACAATTGTTTGATTTGACTTAAGCTCCACTTCAAAGTTATGAGTTTTTTGTGCTAATCTAACATCATAATAGGGTGCATCATTTTCAAATTCTTCATGAGCATAATCAATAAAAAGGTATTTAATATGAAAATCATTAAAGTTTAAAAAGTTTATTTCTTCATGAAGATGAAATTGGTAATAGTTGCTAAACAATTTTATATCTACTCCATAAATATGACCTGATTGAGTAGGGGGTATACCATAATTCATATTTATTTTTTCAAATATAAAATTTCTAAAACCTTTTTTTGTAAAATTTGTTATACCAAAGTCAAAAATAGTATTATTTGATGAAGTATTGATCAATTCTCCTAATGGAGTAGTTTGATTTCCTGTATTTCTTGAGTTTCCACCAATTGATATTTGGTTATTTTTATAAGGTAAATCAATTTTAATCATTCCAAAATAACTATTATTATATGATTCGCTTCCAGAGTAAAGTCTTACTGCTGGTTTTTCTTGAGGATTTGGGATGTAATCAACTGTAGTATTTATTACACCACCAACTGTATTTGGACCATAAATTAATGTTTTAGGGCCTCTTATTAATTCAATTGCATCAATTTGTAATAAATCCAAGGTGATTGCATGATCAAGTGTAGTTGAAGATAAATCACCAAATTCGTTACCATTTTTAGAAATGAAAAATCTATTTCCAGAATATCCTCTTATAACTGGCTTTGTAGCATTTTGACCAAAAGAAAGAACATTTATATTAGGTAAATAGGATAATGTAGTAGCAAGATCTGTAGATAATTTTTCAGTTAGTTCATTTGCTTTAATTTCAAGTTCAAAATCATCTTTTTCAGACAAAACATTTACTTCTTCAATTTGAATAACTGAAGGATTGAGAAATACATCATCCAAATTTCTGTTATCATTAACATTATAGTTAATTTTGGTTGATTCAAAACCAATATGGTCAACAATAATAGTAATCTCGTTAGAAATATCTTTTATATCGAAAAAGAGTTGAAATTCACCTGAAGAGTTAGATGTAGAACCAAAATTTGTTTTTTCAACAAAAATATTAGCATTTTCTATAGGTGAATTATCAGTAGAAGAGAAAATTTTTCCATTTAAAGTGATAGTTTGGGAAAATAAATTCATATTCAAACAAATGAAAATGAATATTATACGAAAAGGAATATTTTCCCAAACTTTCACAAATAAACTGAACTTCAAACTAATACGTTATATTAGTTTGAAGCTAAGGTTGAATCTGAAGTCACAGTAACAGCAACTGGATTTGTGCTAGTATAATCTGCGTGACCATCATGCATAAGAGTAAGAGTAAAAGAAGTTGAGCCTGCAGATACACCTGTTATCGCAACTATATATCCTTCTTCATGTTCTTCATGCTCCTCTTCATCTTCATGTTCCTCTTCATCATCATGCTCTTCTTCATCATGTTCATCTTCATGATGCTCAGTTGAAACAATAGCAATAGCTGCATCATTTCCACTTACAACTACTTCTGGTGAACCTTCTTCATGTTCTTCATCATCATGTTCTTCATCACCATGATCATGATCATCATGACCTTCATCAGAATGTTCAATTTCATTGCCTTCATCATCTAGAAAATGAATTGCAAGTTCAATTTCTTGACCAACAGCAACAGTAACATTATTTGTTACAATCGCACCGGCAAACTCTCTATATACTTCTTCTTCATTATATTCTAGAATAAAGCCATCTGCATCTGTATGTTCTTCATCAACAATAACTTCTTCAGATTCACATGATATTAGAATAAATGAAAGTAGAAATAAAAACGCGTTTTTTTTCATTTTCTCTCCTAAGGGGTTTTTTTATTAACGTTGAAAAAAAGTAACACAATAGGTTATTAGACTAATGATTATTTAAAAAGGTTAAATTTTAAAAAAATTATTATTTACTTAATGTAGTAAAAATGTATACTATAAAAATAATTACTGCTAGGAGTTGAAAGCGATCGTCAATTTTCTTCCCATTTATAGTACCTACTCTAGCATTCCAGTATATCAATCCACAAACCACAGCAATTGCAATTGTTACCATCCACTGACCATTGTTTAGTAATTGTTCCATGTTATAATTTAAAAAAATATTTTTTTATTGTGGTATAGAAACTGTTAACTATTAATAAGTTGCTTTTAATTAAAATGATTAATACTTTGTATAAAATTGGAAAAAATTATGATAACAATGATAGCAAATGCATTTTTCGCTTTATCTCTTTCCGTTTCTGGTGGACACATAATTGATGCTAAGTTTGGATTACATCATTATAGTGATAAAGATTATGAAGAATTATTTTATTTAAAAAAGAAAGTTACAGTTTCTAAGAAATGTATTAGACATAATGAAAATGAGAATGTAAAAAAATTAGTTCTACATCATACTGCTGGTGGTGAAACTGCAAGAAAAACTATTTATGTTGTTACTAAAAACAAGGAAAAAGATTCCTGAAATCCTTTAAGATACATTTATCATAATTCCTTGCAGTTACAGTAAAGTGGTTTCTAGAAGTCAATACCGGTTAATTTTTCCTGTTCCTCCATTAATTCTAAATACTCATCTTCTAAACGATTCATAATTCCCATTGCTTTTTGTAATAATTCATAGTCATCTCCAATGGATGGATCTTGAGTTATCTCACGCTGTTCATTAATATCTTTTTCAATGGTCTTAAACCGTTTCTCAATCCACGCTAGTCTATTGCGGGTTTTCTTTTTTTCTCTATAATTAGAATTTCCTTTGCGTTGGAATTTTACTGTTGAAGAGTGAGTTTCTTGTGATTTTTCTTCCTGTTTTTTCCATTCGTAATATTCGTAATTTCCCTTAAATAGGCGAATGTTTCCACCCCCAACTTCACAGGTAAGATTTGTTACATTGTTTAAAAAATGGCGATCATGTGAAACGCAAACAATAGACCCAGAGAATTGTATGAGTGCTCGTTCAACCACATTACGAGTCATCATATCAAGATGATTTGTAGGTTCATCTAATAATAGTAAATGGGAAGGTTTTATCAACATCCTTGCTAAAGCCACCCTTGCTTTTTCACCACCAGAAAGCACTTTAACATATTTTTTAATTTCATCTCCAGAAAACATAAAGCTACCCAAATAAGTTCTCATTTCCGTCTCGCTCCAGCCGGTACTTACTTTTTGAATGGATTCAAAAACGGTATCATTAGGATCTAATGTTTCCAATTGATGTTGAGCATAATAGGCTCTATCTGTATTTGAGCCAATCTGAATTGCACCGGAAGAAACGGATTCAACACCGGCTAACATTTTTAATAGTGTTGATTTTCCTGCACCATTATGTCCAACCAACCCAATTTTTTCTCCACGTTCCACTAACATATCCATATTATTAAATACTTTGATATCTCCATAATGCTTGTTCACATTTTGGCACGATATGACATTCAAGGGCGATCGTTTTACCTGAGGTAATCTCAAATGCATGTTATGTTTTTCTTCAATAGGAGCTTCAATTTTTTCCAATTTATCCAGCATTTTTACTTTGCTTTGAACAAGAGTTGCTTTGCTACTTTTAGATCGAAATCTATCTATGAAGCGTTGTGTATTTTTAATCTGTTTTTGTTGATTGCGATATGCATTCTTGTGCTGTTCTATCCGCAATGCTTTTTCTTCAGTAAACTTTGTATAATTCCCGTAATATAGCGTAATTTTTTTTAGATCAATTTCAAGAATATTATTTATGGAACGATCTAAAAAAGATCTATCATGACTAATCATAACCAATCCACCTCTCCAATTGGATAAAAATAATTCAAGCCAAATGGTAGCCTCCAAATCTAAATGATTAGTAGGTTCATCTAAAAAAAGTATATCTGGTTCTTGTAAAAGAATAGACGCTAGTGCCACACGCATTCTCCAGCCTCCACTAAATACATCCATGGGCTGTGTAAATTGTTCATCAGAAAATCCAAGACCACTCAATATTTTTTTTGCTTTGTCTTCAAGATTCCAACCACCCAAGGATTCAAAACGATGCTGTGCATCACCCAGCTTATTTATTAATTCCATATTGTTATGATCTTTGGAAATCGCGTCAGACAATGAGAGAATTTTTCCTTCCAGATCACTTATCTCTGGATAAGTATTTAACACTTCTTCTAATATCGATCGTTCAGTACCAGCAACAATATCCTGGGAAAGATGACCAATAGTGATAGATTTATCTACTTGCACATCTCCAGAATCAGGTGATTCTTTACCGAGCATTATTCGTAGTAATGTGGTTTTTCCGGATCCATTTGAACCTACGAGCCCAATACGCATTCCACGCTTAATAAATATATTTACATTATTAAATAAGTCACCATCAGGGAAAGATTTAGAGATGTTCTTAAGCCGGATCATGTATTGTTTATTCTGTTTTACTTATGATTAAAGAGGTCTGCTTAAGATTATTGATTAAAAATATATTAAATTAAATTTGTCGAATCTACGATTTATAAATGAAAAGAAGGAGTTTTTTACTCTCTCTTTTTATGTTTAAAATATAGATGTGATTAATTAAATAAAGTTTTTATTCGTTGGGTTCTTGATTGTATCCGTATTTTTCCCAAATAGGCCAAAGACCTAGATCGTTTTCTTTAGCTTTCTCTTCAAGCTGATTGTAAAGATCCGTTTTTAAATGAGGATATTCTCTATAAGAAATTGCATAACCGTTTGAAATCATCTGTTCATTGATCAAATTATCTCCACAAGAAAAATAAGCCAATTCTCTTCTGTAATAATCTTTTCCCGTTATTTGTCCCTCAATTACAATTGGATTATTTACACCATCCATGGTAACAAGCATATTTATATTTTCATCAAACTTTGACTGAGAATCACAATTCGCAATTAACTTAGCTAATTCCAACTTGGCTTCTTCAAAACCCATTCTTCCTCTTTCAGGACAATTAATACCTATTAAGCGATAGCTTATTTCTTCTTTGTCTTTTACAGTATCTCCATCGATTACTCTTTTTATAGAAACATCTGATGTGTTATCAATTTCGG
>sequence28
ATAGTACCAAATACATTGGATTGATGAGTGACAGAAACCAATTTAGTTTTTTTTGAGAAATATTTTTCAGGGTTACTTAATGTACCATCCATTTCAAATGGAATTATTTTTAGTTTGGCTCCTATATCTTTACAAGCTAATTGCCATGGAACGATATTACTATGATGTTCCATTTCAGTTATTAAAATTTCATCATCTTTTTGAAGATTGTGTCTAACCCATGAATATGCAATCAAATTGATAGATTCAGTAGTTCCTTTTGTGAAAATAATTGAATTTACTTTATCAATATTTAAAAATTTTGCAATTTTTTCTCTTGCTATTTCATAAGCCTCGGTTGCTTCTTGACTAATGTCATAGATAGATCTGTGTACATTTGAATTATATTCTTCATAAAATGTTTTGACAGTATTTATCACAATCTCTGGTTTTTGAGAAGTAGCTGCACTATCTAAATAAACTAGAGATCTTTTTGCAAAAATTGGAAATAATTTTCTTAATTCATTTGGGTCAATTGATGACTTTGTGTTAATCATATTAATACATCCCAGTATCTAATTTTGCTGATTCAGACATCATATCTTGTGACCATTGAGGTTCCCAAACTAGTTCAACATTAACTTCTTTAACATTTTTAACACCGTTTACTTTGGCCTTTACTTCATCAACAAGCATAGGACCCATTCCACATCCTGGTGCAGTCAATGTCATTTTAATTTCTATATTTGTTCCGCCTGATTTTTCATTTGTTAATTCACAAGAATAAATTAAACCTAGATCTACCATATTTACAGGTATTTCAGGGTCATAACAAGTTTTTAAAACTTCCCAAATTTCTTCCTCAGTTGCATAACCTGTAATTTCACTTTGTTCTTTTGTAATTTTAACAACATCTTTCCCAATTGCATCTGCATCTTTAGATTCTATTCTGAATAGTGATCCTCTAGCCATTATTGTATAGCTTCCACCCAATGCTTGGGTTATTTTTACTTCATCACCTTTTTTTAGTGTAAATGCATTCCCAAATGGGATAAGTGTAGCATCACAATTTCTTGAAAGAATTATTTTTTCATTATCATTATTCATAGTGATTGAATTTAATGATATAAATTAACTATTGGACCTATCATTTATATTTTTAAGCCATTGATCAAGATATTTAGTAAATGTTGATTTAAATGTTATATTTGACATTTGGTCAATAATTTCATTTGCAAATCCATTAATTAATATTGATTTTGCAGCAAAGCTATCTAATCCACGAGACCTAAGGTAAAATAAAGCATCCTCATCTAGTTGACCTGTTGTAGAACCATGTGTGCATTTTACATCATCAGCATAAATTTCAAGTTGAGGATTTGAATTCATTATAGAACTATCACTTAAAATCAAATTATTATTTGTTTGAATTGAATCAATTTTTTGAGAATCTTCTCTAACTAAGGCTCTACCATTAAATACGCCTGTTGATTTATCGGATAAAATATATTTAAACAGCATTTTGCTTGTAACATGTTCTCTAGCGTGGTCAAAAATTATATTATGATCAAAATGTTGTGTATTTTTTATTAAACACAATCCATTTAAATCAATATTTGCGTTTTCACCTTCTAAAGTAACATTAATATCATGTCTATGTAAATGAGAACCTAGGACTATCTGGGTTGAATGAATGCTAGCATCTTTTGAAATATTATAATTTGAATTTGCAATATGATAAGCTCTATTGGACTCAAGTTGACTTCTATAATGCTTGATGTGACTGTTATTTCCTATAATGAACTCTGTAGAAACATTATTTAAATAGAAGGCATTTTCACCTACATACGATTCATAAATTGTTGCATCAACATTATTTGATGATTTGATAATAAATTTTGGATGAATCATTAAATTTTCAGATTTTTCACTCATTTTTGATTCAATTATTATTGGCAAGTCAGAACTTTTTGTTATTTTTATTACATATCCAATATTCAAAAATGCAGAATTAAGATATGCAAATGGATTAGAAGAGGAATCATATTTGACTGCATGCGAAGGTTGAAAATTCTCTTCTTTATTTAAAACGCTTTCTATTGAAATAAAATTAGGTAGTGAAGATAATTCTTTTGAAAATTGTCCATCAATAAATTGTAATACAGGATATTCATTACTTAAATTATTAAAGTTTTCTTTTTTTGTGATGTTTTTTGGAAGGTCGAATTTGACCTTGTTTAATTTAGATAAATTAGTAAAACGATAATTTTCTAAACTAGATTGAGGAAATCCATATTCCAAAAATTTAGCTAAAGCATTTTTTCTAACTTTTACAATATTTTCATTTGGAGAGTTTGATGAAATATATTCTTCTAATTGATCTGTTAAATGATTCAAAATATATTTAAACTGACTTTTCTAGCCAGCTGTATCCTTTTTCTTCTAATTCTAGAGCCAATTCTTTTCCACCAGATTTAATTATTTTACCATCCATTAAAACATGGATTTTATCTGGATTCATATATTGTAATATTCTTTGATAATGAGTTATTACAATAACAGATCTATCGCTTCTTCTAAATTCATTGACGCCATTAGCAACAATTCTAATTGCATCAATATCTAAGCCAGAATCAGTTTCGTCAAGTATAGCTAAAGATGGGTCTAAACTAAGCATCTGTAGGATTTCGTTTCTTTTTTTCTCTCCACCTGAAAAACCATCATTTACTGATCTTTTTAGATATTTTTCATCCATTTGTACTTGTGACATTTTTTCTTTTATAAAATTTAAAAACTCTACGGAATCCATTTCTTTTTGACCTCTATGTTTTCTTACAGCGTTGACAGCAGCTTTCAAAAAGTATGCTAAATTTACACCTGGTATAACAGCAGGGTATTGGTAAGACATAAAAACACCATCTAGAGCTCTTTCTTCTGGGTCTAAATCAAGTAAATCATTGCCATTATACATAACTTTTCCATCCAATACTTCAAAAATTTCTCTTCCAGCTAATACGTGAGCTAAAGTACTTTTTCCAGAACCGTTAGGTCCCATTATGGCATGTAATTCCCCAGGTAAAATATTTAAATTGATTCCTTTTAAAATTTTTTTATTTTCAATAGAAGCTTTAAGGTTTTTTATTTCAAGCATTTAATTTCTCCAAAAATTTATTTATTTACTATCCAACACTTCCCTCAAGACTAACTTCAAGTAGTTTTTGAGCTTCAACCGCAAATTCCATGGGAAGTTCTTTGAAAACTTCTTTACAAAAACCATTTACTATCATGGAAACAGCATCTTCTGTAGAAATTCCTCTTTGATTACAATAATAGATTTGATCTTCACCAATGGCCGATGTCGATGCCTCATGTTCCATTTGAGCAGAGGGATTTCTTACGTCAATGTAGGGAAATGTATGAGCTCCGCATTTATCTCCAATGAGTAAAGAATCACATTGAGTATAATTTCTTGCATTGGAAGCATTTTTTAATATTTTAACAGCCCCCCTATATGTATTTTGTCCTTTACCAGCAGAAATTCCTTTCGAAACAATATTGCTTGAAGTATTTTTCCCAATATGAGTCATTTTCGTTCCAGTATCTGCTTGTTGAAAATTATTTGTTAAGGCAACTGAATAAAATTCACCGACTGAATTATCCCCTTTTAAAATTACGCTAGGATATTTCCATGTTATTGCGGAACCTGTTTCAACTTGAGTCCAGGAAATTTTTGCATTTTTTTCTAAACAAGTTCCTCTTTTAGTCACAAAATTATAAATACCACCTTTTCCTGTTTTTGGATCACCTGGAAACCAATTTTGAACAGTCGAATATTTTATAGTAGCATTTTCATGTGCTACTAACTCAACAACAGCAGCATGAAGTTGGTTCTCATCGCGCTTTGGTGCCGTACATCCTTCAAGATAACTTACATAACTACCCTCGTCTGCAATGATTAATGTTCTTTCAAACTGACCAGTATTTGCAGCATTGATTCTAAAATAAGTTGAAAGTTCCATTGGACATCTTACGCCCTTAGGTATATAAACAAAACTTCCATCACTAAATACTGCGGAGTTTAAACAAGCAAAAAAATTATCAGTTGAGGGTATAACAGAACCCAAATATTTTTTTACAATTTCTGGGTAGTTTTGAACTGCTTCAGAAAATGAACAAAAAATTACACCTGCTTTTTCTAATTCTTCTTTAAAAGTAGTTGTTACTGAAACAGAATCAAAAACGGCATCAACTGCTACTCCTGCAAGCATTTTTTGTTCTTCAAGTGGAATTCCAAGTTTATCATAAGTTTTCAGTAACTCAGGATCAACTTCATCAAGGCTCTTAGGACCATCTTTTTTATCTTTTGGTGCTGAATAATAACTAATTTTTTGATAATCTATTGGTTCATGTTCAAGCATTGACCAATTGGGCTCAGTCATTTTTTTCCATTGTTTAAAAGCTTTTAGCCTCCAATCTAGTAACCATTTGGGTTCATTTTTTTTTGATGAGATAATTTTGATAATATCTTCATTTAATCCAGGTGGAATGGTTTCTTGGTCAATTTCAGTTACAAAACCATATTTATAATCTTGTGAAAGTTTTTGTTCAATTTCTTTAATTTCGTCGCTTAATACTTTTGTAGATTTATTTTCCATCTTTACTCATTTCTTGGTATATACAAAACACACTAAATTTGTTATTTATCAATGTCTAAAATTAAATTAAAATTATTATTTATAGTAGTATTATTGGCATATATTTAATTATTCAACAATTAAAAATTTATTTTTAATCAAATCTGTAAAATAACCAATTTCAACTGCTGGATATAATGATGATTTATTATAATCATCTAAAAATTTAGAAACATTTTTTTTAGGGATTGAAATTAATAAACCTCCTGAGGTTTGAGCGTCAGCAAGCAATAATTTTTGGCTAGAACTTAATTTTGAGTCATAATCTATTTTGTTTTCATAAAACTTTAAATTCCTTTTTGTTCCAGATGGGACAATATCTTTTTTAATTAAATTTTCAACTCCATCTATAAAGTTTACTTTGTTAAAATTTATTTTTGCTGAAAGTTTACTCCCTTTAGCCATTTCAATTATATGTCCAATTAAGCCATATCCTGTTACATCAGTCGCAGAAGAAACATTATATTTATGCATTAATTCGGAAGATTTAGAATTTAAACTTTTCATTATTGACATTGCAGAATTAATAGTTTTTTTATTTAAAACCCCTTTTTTTATAGCAGTTGAGATTATTCCAGTCCCAATTGGTTTAGTTAAAATTATTGATTCATTAACTTTTGCATTACTATTTGAAATTATTTTGTTTGGTTGAATTTCTCCTGTAATAACTAAACCATATTTTGGTTCATCATCATAAATACTATGTCCCCCTAATATAGAAATTTTTGCTTCATTACATTTTGATTCTCCACCTTTGAGTATATCAATTAAAATCTTTTTGTCAAGATTTTTAGGGAAAGCAACGATATTTAATGCAAAAAGAGGTTTTCCTCCCATGGCATAAATATCAGATAATGAATTTGATGCGGCAATTTCACCAAAAGAAAATGGATCATCAACAATCGGTGTGAAAAAATCAACCGTTTGGATGATCGCTTTTTCACTACTAATTTTAAAAATAGCTGCATCATCAAAATTTTTTGAATCTACAAGAATATTTTTATTATTGAAATTATTGTATTTTAATTCACTCAAAACTTGAGTTAGGTCACTAGGACCTATCTTACAACCTCAACCTGCACCACTAGAATATTGTGTTAATCTTTTTTCCATTTTGATTTTGCTTAATTATTTGTCTTAATTTATATAATTTTTTTAATTAAATATTGAGATAAATTTAATCTTATATGACAAAACAAAGAATATTATATGGATCTATTGAAATAGGTGGTACAAAAATTAATTGTGCTGTAGCTGAAACAATAAGAAATAGCAATTCAATACCTTCTATATTAGATGAAAAACAAATTCAAACAAAAACTCCTGATTTTAATTTGAACGAGATATTCAAATTTTTTAATTCATATAATATTCATTCTTTAGGAGTTGGTTCTTTTGGTCCAATTGAGCTTGACAAAAATTCAAAAAATTTTGGAAAAATTACTTCAACTCCTAAAATTCCATGGAGAAATTTTGATTTGTTAAACAATTTAAAGGAAAAATTTAGTTGTAATATTTATATTGATACTGACGTTAATGTTGCTGCTTTAGCTGAGGGTAAATGGGGATTTGAAAATGAATTAAAATCATGTCTTTATCTTACTATTGGTACCGGTATAGGTGGTGGGATGTTTTTGAATAATAAATTATTACATGGTATTTCTCATCCAGAAATGGGACATATAATTGTTAAAAAACATCCTGATGATAATTTTAAAGGAGTTTGCCCACATCACGAAGATTGCTTAGAAGGTTTGGCATCAGGTTTCGCAATAGAAAAAAGGTTTGGTAAAAAGGCTCAAAGCTTAAACCTAAAAGAAAAAATATTTATGAGAAAAATAATTTCATATTATTTGGGGCAGGCCCTAGCAAATTATATTTTAATTTTATCCCCTAATAAAATTATTTTAGGTGGTGGTGTTATGAATAATAAAAATTTTTTAATAGATATTAATATTAATGTTAAAAAAATACTTAATGATTATATCTTAAAAAAAGAATTTAATGAAAAAATAAATCAATATATTGTTTCACCAAAACTTGGCAAAAAATCAGGTATATATGGTGGATTTGCATTATGTGTTTTTCCAAGAAATTAATTAGTTTTTTGATAAGAAAAATTCATGTTAAATTATATATATAAAACCAAAACTATTTGTAAGTAAATGCCAAATAAAAAAACAGAAAAATTAGATAGTGTTGTTATTCGATTTGCTGGAGATTCAGGAGATGGAATGCAGCTTATGGGAGACAGATTTACCAATACTGCCGCATTAGTTGGAAATGATTTAGGTACATTTCCAGACTTTCCAGCAGAAATTAGAGCACCAGCTGGTTCTTTAGCAGGTGTAAGTGCATTTCAATTACAATTTAGTAGTAAAGATATTTTTACTCCAGGAGATAAATTAGATGTTTTAGTTGCAATGAATCCAGCTGCTCTAAAAATGCATATTGAAGATTTAAAATCTGATGGAATTCTAATTGCAAACAAATCTAATTTTACTCCTAGAAATTTAAAAATGGCTGGATGGGAAAATAACCCTCTAGAGGATGATTATCTTAAAAATTACGTTGTTTATGATCTTGAGATTAGTAGGTTGGTAGCAAATGCAACTGAAGACATGGGATTATCAAACAAAATAATTGAAAGAACAAAAAATTTTTTTGGTTTAGGTCTTTTGTATTGGATGTATGGTAGGCCTATTGAACCTACAAAGACTTGGCTAGAGAAAAAATTTAAAAATAAGCCAGAACTTGTCGAAGCAAACACAAGAGCTTTACAAGCAGGTTATAATTTTGGAGATATCACGGAATCTTTTGCTACACAGTATGAAGTTGGTGCTGCTCCATTAAAACCAGGAACATATAGAAATATTGTTGGAAATTATGCAACAGGCTTAGGATTATTAGCTGCATCACAACTTTCAAAATTACCATTATTTTTTGGTGGTTATCCTATTACCCCAGCTAGTGATATTTTACATCAATTATCTCATTATAAAAATTATGGTGTGAAAACTTTTCAAGCTGAGGATGAAATATCCGGAATAGGATCAGTTGTCGGGGCAGCTTTTGCAGGGAGTTTAGCAGTTACAGCTACTTCTGGACCAGGCATTGCTCTTAAAACTGAAGCTATTGGATTGGGAGTAATTAGTGAATTACCAATGGTAATTATAAATGTTCAAAGAGGTGGACCTAGTACAGGTTTACCAACTAAAACAGAGCAAGCTGATTTATTGATGGCAATGAATGGTAGAAATGGGGAATCTCCTATCCCAATTATTGCAGCTTCTACTCCAGGAGATTGTTTTTATGTTGCTTATGAAGCTTGTAGAATTGCTGTGAAATACATGACTCCAGTGTTTATTTTGACTGATGGTTTTATAGCAAATGGTTCTGAGCCTTGGATGTTACCTGAATTGGATAAATTAAAAGATATTAAAATTAATAAACCTGAACTAAGAGATGGTCAATTTTTACCTTATGAAAGAGATGAAAAAACACTTGGAAGAAGTTGGGCATTACCTGGTTTAAAAGGATTTGAACATAGGGTTGGAGGTTTAGAAAGAGAGCATATTACTGGAAATATTAATTATGATCCTGATAATCATGATTTAATGGTGAAATTAAGAGCAAAAAAAGTATCTAGTATTGTTGATGATATTCCTAAAACGGAGGTTTATGGTAAACAAACTGGTGAAATTTTAATTTTAGGTTGGGGAAGTACTTTTGGAGCAATTAGAAGTGGTGTGGAATCATTAATTGAAGAAGGAAAGTCAGTTTCTCATGTTCACCTTAAATGGGTAAATCCATTACCTGCAGATTTAGGAGAAATTTTATTAAAATTTCAAAAAGTCTTAATTCCAGAAATTAATTCGGGACAGTTAATTAAAATAATTAGATCTGAATTTTTAATTGATGCTGAAGGTTTTAATCTTGTTAGAGGTAAACCATATACAAAGTCTCAAATAATAAATAAAGTAAAAGAAATGATTTAGGAAATTATTATGAATGAAAAAACTTTAAAACCAACGTTAACTAGAAAAGATTTTGTTTCTGATCAAGATGTAAGGTGGTGTCCTGGTTGCGGAGATTACTCAATTTTAACTCAAACTCAAAAAATTATGCCTGAATTTGATATTCCAAAAGAAAAAATTGTATTTGTAGCAGGAATAGGATGCTCAAGCAGATTTCCATATTATATGAACACCTATGGTTTTCATACAATTCATGGAAGAGCTCCAACAATAGCTTCTGGAATAAAAATATCAAACCCTGATTTAAATGTATGGGTTATAACTGGTGATGGTGATGCCTTATCTATTGGTGGAAATCATCTCATTCATGTTTTAAGAAGGAATCTTGATTTAAATATTGTAATGTTTAATAATGAAATATATGGTTTGACAAAAGGTCAATATTCTCCAACATCAAAATTCGGTCAAAAGACAAAATCTTCCCCTTTTGGATCCATAGATATGCCTTTTAATACTCCTTCAGTTGTGTTAGGTGCTAAAGCAACATTTTTTGCTAGAACTATTGATTCTCAACCTAAACATTTACAATATACTTTAAGGAGAAGTCAAGAGCATATTGGATCATCTTTTATTGAGGTTTTTCAAAATTGTATTATTTTTAATGACAAAGCTTTTTCTCATGTAACTGATAGAGATGTTAGAGATGATAATGTAATTGATTTAAAAAATGGAGAGCCAATGATATTTGGAAAAAACCAAGATAAAGGTATCAAATTAGATGGTTTCTCACCTGAAGTTGTTTCAATTAAGGATAATGTTTCAACTGATGATTTGTTAATTCATGATGAGAAAGATCGTAATTTAGCATCTATTCTTGCTAATTTTACTGAAAATGAGTCATTGCCAACACCAATTGGTGTTTTTTATTCTGAAGAAAAGCCAAGGTATGAAGAATTACTTGAAGAACAACTTAAAGAATCAATAAAAAATATGGGAAATGGTGATTTAAATAAATTAATTGCTGGATCAGATTCTTGGAAAGTTTCATAAGTATTTCTTTTTTATTAAGTTTCTCACATCTAATTTATAATTTACTAGTACTGATAGAATTATTCTATGTCATTCAGAATTGAAAAAGACACATTAGGTGAAATAAAAGTTCCCTCATCAAAATATTGGGGAGCTCAAACACAACGTTCAATTGAAAACTTTAAAATTGGTTCTCAAACTTTCCCATTAGATTTTATAAAAGCCTATGCATTGATTAAATTAGTTTCTGCTGAAATTAATAATGAATTAGGAATCTTAGATAAATCATTATCATCACTAATTATAGAGGCTTCACAAGAAGTTATAGATGGAAAACTTGATGATAATTTTCCTTTAGTAGTTTGGCAAACCGGTAGTGGAACACAAACGAATATGAACATAAATGAGGTTATCTCAAATAGAGCCATAGAAATTTCAGGTGGAATTATAGGTTCCAAACATCCTGTACATCCAAATGATCATGTGAATAAGTCTCAATCAACTAATGATACTTTTCCATCAGCTTTAAATATTTCAGTTTCAGTATTAATAAATGAAAGATTATTACCAAGTTTAAAAAAAA
>sequence29
TTAACAAACAAAATCATATGGATGAAAAGGGAATTTTCTTTTACTTATCCATTGATATTGATTCTTAGAATATAAATAAACTATTCTTGCAGCAATAATTGAAGATAAAAAATGGTCATTTTTTGATGCAATAGTTGGTAAATCAGAAATTTGTCTTTTTTTTAAAAAAGTCAAAATATTTTTTTTTGCTTTTGTATTTTTTTTTACATTATCTATATCGACTTTATTTGCACCATTAATTAGTAATGAAATGAAAGGATGAACCTCTATTATTTTAGGTTTATTGTTTAAAGTTTCTAAAATTCTTGTAATTGAAATTCCTCTTAAAGTTAAATAAGACATTCTTGTCATTGTAGGTGTCATTACTGAAGAAGTTTTAAAATCCCTTTCTTTGAGAAATTTTCTTAATGATTTATCACTTTTTCTATCACCACCTTTGATATTATAACTTAGAGGAGCATCGATAGCAATTAATAAATTATTATTTCTAGATAAGTCTTTGACAATATTAAATATAAAATTATCATCTGCACCAATCTTATAATTGATTAAAACAAGTTGCTCATTTAAATAATCATATTTAAACCAACTAATAGCAGTATCAATAATATTTACAGGACCTGAAAGATCAATTCCTAAAAAAATTTGATTCATTGCAAAATTTAAAATAATTTATTTAAAAAATTACTGAACTTTTATCTATTACATTTAAGTGATTAAATTTGTTTTTTTCAACAATAAAAACTTTTAAATCGTGATTTTCGAAACCATGTTTAGATGAATTAGGTAAAATTTTTTCTTTATAACTAAGTGTTTTCAAAAGCGATGTATTTATTATTGGATATAAATTTAATGAATTGATTGAAAATTGATCATTATCGAACTTTTCATTTTTTTTAGAAAGTTTACTTGTGAATGAAGATCCGTAATCACTTTGAATAGAAACAATAAAAAGATCTTCATCAAAAAGATCAATAATATTTTTCTTTTCTAAAACCTTTAATTTATTCAAGGGTGATCTAAAAAAAGTATATCCATCACCATAATAATCATCTTGGTCATAATCAGTTATGGACAATTCAGAACTAGGATCAATAAAAGGACCTTTAAATGATAAAATTCCATCATATTCTACCCAGCTATGGCCTAAATCTCCCTCAAGTAAAATCTTAGCTATATTTTTAAAGTTTTTTTTAGAATAATCTTTAAATTGTTTAAGTTGAAACTCGTTAATAGCTTCCACTCTTATTGTTTGAATATATCCCCAAATTGAAACCAAGTACATTATTATTTTTTTATTTTTGATAAAAATTCTTTTTTTCCTAAAAAAGATGATTTTATTTTAAAAAGTGATCCTGATAAATCTCCATTAATTTTTTTATTTTCATATCCAGCTGAATTTATATACATATCAGTATAGTTTTCTCCTCCAAAACATACATTTGTGACTTTTCTTACAGGCAATTTAATTTTTTTTAATAATTCACCCTTAGAATTAATTTTTATTATACCCCACCCTTTCCAAAGAGCAATCCATAAATTATCTTGAATATCAACGCACATACCATCAGGTCTTCCCATTTTATCAAAATCAGTTTCAAAAATGATTTTTCGATTAAAAATATCACCAGTTGACTTATCATAATCAAATTCACTAATAGTACAATCCATGGAATCACAAAAATAAAATTTGGTTTCCATTTTATTAAAACCCATCCCATTTGAAGTACCTGTTTCTTTAATTACTTTTGTCAAAGATTGATCAATATTTAACCTAAATAAACACCCTTTTTTTTCTTTTGTAGACATTATGCCACAAAAAACACGACCATTAGGATCAGCAATTACATCATTAAATCGATTATTTTTTACATCTGGTAATAATGTTATGATATCCTCAAATTTTCCTTCATCCCAAAGAGCAATTCTTCCTTCTTCCATAAAAAGTAACAATCTTCCATCATAATTAATGGAAAAACCTCCTATTTGATAATCATGAACCCAATTTTTCAGAACATTTAATTTTGGAAAATATTGAAAGATTTCTCCTTTTGGAATATCTATCCAATAGAGACATTTTTTTTTTGAATGCCAAATAGCACCCTCACCAATTTTATTTTGTAGATTAATTTCTAATTGAGGAAGAAAATTATTATTATTCAATTTTTATCTAAGGAATAATATTAACTTTAAAAAAATTATTTTTATTATTTGACAATAATTTTGGAAAAATTGAACTTACATCATCTAAAGAAATGGTATGAAGCCAACCATCAATATTAATTTTTCCATTCTCAAGCCATTTTAATGTATCAACATAGTCTTTTAACTGAAAATTACAAGAACTTGTAATTATTTTTTCACTAGCGATAGTTAATGGGTTAAATTTCATTTTTTCATCATGAATTGCAATGTTTACATAAGTTCCAGATTTTGCTAATAGGTTAGTACCTAATTCAAATGTTTCAGAAGTTCCAACAGTATCAAAAACTGAAAAAGGAAGAATATTTGAGGTATTAATATTAATTATATCTAAAATCTTTTTAAAATTTAAATCTTTATTATTAATAGTTAAATCAGCTCCAACATTTTTAGATAAATCAAGAGAAATTTCAGATTGATCAATCACTAAAACTTTACCAGCTCCTAATATTTTTGAAATTTGCACAATACTATTTCCAACTGGTCCTGATCCAATAATCAAAATAGGCATATCCTTTTTGATATTACCTTTTCTAGAAACATGACATCCAACTGCAAGAAGATCCATCATGGATGCTTTATCAAAAGATAAATTATTCGAAATCTCAAAAGCTGTATTTGCCCATGCTGGAACATATTCAGCATATGCACCTGGAAAATAATCTCTATCACCCCAACCTTGTCCATGTCCAATGTGAATTGTATTTGGACATAAATGATCCATTTCATTCATACATAAGTCACATTTTTCACATACCTTTGAACAAATAGGAGCAACCCTTTTGCCAAGCATATTTTTATATTTTGGATTAATTACACCTACAACCTCTCCTGCAAACTCGTGTCCAAGTACTATATTTGAAGGGTTTTCAATAAATTGTCCTAATGTATGCTGTCCCCATGGATTTTCTCCAAGATAGTATCTAAGATCTGAACCACACAAACCACATGAATGAACTTTTATTAAAATTAACTCATCATCATTATAATCAAGCAAAGGCCACATAGGAATTTGCTTTAAAGAAAGTTTTTTTGGTTCTTCAAGAACAACAGCTTTGATTTTTTCAGGGAGAATTTGATTAGTGTATAATTGTCTTTTCATAACTATTAAATATTATTTATTAAGAAACCACCATCAACAGGAATTGAAATTCCAGTTACAAAACTTGAAGCTTTATCACTTGATAAAAACAATGTAGCGCCATGCAATTCATGTACTTTACCAAACCTTTTAAGGGGAGTATTTTGAATAATTAATTTTCCTCTTTTAGTTAATTCTTTTGAACCCTTCTTAAGTAATAAATCTTTATTTTGTTTACCTATAAAAAATCCAGGAGTAATTGCATTAACTCTTATATTGTTTTTAGCAAATTCATTAGCAGTTGCATGAGTCAAATTTAATACAGCTGATTTTGCTGCATTATAAGCCCAAACTCCAGACAAAGGTTTAGTAGATGCTACAGAAGTTATATTTATAATTGAACCTTTTGTTTGACTTAAGATCCAATATTTAGCAAAAATTTTAGTAGGTATGACTAATCCAGATAATAAATTATTTTTCAAAATTTCATTAAATTTATTTATATCTAAATTTATAAAAGAGGATTTTCCTGAATTTCCTCCAACAGCATTTATTAAAATATCAACTTTTTTAAAATGTTGAATTGTTTTAGAAAGTGCTATTTTAACATTTTGTTCTGAAGATGTATCAACTGCAATACCCATACATTTATGATGATATTTATTAGGTATTTTATCGAAAGCTTTGTCAATTGATTCTTTTTTTCTACTCCAAATCATTAGATTAGCTCCTGCTCTTAATAAAGCATCACTCATTGATAATCCAATTGCACCGGCTCCGCCAGTAATTACAACAGTTTTATTATTCAAACCAAAAATATCATTTAAATAATTCATTTTTAATTAAAATCTATCACAGCTTTACATATATCATTATTTGGTGTTAGCAACATCGATATTGCATCATTTATTTCAGTATAATGAAACCTATGAGTTACTAATCCATCTAAATTAATTTTTGAATTTTCCACCCATTTTAAAACAGTTTTAAACTTATTATTATGTAATCTTGAACCAACGATATTTAATTCATTTTTTGTTATATAGTATTGTGATATTTTAGATATTTGTTTTGTAAAACCTAATGTAACTACTGAACCTCCCTTAGCACAAAACTGAATGGACTTTTCAAAAGTTTCTGATGTGCAAGCTGCATCAATCACTACATCAAAACCATGATTATTAGTAAATTTATTTGATATGTTATTTTTGTTAATATCTATTCCCAAATTACTAGCACCAAAAGATTTTGCTCTATCAAGCCTTTTTTCATCAATATCAAAGACTACAGTTTTGGCTCCAATCATATTGCAAACTTTTAAAATTGAAAGTCCAATAGCTCCTGCACCAATAATACATACTAAATTTTCTTTTTTAATTCCACCCCTACTTGTTGCTTGCGCTGCAATAGTAAATGGCTCAATAAGTGTAGCATTCTCATTTGATAGGTTATTTGGGATTTTAAATATTTGATTAGAATTAACCAATGCAAATTCTTGCATTCCCCCATCAATATGCACACCAAAAACTTTCAAGTCATTACATATATTATTTTTATTATTTAAACACGAATAACAATTACCACAACTATTAACTGGATCTATTACAACTCTATCACCTTCTTTGAATAATTCATTTCTTCCAGAATCAACAATTTCTCCAAAACATTCATGTCCTATTATTCTTGGATAAGTAACGAAAGGATTTGAACCTTTAATTATATGCATATCTGATCCACATACTCCAATTGATTTAATCTTAACTAAAAGTTTATTTGAAGAAATTTTTGGAAAATCTTTTTCCTTTATTTTAATTGAATTGGGCTCTGATATAACAACTGCTTTCATTGTAGAATTTATATCTTTTTTAATATCTTACTTATAAAAAGAATTTACTAAAAATAATGAAATTTCAGGAAAATATGTAACAACAAATAAAACAACTAAACTCCCAAATAAAAAAGGGACTATAGCTTTCGTAATCTGTTCCAAAGAAACTTTTCCAATTGAAGAGGTTACAAAAAGACAAATTCCAACTGGAGGTGTAGATAACCCTATCATTAAGTTTAATACAGCTATTACAGCAAAATGAATTGGGTCTACTCCAACAGAAACTGATACCTTTAATAATATTGGAAATAAAATGACTAAAGCTGCAATTGTTTCCATAAATGTTCCAACAAAAAGCAAAAGTATATTTATTAAAAAAAGCATTATATATTTATTATCTGTAATTGATAAAAAGAAATTTGCTATTTGTTGAGGAATTTGTTCACTTGCTAAAATCCAACCAAATACATTAGCAAAAGCTACTAAAATCATTATTGATGCAGTTGATATCATAGTTTCAATTAAAATTTTGTATAAGTCTTTTATTTTAAGGCCAAGAAAAAAAATTCCAATAAAAAAAATATAAAGAGAAGCTATTATTGAAGCTTCTGTTGGAGTAAAAACTCCAGCTAAAATACCAAAAAGAATTAAAGGTATAGTAAATAAAGAAAGAATTGATTTTTTAAAAATTAAAAATATTGTTTTAAATGATGATTTAGTACCTTTTGGATAATTATTTTTTTTTGATATAAAATAAGAAATACACATTAAAACAATAGCTAAAATCAATCCAGGGATTGCTCCTGCAATAAATAGTTTTGTAACTGACAAACCAGTTAAAGTTCCTACAATAATCATCGGTAAACTTGGAGGAATGATTGGTCCAATTGTTGATGAAATAGAAGTTATAGCTGATGAAAAAGCAGCATCATAACCTTCTTTTTTCATTGCAGGTATCATTACTCCTCCTATACTAGCTGAATCAGCAACTGCAGTTCCTGAAATTCCAGAAAAAACCATAGAAGAGCCAATATTTGCAAGTGATAATCCACCAGTAATATGTCCAAATAATGAATTTGAAAAATCAATTATTTTATCAGTTGCACCTGATTTATTCATCAAATTCCCAGCTAATATAAAGCCTGGAATACATAATAATACAAATACATCAAGCCCAGCAAAAAGTTTTTGAGGGAAAACAACCAAAGGAATATCATAGGCCAACAAATAAAGTAGGCTTGAAATACCTAAAGAAAAAGAAATTGGAAAACCAATAAGCAACAAAATTAAAAAGGATGTAAATAAAATTAACATTATTACTTAATCTATATTTTTCTAAAAAGTTGAAATATATAAAAAAACATAATTGATAAAGGTATAATAAATATAGGAAAATAAAACCATAACATATTAATACCCAAAGATGGGGATGTCTGCAATGAACCAACTTGAAGAAATTTGATTGATTGAAATTGGATCAAAATCATAAAAATTAATATTGAAAATTGGATAAATTTTTGAATCAAAAATTGATTTTGGTTTGAAAATTTTTTAATAATAAGATTGATAGAAATATAAGAATTTTCTAGCACACAAAGACCACATGAAAAACTAACAGAATATATAAAAAAAAATCTTGATAATTCTTCTGTCCAAGGAGGTGCTTGTAGTAAAAAAAATCTTGAGAAAACCTGTAATAAAACTGTTAAAATAAGTAAAATAAAAAATGTTGTTGTTAGAAATTTAGATAAGATAGTAATATAATTTTTAAGATTATTTAACATTTATAATTTCATTGTAAATTTGTTTTTGTTCTTCATTAAGAGATAGAAAAATAGAATTTTTAGACTTTTCAATAAATGCGTTTTTTTCAACTTCAATAAATTTCATTCCTTTATCAATTAGTTGAGATTTTAATTGATCTTCATCTTTAAAAAAAAGTTTATGTTGATAAGATTGCATATCATCACCAGCTTTCAATATAATTTTCTGCATATCAACAGGTAATGATTTTAATTTTTTTTCACTTAAAACAACATAAATCCAACTTGTAACATGTGATGTCAAATTACAATACTTTTGAACTTCACTAAAACCTGCACTATTAATTAATGATAATGGATTTTCTTGTGCATGAATTGTATTTTGTTGAAGTGAAGTAAAAACTTCTGAAAAAGCCATTGGAGTTGGTTTTGCACCTAATGATTGCCAAAATGAAACAAAAAGGGGAACATTAGGAACCCTTAAAATAATTCCATTTAAATCATCAGGGTGAATTATTGGCCTATTTGAAGTAAGATGTCTAGGTCCTCTTATAAACCATGAAATTGGTCTTATATTTATTTTTTCAAGTAAATCTTTTTCAATAGACTTGCCAATTTTACCATTTGCAATTTTTTGAAGATGATCAAAATCTCTTATTGCATATGGTATAGCAAGCATAGCAGCTGAAGGAACCCAATTCTGAAAAGCTTCTCCAGCAATTGTCATATCCACTGTTCCTAGCTGGAGACCATTGATTAAATCAATTTCTTTTCCGAGTTGTTCATTAGGATAAATTTTAATTTTAATTTTTCCATAAGATCTTTCTTCAACAATTTTTTTAAAATATAAAGATGATTTATTCCAAATATCTTCTTCATTAGCTAAATGACCAAGCTTTAGAACGTAATTATTATTATCAGAGCAAGAATAAGACAAAAGGATAAAAAAAAGAAAAAATATTTTATGTAGTTTTTTAATTTGATTCATTGTTCTAATTATTAATTGAGTAATGTTTAATAATTTCATTTTCACCATAATTATTGGGACCAATATCTCCCTTTTTAAATAAAAAAAACCAATAAGGAATTAAACCAATAATAGTAAATGGTAATAATATATTCCAACCAGATTTATTGATATCATGTAATCTTCTAATACTTAATGATAAAGAAGGTATAAAATTGATTAATTGAATTATTGGAGCTATGCTATATTGACCAGAAGCAATTAAGATAAAAATAAAAATTAAGTTAAATATTAAAACATTAATTAGTTCATTTCTTGAGGATCGACCTTTAAAATTTGTTAAATTTTTAAAATATACTGACTCAATTGATTGTACAAAATTCATGCTAGTTTAATTTTTAATATAATATTAAAAAAAATAATGATTTTCACCTTTTATATAGTGATTTTTACATTTATTTAAGGAAATTTTAAAAAGTAGTAGCGGAGCAGGGATTTGAACCCCGGACCTCTGGATTATGATTCCATTGCTCTAACCAACTGAGCTACTCCGCCATTTATTTTGTCATCAATCTTTTTAACATTTGGTTGCTTGTTGAAATTAGGATAAAATATATTTACTCCCCACTTTTTAAACCCCCGAACATAGCAAACTTAATCAAAAATCTTGGCTAAGTATACACCATAAATTAATAATACTAATATAATTTTTATAAAAAAAAGAAAAAAATAAAACCCCATTACATGAACATAAAGACAAAGCTTACGTCAAATTATGGGGTTTTAATTAATTTAAGAAATAAAATTATAATTAACTTTATTAACTAAAACTTTCTTAAAATATTTTTTAATTATTCAGCAGTAAAAACTTGAAAACCTGCATAAGATTCCATTTCATGCTCAGATAAATCCAAACCTTTAATTTCTTCTTGTTCTGAAACTCTTACACCTATAATAGCATTTATTATTTGAAAAATAATTAATGCTAA
>sequence30
AATTCTTTCACAACTTCAGTAAACACTAAAAGAAAACTTGTTAAAAAACTTGTTTTTAATAGAGGAAAATGAATTCTTCTTAATAAGTTCCATCCATTAGACTTTAAAATTTTAGCTGAATCATCAATTCCAGTACTTATATTACTAAATCCGGACTCAATTGAAGAATTTGCTAACGCATATGATTTAATTAAATAAGCTATTAATAAACCAAAAATACTTCCAGTTAAAATAAAATTGCTAAAAGAATAATCAATAATTGAAAAAAACTTTAATATTCCAATGGCTAAAATTAAACCTGGTAATGCATATCCAATCGAAAAAAATGAATTTAAATAAACTATAAATTTTGTTTTTTTTAATCTTAAAGAAAAATTTATTAATAATGCTATAAATGAACAAATCAATCCTGCAATTAATGAAATAAAAATAGTATTAAAAGCAATTTGCAAGAATTTTTTATCAAAAAAAGATAAATTATAATTAATTGCCCAAAAAATTAATTGAATCATTGGTAAAATAAATCCTATAAATATTGGAAAGAAACAACATAAAATTGCTAAAAAACCTTTAAATCCAGAAAGTTTCTTAAACATAGATGAATTCAATGACGAATTAGGTTTAGAATAAATTTGATTACCTCTTGAATATTTCTCAAAGAAAATAAATAAAACTATAAACAATAATAATATTGAAGATAATTGCATAGCGGTATTTAAATCATACATTCCATACCATGTTCTAAAAATACCCGTTGTAAATGTTGCTACTGAAAAATGTTCGACTGCTCCAAAATCCGATAAAGACTCCATGATTACAAGTGATAAACCAGCAATTATTGCAGGTCTAATTAAAGGAATTGATAATTTGTAAAAAACTTGGAATTTACTTAAGCCAAGAGTTCTTCCTGCCTCAATAAAAGATATTGATTGATTTAAAAAAGCTGTTCTCGAAATAATATACACATAAGGATAAAGTGTGAACGAAAATACAATAATTGCTCCATAAATATTTCGAATATTTGGAAATAAAATAAAATTTGAATCAACTAAAAAAATATTTCTAAAAAGAATATTGATAGTTCCATTTAAATCAAATAGCCCAGTAAAAGTATATGCTAGTATATATGGAGGAATTGCAAGAGGAAGAATTAAAATTGATTCTAAAATATTTTTTCCATAGAAATGATAATTCGATACTATCCAAGCAGTACCAGTTCCTATTATCAGAGTTAAAAACGAAATTCCTAAGATTAAATATATTGAGTTTAAAATATATTCTAATAAAACATAATTATATAAATGTTCCCAATTATCATTAAAATTGGAAAATAAACTAGTAAAAACAATAATGATGGGAGTTAAAAATAATATTAAAGTAAATACAGGTAAAATATTCCAAAAAGAAATTGATTGTTTTTCAAATACCTTCATAATGGTATTTATAAATTAACAATTTATTTCCAACCAACCCTATCCATTAATTTTATTGCCTCTGGGTTGAGTTCTCCATAGTCTGTAACTGATGTTCTATCTTCTTTAAAATCGGTACCAAAGTTTTTAATTAATGGGTGCGGATCAATATTTTCTAAAATAGGATATTCATATGAATTATTTACAATATTTTTTTGCATTTCTTCAGATAATAAAAACTCTAAAAACTTAATTGCATTTTTAGAATTTGGTGAGCTTTTTAATATTCCAGCTCCACTAATATTTATATGAGCACCTCTATTGTTCTGATTTGGAAAATGAATACTTACTTTTTTTGCTGCTTCTAATTGCTCACTTCCCTTTGTACCTGATAACATCAATCCAATATAATAACTATTTGCAATTGCTAAGTCAGCCTCTTCATTTGCAACAGCCATAATTTGTGATCTATCATTACCTTGAGGTTTTCGAGCAAAATTCGATATTAATCCCTTTCCCCAAATTTCTGTATTTTCAATTCCATTATTTGAAATTAAAGAAGCAACTAAAGATTGATTATACATATTATTAGAACTTCTAATTACAATTCTTCCTTTCCATTTTGGATTAGAAAGATCTTCATAGGATAAATTTTTTATCTCATCTTTCGATATTTTTTTTGGATTATAAAAGATAACTCTTGCTCTTTTTGCAATTGCTATCCATTCATTATTTGGTCCTCTTAAGTTTTCAGGTACAATAGAATTTATTTTATTTGAAGAAATAGATTGAAAAAAACCTTCAGATTGTACTTTCCATAAATTGCCAGCATCAACAGTAAAATAAATATCAGCTGGAGAGTTTTCTCCTTCTGCTTTAATTCTTTCAATCAAAGCAGCTCCTTTTCCTGAAATTACATTTACTTGAATGCCTGTTTTTTCCGTAAAAAGAGCATAAAGTTCATCATCTGAGTCATAATGTCTAGAAGTATAAATATTCACCTCACTACCATTTTGACTACAACCAATAAGTAATAAAAAAACTATCAATGTTATTTTAATTTTTTTCATCAAATAAATCCTTTTTAAAAACCATATATTTAAGATGTGAAATATTAGTTTTATAATTTTATAAAAACAATAAATAAATAAGACTAAATTAGTCTTATTATTTTATTTTAAGAATATATTCTTTAGATTTTACTATGAAATTTTTAATTATACTGTTACTTACAATTAACTTCATTTTTTCTCAAGAAAATCACTTTATTAAAAATATGAGGCAATTGATTTTTGAAGGAAAAAGATCTGGTGAGGGTTATTTTGATCTATCTGGTAATTTGCTTTCATTTCAAAGTGAAAGAAATGATGATAATCCTTTTTTTCAAATTTATCTATTAAATTTTAAAAATGGAGATATAACAAAAATTTCTCCTGGAATTGGCAAAAGTACTTGTTCTTGGATTCATCCAAATAAAAATAAAGTCCTTTTCGCTTCTACTCACCTTGATTCCAATGCATTACTAAAACAAAATCAAGAGTTAGAATTTAGAAAATCAGGAAAATCAAGAAGATACTCTTGGGATTATGATGAACATTATGAACTTTTTTTATATGATTTAAATACAAAAAAATATGAGCAAATAACTAATTCTGTTGGTTATGATGCAGAAGGAGCTGTTTCACCAGATGGAGACTGGGTAGTTTTTAGTTCCAACCGATCAGGTTATAACGAAGAAATGTCAGATTCTGATAGAAAACTATTTGAAAAAGACAAATCTTTCAAGATGGACATTTATAAAAAAAATCTCAATAATGGTGAAATTATAAGATTAACAGATGTAGATGGTTATGATGGTGGTCCATTTTTTAGTTCTGATGGTAAAAAAATTACATGGAGAAGATTTTCAAAAGATGGTACTACAGCAGAAATATATGTTATGGACAGCGATGGTAAAAATACAAAGAAAATTACAAATTTAAACGCTATGTCATGGGCTCCTTTTTATCATCCATCTGGTGAATACATTATCTTTTCAACAAATATACATGGTTTTGATAATTTTGAACTATACATAGCCAGTACAAGTAATAGTAATACATTACGTATAACAGATACAAAAGGATTTGATAGTTTACCAACGTTCTCTCCTGATGGTAAAAAAATATCATGGACAACTCAAAGAACTTCAAACAAAAAATCTCAAATTTTCATTGCAGATTGGAATCATGAATATGCATTAAAAAAATTAAATGAAAATGGAGAGGAAAAAGATCCTTCTATTTCAGAAGCAATAAATGAAAATGAGCTAAAATCTCATATTGAGATTTTGTCATCACCCGATTTTGAAGGAAGAATGACTGGAACTTTAGGAGAAAAGAAAACAATAGATTATATTGCAAAAGAATTTGAAAAATTGAATTTAAAAAAATATTCAAATAATTCTTATTTTGAAGAATTTTCTTTCACATCAGGAATAAAAATTGGTAATAATAGTAAATTAATTATCAATTCTAAAAAAAATAATAAGTTAAATAAAAATTGGACTCCTCTTACGTGGTCTTCTTCAGGTACTTTCTCTGCAAGTGAAATTGTTTGGGCAGGCTATGGAATTCAAGCACCTAAAAAAAATGAATTTGAAGAATATGATTCTTTTGTTCACCTTGACGTTAAAGATAAATGGGTAATGGTTTTAAGATACTTGCCTGAGAATATTTCTGATAACCTTAGACAACATTTAGCAAGATATAGTAGTCTAAGATATAAGGCTATGATTATTAGAGATATGGGTGCTAAAGGAATGATCGTTGTGAGTGGTCCAAATTCAAAAGTGAAAAATGAATTAATTCCTCCCTCACTTGATGCATCAAACAGCAAATCATCACTTGCTGTAATTTCGATTACAGACAAATTAGCTAATTATATTTTATCTTTTTCTAGTCGAGACAATTCCTTGAAAAAATTACAAACGAATTTGGACTTAGGAAAACAACAAATGGGATTTTCTATTCCAATCAATATCAGTAGTGAGATTGAAATTATAAAGGAAACAAAAAAAGGTTTTAATGTTATTGGAACATTAACAAATGATAATATTCCAAAAAATAAACCAAAAATCATTATTGGAGGACATTTAGATCACTTAGGAATTGGTAAAACATCAGCTTCGTTATCAAAAAATGAAAATAAAGATATAATTCATTATGGAGCTGATGATAATGCTTCTGGGATTGCTTCATTAATTGAAATTTCAGAATGGTTTAGTGAAAAAGTTAAAAATAACACGATTGATTTAAAAAGGGAGGTTGTTTTTGCTGCTTGGTCAGGAGAAGAATTGGGATTATTAGGTTCTTCAAATCATCTTAAAAATATTGAGACTGATAATAATTCTAATTTATCAAATCATTATGCTTCCTATATAAACATGGATATGATAGGAAGATATCGAGAGGGACTTGTAATCAATGGTATTGGTTCTAGCTCTATTTGGAAAAAACTAATTGAACAAAAGAATATCGTAGTTGGTCTTAATTTAATTCTACAAGATGATAGCTATCTTCCAACTGATGCTACATCATTTTATTTGAAAAAAATTCCAATATTAAGTGCATTTACAGGTGCTCATTCAGAATATCATACTGAAAAAGATACTCCTGACTTAATAAATCTAAATAAATTGAAAGAAATATCTATTCTTCTAGCGTTAATTTCAGAATCTTTATCTACCTCACAAAGTGAACCTGATTTTTTAGAACCAAAAAAACCTGCACCGGACAATCAACGTGCTGGTTTAAGAGTGTATTTAGGAACTATACCAGATTATGCAAGTTCGGATATCATTGGCCTGAAATTATCAGGTGTTTCAAAAGGTGGTCCAGCAGATAAAGCAGGAATTATGTCAGATGATATTATTATTGAATTAGCTGGTAAAAAAATTGAAAATATCTATGATTATACTTATGCAATCGATGCATTAAAAATTGATCAAAAAACTGAAATAAAAATAAATAGAAATGGTAAAGTTATAATTCTATCTATCACTCCTGGCTCAAGAAATTAATATAATTTACTGCTTTCGCAAAAATATCATGAGTATGTAAGTACTTAAATTCAGCTCCTCTACCAATCATTTTCATATTTTCAAATTTTTTAAAATAGTCATTAATTGTCTTCATGCTTTCAACGTTATCATTTGTTAATATGGGATATGCATTTGGTATTTTGTATGTTAAACTTTCAATTATTTTATTTTTTTCAATAAACTTCATTTTTATTAGTGAATTAATAATTTCATTTTTAAAAATATCTGAATCTGAATTATATAGATCATCAGATTCATTACATGGAACCTCAACAACAATGCAAGTTTTATCATTGGGAGCTAAAAATTTACTTCTTTGTTTTGGCTCATATATTCTCGTAAAATTAACATTTTCATCAGGAAAATATATTGAAGGATAATTAGAAAAATTTTTCATTTTTAAAAAAATTACAACAATTCTTAAATTTCTAAATTTTAATGTGTTTACAGTATCTAAAATTTTACTTGGTATTTTTGGTTCTAAAATATTAGCTATAATATTTATTGGAAGAGAATTAATTATTTGATCCACCTCTATTTTTTTATTGTCGTTTATTTCAATAGCATTAATTTTATTATCATTATGAAATATTTTTGTAATATTTGAATTCAAAAACATATTATTGTTTTGAATTTCTTCTTTTATTTTATCAAATATTATTCCAAACCCATTTTTAGGATAATAAAAAAAACCTTCAAAATGTTTTCTATTTGAAAAAATATTAATTATTGAAATAATATTTAAATTTTTAAGTCTACCACCAGAAATTTTTGGAGATAGTAAAGTTGAATCTATTCCCCATAATTTTTTTGAATAGTTATTTATAAAAAGTGTTGAAAGTGTTGAACCATATCTTTTAATAACTAAATCATTAAAACTATTAATTTTATTCTGATTAAAAATATTTATTCCATTTTCAATTAATATTTTTAAAATGATTTTACTATCTAATTTTTTTAAAAGATTTTTAAATTCAATAGGAAAAGTAATCATTTTACCTTTGAAAAAAATCTTGCTTGGGGTACTTACTAATTTTAAATCATCATTTAATAAATTTCTTACAATAGATGTAACATACTTATTTTTATCATGAAATCTATGAGCTCCTAAATCAAATTTAAAATTTTTATGTTCAACTGTCTTACAATTTCCACCAATTTCACTATTACCTTCAAACAACTCAAACTTCAATCCATTTTTATGTGCAAAATAAGCTGATGCTAAACCAGCAGGACCTCCACCAATAATAGATAATTTTTGTATTTTATTATTTTTTTTCACTTAAGGTATAAACTTTTATTTCAGACCACATTTTATTAACATAAGGATTATGATAAAAAGTTGTATCTGATTTTGAATATTGTTTTTTGTTTTCGATAACATTTAAAAATTCTCCAATTAATATGATATTATTATGATCATTTTTTAGTTGAATTTTATTTTCAGAGTTTTGATCATCAATATCGATAAAATTAGAACTAATTCCATGTGTTTTTAAATAAAAATTAATTAGGGGAATACTAACAATTGTAGTTGTATTTGAACTATTAGAAATAAACTCTTTAACTTGATGAATTGAAGAAGGTTCTTTATGTTGAATACTTAAGATAACAGTTAGAATTCCTTGTAAAATCAAAAACAATGATAAAAGAAAAACTCTAATTTTTTTATTCATTTCATTAAAATGAAAAACTGATAAAATCAGTACTGGAATCAAAAACAATATAATAGGTAAAATATGTCTGGATTTATAAATTATATTCTGAAAAAAAAATATCCAGATAGAATAAATTATTAGAGAAGCAAATAATATTTTAAAAACATTTTTCTCATATAATTTTTTTCGGGAAATAAAAATAATGATTAAAAAAAATGATAATAAAGCAGAAATCATCAAGCTAAATATTGATCTTCCTTGAGTATATCCACCCATTCCATCAGCCCAAATACTTCTAAAAAAATGAATTCCTCTATCTGTAAAATTATTATTTGAGATTATTGTTCCACCAAAATCATTAAAATGACCGTTAGTCTGATTCAAAGCAATTCCA
>sequence31
CAAACTTTCAGATAAAACTCCATTTTCTTCCCTTGAATTAATTTCTAAACCTGAAGGCTCTTTTAATAAGTCACTACTTAGAAGCAATATTTCATGGAGAAATGAGTCAACTCCTGTTCCTAGAATTTATGAACCTAGAGCTATTTACGACAGATTAACTGGCCTATCTAATCAAAATCAAGATTCAAGTCAAATTAATAGCATATTAGATACTGTTTTAACTGATGCAAAAGATTTAAGAAAACGAGTTGGTAAAGCAGATCAAAATAGGTTAGATGAATACTTTGAAGCAGTTAGAAGTGTTGAAAAACAAATGAGTGCTATGGCAAGTACAAGTAGAGCAAATGCTAGACAAAAAGCAGCAACCTTTCCAAGACCACCAGAGGGTATACCAGAAGATTATACTTCTTATCTTAGATTAATGTTTGATATGATGGTTTTAGCTTATTGGACTGACTCCACACGTGTTGCTACTTTTATGCTTGATCATGAACAAAGTAATAGATATGTAGATTTTGTTCCTGGAGTGAAAGGAATGTGGCACGCTCTTTCTCATTGGAGAGATATTTCTGGAATGTCAATTGATGATGATGCTAGTACAAGGTGGAGCTCGATTGATGTAAAATATAATCAATATAAAAAAGTTATTGAATATCATCATGAACAAGTTGCATATTTCTTTAATAGATTAAAAAATATAAAAGAAGGTGATTCAAATTTACTTGACAATAGTTTAATTCTTTATGGTGCTCCTTTCAATGATGGTAATGAACATATATCTTACAATTTACCTATGATGATTGCAGGACGTGCTGGCGGAAAAATTTTACCTGGAAGGGAACTTGAGTATAATGGAGGTAACTCTGAGGGAGTTTACTTGTCAATAATGGAAAAATTAAATTTGCCAATGAGTGATATTGGCGGAATTGATACTGCAATACCAATAACTTAATTATATCTTAATGAAAATTTCTTTCATTTATTTTCTAATATTTCTTTTTTCTTCATCAAATTTTTCATTTGCAAAAAAAAAATCTGCAAAAAAAGTAAGTTTTTCTGAAAAAATTGAAAACTCTTTTTTTGAAATTAATTATTACCAACAAATAAATAAAAAAAAGAAAATATGGGGAAAATCAATTCCATTTAATGAAAATTGGACATTTTCTAGTGATAAAAAAACTATAGTATCTTTCAATAAAGATATTATAATAAATAATCTAAGATTAGTTCAAGGTTCCTATAGTTTCTATGTTTTTCCTGTCAGTGAAAATGATTGGCATTTTGTTTTCAACAAAAACCTTAAAGGTAACACTCAAGAATATAAAATGTCTGAGGATGTATTAAGAATATCAATAAATCCAGAAAAAATAAATAATACAGACACTCTTAAAATTGGTATTGAGAATATCTATTCTAAAATTGAAAATAAAAGAATGGGTGATTATTCCTATGAAGATGAAGATTTAACTTATGATTTTTTTGTACATTTTGGAAAACTGAAAGCAAAACTTAATATTTTATATACAGAAGAACGTTTAAATCTGGGTTTAAACCCAGATCTCCCTAATGAAATAAAACCAATGTGGGAAATTGTAATGGGTTCATTACAAGGATTGATTAATGAAGATTTTAAAATGCACACAGAAAATTTTTCAAAAGACTTTGTTACTAATTGGGGAGATGGTGGTGGAACTGAAGGTCATATTCAAATGTTAGGTCATTTTTTCAGAGGTGGTGGACTTGAAGGAATAGGACTAAATCTTGAACAATTAGAATACAATCAAAAAGATAAAAATCATATTAAATTCACTAAAATAATTACACATTTTCCTAATCATGCTTTTTATTTTGACTATACACTAAATAAAAATGAAAATGGAAAATGGGAAATTGTTGAACTAATCGAGCCAGACCATACACCATTTTAATTAATTATTGTTGTTGTTGCTGTTGCTGTTTTTTTTCTAGATTTTGTCTATAACTATTGATCTGTTCTAACTCAACTGATTTATCATTTTTATCAAATGGAATTATTTCAGTTTTAGGAAAATAACTTTCAGATTTTTTGAAAGCCATATGAACTTTAACTTCCATCTTCTGATTAGCATTTCCTGTATAAACTCCTTTTACAGGAGAACAATCATTATAATTTTTACCAACGGCAAGCCTGATATGAAGATCGTTAGCAAAACAATTATTAGTAGGGTCTAATCCAAACCAACCATAAGTTGGGATATAAACTTCAACCCAAGCATGTGTGGAACCATATCCTCTTAAACCTTTTGACTCACAAATATAACCACTAACATATCTTGATGGAATTTTACATAACCTACATAATTGAAGCATCACATTAGTAAAGTCTTGACAGACTCCTGACCTAAGATTCCATACATCATCAACGTTTGTATTAACAGTGGTTATGCCTTTTACATAATCAAAATTTTTATATATGTACGAATTTAATTCAAATGCAATATTAAGTGGTGTTAAATCTTCTTTATTAAATTTATTTATAATTTTAAGAGCTGTTTTATCTGAAAGGTTATTTGTATAAATAAATTCAAAAAAATCAGCCCTATCAGATAATTTTTCTATCATTTCCCATTGAGATGAAATATTTAAATCGATATAAGGAATTTCTATCTTTTTTGATATAATTTCAGCTTCTGATATTATAATTAAGCTATCATGAGGATGTAAATAAGTAAAAAAACCTACACGATTATTATAGGAATCTAAATATGTAAATATTGAGGGATCATTCGTTATTTTCATTGTATGGTTAACAATTTGCTGATTTATGTCATTATAGGGATATAACAATATTTGATTTGCACTTTCTGTAATTAACTGAGAATAAGAATAAGAAGTTGAATGTTTTAAAAAAAGTCTAGCCATAATTACAATTGAGAAAAATATCTTTGATTTATTAGTTGTGATAAATTATTTAGATCATTTTTCAATTCAAGTAAAAACGAATTTAAACCAATTTCTTTAATTGAATTAATGGTTGTATAGGTCAAAGTATTTTGTAATTTTTTTGCATTAAAAACTAACTCATTTTCTCCAATGATTTGATTATATTGATCTAATTCAATAATATTTTGAGTAATCCTATTAAGATTATACTTTACAGACCTGGGAAAAAATTCATTTATAATTATCATTTCAATAATATTTTCAATGTTAAAAATTGATTTATAAGTTTTAACATATAATTGATAACCACCCATTAGAAATATTAAATTTTTTAAAAACAAACTTTCAACTAAACTTTGATTATTTTCAGATAATTCTAATATCTTAAAAGTTAAAATATCAATACTAAAAATTGTTCTCTCAAGATATTTACCTAAATTCATAAAACAATATGCACTTCCTCTTTCTTGACTTACATATGCACTACTTAAATAAATCATATTAAATTTTTTTAAATCTTCAAGAAATTCGATTGGATTTGATTTTTTAAATTTTGTTCTATTGGTTCTTTTTGAAATATAGAGATAGTATTTATTTGTAGATAGCCATATATCTCTAGAAATATGCTCTTGAACATTTCTAGCATTTTCTCTAGAATGTGTAATTATATTTAAAAGAGTGTTAGGATTAGTATCATCAAAAAGTATATAGTCAATTATTGATATAGTATCATCATAATTATCAGGAGTACTAAAATTTTCACTAATATTTAAATATTTATTTAAAATATCTATCCAAGATGAATAATCCCCTGATTCTAATGCTGAATTATAATTAGTATTTATAAGATTTAGAAGACCAAAACTTCTTTCCATATATCTATCCATCCAAAATAAATTATTTGCAACTCTACTTAACATTATGATTTTTTTCTAAAACCCAAGTATCTTTACTTCCACCACCTTGAGAACTATTTACAACCAAAGAACCTTTTTTAAGAGCAACTCGAGATAAACCTCCAGGACAAACTTTTATACCCTCACCTCCAAAAATTGCAAATGGCCTTAAATCAACGCATCTAGGACTTAAACTTTCATCAATTATACATGGTGTTGTTGATAAATTAAGAGTAGGTTGAGCTATAAAATTTGAGGGATTCTTCTTTATTTGCTTAATATATTTATCTATTTCTTCATCTGATGAATTACTTCCCATTAACATACCATAACCACCACTTCCATCAGTTTTTTTTATAACCATTTTATTAATATTTTTTAAAACATGATCAAGCTCATCAGGTTTACCAAGTTGAAAAGTGTTAATATTATTCAAAATTGGTTGTTCATTAAGATAATATTTTATCATTTCAGGGACATAAACATATGAAGCTTTATCATCAGCAATACCAGCTCCAGGTGCATTTGCTAAAACAACATTTCCTGATCGATAAACATTCATTATTCCGGCTATACCTAAATAACTCGAATCATTAAAAACTAATGGATCTATAAATTCATCATCAATTCTTTTATAAATGACATCAACTTTTTGAAGACCGGTAGCTGTTTTCATAAATACAAAATTATTATCAACTACTAAATCTTTTCCTTCAACTAGCTCAACACCCATTAATCTTGCTAATGTTGTATGTTCATAATATGCTGAATTAAATGAACCCGGTGTAAGAAGAACAATTGTTGGTTTTGATTTATTTACTAAAGATGCCAATTGATTATAAAGCACTTGGGGATAACTTGAAACAGTTGATACATTTTGATTTGGAAAAATTGAGGGAAATAATTTTCTACTAACTTCTCGATTTTCAAGCATATAACATACACCTGAAGGTGTTCTTAAATTATCCTCTAATACATAAAACTTCCCATCATTATTTCTAATTAGATCTACACCCGATACATGTGTATATACATCAAGTGGTGCTTTTAAGCCTTTCATTTGAGTTAAAAAATATGGATTAGTCAATAATAACCTGGAAGGGAAAATCTGATCCTTAAGAATGTACTGATCATTATAAATATCTTTTAAAAATAGATTAAGAGCCTTCACTCTTTGTACAATACCTTTTTCAATAGTATCCCACTCGTTAGGTTTAATTATTCTTGGTAAGATATCGAACGGAAATATTCTTTCTATACCTTGATCATTATCATAAACTGTAAATGTTATTCCTTGATTCATAAAAAATTGATCAGAAAAATCCTGTTTTTCTTTTATTGATTCAAAAGAAGAATTATTTAGAAATTTTTCTAAAAATTTATATGATTTTCTTACTTTACCATCATTTTTAAACATTTCATCCCATGTATTAGGATAATGTTCATAATCAGCATTTACAAAAATCTTTTCTTTTTTTTGGTCAAAATTTTTGACGAAAGAGAATGATAAAAAAATCAAACTAATTATTGAAAAAAAATCTAAATAATAAAATTCAATAGACATAAATTATTTTTTTAAATATTTAATAAAAAAGTTCCATATCACTTTAAATTATTAATAATTTTAATTATAA
>sequence32
AAAAATGCTATCAAAATTCTTTTACCAGACCACTCACTCAAATTTCTTAATTTTTTTTCACTATCATAAATTGATAAATCTTTAATTTTATCTCCAACATTTAATGACATAACTGCTCCTTCTTTAAATTAAAAACATAAAATTATGTGATAATTTACATTATAATATTATTTCACTGTATATATAAATTAAAAATTCGTAGTTAAAGTAAAAGTTAAAGCGTCATCAATACCTGGCACATAAACACAAACTCCTGTATCACACTTTAAACCACCTTGTATTGATCCATAGAAGAAATTAACTAATGTTGATGTGTTTAAATAAAATGAACCTTGTATCCCATACCAACTGTTTAAAAGATTAAAATCATTCCTTCTTAAAAAAGATTCTAACCAACTATCTTCATCTGCGAAATCATTATAAAGATCTCCCGTTTTAGTTTTTGAAGTATAATCAAAAATAAATCCAAAAGAAAATTTTGATGCTTTACTAATATTTAATCCAAAATATCTATAATAATAATTTGAAACATCAATATCAATGATTCCTATACTATCAGATTGTGAATCAATAAGAGTTAAAAAAGATTCTTTTGAACCAAAATTTAATGACTCCCATTGATGTTCAACATTAAATGAAATACTATAATTATCATTTAAGGAAAACATCAATTCAAATGGAAAAGTTACCAAATTCCTTCTTTCAAAAATTTCAGTAAATCTTTCAAAACCTTCTGGTGAATTATGAAAAAAACGATAACCTGTGTATCCAATAATCTCACTTGATTGAACAAAAGCAGATTTTAAATAAAAGTTATTGTATTGATTATATTTAAGCTCAACATAACCCTCGTGATAGGGAAAATATCCATAATCCTCAGAAGGATTAAATAATAATTTTACGCTTTCATCTCTCCAATTAGATGCATAATCCTGACCTATATATTTAAAATATTTTTTATGCCTACTACTTTTTGAAAAATTAAATTGAAATTGAAGATTTTCATTCATATTTAGATTAAAATTAACTTGAAAACCTAGTTCGTCATACATGTCAAATAGATGCGGGTTTCTTGATAGTAAAGTTGAATTATGTATTTTAAATACAGATGGTGGATTATAAGTAATACTATTTCTTTTTAATCTAAACGGAAAATGATTTTTAATATCTGGAGAACTAGCATCATATAAATAATCCTTAAGCTCTAAACTTAAACTCCAACTACCCGGAAAATATGAGGCTGAGAGATAATAAGAACGATCCTTTTTGTTAGTGTTATAATACATCCATCCAGCTCTATCAGATAATATAGAATCAACGTTAATATTTTGATTTCTAAAATTTGCTTCAATATAAAAATCAAAATTTTCAATCATATATTCAGAATATATTCCTGGAGATAAAGAATTGGTTTTAACATTAGAATAATCAGTTGAATTTTTGTATGAATACCATGGAGAATTAGAATTATTAAATATCAAATAAGTTCCAAAATTTAAATTGGGTAAAATATTATTATAATCTAAAGAAATCATTCCAATTGTTTCATCTTCATAAAAATCAACAATTCTTGGGTCTACATCTATTCCAGAACTTAAATGTCTAGGAGCATCTATTTTTCCAAAAAGAAAATTTAATTCAAATTGATTAAAATGATTAGATTTAAGAAGACCACCTCTTATACTTGAATTAAAATTAATAGATTCATTTTTGAGTGTATTTAATCCAAGACCTCTACCTACTCTTTTATTTATATCTCCTAAAAAAATTGAAAAATTTTCATAATCACCCTGAATTAAAAATTCATTTAAACCTATAAAACTTTGACCAATTCTAGGCGGAGAACTATATTCAACAGTAGATGTAAAAGACCAATTTTCTTTCCAATATGAAATATCAAGAAGATTTTCTATATAATTATAATCATAAAATTTAGATTCAATTTGACCTGGTACTTTTATAGGTGTAAAACCTTTTCCGAAATAAGAAGATAAACCAAAAGAGAAATTATTTTGAGCAATTAAAAATTGAAAAAACAATGTAAAAAAAACAAGTTTTCTACACATATTTATTTGCTTAAGAATTCTTTTGAAATTTTATTTTCTAAAATAATTTCATCTCCAGGAACATATCCATTATGTTTGTAAATAACATTATTAGATGAGTTAACAATAAGTGTATAAGGCATTGCTTTACCATTTAATTTCTTAAAAGAATTAAGATCAGGCTCAATTGAAATCAACATTTCTAACGAATTTCGCTTAATGTAACTTCTAATTTCTGATTTTGATCTATCAGTATCAACATTTATAGCTAAAACCTTAAAACCTTTATTTTCGTACTTTTTATGAAGATCATTTAAATGAGGTAGCTCTTTAAGACAAGGACTGCACCATAAAGCCCAGAAATTGATTAAAACTGGACCCTCCTTTACAAGTTGATATAAATTAGTTGATAATCCAGACTCAAGCTTAAACTTTAAATTAGGAAGTTGTTGAGAATGAATATTAACAGTAAATAAAAATAAAAATATGATTTTTTTAATAATAATTATCTTTCTGTAATTAAATTATTATTTGAATTAATTCCCTTTTGCAAAAATTCAATAAATTTTTGAGGATCTCTCGTCAGGCCTGGAAACCTTGCAATCTCATTACTGTTTGAATCTATAATGACATAAAAAGGAAGAGCAGCTGTTCCAAATCTTTCAATTTCCATTTTTTGATATTCTTTATGATTTGGCCCACCATCAGTATATAATTCAACGGGAACATACTGTTTTAATAAATCTTCAATTTCAGGCAAAATTAATATATTTGTTTCCATCCATCTGCAATTAGTACATGTATATCCAGTAAAATTAACAAACATTGATTTTCCAGTCATTTCAGATACAGCTATAGCTTCGTCAAAATCATATATCCAACTTATATTTTTTTTATTAAAACTATCATTATTAGAGACAGTTTTTTTATTAGATGGTGGTAAATAAGATTCAATTAAACCATGAATTGGTTGACCAAACAAACCTCGTGCCATATATAAAGAAAAGGAAAACAAGAAAATGCTAATGATTAATCTTGGTACACTAATAAATTTTAAATCGGAATCATGAGGAAGCTTAATTTTACCAATCAAATAAACTCCGCATAGAAAAAAGATTACAACCCATGCAGCTAAAACAAAAGACCTAGTAAATATATCCCATCCCCAAATTAAATCAGAATTACTTAAAAATTTAAATGCTGCAGCTACTTCTAAAAAACCCATGGAAACTTTAACAGAATTTAACCATCCTCCACTTTTTGGAAGTTTATTTAAATATTGAGGAAATAAAGCTAAAAAGAAAAAAGGTAAAGCAAAGGCCGCAGAGAAAAATAACATTCCAATAAATGGCCATAACCAGTCTCCTTGTATAGCCCTAACTAATAACAACCCTATAAATTGAACTGTACAGGTAAAAGAAGTTAATGTGAAGGTAAATGCCATAAAAAGTGTACCAATGATACCACCTCTTCCCTCCTGACTTACAGAAAATTGCCTTAAGGCAGAAGGTAATTGAATCTCATACATTCCAAAAAGAGATAAAGAGAAATAGATGAAAATTGCAGCAATAAATAGATTTACCCATGGATTAGATGCTAATTGATTAGCACCTGAACCACCTAGAGTTATAGCTAATAAGAGACCTAAAAATGTATAAGTAATTATAATACCTATAGAATAAATACTGGCCTGTTGAAAGGGCTTTGTTTTTTTATCCTCTCCAATCTTCGTGAAATAAGAAACAGTTATTGGAATCATGGGAAAAACACATGGTGTGAGAAGAGCTAAAAATCCCATTGAAATCGATAGTAAAATAAAAGACCAAAATCCTGAAGAAATTACATTATCTAGATCGATATTTTGATCATCTGAAAAAAAATTGATTTTTTCTTCTGATAATTTTACAATATTCGTTTTTTCAGAACGAACCGACCCTTTTTTTATTTCAATAAAAAGTGTATCGGAAAAATTCGTTGGAGGATAACAAAGAGTTGGGTCGCAGGCTTGAAATAAAAGATTTGCAATTACTGAATTTTCACCCTCTTTTACATTGTTAAAAAGTTTAAATGTTGTTTCAAATTTAAATCTACCCTCATGATAATACGTTTCTGTTAAAAAACCTTCATCATATTTATTAATAGGTTCTGGCTCTAATGATTGACCTGTAAATTCAACTATTTCTCCATTTATTGTTACTTTAGAAGGTATGGGTCCTTGAGATTTTTTATTTATTGCATAAATATGGAAATCTGGTTCAACATTCACGTTCGTAATTATTTTTACTACTTCTCCAGGATAATAAAAATTATCATCAACTTTAAAGTCAACATCTACAGGTGGAGATATTTGAGAAAAAAGGAAAAAAGGAGTTAAAATATATGAAAAAAATAAAGTTTTCATTTCTTACTTACAAACGAACTTAATACGTCAATTACCCCCTTACTTATAAATTTTATATCAATAAAGTCTTAATTATAAATTATTAGATACAAATTTACGCTATTTTAATATAATGAATCAAAAGAAAGTCAAATTCAATAAAAAATGTGAAATTTTAATTTTAACCAGAAAAATAAAAATATTTAATAATACCAGCAATTATTATAGGTATTTGTAATGAAAAGTTTGTTAATAAAGGCTTATCTTTAGTTATCATACCAACTACAGTCCAAGAAATTATTCCCAAACTATGCGGAATAATACTTACAGGATAAAAATCTAAATAAAAAGTCAATATTCCTGTTAATGTTAAAATGGTTGCTACCCATTTAAAGATTTTGATGTTATATATCATATTATCCTCAATTTTTTTAAAAAATTATAAACTATCTGTAATAATCTAACTTATAAAGCATACAACTTCTATATGCATAAATAATATTACCTGATTAGAATCTTTGAAATTATATAAAATTAAATTTAGTAAAAATAATATATTGTGATAGTACCCGGAGCCGGACTTGAACCGGCACGATCGCAATGATCAATGGATTTTAAGTCCACAGTGTCTACCAATTCCACCACCCGGGCAAATTCTTTGGTATCATCGTCGTGAAAGCAACAAAATATAGGTCTATTTTTTAGATAAAAAAACGACATTTTTTTCGCTTACTACTCTTTTTAACAGTTTCAAATAGTATTTTTTTATAAATTCATAATAATGTATTTGATTAACAATATTTGACGGCGTTGTCCATATATGTACGTTTTTATATTCATGCACATTAAAATTACCTACAATATACATTGGCATATATATATACCTAATAATAACTTTTAAGCAAATATAGTATTCAATTGACGATTAACTTTAACAAATGTAGTACATTTCGGTAATGATTTTATAGTTCTTGC