##gff-version 3
sequence01	MetaGeneAnnotator	CDS	28	756	.	+	0	ID=MGA_1;product=glutamate racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966524.1;translation=MIGVFDSGIGGSTVLKEIIKELPNQKYIYYSDSLHSPYGNKDEKELFEIVNDVVVFLMNKGCKVIVIACNTASAICVKELREKYKDIVFIAIEPAYKMVYDYNFSGKTLVLATKGTIESEKFLKLYYKYNNNNTILKPCIGLAELIEENDQEKIDKYIEENLKEYKGVENVVLGCTHYPLIKDNLKKVLGNVNFFDGSIGVSKELKRQMIKHNLLNEGEFSIQFYDSSNNINKEKRFHEIIY;locus_tag=LOCUS_0010;gene=murI;EC_number=5.1.1.3;note=WP_010966524.1 glutamate racemase (Clostridium) [pid:41.4%25%2C q_cov:89.7%25%2C s_cov:86.7%25%2C Eval:1.9e-43],MGA_1
sequence01	Aragorn:1.2.38	tRNA	829	902	.	+	.	ID=Aragorn_1;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence01	MetaGeneAnnotator	CDS	1037	1513	.	+	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNVNNDINDNQINSKEETGANWIDEKANYYQRKNFNVDNGIEKEAENNVGEIRLAISCINFLAAPAAIIGIEFSFLPFITFSAAAGNTSSGNVLMGVVTAYIVFTIIFLLTSYINYYKRSKTKKRKRKLICLGVLILIVFFIYAFFFYSVQLPGKH;locus_tag=LOCUS_0020;note=MGA_2
sequence01	MetaGeneAnnotator	CDS	1594	2274	.	+	0	ID=MGA_3;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167184.1;translation=MKKVLFSDFDNTLFVEDEEVVDKNIEAINHFILDNIFVIITGRTYKSVKRVLDLYSIKYTYLICKNGAEIYDKDKLLLKKNLKKEDIETIKEIIAKYNVGYSVDDFADERFIGDDVSSIFIRRDYRLNSDCIKEIRERTTTYNYLSPHWFNIVAENVNKALAVEDLKRIIGEEVKIYTIGDAINDKEMIKNYNGAKMKVHESYLDDLDVPAYEYFYQYVEQILKED;locus_tag=LOCUS_0030;note=WP_011167184.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:28.3%25%2C q_cov:88.1%25%2C s_cov:91.7%25%2C Eval:6.7e-08],MGA_3
sequence01	MetaGeneAnnotator	CDS	2299	2910	.	+	0	ID=MGA_4;product=DedA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_106007140.1;translation=MISFVTNLIINYGYIGMFLGMILEAVIIVIPSEAILATGGILASQGIFSFWKAFLVGLIGSVFCAIIIYCIGYFGGYHFVSKYGKYFFMKEEDITKSDSWFNKYGMMGALIGRNFPIIRTLISLPIGIMRLSFFKFLLYTIIGSIPWTFVFVYAGYALGNGWVVVDKYVSKLKFPIRILLLILIIVFIIKRIRQKRLVKSYLL;locus_tag=LOCUS_0040;note=WP_106007140.1 DedA family protein (Moorella) [pid:38.5%25%2C q_cov:94.6%25%2C s_cov:91.8%25%2C Eval:4.8e-36],MGA_4
sequence01	MetaGeneAnnotator	CDS	2946	4757	.	+	0	ID=MGA_5;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232278.1;translation=MNKRNIAIIAHVDHGKTTLVDEILKSSGMFRDNEALNEMTMDSNQLEKERGITILAKTTALDYKGIRINILDTPGHADFGGEVERIMNMVDGVLLVVDAYEGPMPQTRFVLKKAFEAHVKPIVIINKVDKPAARCAKVLDEVLDLFIELGATEEQLDFKVLYASAVNGTCSYEEDLSKQTPGFTEVLDTIIEEIPEPTGDSKAPLQFQPALLDYNEFVGRIGIGKVHNGKIKVGQMVDCLRLDNTTKSFRIQKLFGYLGYKRIEIEEAEAGDIVAIAGLSDISVGETLCEVGENHPLPRLHIDEPTLQMTFGANSSPFVGRDGKIVTARKIEERLNRETQRDVSLKVEPATNESFLVSGRGELHLSILIENMRREGFELEVSKPTVIIKEIDGVKCEPYEELQIEVPEESVGTVIEQLGLRGAKMENMTNFEGQTRLLYTIPSRGLIGFSTEFMTLTKGYGIMNHTFKEYMPIESVDIGERKLGVLVSVENGQSTAYSIGNLEDRGVMFIEPGVEVYEGMIVGECNRDNDLAVNVVKGKNLTNVRAAGSDHTVVLKRPRPISLEYALDYINSDELVEITPNNIRLRKKILNTEERKKWDAKNK;locus_tag=LOCUS_0050;gene=typA;note=WP_003232278.1 translational GTPase TypA (Bacillus) [pid:64.0%25%2C q_cov:99.5%25%2C s_cov:98.0%25%2C Eval:6.2e-222],MGA_5
sequence01	MetaGeneAnnotator	CDS	4817	5122	.	+	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFYKLSRKEFKEVKNEFISDYVGMKLNLITNVAFSMAGLFLLFTLVQGFLVALMGETVPQENLNLDFIIIILSFMCGLITYPFYFYHLKKFYDEKKKKK;locus_tag=LOCUS_0060;note=MGA_6
sequence01	MetaGeneAnnotator	CDS	5200	5796	.	+	0	ID=MGA_7;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRKKTDEKIKTQVLNLDEVREAEANERKIKHRKLPKKFLVIALILIVIGLLYLPAKDLIKKFEDEKRKINNDKKSITCTINDKNKDNHLIERTSIFNFKGDELKSYNILVTTTSAKTDGDSMKKFKSYYDDLNKKYKKASEEEGFKGTVEYKDKKIIETMNVDLEKYDGDDKIVLYKLDDSITEVKDKEKEDGAVCK;locus_tag=LOCUS_0070;note=MGA_7
sequence01	MetaGeneAnnotator	CDS	5813	5992	.	-	0	ID=MGA_8;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVKVTNRKPLKGRDRSHALNTSNRARKLNLQVHRLEDGTKVRITAKEKRTLKKDNKAA;locus_tag=LOCUS_0080;note=MGA_8
sequence01	MetaGeneAnnotator	CDS	6119	9067	.	+	0	ID=MGA_9;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000226919.1;translation=MDTVLNVKSNYTLLSSMLRIDDIISYAKKSNMTSIALCDTNMYGTMEFYNKCRKNDIKPIIGLSLILDDLNLCVYAKNYKGYKNLIKLSTIQNENKMSLEVIKKYTNDLVGIIPFDCVDKYDDLKDLHEDFYLGYSNKEEEAKAKKITKNIVFFKECLYKTVSDSEYLTYLYRIRDSKTVNDEVVYSVLNKELDMNIDNYTSNEGLNNTLKIEALCNLEIEKEGLLLPIYEVPKGIKQEEYLFELAKKGLKKRLGSINEVYQKRLSYELNVITKMGFTNYFLVVYDFIRYAKKSNILVGPGRGSAAGSLVSYSLGITEIDPIKYDLLFERFLNPERISMPDIDTDFPDDKRDLVSDDVKEKYGQKHVAGIVTFGSLSAKAVIRDVGRVLDVPSYKIDSLSKIIPNFTKDKLKDFYKNNERFKAKIDSDSILKNVYKIALKFEGFPRHTSSHAAGIVMCKYPLDEVLPLTVSDDMYLTSYSMDYLEDLGLLKMDFLGLRNLSLIADVLDNVEKLYNEKINFNEIKLDDKKAIEVFQKANTSGIFQFESSGMREFLKKLVPNSFEDIFAAIALFRPGPAGNIDTFIRRKHGEEKITYIDKSLEPILKNTYGIFVYQEQVMQAANIYAGYSLAESDLLRRAMSKKKTEVLQNEEKKFIEKSVAKGHDKIQAKKIFDLILKFAGYGFNRSHSVAYSLIAYKMAYLKVHYQLPFYAAILSNVTLSPVKTNEYILEARERGIEVLSPSINNSDIKYKVVGEKIYVPFSLIRKIGIVTSKTIIEARGEEKFKDIYDAFSRLYIGGVTKKSLEYLVYAGAFEEFGYNRKTLIDSLDSLIDYATLTKDIEPSLVEKPIIEREEEFDKLFLLEKENEVYDFYLTYHPTTLYFNKSKGAVKIKDIESNYNKIITLIGLVDYVKKTTTKKGESMAFVTISDDLSKTSVTLFPKQYDKVPRLKRGNIVKVEGKVEKRYNEYQVVANKIEIIEEKS;locus_tag=LOCUS_0090;note=WP_000226919.1 DNA polymerase III subunit alpha (Staphylococcus) [pid:40.7%25%2C q_cov:99.6%25%2C s_cov:92.6%25%2C Eval:3.0e-195],MGA_9
sequence01	MetaGeneAnnotator	CDS	9064	9558	.	+	0	ID=MGA_10;product=signal peptidase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000549207.1;translation=MKKDNIYIVGVVIFALDVIVKTIVKSNIKLLETIKVIPGFFELTHVENEGAAFSILSGSKYILIVISIIIMFLLLKYIKDVKKLSNIEGIALGLILGGLLGNLLDRIVNSYVLDYLAFNFFGYHFPVFNLADIAITGGVVLLLIATIIKERKEGKNDSRRNGRK;locus_tag=LOCUS_0100;gene=lspA;EC_number=3.4.23.36;note=WP_000549207.1 signal peptidase II (Staphylococcus) [pid:34.9%25%2C q_cov:90.2%25%2C s_cov:93.3%25%2C Eval:7.9e-21],MGA_10
sequence01	MetaGeneAnnotator	CDS	9530	10414	.	+	0	ID=MGA_11;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965413.1;translation=MIVEEMEGNRIDKWISLKLDLSRAKVQKLINDEKVLVNDKVVSASYKVKLGDKVVVNDELDYTTSVEAEDIPLDIVYEDQYLMIINKESGMVTHPAPGNYSHTLVNALLYKMGEKVSSDLRPGIVHRLDKDTSGLMVVAKDDKTLELLSNMMKEHKVKRTYVALVKGVIPEASGTVDAPIGRDPNNRQKQAVTDKNAKEAITHFKVLKRFNNATLIECELETGRTHQIRVHMAYIKHPVLNDPTYNKDKASSFGQMLHSKKIEFTHPITKKKLEFESELPKEFNDKIEELENEE;locus_tag=LOCUS_0110;note=WP_010965413.1 RluA family pseudouridine synthase (Clostridium) [pid:51.0%25%2C q_cov:99.7%25%2C s_cov:97.4%25%2C Eval:1.2e-77],MGA_11
sequence01	MetaGeneAnnotator	CDS	10477	11634	.	+	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTQMNIVLDDKNTFVMKLLHYFITEKNYTPIILQGAENEIWLENLNENYEIIRIVSGYIHNNEQFDFDMFKTHRIMRKIKRKTLSLNLNTLSIFVDLGESVTLKNSKDILCVKATTEKDLKESNSINKSFPDIFNKLKYSEEGVNLFVKITNDINKHNQMDAAKAEEVFKQKVPVITYILMAINVILYVFPYLLGNYDYALSLLALHHDSVVNGGEYYRLFTAMFMHAGIFHLLFNMYALYVIGTQLESFIGKIRYTLIYLFGGICSALLSLAFLSDNAISIGASGAIFGLMGALLYFGYHYRVYLGNVVRSQIIPLIVLNLVLGFLVPGIDNAAHIGGLIGGFLALMALGVKYRSKASEQINGTILTIIYIAFLIIINFVYHF;locus_tag=LOCUS_0120;note=WP_011948167.1 rhomboid family intramembrane serine protease (Clostridium botulinum) [pid:39.2%25%2C q_cov:55.1%25%2C s_cov:63.8%25%2C Eval:2.4e-37%2C partial hit],MGA_12
sequence01	MetaGeneAnnotator	CDS	11722	11970	.	+	0	ID=MGA_13;product=IreB family regulatory phosphoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002939360.1;translation=MDTSKTNLYKLSDLRKADTKKVLKEVYKALEERGYNPTDQMVGYLLSGDLGYISNYKDARKKIKKIDRSKLLAYLLNEAMNK;locus_tag=LOCUS_0130;note=WP_002939360.1 IreB family regulatory phosphoprotein (Bacteria) [pid:40.5%25%2C q_cov:90.2%25%2C s_cov:84.1%25%2C Eval:1.6e-11],MGA_13
sequence01	MetaGeneAnnotator	CDS	11970	12386	.	+	0	ID=MGA_14;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229795.1;translation=MRYLGLDLGSRTLGIAISDRQGIIASPYETIKHNEDYDYLVSEIEKIVNKEAIDEIVLGFPKMMNNDIGPKGKLSIEFKEKLEKKMGIPVVLQDERMTTKQAEDVLISNNTRRNKRKKVIDKLAAVIILQSYLDRKER;locus_tag=LOCUS_0140;gene=ruvX;EC_number=3.1.21.10;note=WP_003229795.1 Holliday junction resolvase RuvX (Bacillus) [pid:54.8%25%2C q_cov:97.1%25%2C s_cov:97.8%25%2C Eval:1.9e-33],MGA_14
sequence01	MetaGeneAnnotator	CDS	12388	12678	.	+	0	ID=MGA_15;product=DUF1292 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246199.1;translation=MKKNKFTLIDEKGNEVEYDVLFTFESEETNKNYIVYTDNSKDEAGNIRVYASIYYPDEENSPLEPIETDKEWQVIETILSTLQEEIKKKSTKKAEE;locus_tag=LOCUS_0150;note=WP_003246199.1 DUF1292 domain-containing protein (Bacillus) [pid:42.0%25%2C q_cov:82.3%25%2C s_cov:87.1%25%2C Eval:1.9e-12],MGA_15
sequence01	MetaGeneAnnotator	CDS	12697	13761	.	+	0	ID=MGA_16;product=endolytic transglycosylase MltG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722008.1;translation=MRKATLIILVGLGVLLLCLFGFYMYETMPVDRSSNADVEVVIPQGMSTRNIAKLLKNKNLIRNDTFFMIYVKLNRKSSIKASTYELKKNMSMDKIVNILNKGNTYNPDVVRITFKEGESITKYAKEIAKKTDNSYDDVIKTINDKEYLKTLIDKYWFLTDDILNENIYYSLEGYLYPETIEFKNKEVSPKEIIETYLKHTDKVLSKDKDKLTKGKYKIHEYLTLASILQLEGRNTKDRRMIMGVFENRLAKGMNLGSDVTTYYGLKKEMDSDLSVEEFNKETPYNTRTNNMVGKLPVGPICNPELDSIEAVLNPTKNDYLFFVADKNGKVYYTKTNAEHTKKVQELKDNNLWIW;locus_tag=LOCUS_0160;gene=mltG;note=WP_003722008.1 endolytic transglycosylase MltG (Listeria monocytogenes) [pid:38.5%25%2C q_cov:98.6%25%2C s_cov:98.3%25%2C Eval:1.3e-58],MGA_16
sequence01	MetaGeneAnnotator	CDS	13749	14342	.	+	0	ID=MGA_17;product=O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830827.1;translation=MDMVIKEIKKDALAEGIPIMLDDGIEFLCNFIKEHECKKILEIGAAVGYSAIMMANVDEKINITTIERDEKRYLKALENIKKADKEKQIKLIYNDALNINIEDEEFDLIFIDAAKAQNIKFFQRFGLYLKSHGFIITDNLNFHGLVDKDLEEIESKNVRGIVRKIKEFKEFLLENNDYETVFYDVGDGISVSEKIKE;locus_tag=LOCUS_0170;note=WP_001830827.1 O-methyltransferase (Staphylococcus) [pid:39.3%25%2C q_cov:98.5%25%2C s_cov:92.4%25%2C Eval:5.9e-36],MGA_17
sequence01	MetaGeneAnnotator	CDS	14347	15465	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQILADDLGSYCSEAGVANIFYITKILFTILQVVVPIILIVSASFSLISMMSSPDNPKAKKSLINKVIAAIVVVLIPFIIEIVMGAIATGGGSKFNYADCWTNAYEAYSAQEGEEEDSDPGEKIREKCLINKKTNKPYDEENCCVSGGKWYKSIGKNGDPCDEKESTSSSTKSAQNEQATSNNSSNPSSSNTNSSSSSSKASTNSNESKKVVADEVVAVAKKALKSPSKNGTAYKSLYEKKTGKSAGSGGYCTEFANWVLYQALSNAGKKNLWKPANGASSLRKAYKKYIVSNCKYSNIKPGDILSFGGHTAVVIANNGSSGIQVIEGHSGVKKNGIKVIKSNSGIDKTVYSKALLTSDSVWKNWKIIRVK;locus_tag=LOCUS_0180;note=MGA_18
sequence01	MetaGeneAnnotator	CDS	15487	16023	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQILADDLASYCSEAGVANIFYITKILFTILQIVVPIILIVSASFSLVSMVSSPDNPKAKKSLINKVIAAVVVVLIPFIIEIVMGAISTGGGSNFNYADCWTNAYEAYSQQQSTGDDSESGEKIREKCVINKKTKKPYDEENCCVSGGNWYKSIGKNGDPCDPKDETKATNDNAKKA;locus_tag=LOCUS_0190;note=MGA_19
sequence01	MetaGeneAnnotator	CDS	16094	16942	.	+	0	ID=MGA_20;product=peptidase U32 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009931632.1;translation=MKLITKVDSKNYNEYKDLTDALIMPLANYAVGYKSYFMLEEIKEAKGLDLFVVINKNIFNDDIDELKEILKEIDKLNISGILFYDLSLIALKKELNLKTDLILDITHMMDNHDLVNYFSDLGINGVRLPSELTIDEIKSIKQESKIPIMVNYIGVEDVAFSKRKLLTNSNIKKDSTIIKEEISKEEFIVNESDLGTSFLKKEIFNASSALEELVEVNTDYIILNEDYIEHDKFVKILAKTKEVLDNKKNYSDYQKEIESLIGNYTGFLYKDMIYRVKGNEKD;locus_tag=LOCUS_0200;note=WP_009931632.1 peptidase U32 family protein (Listeria monocytogenes) [pid:23.3%25%2C q_cov:85.8%25%2C s_cov:87.1%25%2C Eval:1.5e-08],MGA_20
sequence01	MetaGeneAnnotator	CDS	16929	18107	.	+	0	ID=MGA_21;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229802.1;translation=MKKIELLSPAGDLERLKVTLLYGADAVYIGGKEFSLRANATNFSLDEIKEACLFAHKLDKKVFLTVNMVMHETDLEKVYDYIDKVINCGIDAFIVSDYNLAHYIKEKHQKEVHISTQDSVTNKVTAKLLKDLGVKRIVLARELSKKEIKEIIDYSEIDIEVFIHGAMCTCMSGRCALSNYTTGRDANRGGCAQVCRFVFDSDGNKFTMATKDLNMAKYIKDLIDIGVASLKVEGRMRSLYYLATVIGTYRKIIDDCYNNSLTDEKMQSYQRILNNVANRESTTQYFMKEADQNDQYFVGRQEVSNQEYLGLITGYDKDNKCLILKERNYFEIGDKIEIFTPKGDSYQIVVEELFDEDMNELDVARHPEQVLKIRFPKEVEPYSMIRLIEKRK;locus_tag=LOCUS_0210;note=WP_003229802.1 U32 family peptidase (Bacillus) [pid:39.8%25%2C q_cov:98.2%25%2C s_cov:94.8%25%2C Eval:2.7e-84],MGA_21
sequence01	MetaGeneAnnotator	CDS	18109	19236	.	+	0	ID=MGA_22;product=deoxyguanosinetriphosphate triphosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583673.1;translation=MDINKVRKNFLSKEKYLQPFATKSEEAIRLKKIVEDMRPPYFRDSDKIIHSFSYTRYADKTQVYSYKDNGNISKRMTHVQLVSKIARTIGRALKLNDDLIEAIALGHDIGHSPLGHVGEQILDEISMNALNERFAHNIQSVRYYMNVDNGGKGLNLTVQTLDGIMCHNGEILSPVYKPMKKSKKEFLRQYEESYYDLDASRKYAPMTIEGCVVRISDVVGYIGRDIEDAIDLGLFQREDIPKEITDVLGNTNKEIVNTIILDIIDNSMDKPYIKMSKDVYEAVFALKRFNKKNIYLKSMTTEEYNYYKKGMTNLYKKYYNDLLEENMRSLIYRIFLAHQSDEYIESTKKERIVIDFISGMTDEYFLNQIKSIDIA;locus_tag=LOCUS_0220;note=WP_012583673.1 deoxyguanosinetriphosphate triphosphohydrolase (Dictyoglomus turgidum) [pid:33.4%25%2C q_cov:98.4%25%2C s_cov:97.4%25%2C Eval:7.4e-52],MGA_22
sequence01	MetaGeneAnnotator	CDS	19295	19684	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVCKVNLYKNTNPLEVTKEKLGIVLVEQHKDGRITELFSNDELNVYVTADQKGHHGETLYFPDHEYRERVNEEIEEKGYSLYVVFEEIDYDSEITREDLDYYMNNQKNYSYNKFKKGFAINQKKLKRGE;locus_tag=LOCUS_0230;note=MGA_23
sequence01	MetaGeneAnnotator	CDS	19687	20157	.	+	0	ID=MGA_24;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011475971.1;translation=MKNNNVVYLTEEGLNDLKSELDNLINVRRPENIQSIKEARSLGDLSENAEYDAARNEQAEIEARIKQIEKMLENVSIITESNTDEVGLGSTVSIKYVEDDDTDEYKIVGSQEADPFESKISNESPIAQALLSHKVGDVVTVDSPNGNYDVEIIEIK;locus_tag=LOCUS_0240;gene=greA;note=WP_011475971.1 transcription elongation factor GreA (Ligilactobacillus salivarius) [pid:52.0%25%2C q_cov:94.9%25%2C s_cov:95.5%25%2C Eval:2.0e-36],MGA_24
sequence01	MetaGeneAnnotator	CDS	20255	21547	.	+	0	ID=MGA_25;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229611.1;translation=MEKKETKKTKEKKQPSNVHEVVVKIDGKEWKDAVNKTFKEQSKDAKVDGFRTGHVPKDVYIKKFGIEHIWFAAADHVLQEAYFKAMTDSKLVPVVQPAVNISAISDEYVEFTFKITTKPEVKVKKYKGLNVKPETVKVAKEEIDHAIEHLLERYEELVTKEDKIKKGDVAIIDFEGFKDDVAFEGGKGENYSLEIGSNSFIPGFEDGLIGLKAGDEKDLKLKFPEDYGAPDLAGAEVVFKVKVNEVKEKVKRKMDKEFFEDLAMEGVNSKETLEKEVKESLKAQKEMDAENRYVEKLLEEVSKNVEVDIPEEMVNEEVDRLMRRFEENMKMQGINLDMYYQFTNSTEADLRATLEKEGYQNVLYRLMLEEVIELEELHVEEKEAKKEAKELAKKYQMEEEEFLKQFGGIEMIKYDLEMRKAVDKLKELNK;locus_tag=LOCUS_0250;gene=tig;EC_number=5.2.1.8;note=WP_003229611.1 trigger factor (Bacillus) [pid:36.9%25%2C q_cov:97.2%25%2C s_cov:98.8%25%2C Eval:7.7e-80],MGA_25
sequence01	MetaGeneAnnotator	CDS	21560	23368	.	-	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKESKHVFKFILLAIIFIVAIGSFIGCIVYKDILENFNTVLISESLLFLFTLMYISFLCTHKTKKNTIINIASILLIVFYLFNMNYRLNFASIFTNKVKVPDFTNKNITDIIKWSEKNGVGIDQVYEYSEIIKENKVITQDNYEYIDKNKIITISVSDGVDPSKEIIIPDMTSWSVERVVKYIKENYLSNIVVDFNESDRKENTLISQSKVGTVKRDDEILLAFSLGEKVEDHEIKLRDLKNMDKIDAIVYLKQNQLDYELKEDFSNKIKKGKVSRQDITPGSSVKKDDKVVITISKGKEITVPNLKDMNIKEISNWAIKNKLRLEFVYKHDESIKKNKVISSNFDYKDKVKEKETLKIVLSSGKLKMPKFKNLDEFYAWAKKYNIKYKEEHEFSDTVKQGEVISYSYKKGETIKNDDTIIIKISDGKNVTMPNLVGLSKSAAKEKLDKLKIDYTFTYKNSDKAKNTVLEQSIAAGSKTASNITVNLTLSTGVKPSAESTPSQVNNYSRAAQVNNSSANSTKPQTNSCTTKTTVYLYEELYDFSNPSGTCSKIKSTYPKVKFNCQYKSSTGITKGIVINAGSIDSRTFTNCDTVTLQISS;locus_tag=LOCUS_0260;note=MGA_26
sequence01	MetaGeneAnnotator	CDS	23515	24363	.	+	0	ID=MGA_27;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966350.1;translation=MLGIVIVNYNDAKTTKRLLDNIKDYQILDKIVVVDNNSTDNSLKELKKYNKKKIEIIENKKNLGYAAALNIGAKKVVEELGKCHIIFSNSDVIINGEDSLLELSKTISKKIKVVGPTIVEGTNLNRGWKLPSIRDEIRANVPILSRRWNKELLYGEEHYEKDISIVDVVSGCFFLVDSKALEAVKFFDEKTFLYYEENILAAKMKKKGYEEAVCNKVVILHDHAKTIDKNYNSLKKYNILKNSQEYFAKEYLKASEKDLKKIKKYRKLYTLLKYRKVEEEEK;locus_tag=LOCUS_0270;note=WP_010966350.1 glycosyltransferase family 2 protein (Clostridium) [pid:26.0%25%2C q_cov:98.2%25%2C s_cov:91.6%25%2C Eval:4.3e-16],MGA_27
sequence01	MetaGeneAnnotator	CDS	24360	25238	.	+	0	ID=MGA_28;product=glucose-1-phosphate thymidylyltransferase RfbA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000857508.1;translation=MKGIILAGGSGTRLYPLTKVTSKQLMPIYDKPMIYYPLSVLMEAEIKDILIISTPQDLPRFKELLGDGSNFGINLSYKEQPSPDGLAQAFTIGEEFIGDDTCAMILGDNIFYGANLKGELLKARENAEKGRATIFGYHVHDPERFGIVEFDKDGKVLSVEEKPEHPKSDYAITGLYFYDNSVVEKARDLKPSARGELEITDLNRIFLEEGKLDVITMDYGYGWFDTGTFDSLLKAASFVGTVQTHQNVTICSPEEIGYLNGWLDEKKLEEQASVMKKNTYGQHLLTLIKRKK;locus_tag=LOCUS_0280;gene=rfbA;EC_number=2.7.7.24;note=WP_000857508.1 glucose-1-phosphate thymidylyltransferase RfbA (Enterobacteriaceae) [pid:64.2%25%2C q_cov:98.6%25%2C s_cov:97.9%25%2C Eval:3.3e-107],MGA_28
sequence01	MetaGeneAnnotator	CDS	25243	25815	.	+	0	ID=MGA_29;product=dTDP-4-dehydrorhamnose 3%2C5-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107281.1;translation=MKKIETELLDCFILEPDRFGDERGYFSPYFIQNNFDELGFERVVQANRSKSSKGVLRGLHFQEDPKCQAKIVEVIKGAAIDVVVDIRKDSETYGKHIAVELNDQNNRQLFVPRGFAHGFVSLEDDTIFQYLIDNDYAPDKEGGILWNDPDLGIDWDKMLTDNGIDEPLLSDKDQVHPRLKDSKVLFKRRK;locus_tag=LOCUS_0290;gene=rfbC;EC_number=5.1.3.13;note=WP_011107281.1 dTDP-4-dehydrorhamnose 3%2C5-epimerase (Bacteroides thetaiotaomicron) [pid:54.0%25%2C q_cov:97.9%25%2C s_cov:96.3%25%2C Eval:4.3e-49],MGA_29
sequence01	MetaGeneAnnotator	CDS	25815	26672	.	+	0	ID=MGA_30;product=dTDP-4-dehydrorhamnose reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002380528.1;translation=MRSLITGVNGQLGYDIVRHLNLLGEKDYMALDIADMDITNREQVMEVIKKYKPDVIFHCAAWTAVDRAEDEEEMCTKVNVEGTKNIADASIEVGAKLVYMSTDYVFDGTKEGMYTEEDQPNPQSVYGKTKFLGEEEVRRNPKHFITRISWVFGINGNNFIKTMLKLSENHDELSVVADQIGSPTYTYDLAKLLIDMSETEKYGTYNVTNEEFCSWAEFAEYVLKDTDTKINHVTTEEYGKDKKQAYRPKNSRLDKTKLGDNFYRLPTWQDATDRYKKELVKVRKK;locus_tag=LOCUS_0300;gene=rfbD;EC_number=1.1.1.133;note=WP_002380528.1 dTDP-4-dehydrorhamnose reductase (Enterococcus faecalis) [pid:46.3%25%2C q_cov:94.0%25%2C s_cov:95.7%25%2C Eval:6.3e-63],MGA_30
sequence01	MetaGeneAnnotator	CDS	26697	27701	.	+	0	ID=MGA_31;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005694325.1;translation=MKVLVTGCCGYIGSHTCVELLDNNYEVIGLDNFSNSKKEVLDKIKRITSKSIKFYEGNMLNEELLSRIFVENKIDAVIDFAAYKAVGESISIPIDYYINNVSSVLILLKVMKKYKCKRLVFSSSATVYGTPNKVPITEDSPIGGTTNPYGTSKLMVEHILKDVYKSDPTWDICILRYFNPIGAHSSSLLGENPNGIPANLLPYITRVANGKLAELSVFGDDYDTKDGTGIRDYIHVVDLARGHIKALQKLEKEKKGLYIYNLGTGTGYSVLDIVRTFEKTNDMKIKYRIAPRREGDVASCYADPSKAREELGFECEKTLVDMLKDAWNFEKRNF;locus_tag=LOCUS_0310;gene=galE;EC_number=5.1.3.2;note=WP_005694325.1 UDP-glucose 4-epimerase GalE (Haemophilus influenzae) [pid:60.7%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:4.7e-116],MGA_31
sequence01	MetaGeneAnnotator	CDS	27720	28724	.	+	0	ID=MGA_32;product=dTDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461013.1;translation=MKFLITGGAGFIGSNYLHYVTEKYPEDYFVCLDALTYAGNYNNIKDLEKRDNFKFVHGDITDKELVDKLFEEEKFDIVINFAAESHVDNSIKNPSIFLTTNIIGTQVLMDACRKYGVKRYHQVSTDEVYGDLPLDRPDLLFTEDTPIHTSSPYSSSKAGADLLVMAYYRTFNLPVTISRCSNNYGPYQFPEKLIPVVISKALKDEKIPVYGTGENVRDWIHVHDHNVGVDMIVRNGKVGEVYNLGGHSEKTNLELVKLILKELGKSEDLIEFVADRKGHDLRYAIDSSKVEKELNWNRSYTFEDGIKETIDWYTSNTDWIDNILSGEYKEAYKD;locus_tag=LOCUS_0320;gene=rfbB;EC_number=4.2.1.46;note=WP_011461013.1 dTDP-glucose 4%2C6-dehydratase (Desulfitobacterium hafniense) [pid:61.0%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:8.0e-124],MGA_32
sequence01	MetaGeneAnnotator	CDS	28775	29941	.	+	0	ID=MGA_33;product=UDP-glucose 6-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015706040.1;translation=MKIAVAGAGYVGLSLGTLLSQKNEVVVFDVLREKVDKINKRISPIKDEHIEKYFKEKELNLRATTDYKEAFVGADYIIVATPTNYDEGLNCFDTSSIEDVIEKTQQLNIDSTIVIKSTIPVGYTESIRKRYNLKSVFFSPEFLRGGNALYDNLYPSRIIVGSKSKEAKKFGQLLKESSLKKDVVIKYMNSTEAEAVKLFSNTYLALRVAYFNELDTYAESKGLNTKDIIEGVCLDPRIGDYYNNPSFGYGGYCLPKDTKQLKANYKDVPENLISAIVDSNSTRKDYIADEIIKKNPKTVGIYRLTMKSNSDNFRFSAIQGIMKRIKAKGIVVIVYEPSLKEEYFFNSKVIKNLKRFKKESDIILTNRYDHDLEDVTNKVYTRDLFKRD;locus_tag=LOCUS_0330;gene=ugd;EC_number=1.1.1.22;note=WP_015706040.1 UDP-glucose 6-dehydrogenase (Klebsiella aerogenes) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-144],MGA_33
sequence01	MetaGeneAnnotator	CDS	29974	30948	.	+	0	ID=MGA_34;product=NAD-dependent epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957843.1;translation=MKYLVTGASGFIGFYLCKELLEDSNNLVVGIDNMNDYYDVSLKENRLKILKEYPNFTFYKVDISDNRKLLKIFEKGKFDVVINLAAQAGVRYSIDHPDCYINSNVLGFYNILEACRKYPVKKLLFASSSSVYGNNKKIPYKTTDMVDTPVSLYAATKKSNELMAYSYSNLYNIPVVGLRFFTVYGPMGRPDMAYYLFTKRIMNDEQIRVFNNGDMYRDFTYIDDAIDGIMALVSIEIPSDQNGVKYKIYNIGNNNPVKISKFIEILENLIGKKAKKEFLPMQDGDVYKTYADIGELTKDTGFEPQTPIEEGLEKFVKWYKKYYK;locus_tag=LOCUS_0340;note=WP_010957843.1 NAD-dependent epimerase (Coxiella burnetii) [pid:52.4%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:8.3e-102],MGA_34
sequence01	MetaGeneAnnotator	CDS	31039	31371	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMFVCFFLPALIAVAIYDNLYKKRLKTKQVVYNYALYNVLINLITNVAIILMKSGEVVLNEERFTSRFTSKYLIIAFLLSIFLAVVVGYIRETFKFEVTIEKMKVKKDEK;locus_tag=LOCUS_0350;note=MGA_35
sequence01	MetaGeneAnnotator	CDS	31361	32371	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSKWQKIKNVLTIFFFIILVFFITVLFFVRTEYSNITYEELIFHLNVPLEGSHAPFVGNFFKEEAFALIIGILFIIAVGFFMSKMFWHSFTLKIKMKKGKKTKTKRIKIKNNLRFFVIVPLAIILLVLYLMVKQIRFDEYVYNVKHPTKIYEKYYVDAKETQLIFPETKRNLIYIYLESMESSYSDLSSDISEVNNLIPKLEQLADENISFSDTDSLGGAYQTFGVGWTMSGMVAQSAGIPLTIPVSSNSMQFYKTFLPGVTTLGDILGKEGYNQEFMMGSIKEFGGRDKYLIQHGEYKIYDLNTARNLKKFRWITEFGGDLKMGNYSNMPKRN;locus_tag=LOCUS_0360;note=WP_001292674.1 phosphatidylglycerol--membrane-oligosaccharide glycerophosphotransferase (Enterobacteriaceae) [pid:34.4%25%2C q_cov:44.9%25%2C s_cov:18.1%25%2C Eval:3.6e-15%2C partial hit],frameshifted%2C insertion/deletion at around 32290,MGA_36
sequence01	MetaGeneAnnotator	CDS	32590	32901	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVMGEYLYQEEKSLNERRVYNVFINPYVDYDFERLRNRTFTTLDMYPTTLASIGVRIEGNRLGLGTNLFSNKQTLPEQLGKDEVDNELSRPSNFYKNELLYVK;locus_tag=LOCUS_0370;note=MGA_37
sequence01	MetaGeneAnnotator	CDS	32975	35197	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRRKIVINAFLLFLCTLFMSNMKVLALDDEAALANQSADEVTSQANHVSIKYQTHIQNYGWQAEKKDGELAGTTGKSLRLEAIKIFLDSDISGYVEYITHIQNIGWESGYKKTGEISGTSGRSLRLEAIKIRLVGEIAENYDIYYRVHAQYSGWLGWVKNGSPAGTAGLSRRLEAIEIRLVEKGSTELVEGNGFVSKGMEFSYQANVETKGWLSAVGDGKTAGTTGKSLKMKAMKIRLSAPGETGTIQYITKAQEGNWDSVYKSSSQIAGNPNSTYGIEAIKIRLTRELAEKYDVYYRSHIEGYGWLGWAKNDEISGNVDLSLRIEAIEIKLLPKGTNFVTGDSYIAKDAYLSYQAHVQNIGDQAVVLERSMAGTTGRGLRMEAFKIMLNTELSGSIQYKAFVEDGDWEENYKSAGEWSGTIGKSKAIQLVRIKLTGDLATKYDVYYRVHSDKYGWLGWAKNDEMAGATYYDIQAIEVRLYSKRSTIKTTLKTANHYVETGFYKQNGYTYYRDKNGKQATDWIHITGTKYFFNSLGVMIGKNVRKVIDVSEHNGKINWDTVKSQGDVDGVILRISSSGLAREDAQLANNIAALKRLNIPYGIYIYSYAENYNEGKQYAEFTANVIKKYSMNPKIGIFLDLESNGITSYMGVSQYEKVVKGYVDTMFSKGYGNLTSIYTYKNYADTALNSSTLRPQITWIAQYNHFCTYSGSYVGWQYSSTERIPGISGNVDVSVWFANF;locus_tag=LOCUS_0380;note=WP_011109429.1 C39 family peptidase (Enterococcus faecalis) [pid:43.0%25%2C q_cov:62.0%25%2C s_cov:62.2%25%2C Eval:2.1e-102%2C partial hit],MGA_38
sequence01	MetaGeneAnnotator	CDS	35287	36027	.	+	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAQSEKVIEVKNVSKKFKLVYDKPSTLKERIVFWNKSKVSYHEALKDITLDVNKGETIALIGVNGSGKSTLLKLMTKIIYPTSGKIITKGKLTSLLELGAGFHPDFTGRENIYFNAAIFGLSAKEIDERIEDIINFSELGEFIEAPVRTYSSGMYMRLAFSIAINVNADILLIDEILAVGDQHFQEKCFAKLQELKKQHKTIVIVSHSLDSIKDLCDRAIWISEGKVEADGKAKKVIDEYLKVCG;locus_tag=LOCUS_0390;note=WP_010965625.1 ABC transporter ATP-binding protein (Clostridium) [pid:50.2%25%2C q_cov:96.3%25%2C s_cov:57.5%25%2C Eval:2.4e-65%2C partial hit],MGA_39
sequence01	MetaGeneAnnotator	CDS	36029	36796	.	+	0	ID=MGA_40;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965626.1;translation=MLREIYNYRELLKTNVKKEIRGKYKGSFLGVLWSFVNPLLQVLVYAIVFPYIMRIQTPNYLQYLIIGIIPWTFFITTINQGMITVRMNAGIIKKVYFPREILPLSVVLSGLINFFISCIIILIFCLFGGIGVSAHLLLLPVIALIQFVFTLGMVFALSAINIYIKDTEYLVQFILNMAFYATPILYPATLFPERFRWILFVNPMSEIIEAYRAIFLYHTFPDVNGMIYLVIVSVLVLAFGYMIFEKLKKGFAEEV;locus_tag=LOCUS_0400;note=WP_010965626.1 ABC transporter permease (Clostridium acetobutylicum) [pid:34.6%25%2C q_cov:99.6%25%2C s_cov:98.4%25%2C Eval:2.0e-46],MGA_40
sequence01	MetaGeneAnnotator	CDS	36798	38966	.	+	0	ID=MGA_41;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289076.1;translation=MKQYDFIGIKSFKIDGIINPNVTIAGTIKYKDGYELVLKADNKKIEFNHIPTNREENFIINAVLPKDTKQISLYYKKSKQDKFCLVATRKTNMFKRFVKKILGFFVKLVKKAIRVLYVLKRGIKYLWREYHFLVPISLWPKYIKDFRDSVRRYNHKFFNPMLKSDYLKWLRKEKDNTEELKTLKYQPLISILVPVYNVEPRLLKECVDSVLNQTYDNFELCLVDDASTNEDTKKALAEYQQLDKRIRVKYRNKNGHISEATNDALKMAKGEFISLLDNDDVLDKNALYWVVDALNNNDKLDFIYSDEDKLDLDGHRCEPNFKPDFSPDTLLSMNYICHFTTIRKALVDKVGGFEKGLEGAQDYDLFLKTTELTDNIYHIPKILYHWRKVEGSTALKGSAKSYAEDKGKKALENALARRKIPGTVEIDDISKYYKINYDVKGEPLISIVIPTRDYADILKKCVDSIYEKTTYRNFEIIVADNDSKEKETLKYFKETQKKHDNFHVVECKFEFNYSKINNIAVKHAKGEYIVLLNNDTEVITPEWLDIMVGYASQKHVGIVGPKLLYPDGTVQHAGVILGLGGVASHAYIGANRNDTGLYGRLRVPYNYSACTAACFMIKKDIYTKLKGLNEELKVAYNDIDFCIRVLKEGYYNVFVPQVELLHYESKSRGFDTTTEKYKRFLIESNYMYEKWENTINNDRFYNPNFSKNGWFVLDSGVSDKND;locus_tag=LOCUS_0410;note=WP_002289076.1 glycosyltransferase family 2 protein (Enterococcus) [pid:51.7%25%2C q_cov:75.5%25%2C s_cov:77.7%25%2C Eval:1.5e-161],MGA_41
sequence01	MetaGeneAnnotator	CDS	39310	39609	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIEYHWFGNHLDDGLYVNIVSDYVKGIDTFHIHSANGLNQIAKFGPHSLNTWQLEAAFYVKIFRVVPVVLLAFAQSFINYIIFMLVVLAFLEKVLPK;locus_tag=LOCUS_0420;note=MGA_42
sequence01	MetaGeneAnnotator	CDS	39733	40857	.	+	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYGSTIIRTMGIFLLLVPFIDKEKLGFKDLVIYGCISFILLAQSSVALPVVIMVGVAYFVSHLYFDRNCRFILALVLLLLIICGIVLPNIGLINDHALNLYRANSRSIILYGSIIVFLLGYLYKNKTINKINTTILFIIAFMYIPEINDIVENLSMYDFVEARFWTGTFYAIAILAFAYAFVFACKLLSKKKLLVLKGVLLFLLVLGVTLSFEFKYKNIFKSIEILRYNNKLLPNSTVNLGKELERLHIKTKDHLYVLTPDWVVTNGYNHSLAVLLRQHTPSSSIISAIPRYGYFSNKEFKGYEQADNDNYNAFMYDQSGQSYLRVKKILEKYPINCLVVTSKLADWITKDSGFELKKSVCDVDICYYIYYRK;locus_tag=LOCUS_0430;note=MGA_43
sequence01	MetaGeneAnnotator	CDS	40870	41592	.	+	0	ID=MGA_44;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002899987.1;translation=MKKVLIVIPAYNEEKNILRVYNSIMDYNKKNKTNYDVIVINDCSTDGTSEVCHKNDIPVVDLIHNLGIGGAVQTGYKYACYHDYDVAVQFDGDGQHDIRYVKDIVNPILEAKADMVIGSRFVEEKSTFKSTKARRVGIKIISAFMKFVTHKKIYDVTSGFRAINKEIIYDFALSYPNEYPEPITTAEILKKKYRVNEVAVEMKERIGGVSSIRAWKSAYYMMNVCLALLIIKTRRYKRCR;locus_tag=LOCUS_0440;note=WP_002899987.1 glycosyltransferase family 2 protein (Streptococcus sanguinis) [pid:53.7%25%2C q_cov:95.0%25%2C s_cov:96.2%25%2C Eval:1.4e-62],MGA_44
sequence01	MetaGeneAnnotator	CDS	41583	41939	.	+	0	ID=MGA_45;product=DUF2304 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002985167.1;translation=MSLKLVLFMSLGAILLILLATYFLRKGRIPEKYALLWYVFALIILLFSVFPNVFYSLAKAFGFVIPSNMLMLALIAILFLLVMALTIMMAGQKKKSILLIQELSLQKLELDRIKRGNK;locus_tag=LOCUS_0450;note=WP_002985167.1 DUF2304 domain-containing protein (Terrabacteria group) [pid:28.4%25%2C q_cov:92.4%25%2C s_cov:96.5%25%2C Eval:1.9e-09],MGA_45
sequence01	MetaGeneAnnotator	CDS	41939	43042	.	+	0	ID=MGA_46;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000428969.1;translation=MKTIAIFSAYYYPHLGGIERYIDNLMKEFIKMGHKVILITSNYDNLKETENKKGIEIIRLPVFNAFKHRYPIIKHNKEERELLSNLDNYKIDSIIVNTRFHLTSHIGANYGKKKGIPVYLIEHGSNYVTLDNKFIDFFANRYEDFLTMKIKNKIAGFYGVSKACNEWLKRLKISASGVWYNSIDVNQKLPAKEKHKTINFLYAGRLIKQKGVENILNAFSNLEKEHSNIRLFIAGEGPEFDYYKSSFTSKNIKFLGKLNYDELVKYYAKTDIFLYPPLWPEGLPTSILEAGLMKCAIIGTNQGGITEVINDSNGIIVKENIKSLEKAMARLIEDSKLRNKLQEAIYKTVINEFSWEVTAKRIITDMK;locus_tag=LOCUS_0460;note=WP_000428969.1 glycosyltransferase family 4 protein (Streptococcus) [pid:43.6%25%2C q_cov:98.6%25%2C s_cov:97.1%25%2C Eval:9.9e-86],MGA_46
sequence01	MetaGeneAnnotator	CDS	43051	43974	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVSIVLSIYEPNLKYLKKQLQSLERQTYKNIEVVIRDDCPKNKTAREIFDKYLPKTKHRILPSGKKRLGYTKSFEELVKKIDHDGYIAFCDQDDIWDKKKIEYMVNALENSNMDLAICDRQLIDGDDKVFCESESATFKGIRRTWTKGKDIYEMCPFLTIAPGMSIICKASFAKKCLPYYPFAFDKYLTCCAAFESKILKVDIPLVQYRRHGKNVSGVLNGISTKNDYYEQRVLSHHILVNKLASIYKNVDTSKMVAFSNARVNKNIFKIFQYRRISPAQAKFEIILALTPNFVFEQALKIKRRG;locus_tag=LOCUS_0470;note=WP_002261976.1 glycosyltransferase family 2 protein (Streptococcus mutans) [pid:28.3%25%2C q_cov:70.7%25%2C s_cov:69.1%25%2C Eval:2.1e-14%2C partial hit],MGA_47
sequence01	MetaGeneAnnotator	CDS	43977	45488	.	+	0	ID=MGA_48;product=oligosaccharide flippase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011101306.1;translation=MRVKKSFLNAFFGALILVIRSVLLFAVRIVFVKTLGKTLLGVDSLFTNILVVLSIADAGISTAISFNLYKPLSEKNYKKISSLMTFYKKAYKRLGIIVLGAGVLFMPFLSIIVKENITNLYLFYLIYLFSTVVTYFISYKDSLLTADQNFYKSSMIVGTTYILMYVLRIVFLLIWPNFLVFALIQPIMIIIQRVLVNRYITKCYPMVDFDYKEEIPKKEQKQIFKNVKSMFLNKIGYFLVNGSDNIIISAIPSLGLGTVAIYTNYYSVVGAIDTIIAKAISGVTSSYGDLAVVESKDVQENVFNVLSFVNFIIYGLFGVGFFFLLTPLIKICFGSSFDISTVTLLVLCLNFYLVGMIRPLDIIKEATGNYYQDRYVNIFQAIINIVLSIVLGKLYGLFGVVLATLISFVCLPLWNRPYVAYKYIFNKKPYNYLKKQAIYFVSLLIICVVCHFTLNIVTIDNAVFDFVVKALFITIIYLLLVSALYCRTKEYKEVVYLIKKNRL;locus_tag=LOCUS_0480;note=WP_011101306.1 oligosaccharide flippase family protein (Lactiplantibacillus plantarum) [pid:31.2%25%2C q_cov:99.8%25%2C s_cov:98.8%25%2C Eval:1.2e-74],MGA_48
sequence01	MetaGeneAnnotator	CDS	45592	46728	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAILSLHLGYGGIEKSIVALANMLSDKYKVEIISSYRLYDEPAFDIDKKVKVKYLIKDLIPNREDFKRAVEDKRIKSIFKEGFKSAKILRLRKKTMVNYIKNTDADIVISTRDIFDEWLGIYGPKDVLKIGWEHNHYHDDLKYADRITRASSKLDYLVVVSKSLQKYYGKRLRKSKCHCVYIPNVLDSVPKRVSKLESKRIISVGRLSEEKGYDDLIKIFSVVSKKHKDWVLDIVGDGNERKKLERLIKNLKLESKITLHGFRGKEYIDELMDRSSIYVMTSHTESFGIVLIEAMSHGLPCIAFSSAEGARELIASGKNGYLIKNRSYNAIIKKINDLIKNEEARKKIGKEAYKSIKKYTSDVVEDQWLKVLEKK;locus_tag=LOCUS_0490;note=WP_003972899.1 glycosyltransferase family 4 protein (Streptomyces) [pid:28.1%25%2C q_cov:99.5%25%2C s_cov:53.7%25%2C Eval:7.3e-39%2C partial hit],MGA_49
sequence01	MetaGeneAnnotator	CDS	46733	47209	.	+	0	ID=MGA_50;product=UDP-N-acetylglucosamine--LPS N-acetylglucosamine transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000686635.1;translation=MKRIMFISSAGGHLSEMLQLKKVIDSNDSYIVTENTKNNLSLKKKYNNKVSFLLHGSKDHIFTYIFKFIYNTFKSLFLYFKVHPDYIITTGAHTAGMMCIFGKLFGSKVIYIETFANINTKTATGKWVYKLHAYDYFIVQWESMLELYPKAIYGGWIY;locus_tag=LOCUS_0500;note=WP_000686635.1 UDP-N-acetylglucosamine--LPS N-acetylglucosamine transferase (Streptococcus) [pid:35.6%25%2C q_cov:98.7%25%2C s_cov:99.3%25%2C Eval:4.8e-17],MGA_50
sequence01	MetaGeneAnnotator	CDS	47206	47718	.	+	0	ID=MGA_51;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000578443.1;translation=MIFVTLGTQDKSFKRLLRLIDELKQKKKIRDRIVVQAGYTKYESDNMEIHDFVSQEKMKEYIKEAAIVITHGGVGSILGALKQNKKVIAAARLKQYNEHTNDHQLQIIREFRNRGYILALDNFSDIDEVLKKAKTFKPEPYKSNNIKFNNMIEKIIAEDDHTHWLRRKKK;locus_tag=LOCUS_0510;note=WP_000578443.1 glycosyltransferase (Streptococcus) [pid:32.1%25%2C q_cov:94.1%25%2C s_cov:99.4%25%2C Eval:3.9e-21],MGA_51
sequence01	MetaGeneAnnotator	CDS	47728	48765	.	+	0	ID=MGA_52;product=phosphodiester glycosidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816491.1;translation=MLGTYTIIILIMVMTFLLIKLKTKKLLVFLIILCISFLLVLNNKKFKTFLITSSMSTKHHQYIAKFFYSNDEINRVLNKNKVVDQGEITDLSLISLNKNSKPLNKYENELLKYRTKEFKLFHLKGHGYRGYLVAIYKPEKVSIAYSSKIGKEGEYITKIAKDNKAKVVINASGYYDPNWRGNGAIPHGILIKDEKIISEYKDSGMSGGIIGLTSNHKLFLGNIKKNEIAKYNIKEAISFGPYLIINGKKNKVIGDGGLGIAPRTAIGQRNDGIFLFLVIDGRLITSIGADLNEVQKILYNYGAYNAVNLDGGSSSELLINKKIINKPVGGGKNGLRKMPVYFMMK;locus_tag=LOCUS_0520;note=WP_005816491.1 phosphodiester glycosidase family protein (Desulfitobacterium) [pid:38.6%25%2C q_cov:92.5%25%2C s_cov:87.4%25%2C Eval:1.3e-55],MGA_52
sequence01	MetaGeneAnnotator	CDS	48835	50187	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKKKRKKKQVGKKEYLFNVLSILIVIIFALVIGYRSIYYYSKQTNKKEKEAFTLKSAVVETNRLTKGDNGLHKDKEGYYFTGIVDNNYVSFFNRLFRVVRIYDDNSVKLVSNSNEAVFDFGDSSNYDKSNVYKWLNKTTEEHSGIYYNTFSGVEQLLKKTNYCIPKFKDEDIKCTDSKSDYFLPLSLEDYILAGGKKGFMNTEENSYLLGINDKNDNLYVDEEGNVEDISYYNPSGIKVEFTLNTDIKVINGTGTLNDPYVIDQKKNDNYVNKYLKLDSDLYKIYENGDVLRLIKADYIKVNNEYYEGPFSNLYGTFNPFYRRNIAYFLNTTYYNSLSYKDLLEECEFYIGEVSDTTSVDYKNIYGETITNKVGLPNMYDYNSTKKLNDYFLINTISKTSKVVHVFDFRGIINNSSVDDNKKIVPTVCVRKSMIKKGTGTISNPYKMR;locus_tag=LOCUS_0530;note=MGA_53
sequence01	MetaGeneAnnotator	CDS	50184	51257	.	+	0	ID=MGA_54;product=phosphodiester glycosidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816491.1;translation=MIKIKRKLRLKIRPFTIITFLFDLAFIAILVIIYTPIINFKNLWVTTAMTTMNHQYLAYTLYSEEDVNKIMDSNYIEESKEAMNLDDIIIGDNKEKKHYKDEYERAIYTRDKDNDVYKIIRINEKTYKGYLTVVYDPKDVTLAVPKKLGKAGTSVNNLVLENDGLVGINGGGFEDLDGWGNGSKPYGAIIKDGKLLWDYKESGGLIGFTKTHKLWLTNMEPDEAIKKGMSEAVEFGPYLIINGKKANIHGDGGWGIAPRTVIAQRKDGIVLFLIIEGRLPGYSIGADLNEVIELLSKYGAYNAANLDGGASSTMSVNGKLYNKPSAGGEYGGRTVSNAWIVTNKSHKKVPKKKEVKR;locus_tag=LOCUS_0540;note=WP_005816491.1 phosphodiester glycosidase family protein (Desulfitobacterium) [pid:41.0%25%2C q_cov:88.0%25%2C s_cov:84.6%25%2C Eval:7.9e-56],MGA_54
sequence01	MetaGeneAnnotator	CDS	51330	51917	.	+	0	ID=MGA_55;product=TVP38/TMEM64 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000347517.1;translation=MTGLLENISEIIDQITIFMQDGGIICGIFLILLESIIPVLPLGVFIAMNINAYGFILGFVISWLTTCFGCFLSYTLFRFIGTKLLKLLSKKDLKRIKKGTKRIRNLEFSNLVLLIALPFTPAFLINIIAGLSNVPRKKFMAAILLGKLFIVYFWGFIGKSFIESMSDVRILISIVVILVIAYIFSKIVAKKFDLE;locus_tag=LOCUS_0550;note=WP_000347517.1 TVP38/TMEM64 family protein (Bacillus) [pid:31.7%25%2C q_cov:94.9%25%2C s_cov:91.9%25%2C Eval:1.8e-21],MGA_55
sequence01	MetaGeneAnnotator	CDS	51926	52993	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYVIIGILIVILIVSVISLFKNINEAKITDRLSNLEVNTVKELGEFKNSITKDMNDSFTKLNEQVEKRLIMINEKTNERLDQNFEKTNKTFTSVIERLSKIDEAQKKIESLSTDIVSLQSILTDKKSRGIYGEVNLKHILASVFGDKNDDIYKIQCPLPNGSIADCVLFAPEPLGTIAIDSKFPLENYQMMVDTNLSKAEREKYSKLFKADVKKHIDAISSKYIIDGVTTNQAIMFLPAEAIFAEINAYHPDVIEYSYKKGVFITSPTTLFSTLTVIEMVLKNIERDKYTSLIHDELNKLGLEFARYKERWIKLSKSIQTVNKDVENVSITTDKITKKFESINKVDVKALKEKE;locus_tag=LOCUS_0560;note=WP_010958086.1 DNA recombination protein RmuC (Coxiella burnetii) [pid:42.2%25%2C q_cov:83.4%25%2C s_cov:68.8%25%2C Eval:8.4e-66%2C partial hit],MGA_56
sequence01	MetaGeneAnnotator	CDS	53042	54457	.	+	0	ID=MGA_57;product=oligosaccharide flippase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000091276.1;translation=MNKKKELAKNTFIILAGKVSTQMITFFMLPLYTSYLLTEEYGLVDLITTYVTLIIPIITLDTEMAMFRFLIERRKDKKETKKLLANNFSYLLIALSIFTVFYLIVVQFFTIPFKYLILLDIIICVLSSNFLQIARGMGRNTVYSIGCIVTGLSIVALNILFIVFLGWGAFGMLLGTALGNFICDIYLFITLKLYKNLTFKYNDKALIKSMLKYSIPLVPSTLGWWIINISDKTIISIFLGVAFNGIYAVANKFATIFSSLLNIFNLSWGESASLHINDSDRNKFFSDVFNTIFKLFASLGLGIIACMPFIFPILINSRYNDAYNYIPILILGICFNVLLILYNGVYIAKKLTKQVANTTIIGAIVNVVVNLVFVKFIGLYAAAISTATSCCVMTLYRHFDSKKYIKIQYDKKSFISAFVLFILVMLTYYYRNIYLQLISLIIVIIYAYLTNRKLLKNFSKSFLNKLIKRNV;locus_tag=LOCUS_0570;note=WP_000091276.1 oligosaccharide flippase family protein (Streptococcus pneumoniae) [pid:28.2%25%2C q_cov:96.4%25%2C s_cov:97.9%25%2C Eval:6.9e-53],MGA_57
sequence01	MetaGeneAnnotator	CDS	54470	55366	.	-	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVAIIGCASDLGVHIDGAYLGSLQLINDVKGFFEGEVSVVKQNENIIKSRNLSDRKKNKYDVDKINAEIYKEVLAKKDKFFTISIGGDSSISIPSALATSKKNEKIGMIVISAHPSYNTFESTVSGNINGLSNAAINGYKCEELRDFYDGDIIQASKSVLVGVRSIDQWEKDNIKYSNVNIIEQKELLEKGIEQSINEAFEMALTKTKCVHVIFNMDIFDPDIAPGVSVPSIDGLTVEQGMEIFDELLKHIDNIEGFDLVEFNSLRDVNRKTEQIAVNILSKLIRKVEKDKNVTYYK;locus_tag=LOCUS_0580;note=WP_005903647.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Fusobacterium nucleatum) [pid:31.7%25%2C q_cov:95.6%25%2C s_cov:35.8%25%2C Eval:1.1e-28%2C partial hit],MGA_58
sequence01	MetaGeneAnnotator	CDS	55485	56177	.	+	0	ID=MGA_59;product=RNA polymerase sporulation sigma factor SigK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000051382.1;translation=MFNIIKIVKDLIFLTGSYSNEVFKDPLSKEEEQECLRRLQLGDKEARNKLIEHNLRLVAHIAKKFDTEFISLDDLISIGTIGLIKGIDTYSSAKGTKITTYAARCIENEILMYFRSNAKTFKNISLNEGLGYDKEGNEINILDLLKAPAPDYVEEISLKDNIKLLSKYMKVLNEREKEIIIKRYGLFNNEELTQKELAKELHISRSYVSRIEKRALTKMLREFITNKDID;locus_tag=LOCUS_0590;gene=sigK;note=WP_000051382.1 RNA polymerase sporulation sigma factor SigK (Bacillus) [pid:53.7%25%2C q_cov:94.8%25%2C s_cov:92.0%25%2C Eval:1.4e-61],MGA_59
sequence01	MetaGeneAnnotator	CDS	56217	58490	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMIITDNETKLNMLKDESDFHDYKFISKNEFFRNLFFDYDYKTVTYLMEKENKKVDAVLNILNSLYVIDGNKKYKNKKLIHLQGIKKDLTDNNLLIFNDNFKNYLQRFSSLDVRNVFLEKHETDALNELDLEVNYIEEKPLGKTIPICQYETFEEEIFGVLTRIRELLDEGVDINKIVLTNVTKDNFFLLERCFDLFNIPVSLPKKISIVKTRQVRKFLKTGDLSVIEDKAILNKVTAVLNNLVEIKNDKYYQEVLEYNLKHMYLDNITLKNSVRIKGLNTIFLEDEYVFLLSFNSDVIPKYVKDDSYITDDLKDEVDIYKTYKKNKIIKETTLSLLKSINNLYLSYHLYDDKEMAISNLAKELSLEEVEGEVNYNISDKYNRLKLSEYLYDYNNYNVQNEDLELLCSNYESIYNSYDNSFTGIDKSDYLDYVKKPLTLSFSSLDNYNQCGFKYYIRNVLKMDKYDEVFSIFIGNLFHYILSLKDEDNFNFEREWNKYLEKKELTNKESVLLSFVKDDFKMILEKMNEMMESSLFKKSYSEVPIEEKLDKEIEVIFKGIIDKIITFQNVNDTYYAVIDYKTYDKKFDLNNVLYGLDMQLVIYTYLIGKSNLLKNPIFAGMYFEKVINSKREEEPDIRLTGFSTDNLAVLEKLDSNYINSKIIKGLGFTKEGNFKASSKLLSEAEQFNLTKLVKEKIENSVDDILDAKFDINPKKIDKENISCKYCEYRDLCFIKEKDIIELEKPDIKEYLGGDLNA;locus_tag=LOCUS_0600;note=MGA_60
sequence01	MetaGeneAnnotator	CDS	58483	61497	.	+	0	ID=MGA_61;product=helicase-exonuclease AddAB subunit AddA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476466.1;translation=MPKFTVDQQKAIDLEGKNIIVSASAGSGKTAVLTERVFRKIKSGISVDNLLVLTFTNKAAAEMKDRIRKKLEKEKLVEETEKIESASITTFDAYALELVKRYSDILNVSKDIEITDINIVNLYNKKILEEILDEYYEKKEKNFLDLIKKFCLKDDDNLKELILDIFNKLDLLYDKNAYLNKYLDVFYDDNFYSYVKEELENILLKKISYIRILLNRLQDNEVNFYDSFERLLASNNYEEIKRNIDFSIPKSPNNSSEEVKSFRKELKLICDEIKEVVNEDFESTFVLEKDLISVLIDILKELSLRTKIFKDENNIYTFADIYKLSIKLVNDYEDIRDELKYKYNEILIDEYQDTSDLQELFISKIENNNIYVVGDVKQSIYKFRNANYHIFKEKYDSYKSADNSEVIDLNKNFRSRAEVLKSINDLFKYLMRKDISFLDYNDHYMDFGFSNYNELKNENSNYDLEIYTYDEERASKEEQEIFIIANDIKEKMDREILIFDKEIGTLRKVKYSDFTILIDRATSFDTYKKVFEYLGIPLSLEKDYDLSLEDDIYIFKNIIKLLIMIKENNFDEEFKKAYLSVGRSFLFRYSDQQLFVDLTSNKYIESELYRKCLNLAKDLDSISAAEMFMQIIKEFNYEERLNYITNIKLFRKREKSIYELIEGLEEAGNTIYEIPDLLEELLDDNNIKIALEKENIDAVRIMTIHKSKGLEFPICYFAGFYKKFNMRDLSKKILFNKELGIVFSDNAILKYILKEKETEAEIDEQIRLLYVALTRAREKMIIVMPKIEDYNDELTGFEKSHYNSFLSIIKSIYKYLDKYIIPKKVELDTNYKYPKELMTNLEGKGKLNVQNFDIRNEQIEKKKYSKESTLLDEEVVKNMDFGTKVHQILEYIDFNNPRIENMDIPGDIRSKVEKFINSDLIKVNKNSKFYQEYEFVDNDSLGIIDLMIENDKELIIVDYKLKNIEDEAYKKQLKGYKDVISKKTNKEIKTYLYSIYEERLKEIL;locus_tag=LOCUS_0610;gene=addA;note=WP_011476466.1 helicase-exonuclease AddAB subunit AddA (Ligilactobacillus salivarius) [pid:26.3%25%2C q_cov:88.6%25%2C s_cov:80.4%25%2C Eval:1.0e-78],MGA_61
sequence01	MetaGeneAnnotator	CDS	61519	62412	.	+	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKFIVSDLHGNGEVYNSIMHYLDNINLVEDVSLYINGDLIDRGINSFEMLADTKRRIQEKDSFPINYLAGNHELMMYEALKKGSFSLVDLWMFNGGLITSGGLDFVSSEEFDSIIDFVGDLKIYQPFEETVADKPIMLVHAASSGYSPDIMNLRLKDKDMSYMVEYAVWTREKDEFGLTHIIGNDDYFSVIGHTPTFNKEGFIYNKDDKYLNIDGNCSSYALGSFIYDRVPLLEIKEKGVEILQFNHNNEIVGGYFLDKELEPLTDNDLSKRRVYLDHSLDNCEEKQKQLIKEYRA;locus_tag=LOCUS_0620;note=WP_010966072.1 metallophosphoesterase family protein (Clostridium) [pid:27.5%25%2C q_cov:66.0%25%2C s_cov:78.3%25%2C Eval:1.9e-09%2C partial hit],MGA_62
sequence01	MetaGeneAnnotator	CDS	62441	64243	.	-	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNKVHGRFVILFLYIVALAFSAFTIYNLYLIRDMNDIRIYLYTIAGVIAFLDLVFLFKVRYRFKKKRKKKKKNKGLVFSLILFIILNILIGGAISYVYGYLGTLSKDVSTYTSYLVTLSNDKIKTPDDLDEGTIAILDDKYSPEGYIIPQKMIREYNLDANNKIKKYNDYSSMIADLYSKDLDAIFVGDNYVSTYSSVEAFQNIKDDTKIIAHKSERIKKSDISKKEKAASGKSIDKPFTILLMGVDSTDETLGENAIANGDSLILITFNPKRLNATMLSIPRDSYVPIACWNDKAENKITHAAAYGNDCMMNTIEDYFDIPIDYYVKINFKGLVKLVNAVDGIDVDVPKDLCTDSSDRKGQVCIQGGRQHLNGEEALVLARNRKQLAAGDLDRGQNQQLVIKALMDKIKSINNMSQFKEVLDAVSENMDTNLNNKQIISFYNVARDINKSSLATKNSDIVDIDQMYLQGNGATIFDKRMRMNLWNYVPVEQSRADIEKAMKVNLDLKKYKPIKKFSFSINKPYEKKVVGYGPYNAAKIKYIQVPNFIGDTKYQASKWAKAHGMIVKFVGNGNTVTAQNYGYGRKVASNNAVTLTLGK;locus_tag=LOCUS_0630;note=WP_078711491.1 LCP family protein (Anaerorhabdus furcosa) [pid:31.0%25%2C q_cov:73.0%25%2C s_cov:54.6%25%2C Eval:4.1e-48%2C partial hit],MGA_63
sequence01	MetaGeneAnnotator	CDS	64404	67901	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYISLTIFSLFIFLGFIPNSFALTSSEYKNRKQCSNFELAKAGSNGAATKVNCYSSYSAAKSAMNASSEKNLFIFEVGSTTKIVDAKYAIVDLSATGPDLTYFYTSKDLKTAYTYMDTGSLYGGVDGALLDVNYGKSIKVKIAGLISWIPNNTFELVPLPWVKSSASYTIGDTIKHNYVNKPSETYSGSRGSVIGPKPDNVAKGTYYSYDGHYFYNDRYKMIDDYKAGTYSKAVNSSPYYNYYMYLSNHSKTSYSAINIDEYIRNNMGVSKALYGDKSVDNSSRLYGQGTFFYNTQEIHGNNALLAFSHSRNESAHGRSSIAIKKNNGFGLNAVDSNPSEASNWYPTFASSIYEFGRVWITDGYADPSDWRYFGPAFGDKLIGMNVKYASDPYWSEKMASLYYDFDKAYGLQDYNYYQLGVVTKATNAYLNSNGTSVAYKYPEAEDGVLILGEVGNYYKVQSDKIINGTTITTTGKYNWNSAVYVPKSDIKKINTPKNGYKAPSAVTAYKDKDYTYDLYVVSATLKPKVVVTTKDLKYYYDSTLQKPTGKTVLKDKWLMAYAEAFDKNGNTVAYLVTSDYKFDQKHWIPAGGIKFKTTGYGKVTVNVSGAYTWVNSTPHESSSTIIGGQYNYSYVPLLTSTTSDGKTWYKVPVSLTSNTNSYGWTIAHDSEVNIALTMYNADNDNKRLNINNAPVITTSNTTVYLNSTFDKMSGVTATDKEDGDITNKVTVTGNVDTTKEGAYTLTYSVTDSQGSSATASRKVTVIKNEAPVINVSDKVVKQGTSFDKMNGVTATDKEDGNITNKITVTGEVNTDELGNYTLTYRVEDSYHNVTTKEITVEVLTEEEYIERHPRVEKEGIYYLDALKEKNNKVYIKGYHAIKGINNTKDENFTYKLVFVNQNTSEEITKDLNRIMNTSEMTRPVYHTDNFDYTYSWFDGSIDISNMPEGDYNVYIVTENDDYYARTVVSDKVLKSKITNFVDGNKYLTTRNNYLHDNVALEFVIRNEKIANKNSNIYNAYNQYRELSFKNDLLYIKGTAYSYGMNLALTANLNRKIVFENINNFNKYTYDLASTNNGLYQVGTTLGDNFSKDKAWFDKSIDITNIPKGKYAIYIVNKANIEDYGELTEVLLRSLNDIVLNKDGKKYSFKVNNKLRYRIELYVE;locus_tag=LOCUS_0640;note=WP_011674154.1 DUF5011 domain-containing protein (Lacticaseibacillus paracasei) [pid:50.9%25%2C q_cov:13.4%25%2C s_cov:30.3%25%2C Eval:8.9e-37%2C partial hit],MGA_64
sequence01	MetaGeneAnnotator	CDS	68018	69337	.	+	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIMNLKNIGLILTIVLVSILTLNTKNVKATGTVTWSGPSSITIRETISNMTNPIVASRAYGLFVQGNDITPVTTATINFTASDTPTNYQITKSTTMNLTSLAFSKPGDYEYSIYPDWLLDNAGHFLDNYSTGSHHYNVTYRYKVIVSVRNVVDANNTPTGDFTATTILESCEYNEQTNNYENCTKISPVSGVLYADYDYETNPESFAHIEISKTVKGIGADTTKYFPITLTIYNEGAIFDDWEYPITGIDSTITYNGQSVTQPTTIGNGTPVIIYIKHGQTAIIGQATSGGSSFDLIPTKATVGYSGGGGGSYANSQLKEYRVQKLAGEQIFYGSFFTVAEDPKDYSPSISPDNENFFNVSSVSDIAGIPSIEIGGEQKKVLPIMEGGTYPIYFINTKEMSPVTGLIFTILPYVILVGIGVGGVLLFRYSKTKKSKS;locus_tag=LOCUS_0650;note=MGA_65
sequence01	MetaGeneAnnotator	CDS	69433	69822	.	+	0	ID=MGA_66;product=Hsp20/alpha crystallin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966974.1;translation=MDLMPRKFYLDDMFDDFLSTKSTGMKCDIYEKDGCYHVEMDTPGFSKDDLSISMDNGYLTITAEKSHEDNDDSKNYIRRERSYGKYERSFYLGEVDEENIDATFKDGVLKLSIPKADENKSKRVIEIKD;locus_tag=LOCUS_0660;note=WP_010966974.1 Hsp20/alpha crystallin family protein (Clostridium) [pid:42.6%25%2C q_cov:91.5%25%2C s_cov:85.4%25%2C Eval:1.1e-23],MGA_66
sequence01	MetaGeneAnnotator	CDS	69887	73315	.	+	0	ID=MGA_67;product=pyruvate:ferredoxin (flavodoxin) oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016958.1;translation=MKKIMDGNEACAYSAYNFTEVAGIYPITPASPMSEVTDKWAGEDKKNFFGMPVKIVEMQSEAGAIGMVHGSLLAGCLSSTYTSSQGLLLMIPNMYKIAGEGLPCVINVAARSLSTHALSIFGDHQDIYAVRSTGFAMMAMSSPQQCMDLTNVSYLSAIKGRVPFVNFFDGFRTSHELSKIDVIDSNEVKSLIDQKALKEFRDEAMNPDKPYTRGTAQNEDIYFQITEARNKYYDKLPDIVADYMKEINLIAGTKYAPFNYYGSPRATKLIVAMGSVCETIKEVVKHLNKKKNEYGLVEVHLYRPFSTKYFLKAIPKTVKKIAVLDRTKEAGSSGEPLYLDVVKTIKDIESKVLVVGGRYGLSSKNTTPAMIKGVFDFLDSKDVHSNFTVGIEDDVTNLSIKYDPSFVLPNNHTDFLIYGYGSDGMVSASKDILKITGNHSNAYVQGYFRYDSKKSGGITISNLRFAKDRITSPYYIEEAKMVVCTKDAYLGKLSMLENIKKDGIFLLNTDEDEITVLDKMSVKDKKILQDKNIKFYIVNASKIAFDNGLRGKISAIMEVLIFKLGKVIDFDFACKKIKDSINVRFSHKGNDIAKKNIEAIDEAVNALKRVKVPNVTFDEIVEEKKDMFDLIGAMEGDVLPVSSFITNAHGAHDAATSRFDKRKISNIVPKYCSENCSTCGLCSLVCPHAVIRPYLLDEKEVEEAPESLKGKLIDANIKDANLKFTIGISIDDCTGCGLCAGICPGLKDKKALKMTDKNKLKEEVEENEYLINEVSEKKDVLNRFTIKGSQLVEPKFEFSGACSGCGETPYIKLLTQLFGDNMIIANATGCSSIYGASTPSMPYSVPWANSLFEDNAEFGYGMKYADEAMKDRIKKVISENLSKVKKEEEKIYKDYLENINSDTADKLLEIVDKSKISELKKLKDFIKPKSVWMIGGDGWAYDIGFSGIDHVLSNKENVNILVLDTECYSNTGGQQSKSTREGAVVKFASTGKETPKKDLAAIALTYPNAYVGTISLGANPMQAINTMKEAENYNGPSIIIAYAPCIAHGILKGIQDSINTEKKATESGYFPLFRYNPETDEFKIDSKADFSKYYEFIASEDRYRSLKKLNKNYREMLEDNKNNAEKRFDHLEDILNNKKEEK;locus_tag=LOCUS_0670;gene=nifJ;note=WP_011016958.1 pyruvate:ferredoxin (flavodoxin) oxidoreductase (Fusobacterium nucleatum) [pid:49.1%25%2C q_cov:98.4%25%2C s_cov:97.9%25%2C Eval:0.0e+00],MGA_67
sequence01	MetaGeneAnnotator	CDS	73556	74080	.	+	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKSKEIPKTNYILFAIMILAVILVLFFITSFYRNRVNEMKEIPVIRDYLLEINPVEVDNYIIEHPGAVLYICQPSDDVCRNFEKKFKKFAEKNNLYNYVTFVNLNHTDVYEFFDKFNINYVTKKEITTNYPVVVLFEDGKVKSFVQGKKDKPLTVDDVKYFLKINEIGENFE;locus_tag=LOCUS_0680;note=MGA_68
sequence01	MetaGeneAnnotator	CDS	74073	74576	.	+	0	ID=MGA_69;product=tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886453.1;translation=MNNIVLYEPEIPQNTGNIMRTCVATNTKLHLIKPLGFSLEDKYLKRSGLDYIPKLDYEVYENFEEFKKKNKGKYYFFTRYGKKPHTSFDYTEGDNLYFIFGKESTGIPKEILQEDLDHCMRIPMSANVRALNLSNSVAIVLYEALRQQDFNDLLRYEPHKGQDYLWK;locus_tag=LOCUS_0690;gene=trmL;EC_number=2.1.1.207;note=WP_010886453.1 tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL (Bacillus) [pid:54.9%25%2C q_cov:90.4%25%2C s_cov:95.6%25%2C Eval:7.4e-46],MGA_69
sequence01	MetaGeneAnnotator	CDS	74633	76189	.	+	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFRKPYAFLIKNFRKIHILMLLLVIYVYVKNIRLLAFVRNYVALQSYNSALESIDKYIGFLPYLAILLILVITGLLIYLFLYKKKPWKLYLIIILAYVLMFIGFNMAGSYFHNYDANSTIAGAMAVRDVLFIASLLQYPVLVILIIRITGIDMSRFDFAHDEEFMSLSAEDREEFEINIDIDKESFKRGFKRVFRNLNYFYQEHKYIVRLLSVVIVGIIGFVAYYNIFIVNKVYKEGTVLKTLDYAIKINKSYFTNTNYQGKKISKNNFVILDLTVKNNGASRTMNVERFHIVNKNSDQTNTYYYNKEFRDLGTPYESFELKRDKEKRFLLIYKVDKTLEKDNFSLYYQTVVDGTDSKLIKMKLNLEDVSNVKTMAKVKLGEEQKLEELKGTTEEITISDCLIDDSFSYNYYSRFSDDTSGLESEDVTAKTGQKIMKLEMITSSLDNQDLVDFSLMYGKIKYEDSKGKKKDVALKNAIEREYFGNNLYLIVPDDITKATKIDFIFTLRNRRYIYNLK;locus_tag=LOCUS_0700;note=MGA_70
sequence01	MetaGeneAnnotator	CDS	76205	77989	.	+	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEREQLIKAVKIAVTCLIVFLFLWFLLIYPLGSFNKSENKMQSAAKRYFELNPSKLPREGMMATVGLAKLYSKNYLDALYIPYTKKMCSVEDSWVKVKKEKGDYKYYTYLKCGILSSNVDHNGPNIVLNGDETIKLDLDSDYKELGVKSVVDNTDGKIDVNKVKINSSTVNTSKVGTYKVKYTVSDSFKNQTVKIRTVIVQKTLASAVKKATNNTGVYKGDIDNNYIRFANTLFRIVKLNKEGTITLVSDNSLAFVDYNNLDNWLNKYYYDLLPSSSKKYLVDSKWCDEEVKDSKNYKQCQNSTAKKISVLSVADYSNSISDGESYLSNYNSSWTNNAKDDNTAYTVSTVYGTGDFKANNKNDNLGVRVAVTIKKGTTLTRGDGTETNPYTLGDVKRGKSSSKLNTRFVGEYITYGGMIYRIINTSEDGPTKVLGEFEVVDEESSPIEIGYEKEPYIYNPRQSGNIGYKINNELKAYFKTNYFVNHEIEVPIYNDKATYQKENSTKKYKVKFSAPNMYEIYSFPDDRSGATGYWMINSSQSKDYQYYTNPSGFLKNGKTESSAVTGVRIVGYLDPKCSILSGDGTYEDPYEIAK;locus_tag=LOCUS_0710;note=MGA_71
sequence01	MetaGeneAnnotator	CDS	78002	78811	.	+	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSKAKQEKKLLMIISVLLFCSVFVVLLSMLIRSFKPFYKVEDRVEQVQREAKKRSDLVEGWIKVQGTNIDYPIIYNDYYKGTDLNNIKYDFAWSNEKVDKLTNRPLIVGHNLLNVSKTPLIADPNHSRFEQLMSFVYIDFVKDNKYIQYTIDGKNYLYKIFSISFVNDSTIDYETVSMTEEELEKYIDSSIKDSMFDFDIDVSKEDKIITLVTCTRMFGYDSGKTFKIDARMVRDKESIRNYKVKEKKKYKRIKKVMEGDSEDEQDI;locus_tag=LOCUS_0720;note=MGA_72
sequence01	MetaGeneAnnotator	CDS	78795	81785	.	+	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIFKKYKIGVGLSVALVLLVALLLSFVNVKAEPITDQGADIGDEIKKSVDVKEGEADKDKSDDGKSYEDKIADFSKAVVKVDSSCANDKKDRPNCTVTKARERYDVKAVFSDKDRTATLSAAKGKYKVVAMIGDTNNKTNYTLNAGTKLKIQVPESGNLEVLITVKLSEDDSNSSYCRAGCYVENFTHSFNEQVGSVENVHYDGVCKSFRESYTPSRSAEEQAKLKELVPYCFNTSVDSVWPEATIKQVIESAKVVAKLNYIGGGKIPDATGYTYVDPDKTNLAKLTCDAWSPNINEKKYYTKKVIKDNSVCSVTCQEKFKVKYDAPTSVVGGQCFTYSVQVESKVDCESKIKKSAPEKPKICNPYPICNGYAGYAHQGGPKEEFDACVSSCDNGSYSQKCINKCYKKVYGTSNKVKTTAMDIGEYVADKTASTCGKVNKNSIKSVMKYKAEYPGGYYYWSGNTIKWKYDSSYGSLCGLPGAKFYYQSYYYTRRMLTGTDYPNRYAGPYIVDSNGFRRATYCHEHCRYVGCSKKTKDGKTVALNAKEAAEQYRTALAAYTRKIEACSSVAKCESKTATYHMEVDVYQNGQKNTIIYNASNKPNNDGKSAGTQTNTDGIIRDYGGPCYGKSSSEYDYMTKINFPGTWKNLKTGKIVWKNPNNVKYAKIGKDHSFCVPENVDDMNSLWWVWDVKSRIDNGGNRIKATDAVKNSIGKLKQNIHAKITKFGLFGWGVNIDCFYATYRENEGDDPKCTESDGCTTCKKGNCPNTCTNNNGLYKCTCVRDCTETKTDSTNVAVRTVDNSNLFPNSTASDPNTNINIKKLSYENKEEGLLKLSDSREIGFNWNCNATNLNNSNYPIAPTILKGFIEETNQNKVIVGGKTSEGIYNSDYLDYEFHLTKQQLRDIREGYSDDKFGEFRVNDKSVKNGVYTYTSALIDRYAGRRNAVIGENNSYIKCTDSSCSNLNDACITAKRAEWTAAKQVKQLIDQHEKRL;locus_tag=LOCUS_0730;note=MGA_73
sequence01	MetaGeneAnnotator	CDS	81799	82284	.	+	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKAMLAVGIIFLALLAFATINLIQDFSTGQELDYYLLKETTDAAMVDALDFDFYAESGSIRMDKEKFVESFLRRFAKSASAKDYDIYFYALNETPPKASVKVETKTIATAQSTPTGKDENNGKIDITTTYNSILETKYLQDTMSKWKIATGELDANVTTR;locus_tag=LOCUS_0740;note=MGA_74
sequence01	MetaGeneAnnotator	CDS	82308	83111	.	+	0	ID=MGA_75;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANLTNGIKKFLSNKNTVTILGVVIAVLILYFGYNYRVRQATNPVDVPYAKVTIEPGTKITEDMVGTMKVPPAMLTDGVIREVAAVVGKYPNVDSIIPEGSLFYSRSVVEKEQLPDNIILDYPKGYTLYNLAVDSRSTYGNSIYPGNYIDIYLRITKKVAENSTNKDDNKLMYAKFIENVKVLAVRDSSGKNVFANTDEEVTPAMIIFALPEDDYILLKKAEELATYNSEIIPVPTAESLEDDPADVKVSSKALKDYINEITVWDGK;locus_tag=LOCUS_0750;note=MGA_75
sequence01	MetaGeneAnnotator	CDS	83142	84383	.	+	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNENIFDQLDFGPLRSLLENDDITDISFCNGGQIWIRSLTQGSIRVEVEGCTPDFMEKLAFQCSNVMGTTFNNAKPFLDAESAELRLNFVHQSIATNGIACVIRKTPAKIRLEKEKLLKEDYFTNDIHDILIKCVEGHCNILVSGETGSGKTEFVKYLASHTKTDEKIITIEDTLELHLDKIFPQRDIVAMKTNNVASYTDVLVTCMRQNPKWILLSEVRSAEAVTAVRNSISSGHNILSTIHADKASAIPYRLYSLMETDLDVHQFLTTIYRYVQLGVHIKAYYSKEKGKFHREVDEVVEFYVDENNEPQTHIIYQKGFGKEPVLNMPSPHLIEYLENQNIHLDSNMKVTNADQPFGDDEKKSTAQVEAVVPQNEVTVPQNEVPASKEEKEAPSVVQPVSQVSSIPQSTVTS;locus_tag=LOCUS_0760;note=WP_094374099.1 ATPase%2C T2SS/T4P/T4SS family (Bacillus cereus group) [pid:29.5%25%2C q_cov:67.1%25%2C s_cov:61.6%25%2C Eval:1.1e-30%2C partial hit],MGA_76
sequence01	MetaGeneAnnotator	CDS	84404	85297	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELFLLLAVAILVLLYRNYRGQNISKFFSDNFKTIYDKFAPYSYKVVREKTKELGQEYTIKDYAMQIAFFGLFAAVVSYLYFYNILISVFYVFAAIMVVPYLSYLRCKRVYSEFLFEQIQVYTSNTIMEFATTQSFVKAIEGVKQSGILDDPVARDVDHMIELAYRDGSIDNALKYFSDLYPYYIVKNMHQLFLQITKEGAQNSADSLDNMQLDIDMLVESVYRDRIDRKSFHRSFLQFGLMLYVMAMLVQYLVGRESYIKMLDSWYVQLLLHAILIINSYFLLKGEKYYNENVGAE;locus_tag=LOCUS_0770;note=MGA_77
sequence01	MetaGeneAnnotator	CDS	85298	86083	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILAIGVIIIFILFYNKTVDKNKFIADNEKYFEILREDDYNFLLYAKYGDDVDVDVLFRKRLMLGLIVGLIFMSLSLTGGFSALNFIVGIVVGVVAFKYPYFGLKKYYKAHLHDIDIMLPYFLKSLEVLVQHYTVPVALGKSIDDAPEIFRPGLRVLVDRINAGDSSIDPYMEFSNTYPVRDSMRMMRLLYRLGLGSQEKKQERLMMFSRTVSSLQNKARETKYKERLGHMESQTMIMLVVTGLGVMLILLIAMFMMFTG;locus_tag=LOCUS_0780;note=MGA_78
sequence01	MetaGeneAnnotator	CDS	86172	86351	.	+	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAATGELNLTIITVLAISAVIAFFWFLWPTIKDTVSDNVNNITDGGSDPTGTSFIVVK;locus_tag=LOCUS_0790;note=MGA_79
sequence01	MetaGeneAnnotator	CDS	86363	86806	.	+	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDAIGGIVNIQIILVFIVLVSGYLAFSVNYTKAFRAKNKIINAIEQYEGMTDNASLAEDGDTATYLKQIGYSGRSNCPTGYNADPYQLGFCWRETQVDTTNTALDKRYFSVMTFINIDIPIIEKILDRIEPFKIKGDTKLIITHKK;locus_tag=LOCUS_0800;note=MGA_80
sequence01	MetaGeneAnnotator	CDS	86854	87840	.	+	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVLIGNKYSDVLAMLDIDVIKSITGEYDADEIVSMFKNFYCNRIIIDLTAIKDYANISNVQKISIGLETDKLIFLLPPTPESSSSAFLSKLISMGIYNFTTDGDGIKYLLDHPNAYKDVAHYQQLNDMSTTVNNVVISGVKVLGIENVTESAGATSLIYMIKKHLEDKYGIKVAVLEVNKRDFSYFEVKDYYPTTKENLSGDIAKYKSYDVLLVDLNNTPDTGVCGDVLYLVEPSTIKLNKLMRTNPKILKDLQNKKVILNKSLLNSKDVAEFEREANLKVYFNLKPLDERVENSDIDDLLAKLGMIQRTEEEPKEESGGFLGLFRK;locus_tag=LOCUS_0810;note=MGA_81
sequence01	MetaGeneAnnotator	CDS	87919	88251	.	+	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFQIGADFDPCSNGLLPFVKIIRRGILPFIQIGIPIILIVLGTIDLGKAVVSSDDAEVKKSQGRLIRRCVYAVAVFFVTTLVTLLFSLVADSSGEKTASTWTSCWKQA;locus_tag=LOCUS_0820;note=MGA_82
sequence01	MetaGeneAnnotator	CDS	88338	89189	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIRFLILLILIGIMILPTSVWALPANNNSDGTDPRAECSVKVGDATVLVRIWGKDQISAECKGTVKSSKPCSEANLSGIKHDDFVTSDKKHAQCPTNTTYYALAKLKTGGRTYKITLSKKKPSLTKSEKMKQSIVLEEVKFNKEFTNDTMSKNKEKREQEKGKYNKEAISKLEQKETTSCSGIFGSVTDKGKNGSPASLAYIFQQLFNYLKILGPLLVIILSGLDFTKTVLSGDDEGMQKATKKLGIRLVLVVLLYFIPDLAKFILSILNGGLKDPTCGIK;locus_tag=LOCUS_0830;note=MGA_83
sequence01	MetaGeneAnnotator	CDS	89274	91421	.	+	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQGTPATWLTRALRTICAFIDRIVYFLIAFVYQLFIQVANATLLRGSTVRTLTARVQLIFGLLLVFRLAVSVINGIINPDTLTDREKGFSEVIKRTIIVLIMFTLIVPVNVSNPTSHYQKNIANHGLLFGTLYEIQNSVLSRNVMFRLVFGGDEGEDSDLNNMSSLSGQANAMAGSIYKSFMSINLADESKGEDDPSNWICEDDITDSEINYYTKADASVSDVVSLTEEWCQPPDDKKFSNIFKPKALEKGVFKFAFQPLISTVCGVFVLIMFIGFTLDIAIRAIKLAILRLIAPIPIGSYIDPKSQRDGAFASWIRITMSTYIDLFIRLLIVYFAIFLVQEISTKGLVIEKVSDNILLNSLTNVVMYIAIFFFAKQAPKFIMDALGIKGGGMSNLGLSGLLGGSAMLMGGGGLRGAALGMMQGLDAASDSAREGKGYSPMSSWAQNRDQMAKIRTGNREAQGGLMGQAKDYLNWSTRERKARQLGIGKKDLADQSARAKALKEQYGKAAAEKALADKNLQASAHLNHGLNLARYVNSDGSWKSDDARQIAYKKLGGEQRVSEQLAYNKALSASRAADERFGKYEKLYNDANKRADAMEKRADQMGIGPNVRSMEKAPGRIATAVNESALGQAYNANRGHDVFQGGDYRSDLKTEAEFAKDHKGDIILDKDGNPVHEHLTGQYKRDIDSSEGIADSSTIGSIGTGATGGGPPRP;locus_tag=LOCUS_0840;note=MGA_84
sequence01	MetaGeneAnnotator	CDS	91487	91771	.	+	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILGIFRPVDLIIFGTGVMVTVILLATVTPSSLLKTIIVLAPALVTGFLVVPIPYYHNMLNVISELIAFLTNRQRFYWKGWCVMDEKEDKASER;locus_tag=LOCUS_0850;note=MGA_85
sequence01	MetaGeneAnnotator	CDS	91761	92300	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVSPYTEDWTPVESIQNGMIITSDKMKVTGVKVTPRNIFILSPDNQANVLIALKNFYNSIDFEFWLVVADRPVDISVYMSQLQLLYNEASSPAVRKLINQDMEKGQTFINNNIVDTEYYIMFKEKNEDAAQKKIRQLINGLASCGLNASQTSNDDLRIVLDNFLNGGQRTEFGTVMPV;locus_tag=LOCUS_0860;note=MGA_86
sequence01	MetaGeneAnnotator	CDS	92297	94087	.	+	0	ID=MGA_87;product=DUF87 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011222039.1;translation=MSISLKTQVAPKGLHFGASDFMISDKYATILSVVSYPKYINPGYLATLTSMSGIKVVIKHIPIPFSQMSKMLNRQIADLREKYNQEKDQTAKERIRQDAESLEYFTSMLAASQSRIFDFQMHIMITADTKEELELKKVNVKNYLDAMELRAISLRFEQEKVLKSILPIFGKQDIEERIGTPIPSVTVAAMYPFIFDSIKDPGLSCLLGVDFSGGVILFNQFLYKIRKESNRNNANMLILGTSGSGKSTAAKLLLRTHIRNGCQIVAIDPEDELHEITQTFGGDTIDIGKGGEFGLINPLEVIIDADEEEIKQGLGYTVLTRTLQFLKAFMKYYDPSITEDVLTMFSEIVQDTYRRFGIDFNTDFSNFTSADYPTFTDVYATIKGRLMSMTEQTQERDILERLELKVRPITKELRFYFDGHTTITKNSDFMVFNIKELMNSDSNVRNALFFNILKYAWGLCLDFNVDTIMMVDEAHVLLGDNNALGADFLAQVQRRARKYNTGTIVITQQPSDFADPSVITQGKAIFDNASYYLVMGLKKQAVEDLGLLIDLNDNEKDAIKRFSQGEALFVCGNRRMRINVAVTQDELDSFGSGGGF;locus_tag=LOCUS_0870;note=WP_011222039.1 DUF87 domain-containing protein (Lactiplantibacillus plantarum) [pid:25.0%25%2C q_cov:94.5%25%2C s_cov:83.3%25%2C Eval:4.3e-34],MGA_87
sequence01	MetaGeneAnnotator	CDS	94113	96986	.	+	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDENKNQQNLNELNPQGNQIDGQISSKPSFIDKDSTLASNRNKKRQQENDSSQKLAKTAAKGAAAYLGGPIGAKAVDALSKTKAGQQMLNKGGQALSRMPGMKKGAQILDKTGATDKADKAIDVASGGKPDLSSGSKAADATKTKDNNSGGESNADTSSSNFGKLNPFSRKKKTKSAEADSDDTQKSKLSLPFIGNMSLATKVIAIGSIIGVFLLFFLILALFGIKRFDPMFANDDVKYSATGYTKDGKDGEEDGKTGAYFVGEDEITSEIYEKINKVSEKYDSNSKTIRRGLASIYTVIRDYDDCFSDKSEEEFEEKLKKMAKMINQSISDEVDGNTSSGTDTTTDTDSSDTDTTTTDTDDSTDSDDSTDSDTSDSTSDSNTSGRFFWIGDSRTNGICCHVNNILTTSECNAKCRYSVHGPITFGNDIYFAQGGSLFYSDIGGRQWMPDIVPKEVSARLKEGDTIIMLMGVNDVLSFGASRPIDYYSKKMNELAKGDWSKANIIFMSLNPVDETKTHWRNAPIIEFNKAMKAKLDSRIKFVDSYSIMMQKIHDYTWPDGLHYNIEGNKKVYSIAKQAAGGDFPSSSGNSCDLGIDEDWLKEKLIDYFKDVADKEPTDTQAEAMADEVIQNIKDYQTIIGEECDEGDGDSSGCGDASEVVRVAQEQLDSKKNSSFIGGKKYKDYMGLAFSQPWCAAFVAWVANEAGVSHDVVVKSAAVSGHLGYGQKQGNYHSSSSGYKPKPGDLVIHKGSSFAASHIQIVETVKDDKTFTYIGGNEGGSNTSSRVTRGTLSVSSTTGFVSPNYSTAACSITLKGSSNEAKCWNFFIDKGFSKQATAGIMGNLYVESAGTFDPGIHEFGGGPGIGIAQWTYPTRKNNLYNFAKKQNKKWNNLDVQLNFIIWELDNGSYFDVKKFKKLTSIDRATYLFSHNYENPAQPDNPARWTAAKKLYKKYGGK;locus_tag=LOCUS_0880;note=MGA_88
sequence01	MetaGeneAnnotator	CDS	96986	97567	.	+	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSDIRALIIIGIILVIICVVAYVLNIKENQIFTKTKMKDIEFQNMEILTELTKNEKEHFKVKILNYLNKKHYSYYTKVIFKEVETEEEKTYIYFYLNNDFKTLFECLYNSGNPKIYYLGDELVPHYESKNTSKMYMAIMNPEEYKEYIAQEKINEEENKQLEENNADVEKDLEETRKEAEKLPPDDDNPWS;locus_tag=LOCUS_0890;note=MGA_89
sequence01	MetaGeneAnnotator	CDS	97624	99681	.	+	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKVRAEAEDWFMFIVFAIFLFYVVCLIVSNIASFSADGLFSGLNPLPALMPGRILTTLIFYFVILIGIFVSVSSRFFEFDEGIGIETSKKMKGYSRWAKESEIQKYKGTEMVNVRDDNIKTAGVPIMYKGNNIWVDNGENHTLVIGATGSGKTQSIVLPTVKLLSKARESMVITDPKGEIYEKTAEMLKEKGYQILLLNFRNPQNGNSWNPMDLPYKMYKEGNHDKAIELLDDLAQNILYDESNKDDPFWEQTSADYFSGVALGLFEDAREDQININSISLMTTTGEEKFGGSNYIKEYFNMKDQTSPAVINASATVNAPTETKGSILSVFRQKIKMFASRENLSEMLSYSDIDLKTIGEKPTAVFIVIQDEKKTYHALATILVKQIYETLISVAQEHGGKLPVRTNFILDEFANMPPLKDITTMITAARSRLIRFTMIIQNFAQLDQVYGKENAETIRGNCGNLIYLITTELKALEEISKMAGEVKSKKDDKTASTPLVTVTDLQKMKENDVIIMRLRLSPFKTHFTPDWQINWGKEYPKAEYPSRTKRELHIFDIKEFVKQKKKEKIIEMMNAAEKEEKEMTPALEVNAPTMTPKPIPSAVPPRANDDLGLDVDELVRKIDKKIAELEKEEEEEKKKQGVKGVAEVNPVNETNRVVEEKKPVNLELKDEEEENYFDDFFDE;locus_tag=LOCUS_0900;note=WP_011860784.1 type IV secretory system conjugative DNA transfer family protein (Clostridioides difficile) [pid:27.6%25%2C q_cov:61.6%25%2C s_cov:70.4%25%2C Eval:1.8e-39%2C partial hit],MGA_90
sequence01	MetaGeneAnnotator	CDS	99705	100916	.	+	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDDLKTEVVNPKIDEEKNNSSNSNNSNKRLGDIFRKLLQNKMMKYMAMLVGLLVIFLLVMFIVSVLFPGKPSYAKVEATMENAARAYFHDRSDKLPQEELSSVSISAERLAELKYMKTLDKYFKDDTECSGNVTVTKNSADTYNYVGYLDCGKDYVTKEFYKEIIASKNIVNNGYGIYNINNEFVYKGEIKNNYVMVDKLLFRIVKVNSNNEVVLILNEPTTVREVWDDRFNKSQDWESGINDYAVSRARDYLKNMYNVGDDETIKLSANTKEKLVKFNACIGKRKEDETAKDNSVECSRMLSNQIISLLTAADYMNASADVNCRKTLDKSCKNYNYLADDENWWLLTADAKNDFEVYQVDNGIIDIFKASQTAKFKPIIHLGPTTKYDSGKGTEKDPYVFR;locus_tag=LOCUS_0910;note=MGA_91
sequence01	MetaGeneAnnotator	CDS	100980	101270	.	+	0	ID=MGA_92;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNISIDILKRLMEKEELHLIDIRSSSQYGKGSIEGAVNIPADQLINAPSKYLNLFEEYYFFCEHGYTSRRVVSFLNKLGYHVFNIEGGFSLYNKKR;locus_tag=LOCUS_0920;note=WP_010890719.1 rhodanese-like domain-containing protein (Clostridium) [pid:38.5%25%2C q_cov:81.2%25%2C s_cov:73.6%25%2C Eval:1.4e-10%2C partial hit],MGA_92
sequence01	MetaGeneAnnotator	CDS	101274	101492	.	-	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQNQVFRNSNGDRFFWAPFVVGGLAGTALGYGIANNNQSHFYGNYNQGCCPMYYNPPYPVYTNNYYYRKKR;locus_tag=LOCUS_0930;note=MGA_93
sequence01	MetaGeneAnnotator	CDS	101572	102291	.	+	0	ID=MGA_94;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723596.1;translation=MKRLQKVISEAGIASRRKAEDLIVAGKVSVNGKIITELGYKVSGNDIVSVDGKELKKEDKVYFLLNKPRGVVSTTSDEVDRKTVVELIDTDKAIFPVGRLDYDTTGLILLTNDGDFANIITHPSYGLKKTYIAKISGILNKEKVTLLKDGILVDGKKSKALRVKTRRIDKNKNTSIVEIEVAEGRNHIIKKMFNEIGYDVLKLKREKIDIFTIQGLKSGEYRKLTVKEVKTIYSYKKNP;locus_tag=LOCUS_0940;note=WP_003723596.1 pseudouridine synthase (Listeria) [pid:50.8%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:3.3e-64],MGA_94
sequence01	MetaGeneAnnotator	CDS	102302	102496	.	-	0	ID=MGA_95;product=ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003430011.1;translation=MKAKVNKDACIGCGACQMIAPEVFEINDDGVSEVIMKEIDEDQKDEVASAVESCPTGAISTEEE;locus_tag=LOCUS_0950;note=WP_003430011.1 ferredoxin (Clostridioides) [pid:55.9%25%2C q_cov:92.2%25%2C s_cov:95.2%25%2C Eval:1.7e-13],MGA_95
sequence01	MetaGeneAnnotator	CDS	102613	103554	.	+	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSRMDRYKTSVDSNDNTLSRSRKNKDLYDELANNTKYTNLSDVSKLTAVDVNKAKNSKTRESYQQLKEYNLNASKPKVKKELEEFNYIYQDHENRIYDINSILKEAKKNREKVDELEKKRNLKNDEFNATKGEHKELKEENKKIKSLIDTIATKTLNGELDVKTSTDLLSDIMANDENDKVEAMEDKEKKEKLPDIKETTEDLSISRKIIDKDAINLADTAKALSQEEKKPKKKALEKTIDDLFKDMDKSFYTKSMDLSDKDFVRDLQTEKESKHIFIKILLVLMVLIIALTVVYFVVFNGDIDNVMKLIKK;locus_tag=LOCUS_0960;note=MGA_96
sequence01	MetaGeneAnnotator	CDS	103639	104472	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINFLINDYNLIWNVLFQASITERVHALKQKLWNNYKDAYSKAYGDNKEIIADYKNFIPNDDTIYNMVVGNEVYLNVKRQTEKYRIELLNLWDENKKEINKFVKEVLRVDIAPVDILVVNPHVDNMDLSGLEKGNTIVWSKKIDKSDRAKSLAILIYSIASKLTLKYKGDDLLIARSVLELALLNELPTRLGKRSYYLMGSTNLQPIKRQIYPYFLMYLGVTKEDMTKYMERDKIAFDTFKYTSERQLKNVDINRFIKFCINNKKYIMRMKLLDTV;locus_tag=LOCUS_0970;note=MGA_97
sequence01	MetaGeneAnnotator	CDS	104491	109041	.	+	0	ID=MGA_98;product=PolC-type DNA polymerase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245843.1;translation=MEEKLKIFLDKIELDKDLYNSFLDSKLTKIKISSDKKRWTLFIDVPKPLDLDIIKEIDSKKNTLDKNAEEINIVYNLDNLDKEVLLTYYPYVLEQLKTKVKIVEKYSDLLKLESDKLVLVVPTKIEMRTLEKLLPDINKLYKMYGYDVDIDIVLRKEERTAMEIAKSLEVDYEKYAKLKNKKLAIANKKKVPANDNCILGRTIRGESLPIKALLGEDNDVVVTAKIFDTDFFESAKSEFKIITLKITDYTDSIYCKIFTRDRNEFNRLKEDLKKNQWYKIRGYTKNDAFAKELVLNARDVEVIESLDEEIVDNAKEKRIELHAHTKMSQMDGLCDEKELVKQAIAWGHKAIAITDHNSVQAFPNIYKFVTNHNKNLKEGEEPFKVIYGTELTIIDDNVDIALRPNKNNLLAETYVVFDFETTGFNAGGNDSIIEIGAVKIKNGEIIDKFDELINPGVKLAKKITELTGITDKMLKDKDNEETVVKRFMKFYGDLPLVAHNAKFDVSFLEMALKKYDLGELTNPVIDTLELSRSIDSNYGRHSLSAIVKRYDVEFDEESHHRADYDALGTALVFHKMLKKLSNRNIETMDQLETIVSKEEIHKYGRSYHVNLLVKNKTGLKNLFKLVSLANTKYLYKTPRILRSEIEKYREGLLVGSGCYESEVFVNARSKTEEELADIVRFYDYVEVQPIECYSHLVESSEFANELELSEHLKKIIRVSEDGGKLICATGDVHHLKRADRIFREIIVNQKVPGGGRHPLARYKIDKIPSNHFRTTEEMFKDFGFLDEKTRNRIIVDNPNKLADMVEMVEVIIDTHGVPFAPRIANSEKIVTDMVFERATFLYGDPLPHNILLRISNELYGEYIAKVLEEKYSNKEFDKQLYKVLTAGSKKVKEVIKKELAQDENIKNIDSELNKKLGGVIGGNFDVIYLIAQKLVKHSNDEGYLVGSRGSVGSSFVATMMNITEVNPLPAHYLCRNEECKYSEFVDEEGNPYGLTYSSGYDLPNKKCPKCGKKMGKEGQDMPFATFLGFNADKVPDIDLNFSGENQASAHAYTKELFGVDNVYRAGTIGTVADKTAFGFVKGYLEEHGINDMRSAEIERLALGCTGVKRTTGQHPGGIVVIPDYMDVFDFTPYQYPADDIEAEWRTTHFDYHAIDEDVLKLDILGHDDPTVLRMLQDLSGLDVTKVPMDDKKVFSLLSSPKELGVSSEEILCPTGTLGLPEMGTKFVINMLEQTKPSTFAEVVKISGLSHGTDVWAGNASELIDKKIVPFKDVIGCRDDIMVSLMNWGVEPLTAFKIMEFVRKGKASKDKKKWSEYSKIMRDANIPDWYIDSCYKIKYMFPKAHAVAYVMNAIRIAWFKVYHPLYYYAAYFSIRVDDFDIETMIKGKDAIRQKLIDLQNKGYEATNKELNIIETLKIALEAACRGIKFKNIDLKKSEASRFIIDEEEENTLIPSFNTLDGLGGSVANSIVEERSKKEFLSIEDVQFRGKVSKTLIEKMVDMKILDDLPESNQLSLF;locus_tag=LOCUS_0980;EC_number=2.7.7.7;note=WP_003245843.1 PolC-type DNA polymerase III (Bacillus) [pid:43.8%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:0.0e+00],MGA_98
sequence01	MetaGeneAnnotator	CDS	109101	110273	.	+	0	ID=MGA_99;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003358052.1;translation=MTDLEKLEMIVSEISGQNLDIDKSLQLLEKDEKLYKLVESVATDNLESIKKNGFMDNLKSEQLKSLFSSYCILNNITMENPGEKEEYEGKKYDINALSADDDVKMYLTSIYKHALFTPEEEKMYAYRILAGDEEAKEKFINANLRLVVSIAKRYLGRGVDFLDLIQEGNIGLMKAVDKFDPTKGYKFSTYATWWVRQAVTRAIADQGKTIRVPVHKIEKINKMRRAKRLLTEELGYEPSKRELAEAMNVSLEYIYQLEREAQDPVSLDTPVGDDFEDSTLGDFIPSDTDVEEEYLKTDLHDRIFEMLDNCDFKKREREVLIKRFGLDGESPKTLAELGDEMGVTRERIRQIEARALRRLRHRKSSLHKIGDYSTNNDYLNVWNKMMVKKK;locus_tag=LOCUS_0990;gene=rpoD;note=WP_003358052.1 RNA polymerase sigma factor RpoD (Clostridium) [pid:48.0%25%2C q_cov:89.0%25%2C s_cov:94.2%25%2C Eval:1.2e-76],MGA_99
sequence01	MetaGeneAnnotator	CDS	110319	110879	.	+	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKALSKREKVLIAIIIILSIALLVCLSELMSKNTSSKSTKTDTDTVETTGDESSSTQAIKDSESIKDEEKGDFNNISIDDYLELKKGSEKSIIFIARPTCEYCAIQEPITRYLVYKYGLEINYLNTDEMEADAQNKLTKSSDIFKDGVSTPTTLIVQNDEVVDAVIGLMDLEHYTKFFKDYGLID;locus_tag=LOCUS_1000;note=MGA_100
sequence01	MetaGeneAnnotator	CDS	110889	111326	.	+	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVYEKVLEFKKKYPGTVAWRLKKNANIVEKHLNSDEKLLYVFAGQKNDNPFNIVSSAVIALTNKRILIGRDRVIVGYFLDSITPDMFNDIKVRSNIIWGSVDIDTIKEFFTISNISKRALVEIETNISEYMMEMKKEYGSANRK;locus_tag=LOCUS_1010;note=MGA_101
sequence01	Aragorn:1.2.38	tRNA	111357	111430	.	-	.	ID=Aragorn_2;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence01	MetaGeneAnnotator	CDS	111570	112406	.	+	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYEHHDNWKLGRIVDLATVNPEEALLKYEEYLEKYPKDYSAYTDYAYTLLVLGRVEEAEKLMEFTERQIEKRSDNHFNYVIKNKIRLFILQERYEELYDLCLEYPDIDDNINPIIVYCKEKLGILKSDDVSNTGYLCHQISNYQEEEFLNHIERHLDSDNLDQDERSAAYFSYDFPLEKILKESRKYIPSSLRVLQYYISNTYFFKYDACGKVENQTADYFRLVTIHDTDKYITMFPSIEGEGFPYVNLNYLREKEEKPKVKVKSQVEKFNQRYSKK;locus_tag=LOCUS_1020;note=MGA_102
sequence01	Aragorn:1.2.38	tRNA	112440	112514	.	-	.	ID=Aragorn_3;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence01	MetaGeneAnnotator	CDS	112618	113517	.	+	0	ID=MGA_103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METISLKTRDIKNLDIYNPGNEVFNTESKLFVLEPKTWSKEGTLFKYLFIRRQSSLANKLFTVTMLNDNKKYFDDKTFIVPNKLVSVDNEISGFTIPFLSNNTNLGVLLNDLAVDDKTKIKYLKELGSILKRTEELNKEGFDFAFNDLHENNFIINHDDNDRLCAVDLDSSYMKTNYPQASHYLFSNMYINKISEKYPVNKFGINIPDLNSDLFCYNMIILNTIAHGKVSKLNINDYYMYINYLSDLGFGDNLLASFRAVYSSGNNMNPVNHLDEINREKLGAANLNVFRYKVKTKQLF;locus_tag=LOCUS_1030;note=MGA_103
sequence01	MetaGeneAnnotator	CDS	113793	114551	.	+	0	ID=MGA_104;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065531.1;translation=MNLDQAIEEFKNYTKDYINLSDKCVLKINHTLRVVKRCEEIAESLDLSKHDIELAKLCGLLHDIGRFEQWKRYETYYDEKSVNHALLGVEVLTTDNYIKKYVDNEEDEEVILNSIKYHSRYQIPQYLNERDKMFCNIVRDADKLDILYLYTIGQLGSKKVEEPFSEKVYQKLLNKEEIKSTDKKTKGDIISISLGFVFDINFNKSLEILSEEKYLDKVIDLYQERTTNEEFKSQLEEVRKVINKYIKERIGC;locus_tag=LOCUS_1040;note=WP_048065531.1 HD domain-containing protein (Methanosarcina acetivorans) [pid:30.4%25%2C q_cov:96.0%25%2C s_cov:96.3%25%2C Eval:3.2e-33],MGA_104
sequence01	MetaGeneAnnotator	CDS	114658	117063	.	+	0	ID=MGA_105;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398606.1;translation=MLPPPNVTGVLHLGHAWDVALQDVIIRYKKMNGYDVLWLPGMDHAAIATEAKVVNRLKEKKIEKYSYGREKFLEACWDWTHEHADIIRKQWAKLGISLDYSKERFTLDDGMAKAVRKVFIDYYNKGLIYRGEKIINWDPVACTALSNEEVIYKEEKSAFYHIKYFLEDSEEFIDIATTRPETLFGDTAVAVNEKDKRYKKYVGKNVILPLMDKKIPVITDEHADMEKGTGAVKITPAHDPNDFEVGNRHNLERVVIMNDDATMNENVPKKYQGMSREKAREEVLKDLEKLDLLIKIEPLTHEVGHSERTGVMIEPMIKKQWFVKMRPLADQVLKNQKDKDTKVHFVPTRYEKIMNHWMEITYDWCISRQLWWGHRIPAYYKGDEICVSEKSPGKGWVQDEDVLDTWFSSALWPFATLGWPEETDLLKRYYPNSVLVTGYDIIPFWVNRMTFQGEELLGKRPFEHCLIHGLIRDKQGRKFSKSLGNGIDPFDMIEKYGADALRYYLTTDVSPGTDMKFDEDKIKASWNYINKIWNASRFVLSNIEELDEIDLDNLKPEDKWILTKLQKTIKEATKFMEKFEFNNAASTIYEFTWNYFCDYYIEMAKYTMDEDSTKSTLVYVLTDILKLLQPFMPYVTDEIYGMLPIKESEDIMIADYPKYNKKYIFAEEEVVVDDSIEFIKSFRNVKKENNITKDMKVLFDTTDSNDLIVKMLKLDEKIVKKPLGINAYKVFSNRIKATIFFEKEEDDSRNDDIIKELKESIERREKLLANENYVTKAPKNVVDMDRKKLKEEKEKLKVLLK;locus_tag=LOCUS_1050;gene=valS;EC_number=6.1.1.9;note=WP_004398606.1 valine--tRNA ligase (Bacillus) [pid:51.8%25%2C q_cov:98.1%25%2C s_cov:92.5%25%2C Eval:9.4e-245],MGA_105
sequence01	MetaGeneAnnotator	CDS	117156	119207	.	+	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVFSLYNICLVLILGLISVLTLTTTEVKAVGNVIWPNGQTAPIERTVQNVYNAPEVTFYYDIIDPNGTSAAMFDEGPIVNSKIKSLANNTSCSVSYHDYTVTQFSRANHLPDGFVPTEANTISADGYVPIYIFSEASGTVSYYTEAETIYLNAQAQSMFSEFVVLQYITGGQEWDASLVYDIGGFFSHCQALMDISFVTNWDVSNVHSMNYTFCALTSIADNRYSALSNWDTSNVVSMEYTFYASNIYSNESIANWNTCNVISMKGMFRECTNLQGFTAASSWDTRNVTDISYMLYGCVRCGGVFQILGRPTSYDGAFYNTDITNNVYGNSWLTINYNCSVTNNINAIMATKSGNSRIQLGSCVQPSGTCPNPAYIDHDTRDGASIAEVPLTFDGSDTVSNTYTVSGLFNLDLNSLTRLKMPITDVGTYTLKVKEVGTATDLYPVDEDNEYTIVIQAENILDNNDRPTGDYNATFVIMDDNDTKKQKMAFAEPKDESRFGHIELTKTIKGIMSDPTKYFDFSIQVDDRPTYTCTDYSGSEKYPISGVDSGHYSAAEVTKCKSGTKDTISLKHGQTATIGQFTYNNNNYDAISTDDYYKIIEGTESDYTTTFKINNGSATSGSDTGLNSISNSGNVVTFYNQKEGSPVTGIILTILPYLILIGIGIGGVLLYRKIGANKRTV;locus_tag=LOCUS_1060;note=WP_003549857.1 BspA family leucine-rich repeat surface protein (Lactobacillus acidophilus) [pid:34.8%25%2C q_cov:18.0%25%2C s_cov:10.0%25%2C Eval:9.9e-14%2C partial hit],MGA_106
sequence01	MetaGeneAnnotator	CDS	119274	119795	.	+	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFYDRAKEMCEAWEKEFKDIDEVEVQNVGFSDVKAKYVVTDGNSYGIMNEGTGREVRDYFGVEIQDSIQETIFLKRMKPLDVGKCLMFGTTDLEKSLLVYAPTVDTPGRINKLNVYEAMRGVMNMCYATKGDIAICSLGTNDGISYEDSAKMCHKAYTKYLKHMVKRED;locus_tag=LOCUS_1070;note=MGA_107
sequence01	MetaGeneAnnotator	CDS	119858	120481	.	+	0	ID=MGA_108;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001174721.1;translation=MIDNYKYEKELIKDGIKYIAGVDEVGRGPLVGPVVAACVVLPLNFKLEGLTDSKKLSEKKREFFFDIIMDKALGVGIGIIDHKKIDEVNIYEATKLAMKEAILECEKKCKIEHVLIDAMPLDINLPTTSIIKGDLKSLTISAASVIAKVTRDRMLLELDKKYPMYDFIHNKGYPTKKHLEAINKYGIILEHRKSYGPVAKYLKEHSK;locus_tag=LOCUS_1080;gene=rnhB;EC_number=3.1.26.4;note=WP_001174721.1 ribonuclease HII (Bacillus cereus group) [pid:56.8%25%2C q_cov:96.1%25%2C s_cov:76.7%25%2C Eval:4.6e-58],MGA_108
sequence01	MetaGeneAnnotator	CDS	120643	122670	.	+	0	ID=MGA_109;product=type I DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245599.1;translation=MGKNLVIVESPSKSKTIEKYLGKDFKVVSSKGHIRDLATSGRFGLGVDVDKDFKPNYVAIKGKSNVIIGLKRDVKNSNMVYLASDPDREGEAFAWHLKVALGIEDDKYKRVLFNEITKDKVLEAIDKPTVIDDDLVKSQETRRILDRIIGFRLSKLLQSKVGAKSAGRVQSVALKLIVDREREIEAFVPEEYWKITAIFDKPELEAELFKYKKDDIELKNEADTKKVLDSLGEEYTVESISQKEKKKKSKYPFITSTLQQEASNKLGFSAKKTMSVAQKLYEGIDLEDETVGLITYMRTDSIRLSDEFSKATYKYIYDNYGKEYAGYVKKSKKTENVQDAHEAIRPTSIFREPLKVKKYLSSDEFKLYSLIYKRALASLMADAKVKGTTIVLDNNDYKFKATGSVLVFDGYLKVYADYEDQDDKILPEVKENDVLATNKVEPAQHFTKPPARYTEARLIKEMEELGIGRPSTYAKIMDTIRSRDYVTMEDKKFVPTEVGFETTDKLQEFFSDLINVEYTKEMEEDLDEIAEGKLVWNKVLDKFWQVFEPRVEKAFEDMDKKAPEETGETCPNCGHPLVVRKGRYGEFVACSNYPECKYIKKEEKKEVVIMDCPKCDGKIIEKTTRRGKTFYGCNNYPKCDFASWDKPIGKNCPLCGEYLVEKQDKVKCSSCDYEE;locus_tag=LOCUS_1090;gene=topA;EC_number=5.6.2.1;note=WP_003245599.1 type I DNA topoisomerase (Bacillus) [pid:49.7%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:8.7e-188],MGA_109
sequence01	MetaGeneAnnotator	CDS	122728	123612	.	+	0	ID=MGA_110;product=tyrosine recombinase XerC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110333.1;translation=MKERDEFLEYLKYQRAYSDYTIKNYEHDISEFLKYLEKEGIDFKKVEYSDCRFYLIYLNSLDTKKTTINRKLSSLRSFYKYLANKKIVESNVFALVQSPKKEKKLPRYFEYNELEELFHTPNSNTPLGQRDLLILELLYATGIRVGEAVNIKVKDIKTGQRKILILGKGNKERYVFYGAYCEDILNLYLAEGRRTLLKSDSPYLLLNNNGKKLTERGVRYILDRIIKKTSLNKKISPHMIRHSFATHLLNEGCDLLSVQKLLGHESIKATQIYTHVSTDRLKEVYYQNFPRAKK;locus_tag=LOCUS_1100;gene=xerC;note=WP_011110333.1 tyrosine recombinase XerC (Bacillus cereus) [pid:48.6%25%2C q_cov:97.3%25%2C s_cov:98.6%25%2C Eval:1.8e-76],MGA_110
sequence01	MetaGeneAnnotator	CDS	123669	123935	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFNSKEELYKRVLPALRTKKDEFSRLGYSYIKEEDIWNYLVISSFQDAHELMLSDIVSDIMHVPLKEVDAYLKETIKRQKREAKLDS;locus_tag=LOCUS_1110;note=MGA_111
sequence01	MetaGeneAnnotator	CDS	123947	126274	.	+	0	ID=MGA_112;product=protein translocase subunit SecDF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001119059.1;translation=MKKKEKKVKEKKIKKDKKISEKKMQMISTTISFVLMCVIIGFLFVPLFKGLKFGLDLQGGFEVLYRVDSIDGSKMTGEKMTATYKTLQKRIDSLGVNEPEIILEGKNNIRVKLAGITNQAEAREQLSTVATLSFRDVEDNLLMNSDVLKAGGAKIGQDSSGNPAVSLQVADKDKFYSVTNKVKDMEKNYIVIWLDFEEGKDSFAAESNLCGTNASNCLSAATVSQAFASDVIIQGNFTEDEVSNLVDLINSGSLPSKLTEISSKTVGASFGEGTLSKTFMAGLIGICLISLLLIFVYHFSGFISTVSIIFYTFLVFLVFWLVGGVLTLPGIAALVLGIGMAVDANVITYSRIQDELRQGKSLPFAFKTGSRTSLRTILDSNLTTLLVAIIMFVFGESSVKGFATVLIITIAVTMVTMVALTRLILSRFIKSGYFDDKTNLFINIKDKDKIDVTKENKEDIKKPFAKVNFFKHVKAFVITSVVIIALGLAVAGFKGLNLGIDYQAGSDISVETKEKLNKKDIQADMKNFDVSLRDIEVSGKNVNIRVKDVLKKKQIAEISKYFEDKYKASVEIGVVSNVVKKELTKNAIFSILISMIGIILYISIRFKFSYAISSVVALFHDVFMMIAVFAICRFEVSVMFIAAVLAIIGYSINDTIVCFDRIRENIDNYLKKNKKLSKEELKNQANKSIQDTFMRTIYTSITTLLPVIALIVLGSREILNFNIAMLIGLIAGTYSSIFIATTLFLKLESKSLGKEKKKKRVYREVEERKIKGINC;locus_tag=LOCUS_1120;gene=secDF;note=WP_001119059.1 protein translocase subunit SecDF (Bacillus) [pid:44.9%25%2C q_cov:90.7%25%2C s_cov:93.5%25%2C Eval:6.5e-158],MGA_112
sequence01	MetaGeneAnnotator	CDS	126291	128441	.	+	0	ID=MGA_113;product=bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_196768340.1;translation=MTKTKERDDITIDDVLEKVKAYLNEDEIENIKKAYYLAEEKHMGQYRKSGEEFITHPLNVALILTGVYADSETIEAALLHDTLEDTDCSKEDIEMLLGPEVLKLVDGVTKISKINFSTENEYLIDYYKKIIVGMSEDVRVIIIKLADRLHNMRTLFAIPEERQKVKARETLEILVPIAHHLGIYKIKSELEDLSLRYLKPDVFYDIAEKLNTTKLERDEVVDLMKKKLTNILTEHNIHHEIKGRSKSIYSIYNKLDKGKKFSDIYDLLALRILVDTEQDCYLALGIIHSKFRPLPNRFKDYIAMPKVNMYQSLHTTVFGVDGYLFEIQIRTYDMNEVAENGVASHWAYKEGKNASQLMQSNTEQKLQFFKAIIDLSNNKMSNEEFVNSVRDEVLNNNIYAFTPKGDVIELPIGATPIDFAYKIHTKVGETMVGAIVNNNIVPLDYEIQDNDIVKINTKKDGTPSREWLNIAKMTQTKNKIKSYFTKNEKELNIEKGKYSLEKEMRRRKIPKDDILNDKSLQEIFKNLKIDSLEELYLTIGNGKNAPNAVINIIKKPEEEAPKKVQIVKENNDTDLVVAGIEKVKVNLANCCNPVYGDEIIGYITKSNGISVHLKNCHNVEMLDNRVVDVSWNKEIPGKNYFTSIIVYTNSIDNNIPDIVSHVQMFNIAVDMIKTINDEGKKIYEVDIWVNNKEKLNKLILDLEKCEYTIKVERFIR;locus_tag=LOCUS_1130;EC_number=2.7.6.5;note=WP_196768340.1 bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase (Moorella thermoacetica) [pid:41.7%25%2C q_cov:98.6%25%2C s_cov:99.6%25%2C Eval:7.9e-163],MGA_113
sequence01	MetaGeneAnnotator	CDS	128438	128872	.	+	0	ID=MGA_114;product=D-aminoacyl-tRNA deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_071581519.1;translation=MRCIVQRALDASCIIDNKTVGKIDNGLMVLVGFTEGDDLDKIKWMAKKIVNMRIFDDEDGVMNKSLLDVNGKILSISQFTLYADTSKGNRPSYIKALGGEEAIKLYDLFNQELNNYIKTETGSFGADMEIKFTNVGPVTIMLER;locus_tag=LOCUS_1140;gene=dtd;EC_number=3.1.1.96;note=WP_071581519.1 D-aminoacyl-tRNA deacylase (Bacillus) [pid:52.1%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:4.3e-37],MGA_114
sequence01	MetaGeneAnnotator	CDS	128877	129938	.	+	0	ID=MGA_115;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460323.1;translation=MFSSKPNYKLINLTALMLLLYIAFANVSLWWGVFTAIVKVLAPFIIAFVVAYALHPLVKWLEKRKLPHWLAVTLVTLGVVLLIVFTITVTLPVLYEQLSSFSIMLVEAIEDIATKLNINLGSYEISISSYLEEATKNLGSIISNGAMAVLSASLGFLASFIISFIAAIYFLADMQKIRTGFRKFLSSYSKKWLKYFRLLDEEMGNYLHGLVIFMVIQFIEYALVFKIVGHPNWLLLGFLACITTVIPYFGGLITNIIAVITASVVSSFTFIGTIIICLIFPQLDGYIISPKIYGKTNNVNPLITIMVVSIGGTVAGVVGIIAALPIYLFLRCTYNFFKKDLHKSVVSFKKTID;locus_tag=LOCUS_1150;note=WP_011460323.1 AI-2E family transporter (Desulfitobacterium hafniense) [pid:26.6%25%2C q_cov:82.7%25%2C s_cov:87.5%25%2C Eval:6.0e-24],MGA_115
sequence01	MetaGeneAnnotator	CDS	130168	131496	.	+	0	ID=MGA_116;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830876.1;translation=MITKPKGTKDIHGKDARKWQYIEEIVSNVLDKYNYTLIRTPLFEASDLFHRGVGETTDIVSKETYDFIDRGNRNMTLRPEGTAGVVRSFIENKMYGDNLPQKLFYIGPMYRYERPQKGRYREFYQFGMELLGSDDPIGDAEVISAAYNIYKMLGLEKLKVNINSLGDSESRKDYHKALVEYLKPHINELCDDCKERYQKNPLRVLDCKVDRDSDILKKAPTPLDYLNKESKERFEKVCEYLDMLKVPYEVNPRLVRGLDYYNHTVFEIDDTAKDMGSQNTIGAGGRYNGLVKLLDGPDTPCMGFAAGIDRVMVALDAEEIDLDVNDDVDLFLMYVNDEEKSYALYLCQELRLAGFRVDTDYLGRSLKAQFKQADRLKAKYTIVLNSKDLDNNEVKIKNNKTKEEEIISIDALIYYLDENLEDECDCGDDCHCGDDCHCHDHK;locus_tag=LOCUS_1160;gene=hisS;EC_number=6.1.1.21;note=WP_001830876.1 histidine--tRNA ligase (Staphylococcus) [pid:49.8%25%2C q_cov:95.2%25%2C s_cov:99.8%25%2C Eval:4.7e-120],MGA_116
sequence01	MetaGeneAnnotator	CDS	131506	133242	.	+	0	ID=MGA_117;product=aspartate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000830872.1;translation=MKKYNNADFNIKNLNEEVELFGWVSKKRNLGGLVFIDLRDRSGIIQLTVRPESDYYELASSLKSESVIKATGKVIERENKNKNIPTGEIEVEVVNLELLNSSEDLPFEITDDITALEDTRLKYRYLDLRRNELKEKLITRHKITMAVRNFLSDNGFLEVETPILCKSTPEGARDYLVPSRVNKGKFYALPQSPQLFKQLLMIGGVEKYFQIAKCFRDEDLRADRQPEFTQVDLEMSFVEENDVMDITERLVANVFKEVKDIDVKLPLEKMKYDDAIRDYGSDKPDLRFDMKIEDITDIFKDTEFSMFRSVLDNKGVINALVVKNEANNYSRKGIDKLTELVKTYRASGLAFLKYTEGEFSGSIKNGVSENELNNLKDQLALEDNDLVLIVADNYKTTKIALGALRNHLGKELNLYKEDYHLLWVVDFPSFEYSEEEGRFVSSHHPFTSPKDSDVDKLINDKEHCYSKAYDIVINGYEAGGGSIRIHDANVQAKMFEALGFSKEEAKRRFGFFLEAFKYGTPPHGGLALGLDRLVMLLTGTDNIRDVIAFPKTASASDLMSEAPTEVDKKQLEELGIKN;locus_tag=LOCUS_1170;gene=aspS;EC_number=6.1.1.12;note=WP_000830872.1 aspartate--tRNA ligase (Streptococcus pneumoniae) [pid:56.0%25%2C q_cov:97.9%25%2C s_cov:96.3%25%2C Eval:4.7e-179],MGA_117
sequence01	MetaGeneAnnotator	CDS	133312	134160	.	+	0	ID=MGA_118;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016546.1;translation=MDGILVVNKPKGITSFDVIRKVSKILGIKKIGHTGTLDPIASGVLVLTIGSYTKVSDLLLSTDKEYIATAKLNILTDTLDTEGKVIKTDSKRIAKDVLEKAVNSYEKTYQQEVPIYSAVKVNGKKLYEYARNGEEVLLPKKEVTIKEIKLLEYNDNIFKFKCTVSKGTYIRSLIRDIGESLGTCAVMSELVRTRQGKFSINEAYTLEDIEKDNYKLLTLDEVLAVETIDVSEELFHKTKNGAKLENTFNIKDRVIFKYDNKIIALYKLEEGMLKVDKMLYKS;locus_tag=LOCUS_1180;gene=truB;EC_number=5.4.99.25;note=WP_011016546.1 tRNA pseudouridine(55) synthase TruB (Fusobacterium nucleatum) [pid:44.0%25%2C q_cov:96.8%25%2C s_cov:97.6%25%2C Eval:3.0e-57],MGA_118
sequence01	MetaGeneAnnotator	CDS	134260	134529	.	+	0	ID=MGA_119;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289282.1;translation=MALTKEAKAKIVKEYARGKNDTGSAEVQIAILTEEINELTDHLKEHIHDYHSRRGLLKKVGQRRNMLAYLAKTDVKRYRELIKKLGLRK;locus_tag=LOCUS_1190;gene=rpsO;note=WP_002289282.1 30S ribosomal protein S15 (Enterococcus) [pid:67.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.4e-29],MGA_119
sequence01	MetaGeneAnnotator	CDS	134579	136738	.	+	0	ID=MGA_120;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002378800.1;translation=MKKRKYELDFYGRKIIVENGELAKQATGSVLIRYGDTVVLTAAVVSKNVNLLSSFFPLTVNYQEKLYSVGKIPGGFIKREGRPTEAATLAARMIDRPLRPLFPEDFKHEVQIINTVLSVEQDNAPELAAMLGSSLAVSISKIPFLGPVAAVKVGYVDDKFVINPTVEELEKSLIDLTVAGTKDAINMVESSAKEVKEDIMLEALMKGHEAIKKLVKFQEEIMADIGEEKMEYDKLVVEDDLREDVTHLVSERLDKALRIKDKLEKYDAIETIKEEVLDKYTKEYEELLKEQELKELLTKVSMVISDVEYRLFRNIVVNEKKRADGRKMDEIRPLSMDVDLLPRTHGSALFTRGETQSLSVTTLGALGEHQILDGLGIEEGKRFMLHYNFPQFSVGETGRYGAPGRREVGHGALGEKALLQVIPDEEEFPYTIRVVSEIFESNGSSSQASICAGCMSLMAAGVPIKAPVAGIAMGLITSDDGKKYQILTDIQGMEDHLGDMDFKVAGTKNGICALQMDIKIKGITEDILSKALKQAKKARLEILDKIKKTIKEPRPEVSKYAPKTEIFMIKPEKIRDVIGRGGEMITKIICEASDVTDVNNQNAVKVDLEDDGKVIIYHTDKDIIEKTKQMILDVTREVEVGKIYEAKVTQIEDFGCFVEVWPGCEGLVHISKLDKKRVDKVSDIVSVGDEILVKALGVDKKGKQNFSRRDALFDDKKEK;locus_tag=LOCUS_1200;gene=pnp;EC_number=2.7.7.8;note=WP_002378800.1 polyribonucleotide nucleotidyltransferase (Enterococcus) [pid:57.7%25%2C q_cov:99.9%25%2C s_cov:99.7%25%2C Eval:1.6e-232],MGA_120
sequence01	MetaGeneAnnotator	CDS	136832	138697	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFNVYNITLILVVALIGVLTLRTTEVKAAGTITWTNGSTVTLSRTVQNVYNAPEVDFTYGISTEDTSIVTLKTATFDNGETVNRKMKNTANYDIGYGYDIPDQALVAIKRSQTLPNYFVATTENTVSASNSEYPIYIFFDDEDGTMYYYSEADTIYLNANSSQMFRDMRALTDISGLSEVDTSRVTNMHHMFQVCSALTSISALSNWNTSSVTYMDYMFCDCANLANINGASSWNTSAVTEMRSMFENDTKASGTIQILGNPTIYNSAFRNAATASGAEITVNYGSSTSNINNIIATKSNNSNVVKGSQVSVPASSNDVIFNRKTLSFDGSETVSNSYTVSKSSTINLSNIGLNFTKPGNYELKVKEISTSNSAYPIDDDNEYTIVIQVTNVLDANNVPTGNFNATFAIKDDNDTKVNNMPFSEPKDESKFGYIEVSKTVKGVMADRTEEFEFSIQVDDDEEIDIACENYSGSEKYLISGTGITEDGNEVTKCKSGTKDTIHLTHGQSATIGRFTYNNNNYNSISIDDYYSIFEDEKDGYTTSFKVGSGSETISSEMSPTAVSNGANSVTFYNQNEGSPVTGFILTILPYLILIGLGVVGISLYKKDWSQVLIKMRDK;locus_tag=LOCUS_1210;note=WP_011183344.1 BspA family leucine-rich repeat surface protein (Mesoplasma florum) [pid:27.8%25%2C q_cov:36.4%25%2C s_cov:26.4%25%2C Eval:6.0e-10%2C partial hit],MGA_121
sequence01	MetaGeneAnnotator	CDS	138740	139603	.	+	0	ID=MGA_122;product=polysaccharide deacetylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244721.1;translation=MYKYYKIILIVLLTIFSFYYTNKTIDFIREADPIMKEIKHNRYKFDKKSINASVGDFYMIPGINGVLVDTKKSYSKMKRYGKYNENLLVFKEEEPAISLDDIYDRFIIGGNGENRKVALVFIIRRDDKIDHLLDILSQEDVKATFFMDGLFIENNQDLVKNLTKSAFEVELLSYNGRYQKKYFKYGIDLLKDITNIRPKYCYASYSSEYILDLCNSLSMHTIIPNINPSNRAYQIVKRKLVSGSIISLKNKDYILEELTTIISYIKQKGYDIVNLNELLSEKRFEEE;locus_tag=LOCUS_1220;note=WP_003244721.1 polysaccharide deacetylase family protein (Bacillus) [pid:28.9%25%2C q_cov:90.6%25%2C s_cov:87.5%25%2C Eval:1.8e-25],MGA_122
sequence01	MetaGeneAnnotator	CDS	139672	142611	.	+	0	ID=MGA_123;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183129.1;translation=MYLKEITAIGFKSFADKINIELDNKITCIVGPNGSGKSNVVDAVRWVLGEQSVKSLRGDGAMSDVIFSGSKSRNKLNVASVELIFDNSDNYVNMPYNEISIKRKVYRSGENEYSLNGERCRLKDIVNLLLDTGIGKESFNIISQGEVDKILSSSANDRRVIFEEASGILKYKKRKEEAVRKLDRTHNNLDRVNDIIAELEGQVEPLREQSEKAKEYLDNKNALENLEVALLAYEIDKMNTELKEAQTKKEKIEKEISVLESESSVIDTKQLEKEKELTKLESKLRTKQDELLKVTGEVERLNGEKKLIEERSSHKTSENEALDKMRELLENIKILESDIKLIDEGIKKDDEKISSLDKESGDYEKEIDRLVNRKKVLEDDYSMMNRDIINLNNKIESLRLEKDNVTLPYSVKNIINNDGLTGIYNTIGNSIDIDDQYLTALDIAVSANKNFIIVENEEAATKAINYLKEKKLGRATFFPISVIKERFVDNDTLKKIEKDKDFVDVLDNLLTYNNKYAGIMKNQFGNILVSPDIEAAKRLAKKINHRYKIITLDGDVINIGGSMSGGSKNKVRSIFLIKQEIKDTKVLLEEKKVDIDKTLENISQKDEEIKGLEEKVFTLSKKKAEIEQVRGKKNSDRLLLNEKLSSEQKDYDSYKAISNNTLEKEEEKTINSYYEAKTKKATIENEIKALTKEVEDLKVKIDEENAKNKLRSSNLHAEEKEYQKLEILINRLDVKLDNMLLTLNEDYALTFEKAKDKYKLEIEPDIAREKVNKHKNVMKALGMVNLGAIEEFERVNTRFEFLNNQKEDLLKAEDTLLEIMEEMDEVMEEEFAKTFEEIKVEFKKVFKELFGGGDASLKLTDPDNLLTTGVEIVASPPGKKLTTISLLSGGEKTLTAISLLFSILNVRKIPFCLFDEVEAALDEANVDQFGHYLSNYKDKTQFLIITHKKKTMEYADTLYGITMQESGVSKLVSVRLKDK;locus_tag=LOCUS_1230;note=WP_011183129.1 AAA family ATPase (Mesoplasma florum) [pid:31.5%25%2C q_cov:99.7%25%2C s_cov:98.5%25%2C Eval:4.5e-135],MGA_123
sequence01	MetaGeneAnnotator	CDS	142668	144089	.	+	0	ID=MGA_124;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004450718.1;translation=MENKAITKRDVDFAKWYTDVIKAAHLADYTSVKGCIVIEPNGYAIWEKIKSIMDQKFKELGHQNVQLPLLIPESLFNKEKELIEGFAPELAWVSEVGKKKMDERLAIRSTSETLFCDYYKKHITSYKDLPKLYNQWCNVFRYEKETRPFLRSREFLWQEGHTIHATKEEAIDETYRMMEVYKWFNHEILAIPSITGIKTEKEKFAGAEFTLTNEDLMYNGVCLQDGTSHYFGQKFSKAYDVKFTNKDNKDDYAYYTTWGKTTRAIAAIIMVHADDYGLVLPPRIAPKQVVIIPIGDNEEVKELANKYNDELNKSDISTYIDDSDKTPGFKFAEAEVNGIPIRIELGKRDLDNKKVTLARRDTREKMEIDLDSDIVTEVKELLETIQKDMYEKALKRQNELTFEAHNLEEMENILNKQPGFIHAMWCGDQDCEDKIKEIKGCKSRCITDDKPIDDKCVCCGKEAKHHVIWGIQY;locus_tag=LOCUS_1240;gene=proS;EC_number=6.1.1.15;note=WP_004450718.1 proline--tRNA ligase (Clostridium botulinum) [pid:54.0%25%2C q_cov:98.9%25%2C s_cov:97.9%25%2C Eval:2.2e-152],MGA_124
sequence01	MetaGeneAnnotator	CDS	144177	145805	.	+	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEELKTKAKKSKKQKIVIVILCLLIVGALVAGYFLLFPKKVEKVKVKKKEVHKEYRITGNDLNDFDLYFLKLENEEKNKIYSPLSIKYALEMLGEGASGASKKQIDEVIGSYKAKKYTNSPNMSFANAMFIRNEVKDNIKKSYTNNLAKRYYAEVKYDSFANASNVNNWVKEKTLNLISKLFNDSDVADAEYYLINALAIDMNWTNQIHCAAGSKVPCKGYSVYYNHEKISDEDHAYSANVYPYLGDEEFAHLDFENAENRKAATVYASFNRYDIVKEIGEDKIREIVGNEYKKWLASEDGKEAVAGGMAEPNVNKYLDEYIKDIDKNYGKEASSSDFYVYDDEKVKVFAKDLKEYDGLNLQYVGIMPKEDDLTDYIDNVKATDVNKIIKNLKELKKENFKDGVVTLIEGDIPMFNYDYELELMSDLKKIGIKDVFDQDKADLSGMLKESKNHYIGQAKHKATIEFSNDGIKAAAVTAEGGLGGTTGGFDYLFKVPVEEIDLTFNKPYLYLIRDKDSGEVWFTGTVYEPEEHPAEKPKNTY;locus_tag=LOCUS_1250;note=MGA_125
sequence01	MetaGeneAnnotator	CDS	145828	146688	.	-	0	ID=MGA_126;product=metal ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001126148.1;translation=MKRIGLLILIITLSLFISGCKQDNMENIEIIVTNYPNEYITENIYGKHATISSIYPDGVNISNYEITKKQKKDYAFKDLFVYNGQVEKERKLAVELLDLNPELKIIDAAYVLESDYSGEDLWLNPSSLLMMSNNIRMGLNEYITSSYLKKEVTDNYNELKIKLSELDADYRVAVEEADSNVILTSNPILKYLSTFGIDVLVISDNTSEKDLDTIIMKVRSGIVDHLYKFKSDKLSPTVDEFASDYGLEVVDLNNTSNLTDDERDNNKNYIDIMQDNLNSLKLEMYQ;locus_tag=LOCUS_1260;note=WP_001126148.1 metal ABC transporter substrate-binding protein (Bacillus cereus) [pid:24.8%25%2C q_cov:97.9%25%2C s_cov:98.1%25%2C Eval:4.6e-21],MGA_126
sequence01	MetaGeneAnnotator	CDS	146685	146912	.	-	0	ID=MGA_127;product=membrane protein insertion efficiency factor YidD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966997.1;translation=MKNIILKCIRKYQKTPGKVHSRCKYIPTCSEYAYIAIERFGILKGSFLALKRILKCNPLSKGGIDLVPEKKGKKE;locus_tag=LOCUS_1270;gene=yidD;note=WP_010966997.1 membrane protein insertion efficiency factor YidD (Clostridium) [pid:58.0%25%2C q_cov:89.3%25%2C s_cov:97.2%25%2C Eval:6.3e-16],MGA_127
sequence01	MetaGeneAnnotator	CDS	147013	148092	.	+	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNENLISYLEDKFIPNNIRKNTTFNDYGDEEEFYTISLRKIFRLAKNEEEFITIMDYLAKNNIRVFDMKKNDYDYDFPNYETRIIDIKNAKKPYSEEEQTAKFLEYAKSKDPKLFNDLFEHNYRFVLYMASKYSYSYRLPHDVALSAACEGAIDAISRFDASRGIKFSNYAQKAIRSKMLYRKFDCYKKGNDAFLVDFLNAMIAVEKEYGQRIDDSVLGKEMLEEVLDILETKGVCVADKNGKRRTREDIRNLMNITNHLNIEDEILDGGYNLPKYDLSESCLYHENLRKEIDEVLSGLTVKERQVLTHRYGLEDDRFKRLQECADYFGVTKQRINQVEKNAFQKIKRSKSSKRLKEFL;locus_tag=LOCUS_1280;note=WP_012256722.1 sigma-70 family RNA polymerase sigma factor (Chloroflexus aurantiacus) [pid:25.2%25%2C q_cov:63.8%25%2C s_cov:70.3%25%2C Eval:6.2e-08%2C partial hit],MGA_128
sequence01	MetaGeneAnnotator	CDS	148158	148823	.	+	0	ID=MGA_129;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001146875.1;translation=MEDLFKRLGIKIKDINLYNSAFSHSSYANEHKKKIDYERLEFLGDAVIDLVISEYLYQKSDLGEGQMTKLRASYVCEDALYRYSTDLELNKYLKVGHGEEKSGGKHKKAIVADIFEALMGAIYLDLGFDTVRRIILEIVVPYIEDEEVIFFNDYKSSLGEAVQTDNKSLQYEVIKESGPDHDKLFVVAVIVDGITLGKGEAKSKKEAEQQAAKDALEKLAL;locus_tag=LOCUS_1290;gene=rncS;note=WP_001146875.1 ribonuclease III (Bacillus) [pid:43.1%25%2C q_cov:96.8%25%2C s_cov:89.0%25%2C Eval:3.9e-45],MGA_129
sequence01	MetaGeneAnnotator	CDS	148878	150530	.	+	0	ID=MGA_130;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000823075.1;translation=MSKIKVFALGGLNEYGKNMYVVEVDKDIFVFDAGLKYNNNVNLGVDYIIPDTTYLENNVDRIKGIFLSHGHLSSVGAVPDIFDKLKNVDIYGTKLTLDVLKTRMSDSDKKKIKLKEIKPHTKIEFGKNSVFPIRVTHSIPDAVCYVLNTPDGAIVYTGDFVFDSTMLGKYKTDIGKLAYVGKQGVLLLLSESVYAWKEGYTSPKNRVSDFIREVLTHNENRIITTVLPTDFYRIQEIFNEVSETHRKIVIMGKELGDLVKKGIDDGYLKVGKKVIGDLKNVDDKNVVILISSDNERPFANLERILKDRDKYIKIKDTDMVFIAEPASVGMEKKYALIMDEVAIAGANAISLSTKKHLLAHASREDLMLMINLMNPKYYMPVKGEYRYQFMNASLAEELDIPKENIILKENGDVVELDNGELVENFEKIPIDSILIDGKDSEDIGDLVLKDREMLGENGIVLLSCTLDKTTKKILAGPEILTRGFIYVKESQDLLERTKEIAKDVIANSIDYNAERVDYTLIKNEVRKVLGKFFYDETESKPMIITVIQEV;locus_tag=LOCUS_1300;note=WP_000823075.1 ribonuclease J (Bacillus cereus) [pid:40.3%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:1.2e-115],MGA_130
sequence01	MetaGeneAnnotator	CDS	150599	151507	.	+	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLLKRLELHSRGILIGLTGTLTLGTIGAITIKELTTENTTYVDDIKLSKTIADYSYDDSDLDDSFKEYINEYFANKDKDLIADADTTSRYIDSLEVTKDLKRGYDDINKMSKLAEDEYRSVLFLSVEEIEQMKKMVDKKPANGDLVKLDSQITAYKKLDYFNNYADEWLKENGEANSEEILMGSIKAAVGYEFNIDPKEVDKRVTIEKRTSSDVKEPYEITVKREGWSKESKTYNVNHQQKVLHNALDCLYNLQRRKNLKNEDYDEAIDHAKLVIMSGVETDGDNLMAGRSMREVKELIKK;locus_tag=LOCUS_1310;note=MGA_131
sequence01	MetaGeneAnnotator	CDS	151575	153323	.	+	0	ID=MGA_132;product=long-chain-fatty-acid--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011181877.1;translation=MIESLFDRIKDFGNTFVESFSMKKKEPWYKYYSNLKKINYPNLTLYEVIEKTSLAYPNNYAYEYFGKRVRYKEFLASIKKTASALIELGVKENDRVTICMPNTPVAITMFYAINMIGATASMIHPLSSENEIKHYLNDSDSKYVLTIDLVYDKVINVIDDTKVEKVIVSSVSDGMTNTKHTLYYFFTSRKNKIEKNEKAMFFNELLRLAAYDKDFKGVKKDKNDEAVILYTGGTTGAPKGIILSNLNFNALAMQANSFIDEAVEGKSILSILPIFHGFGLGVSVHTPLYIGMKVILIPSFSPRKFGHLLKKYHPNVITGVPTLYEALLKSKLGKHDLESLQAVISGGDVLTPDFKREIDEFLKNHGSKAEVRCGYGLTECTGACLLNPVSRYKDYSIGIPFPDMQFKIVKLDSNREAKFLEDGEICVAGPTVMKGYLNGSDETKKVLKKDKTGTLWLHTGDIGYMDEDGFVFYRQRRKRLIISSGYNVYPSYIESVISSHEAVESCVVIGIDHPYKKQVAKAYIVLKDGVKLTSSLKKKIKAYTEERLVRYSWPYEYEYRKELPKTLVGKIAYKELEKENKK;locus_tag=LOCUS_1320;EC_number=6.2.1.3;note=WP_011181877.1 long-chain-fatty-acid--CoA ligase (Bacillus sp. BRTN) [pid:35.5%25%2C q_cov:96.4%25%2C s_cov:98.6%25%2C Eval:6.1e-94],MGA_132
sequence01	MetaGeneAnnotator	CDS	153469	153771	.	+	0	ID=MGA_133;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166743.1;translation=MNAVIKTGGKQYYVSENAEIYIEKLDAAVGDKVEFNQVLMIDGKVGNPYIKDAKVTGEVLKNGKNKKIKIFVYKNKNKSNRKTQGHRQPYTKVKITKIVG;locus_tag=LOCUS_1330;gene=rplU;note=WP_011166743.1 50S ribosomal protein L21 (Mycoplasma mycoides) [pid:55.1%25%2C q_cov:98.0%25%2C s_cov:97.0%25%2C Eval:3.6e-24],MGA_133
sequence01	MetaGeneAnnotator	CDS	153764	154087	.	+	0	ID=MGA_134;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166742.1;translation=MVSDIMIKVNVLKEENTIKEIQILGHAMYDDFGKDIVCSAVSSIVITTINGLLAIDDESILYEEKKDELDIIIKKENDIVNKLIRNMLDLLKSLHEQYPKNIIVKGD;locus_tag=LOCUS_1340;note=WP_011166742.1 ribosomal-processing cysteine protease Prp (Mycoplasma mycoides) [pid:31.7%25%2C q_cov:93.5%25%2C s_cov:97.1%25%2C Eval:1.3e-08],MGA_134
sequence01	MetaGeneAnnotator	CDS	154092	154385	.	+	0	ID=MGA_135;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003564659.1;translation=MLKITLNIQLFAHHKGQGSTSNGRDSAGRRLGAKAADGQFITAGSIIYRQRGTKVHPGVNVRRGNDDSLYTTIDGVVKFERVGKGRKQASCYPVESK;locus_tag=LOCUS_1350;gene=rpmA;note=WP_003564659.1 50S ribosomal protein L27 (Lacticaseibacillus) [pid:67.8%25%2C q_cov:92.8%25%2C s_cov:93.8%25%2C Eval:1.3e-32],MGA_135
sequence01	MetaGeneAnnotator	CDS	154482	155306	.	+	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSVEFLTEKGVDIAKALEIFGDIETYNQTLGDFKSALEEKIPKLEELKNAHDMANYAIVVHSMKSDAKYFGFFNFAEVAYQHEMASKEGNVTFVEEDFNNLITKAKKVLGIVIEYLGSDDGASEEPKVEHLDAKPEPSNEDLKITQPTIIVADDSNIVRNFVNSSFKDVYNVLSTEDGQYTIDVLNANIGNKNIKCLLLDLNMPRKSGFDVLEFMNAHSLFDMVPVSIITGEASKEGIDKAFKYPVVDMLQKPFTGEDVKNLVNKTIESSDWI;locus_tag=LOCUS_1360;note=MGA_136
sequence01	MetaGeneAnnotator	CDS	155396	156673	.	+	0	ID=MGA_137;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246161.1;translation=MFVDEVIIDVIAGAGGDGCTAFRREKYVPLGGPYGGNGGHGSDIVFRVDEGLHTLLDLKYQKEIKGKKGANGEGKNKHGRGADPLIISVPPGTMVTDLDTGLIIADLKKNGEEQIIAKGGRGGRGNTAFKTQTNTAPNYSENGEPGEKRRIKVELKMLADVGLVGLPSVGKSTIISCVSKSKPKIAAYHFTTLTPNLGVVKASNGRSFVMADLPGLIEGASKGEGLGDKFLKHIERTKIIVHVLDMSGSEGRDPYEDFVMINKELEEWSSNLIKKKMVVVANKMDIDGASKNLEEFKKKVDKDLKVFEASAAMNKGLDKVVNYLGELLEEIKEENIYEEDMLESHVLYKFEKEEPFTITRDDDGTWAVEGDQIEKMFKMTKFTDEGIRRFTKKLYNLGIEEKLKEAGAQDGDSVRIVDFYFDYKE;locus_tag=LOCUS_1370;gene=obgE;note=WP_003246161.1 GTPase ObgE (Bacillus) [pid:53.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.5e-131],MGA_137
sequence01	MetaGeneAnnotator	CDS	156676	157377	.	+	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIATFNIKNDYKLYDPEKAETIYNFLVKEKIDILCLQEVFDKCSDDLCKKIKDTEYNMYGKYRFRLHILRKINEKTPIITKKAKTTKTMHLPHLPSPLKRVITRVVTDTEDGKIAVYNTHLDFMYEFTKKRQLKRIIKIIKREKLPVVLVGDFNAKTNKEFFNEFVDELKNLGIERVKIDEKTLKQSKYNRAIDHLFISNSFKVISKRVEKDLKISDHYPLIIKIEKRKEL;locus_tag=LOCUS_1380;note=MGA_138
sequence01	MetaGeneAnnotator	CDS	157451	159334	.	+	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFNVYNIALILVVALVGVLTFKTTEVKAAGTVSWPDGSTATISRTVENVYNAPVVDFTYSVSTEDSSIVALKTATFGDGMYTVNPKIKNMANNVSWYDYVSSEEAVSAFKRSEILPNGFVPAEENTISDEDSDYPIYIFFDDTDGTIYYYSEAKVVYLNSDPSYMFAGCSGLADISGLSGVNTSKATNMEAMFNGCAKLTNISALSNWDTSKVTQTTSMFGECTSLADINGASNWDTSRMENIQGMFYGCPKASGTIQILGNPYYDSIFAETATAAGAQITVNYGANTPIDSIIAEKSSGSHIVKGQQVSAPSGGNSQSGGSSSSSSETVFDTKTISFDGTETVSNSYTVNKSTTINFANMGLSFKKPGNYELTVKESATSNSAYPVDNDNEYTVIVQVTNVTDQNGTPTGNFNAKFVIKDDNDTKVSNMPFSEPKDETKFGHIELTKTVKGIMADRTKDFSFSVQVDDAATNACANYSLGEKYLIKGTGVPEDGSEVTKCKSGTKDSITLNHGETATIGQFTYNNNTYDSISIDDYYKIIESAESDYTTTFKINSGSTASGRDTGSNAITHSGNIVTFYNQREGSPVTGIILTILPYLILVGIGVGGVLLFQNRENILKEKKN;locus_tag=LOCUS_1390;note=WP_011109529.1 BspA family leucine-rich repeat surface protein (Enterococcus faecalis) [pid:39.6%25%2C q_cov:14.5%25%2C s_cov:8.8%25%2C Eval:2.5e-11%2C partial hit],MGA_139
sequence01	MetaGeneAnnotator	CDS	159331	159660	.	-	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIKIDKFKIKINKLDTFGKRLKSLRFFFPPLKEEGYLFEKKHGINTYFFCQSTDIIMTDKNDKVLYIYPNTITERIIFPKRKVYNVYILPLGAGPLLKVGDQIKRKGD;locus_tag=LOCUS_1400;note=MGA_140
sequence01	MetaGeneAnnotator	CDS	159752	160474	.	+	0	ID=MGA_141;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732586.1;translation=MSGHSKWATTHRKKELIDAARGKVFQKLAKEIYVAAKSGAPDPDQNASLRMVVEKAKAANMPKDNIKKAIDKAKNAGSGENYDSIRYEGYGHGGVAIMVDCLTDNKNRTASFVRSAFSKHGGNLGTDGSVSYIFEKKGVIEVAKSYDEDEVTMAALEGGASDVEVLDESYYITVEPEDFIKVKEALEEAGVKEFLTSEVTFVPNMEVELNEEGCEKVHKLLDALDELDDVNDIYCNLKED;locus_tag=LOCUS_1410;note=WP_003732586.1 YebC/PmpR family DNA-binding transcriptional regulator (Listeria monocytogenes) [pid:50.2%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:2.9e-60],MGA_141
sequence01	MetaGeneAnnotator	CDS	160582	161142	.	+	0	ID=MGA_142;product=Holliday junction branch migration protein RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002992186.1;translation=MYEYMIGKIVDIKATGIVLEVNNTGYFINVASPYSFDLDKEEKVYLYIQIREDEHNLFGFKTLEEKELFLKLIGVKGLGPKMALPILAVGSISGIVDAIERENILYLKKFPKIGEKLAKQIILDLKGKLDFEGTDLESNHEGGIELVEALKALGYKEKEIKNIIPQVDNSLSLEEQIKEALRLLLK;locus_tag=LOCUS_1420;gene=ruvA;EC_number=3.6.4.12;note=WP_002992186.1 Holliday junction branch migration protein RuvA (Streptococcus pyogenes) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:1.0e-36],MGA_142
sequence01	MetaGeneAnnotator	CDS	161145	161492	.	+	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVVSFKEKMIDQMTDKILYDYRYEIFMDRDYLKPYIESIYSFLERHHQVYRFRDELIGYFDEALEFDNYKARLNTDKLIDSLVENSPSYNDNVDGKIYVLKEGKKNGRGKSNN;locus_tag=LOCUS_1430;note=MGA_143
sequence01	MetaGeneAnnotator	CDS	161467	162489	.	+	0	ID=MGA_144;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000344450.1;translation=MAEERVITERELTDDEIMDNTIRPETIEEYVGQDEVVDNLKVFIKAAKMRKEALDHVLLYGPPGLGKTTLAYIIAHELGSNIKTTSGPSIEKSGDLAAVLSTLEPGDVLFIDEIHRLPRFIEEILYPAMEDFTLDIIVGSEGNTRNIKIDLPPFTLVGATTRAGDLTAPLRDRFGIINKLNYYSDKELEKIVKRTAKVLNMKIASDAALELAKRSRGTPRIANRLFKRVSDFSLVEGKEKIDLEITNKALERLKVDKYGLDATDHQLLLAIINKFGGGPVGIDAISNSIGEEVTTIEDVYEPYLLQKGLLKRTNRGRVVTEKAYEVLNIDHQKNIFENEG;locus_tag=LOCUS_1440;gene=ruvB;EC_number=3.6.4.12;note=WP_000344450.1 Holliday junction branch migration DNA helicase RuvB (Bacillus) [pid:61.9%25%2C q_cov:97.4%25%2C s_cov:99.4%25%2C Eval:6.3e-116],MGA_144
sequence01	MetaGeneAnnotator	CDS	162492	163049	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMKKAAYAYLASAMDIGIHNFGEKEWEKICDISDEVQDYQKEKFVIPEFSKLVIGTSILALNENKEEVNNWSVPELELFSTCFAYDKFSALYNGEEFSLKEKMKEFDKEVLQAVLQQKLGKRDAMEFMWNIEGQLYEIGMDKEDVLHFINNSNKETIREFTQKAYHKDAEFLEKNQDEVGKLCL;locus_tag=LOCUS_1450;note=MGA_145
sequence01	MetaGeneAnnotator	CDS	163040	164065	.	+	0	ID=MGA_146;product=tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830755.1;translation=MLIDEFDYELDESLIAQTPLKERDKSRLMVLDKETGEIEHRTFCDIIDYLEKGDTLVLNDTKVLPARLIGSKDKTGAVIEVLLLQNIENDTWECLVKPARRIKKGDQITFGDSLLVATCTEVKDEGIRIFNFAYEGIFLEVLDKLGTMPLPPYIHEKLEDKDRYQTVYAKEVGSAAAPTAGLHFTKELLEKVKEKGVNVVYITLHVGLGTFRPVKVERVEDHKMHSEYYRVDKETADLLNNTRKSGKRIIAVGTTSTRTLETLIKKYGEFREDSGFTDIFITPKDKIDSIDALITNFHLPKSTLVMLVSTLAGKDNILHAYKVAQEEKYRFFSFGDAMFIK;locus_tag=LOCUS_1460;gene=queA;EC_number=2.4.99.17;note=WP_001830755.1 tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA (Staphylococcus) [pid:64.1%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:4.1e-123],MGA_146
sequence01	MetaGeneAnnotator	CDS	164074	165198	.	+	0	ID=MGA_147;product=tRNA guanosine(34) transglycosylase Tgt;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723534.1;translation=MRIEYTLKKKDKNTEARHGSIKTNYGEYETPMFMPVGTKATVKGLSKEELAAVGRGIILANTYHLWLRPGEDVIDKCGGLHKFMNYEGPILTDCGGFQVFSLIQNKEKDITEEGAKFKSHLDGTELFLTPEKSIEIQNKLDSDIAMSFDECPPYPVTYDYMKQSVERTIRWAERGKKVHKNDHQALFGIVQGGEFTDLREYSAKETVKLDFDGYSIGGTSVGEPKDVMYKMIEDGVRYLPEDKTRYLMGVGDPIDIIEGVIRGIDIFDCVLPTRIARHGQAFTRTGKINLNNAKYITDMSKLDPECDCYTCQNYSKAYIRHLITTKEMLGGRLLSIHNIRFLIKLTEELRKAIDEDRVLEYREEFIKKYSKKSP;locus_tag=LOCUS_1470;gene=tgt;EC_number=2.4.2.29;note=WP_003723534.1 tRNA guanosine(34) transglycosylase Tgt (Listeria) [pid:61.1%25%2C q_cov:99.5%25%2C s_cov:97.9%25%2C Eval:2.7e-131],MGA_147
sequence01	MetaGeneAnnotator	CDS	165207	165473	.	-	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNNPYLYTAPSFGIRGFLRGINWSNMLTNTSKTLNVINQAIPIVSQFKPIMNNAKTIYKIAGAINSNDHIQEEKINNNTNNGPIFFI;locus_tag=LOCUS_1480;note=MGA_148
sequence01	MetaGeneAnnotator	CDS	165573	167021	.	+	0	ID=MGA_149;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011103349.1;translation=MMSIVSQSLVYIYRFVNFIFTLPKHILNKSEDAVLGGIDKQELKKSQEDSKVPNTEKELTEIDQNLKGIGKDRAKRGERNPVYSFRYVILADNGKKEKGIFEAETLEDATNFLKREGYNVVDVKPKSKFDIDFNFRKTIKNGDLAFALTQLSTYVKAGIPLVDGVRILAKQTTKPFLKRAFERLVYDLLAGDELSEAMDNQGDRFPRLLINMIKTAEMTGDLTTILDDQAEYYESIERTRKQMISAMTYPAVVLFLAFCVLIFMLVYIVPRFVDMFESQNADLPWITKAVMAASTFVKSNFVWLILGLVGFVLLFRYLFKNVTAFRKTIQTGLMHFPVVKNIIIYNEVYNFTKTFASLLNHGVYITDSMEILSKITTNEVYKEIIGKTLTNLAHGDSISSSFKGEWAFPVVAYEMLVTGESTGQLGLMMEKVAEHFQMLHKNIIDQLKSLIEPLMIAGLAAIVGVILLSIVVPMFDIYGKIQ;locus_tag=LOCUS_1490;note=WP_011103349.1 type II secretion system F family protein (Pseudomonas syringae group genomosp. 3) [pid:28.4%25%2C q_cov:79.7%25%2C s_cov:94.3%25%2C Eval:2.0e-47],MGA_149
sequence01	MetaGeneAnnotator	CDS	167036	167800	.	+	0	ID=MGA_150;product=A24 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583389.1;translation=MYIACLIIFFILGLHIGSFLAVIAIRTPKHESFLTGHSRCDNCNHELKFLEMIPVFSYVIQRGRCRHCGEKISSLLPIVELLTGCLFALSFYLFGFNYNLFIALGIVALFIIVLVADIIYMIIPDQVLVFFSIYFIGLQFLNVGLVQTLYHILTGIFLFALMYLIMLAGNKLFKKESMGGADIKLMFLFGLLLDPLMGCVSIFLGSFIALPVSLYLLHSKHEHIIPFGPFLTLSLLIIYFTGINTTDIIRFLGG;locus_tag=LOCUS_1500;note=WP_012583389.1 A24 family peptidase (Dictyoglomus turgidum) [pid:35.8%25%2C q_cov:92.1%25%2C s_cov:92.1%25%2C Eval:1.2e-35],MGA_150
sequence01	MetaGeneAnnotator	CDS	168147	169442	.	+	0	ID=MGA_151;product=replication initiation membrane attachment protein DnaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229464.1;translation=MKKNINILPADIYVVINKTKIDNGDIDIVSKLYQPIIGFTAVSLYISLINDLRTNEFMSEEYTHHHLMTKMQLSLDEIVMAREKLEGVGLLKSYLKKNESVNNYAYLLFSPLSANEFLNHPILNVVLYNNLGKREYEKVVSEYKIPRVSLKDYEDITKSFSTVYKSIPSSSFGQENIIKKEKNNLLMDKSIDFDYIIAGIPKSMLNEKCFNSDVKRLINYLVFTYNISQEDMLSLIRDSLNEKGMIDKTLLRKNCRNYYQFDNGGFLPTLVYRTQPDFLKKPQGDTSNWAKMVYTFENVSPYDYLKAMYKGTKPTARDLRLIESLLVDQNLSPGVVNVLISYVLKVNNQKLSKNYVETIVGQWKRLNVETVEEAMRITEKEHKKMHNKDKKKNTKVPDKTPVPEWFDKKIDSKELSAEEEEEIDKILESIA;locus_tag=LOCUS_1510;gene=dnaB;note=WP_003229464.1 replication initiation membrane attachment protein DnaB (Bacillus) [pid:32.6%25%2C q_cov:93.7%25%2C s_cov:90.7%25%2C Eval:1.5e-62],MGA_151
sequence01	MetaGeneAnnotator	CDS	169710	170204	.	+	0	ID=MGA_152;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896384.1;translation=MDNYNEFYNIIDEVLTVDKFQEMKNIPHHGITRYDHLMRVSYYSYLICKKLHLNYREAAIGGLLHDFFTTELDDSNSLKALVKHPKCALNNADKYFTLTDREKDIIKAHMFPITIQPPKYLESWIVDMVDNGAAIYEKGNGMKKELKTVATFLLILFINIMKFR;locus_tag=LOCUS_1520;note=WP_009896384.1 HD domain-containing protein (Clostridioides difficile) [pid:40.4%25%2C q_cov:79.9%25%2C s_cov:86.1%25%2C Eval:1.3e-23],MGA_152
sequence01	MetaGeneAnnotator	CDS	170275	170745	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKVLLFSVLILSLFILAGCSDGKKVKVLKCSIEKDVTDSIHLESKYNVYYTGKYVNSIKTVESVTAKDKSVLEAYQKQLDVAYKEYRKLDGYDNSIELKGDKLTSKTNIDYTKIDMDELVKIEKSLKNIIKDGKIKVDDIRAIYEDENFGAKCE;locus_tag=LOCUS_1530;note=MGA_153
sequence01	Aragorn:1.2.38	tRNA	170771	170847	.	+	.	ID=Aragorn_4;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_4
sequence01	MetaGeneAnnotator	CDS	170937	171848	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRILSLFDCPLGDIKEFLPLIKEQGFDAVQISPLQHTKDDYSKEWWMLYQPLNFELGNRIGSKEDLYELCQEANKKGILIIADTVVNHLANNSDSDPLEPNKNADYELLSDPACWKVKKQVTNWDDRYQVTNFCMGLPGLNPHSKKVQAKIIKMLNEYADLGVDGFRFDAAKSIALPDEGCDFFPVITYSLNRWLPIIYGEVLFANEDLINKYARYMRVLTNSHSNNKDAIIKFVENKDSFLSGDLGWTSNWPKERVTNEYQYLTREYPNTLYYARNYTDDWHEWKSPRIKEANHQYVKRYRR;locus_tag=LOCUS_1540;note=WP_010890852.1 carbohydrate-binding protein (Clostridium) [pid:38.2%25%2C q_cov:76.2%25%2C s_cov:31.6%25%2C Eval:1.6e-35%2C partial hit],MGA_154
sequence01	MetaGeneAnnotator	CDS	171858	172739	.	+	0	ID=MGA_155;product=ComEC/Rec2 family competence protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948181.1;translation=MRRRVRNYIRLFLLLLIIANIIIVAINKSQAQTQEVEVVNLNNNNLEISYIDVGQADSALIRVNDKYVLIDAGSRESSNKLVDFLHSKGVTKFEYVVATHPHEDHIGGMKKIIDNFEIANFYMADVITTTKTFEDMLDAMADKKITFKTLNLLDSFNVDEANFVCLSSLSNNIINLNDASIVLKMDYLKTKYLFMADATDNVERNMLDYDLKSDVLKVAHHGSKYSTSAAFLSLVEPKYAIISVGKDNVYKLPSDQVLNRLYGSNIKVYRTDFDGTITVTSDGENIKITKEVN;locus_tag=LOCUS_1550;note=WP_011948181.1 ComEC/Rec2 family competence protein (Clostridium botulinum) [pid:44.2%25%2C q_cov:91.1%25%2C s_cov:94.8%25%2C Eval:4.1e-57],MGA_155
sequence01	MetaGeneAnnotator	CDS	172741	172971	.	+	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIKYAVDKIEENIAELENLETGEHLYINVKKLPAKVKEQDVLVYISKKYVLDNKEKEERKRKINKKFEQLREKSN;locus_tag=LOCUS_1560;note=MGA_156
sequence01	MetaGeneAnnotator	CDS	173015	173530	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIFSDVWYIKALLLYMFTPVVLVCIGLALYAFHIYRKNRINVTFVIKRKIKLILDVVGILLLGALFILMIGFVIAFAVIMDSSDFTNKFVYYTLIASPLLPCVFMFNFILNFFKNLRSEEEEVKIDKDEKFDIDQIEKFDVDQEEKLNLDIEENNSSKSNESDDEELEVI;locus_tag=LOCUS_1570;note=MGA_157
sequence01	MetaGeneAnnotator	CDS	173543	174061	.	+	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEEKGNKKEKGNALIYIAIFLLSLFIILPPLFRTMFKVDKEPKTEQKKSKSNTPELVCKYNKYNYSIKATTTYEKGEATKVELIYTNNAYEGNDNVDDKVLAKQKAIDAEIEKFNGLIGAEYSSEGFTTKITIPREALDSNEDKDLPSRFADVDSVKKYYEDLEYNCKEKN;locus_tag=LOCUS_1580;note=MGA_158
sequence01	MetaGeneAnnotator	CDS	174067	174423	.	-	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLSKPNIIIEILFLLRILNEVIKIKKYIVLIGILLLLCSCTKYQELNHLKIIKEMEITKNDKEYIIKFKEITKEDNNNTTKYHYTYHKKEGNTIKQIIDAAEKDGFYLKKAKIKKTN;locus_tag=LOCUS_1590;note=MGA_159
sequence01	MetaGeneAnnotator	CDS	174353	175738	.	-	0	ID=MGA_160;product=spore germination protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_071541476.1;translation=MDIENRIKKKLGNSEDYLYKKIIINKKEILLIYNEVLTSTSLINDFILRELIHTKSINKLIDNSLPDNHILKIKEKDIINYLNNGFLVLIDKNIYAIEVREHLDTGVRTSDNELSIRGPKDAFNENYNTNLGLIRRRIKDSNLWCNTYYLGTRSNTKTGLLYINDIVNKNLVKEVENILKNINLDAIIDSSYLIKRLDTRNNTTFPTIISTERPDKAAMALLEGKIVIIMDTSPTALILPNLFIDYFKNTDDYYQKNIHVSFIRILRIIAFYFTIFIPAGYIALTTHNQNLLPLDILLSLKLQRSLVPFSTITEAIFMSICFEILKESDIRMSMTTGSSISILGGLILGDAAVAAGIISPIMIIVIAISSISGLVFSDIELINATRIWRFIFLIMAALFGLDGIVIATALLFLRLITIKSFNIPYLYPFIPLNMQEWLDAIIKTKYNNRNTIFTKNTKRGD;locus_tag=LOCUS_1600;note=WP_071541476.1 spore germination protein (Moorella thermoacetica) [pid:33.2%25%2C q_cov:90.5%25%2C s_cov:81.2%25%2C Eval:2.9e-64],MGA_160
sequence01	MetaGeneAnnotator	CDS	175815	177017	.	+	0	ID=MGA_161;product=class I SAM-dependent RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880115.1;translation=MKVLITKMDHLGRGITKVNDKICFVNKALPEDELEIKIIKEKSKYLEGEIIKVIKPSPLRITSKCPYFNDCGGCQYLNLTYDSELKIKENIFREILAKYGSVDDNIIKKMVSINEDFYRNKVTFQVENKKLGFYKYNSKELVSVDECLLLNKEINKLIKPLQELVKKENISQIIINVSNDLKLKMVQIKGEVTDYTEILKLVDVLIINDKVISDKSSITTTLLNNEFILGKETFFQVNKKISERLYLQVVDYIKKLSSKRVLDLYCGVGSISSSIAPYVEKVIGIEVSKEAIKNAKKSKELNHIDNIDFIAARVEDSLNVLSNDIDTVIVDPPRSGLLKKVVNELLDKEVPNIIYVSCNPITLARDLKLLSEKYIIKEVIPFNMFLHTYHCESIVVLERK;locus_tag=LOCUS_1610;note=WP_010880115.1 class I SAM-dependent RNA methyltransferase (Aquifex aeolicus) [pid:31.7%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:2.1e-55],MGA_161
sequence02	MetaGeneAnnotator	CDS	4915	5658	.	-	0	ID=MGA_164;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230055.1;translation=MKIIEVEGIVLTTTNYSESSKILNVLTKEHGVIGIMAKGCRKPKSKLRSVSNKLVYGKFNIYYKEKALSTLISVDLINSYPNILKSLTNISYASLIIDLVNQVSKENNDNRLFTLTENALNKINEGYNPLVITNILELKCLEYLGVMPNLDECALCGSKKDIVTIDASRGGYICRNCHTNEKIVSEKTVKLLRMYYYVDIAKITKLDVKDSVENDINEFLEDYYDRYTGVYLKSKNFIKQVNKLENN;locus_tag=LOCUS_1620;gene=recO;note=WP_003230055.1 DNA repair protein RecO (Bacillus) [pid:34.3%25%2C q_cov:98.8%25%2C s_cov:96.9%25%2C Eval:1.1e-41],MGA_164
sequence02	MetaGeneAnnotator	CDS	5797	6690	.	-	0	ID=MGA_165;product=GTPase Era;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001080241.1;translation=MKCGFVSIVGRPNVGKSTLLNSILGIHLAITSNKVGTTRNIINGIYNDDDSQIVFVDTPGVAKPIHKMNNVLNKKAYNSTDNVDLILFLTDVSTGIGKGDKFLIEKIKKENEEVPIFLLLNKIDKIKKEELLKVIDDIKDQYDFKEIIPISALKEDNIKELIKTIKEYLPEQDKIYDEEELTNVSTKFIVSELVREKVLELTDKEIPHAITCYTEEYEELEDIVNIGVVIVVDRDNIKKIIIGKNGSMLKEIGTKARLDIEKFLGKKVYLKTHVKTIKDWRDREKYLIELGISNEAE;locus_tag=LOCUS_1630;gene=era;note=WP_001080241.1 GTPase Era (Bacillus) [pid:45.4%25%2C q_cov:99.0%25%2C s_cov:97.3%25%2C Eval:1.4e-71],MGA_165
sequence02	MetaGeneAnnotator	CDS	6773	7237	.	-	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDVSKKLEESKRKLEKEKDILKNEVFVKKKKFGLKRFKNSFINSFHGIAHAYVNEQSLSIIFVATIVMVALGFIVKLDRIEWMFVILHFGLLIVAELLNTSIEAVVDKASPEIHPLAKVSKDTASGAEFTLFLVTVINFSIIYLPKLITLFK;locus_tag=LOCUS_1640;note=WP_004398824.1 diacylglycerol kinase family protein (Bacillus) [pid:38.6%25%2C q_cov:74.0%25%2C s_cov:92.7%25%2C Eval:3.3e-15%2C partial hit],MGA_166
sequence02	MetaGeneAnnotator	CDS	7221	7664	.	-	0	ID=MGA_167;product=rRNA maturation RNase YbeY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000054692.1;translation=MYEVLNKTNEEVENIDDIRKALDFALKKEKIENSVFNVIIVDNSYIHKLNRDYRNIDKATDVITFALEDEKDMILPDKMRILGDIYISLDKAKEQALEYGHSLKRELTFLAIHGFYHLLGYDHMTKEEEKEMFKKQKEVLDNYEKGC;locus_tag=LOCUS_1650;gene=ybeY;note=WP_000054692.1 rRNA maturation RNase YbeY (Bacillus) [pid:48.7%25%2C q_cov:99.3%25%2C s_cov:97.4%25%2C Eval:1.1e-32],MGA_167
sequence02	MetaGeneAnnotator	CDS	7672	8283	.	-	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNPIANAIQDVIDVTWPMVIISIVVAVSLRVAYLIKNRMHCTLYKELFSLIFIIYILCLFQIVSGQDVVSWSTNNFVPFKEITRYRLGTNLFFKNVLGNLLLFMPFGFFVSYYLKPKKVYLVFFMTLFTSLAIELVQLYIGRVFDIDDIILNVIGGVFGYIIYYLLDKFASKLPSVLKSEIFLDIVSVILTIIITILLFTHI;locus_tag=LOCUS_1660;note=WP_041272479.1 VanZ family protein (Desulfitobacterium hafniense) [pid:30.6%25%2C q_cov:71.4%25%2C s_cov:85.9%25%2C Eval:6.3e-12%2C partial hit],MGA_168
sequence02	MetaGeneAnnotator	CDS	8264	9424	.	-	0	ID=MGA_169;product=sporulation protein YqfD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047998.1;translation=MNRYQIMLYGINRNYNLNKIMALRINLYAIKIEKKAIYIIISKEDYPKLKSIKHKIVNYYGPLKIKRMIQNNYILVIGIIIAVLIPLLLSKLIFKIEINHPNQNLRKVIRNDLKENGISKYHFQVSFKKKEKIKEKILAKERKRIDYLEIKRKGTKYIIELEERKERSKKKDDRPRHIIATDDALITSIDAKEGEIIKKKYDYVKKGDILISGIIHNKEKEVAKVKSNGKVKGEVWYQVQVILPKYYLKQKKLNKIHHILSFNFFNKYLNLKKYKTSFIIKKRTIWQDSLLPITLEYITEDKTKIIKRAYNKNRAINYSIDIATKKLLDKLNREDKILTKQALKINEKDSKIEVDILFKVEKDITGYLSIENVQLKEGEEDAKPNS;locus_tag=LOCUS_1670;gene=yqfD;note=WP_012047998.1 sporulation protein YqfD (Clostridium botulinum) [pid:25.7%25%2C q_cov:88.6%25%2C s_cov:84.7%25%2C Eval:4.9e-14],MGA_169
sequence02	MetaGeneAnnotator	CDS	9417	9659	.	-	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNEMKRYLFDTDYRINILKDKINIVNYQKIITLEDNKIEIIVTGKKIIIKGNKLKLIKMIDEELLISGTLKTLEVIDNE;locus_tag=LOCUS_1680;note=MGA_170
sequence02	MetaGeneAnnotator	CDS	9705	10148	.	-	0	ID=MGA_171;product=GatB/YqeY domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964601.1;translation=MLVEKLQADIITAMKEHDKEKLTVLRMAKGTIDKEHIDKKVEINDELLIDCVSREIKQRNEAILEFEKGNREDLVEKNKKEIEILKEYLPKQLTEEEIEAKLDEIFAEVKPESIKDMGKVMQKASSLKGSVDMKELSNKIRERLNNI;locus_tag=LOCUS_1690;note=WP_010964601.1 GatB/YqeY domain-containing protein (Clostridium) [pid:46.6%25%2C q_cov:98.6%25%2C s_cov:98.0%25%2C Eval:5.5e-27],MGA_171
sequence02	MetaGeneAnnotator	CDS	10181	10381	.	-	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTQVTVKNGNLDVALKRFKQKVARDGVPSECRKREAYDKPGVRRREAKKQGIKNSRKRNKMMNRD;locus_tag=LOCUS_1700;note=MGA_172
sequence02	MetaGeneAnnotator	CDS	10461	10607	.	-	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTRINNFYEEHKTISIIMLILMGIIMTVLLLHFSYFIGQNIRELLID;locus_tag=LOCUS_1710;note=MGA_173
sequence02	MetaGeneAnnotator	CDS	10592	10762	.	-	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIEENDLKMIKGGNAITSSMINAFTNIIKVLIDSGKGLGSALRRFGEGKACPLE;locus_tag=LOCUS_1720;note=MGA_174
sequence02	MetaGeneAnnotator	CDS	10759	10899	.	-	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLDEEKLKKVKGGVSFWVGVAIAGTIIFISGIIEGIAHPKKCNE;locus_tag=LOCUS_1730;note=MGA_175
sequence02	MetaGeneAnnotator	CDS	10896	11303	.	-	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKYQDETIFVIVVLVFIVITILIFSATKIKYDHYKVIIGSMYNEDMLKLIVNDDELALLNKSKYLYLKDHKQKYEPISVTRNVLKKDKHNYHEIIIKTKLPKRIKTSDYVNISFFVKKENVYELLKKIWKEKR;locus_tag=LOCUS_1740;note=MGA_176
sequence02	MetaGeneAnnotator	CDS	11281	13362	.	-	0	ID=MGA_177;product=peptide cleavage/export ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003082313.1;translation=MEIVLQDGIKDCGVCCLLSIIKHYHGNVSKERLRQWTNTDKTGVSAYKLVETAEKVGFSAYGAKGGIKDLKEETFPVIAHTIINKTYHHFIVIYDIDYEKEKLLIMDPAKGKKTLSFASFNLMSSGVFILLTPAKNIIHINSENQVKTLLFSFLTKHKKYLPFLLSLTFLINIMTIIITYHFKYLQEESINYSLTNNILFISAFIFIMYLIKETCSLLKNNILVKFSTMLDEEIMNSTFKQIILLPYLYYKNRTSGEILSRIKDLSIVKEFIAKAISFLISDLLFIVVFTILLFNINYQLAVITIISLGLISISTIFFRNYITPSIKKYYKDLAIVNSNLVESISSPNAIKSMHLEKLIIDKFKIKYQKFLTDAYSIYQKEEQEKSVKNIIYGIFNILILGIGSKLVIEKEITLGEFIIFQSLLNNILYSFNNLVGLYTDYKAYKLAKERIEDLYTIKNEIFDGSIYYQNYSLLGTIKFKNFSYSYNNQELLKDINLSIKKGDKILLKGSSGSGKSTFVKSLMRYIDVPYGQITINSIDINHYHLNTIRDSIIYVSNNEYLFTDTLLENIKLYKNYDSEEINKICKLTKVDEIVRKDNAGFNQIVEENGYNMSTGEKQRIILARTLLKKSDIYIFDETFNGIDKVKCEQIMKGIFEFLKDKTVIVVSHRLNNDFFNRVLLLKNHHLYEEKVSR;locus_tag=LOCUS_1750;note=WP_003082313.1 peptide cleavage/export ABC transporter (Streptococcus macacae) [pid:27.2%25%2C q_cov:98.1%25%2C s_cov:92.8%25%2C Eval:1.1e-76],MGA_177
sequence02	MetaGeneAnnotator	CDS	13413	14441	.	-	0	ID=MGA_178;product=stage V sporulation protein E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244810.1;translation=MIYSSSNIWAEYKFNDSFHYLKQQTLFVLIGIVLMLVISKTNYYIYYKKANIILGICLLLLVLVLIPGLGSIRNGSRSWFGLGPLGIQPSEAAKLGLIIFTAKYLSKNNKYLKSIIKGVLPILGITGLYFALIMLEPDLGTALILGLTIIALLFISGVSMKFFFITAITGITGIIGLIAIAPYRVNRIISFINPWKDPLGTGFQIIQSLYAIGPGGLLGKGFGNSIQKHFYLPEPQTDFIFSIIVEEFGFGGAIIIISLFALIFYRSLKIALNQNDLFAKYLVFGIAFQLAFQTVMNLSVVVGLIPVTGVTLPFISYGGSSLLMSMISMGMVLNVSKTSEKS;locus_tag=LOCUS_1760;gene=spoVE;note=WP_003244810.1 stage V sporulation protein E (Bacillus) [pid:43.7%25%2C q_cov:99.1%25%2C s_cov:92.6%25%2C Eval:6.0e-82],MGA_178
sequence02	MetaGeneAnnotator	CDS	14568	15047	.	-	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKYLIALIIGIVVILGILLFFVLDSRKNIEITEIKKLEFGHHPGWGPSATYEIVCEDKCYASIDKWDPKKSINRKEIVIDDDIMQELITGLNKLKVSRWNGYNRINKNIYDALSFNLFIKIQDDKDISARGYAYCPRNYNEVKEFLDKIFAKINENY;locus_tag=LOCUS_1770;note=MGA_179
sequence02	MetaGeneAnnotator	CDS	15047	16027	.	-	0	ID=MGA_180;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000893060.1;translation=MLLLTKAIVVMMVGFLSSCILGLIAVPLLKKMRVGQKISVFVGESHRKKEGTPTMGGLIFILPTIFITLGLLLVGKLDYSSNLGIVLLVFIGYALIGFLDDFLSIRKGNNEGLTTYQKLFMQVLIAVAFFYIYMRAGGETSWVVGTLHIDMEMGWLYGLFILFVLVGASNAVNITDGLDGLAGGLSAIAFVAFALISLVVGFEELGLFSLLLTGCLVGFLVFNTHPAKIFMGDTGSLALGAVMAAIAILTHRELTLLIVAFVFVIETLSVIIQSIWVQVFHKKVFLMTPLHHHFEKLGWKENDIVKLFWIAGLILAMSGIIFGVWL;locus_tag=LOCUS_1780;gene=mraY;EC_number=2.7.8.13;note=WP_000893060.1 phospho-N-acetylmuramoyl-pentapeptide-transferase (Bacillus) [pid:44.9%25%2C q_cov:97.9%25%2C s_cov:98.1%25%2C Eval:3.4e-71],MGA_180
sequence02	MetaGeneAnnotator	CDS	16119	18023	.	-	0	ID=MGA_181;product=stage V sporulation protein D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245048.1;translation=MFVKRINERIKIILLVFLTALVLIVLKIFYVQTFDYKKLSELAEDLWSRDLPLEASRGKIYDRNGIILADNLTTTSLVIIPNQIKNKKKTAHLLAPILNTGYDNMLQHLSKKTSIERVHPEGRRLSYEQADKISNYKLAGVYLVKEAKRYYPHGKMLSHVLGHVGIDNQGLSGLELQYNSYLTGENGAIKYFSDTLGNKLELSDIYVEPTTGMNLNLTIDYNIQKAVERELDNVMSMFEPENALALVMDPNNGEILAMGARPNYDPNNYKKYSLETTSRNLPIWSTYEPGSTFKIITTSAAIEEKKIDLFKDKFYDSGKVRVDSAVIKCWKAGGHGEQTYLQVLQNSCNPGFVKMGQMLGKKKLFSYIDKFGFGEKTGIDLNGEGKGIIFNLNQVGNIELATSAFGQGVSVTPIQQVTAISSVLNDGNLYHPYVLKSISEDASNNIITENKKKLVRKTISKKTSSIMRYALESVVAKGGGKAAYIDGYRIGGKTGTAQKVKDGHYLDNNYIMSFVGIVPANKPKAVLYIAIDNPKHTAMLSSYTTTPIARRILLDIIKILKIPKQKEELTKDLEWNDVPLYKVPNVIGLSVEKATKKLKNFTVKYSGTGKKVISQSPLPGTKQEEKGVVRLMLK;locus_tag=LOCUS_1790;note=WP_003245048.1 stage V sporulation protein D (Bacillus) [pid:47.9%25%2C q_cov:99.1%25%2C s_cov:97.4%25%2C Eval:2.1e-180],MGA_181
sequence02	MetaGeneAnnotator	CDS	18071	18775	.	-	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDIINYYELLGVSKDASTEEINKAYRIQAKKWHPDVSKEDNAAQIMNQLNEAKDILLDEEKRKEYDLSLMGNTNPKYEKFDRDNPEYNEDNNRKMYTKWEYFREYLKYYKTPKLRKIIAFILVMLESLVCGILQVINYILVYIIYSLGGVVSYVATLALGIVIALLVLDISRSSHLILSESGSFIKPVIAILIPFIFIFAPDFIYRILVLHVPNALSRLNIFLFKKSVGYKEL;locus_tag=LOCUS_1800;note=WP_000043949.1 chaperone protein DnaJ (Bacillus cereus) [pid:58.1%25%2C q_cov:26.5%25%2C s_cov:16.7%25%2C Eval:7.8e-15%2C partial hit],MGA_182
sequence02	MetaGeneAnnotator	CDS	18824	20413	.	-	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENNDNIEQLDVKEEQTTPVEVTPVENQESPTVEVTPVEEPVLEKVETVEDDKNPFEETFVSEKGAVAEEMNEAAEKLKSEDINTPKTKKKGKKGVVIAIICLLLLLGLGVAGYLFYYSNPKRLISASINDVSAKLDKTIKGSDIDLGEQSTISNDITFDIETDKEALKDIDAETNNILKNLKNLKSNVTIIKDASKDQMLSTVKIDLDKDNLLSGKYLIDGEKEYYYLDGLSSKYIENEDKLGLKVREDDNEVFEDLKYLNKFVTKSFVSHLDNKYFTKEMATTKINDKNKKVLKITLKIDNDAAHKIINAVIKDIQNDSRATKILKDNDINAKELTVKDDVKLLDKGLEYNSYVDYISMKEYKSELIIEEAKLSYEKGKISTLELYSGDKLQGKLKITNNKENRDIVIYDGNSKEIGTIAIANGKRKKSFIADIDYMGTKISFSIESNIKEIAKDTQYFVDTKVIADIKQDKQQLFKITSDIKSTMENTAEIKETVKDAIKSKDLKEEDQNKFMEKLNNSMMKLTK;locus_tag=LOCUS_1810;note=MGA_183
sequence02	MetaGeneAnnotator	CDS	20448	20885	.	-	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKFNLESNGYNKEEVNRFVDNVIKQTEEIVNNYKLKSTEVSRLKLELEHYRRIEKSLNVALEDVKSVKERATANAEKEAKIIIVDAKNNASRIVNEALLKAERVNVDLQRMQNNIKILKRRLKLILEQQQEIVEEIEVLELDNN;locus_tag=LOCUS_1820;note=WP_001131611.1 septum site-determining protein DivIVA (Bacillus) [pid:35.1%25%2C q_cov:76.6%25%2C s_cov:66.1%25%2C Eval:5.1e-17%2C partial hit],MGA_184
sequence02	MetaGeneAnnotator	CDS	20915	21343	.	-	0	ID=MGA_185;product=cell division protein SepF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244791.1;translation=MALNKLKNIFGNDDNEETVVEEEFYSSTKEEFAEDNGPAGSKMMLLEPRAYSESQQIADYLKARNAVVVNLKRVTPDQAKRIVDFLSGTLYAIGGDLQKLGGGIFLCTPNNVNVEGQISDDKEPTSKAKSKAKDKEDDEFNW;locus_tag=LOCUS_1830;gene=sepF;note=WP_003244791.1 cell division protein SepF (Bacillus) [pid:49.3%25%2C q_cov:82.4%25%2C s_cov:90.7%25%2C Eval:2.2e-27],MGA_185
sequence02	MetaGeneAnnotator	CDS	21432	21818	.	-	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYLKFKPLLPRVNFDTLIKKDELDYETLDMFYEDEELFFISRGNRDMFVVTDRRILIVNYKLIIGNRREILSIPYKNIVTASVEIENADVILNINTSNVYELALKFSKPITLDDIYGMYKYITSKIY;locus_tag=LOCUS_1840;note=MGA_186
sequence02	MetaGeneAnnotator	CDS	21831	22340	.	-	0	ID=MGA_187;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047862.1;translation=MDILEIKEFFKDSFRTIIIIIIIFIIISYGFSLQQVVGSSMEKTLSSGDILVLNKVRYRITDVKRKDIVAVYQDDKWIVKRVIGIPGDSIKVIDSNLYVNGTRVNEVYVDNKMTDDFQVIEKVPKNMYFIMGDNRNNSVDSRELGFISKKQIVGKSIIRIWPITKLKIL;locus_tag=LOCUS_1850;gene=lepB;EC_number=3.4.21.89;note=WP_012047862.1 signal peptidase I (Clostridium botulinum) [pid:42.9%25%2C q_cov:84.0%25%2C s_cov:83.9%25%2C Eval:1.2e-25],MGA_187
sequence02	MetaGeneAnnotator	CDS	22352	24181	.	-	0	ID=MGA_188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGNIYEIDGNSVYVKLSIDINNQANLVNLHAVFEDGDKKIVGEIVSATLDKLIINIVGEIRDIFFYPGVSTKPSFKSKVRLITLDELQLILGKQKPSSTEFYLGVSNIYKNYRINVDINSFFSNHFAILGNSGSGKSYAVAGMFQRLFQGPNPPINSNIFIFDAYGEYTKVFDNLHNMNPKLSYKTYTTNTNYEDTDILRIPLWLLDVDDLALLLDATTPTQLPIIEKTLKLVKILTGSRKEVKDHKNDIIARALLDILVSGLDSTKIRDQVIAILTKFNTEDLNLECKIVQPGYVRTFKQCLIIDKSGKMQEMELVVDFIKSFINDELEYKDDPNDKILYTLSDLEEAMEFALISEGSLKSEKVFDYANILSVRLHTLANSASKEYFSYPKYVTRGEYIYDLTNDKKNFTHAQVVNFNINYVDDRLAKVITKIISKLLFNQAVNNTDRGSVPYHIVIEEAHRYVQNDNDVNIIGYNIFDRITKEGRKYGVLLGLITQRPSELSDTAISQCSNFIIFRTLHPRDIEYIKNMVPNISQEVMEQAKNLKPGNCVAFGSAFRVPTSLYVEKPNPAPLSSNVDVSSVWQKEVQTNQPVDTNTVKSNVEEIVV;locus_tag=LOCUS_1860;note=WP_010972015.1 ATP-binding protein (Agrobacterium tumefaciens complex) [pid:33.9%25%2C q_cov:29.9%25%2C s_cov:26.8%25%2C Eval:1.5e-18%2C partial hit],MGA_188
sequence02	MetaGeneAnnotator	CDS	24305	25567	.	+	0	ID=MGA_189;product=DUF1015 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022296.1;translation=MKVPFKKANILLPKNCDMTKWSVIACDQYTSEKEYWDKTKEIVGDSPSTLNLVLPEIYLEDSDVEERINSINSNMEKLLAEDFFKEYPNSLIYTERTQKDGKIKEGLMGIIDLEAYSYEVGSDSMIRATEKTVIERIPPRVKVRENASLELPHIMILIDDEEKDIIENIKNTTTEEDKLYDFELMQEGGHVKGYLLKDDVADEIINKLDKFTDIDYFNNKYGVTENNPLVFAMGDGNHSLATAKTCYENLKKTMSEEEYLNHPARYALVELVNLHSDALEFEAIHRVVFDVDVNHLIDELSKYYEISYEECDGQKMTMITKDDEKDIYIKNPKSNIAVGSLQIFLDDYLKDNPGKVDYIHGDDATRKLAQGDNNIGFILPAMKKTDLFKSVIVDGALPRKTFSMGHSDDKRFYLEARKIK;locus_tag=LOCUS_1870;note=WP_011022296.1 DUF1015 domain-containing protein (Methanosarcina acetivorans) [pid:38.3%25%2C q_cov:97.9%25%2C s_cov:98.0%25%2C Eval:3.7e-71],MGA_189
sequence02	MetaGeneAnnotator	CDS	25576	26085	.	-	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTFRKNINLEKDEISISRFVNEYLGINADCSNLYHKGLKSFESPLIIGVSNDTSSKCPDLIANGTLLKVRDGRGHLGTYINPDIIARYAESVENREKYESVLKTLRIREFNRLQELYSQSEELEATLKQIDDYMDMITTITKTEQEERVKRKEIRKSAEVLIKIKKIK;locus_tag=LOCUS_1880;note=MGA_190
sequence02	MetaGeneAnnotator	CDS	26039	27898	.	-	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNITNDNELELKKILKQRTGYSFSKLKKMFNKKTDYDLMIFLITFFNNSIEEINFEADVKNNDYFKELTRYYNYSLGKIELDNLKEKDDNSLFLVLHKLKELDINLQDKIRDNEMTNGTNNNLKNRILFSSIEERISDSIKNIENKIIKDYKIDTALSDDLENITKEIIFNLKNIEYVKVLFANFKEIVYLKDYNDRLIFTDVLSNYFNVLLNHNDQELENYFDQVVGLYLKTSEDDYLDNLFLIASDKFLDTVASNDDELRKSKINYLIAKHRSFIERGKEDLPFKESAFIETDDENRLDLRNRFVITIDNDEAKLLENAISLEELDDDKYRLSIYTTDVLHFINSDDYYYKNSYKKALNEGRSKRIFKNKMKNKELSLDAGKDMPVFAYQFIIDNDFNLEYFDFKKATINVNENIYYGDFAYLPESANEELKKTIDNLLYLIFDDLRLEDGINYQTANIINYITNSFALEVIKEYAQRKDLSLLFYENNYDCGEEVNKLKENKTNLDFLIEDIIRRDTSLRYLNSTSSKKENENVSLKVFSPVRNIDALVNQILIDNYLIDRKEITFEDQMYINDKLNLIVDNMNGNTKGNNDQKRKQRCPDENVQKKYQFRKRRN;locus_tag=LOCUS_1890;note=MGA_191
sequence02	MetaGeneAnnotator	CDS	27907	28809	.	-	0	ID=MGA_192;product=primosomal protein DnaI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732568.1;translation=MKSIERVLNKKVDHKALKESFMDACSNKDFKDFIKTIPAKEDVLINYTSSLEDASCEYKNCKDCKGLTNCKNSVKGYLLTPEVKGDSISFSYNACKYLNDKLEKDAYKKNIELFEMSKEMMDASLKDIYKDAKRIPILKYFQEFTKKYGREDVKGLYLHGSFGSGKTYLVAALFNEMAKKGIKSVICYYPEFLRSLKASFNEDFEERFNTLKKVDLLLLDDIGAENCSNWNRDEILGPILQYRMEEHLPTFFTSNLNLSELEKNLAITTSGVDKVKARRIIERIKQLTDVLELVSKNRRD;locus_tag=LOCUS_1900;gene=dnaI;note=WP_003732568.1 primosomal protein DnaI (Listeria monocytogenes) [pid:34.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.3e-42],MGA_192
sequence02	MetaGeneAnnotator	CDS	28892	29053	.	-	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLVRHLFENDRIKAVKSDFDFNNPFNKAEVLIEYDEKYDKEDLIKYIKEKYN;locus_tag=LOCUS_1910;note=MGA_193
sequence02	MetaGeneAnnotator	CDS	29121	30002	.	-	0	ID=MGA_194;product=PDDEXK nuclease domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946819.1;translation=MNYYNEIKNELINNEINRKVKNYSINKSDLDTYYNVGKLLLNAGNQYGESIIKEYSLKLTEELGSGYSQRNLRNMRQFYKVSQKWQTLSAKLSWSHYCEILWFDDNKFQYYVKITELNNLSIRQLRERIKSNEYERLPENTRNKLNKNEILRPNDLIPNPVRIKNSNNYENISEKVLQRLILEDIASFLKELGNGFTFIDNEYPIKFGNRYNYIDLLLYNIKYKCYVVVELKTTGLKKEHTGQIMTYMNYVDKHIKTIEENNTVGIIICKQDNEYVIKYCSDNRIIAREYKLI;locus_tag=LOCUS_1920;note=WP_010946819.1 PDDEXK nuclease domain-containing protein (Legionella pneumophila) [pid:35.3%25%2C q_cov:87.4%25%2C s_cov:79.3%25%2C Eval:4.1e-41],MGA_194
sequence02	MetaGeneAnnotator	CDS	30015	32075	.	-	0	ID=MGA_195;product=DNA internalization-related competence protein ComEC/Rec2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009967776.1;translation=MLRLRKALLSNKLYLAILVVVTIITIIRISIPKRSIYQKDTKTITGIIESIKKDQEKITLVIKGKEKIIAYYDNPKLSKIEAGYKVRITGKINSIDETTTKNIFSYKKYLERQNIFYTFTINKIKVISTKTSIFYKIKNAITRRIERISLSSKYLKTFLLGDKSYLKKEVVNSYQEIGISHLFALSGMHVSVLAGIIMYLLKQLGLEENKVYLISSGSLLLFLFIVGFKHSIFRAVLFFILFGVNKLYYLYIKPYQLFIVVLGITLLVDPNSIFNQAFLYSFSISLGLLLFIDKMKTIKKRILLIMYTSLISFIISLPITLYYFYQINLLSIIYNIFYIPLITFIVFPLVLITFIFPLFDGLLYIFLNILEKSAYYLNTIELSKILFFKGPFIIYVIYIIMVIICLYGLYKNKKLLVIPLIILLIMHYSYPKVIKNSFVTFLDVGQGDSSLIYLNNKVTLIDTGGKLFDDKHNISNNITIPYLKSLGKNKIETLILTHGDADHMGEAINLVNNTKIEKVIFNCGRYNYLEKELIKVLNRKKIKYYSCIKELNVDNNKLYFLQTKDYSNENDNSNVIYTELDGYKFMLMGDASVTTEKEILSKYNLPDIDVLKVGHHGSNTSSSKEFINAIKPKNSIISVGKKNRYGHPNKEVLENLKYSKIYRTDIDGSIMFKIKNNKLRVGTCSP;locus_tag=LOCUS_1930;note=WP_009967776.1 DNA internalization-related competence protein ComEC/Rec2 (Bacillus) [pid:27.1%25%2C q_cov:94.9%25%2C s_cov:89.2%25%2C Eval:2.3e-71],MGA_195
sequence02	MetaGeneAnnotator	CDS	32044	32724	.	-	0	ID=MGA_196;product=helix-hairpin-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002320838.1;translation=MTFKYKYRKQIIAFSIIALILVAVLSNYVIKSLNKPPKKEKTVILKKKTTSKKEELKYYKVDIKGQINEPGIYTMAEGDRVIDVIEKAGGLTQIADTTVINLSKKVTDEMVIIIYSVAEVQNYQRTKEKEEQTLKICTDNEKEIKNDACIEKKEESKKDNSVTGKININTATKEELMMIPGIGEAKAESIIKYRSDHGNFKKIEDIKEVNGIGDGVFAKIKESITI;locus_tag=LOCUS_1940;note=WP_002320838.1 helix-hairpin-helix domain-containing protein (Enterococcus) [pid:34.8%25%2C q_cov:96.5%25%2C s_cov:87.2%25%2C Eval:4.5e-28],MGA_196
sequence02	MetaGeneAnnotator	CDS	32770	33909	.	-	0	ID=MGA_197;product=FtsW/RodA/SpoVE family cell cycle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732700.1;translation=MKKVIKNIDYPLLIVSAILFAIGLIMVFSSSNVIAYMAQAASPYNYFLKQAGFLVIGLALGIFIICRTTKFYGIASWFLLLLIGASLVLLLAIGQAKNQAVSWFDLGPINFQPSEFIKIVYIVWAASFYELNKKGLDSYSKVLFPVFVGLGIAFLIMLQPDLGTAIIFITIVGMIFLAVPTPKVLKGKIIFAAVGLLMVLAIFLLASGKSVIQKRQLERFDYTRPCDKLLTTGNQVCNGYIAINNGGLTGLGLGNSTQKYLYLPEPYTDFIFAVIVEELGAIVGIAILLMYMFVLYRILAIGRKAPTLRDGLMCYGIAVYIFMHIAVNLLGLFGLMPMTGVPLPFMSYGGSYTVCLMVSLVIVERVAVETKLSRKKKNS;locus_tag=LOCUS_1950;note=WP_003732700.1 FtsW/RodA/SpoVE family cell cycle protein (Listeria monocytogenes) [pid:33.9%25%2C q_cov:99.2%25%2C s_cov:95.8%25%2C Eval:2.9e-51],MGA_197
sequence02	MetaGeneAnnotator	CDS	34021	34176	.	+	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYYGGGSTCCNSGYGMPYYPTYNNNSNFAIILVLFILLVIVIGTRFTVSN;locus_tag=LOCUS_1960;note=MGA_198
sequence02	MetaGeneAnnotator	CDS	34237	34785	.	+	0	ID=MGA_199;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000957056.1;translation=MLKTCDILDEKNKVLREISKDVVFPLTKEDNKLIKTMIEYLTNSQIEEKAEKYDLRPGMGMSAVQLGVLKRIFVVVHEYEEGKFKNYILINPKIISNSAEKIYVEEGEGCLSVNRPVEGIVPRYARVTMEAFDEKGNKFQVRGREELAIAFQHELDHLNGILFFDHIDKKNPFKDKDLYRAI;locus_tag=LOCUS_1970;gene=def;EC_number=3.5.1.88;note=WP_000957056.1 peptide deformylase (Bacillus) [pid:46.9%25%2C q_cov:97.3%25%2C s_cov:96.2%25%2C Eval:5.0e-44],MGA_199
sequence02	MetaGeneAnnotator	CDS	34812	36971	.	-	0	ID=MGA_200;product=penicillin-binding protein 2B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009968930.1;translation=MKKKRRKKNNVRYSKLFIMASLFLFAVMILRLLQLSTATEIDGTNLKKLADKRTMTTTTLPAQRGVIYDSRGEVLAQNVTSYKLIAYLSSKRTTNKKKPQHVVDKEKTATELAPILGMSKEEILKYLNKDLYQTEFGTKGKNLNEITKDKIEKLDLPGLTFVENYKRYYPKGNFLSYTLGYAKTTEETDEEKKETKEKIVGEMGLEKYYDKILSGEDGYVTFQKDLRGYQIANTKELRKEAIEGKDVYLTVDSSIQFYVEQALAKAKSGYGFEWFTVVIADAKTGKILAISQSPSFDPNKKDIENYLNVTTSYPYEPGSTMKTFTYMCAMENGVYNGSETYKSGVFVTSDGTEIGDHERSGWGVISFDRGYALSSNVGIINLIHRHMNATMLRQYYKKLGFGSKTGISLPNEAKGQINFKYETEIYNAGFGQGITVTPLQMIQALTPLTNDGMLLKPYIVDKIVDPVTKEEVFKGERTEIEKVASTETVTKIKSLMDDTVNGLGNTGMGFRIDSGELIGKTGTAQIADERHGGYLGGEADIISSFTGIYPKSNPKIIIYAAASRPGGGKQSTVFDAVKSIVNNLSKYYGQDKAEEKKVKEYKLPSFKNKDLNSTIELLNQNGITNHQVIGTGSKIINQYPSKKVLVSSDDTIYLITNDSNITVPNVVGMSSKEAKSILKMLGMKVKLNGNGYVTKQSIAPNSQITNGMEITIDLAPRFK;locus_tag=LOCUS_1980;gene=pbpB;EC_number=3.4.16.4;note=WP_009968930.1 penicillin-binding protein 2B (Bacillus) [pid:36.8%25%2C q_cov:96.9%25%2C s_cov:96.8%25%2C Eval:1.3e-128],MGA_200
sequence02	MetaGeneAnnotator	CDS	36983	37273	.	-	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKVKRRVKMSKFEKLLYTLAITLVLIAPISIVFSKATLAKINFDVEKQKKEIAAQTKTNESLSMAIDELASLTKIEEVAKTQGLSYNNNNIKTVE;locus_tag=LOCUS_1990;note=MGA_201
sequence02	MetaGeneAnnotator	CDS	37284	38207	.	-	0	ID=MGA_202;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002903293.1;translation=MHKSVLLKEAIDLLHLQDTDIVVDATVGYGGHSKNILKRIKRGVLFAFDQDSEAIEFSTNNLHTVGTNFTIIKSNFANMKEELHKRGITKVDKILFDLGVSSPQLDEAERGFSYHQDAKLDMRMNREQSFSAYELVNTYSKEELTKVFKKYGEAQFASNIAKKIVEKRAEKPIETTLELVEIIKSAVPMKFRINKHPAKQIFQAIRIEVNDELGSLEKALHDSKDLLNINGRIVVITFHSLEDRIVKNYFKELSQVDEKVKGLPNIDPSLLPDFKLVTRKGIKPSKEELETNKRAHSAIVRAIEKVK;locus_tag=LOCUS_2000;gene=rsmH;EC_number=2.1.1.199;note=WP_002903293.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Streptococcus sanguinis) [pid:54.4%25%2C q_cov:99.3%25%2C s_cov:97.5%25%2C Eval:4.0e-82],MGA_202
sequence02	MetaGeneAnnotator	CDS	38220	38657	.	-	0	ID=MGA_203;product=division/cell wall cluster transcriptional repressor MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723756.1;translation=MFLGEYHHTIDEKNRLIIPAKLRKELGNKFIVTRGIEKCLFAYSEKDFERIVQKLETIPFTKKDAREFMRFFLSGATVVEFDKQGRINITSPLVSYADITKDCVIIGAGERIEIWSNDSWNKFINSANDSMSDIAENLFNDIPYI;locus_tag=LOCUS_2010;gene=mraZ;note=WP_003723756.1 division/cell wall cluster transcriptional repressor MraZ (Listeria) [pid:56.5%25%2C q_cov:95.2%25%2C s_cov:96.5%25%2C Eval:8.3e-44],MGA_203
sequence02	MetaGeneAnnotator	CDS	38778	40538	.	-	0	ID=MGA_204;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830850.1;translation=MINIKENEKLSIMNHSCAHLLAQAIKHLYPEAKFWVGPVIEEGFYYDVDLGDKVITEEDLPAIEKEMKKISKDGKRIVREEITKKEALERFKDDPYKIDLISRMDEKDTVISMYTQGDFTDLCRGPHVDTVKELKHFKLLKVSGAYWKNDAKNKMLQRIYGICFDNEEDLEKHLQELADAKLRDHRKLGKELEIFMTSDLVGKGLPMYLPNGYIVWQELENYIKEKERKQGYKHVLTPPLGNVELYKTSGHWDHYKDSMFPAMKVEDEEFVLRPMNCPHHMMIYANGIHSYRDLPIRIGEIARDCRFEASGALKGIERVRTFCQNDAHLFVTPEQIGDEFKRVVDLILDCYKDLGITDYEFELSLRDKEDTEKYYPDDEMWDKAENVIRKVLDDIGIPYKEMIGEAAFYGPKLDVQLKPAVGNKITVSTCQLDFCLPMRFDLTYVDRDGSKKTPVVLHRAVFGSIDRFIAYYLEETKGVLPVWLAPIQAIIMPVSSEHQADYAKEVNDLLAKEDIRVELDARNEKLGYRLRESQIKKIPITIILGDQEKENKTISYRLFGTKETTTLSQEEFLKYIKDLIKKRTRM;locus_tag=LOCUS_2020;gene=thrS;EC_number=6.1.1.3;note=WP_001830850.1 threonine--tRNA ligase (Staphylococcus) [pid:54.8%25%2C q_cov:98.0%25%2C s_cov:88.8%25%2C Eval:4.9e-192],MGA_204
sequence02	MetaGeneAnnotator	CDS	40516	40716	.	-	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEDFRKRLTDLYLEEKMDTMKNREVDKDDIFKEERRKLKEEYRRSVLEDMLKEEEKENDQYKRK;locus_tag=LOCUS_2030;note=MGA_205
sequence02	MetaGeneAnnotator	CDS	40950	41630	.	-	0	ID=MGA_206;product=zinc metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047881.1;translation=MYLVEYGLLFLGAAIAFIAQTFVSGSYSKYSKVENRNGLTGKDVARKILDKNGLKDVTVEEVEGYLTDHYDPTKKVVRLSKSIYEDPTIASVSVAAHECGHAIQDKVGYKAMRLRNRIVPLVNFSSYAGYIAIVVGAALGLLNLVRIGIIAELVIVAFQVITLPVEINASKRGMQAIKEESFLVDDEVKNAKTMLKAAASTYLASVVTALLQVFRLVLVYGRRNNN;locus_tag=LOCUS_2040;note=WP_012047881.1 zinc metallopeptidase (Clostridium) [pid:47.9%25%2C q_cov:93.4%25%2C s_cov:93.0%25%2C Eval:3.5e-49],MGA_206
sequence02	Aragorn:1.2.38	tRNA	41728	41804	.	-	.	ID=Aragorn_5;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_5
sequence02	Aragorn:1.2.38	tRNA	41809	41885	.	-	.	ID=Aragorn_6;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0060;note=Aragorn_6
sequence02	Aragorn:1.2.38	tRNA	41939	42014	.	-	.	ID=Aragorn_7;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0070;note=Aragorn_7
sequence02	Aragorn:1.2.38	tRNA	42021	42097	.	-	.	ID=Aragorn_8;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0080;note=Aragorn_8
sequence02	Aragorn:1.2.38	tRNA	42102	42178	.	-	.	ID=Aragorn_9;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0090;note=Aragorn_9
sequence02	Aragorn:1.2.38	tRNA	42192	42284	.	-	.	ID=Aragorn_10;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0100;note=Aragorn_10
sequence02	Aragorn:1.2.38	tRNA	42290	42378	.	-	.	ID=Aragorn_11;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0110;note=Aragorn_11
sequence02	Aragorn:1.2.38	tRNA	42382	42457	.	-	.	ID=Aragorn_12;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0120;note=Aragorn_12
sequence02	Aragorn:1.2.38	tRNA	42470	42544	.	-	.	ID=Aragorn_13;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0130;note=Aragorn_13
sequence02	Aragorn:1.2.38	tRNA	42551	42634	.	-	.	ID=Aragorn_14;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0140;note=Aragorn_14
sequence02	Aragorn:1.2.38	tRNA	42642	42717	.	-	.	ID=Aragorn_15;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0150;note=Aragorn_15
sequence02	Aragorn:1.2.38	tRNA	42722	42798	.	-	.	ID=Aragorn_16;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0160;note=Aragorn_16
sequence02	MetaGeneAnnotator	CDS	42887	43246	.	-	0	ID=MGA_207;product=S1 domain-containing post-transcriptional regulator GSP13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722395.1;translation=MQNYKVGDITTGCVTGIENYGIFVSLDNYYSGLIHISEISDDFVKNVNDYVHIGETIKVRVLEVNSEECHLKLSIKNLDYRFNKKRKLKINETTNGFNSLSEKLDSWIDDKLEEMSVKM;locus_tag=LOCUS_2050;gene=yugI;note=WP_003722395.1 S1 domain-containing post-transcriptional regulator GSP13 (Listeria monocytogenes) [pid:41.1%25%2C q_cov:90.8%25%2C s_cov:95.7%25%2C Eval:2.7e-22],MGA_207
sequence02	MetaGeneAnnotator	CDS	43341	43589	.	+	0	ID=MGA_208;product=NifU family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000431159.1;translation=MDQETAKIINIIDKIRPFLVDDGGDIEFVKYEDNIVYVKLLGACAGCSLIDVTLKEGIEQFIINEVPTVKEVRNINSEANQY;locus_tag=LOCUS_2060;note=WP_000431159.1 NifU family protein (Bacillus) [pid:46.4%25%2C q_cov:84.1%25%2C s_cov:88.5%25%2C Eval:6.0e-14],MGA_208
sequence02	MetaGeneAnnotator	CDS	43564	44451	.	-	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENILSYFYNINNITIQAKKDYYLFFYRGNKYLFFKIERDNEEIVIINDILKLFARKYYSFIYNIQKSIITIVDNDRYVLIKVNSNLPRNLKEVIIKNQLPIPNNFIGSIDHSNWVYLWSRKNDYYDYQRKHIKNKYYILYSSINYYIGMAETAIAFLVNNRINGNTPKYLSHIRITNNVDDYYNPLNLIIDYKSRDLAEYLKMVFLTEDNYKEISDYIMDNISLTNTEYTLLMARLIYPSIYFDKYDNIVSNKAKEKEIIKIISLTNRYLDFIKYIYSKIQLNNNIPSIDWLRN;locus_tag=LOCUS_2070;note=MGA_209
sequence02	MetaGeneAnnotator	CDS	44506	45837	.	-	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERGKDFELRDIHGSGLYDQSVGAKDEDSKRIKLSEVSRRRIEKLEEANKVIEERVVGLQREVVEPTSIRERIRNFFGRNQKLIREYQEYIEWNNEKIAALKPVRLPSEVHAEDEKYSNPIKIPEKIVDAAEELYFDFEELAEEEYFNKEEKELAPDEVYEDEINATAPRVAVNEDAEDEINVDEIAAKLRQQIEENHLVSEEDKLADEAQLVAEAQQLINEEKEDEKELSEEEIGSIKEEVAKEVNDEEKDYLPPAIPNYIDFNKMPEQEAPVEEKEADNFEDELEHYRTEFISGHITYDEFTAKRKELEGRAAKEEPRSYSPVGSMPEGVGFVQVADESSVLDVKALLEEQARLDSAIKDNNSDLEHLEEEAKSSEEQLESQKQELSALKDELLAAQAAQREEIEAQNATKKEYQDRIARNSEEASELNADIEALRGAMRR;locus_tag=LOCUS_2080;note=MGA_210
sequence02	MetaGeneAnnotator	CDS	45856	46128	.	-	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKVEKKMMSIVAKDGSVDEVEVILAFEFKDNKKEYVIYTKNEKDANGNVTVYVSNVDRSSGEPRLRGVDDENEWNRIKDVLRELSKAE;locus_tag=LOCUS_2090;note=MGA_211
sequence02	MetaGeneAnnotator	CDS	46181	46471	.	-	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYKINNNEYELIKDKDDIFDYEEVSSLVTDYFDDFDYIMGDMSYGKIRLKGFNDKKNKNYKKINSIESLDDYLKKYCAYKAKYFLLKKVKKALK;locus_tag=LOCUS_2100;note=MGA_212
sequence02	MetaGeneAnnotator	CDS	46526	47164	.	-	0	ID=MGA_213;product=sporulation protein YunB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009968113.1;translation=MLFSLVIIKLASRKINPTLYRYANIEVSRLTNNIVTYQTKKILSNKNLEDIFTVDKNASNEIEELNFNTKKVNSLLNEVTDQITKQVIAIEEGNIDNIALPATLRGEKYHHLSKGIVCEIPIGILFDSDILSNLGTNIPIKLVFSGKANSYIDTDIKEYGINNAYIAVNLIIKLHGRIVMPTTSKETVIKNKIPLVIKIVNGKIPAYYLKGT;locus_tag=LOCUS_2110;gene=yunB;note=WP_009968113.1 sporulation protein YunB (Bacillus) [pid:27.8%25%2C q_cov:98.1%25%2C s_cov:77.2%25%2C Eval:8.6e-23],MGA_213
sequence02	MetaGeneAnnotator	CDS	47202	47435	.	-	0	ID=MGA_214;product=YlmC/YmxH family sporulation protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000236745.1;translation=MRLSDLQSKNVVSMLDGKNIGTIIDVDFNRDNGNINYLVVDPLKGGFRVFSKEEEKKISWMEINKIGEDVILVETKY;locus_tag=LOCUS_2120;note=WP_000236745.1 YlmC/YmxH family sporulation protein (Bacillus cereus) [pid:42.5%25%2C q_cov:94.8%25%2C s_cov:78.5%25%2C Eval:5.1e-10],MGA_214
sequence02	MetaGeneAnnotator	CDS	47465	48241	.	-	0	ID=MGA_215;product=RNA polymerase sporulation sigma factor SigG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009967190.1;translation=MAKHKVEICGLDTSEIKVLTSKEMEDLFKAMQQGDEIARNLLVEGNLKLVLSILRRFKNKCDNLDDLFQIGCVGLLKAIDNFDLDHNVKFSTYAVPMILGEIRRYLRDNNTIRVSRSLKDIAYKTLKYQEEYLMETGKELDLEKVAQKLNVSYYEIVNALESLKEPISMFEPIYNDGGDTIYLYDQIEDTKISNHRFENNLSLQDAIERLEEREQFILDERFVIGKTQMEIASELNISQAQVSRLEKSAVKKLKKILK;locus_tag=LOCUS_2130;gene=sigG;note=WP_009967190.1 RNA polymerase sporulation sigma factor SigG (Bacillus) [pid:58.8%25%2C q_cov:94.6%25%2C s_cov:94.2%25%2C Eval:1.1e-79],MGA_215
sequence02	MetaGeneAnnotator	CDS	48288	49112	.	-	0	ID=MGA_216;product=tRNA 2-thiocytidine(32) synthetase TtcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416734.1;translation=MLKHEEIERNLITKYRKDIWRKFSKAVKEYELVEENDKIAVCISGGKDSFILAKLMEELQKHGDKKFDLVYLVMNPGYTKEVVKLIKKNAKLLNLDIHLFDSDIFKVTEKVSKEAPCYLCARMRRGVLYKKAQELGCNKIALGHHFDDVIETVLMSILYGGEFKSMPPKLRSTNFKGMELIRPLYLVRERDIIKFSKSNDLEFINCACTVTSKSTLKDSKRLEIKKLIAKMEKDNPLIPSNIFASTINTNIDTLLGYKTNGKEVSFIEKYQDNE;locus_tag=LOCUS_2140;note=WP_003416734.1 tRNA 2-thiocytidine(32) synthetase TtcA (Clostridioides difficile) [pid:50.4%25%2C q_cov:97.1%25%2C s_cov:92.3%25%2C Eval:1.2e-79],MGA_216
sequence02	MetaGeneAnnotator	CDS	49106	49792	.	-	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVGLIIGGIIILIGAITAIVLSTNNYSHDEKEFKKEYEKFNHKKTKDGKEYLTLNIPKKNNVQYKSAKEIISALQKDTAVIFFGFPECPWCRNLVPILLESIEENDYPNFYYYNALAIRDQKHLDEDGNIVVDKESTAEYKKIVELLGDFLGEYEGLNDPSIKRLYFPTVVFVSDGEIKGVHIGTLDEHKDPYKKLTAKQKKKIKKIFQENISKIEEKVCTGVNKC;locus_tag=LOCUS_2150;note=MGA_217
sequence02	MetaGeneAnnotator	CDS	49789	50601	.	-	0	ID=MGA_218;product=sugar-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989393.1;translation=MFKLVVSDFDGTLIDSDDGIPVTTVAAIDQYRRNGGLFAVATGRVLKSVLEYTKDYHFIDYIVSLNGAYIYDVNKEKVLAKQRLTLKAIRALNKLYANDRILCYCTPDAWNIYAGIIKVEKGLYDLQKIITNPEKFINDNKNNIYKMEVHFSTKEDAVKACKEIKKLDLGIEGVVQIHTKKDFVVEVTSLKANKLLGVKKVQELLNINNNDIAVIGDSYNDLGLMKSNYYGVAVQNACTEIKKKADYTTSSNDNKGVEKFLEEKCLKEKK;locus_tag=LOCUS_2160;gene=yidA;EC_number=3.1.3.23;note=WP_010989393.1 sugar-phosphatase (Listeria monocytogenes) [pid:27.7%25%2C q_cov:95.2%25%2C s_cov:95.9%25%2C Eval:3.9e-19],MGA_218
sequence02	Aragorn:1.2.38	tRNA	50683	50773	.	-	.	ID=Aragorn_17;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0170;note=Aragorn_17
sequence02	Aragorn:1.2.38	tRNA	50816	50892	.	-	.	ID=Aragorn_18;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0180;note=Aragorn_18
sequence02	Aragorn:1.2.38	tRNA	50896	50972	.	-	.	ID=Aragorn_19;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0190;note=Aragorn_19
sequence02	Aragorn:1.2.38	tRNA	50978	51054	.	-	.	ID=Aragorn_20;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0200;note=Aragorn_20
sequence02	MetaGeneAnnotator	CDS	51131	53422	.	-	0	ID=MGA_219;product=HAD-IC family P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861289.1;translation=MTEKKAKFKGLSAKEVEQRKREGLVNVDTTSNTKTMKEIVLSNVFTLFNIINIVLAIAIIAVGSFKNLAFIIIIVVNTLISIFQETRSKKTLDKLQVLAEQKVTVIRDGVEKKIGIEEIVLDDIVLFSNGNQVVVDSVILDGEVEVDESFITGESETIAKEKNDSILSGSFIVSGKAICKVEHVGKDNYTAKIGSDTKYIKPISSEIMQSLNRIIETISFLIVPVGILLFSRQLYLEGNNLTQAVVNTVAALIGMIPEGLVLLTSTVLAVSVIRLSQRKVLVQDLYCIETLARVDTLCIDKTGTITTGEMEVVDTILKTDQEVNDIVGSVVYALDDNNPTAIALKKKFVPVKKLKVDKKISFSSKKKYSGITCGKDTYLIGAPEFVLDSLKGLTKELEEYSNNYRVLAVVKKTGSKKTLLAFILIQDQIRKEAKDTLNYFRENNVDLKIISGDNPNTVLSIAKRAGLKEDALAIDAHTLKTDKDIIAAIEKYDVFGRVSPEQKKDFVIALQNAGHTVAMTGDGVNDVLALKESNCSVAMAAGSDAAKNVSQLVLLDNNFQAMTNVIKEGRRTINNIERSASLFLVKTIYATLLSLIFIFIQRAYPFIPIQLTLTSVVTIGIPSFVLALEPNEELVSGRFMKNILKKAVPPALTIVLNILIIITIANFKNLSVAEISTLSVMMTSYTSFVLLYKICQPFNLMRKALFGLMIAFFVVGAICFQQVFNFSNLTFIMVLIIICCICISHFIYALLEKVVTKVIDEKM;locus_tag=LOCUS_2170;note=WP_011861289.1 HAD-IC family P-type ATPase (Clostridioides difficile) [pid:46.5%25%2C q_cov:98.6%25%2C s_cov:96.8%25%2C Eval:5.3e-189],MGA_219
sequence02	Aragorn:1.2.38	tRNA	53525	53600	.	-	.	ID=Aragorn_21;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0210;note=Aragorn_21
sequence02	MetaGeneAnnotator	CDS	53646	54329	.	-	0	ID=MGA_220;product=stage IV sporulation intramembrane metalloprotease SpoIVFB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000599058.1;translation=MGAFFPFFVLTYLVVIHELGHFLCAKIMGIPVNKICIYPFGGISKVDSRINISLKKELAILIAGPLMQIIGYVLLCSFISNNLELNLFTTYNFSLLIFNLLPIYPLDGGKILNNLLAFKFSYLKSIDLTIKISVIIVIVLFIASIIINTNLNILFMLSFLLYKIKETRDNKNVYFNKMLLERYLYRIRFPKVKIVSNEKSFRRDYRHLIRHQDRYYSEREYLNKRFH;locus_tag=LOCUS_2180;gene=spoIVFB;EC_number=3.4.24.-;note=WP_000599058.1 stage IV sporulation intramembrane metalloprotease SpoIVFB (Bacillus cereus) [pid:32.0%25%2C q_cov:93.4%25%2C s_cov:79.4%25%2C Eval:5.2e-24],MGA_220
sequence02	MetaGeneAnnotator	CDS	54382	54960	.	-	0	ID=MGA_221;product=stage IV sporulation protein SpoIVFA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000797463.1;translation=MHSKIKSNSFRNSISKIFKKFLSKLMLTTIIFLLGMIIVKENPKFKTIIRRNVYEASFKFNKTKKAYEKYFGNILSIDKISPTTKEVFAEKLQYSDSSTYKDGVKLKVSKNYMVPTLESGVVVFIGDKKDYGKTIVIEQTNGISTWYGNINTNNIKLYDYIEKGTLLGESINSKLYLVFQKEGKFLDYKKYI;locus_tag=LOCUS_2190;gene=spoIVFA;note=WP_000797463.1 stage IV sporulation protein SpoIVFA (Bacillus cereus group) [pid:30.2%25%2C q_cov:89.1%25%2C s_cov:76.6%25%2C Eval:2.2e-16],MGA_221
sequence02	MetaGeneAnnotator	CDS	55005	55511	.	-	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIALIIMVLSLLLDGILTNFTSYMQGDLSLFYPMLTLVALIIIYPFFQKDKKKYLISAFVLGIVYDLCYTNLLIFNGVIFAIMGLLIIFIYKNIPTNFLTIILYTIVVIVSYEVLTSLIFIIVQLEKITLIDILYKIGHSLILNIIYVEVLYLIMKLIPKKYTKLKIN;locus_tag=LOCUS_2200;note=MGA_222
sequence02	MetaGeneAnnotator	CDS	55508	56299	.	-	0	ID=MGA_223;product=rod shape-determining protein MreC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003725674.1;translation=MYKKKQKRKKIIIITTISIVVLSLFIYSLVLNRKTTKGENILKSGITYIEKLLIEPFTSKELQNIDQSKSYLIQKNVNESLEKEIEELKKALALNSTLTEYSIENATILSRNRTYWFNTLNIDKGKKDGIKKDMAVVTADGLIGSINKVGHNYSEVKLITCNDLTYKVSIMINIGDSDTYAVLSGYDKKKNRIKITGIDKTVDLKKGDKVLTSGLGNKFPRGIFIGEVDKIENDRYNISKTAYVKTNQDFNKIHYVTVLKEKK;locus_tag=LOCUS_2210;gene=mreC;note=WP_003725674.1 rod shape-determining protein MreC (Listeria) [pid:31.1%25%2C q_cov:93.9%25%2C s_cov:89.2%25%2C Eval:4.6e-33],MGA_223
sequence02	MetaGeneAnnotator	CDS	56349	57032	.	-	0	ID=MGA_224;product=DNA repair protein RadC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246034.1;translation=MYMIKDIPSKERPRERLKKYGSSALSNEELLAIILKNGTHNKSVKELALDILKTYDDISKLKDATIAKLTSIKGIGEVKALELIATIELGKRIVLSNEKTDAFRLSNAEEIYYYIKDLFLNKKQEFFYALYFNNKQELIDKKLLFMGTINRSVVHPREIFKEAYLYSASSIVCIHNHPSGDTNPSPEDIYFTNNLVTIGKIHGIFIIDHIIIGNDSFYSFYENGKIK;locus_tag=LOCUS_2220;gene=radC;note=WP_003246034.1 DNA repair protein RadC (Bacillus) [pid:44.1%25%2C q_cov:97.4%25%2C s_cov:95.2%25%2C Eval:1.4e-48],MGA_224
sequence02	MetaGeneAnnotator	CDS	57060	57515	.	-	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLKRDLLFLFIAVLIGAFVGDFVSTHYGKKIPVISHSNSFYIMQEGVYNSEEQLRENVKGLSPKAVIKKDNKYYVYVGITKDEKVLEKLFNIYKDKGYTIYTKEEDFNNAEFARINSQFDEMIKKTNDPEEILKMEELVLASYQQKLKN;locus_tag=LOCUS_2230;note=MGA_225
sequence02	MetaGeneAnnotator	CDS	57577	58143	.	-	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986441.1;translation=MDKELKKELNRKNKKIKTDNKWIIQVIILSFIISLLLSIVSELFLTHLPIALGIILYIIVILIGILFDIVGVSVTSANEAIFHSMNSRKIKGAKLAVRFKKNANKVSNFCCDVIGDVCGIISGSIAVVLATSLSRVLNINLFVALVLFSAVTAALTIGGKALGKSFAINKSNIILFEFAKLVSNFYHK;locus_tag=LOCUS_2240;note=WP_011986441.1 hypothetical protein (Clostridium) [pid:41.8%25%2C q_cov:93.6%25%2C s_cov:93.7%25%2C Eval:6.7e-31],MGA_226
sequence02	MetaGeneAnnotator	CDS	58210	58359	.	-	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTKWQSSLVSGDYTITLLNGNGIFGNEYVRVREILLDLRPKINHINNH;locus_tag=LOCUS_2250;note=MGA_227
sequence02	MetaGeneAnnotator	CDS	58832	59572	.	-	0	ID=MGA_228;product=ribosome biogenesis GTPase YlqF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009967235.1;translation=MPRSSKIDDIDDIIKEKPRVIIMTKYDLCDKNETDKFIKYYEDLGYKVVCINLLTDKIAKILDISTDIMKEENEKRKAKGMKERPLRALVIGVPNAGKSTLINRLVSKKSVNVGNTPGVTKNISWIRINKDLELLDTPGILWPDFSDQERAHVLAAFSSIREEILDKNALAVFILKKLYEYYPDNLKERYGIDHLTEDFVEEFELIGKKRGLMASGGVVDYEKVATAIINDLKSGRLGKITLDRLD;locus_tag=LOCUS_2260;gene=ylqF;note=WP_009967235.1 ribosome biogenesis GTPase YlqF (Bacillus) [pid:41.5%25%2C q_cov:95.5%25%2C s_cov:83.7%25%2C Eval:1.1e-54],internal stop codon at [59618:59620](-),MGA_228
sequence02	MetaGeneAnnotator	CDS	59784	60476	.	-	0	ID=MGA_229;product=sortase SrtB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009903304.1;translation=MKNRLWKTTILLVVILIICSLFSYRTSKVKPKDKNKPIVAEKKKTESIDINKLREKYQNNDIVAYIEIPEVTSSIVLQSDDNDYYLNHNYKKEYDNKGSIVLDYRNELSDRKLLIYGHSGKEKELPFLKLNNYIEKDYWKKHNSINLYTMKGIRKYKIYSSYIETSDYDYVNLNSFNGLSWEEHINKLKNKSLYETGIELDENDNIIILQTCSMNDEGFQKYHLVIGKEV;locus_tag=LOCUS_2270;gene=srtB;note=WP_009903304.1 sortase SrtB (Clostridioides difficile) [pid:31.6%25%2C q_cov:91.3%25%2C s_cov:92.4%25%2C Eval:1.6e-25],MGA_229
sequence02	MetaGeneAnnotator	CDS	60531	61997	.	-	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLRLLIILIAFSFMFISLDVNAEEINTDVVEEPTIGEEVEQEGNDSLEEIEEIPVVREIGDEIEDTNEPTTERVIINEVHKISVIINKTDELGNPLVGATIQIIDSNGIVVDEWVSDGTSHEVLLPEGEYVLHEVSAPEGYIKAEDKAFTAKVEVIDLDAGVDWSKTPCSHYGGTPLYYVDFNGHKEEVYCINQDWETPDENSNYDGEVLTASDIRDFMVQTVYVDAEQNKEPRDISDQSLSSQQLYDKILDIIYHRQLASDLFSDLTEAEIRYITENALKNYTNAGLTRVQGVTRISAIPEGVEDYYYDGRYYWYLYTHFRSFIYLPNAPLGSDVFTTSVGNGNAFGTLARHWNGGDHNAKNNATVKAQLARYYELYQYLVSDRDHHPADMHLYMFFTNNTAYDISAYNFDNGAYQNLLGIRWYNPYDEEHQVKLTLINYKKDTGKTEIVPPVTGINPNKTSNAYLFIVLLGVLGLSLRIKKRFN;locus_tag=LOCUS_2280;note=MGA_230
sequence02	MetaGeneAnnotator	CDS	62113	62748	.	-	0	ID=MGA_231;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762300.1;translation=METDNVTINTQSSIRLELNKIIYFDPFKIEEESKDADIIFITHEHYDHLDKESIEKVKNENTIIIAPKSMKEVISKMEFKNYIFLDPNEETNIDNISIKTIPAYNINKEFHPRENNWLGYIVTYNNITYYIAGDTDKTKEAESVVCDIAFIPIGGYFTMDVNEATELVKTINPKIVIPIHYGSIIGDKDDGKKLKECLSDTNIEVIEKLYF;locus_tag=LOCUS_2290;note=WP_011762300.1 MBL fold metallo-hydrolase (Pyrobaculum islandicum) [pid:34.5%25%2C q_cov:88.2%25%2C s_cov:86.1%25%2C Eval:1.8e-33],MGA_231
sequence02	MetaGeneAnnotator	CDS	62763	63605	.	-	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKEYNNKFKKNIDELLPVLKEGFVSFYGEEYQDRISNTIDSTRFVFIDRNNHVCSDIKINDLDNKEQIKVNEYLKEIEETLGGLIPNLLPPVIIYKVNKPLSLHALIHELNHALHLGIGKPSEISNPAFLIHRFKPSVGFTGQNGDYIYELVNEYMSYDILKNICDRVPENDNIDISFDDRRYVYLDMIAEGKVRDLYRANKESLKDKLINFHGYEVPYEFGYNNYDKYLSTYASIQKEYEKHYIPLIASGKPSDISHDMVVKTLTGAFRNDFKSFKTK;locus_tag=LOCUS_2300;note=MGA_232
sequence02	MetaGeneAnnotator	CDS	63649	64611	.	-	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMFLSILISALLIVGLTGCSVFDLVKKAIDPVEKAEILNWKSVHSKVFVNEAKAEDYEGKWYLYMGEVYSINKDHCQLGSLTPIDVYLDKEVLKGLNKGDKIVVVGKLEDMISNPKLTDALMLDSKTVKEKLVLAKTKTTGLSRNIFYSDYKVDSKTHNITSFKTSGTSNATHKMKYNSKNNLEEEIVEYSIASYGIERINYTYNKDDKIKTERFRKIKDGKTTEDNTWHYSYKKTSKGKTLEKTTINYKTNYKMTYIYEYDKDDNITKETQSSPNGTYTIEYEYDEFGNRIKEVSYNVLKPYYKATTTYEYTIVAKK;locus_tag=LOCUS_2310;note=MGA_233
sequence02	MetaGeneAnnotator	CDS	64644	64868	.	-	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNDDITLDIDRLRDDLEQHYQGIMFNVSPAAMVELDKVERANPETLVKMAIDNDIDLTNYLTDDDEPYIKRRR;locus_tag=LOCUS_2320;note=MGA_234
sequence02	MetaGeneAnnotator	CDS	64878	65516	.	-	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIINKYKENKLSLEMYQKVGVIFLTIVLAGIFGWIYEFILYYFDGGCKEFYMQGGNFLPWINIYAYGALLVMFFTKKIRNKPLLVFIAALVITGLLEYFSGLVIYKIGDGLRLWDYNQEIWNFGNIGGFICLRSVLFFGVSSLLLIYGIVPFCIYLSKKMSKKAFLILSITLFSIVMFDEVYNLLIARALNLPRAADFYKSLGFKYVKFN;locus_tag=LOCUS_2330;note=MGA_235
sequence02	MetaGeneAnnotator	CDS	65587	66927	.	-	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFSIRNGFLMLVVVLIGVLSLNIKEAKAAGTVTWVGPSSITIRETIRNTANPIVASMKYTLVEYSSNNDVATATINYTASDTPTNYQITKSTTMNLSSLTFTKPGDYEYYILQGSLEAGEGKILNNYFIPSSDSAFYDVTISVRNVVDANNTPTGNYTVSLILRRLVYNEQTEEYEYDEEKVSPVSGVLYADHYLETNPNRFGHIELSKTVKGIGADTTKYFPFTINIDNDSGLVQDETTEGAVPNIIDSSGWVYPISGIDATVTYNGNTITNPTTITDGTPTTIYLKHGQTATIGQVTSEGNTFDVIPGGYCGEETPDIDPDPDHKKYDFSTTPSVKKLAAVDGKTCYGSYFTIEESPGDYTPAFSVNGGSSTSGYYVSATGLYNMNTDSNTVTVDFYNTKEMSPVTGLIFTILPYVILAGIGVGGTLLVMHLKKEERKVKE;locus_tag=LOCUS_2340;note=MGA_236
sequence02	MetaGeneAnnotator	CDS	67017	67940	.	-	0	ID=MGA_237;product=carbamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002437777.1;translation=MRKIVIAFGGNALGNTPDEQQALIKEAVKTIVPLVKAGDKVVIGHGNGPQVGIINLAFENSLDNEDIPYMPLAECTAMSQGYIGYHLQKGIKEVLNEENISKSVVSLITQVKVDKNDPSFKNPTKPIGPFYTKEVADKLKETSGDTYVEDAGRGYRKVVASPEPIEIVEIDTIRDLIEKDNIVIAGGGGGIPVYLDEPTKGASAVIDKDKLCSLMARNINADLLVILTNIKQAQINYNTDNAQDIGKVDIATMEKYIAEGHFAKGSMLPKVEAAIEFVKETGNDAIITDLNNLTNALEGNEATIITK;locus_tag=LOCUS_2350;gene=arcC;EC_number=2.7.2.2;note=WP_002437777.1 carbamate kinase (Staphylococcus epidermidis) [pid:51.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-84],MGA_237
sequence02	MetaGeneAnnotator	CDS	67937	69037	.	-	0	ID=MGA_238;product=agmatine deiminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989327.1;translation=MKRLETTPKKDGYRMPGEFEHHNGCYMIWPERPDNWRLGAKPAQEVFTKVANTIGKYEPMTVIVSKAQFDNARHHLDDNVRVVEMANDDSWVRDCGATFVVKDEGEVRGVDWTFNAWGGLVDGLYFPWDSDDKIARKMCELERVDSYRTDDFILEGGSIHVDGEGTCMVTAECLLSEGRNSHMSKEEIEDKLKEYLNVEKVLWIPRGIYNDETNGHVDNMCNFVKPGEVLLAWTDDENDPQYERSKEAYDYLESETDAKGRKLVIHKMYTPAPILITKEESEGVDAVDGTLPREEGDRLAASYVNFYTGNGFIALPVFNDPNDEKAIKLLEEVFPGRKIEPIYAREILLGGGNIHCITQQLPSGKK;locus_tag=LOCUS_2360;gene=aguA;EC_number=3.5.3.12;note=WP_010989327.1 agmatine deiminase (Listeria monocytogenes) [pid:68.0%25%2C q_cov:98.9%25%2C s_cov:99.7%25%2C Eval:1.1e-153],MGA_238
sequence02	MetaGeneAnnotator	CDS	69085	70494	.	-	0	ID=MGA_239;product=amino acid permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732183.1;translation=MAKKRKFKLMDAILGTVCLTLVCESVMPTAAIGNTQYFWWILLLVCFCLPYGMITAELGTTYPSEGGMYDWVKRAFGPKWAGRVAWNYWINFPLWISSLAVAVTDIIAGMFGVELSIVTLLCIQLLYIWFVTFLGTKRVGESKYIVNLGTVFKVVLLLGIGALGIYAFISTGHSANPITSAKDLFPGLNLGDLSFVSIILFNFMGFEVVGTWANDMDDPKKQIPKALIIGGLLMAFFYVLPATGFNVALPANADWIGAGAEIVVDVLNALFATVGLGASAIKVLVIIAGCMFVYTFIANIASWSFGVNEVAKYAAEDGSLPKAFTKTNKEGVPYMASIINGIVASIIVIAGIIASFVSESFEAGFSLFFCLSWITLLVGYIPMFLAFLKLRKTDKDAKRPYKVPGGNVMIHVAAIVPFVILILGVLFTLFGDFTKDYIIGNIPLIAGVVISFIIEEILVARIKDKKVKE;locus_tag=LOCUS_2370;note=WP_003732183.1 amino acid permease (Listeria monocytogenes) [pid:44.0%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:6.3e-107],MGA_239
sequence02	MetaGeneAnnotator	CDS	70496	71485	.	-	0	ID=MGA_240;product=putrescine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003721659.1;translation=MKKDYVTTQDFTKEELLDILQLSLLIKKTLKAGHTLNTLYHKTLGMIFEQASTRTRVSFETAMTQLGGHAQYFAPGNLQLGKHESMKDTAIVMSRLVDIIMARVIEHKTIAELAQYSQVPVLNGMSDYNHPTQEMGDIITIFEHLPEGKGLEDIKVVFVGDCTQVCASLGMMITKMGGHFVHFGPEGFQLRGDYIDSLEENCKVSGGTYLITDNAEEALKDADFVYTDVWYGLYESEMPKEERMKIFYPKYQVNKELLAKCAPNVKFMHCLPATRGEEVTDDVMDDENVSICFDEAENRLTAMRGLLVYFMGKKDEACEECNKLLGKEN;locus_tag=LOCUS_2380;gene=ptcA;EC_number=2.1.3.6;note=WP_003721659.1 putrescine carbamoyltransferase (Listeria monocytogenes) [pid:67.4%25%2C q_cov:94.2%25%2C s_cov:90.6%25%2C Eval:1.3e-121],MGA_240
sequence02	MetaGeneAnnotator	CDS	71580	72575	.	-	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILFFLIGLLLITGCTSKSTNQLNVLNWTSYIPDDVISDFEEEYNIKVNYGTYSSNEELLAKLSSSKKGTYDVVFPSDYMVSLMKEKKMLTKIDKKRFNNYENINPLFLKQEYDSKNNYSLPFLLATSVLAVNTEHIKENIEGYKDLLNKKYENDIVLIDDQRIIIGACLQVNGYDINDTNDKHLEEAKKFFLKMKPNVKAFDSDSPKTFLMTGEVNIGLLWNAEALLAQEYNPKIKIIYPKDGYALSMDNYCIVKGSKNVDNAYLFIDYLLRDDIAKRIVSEYPYIATNRNVSQMSNKKLKRILKNGSYIRNIGSNIKKYDKTWAKMK;locus_tag=LOCUS_2390;note=WP_011948299.1 extracellular solute-binding protein (Clostridium botulinum) [pid:37.9%25%2C q_cov:100.0%25%2C s_cov:56.6%25%2C Eval:2.3e-67%2C partial hit],frameshifted%2C insertion/deletion at around 71581%2C72574,MGA_241
sequence02	MetaGeneAnnotator	CDS	72572	73366	.	-	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEHKNKFLRNLFIILVFIFLYLPIAVLVIYSFNKAKTNIVFTGFTTKWYTELFKNRDLLEAFINTIIIAVTSTVTSTVIGTTAAVGLYKYKFLGKNFVNKLLYIPIIIPEIVLGIALLSVYTLMNLNLGMFTLILSHIAFSIPFVITSVRSTLSDTTKKIEEAAEDLGASKFKVFKEITLPLIRPGVISGATLAFTLSMDDVVISYFTAGPGSNTLPLKIYSMIKTGITPDVNALTSLMLLTVIIILTISIIYQSRKIRKKVVA;locus_tag=LOCUS_2400;note=WP_011948299.1 extracellular solute-binding protein (Clostridium botulinum) [pid:48.2%25%2C q_cov:94.3%25%2C s_cov:39.8%25%2C Eval:3.0e-64%2C partial hit],frameshifted%2C insertion/deletion at around 72583,MGA_242
sequence02	MetaGeneAnnotator	CDS	73368	74225	.	-	0	ID=MGA_243;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948298.1;translation=MNKKLDLFKNISLWPVVIYSFVLILLPLLYILFLSFCETDYVGGINYHFSIVNYLTIIDSTYLLIFAKSALIGIITTLICLVIAYPFAIFLMDKKEEVRNALIKLVMIPFLTNSLIRTYGWIVLLRKNGIINNGLTSLNIIKEPLSLMYNNIGIIIGMVYTLLPFMILPVYAAVNKLDPNLIKAAKDLGANKFHVFKDIIFKETISGAFNGSLMVFIPAIGYFFISDILGGGKQMIIGNLIKDQFLTARNWPFGSAISIFLIIVTFLLVRVYKKIGGNIDELGGM;locus_tag=LOCUS_2410;note=WP_011948298.1 ABC transporter permease (Clostridium botulinum) [pid:44.2%25%2C q_cov:96.1%25%2C s_cov:85.3%25%2C Eval:3.2e-67],MGA_243
sequence02	MetaGeneAnnotator	CDS	74218	75285	.	-	0	ID=MGA_244;product=polyamine ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948297.1;translation=MKRVLVELKNLSKKFGKEHVIKDLNLDIYEGEFLTLLGPSGCGKTTILRMISGLEKVTSGKVIIDGKDVTDIVPAKREVNTIFQNFALFPHMTVWDNIDFGLKMHKVPRTEADKRIKDAINLVKLKGFENRKPDELSGGQQQRVAIARGIVLNHKVLLLDESLASLDLKLKREMQIELKKIQKQLGITFIYVTHDQDEALTMSDRIAIINNGTVEQIDTPENIYRKPHTKFVADFIGEANILTGKITKVSENEAVVSLPDNMDLTIDNKNYQVGEEKTVVIRPECFDISSIESLDSFKGVVKEYIYDGMITKLIVQKDNTELRINLMDASSFKEGSDVYLKVPKKYIIVLGDKNE;locus_tag=LOCUS_2420;gene=potA;EC_number=7.6.2.11;note=WP_011948297.1 polyamine ABC transporter ATP-binding protein (Clostridium botulinum) [pid:48.3%25%2C q_cov:89.9%25%2C s_cov:89.7%25%2C Eval:1.2e-85],MGA_244
sequence02	MetaGeneAnnotator	CDS	75353	75847	.	-	0	ID=MGA_245;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047862.1;translation=MNSKQFKELIPYLIIIVVVILVKTFVVTPIKVNGASMYYTLHDKDIMFLNKTRYKLKKIERFDIVVIKYQNEYIIKRVIGLPGEKVSYSGGTLYINNKPVKEKFYHADTADFEEVKLKEKEYFVMGDNRPHSQDSRIIGPVNIKDILGHATFTIYPFNRFGNKK;locus_tag=LOCUS_2430;gene=lepB;EC_number=3.4.21.89;note=WP_012047862.1 signal peptidase I (Clostridium botulinum) [pid:42.2%25%2C q_cov:95.1%25%2C s_cov:95.4%25%2C Eval:1.4e-25],MGA_245
sequence02	MetaGeneAnnotator	CDS	75914	76279	.	-	0	ID=MGA_246;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003220825.1;translation=MSNVIDKINTKQMKKDVPEFRVGDTVRVDVKIIEGKRERIQAFEGIVVARRGGSVSETFTVRKVSSGVGVERTFPIHSPKVDKITVVRKGKVRRAKLNFLKDMVGQYRIKERGTQKKDKEA;locus_tag=LOCUS_2440;gene=rplS;note=WP_003220825.1 50S ribosomal protein L19 (Bacillus) [pid:62.5%25%2C q_cov:91.7%25%2C s_cov:97.4%25%2C Eval:6.1e-35],MGA_246
sequence02	MetaGeneAnnotator	CDS	76404	77096	.	-	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYRIIGALLVVTAWVMFAVAGFVEHNINLKKKVESTVISTDVVEVKDLAAAKRVVPKVTEEPKKEEAKVEAVSMEAVPKEEPKPVTPPRVEVYEHMTLDELAAKLDRSLNSNLAGKGRLIAEHSLQVGVDPIVATAIMLHETGCNWRCSNLVVACNNVGGQKGSPVCGNGGYKGYPTLDAGIVGMIDNLARNYYSRGLNTVELIGPRYAESGTWIAKINSYIYAIRAK;locus_tag=LOCUS_2450;note=MGA_247
sequence02	MetaGeneAnnotator	CDS	77160	78725	.	-	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_226990774.1;translation=MFKTLKKSFEIDIVSAFNSFVYALTHNKLLKGIFTGNYYQKKGLKTFIRYLSLVLSFLRLVAFRIFYFGIIIYLLYLLKRTSCFKEVFLALTIVGMCLNTDTLKSGIKKYYNVILLGMDANKYSCAYIIYSFIRDILLNTLVMLTFNSILHLDIVTILLISLISVSIKVIGEYLNILYYKKYNKKVITSTFLVTTVLIIVGIILLLIVLLKVKIPFLFLFIGSIISLGLAILSFIKISKEDKLPFFFKQINSQSVIMAQESKNMTTREMAVEIRKKDYHIDPRKLKNKHGYNYFNTIFFERHKAILQRSALHFTFFIGVVIIGAIILILFSDNYAKEIGDGIIKFLPALLIIMYFINRGSIITEAMFINCDHFMLSFNFYREPKVILNLFKERLKIVTKVNLLPALVLGGGLITILILSTNPLSIMEYILLFIAVIAISVFFSVHYLVIYYLLQPYDVNLRMKSISYSIVSFLTYFVCYESTHYHFAPLNFSLMVIIAAALYIIIALILVYKRAYLTFKLR;locus_tag=LOCUS_2460;note=WP_226990774.1 hypothetical protein (Methanosarcina acetivorans) [pid:31.3%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:3.3e-67],MGA_248
sequence02	MetaGeneAnnotator	CDS	78718	79422	.	-	0	ID=MGA_249;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021134.1;translation=MKLVVENLTKDYGDNRVLDDVNFTFEEGKIYGLIGRNGAGKTTFFNCLNEDIEKTSGDIYLEKEIRFPLKSKDIGYVIATPKVPEFLTGREFLQFFLDINEDKIKDLKSIDEYLKMVRLSKEDGDKLMKDYSHGMKNKMQLLINFIDNKDVLLLDEPLTSLDVVVSEEMKTLLKKKKKEHIIIFSTHILELALSLCDEIVIINNKKLELVEKKNLNTTKYKNKIINALKDEKDV;locus_tag=LOCUS_2470;note=WP_011021134.1 ABC transporter ATP-binding protein (Methanosarcina acetivorans) [pid:55.3%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:7.2e-69],MGA_249
sequence02	MetaGeneAnnotator	CDS	79436	80809	.	-	0	ID=MGA_250;product=phosphomannomutase/phosphoglucomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011102983.1;translation=MEILKELDKSVFRGYDIRGVAGKDLDANFAYTIGKSFGSYLKKFGKDTCLVGHDNRISSDELYNALIKGLLESGTDVISLGLVTTPMYYYAAIKYNNPSGIMVTASHNPKDDNGFKMAIDESGNIKGKEIEDFYYFTTAGNFTEGEGHLREENIREDYLKLFKENLHFGDRRLKVVIDPGNGTTSIIAEELYKMFPIDLITINGESDGTFPNHHPDPCVEENLDQLKAKVKEEGADVGLAFDGDGDRLGVVSSNLNFIPTDQYMIIIIRDIINKVSKKEFLYDIKCSKALEDEIEKLGGKGICFRTGNSYTKTKVRDDDLPFGGELSGHVYFRDRWPGFDSGLYAGLRLLEILSKTDKTVDELLEGMEKYYSTEEIKFASPDDKKFNVVERIKEYAEEKNYKYLDIDGVKVLYPDAFALVRASNTGPNITARFEAKTKERLEELEKEFTDLINKYNN;locus_tag=LOCUS_2480;note=WP_011102983.1 phosphomannomutase/phosphoglucomutase (Pseudomonas syringae group genomosp. 3) [pid:40.3%25%2C q_cov:96.7%25%2C s_cov:94.6%25%2C Eval:3.6e-91],MGA_250
sequence02	MetaGeneAnnotator	CDS	80784	81326	.	-	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELKEYYKILKPANIPITKQIAFVIDKEMRDIYETEGLCTYVANNISHELNSKHILNRIVDISDVSNSKFSHKFVLVFDNIEDDYYLVDPTYEQFVFRDEELNEKLGVFPNEELVKTETGKKLSDLLLCDSFSRIDQTLFYEYVHSFDQSIEEDKLIKMENIFLNIKEDNKNGDFKRIR;locus_tag=LOCUS_2490;note=MGA_251
sequence02	MetaGeneAnnotator	CDS	81472	82224	.	-	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKVFGLIITLILGMFILIGSVISFVSNSKEKYVDFSISLAFSVIIMLILIDLLPEVADAFGIKSIYLFIIFGVVGYLVLDILDDFIPDHEDAKMTKKEQKDNLVHIGVLSSIALIIHNIIEGMAIYSAGLVNTSTALATMIGVGAHNIPLGMVITSTLYQTNRSKKKTLIIILALSFSTFLGGLIMYALNVTALSEVLIGVLLSVTVGMLIYILVNELYPRVKTKKNRQIKTYGVALGIIIMLISALF;locus_tag=LOCUS_2500;note=MGA_252
sequence02	MetaGeneAnnotator	CDS	82234	83049	.	-	0	ID=MGA_253;product=undecaprenyl-diphosphatase UppP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392108.1;translation=MHTLQIIILGIVQGIAEFLPISSSAHLIIFRDVFGIGMFMGKNLEFTFDVALHLGTLLAIIVFFFNDFIKMISEGLTKGVKTTSGKLFWAIVIATIPAAIVGLLFEDAIEDMIRSNYIIIALALIVMGIIIYYADKLSESTNSLKKLTLKEALIIGCSQVLALIPGFSRSGTTIASARVLKLNREDAAKFSFYLSAPVVLGAVILKLVKKSTWVMILNNLGIFLIGIISSFVMGLICIKFLLKYLKKHDFKVFMIYRIVLAIIVILLVLIK;locus_tag=LOCUS_2510;gene=uppP;EC_number=3.6.1.27;note=WP_011392108.1 undecaprenyl-diphosphatase UppP (Moorella thermoacetica) [pid:41.0%25%2C q_cov:92.6%25%2C s_cov:92.0%25%2C Eval:3.1e-48],MGA_253
sequence02	MetaGeneAnnotator	CDS	83051	83881	.	-	0	ID=MGA_254;product=DUF368 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000455203.1;translation=MKNIILGIKGFVFGIANIIPGVSGGTLAITLGIYEDLIKAISHFFTNFKKNIKFLLPIIIGAGLAILLMSKVIDWCLSKYPFPTTLFFIALILGGVPLIGRKVKKEKVTVSNVIVFLITFGLIMAMTFMKTDTKAVTLDTLTLGSGCLLFLVGMVAAGTMIIPGVSGSFVLMLLGYYKPIINTISHLTDNFTHSLLILIPFGLGILIGIVLIAKLIEMLLNKYKTKTYYGILGFVLASIIALIVPLFGLSPSLYEVLVALVLVFLGLTIGYKLGDK;locus_tag=LOCUS_2520;note=WP_000455203.1 DUF368 domain-containing protein (Bacillus) [pid:34.1%25%2C q_cov:97.1%25%2C s_cov:97.4%25%2C Eval:1.9e-37],MGA_254
sequence02	MetaGeneAnnotator	CDS	83890	85446	.	-	0	ID=MGA_255;product=putative manganese-dependent inorganic diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434813.1;translation=MDKVYIFGHKKPDTDSVVSSIALSYLKNKLGMNTEARVLGDINKETKYVLDYFRVAVPKYLNDVKLQLKDINYHHDFYIEEDEPLYTAYQKMVTDDLTAIPVVNKDKEFLGLITIKDLARDFLNNTNKLITSYDNLLDVLKGTEVLKVTSEIESTLVNKRVIVTDKISNISLDDIDLIVLINSNELSASELEIVKEKRINVISTLYDSYNVGRLISLSNYTNTLVENYNTIKFSEDDYVDNVLDVNKKLKHANYPIVDKHNKCLGLLKITDLNDKRRKQVVLVDHNDKMQSADGIDEAEIIEIVDHHNLGNLTTNKALNYTAMVVGSTSTIIYYLFAASKIEIPKEIAGLLLSGILSDTLVLKSTTATKADIKAVKELSRITGIDYERYGMELIAAGNSLENMSKEDILYNDFKVYNTKDHIFAVGQFFTNNYTEIKEELPEYIKVLDQVASANNYSLVTLYITDINKDGSYVLYNTKAKETIEMVYGVDDLQEGTFIKGCMSRKQHIVPLMMEYFEN;locus_tag=LOCUS_2530;EC_number=3.6.1.1;note=WP_003434813.1 putative manganese-dependent inorganic diphosphatase (Clostridioides difficile) [pid:37.1%25%2C q_cov:99.0%25%2C s_cov:98.9%25%2C Eval:3.7e-95],MGA_255
sequence02	MetaGeneAnnotator	CDS	85534	85734	.	-	0	ID=MGA_256;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003699811.1;translation=MRLNIQLFAVPARKVSKTRKRLRRSHNAIEVKGLVKCPSCGEMIKPHRVCPKCGSYKKNKVVETEE;locus_tag=LOCUS_2540;gene=rpmF;note=WP_003699811.1 50S ribosomal protein L32 (Ligilactobacillus) [pid:57.9%25%2C q_cov:86.4%25%2C s_cov:98.3%25%2C Eval:2.0e-14],MGA_256
sequence02	MetaGeneAnnotator	CDS	85739	86206	.	-	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDLTMLNSHNVDKIEIDRVVDIPKNYFENSDVKELNGIKVLGSIFRDSADEIKVDLDITGKMLLEDAISLEDVYYEFNAKVDGNLFENEENLPNSLDLYEFLWQNIVLEVPVRYTEVNDFSKYQGKDWSLRGEDEEINTNNPFKELLEEINKE;locus_tag=LOCUS_2550;note=MGA_257
sequence02	MetaGeneAnnotator	CDS	86307	87452	.	+	0	ID=MGA_258;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861133.1;translation=MKSIGIIAEYNPFTKGHLYHLEKVKEMFPDYAIIAVISGNFTERGDVSIIDKFTKTEIALKMGIDLVIELPYGYATDSADFFSYAALKILNELQVEKIVFGSESANIDDMKIIAETQVNNKDFDNLVKINMRLGTNYPTAISNTIYELTNKKITTPNDLLGISYLKEIYINKYNIEPISIKRTSDYNSTSLNNKYPSASAIREALEKGKEIKNYVPKEVYNILKKTTLHFQDDYFSILKYKIMTTDDISIYHGIDEGIENKIKKSILKANNTDELIDQVKSKRYTYNRIKRMLNHILCEYTKDKKKEIKDINYIRVLGYNDKGKVYLNKIKKDTNIKIISNFSKAKDPLMDLEFLATITYASTLDEKEKQNLIEKEFKHHP;locus_tag=LOCUS_2560;note=WP_011861133.1 nucleotidyltransferase (Clostridioides difficile) [pid:37.8%25%2C q_cov:94.5%25%2C s_cov:92.0%25%2C Eval:1.2e-60],MGA_258
sequence02	MetaGeneAnnotator	CDS	87466	89403	.	-	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFNLYNITLILVVALVGVLTFKTMEVKAAGTVNWPDGSTATISRTIQNVYNAPVVDFTYSISTEDTSLIRLATFNTGTTVNGIMKTLANGSTKTYSSPDTAIKSIKKAGSLPSGFVPTAANTVSVANSEFPIYIFFDSTDGTMYYYSEADKIYLNSSSANMFRNMQGLMDISGLSLVDASKTTNTSWMFAYCSQLSSVDATSAWDLSNVTTMSAMFIYCSSLTSINSLSDWNTSKVTNMGGMFDSCSSLSNINSISNWDTSRVTNVNNMFNGCTNASGTIQILANPTNYSGAFTNAATQSGTQISVNYGSGTSNIDNIIATKSAGSNVIKGSQVSSPSQSPTFGSGIVFYTQDISFAGTETVSNSYTVNKSTTINFANMGLSFKKPGNYELTVKETATSNSAYPVDNDNEYTVIVQVTNVTDQNGTPTGNFNAKFVIKDDNDTKVSNMPFNEPKDETKFGHIELTKTVKGIMADRTKDFSFSVQVDDAASSACQSYSGSEKYLIKGTGVPEDGSEVTKCKSGTKDSITLNHGETATIGQFTYNNNTYDSISIDDYYKIIEGTESDYTTTFKINSGSESSGNDTGSNSITHNGNVVNFYNQREGSPVTGLFLTILPYLILVGIGVGGVLLFQNREKLKVKHQK;locus_tag=LOCUS_2570;note=WP_011183344.1 BspA family leucine-rich repeat surface protein (Mesoplasma florum) [pid:26.1%25%2C q_cov:45.6%25%2C s_cov:32.0%25%2C Eval:1.7e-12%2C partial hit],MGA_259
sequence02	MetaGeneAnnotator	CDS	89485	90723	.	-	0	ID=MGA_260;product=sporulation sensor histidine kinase KinB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003228853.1;translation=MQLFETIILTSIYILFPIMAYLLYIVYTKNLDINERKELLELALLSSIFLLVKLHNKDLWIYQLLLINVPLLVAYLKKRKDLSIIISIIVIVLSYIDFNINIVLLIIEYIIYYVLFIKTTSFNKFISRFLIIKAFIISLEIFIYIMPHASFMYNVFLIFMEMIILSVTTYIITELIKKVEETVSLNITLRELEKEKALRESLFKMTHEIKNPIAVCKGYIDMMKKDNIKEENREKYLNIIDEEISRTLILMDDFLDYTKIKINKEEMDINVLIEEVITNSNTLLKKNNVKVETDIKSEEIIVNADYNRLKQVLVNILKNSLEAKKVKDKMLINIKVINSTKEVKIIIKDNGIGMDKKTLNKINKMFFTTKSKGTGLGVPLSKEIIELHSGTIKYRSIPNKGTTVSITLPKNM;locus_tag=LOCUS_2580;gene=kinB;EC_number=2.7.13.3;note=WP_003228853.1 sporulation sensor histidine kinase KinB (Bacillus) [pid:24.9%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:1.4e-35],MGA_260
sequence02	MetaGeneAnnotator	CDS	90800	91114	.	-	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYIQYIIIGVVLLIILLAVLKANKKDASLDLNRLVELLGGKENIIDTKSNLSRFIVTLNDVSKANKEGIHNLGAKGVVEIDNQLKIILGPESKQLKKYIDDLK;locus_tag=LOCUS_2590;note=WP_011948935.1 glucose-specific PTS transporter subunit IIBC (Clostridium botulinum) [pid:41.4%25%2C q_cov:67.3%25%2C s_cov:10.4%25%2C Eval:8.0e-11%2C partial hit],MGA_261
sequence02	MetaGeneAnnotator	CDS	91127	92446	.	-	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLIRNKYNLLILALVLIFLGVSSNLILNISRAASKPVADNKALYNMLISDLSNNIEEVDDDSIITSKKPNNYVWYSGKLWRAVSINNKENTVKMVTDKGINTLSGNDDIDYFLNDTSNNGFLGSLKSYKDYIKQDSIWTKYNDGRILGDIRKSKSYETITNPVGLLTTYDYQLSYNGTTESIGDGYLNNNTNWVTYTYDNDSNMIVNKEGKVETSSKELTHLIRPAINILSSVEIKGGDGSESNPYYLEDYVEDNALLNTRSIGEYVHFNDELYRIVTIDEEKTKLVSMKTLNNKKFSSKESKFDLNDKKNIAYYLNHDWYEKLSDNSKDLLVEGKFYNSKCTYEDSYKDIIKGEYVNAKIGLLRYGEMFTTNEKNDYFLITPYDKEYNRVIYSDSLSGAIRSNTKLAFKIALYIRSDAYIKDGIGTKDSPFIITIK;locus_tag=LOCUS_2600;note=MGA_262
sequence02	MetaGeneAnnotator	CDS	92580	92969	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNNDCCLGKLLKVIDTLQKNANNECPIDEGCSRPYLGTFTSSLCYNTRPVTLYLKNGDLFSAPYNSTGTTSSVFRVERVKDCCAKLRVLEPVVNEGVTTYNATNFFVDVNLQCICAIKCLADIILENI;locus_tag=LOCUS_2610;note=MGA_263
sequence02	MetaGeneAnnotator	CDS	92985	93386	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCEEQNNTCCLENTLAKIIKLQCIDSICDVEGGCDKPFLGPTPSMVCYNTRPISLYNCCTGALWSFPYTSGETTANSTVFRAESLDGCCLTCRILIDNGNDTYTDTSEFFTINLKCCGALQCHSDAFVEFNNN;locus_tag=LOCUS_2620;note=MGA_264
sequence02	MetaGeneAnnotator	CDS	93406	93687	.	-	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLSPIYKNIITKKIGHNKEIERISKDHISLNKYDVLKEIFNGNGFAFNKDVLITTKDRIYDTSLISKNNNYVLTIDNDKINIGDIIDITIK;locus_tag=LOCUS_2630;note=MGA_265
sequence02	MetaGeneAnnotator	CDS	93772	94896	.	+	0	ID=MGA_266;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723329.1;translation=MLRQKISFKIIIPVILFAIISIVTIYSASTYISAGMGNLALKQAIWYLAGIVVVIFIVKMGNNYLYDKAFLFYIFGIVSLLGLLLFATPINSSKCWYIVPGLGSIQPSEFMKIFLMLYLGVFIHDFRDKYTNPSIKEELIFIIKSFVIFLIPAVLTFMQPDTGSVIIYLVIYLCMMFLSGIRARWFIIAFGIIGAILGTVLGIYFFNGDMFIKVFGTDLFYRLDRIFAWTSGSGLQLENALASIGSGGLVGHGFNHTPLYFPESGTDFIFAVFASNFGFIGCLLLVGLILYFDINLILLFKKKIQDTEKFVLAGIVGMLLFQQIQNIGMTIGLLPITGITLPFISYGGSSLLSYMILIGILINISNEKDHKYKY;locus_tag=LOCUS_2640;gene=rodA;note=WP_003723329.1 rod shape-determining protein RodA (Listeria monocytogenes) [pid:32.0%25%2C q_cov:97.1%25%2C s_cov:93.9%25%2C Eval:1.1e-55],MGA_266
sequence02	MetaGeneAnnotator	CDS	94908	95648	.	-	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKSLLLIIVGLILIFGGGLLLYGKNISFTKDKLPAKEKDHQEIELNEFIHTYDKLIVPKIEVYNNVLGQNYPIKNLDEINDMQKTLVLLTSINKDGSKKEVSTDELDETKYKYFLSVNYYKKPIKSNNLTVYKVKDDKYLYNGQDNNLNIFPLQTEFKELYTDYIVVAQKLLFLKLTVIEEPKIIKNEVYKDPKAKEKVYEFEGEPNFTDEEQKQLSDKLDTYLYRFEKYGDEYLLTSVIKSDE;locus_tag=LOCUS_2650;note=MGA_267
sequence02	MetaGeneAnnotator	CDS	95661	97562	.	-	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKKGFTMVELLTTLAIVAVLTTLAIMGVSGVRKSLEKSYYRRIDKLVVAAGMDYYNDHKGERPIRVGQSNKVALADLQSEDYIEQVKDYAKEVCDPNASEPYDEKSYVVITKTGEKKYDYKTYLNCPNYKNKVIESTADPNMGKIINCDNILQATPANIWTNQDVILKAKKPTKIESFDILKQTAAGWVKFDSDNHEEKTITISEPGISKYRIIGRGANGVTCQSRVVEVKIDKTPPTCGEAKNASDVWTKKARTINQVCNDTGGSNCARGSYNNTYLETTKRASVTIADKAGNEKVCSYNVYIDITPPTCGKATGASTTWTNSSRTIKLACADNESGCEKSPYQRTFSSGTTAKYTETIKDKVGNTQSCIYDAYFDKTAPTGLKVGLYKWKNASTKPANASGLSAYPNNTWFSGKVYTNASGATDSGAGGVYYQYTTTGKTSNDTNIKASARNIEAQGVSYIKYRACDKLGNCSSYSSNYTIKLDRTNPTGSFTSGQIAAGGTAKLTCSDALSGIKSGNTSKKMSGTSVTISSTCTDNAGNSKAFSKTYKRKSVFSHYTGCTKYYDCSYTTKSCSGWAVPNNGRIACSSANGLTIERSGNKYRCCRSTRVKKTCSYWVSKCKANYKYVYS;locus_tag=LOCUS_2660;note=MGA_268
sequence02	MetaGeneAnnotator	CDS	97572	98330	.	-	0	ID=MGA_269;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966274.1;translation=MKALVTGASSGIGREIAKCLSNRGYELILVARNKEKLETLQKELKTKSKIIIMDLSSEQKAKELYVQTRREDIDILVNNAGFGLCGNFVELELSRELEMIETNVKALHILTKAFLRDFVKKDKGYILNVASSAGFLPGGPLMATYYATKSYVLSLTNSIWYELKKNKSNVHISVLTPGPVDTNFNKVANVKFGVKAMKADVVAKYAVEEMFKHKREIIPGGRIKLTKFFKRLLSDKALLKTTYKIQRKKITK;locus_tag=LOCUS_2670;note=WP_010966274.1 SDR family oxidoreductase (Clostridium) [pid:42.0%25%2C q_cov:98.4%25%2C s_cov:94.3%25%2C Eval:1.5e-41],MGA_269
sequence02	MetaGeneAnnotator	CDS	98345	99247	.	-	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDQIKTEENNPKKGNIIKLLKLIGIVVGAIVVIVLLVLLFNMIGKNSSSKPKEDKNSPASNVEETLSIESPRIVTTYNYVTYGRDNANNKDYFLTNRKVTLDNFDNAEKIFYATQFLNTDNFLDTGKTQDGKKIYAVSIDEFEQALKKFFGKVIPYHREGSYRIILPFSKDGGNMVNLVYDENLKSYKSTFDTAEANKNKIKTAYTKLTKAKKKGNTLVLTERVVYTSQQPSGSNVIINVYSDYAKTRLIESKTVAANSINDSTINIDDYMDKDKANTIEYRFHIDNKNYYFESSTIKN;locus_tag=LOCUS_2680;note=MGA_270
sequence02	MetaGeneAnnotator	CDS	99350	100624	.	-	0	ID=MGA_271;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861628.1;translation=MKEIKLTGLDTSIFYEKLKNGLEVFLCPIKNKSSYTTMYVTKYGSDRIEFVPNGKKKKVRVPNGIAHFLEHKLFETEEGIDPFTFYAEQGSDANAFTNYDVTAYYFTGTTNYEENLAFLLKYVNTPYFTDENVAKEKGIIKEEINMGLDNPDRVLADTLRKNTYKNLPRKNNVIGSVKDIEKITKEDLYRCYSAFYQPSNMFIIATGNIDVKKAMEIIHHNFDGITSYPVPKKIDYKEDLTVAKAKDEIKMNVQIPKVGMAFKTKTEDYPIKNEVELDYYLYMIIAVVLGRSSDYYEEIVENNIALSFGTFSETVDGFKTLYVYATTKEPDKFIKTFEKYTKNIEISTDDFNRYKKIWIANLVRSYENVDNAADSIFMDIVRYNKIIDNKLKIIKGLNKKDLDRVIKKLNLSNKVVLKMVNKDY;locus_tag=LOCUS_2690;note=WP_011861628.1 pitrilysin family protein (Clostridioides difficile) [pid:34.3%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:1.9e-62],MGA_271
sequence02	MetaGeneAnnotator	CDS	100621	101886	.	-	0	ID=MGA_272;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886510.1;translation=MEYKKIDKGSYNIHLIKTDNFKEVVVKIYLKKPIKREDITMRNILTDVLTYSTKTYNTNKLLNIREQELYASNITVNNYRFGNYLTTVFSIDILNDKYTEKGNAKEAIELLSEVMYNPDVESRRFNPKVVNIIKKDNKEYLERLKENTSLFSAIRLSEEMDKKRPSSLRMCGYLEDLKDINVTNLYKHYKDMIDNSMMDVYVVGDINFLEMEKIITTNFSSKVLKKKRIGFYLEEKKALRKPLIITEKDDHNQSKLTIGCRIKKLTKFEEQYVLPVYNLILGGSTGDSKLFKIIREKYSYAYYIYSSSYKLDHTLLIRAGISKENLKNVIRLVDDIMIEIKRGHLTEKDIKKSKAILLSNMNTVEENPYNVINMYYSIDTLGEDDIKTAKKMIKKVTKRDIIALAKKIKMDTIYCLEGDVS;locus_tag=LOCUS_2700;note=WP_010886510.1 pitrilysin family protein (Bacillus) [pid:27.4%25%2C q_cov:98.3%25%2C s_cov:97.2%25%2C Eval:8.7e-44],MGA_272
sequence02	MetaGeneAnnotator	CDS	101933	102640	.	-	0	ID=MGA_273;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000110707.1;translation=MTAHIESKKGDIAKTVIMPGDPLRAKYIADNFLTDVKEVNDVRGMLAFTGKYKEKEVTVFASGMGMPSMGIYAYELYKFYDVEKIIRVGTAGANKKEVNVLDIVIADSAFTLSAYPKLFFDDSEKEYYATKELTNKLEEITKEKNLSYQRGRIITSDVFDVYLDKEKYFANYPADLDTLASEMETAALFAIAKHLNKEAASILTIVDSSFSNIEISSGDRETKLNDMILLALDSI;locus_tag=LOCUS_2710;gene=deoD;EC_number=2.4.2.1;note=WP_000110707.1 purine-nucleoside phosphorylase (Bacillus) [pid:44.7%25%2C q_cov:99.6%25%2C s_cov:98.3%25%2C Eval:2.3e-46],MGA_273
sequence02	MetaGeneAnnotator	CDS	102677	104863	.	-	0	ID=MGA_274;product=DNA translocase FtsK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010990110.1;translation=MAKKKNRKHVKRFEHSEELYGVLFVLIAILGIGKYGPVGRMLASFALFLVGSLYMVLLVVLCILGLYLIIKRKWPDFLQSRLIGIYLIVIGLLIMMHKDFVLENDSNMAAIFKETINELVASFNSIMNNGSVENLFDVGGGIIGGSLAILFDKLFSFTGMQIISWVLVGLGLALFTGFSIMETLKETFAEYREKRAENKGLKERKRRDVKISAGDEDEKMVISSIDELKKVPLEEKDAPKEEGSMANYVLPSMDLLNKPKAVKKEANEAIIEKNIETLEKVLNDFKISGKVVEVHVGPSVVQYELDIASGTRVNRILAINREISLALAKKDVRIEAPIPGKNTVGVEFANDKPIPVSFYEIINSKKMQNAFDKKLMVPLGKSIMGEIGVCEINKMPHLLIAGTTGSGKSVCVNGIICSILMRAKPDEVKLVMVDPKVVELSVYNGIPHLMCPVVTDPKKAAVALAKMVAEMERRYEEFNETKTKNIEGYNNYINKYNAKHKDEPKKKMPYVVIIIDELSDLMMVAAKEVEDSILRITQKARAAGMHLIVATQRPSTDVITGLIKANIPSRISFSVGSGVDSRTILDQTGAEKLLGKGDMLYLPIGMNTPTRIQGSFITDEEIKRIIDHTINQQKASYDEELLKLDASPKATSSKAEQGSDDDPLYDEVVEFVIENGKASASLLQRKFKLGYNRAARIIDLLEERGIVGPANGSKPRKVLIKLEGDEEE;locus_tag=LOCUS_2720;note=WP_010990110.1 DNA translocase FtsK (Listeria monocytogenes) [pid:43.1%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:1.7e-165],MGA_274
sequence02	MetaGeneAnnotator	CDS	104971	106098	.	-	0	ID=MGA_275;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232167.1;translation=MLGGLEMDQLAKIKVIGVGGGGNNAVNRMVESGVKGVEFMVANTDLQVLNNSKADTKIQIGASLTDGLGAGGMPEIGKESAIESKKEIEDALAGADMVFITCGMGGGTGTGAAPVIAEISQALGALTVAIVTKPFSFEGKRRMENALKGLSELRKHVDTLIVIPNDRLREIVDKSTPMLEAFKEVDNVLRRGVQSISDLIAVVGLVNLDFADVKAVMEKSGKAIIGIGIGMGEDRAIEAAKQAVASPLLDTSISGATDAIINITGGVNLTLFEAEQAAEVVRAAADNDINTIFGSVINENLSDEVIVTVIATGFDKKSKKEKEEPETLFQSNIESKRKQKSKEPELAYVATTNADDDDDNGDEFELPPFLQNRNF;locus_tag=LOCUS_2730;gene=ftsZ;note=WP_003232167.1 cell division protein FtsZ (Bacillus) [pid:54.3%25%2C q_cov:98.1%25%2C s_cov:97.4%25%2C Eval:6.2e-107],MGA_275
sequence02	MetaGeneAnnotator	CDS	106110	107333	.	-	0	ID=MGA_276;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001087558.1;translation=MSNIYTAIDIGSDTVKLVTVKKHNGKFYPLASDSIKSHGVKKGLIVNAAKVVEAIKEVKKRQEAKLNTEINKVIACVYEDETKFDMAEGEIEFEEEKVITGSDISEVIKEAASKKILNKEELVTVTPVFFRINDLEKIKNPKGKRGTKLEVKVVLTTSPKTSLYQMLGVIDLAGLEVVDMAYKTIGDYYTVHNKDIDQEVGAIINIGEDITTISIFTKGIMINTSSIPLGGHHVNNDLAYVYKIDRTTANRLKEEFATASENYSDDMDKVEIVDNSNEKQEVSQLDISKVVEARIVEILKVAKKEIKNLTKREIRYIIITGGMTELSGFSYVVDDVFRHKATVFNMTTLGARENKYSAALGLIKYYDEKLALRDQEETLIDDNFVKTNINEDKNAGVINKMFGHFFD;locus_tag=LOCUS_2740;gene=ftsA;note=WP_001087558.1 cell division protein FtsA (Bacillus cereus) [pid:28.8%25%2C q_cov:91.4%25%2C s_cov:86.2%25%2C Eval:6.3e-44],MGA_276
sequence02	MetaGeneAnnotator	CDS	107406	108086	.	-	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKIVKKKKLKLLPFFIMLVILALIFLGVELYLNTPIKNITILKTNYLTDEYIMKEAGIEDYPSFWHTSSWSVRKKLKKSPYIKDVKVQKGFYHTMTITVTEHEPLFFDSLKNKYVLDNGHAIESDADLLVPRLTNEVPPKTYKKLVTKMKTIKPTILVKVSEISYTPNQYDKDRFLLFMDDDNSVYLTLTKFKKMNYYNDVLAQLEGKKGILYLDSGNHFKIMK;locus_tag=LOCUS_2750;note=MGA_277
sequence02	MetaGeneAnnotator	CDS	108089	108994	.	-	0	ID=MGA_278;product=UDP-N-acetylmuramate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000437020.1;translation=MDEFLNKVISSNIGKVEKNVFLSKYTTYKVGGIAKAIVYPKNEEKLVELINLIKYYKVKYKILGNGSNLLFSSKKYDGVLIKLTEFNKIEWNGNKVTVGAGVSLPRLSHLAAKRSLTGLEFASGIPGTIGGAVFMNAGAYKSDMGYIVTNVKVLTPELKIIVMTNREMNFHYRTSFLKKHPKYVCLEATIKLARGKREAIEEVINERRKRRIASQPLEYASAGSVFRNPEGMFAGELIEKSGLKGLKKGGAMISDKHANFIVNMGNASSDDIKYLIDFAKETVKKNYHVELKVEQEFVNWE;locus_tag=LOCUS_2760;gene=murB;EC_number=1.3.1.98;note=WP_000437020.1 UDP-N-acetylmuramate dehydrogenase (Bacillus cereus) [pid:40.8%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:7.0e-60],MGA_278
sequence02	MetaGeneAnnotator	CDS	108996	110087	.	-	0	ID=MGA_279;product=undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110342.1;translation=MKVIISAGGTGGHIYPAVAIINKLKEKDKNLQLLYIGTTDRMEKDIIPKMGIDYQGIAMQGINRKNIFKNIKVLLTYQQALKKARQVIKDFDPDVVIGVGGYITAPVISAATKLGYKTIIHEQNAVLGMTNKMLLKKVDKLCVSLKETLDYIEDDLKDKVVYTGNPRSEEIIKIKSISRTKYGFSKDKKLVVIVMGSLGSTTMTTKLKELIPEFDKEAYQVLLITGNNYYDEYKNIKHGKNVLIIPYSDELISIMKDTDLIISRAGASTIAEITSIGLPAILVPSPYVTNNHQLKNAKELEKNNACRIIEEDDFNKENVLTTISEILGDEKLYQKMKKGSLSLGVKDSASKIYDEIVKLKEGK;locus_tag=LOCUS_2770;gene=murG;EC_number=2.4.1.227;note=WP_011110342.1 undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase (Bacillus cereus) [pid:39.8%25%2C q_cov:98.9%25%2C s_cov:99.2%25%2C Eval:1.5e-78],MGA_279
sequence02	MetaGeneAnnotator	CDS	110198	110755	.	-	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYLLKYYLKRGIVIAFILLFAIVATRFIYDKFSKENDQVTPVENLEVTFHEKEKDKISITKVNPLTDALGLSSKGYTISIKNNSKMNLKYTVKILDDKEEYDLDGCSDTKLPIESIKLGYHKDKEHNNIVLLNELENGVLATDIIEPGKTADYTIRLWIDKDTNLNLDKDGHYHGLIKVEESE;locus_tag=LOCUS_2780;note=MGA_280
sequence02	MetaGeneAnnotator	CDS	110769	111056	.	-	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDQLISEDTILALERQIDLCKENIADLTKAFTKQADNLNELIKNMKSVYATEASAEYIKDLLSSEIDTRSLNNEVLSSQNIKYAHSKKELPDTL;locus_tag=LOCUS_2790;note=MGA_281
sequence02	MetaGeneAnnotator	CDS	111068	111505	.	-	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESTVSVKGISEVSKVLRTEINNLTNTYTNLVDEINLLAHTINALKECDGTKAPTSAFGNALASTVMDQSFWDVKIDGYDRVVEYLNSPLHFKILENLDKFNLEPQQLDSVSEEIAKSVKKVEDVLSDNSNLVNINNNFEKIDVI;locus_tag=LOCUS_2800;note=MGA_282
sequence02	Aragorn:1.2.38	tRNA	111637	111713	.	-	.	ID=Aragorn_22;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0220;note=Aragorn_22
sequence02	MetaGeneAnnotator	CDS	111768	112712	.	-	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKKALRKIFITTLTAFVLMTIYFLPTNKEEELPVGLEIEYLSGLGTNSVYLMDSNEYLVKNRIILDEESDEKNIRKIINILKDDSQTLKPTGLRGTIPKNTKIKSINVKDGRAILNFSKELFNITPHLSKKLIESLVFSITDIADIKEVQILVEDQVLKTYPNTNIPLPEVLTREIGINKRIDIHKREDTQKVVLYYLEEIDSNNYYVPVTKYLNTKDQKIKVIIDELASSYIYEPNLMSFLNNNTHLKGYDEDDTSITLDFDSGIFDRKKEILEEVIYSISYSVFETLEKEKVVFKVNGQKIKEITRKDLP;locus_tag=LOCUS_2810;note=WP_003229578.1 spore germination protein GerM (Bacillus) [pid:29.0%25%2C q_cov:80.6%25%2C s_cov:71.0%25%2C Eval:4.3e-23%2C partial hit],MGA_283
sequence02	MetaGeneAnnotator	CDS	112760	112966	.	-	0	ID=MGA_284;product=spore germination transcription factor GerE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003184172.1;translation=MVKRILTNREREVFELLVDNMTTKEIATELNISEKTVRNHISNAMQKLGVSGRASAVVELLKLNEISL;locus_tag=LOCUS_2820;gene=gerE;note=WP_003184172.1 spore germination transcription factor GerE (Bacillaceae) [pid:75.8%25%2C q_cov:97.1%25%2C s_cov:89.2%25%2C Eval:1.4e-20],MGA_284
sequence02	MetaGeneAnnotator	CDS	113026	113535	.	-	0	ID=MGA_285;product=SpoIIIAH-like family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000914716.1;translation=MINKQNLWFLTLFSLILVLSVYYITMPNDLVLKNTKEVVEKSKLKKAKVKKTNELEAMRVSLEEEREELTTTLKEQLTNKDLTADEKNNAYEQLKYLNGLKGKEEKLENKIKDNLKIDSFVKIDNSNISVVAISDKYDKVLANDIMRTIQEEYQERVFTTVKFQNGHKN;locus_tag=LOCUS_2830;note=WP_000914716.1 SpoIIIAH-like family protein (Bacillus) [pid:23.6%25%2C q_cov:89.9%25%2C s_cov:93.3%25%2C Eval:6.4e-08],MGA_285
sequence02	MetaGeneAnnotator	CDS	113633	114262	.	-	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSTERVIFIIVVCVLGLLVLAMGAYIVFDAVADYQPKEKETTYKKETVPPSNDEKKQEKVVAKNSKFDYDGMQAKIEDYMDNVKSTHPYLSTCKLADASSSNAFDKTHKILSKDSITKVFNKLKAASKVEEIKYEVTCPGYSFSISDNIYSSTNQGDLLNIVYVPNKDNKKSLLVAIDVENYASSYTTKYLYSYDNESELDHFLEDLR;locus_tag=LOCUS_2840;note=MGA_286
sequence02	MetaGeneAnnotator	CDS	114312	114869	.	-	0	ID=MGA_287;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000626507.1;translation=MININDIKNGMTIMIDNEIYQIVEFLHVKPGKGPAFMKIKLRNLRSGGILDKTFNTNVKFARANISKQNVQYLYNTGDIYYFMNMDTYEQLELSKDQIGDATNYLIENMNVQVILYEGELLGIDLPDKVELTVTATEPAVKGNTANNAMKDATVETGLVVKVPLFIEEGEKILISTANGKYSSRA;locus_tag=LOCUS_2850;gene=efp;note=WP_000626507.1 elongation factor P (Bacillus) [pid:52.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-54],MGA_287
sequence02	MetaGeneAnnotator	CDS	114882	115046	.	-	0	ID=MGA_288;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583730.1;translation=MAKVGNRQYKTLVCSECKEENYRVDKNVKNTTDRLEISKYCPKCRKHTTHKEKK;locus_tag=LOCUS_2860;gene=rpmG;note=WP_012583730.1 50S ribosomal protein L33 (Dictyoglomus turgidum) [pid:64.3%25%2C q_cov:77.8%25%2C s_cov:85.7%25%2C Eval:3.2e-12],MGA_288
sequence02	MetaGeneAnnotator	CDS	115110	117116	.	-	0	ID=MGA_289;product=penicillin-binding protein 2A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398702.1;translation=MLGITIFVFLVIITRLFQVMIVDKKEYEKKLTKLSYDDVEGPSSPRGRIYDRNYNILVDNVAVKTIYYKKQKTNTTKKEIELAYLVAPHIELDISKLTIDMKKDFYLKKYPTKAKKLITQNEWTALEERKITSSDILKRQKERITDNILNSFTNDDNKATYIYYLMNKGYAYDDKIIKTNVTEEEYAYFTENSNNLSGFNTRLDWERTYPYGDTLKTILGNVSSATQGLPAEEKAYYLANGYSLSDRVGTSYIEKQYENYLHGTKEKYEVVNSKTLSLISEGKRGNDIVLNIDIKLQQEVDRILSQQVISTKGEQNTAYYDHSFVILQDPKDGGILAISGKQAVLENGHWVAKDYTPAILTSPVTPGSVVKGASMLVGYNNGGVEIGEYMRDECVKISGAPEKCSSVDNLGTIDDITALAKSSNVYQFKIAMRLSGVEYYHGVYVPFRQDVFDKYRKMYNSFGLGVKTEIDLPVESIGVSGKGKDKSSGNLLDYVMGQYETYTPMQLSQYITTFAGDSKERIKPQMLREVHEATNTEALGKIIYKSKREVLNKVDTKDEYFNRVKEGFHAVTMRGDGYGRGYVAYDHDSAGKTGTSQSFIDTDDDGRIDTETITSSFLGYVPSVNPRFTITVVSPNSSYPNSKSDYASLVTMRISKEITAKYFDMYGY;locus_tag=LOCUS_2870;gene=pbpA;EC_number=3.4.16.4;note=WP_004398702.1 penicillin-binding protein 2A (Bacillus) [pid:37.7%25%2C q_cov:98.5%25%2C s_cov:91.6%25%2C Eval:1.5e-123],MGA_289
sequence02	MetaGeneAnnotator	CDS	117272	117523	.	+	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNELIKKYINLLTIDHIKKYALANNIKITADEAAVIYSFIKNNYQDLLTGNINNLLPLKEKINSNTYNNLVILYKEACIKYL;locus_tag=LOCUS_2880;note=MGA_290
sequence02	MetaGeneAnnotator	CDS	117518	118519	.	-	0	ID=MGA_291;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287604.1;translation=MKILLYTEGEKLLHNSGLGKAIEHQKKALKENGIPYTTDKNDDFDIVHINFYGPKSYFFAKKAHKMGKKVVYHAHSTEEDFRDGFFFSKATSKLFKKWIIKCYNLGDVIITPTPYSKRLLEGYGIKKPIYALSNGIELDLFKKDKKARSKFLKKYNFSKEDKIVIAIGLYIERKGIIDFVELAKRLPEYKFVWFGSSPLYLTTSKVRKAVNTKLPNLTFTGYVPQKEIKEALNSCDLYVFPTYEETEGIPIIEACACETKALIRDIPVFDDWLIDGKNVYKAKDINEFEKKIKKILNNELPDLTKESYKVASERDIKKVGKKLVEIYKKVLKS;locus_tag=LOCUS_2890;note=WP_002287604.1 glycosyltransferase family 4 protein (Enterococcus) [pid:49.7%25%2C q_cov:99.4%25%2C s_cov:92.5%25%2C Eval:1.0e-94],MGA_291
sequence02	MetaGeneAnnotator	CDS	118567	119937	.	-	0	ID=MGA_292;product=aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861085.1;translation=MELMNKKECGYKDISKDKLKKIYLFCDKYIDFLNASKTEREAADFIVNKLEEYNFVNIEEIEELSVGDHVYYLNRNKCVYAMIIGDNILDGLSIVGSHIDSPRLDLKPNPLYESNKLALFKTHYYGGIKKYQWTTIPLALHGVVVKADGTKIGINIGEDDKDPIFTITDLLPHLAKEQEKKELEKAIEGENLNVLVGSIPNSDDKIKENIMKLINEKYDITERDFNSAELELVPAFKARSLGFDQSMIAAYGQDDRSCSYANLLALINAKETASTKVAIFADKEEIGSVGNTGMYSESFDLFINEVLNKMGLNEIGLLSQIYNKSMMLSADVGVGIDPNYAEASEKNNASYIGYGLDVNKYTGARGKSGASDANAEFVAKIRSIFEENDIKYQLSELGKVDLGGGGTIAYILANKGVEVIDCGVPLISMHSPYEVTSKFDIYEAYRAYLAFFESAE;locus_tag=LOCUS_2900;EC_number=3.4.11.-;note=WP_011861085.1 aminopeptidase (Clostridioides difficile) [pid:51.7%25%2C q_cov:95.8%25%2C s_cov:95.7%25%2C Eval:1.0e-130],MGA_292
sequence02	Aragorn:1.2.38	tRNA	120045	120120	.	+	.	ID=Aragorn_23;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0230;note=Aragorn_23
sequence02	MetaGeneAnnotator	CDS	120153	121142	.	-	0	ID=MGA_293;product=acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963395.1;translation=MQKREYTFDILRVISMALVVVIHVSNVYSRSFGIISNKQFLGSLFFNTTARVSVPIFFMISGALLLDRKFDKKKYIKRIIKFLILIVVWDIIYLLWEYYFLGITYDKLYMLLIQPYRAHLWFLYTILLLYLVQPILKKVLDKTDKKIKIVLLIIWITLSTISIVNNTIAQVFTIFSHMGYFIIGKYLYDYAKKKYNREYNPLLVSSTIAAITISVTLNYIYSIKYHMFYNLFFAYRTPFIMVASMALYTLVIANYKKEHLSKFITILSSMSLGVYLIHGIFLDITIKYFSYQEINSLLGITGFSLIILICSLMSVYLIKKTKVLSFLVE;locus_tag=LOCUS_2910;note=WP_011963395.1 acyltransferase family protein (Flavobacterium psychrophilum) [pid:26.5%25%2C q_cov:97.6%25%2C s_cov:95.6%25%2C Eval:6.4e-25],MGA_293
sequence02	MetaGeneAnnotator	CDS	121162	121545	.	-	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNVWIIIIIAFIVLLSTVVIVLFNANENSIPSGYIAVFKGESTDVVHTTYLYQGKKNKKKYSYINTITKLDHNDSSMWNEEVLEQKKLKKKKDVFKVAKENGAYSYVKYEKDGNLYTIEEFKKVF;locus_tag=LOCUS_2920;note=MGA_294
sequence02	MetaGeneAnnotator	CDS	121600	122811	.	-	0	ID=MGA_295;product=D-alanine--D-alanine ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404923.1;translation=MRIKVGVIFGGESVEHEVSIISAIQAMNKINQEKYEIIPIYIDKKREWYTGHMLMDIDTFSDMSLLKKYATNVVLYYKDGKYVLQNKKGFKRIVTDIDIALPIVHGTNVEDGVLQGYLTSIGIPFTGSNVYASVVGQDKVYMKNIFEHEKLPITKYVWFYDNEYKDNEEEVLKKIKKLSYPVIVKPATTGSSVGIAVCKDDKELIDGLDEAINYDNKIIVEELVENLKECNIAILGNYESQTVSAIEEVLSSNKFLTYEDKYIGSSKVKGKLGAKVPAKGSKGMASAAREIPAKIPKDMQEEIETMALKAFKALGSSGVCRFDFLIDSKTKKVYINEINSIPGSLSFYLFEPINIDYTELLNNLINIGVKDYKKRISKTHSFDSNILAGYQARRGVKGTKKLK;locus_tag=LOCUS_2930;note=WP_011404923.1 D-alanine--D-alanine ligase family protein (Salinibacter ruber) [pid:34.5%25%2C q_cov:95.8%25%2C s_cov:92.2%25%2C Eval:1.5e-66],MGA_295
sequence02	MetaGeneAnnotator	CDS	122823	124445	.	-	0	ID=MGA_296;product=UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405061.1;translation=MTRLFYLAFIFLFLIAVIKKTTRALHMLQQNLYNENNRYLKWVFKNIKEFFNIELVALITSLYAYYTFAGDHVYTNIMVFILMIIYILSFITIMNIERKNQNKKPLVYTARVKRLLVTISILYLIPILIMFLDFDNPKTVWLVIVILTFMSYFNYFVVYLAKLINTPIEKQVFYHFRRKAKSKLASMTHLKVIGITGSYGKTSSKRILADILNIKYNAYPSPRNLNTPNGLMMTINNTLDKFTDIFIAEMGAYKKGEIKELCDLVEPKYGILTRIGTAHLESFGSEENIRDGKFELIESLPEDGFAILNKDDPKQVEYELKNKVKVIWIGIEENADYQATNIKCNHEGTTFDLKIKGDKKKYQFTTKLLGYHNVYNILAGIACGREFGIPMDKLIQAVRTVKPIEHRLEIKKLGGFYQIDDAYNSNPIGAKSAMTVLGMFDGIKVVVTPGMIELGDKEDYYNKELGKQIATLSDANYVVLIGEKKTKPIYEGLIEEGYPKDNIITYNNVKDAYKFIGTLTGGKEKVYALFENDLPDTYNE;locus_tag=LOCUS_2940;note=WP_011405061.1 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Salinibacter ruber) [pid:38.0%25%2C q_cov:85.4%25%2C s_cov:85.1%25%2C Eval:5.7e-78],MGA_296
sequence02	MetaGeneAnnotator	CDS	124447	125175	.	-	0	ID=MGA_297;product=lipase EstV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001129409.1;translation=MRINIKETDINYIQYGEGSDVILLHGWGQNIEMMKPIGDPLSQNHRVTIIDFPGFGESSEPKTAWTVDDYSDMLEELIKKLKIDKPTVIGHSFGGRVAIRYCADHVIEKLVLFGSPCFKEVKELSLKTKTLKKLKTLPGLNGIGEYMKKYIGSRDYKAASPMMREILVNTVNEDLSPYARRIEEPTLLIWGENDTEAPLKYAKDLEKIMIDAALIVLPGTHYAYLENLNQVISILNNFLGGK;locus_tag=LOCUS_2950;gene=estV;note=WP_001129409.1 lipase EstV (Helicobacter pylori) [pid:28.3%25%2C q_cov:95.0%25%2C s_cov:92.5%25%2C Eval:1.5e-19],MGA_297
sequence02	MetaGeneAnnotator	CDS	125231	126634	.	-	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNQKVIDYFWNDYNEKEAQEKFGSEEITGRHLLGVKFSDDDYRIIANFDTPKEGQETEFLLRFSFDLTREQMINLINLVIAKEDYNDRKIYSLLYFSVFNSDFKDDEEITSLYWKYLENAAPNIKDDTISFVTTDNNDIEMKSKKDSLEEKRSTVTKPTSSIKTYTKDLTNVNYPTNPAVGREREIKELEIALVYNSAMILGKSGVGKTALVEELAYRIQKGEVPKYLQNKKILKTSATELISGCKFVGMVEENTKGLFDELASRDDVILFLDEIHTVIGAGKGTGTNDVANIIKPYIDRADVKIIGATTEEEYKNFEKDPAFKRRFDKITIKEPEGKILDKIIRQSYKKYSNLIGVKFRYNESEINKINHELIRLTNSKNRDYREDSANPDICDSIIRKAFSYAAFYEHKYLELGDIRAAINSCEYIYETHRQIAMDNISKIRRLSPKEQNKVLVLKRGNLKNN;locus_tag=LOCUS_2960;note=WP_011261322.1 ATP-dependent chaperone ClpB (Aliivibrio fischeri) [pid:37.9%25%2C q_cov:56.1%25%2C s_cov:29.3%25%2C Eval:8.1e-38%2C partial hit],MGA_298
sequence02	MetaGeneAnnotator	CDS	126692	127036	.	-	0	ID=MGA_299;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829509.1;translation=MSSIRIERLNHTYMEEISKILAEEIKDEDIKFVTITKVTVTNDLSYAKVYFTVLDDEKKNSTLKALNEASKYIRKLLADRIEIRHTPELRFFYDDSIEYGNRIEEKIKEINKTN;locus_tag=LOCUS_2970;gene=rbfA;note=WP_001829509.1 30S ribosome-binding factor RbfA (Staphylococcus) [pid:47.0%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:6.9e-23],MGA_299
sequence02	MetaGeneAnnotator	CDS	127039	129171	.	-	0	ID=MGA_300;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000036343.1;translation=MMMNLADYALDVNKSIDEIKALCDKLSIAYEDENTELSDEDIILLDNEINSSTEEEEEEVEETEEEQVYDKAVELAEETNIDLDEDNSIKKVKKRPAKNKENTKEFLKQKKSLYKHREKLQSNEKKDDENIIVYNSKMTVADLANKLGVNANEIIKKLIGLGVMANQNQTIDFDTAEIVVTDYNKTLKKEESVDISDFENFEIEEDEKNLVERAPVVTIMGHVDHGKTTLLDTIRKTSVAEGEAGGITQAIGAYSVKCDDKDITFIDTPGHAAFTAMRARGASCTDIIVIIIAADDGIMPQTVEAIDHAKAAKVPIIVAINKIDKEGAAKNIDKIMGDLSNNGLTPEEWGGDVIVNKISAKKGDGVKELLENILLVASMSELKANPNRYASGVVIESKKDKTTGCVATLLIQNGTLRLGDPIVVGTSYGKVRTLKNDKGENIATAAPSTPVEITGLSEVPAAGDKFMAFETEKQGKAIAEERKIRAKEEDSNFSGMSLEELFGKIKEGIKEINVIIKADVNGSSEAVKSALEKIDIDGVKVNVVRSAVGAITESDVVLAQASQAMIIGFNVRANAKTMDIAKEYGVSIKNYDIIYKLVEDMEDAMKGMLDPEYEEKVVGNLEIRQLFKFSKVGLIAGCHVTEGYVKNTSLARIIRDDIVVYTGKVNTLQKGQDEAKEAKKGMDCGITLENCQDYKVGDNIEIYELVEIKR;locus_tag=LOCUS_2980;gene=infB;note=WP_000036343.1 translation initiation factor IF-2 (Bacillus cereus) [pid:49.9%25%2C q_cov:99.2%25%2C s_cov:99.0%25%2C Eval:9.5e-185],MGA_300
sequence02	MetaGeneAnnotator	CDS	129186	129449	.	-	0	ID=MGA_301;product=YlxR family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003419469.1;translation=MKTRKIPMRTCVVTLEKLPKAELIRIVKNKEGEVFADPTSRANGRGVYIKKDLEVLKQARKSKVLEKKLESTIEERVYEEIEEIVKS;locus_tag=LOCUS_2990;note=WP_003419469.1 YlxR family protein (Clostridioides) [pid:49.4%25%2C q_cov:97.7%25%2C s_cov:95.7%25%2C Eval:1.3e-16],MGA_301
sequence02	MetaGeneAnnotator	CDS	129459	130610	.	-	0	ID=MGA_302;product=transcription termination factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428238.1;translation=MNGSGKEFLAAVDNIVKEKNIDPEIVYDAMELALTSAYKKNFKSKTNVKVLIDRETGDIKVYSYLTVVEDDKISKEEYEEKIANIEDEEEKEKLSYFNPETEIKLSDAKKQDKKLKVGDTIDTEVTPKDFGRVAASTAKQVVVQKIREAERTSIMDEFGDKEGEMLVGTVALEDSDNYFIDLGRCNGILPKKDCIPGEKIEMGSQIKVYVTKVDNNKRGMLILLSRSHYGFVKRLFESEIPELVDGSILLYSVAREPGVRSKIAVMSEKNNVDPIGACIGEKGSRIARIIEELHGEKIDVVKYDSDPAVFIENALSPAKNLTVLVTDPKKGEAIVIAEGDNFSLAIGKKGQNARLASRLTKYRIDIKTPEQAQEFGINIRNEE;locus_tag=LOCUS_3000;gene=nusA;note=WP_003428238.1 transcription termination factor NusA (Clostridioides difficile) [pid:45.4%25%2C q_cov:98.4%25%2C s_cov:91.9%25%2C Eval:3.3e-87],MGA_302
sequence02	MetaGeneAnnotator	CDS	130600	130857	.	-	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEVETIVNNLIKDDNLQVSAIFKEKKEGKYVLNIELDSEGVIDLNRITDASRIINEELDKTDLLKDIDELDIYSKEKGGQNER;locus_tag=LOCUS_3010;note=MGA_303
sequence02	MetaGeneAnnotator	CDS	131007	131759	.	+	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDILSVIFIVIILGLVIYYFDKKKDILLKNIFKGVLVFFLFYFSSVFAKIPMLIFNIKYNKSTSPYLSIFSNTCLAIVLILMYRKELLKEFKKFKDKFSDNMDVGFRYWMIGLVIMMVSNILISAFVTKNQATNEQLVQDMIKRIPIIMIINAGIIAPFVEEITFRKCFKNIFKNKWLFLIISSLVFGSLHVLPGIFDGASIREIFFLLPYSALGFVFALMYYDTDTVFTSYTMHVIHNTILIILSILK;locus_tag=LOCUS_3020;note=WP_003645251.1 type II CAAX endopeptidase family protein (Lactiplantibacillus) [pid:24.6%25%2C q_cov:73.2%25%2C s_cov:76.3%25%2C Eval:3.9e-07%2C partial hit],MGA_304
sequence02	MetaGeneAnnotator	CDS	131804	132691	.	+	0	ID=MGA_305;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002026257.1;translation=MHTREEKMKDIREVIETEEERKARKRFAIRIFKIIVFAFSFVVLFFLYTYFYSTKGLVIKEEKIVNEKIPVSFRGIKIIQFSDLHYGSTYYNNELKNVINKINKRRPDIVIFTGDLINKDYNLKDSDKEAIIASLSNIDATLGKYAIFGEEDNDYTNSILLQSGFKVLNNSKDDVYTTTNEYISLIGLSIDYNITQAFTNFDSSKYNICIFHEPDIITEILKDKTCDLALAGHSHNGQINVPFPIIRKHKGTKYYKEYYKIKDTDLYVSSGLGTSNINVRVGSHPSINFFRLYNN;locus_tag=LOCUS_3030;note=WP_002026257.1 metallophosphoesterase (Bacillus cereus) [pid:36.4%25%2C q_cov:84.7%25%2C s_cov:90.5%25%2C Eval:6.3e-37],MGA_305
sequence02	MetaGeneAnnotator	CDS	132688	133728	.	-	0	ID=MGA_306;product=D-alanyl-D-alanine carboxypeptidase DacB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001252638.1;translation=MKKYMFLFLLLLFPINTYALDSARSSIVMDMDSGRVLYQNNTHDKRLIASITKIMTALITLENTDVNKKVKVGKEVLKMYGSNIYIEVGEKITVRDLLYGMILRSGNDAALVLAINTAGSEKSFVKMMNTKAKEIGMKDTTFKNPHGLDEETRNISTAYDMAKLSSYTYNTQELYRQISKSKKYTTRTKGKTYIWTNRNDLLNRYKYTTGGKTGYTPKAGRTFVSTATKNGLNLTIVTLDDDNQYDTHEYLYEKIFSKYKKYRIVNKKSFRINKKLFNKEVYIKEDFSYPLTSSERDEVKKIIRIDMKENYSQKNQVGVLCIKLSNKTIKKIPIYLKKKKRLFNLF;locus_tag=LOCUS_3040;gene=dacB;EC_number=3.4.16.4;note=WP_001252638.1 D-alanyl-D-alanine carboxypeptidase DacB (Bacillus cereus) [pid:40.6%25%2C q_cov:95.1%25%2C s_cov:88.8%25%2C Eval:1.7e-63],MGA_306
sequence02	MetaGeneAnnotator	CDS	133767	134312	.	-	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKNKLTIMVLVICALISITLGVLLYIDNSEKPSPKSNQVDNTDTEEISFDYEGLEDELVKLVEKDENTKAYISTCKDNGVDENNNPNLDINNKELSIDSVMEVVNKLKQANKVEKTTSARTCPAYIYLITTDIDGENRKDHFLLDYGEDKTSLLVGYKDEGYAFYYNSSDELKGFLENLK;locus_tag=LOCUS_3050;note=MGA_307
sequence02	MetaGeneAnnotator	CDS	134333	134593	.	-	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEKKVIKVEEKKKKKDKIDLEDIKDFVEEHGDDIGKVVTAVGTYMEAKNKTSKKKTTTKKKKKKEEDDTLTKAIDVITDMVNKK;locus_tag=LOCUS_3060;note=MGA_308
sequence02	MetaGeneAnnotator	CDS	134593	135348	.	-	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKEKKIVKVSDDSKDTNSYTLDENRRIIKAKERKDAKGDAKKYRIGAIVCWLLAIVMEVIAILRLTGRIDLFSKMSLMGFVILFVILDLIFFVPGSLLWKKANHIDPASEKDKTKFWIWNNLGTILSILAFLPVIIFIFTNKDLDGKQKGIAGAIAIIALLIAGVASYDFNPVSAEQLAHAEKEVKAVSPSGKVYWAKHSKKYHVDKDCPAFSRSEEVYEGSVAAAYENNLTDPCRRCIPELKEDEEKE;locus_tag=LOCUS_3070;note=MGA_309
sequence02	MetaGeneAnnotator	CDS	135417	135953	.	-	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLILPLIFLVGCMNMMNTPTKRVEEFFGKYQTMDKEVLNDLETTLDADESLSHDNKAEYKALMEKQYQNLSYKIKNETVNGDSAVVDVEIEVFDYARAIARADKYILEHEEDFKAKDGSVDNDKFMKYKIKQMQKVTDKVKYTLSFDLEKDNNLWKIIIIPDEDITKIHGLYND;locus_tag=LOCUS_3080;note=MGA_310
sequence02	MetaGeneAnnotator	CDS	136021	137397	.	-	0	ID=MGA_311;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_110460183.1;translation=MDLKELYEKLNEYMEKDVELSGWIRNHRKQKEFGFIDFSDGTCFEHAQIIYDNKLTNFEEISKYHVGSSIKVLGTVVKSPKEEQAFEIRAKDIILLGDCPEDYPIQPKRHSREFLREQAYLRPRTNLFQAVFRVRSIAAYAIHKYFNENGYIYFHAPLITASDCEGAGDMFHVTTLDLANIPMEDGKVNYNEDFFSKEASLTVSGQLEAETFALAYKKTYTFGPTFRAENSNTKTHASEFWMIEPEMAFCDLFEDMDIMEDMLKYVVKYVLDNAESEMKFLDSFVEKGLIDKLNKLVNSKFTRVTHEEVIDILQKADVKWEFEPKQGEDIAREHEKYITEHFNGPVFIYNWPKDIKAFYMKQNDDGKTVAAVDLEVPGAGELMGGSQREDDYDKLITRMKELDINTEDMAWYLNLRKYGGCVHSGFGMGFDRLLIYLTGVDNIRDVIPYYRTPGACDF;locus_tag=LOCUS_3090;gene=asnS;EC_number=6.1.1.22;note=WP_110460183.1 asparagine--tRNA ligase (Ruminiclostridium sufflavum) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-168],MGA_311
sequence02	MetaGeneAnnotator	CDS	137666	139420	.	-	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADHKANAQQMAQAGEYLITVAEKINSTLASIDNRLKAIKNAAGKLDSYNGQPVEGREDIAEYKSSYNYTNKVGEDEYVYRVTTYKVFDEVWNISGQSVAQMEAEKLEQQMNANIKKIISTLQKYSIRVKGNAQALALKQKKIDAILNDKEFKEYFQKNIFYNKYDAARGNNGANVTSKTSPYWIDENLKFVKQDNGAWLITKNGVAMGFTTGGAVAAYQKYRASKDIKENKKSSPVTLSEAEYKKLQEARKREAEGRKKQQEAEARKIRAKDKAGAAATTAGTVAAGGITLGKNVKVPETELGKEWREKGLISDKKQVDYFNLNKNKNANTNANKAKKSTTYSKDDYLIKKAEQEQKAKANKQSSSGKLSDKQMKELQEARRKEAEGRKKQQAASSAGIESSGAKEKIENLRRKTPSETKAGVHNTSKTTNNIPNSTFAAKPIPSSEKAVAWAKKIANNDSIGYSQAVREGSSYDCSSLIINAYEKAGIPVKAAGATNTGNMIKAFTKTGKFEYVPGNPNVNNLKPGDIVITPGSHTEMYVGKGKLLGAHDNFDGSVGDSSGKEINVADYYGTWSGYLKYKGN;locus_tag=LOCUS_3100;note=WP_011029732.1 C40 family peptidase (Streptomyces) [pid:24.6%25%2C q_cov:34.1%25%2C s_cov:64.6%25%2C Eval:5.2e-08%2C partial hit],MGA_312
sequence02	MetaGeneAnnotator	CDS	139434	139727	.	-	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVSDAQVNEAKRALDEAASQINTELELLNTQIANLLGDAASQLSNSAQNLTDSTKIVKAIEKLEKNVPKMSYSGSRIIAVKDRKFKPDMVTKQRIR;locus_tag=LOCUS_3110;note=MGA_313
sequence02	MetaGeneAnnotator	CDS	139851	140162	.	-	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAENLVEVSTIRAQMDELKVKYEERINADMEALDKKYTEIMATGGLQSERTDAAIADIKAKMRQMVNAFSEEVEIIKGRIETSAEDLATAQSAAETSLHDSNV;locus_tag=LOCUS_3120;note=MGA_314
sequence02	MetaGeneAnnotator	CDS	140182	140466	.	-	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASDTIYFSPEEIDKLASVIEETKNLVSTTTNEFIEKNVKGELAPKWVTRNGERQVQVLTEFLQDSRNDFVNMLENKERGMREVARLARQMEQL;locus_tag=LOCUS_3130;note=MGA_315
sequence02	MetaGeneAnnotator	CDS	140561	141529	.	-	0	ID=MGA_316;product=NlpC/P60 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722638.1;translation=MSNTSVSGLATVVDDIATLTKKVGDDIQSINSKIMQLHNACTALSTYNGEQVAEEPTITKPPVHVMTLSDGEYSYLRYEQKVYENIWQIDGYEEGLEKAKYIQDSVKETEEEIKTQAKAAAAVILSVAAELTKNKKLIGDELEYANDLRKIANSLNEFGKSEKSVEYQKNDEGQKLANTANEYVGMIPYHMYDSKEGPLNPEDCGKPLPDGSIPPSGLDCSGFVALAYYKTTGKKLCYTEEDGYLMCGTKTIWAASTPISKSELKPGDVAFLQQPTDSGVNHIGIYYGKDKNGKDLWVHENSVDGNVSCNGVDYWQYYRRIK;locus_tag=LOCUS_3140;note=WP_003722638.1 NlpC/P60 family protein (Listeria monocytogenes) [pid:23.0%25%2C q_cov:92.5%25%2C s_cov:77.1%25%2C Eval:6.9e-08],MGA_316
sequence02	MetaGeneAnnotator	CDS	141526	141837	.	-	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAISEQSIEEQIAIINEQKELAKEITTLRMNVERYREAIVATLNSVDKRKATPALEKQIRKIDIEESFTLMKNVLGLGSINITYKPVQGKLLNTTYSERKQKL;locus_tag=LOCUS_3150;note=MGA_317
sequence02	MetaGeneAnnotator	CDS	141913	142167	.	-	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKVLVKLFVPYIESHYEVFLPVGKRIGDLVILLSKSLVEISNGYYDITNNERLYNRISGNAYDEAQILKNTDIRNGTELIIM;locus_tag=LOCUS_3160;note=MGA_318
sequence02	MetaGeneAnnotator	CDS	142157	146698	.	-	0	ID=MGA_319;product=type VII secretion protein EssC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963368.1;translation=MFVYIISKQKLISFTLPSKINGSYFIKDESKNIINISESNGKWLATSNRNYKIMSNDDKELKSAYLANYQFLLLKEVDTGAYFIIYSVNVNDDNRKYYEIKGDNTITIGNKETNDICYLNKLVENSNLNLTYKGNSWVLEEAGGEYKAFVNGEPVAKQMKLNHGDIIFLMGLKIIAFSNRLIIGAPHNSVHVNSNKLTAKQITKGTPKTLSQDSSEVELYEEKDYFERSPRFMQVIDKKTFKVDPHPQMPEEDQTPLLLTVGPMLTMGSVSLVMMVVAFMSLRNGTGNAMSVMPTLVMSFSMLGGTLLWPTLNRRFMKKQHKKKKAKIEEKYNEYLEKKEQELKEIAGNQKQILLSNNKSPLECYNIITQNSRSLWERELHQNDFLNVRLGIGKIDLNIGLDFPGEKFSVEEDTMDEKMRVILDKYKEIDGVPEVLSLVKKNILSITGKYAYTKKFLDILLVQLMALHSYYDLKIIVFTNEEKAKYWDFMHFLPHAFDDSKNMRFFSTKFEEGREISAYLQKVLSARKEVFKESEDLTDAYKRFATYYLIITDDYKQAKEFGITSDVLESKVNYGFSYLILNPNLANLPTQCNGFINLEDMKNGITFESELSEETERKFTIEENSNFNLNYCALKLANIPIRNKLENYVMPKTLNFLEMYDIGMIEQLNALDRWKNNNPIVSLGAPIGIDEHGNILRLDLHERKDGPHGLVAGMTGSGKSEFLMTYILSMAINYHPEEVSFVLIDYKGGGLAGAFESKETGVKLPHLAGTITNLDAADISRSLASIESELKRRQALFNEAREKIGEGTIDIYKYQKYYREGLLKTPISHLVIISDEFAELKQQQPEFMDQLISTSRIGRSLGVHLILATQKPSGIVNDQIWSNTRFRVCLKVQDASDSNEVIKRPDAADLKDAGRFYLQVGYNELFLMGQSAYSGALYIPQERVYKERDDSIVFIDGIGRSIKTISAPKSESTVVKGEQLPQIVKYLSNLAKNENISIPKLWLDKLQANIFVDELRKKYRFAKRNFILQSIVGEYDNPKEQKQGLLTIDLNEKGNTVIYSMNEKITITNSIIYSLITTYTTEEVNIYIMDFDSETLKMYKTAPQVGDVIFANETEKIDKLLGILNSEIENRKRIFQEYNGSYDFYIRNSNKTMPNIVLIVTGYEGFKEAYEDEDTLLQKIARDGHKYGVHVILTAISDRSLRLGMRSSFPNIIPLKLASQIEYNMLLGKKAPDITDADNRGAALIGDEIFEFQTASVCEESKLNDYIKQVTSTLKQNIKLVAPEIPVLPEKVTIKDVLASFSDYQHIPVGLEAISLGVVTYDFTKSKINLINSEEVEMMNNFTDLVIKETNMIGTIDTMVIDLNNAYTNSNYAKSIYLKATDDVFNRFNEEVTKQRDKPLLVFINGIDKFINLIPDDIKNNLSNYLNKLNNVHLIFIARIIDMKSIAYETWFKANAALDEGIWIGRGLGSSTIHSLVTPLRELNEPIESNFGYVIQKGNAIKMKVLEGEDNGE;locus_tag=LOCUS_3170;gene=essC;note=WP_010963368.1 type VII secretion protein EssC (Clostridium) [pid:28.7%25%2C q_cov:97.8%25%2C s_cov:97.0%25%2C Eval:6.0e-166],MGA_319
sequence02	MetaGeneAnnotator	CDS	146795	147253	.	-	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKERFLPIGTIVLLKGAKRNVMITSYCVFPKQKEEGADMFDYGGCPYPAGIIDSDIVIVFNHDEIEKVLYNGYDSEEYQEMNKELNAHYEEIKASVKKDNGAEDSTPIEENISVMPSVENSPSVPTPQNPSPTINPVNNPKVPINLENPNED;locus_tag=LOCUS_3180;note=WP_002899314.1 DUF4176 domain-containing protein (Streptococcus sanguinis) [pid:39.7%25%2C q_cov:51.3%25%2C s_cov:76.8%25%2C Eval:8.3e-08%2C partial hit],MGA_320
sequence02	MetaGeneAnnotator	CDS	147273	148640	.	-	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLPDFTAASKKQKEKYRITNRVARDLGRVVYNESHTKTVKSQLNAAKQEVAQADSNVESGKSIIKSARKATEINLSPLSSISNETSNASENIDKSIAAISNASQNIKDWSKGVSRIEDIPILGKLPAAFANLLGNKFDAFGKSVVGGTNSIFDMQGKSLRYKAKRLYATGMMALWHVEKGVVGMAEGLFDGFHVISGKIAGHYGLEKLEKGLLDIAAYDIVGHFEDFTFKGPKPVDSWAKPDEKWKESGDKLKKNSYIKSNGGAADLLQTAGYVTGFGMISSGIKTAATKIFSKSAIRNKAMYSGELYIDEVAIEAGSETPVAKTFKDVGKKIAEYGSNVGDRYNQNVAEGRDPYKVAGKSMKEGAVDSMVDGAGEYVGGKNSNMAKRSAERGTYQELTGNMAKKETTGQVKRSVKNAAIDEMEDENSNSDQLKPGASKKFPSGINPIDELKKK;locus_tag=LOCUS_3190;note=MGA_321
sequence02	MetaGeneAnnotator	CDS	148666	149037	.	-	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLYPIKSEADMIDIATIRKGCQMLKKGAKNMKQASEYTSEAAADAKTLVYGFTNPQRKLNNTAEDLSDSSTRIANAADAILASAEKLYQRQQRQLQEYKAHLRYLQEQARLREERLKRENNQ;locus_tag=LOCUS_3200;note=MGA_322
sequence02	MetaGeneAnnotator	CDS	149170	150165	.	+	0	ID=MGA_323;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393419.1;translation=MKKQILTGIRPTGNLHLGHYFGAGKNYLKYQDDYDFFLEIADVQALTDNFDNPDKVRENVYEITADLLSIGLDPKKVNFFIQSKIPEIAEATVFYSNLVTIARLERNPTVKSEIAQKKELFGNKGESITYGFLGYPVSQAADITIFDGELVPVGEDQLPLLEQCREIVRKFNSIYGTTLKEPKEILSTTTRVKGLDGNEKMGKSLGNAIYLVDDEDTIAKKIMQAKTDTTKIKKDDPADPDKCMVYYYHKLIDSNNLDNICAECKKGARGCVECKKELIKNMNEFLEPIRKEREKYNPELVKEILDEGTKKAQEKAKDTMKRIKEAMKIDY;locus_tag=LOCUS_3210;gene=trpS;EC_number=6.1.1.2;note=WP_011393419.1 tryptophan--tRNA ligase (Moorella thermoacetica) [pid:50.6%25%2C q_cov:99.7%25%2C s_cov:96.7%25%2C Eval:6.3e-89],MGA_323
sequence02	MetaGeneAnnotator	CDS	150212	150508	.	-	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGKSLEINTQEALDDAQNIVNIVNDVNAAMEELDGVVRKNVGGEGSGKAISTEWGGELLQEWTRIFDNDIPVVKSEMTESAQNLEKAVQGATQYSVN;locus_tag=LOCUS_3220;note=MGA_324
sequence02	MetaGeneAnnotator	CDS	150531	150824	.	-	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGNISADSGSLNAVNEAYKEASSHYRNSLQKLQDVVNKVNQGDIKGDLATAFVGKYNEKQDTFNYITNTLNKIDQYMEDQTASFNKMMNAVSESFK;locus_tag=LOCUS_3230;note=MGA_325
sequence02	MetaGeneAnnotator	CDS	150918	151553	.	-	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISDIILNFLDGRLYEFFEWNSDDNFEHIKNIPLFKVESSVLEDFIFNKIKCSTNFLKKINNKTEVFASGIIKRIEYATILTDGNRAIAFEFSDKGEKLTISSLLLDEEEEILDLVTDMDIISIEYKILEREKEKLYTRKEQFIKNYIIQDLKAAYINKDYNKIKYLYEEIYHKSNKNIEKQYNKMITDINKNFNKNHFKIFHILKLINVK;locus_tag=LOCUS_3240;note=MGA_326
sequence02	MetaGeneAnnotator	CDS	151550	151756	.	-	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSRIMLFLLGFSLMTIGFTYLIIYLNLITFGYTIIDYLKYIFTHIGSLCTFIGLIIVSYLVFKGEKK;locus_tag=LOCUS_3250;note=MGA_327
sequence02	MetaGeneAnnotator	CDS	151816	154917	.	-	0	ID=MGA_328;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454939.1;translation=MKFEKLETGKINEVETKILKKWKKQDILKRCIETRDEKNSWVFYDGPIYANAAPGIHHVFAKTIKDAFCKFKTMQGHRVIRKIGLDTHGLPIEVNVEKKLGFKSKEDIEKFGVENFCKECNKATALNIDEINKVTDMMGQFIDCDHPYVTCHNDYIESEWWIIKEMAKKDLLYYGNKVLWYCPRCGTELSANEVSQGYEEVPVNSIILPFKKKDEDVYFLVWTTTPWTLIANVALCVHPDLEYNLVESMGYKFIIANSLISSVLGDDVKILETYKGSDLEGEKYEQLMPFVKVDGKAFEVVADTYVSDADGTGIVHMAPAYGEDDNRVCREKGIGFVNPVGPDGTYTEGPWKGRLVTDSDLEVEIIKWLKEEDKLFKKIKIKHDYPHCWRCHSPLISYPKPAWYVKTTAYKDKIIEANKAINWYPDFVGEKRFANWLDNMVDWGISRNRYWGCPMPIWECECGNREVIGSLDELQEKVVEDVNVREIELHRPYVDDLHLKCKCGKKMTRVKDVMDVWFDSGSMPYAQYHYPFENEELFKSQFPADFIAEGVDQTRGWFYVLLVISTIISGESSFKNVVVNDMMLDANGKKMSKSTGNIIDPIAIMEKYGADTIRFYMLYTSPVWTPLKFNEEGVKEVYSKFTSTLKNAYSFFEMYANADNIDPREYDIPVEKRELIDKWLLSKLNKLVRDVTNAYLEFDLNKVAKLIVPFLNDDLSNWYIRSNRRRFWDSKLSDSKKAVYLTTYEVLTTLCKLCAPLTPYLTEEIYQKLTGEESVHLADFPTENSDLINETAEERMDLVRDVCSLGRYAREEANIKVRQPISKLLLPESDEMIIGDLIDIIKEELNVKKIEYTKDMTKYLEYIVKPNFKVLGKELGPKIKDLQNILANMSSDDVRKISDEGLTVTLDSNKELTLTPENVLITLKQKEGYASASNTRTCVVLDTTLTEDLILEGLSREFVRNVQAIRKELDLVITDHIKIYYEGDDKVKEMLSKYEDYIKRETLANGITSKKGLDKEYKLNDLTCKIKVEKEHK;locus_tag=LOCUS_3260;gene=ileS;EC_number=6.1.1.5;note=WP_004454939.1 isoleucine--tRNA ligase (Clostridioides difficile) [pid:48.6%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:4.3e-314],MGA_328
sequence02	MetaGeneAnnotator	CDS	154929	155882	.	-	0	ID=MGA_329;product=calcium/sodium antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879978.1;translation=MLLNILLLIIGFVILIKGADFFVEGASSIAGNFKVSKMLIGLTIVAFGTSAPEFAVSVKSILSGNGDIVFGNVIGSNILNILLIIGISAIIHSLNVKNSTVKKELPITLLMTTLFAVLISDSLFNLKDINQFTRSDGVVILLFFTVFVYYLISMMRNKIDDDGKEEYLPLVKSFAFTILGIVAVVLGSNLVVDSASFLAKALGISQKMIALTVVALGTSLPELVTSIMATRKGEYDIAIGNIVGSCIFNIGVVIGMPVALFGGVGHIAFNYIDVGVMLLSAFLLFIFSRNDYKIHRWEGIVFLTIFVIYYSYVIYLG;locus_tag=LOCUS_3270;note=WP_010879978.1 calcium/sodium antiporter (Aquifex aeolicus) [pid:38.6%25%2C q_cov:95.3%25%2C s_cov:94.7%25%2C Eval:7.4e-55],MGA_329
sequence02	MetaGeneAnnotator	CDS	156163	156891	.	-	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTFIVVDDKNEIRNQEIKVIDSYMMNFDIKYKIKEYSEYNSDFEKDVKKVTGQKIYLLDIMTDNGSGIDATRMIREEYNDWQSTIIIITAYPEYKYEALGARLYILDFITKADSFTKRLKEAISIALDNYHKKPNTISYKYNSYINIIDYKDIIYIEKEPDSKRCTIHTTSGDEKIPKGLTELEKELDNRFFRTHRSLIVNTDKIKRFDYQQNCIIFKNGEYTELVSRNKKKDLLEHLTNK;locus_tag=LOCUS_3280;note=MGA_330
sequence02	MetaGeneAnnotator	CDS	156966	158177	.	-	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_150048584.1;translation=MKKLLYVLILFSFLFINTVSVNAKEKVTIYFFHGRGCPHCAEEEKFLDNLKTKYDNIVIKDYEVWYNDENKKLMDKVKKELKTESSGVPFTVISDVGTIGYTDSIGRKLDRLVDFYSTEKSIDAVKLIEEGKYKPAEKNKFKEKEKEEDEATTFNFPFIGKVKARNLSLISATIAIGLVDGFNPCAMWVLIFLISILVTMKDRKKMWWLGGTFLLTSAICYFLILLFWSGITEALNGFNPLYLKLIIAVVALIGAVINIRAFIISDDSGCVVVDDKKRKPIIQKIKKYTTEKSFKAGIIGIALLALSVNLIELACSAGLPAMFTGLLGINDIAIPKSLWYIFVYTLAFMLDDVIIFIIAMKTMKVAAISSKYNKYSHLVGGLIMLIIGLLVIFKPEWLMFTFS;locus_tag=LOCUS_3290;note=WP_150048584.1 hypothetical protein (Methylomonas rhizoryzae) [pid:31.7%25%2C q_cov:97.0%25%2C s_cov:96.8%25%2C Eval:7.1e-56],MGA_331
sequence02	MetaGeneAnnotator	CDS	158179	158433	.	-	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIKINAMWCSACVVMNNIWNEVLEEIDIKTTTLDYDFDEEEVEKYNPGTVLPVFIIMEDGKELRRIKGEHTKEEMLEFIREK;locus_tag=LOCUS_3300;note=MGA_332
sequence02	MetaGeneAnnotator	CDS	158414	159562	.	-	0	ID=MGA_333;product=cysteine desulfurase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000638965.1;translation=MVYLDYSATTPVDKEVLNTFNKACEGFIGNPNSLHKLGHDAKKLIDDATKQIADILGVKEGEIIYTSGASESNNTAVKGICLKHQNRGKHIITTKLEHSSVIAPTSYLQSLGFDVDFVKINDDGLVDLDNLKELIREDTILVSIASVNSEVGVSQPINEIGKILRNYPKIFFHSDITQSIGKEVVDLSNVDLASFSAQKFYGIKGIGCLIKKEGINIEPLIHGGKSTTIYRSGTPATPLIASMSKALRLAYDNFSDRVNHVCELNDHLREELEKLDKVHINSTKNSVPHIVNFSVMNIKPETMQHALEEEEIYISTQTACSSGVGDGISQAVYAITKSSDYAAHSLRVSISHLTTKEEIDKFVEVLSKKLTELGELYGNNKD;locus_tag=LOCUS_3310;note=WP_000638965.1 cysteine desulfurase family protein (Bacillus) [pid:40.9%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:3.5e-81],MGA_333
sequence02	MetaGeneAnnotator	CDS	159619	160209	.	-	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVALIIIAVLCLGFINVYAADSITIPTCKVVVDAKDSKAYKAKITPITANAPTPSIKEFNIKVGEEKNFGILNFEHVGIYDYKITLDGADTYYVLTAEITRDGDNLRYQLYVKEKGEGDKKPKAAFVIRPSDDGGDVKPVDPSKDDKGSHGTSRRGMINPYTADLIIKFLILLAISAIVFVIVLKRTDKIKKQG;locus_tag=LOCUS_3320;note=MGA_334
sequence02	MetaGeneAnnotator	CDS	160270	160887	.	-	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKGVRRFLIFILILLIIALGGIIYYFGFYNQGVKEVKIIKEIPEYGYKLKENESGLYKKTFQDLEKVLSKDEVDEEKYVELLSKLFIIDFFSLDNKIAKTDVGGVEFVEESILDNFVVNAKDTYYKYVENDLYGKRHQTLPEVTKVEIESVDKKEYQYNDQTDNEAYHVKATWKYRQGKGYQDKATLIFVHKDKKLELVELK;locus_tag=LOCUS_3330;note=MGA_335
sequence02	MetaGeneAnnotator	CDS	160902	162950	.	-	0	ID=MGA_336;product=LTA synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987152.1;translation=MKKIKSIAIDAKDKTIKYLKKVKREHLIKKYFKHNVLFLTFVGTCVLNSTMLRFLTMHTIENYLAFKPIMADLAFAVLLGSFGYLFKPKNRFTYFFIMSLVLTFICTVNSIYYTFYTSFASVSMLSLTQYIGEVGDAVTENVFQVKDVMYIIGPIILILVHRYLKKKDYYKVEIKKVRKNKFVKTIIAGGIITTIFCLTLSPLEIGRFTKQWNREYIVMRFGIYVYQVNDLIASVQPKINSMFGYDKAKVEFNEYFKDKKKSPENEYTDIFKDKNIIVIHGESMQTNTIGLKFNDKELTPTLNKLSQEGMYFSNFYSQVSVGTSSDTELTYNTSLMPTQSGTAFVSYFDREYISTPKFLKKQGYYVYSMHANNADFWNRRTMHKSLGYDKFYSKETYDVKKEDLVGLGLSDKSFFAQSVQKMVKINEKHPKWYGLSIMLSNHTPFSAVDKYGDFPVDIKEEKTNEDGTVETISHPYMEGTKLGNYFKSVHYADEALGQFINDLDKAGLLENSILILYGDHDGRLPKKDYSRLYNYDTNTDKVKEKDDPTYVDFDYYKYELGRKVPFIIWSKDMAGTDLNMEVTDVMGMYDVMPTLGNMLGFYNKYALGHDIFDIGKNNIVVFPNGNFVTNKIYYNSQKQEYLSLDNSAVSEEYIKEKSDYTEKLLNVSNNIIVFDLLKDVEK;locus_tag=LOCUS_3340;note=WP_011987152.1 LTA synthase family protein (Clostridium botulinum) [pid:30.9%25%2C q_cov:90.9%25%2C s_cov:94.0%25%2C Eval:6.7e-79],MGA_336
sequence02	MetaGeneAnnotator	CDS	162997	163842	.	-	0	ID=MGA_337;product=YihY/virulence factor BrkB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001226530.1;translation=MERVRVFMRKAKRLFKEPQMRVLPGQLAFFFVLSFIPLLALVANVCAYFGLSLNSIKEVLASSLAGDLADKMINIVSGKGLNWNILVFFISAAILASNGAHSVIIASNEIYKVKDRGIVKRRLKAIGMTFLLVGLLLFLLVVPVFGKQIFALIRDNAANQDMVSLIYNVYTVLKYPVAIIVVYLIVKFIYIIAPDQKIKSHTTTIGSLFTAIGWAITTYIYSFYVDKFAHYDLLYGSISNLIILFLWVYILAYVFVLGMIINASNSNEQDLRTQVIKLFKD;locus_tag=LOCUS_3350;note=WP_001226530.1 YihY/virulence factor BrkB family protein (Bacillus) [pid:32.7%25%2C q_cov:85.4%25%2C s_cov:83.4%25%2C Eval:2.1e-31],MGA_337
sequence02	MetaGeneAnnotator	misc_feature	163861	164492	.	-	.	ID=MGA_338;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_005809856.1:GGDEF domain-containing protein,WP_005809856.1 GGDEF domain-containing protein (Desulfitobacterium hafniense) [pid:31.6%25%2C q_cov:71.8%25%2C s_cov:53.9%25%2C Eval:5.4e-14%2C partial hit],MGA_338;locus_tag=LOCUS_3360
sequence03	MetaGeneAnnotator	CDS	268	795	.	+	0	ID=MGA_339;product=TIGR00730 family Rossman fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008762909.1;translation=MNIFIGTSSRDELDKKILNMSDELIEKVAKVPDLNLVYGGYDHGVMKKCYDEFKKNNKKIIGITVDAYDDELDCSEVIIKKSTFDRTKEIYNKSDILLILPGGIGTLAELFSIIEQMRTYDNDKILILYNKDFYYKDLIEEIYKMYQEKLIEYPPSEYMLISNDIDEIMTVVENF;locus_tag=LOCUS_3370;note=WP_008762909.1 TIGR00730 family Rossman fold protein (Bacteroides) [pid:27.1%25%2C q_cov:94.9%25%2C s_cov:95.5%25%2C Eval:5.0e-11],MGA_339
sequence03	MetaGeneAnnotator	CDS	806	2182	.	+	0	ID=MGA_340;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966472.1;translation=MEKLTMEKLVNYCKQYGFVFQGSEIYGGLANSWDYGPLGRELKENIKKAWFKRFIQEEVHNYGLDAAIIMNPEVWVASGHVASFADPLIDCKKCKMRHRADKLIEDFTDGKETGDGWDNEKLEKYIADNSIACPNCGSTDFTPIRKFNLLFESHIGVTEDSNSKVYLRGETAQGIFVNFNNVLRSMRAKVPFGIGQIGKAFRNEITPGNFIFRVREFEQMELEFFCKPDTDLEWFKYWKEHCLAFLNDLGLNKDNLRYRDHSKEELSFYSKATTDIEYKYPMGWGELWGIADRTDYDLSVHEKHSKTELKYLDPETNEKYIPYVIEPSIGVDRLLLALLADAYNVEELENDEREVLKIHPFLAPYKVAVLPLVKKYHSDKAKEVYSILSKEFMTSYDEAGSIGKRYRRSDAIGTPFCVTIDDETVKNNTVTVRNRDTMEQDTVKLDELNDYIKERVKF;locus_tag=LOCUS_3380;EC_number=6.1.1.14;note=WP_010966472.1 glycine--tRNA ligase (Clostridium) [pid:65.1%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:2.9e-181],MGA_340
sequence03	MetaGeneAnnotator	CDS	2241	2747	.	+	0	ID=MGA_341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYDRVLEVLNATCDFLSAYEGKSYEGSIIPVKLEFNNNLLERGLVVVYEKDKKKLARAEIEDKFEDNDIAGLLTPSKNYIQLACIKDKTITTNITFDGECVITDGIGPAGVIDPKYSVINDMFEDWYITKEQLGKHLRYDDIYQHAYVYAEMLKRREKKMSKTKRK;locus_tag=LOCUS_3390;note=MGA_341
sequence03	MetaGeneAnnotator	CDS	3009	3455	.	+	0	ID=MGA_342;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886591.1;translation=MGIKSIEDAKTLATYAALDLVLISPNANPPVCKVMDYNKFKYEKQKKQKEAMKKQRATRSELKEYRMTPNIDVGDFETKLRNITKYLEKGDRIKLTVRFKGRQMAHTELGKDVLDRFADRLQDLATIEQQPKLDGRMMTMLLAPKKDK;locus_tag=LOCUS_3400;gene=infC;note=WP_010886591.1 translation initiation factor IF-3 (Bacillus) [pid:50.7%25%2C q_cov:100.0%25%2C s_cov:84.4%25%2C Eval:5.4e-38],MGA_342
sequence03	MetaGeneAnnotator	CDS	3470	3658	.	+	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKLKTHKGTAKTMKKRKNDYKIGRPGHNHNTGYKPTKFNRKGRSGSTLSKADQKKLKNLLK;locus_tag=LOCUS_3410;note=MGA_343
sequence03	MetaGeneAnnotator	CDS	3672	4289	.	+	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARVKNSVTTKARHKKVLKQAKGYFGSKHRLYKSAKEQLMHSGQYAYRDRKQKKRDFRKLWITRINAACHERGISYSRFIDGLTKAGVAINRKMLSEIAINDPKAFDEIVKTAKKGLEGKVKAEEVKNSAEVTIKGKTAKKETEAKKEPAKKAPVKKEEPKKEVKKEAKKDYATLSVAELKAEAKKKGIKGYSTMKKADLIAALK;locus_tag=LOCUS_3420;note=WP_001830839.1 50S ribosomal protein L20 (Staphylococcus) [pid:65.3%25%2C q_cov:57.6%25%2C s_cov:100.0%25%2C Eval:3.4e-37%2C partial hit],MGA_344
sequence03	MetaGeneAnnotator	CDS	4380	5372	.	+	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVVSMNYLLEAGVHFGHQKRRWNPKMKEYIYTTRDDIYIIDLQKTAEKIEEAYAAIKEIAEKEGKFLFVGTKKQAQEAAEEAATRTNMYFVNERWLGGTLTNFKTIRSRVRRMEEIEKQEEDGTFDLLPKKEVIKIRKEYDKLHRNLRGIRDMKKVPQAMIIVDPKCEEIAIKEARILGIPVFGIVDTNCDPDMVDYVIPGNDDAVRAVKLIIGVLANAIAEVNGNEMIDYVNNDDKGKEKPAKKETKKEEKEEPKKEEKPKKTTKEETKVEEKKEEAPKKEAKKAPKKEEVKEDLDSKTLVELKEMAKAKGIKGYSKLKKAELIEALK;locus_tag=LOCUS_3430;note=WP_001832557.1 30S ribosomal protein S2 (Staphylococcus) [pid:57.0%25%2C q_cov:72.1%25%2C s_cov:93.1%25%2C Eval:2.6e-74%2C partial hit],MGA_345
sequence03	MetaGeneAnnotator	CDS	5394	6266	.	+	0	ID=MGA_346;product=translation elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001018578.1;translation=MIKASDVKELREKTGAGMLDCKKALEEVSGDMEKAIDWLREKGIAKAAKKESRIAADGLCEIKTDGNKAVIVEVNSETDFVAKNEEFTKFVDLVSEAILNNDVETNEDVLKLDVDGETIEEKLVALTAKIGEKLSFRRFEKVEKEDSDVFGSYLHMGGKIAALVVLTGGNEEVARDVAMQTAAMNPMCLNRESVPADVLERERTVIKEQVLNEGKPEDIAEKMVNGRLNKFYKEICLEEQEFIKESKMSVGDFVKKENASIKAMYRFAVGEGIEKKEENFAEEVMSQVNG;locus_tag=LOCUS_3440;gene=tsf;note=WP_001018578.1 translation elongation factor Ts (Bacillus cereus group) [pid:57.0%25%2C q_cov:99.7%25%2C s_cov:98.6%25%2C Eval:6.4e-87],MGA_346
sequence03	MetaGeneAnnotator	CDS	6282	6860	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLILLVGLIIISGCGKVVKVKKVEEITDNEKFAQEFDISKENNFKYLNYDELMDVLNNKSGIIFLGSGDCEWCKKAAKLLNESLKYKDIKDDIYYYNPKKIKANNNKKYQELLKILDPYLTEDEDKNKELLLPDIYFVKKGKIIDHNNDLATIKTNPEEYLTKERKKEIREKYEDLISKYNVKECKTC;locus_tag=LOCUS_3450;note=MGA_347
sequence03	MetaGeneAnnotator	CDS	6919	7608	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEEKKKNKLVGPFIIVLLLLLGSIGFILYDKGIILKQKEEPKTEKKEVKKEEKKEEKETLDFVTDLSKVSNKRGENTYVLDGSDGFDNFYQLDKDQKTVKCQISWDRMNEAINGQKSNTVGYKVEDIEITFEQKVNEMYFGGTGQSISGDLVLFLMEDGTVEYIPTYYAAKAKEIKSYGKIPELENIIKFYSAGVRAGQFGYHTVLAQDNTGKLYDLEPLIKEFNSTE;locus_tag=LOCUS_3460;note=MGA_348
sequence03	MetaGeneAnnotator	CDS	7683	8228	.	+	0	ID=MGA_349;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231927.1;translation=MFDQVLSKLKKNMDSSIDAFEKRLASVRAGRANPSSLDGVQVEYYGNLTPLKSLATISVPEARILMIKPFDKSCLADIEKAIFESNLGYTPNNDGETIRIVIPELTEERRRELTKQVKALAEDAKVSIRNNRHEALDAAKKMDADEDSEKRFEKDVQEEVNKYNKIVEEKLKEKEQDLLNI;locus_tag=LOCUS_3470;gene=frr;note=WP_003231927.1 ribosome recycling factor (Bacillus) [pid:47.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-42],MGA_349
sequence03	MetaGeneAnnotator	CDS	8474	9511	.	+	0	ID=MGA_350;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830082.1;translation=MFDDVKKKLEKDLKDIKDLKELNDLKVKYLGKKGLITELNSKIKEVANEKKKEFGMKVNELRTSFNDFYDDKKKALEEEILNEKLKNEVIDITLPATTIPMGSPNILERVIEDFEEVFMSLGYDVYDGPEIEEDKYNFELLNIPKGHPARDAQDTFYIEGDEILLRSQTSPVQARVMLEKKGKEPVRMICPGKTYRRDDDDATHSHQFMQIEGLLVDKNISLSDLKGTFDVAAKKLFGEDTVTRFRPSYYQFTEPSVETDISCFACKGEGCSLCKNTGWITISGAGMVHPNVLRNCGYDPEEWSGFAFGFGADRCAMLKYGIDDIRTFYNTDLREVKPFDRGGAK;locus_tag=LOCUS_3480;gene=pheS;EC_number=6.1.1.20;note=WP_001830082.1 phenylalanine--tRNA ligase subunit alpha (Staphylococcus) [pid:58.5%25%2C q_cov:94.5%25%2C s_cov:93.5%25%2C Eval:3.3e-112],MGA_350
sequence03	MetaGeneAnnotator	CDS	9511	11877	.	+	0	ID=MGA_351;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000498186.1;translation=MISMNWVKDYVDLEGEDLKDLAVKITKAGINVEDVVTNHIDHLVIGEVKECVPHPDSDHLNICQVDVGEKELRQIVCGAPNVRKGIKVIVALPGAILPGDFEIKAGKIRGEKSDGMICALFELGLEEKTEETYAKGIEELKSDAPVGVDPLEYLGVEDTKYELDVHKHRNNDCYSHIGFAYEVGTIINKKVELPVSKYKESKEDINKYIKLEVKTDKCPFYLGKMVKNVKIGESPEWIKRRIIAAGMRPINNIVDISNFVMLEYGQPTHFFDADKLGKKVLVRNATPNEKITTLDGIKRVLSDKDLVITDGKVPTCIAGVMGGENTEVDENTKNIFIEAAIFDAVTTRNTSEKLDLKSEASIRYGKGLNYEYTFLAMDRCCSLLEEYASGEVLSGSVLHDKTDKSIKEVEFTTEEINNMLGIEISDKDMEVELKRLDFEYTKNKNKFKVIIPKRRLDIDPNVADMAEEIGRLYGYHNLKSSLPLVPNKEGVYKGDVGIRKSISKRLRNLGLNQTLTYTLTSPEDAKLFRYDNREQITLPSPLSVDKSVIRTSIIPSLLNVYRYNKARKVENVLLYEIGKTYDVNYEEISKVAILMSGNYIDNEWSNTRIKCDFYTLKGIVENVLDYLGFKNRYNFEKSEIVDLHPGMSAKILVDRNEIGVIGRVHPKLTKDEIYVAEFNMTYLYEAKVKPLKYKEASKYPEIRKDVAFIVDKEITNEEITTVIRKAGGRLLSSIDIFDIYDMGKKKSMAYKLIFKDDSRTLSDEEVMKVFDNIIDKVKTNLKAFLRDN;locus_tag=LOCUS_3490;gene=pheT;EC_number=6.1.1.20;note=WP_000498186.1 phenylalanine--tRNA ligase subunit beta (Bacillus cereus) [pid:39.5%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:7.5e-162],MGA_351
sequence03	MetaGeneAnnotator	CDS	11997	12164	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKMQDLEIAKGLFYLSTLMITLGIFIICINIINSRSTIFVYSGLINLGKFLLP;locus_tag=LOCUS_3500;note=MGA_352
sequence03	MetaGeneAnnotator	CDS	12209	12823	.	+	0	ID=MGA_353;product=LemA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022624.1;translation=MPIWLIVILAIVVLILLWFFGTYNSLVSLRNKVKDQWAQIDVQLKRRADLIPNLVETVKGYAKHEKGTLEEVIKARNTFVSAKTPEEEMKAAGDLEKTVSKLFALAENYPDLKANENFMSLQNDLKDTEDKISYARQFYNDVVRQYNDKVQMVPSNFVANMCHFEKEAFFEATEADKEVPKVSFDEDGEEAKEEPKEETKKGKK;locus_tag=LOCUS_3510;note=WP_011022624.1 LemA family protein (Methanosarcina acetivorans) [pid:53.4%25%2C q_cov:85.3%25%2C s_cov:95.6%25%2C Eval:2.9e-49],MGA_353
sequence03	MetaGeneAnnotator	CDS	12862	14547	.	+	0	ID=MGA_354;product=DUF2207 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_042338789.1;translation=MKKIKYFIVLLGLFMFLPLTAKADTISDVNMEIDVLEDGSANIVETWDVQASGGSEWYKQYKNLKNMEISNFSVSKDGVPLQEKTWDVDESMSEKDGYYGINRISDGVELCFGKSDYQPHSFTMRYNISNFIFNVDDAQVIYFTLLPKATVGNFSVRLKSFYQFPDKLDVWGFGYKGYAYVKDGVVEMSNEETTSLNNDYVVLLAKFPSGTFKTENKYEEFNTFDDVLKLAKKGSFEYDYGTKESLGTKIWNIISFVFYIGLFILPFIIGFFASRAAKYGYKDNKKITKDNTPLFREIPCKKDIYYAHALIKLNEFGYKETNILGAIILKWIREDKIVFKNEKKGIFNKDTSSIDMSKECTFENDAEASLFTMMKEASGDNILEPKELEKWCKKHYSKFLNVFKKFTDEQINKLKSEGHIYNRQDKKECKYKNVMDDKIYEDSKQLFGLKLFFKEFTDMNTKETMEVKLWDHYLMFAYLFGMAEKVAKQMKNLYPKEIAKLEQQGMDIGTIMYIDHLSTASVHAATAARAAAQSYSGGGGGFSSGGGGGGSFGGGGSMGGR;locus_tag=LOCUS_3520;note=WP_042338789.1 DUF2207 domain-containing protein (Desulfosporosinus youngiae) [pid:25.4%25%2C q_cov:88.2%25%2C s_cov:87.7%25%2C Eval:4.1e-31],MGA_354
sequence03	MetaGeneAnnotator	CDS	14618	15256	.	+	0	ID=MGA_355;product=DUF45 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002858500.1;translation=MVFLYNDKKYDIVIEKKRTTKNTYLRVKDDMKIHITTNFLTPNRFIEKFINDNYNSVIKMIERQEQKKEANTGFRYLGKKYDIVYTDSKKVILGENKVFMNKDTDIDKWYKKQAKTIFQEELDRLYDEYCYEIPYPNLRIRKMTSRWGVCNTKLKTITLNLELIKRDLKYLDYVIVHELSHLIEANHSSKFWKLVEDNFKDYKKVRKEMKEF;locus_tag=LOCUS_3530;note=WP_002858500.1 DUF45 domain-containing protein (Campylobacter) [pid:27.5%25%2C q_cov:97.2%25%2C s_cov:94.0%25%2C Eval:2.4e-20],MGA_355
sequence03	MetaGeneAnnotator	CDS	15266	16009	.	+	0	ID=MGA_356;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003158483.1;translation=MLITSSDNERVKKYIKLKQKKYREKYNEFIVEGEHLVLEAKRSGIVKEIILEKDEVIPLDGEKIYLPYEIIKKISTNENPPKVMALCEKKENEKELGNKILLIDGVQTPGNLGTIIRSAKAFNVDTIILSENTVDLYNPKVLRATQGMLFHINIYTDDLKEVIEKIKKEGIPVYTTNVNYGEDVRKLTASEKKRYALIIGNEAQGVRDEITDLADSKLYIKMNDDVESLNVGVATSILLYELGDDDE;locus_tag=LOCUS_3540;note=WP_003158483.1 RNA methyltransferase (Bacillus anthracis) [pid:41.5%25%2C q_cov:97.2%25%2C s_cov:92.1%25%2C Eval:8.3e-42],MGA_356
sequence03	MetaGeneAnnotator	CDS	16002	16499	.	+	0	ID=MGA_357;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001832559.1;translation=MNNLVYLGIISTTHGIKGELKITSDFEYPEKAFKVGTYLIIDNKSYEIKSYRVHKGYHMVTLDDYNNINQVLFLKGKKVYKVRSELNLKEHEILDEDLLEYTVLTNDCFDGKVKDIYDTGNGNKVLKVELNNKEYLIPMASPMILKINNEKKEIIIELMEGIDEV;locus_tag=LOCUS_3550;gene=rimM;note=WP_001832559.1 ribosome maturation factor RimM (Staphylococcus) [pid:37.6%25%2C q_cov:95.8%25%2C s_cov:97.6%25%2C Eval:1.6e-21],MGA_357
sequence03	MetaGeneAnnotator	CDS	16496	17179	.	+	0	ID=MGA_358;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002293717.1;translation=MKIDILTLFPEMFNGVFNESIIKRAIEKELVTINLINFRDYSKDPHQKVDDTPYGGGSGMVLSCQPIYDCINDIRTVDSKIILLTPAAKTYNQKQAYDLSKEKHLIIICGHYEGFDERIRKLVDLEISVGDYVLTGGEIPAMILVDSITRLLPGVIKDESHQNDSYNNGLLDYPTYTKPAEYLGMKVPEVLLSGDHQKIAEYRRQESLKKTEQIRPDLIKKEGENDA;locus_tag=LOCUS_3560;gene=trmD;EC_number=2.1.1.228;note=WP_002293717.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Enterococcus) [pid:57.8%25%2C q_cov:96.9%25%2C s_cov:88.9%25%2C Eval:1.3e-70],MGA_358
sequence03	MetaGeneAnnotator	CDS	17172	17624	.	+	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKKKYVVDKKKKNKKKSIKTITIEGYSMAKKNHKFYIKGDNVSNIVVSDEELVKKLVIYKVEKQYKQLINKATEILASDDDDNASGSRLILDEVERFRQQIKNKYKEYLEKEELMLMAKQLTIIKKAAKEKEQAIISELNEEKKGNKSK;locus_tag=LOCUS_3570;note=MGA_359
sequence03	MetaGeneAnnotator	CDS	17709	18497	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKSKIIIIILSVIIALLVLGIIGYIIYDNPFASPKVEEKKKVKKEKKENPNALKGEEKEEIKKHTEEYLSLAKSFPITDVDDVDDQAIFWFLTMKLQNYSEGFAKEEMERLMEKYFKDDINIVYGDINCNVGDGVLYKLDSNSSKYIRVGDHGHGGAGLVAGEMFFEDITKDGDYITVKTQILYSRCDDADTVGPISVYFTKCPDESGNSVVYRTKAEGVEITEEEFKTIKDKVPYTIFKFKISEDKKNYGLVSVEIKDA;locus_tag=LOCUS_3580;note=MGA_360
sequence03	MetaGeneAnnotator	CDS	18494	19780	.	-	0	ID=MGA_361;product=stage V sporulation protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000198280.1;translation=MKGSFIKATALLMVGGFVTKLLGMVIKIIINRLIGTEGIGLYMLILPTFMLFISLSQFGFPIAISKLVAEKKRNSKRLFSSIVPISLVINIILMIIIICFSPFLAKNLLHEERVTLALTSIALVIPFSTLSNIIRSYFFGKNRMLPHVISNIFEDIVRLVLIIIFIPKLKDNITSAVNFLIIVNIFSELSSILIMLLFIPKDSKIRKSDLKPSKIYLKEALTISVPNTSSRLIASLGYFLEPIILTTFLLLSGYSKTFIIREYGIITGYVLPLILLPSFFTLAISQALLPVVSLEYSKRNIKEVKRKIKEALFFSLLIGSVCCLTLVIFPTFFLKLIYNTTLGVNYVRILAPICILQYIEAPLSFAIDAMGKSTYNLKITIISLFVRSSSLILFSLLKIGIYALIISTSINIIVVVYLLFKYTKKCLF;locus_tag=LOCUS_3590;gene=spoVB;note=WP_000198280.1 stage V sporulation protein B (Bacillus) [pid:32.8%25%2C q_cov:97.0%25%2C s_cov:82.3%25%2C Eval:1.3e-63],MGA_361
sequence03	MetaGeneAnnotator	CDS	19967	20854	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDLLLFLTSKEIMIVYILILAIVFLSIVVWLIERSYYKRKLRHNTKELNRLVDEVGERLVEEEKTKPVPATTIEATIPTKVEEKIEVIEPTPKVEEIEVKPVVEQPKEEIVYETIEDEQLQAQEEIRKITESLIDVKEDEPIENIALTKFEEEQEKNSIISIDELMATKEMYKVEEINDYEDESNVILSINELENLKNNTQPVVKEEVEPVKLTVVDPKDIRPNVKVVEEKKPTTTFKSSPVISPIFGLENKEKVEKNNVMNLENSATYDKFDEEIRKTNEFLNTLKELQKKLD;locus_tag=LOCUS_3600;note=MGA_362
sequence03	MetaGeneAnnotator	CDS	20943	22784	.	+	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFNLYNITLVILLTLISVLTLRTTEVKATGTVTWPSGSTATISRTVQNVYNAPKVNFTYNVVEGSLKTADFAPGANVYNSMGILSGGPNHIYNVHSFLKATSLPEGFTPDPVNIVSSSTSEYPIYMWYSNNTIYYYSEADIIYLNPNSSYMFGDPDGNGSINLTNVSGLQYVNTSKVTNMECMFFAWRFTSDLDLTPLANWDVSNVTNMNSMFYAELSSNLTDISPLANWDTSNVTNMGTIFNNQQKISGTFPILGNPTMYGDAFYNAATQSGSQITVNYGSGTTNIDSIIATKSNNSNVVKGVQVSPPSTSPSGGITATATISFNGNETVSNSYTATKSTTINLANLGLTFTEPGNYEFKVNEIVTSNNAYPITSDTYTIVITVRNELNANNRPTGNLEATFVIKDSNDNKVNTMSFSAPKDESKFGHIELTKKVKGLMGSITKYFEFSVQIDDAASNACSSYSGNEKYPVSGVDSGHYSAAEVTKCKSGTKDSLSLKHNQTAIIGQFTYNNNTYDSISIDDYYKIIESAESDYTTTFKINSGSTTSGRDTGSKAITHSGKIVTFYNQREGSPLTGLILTILPYLILVGIGIGGVLLYKNRKELLKVKI;locus_tag=LOCUS_3610;note=WP_003549857.1 BspA family leucine-rich repeat surface protein (Lactobacillus acidophilus) [pid:40.4%25%2C q_cov:16.6%25%2C s_cov:6.8%25%2C Eval:1.3e-09%2C partial hit],MGA_363
sequence03	MetaGeneAnnotator	CDS	22843	24138	.	+	0	ID=MGA_364;product=tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831098.1;translation=MTFSIYTLGCKVNLYESEFVANLLKKNKYTEKEFSDFCDVYIINTCSVTNNADSKSMKMIRNAKKRNPEACIVAMGCFVEKSKDNLDKINECADIIIGTKDKSKIVELLDKFFEDKKRITRLYDYLAKDSFEDMYIDNFASRTRAFVKIQDGCENFCSYCIIPFVRGKRRSKDFDKVIEEITSLVNNGYQEIVLTGIHTGSYGVDINSSFASLLREIVKIKELKRLRISSIEITELNDEVLALLREDNVIVDHLHIPLQSGCDKILKLMNRKYDLAYFENKLKEIRKIRKDIAITTDVIVGFPGESDEDFRETVDTVKHFEFAKIHVFPYSLREGTKAATMTDQVDGRVKKERAKTLGEVSKELEINYMNKFIGKDLLVLTEEVKDGFTYGHTSNYLHIKINKELKPNTFIKVHLIKVNYPYVEGEPNDLH;locus_tag=LOCUS_3620;gene=mtaB;note=WP_001831098.1 tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB (Staphylococcus) [pid:43.1%25%2C q_cov:98.6%25%2C s_cov:95.5%25%2C Eval:9.4e-102],MGA_364
sequence03	MetaGeneAnnotator	CDS	24125	26320	.	+	0	ID=MGA_365;product=ATP-dependent RecD-like DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398511.1;translation=MTYIKGKYSRSIYTSDNGYHIGLFRVQEASSDELSSYVGRTITFTGYFPELNDIDNYIFYGKLVQHDKYGEQFQVDSYERVLPDEDDSMITFLTSSLFKGCGVGKAKATKIVKTLGKDTLKVILENPNDLLLIPTISEKNATKLHNRLKDYETSYDSILYLTNLGFSAKEAAQIYNYYKDDVIRVIEDNIYTLINDINGMSFKRIDSIYLRNNDDLNNINRLKAVVIYILNELTFNIGYSYFSFDEISSYIPKVLGYSISNLEEVLKELEKDLKLINYNNRYYLYDMFTSEELIVNRVNIINRNSPKKISNLDKVIKEVEEDLSIKYNSDQKEAIKQAISNDFLIITGGPGTGKTTIIRAICEVYRRIFNINYLKLSKELALLSPTGRAAKRISEKTNYPASTIHRFLKWNKETDNFSVNEYNQSDVKMVIIDEFSMVDTYLFANLLKGLKVDTKIIIIGDDDQLPSVGPGEVLKDMLDSEKLNYVKLNKLYRQSENSNIIKLAYDIKREKLDESIFNTKDDLTFINSHDDFVMDNIIDLVKTYRDLSYQDLQVLIPIYKSYLGIDNANNKLQAVLNRKSSNKKEITIGDTTYRENDKVIQLINNPDDNVFNGDIGIIKKIITRPKKEITIDFDGNLVSYKQSSFNDFKLAYAISIHKAQGTETDIIILPIVRTYSRMLYKKLIYTAVTRAKKKLFIIGDIKYLHYAVNNNKEDLRRTSIKEFLTDGIKHE;locus_tag=LOCUS_3630;note=WP_004398511.1 ATP-dependent RecD-like DNA helicase (Bacillus) [pid:34.7%25%2C q_cov:98.9%25%2C s_cov:93.0%25%2C Eval:1.1e-124],MGA_365
sequence03	MetaGeneAnnotator	CDS	26350	26520	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIVSKALGMMAIMGAGIGGYMLLEKKNPEMAKDMQNIANNAKNKATDIMNDMKN;locus_tag=LOCUS_3640;note=MGA_366
sequence03	MetaGeneAnnotator	CDS	26588	27139	.	+	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVVRVKGESDYSYTIIDNNKSLNIFFDKYLNPYFTCKNLEKEDKYILFHITEEDYSIYTIFDNLYRNLTKEVVDEKKKRKCKNKRHGKAIVFESDNDIFSSINEKEQQSNSLIIAKEETDIIMQFNYKNNINNTIRVDNSKNQYNHFKEAFIEFYDDLQNYDPEYHQMHIKEYKYLTKKIRK;locus_tag=LOCUS_3650;note=MGA_367
sequence03	Aragorn:1.2.38	tRNA	27200	27276	.	+	.	ID=Aragorn_24;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0240;note=Aragorn_24
sequence03	MetaGeneAnnotator	CDS	27353	27781	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLKVPIIIGSIALLFLLAIGIYKVGVANKLFGPKDDINSGNISTKLLDNDEYKDISLDKISYIEIIKYTEGGDEREKITDQASISRIYNSLKNIELRGLTDRACEDNTTIYAIFLKNGVRKAIEFECDWIIINGKRYNYH;locus_tag=LOCUS_3660;note=MGA_368
sequence03	MetaGeneAnnotator	CDS	27841	28935	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNSKTGGIVGGLVILIIGIGLLWYNEGRAVKTARAISEAKKTYTQVKSDKVDPKYDGKLIATNGKVDLSASDELVDETFGIKVKSIKLKRTVEMYQWEESCETDDKDKEKCTYEKKWSDDLIDSSDFKEEGHKNPDSMPYSEETYLASNVKLGAFTLTKELEERLPADKEVNTQQLTEQFNNKVEGMKISGKYINNIPEEGTPEIGSIRVSFAYNGTDSASVLAVQNDDTFAEYTAKSGKHVYRIKEGIHTGAVILQDMTDENNFIKWLLRIVGTILIMGGIGSLFGPIQTLANFVPILRNIVSFATGLIAFVLGLAISLLVIAIAWFRFRPILSIVLIAIAIGLIVFLRLRKPEEAKTESK;locus_tag=LOCUS_3670;note=MGA_369
sequence03	Aragorn:1.2.38	tRNA	29002	29077	.	+	.	ID=Aragorn_25;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0250;note=Aragorn_25
sequence03	MetaGeneAnnotator	CDS	29183	30841	.	+	0	ID=MGA_370;product=glutamate--tRNA ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013225984.1;translation=MNKEERIELADLLFPNLENSIAEIEKKYPERNLPEDAMVTRYGPSPTGNVHLGNLLSAFCDMVYARESHGVFFLRIEDTDQKRMIEGGIDNITSVLKDFDIIPTEGYSYGGEYGPYKQSERTEIYQAYIKELIIKDLAYPCFMSAEEIESIRLEQEKEKTKIGIYGIYATDRDLSLKEIKEKINAGKEYVIRLKSPGNANNIITFVDEIKGKMKFPEHNMDTILLKKDGTPTYHLAHVIDDHLMHTTHVIRGDEWVSSIPLHLQLFEVLGFKPVKYAHIAPITIKDKETGNTRKISKRKDPFFGVKYYEENGIPIEALHLYLATITNTNFEEWYLANPDKTIADFTFTFEKQAVGGTSFDEEKLNNLCKTYFSRKKGEEIYEETLAWAQKHDTDYARILEENKEDMIRFLNIEKDGPRPRKDISKYSEVKEEFYYAIDEYFEEENYRNTSFDKEYDLDLIEDYLNSISLDLTNEEWFSQTKDFAEKNGYAKTPKEYKKDPDSYKGHVGDICEAVRVILTGRLKSPDLYSIMKILGKERIFKRLDMYKKVVAK;locus_tag=LOCUS_3680;note=WP_013225984.1 glutamate--tRNA ligase family protein (Amycolatopsis mediterranei) [pid:35.1%25%2C q_cov:96.6%25%2C s_cov:97.8%25%2C Eval:7.3e-97],MGA_370
sequence03	Aragorn:1.2.38	tRNA	30872	30948	.	+	.	ID=Aragorn_26;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0260;note=Aragorn_26
sequence03	MetaGeneAnnotator	CDS	31061	31519	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYSEFEADEREKRIKEVAEYVIKTGASTRKTAEYFTEHHFPISNATVSEYCHLYKKRNPQEKENITKVIKNNTPQTIRNKKVEFRVYNHTKLLLSGLTIKEIAEYSHSSYWTIYNDLTMRLNKLDSSLAKQVKTILKSRSEANLKSSKRSK;locus_tag=LOCUS_3690;note=MGA_371
sequence03	MetaGeneAnnotator	CDS	31519	32247	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKVRIKPRIIKKNDTKFIVIFLIVFILAATFIIYNIYDREIKTDSHEQEVSIKNKKIKDLYNKVKLSKEEDFKFAELNDETKLYLAYRQIPKKKFLSSECSLFSEVKLEKNNDLYMCDDKGNNSFKKEDLEEEYHKLFGDVFFKHKSIISKYEIFKFVKSKDIYIKGKYLGGSDDVVIATKRLVKAFKEDNKLYLLESVNYTNKSDGKMINNSKHYKSGTYKYTFKIKKNKYIYQKKELIK;locus_tag=LOCUS_3700;note=MGA_372
sequence03	MetaGeneAnnotator	CDS	32244	32768	.	+	0	ID=MGA_373;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003731912.1;translation=MKIGRVITGYLEENCYVISDEKTCLVIDPGDDYDKIEKEIAGKKVLAVLITHLHHDHIGALRHFLKKRSIKIFKKGNLEEKEYTIGNFTFTAIFTPGHSEDSVTYYFKDINTMFVGDFVFEGTVGRCDLPGGNEEKMKQSIEKLKTYPKDTRLLPGHYEETTIKDEIANNIYFK;locus_tag=LOCUS_3710;note=WP_003731912.1 MBL fold metallo-hydrolase (Listeria monocytogenes) [pid:37.3%25%2C q_cov:98.9%25%2C s_cov:98.5%25%2C Eval:1.4e-26],MGA_373
sequence03	MetaGeneAnnotator	CDS	32778	33098	.	+	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIDLIIIVVLLGLVIYFFRKFDSFVYFMAILDILLRILTFLKNNLPLPDVAALINKYVPESIPSLIGKYTNGSLKTVLVWAYVVIMIIFEVYIIKYFWKKKRRRR;locus_tag=LOCUS_3720;note=MGA_374
sequence03	MetaGeneAnnotator	CDS	33152	33937	.	+	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYVDLVLFLNFFFDLVLLTGIDILLKRKIKIKRLLLGSIIGSLTILLLFIKMNSLTFFLFKIVISILMIISTFGYKNKEYFFKNITYLYLLSIILGGGLYLLNISFSYDNEGLIFFHNGLGINIILIIIISPFIITWYIKKSRNYQNTIPNYYEVKIILNNNEYNLNGYLDTGNRLKDPYFHRSIILVDKKELFNMNNKYIYVPYKALNSKGLIRCIKVDEIVINRQVFKNILIGESKDKINIDNINCLLPGRLKEELC;locus_tag=LOCUS_3730;note=MGA_375
sequence03	MetaGeneAnnotator	CDS	33931	34626	.	+	0	ID=MGA_376;product=RNA polymerase sporulation sigma factor SigE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003221446.1;translation=MLKKIKLLWLRITSKFNNIFYVGATDILPEPLTKEKEDFYLDLFRDGDMKARDILIEHNLRLVVFLSKKYENTGVDLEDLVSIGTIGLIKGVNTFSKDKNIKLATYASRCIDNEILMYLRKNKKIKSEVSIEESLSYDSEGNELHLEDVIGTEKDMITKKLEEKTEKEIMLNEIMHLNPRDRDIMIFRYGLLGHEEMTQKEIAKTLGISQSYISRIEKKVIKRLKSLVNIT;locus_tag=LOCUS_3740;gene=sigE;note=WP_003221446.1 RNA polymerase sporulation sigma factor SigE (Bacillus) [pid:53.4%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.3e-67],MGA_376
sequence03	MetaGeneAnnotator	CDS	34710	37352	.	+	0	ID=MGA_377;product=pyruvate%2C phosphate dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047993.1;translation=MKYVHLFSEGNADMRELLGGKGANLAEMTNIGLPVPQGFTISTEACTKYYEDGKKINKDIEKEIVENIHKMEKITGKKFGDIDNPLLVSVRSGARASMPGMMDTILNLGLNEEVVESLAEKSNNPRWAWDCYRRFIQMYSDVVMEVGKKYFEELIDEMKAKKKVKSDVDLTAEDLKELAYKFKDEYKEKVGKNFPDDATEQLMGAVKAVFRSWDNPRANVYRRDNDIPYSWGTAVNVQAMAFGNMGDDCGTGVAFTRDPATGEKGLFGEFLTNAQGEDVVAGVRTPMHISEMEEKFPEAYKEFVKVCKTLEDHYRDMQDMEFTVEHGKLYMLQTRNGKRTAQAALKIACDLVDEGMRTKEEAVAMIDPRNLDTLLHPQFDNDALKEATPIGKGLGASPGAACGKVVFTAEDAVKGAEKGEKVVLVRLETSPEDITGMKAAQGILTVRGGMKSHAAVVGRGMGTCCVSGCGDIIMNEEKKEFTLGDKTYHEGDYISIDGSTGNIYDGELKTVDATIAGEFERVMNWADEIRTLKVRTNADTPADAKKARELGAEGIGLCRTEHMFFEEERIAAFREMICADTKEEREKALDKILPYQQSDFEKLYEALEGYPVTIRFLDPPLHEFLPTEEEDIKKLAKAQGKSVEDIKNIIDSLHEFNPMMGHRGCRLDVTYPEIAVMQTKAVIRAAINVNKKHPDWNVKPEIMIPLIGEDKELRFVKDIVVETADKEIEDAKSNIKYEVGTMIEIPRAVLTADVIAKDADFFCFGTNDLTQLTYGFSRDDSSKFLPAYYDNKILENDPFAKIDQKGVGKLMEMAVKLGKPVNNKLHFGICGEHGGDPSSVEFCHKIGLDYVSCSPFRVPIARLSAAQAVIKERNEKTREN;locus_tag=LOCUS_3750;gene=ppdK;EC_number=2.7.9.1;note=WP_012047993.1 pyruvate%2C phosphate dikinase (Clostridium botulinum) [pid:65.5%25%2C q_cov:98.9%25%2C s_cov:99.1%25%2C Eval:0.0e+00],MGA_377
sequence03	MetaGeneAnnotator	CDS	37421	39976	.	+	0	ID=MGA_378;product=magnesium-translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047937.1;translation=MNKDLDYKELSSKSKEEIMELFKTNEDGLNKNVYHHRLEEYGENIATNRKKKTPMFFILEALKDKFVLILFLLAAIDFITDDKIGAFIILGITLISVIIRFSQDWSTYKFNEKLKEQIRIFTDVIREGKQKEIRQEKVVYGDIITLSAGSVIPADLYLFESKDLFINQSAFTGESAAVEKNINIESKTNDPIDINNICLMGCNVISGQGKGVVIKTGLDTFIGNMNKQKEVVKEETTFDKGMNHITGLLIKCMVIICILVFVIYGMIRGNINQAILFALSVAVGITPSMLPMIVNVNLTKGSKALAKKNTLVKSIKSIQNLGSMDVLCTDKTGTLTKNNIELQKYINVDGEDDDYVLKCAYVNSSLGTGYKNIVDKAIIQYAKSHNVDISNYKKIDEIPFDYMRKRSSIVVTHHDKIRVIAKGALEEVVKVCDMARVNGEEVPITKEITEKVNKKAEEMEKDGMQVIALAVKPEYSGVDEYDAEDEVDFTLIGLIAFLDPPKPSAEQTIKKLKEYGVDIKILTGDNAFATKNICNAVGIETIILTGKEIDELNDYELSKKVEEIDIFARMNPMQKERVVSILRKNGHSVGYMGDGVNDAPALRSSDVGISVDGGTDIAKESSDIILLEQNLEVIHNGVIEGRTVYGNILKYMKLALSQDFGDVFSILIASIFLPFLPLLPIQMLIQDFIVELLQIGIPYDNVDESFLRKVKKWDIKSIGRFMVIFGVISSITDIVAFLVFWFVLKYNSMNLQAYFQTAWFVECIVTETFMIFYIRTNHITKSRPSNTLLLLTFLTIVATITVPIVLSFTTGFNFVILPAIYYLYLIGFVVIYGVIAQIVKSIYIKKLGEWL;locus_tag=LOCUS_3760;gene=mgtA;EC_number=7.2.2.14;note=WP_012047937.1 magnesium-translocating P-type ATPase (Clostridium botulinum) [pid:42.9%25%2C q_cov:99.2%25%2C s_cov:98.1%25%2C Eval:2.9e-199],MGA_378
sequence03	MetaGeneAnnotator	CDS	40186	41811	.	+	0	ID=MGA_379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKNLRVRAASIGVSLVLAGGYGGAMAMPVFAEDVQEEVEVENNDEIVLAEANMGEEIAVEEIVPEVKEQIKEEVVEEQVPEVKKEEEAKKEEVTKEETTKEDDKSKEKEEVKEPKKGASTPEASEEKREENEPHKVSVITVKVDGEGAALAGATLQIIDSNGNVVDEWISDGKEHISMLPEGTYTLHEAGTPAGYTTSEDKTFTVKVEVNDINAGVVHDDSGTVCWHYGGVPLYYVESEGEREEVYCINQDWKEPHDIDYNGMVLDETNIRTFTPDSDPSMTDQELYDKVLDIIYHRSKAEELFPNLSEIEIRFITEYALKTYTSSEVLAANAKRDEQGHIIRDEDGNIVYEYYRFLRYYRYDPDSPQGYVIDPENGDGFGKLAQHWWTAHNHTKIPDEYAQLFYYLIGTSDKHPKDMHLYIYSTKNLAADGESYQNLLGVRWFDPYDEDYKMYLSVINKAKPYTPPEEPEKPKEQDSPKKQKETTTTPTKTSAKVIDAPQTGDDNSFTWALAGLGSSAMALTALAEMKRRENKKVKRK;locus_tag=LOCUS_3770;note=MGA_379
sequence03	MetaGeneAnnotator	CDS	41866	42114	.	+	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDKYLPKLDLHGLDRDYARILLREFIEDNRKLGNKTIEIIHGKGKGILKRAVHEELKINKLVESYKLDNFNDGCTVVILKK;locus_tag=LOCUS_3780;note=WP_010965637.1 endonuclease MutS2 (Clostridium) [pid:39.5%25%2C q_cov:89.0%25%2C s_cov:9.6%25%2C Eval:8.4e-08%2C partial hit],MGA_380
sequence03	MetaGeneAnnotator	CDS	42806	44707	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIYKLIKKKQLKVCYIFLFPILITTGAFLLISSINYKHYQISTYNELENTHFRDAYSKILQIKDENKKLKISIPKTTLYELSEKSKIFGLTKKEVKRQYKLSKRDEVDNGDIIWFFRFITYDKHHFLTGRQADKYYKELSNELDTLFETGELKKEKILPSIYLNSTTNKALVLLPRRILKAIYYTSTYENVRTYSIDELEAQEAIYNNEIDAYSMIYRDYRYAENIITKNTQLAEIMRTIYKIFIVLFSFIALIIYFKNIKKLDNLGFIINIILLVYLLILGGVVYTDITAFHAIRYRYLCNVYILQSIFIMLNLGRIYLNRVETDNTKLASMSDKVTKKINGIKVSVIIPAYNEEKAIDSTIREINEVLKKHSIYKGSEVIVVNDGSSDKTGKIAAKSGAIVINNSHNMGYGFSLKKGIKKAKNNLIVITDADGTYPFNYVPKMIQEQKQGFDLVIGARCGKYYRQSTFKNILRKALKKLVEFVTDRKIEDVNSGLRVFEKSTVVKYLPLLCNTFSFSTTETLTYAMNNHNIAYVDIPYQKRVGKSKIKLVRDSIKVLQYILKLSVYYRPLKIYYLFTFLGITISLIGLICSNFTRIRLGYVLGIGGLLVFIILLLLGFLASHLKQNKDK;locus_tag=LOCUS_3790;note=WP_012259484.1 glycosyltransferase family 2 protein (Chloroflexus aurantiacus) [pid:31.9%25%2C q_cov:39.5%25%2C s_cov:76.4%25%2C Eval:3.0e-33%2C partial hit],MGA_381
sequence03	MetaGeneAnnotator	CDS	44715	45128	.	+	0	ID=MGA_382;product=GtrA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000239847.1;translation=MKNRIRKIVENKMFLYGIFGLLTSILNVIMFYCFDLIMPYQIANLITLVIVKLIAFYCNKTFVFKSKCANKTELIKQFFSFVIVRGLTLLIDYFGLIIMIQYFNLDHVLSKIIITIVVVITNYVTGEKYVFSQKKAH;locus_tag=LOCUS_3800;note=WP_000239847.1 GtrA family protein (Streptococcus) [pid:28.4%25%2C q_cov:98.5%25%2C s_cov:96.0%25%2C Eval:5.2e-10],MGA_382
sequence03	MetaGeneAnnotator	CDS	45314	46960	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTENYERKGFPIRDFLLKLLLIVIFVVLLCWLLPKFIAPKITNYNNSKNNNLANSSFSSTELSGLSSQIFADNLDKMKEAATSYFTKERLPKEIGESKKITLKDMIEEKLLVPLIDKNGKECNKTKSYVKISKLDDEYLMKVNLSCSEKEDYILVHMGCYSYCESAICDKKDSDDYEIRGSKETSIVPFYGTKSGSTKYYYYGGSTTRYVPTSTSSSKGAVYYITNINNYNTTNNHSGGSGSVINNITNNVINIIVNNCHQHGTCPKPDPKPEVEYIYEYSKTTGATFTKWSDWTAWSKTSCDTKEINCSTADPSCLYKLQMYKRREKVGSYQKAYTTSHQELTQLATYNKKSCSNFNYVIIDNTTYATTTTTTTTYTRINTITNTTASSTGGWTYAGRKSYANPPRDTAGVHYKWAGADYSYCGDTCTTLPNWYYDTYKYSGGLTKVSSTTTPGRTTTSTSTSSSTSSSLQVSCGAYVYKTVPVYGYITKYEKAYRTENLYGDVCYKSTKDRKKITDGKTQTRWSVYNDTSLLNDGWVYTGKKRRK;locus_tag=LOCUS_3810;note=MGA_383
sequence03	MetaGeneAnnotator	CDS	46976	49069	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIRNIIIHNEKGDLHDHTLTNGMTIKTRDYLFATVIYEDGTCEEVSFNEGINKAVKLAKKENLTAEEMKDFGIVRYVKEEDYIEALDDVMDEMDDELEIDTDELDFDDEDIEVKRVSSENDHKTAKTIGRLALGAGILALILGSCSLTKGLVKNSTEPTKAEETDDEDFAKAFEDMTIEELLDTTTNDVQKEAMNRRFNVINYLNGEFADYYLESDKDVRFGLHYRELEALDLAYNNYTTEEVMEMYNGSTLNIKKLNDAYRTGTLMMMGAYTMSDSNMPVKGYELIRCPEKREIAKSWEDKFYAIKNAKGQDQINKINDFYREFNSLFPIDQKTRTEGLAHYDSRENMDYELLAYLTPMVSAMEQMYQNLEVDATLSDQAIKFVNDLGVCNYLDDKIENYARCVNTCNDCQKSIDESYPTGLHFENAINAYLESKNINVIDDDHRDISKYDRYLKAVNAYCEAGKDGYTENQKYVSISKTLQSWSKSSSKTTYRTETKKRKVSREEAVKKFGEAKVKAKEEAVRKQIEKENAAAKAKALKEAAKKKKELQDAENKKKEQLEKEIKKENEQNKQDVIDNLPDYVDKDSVSPDPGHSSDLPDPQESGKRLDNNEPEYKGKDRVTPDHIMPVEPNQVNNNTSTNTNTNTNTTPANNSTTYDDLPDPNVTGKDFDAKAEAMVNAMANAKSEESPKTLTK;locus_tag=LOCUS_3820;note=MGA_384
sequence03	MetaGeneAnnotator	CDS	49169	49588	.	+	0	ID=MGA_385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNYIVEYLDENEFRKKERSVRKYNMLAYKKLTFEYYQEIRNGNFLGKEVNKNLKNNTADYELKLPTDDLFAKVHGDIVLHYTVYFDKKIILLTNITPDGILDEGHRAELTTYKGVMVSKAHPEKDMFKINLMNMLNK;locus_tag=LOCUS_3830;note=MGA_385
sequence03	MetaGeneAnnotator	CDS	49645	50283	.	-	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLKYKTIDIDKLLFTELVIAKNQKTSDLFEKEIYKRLGFCGFDDNFIKELIEYEEAILEATKKEYEKYFYQTKYWIDLTEGEKLIKDDINSYALYVDGSMSKNAFTTSELISIYDEADFIINYGEGIYNHHLEEINMLTGNSKYNLLDEFRNRIGYIFSREFGREYDDEIDTWAARFYKNESHILFINKYNYADDDRRWTPYTDEFYKYYN;locus_tag=LOCUS_3840;note=MGA_386
sequence03	MetaGeneAnnotator	CDS	50410	50598	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKSRDESGYSWQKHNPDSGTAQQNSKTWEGEHTWYDPNTQKMGWHGANASDKIKKLGGKN;locus_tag=LOCUS_3850;note=MGA_387
sequence03	Aragorn:1.2.38	tRNA	50753	50836	.	-	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0270;note=Aragorn_27
sequence03	Aragorn:1.2.38	tRNA	50848	50924	.	-	.	ID=Aragorn_28;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0280;note=Aragorn_28
sequence03	MetaGeneAnnotator	CDS	51033	52247	.	+	0	ID=MGA_388;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583323.1;translation=MKILYINHFPLIGSGSGVYTSTIAKSFAKKGNSSIIIYPDNNDKTNEEENITYYPVLFKSHKLPFDFPCFTTHPLSTFAFTSMTDEEKKLYEDVFRDKIEEVIIKEKPDIIHGNHIWTLSGIGAELAKKYHIPLVLTCHGTCILGILEEEKLKHNWGTKWAHIAADYSNRIITISNDNKQNVERIFPNNKDKTILIKNGINTDVFKYDKAIDKEQVLKDFNIPGNYDKIVTFAGKLTYIKGVDTLLDAATIYEDNNTLTIIAGDGEAKEDLIDLAKKNNLKNVFFIGNRSQEELNKLFNIATCSVVPSRKDAFGLVAAEAMASGAPVIVTNHGGLKDLVNDEVGFLFEIGDHNTLAKDILKILNKEVIFDKNKISQYAISNFSQDKMVEEVEKIYQEAIKNRLN;locus_tag=LOCUS_3860;note=WP_012583323.1 glycosyltransferase family 4 protein (Dictyoglomus turgidum) [pid:24.8%25%2C q_cov:99.0%25%2C s_cov:98.7%25%2C Eval:1.4e-22],MGA_388
sequence03	MetaGeneAnnotator	CDS	52294	54237	.	+	0	ID=MGA_389;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964262.1;translation=MENEKVINNIRGLALDMINNAGSGHPGVVLSAAPILYTLYAKHLRFNIDDDKYFNRDRFILSCGHASALLYATLYMAGFDITLDDLKDFRKIDSKTPGHPELGKTPGVDMTTGPLGQGFATAVGIAMAERKLENDFPNGLFDYYTYVLVSDGDLMEGISYEAASLAGTQRLNKLIVLYDSNNNSLDHSTDITFTEDVKSRFKAQNWDVFEVKNGEDVESIDEAINEAKRSSKPSLIIVNTVLGKYSKYENSNLSHAMQLDDDEITIIKNKLNVRDIAFSVSTEAIETFREQVSLRCSNITQNDEAIINNLTEEQKEYFSYLVINDKSIRNISFNEDIEEEEAPRDTSSKILNRLATDNPYIIGGAADVFLSTKTYINDQGDFTNENRDGKNIFFGVREHLMGAVANGLALCGFRPYVSTFTTFSDYLRPAIRLAAMMKLPVVYILTHDSISIGADGPTHQPIEQLESLRIIPNVEVFRPADANEVIGSYKVIYEKKDSPAVIALSKNKLKVLGNAKINEVVNGAYILNDDGRDLNGVLISSGEDVHLSIEVANRLQKKGLNLRVVSVPCIRRLMELPDKKYDEILPVEKKKIVISTEISGSWNEIIYNPDCLITMSTFGASGSKEDIYKKFGYDIDTLEKKVEELIK;locus_tag=LOCUS_3870;gene=tkt;EC_number=2.2.1.1;note=WP_010964262.1 transketolase (Clostridium) [pid:42.8%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:3.8e-140],MGA_389
sequence03	MetaGeneAnnotator	CDS	54288	54713	.	+	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTYYIFNIKEEFKDLYGDNPSGLYNILNNIKNIKYDEANFGITFLKQLTRKIEKQHLDNYLFIKMHKEAFYSKKENIHYYSDGILNEISNLEVMNSCIRIITNKKNSIFIKYLERYSTNFFICDFKNTNFYFIDRIKTLV;locus_tag=LOCUS_3880;note=MGA_390
sequence03	MetaGeneAnnotator	CDS	54757	54966	.	+	0	ID=MGA_391;product=YneF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831215.1;translation=MAHDIILVVISLLVGAVIGFLIAKQYMQKYLKKNPPINEDMIKTLMMQMGRKPNQKQINQMMKAMEKYN;locus_tag=LOCUS_3890;note=WP_001831215.1 YneF family protein (Staphylococcus) [pid:63.5%25%2C q_cov:91.3%25%2C s_cov:84.0%25%2C Eval:1.7e-18],MGA_391
sequence03	MetaGeneAnnotator	CDS	55033	56346	.	+	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIFSIHNVFLMLVVVLIGVLSLNIKEAKAAGTVTWSGPNSITIRETIRNIANPIVASSEHGLFASGDDTTPVSTATINYTASDTPTNYQITKSTTMDLSSLMFIKPGDYEYYFEPDGLIDSNDYSIDAYFDPEDDFNYFVVVQVRNVVDANNVPTGNFTASLILYNTVYNEQTGEEEMVKITPISGVLYANYDFETNSTYFGHIELSKTVKGIGADTTEYFPVTISIDNDPGDSESDYRSIDSSGWTYPISGLDATVTYNGNTINNPTTITDGTPTTIYLKHGQTAIIGQVTSGGNTFDAIPVKRRYSIPPLDPNPGGGGIIIIKNYKANPITPKKMININGDDLFGSYFTAVETPGSYSPSYSIDGEAAETGYSVPATEIASGTNTVDFYNTKEMSPVTGLIFTILPYLILAGIGIGGTLLIMHLKKEERKVKE;locus_tag=LOCUS_3900;note=MGA_392
sequence03	MetaGeneAnnotator	CDS	56393	58156	.	+	0	ID=MGA_393;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246045.1;translation=MKDFKQKLSNTPTAPGSYQMKNKDGVIIYVGKAKNLQKRLRSYFTKSQTGKTLRLVEEIDDFEYIVTSSELESLILEITLIKKYNPKYNILLKDDKTYPYIELTNEKYPRVRVVRNVKRKRNKNYLYGPFPNVKAARKTVNIINRIYPLRKCDRLPKEVCLYYHIGECLGYCAYDIDEEIINTMKKEIISFLKGDSSIITKKIKEEMQKASDNLNYERALELKEMLTDIDITLSKQKLDLRQAIDFDVINYYTDKNYVSIQIFFIRDGLLTSRHEEIFSSIDKSEDEIIEYIIKFYDNLGIIPKEIIIPESINKDLLEEYYQNKVLVPKKGKYKKLLDLAYTNAKDKLLSREEKEIESNQSRLEAIDELSSLLGRKVSKMEAFDNSHLFGTFYVGGMVVYDDFIPLKNEYRKYKLSLDVKDDLKAMHEVLYRRYFKLLMENLPYPDLIVMDGGKTQINVAKEVISSLKLDIPIIGLVKDSKHRTSYIMDENYNVLEIKKDSKLLLFLTKMQEEVHRFAITYHRNIKSKGALVSVLDSIPGVGEKRRKSLIREFGSLKKLKEASVEEIGKVIKNKTDAEKIYKYLKEI;locus_tag=LOCUS_3910;gene=uvrC;note=WP_003246045.1 excinuclease ABC subunit UvrC (Bacillus) [pid:45.3%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.7e-144],MGA_393
sequence03	MetaGeneAnnotator	CDS	58181	58570	.	+	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKGYTLIELLGTIAIIGILTYLAVAGVSKYVDKSKKETYANHEKTLKRATQNYMMDHLDSTGRIAASTLKDEGYLDNLEDPKSHTSCIPNTFVDVQASQAPNSFNTSYTYTICLKCANYESETCPSS;locus_tag=LOCUS_3920;note=MGA_394
sequence03	MetaGeneAnnotator	CDS	58579	60300	.	+	0	ID=MGA_395;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732291.1;translation=MAKIEVMDQNLANKIAAGEVIERVMNVVKELVENSIDAEASEIKIELENSGIDKIKITDNGIGMNKEDAHLSFSRHATSKIKKIDDLFDIETLGFRGEALPSIAAVAKVKMKSSDGKEGTTIIIDGGKLVKEEDSDLKKGTQIEVEKLFYNTPVRLKYLKSPHVELSHVLEYLNKIVLAHPEIKFTVKNDGKELIKTDGRGDLLKVIYNIYGADVAKKMITIESENDDYSLSGYIAYPEKARSNRNAITTLVNGRYIKNNFLNRAIIDAYHTYIPKDKFPIVVLNISVDPILVDINIHPTKMDIKFSKMNELKELVNDSIVKNLEKLVLIPDISENKVIEDKAEITDYQEELEKIEKDDDYTIAEPTYEEISLDFDEVRTIKRIIPKGIVFETYIIGENEDGMYIIDQHAAAERINYEKYLTNMKKEKTTVTDLLIPIKIELPNNEFIIVKNNLELLESFGFNIEEFGSNTFIVRSHPTWLLEGFEEEQIRKIFEIVSVKEDFTREKFIDRTAMTLACRMSIKAHDYISEEDMTYLLDTLIACENPFTCPHGRPTIITYSKYELERLFKRSMN;locus_tag=LOCUS_3930;gene=mutL;note=WP_003732291.1 DNA mismatch repair endonuclease MutL (Listeria monocytogenes) [pid:45.2%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.7e-144],MGA_395
sequence03	MetaGeneAnnotator	CDS	60301	61176	.	+	0	ID=MGA_396;product=tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000504940.1;translation=MKKDIIVIVGPTGVGKTKVSIELAKRLDAEIINGDSVSIYKRLDIGSAKPTPEEREGIIHHLFDIKDIDEEYSVYDYQKDGRKIIDELEKNNKQIIIVGGTGLYIKALLYDYRFTEGTKYDEYNDLSNEEILTKINEFDQDINIHPNNRQRLVRTLNKIENNEKINSNKDQALYNIKVIGLTTNRDLLYERINKRVEIMFTNGLLEEVNSLKEYYSKSKILNNAIGYKEFVPYFNNECSLNEVKEEIKKNTRHYAKRQYTFFNNQFNTNWYDVNFNDINATIEEIYCDIIK;locus_tag=LOCUS_3940;gene=miaA;EC_number=2.5.1.75;note=WP_000504940.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Bacillus) [pid:41.1%25%2C q_cov:93.5%25%2C s_cov:90.5%25%2C Eval:7.0e-57],MGA_396
sequence03	MetaGeneAnnotator	CDS	61200	62960	.	+	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDYENMFLATLMKKYSVGDNHLVFLPMNTMCGSVAFFNNVPTVDENNEEVFEILPEYDETVENGDFATIFIDSAGNNYFPLDDYDFLISNCDQCYTTLVRVTDLIEGEPTEENVQEAIQNFSEETQHLIVDAKYDDEKDEYSFTPIFLDKVFTTTEENVEEIEKDDNDKEGTVSLTADDLLSLLAENAFDIDQLRDIRSQLTETAENIKVLEEFVDNELKKEETPEDKPTSKIVALLKDQYNVDTFDRNEVFKKVSSAVISQDEHIARILSELQRIDIAEATGSIEYNSAILLTGSTGVGKTEMMRQIAKAINRPFAIVDTNQLTTAGYVGLDIEEVLYQLYLDCNKDIKKAEKAIIFFDEIDKKGSSNKDDPHGKGVLNELLKFVDGTTYMAKPNIHSTYGVNIDTSHMRVIFGGAFTEVYKDFGRRNAQIGFNKTEVVKKEPNIDDFVEKAQIPDEFMGRCSVVIHLNDLEEKDLAEILVKSNISEIKNQQKIFKQIGINLKCSDSYIKEIAHQAYLEKTGARSLRGKVSASAWSALDYAIDHTGEFDTVTFNKNTALDSRKYHIYKKEIKNMEKVKTKKKSK;locus_tag=LOCUS_3950;note=WP_012546526.1 ATP-dependent Clp protease ATP-binding subunit ClpX (Thermodesulfovibrio yellowstonii) [pid:36.6%25%2C q_cov:47.6%25%2C s_cov:72.9%25%2C Eval:1.1e-34%2C partial hit],MGA_397
sequence03	MetaGeneAnnotator	CDS	62970	63494	.	+	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSDTELLFMQQIQHVVTEFNEKANNYNTRREFQNARDFLNLINIYLTNRTFELYDKRTYLEMDIDKEKEIYMALKSRMNGLLHYFNRNSQVIEYNENNKDPVDYIHLSKVYYYLKTATDIKTNNLKDVLKYYKKLDKKMIKEYYRSTTTSGAFVEEANTLVEANRISNEKRL;locus_tag=LOCUS_3960;note=MGA_398
sequence03	MetaGeneAnnotator	CDS	63586	65481	.	+	0	ID=MGA_399;product=DNA topoisomerase IV subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001062207.1;translation=MKYDSSSIKILEGLEAVRKRPGMYIGSTDKRGLHHLVWEIVDNAVDEAINGFGDYIKITIHNDKSVSVEDHGRGVPTGMHSSGRSTPEVIYTILHAGGKFESDGYKVSGGLHGVGSSVVNALSEWMEVTIKRDKEEHFIRFKDGGKVDIPLKKIGTTNRTGTTVRFMPDKEIFSSINFSYTTICERMQESAFLLKGITIEVVDEEDDRKAVFCYKRGIEEFVEDLNRNKNPLHKVLTMNGSKDKIEVDVAMQYTDSYSENIVSFVNNVKTIDGGSHEVGFKTALTKVFNEYARSHDFIKGKEKSLEGTDVREGLTAIISLKIPEEALQFEGQTKGKLGTPAAKSITEAIVSENLRVFLEENKTIATEIINKSLKSKIAREAARKAREEARKGTKKNVKERALSGKLTPAQCKDKTKKELFLVEGDSAGGSAKQGRDRKYQAILPLRGKVLNTEKTKEADIFKNEEINTIIYTIGAGYGSNFDIKDCEYAKVIIMSDADEDGGHIQCLLLTFFYRYMKPLIEDGRLFVALPPLFKIQSGKDIEYAYTVEEMKEKSAGKKCDIQRYKGLGEMNADQLCETTMKPGSRTLIRVNIEDAQLAEKRVSILMGDEVAPRKEWIEENVEFSLEDDYKI;locus_tag=LOCUS_3970;gene=parE;EC_number=5.6.2.2;note=WP_001062207.1 DNA topoisomerase IV subunit B (Bacillus) [pid:61.6%25%2C q_cov:99.8%25%2C s_cov:97.2%25%2C Eval:6.1e-228],MGA_399
sequence03	MetaGeneAnnotator	CDS	65493	68069	.	+	0	ID=MGA_400;product=DNA topoisomerase IV subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231550.1;translation=MPKDETKKVIEKIFDYTLEDIMGERFGSYSKYIIQDRAIPDARDGLKPVQRRILYSMHKEHNTHDKGYRKSAKTVGDVIGNYHPHGDTSIYDAMVRMSQDWKTRDPYIDMHGNNGSIDGDSPAAYRYTEARLSKIASELFKDIDRDTVEFAPNFDDTTKEPTVLPARFPALLVYGAQGISAGYATNIPPHNLSEVIDAAIHRIDSPNCTLDTLMKYVKGPDFPTGAIVEGLDGIKSAYETGKGRIIIKSKYEYNKKTNQIIITEIPFEVNKANLVKKIDDIRLDKKIDGISEIRDESDKDIRIVIDLKKSAREELVINYLLKNTDMQISYNFNMVTIVNRRPKLIGLKGALDAFITHQKEVVTRRTEFDLRHAKERFHIVEGLVKCLSILDVVIKVIRASKNKADAKANLVKEFDFSEAQAEAIVTLQLYRLTNTDVVLLEEELANLKKIIAELEEILNNEESLKNVMKNDLRRVKKEYGKERLTEIKSEVTEIKIDEKMMIPSEEIVVLLTNDGYIKRSSYRSYKATDDDPVLKENDYIHNLIKMNTKDTLLVFTSLGNYLFIPAHTIFDLKWKDMPKHISNLIEIKEDETVVNAIPVKKFTDDKNIIIASRDGMIKKTSLKEFEVSRYSKPITCMKLKDNDQVINAYIEEKDKVFVSTDSGYGLSFKASEIPLVGLKTAGVKSIKLKGDHVACVNSFNDNDEFLTVITDKATTKRIRLSEFELSTRARRGLLIIREVKTNPYKVLKTFIVENNVNIGLKNKTINLYKVTEFPILDRYSTGKEIEKTKLTDAFIEATLKEKKDIITIEDMNEEPKEEVKEEKEVVKKEPPKEKKPKKERISLKEIDDRLLTIDDFLD;locus_tag=LOCUS_3980;gene=parC;EC_number=5.6.2.2;note=WP_003231550.1 DNA topoisomerase IV subunit A (Bacillus) [pid:52.8%25%2C q_cov:91.0%25%2C s_cov:98.4%25%2C Eval:8.9e-241],MGA_400
sequence03	MetaGeneAnnotator	CDS	68125	68460	.	+	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKDSFKVFVRKHPELADATLNNTTTWQKLYELYEMYGENSSVWDKYFKTNNVTTSFTNFIDTIKGVDINTVQKGIDNIQKTIGLLQDIGLGATATPKIYEPRPLYKYFDD;locus_tag=LOCUS_3990;note=WP_003232233.1 YlbD family protein (Bacillus) [pid:25.5%25%2C q_cov:79.3%25%2C s_cov:74.2%25%2C Eval:1.1e-07%2C partial hit],MGA_401
sequence03	MetaGeneAnnotator	CDS	68460	68681	.	+	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVYVQMKIRSNPYLYRYLRENSYWYKYLNRNPASIIKMEEEMKEKYYLTLDSKIEDLSKKVNMISSFLDVIK;locus_tag=LOCUS_4000;note=MGA_402
sequence03	MetaGeneAnnotator	CDS	68713	68979	.	+	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKVDKLIKSIDESNTVKDIKESIKAIKENHELMDKLTKYNETYDESLKQEVLEYPEMINYRHNENELNYLILEINKRLKEITNESN;locus_tag=LOCUS_4010;note=MGA_403
sequence03	MetaGeneAnnotator	CDS	68966	69502	.	+	0	ID=MGA_404;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001263796.1;translation=MKVISGKYKGRKLLGFNIDGTRPTMDRVKESLFAMIQDYLAEATILDLFCGSGALGIEALSQNSKYAYFIDKNPKAINIVKKNIETLDITNAEVIRNDYLKFLESTTNTFDVIFLDPPYKTDFISKTLNIIEKRNLLNDKGIIVCETDQLNKVNNNNFTSIKEKKYGDKYIVILKKIV;locus_tag=LOCUS_4020;gene=rsmD;EC_number=2.1.1.171;note=WP_001263796.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Staphylococcus) [pid:43.3%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:1.2e-31],MGA_404
sequence03	MetaGeneAnnotator	CDS	69521	70642	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRINNKGFAISTIIYGTLIMAVMIVMILLSTMSFSNKSTKDLVKEIEEDLNSTAIFDTGENVNQKMKKLANPGASDVTKDFADTKIKAIKGATTLPSGFTPAADNNVSITPKKPIYIWFDSTDETIYFHSDAVTLYLNANSNYMFMELQSLTDISFLSSVDTSGVTRMQNMFKSCKSVTNIDALTSWNTINVTNMRGMFYGCKDLTNINGASNWNTSNAADMSAIFQECSSLTNINGASNWDTSSATSMYAIFYYCSALTNINALSNWDTSKVTDMRRMFQRCTLLESINGASNWDTSKVTEIDYMFYYCPKASGTIKILSNPTTYTDAFANAATDSGAQITVNYRNNTTNIDNIIATKSENSNVQKGTLIS;locus_tag=LOCUS_4030;note=WP_011102048.1 BspA family leucine-rich repeat surface protein (Lactiplantibacillus plantarum) [pid:28.8%25%2C q_cov:83.4%25%2C s_cov:46.1%25%2C Eval:1.2e-30%2C partial hit],MGA_405
sequence03	MetaGeneAnnotator	CDS	70768	71766	.	+	0	ID=MGA_406;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246126.1;translation=MLTSRQSKILKLIVEQYVKLAKPVSSNLICKTLKCSSATVRNEMATLEELGLLEKTHTSSGRIPSEKGYRYYVDNLMELKEMNAEDMLKLQIIFKNQEMELSDAINKSLQVISDMTSYATVILGSSSHENLLKKIEVVPVDDESMICLVVTDKGHVEHKQIKLENVDQIEIKKTVELINNLIVGTPIDEVSTKLEYEIKPIIGKYVKQHEQLYNAFYHVFSDIASENINVQGKNKFLTQPEFSNIDKIKEVFEKLDDKEVLNDIKEDADNNIKVYIGKENNVDDDCTVVKTKYSVGDDEATIAVIGPKRMEYDRVVNILKYIKENIEKDNEE;locus_tag=LOCUS_4040;gene=hrcA;note=WP_003246126.1 heat-inducible transcriptional repressor HrcA (Bacillus) [pid:36.7%25%2C q_cov:98.8%25%2C s_cov:97.7%25%2C Eval:2.4e-64],MGA_406
sequence03	MetaGeneAnnotator	CDS	71768	72316	.	+	0	ID=MGA_407;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016151.1;translation=MKEELKKDPNIKEDKKEKEQPKEENIIEKLTKENGELQEKIKYLQAETINYRKRKDEELESRLKYANQDLILELLNIVDNFELALKHEDVSEEVKNYLTGFKMMYTKLKEILTNYGVEEICRIGEIFDPTKEQVLITEEEKGKKEDEVLDVLQKGYILKGRVIRPATVKINKMNEKGEMKNE;locus_tag=LOCUS_4050;gene=grpE;note=WP_011016151.1 nucleotide exchange factor GrpE (Fusobacterium nucleatum) [pid:37.4%25%2C q_cov:94.0%25%2C s_cov:84.4%25%2C Eval:1.4e-22],MGA_407
sequence03	MetaGeneAnnotator	CDS	72309	74126	.	+	0	ID=MGA_408;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398786.1;translation=MSKIIGIDLGTTNSCVAVLEAGNPTVIPNPEGGRTTPSVVAFKNGERIVGEAAKRQAITNPNTISSIKRLMGTSKKVEAEGKKYTPEEVSAMILSYMKDYAESYLGEKVTKAVITVPAYFNDAERQATKNAGKIAGLEVERIINEPTAASLAYGLEKEEGQTILVYDLGGGTFDVSILELGDGVFEVKSTSGNNKLGGDDFDNRIIDYLVAEFKKENGVDLSQDKMAMQRLKEVAEKAKKDLSGVTTTQISAPFISQGEAGPLHLEMSLTRAKFEDLIRDLADSTLDSVTKALKDAKMKKEDIDKVILVGGSTRIPYIYDLIKKELGQEPSKEVNPDEVVAMGAAIQGGVLTGDVSDIVLLDVTPLSLGLETLGGVMTTLIPRNTTIPTSKTEVFSTAADNQPAVDVHVLQGERSMAADNKTLGRFQLTNIPPAPRGVPQIEVTFDIDANGIVNVRAKDLGTNKEQSITITASTNLSDEEIERMQKEAEENKEADKKKKEEADLKNEAEQLVFQTEKSLKDLGDKVDASEKEEAEGLIKELKEALEKNDLDEIKDKKEKLQEKAMALATKVYEQVNKERAEAANNEAPKEEEKNEEVKEADVEEK;locus_tag=LOCUS_4060;gene=dnaK;note=WP_004398786.1 molecular chaperone DnaK (Bacillus) [pid:72.2%25%2C q_cov:94.9%25%2C s_cov:94.1%25%2C Eval:5.6e-231],MGA_408
sequence03	MetaGeneAnnotator	CDS	74167	75972	.	+	0	ID=MGA_409;product=oligoendopeptidase F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004453998.1;translation=MEKYKDRKDVPTKYKWDLTDYFKNEKEFQETYDKTLKLVNTLIKYKGSLNNGEKLYEFLEKDSEISAIVERLYIYAYLINDQELGISKNISRKSKCEELITLYSINTAFFAPELLQLDKKKYKELFKNKGLNKYKVLLDDIYKNKDHILSEKEENIIAELNNATNHFDDFSSNMLNREHNYGEITINGKKEVITTTNVRKLLKNDDRKIRKEVWNKYYSTIDNYAISSASFLNGYVKTNLTNAKLHNFKNAWEAKLFNLDMKKEAYDALVNNTLKNVDKLQKYFRLFRKTKKLDKLYQYDLNLELADSTKEYSIEEAQNICLEAIKPLGKEYIEAFRKIFTNRYIDYAEYKGKQSGGYSFAPTDRDSRILMSYNYDLTSVSTIIHEGGHNVHHQFVSKNNPYHYRDVSNLVAEVASLTNECLLSSYLSENGTTKEEKLAGISNILGVFISNMYGAVREGTIERKFYDYVEQDNTISKEYMNDLVNKSLKTYYGKEVILDEYSPLSWTTRSHYYMNYYLYNYAFCIAVASSVAKEILNGNQDMLKNYLKFLTLGSDIKPLKAFKVLGIDLTKDETYKNAYQYFDSMLDKFMTISKEGEGSGQ;locus_tag=LOCUS_4070;gene=pepF;note=WP_004453998.1 oligoendopeptidase F (Clostridioides difficile) [pid:31.1%25%2C q_cov:97.0%25%2C s_cov:98.7%25%2C Eval:4.7e-89],MGA_409
sequence03	MetaGeneAnnotator	CDS	75962	77131	.	+	0	ID=MGA_410;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010990134.1;translation=MASKNKRDYYEVLGVSKNATEKEIKSAFRKKAKEFHPDLNKDNKEAAAEKFKEAQEAYSVLSDERKRANYDRFGHAGVGNGPTGSGFEGFSGFGGAGFDGFQGVDVDLGDIFDTIFGGGRDFSSFTGRGNRNRKTRGDDMLMRLNISFEESVFGCEKDIKVDVVEDCPDCHGEGGFDKETCPNCHGSGTVTGEQHTIFGSFLSKTTCPTCQGTGSSFKRKCTSCHGSGKVTENKTITINVPSGIATGDRLRVSGKGNAGNNGGPNGDLYLEFIVKKHKYFKREEDDIYLEVPITFIEAIKGGKKEIPTIYGNVKLNIPAGVNSGDIERIKGKGVNNKTNNHKGDMYIEFKVITPTKLTKEQKKIIEKLEETTFNTPEIDKFAKFTKENN;locus_tag=LOCUS_4080;gene=dnaJ;note=WP_010990134.1 molecular chaperone DnaJ (Listeria monocytogenes) [pid:42.4%25%2C q_cov:94.3%25%2C s_cov:93.6%25%2C Eval:4.5e-84],MGA_410
sequence03	MetaGeneAnnotator	CDS	77156	78067	.	-	0	ID=MGA_411;product=ribonuclease HIII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000071591.1;translation=MNIVIRVNDEIKQKMIEYYKDKVRPKKIPYVVFQAEEEDTVITMYESGKVMFQGKSADVDASMWGIALEETKKEKKKISKEEQKYYDSSSIGSDEVGTGDYFGPIVVTATYVNKKDIKKLEELGVGDSKKITDDKILKIAPKLIKIVKYKSQILTNKEYNEKYSKDINMNKIKSIMHNKVLYDLVHSEKLDYDYIIVDEFAREARYYGYLEGIPNIQKGITFLTKAEDKNLAVASASIISRYIFLKEFDKLSDELHIPLPKGAGKDVDTVGEEVVEKYGEDKLKDIAKLNFKNTDRILHTMIY;locus_tag=LOCUS_4090;gene=rnhC;EC_number=3.1.26.-;note=WP_000071591.1 ribonuclease HIII (Bacillus cereus) [pid:39.6%25%2C q_cov:99.0%25%2C s_cov:98.7%25%2C Eval:3.0e-58],MGA_411
sequence03	MetaGeneAnnotator	CDS	78137	78793	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFDIVIIILLVLGGIIGFKRGVIKEVIGLVCFILAFIIAYLLKDFVAGIIINNISGLNSVTSIITYKLVTFLVLFVLVLILSRIILKLGNIVDKLVKATVILEIPSKILGFIVGVIKYYLVIFVALLVVSVFSIYNEQFNNSHLAPKILDNTPILSGVTSKIRHTIDDLKDVDQDLEKDQEIIDTLVNNKIISKKDIEELIKKNKIKDVKVKIKKD;locus_tag=LOCUS_4100;note=MGA_412
sequence03	MetaGeneAnnotator	CDS	78790	79371	.	-	0	ID=MGA_413;product=YigZ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003546537.1;translation=MKTVTNAENMIEIKKSKFIASIFNVTNLDDIDKYMEEVKEKYPKARHYTYAYILSDTERSSDDKEPTGTAGTPMLNVLKNNNLSNVLCVVTRYFGGIKLGVGPLTRAYVKSITEVLKKCQYIELEDGYNVEIIFSYNNEAKINRILNNSTIIKKEFNEDITYLVAINNETLDKLKEENVNLNIINKTYIKKGS;locus_tag=LOCUS_4110;note=WP_003546537.1 YigZ family protein (Lactobacillus acidophilus) [pid:38.1%25%2C q_cov:96.9%25%2C s_cov:86.8%25%2C Eval:4.8e-27],MGA_413
sequence03	MetaGeneAnnotator	CDS	79647	80180	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYLISGKARHGKDTFAGFMKDYYESIGKKACIMHISNYIKHFAIDYFGWDGKEETKPRTLLQELGTDVIRVKMGKELFFINRLLEDMEVLENFYDVFIVSDVRLPIEFEEIGKHHDTVNIHINRINYESVLSTKEQKHITETALDNYDDYDYRITNDTLDKLKEDAEKLVKEVEKI;locus_tag=LOCUS_4120;note=MGA_414
sequence03	MetaGeneAnnotator	CDS	80177	82876	.	+	0	ID=MGA_415;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002261891.1;translation=MKKFTHMEIRKMWLSFFESKNHKIIESAPLLPINDDSLLFINAGVTPLKKYFDGSVVPENKRLTNIQKCIRTNDIENVGVTKRHLTFFEMMGNFSIGDYFKDEAISYAMELLTSPEYFNVDKNLLYVTIYTDDDYSYDKWIEVGMDEDHIVRLEDNFWEIGEGPCGPDSEIFYDRGEKYDPDHNALELFKCGEDQERFVEIWNNVFSQYNSKKGEKREDYKELPNKNIDTGAGFERWCTIFQDKDSMFETDLFKIPIKHLEQLSGIKYSGQTPFKVIVDHLRAITFALSDGIYFDNAGRGYVLRRLLRRSVRMGKMLNINKPFIYKMVSDVVETFGEVYPNLVEKQGEIAALVLEEEKLFLNTLDAGLKILRNLTANSNDGFISGADAFKLYDTYGFPFELTKEYLNEMGFSVSEEEFNKYMDMQKELAKKNAKTKTQMASQKKVLLDFKEPSEFVYGIYRLKSKVIGIFSKDSLEKELTRGGYIALDRTCFYSEAGGQVSDTGIITGQNFKARVLDVFKGPNGQHIHKVKLLDGKIKQGDTCELILDKERRKAIEANHSSVHLLHYALRSKISENIHQAGSYLDQDRLRLDFTYTGKLTDDMIKTVEERVNESINNKLIVSTEVLPIEKAKQLGAMALFNEKYGDIVRVVKMGKSMEFCAGTHVSNTKDIKEFAITSYESKGSNVYRIEAVTADKIESALTEITKPYHDEIIKLLMKAKSIIDAAEKEGLSLNFDVDIENPRPSSYKDVIFIKNELAYIQNEVKMLEKRYNIEKEKATLSNLDEYEKLVKQYDDVFTVVTRVDNKDVNMLKVVADALINELGKAFVFFANVKDNKTVNFICRSSCDISAGIIVKDSAVTTNGNGGGSNTFAQGGGNNIDKLDEVFAHIEDVLNGKDYM;locus_tag=LOCUS_4130;gene=alaS;EC_number=6.1.1.7;note=WP_002261891.1 alanine--tRNA ligase (Streptococcus mutans) [pid:41.1%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:7.3e-185],MGA_415
sequence03	MetaGeneAnnotator	CDS	82857	83810	.	+	0	ID=MGA_416;product=DNA polymerase III subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001279906.1;translation=MVKTICKNYLIETTDAKTKELRIKDLIGTSSFKSYDINTYDLSEDISFDKVMESIDTYNLLSDNKVIIVENIEHLKDDRERETLSKYLDNPKDDILLIMTTKKIDNKLKIFKLLKDKVKVLNDEIDPTKYIKDNLEEYKMSDKDIALLIKYKNKDITAIDNELCKLKAYKLNNKEITKEDIENIVIKAKEEEDQLLFSLVDSIITKNKKLALEDLNSLKEQAIDPFSIIALLDNQLRILLQTYILREEGKKEKEITDILKIHPYRVKLALNNSYNYTRKEIENTILELAKLDYNIKSGREDKSLALDMFIINLKDKH;locus_tag=LOCUS_4140;gene=holA;EC_number=2.7.7.7;note=WP_001279906.1 DNA polymerase III subunit delta (Bacillus cereus group) [pid:26.7%25%2C q_cov:98.4%25%2C s_cov:96.4%25%2C Eval:2.5e-26],MGA_416
sequence03	MetaGeneAnnotator	CDS	83807	85027	.	-	0	ID=MGA_417;product=replication-associated recombination protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000812943.1;translation=MMDKPLAYKLAPKSLKEVVGQEHLIGKDKVLTNLVKNKKLFSMILYGPPGVGKTSIANALVNDLGLRYRSLNATINNKKDFDVVCEEAKMYDGIILIMDEIHRLNKDKQDLLLPQIESGLITLIGMTTSNPYHSINPAIRSRCQLFELHELSDKDILKALKRAIKSPYLDKITIDDETLKLIVKLSRSDLRYAYNLLEIAYYSTSDQKVTKEVIKKINSKPVFFSDKNGDGHYDVLSAFQKSIRGSDVDASLHYLARLITEGDLDSIYRRMSVIAYEDIGLANPAIGPRVDAAINAAERVGLPEARIPLGTIVTEMALSPKSNTAHIALDKALEDIEKGIISNVPDHIKNNSTTYKYPHDYEGAYVYQEYMPKKLKGVKYYEPKDIGYEKNIKAIYEKIEKEKDKH;locus_tag=LOCUS_4150;note=WP_000812943.1 replication-associated recombination protein A (Bacillus cereus) [pid:52.1%25%2C q_cov:95.1%25%2C s_cov:94.6%25%2C Eval:6.8e-115],MGA_417
sequence03	MetaGeneAnnotator	CDS	85042	85356	.	-	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIDLLMSYKRSLQIIQDEINLINADMEYLAIRKERSIERLQEIARKICEIEGHRLSADKTLTVKDGMVRKCVRCGAIVPVNKTKKEDIITNVKVFKKTPKIK;locus_tag=LOCUS_4160;note=MGA_418
sequence03	MetaGeneAnnotator	CDS	85358	86221	.	-	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNRKDGKVVTNLNGMNYIMHDILKRRVDNEVYGNYSIDVTELLKYLEKENKKKDVHITCFHAFSTAIAKVIYNRPYLNRFIVNGKFYDRNNVTVSFVAKMEFNDDSQEVMQVIKALEDDNIFTFSKKIGKRVHESRNSETSSTDDLVSKVGKLPRLLRYFVVGCYKWADKHDLLPLSMTEEIIYYSSAVVSNIGSIGSTTAIYHHLSTFGTNSMLITMGKIYQKEVILDNGKKEIRSFCDFGITLDERIADGFYMIKSVQLLEYLLAHPKLLEEKMEKKITLKEGK;locus_tag=LOCUS_4170;note=MGA_419
sequence03	MetaGeneAnnotator	CDS	86300	87193	.	+	0	ID=MGA_420;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398985.1;translation=MEISTAIEDYLNYCLVEKGLSKRTNKSYHYDLLSYQDYLKKKHITKVNSIETKTIENYLKHCYNNNEEVSTIAHKLTVIKNFHNYLYKEKIVKKNVAEFIARPKTKKTLPKTLSIKEVDKLLDIKLETPFDYRNKAMLELMYASGLRVSELVNLKVTDLDFTNMIIRITGKGAKERIVPFGEYASVSVKLYLEKRPSMLKGKEVEELFINNHGKPITRQGFFKNLKKILKDKGLNEDISPHSLRHSFATHLLERGTDLRSIQELLGHSDISTTKIYTHISEKQVEEDYIKYHPREEK;locus_tag=LOCUS_4180;gene=xerD;note=WP_004398985.1 site-specific tyrosine recombinase XerD (Bacillus) [pid:47.8%25%2C q_cov:97.0%25%2C s_cov:98.3%25%2C Eval:1.3e-74],MGA_420
sequence03	MetaGeneAnnotator	CDS	87190	87603	.	+	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKALRIISIIISVGYILVGFYLFFANDMEAIFIPIIMSTIAGIPLLYLLKDKEKNSTLWRVILAIFDAIGIVVFLFIILSFAMLFRPCTGYDCLGQALFPMTSAFALPMMFVYGYISVDFFKNNDKRRENEEEKEKE;locus_tag=LOCUS_4190;note=MGA_421
sequence03	MetaGeneAnnotator	CDS	87578	88015	.	+	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKKKNNYIKTSAVIAIINTVLLIFLAFVLPTEILFLAIVNVIPLILYFAKIKNYTWVTILFIIINDLVFLICFGYLVYWFIFSLGHSNCNELICFNTTGIVILGLFINFIVFLPYIILSIDMIKNRKKKKKKTKTRKRNNMI;locus_tag=LOCUS_4200;note=MGA_422
sequence03	MetaGeneAnnotator	CDS	88039	89205	.	+	0	ID=MGA_423;product=phosphopentomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001046079.1;translation=MRFKRVFLLVLDSLGVGEAEDAVNYGDTGANTLKHIEENYDLFIPNLKKIGFLNTVNMDVKEDVDAYYTMAKPNNAGKDHINGYYELIGLLSTIPYKTFNEGFPGEIIANIEHITGRKVLGNICCTDDTIIKELGEAAINYGGLIVYTSADSDLQIAAHEDIIDIDTLYKYAERIRALTLRENWRVGRVIARPFNGSAGNYKFIKTARKDFALKPPKRTILDKLCEKKYNVIGIGEVNAIFDGAGINKTIKAVDNAEAINKLIDIMDKKFTGLCITSLNDFDTVYGHNRDVEGYGKAIEDLDVDIPLILNKLELDDLLIITADHGNDPTFPGNDHTRENVPVILYSRNFSEPKRLIPFKTLADIGATIADNFEIDPPEIGESILSILV;locus_tag=LOCUS_4210;gene=deoB;EC_number=5.4.2.7;note=WP_001046079.1 phosphopentomutase (Bacillus) [pid:45.9%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:7.9e-97],MGA_423
sequence03	MetaGeneAnnotator	CDS	89233	89433	.	-	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKCKKINCTVENCAFQDLDHSLCQLEEIDVGCVSDEIAYDASETSCKSFLARDNEEFATEYYFDE;locus_tag=LOCUS_4220;note=MGA_424
sequence03	MetaGeneAnnotator	CDS	89676	90449	.	-	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMNKLNDLLNELGISKVRLAKYLGVSRQMLYNYLAMDSFEEWPKEKCVKLFSLLNITDEKEIDKINPTGEYIIEVESRLNEGVKDTTNREIIADLKGFNKREQELITDIINLLKEKLMEDKSRDTYNTYLYLYHYLQSMETNDELKYLLAYMSKAMGFTDAMEFVYNKEKQFIFEGIMFSAMTLYNNGGSSKKKIAEAHDRFVKDIEQKTEEKLSRTQELNTAKVQALKELGYTEVNADNAKEVFEKIAEIQLRKV;locus_tag=LOCUS_4230;note=MGA_425
sequence03	MetaGeneAnnotator	CDS	90543	91646	.	-	0	ID=MGA_426;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_202943733.1;translation=MKKVIVGISGGVDSSVAAILLKEQGYDVEGLFMRNWDSSINNDILGNPDLNNNICPQEQDYNDALEACEKLNIKLHRVDFIKEYWDDVFTYFLDELKKGRTPNPDIMCNKYIKFDQFKKEAEKLGADYIATGHYAKLEDGYLKKAADLNKDQSYFLSQVSVKQLENVLFPLGDITKDEVRRIAKEHDLALASKKDSTGICFIGERNFKNFLKNYLPATSGDIVNIDNNEVIGKHEGLMYYTIGQRRGLNIGGSEERMFVVGKNLDKNILYISFGNTEYLYSDSAIIEDLNFNCDLRPDKCNAKFRYRQEDIPVELEYLDDGNILVKYDHVKAVTPGQACVFYVDDICIGGGMVKEVRKNNEKLWYLL;locus_tag=LOCUS_4240;gene=mnmA;EC_number=2.8.1.13;note=WP_202943733.1 tRNA 2-thiouridine(34) synthase MnmA (Mycoplasma leachii) [pid:57.6%25%2C q_cov:97.3%25%2C s_cov:98.9%25%2C Eval:1.8e-119],MGA_426
sequence03	MetaGeneAnnotator	CDS	91705	92307	.	-	0	ID=MGA_427;product=stage II sporulation protein M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398593.1;translation=MRKKVFRIRRNKKKTLAFLIITAIIFILLGVLVIAVLSKSNKILLKDYIEGFFLQIKSGKFNYGNALKTVFFKNTISMFLIWLLGISLVGIPIIVMYFAFKALTMGMSIASIIYFYHTKGIFLGIIYIVPSIINIGIFLILVYNSLKMSRYLYHILFLHEETNKRIIRRYVNVLLILLVFMVISTLIEVLVVPSIMKLLL;locus_tag=LOCUS_4250;gene=spoIIM;note=WP_004398593.1 stage II sporulation protein M (Bacillus) [pid:27.6%25%2C q_cov:95.0%25%2C s_cov:92.5%25%2C Eval:1.0e-14],MGA_427
sequence03	MetaGeneAnnotator	CDS	92537	93544	.	-	0	ID=MGA_428;product=thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000158639.1;translation=MKNFDVDRVNLQKLAWGEKELVLDKTSYEEPKVMNGRLLDKDGNMIGTKGDMYTKVLFDDILTRGTLDHNPRPKYEDGEPAHTLSLNHGRTTKGIMTYDISKGESPFVTLRPIAVKKSIGELLWIYQDASNDLDVLADKYNVHWWDEWEVDNTRTIGAAYGETIRRHNSVHELLDDLRRDPDGRRHIISMWQTDDFKDPHGLKPCAYLTTFNVRHEWDGKDYLDMSLKQRSSDFATAGCINQVQYLVFQHLIARDLGLEVGQFTWQYDNIQIYDRHIAQAIEMLNREPINCDPKIMINEEKSDFYDIKLEDIKVEGYPLQKIKKKNPQLRFPLGI;locus_tag=LOCUS_4260;EC_number=2.1.1.45;note=WP_000158639.1 thymidylate synthase (Streptococcus) [pid:44.6%25%2C q_cov:86.0%25%2C s_cov:99.6%25%2C Eval:1.1e-64],MGA_428
sequence03	MetaGeneAnnotator	CDS	93597	94436	.	-	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVGLYDVEGDSNKEFKIGDRIIRINNHEVDTIDRMIEVINSESSNNNFIFEVYRDNDIKKITTNLSKDDNGVLKTGLYVKDQINGIGTLTYIDPNTRIFGALGHEIVDKNTASKFEIKDGKIYEAAVDSIKKSTDQEAGEKNAEYDINADIGNVEKNTKAGIFGQVNEISDDERIEVSATKEIHTGKATIRTVISDEQVEEFSINIIKIDPNSKTKNILFAIDDERLLKSTGGIVQGMSGSPIIQDNKIIGAVTHVIVDDVTKGYGIFITNMLEEGER;locus_tag=LOCUS_4270;note=WP_004398697.1 SpoIVB peptidase (Bacillus) [pid:38.4%25%2C q_cov:98.9%25%2C s_cov:68.5%25%2C Eval:1.0e-46%2C partial hit],MGA_429
sequence03	MetaGeneAnnotator	CDS	94695	95381	.	+	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEQSIRDRARLHQVYIDDKRILDSKEPRVTYYDPPERPRKVRKRRKKVHQGKVGLIIAGLIVGGIATKTIDSYIEKERIYDNRLEIEDEFQDKLSECDDYLDIAHYINSLDATNQRGIIYYLMDNVYDGKAEEKDLPVDKEDAEKIFSQLNYNDAPNLEIYARELGYYTVDDYFDKEDKFLTNMAKVRMSEKTANRYQMELNEIINQEDSFNADYPDNELGNPGMNK;locus_tag=LOCUS_4280;note=MGA_430
sequence03	MetaGeneAnnotator	CDS	95391	95606	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIEQVLINGVYYNILDKIDYQNTTYFYLQNDANDNLLIQKLNNKNLVNLDSDEEINTALLLYAENNIKDA;locus_tag=LOCUS_4290;note=MGA_431
sequence03	MetaGeneAnnotator	CDS	95607	95840	.	-	0	ID=MGA_432;product=exodeoxyribonuclease VII small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000043230.1;translation=MAEKKVKTFEQNLEELESIVSKLENGEISLDDSIAEFNKAMELAKECDKKLKEAEKSLNKIVKEDNTLEDFELEKDA;locus_tag=LOCUS_4300;EC_number=3.1.11.6;note=WP_000043230.1 exodeoxyribonuclease VII small subunit (Streptococcus) [pid:55.9%25%2C q_cov:88.3%25%2C s_cov:97.1%25%2C Eval:4.5e-14],MGA_432
sequence03	MetaGeneAnnotator	CDS	95854	97107	.	-	0	ID=MGA_433;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246103.1;translation=MEDKYITITQLTKYIKYKIDNDINLNQVFLKGEISNFKAHSRGHFYFTLKDENTRINAIMFSTNTKKVLFTPEDGMNVLVTGKISVYEASGTYQIYVNEMLEDGVGNLYIAYEQLKKKLEEEGLFLDKYKKPIPKIPQTIGIVTAPTGAAIRDILSTIKRRWPHVKTILLPALVQGEEAKYSIVKQIENAENFDIDTLIVGRGGGSIEDLWAFNEEIVARAIFNSKIPIISAVGHEVDFTIADFVADLRAPTPTGAAELAVPNKSDVENYLDSLMIRVKKQVLNKLNICKVDLKKITSRYIFTNPNNLYVAKEQQFDMIYEKLRTNMKLLLADSKNRLQSIKSSFIFKKPEKLLEIEKNNYLNLITRLDNISPLNTLKRGYTLTRKDNKVINSAKLVNKKDKLDIEFSDGKINVEVI;locus_tag=LOCUS_4310;gene=xseA;EC_number=3.1.11.6;note=WP_003246103.1 exodeoxyribonuclease VII large subunit (Bacillus) [pid:49.5%25%2C q_cov:99.8%25%2C s_cov:98.0%25%2C Eval:1.6e-114],MGA_433
sequence03	MetaGeneAnnotator	CDS	97097	97507	.	-	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRSELRNIIVNVLYQIYIMDGSDITYDVDAIIKEQLEVENEFVDTSVKEIIKNQKKIDKYANKYLKNWTVDRLSKVDRAILSLGIYELLYTDVPPIVAINEAVELSKLYSDDKVVKMINGVLDSIYHNEVPDGR;locus_tag=LOCUS_4320;note=WP_003428415.1 transcription antitermination factor NusB (Clostridioides difficile) [pid:51.1%25%2C q_cov:64.7%25%2C s_cov:52.4%25%2C Eval:1.5e-20%2C partial hit],MGA_434
sequence03	MetaGeneAnnotator	CDS	97561	97788	.	-	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNYDAIDYDPVSNDFADVDESGMASYNPPEYVVDDPEWGGKPNMSYLAADIDEENFLRNNEKILQKSRKKSKQK;locus_tag=LOCUS_4330;note=MGA_435
sequence03	MetaGeneAnnotator	CDS	97851	100289	.	-	0	ID=MGA_436;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010990113.1;translation=MFFEDATLCSQVLELTLTGKQAGLEKRVPMCGVPHKAYAGYVDALIEKGYKVAICEQMEDPKETKGMVKREVVQVVTKGTRLDEGLDSKSNNYIASLYYFDYCYGVAFSDVSTGEVNTFLIDNDLNRVVAEIVKWDFKEVIVNSKVDRKLVNILRSTYNIFISFADNLLEDDKYDYIYHDISDIRLVSSIKHLLCYIVDTKKSSLLHLQKANLITADDRLQFDVNTEKNLELIETIRKNDRMYSLFWLLDKAKTAIGSRFIKHSILNPLTNKKEINRRLDIVSTLSTSFILRDDLINELSSVYDLERLVGRISYGNLNAKDLIQLKNSLAHLPGIAKILEELKYDKKIERLEELYLLLDKSINEDAPLTLHEGDLIKEGYNKELDELKNVSTNSKDFLLEIENKERKRTGIKNLKVGYNKVFGYYIEVTRSQKHLIKDEYGYERRQTLSNSERFITPELKEKEQIILTAEEKIINLEYKLFMDICEVVKRYIDKIQKNAKIIGEIDMLQAFSILADNNNYVRPEFTDNHEIEIVEARHPVVEHVLTDGYVANDIIMDKDTNILLITGPNMAGKSTYMRQCALIAIMAQMGSFVPCKSCKIPIFDRIFTRIGASDDLVSGESTFMVEMKEACFAIKNATKNSLILFDELGRGTATYDGMALAQAILEYIHNKVQAKTLFSTHYHELTSLDKRLKHLKNIHVTVKEEKGNITFLHKIADGSVDKSYGLHVGKLAGLPNELIKRSKEILDIYEKEGNKTPNTGIVQTNLFDESINYEMEQNNYLEEKIRDINPLEMTPLDALTFLAELKEEVEKE;locus_tag=LOCUS_4340;gene=mutS;note=WP_010990113.1 DNA mismatch repair protein MutS (Listeria monocytogenes) [pid:49.0%25%2C q_cov:99.6%25%2C s_cov:96.2%25%2C Eval:4.6e-223],MGA_436
sequence03	MetaGeneAnnotator	CDS	100571	101581	.	-	0	ID=MGA_437;product=protease DdcP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245451.1;translation=MISKAYEKIKNFIRDNYKYILVWILIYLFFTIPTNSYVIVGGGTININKRVQVENEYKQKGKLNFAYVEELKGTVATYLLSLIVPGFENESIDEYRYKEDEDYKDLLFREKMNLEKANADSVYVAYTKAKRKISIKDTKLYIIFVDDNKNLNTNLKIGDQILEVDGQKINGLDDYRTYINSKEAGEKVTVLVKEKKEVKKKFAYIYQQDDKLVTGIGVIEINTYKLDPKLKLKFKKSESGPSGGLMLALQIYNKLTKKDITKGRNIVGTGTIDKDGRVGDIGGIKYKLRGAVKKRADIFICPKDNLKEALKEKKKRRYKIKVIGVSSFDEVIERLK;locus_tag=LOCUS_4350;gene=ddcP;note=WP_003245451.1 protease DdcP (Bacillus) [pid:32.6%25%2C q_cov:85.1%25%2C s_cov:83.6%25%2C Eval:2.5e-32],MGA_437
sequence03	MetaGeneAnnotator	CDS	101624	102547	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKFKNIFILIVLIILLIFFILNPTLVINNITKNTNSFMNNVFPSLFLFFLLIDLLLAFNFITVLKKLFAFPVKKLFHLDINSSFILFISLFSGFPSGSKYITNLLNKKMISIESANTLVTYTHFGNIAFILGTIGPILNKKITLIILICHYLSNLIIAFIIRPKEVIKEKEVDKQASASFTDILSTSIISNTKIIIIIFGTMIFFSTISLIISATIPINSYQSTLLCGILDLSSGIISLNNLSIPLFYKGLLSLIFISFGSLSVHMQVRILLRNTKIKYSYFLLGRISQTALSITLFLLVYWRFY;locus_tag=LOCUS_4360;note=MGA_438
sequence03	MetaGeneAnnotator	CDS	102521	103141	.	-	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLNNKAMTLIEILVCFTLVGIISTMMLSTVMNYRTRQEMESVSLEVIKYKNTITKMVQDDIAKLHLKSVSNPILNDDDSNYNIWSVTLYFDSSKIPSKELKVYQSKGTNAVRDKIVYKDNKGENGKDVTYTLPDFGNYDPDPDNHPDLHLMNLRFGVGYEGAAAEHSRISINKLFNNSVFIVDIPIFYHEIGAKYHILIEAPIDQ;locus_tag=LOCUS_4370;note=MGA_439
sequence03	MetaGeneAnnotator	CDS	103131	103682	.	-	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKSNKGFALMETLVVGVFVVTVFMFVFTNFYPLVAKYEKAEYYDDVESKYVVHYLRRFIVEGENNISWNNCNNHCQKIEVTKDGKKFTAQGTFLSDEAKNFVNAVGIDQIYLTEYNIANFRSYVNNNKSSFPKGFVEYIESLPEENPTDNTKKRLIISIDRKTKEMGTTHSYATIEVKRNAS;locus_tag=LOCUS_4380;note=MGA_440
sequence03	MetaGeneAnnotator	CDS	103777	105180	.	+	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTFDFAKTPITSIADHIIIHAAEKHASDIHFDPRDEGVVVRIRIDGDLQDYTIIPKTYERNLVTRLKLMANMNITESRLPQDGSIKGKFGSLDLDMRVSSLPTNEGEKIVVRILDYSRSLEGLESLDFSKENFEKIKRMIAVPNGIILVTGATGTGKSTTTYSIMQALNKKETNIITVEDPIEMNIEGLNQVQVNSDIGLDFATVLRSILRQDPNIILIGEIRDSETAKIAVRASITGHLVLSTIHTNNSLSTIERLLDMSVERYLLASALTGIISQRLAKRLCPKCRKKKETNPYEKKVFKLALDKDINEIYEADPKGCEECTNGYRGRIAVHEVLEIDDHIRNLINNEEVEKDELREKVYSDKTITLLQDGLMKVLDGRTSFDEIFRIIDIDNDIDDSEISVEKEIEEREKAAEENKTNEETPTEEKKKEDAPSEEQPAVEEKQTTLSSPNLATDANELEKKEG;locus_tag=LOCUS_4390;note=WP_012583238.1 type II secretion system ATPase GspE (Dictyoglomus turgidum) [pid:45.1%25%2C q_cov:80.3%25%2C s_cov:43.2%25%2C Eval:1.1e-90%2C partial hit],MGA_441
sequence03	MetaGeneAnnotator	CDS	105192	105773	.	-	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKDEFKEELNYIKNEDIRESASYMIEKLPDYFFTIPAASTGKYHPEYAQGEGGLLRHTKAAVRIAHELLENPVIGDKYTDREKDLMIMALILHDGLKLGKEKSKYTKFDHPLLMAEYIKEEQEDLPISKKEIQFLADTISTHMGNWTTDYDGNEVLDKPKTKCQNFVHMCDYLASRKCILVPFDEKNKIKV;locus_tag=LOCUS_4400;note=MGA_442
sequence03	MetaGeneAnnotator	CDS	105770	106777	.	-	0	ID=MGA_443;product=radical SAM family heme chaperone HemW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583471.1;translation=MYYHQEYVSNYLKALETEIDKRYQGEIVDTIYIGGGTPSVLSVLQLRELFRIIKKIKKSKNIEFSFEINFDSIDEEKLVLLKENGVNRLSFGLETLSPKGQRLLNRVNKKERIKKIISKAKELGFNNINIDLIYAFPGETKEDLKKDLDFIISLDIEHISTYSLIIEEHTILYIDGVENISEDLDAEMYEYIYNRLAKEGYIHYEISNFAKNGKESRHNLCYWNNEHYYGFGLSSASYIDNTRMLNTRSINKYLKGDYLVEKEELTKEEIKEYELILGLRKKTGISKEYFIKKYGSIKELLENGFLKEDSNRIFIPENKMYLSNEIIVKILKEDV;locus_tag=LOCUS_4410;gene=hemW;note=WP_012583471.1 radical SAM family heme chaperone HemW (Dictyoglomus turgidum) [pid:38.9%25%2C q_cov:98.2%25%2C s_cov:92.3%25%2C Eval:2.0e-58],MGA_443
sequence03	MetaGeneAnnotator	CDS	106849	108636	.	-	0	ID=MGA_444;product=translation elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003726525.1;translation=MKKIRNFCIIAHIDHGKSTLADCILEETGALSKREMKNQILDDMDIERERGITIKLNAVTLNYKYNDQDYILNLIDTPGHVDFSYEVSRSLAACEGAVLVVDAAQGVEAQTLANLYLALDNGLDIIPVINKIDLPNADVEKVTKELENIGFKKEEIILTSAKKHTGIKELLEAIILRVKEPNTDISKPLQALIFDSVFDPYKGVITSVRIKNGILKVHDQIYMMNSKASYEVLDITVNTPKEEKRAELLAGEVGYVYASIKSIEDVSVGDTITLLNNKAPEPLAGYKEMKPMVYSGIYPTISSKFEDLREALGKLKLNDAALRYEPETSKALGFGFRCGFLGLLHMEIVIERIEREFGIDLIATSPSVNYEIELTSKKTMMIDSPYKMPDKSKIAKIKEPYVKCSVYTPSEYIGPIMELCQEKRGIFKNMDYLDEKRVCIVYEMPMAEILYDFFDRLKSYTKGYASFDYELIGNQESNLVKLDILLNGEVVDALSTIVHKDFAYNRGRSIVEKLRTIIPRQLFEVPIQASIGSKVIARENIKALRKNVLAKCYGGDITRKKKLLEKQKAGKKKMKQIGSIEVPSDTFIKILSTED;locus_tag=LOCUS_4420;gene=lepA;EC_number=3.6.5.n1;note=WP_003726525.1 translation elongation factor 4 (Listeria) [pid:63.1%25%2C q_cov:99.8%25%2C s_cov:98.0%25%2C Eval:1.3e-216],MGA_444
sequence03	MetaGeneAnnotator	CDS	108694	109533	.	-	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHDMVEKKYLEYLEKNIEFYDGRITSIRNSVDQLENLAKDERITLKMMEKKKEEAVQALEEVKMKGMEEDQVLDDLSDKIDTIVDKEVANTEKIEKLQKLKENTTKRTREKFIDMLIQKETNKLEANVRTEIKVNDRQQAILINKAQKKSFFKDMSTKYEARKEVEKEMQEEKIEDIAEKIETNNEVKETLDPENSIADNILDKVLDVQNKWYIKKQERATAILEAMNKGEGCSYLGAVSKVYSQKALEQASKALEIIRMNLTGPQEKVEESGPVKAA;locus_tag=LOCUS_4430;note=MGA_445
sequence03	MetaGeneAnnotator	CDS	109523	109813	.	-	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDGFKISVNTANGKMDAYVIDIFGAAGYEDNDYIMYSFGEVMDDEQEKVYISRLEEEDNNFNFKEITDPEEWAAVQNAINETLSKTNEEGAVHAA;locus_tag=LOCUS_4440;note=MGA_446
sequence03	Aragorn:1.2.38	tRNA	109938	110011	.	+	.	ID=Aragorn_29;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0290;note=Aragorn_29
sequence03	Aragorn:1.2.38	tRNA	110051	110127	.	-	.	ID=Aragorn_30;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0300;note=Aragorn_30
sequence03	MetaGeneAnnotator	CDS	110138	110605	.	-	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISITIILVLILILSVGCEKKDKDLKVINCKIDSVPADSIKVKRTYKIYYKKKLVKRTESEDIITSDDKDLIKKYSTAYQSLANRYQDINDYDFTVKTKKDKVIVRINIDYDKVDVDKILEIEGKDNNIFTGKKVYLDKLLKWTEEHGITCEK;locus_tag=LOCUS_4450;note=MGA_447
sequence03	MetaGeneAnnotator	CDS	110666	111358	.	-	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIQSYLTRVLALEMEKVYLVEAENIPHDEIAESMDKLCQIKDLQYSGERFDLGTVLALGIDNCCNFFKTVCFEYGNYKNGDSKKREILTLSVANNEHVTDIVDYNVPKKIDETIEANFAILKKRDKGISTDEELYEKVMVNTFAGFYYGIRDVLEGVSYCDKYNTSRELPDYYIYSQDDLDEMASKKGISRDKLKKELLENLDQGIGVITKVIYSREYNQKPKVKRKK;locus_tag=LOCUS_4460;note=MGA_448
sequence03	MetaGeneAnnotator	CDS	111421	111750	.	-	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKNIIRFVILVLFILFIALYISQATGYYKYDEYRKTTLTNKAIERFENDLDNNEEIDLDNYIEKEKNYNNIYSSLGLKTSNIIEKSFNRVMNYIFKEINETVNESVK;locus_tag=LOCUS_4470;note=MGA_449
sequence03	MetaGeneAnnotator	CDS	111740	112630	.	-	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKRRRKLRFTFLALIFIYSVFLSFQYLENKKIEIKDKTLVKLFLYDSFHIKDKDDYMKKAFNVLVRINSSYDNLVEPKKLVQKKVKTKEIREPLVYIYNTHQKEEYLSNQFNEYSIKPTVMMPSYIMEEVLNSKNIYTIVEENSINEILKRNNWNYAGSYKASRILIEEAKKKNPSLKYFVDVHRDSVKHDKTTVTINNKAFAKLLFIIGLENPHYEDNLLFTNKINEKINKYYPGLSRGIYKKKGIGVNGVYNQDNNKYTILIEVGGKENTIDEVMNATIAFIKCFEEVVKDEG;locus_tag=LOCUS_4480;note=WP_003229993.1 spore autolysin SpoIIP (Bacillus) [pid:34.0%25%2C q_cov:67.6%25%2C s_cov:51.4%25%2C Eval:5.2e-31%2C partial hit],MGA_450
sequence03	MetaGeneAnnotator	CDS	112669	113508	.	-	0	ID=MGA_451;product=GPR endopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000662627.1;translation=MHTINLEGFNIRTDMVIEEDPSFNLDSKKVKVIESRKGRNRSFVTISFNDITDKDNYQKVLDQMILSLTKLLEKEKIKQEDSCLVIGLGNSFSTPDSLGPKTIEKVLVTRHLFTFGDVEKGYRSVACFIPGVTGVTGIETNDTITSLVKKIKPDFLIVIDALASSKIKHLTKIIQIANTGITPGSGIGNRREKITKERLKIPVIVIGVPTVVDEVTIVDDVIKSIGIKISKEKINEAIIPLDYNMIVTPKDIDFKIEKLSSLIASSLNHVLHPNYNSTK;locus_tag=LOCUS_4490;gene=gpr;EC_number=3.4.24.78;note=WP_000662627.1 GPR endopeptidase (Bacillus cereus group) [pid:35.3%25%2C q_cov:85.7%25%2C s_cov:80.4%25%2C Eval:1.4e-38],MGA_451
sequence03	MetaGeneAnnotator	CDS	113614	113874	.	+	0	ID=MGA_452;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229989.1;translation=MPNIKSAKKRVRGNAKKADVNTIINSSMKTAIKKFEKSLKENKKEAANYLNIALQRIDKAKDAGLIHKNKAARKKSKLQKMMNEAK;locus_tag=LOCUS_4500;gene=rpsT;note=WP_003229989.1 30S ribosomal protein S20 (Bacillus) [pid:48.8%25%2C q_cov:96.5%25%2C s_cov:95.5%25%2C Eval:1.9e-12],MGA_452
sequence03	MetaGeneAnnotator	CDS	113967	114890	.	+	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKALVTTGILLIMLGFVFLYRKEIAFAFNKYFLNKVIKVNTVVTLDKKNSYYRNKNYNYVQQTTSFVPENKQDLLNIYYTIINSGEKSFSFYCPKDYENCLNDVKAIANNQTTLSDINNFVHPFNGFTHISTEYDPFGKVKLHVHKTYTNDEIKKIEEKIDEITKEVIKDNMSTRDKIKAFHDYVINHSKYDSLKSDQGIDKYHSDTAIGTLFEGYSLCGGYTDTMAIFLNKIGVNNYKVSSENHIWNAVELDGSWYHLDLTWDDPVATDGSDILDHSFFLINTTELEKKEVTQHDFNSNVFSEVY;locus_tag=LOCUS_4510;note=WP_000520822.1 transglutaminase domain-containing protein (Bacillus cereus group) [pid:32.6%25%2C q_cov:45.6%25%2C s_cov:33.9%25%2C Eval:2.9e-16%2C partial hit],MGA_453
sequence03	MetaGeneAnnotator	CDS	114891	115709	.	-	0	ID=MGA_454;product=DNA-formamidopyrimidine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001114480.1;translation=MPEKPEVMTVAKTLEKKILKKEIASVDILWNKIIATDIDEFKKNIIGQRIEKITTRGKFIVLFLTDYALLIHLRMEGKFFFHKKGEELLKHEHVIIRFTDGVEMRYHDVRKFGKMYLLPKSDVYKVAPLNKLGYEYYDNKLNKNYLLDKFKGIKKPIKETLLDQSIITGIGNIYANEILFKAHISPYRNTNKINSREADKIVKYTKETLDDAVKLGGTTIKSFTSDEGVHGFFQNKLLVHGKKDEPCPNCGSIIVKEKIGGRGTYYCPKCQK;locus_tag=LOCUS_4520;gene=mutM;EC_number=3.2.2.23;note=WP_001114480.1 DNA-formamidopyrimidine glycosylase (Bacillus) [pid:43.6%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:9.9e-63],MGA_454
sequence03	MetaGeneAnnotator	CDS	115718	118327	.	-	0	ID=MGA_455;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000412819.1;translation=MKKVILVDGNNLVFRSYFATAYSGHIMRNSKGFPTNALYGFIAMMNKIINEEKPEYILVAFDKGKTFRHEKYKEYKAGRNATPEELKQQIPVAKDILKAMGIKYFEIDNYEADDIIGTVAKIVDNEGDFVATIISSDKDLLQLISDEVDVKLLKQSGFIRMDKKTFRDTYRVDPIRMIDLKALMGDSSDNIPGVKGIGEKTAISLLEKYDSLDNLYDHIDEITCKTKEKLINDKENAYKSYDLATIYRDVKLDFDLEDLNYTGFNKKELKKALEELEFKSFIRKFELDEEEKEVKVSKKSKKEIKDISKLDSTKPYSLYIEVDNTYYSKGNILGISFCDGESLYFLEEKDILNNKDLLENGTEKYTYDLKKDLVLLSKYDIKLNNVVYDAMIGTYLLDYDPKDDISVIASEFGYDIPLYTDFYGTEKRKKEYSSEELKDLLCKKVEFIADTKEEILKELEKEEMMDLFENIEMPLTEVLADMEITGIRVDKEYLDKISLELHEKLEKVTSEIHALAGEEFNISSPKQLSEILFVKLEIPYPKRVKNGSYSTSKDILDKIVDEHEIVPKVLEYRTLSKLYTNYAEGLKAEIREDGRIHTIYTQTLTRTGRLSSINPNLQNIPSSEEYSKLIRSAFIPDDNSAFISSDYSQIELRVFAHMSKSESMIKAFKNHQDIHTSTASEIFNIPFDKVTKKQRKAAKAVNFGILYGMSSFGLSEDLGIDIKEAKSFIDKYLDTYKEIKTFNENTIKSAYELGYVKTLYNRKRYIHELKNKNYMVRQAGERMALNTPIQGTAADILKMAMVKLYKEMNKRKYKSKILLQVHDELIINAVKEEEQELKKLVKDIMENIVTLDVPLEVGIACGDNWYEAK;locus_tag=LOCUS_4530;gene=polA;EC_number=2.7.7.7;note=WP_000412819.1 DNA polymerase I (Bacillus) [pid:41.8%25%2C q_cov:99.9%25%2C s_cov:99.8%25%2C Eval:1.4e-193],MGA_455
sequence03	MetaGeneAnnotator	CDS	118371	119249	.	-	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGLVKIEDMIYEIRGKQVMLDSDLAKLYHCKNGTKEINQAVKNNPEKFPERFSWKLTDGESDNLRSKFLTSSSNTNYGGRRYVIRVFTEQGVAMLATILHTDVATKVSIKIMDAFVAMRHYIGNNEYRLSNIESKIINYDNRLCLIENTFKQFEEKKKINEIYFNGQIYDAYSKILDILKEAEKEIIIIDSYADREVLDIIKKLAVKVTIITNKNNLLTKQMIGRYNKQYHNLEVIWDNIFHDRYFIIDKNIVYHCGTSINRIGYKTFSINLINDEEVIDTLIKKISLLCN;locus_tag=LOCUS_4540;note=WP_106480813.1 ORF6N domain-containing protein (Butyricimonas) [pid:51.2%25%2C q_cov:42.8%25%2C s_cov:61.9%25%2C Eval:2.1e-24%2C partial hit],MGA_456
sequence03	MetaGeneAnnotator	CDS	119306	119446	.	-	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLKTAGVVVLIYLIAVGATFLMSARMENLDTKGVNCNTAVSLR;locus_tag=LOCUS_4550;note=MGA_457
sequence03	MetaGeneAnnotator	CDS	119577	120194	.	+	0	ID=MGA_458;product=transcriptional repressor LexA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000413738.1;translation=MEKLTKRQEDILIVIKKLMAENGYPPTVREIGKKANLSSPATIFFHLTKLEEKGYIKKGGNKNRTISLLVPNEYDEKNESVVSVPLLGKVTAGTPIEAIEVPNEFFDLPAGLIPRNKDIFTLKVSGESMINVGIYDGDILVVERKNTANNGETVVAMNNENEVTVKTFYKEKDHFRLQPENDTMEPIILNEVTILGKAIGLYRKF;locus_tag=LOCUS_4560;gene=lexA;EC_number=3.4.21.88;note=WP_000413738.1 transcriptional repressor LexA (Bacillus) [pid:54.7%25%2C q_cov:99.0%25%2C s_cov:98.5%25%2C Eval:5.7e-61],MGA_458
sequence03	MetaGeneAnnotator	CDS	120219	122168	.	-	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFNLYNISLLLILVLISVLTLKTTEVKAAGTLTWPDGSTATISRTVQNVYNAPVVDFTYRVEESLAMFDTGKVVNAKMKTLANNLSKAWDDYDSKIKAIKKGSALPNGFTPATGNTISTSESAYPIYIWFDNTSSSGIIYYYSEANEVYLNPDSSYLCYQMELLSDISGYGTVNTSLVVNMEYIFAIDDRSQMDLAPLANWDTSNVTNMKAAFAVEDRDWGLLNISALSNWDVSKVANMMSMFFECSSITDLSFMSNWDTSSVTDMTSMFMYCGSITGTIQILGNPTSYSNAFRSAATVSGAPVTVNYSSATTNIDAIIATKSSGSNVVKGSVVSVPSGGNSPGSSSAPEATISFDGSETVSNNYTASKSTTINLANMGLNLTEPGNYDLTVSESATSNNAYPATNTEYTIVVTVRNELNANNRPTGNLEARFYIKDSNDNKVNTMSFSAPKDESKFGHIELTKKVGGLMGGINTYFDFSIQIDDAASNACSSYSGSEKYPVSGGDSSHVTISEVTKCKSGTKDSLSLKHNQTAVIGQFTYNNNTYDSISIDDYYKIVEASASNYTTTFKIGSGSSTSGRDTSSQSVSNGTNTVTYVNTREGSPLTGVVLTILPFLILIGIGAGGLILFRKKKGFKKDKKEELEVI;locus_tag=LOCUS_4570;note=WP_003549857.1 BspA family leucine-rich repeat surface protein (Lactobacillus acidophilus) [pid:38.3%25%2C q_cov:18.2%25%2C s_cov:9.4%25%2C Eval:5.0e-15%2C partial hit],MGA_459
sequence03	MetaGeneAnnotator	CDS	122250	122930	.	-	0	ID=MGA_460;product=tRNA threonylcarbamoyladenosine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003398521.1;translation=MEKFKRLEKLVGKEAINSLNEKTVLVLGIGGVGGYTVEALVRSNIGKIIIVDGDKVEKSNINRQIIALEKTIGKKKTDVMKKRIKEINSNCEVITISEFITKDNIDLLFKEKIDYLVDACDTIKTKELVIKKCIERKIKIISSMGTAKKMDPSKLEITDIYKTINDPIARIIRKFAKEEKIKHLTVLSSKELPKDINDLGSNAFVPPTAGLLIASYIVNDIVNSVK;locus_tag=LOCUS_4580;note=WP_003398521.1 tRNA threonylcarbamoyladenosine dehydratase (Clostridium) [pid:50.0%25%2C q_cov:96.5%25%2C s_cov:97.4%25%2C Eval:2.9e-51],MGA_460
sequence03	MetaGeneAnnotator	CDS	122932	123726	.	-	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVPIINNGKIMNYEIKLRNQEIVNKDEIGPNSPFARINSGEVYYKGRCYSKWFEDKSFSKAAVVDNIKNFSVQTNSENNNIFVSTKTYKNSPSFDIYKVGLPNLDTYYGIKELYGRMIDDIRRSVPDNSKSRIISFKALGIDRNIDYDKINLIKRINDEFTNASEETMDRIYTNNGVYNTVNLVRVITDVFGFKAVDTAHEDLGEYMAILNAENDLNTDLGKKMQKKYDIAVDNTEVFNKIAKVAHITNVNKGKVKKKIKED;locus_tag=LOCUS_4590;note=MGA_461
sequence03	MetaGeneAnnotator	CDS	124048	124800	.	+	0	ID=MGA_462;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002852645.1;translation=MFFTYNEYQIYYEKHGNKKKNILILPGWGETRSTFINLINSLKKDYTVYIIDYPGFLKSPFPNHDMSIYDYAEIVKAFIKEMNLSNLNILSHSFGGRIAIILAGKYHIPIDKMVLIDIAGINRFSLKKKIKTLVYKNLKLLSVFIPQKKKDKYLSYLFRKFSSLDYSSLNSNMYNTFKNIINTDLKKYVKDIRCPSLIIWGNNDPDTPLYIGKYLNKHIPDSGLIILKGTHFIYLEQPFIIYKIIKEFIK;locus_tag=LOCUS_4600;note=WP_002852645.1 alpha/beta hydrolase (Campylobacter) [pid:32.5%25%2C q_cov:91.6%25%2C s_cov:90.0%25%2C Eval:1.4e-25],MGA_462
sequence03	MetaGeneAnnotator	CDS	124810	125475	.	-	0	ID=MGA_463;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047989.1;translation=MKISNRLKTVADLVPKKVIALDVGCDHALLDIYLVKEKKVAKIYASDVNEKPLENAKENIKREKLDKKIELLLGNGLDVYKDDIDTVIISGMGGLTIKGIFRNNMNITKKLKYIIISPNNYQRDIKEFLTKNGFIISAEKLVEDKKIMYQVIRFERGKAKYSKSDYFFGPVLRQNKDDLFKKYYLKEKLSREILLNILPKNYRLKKIKLKKEIKLIDNEIK;locus_tag=LOCUS_4610;note=WP_012047989.1 class I SAM-dependent methyltransferase (Clostridium botulinum) [pid:33.9%25%2C q_cov:82.8%25%2C s_cov:81.2%25%2C Eval:2.4e-23],MGA_463
sequence03	MetaGeneAnnotator	CDS	125475	126566	.	-	0	ID=MGA_464;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000764065.1;translation=MVEEIKTLEEREKYLIKLGQKQGFITYEQLATELKGLEIDSDDLDDLYNHLIEHNIEIVSDDGTDDASGEEITPETSVEDLTLSKDIKINDPVRMYLKEIGRIDLLTSDEEFEYANRVLDGDEEAKRLLAESNLRLVVSIAKRYVGRGMLFLDLIQEGNIGLMKAVDKFDPTKGYKFSTYATWWIRQAITRAIADQARTIRVPVHMVETINKLARVQRQLTQELNREPTEEELAEKLDITVEKVREVYKISQEPVSLETPIGEEEDSHLGDFIPDERTMGPEDYATVEMLKEELSSVLLTLTDREEKVLRLRFGLDDGQCRTLEEVGQIFGVTRERIRQIEAKALRKLRHPSRSRKLKDFLTD;locus_tag=LOCUS_4620;gene=rpoD;note=WP_000764065.1 RNA polymerase sigma factor RpoD (Bacillus cereus) [pid:67.0%25%2C q_cov:99.2%25%2C s_cov:97.1%25%2C Eval:2.4e-137],MGA_464
sequence03	MetaGeneAnnotator	CDS	126569	128290	.	-	0	ID=MGA_465;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000528223.1;translation=MEDNLITKVRKSVDIVDIIGERIPLVARGKNYFGVCPFHDDTNPSMSVSREKQIYTCFSCHASGNVFNFIMDYDHVDFKTALKFLADKAGIDAGNIKLTKKVQKNDHLYEAYRLANIYYQNNLKSVAGKKALDYLKDRKIDNSLIKKFGIGLSLNKKDDLTKLLLKKKYDLDDLNRIGLSNVDFDMYQDRIMFPLEDIEGNIVGFSGRIYRDSDESKYINTKESSIFKKGLTIYNYQRALEEVRKSKQVIIMEGFMDVIRASSIGVNNTVALMGTAMTNDQLDIIKRMSNNIVLCLDGDSAGKKAALAIGEHFQKKGIEVKVVTIPSDLDPDEFIIKNGEAKFKELVSKAINYSDYKIAALKENINFDSDLELSKYIDQVIKETVRIDDDIRVELILKNLAKTYNLSYNTLEKRFRDYEKKERKEQVTIKKPQEIKKITKYDKALYSIIYYMLRDDKVIESMKEKKIIYPNETAKILVNEIIYYYEKYGEVEIADFYTYLDGKEELIMLLNEILQLNLPDKIKEEDLAEYIKVVKDYSKNQAIKRLKEKLEKEEDPLEQAKIAEEIKKIKLGE;locus_tag=LOCUS_4630;gene=dnaG;note=WP_000528223.1 DNA primase (Bacillus cereus) [pid:32.2%25%2C q_cov:96.3%25%2C s_cov:93.8%25%2C Eval:1.0e-85],MGA_465
sequence03	MetaGeneAnnotator	CDS	128389	128883	.	+	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKKIIRNTIILFLLFFPLHFLYSKTKIPIFIPFAPVNESIWEHLKLFFSANILCGLISLKRNYFSKVYVRSMIEIIVFLVMYLPLYYLLGENMIGTFVTLFISLFLSEIIISFIDFDKYNSLNTISIFLIIINLVIFTYFSYHPLKVDLFRDPKNNIYGIKK;locus_tag=LOCUS_4640;note=MGA_466
sequence03	MetaGeneAnnotator	CDS	128895	129554	.	-	0	ID=MGA_467;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892113.1;translation=MKKGKLIVIEGAVDGIGKSTQYDLLYQRLISEGEKIVKYHFPSYNTIQGKLIEEYLEGKFGKPHDLSPYFINELYATDRAVTWYQELKKYYDEGYIVLLDRYTTSSIIYQSALLDDKKDFINYVEEFEYHKLGIPKPDKVIFLTAPFELVHELRSNRKENEGIENDIHESDTDFMEKVYQNALFVADYLTWDKIICNENDRMRTIEDIHEEIYKKVKEK;locus_tag=LOCUS_4650;note=WP_009892113.1 thymidylate kinase (Clostridioides difficile) [pid:42.0%25%2C q_cov:97.7%25%2C s_cov:95.6%25%2C Eval:4.1e-47],MGA_467
sequence03	MetaGeneAnnotator	CDS	129562	130560	.	-	0	ID=MGA_468;product=ribosome biogenesis GTPase YqeH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000140799.1;translation=MSKKCLGCGIELQDENVLNPGYTTNLDYDFCQRCFRLKNYGDYQVVDKSNEEYINILKKIDKTNDLVLYVVDILNIPENLKEIKEYVHNKMILVINKKDAIPKSVKDEKIINYFKDMNLFEEVIVVSANKNYNIDYLLSKIKFHQITKDVYIIGYTNAGKSTLINKIMNDYSDNDANLSISALPSTTLDVLRLDVNDHLTLVDTPGVVSATAITNFVSDDILKRINPKKEIKPKTYQMRKNQAVLIEDLVRVDYIEGIRNSFTVFVANSLKVRRMLNNRHDDLKNLSKRTYETNFSEDLVIEGLGFIKIMERGVIEVYVDKDVKTYLRKSLI;locus_tag=LOCUS_4660;gene=yqeH;note=WP_000140799.1 ribosome biogenesis GTPase YqeH (Bacillus cereus) [pid:37.5%25%2C q_cov:99.1%25%2C s_cov:98.6%25%2C Eval:2.7e-55],MGA_468
sequence03	MetaGeneAnnotator	CDS	130553	131071	.	-	0	ID=MGA_469;product=YqeG family HAD IIIA-type phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831044.1;translation=MRDFKPDIYQNSIFDINYDKLYQKGIRCLLFDLDNTLGLYSEPTCSKEAKDLITKLKKKFTIVIVTNSGKGRITPYLEDLGVDGISWAFKPSCKSLVKIKAKYHLTKKEMIIIGDQLMTDILAGKKFKIMTAFVNPLGKRDLPVTGLNRFIENKIINKYSKKGDFERGKYYE;locus_tag=LOCUS_4670;note=WP_001831044.1 YqeG family HAD IIIA-type phosphatase (Staphylococcus) [pid:34.8%25%2C q_cov:93.0%25%2C s_cov:92.0%25%2C Eval:4.7e-22],MGA_469
sequence03	MetaGeneAnnotator	CDS	131082	132548	.	-	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKVTKNKDFYGKVSREEYRSIKEGKNKRRIVIIAFSIVVLLFFLVTLSIIYTPNIIIKGSNKMKLTYNKKYHDPGYTATYLGKDVSDDVKVKGKVNSKKLGTYTIKYSIRKGVFSKSITRTVTVLDNKKPKIILEEGKEVTVCPYEEYKESGYKAIDNYDGNLTKKVKVTKTPTKYIYEVMDSSGNIGTATRKIIYGDHEKPVITLTDGKKRYSFIHDNFKPSPVDVKDNCDKDIKNKLHVSSGVNKDKLGVYKVIYIVTDASGNETQVTQEVEIIERGRNGTIYLTFDDGPKEGTTNVILDILKEENVKATFFVTGHGPDNLIKREADEGHSMALHTNSHNYALLYASVEAYFNDLNAVSNRVERLTGIKTKLIRFPGGSSNTVSARYAPGLMTTLTSEVKNRGYRYYDWNIASGDSDGINSPDGIYENVTRQLSKDRVNMILFHDIKPQTRDSLKRIIQFGKQNGYAFDKITDKTEEIHQHVNN;locus_tag=LOCUS_4680;note=WP_011987059.1 polysaccharide deacetylase family protein (Clostridium botulinum) [pid:41.2%25%2C q_cov:39.5%25%2C s_cov:66.7%25%2C Eval:2.4e-32%2C partial hit],MGA_470
sequence03	MetaGeneAnnotator	CDS	132666	133505	.	+	0	ID=MGA_471;product=class B sortase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989918.1;translation=MKDDKDIEVLILDKELEERYNKERSKIKDNVQKELKGKKRKKLIFYYLLLLISLGLFLFSGYKVVMWMIENYKTEQITTKARKIGNVTNDLYVNFKKLKKENPDTVAWIKVNGTNIDYPVVQRADNQYYLYHSFDNSFNYAGWIFSDYRNDLNSLNKNTVIYGHGRLDGSMFGSLKNVFDESWLKEKNNNVIFLVTEEAKYTWEIFSTYSIKSESYYIITDFNNKEEYQEWLNTIKKRSSYDFKKKVNTKDKVLTLSTCKNDHGDRIAVHAKLINKIKN;locus_tag=LOCUS_4690;gene=srtB;EC_number=3.4.22.71;note=WP_010989918.1 class B sortase (Listeria monocytogenes) [pid:36.6%25%2C q_cov:80.6%25%2C s_cov:94.7%25%2C Eval:4.7e-39],MGA_471
sequence03	MetaGeneAnnotator	CDS	133502	134383	.	-	0	ID=MGA_472;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357396.1;translation=MLLIGSHVGYNSKDQVLYSLNEALSYGASTFMFYTGAPQNTRRSPIDKSKVAEAISLMESKGLDYSKVVVHAPYIINLASPDMDKRSFAISFLKQELVRCSDLKISNIVLHPGSHTGAGVEEGLNNIISGLNEVLTDEVGPTILLETMAGKGTELGVNIDQIKEIISNINNKARIGICLDTCHLNDAGYDVSNFDAILDEIDSKIGLSYVKCIHINDSKNAISSHKDRHANIGFGTIGFDNLINIIYNERLKDIPKILETPYVDREYPPYKYEIDMIKNKKFDPNVIEKIKNN;locus_tag=LOCUS_4700;EC_number=3.1.21.2;note=WP_002357396.1 deoxyribonuclease IV (Enterococcus) [pid:51.4%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:9.1e-81],MGA_472
sequence03	MetaGeneAnnotator	CDS	134457	134927	.	-	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNEKGFTLIELLAVIVILGILMFVAIPMVTRYINNSRRDTFVDNAKMALNQAKTEKASCDVDDTDSECANWTTASGCPSGSSGKQVSLDDLQFEKKLKSPFTNSDMMGHVMYCTDSQGATDWYFQGTGTKNNATDGKGFPNDTIEDQLTRANVTA;locus_tag=LOCUS_4710;note=MGA_473
sequence03	MetaGeneAnnotator	CDS	135020	135514	.	-	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNDKGFTLVELLATLAILAIIMGIAIPNVLSTLEKNRKTTYIEDAKKLVTLAEYEFNKDEELTVDSGCVRINLSYLDKTDLETGPNDGEYDTTNSYVIIGYDSTNHKYTYKVQLQERKNGEIKGGIGENNIDDLNADGAIANQALFKKDSGWPTQTTCTVTKS;locus_tag=LOCUS_4720;note=MGA_474
sequence03	MetaGeneAnnotator	CDS	135563	136705	.	-	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRLIILFIILFLGSLLLLSNKEEKARKEVKSFEMKGLFFSYIEEEHYFKDKNTKEIKKGIEEIVKRAKENNFNTIILQVRSFSDALYNSKIFPKSINTKIDILDEFIKVASKYQIEIYAWINPYRISNEKNIPLEGPAKKWFNTDKVKVLENGIYYNPAKKEVRELIIKGVEEVIKYKVKGIIFDDYFYPSRDIDIDDYNIYSKNHHLSLQEYHLDNVNKLIKEVHDKIKSQKKNILFGISPDGNIDNNYNKIFADVRKWCSSNEYIDFIMPQIYYGFNNSNKPYINTINEWSNLIKNNRISLYFALAFYKTGNVDMYAKEGMYEWIENDDVIMRQVIIARNNDKYKGFALFRYDNIFDNSKKTLTSEKEFTNLQKVMK;locus_tag=LOCUS_4730;note=WP_011861673.1 cell wall-binding glycosyl-hydrolase Cwp19 (Clostridioides difficile) [pid:30.8%25%2C q_cov:82.6%25%2C s_cov:47.7%25%2C Eval:4.2e-34%2C partial hit],MGA_475
sequence03	MetaGeneAnnotator	CDS	136751	137392	.	-	0	ID=MGA_476;product=DUF421 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000455123.1;translation=MEYLIVIYKTVIFYILITVLYRLMGKREIGELSIMDLTISILLAEFAAISIDNVKENMLLSILPMIILVLIQFGYSKFSLHNKEARSVLEGEPSVIINRGIVNFKEMTKQRYNIDDLLKALRDKSIKSLEEVDFALLENNGSLSVFTKGKEESVYPLPVIVEGNILEDTLRQIKKDKRWLLNRLEIENYQLEDVFYAFYRNNSLFLIKKENIK;locus_tag=LOCUS_4740;note=WP_000455123.1 DUF421 domain-containing protein (Bacillus cereus group) [pid:40.0%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:4.4e-43],MGA_476
sequence03	MetaGeneAnnotator	CDS	137512	137814	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFTVSLSALSFFNIIDNNIVQIILHIVLLVLVFYLSFKYNKNHYKDYLLFILPVIIINTIIYLVFINDNFIKFLVFNTLLILITILAYRINIQKKDQN;locus_tag=LOCUS_4750;note=MGA_477
sequence03	MetaGeneAnnotator	CDS	137811	138536	.	-	0	ID=MGA_478;product=FCT-2 pilus polymerization class B sortase SrtC1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010921812.1;translation=MKVLDKTVDGLDKVLNFIIYSLFLILLIFGIYSLRSSLAILDDSELPKDIVKFRPNKRLSLEELKKINKDIVGWIRINNTHIDYPIVQGKDNIEYLNKDYKREFSLSGSIFMDYRNNPLEADPYTVIFGHNMDREKMFGDVNNFKDMTYFKKHKKGKLYLGKNVYKIKLYAYMLVDGYSNMIYDINQYHNGINEKLINFIESSADVYLKTEISTKDKLIVLSTCSRSDEKKRTILIGKIKS;locus_tag=LOCUS_4760;gene=srtC1;note=WP_010921812.1 FCT-2 pilus polymerization class B sortase SrtC1 (Streptococcus pyogenes) [pid:29.9%25%2C q_cov:95.4%25%2C s_cov:96.6%25%2C Eval:2.0e-32],MGA_478
sequence03	MetaGeneAnnotator	CDS	138679	139773	.	-	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFNVYNIGLVLAIALISVFALKPVKATGTVTWSGANSVTIDRTINDVTIAPTVTYTYTVAAVSGNPDGAGSIPTSATVAFNGSEQVTSNSVNKTQSLSFSGATFTKPGDYSYTITESATNNVAYPIDSTNHYTVIISVRNAVDANNIPTGDFNASLVLKDKDNSKVETTGGAAPEAAFVSSPDSSGFGHISVSSAVKGTTADLNEYFPYTVTLSDSTNTYSISGLDSAATCTGVATQPSTVSGGTATFCLKHGQTAVIGQDGSAGSEFDSIPTSVTYGVSVNNLGYDTTTYSIDNGTATTGTSFTNHALNAGNNQAAFTNNKSASALTGVLTTIIPYILVVIIAVCGTVAYTTLKQRKQGV;locus_tag=LOCUS_4770;note=MGA_479
sequence03	MetaGeneAnnotator	CDS	139871	140653	.	-	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENKESIEVLDLFEEPKEETPVVEEVPKAEVSTPVEVPEPEEPVIEEVPKPVDVPEPEEPTVEEVPKPVEVPTPEEPQAFELPKPEEDKKESKNKGLGRKILKKLLRMLLKILVVALILGVTFTIIFGFHLQKGLSMYPKFVDHDLLLYYKLEKNFRTGDVVIVRNNGRDYALRIVAIENDIVEIDDENLKINGHIVEEDIYYITPKKKKLNYPYTVPRGSVFVLGDYRTHSKDSRDFGAISFDNIKGKVINVLRNRDI;locus_tag=LOCUS_4780;note=WP_005811571.1 signal peptidase I (Desulfitobacterium) [pid:32.7%25%2C q_cov:55.0%25%2C s_cov:79.9%25%2C Eval:1.0e-13%2C partial hit],MGA_480
sequence03	MetaGeneAnnotator	CDS	140728	142035	.	-	0	ID=MGA_481;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011101415.1;translation=MKYYCIGIKGTGMSTLAQILADLGNEVTGYDDAKEYKFTEEGLRKRGIEIFYDSEHDIDKDTIVTHSVAFSDDHKEIKRVKELGLTIKKYNEILGEVVDMFDTTGVSGTHGKTTTSSMIKHIFENTIGCNYFIGAGDGYASKENKKFVIEADEFNRHFLAYHPNYAIITNIEEEHMEIYDDLDDIKRTFNEYTNNTKKLVIACGDNENVRSLDYKTEVIFYGFNDNNDVIAKDEKVIDGYSEFDVYYNGEKLEHFRLPLVGHHMVLNATAAIMACYKQGISLEDIKKNLLTFKNAKRRFVEEKIKDTIIIDDYAHHPTEIRVTLEAARLKYPNKKLIAIFKPNTYSRTRDFKEDFAKVLGTADEVYLTEIDCNREKSEDYDGVTSRTITDLIPEAKIIDENTLEGLSDVNDKVICVMSCAYTNHLIDNIKKKLEN;locus_tag=LOCUS_4790;gene=murC;EC_number=6.3.2.8;note=WP_011101415.1 UDP-N-acetylmuramate--L-alanine ligase (Lactiplantibacillus plantarum) [pid:42.4%25%2C q_cov:95.4%25%2C s_cov:94.7%25%2C Eval:2.3e-95],MGA_481
sequence03	MetaGeneAnnotator	CDS	142068	142673	.	-	0	ID=MGA_482;product=epoxyqueuosine reductase QueH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964885.1;translation=MNYNYEMEQIIKGLDGKKKLLLHVCCAPCSSACIERLQDYFQISCYFYNPNIDSLDEYQKRLNELKRFLKEALLDIDVVEDGYLSQDFLEMAKGLEEEKEGGKRCYACYMLRMKKTALKAKELGYDYFTTTLSISPYKNSTWLNEIGKDLEDKYKVNYLYADFKKKNGYKRSIELSNKYKLYRQNYCGCIYSKNSYLQKEN;locus_tag=LOCUS_4800;note=WP_010964885.1 epoxyqueuosine reductase QueH (Clostridium) [pid:52.8%25%2C q_cov:96.5%25%2C s_cov:95.7%25%2C Eval:2.0e-55],MGA_482
sequence03	MetaGeneAnnotator	CDS	142676	142798	.	-	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKIKLVLGAKCLILGFVTYKVVKKRKAKKEAKKLVKSR;locus_tag=LOCUS_4810;note=MGA_483
sequence03	MetaGeneAnnotator	CDS	142895	143203	.	-	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPCPIYAIFHVYCPGCGVTRMLGALFKGDFYQAFRYNPLVFILLPFIIFYIFDLIHSKITKKELYTNRVNNKVFYVLIAILLIYGLLRNINGFEVLRPTKI;locus_tag=LOCUS_4820;note=MGA_484
sequence03	MetaGeneAnnotator	CDS	143203	143562	.	-	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METKERNVALAIVFTIITCGIYGIYWFVVLTDEVKAKSGDEQMASGGVAFLLSLITCGIYSIYWAYKMGKAMQVAEKNNGVGDADNSVLYLVLQLLGLGIVVYALIQSDLNAINLKKAK;locus_tag=LOCUS_4830;note=MGA_485
sequence03	MetaGeneAnnotator	CDS	143630	145933	.	-	0	ID=MGA_486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLLYRTMIKNKYITNLILKKYSIVFILSVSLFSGLLFKNIEIVRFFSFFYFFAIGYKYELKLDKKYCKYLLLISITLYILLLLINIPYEFYMLPHYNNKYGIIIRGITFIINPALFIAIINLIPNKKIVMVSNIGKTSLYIYALHRIPTLLLSYYLYPNKYYLLISIITSIILCCFITSVHKFLDILFKTKYLLLTSFLFIIILLIPLFDSHELNVNEYKELDNALTIGYVGDLILLEDQLKLSDNDFDYMFNNMKERFNNTDYVFGVLEGPVDDNSDYSYGNYSDNKELRLNYPTSFLKSIESAGIDFVTIANNHMLDRGTSAYNSTIANLNNSKLNYTGTKDNYKILSIKGVRIGVLAYTYGLNYLDSNNYEKYTNYLVDPYSKEFNKYKKQIHKDFVKLKKSNVDMIIVMPHYGTEFNYRIDIYQKRWNDFFVKEGANIILGDHSHVIEPIEYKNNSIIINSPGNYVNSYIGNDSDISMYVKLYINKNNHSIIAAEITPIIATKDSEGKYYPKLLKNTTSKNKDRVLEKISNVVLKNSVSKINNSYYYYPNKKYKYDNKYKLKLNNNDKKTLVYKKISENENICFIGDSITNGYKNGYKPWYLPLMSNFDKNIINISKESYTSYDIINKFSNKIEEAKCDLSIINVGTNDIRYNKENVNNYIDNIKRIVELTQGEDIVLSPWQTTENDYNISKKDKEKRKLYNTYNKELKKLDNAYCIDPNPYIKKVIQYNNENDYILDGVHPNNNEGIKLYSFAVLRGSDC;locus_tag=LOCUS_4840;note=WP_005808454.1 CapA family protein (Desulfitobacterium hafniense) [pid:29.3%25%2C q_cov:34.6%25%2C s_cov:61.5%25%2C Eval:1.5e-21%2C partial hit],MGA_486
sequence03	MetaGeneAnnotator	CDS	146006	146239	.	-	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKNNYDIYRGVLIFLVVLGHMLITYDYLPKTNYNVILSSIYIIHMPMFFIVSGYFSKNRKNSGLLMCLSIFLFMNT;locus_tag=LOCUS_4850;note=MGA_487
sequence03	MetaGeneAnnotator	CDS	146397	146963	.	-	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYVRVMDGLKSNASGEEFKLDETITAKTWNPKEKEPEKMGGFNFSTEDKILRYIFRGDTIYDVIIPDDAEVINVDEEKGIYRVNKIIVTNPRKITEDMVIDIYKKSTLPINRYFQCIYCLLFRKYINASKYIINDIVNKENISEAIKEFEDFASRTNGNTTGIFDYDKLFPEAKEIYNLLLDIRNK;locus_tag=LOCUS_4860;note=MGA_488
sequence03	MetaGeneAnnotator	CDS	147081	147800	.	-	0	ID=MGA_489;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065023.1;translation=MGLDSNLMVKVISLERDRIESFDQYPFNIEVVKNFHELKFKSPVTFFVGENGIGKSTFIEAIAVALGLPAEGGTDNFTYETNNTTSVLSEYLRVGTFNRPKTKFFLRAESFYNFSTEVDNIGVWSSYGGSLHECSHGESFLKLVQNRFTENGLYILDEPEAALSPQRQLSLLCLIDDLVRNGSQFIIATHSPILISYNKGKILNLDNNFEEIKYKDTDIYKLYKMYLDQPDAMQHRLFD;locus_tag=LOCUS_4870;note=WP_048065023.1 AAA family ATPase (Methanosarcina acetivorans) [pid:50.8%25%2C q_cov:94.1%25%2C s_cov:94.0%25%2C Eval:9.8e-61],MGA_489
sequence03	MetaGeneAnnotator	CDS	147947	148153	.	-	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYEPLWRYVKENNKEEYKLSFEEVKRITGFDFDHAFLTYKKELPDYGYEFKKLSLKEKWVWIIKKK;locus_tag=LOCUS_4880;note=MGA_490
sequence04	MetaGeneAnnotator	CDS	324	527	.	-	0	ID=MGA_492;product=DNA-directed RNA polymerase subunit omega;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003547927.1;translation=MIYPSIDKLLNIVDSKYELVLVAARRSKEMTKNMHHQKKESEYKCKKSIGRALEEICDGLVTVRKSA;locus_tag=LOCUS_4890;gene=rpoZ;EC_number=2.7.7.6;note=WP_003547927.1 DNA-directed RNA polymerase subunit omega (Lactobacillus) [pid:49.2%25%2C q_cov:91.0%25%2C s_cov:79.7%25%2C Eval:2.2e-08],MGA_492
sequence04	MetaGeneAnnotator	CDS	608	961	.	-	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFENTEFNNMSNVDFNSNVSGNDNFTYNEVDVNMTNNYDAEMPNGFGPSASMEPIQERVVHRTFVHEVPHVCPIRTRIINHHIYKHTYRPEYSCCEENEVCNVECGSCCDFQNNQCM;locus_tag=LOCUS_4900;note=MGA_493
sequence04	MetaGeneAnnotator	CDS	1042	2184	.	-	0	ID=MGA_494;product=DUF3048 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003233927.1;translation=MMNDNDNFESYYDNGVARNKKGKKKKIIIIVSILLVLILGALAYFFLFNGKDDAPIIKKKKKVEEKKLQIVDEDSNKRPIAIMIDNNVGNNAHAGLDKAYITYECIVEGGLTRIMAVFKDRDVDLIGPVRSSRHYYLDYAFESDAIYAHFGWSKFAENDIKSLGVNNINGLYDSAPYWRDKSIAAPHNVFTSIDKLYDTAEKKGYDKETDDWKLLNYTTDVVDLHTPISTEKVKDPETGKMKTEKKYDPELLEANSVSVRYSPTQTRSYTYDKESKRYLRSMNNAEHVDRESKKTLSYKNILIIFVSNSTMDADGHQDLETVGNGGGYYITNGYALPINWSKESRKSKSVYTYADGKKVKFNDGNTIIQVAPTAYKAEIS;locus_tag=LOCUS_4910;note=WP_003233927.1 DUF3048 domain-containing protein (Bacillus) [pid:28.7%25%2C q_cov:86.8%25%2C s_cov:91.8%25%2C Eval:6.9e-37],MGA_494
sequence04	MetaGeneAnnotator	CDS	2347	3066	.	+	0	ID=MGA_495;product=aquaporin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000913203.1;translation=MKKYVAEFIGTLVLVVFGCGSAVGVNSLLTSSGATIPLAISTLTIAIAFGLVIVAMAYSIGRVSGCHINPAVSLGVWMNNKMTTKDFVGYVIAQVIGGLAGAGILAYLFNSTKSLGANGYGELSALGCSMGVAIVIEVILTFVFVLTVLSVTEKAENSRIAGLVIGFTLTLVHILGIPFTGTSVNPARSLGPALISGGEALSQVWVFILAPLVGAAIAAIVYKLLIDENKTPRKKASSK;locus_tag=LOCUS_4920;note=WP_000913203.1 aquaporin (Bacillus cereus group) [pid:50.9%25%2C q_cov:96.2%25%2C s_cov:99.5%25%2C Eval:6.8e-54],MGA_495
sequence04	MetaGeneAnnotator	CDS	3223	4788	.	+	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFIIFSFAILFVPYTVFGENEAITGTPGSPSENETSQNTSASIKYQTHIQNIGWQKYVDNGSTAGTTGKALRMEALKIKLDTNLQGNIEYRTHIQNIGWQNYVKEGATAGTTGKALRVEALKIRLVGEIEQYYDIYYRVHIEDLGWLPWAKNDMPAGSEGISKRVEAVEIKLASKNDNTIIVDNGSFIKKYETLKYQTHVQNIGWQNYVKEGATAGTTGKALRVEAFNIDLSSSLEGNVTYQSFIERGSWESQPTTNGSISGTTGKSKAIQLIKLNLTGELANTYDIYYRVHSSTYGWLGWAKNGEIAGVNHYSIEAIQIKLYFKFDQNKNRLKTKNHYIEQVNYKPAYYSQRDSRWKNKAYGRYTMGPTGCGPTAMAMALSGILNKSILPTNVADYLWKYTNDFNKRLAGTSGGGIIHVANRYDVKRTALKNKTELINALKEGKIIYAAMGKGKFVKNSGTHAIVLFGYNSNNTTNAYDPYDQKKNGAVSINLIWNEKSKDPDDYSEGTVFHSLERY;locus_tag=LOCUS_4930;note=WP_011109429.1 C39 family peptidase (Enterococcus faecalis) [pid:42.7%25%2C q_cov:91.9%25%2C s_cov:63.7%25%2C Eval:6.8e-105%2C partial hit],MGA_496
sequence04	Aragorn:1.2.38	tRNA	4844	4917	.	+	.	ID=Aragorn_31;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0310;note=Aragorn_31
sequence04	MetaGeneAnnotator	CDS	5004	5696	.	+	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNKIIKISAEIANELGTPLYTDGHFGHNHYANLYEDDEFSIIYYLSTNSIYVSKNGRHLLSYNFNTENYYAENGHWPQLLKLIHLQIPLVKKIREMDKVIKEEKTEQLKALQPFLDTYVNSKEDENARLIMDTFLEKKGFSIDEKEENNENYYKSDTDYYYNIFYDDEKVLEYKSGSSDLDPFVDKYVPGEWTISFAECIEDATELNELMTNKIVNDEVQKIIKKPKH;locus_tag=LOCUS_4940;note=MGA_497
sequence04	MetaGeneAnnotator	CDS	5713	7056	.	-	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVRYPVVPNNIIVHLGKPSEAAKDVSVPFPEYIKNVASSEIYPTWPEASLRANILVIVSFALNRIYNEWYRSKGYNFDITNSPAYDQTFIYNRQIYENIGNLVDDIFNDYVFKEGQVQPLFTKYCDGRKTTCNGLSQWGTVTLANQGKSPSQIIKYYYGNDALIKYDAKVGDNTIGFPGYTVKLGSVGNPVRAIQRDLNRIRINYPAIPEITESQGIYEKETEAAVKKFQEIFALPITGNVDKGTWYKIKYIYTSVKKLSDLYSEGLSKEEATFEYKDELKYGDTGIEIEFLHYYLDAIAFLDPDIPYLKTNSVFNDSTKEMVMAFQRKYNLPVTGIVTYTDWKALIDIYDKILKAYPSEYALYVEELYPDYFLGKGMNNDDVKRYQNFLYKICIKKKSIPGVKVTGEFDDLTERSVKKLQKDFGLEENGLVGPLTWKRTVELSKE;locus_tag=LOCUS_4950;note=WP_010966518.1 peptidoglycan-binding domain-containing protein (Clostridium) [pid:48.3%25%2C q_cov:59.5%25%2C s_cov:60.9%25%2C Eval:3.4e-70%2C partial hit],MGA_498
sequence04	MetaGeneAnnotator	CDS	7046	7459	.	-	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIDINDEKLESDISFQKYLEDNPGTGYLKVRASSASEAMPIEGVEVIVSKKIGDNTIVFYDGKTDASGMINGIKLPTPKRIANNLEVPNFSTYNLRAVYPDDSYDQNYEISLCCSITIVQYINITPKVNMEGNNGS;locus_tag=LOCUS_4960;note=MGA_499
sequence04	MetaGeneAnnotator	CDS	7470	8132	.	-	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYTVKSGDTLYGISNQFGISAIDLYNYNNLTTTNILPGQVLKIPSNSGTNPGGLFTYTVVKGDSLYNIARRYETTVDEIMKLNHLTSINLSIGQKLQIPETGEEVTVPPSYESYTVKKGDTLYSIAKKYNLSVDILLKDNNLNSPNLSVGQVLKIRTGTTTILECFGEDTKVDDSIIYTVKKGDSLWSIAKKYNTSVNTIKSKNNLTSNNLSIGQKLKI;locus_tag=LOCUS_4970;note=WP_010990043.1 1%2C4-beta-N-acetylmuramoylhydrolase (Listeria monocytogenes) [pid:33.7%25%2C q_cov:99.1%25%2C s_cov:43.7%25%2C Eval:2.5e-28%2C partial hit],MGA_500
sequence04	MetaGeneAnnotator	CDS	8200	9720	.	-	0	ID=MGA_501;product=formate--tetrahydrofolate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966477.1;translation=MKKITEIADKLGVKELELYGDNKAKIKDKPSNRKAKLILVTATNPTKYGEGKTTISISLADALNKIGKNTVLALREPSMGPVFGIKGGATGGGKAKVEPEDEINLHFTGDFHAITSANDLLCAAIDNHIYFGNELKIKKVIFKRCLDVNDRALREGFNITAASEIMALFCLAKDMDDLKEKLGNIVIGYNEDDEFIYAKDLGVVGSMAALLKDAIKPNLVQTLEETPTLIHGGPFANIAHGCNSVIATNLALSLGDYVVTEAGFGADLGAEKFFDIKCRLNDYKPDAVVLVTTIRALKYNGEEDLKKGIVNLEAHIDNISKYTKNLVVCLNRFDDDTDEEVSFVENFVKEKEIEFTTSTGFLDGSDGSISLAEKVVNLTEKENDFKLLYEDDLSLKDKISAIAKEIYHAKEVVYTDEANAEIEKLDKTEVRNYPVCIAKTQYSISDDPKKLGYPKDTTLTIKGVELYNGAGFLTVLSGSIIKMPGLARHSNYENIDVEGDKITGII;locus_tag=LOCUS_4980;EC_number=6.3.4.3;note=WP_010966477.1 formate--tetrahydrofolate ligase (Clostridium) [pid:51.2%25%2C q_cov:99.8%25%2C s_cov:97.7%25%2C Eval:1.5e-149],MGA_501
sequence04	MetaGeneAnnotator	CDS	9932	11389	.	+	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSKIILALALIIGFNFLNILTVKADSAQFYEAEYVDGVYIRYKGGDTTYYQKARFFRRRSDNMHAYCLEPFVKINEAVTYEGQINPSTISSAKWKRITQIAHFGYNYKAHTTPKWYAVTQYMIWKELEPSANFEFTDTLNGNTIKPYLGEINEINNYIKAYYTKPSFNGSSIDIVEGEKVELTDTNGVLKDYKTNTKSATISGNKLTISDLKEGKYTISLTRNDTTSNNPPLFYYNASSQKLMTAGYEETITSNLTINVIKTNLTINKIDHDTKNTTPSGEGILKGTTYELYDSEMNLIDTLEIDENCTISYDNLVFGKYYLKEKEAGTGYKLDPNTYDFTIDKENNNITLTLENEIIKKKVTINKKYGSTNNFKSEGKATFAIYDSNNKLIRTITTDEEGKAELILSYGTYTFKQTSTKDGYHKVKDFKVVISDKDTDKLEFDLFDYEIQVPDTESTNNYFLHLILLLFLLMLIANLYVEKLN;locus_tag=LOCUS_4990;note=WP_010989363.1 LPXTG cell wall anchor domain-containing protein (Listeria monocytogenes) [pid:29.6%25%2C q_cov:54.2%25%2C s_cov:31.8%25%2C Eval:3.2e-16%2C partial hit],MGA_502
sequence04	MetaGeneAnnotator	CDS	11370	11894	.	+	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWKNLINIFLIIFVYSICCIFIYNANQDHSTVITKKNKLKTAYATSDVLATIKIDKIGIDHPIYPLSNPKNNVDQNISILKGSILPDKDNSIIFIAAHSGVGKIAYFNNLDKLNKGDKVSFFYKNKEYKYIVSTIYEEKKDGYIHVSKGKDKQLVLTTCSKNKGKQLVVNCILT;locus_tag=LOCUS_5000;note=MGA_503
sequence04	MetaGeneAnnotator	CDS	11919	13130	.	-	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEKIREVIVEKKVGFSTLEVIIIIIVSIAFGAILGSVISYRGDVKELEFDYGDLGEVVRTYKNLTNDYYEKVDKEKLTNGAIKGMVESLNDPYTVYIDNEKAKVFNQRVNGEYYGIGAVVGKVDKKIVIVGVIKKSPADEAGLKPGDELLRIDDTVITEKMDTTEVINLIKSDTKVKTSIKVKRDGEEKEIIVEKTKIDIPSAGSETIDKDGKKIGYLDLSIFAANTYEQFKKELGNLEKKGITDLVIDVRNNPGGHLDQVSKILSTFIPKGDVIYQIKAKGKKNKAFSNNKKAKDYKIVVLVNGDSASASEILAAGLKESANAKIVGTKTYGKGTVQKAYSLASGAIVKYTYEEWLTPKGKSINKEGITPDVSIELDKDYYKDPTMEKDNQLQKALEILK;locus_tag=LOCUS_5010;note=WP_002037436.1 S41 family peptidase (Bacillus) [pid:37.7%25%2C q_cov:86.8%25%2C s_cov:72.9%25%2C Eval:2.8e-60%2C partial hit],MGA_504
sequence04	MetaGeneAnnotator	CDS	13103	13621	.	-	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKIANKIFDIVFFIFLGLCLIVAIIPFVLRVHLYTIASNSMEPKMSVGDLVVTKKVELEDLKKQDIIAYRRDDIVVTHRIIGINEKNNTLITKGDNNVYADSGEIIESQVLGKVILNIPFIGYIYSFIRIYSLWICIFILVFGCVLNYLNTKANKKNEVKKWKKKKSGK;locus_tag=LOCUS_5020;note=WP_003246088.1 signal peptidase I (Bacillus) [pid:32.4%25%2C q_cov:72.7%25%2C s_cov:71.6%25%2C Eval:5.3e-13%2C partial hit],MGA_505
sequence04	MetaGeneAnnotator	CDS	13706	14179	.	-	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKDVNEKFDMKKAVKMLVVILIILALFYGLSLLITKSPSPQVEKKGSAEIQNREILLGSSFNRKDNEYLVVFYNKKVNTSLTEAIVNYRTKDKHLPTYEVDMGNGMNASHKSDVSNEYAESVEELQINGTTLIKFSKGKIVEYVEGDSEVTEYLK;locus_tag=LOCUS_5030;note=MGA_506
sequence04	MetaGeneAnnotator	CDS	14231	15220	.	-	0	ID=MGA_507;product=outer membrane lipoprotein carrier protein LolA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003234282.1;translation=MRKKLFGIFIILLLFTLTGCGKYTPGKITRDLEKKIGNLKAYRLSGVLEITNNDDVYNYDVDVSYKTNDKYKVVLKNKANKHEQIILKNDDGVYVLTPALNKSFKFQSDWPYNTSQIYLLEAILDDIKGDKKKKLFKEKKQYVLQTKVNYTNNKKLVKQNIFLDKHLNIKKIDVFDKNEVPLMQMTFKRIDYSPTFKDSYFKLPKAFNTKKAKTTSKIEDVIYPLVIPANTKLVSEEKIDKTNGERVLMTFEGDKPFLLVEETANVEDELTVIPTYGEPYMFADTIGVMADNSLTWNSSGMEYYLVSDVMGKEELLEIAKSINVIPTMK;locus_tag=LOCUS_5040;note=WP_003234282.1 outer membrane lipoprotein carrier protein LolA (Bacillus) [pid:33.0%25%2C q_cov:94.8%25%2C s_cov:94.1%25%2C Eval:3.7e-49],MGA_507
sequence04	MetaGeneAnnotator	CDS	15313	17349	.	-	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENDDLIEEENEFEEYPEELVEELLETIKKEKNISEVSAALGLSDFEVLGLVHDLLSDGKNIIVKPYDDGFHLLNQGDMVDTGVSKYSFETDDSNEFKFVAISDTRLGSKSQQLAILNDIYRKANDMGIKNVILCGNISAGLKPMIDIESNFIDDSQAQVDYIVSNYPRYEGITTYFISGKLDDKHIQANNINIGKRISDARDDMVYLGEDICDISIDRVKMQVINSKLTKTYTASYRTQQTVDAYRSEDKPDILLYGGLLQMEKYEYRDVNCIAVPSVCATDNEMKSKRYANTIGAWYVTVKTDEKGLLSHITAMDSPYYVSNKKDFAGTSVSINTKSKMAPQFDSASIEAALKSHKYVRNDMSIDAYMQKFHISYKELQGLLYIWEMCGKKVDIVPNGKDMVFKKNVVKKSSYNKKGLEDLIEKEILVVSDTHFGNIHNQVHLLNELYQEAYNRGITDVLHVGDLTDGNYPNRPENPRQQFLHGFDEQVGYAVDMYPEIDGMTTHYILGSHDETHYKNGQATVDFWINKCRKDMDFLGQDTGEIKLDRVKYVLDHPGGGSAQSLSYKPQKRIEILESHNKPKVLLIGHYHKSYHFVYRNVQCVEVPALCSKTQFQQKQGLLNAVGGYFIKTYSDKRGNVQYFEPEEILYGPKDFWDEAGKDKGKVKKLKIDHGIY;locus_tag=LOCUS_5050;note=MGA_508
sequence04	MetaGeneAnnotator	CDS	17465	17818	.	-	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKDQRIAEIDERIHDLREHGSMWAKAGGVGGRMAAQAYGEIKDLEMEKDDLINGTNNLGIKRKEEEIRQLKALRKEANFLKRMKYNKQITQQEAELEAMINTNPGPSESIEAKTK;locus_tag=LOCUS_5060;note=MGA_509
sequence04	MetaGeneAnnotator	CDS	17874	18224	.	-	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKAGEERIQAIDMRIQNLREQQSMWARAGGGGMAMKALGEIADLEMEKNDIINGTNNLGITQKEREIERLKIMRNEATLLKKFSYNKQINQKNIELQEMVKENPTPTAAIEEKEK;locus_tag=LOCUS_5070;note=MGA_510
sequence04	MetaGeneAnnotator	CDS	18298	19653	.	-	0	ID=MGA_511;product=CdaR family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048337.1;translation=MKILFRLLGKLIIHIGSFFDKWLITPITKLFLGIGHLLKRNTKGLDRFIGKKSTLIVISLILAVSAFWIIDRESNVLIDQYAEVLYKQPVHATYNEELYVVEGLPKTVDITLVGQKRHIFLAKQSPSTGVTVDLTGLKPGNHKVTLKYSQRIASLDYKLEPSEVTVTIYEKVSETRTLDVDILHKDNLDSKLYIADIDLDRTNVIIKGAKYKIKKVATVKALVDVDDFVNPTAGTMDFKDVPLVAYDSKGKKVNVEIVPKTVDAKVKITSPSKEIPIEIIPKGHLAFGKSISSLTADINTVKVYGEQAVIDKIEKLPVKINVKNLEEDKTFTVTLEKPAGITDISVTTIKVYVKVADSDTKDFKDIPIATENLNSRYKVQALSEADSKTTVVVKGSKDLLNDLDSTTIKAYVDLKNYGIGEHEVDVKVSGEDLRLTYTPKTKRIKVRITQK;locus_tag=LOCUS_5080;note=WP_012048337.1 CdaR family protein (Clostridium botulinum) [pid:23.8%25%2C q_cov:88.7%25%2C s_cov:97.7%25%2C Eval:4.9e-16],MGA_511
sequence04	MetaGeneAnnotator	CDS	19637	20464	.	-	0	ID=MGA_512;product=diadenylate cyclase CdaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001115697.1;translation=MLTVTDIITIIKKIIDISLVWLIFYFILKNIRNNVKLTLLFKGIAFIVVLKIISDLLGFTTLGVLLNYVVSWGPLVLIIIFQPEIRNILEQLGRNRLLGRHKILSVDEREHLVYEIVNALDYLRKNKIGALIVLEKDISLGNYIDKAKKLYADISSDLLIAIFYEGNPLHDGGVIIQGDTVVCAGAVFPTSGSTRISSRLGTRHRAALGLSEETDALCLVVSEETGRLSIAHKGELYHNLSIDDVRIMLIDELKPKQDVEFDDEIEEEDTYEDTI;locus_tag=LOCUS_5090;gene=cdaA;EC_number=2.7.7.85;note=WP_001115697.1 diadenylate cyclase CdaA (Bacillus cereus) [pid:46.2%25%2C q_cov:86.5%25%2C s_cov:86.8%25%2C Eval:8.0e-52],MGA_512
sequence04	MetaGeneAnnotator	CDS	20517	21041	.	-	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAIIVFFRDVLSGSLYTITTVISSILICACFGYLIDKKQKKIAHDSQFAQAPQTPDGLDYRDRFRPMSHTAQGQNTPQRANDREVAGAVAPPEPEIKQSTVVFKDEVKPMEVEEKVDTAAYEKPEPEKEEPTTPKVQAPIPIGEKIQSNPLPIEEPLAPNNVEEVSNPIPMIK;locus_tag=LOCUS_5100;note=MGA_513
sequence04	Aragorn:1.2.38	tRNA	21135	21210	.	-	.	ID=Aragorn_32;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0320;note=Aragorn_32
sequence04	MetaGeneAnnotator	CDS	21220	23385	.	-	0	ID=MGA_514;product=ribonuclease R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837242.1;translation=MTVDTVLERIYGIKKALSREELYEVCEITSDEDKSLIDQILEKEVKSYNLIVDKDKYIPISRTKYKKGTFDGYKQGGGKVTVITSYIDDEDKLNTSKESYIIKNSNSKEAIDGDEVLIEPIDKDNYRIKEIISRKVKTVLGEVFLENGEYFIKSNDKRKQSFKVLLDEEEIVGSKVIVSLEDKLNEGLFLGKVKRVIGSRNSAEKEFIELAYNLGIEPFFSDEALEELEFIPNQVSSSDKEKVLDLTDLKAFTIDGKDTKDMDDAVSIRELDNGNFLLGVHIANPTYYIEEGSYLDQEAILRGTSVYAFNQVIPMLPPKISNGICSLNPDVERLCLSSLMEIDKEGKVLNFSINEAVIKSRKKMNYDDVNSVLEGHEVPDGYEDFVRELRSLYKLALILKKRCLKEGMINIDMAEPSFYKENGKIEYKVKRQKAAEDMIEFLMVTANEQVARYMKSKNITVINRIHEAPNGDKIRNYVNYLKNFGISYNQPFIMEPEYFQELVERVNAKGDLKDIVLTEFVRSLKRACYSVDDLGHFALGKSDYVHFTSPIRRGPDYILHRQIRELVLSKRNSVENRKKWALELPSLAERFSKAEQKAAELERIAAKRQACYYMRRHVGDEYKGIITSLEYGYMNVELENLIEGRIKYEDLDSHYVFNEKDQKLFTSSDRYMIGDKLDVIVKDSEKAEDFNIYFDINKKIGYNDKGTDKQKVKQKLQKYYK;locus_tag=LOCUS_5110;gene=rnr;note=WP_011837242.1 ribonuclease R (Streptococcus sanguinis) [pid:32.9%25%2C q_cov:97.4%25%2C s_cov:91.9%25%2C Eval:3.4e-97],MGA_514
sequence04	MetaGeneAnnotator	CDS	23467	23670	.	-	0	ID=MGA_515;product=DUF378 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003220771.1;translation=MNTLQRIALILTIVGALNWGLVGIFDFNLVTFAFGEGSVLTRIVYILIAFCGIVNIGILINGLERMD;locus_tag=LOCUS_5120;note=WP_003220771.1 DUF378 domain-containing protein (Bacillus) [pid:53.3%25%2C q_cov:88.1%25%2C s_cov:76.9%25%2C Eval:5.0e-13],MGA_515
sequence04	MetaGeneAnnotator	CDS	23742	24797	.	-	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKLGPSGLIRLVIVPAFLGLGLVGGYAVETNRIYQNLKMTLVDTASVEYGSANYDINKLVDKIDGKIVRIEEDVDTSKVGKQQVVVALEKDGVEKNVAFEVEVKDTKAPEAEIKKEKVSVAQGQSINVLENVEKVYDVVDGDIEYIKKEEVEEGKTNYYTVEGTVNTTKPGEYPVKVTAVDKYGNVSQTDFKVEVTRQPVKTEEKDKDQKAAEAIKQQEIVNNVPMGDGTLVGNARAFAGYRYRSGGNSPATGFDCSGFVQYILGQSGIIVSRSSGSQAHDGVSIPYASAQPGDILIWGHGSRVTHTAIYLGGGQMMHATNPSMGVVQSNVSAWNTHSDARLIDVRRVK;locus_tag=LOCUS_5130;note=WP_007053845.1 C40 family peptidase (Bifidobacterium longum) [pid:40.1%25%2C q_cov:42.7%25%2C s_cov:64.4%25%2C Eval:5.8e-19%2C partial hit],MGA_516
sequence04	Aragorn:1.2.38	tmRNA	24980	25320	.	+	.	ID=Aragorn_33;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm0010;note=Aragorn_33
sequence04	MetaGeneAnnotator	CDS	25386	25769	.	-	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSTEIEEKLKQITIEDYIWIVYLIIIFLSWYSNSLERRYYIYNDEISKEKYRKILIFIFSILVIVYIYFLKSSINDLNNLKENDSNKKKELITLSFIASLLIAISGLIFLYIALSDNDLNVELAFN;locus_tag=LOCUS_5140;note=MGA_517
sequence04	MetaGeneAnnotator	CDS	25874	26179	.	+	0	ID=MGA_518;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392444.1;translation=MIPVTKDTFEKEILKRKGKVLVDFNASWCGPCRMLQPVLEELEKENKNCTFASINVDDNEELSQECGVMSIPCLVLFEDGKEIDRSVGFKSLEELKEMIGE;locus_tag=LOCUS_5150;gene=trxA;note=WP_011392444.1 thioredoxin (Moorella thermoacetica) [pid:49.5%25%2C q_cov:97.0%25%2C s_cov:91.7%25%2C Eval:3.7e-21],MGA_518
sequence04	MetaGeneAnnotator	CDS	26181	27101	.	+	0	ID=MGA_519;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434033.1;translation=MYDVIIIGAGPAGLTAALYLERALKEVLVLEASSYGGQILTTDKIDNYPGLPGISGFDYSNLLYNQAKDMGAEFAFEKAIEIKDKGKIKEVITEKNTYKAKGVIIATGADNRKLGLENEDKLVGKGVSYCATCDGAFYKKKIVAVNGGGNTALEEALYLSDIAEKVYLIYRRDEFTKAEKKLVKQIEKKENIEVIFNTIITKLNEKGGKLASINIETKDEEPKTIDINGLFIAVGRVPESENFAKLVNTDEAGYIEAAEDCSTNVEGIFVAGDNRVKEVRQLTTATADGTVAATNIIKYLNDKGGK;locus_tag=LOCUS_5160;gene=trxB;EC_number=1.8.1.9;note=WP_003434033.1 thioredoxin-disulfide reductase (Clostridioides difficile) [pid:48.0%25%2C q_cov:98.4%25%2C s_cov:99.3%25%2C Eval:1.3e-77],MGA_519
sequence04	MetaGeneAnnotator	CDS	27103	27861	.	+	0	ID=MGA_520;product=glucose 1-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814140.1;translation=MFDLKGNVAVISGASSGLGKQMTLAFAKQGADLAILSRRINELEKIREELKDYDVKVLPIRCDVTSTAEVNAAAEKVEEVFGKVDILINCAGAAKNAGALDMTDDEWKFTIATDLSSIFKMTRAFGNIMKKKKYGRVINISSMYGLVGNTKIPTIAYHSAKGGVINYTRAAAAELAKYNITVNTIAPGYFYTELTKETLKTKDFQDFAKEHVPMGRYGEEGELNAGAIFLASKEASYVTGIVLPIDGGYTAV;locus_tag=LOCUS_5170;EC_number=1.1.1.47;note=WP_005814140.1 glucose 1-dehydrogenase (Desulfitobacterium hafniense) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.7e-70],MGA_520
sequence04	MetaGeneAnnotator	CDS	27863	28225	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRVLFIVLGICILVLFTALTIFTFTQNAKKSKWDIVDARIVGTKTEIDSYTTNSYVDYKLEFIYHNKANHTTAKCSYSASKCHSLVGKYIKVRVEPKLNAFNEYGNVEIESEKPFDKN;locus_tag=LOCUS_5180;note=MGA_521
sequence04	MetaGeneAnnotator	CDS	28271	28819	.	+	0	ID=MGA_522;product=cytidine/deoxycytidylate deaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032889952.1;translation=MNNIPKKLLGGKRKDYLSWDEAFMLSAVVSSGRSKDPSSQVGACIVGKDHRILSLGYNGAPNNWDDKDFPWERSANDHNHTKYPYVIHGEMNALLNYKGDSKDLMGATAYVTLFPCSNCAKFLAQAGIKRIVYLSDKYKDTDDNIAAKICLDNCQVTYEEFPKELQRDIIVSLLPDKGINDK;locus_tag=LOCUS_5190;note=WP_032889952.1 cytidine/deoxycytidylate deaminase family protein (Fusobacterium) [pid:53.5%25%2C q_cov:85.2%25%2C s_cov:93.8%25%2C Eval:1.0e-41],MGA_522
sequence04	MetaGeneAnnotator	CDS	28831	29271	.	-	0	ID=MGA_523;product=SsrA-binding protein SmpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700605.1;translation=MEIVNRRVKHDYFIIDTYEAGIALTGTEIKAVRAGSVNIKDCYGRVKNNEVYLINMYIGEYKEGNIFNHDETRSRKLLLHKKEIKKIDEAISKEGLTIVPYKLYFKNNILKVELCVCKGKKNYDKRETIKQRDIQRDIEKRTKNYR;locus_tag=LOCUS_5200;gene=smpB;note=WP_003700605.1 SsrA-binding protein SmpB (Ligilactobacillus) [pid:58.2%25%2C q_cov:96.6%25%2C s_cov:91.0%25%2C Eval:6.5e-44],MGA_523
sequence04	MetaGeneAnnotator	CDS	29276	30442	.	-	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRKKKRLKRKVKRLFLLAIILIVAGITISVWPSFNKKSEPKKQKKEVKIEEKEKKLSVIAVGDALIHSTVYMDAKQSDGSYDFKPMLQYIKPIVKDYDLRYYNQETILGGTELGLSNYPMFNSPQEVGDAFMDAKFNLVSLATNHTMDKGETGVTKSVEYWSKQKKVVWDGQRTSAEEREKTRVYKKNGIKYAFFSYTTWTNGLETPVGKEYLNNVYSEEKAKADIEKVRDEVDIIIVAMHWGTEYSLDVSADQEKIAKYLSDLGVNVIIGAHPHVVEPVEYVGDTLVIYSLGNFISDQLGTERLTGLMFAFDITVKEKGEEKSIKVDNLRADLLYTKHNNAKNFRVYPYSELTNEILPNYMEYYNTYKGVVLSRNQDITFGSLRKE;locus_tag=LOCUS_5210;note=WP_000887601.1 CapA family protein (Bacillus cereus) [pid:43.6%25%2C q_cov:64.9%25%2C s_cov:62.5%25%2C Eval:2.9e-59%2C partial hit],MGA_524
sequence04	MetaGeneAnnotator	CDS	30444	32549	.	-	0	ID=MGA_525;product=ribonuclease R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000391086.1;translation=MKDDIIKVLKENTKALSVYEISDALGINDVEKTKELNEALKDLEEEYTIYHTNKDKYMLLDNSPLRKGLLRVNKNGYGFVDVEGMDEDIFVSRTNLNGSIHHDTVLVEITSKMNTPRVEGRILRILERDAENYIGEINFKDDIGYITLDDSKIKLNIEVKKEDSLNAVDGHKVVVELLDKKDNHGGYYGKVTEIIGHKNDPGVDILSIIHKYDIEVEFPDEVVEEVKTIPSEVRSEELEGRKDLRDQVIFTIDGDDTKDIDDAISIKKFESGNYELGVHIADVSYYVKEGSPLDDDAMERGTSVYLVDRVIPMLPHELSNGICSLNPDVDRLAISCVMEIDPKGKIVKYDIFPSVIKSRKQMTYKNVNKILEENTVPEGYEDFADDLRLMKELADILRKEKIERGYIDFDVDETKILVDENCVPTEVTLRERGAGERLIEDFMIAANETVATHIYNMELPFIYRVHEYPKEEKIRSFLSFISSLGYTYTGDLKDMSPKTIQKLINFLKDKKEFKILSSLLLRSMQKAIYKPENLGHYGLASKCYTHFTSPIRRYPDTTVHRLLRTYLFNHKIDKETVKYWEEKLIFVADHSSAKELASVNCEREVEDMKHAEYMESHIGEEFEGMISSVMNFGMFVELDNLIEGLVPIKDMDDFYHYDEDNLTLTGEKKHNVYRLGDRVIVKVVRASKEEKQIDFEVVKKV;locus_tag=LOCUS_5220;gene=rnr;note=WP_000391086.1 ribonuclease R (Bacillus cereus) [pid:47.2%25%2C q_cov:99.3%25%2C s_cov:87.0%25%2C Eval:3.6e-192],MGA_525
sequence04	MetaGeneAnnotator	CDS	32603	32818	.	-	0	ID=MGA_526;product=preprotein translocase subunit SecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003220028.1;translation=METVLLVISILLIIIVLLQSSKAEDAAHIFSGGGSDLFKNRKERGSELVITRVTFLLGMAFFVICLVSMFV;locus_tag=LOCUS_5230;gene=secG;note=WP_003220028.1 preprotein translocase subunit SecG (Bacillus) [pid:41.7%25%2C q_cov:84.5%25%2C s_cov:78.9%25%2C Eval:2.4e-07],MGA_526
sequence04	MetaGeneAnnotator	CDS	32850	34004	.	-	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIKRADQFLKRVRDLISTYPGVVNQENFSDIIYGELIRQGVSPEDQTKDVSYMFSEFYDYFLTKKNVNAFFDSSNKYFFRLENNYQQVINKGEQIKMYIPLDEEHLEKGAKEIFTFLGENNIAHVSKVAKKIRFDDIVVRVGNPEDAEKLNNFVNNNSYIMEGLIEPNPFAFTHNNIAYASDGKESYNGVFSNYVELYFKEKTKDGSLADANLVDFYRFIGNYYNENLVKMNEDKLKVDFSDEYRARSLDDIKLISHLIIKTSDPEFTYQDYLSHYENSKQLHKPKPVGLETEEDFERFMRHSLDVMCRRTGDMDKAKSQIQLFLYTGDPRYLSRTDNLRNDAVRLKFKDRFDQILFEKDIEFKEYWGTGKEKQNLDNKAKV;locus_tag=LOCUS_5240;note=MGA_527
sequence04	MetaGeneAnnotator	CDS	33997	34137	.	-	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENILDYKLEEGAREFDYLDESDDLEETKEFNLEELKKIMGEEDE;locus_tag=LOCUS_5250;note=MGA_528
sequence04	MetaGeneAnnotator	CDS	34146	35366	.	-	0	ID=MGA_529;product=phosphopyruvate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880276.1;translation=MKIRDIKGREILDSRGNPTVEVDVILEDGSLGRAAVPSGASTGSREALELRDNDERYNGKGVLKAVNNVNTILCNALCGVDIHNQRDLDLKILELDGTDDKSNLGANALLGVSMAFMKACAISEGKELFEFIGEGRTMPRPMMNILNGGAHADNNLDIQEFMIIPEKNTIKETIRVGSEVFHALKKVLNDKGYATGVGDEGGFAPSLKSNEEAFDLIIEAIKSAGYTPGTDVNLGIDVAASEFYDNGTYSFGGKQLTTTELIDYYVDLVDKYPIISIEDPVDEEDWEGFKAITDKIGDRVQLVGDDLFVTNTKYLQKGIDLSAGNAILIKVNQIGTITETIDTIELAKGNGYRTIISHRSGETEDTTIADLAVGLSLGQIKTGSMSRTDRICKYNRLIRIEEILNK;locus_tag=LOCUS_5260;gene=eno;EC_number=4.2.1.11;note=WP_010880276.1 phosphopyruvate hydratase (Aquifex aeolicus) [pid:61.2%25%2C q_cov:99.3%25%2C s_cov:95.5%25%2C Eval:4.2e-141],MGA_529
sequence04	MetaGeneAnnotator	CDS	35356	36717	.	-	0	ID=MGA_530;product=UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000849681.1;translation=MFENKKIVILGMARSGYEAAKVLIERGNEVILNDAKEEDKHDAEQIKELTDLGVKLVFGSHPDDLIDESVDYLIKNPGVPIDHKYVLKAKELGKEVINEVELAYLLMPKGVKIVAITGTNGKTTTTTITYNFLHDYLGDRVLLAGNIGFPLCSILKDLNEDNIIVMEFSCQQGENIKEFKPNIGLFTNLSSTHIDFMKTYEHYKETKYKMFFNQSEEDIAIINMDAEEVVHDLESIKSQTKYFSSTNEINGCYLKDDGIYYYGDKVLDYTDILISGTHNLENIMGAIMIAKEFDIPNESLKKTISTFKGVEHRLEYVDEVKGIRFYNDTKATNIKSTQIALSAFKEPTIVILGGMERGQNFDDLKDYVGNVASIIAIGECRERVVEFAEKNSIPVFPYETLKEGFKKCVEEAKEKGIKIILLSPASASWDQYAKFEDRGDEFKALIEEYKNEN;locus_tag=LOCUS_5270;gene=murD;EC_number=6.3.2.9;note=WP_000849681.1 UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase (Streptococcus) [pid:38.3%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:1.7e-85],MGA_530
sequence04	MetaGeneAnnotator	CDS	36820	38067	.	+	0	ID=MGA_531;product=aminoacyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000527081.1;translation=MKIVTLEPQEFDNFATKHKYRNYYQTSNYAEVIKNFGFNVHFLGFVDETENLIGATLIIFKEVFMNNKVAYAPRGMLFDYTNSSKVQELVEKLKQVLGKQGFVLLRIDPLIPATIRDNKGNVININSEANIIMSNLTAAGFSRREENLYFESEKPRFEAISLFNKSIQNIFNNFDKRTRHKIKKANTAGIEVFKDQNKNLSKLYEFIKDKHDKPIEFYQQLCNSYKDNIDLYYAVLNTEKFVVSSKKLYESEMDINDELARKIQDPQGGTNKKGLINKKMESDKLINTYKNDLVLATELLKKYPKGFIVGGALSISFDNAAFLVIEGFDNTYKALNPNYLLKWKMINDYYSRKYKYLNLNAVVGEFAENHQYTGLNEMKLGFNTVVTEYIGEFDIILNNFGYNISKRAIKDKIDT;locus_tag=LOCUS_5280;note=WP_000527081.1 aminoacyltransferase (Streptococcus) [pid:26.1%25%2C q_cov:97.6%25%2C s_cov:94.9%25%2C Eval:2.7e-29],MGA_531
sequence04	MetaGeneAnnotator	CDS	38088	38744	.	-	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNQTDNIKNILIHRGTPYKETIEAGKIKKDTDYLRGTIIYDDGRIVVLPYDKTVEQIAQLAKDRNLNSDNFLDQGIVHFVQEKDYKKTLDKLTGRTKQEKPVPKKKEVTPKKEAEVKKPKEKPLTVEDCKNLLRQDKIQDKVNGKLHINIKKLVIGTMIGVVVLGNSVFMKGCIKDEPEIPFSEENNDLSSNSDTEEIDKMLASSESDYSVEGIQK;locus_tag=LOCUS_5290;note=MGA_532
sequence04	MetaGeneAnnotator	CDS	38828	40012	.	-	0	ID=MGA_533;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723640.1;translation=MAKEKFDRSKPHVNIGTIGHVDHGKTTLTAAITKCLAGKNGNEAVEFGNIDKAPEERERGITINTAHVEYSTDKRHYAHVDCPGHADYVKNMITGAAQMDGAILVIAATDGPMAQTREHILLAHQVGVPKMVVFMNKCDMVDDPELLDLVEMEIRDLLNEYEFDGDNTPIIRGSALKALEGDPKWTAKIDELMDAVDTWIPTPERDTEKPFLMSIEDVFTITGRGTVVTGRVERGKLNLNDEVEIVGIKDTQKTVATGIEMFRKQLDYAEAGDNAGVLLRGISREQVERGQVLAKPGTVTPHKKFKAAVYVLSKEEGGRHTPFFNNYRPQFYFRTTDVTGVIELPAGTEMVMPGDNVDMTVELIHSIALEQGTKFSIREGGRTVGAGSVSEIIE;locus_tag=LOCUS_5300;gene=tuf;note=WP_003723640.1 elongation factor Tu (Listeria) [pid:75.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.0e-176],MGA_533
sequence04	MetaGeneAnnotator	CDS	40095	42164	.	-	0	ID=MGA_534;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000090370.1;translation=MARDTSLEKTRNFGIMAHIDAGKTTATERILYHTGKIHKIGETHDGESQMDWMEQEQERGITITSAATTAYWKEHRLNIIDTPGHVDFTVEVSRSLRVLDGAVALIDAQAGVEPQTETVWRQASEFKVPRIIFANKMDKMGANFEYSLKTIDDRLGVNSKPIEWPIGAEADFCGTIDLVTMTAKKYDGGEEENAEDIEIPEDLKAIAEEKRAELLEAVAEFDDDMMMTYLDGGEVTEEMIKRAIRKGVLAAEFFPVMCGTALGNKGIKPLLDAVIDYLPSPVDIESVKGTDLDGKDIERHPNDNEPFSALAFKVMTDPFVGRLTFFRVYSGHLSSGSYVLNSNKDSKERIGRILQMHANDRKEIKDVYTGDIAAAVGLKNTTTGDTLCDEKKPIILESLQVPEPVIQLAVEPKSKADQDKMGIALQKLAEEDPTFKVHTDHETGQTVIAGMGELHLDVLVDRMKREFNVEANVGAPQVAYRETLTATGECEGKYIKQSGGRGQYGHVWVKFEPNKDKGYEFVDEIVGGVVPREYIPVVDKGLQEAMQTGILAGYPMIDVKATLYDGSYHDVDSNEMAFKVAASLALKEAKKNCKPVLLEPIMKVDVTTPEEYFGNVMGDLTARRGKPLGQETVGNAVKLSAMVPLSEMFGYATNLRSNTQGRATFVMTFDHYEEVPKNISEEIIKKSGN;locus_tag=LOCUS_5310;gene=fusA;note=WP_000090370.1 elongation factor G (Bacillus) [pid:70.0%25%2C q_cov:99.7%25%2C s_cov:99.6%25%2C Eval:4.5e-288],MGA_534
sequence04	MetaGeneAnnotator	CDS	42175	42642	.	-	0	ID=MGA_535;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166360.1;translation=MRKRRAVKRDVLPDPIYKSKVVTKLINTVMLDGKKGIAQTIVYTAFDEVKEKTKKDPLEVFEAAMENLKPQLEVKSRRVGGSNYQVPIEVSPARSQALALRWLVKYSRERGGKGMADNLANEIVDASNETGAAFKKKEDTHRMAEANKAFAHYRW;locus_tag=LOCUS_5320;gene=rpsG;note=WP_011166360.1 30S ribosomal protein S7 (Mycoplasma mycoides) [pid:67.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-56],MGA_535
sequence04	MetaGeneAnnotator	CDS	42670	43083	.	-	0	ID=MGA_536;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003641249.1;translation=MPTINQLVRKKRKDKVRKSKAPVLGVGVNTIKRKATNNPSPQKRGVCTRVGTKTPKKPNSALRKYARVRLSNGKEVDTYIPGIGHNLQEHSVVLVRGGRVKDLIGVRYHIIRGTLDTAGVKDRMQGRSKYGAKKPKK;locus_tag=LOCUS_5330;gene=rpsL;note=WP_003641249.1 30S ribosomal protein S12 (Lactiplantibacillus) [pid:78.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-57],MGA_536
sequence04	MetaGeneAnnotator	CDS	43244	43432	.	-	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLNNEGWSIPTMIALVCVLILFILVVSILSWRAGVSKSSPSNIYDEALPDTTESIIESNE;locus_tag=LOCUS_5340;note=MGA_537
sequence04	MetaGeneAnnotator	CDS	43542	47174	.	-	0	ID=MGA_538;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004399688.1;translation=MLEVNKFDALRIGIASPEKIREWSYGEVKKPETINYRTLKPERDGLYCEKIFGPTKDFECSCGKYKRVRYKNIVCDRCGVEVTRSKVRRERMGHIELATPVSHIWFFKGVPSRMGLVLDMSPRDLEEVLYFVSYVVIDKGNAPLENKQTLSEKEYRAYYEKYGTGFKVGMGAEAIKELLKKVDLKKEIAEIEKELEKAQGQKRTRLVKRLDVLDAFDKSGNKPEWMIMDCIPVIPPDLRPMIQLDGGRFATSDLNDLYRRVINRNNRLKKLIDLGAPGIIIQNEKRMLQEAVDALFDNGRRGRSITGAGNRALKSLSSMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPSLKMYQCGLPKEMALELFKPHVINGLVSRDIAHNIKAAKRLIDNQDPAVWDIVEDVIKEYPVLLNRAPTLHRLGIQAFEPVLIGGKAIRLHPLVCTAFNADFDGDQMAVHVPLSEEAKAEARILMLGSNNILHPKSGDPIVTPSQDMVLGNYYLTIEKAGEDGEGRLFKDINEALMAYERREITLHTRIAVPVDSFRHKLFTEEQKGKYLVTTVGKIKFNEILPDSFAYINEPTTDNIQGITPNKYFIEKGKKIPEEIKKMPLVDAFVKNTLEKIIAQVFKRYKTTETSTMLDNLKDLGFKYSTLAGVTISISDVETSKKKDKIVAEAQKTVDKINKQYTKGLITESERFNKVIETWSDAKDQVSRDLEEIADSDIDNPIFMMMHSKARGNISNFTQVAGMRGSVQKPNGEPVEIPVLSSYKEGLSVAEFFLSTHGTRKGLADTALKTADSGYLTRRLVDVSQDMIVREEDCGTDNGVVVRAFINEKTGAVIESLYDRIIGRFANKKIVDPATKNVLVNELEMITERAAEKIVAAGIEEVEIRTALTCNTVNGVCQKCYGRNLATGNLVEVGEAVGVMAAQSIGEPGTQLTMRTFHTGGVAGEEDITQGLPRVQELFEARTPKGKATIAEIDGKVTKIKEDHGKYKITITNKLESKEHTSNYGAKLAVEKNDEVKAGSKLTEGAISPKELLAVTDPITTQEYILKEVQHTYRSQGVDISDKHIELIARRMISKIKIIESGDTKFLPGSLVNFREFTDGNKKYVIEGKKPAKGVPVLLGITKASLETDSFLSAASFQETTRILTDAAIRGKVDPLEGLKENVIIGKLIPAGTGNKHYRDVEYDLESEFVDEEPLDKLEDEFME;locus_tag=LOCUS_5350;gene=rpoC;EC_number=2.7.7.6;note=WP_004399688.1 DNA-directed RNA polymerase subunit beta' (Bacillus) [pid:66.9%25%2C q_cov:98.2%25%2C s_cov:98.7%25%2C Eval:0.0e+00],MGA_538
sequence04	MetaGeneAnnotator	CDS	47174	50728	.	-	0	ID=MGA_539;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009966326.1;translation=MAYKTVKYGNFRERRNFSRIKNSYELKDLLEVQKKSYNWFIEEGIKEVFQDLFPVENFSGTLALEFGDYHFEEPKYSIKESKDRETTYAAPLKVEVRLFNRETGEVKEQEIFMGDMPIMTESATFIINGAERVVVSQLVRSPSVYYNNEIDKNGRKLITSQIIPNRGTWLEYETDARDVLYVRIDRTRKVTLTTLLRAFGLSSDEEIFKLFGEDEYLKNTIEKDSTKNTDEALIEIYEKLRPGEPATLDSSKNQIITRFFDEFRYDLSKVGRYKFNKKLNITDRLLNQTLAEDIKQGSKVVLEKGTVITKENIDKVKKAFEKGFGNKDVKINEELDKYGTVQIVKIIDPADKKKKLVVIGNDQKITEKRLTISDVLASVSYYLNLLHGVGNFDEIDHLGNRRIKQVGELLQNQFRIGVSRMERVIRERMTTQEMEEVTPKTLINIRPVTAAMKEFFGSSQLSQFMDQTNPVAELTNKRRLSALGPGGLSRDRAGVEVRDVNSSHYGRICPIESPEGPNIGLITSLASYAKVDEYGFIQTPYRKVKKAVITDEIEYLTADEEQDYIISQSTVETDSKNKIIAETVNARFRGDNILATPDQVDYIDVSPQQVVSVTTSCIPFLEHDDPTRASMGANMQRQAMPLLKTEAPYIGTGVEFIAAKDSGVEVIAKADGVVEYVDAKKIVVKNAKGKDTYTLANFELANSSICSHQRPIVDVGDKVVAGKTILADGNSTDKGELALGKNMTVAFMTFDGYNYEDAVILNENLVKDDKYTSLNLADYEMQCRETKLGPEEITRDIPNVSEESRRNLDENGIVTIGTEVKEGDILVGKVTPKGMAELTSEEKLLHAIFGEKTREVRDTSLRVPHGGDGIVHDIKIYSRKDNDELPAGVSKIIRVYVIQKRKIQVGDKMSGRHGNKGVISLILPQEDMPYLPDGTPVDIMLNPQGVPSRMNLGQILEIHMGMAAKKLGVHVATPVFDGAHIDDIEKMMKEAKMDPDGKTVLYDGRTGEPFDSRIAVGIMYMIKLHHMVDDKLHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALYAYGAAHTLQEIMTYKSDDVIGRVKVYEAIVKGQEVNHASVPESFRVLMKEFQALGLDISIIDTDGERLELKQIEEAEEKEDFKPAIDEDSPVVEIKEPSEEEQEETDEESEEGADV;locus_tag=LOCUS_5360;gene=rpoB;EC_number=2.7.7.6;note=WP_009966326.1 DNA-directed RNA polymerase subunit beta (Bacillus) [pid:62.0%25%2C q_cov:96.8%25%2C s_cov:97.4%25%2C Eval:0.0e+00],MGA_539
sequence04	MetaGeneAnnotator	CDS	50825	51415	.	-	0	ID=MGA_540;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000763267.1;translation=MGQYFTNEQLPSKINEVKCNILGTDFVFFTDNGVFSKKGIDFGSRLLLEFIPLVEVGAEVLDMGCGYGVLGIVISKKTGANVDMVDINKRALHLAKQNLKANKCTNITIFESNAYQNVKKKYDTIITNPPIRAGKKIVYEMVMGANDHLKEKGNLFLVIKKEQGAKSLIIDLEKVYNVTVLGKKKGFYLLKCEKLS;locus_tag=LOCUS_5370;note=WP_000763267.1 class I SAM-dependent methyltransferase (Bacillus cereus) [pid:46.9%25%2C q_cov:97.4%25%2C s_cov:97.5%25%2C Eval:8.4e-43],MGA_540
sequence04	MetaGeneAnnotator	CDS	51531	52292	.	-	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKLKEKLVYFDAETANTSLEEAVSLNSLLKEKENNDRFDAAIGAENSDDIYRELNLKLDKKTKYLHDQDYYVKSYNSNKIFIDKGQIVYEDIDKIPADVSKDSIIRQNLFEQALLMLSIYMGFVDNLNSKFVRENFADFGQFIPEDDLGYYSGIIERNAGIYYNDFAKTKSEKKLNEYQEALREEEKKTAPSSSPSAGGSDRTLTKATAASKLYAEPEEKPTAFVTIYFYAAITMVGFLLGVLYLFTNVLR;locus_tag=LOCUS_5380;note=MGA_541
sequence04	MetaGeneAnnotator	CDS	52351	52941	.	-	0	ID=MGA_542;product=RNA polymerase sporulation sigma factor SigH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000387193.1;translation=MDYKSINDYEVIYMVKEKEIDKDLLFYKYRPLIDRIVNKYYQCINYSFVDREDLVQEGFVALDNAINAYNDNASLFYTFASICITRHILTYIKRISKAKDLYNNTYSYDNDLWEKNYLEVLESNKAYPHEEILNTDYLDIMRNIKNEMSLLQSSVFELRFNGFKIKEIAELLDITINNVNSIIRRIKIHLNKYGVN;locus_tag=LOCUS_5390;note=WP_000387193.1 RNA polymerase sporulation sigma factor SigH (Bacillus) [pid:30.0%25%2C q_cov:97.4%25%2C s_cov:89.5%25%2C Eval:7.2e-18],MGA_542
sequence04	MetaGeneAnnotator	CDS	52948	53649	.	-	0	ID=MGA_543;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000200237.1;translation=MLIYGRNVALEVLKKKENIKKVFLQQNFDDKRILSLLEKNKITPIYLEKKEIDDLIDGKHQGIILDIRDYQYKSLEDVSKDEDAVVVILDHIEDPHNLGAIIRTCEAAGIKDIIISKNRQVGVNATVMKTSAGALLNTNVIMVSNIANAINVLKKDGFWVVGTTLADDSLDYREVDYSGRIALVIGNEGKGISDIVSKACDYRVKIPMRGTINSLNASVASGIMIYEVIRNRK;locus_tag=LOCUS_5400;gene=rlmB;note=WP_000200237.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Bacillus cereus) [pid:43.3%25%2C q_cov:98.7%25%2C s_cov:96.0%25%2C Eval:4.8e-49],MGA_543
sequence04	MetaGeneAnnotator	CDS	53652	54026	.	-	0	ID=MGA_544;product=Mini-ribonuclease 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009930887.1;translation=MKVVEINSLVLAYLGDAIYEEYVRKYLINKGIANVDSLQKEAVKYVSAKAQKEIIERLISEKFLNEEEFDVFKRARNCKSNTHPKNCDIGDYKMATGLEALIGYLDLVGNKSRVDQIMKKVLGE;locus_tag=LOCUS_5410;note=WP_009930887.1 Mini-ribonuclease 3 (Listeria monocytogenes) [pid:47.5%25%2C q_cov:95.2%25%2C s_cov:86.8%25%2C Eval:8.7e-26],MGA_544
sequence04	MetaGeneAnnotator	CDS	54030	55424	.	-	0	ID=MGA_545;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002666765.1;translation=MKIYNTLTKKIDEFIPNEEGKVTMYTCGPTVYNYAHIGNLRTYISEDILQKTLEYIGYDVNRCMNITDVGHLVSDGDEGEDKMAVASRREKKSALEIASFYTDAFMKDIEKLNIKKPAIISKATDNIDEYIKVIEKLINDGYAYVADGNVYFDTTKYKDYYKLSNRNPLEQQAAIRDDVEIDKAKKNVNDFGLWFTNSKFNDQELKWDSPWGVGYPGWHIECSCISLKYLGEKLDIHCGAVDAIFPHHTNEIAQSECFLGHKWCNYWVHMEFLNDKSGKMSKSKGEFLTLSLLEEKGYTPLEYRFFCLNSHYRNVLEFSYETMDSSKTAYHKLLNRIGSLKEEGTLDQEAISRYKDKFKEALKNDLNTALAITTLYDVLKDSSISDVTKLELIADFDKVLSLDLLKKDAEIDKDLEEYILKEIERRNEAKKNKDFALADQIRDELKTKGITLIDSREGTTYKVE;locus_tag=LOCUS_5420;EC_number=6.1.1.16;note=WP_002666765.1 cysteine--tRNA ligase (Treponema) [pid:46.3%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:4.9e-120],MGA_545
sequence04	MetaGeneAnnotator	CDS	55498	57744	.	-	0	ID=MGA_546;product=ATP-dependent Clp protease ATP-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048366.1;translation=MFSQFEEDAQKVMLDAKVEKEKLRHPYIGSEHLLLAILSHKDLDLTKQLKKYDITYDIFYKEIVDSIGMGSKTNKWFLYTPLLKRILEGAIYDSHDNNEDKVSVLRLFLSLLEEGDGVAIRILMVMNIDVEALYDVFAVRIKKKTRKSNKLLIEQYGINLTEKAKAGEIDPVSSRDKEILRLQEILMRKTKNNPVLIGEAGVGKTAIAEGLALKIAEGKAISKLEDARIYSISMASLVAGTKYRGEFEERINKMINELESVDNVIVFIDEIHTLVGAGGAEGAIDASNILKPALARNKIKIIGATTNNEYNKFIAQDAALNRRFQKIEVKEPDFNKTKEILKNLKNTYEKYHHISISDDKLDMIIKLSNEYIHDRKQPDKAIDILDEACTKKIVIGNREDEKKTRYRERLREILEDKNKAIKNGDFEKASSLRKKEQQLENSLNKLELYNSPKELDEETIIRVVEEKAKVLINKHYSKEGLNKIAREMKKVIIGQDIIIDELIRETKLNSYKKNRVHSYLLIGTIGVGKTSLINIYKNEFYDEALRLNMEEYKDTSSLTKLLGSPPGYVGYDHDCVFEKVRKHPRMLIIMEKIDKAANEVKKVVKEIMEKGKIENNKGEEIDFNNCTILMTTTIDTRGLGFVDDGKETIINKYFSKEFLSKIDKVFMFEKLTNKGIKMIIENKLTEMRKYYLEKGIALSFNRKIIDEIVRESDYVKYGASRTDMIIDSKFSEIIIDRILAGEKEIIIG;locus_tag=LOCUS_5430;note=WP_012048366.1 ATP-dependent Clp protease ATP-binding subunit (Clostridium botulinum) [pid:36.7%25%2C q_cov:98.3%25%2C s_cov:96.9%25%2C Eval:1.4e-130],MGA_546
sequence04	MetaGeneAnnotator	CDS	57850	66240	.	-	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRRKRFYLIVSVIVIGAFLVFSRADSSNTLYDAVANDSLVAAYTGDHQDSLNNPGTKGIYYFTGSDDIVNHNNVKLGDTCWQILRTTDTGGVKMIYNGEYDETNKCNTSRGTHKGIIGTNGTTTDLNSSYKYGDSFTYDEEEGEFTLTNSFTETFNGSTYKNLLGKYTCASSSDTCATIYNINGYKSGTTAYTTYYTVGSSVNRAQIGTSPFNANNDSLAMVGYMFNSVYNYEDTSPTNWGDIVYPTYTLLDQSDYSIVSNYSSPSGYPYTWDSTNKTWTSAMHQDDGYSTIIFKVTTAGDYKLSYTVSCEAQYDEVAFYRGTDYLGNFDGEASGEISINNLQASEEIKVVYSKDEEGSSGNDNVVFSLSEGSGTPTADTRYVVGGSFTYSNGTYTLQNTKRSNGKDDLSNHHYTCLSTGNTCQSLKYVFYREHTSNPKIFYVALTSGKSIDDAKNEMLYNEDVNKYNSSIKGLLEAWYAQKMDDYTDLFEDTIYCNNRVIRRDATNNGWNSNGGSTSVSYQFDGAYTSTVLECPSETDKFAVGNAKAKNKYPVGLATYTEMNLISNNTARRTGASYYHITPRYFSNSTRFYTFSLLTSTDGIINGNASYLSYGVRPVVSLKSGTTYTEGTGTQTDPYVVEIDTRPKISTSVANGTITETTRVSSGANKTIKYNPNKGYELKSVIVDGDPVDISTYANSYIFTNVTANHTIKVSYKKSDSGLYDAIANDSLTSVYSGEHQDSLDGSGTETIHYFGNSEDVVDHNNVKLGDTCWQILRTTDTGGVKMIYNGEYDSTNKCNTSRGNHTGFVGTAGTYQTDATDLSGGTYKYADSFTWSGTTFTLVNPTSATWSDSTYTNLVGKYTCKNSNNSCTTLYYVGSKYSSTKAYTTSYTISSSIGRAQIGTSPFNANRFSPAMVGYMFNKSYDYAGKAAPTSGSLMGSGVTYSNGTYTLVNTSTTKDATHHYSCNNSTGTCSTVRYYYYNNYYIELSGEANIEAVVDQMLYDNDVNKYNSAVKALIESWYGQELSDYTSLFEDAIYCNDRTQRNASTNGWNKSGTLTTDMYFKDSTSNSTLRCGGITDQFAVANSKAKNKYPVGLATYPEAVLASETMKSTNRYWLLSPMQFYADSATERVMQVNPGSDTVYFVNGVRPVVSLKAGIGYASGSGSQDDPYVIDFRPTITTEVVHGTITKTTQVEKGSKKTITYNADDGYTLKSVTVDGESVSISTYANKYTFNNIIKDHTIKVVYGIDNTLYDAVAADSLTSTYSGEHQDSLDNSGTETIHYFTGSNDIINHNNVKLGNTCWQILRTTDTGGVKMIYNGEYDSTNKCNTSRGDHTGIVGTSGTTTDLSGGEYQYGDSFTYNESTGLFTLTNPSSTTWSDSTYKSLLGKYTCISSSNTCTTIYNVNSYYSSTLAYTTSYTVDDTNYAQIGTSVFNATNGAPAVLGYMKNTTYPRTSQSQSTSSETVLQSTTSLFTTSMYYGTSISYTSSKYKLGGTINQTRGASKYSVRSTSSTGTGSTGYYITNVSGSTYYYITMTGGSLLAAVNKYYRYGTSYSGTTINNATNIRSTTYYSNRSNLTNKYYCSGTSSTVTCNPKYAVAVSATAITYIAHDGFKYGSNVSYSNGTYTLTNTIAGYPDATHHYTCKTTGTTCSTVYYVYYYTRGTSGANKYFIELSDGKKIDEAITAMLDDDGVNRYNSSIKGQIEAWYGQNMTDYTDLFEDAIYCNDRTRTNQSTSGLDPSGGLTTAMTFSDRNGNTTLKCSRQIDQFAVGNSKAKNKYPVGLATYAEMNLLDNDTARTTGVQYLTGSPNSLANNGPNESYITTSGTLSNTIVTTAYGTRPVVSLKSGVTYRSGTGSQTDPYIIDVYDRSGTALFDTGQNVNAKIKSLVAGSSKLYSDTDSTVQAIKRANDLPDGFTPSSDNTVSTSTSEKPIYIFYDSTTNTVYYYSEAETVYLNPDSSYLFGCFESLTNISGLSQLNTSKVKNMTYMFRNCISLADINALSNWNTSRVIKMMDLFYYCKSLTDIGALGNWDTSNVANMSNMFYNCRLLENIDGASSWDTSNATRMDHMFWYCVSLEDIDGASNWDTSNVTRMDYMFYYCSPLTDIDALSNWDTSNVTNMSNMFYYCSSLTDIDALSDWDTSSVTDMSYMFYHCSSLDNIDALSDWDTSSVTNMYYMFGYCSSLEDIDGASNWDTSSVSNVSYVFIGATKAAGTFPILGNPTTYDGAFINAATAADTRITVVYDCVITQNIDAIIATKSASSDVVKGSCTGGNKTVFDTGKNVNAKIKTLVAGSSQAYTATDSTVEAIKRASALPDGFTPSADNTISISGSEYPIYIFYDNTTHTVYYYSQAETVYLNPDSSYLFDVFASLTDTSGLSQVNTSKVKNMSYMFYSCSSLEDIDGLSNWDTSSVTNMTYMLSNCSSLTDIDALSNWDTSSTTNMSYMFRYSSSLVNINALSDWDTSSVTDISNIFAYCSSLANIDGASDWDTSNVTNMAYMFRECVALVDMDALLDWDISSVTDMSYMFYGCTSIDDIDALSNWDTSSVTNMSYMFRNCSALEDIDGASNWDTSNVTNVSNVFAYATKASGIFPILGNPTSYGSAFTNAATYTDALLTQIRVKYSCDVTTNIDAIVATKSSGSNVVKDSECANVIDNSYVTITNQIQGNMGNVRKYFSYTVEVRDANNVIDNNLSTSFTLKNDQSEILSIPEGYTVRVTQAEENAYTTTVNNTRSRVIAEEVVGDMTITYKNSYDLSVDTGVKTIIPPYIVLLLLSILTLLGIGYISKKLELD;locus_tag=LOCUS_5440;note=WP_011109529.1 BspA family leucine-rich repeat surface protein (Enterococcus faecalis) [pid:40.6%25%2C q_cov:9.3%25%2C s_cov:26.7%25%2C Eval:1.1e-40%2C partial hit],MGA_547
sequence04	MetaGeneAnnotator	CDS	66350	67741	.	-	0	ID=MGA_548;product=YfcC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009659870.1;translation=MKKHNTLKVVLLTTLVLFLCTWIFKTASFQGSAYVAGERMQMGVFDLFNYQITSLQYFGYIALFVLVVGAFYGVLNETGAYGKMLDKLASKFKGKERIVLVAIMVILALLTSFVGMQLPLIVFVPFLISLILLLGYSKITAVFAIVGSMMIGIAGTTFGYTNTSLLNQALGLENTNAIWVKIIILVLGLALLVFNTLMFVAKDNTKKTELKAAKDEYVPSGKGNKKSLIPLIVIFAVILLVMILSLLPWNSVFKLMAFEKANNAVIGFKLFGFPIFAKVLGTVSSFGNWTVMEIGIMLAVLSLIIKFIYNIKFDDYLDAIGRGAKKALKPALIVILIYGILVLVTYHPFQLAFYNAILGKKFSLAASGITAIISSLLNVDAAYAFQATVPVIATQTGVNKSLVFVMFQSLYGAVMLVAPTSVILMGVLTYLDVPYQKWLKAVWKLLLELIVVLFIIFVIVSAI;locus_tag=LOCUS_5450;note=WP_009659870.1 YfcC family protein (Streptococcus) [pid:25.0%25%2C q_cov:92.7%25%2C s_cov:91.1%25%2C Eval:4.3e-31],MGA_548
sequence04	MetaGeneAnnotator	CDS	67852	68223	.	-	0	ID=MGA_549;product=DUF805 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003721792.1;translation=MLQAYKDYWKGYVDFKGKTGRKNYWLVVLMSLIVTFVIGVIASLIFGPDMMVQTSPYSNTFNMASGAGIIMFCWTLVNILPDLAIDIRRLHDIGKSGWWILIGLVPFVGSIILLVFFLTKGEN;locus_tag=LOCUS_5460;note=WP_003721792.1 DUF805 domain-containing protein (Listeria) [pid:38.9%25%2C q_cov:98.4%25%2C s_cov:86.6%25%2C Eval:1.9e-20],MGA_549
sequence04	MetaGeneAnnotator	CDS	68286	69776	.	-	0	ID=MGA_550;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001833056.1;translation=MEKLTEQEQVRREKLEKIRELGIDPFGEKFERDSFAKDIKEKYQDVEHDEFEKMDDKVTVAGRIMFVRKMGKASFFTIKDKTGPIQIYISINDVGEEVYTLFKSADIGDIVGVHGKVMKTRTGEVTIKCLEYTHLVKALRPLPEKFHGLTDKEERYRRRYVDLMMNDEVREVAFIRPKIIRCIQNFMDSRGFTEVETPVLSTLLTGAAARPFVTHHNAQDLDMFLRIALELPLKRLLVGGMEAVYEIGRTFRNEGMDAKHNPEFTLMEAYLAYSDLEGMMDLTEKMFQTIADQVFGKTTYHWADNDIDLSGKWKRVSMTDAIKEKTGIDFKEIDSLDECLKLAEEHNIELLEHEKQYGHIINKFFEKYVEETLIQPTFLYGHPIEISPLTKKDKDDPRFTQRFELFIGGKEFANAYTELNDPIDQLERFESQLKEKDMGNDEANDIDMDFVEALEYGMPPAGGIGYGIDRLCMLFTEQDSIRDVILFPLMKPNIKE;locus_tag=LOCUS_5470;gene=lysS;EC_number=6.1.1.6;note=WP_001833056.1 lysine--tRNA ligase (Staphylococcus) [pid:55.7%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:4.7e-164],MGA_550
sequence04	MetaGeneAnnotator	CDS	69785	70375	.	-	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKAIFSKRLAAFILDVLLVSFCASLLAIPFTNTETINKLNKEAEAATEKYNKKEIGLKTYYVQTADLNYEITRAQGATSLISLLITILYFVVFQFYNKGQTIGKKLMKIKVVNNNGDKLSINNVVLRALIINAIIFEMLSLLFAFIGNKDVFLYASIIIESVQYVIVIATIIMASARKDGRGIHDFLGNTKVVQV;locus_tag=LOCUS_5480;note=MGA_551
sequence04	MetaGeneAnnotator	CDS	70376	71350	.	-	0	ID=MGA_552;product=tRNA dihydrouridine synthase DusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000912262.1;translation=MKWKIGNVVIENQIVLAPMAGITNSAFRRICKEFGCGLVYAEMVSDKAICYNNKKTMNMLYMTDYERPLAQQIFGSDEESFVEAAKLIEEKMHPDIIDINMGCPVPKVALRAQAGSALLKDPDKIKKIVKKVVDAVSVPVTVKIRSGWDSNSINAVEVAKKVEEAGASAICVHGRTRSQGYSGKVDLDIIKEVVEAVNIPVIGNGDIKSPEDAKHMLDYTGCQAVMIGRGLLGNPWLVEECIGYLDTGKYEREITKENKINMCIKHLNYLKDVKNEKLAVLEIRNHIGWYLKGIPNINETKKKIFKCTKIHDIILVLNELRGDD;locus_tag=LOCUS_5490;gene=dusB;EC_number=1.3.1.-;note=WP_000912262.1 tRNA dihydrouridine synthase DusB (Bacteria) [pid:52.5%25%2C q_cov:96.9%25%2C s_cov:94.3%25%2C Eval:1.2e-87],MGA_552
sequence04	MetaGeneAnnotator	CDS	71384	71770	.	-	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSSELKKLRKELNLLKIKQVLGTDNRDELQCLIRKVESELLSPEYDFLEIDNRGFLKKGVFLYNSITVTRDKVQAAAQEYGLSEIDERTYMERANEIYERAGRHKVYSKKNINDEKKRLIKNKKNRN;locus_tag=LOCUS_5500;note=MGA_553
sequence04	MetaGeneAnnotator	CDS	71781	73748	.	-	0	ID=MGA_554;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001079659.1;translation=MKVQKKDVKKNLLPYLMMALIMLTIIYFLNVMNKKVNVLTYDKFMTQVVDGNIKKMELTPRESAQIYEVRGKLKGYKSNEEFFARLPLSEQIMKRLVEASEEQSFKFTTVADPESSTLVLVLINVLPIVLLIGGAFFLFSKQMAGNKSSLDFGKSKAKLNSEKNKVTFKNVAGLKEEKEEVKELIDFLKNPKKFQKLGARIPKGVLLFGPPGTGKTLLARAVAGEANVPFYFISGSDFVELFVGVGASRVRDMFQQAKRNAPCLIFIDEIDAVGRQRGTGLGGGHDEREQTLNQLLTEMDGFGENEGIIIIAATNRPDVLDPALLRPGRFDRQITVNLPDIKGREEILGVHAKNKILADTVTLANIAKRTPGFSGADLENLLNEAALLAVRRNKEKITMSEIDEATDRVLMGPAKTSRKYSEKDRQLVSYHEAGHAVIGLKLANASDVQKVTIIPRGAAGGYNMMIPTEEKLCQTKSDLLEEITGLLGGRSAEEIVFKEISTGAHNDFEKATKIARAMVTEYGMSDLGPLQFEQQEGSVFLGRDYNKAQHFSNEVANEIDMEIRKIINNCHKHAKEIIKDNMALLKLIAEALLEYETLTKEQIDYLVEHKKMPDEDENTSLEAMSITKLKELAKKKGIKNYSKMNKAELLKELDN;locus_tag=LOCUS_5510;gene=ftsH;EC_number=3.4.24.-;note=WP_001079659.1 ATP-dependent zinc metalloprotease FtsH (Bacillus) [pid:55.2%25%2C q_cov:93.3%25%2C s_cov:96.4%25%2C Eval:1.1e-192],MGA_554
sequence04	MetaGeneAnnotator	CDS	73760	75058	.	-	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERIDVEKNSTIVIGCSSGPDSMALFDMLLKKREEYNLKLICAHVNHNLRTQSKEEAIFMKAFCKENDVLFEYLLIDNYGDDNFHNEARNIRYNFFEEVVKKYNADYLMTAHHGDDLIETILMRISRGSSLKGYSGFQKEVEKDGYKIVRPLIDMTKEDLLEYNRKNKVQYFIDSSNEKMKYTRNRYRANVLPFLKSEDPNIHLKYLKFSEDLDQAYQIVEREKQKVLKKVTKEDKIIIDLFKQVDPYFQKEILYSLINKFYEDDLILITDHHIDLIMKMLESKKANSYVDLPNDVIARKEYNLLEINRKNDEVFNYEIEYNKYVELPNGKVIKEGFDEGNSNDICRLCSKEINLPLIIRNRRIGDKMKVKGLNGSKKIKDIFIDKKINSKERDLWPVVVDSTNNVVWLPGLKKSKYDKKKDEEYDIILKYE;locus_tag=LOCUS_5520;note=WP_003723741.1 bifunctional tRNA lysidine(34) synthetase TilS/hypoxanthine phosphoribosyltransferase HprT (Listeria monocytogenes) [pid:35.0%25%2C q_cov:94.2%25%2C s_cov:65.3%25%2C Eval:4.7e-69%2C partial hit],MGA_555
sequence04	MetaGeneAnnotator	CDS	75121	75420	.	-	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVNKRNKRRKAKRFFTLGLLSLVVIFGVSFTLGKYWVEIYSKYQERKELSTALKELKEKEEVLKADATKLQDPDYIARYAREKYLYSKDGEIILQIK;locus_tag=LOCUS_5530;note=MGA_556
sequence04	MetaGeneAnnotator	CDS	75495	75752	.	-	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTTQVLSLLFSFGYGYAVYILINRQRKYLLNKDKRKRIIFTTFFFIDIGLLYFLGMRVINEGVINWIFILVVFGGGTFKKYVK;locus_tag=LOCUS_5540;note=MGA_557
sequence04	MetaGeneAnnotator	CDS	75752	76042	.	-	0	ID=MGA_558;product=sporulation protein YabP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226714.1;translation=MEKDALINNYNHGISLVERKNLVVSGVKKIESFDNEQFLMDTVMGILLIKGENLELIKLDTMQGNVSIKGLVNSMTYLEDGKTKNKENSILNRLFK;locus_tag=LOCUS_5550;gene=yabP;note=WP_003226714.1 sporulation protein YabP (Bacillus) [pid:47.1%25%2C q_cov:88.5%25%2C s_cov:84.0%25%2C Eval:8.2e-16],MGA_558
sequence04	MetaGeneAnnotator	CDS	76100	76423	.	-	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEITSVNVRKIEKEGSRMKGIASVLLDDSFVVHDIRIIEGDNGLFIAMPSRKTPTGGYRDIAHPINPEVRSMFEEAIIKEYENTEDEEEAEEDTEAAGEEEVEEEDE;locus_tag=LOCUS_5560;note=WP_003359319.1 septation regulator SpoVG (Clostridium) [pid:64.6%25%2C q_cov:73.8%25%2C s_cov:82.1%25%2C Eval:2.0e-22%2C partial hit],MGA_559
sequence04	MetaGeneAnnotator	CDS	76496	76723	.	-	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTDLIKRDLDLKKGKTLNFRYNKTRNQIEEFKGTIENTYSKIFVIRDLDNPQQVKTFCYSDVLTNHLEILPKKV;locus_tag=LOCUS_5570;note=WP_011391605.1 Veg family protein (Moorella thermoacetica) [pid:39.7%25%2C q_cov:88.0%25%2C s_cov:74.7%25%2C Eval:3.1e-07%2C partial hit],MGA_560
sequence04	MetaGeneAnnotator	CDS	76720	77502	.	-	0	ID=MGA_561;product=sporulation peptidase YabG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011458914.1;translation=MIGVGDIVSRNSYNNDIVFEVLSINGNKAILKGVDFRLYADSDIDDLVKEEKVNSDGDDRKIIEDNQKNLNLDRDEYFYLPGVVLHIDSDDDYLKRCMRFYDSMKVKAFGVNIEEEDIAEKLPGYLEKYKPDIVVITGHDAYIKKKEDVMNVDNYQNTKNFIDAVLEARKYEHSQDKLIIIAGACQSNYEELIKAGANFASSPKRVNIHALDPAIIASSVALSEKNKNIDLINMLAKTKYGSDGIGGIITSGVMYVGFPR;locus_tag=LOCUS_5580;gene=yabG;note=WP_011458914.1 sporulation peptidase YabG (Desulfitobacterium) [pid:40.5%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:6.4e-56],MGA_561
sequence04	MetaGeneAnnotator	CDS	77548	78336	.	-	0	ID=MGA_562;product=16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966268.1;translation=MNKSFKFKKKYGQNFLTNKKLIEDMVNTVSLTKDDLVIEIGPGGGVLTEELLKKTKVLAYEIDLDLKEELEEKFKDKELKIIFDDFLKRNIKKDIDDIDYKKLYVISNIPYYITTPIILKIIEEKIEVEKIVIMVQKELGERFTATPGSRDYGSISVLLNYYFDLRKCFVVGRNNFVPRPKVDSVVISLTKKEKEKVDNEELFFKLIRDAFRFKRKTLRNNLKDYDLEKIEQVLKKYNYDLTVRSEKLDYKIFVEIANALNK;locus_tag=LOCUS_5590;gene=rsmA;EC_number=2.1.1.182;note=WP_010966268.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Clostridium) [pid:33.8%25%2C q_cov:98.1%25%2C s_cov:94.6%25%2C Eval:2.4e-34],MGA_562
sequence04	MetaGeneAnnotator	CDS	78341	79285	.	-	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKGKGKRNIKKIIIRSLIAFFAVILSLILVIALIYFVELRQNKEANKKVVPLLNAYIIVSPSMKPTINVQDAVIVRKIDPKNIKKKDIITFVSNNSKYQGLTITHRVISIKKMNNKTYLFKTKGDYNNAADAGYINGNDIYGKVLFRIPKLGYVQDFLSNAYGWILLVLMFCLLIMVFDSMKLYGLFKKHFHKIKKKSKKEEAKTISYDALVTKVDPVCSISKNKNKIYYYDLVSAVEFANKEETDTTIKLLTKEYVLPEKIEIDNKFNKRITLSTADNIFNCCIYKNGEKNIVVKKGDLVLNRVIILNKVK;locus_tag=LOCUS_5600;note=WP_003246088.1 signal peptidase I (Bacillus) [pid:29.3%25%2C q_cov:38.5%25%2C s_cov:62.1%25%2C Eval:4.6e-09%2C partial hit],MGA_563
sequence04	MetaGeneAnnotator	CDS	79301	79912	.	-	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNGEQSKKTPILYAVSIFIMVFLGLAVIFSSFVAFSTAEKKKNKDTVSTASIVMTYTEETNGISVNNKLTMNDEIGRKISNVGEYFDFTVTTKMEELATIKAKYEIALIKDSSSNISDNDVRIYLEKKEGKKYIPIAGPIGFKKSEEDSKIGSPAGSMVIHSETVEESRIDKYRLRVWISEKAKDFKDKKYTLKVNIYGKAL;locus_tag=LOCUS_5610;note=MGA_564
sequence04	MetaGeneAnnotator	CDS	79994	80749	.	-	0	ID=MGA_565;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226756.1;translation=MFIDTHCHILKEYYDDIEKVISESKKQKVECLISCGCATKDIEESLKLVTQFPNLYLSIGYHPDAINDYDLDYLKENLESTRVVALGEIGLDYHYVETEEEKEKQKELFERQLEIAEELNIPVVIHSREATKDTMDTLKKYNVKGIIHCFSGSYETAIEYIEMGYKLGIGGVVTFKNSKLSEVIKKLSLDDIVLETDSPYLCPDPYRGMQNSPKYIPIIAKKIAEIKETSIDEVMNKTTENALKMFPGIKL;locus_tag=LOCUS_5620;note=WP_003226756.1 TatD family hydrolase (Bacillus) [pid:42.1%25%2C q_cov:98.0%25%2C s_cov:98.8%25%2C Eval:3.1e-52],MGA_565
sequence04	MetaGeneAnnotator	CDS	80777	80953	.	-	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEENSRKICIFDQLYLGVAVLLILTIINDYNILDVIYLIIFTVYFCRIKIHRIRRRQ;locus_tag=LOCUS_5630;note=MGA_566
sequence04	MetaGeneAnnotator	CDS	81043	82554	.	-	0	ID=MGA_567;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966273.1;translation=MDKYYISTAIAYTSGKPHIGNTYEAVLADAIARYKRFKGFDVYFQTGTDEHGQKIETKAKEEGKTPQEFVDEVAAEIKRIWDLMNVSYDKFVRTTDPKHEEVVKKIFKKMYDSGDIYKGEYKGLYCTPCESFWTESQLVDGKCPDCGREVEETTEEAYFFKLSKYQKQLEDYFAEHADFLEPSARRNEMLNNFIKPGVQDLCVSRTSFSWGIPVDFDPKHVVYVWLDALTNYITNIGYDPDGSSEEFSKWWPADLHLIGKDIVRFHSIYWPCFLWSLGVPLPKKVFGHPWLLTSSDKMSKSKGNVLYADDLVEEFGVDAIRFYLLHEIPFAADGNISRELLIERINTELANTLGNLVQRTIKMADKYFDSKIENKKVEEEIDKKYVEEINNLDVLVDKKIEELHIADALTVIFDLFRTSNKYIDENTPWVLAKEEDKKDRLETVLYNLLEAIRVGAIYLEPFMPDTSASILKQLNNDRKEPKYLADNEYNLGEATILFKRIDK;locus_tag=LOCUS_5640;gene=metG;EC_number=6.1.1.10;note=WP_010966273.1 methionine--tRNA ligase (Clostridium) [pid:56.8%25%2C q_cov:99.4%25%2C s_cov:78.3%25%2C Eval:1.9e-173],MGA_567
sequence04	MetaGeneAnnotator	CDS	82819	83361	.	-	0	ID=MGA_568;product=stage V sporulation protein T;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003218365.1;translation=MTKPTSSTGIVRRIDELGRVVIPKEIRKVLRIRDGEPLEILVDNEKISLKKFSVMDNYKDMAKTLADETSKVIEKNVLITNRDMFIVCAGEDKKTFVDKPISNYLEKLIVDRKAIVNKNFQGTELVKGEKNNYSYCVSPIINEGNILGLVIICSSTSTITTTDEKFALACAQFLEKYIEE;locus_tag=LOCUS_5650;gene=spoVT;note=WP_003218365.1 stage V sporulation protein T (Bacillus) [pid:40.3%25%2C q_cov:96.7%25%2C s_cov:98.9%25%2C Eval:5.2e-30],MGA_568
sequence04	MetaGeneAnnotator	CDS	83524	86751	.	-	0	ID=MGA_569;product=transcription-repair coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000154218.1;translation=MNEYLKLTNISFQHQGGLSATDEFFCVYLDQLFRKEKGNILLVTNSLYEANKLYSNLAVLNKDVVLFPMDDFLTSEAVAISPDLEINRLETLNEILLGKKIVVTNLTGYLRFLPTPANYKKAFLDLNVGDIIPPIRIVEKLIMNGYKRESFVTKTGEFSAHGDIVDVFILGEDNPIRIEFFGDEIERIKYFDPDNQKTFENIKRITIKPRTEFICSEEVEKSKQKYLPQYEKVSSIYDYLDNPIVFYKNHDQIENYFKRELVEEMFTYHKTKDEEFKGKYMFDFSEIIPKRVMFYESINNLEKAENKNIINYDVKSIPNFSGNYEVLNNYVDKINPKKIIVCLSPNNKKEFNKKFKYECKTIENNFWGGFLYNNILLLTEKEIYGEESKTKKYNTKFRYASKIKDINKLEIGDYVVHDICGIGIYKGIKTLLQNGVEKDYIEVQYQGKDKLYIPVEKIEYLSKYSTKEGVMPRISKMNGLEWKKTKARVDSKIADMMEELMNLYVERESIAGYSFSRDDEYMKAFEKEVPFDLTEDQKTAIIQIKNDMESTNVMDRLLCGDVGFGKTEVAFVAAFKAILDSKQVLFLCPTTILSGQHFENAKERFKNFPVNIALLNRFTPKKEESKILEQLSKGGIDLVIGTHRLLSEDVKLKDLGLLIIDEEQRFGVAHKEKLKKMKKNVDVLTLSATPIPRTLQMSLTGVRSLSLIETPPVDRYPVQTYVIEENDQIIKDAIYKELSRKGQVFILYNRIDTIERCFDRISKLAPDASITYAHGRMSKKELESRMEDFIGGKYDILICTTIIEAGIDIPNVNTLIVYNADNFGLSQLYQLRGRVGRSNRFAYAYLMYKGHKVLTETAIKRLQVLKDFTELGSGFSIASRDLAIRGAGDILGSEQAGFIDSVGVDLYLKMLNRQVALKKGIAVEEDNMAPPLLNVKTHIDESYADDQDIKIEIHRKINEVDSLSKFKSVKKELEDRFGRITKDMEIYMYEEWFEKLATKLPIRRVIEKKNSVSLILDKETVLKYSADILFVKSFEVSDYFRFKTIGDNLEIILDLLHLDKHPVYYLVEFLEKVLN;locus_tag=LOCUS_5660;gene=mfd;note=WP_000154218.1 transcription-repair coupling factor (Staphylococcus) [pid:40.6%25%2C q_cov:87.9%25%2C s_cov:87.5%25%2C Eval:8.5e-212],MGA_569
sequence04	MetaGeneAnnotator	CDS	86761	87324	.	-	0	ID=MGA_570;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226727.1;translation=MKMIIGLGNPGKEYEKTRHNIGFMVIDNYLSEKGITKMKTKFNGEYALENIDEEKVLFVKPLSYMNLSGTVVRKFMDFYKVKPKDILVISDDLDLPSGSFRLRSKGSSGGHNGLKNIEENIGTDVYKRLKIGISNNKEIDTKDYVLGKISKSDLEKIDKVINKTPDILDDYLTMTFTELMNKYNTKC;locus_tag=LOCUS_5670;gene=pth;EC_number=3.1.1.29;note=WP_003226727.1 aminoacyl-tRNA hydrolase (Bacillus) [pid:47.6%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.6e-45],MGA_570
sequence04	MetaGeneAnnotator	CDS	87497	88339	.	-	0	ID=MGA_571;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243457.1;translation=MIKKSYNNGPALYLVPTPIGNLEDITIRGLNTLKSVDIILCEDTRESGKLLKKYDITKKLISCHEFNEDKVKEKVISLLKEGKSIALITDQGTPIISDPGVVVVREVIEHDYSVISLPGATAFVPALTMSGFDPSPFIFYGFLNSRSTKRKKELEVLKHYPMTIIFYEAPHRIEKTLTDILEVFGDREIAVVRELSKIHEEIRKGKIKDLLKSIDGIKGELVLIVEGSKEENDFSQISLVEHVRLYLDEMGEKEAIKKVAKERNVSKSIVYKEYHTEKKK;locus_tag=LOCUS_5680;gene=rsmI;EC_number=2.1.1.198;note=WP_003243457.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Bacillus) [pid:49.6%25%2C q_cov:95.4%25%2C s_cov:94.5%25%2C Eval:1.2e-66],MGA_571
sequence04	MetaGeneAnnotator	CDS	88332	89051	.	-	0	ID=MGA_572;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183570.1;translation=MNSLDDIVGFKKRKIYQNRDFFCFSLDSLLLAYYTEIKKNDERILELGVGNGVNLLILSKKHKQKMIGIDIQKESVDLAKKSLKYNKLEKQIEIKEMDIKGCYKKLGNDCFDVILCNPPYFSKESITKNKVKTNAKSEQLLSLDDVFRESSKLLKNGGRLYMVYPVTNLEDVLESSRKYNLGVKNIRYVYYNKERSAKIMLFKACKNAKKGLIVEKPLILFENGGKTPEYRKIMGEEDD;locus_tag=LOCUS_5690;note=WP_011183570.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Mesoplasma florum) [pid:33.6%25%2C q_cov:91.6%25%2C s_cov:92.5%25%2C Eval:7.1e-35],MGA_572
sequence04	MetaGeneAnnotator	CDS	89055	89834	.	-	0	ID=MGA_573;product=stage 0 sporulation family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003404857.1;translation=MIDAVLVKFDLFFDKRYYAPGEWGVKKGDYVVVVIDENEYLGVCESDVIKVSKKNIDGRLETIRRKATDADLSQAKENKKVLAKAIKEAKKEAQKLDLNMNIVQVDYSLDRKQMFFFFLADSRVDFRELAKKLAARYRTRIELRQIGIRDKAKQFGGLGPCGLSLCCNTFLTDFSSVSINMAKNQFLALNPSKINGLCNRLLCCLNYEDETYSYLKKDLPKIGMKMKTDQGEGKVVSIDVFKKAYKLELENGDILERTV;locus_tag=LOCUS_5700;note=WP_003404857.1 stage 0 sporulation family protein (Clostridium) [pid:42.3%25%2C q_cov:97.7%25%2C s_cov:83.2%25%2C Eval:3.5e-54],MGA_573
sequence04	MetaGeneAnnotator	CDS	89827	90600	.	-	0	ID=MGA_574;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183571.1;translation=MALQSKFKKEIDEIIKNKRLSHAYLIETNGLIDYKENIDYFIKEILKSNKPAKAELELIFNQIDNNCFINLKRIETETVIKKEELLEIKRDYTKKSFLDYPEIYIIDDAAKLTPATANSILKFLEEPEEGIIAILITKNRYNVLDTIRSRTQILRLINDEKIELSGEEKETLDKAFTKEAIVNFDELLKLLPDKVSANNIFSQIEKYYHQQLIDNYNEKYLQYVLIIEEEIQKLAYNVNYKLWLDAFLTRLMEVTND;locus_tag=LOCUS_5710;note=WP_011183571.1 DNA polymerase III subunit delta' (Mesoplasma florum) [pid:27.0%25%2C q_cov:94.2%25%2C s_cov:95.1%25%2C Eval:3.5e-14],MGA_574
sequence04	MetaGeneAnnotator	CDS	90614	90802	.	-	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKIIDVAKRAVISGFLLYGYNLIAVNFNMIIPINIFTVLGVTFLGAPAIVALILFKVLML;locus_tag=LOCUS_5720;note=MGA_575
sequence04	MetaGeneAnnotator	CDS	90843	91439	.	-	0	ID=MGA_576;product=recombination protein RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000559169.1;translation=MYPESLKKLIESFRLLPGVGEKTAERMAFSILDFDDENITYFSDSLKEAKEKIHPCSICNTLTDQEKCSICSDEKRNKKKLCVVDDSKSVFMFERLKIFDGVYHVLNGLISPLEGVNPEDIGIEKLLERVKKENFEEIIFALTPSIEGETTVLYIKQILDDNKIKITKLASGVPVGAEMEYMDVLTLERALSERKEVA;locus_tag=LOCUS_5730;gene=recR;note=WP_000559169.1 recombination protein RecR (Bacilli) [pid:46.9%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.0e-51],MGA_576
sequence04	MetaGeneAnnotator	CDS	91445	91774	.	-	0	ID=MGA_577;product=YbaB/EbfC family nucleoid-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905131.1;translation=MNLNRKEDDIMNMQALMKQAQNLQKDMMKTKEEIDKKEFTGESALVKVTIMGTKEVKKIEISKESDLSVDDLEMLEDMLLVAINDAMKKIDDETEQKMGKFSSMLPGGF;locus_tag=LOCUS_5740;note=WP_010905131.1 YbaB/EbfC family nucleoid-associated protein (Lactococcus) [pid:45.5%25%2C q_cov:89.0%25%2C s_cov:99.0%25%2C Eval:1.5e-14],MGA_577
sequence04	MetaGeneAnnotator	CDS	91761	93380	.	-	0	ID=MGA_578;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001109040.1;translation=MYQAMYRKYRPLHFDEVSGQEQVVKTLVNSIKTDRINHAYIFYGPRGTGKTTIAKIFARAVNCEKNKNGNPCEKCTACEISKEKECIDIIEIDAASNNGVDEIRELRSKINFVPADLKYKVYIIDEVHMLTVGAFNALLKTLEEPPEHAIFILATTDFQKLPETVVSRCQCFEFKRLENKLIESRLTEISAKEKIDIDSKVIESIANFSDGGMRDAIGMLDKLASYTDKKITMNEFVSLNGLINEEQLDELTLSILNGDNKEFLKIVGKFNADGKNVIQIISQELFYLRDKIVDGYLNNSLINISDYQSLANIINENMEKVKRSGNPQIFVEILLLSYIEKNKQKSSGNIISQEENISREIMETAKNKGIVNKTATKTNDNKSKIQNYNEVVNNRINNTFATATKEYLKKVKENFERLREHSFDQNEGYLICDLLESNIRAAGEKYAIITYEFDSLVAKNANQIAEIEKVYKRIIGTPIKLAIIDDERWQKLKKEYIENIKNKKEYSLEKDIKPIYVKEEKEVENDETASIFGDIVEFE;locus_tag=LOCUS_5750;gene=dnaX;EC_number=2.7.7.7;note=WP_001109040.1 DNA polymerase III subunit gamma/tau (Staphylococcus) [pid:35.2%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:3.9e-95],MGA_578
sequence04	MetaGeneAnnotator	CDS	93431	93874	.	-	0	ID=MGA_579;product=nucleoside deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003359498.1;translation=MKKIYVEEVLKEARKAYDDGEIPVGALIIKNDEIIAKAHNTKEKENNPLRHAELIAIDKACKEIGNWRLDGCKLIVTLQPCPMCASAIKQARIDEIEYFVKIDNSEVRKIVNKILKTNDNNKQILCKKSKNQTYEKLWKSFFKNMRK;locus_tag=LOCUS_5760;note=WP_003359498.1 nucleoside deaminase (Clostridium) [pid:45.6%25%2C q_cov:96.6%25%2C s_cov:97.9%25%2C Eval:3.2e-27],MGA_579
sequence04	MetaGeneAnnotator	CDS	94079	96610	.	-	0	ID=MGA_580;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001282864.1;translation=MEEDKRVEETINETKEEHSFNGYFHERDRLDENNIVSEVKTSFLEYSMSVITARALPDLRDGLKPVHRRILWSMFESGYTPDKPHRKSAKTVGEVMGNYHPHGDSSIYEAMVRLAQDFNQRYMLIDGHGNFGNIEGDGAAAMRYTESRLAKLSLELLRDINKETVDMDDNFDATRKEPKVLPSRFPNILVNGSMGIAVGMATNIPPHNLGEVIDGCIAYIDNPELDVLELMQYVKGPDFPTGGIILGNSGIKKAYETGRGTITIRSRAEIKEHKGHDIIEITEVPYGINTMDLKNKVAELVSNKTIEGISDYHTDLKDGIKITITLKKDANAQVVLNNLYKHTSFQTNYSVIFLMLDNGTPRTLGLKDIIAKYVDYQKEVIIRRTKFDLAKSEARVHILEGYKIALDNIDEVIKIIRGSETDQNAREALMKSFELTEIQANSILELKLRRLTGLERSKIEDELNDLLKKIEELKSILASEAKVLDIIKNELTDIKNRYSDERRTTIDMTAIDFIEDESLIPVEDIIVTLTNKGYIKRLKSDTYRAQNRGGVGIKGMTTNEEDFVEHLISMKTHDYIMFFSNKGRVYRLKGYEIPEYSRQSKGLPIINLLPLEKEENISSILHIATDDEYCKYLVFTTKNGLVKRTSLEEFDSIRRSGKIAINLKEDDELISVRKTNGENEIVIGASNGRMVHFKEEEVRVMGRTAAGVKGIELDGAKVVGSEVIYENELVLIVTDKGYGKKTAIDEYRLTHRGSKGVKALNLTEKNGKMASLKCVSPDYNCDLVIITDSGIVMRMPFEQISTLRRATQGVRLINLKDNQIVATTAIVAKEDEEDVSRETETED;locus_tag=LOCUS_5770;gene=gyrA;EC_number=5.6.2.2;note=WP_001282864.1 DNA gyrase subunit A (Bacillus cereus group) [pid:56.6%25%2C q_cov:97.0%25%2C s_cov:99.4%25%2C Eval:2.3e-273],MGA_580
sequence04	MetaGeneAnnotator	CDS	96623	98554	.	-	0	ID=MGA_581;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000435982.1;translation=MKEKLEEKYDSSAIQVLEGLEAVRKRPGMYIGTTDVKGLHHLVWEIVDNSIDEALAGYCENIEIIINKDNSVTVKDDGRGIPVEIHKKTGISTVETVYTVLHAGGKFGGGGYKVSGGLHGVGASVVNALSSWVEVKVYKEGKVYFVRFENGGHTVEPLHEIDTCEKNRTGTIVTFKPDPNIFDTDIYDYETLKVRVRELAFLNKGLRITIRDDRDDEDTTGETFVYEGGISEYVKFINQGKTPIHEDIIHLDGEEDGVIFEVAMQYTTGYNENIYSFVNNINTHDGGTHEEGVKRALTRVINNYARKNNILKEKDDSLTGDDVKEGLTMIISCKHPNPQFEGQTKGRLGNSEVRKLGDKIFSKGFEKFLLENPNEARVIIEKAMLACRARNAARKAREITRKSDLSTTNFFGKLSDCKSKDPKESEIFIVEGDSAGGSAKKGRDSMTQAILPLRGKILNVEKNRLDRALGNEEIRTIITAFGTGIGDEFDLSKLRYDKIVIMTDADVDGSHIRVLLLTLFYRFFRPIVEAGHVYAAQPPLYRIMHGKTRKYVLNDEELDNYLKSLPENVRSKAEIARMKGLGEMDADELNETTMDINTRTLRKITVEDLMSADQVFSELMGDEVEPRRKFIEENAVYVENLDI;locus_tag=LOCUS_5780;gene=gyrB;EC_number=5.6.2.2;note=WP_000435982.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Bacillus cereus) [pid:58.6%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:1.0e-214],MGA_581
sequence04	MetaGeneAnnotator	CDS	98551	99672	.	-	0	ID=MGA_582;product=DNA replication/repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723768.1;translation=MILTNLKLVNFRNYSKIDIKLNKKMNILIGNNGVGKTNILESIIILSLTKSFRTREDLNLIKIGEKKAKIIAKSKDKTIPKSLEVDIWENHKQLFINNNEVKKISDYISNLNVIVFTPDDLNIIKGSPSIRRNLLNVELSQLSKIYLNTYNEYNKILRTRNEYLKLLYTNSIADTKYLDVLTDKLIEKATKIYISRKEYIDKINDSINTIFSKISNKGTLRVEYLPNIEFDKYDEESIGKTMKKKYKDNYFKEINNKMTLYGPHRDDLNFYLNDQNLKLFGSQGEQRLSIIAYKIAEIGIFESITNTKPVLLFDDIFSELDIRKRNKLLNLIGSDIQSIITTTDLKNINKKYIEEASVFEIKKDNIIKKAGIK;locus_tag=LOCUS_5790;gene=recF;note=WP_003723768.1 DNA replication/repair protein RecF (Listeria) [pid:36.9%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:1.5e-68],MGA_582
sequence04	MetaGeneAnnotator	CDS	99789	100235	.	-	0	ID=MGA_583;product=competence protein ComK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000428958.1;translation=MNYEINEGTLAVIANGEEKTRVLEDEYDYQISESAFEIMDKSCKYFGSSYNGRKEGSKSILGVEYKVPIVVEDSKNIIFFPTTSPHDNECIWLSLNHIKDYYQTDYNQTKVIFDNNKEIVIPISYRSIENQILRSARLESLLRNRKNS;locus_tag=LOCUS_5800;note=WP_000428958.1 competence protein ComK (Bacillus) [pid:32.9%25%2C q_cov:98.0%25%2C s_cov:77.2%25%2C Eval:1.4e-17],MGA_583
sequence04	MetaGeneAnnotator	misc_feature	100326	100852	.	-	.	ID=MGA_584;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_001831813.1:DNA polymerase III subunit beta,WP_001831813.1 DNA polymerase III subunit beta (Staphylococcus) [pid:41.4%25%2C q_cov:97.1%25%2C s_cov:44.6%25%2C Eval:1.4e-34%2C partial hit],MGA_584;locus_tag=LOCUS_5810
sequence05	Barrnap:0.8	rRNA	288	360	.	+	.	ID=Barrnap_1;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;note=aligned only 61 percent of the 5S ribosomal RNA,Barrnap_1;locus_tag=LOCUS_r0010
sequence05	MetaGeneAnnotator	CDS	484	942	.	+	0	ID=MGA_586;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000049629.1;translation=MDYRLTTYSEEETIEFAQNLESEKFPKMVICLMGDLGSGKTVFTKGFAKALEIDEEITSPTFNIIKEYTSGEMPLYHMDVYRLDGKVEDLGLEEYFNKKGITIIEWADTIEEYLPKNRLDIKFRTSDDNEKKRTIILVPHGRKYEELCEAVL;locus_tag=LOCUS_5820;gene=tsaE;note=WP_000049629.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Bacillus) [pid:52.3%25%2C q_cov:98.7%25%2C s_cov:93.6%25%2C Eval:4.7e-35],MGA_586
sequence05	MetaGeneAnnotator	CDS	939	1562	.	+	0	ID=MGA_587;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476225.1;translation=MKVMYIDTSSSFLYFGIAEDNKLLVEVKKRYDEELSKMAMVDIEKAFKKAKVEPKDIDKIIVVDGPGSFTGIRIGITIAKVYAYSLNKKITTISALEAMALSNDNSDYLVPMLDARRGFVYSAIYKKDLTTALAPVHIKLDVLKEELKKYDDVLVITNDDIDIDYQKESYSPDILKIITKFKDKKSINPHAVNPNYLKLTEAEEKLK;locus_tag=LOCUS_5830;gene=tsaB;EC_number=2.3.1.234;note=WP_011476225.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Ligilactobacillus salivarius) [pid:32.6%25%2C q_cov:99.0%25%2C s_cov:91.8%25%2C Eval:4.7e-26],MGA_587
sequence05	MetaGeneAnnotator	CDS	1559	1924	.	+	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITIVTKDNIEDVPKDMKEVITTFETNPYAKYIFYVEEKTLGYLYYSVIYDRIEINYIESKRKGVGSILMEELLKEKLPITLEVSKENERALTLYKKYGFKEVALRKGYYDGVDGILMEKK;locus_tag=LOCUS_5840;note=WP_012048263.1 ribosomal protein S18-alanine N-acetyltransferase (Clostridium botulinum) [pid:40.6%25%2C q_cov:69.4%25%2C s_cov:63.2%25%2C Eval:2.8e-08%2C partial hit],MGA_588
sequence05	MetaGeneAnnotator	CDS	1929	2933	.	+	0	ID=MGA_589;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000414585.1;translation=MKDMYILGIESSCDETSVSIVKNGREEIATVVSSQIDIHKSYGGVVPEIASRNHVKNITIVLDECLTKAKMTMDDIDAIAVTYGPGLIGSLLIGLEAAKTLAFIHNKPLIPVHHIAGHIYANSLVKEMTYPLLALVVSGGHTDLILMEEEYKFKKLGGTLDDAIGEAYDKVSRVIELPYPGGPKLDKLAHEGTPSYKLPIPLKDDSYNFSFSGLKSAVINLAHNEEQRGREIIKEDLAASFQKVAVTEIINKTRKAIKDFKINNLIVAGGVAANSEVREQVTILCKEEEIEFSFPPIKYCTDNAAMIAAAGYFAYKHGKNADMSLNSKSVDSLK;locus_tag=LOCUS_5850;gene=tsaD;EC_number=2.3.1.234;note=WP_000414585.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Bacillus cereus) [pid:58.2%25%2C q_cov:97.6%25%2C s_cov:97.0%25%2C Eval:8.4e-105],MGA_589
sequence05	MetaGeneAnnotator	CDS	2942	3346	.	+	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKVLIVLIIIIILIVLALLYFFLKPKKSDTEKVPKNYHVVLDINAGIPFKWEYKIDDESILKLKEKVVRAEETKEPISGGLMHEYYTFEGLKEGETRVTFSFVNITDNTSDETREYKAVVDKDLKVTVTENN;locus_tag=LOCUS_5860;note=MGA_590
sequence05	MetaGeneAnnotator	CDS	3359	4480	.	+	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKVEDLYDKTKIPVDEKLVDELIDKYLQISFKDMNDQQLNIGERKISSLLYNKINFVDNNKTEINKQDLDTLITKVQNDFEKAGKPYNPAQYGGVSNPLGIMPGWQVFQSWNLLGTEKIASKDLNHRFYFGIDNSKLYDLSNVLYDELKEANIPFYFKIENNKEAQRRDKIVLYTSSELLPKTLEVIEKVQTNRADLISSCSEPSILMGKLNEKIGYATEGHQSNSSYTDMLCETFTDSIEKSLKDYQSKNSNSSLKEVFKSKLEAYEKRGTKLETVDVKRRILMDLLLKEDPNYKKELLQTFRNELSDKEMDLNNICFNKEIKQEVDTMYQDNTKENAFTKDFDHDLEMERMVNYQEQTEKLPDDVKTLHG;locus_tag=LOCUS_5870;note=MGA_591
sequence05	MetaGeneAnnotator	CDS	4549	4881	.	+	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEREMDFYHGAEVLKVLGEPVINNRKERLFYRDFGLKLVSSLNRDSEGNISIKDLRITYEDQEVLHSQKDVYNPGYWEYILKKLYEDCDVYYKDRERNKPKTLYLKKRS;locus_tag=LOCUS_5880;note=MGA_592
sequence05	MetaGeneAnnotator	CDS	4882	5679	.	-	0	ID=MGA_593;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861383.1;translation=MNYTEEHRRYLKERKQEKRKVLFFRVLIIILFITTWQLLDSFKIINSFLMSSPVKVLDTFFSLIEDGSLFRHLSITIYEVLISFSLSVIIGFIISSLLWWFPLLAKIFDPYLTILNSLPKVALGPLIIIWVGASIKSIIVMALSISIFITIINTYNAFSNVNKDYIKLLKTLKATKYQIFTKVIIPSNRINFINILKVNISMTLIGVIMGELLVSKKGLGYLIMYGSSVFNINLVITSVVILGIISYLLYYLVTKLESKYKKEVN;locus_tag=LOCUS_5890;note=WP_011861383.1 ABC transporter permease (Clostridioides difficile) [pid:43.6%25%2C q_cov:97.0%25%2C s_cov:96.6%25%2C Eval:3.3e-63],MGA_593
sequence05	MetaGeneAnnotator	CDS	5666	6430	.	-	0	ID=MGA_594;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461079.1;translation=MKSLSIKNKVLEIEHLQKNYQDPKDEIKALSDISFNVFEKEFVSIVGPSGCGKSTILSILSFLEDKSCGTVHLKDNTKLGYMLQSDCLFPWKTILENALLGLEITNSLTEDKKKYVLDLLHTYGLSEFLNKYPDSLSGGMRQRVALIRTLALKPDILLLDEPMSALDYQSKLLISNDIYKMIKDEGITAIMVTHDLAEAISMSDKVIVLSKRPAVIKNIYEIKLKNKKTPVENRKDEYFDKYYDLIWSDLDELY;locus_tag=LOCUS_5900;note=WP_011461079.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:55.6%25%2C q_cov:95.7%25%2C s_cov:98.0%25%2C Eval:1.5e-70],MGA_594
sequence05	MetaGeneAnnotator	CDS	6405	7385	.	-	0	ID=MGA_595;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461077.1;translation=MNKFFTWVLIVFVSFFLVSMVFINLNKPPKKEEKVTVAEVAHTVFYAPFYVAIEKGYFKEEGINLNLILTPGADKVTAAVLSGDADIGFCGSEATIYVYNNKEKDYLKTFARLTNKDGSFIVSRKKIKDFSLVDLKGKNIIGGRKGGMPEMTLEYALKKNGIKLNEVNIDTSIAFNAMGGAFSSGEGDFVTLFEPEATKIEQEKIGYVVASVGELGGEVPYTAFNARSSYLEKNKKTIKSFNKAINRGLEYVEKHNDKTIAKAIKKQFNDTSLEVLEKVIKRYRDINAWSKSTFFSKKDFDHLQDIMIEAKELDKKVAYEKLIYQE;locus_tag=LOCUS_5910;note=WP_011461077.1 ABC transporter substrate-binding protein (Desulfitobacterium) [pid:46.3%25%2C q_cov:94.2%25%2C s_cov:92.3%25%2C Eval:2.1e-76],MGA_595
sequence05	MetaGeneAnnotator	CDS	7698	8669	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDTHYDLLTIAYVAYLKDDYSYLKEIANYFNENNVKGVIANLYFMSREEMKEELHENYYRDDVSVLEMFKVAKDILDIFLPNKDILYSIEGADYIKDEDELEELYNNGLDALILCWNTESKYGSGNRSNKGLTLEGKKLLTKAIDLGMGIDLSHANVNTFYDMVDLVKHEKEEGKDVCVYASHSNVYAICPRSRSLEFEQLEKLKEIDALVGAFSNKGFIIRKGIDEESVDARKMYLLHLIYLSKVLGPNKVMTATDDMTFLKDTGNKYALKNIYEYKDIYKELSKDLESVFGEDKEKIIYNNAKEQIYDKIKKKREKRRGL;locus_tag=LOCUS_5920;note=MGA_596
sequence05	MetaGeneAnnotator	CDS	8669	9358	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNNQKVWWIILIVGAIFLLVGGFLVNKSDSNETAKPKLIKVALDKQYKESVQAGSSISFKYTPEESGYYYYDWSNNGDENTGVEFSVLKNNKDAMEAEGEGTKFFVYLENGNDYYFKNHAENDVTISFEMGKFAEGNITDGEEVTINKNTVLFYEGKETETKQLTLSDDSAARVMVFHPDNYSVGYSYDMKGLFDIKAGLKYNFYCYDVKGDVKVLVKKAPAGIIIE;locus_tag=LOCUS_5930;note=MGA_597
sequence05	MetaGeneAnnotator	CDS	9376	10662	.	+	0	ID=MGA_598;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948259.1;translation=MIDIKLIREDRDLVKENIKKKFQDDKLVLVDEVYELDQKVRKLKKEGDELRFKRNELSSEIGSLMRDGKKEDAEKIKADVSAINERLEGLEKEEDELNLEIKTRMMVIPNIIDESVPLGKSDEDNVELEKFGEAKVPSYEVPYHIDILESLQGVDMDAASKVAGNGFYYLLGDVARLHSAILTYARDFMIDKGFTYCIPPYMIRKAVVDGVMSFEEMDAMMYKIEGEDLYLIGTSEHSVIGRYKNEILKEDDLPITLTSYSPCFRKEKGAHGIEERGIYRIHQFEKQEMIVICTKEEANSWYDKMWKYTVDLFRSLDIPVRTLECCSGDLADLKVKSCDVEAWSPRQKKYFEVGSCSLLGDAQSRRLGIRVNGKEGKYYPSTLNNTVVAPPRMLIAFLENNYNEDGSINIPEVLRPYMGGLDKITKLT;locus_tag=LOCUS_5940;gene=serS;EC_number=6.1.1.11;note=WP_011948259.1 serine--tRNA ligase (Clostridium botulinum) [pid:68.6%25%2C q_cov:99.1%25%2C s_cov:99.8%25%2C Eval:7.7e-173],MGA_598
sequence05	MetaGeneAnnotator	CDS	10708	11250	.	+	0	ID=MGA_599;product=rubrerythrin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003418513.1;translation=MELKGSKTEENLKTAFAGESQARNKYTYYASKAKKDGYEQIAAIFEETANNEKEHAKLWFKELNGGDIPTTEVNLQDAANGENFEWTDMYKGFAETAKEEGFDRIADLFEKVGAIEKEHEERYLKLLANLKDDKVFHKDGEKMWICRNCGHVYMGADAVDICPVCAHPKSFMEVKADNYL;locus_tag=LOCUS_5950;note=WP_003418513.1 rubrerythrin family protein (Clostridioides) [pid:69.8%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:1.2e-71],MGA_599
sequence05	MetaGeneAnnotator	CDS	11344	13896	.	+	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKKVIFSAIIVFLLGFLMVKASSSVEITSISIKEKSATISVTDPVLNNNEVTSNITFNQEGDYVNFGVVLKNNTDKEYKIKGITDNNTNENINITYDYPEVIDSGESSTIKVKMLYQNKLVNKDLKINNLVITLETEEGKKKDIIINPETNSKTLVNPLTKDGIFKYLWILLISGITLLIIFKGKKLNKALLMVIVTLLIVPILVGAKESITLKFSDIDIKGEFEVYQVSIDPNNGTDPIIREIKYGDKLGQLPSVSKDGYSFDKWADQEGNDVDEDTVITGPITVTAEYTANTYQVIFNSNGGYGQMDPQEMTYDQKANLIANDFDNGSHGFKEWNTEEDGTGTSYADEAEVKNLTTSGEITLYAQWEKIAKLESGSYVNQKMSNMAYDPDGYSPDVPSIYQIKKTTTLPDGFEPMGDNTISDYDSEEPVYIWYDEDYGIMYWYTEADKIILNEYSNNLFGGLEYLYSIDLLDKLDTHNVQDMSDMFKNVSSFSDYSGLANWNVSNVSNMSNMFYNNQGLSNLSVLDNWNPSYLTNMGGMFYNTPITTVDPLEDWNTTYVTDMSHLFENCWRLTDFSALSSWHTGNVTSLAYTFASTKLSDLRVVGGWDVRKVQDMERTFSSCNQITTLQPLSGWQTNSVTNVFNMFFMCRSVTNLSGLENFNLSSLTSLKAMFNGCTGITNVDALSGWNTSNITNMEGVFSSCQGLENVNGLANWNTSNVTSMASMFYYNSSLTSLEPLKKWNTSNVTNMGNTFRGCQKLESVEGIDQWDLRKVTSTIAMFQAASKISGTIKLSKRPTSYGDMFRDAATAEGSELIVNYTSDVTNIDNLINTKSSNSHVTKGELVP;locus_tag=LOCUS_5960;note=WP_102756879.1 BspA family leucine-rich repeat surface protein (Flavivirga eckloniae) [pid:32.6%25%2C q_cov:35.9%25%2C s_cov:44.4%25%2C Eval:7.9e-32%2C partial hit],MGA_600
sequence05	MetaGeneAnnotator	CDS	13975	15972	.	+	0	ID=MGA_601;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244692.1;translation=MAELKDVKGIGPKSLFLLEKMGITTIDDLVMHYPFRYELLKRGNLEETKDGEQIIIDGKVESMPILMRFKSNLNKMNFRLLTQNGGVGISIFNRAFLKSHLTVGTTITVIGKLDKKKNIITASDIKFEGLTSKVKIEPVYHLTNGITNKNIHNYINMAMLMFSKEIFDYIPEYIQKEYNFPNKKTSLNIIHNPSTADKLKQVTKRLKYEELFAFMFKINYLKNERKKNNKGIRKEVDREELNKLIKKIPFELTNDQNKAVDDILKDLEKDYRMNRLLQGDVGSGKTIVSFIAMYANYLAGFQSALMAPTEILATQHYNNLRELLKETDINVELLIGSTPKKEKERIHKELEEGTINMVIGTHALIQEEVNYNNLGLVITDEQHRFGVNQRENLKNKGITPDILYMSATPIPRTYALTLYGDMDMSIIKEKPKGRKKIKTYVKSNDEIKDVLQMMYDELESNHQIYVIAPLIEEGEGKTDLQSVMNLKDQMMLAFGKKYKIDIIHGKMAGGAKELIMQEFLQNNIQILISTTVIEVGVDVKNATTMVIFDANRFGLSTLHQLRGRVGRGEDESKCILISKVDTKRLEIMEQTEDGFVISEEDLKLRGHGDLFGTKQSGDMEFKIANLKEDYKILLKARDDSKEYLENKDYDKDEIKKKLIKGIIGS;locus_tag=LOCUS_5970;gene=recG;EC_number=3.6.4.12;note=WP_003244692.1 ATP-dependent DNA helicase RecG (Bacillus) [pid:44.6%25%2C q_cov:95.8%25%2C s_cov:93.8%25%2C Eval:1.7e-159],MGA_601
sequence05	MetaGeneAnnotator	CDS	16138	16671	.	+	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRITIISIIIAIAIIIIGVVIGYRNINNTNKSLLVVRTYAKYTSSSRFDGTAIFNDGSVYSWSFKGSTDKEYKKYIDNNNIDTKKGLEKFILKRGKKRSNKVPSNELEEIKRIVNSLTEKDTDYEVGCSATQSGNFSTAAFKDTTRYEIKVSGACDGTSKTTNSSRILAIANKYL;locus_tag=LOCUS_5980;note=MGA_602
sequence05	MetaGeneAnnotator	CDS	16762	16986	.	+	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCHVFRTGEIASSQKIYLKGIGAKIKTYFWINAFIREFIATLSREKEKHIKTIIILVLLSFSLLIVHYLSLYL;locus_tag=LOCUS_5990;note=MGA_603
sequence05	MetaGeneAnnotator	CDS	17011	17889	.	-	0	ID=MGA_604;product=LysR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435316.1;translation=MKTNLELYKVFYYVAKNKSITGAANELMVSQPAVSKSIKVLERDLNTILFNREKGGVSLTNAGELLFNKIKKSMDLIVSAEEDITSLNNMESGTINIGAGNTIMQRYLMPYIRKFHELYPNINVIVHTVVTPELIKRAQVGLVDIVFTHLPNDIPSNFTITKIKKLHDILVVNGDSEYKDKTITKKDLSTLPLVLLPFNASNRMNFNEFCKRNNIIIHPLMEIGNDLIIEDCARGGLGVGLVVKEYVQSKLDSKELFELDTNFSFKEKDLVYLIESTRKNNNIINSFTELLK;locus_tag=LOCUS_6000;note=WP_003435316.1 LysR family transcriptional regulator (Clostridioides difficile) [pid:36.6%25%2C q_cov:93.2%25%2C s_cov:92.2%25%2C Eval:3.4e-43],MGA_604
sequence05	MetaGeneAnnotator	CDS	18018	18596	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTILEQVKEAANKAKIKYVSFFNNGKIVKDNGRMERSFNKANDSYQSELLLETMVDGAKLYSSFYDFDSIDMHLILGLVFNEQDIKEDQQLEGAKPIKGLVRYYTGTFDITNGEEKTSFDDGRYYPSTQGFINYNKLMKAIEKSGLDYTGPETFQEFEEQILVGEPFDIKVSANLSKEEKTTGKVKVKTK;locus_tag=LOCUS_6010;note=MGA_605
sequence05	MetaGeneAnnotator	CDS	18647	19084	.	+	0	ID=MGA_606;product=flavodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966687.1;translation=MKKLFIYYSLTSNGDVVAKELKKKGYDIRKVISKSKYPKNRALMILIGGYKGTFNKKDKLLDFDSDITKYDKVVIGSPVWNDRLSAPINTVISTIDTKDIDFILYSASGKAEHAKEKIKELYNKEPIILKEPKKHKEELEKLKGI;locus_tag=LOCUS_6020;note=WP_010966687.1 flavodoxin (Clostridium) [pid:30.1%25%2C q_cov:82.8%25%2C s_cov:76.4%25%2C Eval:1.3e-09],MGA_606
sequence05	MetaGeneAnnotator	CDS	19372	21315	.	+	0	ID=MGA_607;product=Dam family site-specific DNA-(adenine-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_209021411.1;translation=MFDIQNRRYIGNKYKLMDWISDLIDKNCKNCHSFFDVFAGTGSVTDYMFDKYDRFIINDFLYSNNIIYNAFFLNEEYNAELINDIKIRYQKLDSSKLKDNYVSINFGNKFFNYDDSLKIGYIREDIEKLKKSNKINYKEYSILIASLLYSLDRIANTIGHYDAYRKTKEIKSSFIFELINPKDDNQKKVIEIYREDSNGLAKRVKCDIAYIDPPYNSRQYSRFYHVLENITEWKKPELFGAALKPKEKNMSDYCKVTAPIAFNDLVQSLDAKYIVVSYNNTYNSKSNSSKNKITLEELETILSSKGETQIFEKKYKAFDAGKTDLNDHKEFIFITKVKKDIKKEISYRSPLFYVGDKYKLMPEIKKYMPEGIVNYVEPFVGGGSSFLNVKAKNYIVNDIDTSIMSIHEMLKSYSFDKEKFFDKAFKLINRYGLSCSYNGHLVPEELKQKYKKTYYAKYNKEAYIKLRNDYNKDQKDILKLYLLLIYGFNHMTRFNSKGQFNLPVGNVDFNSNVYNSLNYYFDYLKRIKIKYSSMDYKKFLNSLLLNENDYVLLDPPYLISQSEYNKLWSEKDEKELYELLDELDKKGIRFGITNLVYHKGKKNTIFEKWSKKYNVYEINSNYISFNDNTIKAGSKEVFVTNYGTSKE;locus_tag=LOCUS_6030;EC_number=2.1.1.72;note=WP_209021411.1 Dam family site-specific DNA-(adenine-N6)-methyltransferase (Helcococcus ovis) [pid:37.1%25%2C q_cov:98.8%25%2C s_cov:87.5%25%2C Eval:1.6e-119],MGA_607
sequence05	MetaGeneAnnotator	CDS	21284	22906	.	+	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLIMAQAKSKPLSFSTTMRNPNRIAGFLSQIVEFEGQVLTSEIIYKVIHNVIKNKLYYTMYEYGKPEYKDIYFSDELEFSDEQVDDIIASTKQKHKEAGFEEGWESRFDTWFSLPKEFGFVFYEKGKQIRISETGHMLIDNSNLEEPDEVMNQNIFLNSLCKYQTNNPFKKNLNENNPLLLLLNTIKLLKNDPEENDAGIFRSELSLLICWNNNDATEVYKLIKKLRKQVGFQYSDEMIYDICLELLGCVTPEEKEASKKYFKIDKICGEAVDEYIRKMRSTGILSLRGNGRFLDFNSFEQKKIDYVLSKYSSIKTYSSEEEYFNYIGQKDKELFDINDEVDYSKEYGIKIETLNKFANKYTKEEIFKELLILSKKTESKNDEFRFIPDPTRLEFLTSISLVQNLNGCYVEPNYSIDDEGMPTMTARGNMPDIVCTEISENPNVSPLISNVEVTMMRGKTDQVMNEMIPIRRHLLNDMSKHKDVFAVFVAPFIHDDTKEASEWYKHKDNININLYTIEEYILTIEQHSELYYLNKMEMK;locus_tag=LOCUS_6040;note=MGA_608
sequence05	MetaGeneAnnotator	CDS	22906	25116	.	+	0	ID=MGA_609;product=DUF262 and DUF1524 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094324403.1;translation=MEANNRMLYDDIIKKTDVQYTIPVYQRNYTWEKENCELLYNDIVSSIKNERNHFLGSLVYSTTKRNDIKSCPIIDGQQRLTTIMLLLKAIDDLIKDPENITKKKIKQNIYNENCEERYKLKLKNSDNDNSELEKVLMGNTTNLDTTSKVVINYNHFKSLIKRTIETEQWSPDKLVEGIDRLEIVEIVLNEGDSPQKIFESINSTGVKLTTADLIRNFLLMGILDVGKQAEIYKNYWITIESLIGKDNIEKFFYDFLVSKDTRYIEEKKVYENFKKYYINSNIIGIEGIEKIFSEIVRYAQYYKLLVLNNSKDYDKVTNQLCNIFNILQHRTIYPFMLKVCNDFDDIRKLHMKRKNDVGEEVKIELTKEEELELINKEKEFNNIIRLFGNYAMRRNIANVASSSLRRFYASLYNKIFEKNKNNFNCYFKACEAYLCTLKTEDRMPNDNMFKDGLLYSNMYANAKTRILRYFFDLIENSGKEPVDMSELTIEHIMPETLSTQWKTSLGDNYQEIYDKYVHTLGNLSITGYNSEYSNDPFLSKKKRYNDMLITGETKIVKLNEELKNNKENNIEIWNEDEIEKRAERLSKVIMKEFPYPKDIDTTLEFEKFYEFYIDNPEDNADEFENSPAYKLYGFQFEETKYRADSYRSIFKEIIKLLYNIDNSVLDDLANSNYTYERGKTIRFSRTKENEHQEEILPSLFVYTNYSRSTIFDWIRDLFNRYQLDISLFCLLFIEKE;locus_tag=LOCUS_6050;note=WP_094324403.1 DUF262 and DUF1524 domain-containing protein (Campylobacter avium) [pid:30.7%25%2C q_cov:90.1%25%2C s_cov:88.3%25%2C Eval:5.6e-71],MGA_609
sequence05	MetaGeneAnnotator	CDS	25187	25525	.	+	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTIIHNMPLPSNTKYKWSECFAKLMLEKVITSELNNLAIADKPDLQNASMSVGIEVTTAVDKKDMELERLYTEIEYGLIRNIEGAAKKINRLGGKIIDGILIHPGRQEHL;locus_tag=LOCUS_6060;note=MGA_610
sequence05	MetaGeneAnnotator	CDS	25522	25848	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIYNSFKEKVILLNSGNYTIFKHNYIFITDENLAHEEEIKMVMMELEFIQEKQKNKFERAYIYIYGDKLYELNLKQEKYKIFKLSSDEVYRISIDARTIVEEKEMEM;locus_tag=LOCUS_6070;note=MGA_611
sequence05	MetaGeneAnnotator	CDS	25851	28040	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLAENQKIFKQLNIDDALWDDIKKDDNKVLIVYGSNGRGKSTIKDLFQKENLEEKFGCESENQSNTLYNEFGNNKFLVFDEKFVDQFVYFNNALQQNSMKIIMKTDYINELYNEKSHANDVVDMILDTINKYLSTIESFNSILNIKSNTGKITDAKKRFATTFIEGNLPYKYDDLFEISDDNHRKWWYEGLLLYKDNKLDFCPWCKTTIESVNESLKEQIKSVDNTKRINTKLFSDKVDKVSNLSTIMNNTLINEEVKNKISQLISKINVSVDQNVEEKILTDMESLYSLLINDNEIFAEIKDKVKILDNILEIQDIDLANNISKLKFFSPTDEIIKLSDNLDYFIKYNKDIINGIKDSNKRLHEIIKSDEIDINNIIKSLGLKYYIEIESDTIVSSGINDNEKYMYLKSLNGKDVSQNIGNVLSFGEKSTLAFAIFIEQIRNCTDENTIIIFDDPISSYDIFRRYTSLGIIQTITALQYKKIVILTHESNFLTSIVSNYEHYTNVKCTILTEINESEIEIKELHRQYDSEVNVYKDMLNFSFDFHISQRIIALRQLHDLYQYITGDSKKELYKYICKLVHFRKDEQTYWNQVMKTQINELFNYFAISYDSQIENIKDEQLVFSDMEQLLNEITSKDIYDITLEDLVSLRMISEVSVRNESNDANKFKVRTLWSIKSSSKKDQLQNFKVLLNSITHIDNDEITWPVLCINDLKSIPKYVISQIISIIK;locus_tag=LOCUS_6080;note=WP_014537646.1 AAA family ATPase (Ketogulonicigenium vulgare) [pid:22.7%25%2C q_cov:33.9%25%2C s_cov:33.6%25%2C Eval:2.7e-09%2C partial hit],MGA_612
sequence05	MetaGeneAnnotator	CDS	28374	29000	.	+	0	ID=MGA_613;product=YggS family pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964017.1;translation=MKEVIEELREELGDTLLVAVSKTKSNEDIMKAYDLGLRDFGENYVQELVSKMDSLPKDIKWHMIGHLQTNKVKDLVKRNIYLIESVDSFKLASIINKEALKNNKVINILIEVNIAEDPNKTGCLLSELDNLINEVGGLSNIKLLGLMAIAPHTDNVSDIRSSFKEMKKLKDKYNFSLLSMGMSSDYKIAIEEGSDIVRIGTKIFGKRL;locus_tag=LOCUS_6090;note=WP_011964017.1 YggS family pyridoxal phosphate-dependent enzyme (Flavobacterium psychrophilum) [pid:47.3%25%2C q_cov:91.8%25%2C s_cov:91.3%25%2C Eval:2.1e-42],MGA_613
sequence05	MetaGeneAnnotator	CDS	29060	29572	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNNYGLTQAPVVSEPNGFEQLLNSSEPVIVVFCLFIILAAIAFAVLVIVAQCKIFKKAGEAQWKALIPVYSTWVNTKIAGLAWWWFLIITGLTAAVGTWTNINWVFTWSLCLVSFNYCYNLAKKFGKTNGFAVLLALLPIIGIPILGFGSDKYDKGAKVDKNGIFKVEK;locus_tag=LOCUS_6100;note=MGA_614
sequence05	MetaGeneAnnotator	CDS	29647	30114	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLLIILLLLVSGSLIIYFSKREVKKPVTFKKGVPKTSMKINITIDDKTFEGVLEDNKTTEEFIKVLPLDINMEDLNDNEKYYYFNTSFPTESKNYKEIKRGDIMLFGDNCLVIFYEDHTSYYDYTKIGKINNTEGLKEILKNNKNKIKIELK;locus_tag=LOCUS_6110;note=WP_018307336.1 cyclophilin-like fold protein (Desulfitobacterium hafniense) [pid:41.5%25%2C q_cov:60.6%25%2C s_cov:81.0%25%2C Eval:2.9e-19%2C partial hit],MGA_615
sequence05	MetaGeneAnnotator	CDS	30185	31120	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKFDLKKKRISILDNYGENLTEKDYITNPAIGREEQIKEAVLILLTPDKSVVLTGKPGVGKTAIVEGIAYRMQLDNIPDKLKGYEIIKVNTSALLGVDPVTGEAKIQTLIDELKNYSKLILFIDEIHTLMGSKGEALDFANMFKPGLDRGDIKVIGATTDDEYERYILRDKAFVRRFARVRVEEPTRDETVNIALGTLPKIEKRTGAKMEYSDFTKKQIMEFLTDITSEFKRIYEIGSRYPDIVLTIIQEAFSNALFENRKNVNILDFRKALVNSKNIYDDIKRKELPTFDQIFDDEIEKANAGIIVDN;locus_tag=LOCUS_6120;note=WP_010881091.1 ATP-dependent Clp protease ATP-binding subunit (Aquifex aeolicus) [pid:38.4%25%2C q_cov:79.7%25%2C s_cov:24.4%25%2C Eval:8.0e-38%2C partial hit],MGA_616
sequence05	MetaGeneAnnotator	CDS	31185	32966	.	+	0	ID=MGA_617;product=glutamine--fructose-6-phosphate transaminase (isomerizing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003432446.1;translation=MCGIVGYIGDKVTTEVLLKGIENLEYRGYDSAGIAIANENKIQIIREVGKVSKLKEKLEKEKLITSSFGIAHTRWATNGEVSLKNTHPHNVGKVTLVHNGIIENADKLKERLLKKGYVFKSKTDTEVVAALLDNYLKTKSEKQALLSMVKQLEGSFALVIMIEGKDYLYAVRNKSPLVIGSLKDEKYIASDIPAIAEFTKDYLLLEDLEIAKVTKEEVEVYDQKGKKVKRKVKRIDVTNEIIDKQGYEHFMLKEIMEEPRVLHNLLDIYLDHLDDLDISRYDNVHIVACGSAMYAGMIGKVLLEEKAHIDVTVEVASEYRYKKNIYRDKTLVILISQSGETADTIAALRIAKANHQDTLAIINTKNSTIDREADKTFYIEAGVEVAVATTKAYILQVALLSLMAYVTAKKKSLLDVDECIEVINHFKALPRLIQNILKDNELYKKIAKQLYKHDNIFFIGRKMDYAMCLEGSLKLKEISYIHSEAYPAGELKHGTISLIDKGLPVIAIMTDKKLKEKMLSNIKECEARYAKMFIITSEVIDEKDTTIVVKKTDQFTQTLLVVPILQMIAYNVALLRGCDIDKPKNLAKSVTVE;locus_tag=LOCUS_6130;gene=glmS;EC_number=2.6.1.16;note=WP_003432446.1 glutamine--fructose-6-phosphate transaminase (isomerizing) (Clostridioides difficile) [pid:45.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-135],MGA_617
sequence05	MetaGeneAnnotator	CDS	33027	34292	.	+	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKHYLIARRRDNSYTTIDVNGGNKLEEIDIYTSSFFNKNDLLQELEKKGLEVGDGIDLFIATYSSKLKKVRTRRVLYKTIYNDELRSNAKRSLKGQSIDTERLYKQAASLDGNYRSLVHIGYFDMYKAFERILANRGKKLEYHHENKWLEDDYKTYRDVLASILVYHNLNIKDLNDHDRALQNKSELKAQRQMIVDSLTKTLTSPYPGQEALEVGKNRGSKTLSLSQNNNNFIHIDNIELDNVKENTTVVKEKRKGLIKETEGQINIDDMISSQKTVSLNRLLGDAVNYDENNRKEAESSIYRFLTSGAYIKTGTISEKGKEVSLNYKNLPFDLDPEEKAYLEKLKSSKVLFRRVNEYHRYQDTSFIAQVDKFTCADEIRARLKKLSLRSINNLAKFCVLYKDCYDKAISKEEVKDGYRR;locus_tag=LOCUS_6140;note=MGA_618
sequence05	MetaGeneAnnotator	CDS	34276	35142	.	+	0	ID=MGA_619;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434910.1;translation=MVIADKWEDYEILDASKGEKLERWGKYHLLRPDPQIIWDQGDLSKRYSSIIDAHYLRSSSGGGHWENLKTIPENWIISYKDLKFNIKQMGFKHTGLFPEQAYNWDFMIKKIKESKRKVKVLNLFAYTGGATVACLSAGASVVHVDSSKGMVDWCKENVKLNNLEDREIRYLVDDVIKFVKREIRRGHKYDCIIMDPPSYGRGTNKEVWQLEKDLFNLVELCMEVLSDDPLFFLINSYTTGISPKVLENILKVTVNKKHPGKVESDEIGLPIKEELVLPCGIYGRWEHE;locus_tag=LOCUS_6150;EC_number=2.1.1.-;note=WP_003434910.1 class I SAM-dependent methyltransferase (Clostridioides difficile) [pid:61.1%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:6.7e-105],MGA_619
sequence05	MetaGeneAnnotator	CDS	35135	35797	.	+	0	ID=MGA_620;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892161.1;translation=MSKLNVLYEDNHVIVVEKPVNVLSQADSTKDIDMLTLVKEYIKEKYHKPGNVYLGLVHRLDRPVGGIMVFARTSKAASRLSEQVRTNKIEKVYLAIVKGILKEKEGTFKDKIKKIENGNSIIAEDGKEAILNYQVLSEKEGLSLVKVKLITGRHHQIRVQFSSRGYPLCGDQRYGDEDKTQIALYAYELSFYHPTTKEKLTFTLLPKGNWWTEFTLSKYV;locus_tag=LOCUS_6160;note=WP_009892161.1 RluA family pseudouridine synthase (Clostridioides difficile) [pid:57.3%25%2C q_cov:95.9%25%2C s_cov:99.5%25%2C Eval:8.2e-64],MGA_620
sequence05	MetaGeneAnnotator	CDS	35872	36783	.	+	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFDFSWFLTIPGMLITGGVLLLIIALIIFIATSGKKDKKDKKKGKEEVPVDNNMMNAAPAAGAVAPNPEIATMDVPADTPAEAPTEAPAIPIEVPDPTTEATPEPAEPFAVPEATPTPETPAAETPAVETPVVEAAPVETPAVETPVVEAAPVEAAPVEATPVETPVVEAAPVETPVVEAAPVETPVADAQVPEVPVVETPVVEAAPVEAAPVEATPVYGGADPSVSNVDVTPAEEPKQIYGGANPADNTGVVEATPVETPVVEAAPVEAAPAATPVTPVSVQPVGEPSSIPTVVQNETNN;locus_tag=LOCUS_6170;note=MGA_621
sequence05	MetaGeneAnnotator	CDS	36856	37116	.	+	0	ID=MGA_622;product=stage V sporulation protein SpoVS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003154135.1;translation=METLKVSSKSNPNSVAGALANVFRENDKVEIQAIGAGALNQAIKAVAIARGFVAPAGKNLVCIPAFTDIAIDGEEKTAIKLIIESK;locus_tag=LOCUS_6180;gene=spoVS;note=WP_003154135.1 stage V sporulation protein SpoVS (Bacillus) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-31],MGA_622
sequence05	MetaGeneAnnotator	CDS	37270	38151	.	+	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYYNEIKNKLIDNEIYIKVKDYSKERNRVITYYEVGKLLSSAGKQYGDGIIKEYSKRLTNEVGKKYTVRYLFDIRRLYYFLKVHPLDAFLTFSHYRVLFVLKDDNEVNYYINQTVERNLSKRALQEVIKNKEYERLPEKTKKKLIENKNTSVQDLIKNPIIIRNPNNIEVVKEKVLQRLILEDIDNFLKELGDGFSYIENEYKIKIGPSYNYIDLLLFNYKYNCFVVVELKVIPLKKEHIGQIKVYMNYIDNHLRNINQDKTIGIIICKHNNTFIMEYCSDKRILSKEYSLV;locus_tag=LOCUS_6190;note=WP_014498593.1 PDDEXK nuclease domain-containing protein (Bradyrhizobium) [pid:28.6%25%2C q_cov:66.9%25%2C s_cov:44.7%25%2C Eval:1.6e-21%2C partial hit],MGA_623
sequence05	MetaGeneAnnotator	CDS	38216	38887	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYDEEKAITKCEEQPALIFELMKEEYFDTVDKVLSKRKFDINVSDENGDSVLQKLLKLGQYDLVLKHMKKKNWHVNHQNNSGNTFAHILVTIDYLKVKNIMDALSKRKDFIPNIKNNNDETILDKSKYIYTSLRIIKDNRFNNIDTIAFYNLYKNYIKSSVYGKYSKLNNLELIITNLNKKENLLPRLQLVIDTLIVNMEEIKKELEENNMTSIDRMITSFI;locus_tag=LOCUS_6200;note=MGA_624
sequence05	MetaGeneAnnotator	CDS	38939	40348	.	+	0	ID=MGA_625;product=tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002439565.1;translation=MQLPDYKEARKRNKNYQRIEYVIDKKLKDKYQGKTYYIRTYGCQMNEHDTENIKAILEQLGLKEIDNMNKADIVLLNTCSIRENAHNKAFGMLGRLKHLKEERKDLIVGLCGCMAQETGVIEEILKNYPWVNFVFGTHNMYNLPEILDEAITTKKQQIEVFSKEGDLIEDIPVKRENKFKAYVNIIYGCDKFCTYCIVPFTRGGERSRKKEDILKEIEKLVQDGYKEVTLLGQNVNAYGKDIYDDYGLGELLEDVAKTKIPRIRFMTSHPWDFTSKMVDVIAKYDNIMPAIHLPVQSGSDRILKLMGRRYTKEKYLKLFKEIREKVKGCTISTDIIVGFPNETEEDFEETIDLVNICKFDNAFTFIYSPRENTPAAKLKDNVTIEEKEKRLYKLNEIVNGYFKENNEKLVGETVKVLTEGESAKKDNYYGYTDTNKLINFTGKKLQPGDLVNVKVTEAKTWSLDGVLDE;locus_tag=LOCUS_6210;gene=miaB;EC_number=2.8.4.3;note=WP_002439565.1 tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB (Staphylococcus) [pid:55.9%25%2C q_cov:98.9%25%2C s_cov:91.1%25%2C Eval:3.4e-153],MGA_625
sequence05	MetaGeneAnnotator	CDS	40341	40670	.	+	0	ID=MGA_626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEIDKSLEEVINYIKSKKEYQKCIDLKKKMNNNKELTTLINDIKKKQKEYINSGNSVKLEKGLKKLNNELDKYPIYIEYNNNLKTINEDIEILKKRLNDYFTSVIEI;locus_tag=LOCUS_6220;note=MGA_626
sequence05	MetaGeneAnnotator	CDS	40734	44174	.	+	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRQNIFLFIIAGLLFCGGLTGFIMTLRASLAEVGTNTLYGAIAADPLTAVYEGEHQDSLDGSGNEAIHYFTGSDEIVNHNNVKLGDTCWQVLRTTDTGGVKMIYNGPYDETNKCNSSRGTHKGIINTKGETTDLSGGAYLYGYGFTYNESTGEFTLINPISATWSSSTYKSLEGKYTCMSTSDTCTTIYNIHSYSSDTSAKTTSYTIDDTHYSQIGTSPFNINSNLAMGGYMTNSSYSTTATSYTAQAEQVLQQSSSLFTNSYYYGSSIKTNGSLYNIGGTISRNPGAGLYTVLSSSLYGSTAYYIVGKSGSVFYYLTLTGGKSLAATEKYYTYGDSYTGNTIANPSSLKSTNFFSRHNSLRNKFYCSGATSTASCTLKYATNTTPATISYISASGTKYGNKVTYANGKYTLVGVVTGFPDKNHHYTCNNGATTCATAYYVNSFSGNALRRITLTGGKNINNVIEEMYDSNSVNHYNSSIKSQIEGWYRAKLANYTKYFEDAIYCNDRTRANQSESGFGPSGGSLTKSLYFTDRNDNTALKCTKQTDQFAVGNIKAKNKYPVGLAAAAEMNLLDNDAARTTGESYWLGSPYAASIYASNGYINNEGSVISYNTGEPRGTRPVVSLKAGTKYISGTGSQTDPYVIDIRPVITTSVKHGTITETDQVEEGSNKTISYSPDSGYQLKSIKVDGEEVSITTYANSYAFNNITEDHAIEVEYWKPTITTSVIHGTITETSDVDSGEDKTINYSPDSGYDLKKITVDGVDVSISAHASSYTFTNVTEDHSIEVEYWKPTITTSVIHGTITETSDVDSGEDKTINYSPDTGYRLESIKVDGVEASITAYPNSYTFNNVTEDHTIEVVYVNKKVGYIVNYLENETDKVLHTQKREENAYYGDEIISIQEMIDIDNYHFVDFNKERIVLEENINDNIINLYYEKNSKEEVITEHSMVLTSEKAKITSEEDKVDYQIKYRVGLENYVGKVKAKITAYLPYQIDLDESDLDGGKYNKDYRTITWEGTVDIDRENNQISFDKDIELVYKGYDLSKNELINVVAGEITLKDLDDYTEEVYDTKTTSVDIKKDVKPDVKPDDKGTNNKDKSSSTNKIVSDRVNSPNTTTRNMFLYIIVMMISIVCFGLGVKNYKQIKS;locus_tag=LOCUS_6230;note=MGA_627
sequence05	MetaGeneAnnotator	CDS	44244	44789	.	+	0	ID=MGA_628;product=outer spore coat protein CotE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231833.1;translation=MQRIREIVTKAVIGKGKKVFTDTEKITPDNKPTTILGCWVINHQFKGSEHNNQIVIDGSYDINIWYSYDNDTKTDVIKNTNTYHEVVNMQNDEEVENSEIIIRSLKQPNCTNVEIENGTINYTVEKELGVELVGDVFVKIADNSEDLEDDWNEILDQNPEKIEKEIEEEVQEEFIDDQEIV;locus_tag=LOCUS_6240;gene=cotE;note=WP_003231833.1 outer spore coat protein CotE (Bacillus) [pid:40.0%25%2C q_cov:86.7%25%2C s_cov:91.2%25%2C Eval:4.9e-28],MGA_628
sequence05	MetaGeneAnnotator	CDS	44865	45293	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVKLRLTRMGAKKKPFYRIVASDSRRPRDGKYLELIGTYDPSRNPAEIKIDEEKALKWLNVGATPSDTVRSFLRAEGIMKKFADSKAKKAPKKEEKKEAPKKTATTKKATPAKKTTTAKTTTKKATTAKKTTTKKTEKKDK;locus_tag=LOCUS_6250;note=WP_003220815.1 30S ribosomal protein S16 (Bacillus) [pid:67.5%25%2C q_cov:58.5%25%2C s_cov:92.2%25%2C Eval:3.5e-28%2C partial hit],MGA_629
sequence05	MetaGeneAnnotator	CDS	45296	45544	.	+	0	ID=MGA_630;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007051427.1;translation=MDLVSLTEKIVKSIVVDEDAVSVKEFDSEDENTILIQVIVSEEDFGRVIGKGGKTANSIRTLVQASASLHDKKFVKIDIDKF;locus_tag=LOCUS_6260;note=WP_007051427.1 RNA-binding protein (Bifidobacterium) [pid:49.2%25%2C q_cov:76.8%25%2C s_cov:79.2%25%2C Eval:4.9e-08],MGA_630
sequence05	MetaGeneAnnotator	CDS	45611	46411	.	+	0	ID=MGA_631;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732813.1;translation=MKKRVISACIILAVLIPLIIIGKEPFEIFCVVMALCSMHELIRVRKNKKDFPVILKIFAYLLVAFLTMNNAGSADFNYSIDYKVMSFIIFAFFLPMIFVNDHKKYNLNDVLFLVGSTLFLGLSYNLLMIVRNNDITYIIYLLLITFVTDTFAYFSGMLIGSHKLAPNISPKKTIEGLCGGVVVGTLVATVYYHMIINPNFGVLPLIGITLLLCIIGQLGDLCFSAIKRSYNVKDFSNLLPGHGGILDRFDSLVFVLLAFVLFIEIL;locus_tag=LOCUS_6270;note=WP_003732813.1 phosphatidate cytidylyltransferase (Listeria monocytogenes) [pid:34.0%25%2C q_cov:94.4%25%2C s_cov:94.7%25%2C Eval:4.7e-33],MGA_631
sequence05	MetaGeneAnnotator	CDS	46422	47459	.	+	0	ID=MGA_632;product=RIP metalloprotease RseP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583162.1;translation=MTIIIFILILGAIIFVHELGHFLFAKANGVYVYEFALGMGPKLISKKTKETTYSLRLIPIGGFCQLAGEDTEMDKDHKVPKNRTLQAKSPWQRFLIMFFGAGFNFIFAILVLFFISLFGGSADYRPIISTVEKNMPAVEAGIKKGDIIKEIDGHKIKTIDDISLYLVIAPHNKATKIVVNRDGKNITYKVQAKKVKEKGEKVYRYGIGLDSKKKHGFINAIKYTYHKTGAIFRQMAVTLKSLFTGGVKLNQLSGPVGIYSIVGEQSKDGLASILYLMAFLSINVGFINLLPLPAFDGGHILFIIIEMIKGSPVKPETENMIHTIGLFLLMALMVYITFNDIMKLF;locus_tag=LOCUS_6280;gene=rseP;note=WP_012583162.1 RIP metalloprotease RseP (Dictyoglomus turgidum) [pid:39.7%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:2.1e-58],MGA_632
sequence05	MetaGeneAnnotator	CDS	47548	49347	.	+	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKNKKGFTMVELLATIAIIAVLTTLAIVGVNGVRNSLKSSYYKRVEKLVVAAGMDYYNDHKGERPIRIGQSSQVALSKLEGQAYIEDVKDYTKQSCDATESYVSITKTSEKKYEYDTYLICPDRLEDDVPEDKKIDPNIGEATDCSDMLSSDATDSEWSHTSTNLRATLTPDITEYILQKKTSKGWETIGETHKADYTLAISDNGISTYRARGTGTNGKYCTSNTVNIKIDKDNPRCGDVTGESTSWTKSPRTISIACSDGEKESGCVEPTYQHTFSADTKVGTITIADKAGNTTNCPVNAYVDTTPPTCGTATGTSTSWTKSSRTITQPCTDNLSVCNSVPATYSTTTKTASVTVTDSAGNSKTCPAYNVYVDTTAPTCGSASGGGTSSAHKFGNVTVSVGCSDSHSGCGSSSYSKTFSPTTTTSTIAIADKAGNSRSCSVNVYSYPCSAPTVSGSVASTRKCPYNGETLSNTKIVTFTVGGCRNGMTSSNSYICYYNKSSTTASGWSSQQKRHDKIVSIGCGKVKCGYHSSNWHGSCISSSNHGAFTGSGTKWSLNRSTECAYIKAVSSGGTKEMTCNMSTGKCVTGVSAMISNC;locus_tag=LOCUS_6290;note=MGA_633
sequence05	MetaGeneAnnotator	CDS	49433	51244	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKGFTMVELLATLAIIAALTTLAIVGVNTVRTALKNSYYNRVKKLVIAAGIDYYNDHKSERPVRINQTNKVALIDLQNEDYIEKVKDYAKEVCDPDNSELITDKSYVVITKKSTKKYSYQVYLNCPNYSDGDPQEENPNPNVGEATDCSNMLRSNATGSGWSHTSIDLTATLTPDITEYIIQKQNGDKWETIGSTHTGDTTLTISDNGVSTYRALGTGTNGKYCTSNTVNIQIDKDNPRCGAIEGASTNWTKSPRLIKIKCSDGENESGCVQDEYQHTFSADTKVGTITIADNAGNTTDCPVNAYIDTTPPTCGTPTGTSTSWTKSPRTITQPCSDNVSGCNSVPATYSTTTKTASVTVVDGAGNSKTCPAYDVYVDTTLPTCGTATGGGTSSAHKFGNVTVSQPCSDSHSGCVKTPYSKTFSPTTTTSTIAIADKAGNSRNCTVNVYSYPCGAPTVSGSVATTRKCPYNGETLSNTKTVTFTVGGCRNGMTSSNSYICHYNTKSTVATGWSSDQKHHNKIVEIGCGKVKCGYHSSNWHGSCKSSTNHGAFTGSGTKWSLNRSTECTYIKAVSDGGTKEMTCNMGTGKCVTGVSNMIKNC;locus_tag=LOCUS_6300;note=MGA_634
sequence05	MetaGeneAnnotator	CDS	51356	53662	.	+	0	ID=MGA_635;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000097289.1;translation=MKSNKLGVLLVNDMVLFPGAEIRFEIDNLEQRQIISVAEATEEKEILVVNPIENNLDSLDITMLPTVGVVASLKLKMDIPNGKTKIVLKGLRRVKVDSYYLNNSYYEATTKKLVKRIDKEDEAMYRDILIKGFDKYIENVPYVSNAIMAQLKYVEKLKEMTDMIANFLPISYDKKKKYILESSPILRTTMLIEDMNDDIKYVELERKIEQEVEKELNDTQKEFFLREKIKTIQKELGDVSSKEDEVERLEKKLRSLKCSKRVKDRIKREIDRYKNVNSNSPELGMIRDYLDWMLNLPWQKYTKDNEDLDAVKHVLDTSHFGLEDVKTRIIEYLAVKQNTNNLKSPIICLVGPPGVGKTSLAFSIAKSLNRKYTKISVGGINDEAEIVGHRRTYVGACPGRIISGIRKAESTNPVFIIDEIDKLRKDLKGDPASSLLEVLDPEQNSKFSDHYIEEEFDLSQVMFIATANYMEQIPLELRDRLEIIELSSYTEYEKVDIAMNYLIPKNLESHGLTELEVQFDEKAILSLIRNYTKEAGVRELERVISSLLRKIVKKLLTDKKTAAYQIDTKKVVEFLGHGKYEYSKPTKVDEVGVVNGLAYTVFGGDVLPIEVTSYKGKGKLLLTGSLGDVMKESAKIALSYIKTNAKTFGIDFKVFEENDIHIHVPEGAVNKDGPSAGITLTTALISLFTNKKVSSDIAMTGEITLRGQILPIGGLKEKIIGAKRNGIKEIFIPKDNKKDLEEIDKELTKSVKFILVDKYLDIYKKIFK;locus_tag=LOCUS_6310;gene=lon;EC_number=3.4.21.53;note=WP_000097289.1 endopeptidase La (Bacillus cereus) [pid:46.9%25%2C q_cov:97.5%25%2C s_cov:95.6%25%2C Eval:3.1e-189],MGA_635
sequence05	MetaGeneAnnotator	CDS	53721	54377	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKTISLQKELTFPTMIGEISSIALDNNLKFINSNKIEGDLVVSGTYKMTEASRITEDFNYSIPTEIELTENLELETAAIDIDDFTYEIIEEDILLCKIDLLVEGVEETDSLEEEIKKEIVEEVPTVEEVSSEEIERACDGGALEEEKEPIELNSLFSNLDDDSFKPYTVYIVRENDTVEGIMEKYNVTKEELLKYNDLDKVSLNTKLIIPTTNTNED;locus_tag=LOCUS_6320;note=MGA_636
sequence05	MetaGeneAnnotator	CDS	54367	55260	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKIRDIKENKKVNRVEYINSALIIDNRVYKKRRNKEIYNYLEAKDFHYYLEPIRTKKGIDEFAFLKETKIDNNDKALDLMYILAYLQNKTASYEDINLDKVKEKFESVNERIISLRNYYYQLQDKIERKVYFNPSEYLLMVNISLIYEALNQAKTTIDKYYELVTKKEKVRKVFIHGKLELNHFFDNEDKKLISFNNLEKDLPIYDFIYFYKTHYRDVDMIDLFNVYQSRFLYNEEELMLLFGEILVMDKVKIRDNSYLVYEKVQNLIEYVQITREFVLKQNEKYKEYKEKKLQE;locus_tag=LOCUS_6330;note=MGA_637
sequence05	MetaGeneAnnotator	CDS	55505	55864	.	+	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRKGFTLVEVIAVVAIIGFLAIITIPAISRLSAGNNSKTVETFEKTLKNSAKAYINVTNQTITSTPQNITCTTLQGAGYIKQCTVRGYNCNNPYVEVRADSDRTKSYIYTVHGNCTKA;locus_tag=LOCUS_6340;note=WP_011861986.1 prepilin-type N-terminal cleavage/methylation domain-containing protein (Clostridioides difficile) [pid:43.1%25%2C q_cov:58.8%25%2C s_cov:40.4%25%2C Eval:9.2e-07%2C partial hit],MGA_638
sequence05	MetaGeneAnnotator	CDS	55929	56942	.	+	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRMSKILNLVLVGIISMLFALGNAKALDNTVTVGVSSSLTPYVADVHVAKMPLVGGGYAYCTELAKITPSNITEKLVQESDAGITYILVNGYPRRNITGNGDYDYYITQTAIWWYLDDINGTDYLSLAFKTDGKDEFGLRPYVKELVEAAKEAKSSGYGYGSVVLNPKSSSLELSSDKKYYETVIEPVFTNVLGTYTVSVNSDKAIITDLNNNAKNTFNVTESFKIRVANGKYDPSKIKVTVSANNTYEKAFYYAAENPAIQGVVVLQDIAEEVTASLELAMNPTCENGGLTDGCEAAEIVDVPNTNTNTILYIIGAVILVSSTGYVFYNAKLKK;locus_tag=LOCUS_6350;note=MGA_639
sequence05	MetaGeneAnnotator	CDS	56923	57561	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNLRNNETRRITNSKIAFIASILTIIGLFFLSYNYIMAKKAVVYEYINGIYVEEKQDNDVEVVTENKKEGEKEEVEENDSDYIGYLKIPKIGFEKGLVDKNSEENDVEKNLYIAPVSAYPNVKGGNLIIAGHSGTGWKAFFNDLYKLRLTDQAIVTYKNKEYVYQLMDFYKQPKNGKVTIKRNKSKTTLTLITCTNGDSTTQTVYIFELKE;locus_tag=LOCUS_6360;note=MGA_640
sequence05	MetaGeneAnnotator	CDS	57599	58750	.	+	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNLSFSDLLANVGGVISSSSLNIILIIIFVILGYLLIKSDNKYNNYKRYGLIGVIMIILGVLIYYNNGLFKTLDYLANNLFMIFYFPNLLAYIIGLIVLNIVVFKTITNRKTDKLLKVVNTIVYLIIMYMSLLLIGIISKSKLNVFALDDIYKNSKALSLIRLSSIIFIVWLLFIILYKIYLNYLNKKDLKLPAYKKSENKIKPNYQVKARSLPDYIKEIDYPKIVERDYKEYNIKEEELTNEFERQLSLDDYKLLVKLLLDHKTKEEMREKVSFKNLDDIATIKARIEQSQNEDSGVENMLEEVERIVTGPTLEQVMPIYKPEQEMISKHDEEVITKTVEAIEENLYQARRNSNVIEEVEKDDDSLKQAKIAELLRLYQE;locus_tag=LOCUS_6370;note=MGA_641
sequence05	MetaGeneAnnotator	CDS	58819	60915	.	+	0	ID=MGA_642;product=DNA helicase PcrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003233919.1;translation=MDLTKLNDEQLKAVKYNDGPLLIIAGAGSGKTRVLTVKIAYLIENIHISPYNILAITFTNKAANEMKERVHNLIGSDADFIQISTFHSFGVRILREKDNAKLLGYDKNFSIVDSEDSLVVIKKILKELNLDPKYYNPRSLRNKISSLKNDMLMPDDYEKYTASDYEKACLNVYRKYQKKLKEGNLVDFDDLLLLPIKLFRENKKVLEYYQERFKYILIDEYQDTNEAQYKFSKMLASKYRNITVVGDDSQCIYGFRGSNYKNILNFEKDYKDAKTILLEENYRSTTNILDAANDVIKHNKNKKDKSLWTKNEKGNKIKYYRAYNEKEEARYVVRKIKELVSSGVNYEDIAILYRTNAQSRVLEEEILKDNLPYKVVGSFYFYSRKEIKDLIAYLRLIYNEKDNVSFLRVINYPKRKIGPKTIEQLTEKADKEGISLYEAIDSGKELEFKKIIEDLKKVKDNVTLTELIDKVLDASGIRKELESEKTLEAEIRLENLEEFKSITRGFEEKEGLISLEDFLFEISLVSDKEEYSTDNNRINLMTIHSVKGLEFDYVFVVGVEEGLFPHINSLMDEKDLEEERRLCYVAITRAKKDLYLINAKRRVLFGNDEINPPSRFIGEIREELLDANTEIEKQEEKIKDEEIFRDEEVDYNVGDYVYHETFGTGKVVEVTETLVSVAFKHPYGVKKLMKNHKKLSKI;locus_tag=LOCUS_6380;gene=pcrA;EC_number=3.6.4.12;note=WP_003233919.1 DNA helicase PcrA (Bacillus) [pid:48.9%25%2C q_cov:97.9%25%2C s_cov:97.2%25%2C Eval:3.2e-185],MGA_642
sequence05	MetaGeneAnnotator	CDS	60938	61858	.	+	0	ID=MGA_643;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011203586.1;translation=MNKEITLVVLAAGMGSRFGGLKQVEPFGPNGEFIIDYSIYDAKKAGFDKVVFLIRKHNYDLFKETVGKRVEEYIKVEYAFQEMDDLKEKYHLPEREKPLGTAHAVWCCKDVVDGPFMMINADDFYGYDAFKEGYQFLKNSISDTEYGMVVYDVINTITEHGSVKRGIIDIVDNYINKIVESKIEMKDNKLMASPLDSEEEKEISKDTKVSMNMLLLNNNIFTYIEENMDEMFLNSDNLDTCEYLIPDVLEKGIRENKFRVRALNTDSVWHGVTYKEDKDELVNSINKLIEEGNYPHELWKGGNDEA;locus_tag=LOCUS_6390;note=WP_011203586.1 nucleotidyltransferase (Bacteroides fragilis) [pid:44.0%25%2C q_cov:96.1%25%2C s_cov:99.0%25%2C Eval:1.5e-57],MGA_643
sequence05	MetaGeneAnnotator	CDS	61848	62489	.	+	0	ID=MGA_644;product=Bax inhibitor-1/YccA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966116.1;translation=MKPSLYPKTFMWLFGGLLVSFITGYALYLNETILANVFSSKAMWLLIILELGVAIFFSVRIKKMSKVTAIFCYALYSFLTGFTFGVIFITYELASIILVFGITSVLFLIFALYGYFTKRDISKWGSFLLMALIGIILCSIVNIFLHSSVFDLVLSIVGIIIFLGFIAYDIQKLKALDDYIGEDKAAIFGAFQLYLDFINLFIRLLELFGKVKD;locus_tag=LOCUS_6400;note=WP_010966116.1 Bax inhibitor-1/YccA family protein (Clostridium) [pid:39.5%25%2C q_cov:97.2%25%2C s_cov:93.1%25%2C Eval:1.9e-38],MGA_644
sequence05	MetaGeneAnnotator	CDS	62583	63443	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEIIKNNIRVENMIYEIGEKQIMMDSDLAKLYQVETKRINEAVRNNPNKFPTRFSWILTEKEWVSLRSKISTLNGSQIGRGQHRKYLPRVFTEQGVAMLATILKSSVATEVSINIMDAFVLMRKYISTNLLEQKCINNMVLDHEERLKMVEDTFSRFKEVNNHLFFEGQIYDAHSLLIDILKKGQKEIIIIDNYIDKEVLDILKKINTKTIIITNKYNNIDYQKYKKQYHNIIMKINNSFHDRFIVLDRKLVYHSGASFKDLGKKCFAITKIEEKGILEKIINLL;locus_tag=LOCUS_6410;note=WP_011203655.1 ORF6N domain-containing protein (Bacteroides fragilis) [pid:45.5%25%2C q_cov:50.0%25%2C s_cov:68.4%25%2C Eval:5.2e-25%2C partial hit],MGA_645
sequence05	MetaGeneAnnotator	CDS	63466	65616	.	+	0	ID=MGA_646;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000666732.1;translation=MVIGVLVEITNKNVDKLFYYKVPKNLEKDIRIGIRVKVPFANKKLEGFVLEITNKKIDMDLKEVIAIVDNEIVLTEELIKLGKEMKELTLASLISCYQAMLPKALKAKNNTLINKKYDVYYRLNKKEEKFNSKQQEIISLFKDKKLVPRQEIINISLSSLNTLVKKGVLTKVEKEHYRLEHNNEKVKKHPLTAEQKEVVRKVDMDRFNTYLLYGVTGSGKTEVYMELIEKALEKGKRALVLVPEISLTEQMIDRFEKRFGTSIATLHSSLSEGEKYDEYRRISKGEADVVIGARSAVFAPISNLGIVVIDEEHSESYKQDSTPRYNAIDIAKIRAKDNNIPLILGSATPLLESFARANKKVYKLLTLKNRINTTLPAIEIVDLNKEIKSMQGHFSSTLIEKMKEKLARGEQVILLLNRRGYSSFVTCQNCGEVIKCPHCDITLTYHKTSHNLRCHYCGYATKFYDKCPNCQEHALKDLGVGTQKIEEELKNLFPDNKVIRMDFDTTSRKGMHEKIINTFKNHEADILLGTQVVAKGLDFPNVTLVGVINADTSLNIPDFRSSENTFSLLLQVAGRSGRRNKGEVVIQTYNPDHYAIKLLNEHNYEKFYQQEMMIRRNLKYPPYYYLVHIRVSSKKEDLLSLETKKIIGALKRNLKETIILGPSISNPYKLNNNFRLSIILKYKYEERLNDTLNKLIDHYKGNNNIKIDIDFNPRHF;locus_tag=LOCUS_6420;gene=priA;EC_number=3.6.1.-;note=WP_000666732.1 primosomal protein N' (Bacillus) [pid:44.4%25%2C q_cov:99.0%25%2C s_cov:98.9%25%2C Eval:1.3e-184],MGA_646
sequence05	MetaGeneAnnotator	CDS	65699	66904	.	+	0	ID=MGA_647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKFLERADVLDFLRECLTDSRFVNTTTSEMFEEDLFLKNQYGLLFAMDALIKFDIIVGDPDLIDEYVAQLRRIMKKFNTGNDLYLGLNKTLGKLIASKLNLEDTDSPENKKAIIKYIYERYIQNGYIFHSFPAEYLEEIKNTGIDSSEAYYNLEEVKEIDAIFKNHGMGKIFDGLNENHNYAIDITDSPLIAYFNALNMPKYLNTFTSTNEYLLENKYDRNAFYKKDKVACLDNIKRLSNNAGLTNQEKEKVLAFFEKEWKLYKCNTCSPYIMFIKRSSLSKNYLDHYQAILDNCHKEDVSFSIEKILESRYKHEKISVKLNPNDYKFVKLAGYKKVYFGDEEGFEEIFPEKEKEEEETPSMGFGFAFANNYGGLTIVFLLGIILVLVGIILILLGFYQ;locus_tag=LOCUS_6430;note=MGA_647
sequence05	MetaGeneAnnotator	CDS	66917	67849	.	+	0	ID=MGA_648;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232070.1;translation=MQDKRVIFMGTPEFALPIVNCLYESVNLIGIISQPNKEVGRKKIIVDTPTAAFAKEKGVHLMQPIKVREITEEIKELNPDMIVTCAYGQIVPEEILNIPKYGCINVHGSLLPKYRGGAPIQRAIMNGEEKTGITIMYMDKGMDTGDMIKKEEVEIEETDNLETLSNKLSLCGEKLLREVLPTIFAGTNERIKQNDDEATLAPIIKKTDELIDFNQTKEEVFNKIRGLSPVPAGYFMMDNKRVKVYESYKKDEKTKEPSIISNIYSDGFAISTTNGEIVITKLQVEGKKPSSGKDYLNGVKKESLLNKRIN;locus_tag=LOCUS_6440;gene=fmt;EC_number=2.1.2.9;note=WP_003232070.1 methionyl-tRNA formyltransferase (Bacillus) [pid:45.9%25%2C q_cov:96.5%25%2C s_cov:95.9%25%2C Eval:4.0e-74],MGA_648
sequence05	MetaGeneAnnotator	CDS	67858	68589	.	+	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPKKSKIASIITYIKEARKDPKKKMVLFFAFYFVFFLIIIIMVRLNGNNTSIQKENLIGSKYSLNQLKKGNYHYVYDLKIGTEEKVIDGERNGNIESFEVKENGKVTSFYQNSKECLKKENGTWVKTENPNKYSYITDIDNLEKILDKATYISKTEYKSEELDLNYEISTTTLTELLDGKKIDIDDETNKIVIRTDINKEAYAFTIDLEPYFTYINNKDTEARFKLTYDNFGNVEEIINPKK;locus_tag=LOCUS_6450;note=MGA_649
sequence05	MetaGeneAnnotator	CDS	68602	69180	.	+	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYTIFSKRNIIILSAVLLVLVLVNSLAYSNDDFKISLRYDKTKDTSKVLHRKTDESKNAKNVEEVTLVVKYDIRDVRDNGYAPNDLVIKVNGLGNYRDDQMKVNIDKNIAQDKNSTNKDADFTYYYNKSTNQYIFMNNKHIKDYMKGEIKLTFHVNKENIMVDYKTAIVASLTAPGDVKIGSDELLYEERR;locus_tag=LOCUS_6460;note=MGA_650
sequence05	MetaGeneAnnotator	CDS	69241	69549	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKERQRVEELTRILNDANYDYYVNDNPKITDQEFDKYLRELEEIEKKYPELKQENSPTNRVGGEVIDTFKKVTHSIPMLSLSDVFTEDELISFDERIKKKR;locus_tag=LOCUS_6470;note=WP_004082648.1 NAD-dependent DNA ligase LigA (Thermotoga maritima) [pid:49.5%25%2C q_cov:93.1%25%2C s_cov:13.8%25%2C Eval:1.6e-22%2C partial hit],frameshifted%2C insertion/deletion at around 69540,MGA_651
sequence05	MetaGeneAnnotator	CDS	69747	71222	.	+	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKETLKKINEERKKEGKPLLANCRNAAAGSIRQLDSKIAAKRKLDCFIYHLPNPLDYNIHTHMEALEYMKSLGFKTNPNNKLVNNIDEVLDFITEKGEIRADLPYDIDGIVIKVNSVDEQQTLGYTAKYPKWATAYKFPAEEVLTKLKDIIFTVGRTGQITPNAVLEPAIVAGSTVSRATLHNEDNVIEKDLKIGDIVSIRKAGDVIPEVIEAKKERRTGREKDFQMISNCPMCGTKLTKIEGQVDYYCLNKDCPARKVENLIHFASRDAMNIEGLGDRIIEDFYNFGYIKTIPDIYNLKKEKEELERLEGFGTKSIDNMLKAIEKSKNNPLEKLLFALGIKNVGSKTAKILALHYQTMDNLQKATIEELTNIKDVGSIIAESLVSYLEENKELIEKLKELGLNMTTSLKESTEKTIFTDKTVVVTGSLENYSREEIKDLIESMGGSATSSVSKKTDLVIVGKDPGSKYDKAKELGIEIWNEEKLLEYLK;locus_tag=LOCUS_6480;note=WP_010989804.1 NAD-dependent DNA ligase LigA (Listeria monocytogenes) [pid:51.8%25%2C q_cov:99.8%25%2C s_cov:73.6%25%2C Eval:8.7e-139%2C partial hit],frameshifted%2C insertion/deletion at around 69546,MGA_652
sequence05	MetaGeneAnnotator	CDS	71385	73391	.	+	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKLLEKLKLDLKEAINKKDVAKIEEISKILNISEEQKRYFDKGLTGYSSIDEPWMRNYQPGAREIAESIDRTKSISDTIIDKFDEQKEIPALKYFNSTLSRDDFKLLIEKWAKAFREIGVEADEVVPIYGTFFPDVCAMILALNQIGAVSYSLKLTETKEDFERETSESKVAIVYDGMWNNVKDVFSDDRFKYVISVSAADGVLPPLKQVVKFKSHLEAVKNKSKMPSSKKFLHSKDMMEMADAYSGKYKEEFKKERTAFITSSSGSTIDGQVKGIMTTNEAAVTQLGKCVAAEMPFNYGENVLTNMPPTASTALFCLYLLPLYKGMTIIDDPRLNENTFYSQVLHYKPQVAIMTGSFWKKFFSQLKEDAQKKGIPNLDFLRFPGIGGEGITPRELESMDQILKFCGSPVSIFNGYGMSEFFSIYSVDKEDVKSKRNRLKPTISVGLPLPNVRAGIFDEKGNELGYNERGELYMGDDTVVMKGYYNKPELTAEALQDDWLHTGDMAEIDEEGYLYVYGRKKDKTTLVNGKEVYLFDIANKIREDTNILDVVVFSVPLVDKTNALLAHIIFEPNFYGDKNNELESIDKYLEASFEGNVKIDGYKEHEKAFTISPTTAKMDRNSMYHDRDNYVKVIDGKEYRVDLQETEFGAVKEMAKKEEKVLKKRM;locus_tag=LOCUS_6490;note=WP_001055169.1 fatty acid--CoA ligase family protein (Bacillus cereus group) [pid:26.4%25%2C q_cov:58.4%25%2C s_cov:74.1%25%2C Eval:4.2e-25%2C partial hit],MGA_653
sequence05	MetaGeneAnnotator	CDS	73437	75317	.	+	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWNILFLFQGLLYICLLLIVFKSKKRIESEENKIFRIMTVEIIITFIIEILLQISFRNIGVDSPLTVILGRIYLVGLYIWFCYLTIYTYYIARAKDKEETGAKNYKIFKSIIYIVMIIGTILYLTLPMYLTHEGDINYSYGPAVTLLKVSIGTGTVIWLILLILNRSRFKKQFVPIYTTMMMLIVNVILQTINPSILIATATFGFTLYIMFFTIENPDLKMLHETEAAKIHAEKANRAKSDFLSSMSHEIKTPLNAIIGFSEDIRDYIDSGDTARIKEDSELILASSETLLEIVGNILDISKIESEKMDIVEGTYNPKEEIEKLTKITSTKIGDKPIKFNLHIAEDIPYELMGDSGKVKQIINNLLTNAIKYTDQGEINLRIDCINQNNISLLKVSCQDTGRGIKKENVEKLFTKFERLDAEKNSTTEGTGLGLAITKNLVEMMGGNINVSSQFGKGSIFVAQIPQRIKTLHTPVSQETPNVPATPSKRQEKIDGKILVVDDNNLNIVVAKKALEELIDNIDTALSGQECLDKINNGEKYDLILMDIMMPEMSGETTFTKLREIEGFNTPVIAVTADTEAGSKEKYISEGFIDYVAKPFKKEEIKTYLEKYLNKKETEVKEEIETL;locus_tag=LOCUS_6500;note=WP_011263834.1 response regulator (Aliivibrio fischeri) [pid:35.9%25%2C q_cov:62.1%25%2C s_cov:51.2%25%2C Eval:9.8e-61%2C partial hit],MGA_654
sequence05	MetaGeneAnnotator	CDS	75375	76088	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSGFYGDTHKKKTSKKKAATKPKKVNTNVPKLEKVKKVKTSKKKEKGPKKIVNIICLVIVALVVLSAIDYVLVSKYEKGPFFAIKTKTHSDGGTKEYYGLFYKVIKYDQSIGRKDMEVGSWGLKYYVEPIDYSTLDLALDLNNKPKETYKKISKKFMRISGEVLEGNDLNNELTLHYKDPDGDYTLNIVCKMWSSNALVSDYIKGDNVTVLGTVTKFEMKSKRKPNTLTLKNCFGS;locus_tag=LOCUS_6510;note=MGA_655
sequence05	MetaGeneAnnotator	CDS	76161	76451	.	+	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLTEEEVMHVAKLARIEISKEELEKYQVSLKKIFAEIEKIKEIEIEGDILISPTSSVCPLESITDSISNPKEILANANDTSGNYIKVPVVIDHE;locus_tag=LOCUS_6520;note=MGA_656
sequence05	MetaGeneAnnotator	CDS	76444	77892	.	+	0	ID=MGA_657;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002458553.1;translation=MSKYLDLNIKEINELLKKKEIKVSDLVKEAIERIENSDLNAFITLCKEEALKKAEELDDKEVDNLLFGIPIAIKDNIVTKNIKTTAGSLMLNNFNPTYNADVVELINEKNMVIIGKTNMDEFAMGSSNQTSYFGPVKNPWNKTKVPGGSSGGNAACISSRLVPFALGSDTGGSIRQPSAFCGTVGLKPTYGRVSRYGLIAFASSLDQIGPMTRNVYENALLLNAICKKSKNDLTSSDTNEDFTRLIGEDIKGMKIGIPKFYISDVIDKDILDKFKEIVSLLEEKGATIDYVDIDYIDKCVPLYQIIALGEASSNLARFDGIRYGYAAKDIDNIDDLYYKTRSQGFGEEVKRRIMVGSYLLSGENVDVYYNNALRIRNAMRNSFLDKFNSYDLLIGPTTTTVAYDLNSDLDDPNKSFMDDVLTIPVNMAGLPAMSLPIGFSNDLPIGMQIIGKPEDEALIYKLGSFIEKELSLDLDPRGDKDE;locus_tag=LOCUS_6530;gene=gatA;note=WP_002458553.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Staphylococcus) [pid:50.4%25%2C q_cov:95.2%25%2C s_cov:96.1%25%2C Eval:9.1e-133],MGA_657
sequence05	MetaGeneAnnotator	CDS	77885	79324	.	+	0	ID=MGA_658;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003219444.1;translation=MNNYLKTIGLEVHLELKSKNKIFSSSINGFGSSANTLINEIDLGYPGVLPIMNEEVINLGIKAAIILNCKINKKMHFDRKNYFYPDLPKGYQITQSRTPIGYDGYVEIERDGEVKRIEISDIHLEEDTAKSTHRQNESLLDFNRAGVPLLEIVTKACIDDPIDAKLYLEKLKELMLYADISDCKMEEGSMRCDANISVRKKEQDKLNEKIEIKNIGSISNVVLALEQCAKEQIEMYENNESIRAQTRRFDDKLNKTVLMRYKETVNDYRYFPEPDIPYVYLDDERIESIKKDIPLLPDELRRIYHEKGLNDISSNKLINNLSLSKFFNSFLDEEIDLVTASNLLLGDIASYLNKLEITIADTKLTKDKFISLVNKVSDNSLTSRNVKDILEDVLEKDLSLEEIIKEKGIANITDSNELSDLVDQVISANEASVTDYLNGHDRALKYLMGQIMKASQGKANPAMVNKILIEKLQLKKKNN;locus_tag=LOCUS_6540;gene=gatB;EC_number=6.3.5.-;note=WP_003219444.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Bacillus) [pid:45.0%25%2C q_cov:96.5%25%2C s_cov:97.5%25%2C Eval:1.7e-110],MGA_658
sequence05	MetaGeneAnnotator	CDS	79358	79813	.	+	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYIKAHKFMVVALIVLVLLLIMIVQLKNIFLPKQASGAAYGDRLAGIKKVKINNDLKDSIKSKLESDGMVKKAVVRTQGRILRVTVTVEDSVLANDAKSLADIVKNKISSKQNKYFDTEIIIKKDANDASFPIIGYKQHTKDNFSWTKDR;locus_tag=LOCUS_6550;note=MGA_659
sequence05	MetaGeneAnnotator	CDS	79820	81301	.	+	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKYIIIPLIIALIAFILAYRYYNKEDAKTTLTINEKHWVEENVDKTIDFEIVNNYPLYGMNGAGVLFDFVKDFEKTVGIEFNKIPYLKETKPTTDSYRIRILDNNQKMTDKDLLIFQDGYVAIGKKYVRISHIDDLKNLTFGVFKNDLEDISYYLKSASNISYKSYDTIEDIYKALDSDEVNMVIVPNIMYLNYTISSDKYFINYYFTELTKNVVLTLGNDPELNNIVKKYYSKWKDTNYIEYYNDTYFNYYIKENKIGSRDRDKLVSKNYIYGYIENTPYEKKSKKKVSGIAGEYIDRIARLTDITFEYKKYKNIDELKKAIDNKQVDIYFDYYNLPTKDYLATNSTFIEDYVVISRNKTGNVVSSLESLKDKDVYLLKDNALYNYFKNNSKANLKPCKNINNLLSKADDNIIVLDREVYDYYAKKKFSKYSLLYTDTMMNDYKFMIKKNNKEFYDLFNYIIGTNYYYNYRNSGIDSFNYFLVFIILLNF;locus_tag=LOCUS_6560;note=WP_020863044.1 ABC transporter permease (Mycoplasma mycoides) [pid:22.7%25%2C q_cov:63.3%25%2C s_cov:43.3%25%2C Eval:1.0e-09%2C partial hit],MGA_660
sequence06	MetaGeneAnnotator	CDS	269	1012	.	+	0	ID=MGA_661;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107878.1;translation=MNEYINLDEKNIDEEHICCAIGDPKHQDGVDKKKEWIKSKLKDGHVFRKLNARGKIFIEYEPIETAWVPINGKNYMHIYCLWVAGSFKGKGIGKELLEYAIEDAKKKKMSGVCTLVSQKKKPFIGDKKFFEHYGFKVVDTINDYELMALQFDDKETPKFSDSARKMEIDSQDFTIYYSNECPYVEYEVKELSDYAKDKGIKLNFVKIDSLEKAKNTPCVFNNWANFYKGKFVSNTILNANAFEKLLK;locus_tag=LOCUS_6570;note=WP_011107878.1 GNAT family N-acetyltransferase (Bacteroides) [pid:47.8%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:3.8e-71],MGA_661
sequence06	MetaGeneAnnotator	CDS	1383	1586	.	+	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKFVGIAKVGEKGQIVIPKEARDMFDIKSGDSIIVLCDKEKGIALLKADAIEDLSDKVFPKGEKK;locus_tag=LOCUS_6580;note=WP_011986587.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Clostridium botulinum) [pid:55.0%25%2C q_cov:89.6%25%2C s_cov:59.4%25%2C Eval:1.7e-13%2C partial hit],MGA_662
sequence06	MetaGeneAnnotator	CDS	1586	2308	.	+	0	ID=MGA_663;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681925.1;translation=MTAIEAKKLTKRFKDKVAVNEINLDIKQGELFALLGVNGAGKTTTIKMLSGLILPTSGEIIIENMNMKREAFKIKQILNVSPQETAIAPNLTVKENLEFMAGVYQIEDKDKKINELVKGFKLDEVLNKKAKTLSGGWQRKVSIAISLINNPKILFLDEPTLGLDVIARKELWKVINSLKGKITIILTTHYMEEAESLSDRIGIMANGNIVEVGTSKELIKKTKAKNFEDAFVSIATGGEL;locus_tag=LOCUS_6590;note=WP_002681925.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:57.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-70],MGA_663
sequence06	MetaGeneAnnotator	CDS	2308	3039	.	+	0	ID=MGA_664;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002900606.1;translation=MRMLNFAKRNFKELIRDPLSLIFEIALPLFLLFIFQQFNIDADNYRLENFTPSIILFGFSFITLFTATLIAKDRTSSFLIRLGTSPMKSSDYILGYILSLLPIVLIQNVLFFLTAVAMGLEFSMSIIPTILVSMIISIFFISLGILIGSLVSEKGTGGLGSIIVQLVCFTSGMYFPKELVGGVFEIICKLLPFEACLNIIQGTLHNDFSNLTLIHIIVFLIYFIAVILLSIVVFKKRMISDNK;locus_tag=LOCUS_6600;note=WP_002900606.1 ABC transporter permease (Streptococcus sanguinis) [pid:37.0%25%2C q_cov:97.9%25%2C s_cov:99.2%25%2C Eval:8.4e-39],MGA_664
sequence06	MetaGeneAnnotator	CDS	3117	3581	.	+	0	ID=MGA_665;product=flavodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005797562.1;translation=MSKVLVSYFSASGTTKRVAEKVAAAVNGDLFEIEPKEKYTKEDLDWMNKQSRSSVEMNENIKPEIANKVSNLDEYDTVCLAFPIWWYKEPTIIDKFLEENNMEGKNIYVFVTSGSSPIDSTYKSLHDNFPNLNFVSGKRFTGDESEEDYKSWLV;locus_tag=LOCUS_6610;note=WP_005797562.1 flavodoxin (Bacteroides fragilis) [pid:44.4%25%2C q_cov:97.4%25%2C s_cov:93.8%25%2C Eval:1.7e-32],MGA_665
sequence06	MetaGeneAnnotator	CDS	3786	9473	.	+	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTIKRKKKLILPRVFTLVFMAMFAVSLIMSIKVLAANTDLKIVGAAVTEKSANVNANITGVSNNEVKGNVLFHKLYDSVTYKLDIKNNLDKEITIITIDDNNSNPYIEYRYDKHEGEKLGAGKKIAFYTKAIYSKELTDITKRNQPTKVKFTIKYSEDGNKREDDIIINPKTNDNLHMSLIMLLISSIGLVACLTLDKNRKNKKVAKILTVVMAGVILTPIIAKAVTYAYEFEIVAKYGLYDKEVVTYVVDDEENALIAEYGQPVTGLVTPTKEGYTFTKWTYEDGSDFDPATPITKDIKIIANFAVDGYTITYDLNGGTTATENPTIYKPTDRIELVNPTKDHYTFIGWTGTDLTEPTMTVIIENQTGNRSYVANYIPVNYTITYEGLTNEEKSALNNPSEYNIETTPFNLNNPENRRDSDDDVTEIFVGWREGTTTSETITLPNLNSMGNKTFEAVWVEADPTIYTITYELHDGTTTVDNPTSFTKKTETFTLVNPTKEGYEFKGWSGTDLIGDENKVVSVVKGTRKNLSFEAHYTANNYQIKFEKNGTNVSGTMANQNMTYDQGANLTAVGYTREGYTFNGWNTSATGSGTHYDDQEEIINLTSTKDEVVSLYAEWVANTYTITFNGNPPLGSTVTGDMEDVDMTYDIPKTLPLNLYSVVGYSFDSWNTKADGSGTSIANGAEVDNLATTGTVTLYATWAPRTDTPYKVIHKQMNLDGETYTEVVKDRQELTGTTNASVTPATKTYTGFTAPSPQTVTIAPDGSTEVVYLYSRNKYDLTIEDPQYVVEDKSGEYFYESEVSLTAKDREDYKFTGWSNGETTKTITLTIEEDTTIKPLYEINIYMITLDPNEGTVSPTQIKVTKGEAVGTLPTPTRDGYDFDGWYTNKQWTTKVTPATVPTGNDTYYAKWEEHEEVIPLCKKATALHTTTCPSTAGCKNAGYSEEGSKGTTTVTFGTIPHVDYVAGNAFDCDMNGDGVYDPETERFYYLITNSNDNAVLISHTNYEGEAGQVITDNFSYSVALTKLPTTAANQWSNAKVTFKNPIDSSDTNTYAARFVTYDELREITGKNNLTGQGSFDDYPYLMENSQFVGVGRSGIWMAPETTTDATTYYRIHTGVSNRNVNSVNGSSSNNVARPVIEVPLEYMESSKGTVHTITFETNGGTAIDPLEIEEGEPIGEFPTTTRNGYEFAGWFYEPEFVTEVQTTDTFNKDTKLYAKWNFTAVAKINDTYYSSLESAIADVPDTGEETVIKLLTNTSANATVAATKYIVLDLQNYNLSNSTKSPVLTNNGYLVIKNGTISTDSAAAGAVDNGSDGTMEIRDATIISTGDKQALYNNGGTAEIFGDSYLSNSGNLRAAVHNLNDGTIIINSGTIISTAHNAVYNEAGTLTIGEHDGVIDTTNPVIQGYKSGLSIATGQTFNFYDGIIKGKNSAIDVPSALDGKEAGSEIKNGTEVIGGVTYQTAIMFMESSKYKITFDADGGTVSPEYITINIGDPVGTLPVPSKGVYTFDGWFTEKEGGEEVDSTYTPEGSMTIYAHYHYEGSDDIVNFNMTNDVMKTYYSSLGAWLSDTDNFQTNMDTNFNNYNCSECTGPNYQACPTPAAGKTLCDQSVGYATGVSTINVYESDETTKEKGPLVTYTTVKEGTIYNMIPGETYYWEDTEDSDVHGYVKVSGNRRTIASNVRNVRDLGGLEVDPNNDGVVDGTIKYGKLFRGAKLSSSASDVAELQKLGITEEVDLRGSSGDAKFSNYKGRSITNYLIYYDTYNTNYLVFRQALTDTMQEVINGENIYFHCAIGTDRTGTMAYFLEGLLGVDEEDRVEDYELSYFTGLLNRHRFHDYLSGSSINPRFTTMHNTYKTNQEIYQYFMVGSSDIISDQQLIQNFRDTVIDYN;locus_tag=LOCUS_6620;note=WP_027390899.1 InlB B-repeat-containing protein (Chrysiogenes arsenatis) [pid:24.3%25%2C q_cov:42.5%25%2C s_cov:11.5%25%2C Eval:9.0e-34%2C partial hit],MGA_666
sequence06	MetaGeneAnnotator	CDS	9542	10078	.	+	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYIGIIIICLVGTLLHFTYEWSNHNKYVAIFSAVNESTWEHVKICITPTILWSIYEIFKYGFSGKYLVAKSLSLLTIIVLIPVLFYSYTLFTKKAILVIDVICFYITVICSQLVFQKVIGLGAMPSIYIWLGVILLALEIGAYLYLTFNPFKNPVFKDPITHRYGLEGHPCEHNHKH;locus_tag=LOCUS_6630;note=MGA_667
sequence06	MetaGeneAnnotator	CDS	10091	11200	.	+	0	ID=MGA_668;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016775.1;translation=MKNREREVIKTSIISILANIILAGFKALVGVVANSIAIISDAVNNLSDALSSIITIVGTKLASKAPDRDHPYGHGRIEYMTSLIVSAIVLYAGITALVESIKKIIHPEVANYNTTTLIILIAGILVKFILGMYVKRKGKEVNSDSLVASGSDAFNDAILSISVLVSALIYMAFNISLEAYVGVLVAIFIIKAGLELIKESVDNMLGLRVESDLAKAIKKDINKEKDVQGAYDLILNDYGPDRYLGSIHIEVADTLSAADIDKLSRRITKMIAKKYGVILHTIGVYSVNTKDKEGMAAKKEITKLVFAHKGILQMHGFYIDKKEKTISFDIIIDFKIKNREEVYKEIYDEVKEKYKDYKIEITLDIDTSD;locus_tag=LOCUS_6640;note=WP_011016775.1 cation diffusion facilitator family transporter (Fusobacterium nucleatum) [pid:49.6%25%2C q_cov:98.9%25%2C s_cov:98.1%25%2C Eval:1.7e-101],MGA_668
sequence06	MetaGeneAnnotator	CDS	11219	11347	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEGENMSIYDLKVKNREGNVIERYSPTYKPEEMEDKIKELL;locus_tag=LOCUS_6650;note=MGA_669
sequence06	MetaGeneAnnotator	CDS	11410	12129	.	+	0	ID=MGA_670;product=NAD-dependent protein deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947920.1;translation=MSDVERLQKLIDDSNNIVFFGGAGVSTESGIRDFRGKNGLYKEKYKGILPEYMLSHECLFKEPKLFYEYYKDNMNCSDAQPNVIHKYLKELEDKGKLKAVITQNIDGLHQKAGSKNVLELHGTTNRCYCTECGKEYPGEYIFKSESIPKCSCGGMIRPDVVLYGEMLPDSYNEAVHYIMDADLMIVAGTSLTVQPASSLLGYFKGKHLVIINDMPTPYDSMAEIVINKSLKEVFTKLNT;locus_tag=LOCUS_6660;EC_number=2.3.1.286;note=WP_011947920.1 NAD-dependent protein deacylase (Clostridium botulinum) [pid:53.5%25%2C q_cov:97.9%25%2C s_cov:97.6%25%2C Eval:3.0e-65],MGA_670
sequence06	MetaGeneAnnotator	CDS	12142	12801	.	-	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYLHSLRDQFVEATGVKNVDPTSSLFISEFSDWIEKRQRIGSNYLELLRHMRDEIEPVNSAKTLEIGKGKYDSIVKRLRTTIVTPYTEGLERLNEDRVIKGDIALFGDRPVLIKHLSVRDSEAILLPRDTVLMTQNPYSPAYIMNWTNIHNSGNNDIIVGIYGSINDKDRGAKAKQLEAFIERLDEPFVQQQMLVYDTYCWAVASKRRGKRLIKSKH;locus_tag=LOCUS_6670;note=MGA_671
sequence06	MetaGeneAnnotator	CDS	13187	15490	.	+	0	ID=MGA_672;product=anaerobic ribonucleoside triphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436320.1;translation=MKGKGVEVSNLTVVKRNGKKVDFDGSKIALAIKKGFDNVTVTNGDELEKVYTEKDIQTVYKEVIKEIESNYNDKVKIEQIQDLIEEALKKKGYNDVYECFSEYRERRSQSRELFSDKKKLHKFLKTIEGLGLKSANEDDNKRENANVDGDTAMGTMLQYGSTVSKEFAKTYLMKSKFTEAHESGAIHIHDMDFLGMGTTTCMQIELDRLFKNGFSTGHGHLREPQDIMSYSALAAIAIQSNQNDQHGGQSIPAFDFYLAPGVLKTFKKQFKQHIYDYLDYEGMLDYINMDTVAKEIDKLDSITVDLKKFARFYKDSDIVKRGFEKAYEKTLAKTNRTTFQAMEGFVHNLNTMHSRAGAQVPFSSINFGTDTSPEGRMVAENFLLATDEGLGKGETPIFPVSIFKVKEGVNYNPEDPNYDLFKLACRVSAKRLFPNFAFLDSKYNLDFYKKGDFRTEVSYMGCRTRVIADVTDLNNQTTGGRGNLSFTSINLPRIAIKHGICLGERDKADMKGFYKELEEMLELVRDQLLERFEIQCSKHSYNFPFLIGQGVWTNGDKLEPGDRMRKILKHGTLSIGFIGLAETLKALIGKHHGESKEAQKLGLEIIGFMRKTCDKFAKEYNLNFTLLATPAEGLSGRFVSMDKAIYGKIKGITDKTYYTNSFHVPVYYNISIKDKLTLEAPYHALTNAGHISYIELDGDTANNVEAFESVIRLMKELEIGYGAINHPVDRDPVCGYVGVINDVCPLCGRRESEGVPMEHLQDINCKC;locus_tag=LOCUS_6680;EC_number=1.17.4.2;note=WP_003436320.1 anaerobic ribonucleoside triphosphate reductase (Clostridioides difficile) [pid:56.0%25%2C q_cov:96.6%25%2C s_cov:94.8%25%2C Eval:2.8e-238],MGA_672
sequence06	MetaGeneAnnotator	CDS	15515	15685	.	+	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTVGEGVKFERIRRVTGYLSGDVSRFNNAKRTEEHDRVKHTGVKELIANAKCEK;locus_tag=LOCUS_6690;note=WP_003436320.1 anaerobic ribonucleoside triphosphate reductase (Clostridioides difficile) [pid:73.5%25%2C q_cov:60.7%25%2C s_cov:4.3%25%2C Eval:2.8e-08%2C partial hit],MGA_673
sequence06	MetaGeneAnnotator	CDS	15685	16245	.	+	0	ID=MGA_674;product=anaerobic ribonucleoside-triphosphate reductase activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003432598.1;translation=MTIRLAAYLQSDSIVDGEGIRTVIWTQGCPHHCLGCHNPETWDFAGGAEVPISEVKEIIDGLEGQDGLTFSGGEPFMQPKQCAEIAKYAKSLGYNIWSYSGFTFEQLLSLGKTKKEIMDFLNEVDVLVDGKFELSKKSYNCLFRGSTNQRIIDVKKSLKARKAIIDDKYEKVPSKNGRKRQEGVYI;locus_tag=LOCUS_6700;gene=nrdG;note=WP_003432598.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Bacteria) [pid:50.0%25%2C q_cov:91.9%25%2C s_cov:96.1%25%2C Eval:6.7e-44],MGA_674
sequence06	MetaGeneAnnotator	CDS	16348	17217	.	+	0	ID=MGA_675;product=LicD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003641097.1;translation=MKNFGTYDEKTLKMLQKVELEMLKDINKVCEKYDIKYFALDGTGIGAMRHKGFIPWDDDIDLRFLEKDVSKFVKCMQEEMPDKYYFVNETSFKNYPLSFTKMCKKDTIFVEHATANSGVEIGIFIDIVPMVYVDDNEKIRNKKLLKSWYIYKLGVLAAVKNPVLSFGGIKAKIVVAGCYIIHYLLKLLHLDSGFFFKKGYKVALANKKTNTIASLNTVYKLTSIYSVNDVFPVVKTKFEDTYVYVPKECDKLLRIYFGDYMELPPEEKRHNHCPKKLVFDKEKESENKV;locus_tag=LOCUS_6710;note=WP_003641097.1 LicD family protein (Lactiplantibacillus) [pid:28.5%25%2C q_cov:94.1%25%2C s_cov:98.5%25%2C Eval:6.7e-28],MGA_675
sequence06	MetaGeneAnnotator	CDS	17319	18443	.	+	0	ID=MGA_676;product=polysaccharide pyruvyl transferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009039963.1;translation=MKNVGVVSYNIRCNFTNYGSALQSWALKETIEKIGGDKLHAKLVDYCPDAHRESDPLNPYKNMWDKDATARKNCELTMPAIRENYKKFEDFYNTQFDRTKKMYVSENFDSIVEEENIKKFVCGADTIFCVDEFGIDDVFYANKKCMKENYTFSYAASFGDSHFTEETYKLLDQRLTNFKAIGIRESEMVDYIKERTVVDVERVIDPTLLLEADDYEKITTKEVPKEKYVLLYTRRGNQIMEDYADMIANKLHCKVIEISLKATNKDKHEMRYDAGVEEFLNLVKNAEYVVTNSYHGMIFCVQFRKDFVIFSREQCDTKIEELLNIMGLRDRLLVTGKERFKEEIDYDAVHNNIKSEKEKSIKFLQKQLKKVIGE;locus_tag=LOCUS_6720;note=WP_009039963.1 polysaccharide pyruvyl transferase family protein (Bacteroidaceae) [pid:26.3%25%2C q_cov:94.7%25%2C s_cov:96.6%25%2C Eval:1.5e-20],MGA_676
sequence06	MetaGeneAnnotator	CDS	18445	20142	.	+	0	ID=MGA_677;product=2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylic-acid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005786027.1;translation=MNNKYLSNKILIELLKKYGIKKLVLSSGCRNVPFVSNVETDPDFECFSVIDERNAAFFGMGLSEEAKEPVAIACTSGTAASNYVSGVTEAYYSKVPLVVLTFDRHPYMYNQLETQKIDQESIFESITKKSVTLPIIKDEEDVWYCNRLINEAFIEMTRHGVGPVHINVPLAGDMNSLFNDDSNKMSEKGMKKINYVSTNNMVWLNKVEELLKTKKVLFILGQDSLLTDKEKEKLRKFAEIMDCPILTDNLSNFKSEHNILAGPIIKALNSKTINVLLPEIVISYGNNMQERIKEVLRGKNIKHWYITPDGKIRDCFKALDTIFECSINEFLDMFNKNFENKYKPDKKYFEKWKNISESIKLPEMPFTNFYVAKEFSKIIPHDSLLHLSILNATRQMQFFNLDESIKVFSNVNAFGIDGCLPTFMGQAYATDNLAFIMIGDLSFFYGMNALSIKHRKKNIRVLMINNGGGAEFHIQPDSNSIPTIDLHIGAAHNRTAKEWAISSGYKYLTANDKESFDKNIKEFISSDSKEPIFYEVFTDMKTDGEFCLSVYRYMEESIKDLLKED;locus_tag=LOCUS_6730;gene=menD;EC_number=2.2.1.9;note=WP_005786027.1 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylic-acid synthase (Bacteroides) [pid:34.9%25%2C q_cov:96.5%25%2C s_cov:98.0%25%2C Eval:1.8e-90],MGA_677
sequence06	MetaGeneAnnotator	CDS	20144	21178	.	+	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEKSILILGGTGAMGTSLVEILSHDDKYSVFVTTRQSNHNDYKNIKYIIGNAREEAFIQQVCSKKYDVIVDFMNYNLDEFENYHTALLNAADHYLFLSSCRVFSNAELIDESTPRLLETTNDTEFLKTNRYALRKAREEDILTNSPYNNWTIIRPYITYSNRRLQLGIYEKEEWLYRLLNNRPLILRKEILDKYTTLTYGKDVALGIYNIINNEKSLGQKINIVTEEYTTWQDILDKYKEVLNRELNIEPEIYYEENLDEIEMLFEGGYNTKYDRLWNRRFKNDKTKEYCGDIDYKKPLPGIEQCLVELINDWKKGKEVFRTINSEYEDKMNNLCNQKTKRKR;locus_tag=LOCUS_6740;note=WP_003429183.1 SDR family oxidoreductase (Clostridioides difficile) [pid:22.6%25%2C q_cov:70.6%25%2C s_cov:74.7%25%2C Eval:5.8e-08%2C partial hit],MGA_678
sequence06	MetaGeneAnnotator	CDS	21183	22256	.	+	0	ID=MGA_679;product=serine-pyruvate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081619.1;translation=MINFTIGPVQSSKEIRRIGGEQVPYFRTQEFSNLMLENEKLIKKFMDATEESKVAFITGSGTASMEATIMNLLTKEDKALIVNGGGFGHRFVELCELYEVPCDQIILDVGQPLTEEILNKYNPSDYSTFIVNVHETTTGVHYDLKLIHDFCKRNSLFLIVDAISSFLADELSMKDDGIDVVITGSQKALACPPGISIITLSEKAVERVYQNNPKCLYLNLKEALENAKRGQTPFTPAVSILRQINARLKQIDNAGGTASEVKRISALAKYFRESIKDLPFEYVTNSPSNAITALSPLNASANDIFLELKDNYGIWICPNGGELKDKVFRVGHIGDLTNEDYDKLIEAFKDLQKKGLI;locus_tag=LOCUS_6750;EC_number=2.6.1.51;note=WP_004081619.1 serine-pyruvate aminotransferase (Thermotoga maritima) [pid:31.9%25%2C q_cov:96.1%25%2C s_cov:88.8%25%2C Eval:6.1e-40],MGA_679
sequence06	MetaGeneAnnotator	CDS	22270	23610	.	+	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVITYGTYDLLHYGHIRLLERAKELGDYLIVGVTSDDFDKRRGKINVQQSLIERVQAVKSTGLADEIIIEEYEGQKIDDICNYGIDIFTVGSDWVGKFDYLKEYCEVIYLDRTEGVSSTEIRSKNRSLNLGIVGSFNFIQKHLNESKYVNGLEITKINSEDKIPKHMLKEYNLTVEDDYDKLLDSVDAIYIATNPDKHYEIIKKAIEKKKHVLCESPITLKKEECKKLLALADKKGVVLMEAIKTNYANAYMRLMLLAKTGVVGKIVSVDATCTSLRQLEELGEKKITNYQNSICAWGPTAMLPVFQLLGTKYKEKHITSLLSDKNKNFDLFTKISFDYKDATATIKVGKGVKSEGELIISGTKGYIYVPAPWWKIDYFEVRYEDPAKNRRYFYQLEGEGIRYELISFLRAINKKTKVGGIKKDTTLAIVEVIEDFYNKKKNTI;locus_tag=LOCUS_6760;note=WP_011254173.1 glycerol-3-phosphate cytidylyltransferase (Lactobacillus acidophilus) [pid:52.4%25%2C q_cov:27.8%25%2C s_cov:96.9%25%2C Eval:5.7e-33%2C partial hit],MGA_680
sequence06	MetaGeneAnnotator	CDS	23629	23988	.	+	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDIKIIDQFMDEREFRNYIVKLLDENGFTDISIEDARLSDEEPKNNNDLIAKKGKERYTIQTFLNKEIGSKEIKETLRDMKEEYASKALIITNKEVSEEVIKEAEEAGIEIWDRKKFK;locus_tag=LOCUS_6770;note=MGA_681
sequence06	MetaGeneAnnotator	CDS	24014	24214	.	-	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKPKSYDVTPKKDPKEDRIIKVPKVKTRKQVKTARSAEFSYYDKATRKEELKLKKKLKEYTYRDE;locus_tag=LOCUS_6780;note=MGA_682
sequence06	MetaGeneAnnotator	CDS	24307	24837	.	+	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKGIKILSSLLLVVAVLTLVGCAAKREDLKFNDTKGSLVFSVKEDGNYKISKNPKDLRNTREQGVLIGKDFKISIEFDDSFGYFFDGDFNKLKEKRRNDYDDFKEVTYSDMEGIQYFYSGYMCYNVIFPIEGNKDYTLVLSVYGAEDNEKAAKEAIKNEEVLDVLNHISNVKVKK;locus_tag=LOCUS_6790;note=MGA_683
sequence06	MetaGeneAnnotator	CDS	24909	25508	.	+	0	ID=MGA_684;product=formate/nitrite transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357725.1;translation=MSKKVELVNKSIGAAFLISLGNYALLKLGNPIGPVIFALGLLGVCYLGQNLFTGKCGFLFADKIKVLDLVIILLINLVAGYLFGLLYSITDPEVYKAAIAKVASWDFSLAFFIKAFLCGTIMYIAVAMYRKGTPLGIIFGIPLFIFCGFQHCIANIITLGVARTFDWSIVLAIIGNFVGSLFMWYISKDVEEKKKKRKK;locus_tag=LOCUS_6800;note=WP_002357725.1 formate/nitrite transporter family protein (Enterococcus) [pid:26.8%25%2C q_cov:89.9%25%2C s_cov:80.3%25%2C Eval:4.7e-09],MGA_684
sequence06	MetaGeneAnnotator	CDS	25654	26712	.	+	0	ID=MGA_685;product=peptide chain release factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_096807630.1;translation=MKYLRKLKIYGGHFDIDSKKEKISKLEEEMNRTDFWNDKEKAEKTIAEISSLKKITEDIDHLKENVIDSTEMLDLDDNEILEEIESHLEDYQKLYDELEMNLLLDGEYDHDNCIVDIHPGAGGTESCDWALMLYRMYSRWCEKKGYKVEVLDYQEGDTAGIKNVSFIVKGQNAYGLLKNEKGVHRLVRLSPFDSNNRRHTSFASVDVTPDIDKDLDIVIDDKDLKIDVYRSTGAGGQGVNTTDSAVRITHLPTKIVVTCQNERSQLQNKEQALKVLKNKLMLLEKEKQENEMHDIKGEEQDINFGSQIRSYVLHPYSMIKDHRTNLETSNVNKVLDGEIDEFILSTLKGGKR;locus_tag=LOCUS_6810;gene=prfB;note=WP_096807630.1 peptide chain release factor 2 (Listeria monocytogenes) [pid:50.4%25%2C q_cov:98.6%25%2C s_cov:95.9%25%2C Eval:9.7e-99],MGA_685
sequence06	MetaGeneAnnotator	CDS	26713	27591	.	+	0	ID=MGA_686;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722640.1;translation=MLFDKEKYDQLLKSINAKSRIKRFIELCIGCFLIAVAFNLFLSPNNLAPGGVGGIAIILRRIFGWDNSVTILLVNIILLVISYFTLGFSKTKNSVLGSLILPLFIKLTANISVYISIDLSHLILQAIFGGVIFGAGAGIIFKAGYTTGGTDIINQMMYKYLHMGFGTSTLIIDGLIALMSGFLFGPTIMMYALVALYIISYMTDRVILGISDSKAFYIVTTKDEEMKEFILKYLNHGVTVFNAKGGFKERKQKVLLCVLPTKDYYKLKAGINEIDKDAFFVVTDSYEVFGGE;locus_tag=LOCUS_6820;note=WP_003722640.1 YitT family protein (Listeria monocytogenes) [pid:34.6%25%2C q_cov:93.2%25%2C s_cov:93.4%25%2C Eval:1.5e-43],MGA_686
sequence06	MetaGeneAnnotator	CDS	27593	28474	.	+	0	ID=MGA_687;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002354953.1;translation=MFKFKKIDTEEIAKKINEHNKLKRYAMLLTALFVSAVVYNLLIIPSNLVIGGANGVAVITRYIYHWDPAITVFFICVSMMILSLMYLGKEVTKGVVVATFVYPLFVELTAPLSKYITITSNDLIVVAIFVGVLTGICHGVMYKSGYSQGGLPILSQIFHKYFKVSISTSSLIINSIIVFLGGFFFGWTMMMYSLIVIYINSLMVDKVLLGISANKAFYIITNKEKEVKEFIMEELHHSVTVFDVKGGFKNRKGEVLLTVIPTREYYVVTEGIKMIDKDAFFLASDAYQVEGGK;locus_tag=LOCUS_6830;note=WP_002354953.1 YitT family protein (Enterococcus) [pid:30.6%25%2C q_cov:92.5%25%2C s_cov:89.6%25%2C Eval:2.9e-42],MGA_687
sequence06	MetaGeneAnnotator	CDS	28474	29652	.	+	0	ID=MGA_688;product=FemA/FemB family glycyltransferase FmhC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000672869.1;translation=MEFVELNEKDFRKFLDKSPLKNFMQLPEFAHMKEINNWQSTYVGVKEKDRIEAATLLCSRKRRFGYEFYAPRGILVDYKNKELLTFFVENLKKYIRKRKGYVLRIDPYYIRVERNIDGNVVEGGVNNEEAIINLKKLGFKKSAHPEQISWSFSLDLDKNKSDDEILKEMKGNTRRDITRAIKNDLIFREIGYDEINLFKEVLDSTGDRKGFSTRNLDYFKKLYNELVPKDLAKFVVVELDIDKTLGTKEKEKKELSEKLKTTKKNTATLEDQIGKINKEIDELKELKKEKGKKIVLAADIFITYGDEVVYLYGGNDDKYMKYCGAYLTQWEMIKYGRDNGFKKHNFYGISGNLTEDDKEYGVYKFKKGFGGYVEELIGEYILPLSLIYYLHR;locus_tag=LOCUS_6840;gene=fmhC;note=WP_000672869.1 FemA/FemB family glycyltransferase FmhC (Staphylococcus) [pid:31.1%25%2C q_cov:99.2%25%2C s_cov:97.8%25%2C Eval:2.0e-47],MGA_688
sequence06	MetaGeneAnnotator	CDS	29777	30475	.	+	0	ID=MGA_689;product=cell division ATP-binding protein FtsE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002263537.1;translation=MDLIRLKNVTKQYKNGVTAIYDLNLSIKKGSFVFIIGGSGSGKSTLIKMLYREEKPTKGQIAVGGLNVAKLRNSKVYKLRRKLGIVFQDYRLLPKLTIYENVAFAMDVIGAKKSERRIKVLKALEVVGLKDKVHNYPDQLSGGEQQRVAIARAIVNDPKLLLCDEPTGNLDPEKSMEIMKVLDNINKTRGTTILMVTHDKDIVNKMKKQVIVLKEGRIVKNKEKGIYYDEAI;locus_tag=LOCUS_6850;gene=ftsE;note=WP_002263537.1 cell division ATP-binding protein FtsE (Streptococcus mutans) [pid:52.4%25%2C q_cov:97.8%25%2C s_cov:98.3%25%2C Eval:2.1e-65],MGA_689
sequence06	MetaGeneAnnotator	CDS	30462	31361	.	+	0	ID=MGA_690;product=permease-like cell division protein FtsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732506.1;translation=MKLFRVLIRSIQDAFKSVFRNFSLSLASISCITITLIIVAIAIVASFNVENFTKLIEKDMTIVAFVSKDATTEEVEKLKKDIDSNKNVASYVFKDKAVIKEDMQKESETFKTILSQWKDEESPLKSAFQVKVKDVKKIGKTAETIENMDKIDLVRYGEGMVEKMVKTFESVEKVAYGAVIALVLVTIFLIVNTIKLTIFSRKREISIMRLVGASNFTIKTPFIIEGMVLGLLGSIIPILFTTFGYISFYDHFDGHLYSELIRLIKPEPFIYTFSLIVLVIGIIVGMIGSARAVRKYLKV;locus_tag=LOCUS_6860;gene=ftsX;note=WP_003732506.1 permease-like cell division protein FtsX (Listeria monocytogenes) [pid:32.1%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:8.5e-42],MGA_690
sequence06	MetaGeneAnnotator	CDS	31363	32544	.	+	0	ID=MGA_691;product=M23 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583463.1;translation=MKKFIGVVLTLVLVGTIFINPLNASAKTLAEFESEVAAYASVLQSKKNAIAKNDAEVAEIKKKISSIEGQIAQATQDMKKLQEEIDQSNEEIKKKNEESKKIMEYYQVSGGENVYLEYAFGAKDITDMIYRMSVVEQLTEYNDQIMKELKELIKVNKEKKVALDAKKKELAKLQKDLETQKARINAESAAIRETMPGVQEQIKAAQANVRYYKSLGCGRNEDINACQYRIIQRNTGGGGGGGGSVPSTNGFYRPMEYGYLTQGYGGAHMGVDLSSSNKTIPIYPIASGQVFAKYYDVYGALVVKIRHNVGGRFIYSTYAHLSSFASISVGQNISHLTMIGNMGSTGYSTGPHLHLELTSCDWHAGGGCTWGQYVNSTIAPSSYVSIPSSWSNR;locus_tag=LOCUS_6870;note=WP_012583463.1 M23 family metallopeptidase (Dictyoglomus turgidum) [pid:24.1%25%2C q_cov:80.9%25%2C s_cov:90.1%25%2C Eval:1.3e-14],MGA_691
sequence06	MetaGeneAnnotator	CDS	32614	33180	.	+	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSVLERIRGVMIYFICFAFIGWIYEVVLFLYDDHIFVNRGFLYGPWLPVYGFGGMIIYWLFYRLKKKPVKIMKINIRPLLIFIYITITAVLVELTTTYICDLFKTDWKKLWLYSDDFMNFQGRIALVPGLKFGLIGLLGVYLIIPLIDKLKDSKKKAVQSLTYIIILLFIIDVIIHMFTGSTYAGPV;locus_tag=LOCUS_6880;note=WP_004454079.1 putative ABC transporter permease (Clostridioides difficile) [pid:28.4%25%2C q_cov:89.4%25%2C s_cov:55.3%25%2C Eval:5.2e-15%2C partial hit],MGA_692
sequence06	MetaGeneAnnotator	CDS	33262	35208	.	+	0	ID=MGA_693;product=excinuclease ABC subunit UvrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000229241.1;translation=MDKFKLVSKFKPAGDQPEAIDKLIEGVKAGKHEQVLLGATGTGKTFTIANVIEKTGKKTLVLAHNKTLAGQLYSELKELFPNNHVCYFVSYYDYYQPEAYVPSTDTYIEKDSSINDEIDELRHEATSSLLSYDDTIVVSSVSCIYGIGEVDEYKNKMITLSVGEEIDRNDVMKRLVDMLYDRNDLDFKRGTFRVRGDILEVIPPYQNTTGYRIDFFGDSIDRISEIDTLTGAVITNKKTISLFPASHFVVSDEKLQEAIVRIKDELKDRLAELKKDNKLLAAERLEQRTNYDMEMLEETGFCSGIENYSAPLAGRKKGETPTTLIDFFGDDFLLVVDESHVTLPQVRGMYNGDRSRKENLVEYGFRLPSALDNRPLKFNEFEKKIDQAIYVSATPGDYEIEKVDNEVVEQIIRPTGLLDPTIEVKKTEGQIDSLIEEINKRIKLNERVLVTTLTIRMAEELTNYLKELDIKVAYLHTEVKTLERLQIVHDLRTGKYDVVVGINLLREGIDIPEVSLIAIMDADKEGFLRSTRSLIQTIGRCARNEHGHVIMYADKVTDSMSEAIDETKRRRTIQEEYNKEHGIVPKTIKKDIREVIRNVDVEAKEKKMTKKELNLTIEKLEEEMREAAKALDFERAMELRDIIFEMKA;locus_tag=LOCUS_6890;gene=uvrB;EC_number=3.1.25.-;note=WP_000229241.1 excinuclease ABC subunit UvrB (Staphylococcus) [pid:64.6%25%2C q_cov:99.5%25%2C s_cov:98.8%25%2C Eval:2.5e-248],MGA_693
sequence06	MetaGeneAnnotator	CDS	35264	36658	.	+	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYYEILGVSKDASFDEIKEAYFALRKDLSGPELDLLEMAYRTLANDSKRADYDMGINSHNKTVKIDDGDGFREKLYHTIDLDNPHQEILLRFDDKPNPSIEEEIHSINTYNTLEKEAEDLVDEEELEDDLDFYLTPREISRALALLVRGDGDEYIEGTNVAKPRDRRADETDEEYTAFLEKYYQEHFYIPGTNILKPRDRKANETDEEYNNYLANYYAIIFANKQIQEDDYEEDYDEEEELLEVTDRNRHAKLKKVVRGLLIAGALLLGVLGIKACTANDKESKAPYGSNTTVDEAIDDAGNTMEEDYSDYDDYAEELEHSIVNPEIDDLPELEEVEEDYSINVGDKFNLDESTLLYTASTDQEAKGRVNTNAAALGEYTIDKIVVLDSNNNIVANSSFGEVDLDSYDDSYKKMIHFSRNVTVEDIETGRVERNNEKNLGWVFLENLNANQKIGSVLESGKTK;locus_tag=LOCUS_6900;note=MGA_694
sequence06	MetaGeneAnnotator	CDS	36668	36907	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLELGEEITLNNKDKYIVMGVTTYADKRYVFLMNNDNDLVIKIGEEVIENDKVFVKIVKNKKLIKEIIEQVAGEKISD;locus_tag=LOCUS_6910;note=MGA_695
sequence06	MetaGeneAnnotator	CDS	36967	39783	.	+	0	ID=MGA_696;product=excinuclease ABC subunit UvrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003228057.1;translation=MEDKIVIKGARENNLKNIDLELPKNKLIVMTGLSGSGKSSLAFDTIYAEGRRRYVESLSAYARQFLGGTDKPKVDSIEGLSPAISIDQKTTNNNPRSTVGTVTEIYDYLRLLFARIGTAYCPNHHIPIKSQSVEEMVDKLLSYELGTKMIILSPIVHGKKGTHKDLFDQLRKEGFARVRVNGEILDLDSNIELEKNKKDNIDVVVDRIVITEDSRSRLHESVETACKLSEGKVVISILGDNKKELVFSENFACPHCEFSLPEIEPRLFSFNAPYGACPDCKGLGIKLRIDKDLVIPDKSLSLKEGCIKTLGDDGDNIYNKKLECVCKHYHIDMDKPFEKLTKKEQEMILYGSDEIIHFNYATRSGNIMNNRDYYEGVITNLERRYMETSSNWIREWLEHYMVELECETCHGARLNNDVLCIKVGDKNIHEVTEMSIKELIPFFDNLKLTEEQKEIAELILKEIKDRLAFLANVGLEYLTLSRSAGTLSGGEAQRIRLATQIGSHLTGVLYVLDEPSIGLHQKDNQRLVDSLLKMRDLGNTLIVVEHDEETMRSADYIVDIGPAAGNEGGEVMAKGTPAEVMKSKKSITGAYLSGKKCIETPKTRRKGIKKTIQIKGAQANNLKNIDVTIPLGTFTCVTGVSGSGKSTLINEIMCKAIAKELYRSKEKPLAHKKIVGIENIDKIVEITQKPIGRTPRSNPATYTSVFDDIRELYTNLKESKMLGYKKNRFSFNVKGGRCEACWGDGVKKIEMHFLPDVYVPCEVCHGSRYNKETLKIRYKGKNIADVLDMRVSEALDFFSNVPKIKRKLQVLNDVGLGYIKLGQSAPTLSGGEAERVKLAKELQKKATGKTLFVLDEPTTGLHTDDIKRLLAILQKIVDNNDTVVVIEHNLDVIKSADYIIDLGPDGGDGGGQVIATGTPEEVAQVKGSYTGEFLKKVL;locus_tag=LOCUS_6920;gene=uvrA;EC_number=3.1.25.-;note=WP_003228057.1 excinuclease ABC subunit UvrA (Bacillus) [pid:61.5%25%2C q_cov:99.8%25%2C s_cov:97.7%25%2C Eval:0.0e+00],MGA_696
sequence06	MetaGeneAnnotator	CDS	39792	40238	.	+	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLVVKEKNKVRINRVVEWLIYMVVYFLIFSFVASLFKTVYIDDSHYYIYSIIIVLIIYILNITIKPIFVTLTIPITGMTLGLFYPFINYFILKLTDWILGPHFQIKRFWIGVLMALMISFFNLVIDKVIIEPIIRRFKDGQNSSKHR;locus_tag=LOCUS_6930;note=MGA_697
sequence06	MetaGeneAnnotator	CDS	40210	41010	.	+	0	ID=MGA_698;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722614.1;translation=MDKTVLSIGKFNIYWYSIFICLGILVALFFIRREAKKQKIDKEFIVNLSFYTILFSIVGARLYYCFFNWDYYGTNLVEILKVWNGGLAIHGGLLFGILTVLIYTKKHQLPVLKILDIVVVGVIIGQAIGRWGNFFNKEAFGAATTLANLKGMMLPQFIIDGMKIGGVYYTPTFLYESIWCLLGFIVLLCVRKFYERLHIGDLTAIYFIWYGIGRFFIEGLRLDSLMLGNIKIAQLVSIIFILVGCIILIKNMLNKDKFANLYNKTE;locus_tag=LOCUS_6940;gene=lgt;EC_number=2.5.1.145;note=WP_003722614.1 prolipoprotein diacylglyceryl transferase (Listeria monocytogenes) [pid:42.8%25%2C q_cov:99.2%25%2C s_cov:97.1%25%2C Eval:2.8e-62],MGA_698
sequence06	MetaGeneAnnotator	CDS	41019	41972	.	+	0	ID=MGA_699;product=gluconeogenesis morphogenetic factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244450.1;translation=MQKKVVVFGGGTGLSSLLKGLKEYPLDITAVITVSDNGRSTGKLRKEFNVPAVGDIRKVITSLSTSSDSIKEMMEYRFHTSSDLDGHAVGNLVLTSLLDITGSLKDAIASLCELFNVRHTVLPISEDSDLTLMAKFPNGEIVEGEENISEKGEVIEKIFYKEEPNVLKEVIDAINEADLIIFSMGSLYTSILPNIICKDVEKALNNSKAPIMYVCNAMTQPGETDKFKVSDHVKLLNSYLDKRKIDIVIASNTKISKKIAKKYETEEQKDAVLVDHKNLDNMDVKLIESDLLIVENNVLRHDGFKIGSIVVSYLIGD;locus_tag=LOCUS_6950;gene=mgfK;note=WP_003244450.1 gluconeogenesis morphogenetic factor (Bacillus) [pid:40.4%25%2C q_cov:95.0%25%2C s_cov:94.6%25%2C Eval:9.0e-61],MGA_699
sequence06	MetaGeneAnnotator	CDS	41974	42879	.	+	0	ID=MGA_700;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000006561.1;translation=MSYTVKVKEEILNKEETTTEKIAKLAGFIKNNGLQKEEGLVLATENKQIKDRIKEEILSLMDINIVEKETAGNNFSKKSLYMLEIVDYEVLLKTLGLLNRDVVEEYIVDSNAEIRAYIRGAFLASGSVNDPKTSRYHMEIVVNQKEEAVFLQKLINIFMLNAKILNRDKGYMIYLKDAEAISDFLKILGANNAVMYYEDIRIYRDKMNRTNRLNNCEQANTDKIVNAALEELKCIEKLEENMALDLLDEKVQEAAIYRKKYPESSLKELSEIISLETNKKITKSGLYHRFRKIKDLANKFE;locus_tag=LOCUS_6960;gene=whiA;note=WP_000006561.1 DNA-binding protein WhiA (Bacillus) [pid:36.9%25%2C q_cov:99.3%25%2C s_cov:96.8%25%2C Eval:5.6e-49],MGA_700
sequence06	MetaGeneAnnotator	CDS	42894	43157	.	-	0	ID=MGA_701;product=type II toxin-antitoxin system RelB/DinJ family antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813972.1;translation=MAATSIVNVNVDAKDKKKANEILNDLGLNMSTFVNMAIKQLIKRGTIPFEIVNNDSGLDPETIKALQEAYVVAVNESVTKHMNKKSN;locus_tag=LOCUS_6970;note=WP_005813972.1 type II toxin-antitoxin system RelB/DinJ family antitoxin (Desulfitobacterium) [pid:34.1%25%2C q_cov:93.1%25%2C s_cov:94.3%25%2C Eval:3.1e-07],MGA_701
sequence06	MetaGeneAnnotator	CDS	43223	43792	.	-	0	ID=MGA_702;product=ATP-dependent Clp endopeptidase proteolytic subunit ClpP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289402.1;translation=MNLIPMVVDQELNGERSYDIFSRLLKERIIILSGEITDYTSDNIIAELLYLDSISHDDIYIYINSPGGAITAGLAIYDTMNLVKSDVSTICIGIAASMAAFLLSSGTKGKRYILPNAEVMIHQPLGGASGQATEIKIAAERILKLRTKLNKLFSKNTKASLKQIEKDTERDYFMDANEALTYGLVDKII;locus_tag=LOCUS_6980;gene=clpP;EC_number=3.4.21.92;note=WP_002289402.1 ATP-dependent Clp endopeptidase proteolytic subunit ClpP (Enterococcus) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:96.4%25%2C Eval:5.2e-63],MGA_702
sequence06	MetaGeneAnnotator	CDS	43893	45542	.	+	0	ID=MGA_703;product=nucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080960.1;translation=MNEEIKVYINSQEYTYPKGTTLREISQSFTDNFKHPIILAKVNNSIKELGRIPENNSQIEFFDLTNKVANRTYVAGLVFLIQYTVKQLYGKEADIILHHSIDKGLLIETTFPLTEEKLKEIDTKMHEIVKQDLPIKKLAVDRVEASNYFKKIGDLSKVGTLKYNTNNIVSLYKLGNIYNYFYTYMPASTKYLDEFAFTYISESRFVLRYPTVYQSDTIKEYVHHEKLYNAFELCNDFNQKTKIENGSDINNIVSRGWADEMIRLNEAVYNKILIDLAIEITNHKEISIVLMAGPSSSGKTTVSKKLKTFINGQAVRVYSISMDDFFKEKMDTPKIDGKYDFESLDAVDLDLFNGTMEKLLNYEEVEMPTYNFITGKKEFKEKIKLEEKDVLIIEGIHALDTKILQNIPKEKKYKIYLSPLTELNIDNHNRISTTDNRLLRRIVRDNRTRGYDVEMSLAAWDDVRKGEEEYIFPFQDEADYVFNSGEIYEMGVLKTYVEPLLYNVSIDSPYYEEAKRLINFLRAFLPIPSDAIPKDSVLREFIGGSCYHD;locus_tag=LOCUS_6990;note=WP_004080960.1 nucleoside kinase (Thermotoga) [pid:39.1%25%2C q_cov:98.2%25%2C s_cov:98.0%25%2C Eval:8.8e-103],MGA_703
sequence06	MetaGeneAnnotator	CDS	45620	46999	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTFNLYNITLILVIVLASLLAFKAPEVRASGTVTWSGPSSITIRNTINEVMNPMDVSLTYVIEADSDNPSGASGAPTNVTAAFTRTSPTVSNYTLTKTAVLSFSNMTFTDPGDYTYNVIFGTDDIGDIGGDHAVYVVPEFTANYSQYKVVISVRNIVDSNNNPTGNYTASLILQECNDEQSTELVCSKINSESGVLYADYDYATTNMSMGAITKTVKGIGADTTEYFPFTISIDDEDGTFDGWVFPVTIYEDIYSNNPTDVTNISVNYNGQTRTQPTSITSGGSSITLYLKHNQIAVIGAVINENNPGEALMGIPGGVSCGNDSGTTSGQSNHINKKFELKNLIQAPDTSSKNKVIQLGDSTLCGGDKWSVQEEQGDYTPSYAFINGGSSEETEGNSFSDVRFPHNNTSQVIFTNTKEMSPVTGLIFTILPYLILAGIGVGGTLLIMYLKKEEKANQ;locus_tag=LOCUS_7000;note=MGA_704
sequence06	MetaGeneAnnotator	CDS	47056	48063	.	+	0	ID=MGA_705;product=type I glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016560.1;translation=MKVAINGFGRIGRLVLRLLDGDSDLELVAINDLSKPEDLAYLLKYDTNHRNYKVDSITSDEDELIIDGKHIKVFAESDPSKLPWKDLDVDIVFECTGHFTDKDKANAHIQAGAKRVIISAPATGDLKTIVYGVNEETLDSNDIIISAASCTTNALAPVVDVIDKEYGIVKGFMNTVHAYTNDQATLDIAHPKGYMSRRGRACAMNIVPASTGAAKAIGKVIPKLEGKLDGMALRVPTSTGSVIDIVLELEKNTTKEEINSLLESKKGDVIGFTMDPIVSSDVIGTNKATVVDGLSTNVLDVDGKQLVKVITWYDNEMGYTTQMVRTAKYFSKIMN;locus_tag=LOCUS_7010;gene=gap;note=WP_011016560.1 type I glyceraldehyde-3-phosphate dehydrogenase (Fusobacterium nucleatum) [pid:56.2%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:1.1e-104],MGA_705
sequence06	MetaGeneAnnotator	CDS	48133	48987	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKKWLKDMRIKHNLTQEKLAINTGLSKYTIENIEQGKRKGDKKTWDAIEKYFANTSKKRSPKSLFLKAIEKQHYYENFITRSIKSSNAIEGNTLSYAETYSIVFADESLPLQNINPRELYEAINLKYALNYSLEHLNSFNTSLVIKINELINKNIKDTKGYRTGKVLIKGADFVPPQASLVPSMLNELIYQYQNSEAPLLERIAFFHIGFERIHPFEDGNGRTGRVLINHMLINENQVPLVIPEEKRIEYFEYLQNEDTIGLAKMFADLQEKEKAKIKEYTK;locus_tag=LOCUS_7020;note=WP_004116510.1 DNA-binding protein (Gardnerella vaginalis) [pid:35.8%25%2C q_cov:75.0%25%2C s_cov:72.3%25%2C Eval:7.5e-24%2C partial hit],MGA_706
sequence06	MetaGeneAnnotator	CDS	49044	50210	.	+	0	ID=MGA_707;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003564267.1;translation=MKTIETLDLKNKKVIIRCDFNVPIKEGKILDDTRIVSALKTIKYCLRKNAKVILMSHLGRIKTKEDLSKNDLKVVADYLSELLKKEVLFSSKTRGKELEEMIDKMNSKDILLIQNTRYEDLDGNKESSNDKELGKYWASLGDVFINDAFGMIHRAHASNVGIAENIQERGIGFLIMEELDKLSELDNPAHPFIVIMGGAKVSDKAKMMENLLKKCDYILVGGELANTFLVGEGYDLGSSLVEEESIKYCQKVLKKYADKIILPIDFKVNNEISNRDYVIKDITEFNYDDIAMDIGDRSVKIFKKHLQKAKLVLWNGPLGAYEYSNYRRATLDVLNFLVDKNIKTIIGGGDIVAASTDFKDKIYHISTGGGATLKYLEGKKLPSLKIME;locus_tag=LOCUS_7030;note=WP_003564267.1 phosphoglycerate kinase (Lacticaseibacillus) [pid:54.9%25%2C q_cov:98.2%25%2C s_cov:97.2%25%2C Eval:1.5e-111],MGA_707
sequence06	MetaGeneAnnotator	CDS	50214	51227	.	+	0	ID=MGA_708;product=lysylphosphatidylglycerol synthase transmembrane domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003643294.1;translation=MEFVKNLRKNTIVLLLITFVVLFFVLKDDFNDIIDTLFKMKYGFIALAVLFVFIFLFIKAFISYKTVKEKEKYSLLEALKHTVIVQFFNGITPFSTGGQPMEIYMLTKHDISGSRATSIVVQNFIFYQTALVIFGIFAVVMNYFCEFFPKVPLLRELVLLGFIINTLVLLGILLIAFSSRFTGFCLKMVLKITKKIKVFKDNKKTKEKWENRIKEFNSCAKELKNRKLFFVSSVLLNIVSLAFFYAIPYIIVRGTPNLENITLIESLVASAYVLIIGSFVPIPGASGGIEYGFLAFFGNFIPGKITPAILLVWRFITYYLPMIIGGILFSFDRGESK;locus_tag=LOCUS_7040;note=WP_003643294.1 lysylphosphatidylglycerol synthase transmembrane domain-containing protein (Lactiplantibacillus) [pid:29.1%25%2C q_cov:88.1%25%2C s_cov:84.6%25%2C Eval:1.9e-35],MGA_708
sequence06	MetaGeneAnnotator	CDS	51224	52453	.	+	0	ID=MGA_709;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675474.1;translation=MRIGLFTDTYPPFINGVSTSVEMLKNALEKKGHTVYIVTVNESTVKYNYDEENHVLRVPSIPIGWYNYRMSGTYPIRGINIIKKWKLDVIHSHTELGIGIIGRIVSKQFNIPLVHTYHTMYEDYTHYVAGGHLKHTSKAALKYLTEFYCDKTATELIVPTAKTYKLFKDKYKFERNIHIIPSGIEVDRFFKENVDSKEIQLLKKNLKITKNDFIMLFVGRLASEKNVEFLLDLEEKLLKKNKAFKLLIVGDGPDKEKYEEIAKKKKIDANTIFTGKVAWDDMPLYYHLANIFITASITETQGLTVIEAMASGLAPFCIDDPAFLSMCTDELNSVIFKDLDDCYKKIIEFHGNKEKQKRLNSQARIQSEHLSSARYADSVLEVYEHAIKEKNKNRYGIISAISRKIKKDK;locus_tag=LOCUS_7050;note=WP_002675474.1 glycosyltransferase family 4 protein (Treponema) [pid:34.8%25%2C q_cov:95.1%25%2C s_cov:100.0%25%2C Eval:3.6e-63],MGA_709
sequence06	MetaGeneAnnotator	CDS	52558	53322	.	+	0	ID=MGA_710;product=sporulation transcription factor Spo0A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110369.1;translation=MKKTKVLMIDDNKELVTMIEEYFKNEEDIEMAFKAYDGVEGLELIEKKQEQYDLIILDLVMPKKDGLYVLEKMKKKKINKDVIVLTSYNAPDMIRKTSELGISYFILKPFELDDLKEKIEEVVDGVNYQAKSMDIYKNNLEKSITKILHELGVPSHIKGYQYIREGIITLYNKPEVIGGITKELYPDIAKKFDTTVSRVERAIRHAIEVSWNRGNWDLMEEIFGHSVDIDKAKPTNSEFIVTIADKLRLEFSYL;locus_tag=LOCUS_7060;gene=spo0A;note=WP_011110369.1 sporulation transcription factor Spo0A (Bacillus) [pid:50.4%25%2C q_cov:98.4%25%2C s_cov:98.5%25%2C Eval:5.9e-67],MGA_710
sequence06	MetaGeneAnnotator	CDS	53404	54666	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLNIKNMGLLLIIVLIAVLTINTKEAKAAGTVTWSGPSSITIRDTIHNIANPIVASTKCVLFEGGDTHDDVATTTINYTASDTPTNYQITKSATMNLSSLTFTKPGDYSYNLVEELLNSNAEAFWPGEDAPYYKVTISVRNIVDANNVPTGNFTASLIIEKCISGNICSKINPVSGNLIVDFDYETNPESFGHIEISKTVKGIGADINEYFPFTVSIDDADDAFDGWVYPISGIDSTVTYNGSTVSNPTTITSGTPTTIYLKHGQTAIIGQVTSGGNTFDAIPNFYCTGGGHSPTVTSYNFSKNLRIRKLANIDGKTCYGSYVSISENSGSYTPSISLDGSDYISGDSFDDIDGLDLIDNTSLPVESETNAYYFVNTKEMSPVTGLILTILPYLILAGIGIGGTLLVMHLKKQKVDA;locus_tag=LOCUS_7070;note=MGA_711
sequence06	MetaGeneAnnotator	CDS	54727	55983	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKKKLKRKVKVLIPVTIILLIVLFVVGYYEIHGDVKKLSLKLKGPSEITLELGKKYIEKGAKAYYNKKNISSTIKVIGHVNSEKVGKYNIGYKVKYKMVSRKKKRVINIVDTIKPVITLVEDEINIYQNSTYEEPGVKATDNYDGDISSKIKVDNKIDITKVGTYEVIYKVKDSSGNSAEAKRIVNVVLDNPNQKVAVLNYHFFYDPDKGEGCNESICEKVSDFRAHLEYLKENNFKALTMKEFRDFMYGKRAIPEKSVLITIDDGALGTGKHNGNKLIPILEEYKMHATLFLITSWWDIENYRSPYLDIESHTNDMHRENRCRGVTRGAQMLCSSNDEVLKDLQKSISITKSKQAFCFPFYAYNQNAIELVKKAGFELAFIGGQKKATRNTDKYHIPRYAIVKEATLEDFKHYVN;locus_tag=LOCUS_7080;note=WP_000527072.1 M4 family metallopeptidase (Bacillus cereus) [pid:31.7%25%2C q_cov:36.4%25%2C s_cov:17.9%25%2C Eval:3.5e-13%2C partial hit],MGA_712
sequence06	MetaGeneAnnotator	CDS	56081	57343	.	+	0	ID=MGA_713;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896573.1;translation=MERKIYDFFLKWKNDIIRKPLVLYGPKQVGKTFSTLEFGKREYKNIAYFDCYNNPKIVDLFKKEKALDQIIVKLSLLINETIIKNDTLMVFDNVDDVEIIKGIKLFNANTEYHIIVITSRRENLLKFKGEELLFKSMTELDFEEYLWAREEKNLANLIRESFDKHRSCRFHKLALEYFYEYLETGGFPEAVLANVEGKSKNEINVIKKKIMDTYKSEFILNKNLIDIPRSLEVFESIPRQLAKENKKFQYSALGKGKRKSEYESAIKYLVNNQILYRSYKVSTVKSPLSSCREKDSFKLYLTDAGLLYSMLHITRKDLQNYLIREALFENYIAKTLVDLGYVLYFYQSEGKALVNFVVQNRVGDIIPIELITKENSKAKNLSVFVKKVTVKEGYRITENNFSTKKNIRYIPIYATFCIGF;locus_tag=LOCUS_7090;note=WP_005896573.1 ATP-binding protein (Fusobacterium nucleatum) [pid:34.6%25%2C q_cov:98.3%25%2C s_cov:95.1%25%2C Eval:8.9e-57],MGA_713
sequence06	MetaGeneAnnotator	CDS	57345	57890	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYNDIKTPQELYLFMKKNIKYGFISKIDNKAYKRDELNDDEFYDYMIHHGYYLQTPEELLKSGYGLCLDQVELERDWFERHGYKVYTYHSNYHNHTFLIYNEEDAYYLFDRSFYIFNGIHKANSLEECLDLYIGLQKNNLKEPTKEIVLTPYEKIEFGQGFTEIIKHFKEELKDKIVFKL;locus_tag=LOCUS_7100;note=MGA_714
sequence06	MetaGeneAnnotator	CDS	57918	58310	.	-	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKSENNSFAIVALTLGIVSLILSFIPFVNVLSFFGGVVAIIFGIIALSKYQSKGMSISGLALSVLALIIMVFVDMLVFKAIYTEATREENLEKFDRVLQNAEKYNEIENREDIDANLDRAQEIIDSLR;locus_tag=LOCUS_7110;note=MGA_715
sequence06	MetaGeneAnnotator	CDS	58413	59612	.	+	0	ID=MGA_716;product=DNA polymerase IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963608.1;translation=MKDRIIFHLDVNNAFLSWSAVDLLEHGYKKDIRKIPAIIGGDETRRRGIVLAKSPVAKKYGIKTADTIYEAKKKCPQIELYPPYYELYSKKSRELFTYLKKYTPTIEQFSVDEAFLDMSGTNLLYKDHVKLAHTIKDDIKKRFGYTVNIGVANNKLCAKMASDFEKPDKVHTLFNDEIKEKMWPLPVEDLFMCGKKSAERLHSLGIDTIGDLAKADVGKLYKHFKNQANFLIESAKGIDNSKVIPRKERTIKNESISTSRTLSYDYTDIDKLKEILFKQAERLGRELRQKKKYTTTVGIVLKNNLFKSYSHQRKVEATNKNSVIYKTACELLERNWREDPIRLIGIRLADLTTNRDVQLSFDSKEENKEEEIIQDVMDRINNKFGGSSVIPASMKKKKD;locus_tag=LOCUS_7120;note=WP_010963608.1 DNA polymerase IV (Clostridium) [pid:42.4%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.9e-93],MGA_716
sequence06	MetaGeneAnnotator	CDS	59835	60146	.	+	0	ID=MGA_717;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156464.1;translation=MSKEKVRIKLKAYDHRILDNAATKIVETIKRSGGEISGPVPLPTEIEKFTILRAVHKYKDSREQFEMRTHKRLIDIKNPSKETIDALAHLDLPSGVDIEIKTK;locus_tag=LOCUS_7130;gene=rpsJ;note=WP_003156464.1 30S ribosomal protein S10 (Bacteria) [pid:77.2%25%2C q_cov:98.1%25%2C s_cov:99.0%25%2C Eval:2.8e-40],MGA_717
sequence06	MetaGeneAnnotator	CDS	60162	60986	.	+	0	ID=MGA_718;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004399671.1;translation=MKGILGKKIGMTQVFTKDGKLIPVTVIEVEPNVVTQIKTVEKDGYDAIQLGTDTVRAKISNKPKMGHTKKANTEPKRFLREIRGVNVSDYELGQVMNVSVFEPGEMVDVTGTSKGKGFQGVIKRHNQSRGPMGHGSQYHRGVGSLGTMRPMRVIPGKKMPGQMGNVRRTVQNLEVVEVDVENNLILIKGNVPGPKKGLVIIKTAVKNPTKKDANELVNYEEVVEQPIEETVVEETTEEAVQEEPKEETTEEAPAEEKEEPSEETKEEKEETSQE;locus_tag=LOCUS_7140;gene=rplC;note=WP_004399671.1 50S ribosomal protein L3 (Bacillus) [pid:62.6%25%2C q_cov:75.2%25%2C s_cov:98.6%25%2C Eval:3.8e-70],MGA_718
sequence06	MetaGeneAnnotator	CDS	61021	61647	.	+	0	ID=MGA_719;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003701303.1;translation=MKKVDLLNEKNEKVKDIKLNEDIFGIEPNDKVLYDAIILARASLRQGTHSTKTRSEVRGGGRKPWRQKGTGHARQGSIRAVQWVGGGRYGTPVPRDYSKKQNRKERTLALKSAWAHKYNDKELLVIDKLSIKTPKTKEFVSLLETLKIADKKVLVIVKEFEENIILASRNLENVALIASDEVNVLDLVASDVVLITEEALKDVEEVLK;locus_tag=LOCUS_7150;gene=rplD;note=WP_003701303.1 50S ribosomal protein L4 (Ligilactobacillus) [pid:52.2%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.4e-54],MGA_719
sequence06	MetaGeneAnnotator	CDS	61649	61942	.	+	0	ID=MGA_720;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183022.1;translation=MDTKYLEIIKAPIITEKTEIARQNGIYTFKVDPRANKTEIKLAIEKIFGVNVTSIKTMNAKPKKKRVGRYSGMTNHYKKAVVTLKEGQTIDLGLGGE;locus_tag=LOCUS_7160;gene=rplW;note=WP_011183022.1 50S ribosomal protein L23 (Mesoplasma) [pid:54.7%25%2C q_cov:88.7%25%2C s_cov:91.5%25%2C Eval:4.1e-23],MGA_720
sequence06	MetaGeneAnnotator	CDS	61945	62775	.	+	0	ID=MGA_721;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003225795.1;translation=MAIMNYKPTTPGRRGMSTLKNEEITKKSPEKNLVKTVKKNGGRNNQGKITVRHQGGGAKRKYRMIDFKRDKKNIPGKVAGIEYDPNRTANIALINYLDGEKRYILAPQELKVGDMIEAGEKVDIKVGNSLPIMNIPVGTVIHNIELKPGKGGELARSAGASAQILGREDKYVMIRLASGEQRMVLGTCYATIGVVGNEDASLVKVGKAGRKRHMGIRPTVRGSVMNPNDHPHGGGEGRAPIGRKGPVTPWGKPALGYKTRKRKASDKMIVRRRNSK;locus_tag=LOCUS_7170;gene=rplB;note=WP_003225795.1 50S ribosomal protein L2 (Bacillus) [pid:70.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-113],MGA_721
sequence06	MetaGeneAnnotator	CDS	62793	63059	.	+	0	ID=MGA_722;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003357326.1;translation=MSRSLKKGPYVFDRLLKKVEELNKSGKKEVIKTWSRRSTIFPQFIGHTFAVHNGKEFIPVYITEDMVGHKLGEFALTRKCGGHGENKK;locus_tag=LOCUS_7180;gene=rpsS;note=WP_003357326.1 30S ribosomal protein S19 (Clostridium botulinum) [pid:64.8%25%2C q_cov:100.0%25%2C s_cov:93.6%25%2C Eval:2.0e-30],MGA_722
sequence06	MetaGeneAnnotator	CDS	63083	63418	.	+	0	ID=MGA_723;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000818137.1;translation=MKEAKASAKDLRTSPIRTRLVIDTIRGKDVAEALNILTNMNKKSARLIKKVLDSAIANATNNFGLDASKLYVKEATVDAGPVLKRHFIDSRSHIGRKDHRTSHINITVAEK;locus_tag=LOCUS_7190;gene=rplV;note=WP_000818137.1 50S ribosomal protein L22 (Streptococcus) [pid:50.0%25%2C q_cov:97.3%25%2C s_cov:94.7%25%2C Eval:7.8e-22],MGA_723
sequence06	MetaGeneAnnotator	CDS	63435	64181	.	+	0	ID=MGA_724;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003235068.1;translation=MGQKVSPNGLRIGINKDWEAKWYAKKSDFADVLAKDIKVREYLEKNLKHAGIAKVEIERNAKRCEVIIHSSKPGVIIGRGGEEIEKLKKKLSNLISEKVGISIVDIKKADINAQLVADSIAQQISNRASFRMAQKRAIRNAMKAGAKGIKTSVSGRLNGADMARTEGYTEGTIPLHTLRADVDYATAEADTTFGKIGVKVWIYKGEILPGSKKAVEVKEGPKRERKKLEIADTKKEEKAPKEEAGGVK;locus_tag=LOCUS_7200;gene=rpsC;note=WP_003235068.1 30S ribosomal protein S3 (Bacillus) [pid:59.3%25%2C q_cov:87.1%25%2C s_cov:98.6%25%2C Eval:3.0e-71],MGA_724
sequence06	MetaGeneAnnotator	CDS	64181	64612	.	+	0	ID=MGA_725;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003225801.1;translation=MLIPSRTKHRRVHRLPFTGKSRGNTELHFGDYGIQAKEGAWITANQIEAARIAMTRYMKRGGKVWINIFPHLPLTTKGIGVRMGKGKGSVDKWVAVVKEGKIMFEIAGVSEEVAREALRLAAHKLPVATKFVKKEDGGDKNEG;locus_tag=LOCUS_7210;gene=rplP;note=WP_003225801.1 50S ribosomal protein L16 (Bacillaceae) [pid:66.4%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.9e-50],MGA_725
sequence06	MetaGeneAnnotator	CDS	64602	64805	.	+	0	ID=MGA_726;product=50S ribosomal protein L29;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000855718.1;translation=MKVNEIRELSTDEINNKLKETKEELFNLRFKQATGTLDKPSRIRELRHTVARMKTVLKEREKDVKEV;locus_tag=LOCUS_7220;gene=rpmC;note=WP_000855718.1 50S ribosomal protein L29 (Terrabacteria group) [pid:65.6%25%2C q_cov:91.0%25%2C s_cov:92.4%25%2C Eval:2.8e-16],MGA_726
sequence06	MetaGeneAnnotator	CDS	64812	65075	.	+	0	ID=MGA_727;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000004105.1;translation=MEKKAIKKELVGKVVSASNNKTITVLVETYKTHPLYHKRVKSSKKYSVHDETNKAKVGDTVRIVSTRPISKTKKFYLKEIVKEAVII;locus_tag=LOCUS_7230;gene=rpsQ;note=WP_000004105.1 30S ribosomal protein S17 (Bacillus cereus) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-24],MGA_727
sequence06	MetaGeneAnnotator	CDS	65098	65466	.	+	0	ID=MGA_728;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003549034.1;translation=MVQQESRLKVADNSGARELLVIRVLGGSKVKTGNIGDVVVGTVKHAIPNSGVPKGKVVKAVIVRTKQGLRREDGSYIKFDDNACVLIREDKSPIGTRIFGPVARELRDADYMKIVSLAKEVL;locus_tag=LOCUS_7240;gene=rplN;note=WP_003549034.1 50S ribosomal protein L14 (Lactobacillus) [pid:80.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-47],MGA_728
sequence06	MetaGeneAnnotator	CDS	65477	65785	.	+	0	ID=MGA_729;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003728539.1;translation=MNLKVGDKVVVIAGKDKGKEGKIIKTFKNDNKVLVEGINMVKKHQKPMGQETGGIIDMEAPIDRSNVMIIDPKTKKRTRIGHTTDKNNKKIRISRKSNEKLD;locus_tag=LOCUS_7250;gene=rplX;note=WP_003728539.1 50S ribosomal protein L24 (Listeria) [pid:52.4%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.1e-23],MGA_729
sequence06	MetaGeneAnnotator	CDS	65805	66344	.	+	0	ID=MGA_730;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001080831.1;translation=MNRLKEKYLKEVVPSLQKKHNYKTVMAVPKLEKIVINMGVGDATTNSKFLEGAVSDLTKISGQKPVITKAKKSIAGFKVRAGQPIGCKVTLRGENMYNFLDKLISISLPQVRDFRGVSPKAFDGRGNYTMGIKEQLIFSEIDYDEIVKVRGMDIVFVTTAKTNEEAFDLLDGLGIPFKK;locus_tag=LOCUS_7260;gene=rplE;note=WP_001080831.1 50S ribosomal protein L5 (Bacillales) [pid:71.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.8e-71],MGA_730
sequence06	MetaGeneAnnotator	CDS	66356	66541	.	+	0	ID=MGA_731;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156488.1;translation=MAKKSMIVKANREPKYKVRKYTRCARCGRPHAVMSKFGICRICFRELAYKGQIPGVKKSSW;locus_tag=LOCUS_7270;gene=rpsN;note=WP_003156488.1 30S ribosomal protein S14 (Bacillus) [pid:77.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-23],MGA_731
sequence06	MetaGeneAnnotator	CDS	66558	66959	.	+	0	ID=MGA_732;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829768.1;translation=MAVVTDTIADMLTRIRNANSMRYEEVKVPSSNLKLEIARILKEEGFIKDYKLEKDNVQGTIVLTLKYSAKKERVITGLKRISKPGLRVYASANEVPKVLNGLGIAILSTSKGIMTDKEARKQNIGGEVLAYIW;locus_tag=LOCUS_7280;gene=rpsH;note=WP_001829768.1 30S ribosomal protein S8 (Staphylococcus) [pid:68.5%25%2C q_cov:97.7%25%2C s_cov:98.5%25%2C Eval:1.8e-47],MGA_732
sequence06	MetaGeneAnnotator	CDS	66985	67515	.	+	0	ID=MGA_733;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288677.1;translation=MSRIGNRIITIPEGVTVSVDNNTVTVKGPKGELSQVLLKDIEMKIDGNEITLTRKNENAKAMHGTMNAILTNMIKGVKDGYEKDLEIIGVGYRFNVQGKQLVINAGYSHPVKMEIPEGLTVTSSSNTEITVKGIDKVLVGEFAANIRKVRKPEPYKGKGIRYKDEHVRRKEGKKAA;locus_tag=LOCUS_7290;gene=rplF;note=WP_002288677.1 50S ribosomal protein L6 (Enterococcus) [pid:57.7%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:1.9e-53],MGA_733
sequence06	MetaGeneAnnotator	CDS	67533	67895	.	+	0	ID=MGA_734;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081803.1;translation=MIKKRSRNEMRVVRHERIRSDIFGTAEIPRLCVFRSNKHISAQIIDDETRTTLVSASSNDKDLKLKNGSNKEGAQKVGAELAKRAKKAKIKKVVFDRGGYLYHGRVAALADAARENGLEF;locus_tag=LOCUS_7300;gene=rplR;note=WP_004081803.1 50S ribosomal protein L18 (Thermotoga) [pid:61.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.8e-33],MGA_734
sequence06	MetaGeneAnnotator	CDS	67907	68416	.	+	0	ID=MGA_735;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003328273.1;translation=MQKRNQNTKDKSLEELVIEIKSVVKVNKGGRQRRFSATVVVGDRKGRVGLGTGKANEVPDAIKKAIQNANKKMIKIPLIDGRTIAHEIVGKSGAATVILKPAKEGTGIIAGGSVRAVLELAGVKDIISKSLGARTKLNMSQAALNGLKAIKTPEEVAALRGKTVEEILG;locus_tag=LOCUS_7310;gene=rpsE;note=WP_003328273.1 30S ribosomal protein S5 (Bacillus) [pid:58.0%25%2C q_cov:92.9%25%2C s_cov:94.0%25%2C Eval:2.0e-46],MGA_735
sequence06	MetaGeneAnnotator	CDS	68416	68859	.	+	0	ID=MGA_736;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003357513.1;translation=MKLHELEKNIGATSSKKRVGRGPGSGLGKTSGRGHKGQNARSGGGVSPVFEGGQFPLFRHIPKRGFSNKRFKTEYAVINVGDLNVFDNNTLVTPALLKEKKIVKRQLDGIKVLGNGKLEKKLTIQANKFSKSALAKIEESGSKAEVI;locus_tag=LOCUS_7320;gene=rplO;note=WP_003357513.1 50S ribosomal protein L15 (Clostridium) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-48],MGA_736
sequence06	MetaGeneAnnotator	CDS	68861	70132	.	+	0	ID=MGA_737;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000490114.1;translation=MFSTMKQLFTKSNKDLRHRIYFTLGALAIFILGINIRVPGTEDLTSNLGFLDLINAMGGGALKRFSIFALGVMPYITASIIMQLLQMDIIPYFSELSKQGHTGRQKISRITRYMGILFAFIEGYAFAFAFIGKSATPMEYLYIAIVLTAGTAFLLWLGDQISQKGIGNGVSLIIMAGIIATLPQMFIDAFTNLVTFTGSTQAIALGIIKFILFVIVYFAIVIGVIFVEQAERRIPIQYANKSTYGSEASSFMPLKLNSANVIPVIFASSLMSLPGIIARFVKNDTFTLIAEKYLNYTTIVGFILYALLIFFFAYFYTFIQLKPDEFAKNLQENGGYIPGVRPGEETSNYLTKVLSRITVVGAFFLVVLAGLPILFSKLTSLPTSVSIGGTGLLIVVGVALETYKQLESSVLARNYRRSYKRSR;locus_tag=LOCUS_7330;gene=secY;note=WP_000490114.1 preprotein translocase subunit SecY (Bacillales) [pid:45.2%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:2.0e-101],MGA_737
sequence06	MetaGeneAnnotator	CDS	70132	70788	.	+	0	ID=MGA_738;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878179.1;translation=MKNIMFIAPPAAGKGTQAEMVVEKYHIPHISTGDILRDISKEDSEIGSYVRETLASGGLVKDEITYSLIEDRLQKDDCKNGYIIDGFPRNLEQAIKYDEILDKLNIDIGNIILIDIDKDILEKRITGRRLCEECNAIYNINEENSKPEVDSVCDVCGGKLYQRSDDNLESFQNRYNTYMEKTAPIIDYYKKKHLLHTVDGNLDKEQVFAQIERIIEGK;locus_tag=LOCUS_7340;EC_number=2.7.4.3;note=WP_010878179.1 adenylate kinase (Archaeoglobus fulgidus) [pid:44.4%25%2C q_cov:98.2%25%2C s_cov:97.7%25%2C Eval:1.1e-49],MGA_738
sequence06	MetaGeneAnnotator	CDS	70788	71549	.	+	0	ID=MGA_739;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000582539.1;translation=MISIKSKREIELLKVAGRIVYQTHQYLKPYIKAGITTKELDRLAEEFIRSKDATPSFKGYEGFPATLCTSINSQVVHGIPDDTKLKDGDIISVDIGACYKGYHGDSAWTYTVGKVDEEIKRLLADTEKSLFVGLNEIKPGAHIGDIGAAIEEYATSHKLGVVRELCGHGVGTSVHEAPDVPNFGTRGKGPVLKEGMVIAVEPMLTLGSPEIYIYDNDWTIDTIDESPSAHFEHTVVVTKDGYQILTTGDEENG;locus_tag=LOCUS_7350;gene=map;EC_number=3.4.11.18;note=WP_000582539.1 type I methionyl aminopeptidase (Bacillales) [pid:53.4%25%2C q_cov:97.6%25%2C s_cov:99.6%25%2C Eval:1.4e-76],MGA_739
sequence06	MetaGeneAnnotator	CDS	71542	71757	.	+	0	ID=MGA_740;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156508.1;translation=MAKDDKIEVDGKVLEVIPGGKFKVELENGHIVEAHVSGKIRMHYIRILAGDTVTIELSPYDLTRGRITYRK;locus_tag=LOCUS_7360;gene=infA;note=WP_003156508.1 translation initiation factor IF-1 (Bacteria) [pid:77.1%25%2C q_cov:98.6%25%2C s_cov:97.2%25%2C Eval:1.5e-25],MGA_740
sequence06	MetaGeneAnnotator	CDS	71907	72275	.	+	0	ID=MGA_741;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003093692.1;translation=MARIKGVDIPDNKHIVISLTYIYGIGHSLAKEICAGAKVEPTKKTKDVTSDEIVKLRNEIDKHLTEGDLRREIKMNIKTKMEIGSYEGSRHKKGLPVRGQSTRRNARTRKGKGKVVANKKKI;locus_tag=LOCUS_7370;gene=rpsM;note=WP_003093692.1 30S ribosomal protein S13 (Gammaproteobacteria) [pid:63.3%25%2C q_cov:89.3%25%2C s_cov:92.4%25%2C Eval:1.0e-34],MGA_741
sequence06	MetaGeneAnnotator	CDS	72306	72689	.	+	0	ID=MGA_742;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000101625.1;translation=MAYKTRKRKVKKNVPEGQAHIHSTFNNTITTITDKDGNAISWASSGAIGFKGSKKSTPFAAGQAAEAAGKAAYEMGMRKVEVFVKGLGPGRETAIRSLQTAGLEVTSINDVTPIPHNGCRPPKRPRG;locus_tag=LOCUS_7380;gene=rpsK;note=WP_000101625.1 30S ribosomal protein S11 (Staphylococcus) [pid:69.7%25%2C q_cov:96.1%25%2C s_cov:94.6%25%2C Eval:2.2e-45],MGA_742
sequence06	MetaGeneAnnotator	CDS	72729	73679	.	+	0	ID=MGA_743;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003225835.1;translation=MIQFEKPVYKITDQIESNFYGKFELEPLERGFGTTIGNALRRVMLSSLPGSAISSIKIDGVLHEFQTIDGVYEDVATIVLNLKGLVIKNHSEEAKTIHLNANKAGEVKASDIECDADIEIINKDKVIATLAKGGSLNMEMTVTNGRGYIRSEENKKIYDLTAPGVIALDTNYSPVERVSYSIESARVGQDETYDKLIMEVSTDGSTKPEEAIALASRILIEHFNLLTDLSELANETGMMVEKTEDPKVKALETTIEDLDFSVRAYNCLKRAGIHTLQDLVNKSETDMMKIRNLGKKSLKEVMDKIRELGLVLRDDD;locus_tag=LOCUS_7390;EC_number=2.7.7.6;note=WP_003225835.1 DNA-directed RNA polymerase subunit alpha (Bacillus) [pid:55.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-94],MGA_743
sequence06	MetaGeneAnnotator	CDS	73694	74059	.	+	0	ID=MGA_744;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003701337.1;translation=MAYRKLGRDNQHRRSMLATLTKEVIKNEQIKTTEKRAKEVRKFVDKMITYGKKNDLVSRRKALAFLHNDKEVVNKLFNDIAPRYKKRNGGYTQILKLTERRGDDALMVILKLVEEEKKEEK;locus_tag=LOCUS_7400;gene=rplQ;note=WP_003701337.1 50S ribosomal protein L17 (Ligilactobacillus) [pid:60.3%25%2C q_cov:93.4%25%2C s_cov:99.2%25%2C Eval:1.5e-33],MGA_744
sequence07	MetaGeneAnnotator	CDS	682	2826	.	-	0	ID=MGA_746;product=Tex family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246556.1;translation=MNDLIIENISKDLGITIKQVQAVLKLLGDGNTVPFIARYRKEATNGLDEEVIKKIEEVYLYQENLFNRKEDVIRLIAEKGMLTDELKNAILKCEKLVEVEDLYRPYKEKKKTKASAAIKMGLEPLAKQIMAFPTTGSLEELARKYLNEEVTSTDMAIENASYIISEWISDDAGIRKYIRNFIYKNGTIITKLKKSAKDEHKVYEMYYDYNEMIKYIKPHRIMAINRAEKEKVITVSLDYDVDRIEEFIEKRKIKNNESFVVNVVKEAIKDGLKRLILPSVEREIRSELKEKAEDVSIDNFKDNLEHLLLTPPIKEKVVLGFDPAFRTGCKLAVLDPKGNVLKIEVIYPTEPHLKIEESKKILLDLIEKYDIDVIAIGNGTASRESEKFVADAIKDAKRKVDYIIVNEAGASVYSASKLAIAEFPNLTVEKRSAISIGRRLQDALSELVKIDPKSIGVGLYQHDVTPKKLDEALTFVVEKTVNRVGVNINTASFSILSYISGLSKKVIEEILKTREALGKYKSREEIKEVKGVTTKVYEQAIGFIRIVDGDNALDKTRIHPESYEKTEKLLKSLDLTTSDIGTTKLKEKLDEINLLEKARELAIDEYTLKDIIDALKAPDRDPRDDMPKPILKSDILTIDDLHIGEKLQGTVRNVVDFGAFIDIGLHEDGLVHISKMSNSFVKHPSDILSVGDIVTCHVIDINKEKEKVSLSLID;locus_tag=LOCUS_7410;note=WP_003246556.1 Tex family protein (Bacillus) [pid:55.0%25%2C q_cov:99.4%25%2C s_cov:99.2%25%2C Eval:1.7e-221],MGA_746
sequence07	MetaGeneAnnotator	CDS	2881	3546	.	-	0	ID=MGA_747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIVLVNILILLVIPAVVVKTEALQNDQIDTLQEIRYVNSSVLPVKKVVKEEKKNSQKDVKENKEKKVSTVTTKEPTKIEPKKEEVKPTPPPTPPKPDPKPDVIRTLKGSLSGYGPDCKGCSGKTSTGWDLRNGNIYYPDTKYGRVRIVAGDRSIPFGSIVRVKNSKIGTFLAIVLDRGSGVGIGKKHLFDLAFESEAKAAAFMVSYNVTFEIIREGYK;locus_tag=LOCUS_7420;note=MGA_747
sequence07	MetaGeneAnnotator	CDS	3626	4405	.	-	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNEEKTEVLEVVENSAPKVETVAQKEEVPASTQPAPANNAVAPSTPQPVPSQPAAPTPASQPAPAKVETPKPKQPLPEEPRKGGKLRIFLLIILFIILWGVAFFLPDITKYLESMNNKEETEQITTGTLVCNYKNKSRSGSKEIEARFSFADNKLKRVDMTFVTENDDEEKLKLVMDRCDAVSTAVVSLKGIEIKCNQSDGKIVQTEKIDYENFDSKELGPDFAEAGGTYPKFDFNENIDKVNKEMVKAEYRCNKKE;locus_tag=LOCUS_7430;note=MGA_748
sequence07	MetaGeneAnnotator	CDS	4441	5070	.	-	0	ID=MGA_749;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287380.1;translation=MLVSASFLSSKDIGRDLRVLNDTDVDFIHVDIMDGKFVKNKTMPFKEMRNIYRFTSKRLDVHLMVKKPEKLIPKYAALNTEYITFHIESGTNIIKCLELIKKYAIKCGLAISPDTEVKELVPYLPLLDLILVMSVYPGEGGQEFIKDTKKKIDELRKLLKEHNSNALISVDGGINDKSYINCKKADILVAGSYITNSDHFQEKIDSLRK;locus_tag=LOCUS_7440;gene=rpe;EC_number=5.1.3.1;note=WP_002287380.1 ribulose-phosphate 3-epimerase (Enterococcus) [pid:39.9%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:5.1e-36],MGA_749
sequence07	MetaGeneAnnotator	CDS	5075	5905	.	-	0	ID=MGA_750;product=ribosome small subunit-dependent GTPase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002902190.1;translation=MKKGQIVKIESNDYSVLTGNEVLICKCRGRFRKEGLTPLVGDRVDYDEDKRVIEKILPRDNEFKRPKVANVNQALIITSLKLPDFSLNLLDKLLVLMELKKVKPIICITKKDLLTEEEFQEIDKYLKYYASIGYKILYNTDIEEIKKVLKGKISVFVGQTGAGKSTLLNKLEPNFSLKTGEVSKALGRGRHTTRVVEVFSLCGGQVFDTPGFSALEFADFAEEDIREAFREFKEFTCEYKDCRHVNEKECQVKKAVSTGKILPERYVNYLSLIKKR;locus_tag=LOCUS_7450;gene=rsgA;note=WP_002902190.1 ribosome small subunit-dependent GTPase A (Streptococcus sanguinis) [pid:43.9%25%2C q_cov:98.9%25%2C s_cov:93.8%25%2C Eval:3.1e-59],MGA_750
sequence07	MetaGeneAnnotator	CDS	5905	7668	.	-	0	ID=MGA_751;product=Stk1 family PASTA domain-containing Ser/Thr kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003733096.1;translation=MIAKGQRINDRYEIIRNIGEGGMANVYLGYDEILDRKVAIKILRGDLANDEKFVRRFQREALSASSLSHPNIVEMYDVGEDDGMYYIVMEYIEGITLKQLLKKRGKLTLSEAIDIMLQLTDGMAHAHDSYIIHRDLKPQNIMIEDDGQVKITDFGIAMALNSTQLTQTNSVMGSVHYLPPEQAAGKGSTIKSDIYSLGIIFYELLSGRLPFKGENAVEIALKHMKDPLPNLMEENSAIPQSIENIILKATAKNPKNRYDDVKEMHRDLLTALDDERMNEEPYIYPYPETEENAKAVRKLEQIEDDEEQLAEKIEDEDEKKNKKLIIILSCVLGGIVLILLFIFFIWPALTGGKEIKVPNLKNMTIGEAKSELKDKGFRGRIKVKTINDSKIAKGKIVKTDPTKGKKIKSKSTITLYKSDGVKKYKIKDYTGKNYIEVETLLKNMYGLKVTIEKKDVEDGSLYKDKEDLIIDQSIEPGTKVKKGAKITLYIPNIDEKFPDMKNGGWSLADVQEFCRKYNIALTYDEVETTAYEPGKVVSQSVSPNTAMSSVKTLKVEIAKKPVEKKEEKKPDSGQSDKDKEPETEPTE;locus_tag=LOCUS_7460;gene=pknB;note=WP_003733096.1 Stk1 family PASTA domain-containing Ser/Thr kinase (Listeria monocytogenes) [pid:40.8%25%2C q_cov:95.6%25%2C s_cov:86.9%25%2C Eval:7.1e-114],MGA_751
sequence07	MetaGeneAnnotator	CDS	7658	8407	.	-	0	ID=MGA_752;product=Stp1/IreP family PP2C-type Ser/Thr phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000648699.1;translation=MKSFYLTDPGKVRDHNEDSVIITKNTNMEYLMAVADGMGGHSAGEVASSIAISYLGKHFNDTFLNLDKSEAVSWLRNTVTEINTLIFQHEKDHPESKGMGTTLVIAIITKDYILFGNIGDSSGFVMKDDKLHKVTYDHTLVNLLVSAGELTREEAQEHPKKNVLMKALGANDPIEIDVFDCDMDVSEILLCSDGLTNMLEKEQIEHVLLEDADIEDKVIKLIRKANNRGGTDNISVAYLIREEGVSHDS;locus_tag=LOCUS_7470;note=WP_000648699.1 Stp1/IreP family PP2C-type Ser/Thr phosphatase (Bacillus) [pid:42.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.7e-50],MGA_752
sequence07	MetaGeneAnnotator	CDS	8404	9423	.	-	0	ID=MGA_753;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002293986.1;translation=MSIYDLSFEELEEYILNNGGKKYNASQIWEWLYIHKVNSYEEMTNVKKELLEKLNSCFSIALLEVEKIERDSDVNKYLFKLDDGNYIEAVLMKHDYGNSICISSQVGCNMGCKFCESGRLKKRRDLTTGEMIRQILQVEDDLGDRISHVVVMGIGEPFDNYDNVIKMIKIINHPKGLAIGARHITVSTCGIIPKIKEFMNLDLQVNLAISLHAPNDELRSKLMPINKAYPLKDLMKVLKEYTEKTNRRLTFEYIMLKDINDSEECALELVSLIKGINSYVNLIPYNETENLEFNRSNLVQINKFYDILKKNRINVTIRREFGGNISAACGQLRSRKEDL;locus_tag=LOCUS_7480;gene=rlmN;EC_number=2.1.1.192;note=WP_002293986.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Enterococcus) [pid:56.1%25%2C q_cov:98.8%25%2C s_cov:96.9%25%2C Eval:5.0e-105],MGA_753
sequence07	MetaGeneAnnotator	CDS	9455	10411	.	-	0	ID=MGA_754;product=RhuM family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011070741.1;translation=MKNEIAIFEDQDVKLEVNMSGETVWLNVEQLSKLFGRDRTVIIRHINSIFKENELTKKEVCAKFAHTTEHGAVVHKTQTRDINYYNLDLIISVGYRVKSKKGIAFRKWANKVLKDYLLKGYAINEERLKCLEKTVKLIDIAGRMDFDDSEANNVIRVINNYAKALNLLNDYDRRNLVKPKGITDDRKILYEDCIDVVSRINCDSDLFALERDKGLSSIINDIYQSFDGKDLYKTIEEKAANFLYLIVKDHVFIDGNKRIAAALFIYFLNFYNILYKKGKRIIENNALVALILLIAESNPTEKQILIDLIMNFLGADND;locus_tag=LOCUS_7490;gene=rhuM;note=WP_011070741.1 RhuM family protein (Shewanella oneidensis) [pid:36.8%25%2C q_cov:98.1%25%2C s_cov:96.4%25%2C Eval:1.0e-51],MGA_754
sequence07	MetaGeneAnnotator	CDS	10461	10754	.	-	0	ID=MGA_755;product=putative DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003238590.1;translation=MDDLVYYNRLYDLYGELLTSKQREYFEYYYFENLSLGEIAENLNVSRNAAFKQINIVKEKLDFYEEKLKLNEKSNRLNKIAKKISDKKIKEELEGML;locus_tag=LOCUS_7500;note=WP_003238590.1 putative DNA-binding protein (Bacillus) [pid:40.4%25%2C q_cov:92.8%25%2C s_cov:85.5%25%2C Eval:2.5e-12],MGA_755
sequence07	MetaGeneAnnotator	CDS	10763	11764	.	-	0	ID=MGA_756;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000007650.1;translation=MGLFDRLKKAFVKEEVKTEEEKEVKKEVKVYEKGLTKSRDGFVSSLLNLTNKYNKLCDEYFDELEEILINADIGVNTVMSFVDRLRDRVKKDKIDDPKDLKEIIVDELFIIYVNDEILTSKINLQEEGPTIILFVGVNGVGKTTTIAKIASKYKDEGKKVLLVAGDTFRAGAIEQLTDWGKKIGVDSFAKEEGSDPSSVLFDGVDKAINEDYDVVLVDTAGRLQNKDNLMRELEKMNRVLGQKIENAPHETLLVIDATTGQNGISQAKAFKEITNITGIVLTKLDGTAKGGIVLAIKEEVGIPVKYIGLGETKDDLQAFDIEKYIYGLFKDFM;locus_tag=LOCUS_7510;gene=ftsY;note=WP_000007650.1 signal recognition particle-docking protein FtsY (Bacillus) [pid:56.1%25%2C q_cov:91.0%25%2C s_cov:92.1%25%2C Eval:2.4e-96],MGA_756
sequence07	MetaGeneAnnotator	CDS	11829	17636	.	-	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKRKGLYLIISILVIGTFLVFSRADNTNSLYDAVAADSLTAAYNGQHQDSLDNSGTETIHYFAGSDAVNHNNAKLGDTCWQILRTTDTGGVKMIYNGPYDSTNKCNTSRGNHKGITGASRTNKTLSGGAYKYSNSFTYDESTGEFTLTNPITATWSDSTYTNLIGKYTCASTSNTCTTIYNVNSYYTNTQAYTSSYTIGDTHYSQIGTSIFNHGSIGTLAKAGYMFNTVYKSDSSSVSSWGTYEIQTTPFEQSDYDVTENDATYPFTWDSTNKTWESTMKVDSTSASIKFKVKTAGTYVLNYTVSSEANYDKAYFYKDGTELKNDSGSKSGSIVLENLTTSNVIQVKYSKDGSQASGNDNVVFSLGTQTGQATDNRYVFGNSFRYENGNYILQNTIKAEGSDDLSNNHYTCLSTSDTCSELKYIYYKSSSTAYYVTLTGGSKTITDMKNEMLYANDVNRYNSAIKGVIDAWYAQNMNNYTNYLEDAIYCNDRTEGNASSNGWNPNGGSLSTSFQFKDYSSNTVLKCNNVTDQFAVGNTKAKLAYPVGLATYSEMNLLGNNTARNTGQAYYLMSPYYLSSSTPSIRMINTSGSLSTSNSSIGIRPVISLEEGTTYSGGDGSTSDPYVVVTDPRPKIKTSVTNGTITESSRVESGSNKTINYSPNSGYQLKSIKVDGVDVSLSTYANSYTFTNITDNHTISVVYWKPTITTSVTNGTITSTSEVEFGSSKTISYSPTDSSCVLDSIEVDGVAVSTSTYANSYTFTNVTGDHTITVTYRQLTTANFDYGTNVNAKMKKLANNSSSMGYSTADTTIHAIKKANALPTGFTPSTENTVSLNSYSSQYPIYIFFDDTDGTMYYYSEADIVYLNGDSSYMFDNFTELTDISGLSAVDTSNVTDMSNMFLHCDDLVNINALSGWDTSGVTDMSNMFSNSSLTNINALSNWDTSSVTTMSYMFQNCSSLGDIDGASNWDISSVTSMSGMFAGCSSLTNIGALNNWDTSSVTSMSGMFSGCRNLTNINGASNWDTSSVTNISWLFTDCFNLEDIDGASNWDTSNVTNMGYVFYNCDLLEDIDALSDWDTSGVTNMTYMFRDCSSLEDIDGAADWDTSSVTSIENIFSGCKKASGTFPILGNPTTYSSAFSGAAKDSGAQITVVYDCVKTTNIDAIIATKTAGSNVVKGACTTEPADLLNGQTVNSKMKTLANGTSTSSGSSDYAITAIKRSNSLPSDFTPSTANTISTSASAYPVYIYFDDTDGTMYYYTEAAKLRLNSDSSSMFSRMQTLTDISGLSDMDASNVTNMGGMFRNCAIEDIDALTDWDTSSVTSMNGTFAECTSLVDIDGVSNWDTSKVTIMGGMFSDCKISNIDALSSWDTSNVTDMGQMFISCSSLVNIDGAANWDTSSVTSMSEMFRSSYRLANIDGAANWDTSRVTDMGLMFWHCSLLANIDGAANWDTSSVTDMGRMLSECSSLVNIDGASNWDTSSVTDITYIFADSGKASGTFPILGRPTSTSAAFFSAATASDSQITVIYDCTVTTNIDNIIATKSSNSHVVKGGCSNLRTMFDTGQNVNVKMKNLANNSSSMTYSSVDTAIHAIKKANSLPSGFTPSTENTVSLSTSEYPIYIYFDDSDGTMYYYSEDSDVYLNLNSSNMFYNFQGLTDISGLSSVDSSDLNNASSMFRNCSSLTNIDALEEWDVSGVSNMSNMFNGDSALADVDGASAWNTSSVTDMSSMFSGCTNASGTFPILGNPTTYGSTFTNTATATGAQVTVIYNCDKTTNIDRIIATKSSSSNVVKGSCVKSSYNITITNEIYGNMASISKDFTYSVEVRDENDVVDTALSGTFTLANDESEVLSLPEGYSITVTQDSETPYTTTVNDTNSRTITKTVTHNERITYKNTYDISVDTGISSILAPYILLVVLGVLITFGIVCVRKRLKLD;locus_tag=LOCUS_7520;note=WP_011109529.1 BspA family leucine-rich repeat surface protein (Enterococcus faecalis) [pid:25.8%25%2C q_cov:39.5%25%2C s_cov:76.3%25%2C Eval:7.0e-50%2C partial hit],MGA_757
sequence07	MetaGeneAnnotator	CDS	17773	19464	.	+	0	ID=MGA_758;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000854868.1;translation=MKPNNKPNGTKLVVLGGLGEIGKNMYCVVHEDDIVIIDAGVAFPEDELMGIDYVIPDYSFLKENEDKIRALLITHGHEDHIGGIPFLLNQVKIPAIYAPKHAKELIAVKLEDRNIRYDNLFTFTENEKLIFGSIEASFFLITHSVPDSHGICIRTKDGTIVTTGDFKFDLTPIGPMPDLYRIAKIGDNGVDLLLSDSTNALNSGFSTSESVVDNALGEMFSKYTNNRIIIATFASNIYRVKHIFETCYKYNRKICIFGRSMVNNMNISINNGYIDHKELLVTPEEANNLKPGEVTLLCTGSQGEPLAALSRIADGTHKQIHLRPDDIAIFSSSAIPGNALSISRTINKLCLKGVKVFTNNYVSDLHTSGHGNEEELKLMIRLLKPKYLMPFHGEYRMLKRHAEIGMKCGIPEENTFIMKNGGSLLLWNHMIRKDENVTAGDVYVDGSRIGEVGSAVIKDRKIMSSDGILVVIVNVEMKERKLLIKPNITTRGFVQINENEELLKKIENEATKIIQNDLNDKKATFAIMKSNIITNLSSYINNLTGRRPIILPIISDIKREKND;locus_tag=LOCUS_7530;note=WP_000854868.1 ribonuclease J (Bacillus cereus group) [pid:47.8%25%2C q_cov:97.3%25%2C s_cov:98.6%25%2C Eval:3.0e-146],MGA_758
sequence07	MetaGeneAnnotator	CDS	19466	20146	.	-	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYDYHKEEFNYVYNKYIKVLKSYSDFMEIEDRPCEVKPAQLNGKAYKLYQYNYDEVLLVPNKNDLFAGDFDNIIRFSSYEKAGFKFTIISKEDGTIKKETYEYGTYYSDGYPRGKYAYTEMNDEDNLLYQKFLRSKQTTEEFIQKNEVEELGESSRIYAFTRLEHGDKKTYVSPVKKGLLGVKIFGLREERPYSYVNSDKSLVETSEIAVNKSLEKGKVKVKKND;locus_tag=LOCUS_7540;note=MGA_759
sequence07	MetaGeneAnnotator	CDS	20222	24601	.	-	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQPKLLLVLLIISGTFLIILGKAITANAVVEDLKVHKISGLNISKKDYPISNWGHQSMVFTGKYLAIYANNKNADNYEGIIHVFKRNSSGTWVKYFSTEKETYTTSSGTESTRALRYSHGNDMTYIKDTNEIAILYYIYDDNDDPIYRVVYIDASSLDSKKWKRKRIKKLDQTNTLTKQYVSMAYDASLKRFYLGGKRSGVFKYTVCDGEISDAKCTVDVFGTTLSGATGGCSAAKGYLYQSSNIGAQSNGKDTRDGRIYVFHYMGGDYKSSSSYEYVKGWKILPGSDFTTSGDIIEVPGETESVELNTESGRAYRPWILFHNPGKKNKNTNAYTQNSSYSAWVLTPDFTAKDPKASIVTKVSTNNQTGFDNLGMQATITSSSPSTNKTVTAVNNKYSYSGPASTTIGNYTFNIKQASKTAPNWTFDQSTKKATVAVEYSLATNNLISSTTFANGDNTFTNTYNYSAVSVPLSVNVQTTKTYSGLDTPSTSASLYKDNQKVGTVSASENKYSFSDVQISQEGTYTYTIKQDNSGQTTSGNITTDIDSSNITATITATKSASGLECSVKYSKSTFTNKVSADFPEVNNKVEINIKTDKHQTSVTPNTSATLYKSGVVIETKSNASDKYTFNIKVTEPGTYRYTIAQDTSITGNGNYSYELDDKTITLTIVATVENNNLVSTYSLSSNTFTNKVSYSYDNINIPIHTKIVTIKSLDTIPTPNTQATVVIGGNEENISNEGEYYNYTFRTNEPGVYKYIITQKNLDNDEYMYDIDDKRITYTIEVTDNNGTLQYTINPTSAQFNNEVSTSESINFSVQINTSVSNSEIETPVSSATLYRNNASLAQANSRSRKYTFNDIEITSPGEYVYTIKQDKNGKETIGNIDYYYDSKEIEVHVTATEGEGRLWLDISYSANVFENSITQNYDPISVPISLTIDNIKDNESLSVAETSAAIYQGDNKLQTVTSANEKYDFSVQIAKAGTYIYSIRQNNPGIHKEPTYSYTIDGDSKIVNVEVYEEDNVLKYRKSFRYGDSTFENYYMKGFDAIAVPIEVNIVNDAPNPNINIPVTRASIYRDKEKIETVNSASNKYTFTPVEFLTEGEYDYQIKQEGYTSHINDTYEINMDDSEINVHISVFAEGGKLKHNITYDSTEFNNKIIAHYTAVDVPLEVSIIDNYQGEEPIKSRAVLATNDKVLNTMENEESKYKSSVSVDDTGTYTYKLYQQQPYHKTENNLVQDLDDKTITATIDVTDNNGALSYNVRYDSNSFNNNYTPTEAPNDPFVNVPVNINMFSNSGDIKDLNMQATLFENNIPIETVASESMGYAFKTLLLAPGEYTYQVKQNEVESDNWYIDDQIIEVTITVNDDLTYSLAFKDDISSFTNTNVDVVDPTEEDEVIPDDKENDSNNKGNRGRYENPLTLSDVPDTASFASIVLKFLGVILILGGLYIWVLVSNHHFVTKNDV;locus_tag=LOCUS_7550;note=WP_011068088.1 FctA domain-containing protein (Bifidobacterium longum) [pid:21.5%25%2C q_cov:40.5%25%2C s_cov:25.9%25%2C Eval:9.0e-10%2C partial hit],MGA_760
sequence07	MetaGeneAnnotator	CDS	24701	27016	.	-	0	ID=MGA_761;product=phosphoketolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964652.1;translation=MKTLTKNELENIDKYFRAANYLSVGQLYLLDNPLLRRKLSINDVKNNLVGHWGTAPGQNFVYTHLNRIIKKYNLKMIYVSGPGHGGEAMIANNYLDGTYTRFYPKITEDEKGMQKLFKQFSFPFGVSSHVAPETPGSINEGGELGYSLVHAAGAVLDYPDLIAACVIGDGEAETGPLATSWNINKFINPKKDGIVLPILHRNGYKIANPTVFGKMSNDEIESYFKGLGYKPYFVMGKNVMMMHEEMARTLDLVVADIKKLKKGESKKWPLIVLTTPKGWTGPKVAEGSFKAHQIPIQIDNEHIENLEALEKWLKSYHPEELFDGKGKLRKEIRDAVVPSPMKCMGASEYANGGLLLKEIITPNWEDYGIDIIDRGVIEASDTNNLSPYIRDLFVLNKKNKNFRIFGPDEALSNKFNSIFEVEKRTWNMAIDKKDELLSPEGRIMDSYLSEHVCEGMLEGYLLSGRYGFMHSYEAFIRIIDSMASQHAKWLKVCQDIKWRKPIASLNFMLVSHVFQQDHNGYTHQDPGFLNHLVTKKADVVRMYLPPDTNCLLSCFDHCIKTKDYINVIVASKHLRPQWLTVEEAKAHCTKGFGIWDFASDKGEVDLVMACAGETPTLETLAAVKILKNSIKGLRIRVVNVVDLMKLESNEKHPHGATDEEYDYVFTKNKPIIFNFHGYPSLIHQLTYKRHNKNMHVHGYKEEGTITTTFDIRVQNEIDRFHLVKAALKELPQYGKFTKVLADWCDDMLKRHDKYIKEYGIDMPYIREWKWK;locus_tag=LOCUS_7560;note=WP_010964652.1 phosphoketolase family protein (Clostridium) [pid:57.8%25%2C q_cov:99.5%25%2C s_cov:98.1%25%2C Eval:2.3e-272],MGA_761
sequence07	MetaGeneAnnotator	CDS	27089	27478	.	-	0	ID=MGA_762;product=diacylglycerol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000365219.1;translation=MFKKKYVKEEIKKRRNSFRYAIEGIFSAFESEANMKIHIFIMLLVIILGLFLKISLNEWFACILLFCLVIGSELFNTALEEVVNLASPHVNPHAKLAKDLSAGAVLVFALGAVVIGCIIFLPKIIELFT;locus_tag=LOCUS_7570;gene=dagK;note=WP_000365219.1 diacylglycerol kinase (Streptococcus) [pid:46.0%25%2C q_cov:86.8%25%2C s_cov:85.6%25%2C Eval:1.9e-20],MGA_762
sequence07	MetaGeneAnnotator	CDS	27471	28076	.	-	0	ID=MGA_763;product=phosphatase PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055744452.1;translation=MKLKKRYFIIAILIIIFIVLLMLVLSRGVLNIDKKAIDFVASIRTPFLTTFFKLITKLCNATFLVILTAILLVFWKDKKEKIFIPINLGAIALLNFILKIVIRRNRPTDMLIKQGGYAFPSGHAMLSVAFYGFLCYLIYRQVKNKILRIVLLIIMSLLILLIGFSRIYLGVHYLSDVLAGYLLGLIYLIVFIEAKEKMKNV;locus_tag=LOCUS_7580;note=WP_055744452.1 phosphatase PAP2 family protein (Brevibacillus choshinensis) [pid:35.1%25%2C q_cov:82.6%25%2C s_cov:81.0%25%2C Eval:5.5e-21],MGA_763
sequence07	MetaGeneAnnotator	CDS	28121	29674	.	-	0	ID=MGA_764;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002354863.1;translation=MNNTTFSILLAIIGLFVGFVIAFVFNMIKNKSKEVKANALIEQAKKEAEKLKRDAILEQKEEAHKLKMETDKEIKEKKAELKQSENRLLQREASMDKRDELYQKREASLDDREAKLSKEQKDILNEKSKVEEIKQEQIKELEKISGINKEKAKKMVMEKVKDSMQREIAAYIKEQEDEAKLTVDNKARELIVSSMQKYAADIASDQTVTVVDLPNDEMKGRIIGREGRNIRTIEAITGVDLIIDDTPEAVVLSSFDPLRREIARVTLETLIKDGRIHPTRIEELYDKTAKDFHKKIIEYGNDAAFELGITKLDPGLVEIIGKLHFRTSYGQNALNHSLEVAHLAGLLAGELGENVTLAKRAGLLHDIGKAIDHEMEGSHVDIGVDLAKKYHENETVVNAIASHHGDTKATSVIASLVAIADALSASRPGARNDSLENYIKRLTQLEEVGNNMDGVDKTYAVQAGRELRVIVKPDEVDDLEAHKIARSVKEKIEETMKYPGTIKITVVRETRAQEEAK;locus_tag=LOCUS_7590;gene=rny;note=WP_002354863.1 ribonuclease Y (Enterococcus) [pid:54.8%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:3.0e-161],MGA_764
sequence07	MetaGeneAnnotator	CDS	29775	30023	.	-	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDQMLMDNYLLVLKSTVEVYVHGTLESSNESVRKLLKQGLDNTMCAQANTYTEMTKYGWYKIDNVKDTAIKKVLDKVKQSS;locus_tag=LOCUS_7600;note=MGA_765
sequence07	MetaGeneAnnotator	CDS	30016	30207	.	-	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQKELLYVEDAIGHEGVIIKVLAETLNYLEDPNLISFMEKELKLHEGFQEKLVSKLEVNSNE;locus_tag=LOCUS_7610;note=MGA_766
sequence07	MetaGeneAnnotator	CDS	30268	31218	.	-	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIKSLILVIVMLVVSVLNVSAAEFPQNYEANGIKYTIEGMSIKILDEEGIRTNTVYKTISIPADKITINPVASEINVPTGHTSATGVKVNYTLSDISVEELVRAEIPTIEDNNKQYLVLVTLDYKITEIPEGYNYIHYVNFFDYMKLFIDSFSNPSEEATIDTRISLNQSVSQNVGAAAYGKENDEIYFKTGKIEGTDTDMLAVQDYVVLSNEEKVEFSDSTLVNPKSGHRFIIHNLDDIDGVLAQVAADNSNSSGRDNSSTSTTTTTKKTVTAPGEKVKVPDTNKNISILLLSGALLLITGGIYIFIKPKEEA;locus_tag=LOCUS_7620;note=MGA_767
sequence07	MetaGeneAnnotator	CDS	31305	32717	.	-	0	ID=MGA_768;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881134.1;translation=MKLLKDLVNCDSDLEITGVTSDSRKVEKGFLFVAEKGFFTDHIDFIDSAIEKGAVAAIVSKKVDKDIYQVEVPDVNSEFISILEKFYDKDKWTSSFIGITGTDGKTTTATIINKILNYHDDCAYIGTNGIESKKFKTTTNNTTPIPEELYPYLKRLNDDGNKNIIMEVASEALLHKRVDTLRFKYAIFTNLTEDHLNIHKTLDNYIESKKHLFSLVEETGKCIINIDDNVGKEIIAEKGNCISYGFSDDAQYKIKDVDMVLGKTTFTIINDGKEYSFETPLIGVYNVYNLTAAIIVAFLEGFTYEELKSIIKEIDTIPGRSEELKFGTNYKIILDYAHTAPAIENILTTLKGYPHKRLISLTGSAGGREKAKRRLMGKACLENSDLVIFTMDDPRKESVDDIIDDLIDDSPLTNYVRINDREEAIKYALDQAEAGDIVAILGKGRDNYMALAEGKVPYCDYEVIEKYFNK;locus_tag=LOCUS_7630;EC_number=6.3.2.13;note=WP_010881134.1 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Aquifex aeolicus) [pid:37.0%25%2C q_cov:96.0%25%2C s_cov:93.2%25%2C Eval:3.6e-70],MGA_768
sequence07	MetaGeneAnnotator	CDS	32863	33864	.	-	0	ID=MGA_769;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245789.1;translation=MTKETKSDKTLDKVLNDIEKQFGKGSIMKLGDNAHMKVDVCPTGCLSLDIALGVGGYPRGRIIEIYGPESSGKTTFALQAIAEQQKRGGRAAFIDAEHALDPEYAKKLGVDINDLLLSQPDTGEQALEICEALVRSEALSIIVIDSVAALVPQAEIDGEMGDSHVGLQARLMSQALRKLSGTINKTNTTCIFINQLREKVGVMFGNPETTTGGRALKFYSTIRLDIRRNEQLKLGDGVVGNKTTIKVVKNKVAPPFKTAVVDIMYGEGISHEGELIDLGTEAGILEKMGSWYSYNGEKLGQGKENVKLLLKDNKELAEEIEKKVREFYSIAEK;locus_tag=LOCUS_7640;gene=recA;note=WP_003245789.1 recombinase RecA (Bacillus) [pid:71.9%25%2C q_cov:96.1%25%2C s_cov:92.0%25%2C Eval:1.3e-129],MGA_769
sequence07	MetaGeneAnnotator	CDS	34030	34629	.	-	0	ID=MGA_770;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183559.1;translation=MNTPTKLTVLRLILSIVMIIILIFPFYSVGINWPKYMVSGIKIDLRYIVAGVIFIIASLTDFLDGYLARKNNQVTDLGKMLDAIADKVLVNPILIILACQGFIPVVVPVVIIIRDIIVDAVKMEIGNRGHVVAAINSGKLKTAAMMVGLTLTFFYNLPFELINVRVSLILVLFATVMALISMFEYIALGKRMIFADAKK;locus_tag=LOCUS_7650;gene=pgsA;EC_number=2.7.8.5;note=WP_011183559.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mesoplasma florum) [pid:36.5%25%2C q_cov:97.5%25%2C s_cov:97.1%25%2C Eval:1.1e-26],MGA_770
sequence07	MetaGeneAnnotator	CDS	34613	34942	.	-	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTYAKYLGLDSDKVADEFNEFLFAHTSKISLKDIEEEQAKQEATKEVKMHSPYTKEYKKKINYKPILIGVGALILLLVLIYLMVMIMNRKPIRNSELKGEKFNYEYTY;locus_tag=LOCUS_7660;note=MGA_771
sequence07	MetaGeneAnnotator	CDS	35472	35813	.	-	0	ID=MGA_772;product=cell division regulator GpsB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000622431.1;translation=MYQNKIVLTPQDILEKEFKIDTRGYRLKEVDSFLDTIIGDYEQFLNIINSLEKEKADLLSEIMKLKQELRTAKTNAEIVKSTESNEMTNVDVMRRLSQLEKMVYGTTKTKEEE;locus_tag=LOCUS_7670;gene=gpsB;note=WP_000622431.1 cell division regulator GpsB (Bacillus) [pid:42.2%25%2C q_cov:93.8%25%2C s_cov:96.4%25%2C Eval:5.4e-15],MGA_772
sequence07	MetaGeneAnnotator	CDS	36100	36702	.	+	0	ID=MGA_773;product=Holliday junction resolvase RecU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000155598.1;translation=MSITKQNKINYPGGTKVKVSKLPTNYSNRGMALEDDINLTNNYYIDNDIAYIYKKPTPIKITKVDYPSRQKAVIKEAFFTTPSTTDYNGIYKGKYIDFEAKETNSKSSFSLANIHKHQIKHLENIYRHGGISFLIIRFNKLNKTYLLKAEDLISFLENEKRKSIPLDFFEKYGIIIEEKYNPRLDYLKIIDFLYGGSYGK;locus_tag=LOCUS_7680;gene=recU;EC_number=3.1.21.10;note=WP_000155598.1 Holliday junction resolvase RecU (Bacillus cereus) [pid:45.9%25%2C q_cov:93.0%25%2C s_cov:98.0%25%2C Eval:5.2e-48],MGA_773
sequence07	MetaGeneAnnotator	CDS	36692	39631	.	+	0	ID=MGA_774;product=PBP1A family penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723002.1;translation=MANNRNKRSTYQKKKRSSNSRAKTRSEATKRYSSKDFYGSERVSFKTTNYSPSKSKTKPIKTTVKSRRKNRITLTKNQKLACLGAFALVEVFCLIRFDWFIALFFALGVGVIAGFTVLLHKAENNKKRKRLLNLAIIACLALGIIIVSAIALFLIFITLKAPKFDTKKLNKKEMTILYDKDNKEIIRLGSEKREKVTYEKLPEVLVDAIISTEDSRFFQHNGLDTARFVSASVKQLAGQSDAGGASTLSMQVIKNSFTSTESRGIAGIVRKFTDIYLAVFKLEKNYTKQQIIEFYVNNHFLGGNIYGVEEASQAYFGKHVSDLNLSEAATIAGLFRSPNEYRPITHPDAAEKRREVVLKRMLAHGYITKEEFEAANSIPMKSMIRTTVDEESDEYQGYIDTVIEEAKEKYHVNPYTTPLIIHTNMDRDKQDAVNAVFNGEAYDWINEKIQAGAAVLDTETGQILAIGAGRNRSGKSTFNYATQMNRQPGSTAKPLFDYGPGMEYNDWSTYGYNEKGNYKMFVDAPYTYSNGRKINNWDGGYFGTIPLRKALSASRNIPALKAFQKVDNQKIVKFVTSLGIKPEIDSEGYIHEAHAIGAFTGVTPLQMAGAYSAFSNGGYYNEPYSIAKMEFRDSGEVVEHKKKKKKVMSEATAYMITNVLQDVNLTGGTPAGIACKTGTTNFDTATIAAKNLPGDAIRDSWVIGYSTKTAIGMWYGYDIVNSTYVSRNIPASAQKDRLFAALVNAGAMERRRSAFKQPNTVSKVPIIAGSNPARIAGDGYSGSVTYEYFKKGKEPSKSTADIKTKLATPGGLKASFNGSNLVTITWNAVSRIPDDEDFGELVYDVYAGSVLIATTASTSFAYNTSSPFTTYKVYATYKSYSGARSDPATFELKEDIDLSLTCNAITSTDNTFATIDTSDCQVRNKGTTVTANIKSVTFENGSPTITGLTPGTTTSHAVKADVEYQSKTYNLSTNVTVIT;locus_tag=LOCUS_7690;note=WP_003723002.1 PBP1A family penicillin-binding protein (Listeria monocytogenes) [pid:37.0%25%2C q_cov:76.9%25%2C s_cov:94.9%25%2C Eval:1.3e-129],MGA_774
sequence07	MetaGeneAnnotator	CDS	39642	40274	.	-	0	ID=MGA_775;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000933025.1;translation=MKNKSLEIEKYLDYLFPDPKCELNYTNDYELLIAIVLSAQTTDKRVNSVTSVLFDKYPSLEALSKASLADLETILRPLGSFRKKALYVHNIANILHNEYNDIVPHDRDRLENLPGVGRKTVNVFFGEYLGKPAIAVDTHVNRVAKRLGIAKEKDNVLQVEEKLKKCFPKDSWAKIHLQLVLFGRYHCKAKNPNCKECQIINLCKEKKKNL;locus_tag=LOCUS_7700;gene=nth;note=WP_000933025.1 endonuclease III (Bacillus) [pid:48.5%25%2C q_cov:93.3%25%2C s_cov:91.2%25%2C Eval:1.6e-50],MGA_775
sequence07	MetaGeneAnnotator	CDS	40264	40923	.	-	0	ID=MGA_776;product=DNA replication protein DnaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000728542.1;translation=MENQEFIKVLTDNNMVIPLYLFKNYKNLNLELEEFIVLMYLYSEKIDIFAPGKIGNDLSMSLDEVMGIISNLTDKKMIEITSKKNKSKVMEDYISLNPFFSKLSLLIFDNSDKESDELSVYELIEKEFGRTLSPMEYEIIKAWLDGNTKEELIREAVKEAVFNGVTNLRYIDKILYEWKKAGIKSLKDVEERRKKFKGKKEDKTNVELFDYDWFDDDEK;locus_tag=LOCUS_7710;gene=dnaD;note=WP_000728542.1 DNA replication protein DnaD (Bacillus) [pid:29.1%25%2C q_cov:98.2%25%2C s_cov:99.6%25%2C Eval:1.8e-23],MGA_776
sequence07	MetaGeneAnnotator	CDS	40934	42025	.	-	0	ID=MGA_777;product=CCA tRNA nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001238960.1;translation=MLEIAIEILKKLEDSNYKAYIVGGFVRDTILKIKSNDIDITTNAKPKEIKEVFSGYDVNLSAAIYGSVILNYKNVKFEITTFRKETKYLDNRHPAEIEYIDDLYQDLLRRDFTINTICMTSEGEIIDFLKGQDDIKRHLINCVGDANKKMSEDALRIIRAIRYATKLDFNISRDVEEAIRKNKKKIRTLSYNRIKEELDKMFTCPNALKGIELIEKYKLAKELGFSDLDKAKKTHSLIGIWAVVDKDLKYPYTNNERTLIENIRKVMERDNLDPYVLYKYGLYVNQIAGEIKELDTKKITEVYNDLPIKSRREIAINATEIIDIMGNDGMLTEIYHDLEKEILLNNLENKEESLAKYIKDNYR;locus_tag=LOCUS_7720;EC_number=2.7.7.72;note=WP_001238960.1 CCA tRNA nucleotidyltransferase (Streptococcus) [pid:30.4%25%2C q_cov:97.8%25%2C s_cov:95.8%25%2C Eval:1.3e-45],MGA_777
sequence07	MetaGeneAnnotator	CDS	42100	43287	.	-	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKVFNGYNIALLLIVILLSMFSLKTVSVKAAGTITWSGTNKVTIERTIDNLFNPDAVTFTYKITPTASNPAGASGVPTNATVAFDGTEEMVNNQVKKSSSLSFANVEFTRPGDYMYIIAETDTDNTAFATDSTNMYTVIISVRNETAASGVPTGNFTASMILKDKDNTKVDGISGADPIAAFIASVNGGKFTHLEIENTVEGNMAEDDIYFAYTINLKGYTGTYPITGIDPQVEYEGTMVTQPTEIIGNTEATIYLKHGQTAVIGRVTEGGTTYDVIPVEYESATQIANLKEKRTPILLANDTGKKTTLFDIVEDNKDYEASYSINGAEVVDGNAITNAEVVPKVVKVTFFNSKNRSIVTGIITTIVPYILLIVITVCGTLIAMNMNNKKETAK;locus_tag=LOCUS_7730;note=MGA_778
sequence07	MetaGeneAnnotator	CDS	43387	43659	.	-	0	ID=MGA_779;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001043034.1;translation=MKKVELVEAVAKKTGLTKADANRALDATLAAITGALAKGDSVPLVGFGTFKTAKRAAREGRNPRTGETVKIAARTAVTFKAGSALKDAVN;locus_tag=LOCUS_7740;note=WP_001043034.1 HU family DNA-binding protein (Gammaproteobacteria) [pid:58.4%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:5.2e-23],MGA_779
sequence07	MetaGeneAnnotator	CDS	43824	44174	.	-	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANIFEEIDKQREDLPKIDTIAKEVGKQKLNYYQMAAIVIFFILFVSGIVLGNVFPACSSNGELYSKVCTKTEFNTSLTLFTWFCSFIGCMLIYAIGEIIEQLRLINRNLSKSKTK;locus_tag=LOCUS_7750;note=MGA_780
sequence07	MetaGeneAnnotator	CDS	44179	44817	.	-	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKKDDKWYNNPNLIILFLIALSAIIILSSQSFAVKNNMDAVSILRSLLNHNTIYFMSLAYFIILQTRVGKKYFNFLNVLLIIVYFIMFMSSLFTVFQSFGLAYIVELGLHLVILLYLIYTFIKETKVWRELKLNKVPFDEIGNDMYFYLIAILSIVALVVNLIDASNFDEVCVSLLGSLYYILFGRYIYLYKAYSDSKKIAKEKKKIKE;locus_tag=LOCUS_7760;note=MGA_781
sequence07	MetaGeneAnnotator	CDS	44959	46266	.	+	0	ID=MGA_782;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003727996.1;translation=MVLPTVALVGRPNVGKSTLFNKIVGKKISIIEDTPGVTRDRLYQDTIYNNKPFSLIDTGGIDMENVTFNEEIKTQALIAIEEADVIVFMVDGKEGITSNDLEISKILRRSKKKVIVAINKIDTKTAQENLYDFYELGFDTYIPISSIHNLGYIELLDAITMDFREADVEEDTRLKFSIIGRPNVGKSSLVNALLNEERAVVSDIAGTTRDSIDTTLKYNGEEYVMIDTAGMRKKGKVFESIEKYSLIRSMRAISRSDICLVVINADEGITEHDKHIAGYAINEGKGLILVVNKWDLVKDKSIKEFTQLVRNEFQFATFAPVVFLSALTKKRIHTLMPEVIKVAENIKREIKTSILNEVISEAYELNLPPTYKGKRLKIYFVSQSGIKPPKFTFRVNNKGLVHFSYERYLINKLRENFDFTGTPIEIKFKNRSGDE;locus_tag=LOCUS_7770;gene=der;EC_number=3.6.5.-;note=WP_003727996.1 ribosome biogenesis GTPase Der (Listeria) [pid:54.7%25%2C q_cov:99.1%25%2C s_cov:99.8%25%2C Eval:8.3e-138],MGA_782
sequence07	MetaGeneAnnotator	CDS	46266	46457	.	+	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFGNNKERKDPTNEIEMLDQALENLKKRYEDKAITLEEFSKLCEELGKKKEKALKRLEKENN;locus_tag=LOCUS_7780;note=MGA_783
sequence07	MetaGeneAnnotator	CDS	46495	46731	.	+	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGDNFFKRVENKTNVDKESIMSLASKLQGNMKDEKTIREVIKKLSTLSGKEVSKEKEDKIVKTIMEDNVPEGIDKMF;locus_tag=LOCUS_7790;note=MGA_784
sequence07	MetaGeneAnnotator	CDS	46820	48295	.	+	0	ID=MGA_785;product=stage IV sporulation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000416519.1;translation=MDKKEIIKNIAKRSNGDLYLGVVGAVRVGKSTFIKRVVETLIVPNIEDEYEKKRALDEIPQCAAGKTIMTTEPKFVPNTAAKIKIDDFSCNVRLIDCVGYMINNANGAEDENGPRMIKTPWYDEDIPFVEAAEIGTEKVIKDHSSIGIVITTDGSIGDFERKDYVEAEERVINELKELGKPFIVLLNSTHPTLPETEQLAEKLSEEKKVTVIPVNIDTMSEVDMYNILRSALYEFPVMEIKVNMPEWITRLDSKHDVKKEYINCIRESVIEIDKLKDIENINSNFLENEYIEKAYLSDVDPATGIVTITIEAPNDLYNSVLNDIINIDIRSKADLLSIFQEFNEAKSEYDQIKYALNMVKQTGYGVATPKVEEMKVDNPVVVKQGTRYGIKIKAVASSIHMIKVDVESTFEPIIGSEAQSKELIDRLMKDYKEDPNSIWKSEIFGRSLNSIVQEGIQSKINLMPDNIRLKLQNTLSKVVNKGSNNMIAIVI;locus_tag=LOCUS_7800;gene=spoIVA;note=WP_000416519.1 stage IV sporulation protein A (Bacillus) [pid:54.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-167],MGA_785
sequence07	MetaGeneAnnotator	CDS	48303	48722	.	-	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVSEYNDKVIIYLNKYFLKDLDYSNKEEVLKLLLSLKKRISIDLEGVYDVKVYHDKENMIMELYYLDEIELDYPSFNIEIYNNCTFLLEFNDYFDIPKNKKVLIYNDKYYIDLDSLSNKEIIKYSDFYQIVHFNKKDA;locus_tag=LOCUS_7810;note=MGA_786
sequence07	MetaGeneAnnotator	CDS	48754	49347	.	-	0	ID=MGA_787;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229621.1;translation=MVIKSANLEVMATRRSQYPEGGKKEFLLVGRSNVGKSSFINALTGRKRLAHISSTPGKTKTLNFYCINDAFYLVDVPGYGYAAVDKKTQTKFGMMIEEYLETRDVLKRVFMLIDFRHKPTEDDLLMYNFLKYYNIPVTIVATKADKVSGSKKEKQLKMIMNTLDLVVGDDLIVFSGNTKLGVKEIWTKIESLLVETQ;locus_tag=LOCUS_7820;gene=yihA;note=WP_003229621.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Bacillus) [pid:51.3%25%2C q_cov:98.0%25%2C s_cov:99.0%25%2C Eval:9.1e-53],MGA_787
sequence07	MetaGeneAnnotator	CDS	49337	50296	.	-	0	ID=MGA_788;product=bifunctional oligoribonuclease/PAP phosphatase NrnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000545149.1;translation=MLKKILKEIKKYETIVIARHIGVDPDAFASQVALRDSLRLSFPNKKVMAVGTGSNKFNYIGKLDKLEMDDKTLLIVLDTPDIRRIDISKDLKEFKSIIKIDHHPFVDKLSDLEYIDTKASSTCEIIMKFLDEVGLTCNEEIAEVLYMGLIADTNRFFNSTTPDTFSIVSKYLRKYKFNMKEIYQKFYLRDLKEVRFEGYISENMVVTEDKVGYIKITDKLLKKFEVDAAAPGNMVNDFNFIDGIVVWLTITEDIKNEIIRVSIRSRGPEINKIAENYAGGGHKYASGARLKTMKEADKLITDLNKAVRDYLDKEEGNGN;locus_tag=LOCUS_7830;note=WP_000545149.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Bacillus) [pid:38.4%25%2C q_cov:94.4%25%2C s_cov:97.7%25%2C Eval:1.0e-51],MGA_788
sequence07	MetaGeneAnnotator	CDS	50289	51476	.	-	0	ID=MGA_789;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003223511.1;translation=MKIISINAGSSSLKFKLFEMKDESVLASGLFERIGIEGSNYTIKYDGNKVSEQAEMPTHAEAVSILLNRLIDLDIIKSLDEIEGIGHRVVTGGEKYKQSVLIDNKVIKDVEDCIELAPLHNPANIIGINAFRKALPNVKMAAVFDTAFHQTMDPVSYLYPVPYAWYEDHKVRKYGAHGTSHMYIAEAIAKELKKDNLKVISCHLGNGGSISAIKDGKCVDTSMGFTPIAGIMMGTRSGDVDPSIIPYIMVKETKNASEVLEDLNKRSGFLGLSGISSDSRDIEKGISEGNERCILAQEKYVRTIVNYIAQYYVLLGGCDALVFTAGIGENSAETRKRVVEKLACLGFKMDLKANDVRGELRKLSTDDSKSLIYLIPTDEELMIARETVTLVKQNA;locus_tag=LOCUS_7840;note=WP_003223511.1 acetate kinase (Bacillus) [pid:56.7%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:2.8e-121],MGA_789
sequence07	MetaGeneAnnotator	CDS	51546	55508	.	-	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHRRRNLYLIVSILVIGVFLVFSRAENEPSNKLYDAVAADSLTATYNGQHQDSLSGTGTKTIYYFTGSDDIVNRNNVKLGDTCWQILRTTDTGGVKMIYNGKYDETNRCNKSRGTHKGMIYNYYVTKALNSAYQYGDSFTYDEDTGVFTLTNPTTATWSDSTYKNLLGKYTCASATNTCTVLNYVGGYKDSTTAYIHDYEIGDTEYSQIGEGGFSAYQSSIAMVGYMFNTAYEYSSDAMDVTKVLDEGTQNYFSLAYYYGTGLNYGSTYRLTGAATQTSANALIGKYTVRKTTAAATGTTAYYITGKVSQYLYYITLTGGKLLTTSGVNKYYSYATSHSGNALTNPTTIRTTTYINNFSNLEEKYFCYGNTTTTSCSNMGYITDVGPSRIYYLPITYKFGSGVTYSNGVYTLTGVSSIPRPDSTHHYTCGTSGNSCESVFHVLDGDSTTLAGIYLTNGKRATDLLNEMLYSSDVNKYNSAIKGQIEGWYAQNMTDYTDFLEDAIYCNDRTQINASTNGWNPSGNVHSDTKLQFKDYTSNTVLKCDNVLDQFAVGNTKAKNKYPIGLATVPEIALIDNANAAKAGDKYWLASPHSSPYNQALTNYVNTSGALDYTGADGSFIGVRPVVSLKSGIEYVDGDGSMYDPYVIYTNTDTRPKIVTKVTNGTITEITHVNSGSSKTINYSPNSGCTLKSIEVDGVNVDINEYSNSYTFNNITSDHTIKVRYVSPVATFDTGQNVNAKMKKLANNSSSMTYSSSDTAIHSIKRATALPSGFTPTSDNKISNPLSEEPIYIFFDDSDGTIYYYSDAETLYLNSDSSYMFYNFQGLTDASGLSSVDTSKVTNMSYMFQNCSSLGDIDGASDWDTSKVTNMSYMFRNCTALSDINGASSWNTTQVNNISYILNGCTNASGSFPILGNPSSYTSAFTNAATATDAEITVVYDCIGTSRIDNIVATKSSNSNVVKGSCANARTSFTTGLTINKALKNVANNSTSMDEEDEDTKIVSFKRASTLPNDFTPTSLNTVSASGSEYPIYIFFDDTDGTMYYYSEAEKIYLHSNSSEMFEELTSLEDISGLSLVDASYTTDTSYMFYDCDSLTDISVLSNWDTSLLIDIEDMFYRCSNASGTIQLLGNPSSYTSAFYGTATKSGTQVTVKYMCDITTNIDAIVATKSSASNVAKASSCTLPDVDITIANEIYGNMANINKEFSYTVVVRDDNDTIVPSLGTTFTLKNDESEVLTIPGGYEISVTQEETAYTTTVNNTNSRTITKTVTDDETITYKNTYNVSVDTGVKTIIPPYIVLLLLSILTLLGISHVSKKLELD;locus_tag=LOCUS_7850;note=WP_003549857.1 BspA family leucine-rich repeat surface protein (Lactobacillus acidophilus) [pid:24.9%25%2C q_cov:32.0%25%2C s_cov:33.9%25%2C Eval:5.2e-17%2C partial hit],MGA_790
sequence07	MetaGeneAnnotator	CDS	55741	55938	.	-	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSKKDSKSNKANKRQSVEQMQYEIANEFDDCPGSSKSNNRNKSNNRRSKQNRKSRLDDQDNRK;locus_tag=LOCUS_7860;note=MGA_791
sequence07	MetaGeneAnnotator	CDS	56006	57184	.	-	0	ID=MGA_792;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000922339.1;translation=MEKVILIKYAELNTKGDNRSYFINTLYKNIKDKLDKYECSILKERSNMTISFKEKDLNSIIEVINHTFGIHSYQLATICDSEDEAIKDTILEVAKGEKFKTFKVEVKRSNKKFPIKSMEYVKVLGGTLLKNIDDIKVDVHNPDLLFKVEIRDKKTYIYTNTIRGLGGYPVGVGDKALGMLSGGIDSPVAMYLAMKRGITVDCVYFEAIPHTSLEAREKVISLTKKLVKYTNKINLYIVNFTKIQEAIYKNCDKSYTITIMRRMMYRIMEELTKKYKAKAIINGESVGQVASQTLSSMGVINSVTNLPVIRPVACLNKLEIIDLAKRIDTYDTSILPYEDCCTIFVPKHPVINPKLEKAREEEEKFDYKTLIEETVNSIKKIEVTEEEQNDLL;locus_tag=LOCUS_7870;gene=thiI;EC_number=2.8.1.4;note=WP_000922339.1 tRNA 4-thiouridine(8) synthase ThiI (Bacillus cereus) [pid:47.8%25%2C q_cov:98.0%25%2C s_cov:97.0%25%2C Eval:3.4e-95],MGA_792
sequence07	MetaGeneAnnotator	CDS	57236	57886	.	-	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKLVLVALLLVLLPLSVSAKGKVNVYLFRGEGCPHCQDAEDFFDSIKGDYGKYYRLISYEVWNNEENSALMEATAKALNTEASGVPFIVIGDKYYSGFTDNMGDEIKTKIKDLYKNGSKDVMKYVSEDVKANAVSDQGTSADSSESNSQDAVALILILVVLCLVVLLIIYARNKTNEKDKIEKAPVKEEKKTTSTKKKTTPKKKTTKKTNTKK;locus_tag=LOCUS_7880;note=WP_039644929.1 membrane protein (Geobacter soli) [pid:37.5%25%2C q_cov:40.7%25%2C s_cov:20.5%25%2C Eval:2.9e-10%2C partial hit],MGA_793
sequence07	MetaGeneAnnotator	CDS	57920	58603	.	-	0	ID=MGA_794;product=2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966028.1;translation=MKLVLLRHGESVYNMENRFTGWTDVDLSAQGVLEAEQAGRLLKENGFVFDKAYTSVLNRAIDTLMIVEKELQTMILTFSTWKLNERHYGALQGLNKDEMRAKYGEEQVHIWRRSYDVRPPALSWDDPRFPGYDRKYRNLKKEELPTTESLKDTMKRTIDYYLNEIKPNLLKGENIIIVAHGNSIRSILKYLENISDDEIMNVEVPTGVPYVYEMDSNLEIKNKYFLK;locus_tag=LOCUS_7890;gene=gpmA;EC_number=5.4.2.11;note=WP_010966028.1 2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase (Clostridium) [pid:61.9%25%2C q_cov:99.1%25%2C s_cov:93.0%25%2C Eval:1.1e-77],MGA_794
sequence07	MetaGeneAnnotator	CDS	58600	59910	.	-	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIVDDNNKKLLEEKGIIVDNFNDVDSLLEKINDKSYSTDLNDPLVKAYLAILKDNKQDSHYLRRILKYHQIYELDDNIDDKKYSAKEIEDFIKEYTSIMWEEDVYYYNKEFVKALYDSSVDISKELIDAHKYSFNNKKYLKDDGAGICYNCNEGVRVEDIIDYIDDGKTAVCPYCNAPTLLPIRVKKARNRIFLEEMLKRWYQDTNGKFIDGVAAYDNFYLPSANFSFKKDAIVRGYNSFYKNKIKALDVRVNKYLTRVLSSVEDGNNLYEVDIRIKNDVVKFMRCTCPVNDNCQHEYSSLMAYLRDYYSYRSEVVELKEIINWLNKKDIVVTFTNDDYIMGEDSKFKDLFELILSSTVAIYSKAGLDEELKKKRIAEYTLEEVVTYLTNIVNKYRTDKSIMKKHIDDGTLLEALKTLLKYLQDKAKSAESLEVL;locus_tag=LOCUS_7900;note=WP_001174908.1 hypothetical protein (Bacillus cereus) [pid:33.3%25%2C q_cov:18.6%25%2C s_cov:100.0%25%2C Eval:4.0e-07%2C partial hit],MGA_795
sequence07	MetaGeneAnnotator	CDS	60025	60459	.	+	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYNDFMETYYGFPVAGEPIPSNNNVVLDSPDEGFLKGNMFKNTYEPYKNYQYMRLNPINEKEKLLYEISKYSFATHDLNLYLDLYQNDNSILMLFNDYRKKTNDLINEYETKFGPMTISTDDEKGIPFKWASNSFPWGGNMNV;locus_tag=LOCUS_7910;note=MGA_796
sequence07	MetaGeneAnnotator	CDS	60452	61006	.	+	0	ID=MGA_797;product=manganese catalase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948863.1;translation=MFSYQKRLMYPINIKKKDLKMAKYLVTQYGGPNGELNAALRYLNQRYTMPDNKGKALLNDIGTEELSHVEMLQTMIYQLTKDASVEELIKAGIGSNYTEHGMSFFPTDSFGVPYQATFESTGDVLADLYEDMAAEQKARTVYENLIDMTNDPDILGPLLWLRQREIVHFNLFKELLEHYKSNLK;locus_tag=LOCUS_7920;note=WP_011948863.1 manganese catalase family protein (Clostridium botulinum) [pid:56.0%25%2C q_cov:99.5%25%2C s_cov:96.8%25%2C Eval:3.8e-55],MGA_797
sequence07	Aragorn:1.2.38	tRNA	61055	61130	.	+	.	ID=Aragorn_34;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0330;note=Aragorn_34
sequence08	MetaGeneAnnotator	CDS	93	1406	.	+	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFSIHNVFLMLVVVLIGVLSLNTKEAKAAGTVTWSGPNSITIRETIHNIAGPITAYREYYLYEYFGSYNQAATATINYTASDTITNYQQTKSTIMNLSTLTFTKPGDYKYFIDYDNLYDSNDRNIDYFAYFHAEEPLYIATVSVRNVLDENGVPTGNFTATLILEVCTHNEQTDEDECTKVNPSSGTLYADYDYGARPNKFGYIELSKTVTGIGADTTKYFPFTININNDPTTGTYTYPLDTSGWTYPITGIDASVTYNGNTINNPTTITVGTPTTIYLKHGQTAIIGQVTSGGNTFDAIPIGRCQGTYNTNPDSGGSGGGITSAYDYSKIPNAKKLASIDGGTCYGSYYTIEEDRGDYAPEFRVGSGSLESGYYVYAKGINNGTNSVEFLNNKEMSPVTGLIFTILPYVILIGVGVGGTLLFMSLKKKKTNKV;locus_tag=LOCUS_7930;note=MGA_799
sequence08	MetaGeneAnnotator	CDS	1473	2219	.	+	0	ID=MGA_800;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722201.1;translation=MEDILVIKKLHYKDVLNDLNLSIKNNTINFISGSNNCGKTALFKILTREIKNFNGYVNDLNNISAIFYPDLPFVFDNILDEMKFVLDNYAIDVLLRDERLNNLPTKYGLNPKKKISSLNNFEKIKLSIMLEECKSTKVLLLDNILVDLNTVQIHELMQLLKSLKKKMAIVISSSNLDNVLYGDYLHIIDEKKVLFSDEVLKVLKHDSRLNKLGLDLPFIADLSLKLKYYDLTDSIETNMNRLVRKLWD;locus_tag=LOCUS_7940;note=WP_003722201.1 ABC transporter ATP-binding protein (Listeria monocytogenes) [pid:21.8%25%2C q_cov:77.8%25%2C s_cov:79.2%25%2C Eval:3.9e-07],MGA_800
sequence08	MetaGeneAnnotator	CDS	2210	2944	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLVLKKVTSFPLYNIDIEFKEGINALYNNSDSRKLVDIIMRKDDSKGEINLPKEDIFLVEKNLNKEFTMPTVKAYLNFAFKYYNAVNKKLTELIEELGIEKDFLDKKFNILSSSEEKLVQFILAFALDTKVLILEEPFIYLDKHNEKKIIKYLDKLKDKIIIILTNNSNNIYNYTDMTTVLFEHKLLCQRESKELLEDIKYLRKYKLNIPDTVLFTSKARNKKIDLKIHKDIRDLIKDVYRHV;locus_tag=LOCUS_7950;note=MGA_801
sequence08	MetaGeneAnnotator	CDS	2937	3551	.	+	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKRNPYILLLNFLLFMIAIINFNIYLKLIIFFIMFIVKINKTSRLDILSLVTLLILIVNIAYHKWFGLGNILLLGYYLSLMVAYLNKKDLLTFYNYLFKRENKKRSENFIRIMHFKEEFIKAFKTNLRVLGNRNYKKTINYYYYVFRLSLSDTKERLNKKITIYRRKGFFNKKKNRVIILTDFKDILVTLGYILLVVISVRGW;locus_tag=LOCUS_7960;note=MGA_802
sequence08	MetaGeneAnnotator	CDS	3535	4293	.	+	0	ID=MGA_803;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002988132.1;translation=MLGDGNVRYLIKFSYDGTNYNGYQRQKGLNTIQECLEDALTSINNKKKVIVHATGRTDKLVHALAQYAHFDLDVKITENKLKRAMNSNLPLDIHVIEAREVPDNFHARYNVKSKEYKYLLNMGEYDPINRNYIYQYNHILNIDKMKEAINYFKGTHDFRSFVTENKVKENCVRTITKATIKEKNNIVTFTFKGNGFLRYQVRNMVGILIKVGEEKIKPSDVLRILNKKNRDKEGVTAKAEGLYLVDVKFKKS;locus_tag=LOCUS_7970;gene=truA;EC_number=5.4.99.12;note=WP_002988132.1 tRNA pseudouridine(38-40) synthase TruA (Streptococcus pyogenes) [pid:44.9%25%2C q_cov:96.8%25%2C s_cov:99.2%25%2C Eval:3.7e-53],MGA_803
sequence08	MetaGeneAnnotator	CDS	4413	4844	.	+	0	ID=MGA_804;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001260793.1;translation=MTSYMQKKETVERKWYVIDATDKPLGRVAAKAAVLLRGKHKVTYTPHIDCGDNVIIINAEKVKLTGNKENTKVYYSHSRYVGGLRERTAKEMRERYPEEMVEKAVKGMLPHNRLGRSMYKKLHVYAGPEHKHEAQKPEVMEVK;locus_tag=LOCUS_7980;gene=rplM;note=WP_001260793.1 50S ribosomal protein L13 (Bacteria) [pid:61.3%25%2C q_cov:99.3%25%2C s_cov:97.9%25%2C Eval:5.3e-48],MGA_804
sequence08	MetaGeneAnnotator	CDS	4844	5263	.	+	0	ID=MGA_805;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003549055.1;translation=MAKVNKYYGTGHRKTSIAKVTLTPGKGKITINGKDVNEYLPYEVLVMDLCQPLDVTKTREMFDVDAKVKGGGFTGQTGAIRLGITRALLDYDKETPKDSENSFRKVLKANGFITRDSRKKERKKPGLKKARRAPQFSKR;locus_tag=LOCUS_7990;gene=rpsI;note=WP_003549055.1 30S ribosomal protein S9 (Lactobacillus acidophilus) [pid:57.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-38],MGA_805
sequence08	MetaGeneAnnotator	CDS	5317	5982	.	+	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSVNHFYFDGYDIDNELLNDVEHIKAFINEINEVTESGKGKVTLMPYFDGKIKRDGGISCCIIADNFHFTCHTFSFKNTVFIDCFGFDNCKEKLLPIILKYYQTDNYDLCTDNIGPGKFGKHIILSCSPMSYEEGLETIKILLADIVMTPIRDVITNYKDESHFDLLQPIAESHISFHRNGEEMIVDIFSCKDFDENKVYELFGDSIKDKFAVNRGVYYK;locus_tag=LOCUS_8000;note=MGA_806
sequence08	MetaGeneAnnotator	CDS	6382	7377	.	+	0	ID=MGA_807;product=DUF362 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020424.1;translation=MNEEKDGSKYIPFAERKSDESVVYFTRDLSPEGLKKAYEKVNEGIDGKVAIKLHTGEPHGPNIIPSSWIKEFIKDECPEATIIETNTYYEGDRYTTEQHRKTLEVNGWNFCPVDITDEDGTIDLPVKNGKWFDHMTMGKNLVNYDSLITLTHFKGHTMGGFGGSNKNLGIGCADGRIGKAMIHTYPDKDQWSISMEEFMERMTESTKATVDHFGDKITFVNVMRNMSVSCDCEGVNAEPVVTPNVGILASRDICALDTACVDLVYAMKKEENHDLVERMESRHGLRQLSYMHELGMGNTKYKLIDIDNGDVEITQSEAVKDLKPFKGEENE;locus_tag=LOCUS_8010;note=WP_011020424.1 DUF362 domain-containing protein (Methanosarcina acetivorans) [pid:40.8%25%2C q_cov:86.1%25%2C s_cov:81.1%25%2C Eval:1.9e-56],MGA_807
sequence08	MetaGeneAnnotator	CDS	7370	7834	.	+	0	ID=MGA_808;product=nucleoside deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948908.1;translation=MNKYMKIANELAEEAMNNNDGGPFGACIVKNDQIIGRGANSVLKTNDPTAHAEIMAIREAAKNLNTFDLSDCVLYTSCYPCPMCLAAIIWANIKEVYYGNTCEDAKNIGFRDEYIYKYLTNPSDQEGLKLECLDREETIKAFNKFMEKEDKTMY;locus_tag=LOCUS_8020;note=WP_011948908.1 nucleoside deaminase (Clostridium botulinum) [pid:51.3%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:3.9e-40],MGA_808
sequence08	MetaGeneAnnotator	CDS	7916	8257	.	+	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNVSLLEQLLVIAMALSTITCAMIQKTKGFFKCSDCLTTYSFFVNIAMGIIFCLSFTKVNFPLSLWVGLFSFLGADTLFKSLEGKLSSYRDIVEEKYIKVPKENIIKAGGDK;locus_tag=LOCUS_8030;note=MGA_809
sequence08	MetaGeneAnnotator	CDS	8257	8907	.	+	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKPIYPTMTMRITQGYGIGSHRNSFAIDEAGANTGIESLRAPFTGIIKKIYTADANEIWLESIDKVEYPDGTIDYMTVLFAHDNDVSNLYVGKKINRGELFYQEGTKGNVTGAHCHIECARGKFTGSGWYKNSAGYWSIINGKAPEDCLFIDDSIKIINRNGYNFKKIETPKPTVTTKPVVKEEKIKDNKKLIFTCIKKGIYAIELNKGDKLYLE;locus_tag=LOCUS_8040;note=MGA_810
sequence08	MetaGeneAnnotator	CDS	8955	9689	.	+	0	ID=MGA_811;product=putative ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459432.1;translation=MEATKKKKIIDGLYQYSMLFLIGCFLGCIFETILCYFQRGYIESRSGLIYGPFNLVYGFGLLVIILVLKRYKKAYSIFLVGALLGGIVEYICSWIQEVFFHTTSWNYSHYFLNFDGRTSAYHMIWWGILALLFMKHLYPSLMKLIKKIKKGRLAIAIIIIVFFILNSFISAYANCRQYERSKHIKATNAIQVFFDKHYPDERVNKVYPNRRDSVTHEKINKKKSPKGNIQNHHNRKTNKRKQGH;locus_tag=LOCUS_8050;note=WP_011459432.1 putative ABC transporter permease (Desulfitobacterium hafniense) [pid:23.0%25%2C q_cov:84.8%25%2C s_cov:94.1%25%2C Eval:4.5e-08],MGA_811
sequence08	MetaGeneAnnotator	CDS	9624	10421	.	-	0	ID=MGA_812;product=ZIP family metal transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948822.1;translation=MTFFTNLSPVLQSLLAGLFTWSITALGASVVFFFKTIKKNIMDALLGFSAGVMIAASFFSLIEPAIEIAKEIKQNIWLILALGFITGGALLFIFDKLFEIYYKKKNIKTSSAKKRTMALVLSIVIHNIPEGAIVGVAFASASYHIKGASIAAALVLALGIGIQNFPEGSAISLPLRREGYSRKKAFFYGQLSGFVEPIAAVIGALLSLRIKTILPFVLAFAAGAMIYVVVVELIPESQTNPKKDLMALFTLIGFTIMMILDIALG;locus_tag=LOCUS_8060;note=WP_011948822.1 ZIP family metal transporter (Clostridium botulinum) [pid:55.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-77],MGA_812
sequence08	MetaGeneAnnotator	CDS	10473	10706	.	-	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQNYEIKRIGYDEVIYLYLDLKYEMGIDFNNEESTLSLTNRCYNFIKNNHINYHGNKIYLVIDGLIIKALDLRSIR;locus_tag=LOCUS_8070;note=MGA_813
sequence08	MetaGeneAnnotator	CDS	10762	11739	.	-	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPATATHSFFALDIYDLLDEDSKEKVGNNPEKLKMFAQSMDPIMFFNVANLRRGKDVRRFHRYFHENKTGEYLKSLVEYIKENNLTDNPEVMSFLYGAISHYSLDSTVHPYVIYKTGWLNKDNPDTYKYNGVHNFMEVFLDNDMIRRRTNSNPYTFSVSDFTFDIEPFTEGLADMLDDVFKKVYDVNYMSEYYYVCLKQMEKCLQRFRRDPNGIKRNFYKFIDSFTSKKAFRFEPVSYYYPLDDRHNFLNSNHDVWYNPVDPSIKSNKSFVELYLEALDETDKMIKDVNRYLAGKRVNLDKVFGNKSYTTGLDCDIPKDFKAFQF;locus_tag=LOCUS_8080;note=MGA_814
sequence08	MetaGeneAnnotator	CDS	11844	12806	.	+	0	ID=MGA_815;product=Abi family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023905931.1;translation=MATMVLEKQFRNLDEQIEILKNKGLKIDDEDYAKEVLLRENYFFIMGYRHLFLKDDTSRTYIEGATFEELYSMFLFDRTIRNILFKNLLIIENNLKSIISYQLSKMYGYRERDYLRSKNFTNNTEKQRQVNDLIKKIKRQVRVNGKDNTATEHYVSNYGYIPLWILVKVLSFGIVSEMYSILKSSDQKDIAEVYGITVENMLSYLPVLANYRNLCAHEEILYDHKTQKEIDDTIYHKMLNIKKENNEYIYGKNDILALIIIMKQMLKDEEFTNMMYEIGNAIETLGYNLKSIKIEKVLSILGLPDNWDQLINIERKGKNE;locus_tag=LOCUS_8090;note=WP_023905931.1 Abi family protein (Mycoplasma mycoides) [pid:34.0%25%2C q_cov:95.9%25%2C s_cov:100.0%25%2C Eval:2.5e-42],MGA_815
sequence08	MetaGeneAnnotator	CDS	12799	13896	.	+	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVGRIILGIVIGLIIGILGMYTLMLFTPVLDKFLPSSTVITKDKTKVVEKSSLAPSIKKIKNAVVAIEGYKSTQKGSTGTGFVYKVDDKYGYILTNQHVIANVDSIHLILTNDKVIEGKALGGDEYLDLAVIQVDKKDVLAIADLGTSEKSEIGDQVFTVGSPLGEEYRGSVTSGILSGKDRMVSVNVSNSTNSDWVMKVLQTDAAVNPGNSGGPLVNINGQVIGVISMKLSDEDIEGMGFAIPMETALAHLDALEKNKTIEWPVMGISMSNIDDAGAIYKYRLNIKKKPSYGALVAKVEKDGAADKAGLKSGDVIVAVDGQKVKNSAYLRYELYKHKIGDKVEVTYIRDGKEGKTKVTLEKE;locus_tag=LOCUS_8100;note=WP_010989403.1 serine protease HtrA (Listeria monocytogenes) [pid:43.7%25%2C q_cov:87.4%25%2C s_cov:66.4%25%2C Eval:2.0e-70%2C partial hit],MGA_816
sequence08	MetaGeneAnnotator	CDS	14169	14708	.	+	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGNKKILTLAVLILLVAVCFGAYAIYRSAADGDGSVAAAEWSVKINNTDIDSANFDFDADDITWTSLTGYNDTIAPGSEGYIDIAVDATGSEVDVLLSATLDTSNLPTGMTATVQGGGSQTIAYNASSMATTVRINIAWAGAESDTTAKDTTDMNVAGTDLSLPVTLTAKQSLTSHAS;locus_tag=LOCUS_8110;note=MGA_817
sequence08	MetaGeneAnnotator	CDS	14815	15603	.	+	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKDQKVKDERKEKREKIIDRIIKIVLIIIIILLLLHNCELIRRGKLLNGNGDVIEIKCDSNGQCDDKDKDNPKTGDNGTGGKYGTAINGKQSGGSSSSQGTTPSIKDEDDDDDDDEEFTVFDKKITWGSESVLDIFEKPIYGYNKKIAPGDHNAYKFTVKNMTKYNLKYDMTFTEVGNDNMEMRYKLKKNGSYVVSNYVTYDQLDLSSQLINSKSSDVYLLEWKWLGDNSDSTAKDNKDKAAAGVATYKIKINIEAESING;locus_tag=LOCUS_8120;note=MGA_818
sequence08	MetaGeneAnnotator	CDS	15596	16063	.	+	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKALKIIFNIILIAFIAVLALYFVLRFTGRAQIYRTETGSMETDIHAGDYVLIFDKKNYEIGDIVTYKRGKYYITHRIIKKKGDKVITKGDANNTEDKATSVKNIVGKVIYRGGALNILIDYKYIIASILLGLYLLSCYINDRKPKEAESEGKC;locus_tag=LOCUS_8130;note=WP_010879153.1 signal peptidase I (Archaeoglobus fulgidus) [pid:37.3%25%2C q_cov:67.1%25%2C s_cov:69.5%25%2C Eval:6.4e-11%2C partial hit],MGA_819
sequence08	MetaGeneAnnotator	CDS	16047	16532	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGSVSVRRKLLIIAIIAVLCLSAALTYAMYRKGKTGSGSLDAATWSITRTQPGGDIDLVADDTTTDTYTLTVTSASEVDVIYKIIIDNVPTGVSVKLDDGAYQAPPANSNTITINAGTINYNDSVKTKTHTLTFKASANAQLVTDEDVDIDVEFRQGLGN;locus_tag=LOCUS_8140;note=MGA_820
sequence08	MetaGeneAnnotator	CDS	16570	22731	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKRRTQFIILVVALVFFYVLLNGTLAIYRQVIGDTIDLSIIDPSGTHQVTFVTRGGSAVSPNPRTVAHNAEIGQLPTTTLADYNFDGWYTEPNEGDGTKIDSHTVITGDVTYYAHWIKIVCKKASTLHTETCAAGGSCIGHGYSVNDTITYGTIPITDNPLAGYAYDCDVNDDGTWDPATERFYYVRGYGGTSNVENSVLVHFTSFDEDGQMDDSTTRKIYQFSAALGWLPTSATWDNPALIEMDGNVTRFSSRADIEAACGSIDGGGFTDCQFYLENTRFQSDTKGRSGIWLSAEGSTHYRIHSGQLSVITAASDSSNAVRPVIEIPSNTIEDFQPPENYTITFDPNQGQLDDPREATRSVPGGTAIGTLPTATRTNYIFDGWYTDPDDGEGTEITDHTIATGNDTYYAHWKEKITITFNANGGTVSPGSKDIAKGAAIGSMPVPEYGNHDFVGWFTEQSAGTQVTESTTFNASTEIFAHWEESSSNYVFHIPGECKFTSSGIQNGENGNCISTVNPTGSNIDYTESTLSAKKYIDTQVALYNTTNHDKNYEIHFEIVDYVPSANVNQATFFNTKNEATGYPGLVVRRSSNNIQIASRRTSSANSEVLLPYATVTKLSVYRIGGEIYYSVNDGERVLINNLSEYNPVFDLTTWFGATPTNAQATTAQRFFVGTLSNIYIKIEDNSDKATITYDPNYTGASTFDEQHTINQPIGTLPTITRSGYSLLGWFTDPDDGEGTQITSSTVVTADDTYYAHWAEDVTVTLNTNGGTVSPNTITVPYNTAVGELPTPTKTGYTFDGWYQDPGFNTPATSATIITEDTDFYAKWIENITVTLNPKGGTVSPSSISFAPGTAIGQLPTPEKTGNTFAGWFTDDGTYLDEVTSSTTFNSTTEIYAKWIESITVTFNPKGGTVSPSSVTFAKGTAIGQLPTPEKVGFTFEGWFTDDGTYLDEVTSSTTFNSTTEIYAKWEETSDITINLDADGGTVSPTSITITPGTEIGELPIPVNTPDKTGYVFAGWYTDNTWTTEVTESTTFNSTTTIIARWVEDTYVARIGSTCYTTLQAAVAAVPTTGTKTTIIILQDINNTETTTIASTQWVELDIGSYTIETSTAQIDLILNNGKLDINNGTLTSASQSVGGNNRRGYVIKNASGATLNITGGTLSYTRSADTEGKPIENLGGTVNITGGTLTCNSQAAVINNRTNGILNISGGHIEGSNIVKGQAVYNEGGTVTISGDAELKNVSQSGSSAGRAALTNASGTVNILGGTLISTYNAGASNKGTMTIGTSDGTIDITSPVLQGGTYGLENTSGTVTVYDGIFKGKGTTQNKAISSEASVTHSETTSFVHTTETIGGSQYDVAYLEDSAVNITINFNKNGGDNVSYNTKTLTEEGPIGELPTAAKDGTEFLGWFTSATGGEKLLSTTEITESDDGTTYYAHYTVDDTVCKPATTLHSSGNTDFGQIPSGGTLSAGDAFDCDVNGDGTFDATNERFYYLTNTADGKAVMIFSNNVTQGQSDVSATCSATGVSYAGTYTEGPTTAMAELPTTEQWKNVSIYTQPRTITNQNGVTAASDVIYTGKAARLANLDEIKAATTSGINGTVNELASYPFLLENTPTYDASCRSNYWLETTHSSGGATRINGATNGKNLGHATGTSAIRPVIEVPYSVIDGIVNIVEFDTIPTAMRTYFNNISTWAAGSDDSSHSSFDTAMTNNLNANNCVYYQNDNVNTEYGSVHCDQPNKYDTGVTGNIKVYEYNESTGVTANDQATYVSNDNGKLYNFIPGKTYYWESASDSTKNGYVRPTGERRILTINGTNRKTRNVRDLGGLPVDTDGNGTIDGKIKFQKLYRGEKIWGGDNATKSIFQNLGVNNEFDLRQSSEAVTSEEDKLTNYISNEIIHYRIDYTEFGTPAPETRFNGKSYYQLAREAAIDVMNRVVNGNDDYALYFHCRIGADRTGTLAYILEGLLGVPTEYRYQDYELTVFFGLRERTRYYYAKGSDTYKFIYLKNAIRNATPNNTSGVEDVKAWFLQGSDNVQADEALIAQFKTKMIDYN;locus_tag=LOCUS_8150;note=WP_015942796.1 InlB B-repeat-containing protein (Desulfitobacterium hafniense) [pid:27.7%25%2C q_cov:23.2%25%2C s_cov:34.9%25%2C Eval:4.7e-44%2C partial hit],MGA_821
sequence08	MetaGeneAnnotator	CDS	22818	23315	.	+	0	ID=MGA_822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSKRISSNNRNSNLVTKNRRTKKTISIKKVLIFLLIVAALVFGVIKMCGRPKKVEDNDLTYNRHKSFLKSQNIGGIVFKDIECTYDGKNSLIKYTIINKTRKKVYLSNYDILVQNKKKRSITRIKASFKDTLAPKEKVERADSVVGTDLSKAYYLKLKLKTTKK;locus_tag=LOCUS_8160;note=MGA_822
sequence08	MetaGeneAnnotator	CDS	23361	24401	.	+	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRKTIRGVVVDAGHGGSDPGAISGNLKEKDLNLKAALYMAKRLEELGIPVVLTRNSDETLSRDERVRRIRNAFGSDPNVILISNHINAGGGEGAEIVYALRNNDTLSTSALDNIGNAGQKKRKVYQRRLPENPNQDYYFIQRLTSPLEALLVEYGFIDNKNDQIKLENNIEDYVEGVVKAIADYAGVSYSTDGDTYIVKKGDTLYSIARRYNMSVDNLKTLNNLTSNEIQIGQVLKVSNKDQLNKDVIVYIVQRGDSLYKISKMFGTTIESIKRLNNLSSDIITPGQELVINENIPVGENNYYVVKKGDTLYGIAKNNNITVDDLIKTNNLTSLILKVGDKLIVP;locus_tag=LOCUS_8170;note=WP_003244816.1 peptidoglycan endopeptidase LytE (Bacillus) [pid:35.6%25%2C q_cov:42.5%25%2C s_cov:48.8%25%2C Eval:3.3e-19%2C partial hit],MGA_823
sequence08	MetaGeneAnnotator	CDS	24462	25043	.	+	0	ID=MGA_824;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966054.1;translation=MKKLLVAIIIGLVLITGCGSKKGSDNMLSGKQKIAIEIENYGVIKAELDADVAPITVTNFMKLVDEKFYDGLTFHRIIDGFMIQGGDPKGDGTGGSDETIKGEFTNNGVENNISHKRGVISMARSQDNDSASSQFFIVHKDSTYLDGEYAAFGHVTEGMEIVDKICADVKVEDNNGTVLKENQPVIKSIKKIK;locus_tag=LOCUS_8180;note=WP_010966054.1 peptidylprolyl isomerase (Clostridium) [pid:50.3%25%2C q_cov:81.9%25%2C s_cov:97.1%25%2C Eval:6.4e-40],MGA_824
sequence08	MetaGeneAnnotator	CDS	25044	25511	.	-	0	ID=MGA_825;product=DNA-deoxyinosine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002853175.1;translation=MKATHNLKPIYDNSSKVLILGSFPSVKSREVCSYYAHQKNRFWKILSILYEEEIGDKEKFLLNHHIALWDVIASCDIVGSSDASIKNVKVNDIKKIIKASKIEKVFTTGKKAYDLYNKYLRKELGMEAIYLPSPSPANAAMSLDKLVLEYKKIKY;locus_tag=LOCUS_8190;EC_number=3.2.2.15;note=WP_002853175.1 DNA-deoxyinosine glycosylase (Campylobacter) [pid:44.8%25%2C q_cov:97.4%25%2C s_cov:94.4%25%2C Eval:9.5e-31],MGA_825
sequence08	MetaGeneAnnotator	CDS	25495	26433	.	-	0	ID=MGA_826;product=TIGR01212 family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861205.1;translation=MSFKYSDSNKRYYTLDYYYKHKYKSKVFKVSLDGGFTCPNIDGTVGYGGCIYCSNGNRDFAGNRADDLVIQFEKVKKMLLKKWPKAKYIAYFGSYTNTYAPIEELKEKYEQVAFLDDVVGINIATRADAITDECLDYLEELNKRTDVTIELGLQTTNEETSKLINRCHSLEILDEMVHKLNKINIKVIVHIINGLPYEKEEDMLNTIKHLNKLNIWGIKIHMLSIMKNTKLEKMYKEKPFHLLTKEEYVDIVVKQLEHLKEDIVICRITGDPKKEDLVEPDWLIKKFCVMNDIDKLMVKKDTYQGRLYEGNS;locus_tag=LOCUS_8200;note=WP_011861205.1 TIGR01212 family radical SAM protein (Clostridioides difficile) [pid:51.0%25%2C q_cov:97.1%25%2C s_cov:97.7%25%2C Eval:8.4e-88],MGA_826
sequence08	MetaGeneAnnotator	CDS	26435	27610	.	-	0	ID=MGA_827;product=patatin-like phospholipase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431793.1;translation=MKAVVLSGGGAKGSYQIGVWKALRKLHIKYDIITGTSVGALNGALMVQRKYHGAIKLWKNINFDLLFGKGKVKDTSTKLRILKNYSDSFFKEGGMDVKELEQLVSAYINTSKFYRSKIDFGLVTFNYSKRQAEELKKEDIPRDKLVDYLMASATCFPAFKKRNIDGNSYIDGGYYDNMPINLAIDLGADEVIAVNLSAPGKTRKPKKNIKITTIKPNNDLSFFLDFNNEPALRNIKYGYNDTLKAFNKLEGNTFTFKLNSLKKNYNAHKETYLYCLNNIINKKIDVRAIPILKNITNDKYLQKYFYRIMENVGSFLQIDDTPIYNYKKYNKRIIKKFDSYMKNSPKKGNFKTIKSIYDCLVTDDFSKVRRLLVLHPSEFLMALYIYVIKEV;locus_tag=LOCUS_8210;note=WP_003431793.1 patatin-like phospholipase family protein (Clostridioides difficile) [pid:31.0%25%2C q_cov:92.8%25%2C s_cov:98.8%25%2C Eval:2.2e-38],MGA_827
sequence08	MetaGeneAnnotator	CDS	27712	28845	.	+	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTRTVKKVKLKPGSERILKIIGVVVALLLIVFIFYRSNINSLKKIGYSEKAAKTILSKFKKDYCLQLGENKTLNAAFESSDYIEKNLDTYSKVKYRKQKHLIKNINKLIKKKYSNDQISTIITHGDDKAVSEFTKRDKVRYLDEFYTLDYAKLALYDRYVDFMNKSREDAEGSVIYVNLDLDKENYKDYSFVKDFSYDMLINKHRALSPKFIPPRLVKINKEYCTDGEKIEGNEKAIDASETMIAAAAKKNIHILISSGYRSYDGQKEIENMYLKLYGENYVNKFVAHAGFSEHQTGLAFDFASAKKSIFTTSDEYVWMFENAYKYGFVYRFPKGSEEITGYTAEPWHFRYVGKEIAKKCHDEDITFDEYFAKYLY;locus_tag=LOCUS_8220;note=WP_004399387.1 LD-carboxypeptidase LdcB (Bacillus) [pid:44.0%25%2C q_cov:46.2%25%2C s_cov:66.3%25%2C Eval:7.8e-33%2C partial hit],MGA_828
sequence08	MetaGeneAnnotator	CDS	28913	31336	.	+	0	ID=MGA_829;product=glycoside hydrolase family 31 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000688713.1;translation=MYPLGKQFEIDYTNAKADGKAIYGGKNYRISVLSERVVRLEYSPAGQFTDEPTQLIRTRNLGPVDVKVNQDQTYLELTTRYFQLVYVKEQPFLGTKIDPAKNLKITLLSTKDKDRQKDWYYGHPEVRNLNGNMVSTDINVPNNLKKGLYSLEGFASIDDSNSKILAEDGTLVNRKPNQTDIYVFMYDFDFGQALEDYFKLTGYPEFIPRYALGNWWSRNITYDDQKIDELIKKFEKKKIPLSILLLDSDWHYRNVGKIQNTKTGFTFNKDLFPNPKKTIQKLHDRNIRVGLRIDPSGGLYPHEEFYSKASEYLGVKESKIILFDPLNPKLMDVYLKIFLHPLESLGVDFFWNDYDGNKDLTNLWFNNHYLYLDSGRNPAKRNLLLSRNAIYAPHRYPVLYGGSSEISWESLKQLPFLYLNASNIGVTFWSHDVAGNHGGVEDSELYVRYVELGTFTPIFRFHAARGKYYKREPWLWDPKTESIATNYMRLRHRLIPYIYTECYNYTQAGIPLMQPFYYNYPWVYDDELYKNQYYFGSQLLVCPILTKKDIVMNRTIHRFFIPDGIWYDFNTGKKFPGGKKYVSFFKEEDYPVFAHAGSIVPLSNRSDYNNTGIPTDMEIHVFPGVSNTYTLYDDDGVTSLYKEGYFLKTSIDYNYLKSNYTIIIRSVEGKSGIVPKTRNYKLVFRNTKQADQVAVMFNETPVECESYIDGNDFIVEVKDAPTIGQVTVNCRGKDIEIDAIRVINDDIDSILMDLKIKTYLKEEIANIIFGKETISKKRIAIRKLRKKGLSKEYMQLFLKLLEYLSEV;locus_tag=LOCUS_8230;note=WP_000688713.1 glycoside hydrolase family 31 protein (Streptococcus pneumoniae) [pid:36.9%25%2C q_cov:82.5%25%2C s_cov:88.3%25%2C Eval:2.7e-122],MGA_829
sequence08	MetaGeneAnnotator	CDS	31567	31944	.	+	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELSVFILTFMGVLAVYLIFIFIPNKRRYDKKDMDKQPMEIKLLENLYKVNIKKTNYQALLLLICIISSFDIALIVSVVAMLKSFILEVLVGVILIIVMIFVSYYPIGLYYKKRGKTKCTTTKK;locus_tag=LOCUS_8240;note=MGA_830
sequence08	MetaGeneAnnotator	CDS	31923	34319	.	+	0	ID=MGA_831;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000009461.1;translation=MYNYKEIEKKWKEYWEKNKTFKTDLKDFSKPKFYALDMFPYPSGVGLHAGHPEGYTATDIVSRMKRMQGYNVLHPMGFDSFGLPAEQYAITTGNHPAGFTEENIKTFRDQLKMLGFSYDWDLELSTSDPKFYKWTQWIFKRLYEDNLAKEVEMPVNWCEELGTVLANDEVIDGKSERGGYPVVRKMMKQWVIEIPKYAERLLEGLDSIDWPEGTKEVQRNWIGKSVGAHVDFKIDGSDKKFTVFTTRPDTLFGATYCVLSPEHELVNEITTTEYKKEVEAYQKEAASKSDLERTELNKDKTGVFTGAYAINPVNDEKIPIWISDYVLSTYGTGAIMAVPAHDDRDYEFAKKFDIPIIQVLEGGDISKEAFTEDGIHINSEFLNGLDKEEAINKMIEFLEEKKCGERHTNYRIRDWIFARQRYWGEPIPIVHFEDGTTEALPDDELPLVLPELDDYAPNKDGSSPLNKAKDWLNVEIDGKKGTRETSTMPGSAGSSWYFLRYIDPHNDEEFANYELLKHWLPVDLYVGGPEHSVGHLLYSRMWNNYLYDKGLVPVKEPFQKLVHQGMILGENGIKMGKRYPEYSINPNDIVDKYGADTLRLYEMFMGPLEADKPWSTTGVEGSKKFLDRIWRLYVDENKIKDEENKNLDKVYHQTVKKVTDDFETLNFNTAISQLMIFINAVYKEETLPKEYAEGFIKLLNPIAPFITEELWKHLGHKETIANEPWPTYDEKYLQEDTKDIAVQVNGKVRGTITISVDEDEESIKEKALREDNVKRHTEGKEIIKVIVIKGKIVNIVVK;locus_tag=LOCUS_8250;gene=leuS;EC_number=6.1.1.4;note=WP_000009461.1 leucine--tRNA ligase (Bacillus cereus) [pid:63.6%25%2C q_cov:96.2%25%2C s_cov:96.6%25%2C Eval:2.8e-305],MGA_831
sequence08	MetaGeneAnnotator	CDS	34411	35697	.	+	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLNIKNIGLLLIIVLIAVLTISTKEAKAAGTLTWSGPSSITIRDTIHNIANPIVATRDYVLQATGGQEASSVTLNYTASDTITNYQLTKSAVLNLSNLTFTKPGDYRYGIVPDDLRVSGNNLSYFTPADANRYYEVTVSVRNVVDANNVPTGNFTASMILIKYDYNETTGEDEQVKINPVSGVLYADYDYIPDESFFGHIELSKTVKGIGADTTKYFPFTINIDNDSSLVQDEQALIDSSGWTYPISGIDATVTYNGNTINNPTTITDGTPTTIYLKHGQTAIIGQVTNGGNTFDVIPRGLCSELIDPYTPGNQNYDFSRSPSVKKLAEVDGATCYGSYFTIEENPGDYTPSFSLAGYPATSGYYVSAEGIVDGSNTVDFYNQKEMSPVTGLIFTILPYLILAGIGVGGTLLVMHLKKEEKKAKA;locus_tag=LOCUS_8260;note=MGA_832
sequence08	MetaGeneAnnotator	CDS	35771	36658	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESWLSAEEIRNSGKYPVVTLELFDKVYDLKLDDAVIEKEQEIKAKYNQYIKELLDMKPGDRRKFLKIIKAIEIRDNQYLEDGNRFLVEYYQESRKVNSIDYLIRHGKESLNTNKLVKAHKIVLDGCLNGTNRIYRRLDNTNYVGKIAEDGEREISYFPIDARDIDKATNEFLHFYNSKYFDEHLLLKPQIIHGLIATAQIFEDGNTRLARTLKNVKLYDLTTLEYPYELENPVIYGTTAYFEHRDEYRSLIRDIAESNDDEVWNNWFKFNLERFDESLLHLKRNKQEYEKVLGR;locus_tag=LOCUS_8270;note=MGA_833
sequence08	MetaGeneAnnotator	CDS	36709	36879	.	+	0	ID=MGA_834;product=sporulation protein Cse60;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000621751.1;translation=MKVKVIDEECEQDLEDSVNLFLEEGHEVIDIKYQVSSFDLGEEQIYCFSAMIIYKE;locus_tag=LOCUS_8280;note=WP_000621751.1 sporulation protein Cse60 (Bacillus) [pid:56.9%25%2C q_cov:98.2%25%2C s_cov:96.7%25%2C Eval:5.1e-10],MGA_834
sequence08	MetaGeneAnnotator	CDS	36900	38189	.	-	0	ID=MGA_835;product=aminoacyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830979.1;translation=MKLIEIDSKKFDKEALKSSEITFHQSSAWAKLKEYNGWKAYYFALEDKKKIKACALILEKELPIVKKNIWYSPRGFLLDYNDKEVLKAFTDGIKEEAKKHEAVFIKIDPYVKYKEHDNNGALVEGGFDNSSTITNLKELGYKHFGFNVMQDSLQPRWMHVIDTKGKSLDEVMEDMESKTRQILRKNMKSSVICRDITRDELPIYKEIMQKTSDRRAFIDRPLSYYEHMWDAFYDKGMLKIMIAEIDFEKYYQNTEDELKEIENAYNDRKEKYEKKLLQMNEKRYTSRQKQDESAMERLKAQLDKIKKYQKEYGKKTILGGILFLIYGNEVLSLYGGSNEELMNFQSAYSLHFEGIKYAVENKYNRYNFYGITGDFSQDNPLYGLYLFKKSFGGVVEELIGEFDLIINKPMYYLYKISYGLYHKIKNIRH;locus_tag=LOCUS_8290;note=WP_001830979.1 aminoacyltransferase (Staphylococcus) [pid:28.9%25%2C q_cov:96.7%25%2C s_cov:98.3%25%2C Eval:1.5e-51],MGA_835
sequence08	MetaGeneAnnotator	CDS	38170	39465	.	-	0	ID=MGA_836;product=lipid II:glycine glycyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000413862.1;translation=MNKLVNLEKKEFDKFVLSSKNPHFMQSYDFGKIREFKGVKAHYLGLKDKNKIKCAALLLEKILPLGYSYLYSPCGYAIDFNDMDLLKEFNNELKKYFPKAIFIKIDPPIKLHNLDIEGNVIEGEDHTKLVEDLKSLGFKHLGFNKLFEHEQPRYTFKLHLDGSWDDIYKRMHPTTKKILNKGNQYDFDIIKGNSKDIDDFYKTMIDVSKREGIIQAPKKYYKLFFETFNQDGMSDLYIVKANTKKLKKIFKDKIKTLEEEIDKLKDENKYKNRDKALKKSKDLENQKAKLNKTLNEIKDIKEDTIVLSSIITVKYDDTVFTVHGGNSSTLMELNANYLCYYTIIKDAFDEGYKIVDFFGTCGDANPSKDNPVYGIHNFKKRLGGEFVEFIGEFDYVAKPFMYFVFTKLVPLYRKLKRKKTRKDFESEINRD;locus_tag=LOCUS_8300;gene=femX;EC_number=2.3.2.16;note=WP_000413862.1 lipid II:glycine glycyltransferase (Staphylococcus) [pid:24.5%25%2C q_cov:97.0%25%2C s_cov:98.3%25%2C Eval:6.7e-31],MGA_836
sequence08	MetaGeneAnnotator	CDS	39542	40219	.	-	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKIRYFLILSIVFLGITAISSGMIMPSLSVKGKNIVKLKVVQKRVASSNKLELILKNITQDVNVPLSVEVKDYIENIGSVSDKVLAKLKLDTSLVNIKQPGAYQYTVTYNKRVYVGIVNIKEPDKSLASITLKNITLLINDPVPTDLNSYIKESIPDNAKDKIKLDISKVNNRSAGTYQYTIDYNGKLYTGTVTVYSPQQDPVSKPDKEEKDDSTEVEPVNNE;locus_tag=LOCUS_8310;note=MGA_837
sequence08	MetaGeneAnnotator	CDS	40337	40513	.	-	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNMPWPPFMGPNFYDINSKIMELEKKIEEINNRINILEKRLNSYNDYTDKNTGIYMI;locus_tag=LOCUS_8320;note=MGA_838
sequence08	MetaGeneAnnotator	CDS	40622	43069	.	+	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYKNILLIIVGALLFLGGTTGLVMTTNKAYALPQREGVADNYVIPGEYSFTPKLISGVTEAVTEYDNTPTFLADNTINYHDVTNTNANKVYVIYKNVGRYQGQIVDMKLTFTGFETVDSSSSEKVGILFSGANIGMSNRHNNTRKKYKIEYYKHNTNEKMNIKNVLVFNDIDGPGNGNPSSLGEEIGFKNFDKVLYYDQYKTHFSISSTSDYLYFIGNCNYTSYEATSGAHCDATVDNPTPKAGYLIGLGDSSNTQEFSWRYLWLGISASPFRIEDPNPLKSVDKVKAHVGDDLTYTIEQYVPSQSNENYYSNWGIYDEIPEGTVLIDNSYSIKDNTGSDVTNKFDITLTNDNKLEFEAKSEELADVAFYNNTYIIEFKVKVEEKGEIISNEATLKNNYYTEGKESNEVETAIVYKVETEVENGTITESDNEVLWHHDKTIEYTPDTGYELKSVTVDGTPVSISTYKDDYTFENVQDDHTIRVVYGPKAIGYTVKYLEEGTNKVLHPPKNNDTATYDAEIISVEEKIDIDNYNYVGANEYKITISEDKDNNEIILYYQKNSPDDVIKDNSIDKTTTKSSITKIDEVIDYKIEYNVGLKDYVGVAKIELIDLLPYEIDEAKSNLDGGEYDKEDKTIKWNINKNVQKTDTGISIVKNIKIVYKNYDFTKEAIHNVVVATTKLVELDNYTIEADDDLDITQGIGKVKIITHHVDKNGKKLVDDVVIEIYPGEEYATKVSTILQDLGYKVKIPTNATGVAKEDMEITYVYEKEIVTPAPVEKSPNTTTRNMFLYIIIILLSIPCIIIGAKSIRKAHN;locus_tag=LOCUS_8330;note=WP_010708078.1 isopeptide-forming domain-containing fimbrial protein (Enterococcus faecalis) [pid:24.3%25%2C q_cov:63.4%25%2C s_cov:78.5%25%2C Eval:8.4e-15%2C partial hit],MGA_839
sequence08	MetaGeneAnnotator	CDS	43164	44477	.	+	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLVNMKIIALIFVIALVSILTISTKEAKATGTVTWSGTSSITIEEIIYDITNPIAGTRTYNLVDNVTENTVATGTITYTGNETISANQISKTTTINLSNLTFTEAGDYSYSILPTLDAEYGDNGFWLNAFFRSGNDPKYEVIVSVRNEVDANNIATGNLEATLVLNECTFNPSTGNYDVCSKVSPASGTGTLNAHYVYIPEDLMFSHIELGKEVKGTGAEINKYFPFTINLQIDSNVCKPLNCNRWSFPISDVDATATYNGSTVNNPTSITPGTPVTVYLKDGQIAVIGEGHEATRGAVNTFDTIPARCSTVPIAMSNKYNLNKSTGIKKLSNFSNGRIKKLDGSNTAPSQLSISETAGDYTAAYTINGDTSQSGASFSNLALECHTNEILFENTRTMAPLTGVIINIAAYLIVIGIAIGGFLLFRNIRKTKLSK;locus_tag=LOCUS_8340;note=MGA_840
sequence08	MetaGeneAnnotator	CDS	44529	45161	.	+	0	ID=MGA_841;product=tRNA (guanosine(46)-N7)-methyltransferase TrmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001239380.1;translation=MRLRNNKNKEEILSSSKYLIRDDLEKNMGRWKDVFKNNNPIHIEIGMGKGKFIIENALKFPNINFIGIEKYDNVLARALPKIPDDLDNLLIIRMDAINIDEVFNQEIDRIYLNFSDPWPKDRHIKRRLTSPIFLEKYDHIFKDKKEIFLKTDNVGLFDYSKESLSEYGYKLSDVTYDLHSNSNDIITTEYEDKFIEKGIPIAYLKATKND;locus_tag=LOCUS_8350;gene=trmB;EC_number=2.1.1.33;note=WP_001239380.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Bacillus) [pid:45.9%25%2C q_cov:98.1%25%2C s_cov:96.3%25%2C Eval:1.0e-44],MGA_841
sequence08	MetaGeneAnnotator	CDS	45242	45901	.	+	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIALLLITVIFISGCTVTRVDNKEIGEITDIILGSKNNLKNTVFDGYSYYLPKGLKIDNKDEYNTIFTDENNYRYFMYVDVISFYNNTKYKYKVDDDSYYSKRLKYGKKTGYIEINKVKNKYFIEAMYNYAKIEVYVREKDINDAISNICYILSSIKYNRRVLSTVIGDNTLNYKEETFNIFKTKKKTTDFLDYVKEYDNIDEKDVDEDNVEIDEE;locus_tag=LOCUS_8360;note=MGA_842
sequence08	MetaGeneAnnotator	CDS	45917	46840	.	+	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLMDKLKNALFEEEYVEIEEKPKKEKPKKVKAPEKIKEDKPIKAREKKEEPIAKKIAPAKKELIIIDEIEEEEPVKTDNSFKFPVMEEEDLKPDNVPAFISDKKYEKKPWGKKKEHKKEYREYETKDLSYTSYEEEKVEPKFKPSPIISPIYGVLDKNYKKDDVRDKKDREIRLTSPYSRDKISVDDVRNKAFGTLEDTIEDNPLLEQVEPLEEEEKVMDFTNSRKPRVNNVTMGEAEEYFEDLGLEYNKDYVDRGTTNDEEDALEEVKEPKKEEKKPKKAPEPIKEDNDLDDDNLFDLIDSMYDE;locus_tag=LOCUS_8370;note=MGA_843
sequence08	MetaGeneAnnotator	CDS	46855	47151	.	+	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIMNIDLLNEFLPAVLYIVVIALVITLTVLAVKLIQVTTKLNRISDNVEEKVNSLNGIFGIVDKVSNASYTIVDKAVNTVMGTVGKIKKNKEESKDE;locus_tag=LOCUS_8380;note=MGA_844
sequence08	MetaGeneAnnotator	CDS	47144	47554	.	+	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKGFGRFAIGAAIGTGLGLLFAPKKGEETRKELKKKIDELIESAKEIDTKEVKDNFDKKVQKLQADLKDLDKEKALKIAKEKGEKIADEASKLVDMAVEAGKPMVEEAAEEVRKKAVKVTKDVLKKLEKEEKKA;locus_tag=LOCUS_8390;note=MGA_845
sequence08	MetaGeneAnnotator	CDS	47646	48872	.	+	0	ID=MGA_846;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000186029.1;translation=MTLYEDLEWRGLIQDISSPELIDKLNEGGLTFYIGTDPTADSMHIGHYSSFLISKRLANAGHHPILLVGGGTGLIGDPKPDAERPMITKEEVEKNIEGLTAQAKRIFGFEVVNNYDWIKDISTVDFLRDYGKFFNINYMLAKDHVKSRLEVGITYTEFSYMILQALDFLHLYETKNCTLQVAGSDQWGNITSGIELIRKKIDKEAYGMVMPLVTDSTGKKFGKTEGNALWLDRNKTSPYELYQYLINLEDSMIIDCLKKLTLLSKEEIEKIEEENNKAPEKRIAHDALAKAMITDIHDEESYNEAVKISKSLFSGNIKELSEQELEDAFKNIDSYDISEDKNIVDLLVEASICSSKREAREFVSNNSISINGEKINDLEKAITKEDALYDKYVIIRRGKKKYYVINYK;locus_tag=LOCUS_8400;gene=tyrS;EC_number=6.1.1.1;note=WP_000186029.1 tyrosine--tRNA ligase (Staphylococcus) [pid:50.0%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:1.6e-111],MGA_846
sequence08	MetaGeneAnnotator	CDS	48895	49497	.	-	0	ID=MGA_847;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003703954.1;translation=MARYTGPAYKKARRVGFSISETGKELARRPYAPGAHGNSRRGKLSDYGVHLKEKQKVRFMYGVNEKQFRKTFDEASKLKGIHGTNFLRLLESRLDNLVYRIGFANTRRGSRQLVNHGHVTVNGKKVDIPSYRCKPGDVISLKEKDKDLKVVNEALEKVSKRVEFIKYDDKKKEATYVRLPERNELNADINESLIVEYYNK;locus_tag=LOCUS_8410;gene=rpsD;note=WP_003703954.1 30S ribosomal protein S4 (Ligilactobacillus) [pid:61.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-70],MGA_847
sequence08	MetaGeneAnnotator	CDS	49745	49975	.	+	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKRWKAVLIVVLIITGAFLVFSRADNTSNKLYDVLKDAATGTVTILTPYILLLIFSILTTFGIVCARKKLELEKS;locus_tag=LOCUS_8420;note=MGA_848
sequence08	MetaGeneAnnotator	CDS	50047	51759	.	+	0	ID=MGA_849;product=septation ring formation regulator EzrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989755.1;translation=MHGKVLFIVTGIIVVIIVVALIIYFYRKHRLNKYYAKLDEREYEKNLITSTPIGVELSKVEPIIKNDKMEEKYEKWQKKFEKIKGEEVEKLQDMIIELEEYIDRREYKEADNKFAKLDMQLYITREHADSLLESIKEITLSEEKYRSIVIKLKAKYRDLNKEYVKHQDLYDEMQEAVALQLENIEKRFLDFEKVMAKNEYNEVVHVVKALDTMIDHMEIVIKEVPDLLLMGKQLIPKRMKEIKDTADSMIKEGYSLDYLNIDYNLEESKKNIDTILDKVRVLNLEDCMFELKTILDYMDSLFVDFEKERLSRKVYEEMGKDFAKKLKNTNESIDDIYSRLDEIKNMYDLEEGDIETINNIKKEITTINDEHKKIKNKEKKNSTPYSELHKEIEALSNKLNALEEKLDISLKSLGNMHDDELRAREQLDEIEEFLKKCKVKIRSYKLPIITDKYFIELNEANEAIVEVIKELEKKPIVINTLNIRVDTARDLVLKLYNTTVEMVKYAELAEAAICYSNRYRGVFEDIDTALDNASKEFFKGNYQKSFIDTTKLVQDIDPNLQKRLVEEYES;locus_tag=LOCUS_8430;gene=ezrA;note=WP_010989755.1 septation ring formation regulator EzrA (Listeria monocytogenes) [pid:21.0%25%2C q_cov:97.4%25%2C s_cov:97.0%25%2C Eval:3.4e-41],MGA_849
sequence08	MetaGeneAnnotator	CDS	51749	52387	.	+	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKNNKKGFITNDLITIIVVCLVLFTVIATMAYQSTNGEKYRIMKYSAYNMATSVAHYKTDNEGLEAHYLQELIDNGAYSNVKNPFNSAANCSPTESFVRDVNSKKYVTLKCGAYLIDDQYIGEDAYTIYKVGPWHEGMKAKKGVQTRAKYNLLKDGKEVYPEYLDEALFIYTVNKDNDTSYGSIIDINKELKVVEKPFYRTRIVHIKKQD;locus_tag=LOCUS_8440;note=MGA_850
sequence08	MetaGeneAnnotator	CDS	52467	54536	.	+	0	ID=MGA_851;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002387067.1;translation=MFEKITYISDNYAEIKLINKDNIKANLMNMHLIFEDDNKLILGEVDDINDDLVKARFLGEIINGSLIGGVIRKPSLKASIRTVKKEEIPLILGEDKKGNMLLGGSPFYNNHPVYIDINNFFSNHFAIFGNSGSGKSCGVTRIFQNMFLDERLFPYKSNILLFDSSGEYYNAFKDINSINPNYNYRFLSTNETSSYDYAEKLRIPVYLLNKDDLALLLECNAHSQLPIIERMLKLARIFASTDMNANDYKNHLIAKAIMTILYTNQTSPNKRNDVFSILNTCTTPEFNLEAEVQGVGYTRKFRECFIIDSKGGFSESVLLTEYLTKFIKEEYDDYEPSGEAFYGLADLEKALNFTLISEGWLRNENTYGDAVTVRVRMHALLTGEYAKYFELEDKVSIEKYLSSLLITNGKKYQLVNINLDDVDDSFAKVITKIFTRLVFEFAKSLPDRGTIPFHVIVEEAHRYIQNDTDRFLLGYNIFERVAKEGRKYGVILGLITQRPSELSDTTISQCSSFLIFKMNHPADVDYIKKMVPNISEEIIEKQKSLQSGTCLTFGRAFKIPLIVKLAMPSPEPLSGNCDVVSIWDGNQKEYTGSNEKVKQANSSTVDLNPNIDEEIVEQAQDLIVEEQPTTEEPTSEVTIEEVPTEEKAPQTTVVEDSTTSPQDVVDDSILKEKAEPDNNDELITVVPTT;locus_tag=LOCUS_8450;note=WP_002387067.1 ATP-binding protein (Enterococcus) [pid:23.3%25%2C q_cov:82.6%25%2C s_cov:90.3%25%2C Eval:1.6e-27],MGA_851
sequence08	MetaGeneAnnotator	CDS	54594	55901	.	+	0	ID=MGA_852;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232020.1;translation=MFENLGDRLQNAIDKIKGYGKITEENIGEAMREIRLALLEADVNYKVVKEFTNNVKEKALGEEVKKSINPGDLFVKIVNDELTELLGGEAAPLNLAGSPAILMLVGLQGSGKTTTIGKLANFLRKKHAKKPLLVACDVYRPAAIDQLKTIGKQLNIEVYEEGKKDPVGIADNAIRYARENGYDYVLIDTAGRLHIDEELMDELNNIKDKVHPKEILLVIDAMMGQDAINVIEGFNNKLDLTGVILTKLDGDTRGGVSLSVRHLTNVPIKFIGTSEKLDGLDSFDPERMAGRILGMGDVVSLVEKAEEAIDEKEAMKSAKRLESGKFDLEDFLSTMNQMKKLGPLENIIKMLPGAKKMGLTNIKVNPKDMAHIEAIVLSMTPKERRNPDIIKASRKTRIAKGSGTSVQEVNKLLMQFEQMKKMMKNMKNGNMKLPF;locus_tag=LOCUS_8460;gene=ffh;note=WP_003232020.1 signal recognition particle protein (Bacillus) [pid:55.5%25%2C q_cov:99.8%25%2C s_cov:99.3%25%2C Eval:3.5e-136],MGA_852
sequence08	MetaGeneAnnotator	CDS	55910	58237	.	+	0	ID=MGA_853;product=ABC transporter ATP-binding protein/permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948591.1;translation=MLKIKDISKSYKTGDFVQKALDKVSLSFRSNEFVSILGPSGSGKTTLLNIIGGLDRYDSGDLIINGKSTKSFKAKEWDAYRNNCIGFVFQNYNLITHISVLANVELGLTLSGVSKRKKKKLALDALDRVGLLDHAHKKPNQLSGGQMQRVAIARALVTDPDIILADEPTGALDSKTSKEIMELIKEIAKEKLVIMVTHNREIAEKYSTRIVELKDGKIVSDNNEIKEKQESNDFTIKKTKMNFLEALTLSFNNIRTKKGRTFLTSFAASIGIIGIALILSLSNGFQKKIDEFQDTTLAKAPILIMTQSMNMDTNAFKDMTSSKLKKFPTKKEIYPKDDMVETLIHNNKITKEYEDYIKDINPNYVSSISYTKTVNLIAINKDDEGKYNLIPNTTISNNENATSSMWVMFPYRLNNNNTDIVSDTYDTLAGKIEDDKPGLVLMVDTRNRVSASILKQLGFTKDLDKVSFEDIMNKEIKVILNDDYYTNIGGSFVPKQDYEALYNNDNAVTVKVQAILRGKDNEEAALISEGDGIGYTKGLMDIVISKNDNSEIVKAQKDLDYNIMSHAAFDKEGTNTKENFLGYLGADTSPYMIMIYPNDFDSKDHIIKYLDKYNKGKKGDNKVEYTDQAELITSLTKNIMNAITIVLIAFSSISLIVSSIMIGIITYISVLERTKEIGILRALGARRKDIKRVFIAEVVIVGILSGIIGIGIAYLLTIPANMIIKNLSNLTNVAQLSPIHAIILITISVILTIIGGRIPSGIASKKDPVEALRSE;locus_tag=LOCUS_8470;note=WP_011948591.1 ABC transporter ATP-binding protein/permease (Clostridium botulinum) [pid:49.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-205],MGA_853
sequence08	MetaGeneAnnotator	CDS	58246	58875	.	+	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLLKRIFTTSVVTSSILLLIGILLIVESEVTVLSIYYIIGATILSLGVLAIVRYFLALRGDKTGYGLSIVYGIITCFVGVGIINNPRSIAGIIPVIVGIGVLINSSLKLEYSMELKRRNNDIWKSTMVMACLSLLCGVLLIFNPFQGAKILAKIVGGFLVVYAILDIVGTLRIKKVIKEEFSDLKKIEPKVTEAEVVKEEKKKKNKK;locus_tag=LOCUS_8480;note=WP_002288181.1 DUF308 domain-containing protein (Enterococcus) [pid:26.1%25%2C q_cov:74.6%25%2C s_cov:85.2%25%2C Eval:1.6e-10%2C partial hit],MGA_854
sequence08	MetaGeneAnnotator	CDS	58890	59048	.	+	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLLSITSKLKDLNSVVHNFVDKFSSNPAFSFIIAVALAIFIYVGVANFTKK;locus_tag=LOCUS_8490;note=MGA_855
sequence08	MetaGeneAnnotator	CDS	59067	59753	.	+	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDDDIEVLTLDDEEVKEVKKPKVEIIPVKPVEPVIEEKKEEKVPAPEHPQEEKKQPKRDYQKLVIIILIAVIIIMVIFIIMVPLFTRWLDRKKTNDKINSSKYQVLVCSKSDKKEGYIITDAVKVYHIKSKAKKVDYITESNFYDKSDDYTKKLKECTELDSKSDEVLGYFTKCLVNDKKLTLDKEYDLEIFDNKSKANDKIKSVVLFDQNIKEIEAYYKDKNYTCE;locus_tag=LOCUS_8500;note=MGA_856
sequence08	MetaGeneAnnotator	CDS	59837	60370	.	+	0	ID=MGA_857;product=DUF402 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000506622.1;translation=MKNLEIGKKYQIHGYKHNGKIHRAWDEAVLLEIHDDYLIFGNNRTKVIEADGRSWRTKEPAVMYFYKNNWFNVIGQYKKDGIYYYCNIASPFLIEEDTIKYIDYDLDLRVFPDGSFKVLDRGEYKYHKELMNYSDKLDKVLKSELTFLIEMVRKKESPFAKGIVEHYYEIYKKLKKK;locus_tag=LOCUS_8510;note=WP_000506622.1 DUF402 domain-containing protein (Bacillus cereus) [pid:47.9%25%2C q_cov:93.2%25%2C s_cov:93.8%25%2C Eval:4.1e-48],MGA_857
sequence09	MetaGeneAnnotator	CDS	97	2586	.	-	0	ID=MGA_858;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000579368.1;translation=MSILKMLDHEYKELKRFEKLANEIEELDEEYGKLTDTELQEKTGIFRERLHNGETLEDILVEAFATAREAAYRVIGEKPFHVQLLGALAIHYGNIAEMKTGEGKTLTSVLPAYLNALPGEGVHIVTVNEYLAARDAEWMGGIHRFLGLTVGVNTRDLNPREKQEQYACDILYSTNNEIGFDYLRDNMVVRSEDRVQRPLNFAIVDEVDSVLIDEARTPLIISGGQMNNASLYHDADRFAKSLTKDKDFTYDEKTKSVNLTEDGVDKAEKMFNINNLYDINNATLVHFINQALRANYSMKLDVDYVVQEGEIIIVDQFTGRLMKGRAYSDGLHQAIEAKEGVQINEETKTLATITFQNLFRMYKKLAGMTGTAKTEEEEFRSTYNMYVIEIPTNKPVIRVDAADLVYASKEAKYKAIINVVAEYYKKGQPVLIGTIAIETSELISRLLKQARIPHEVLNAKNHAREAEIISKIGQHKSVTIATNMAGRGTDIKLSDEIKELGGLCVIGTERHESRRIDNQLRGRSGRQGDPGYTQFFVSMEDDLMVRFGSDRIKTMMQSLGIGDQAIRSKTFTKSIGTAQARVEGNNFDIRKQLLEYDDVMNIQRENMYDRRNKILDTESIHEAVLDGFRRHIEDLVRSHVAPEGYLTEEDLAEIVQFANENLLRKDIKKKDIENLSEEEMIDKLSKKVIAEYEDKLAEIDPEIKDEFEKAITLQVIDNYWMEHIDTMSHLREGIGLRGYAQDNPLRAYTMEGNDLFDAMLQKIDRDVSIFLLRAEIRQNIERKEVVKNKHTNEDKSEAKKQTPKRVKKVGRNDPCPCGSGKKYKQCCGK;locus_tag=LOCUS_8520;gene=secA;note=WP_000579368.1 preprotein translocase subunit SecA (Bacillus) [pid:57.8%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:2.2e-276],MGA_858
sequence09	MetaGeneAnnotator	CDS	2661	3038	.	-	0	ID=MGA_859;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183499.1;translation=MAKLNKDDFIKALKEMNLLEIKELVDAMKEEFGVDPSAVAVAAAPAAAGDAAGDAAPSQVTVSIADAGAAKVAVIKVVKEITGLGLKDAKDIVDANGVVKENIPSAEADEIKAKLEEAGATVEVK;locus_tag=LOCUS_8530;gene=rplL;note=WP_011183499.1 50S ribosomal protein L7/L12 (Mesoplasma) [pid:50.8%25%2C q_cov:97.6%25%2C s_cov:98.4%25%2C Eval:1.1e-23],MGA_859
sequence09	MetaGeneAnnotator	CDS	3062	3721	.	-	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASEAVLKQKQGIVEEIKNKIDNSTTVVLFDYRGLTDAEIKELRNKLREANADYKVYKNTLMARAFNDLKYDLNDELKGPSAFAFSEDQVAPIKVLAEFAKTHEALTLKVGIIDGEKADLDKLKEFAVLPSRDELLTMLAGGMIGLVRDLSIALNLYAEQKEGDAPAEVKEEPKEEAKEEAVEEKKEESAEEPAEEEKKEETPVEEPKEEKEESSEEEK;locus_tag=LOCUS_8540;note=WP_003235042.1 50S ribosomal protein L10 (Bacillus) [pid:48.1%25%2C q_cov:72.1%25%2C s_cov:96.4%25%2C Eval:3.0e-34%2C partial hit],MGA_860
sequence09	MetaGeneAnnotator	CDS	3875	4573	.	-	0	ID=MGA_861;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167141.1;translation=MKKRSKKYNSALEKIDRSKLYTKEEAVKLVKETATTKFDSTVEVAMRLNLDTKKADQQLRGAIALPKGTGKDIKILVIAKGDQAEAAKKAKADYVGDTDMIEKIEKENWFDYDTIIATPEMMPLLGKIGKILGPKGLMPNPKTGTVTPDVAKAVEEAKSGRVEYKTDSFGNVHALIGKASFKEGDLIANLDAFVETILKLRPASVKGEYVKNISISTTMGPGIKIDKISFDK;locus_tag=LOCUS_8550;gene=rplA;note=WP_011167141.1 50S ribosomal protein L1 (Mycoplasma mycoides) [pid:56.0%25%2C q_cov:97.0%25%2C s_cov:99.1%25%2C Eval:8.4e-70],MGA_861
sequence09	MetaGeneAnnotator	CDS	4625	5251	.	-	0	ID=MGA_862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEVVNVIKLQIEAGKASPAPPVGTVLGPAGINLQDFCTKYNEATRDKMGDILPVEIKVYEDRSFDFVVKTPPTSFLLKKYAKVKKGSVKGANEVVATLTPDQIREIAEIKLPDLNAYNVEEAMKIVEGTARNMGIAIKGVNDAELAAQAQEALEHEKEMAKQQAALEKMEAEAEEMREKAAEESAEEAAPAENADEQPQEETKEENN;locus_tag=LOCUS_8560;note=WP_003156430.1 50S ribosomal protein L11 (Bacillus) [pid:56.2%25%2C q_cov:65.9%25%2C s_cov:97.2%25%2C Eval:9.1e-38%2C partial hit],MGA_862
sequence09	MetaGeneAnnotator	CDS	5392	5580	.	-	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTEDFYKLGLAKGKETRYNYAKLAKKIEKAYGLEAEREYKRGFSVGLNQKITKNKRKTKHK;locus_tag=LOCUS_8570;note=MGA_863
sequence09	MetaGeneAnnotator	CDS	5602	6135	.	-	0	ID=MGA_864;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003225764.1;translation=MEKQWYVVNTYSGHENKVKEKLEMRAESMGMEDYIFRIIVPEEKVIEVKDGVQKEKIKKMFPGYIIVEMIMTDEAWYIVRNTPGVTGFIGSSGKGAKPTPLQPYEVDKILANMGMSRMDVDKELKEGIKVNIIDGPFKGMTGVVDSLDLPNNKINLIVDLFGQETSVEVELSQIQKA;locus_tag=LOCUS_8580;gene=nusG;note=WP_003225764.1 transcription termination/antitermination protein NusG (Bacillus) [pid:57.3%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:8.2e-57],MGA_864
sequence09	MetaGeneAnnotator	CDS	6145	6426	.	-	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKQVKRNNNNQKKVPVQKENNTKSNPTSKENLITRIILFFKGVRSEIKKVHWLDRKSMVKYSIATICFIVFCALFFYVIMNLFALVQELLG;locus_tag=LOCUS_8590;note=MGA_865
sequence09	MetaGeneAnnotator	CDS	6513	7037	.	-	0	ID=MGA_866;product=ribosome-associated translation inhibitor RaiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966132.1;translation=MEIVIHGNKLEITDAMKDYIKEKLSKLDKYLEDSDNVRATVVVKIKNPYQIVEVTIPLKSFILRSEEKQQDVYAAVDVAVDKLERQIRKNKTKLASKQKNVPDFTFGAIEDIEDEEEKVIKRKKIEVKPMDEEEAIIQMELLGHQFFMYKDSETNKPALVYKRKDNGYGIIESE;locus_tag=LOCUS_8600;gene=raiA;note=WP_010966132.1 ribosome-associated translation inhibitor RaiA (Clostridium) [pid:40.9%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:4.5e-36],MGA_866
sequence09	MetaGeneAnnotator	CDS	7089	7307	.	-	0	ID=MGA_867;product=cold shock protein CspC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001990088.1;translation=MIGRVKWFNNEKGYGFIEYKAEEDIFVHYSAIEQDGYKTLSEGQLVEFDLIDTDKGFQAHNVKLVKELAAVN;locus_tag=LOCUS_8610;gene=cspC;note=WP_001990088.1 cold shock protein CspC (Bacillus) [pid:66.1%25%2C q_cov:86.1%25%2C s_cov:95.4%25%2C Eval:3.1e-18],MGA_867
sequence09	MetaGeneAnnotator	CDS	7547	8143	.	+	0	ID=MGA_868;product=accessory gene regulator ArgB-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963405.1;translation=MKDKFINNCIKLITKYKHYSKADIAKMRYGLEGIYLTFYKMIILIVLSFLLGIVKEFFLVIIFFNIIRFTGFGFHAEKSYQCLVISIIEFILLPLLLLRVYVPIYFYYIFSFLCILTYLLYAPADTVKRPLPNKRKRVIRKTLTVIIGIIYLLLIILVPNNTLTVTLLSALIIEAISVNPITYKIFKQPYRNYLNYSV;locus_tag=LOCUS_8620;note=WP_010963405.1 accessory gene regulator ArgB-like protein (Clostridium) [pid:26.3%25%2C q_cov:92.9%25%2C s_cov:88.0%25%2C Eval:6.8e-16],MGA_868
sequence09	MetaGeneAnnotator	CDS	8188	8307	.	+	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLSKVLAAVALLATGAASLGCPWWISDEPKANHLFND;locus_tag=LOCUS_8630;note=MGA_869
sequence09	MetaGeneAnnotator	CDS	8322	9626	.	-	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVIITNFINCLITAIVGFYLIKGITKSEIRVLSLKTIILLLIEAAITVFFRQNQYIEFSSLLIYVVNIIIYKEIFDITFNESLVVVTILMLLMLVADILVTIPLSFMITVKQLQNNWQVFIPANIAIGIVTILLLKIRWLREKLQRFYTNAQKKSTITNIAFLLLTIILACILAYSIYRNYTLNNRVVADIVIVVILMTLIIIHINNRNKYSQLTDEYDNLLTYFQAFEERVEKEEFNKHEYKNQLSVINGLTKEKAVKKKIQELLNEDLSPDEQNVGEFKNLPKGGMKGLMYYKAAIAKKNAINLTVDIKLKKNNILKKLSDEENSVLCKLIGVYFDNAIEAARETTKKKVALEIYEIKGKLNVVISNTFKKSVNFDRRNEKGITTKGKGHGNGLYYANKLISKNKWIVSKQEIIGEYYIQSIIVDKKKREN;locus_tag=LOCUS_8640;note=WP_015613327.1 GHKL domain-containing protein (Lactobacillus acidophilus) [pid:22.7%25%2C q_cov:74.7%25%2C s_cov:76.1%25%2C Eval:5.0e-10%2C partial hit],MGA_870
sequence09	MetaGeneAnnotator	CDS	9710	10795	.	-	0	ID=MGA_871;product=MraY family glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000378318.1;translation=MKREIIEVIEIVLTTFIFSAAIMPIMKKVAVHIGAMDRPRADEGHRHIHNKTMPKLGALGIFLSFLFGYILFGEQSVQMNSILIGSFIMILTGIVDDIHSIRAREKFLCQLIAASVIVFYGGILLNNITAFGFNFDFGILSYPLTLFFIVACCNMINIVDGIDGLSGGVCSIFYITIAIIGFFQGRYGSLVMILTLIMLGSTLGFLVHNFYPAKIFAGDCATFEGFIIAVITLLEFKATALISFFVPILILGIPVLDTIFAIIRRALKRQPIFSPDRQHLHHQLLGMNFSQKTTVLIIYTINILFAIAAIFYVLKDPFVGKIIYIILLLIVLWFVLKTSVISDKNPKTIAKIKKKLTKHKK;locus_tag=LOCUS_8650;note=WP_000378318.1 MraY family glycosyltransferase (Bacillus cereus) [pid:44.5%25%2C q_cov:84.8%25%2C s_cov:85.7%25%2C Eval:3.1e-68],MGA_871
sequence09	MetaGeneAnnotator	CDS	10854	11849	.	-	0	ID=MGA_872;product=cell shape-determining protein Mbl;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227776.1;translation=MAKDIGIDLGTANVLIWIKGQGIVLNEPSIVAMEKETKKIIAVGKEANKMFGRTPGKVKAIKPMKDGVIADFEVTQIMLNTFIKKIKARSLFIRPRILICCPTNITPVEKNAIKEAAERTGARAVYIEEEPKVAAIGAGMDITKPEANMVIDIGGGTTDIAVLSLNDMVTSESIRIAGNVLDQDIIKYIKSKYKLLIGEKTAENLKINHANVFKPDKKIKVEVKGRNLITGLPHSEEINQVELEEAMHESLFRIIKAATNVLEQTPPELSADIANRGIVLTGGGAMLEGLTELFQKELNVQILIADSPLTCVVEGTGVLLEDIKRLEEDQN;locus_tag=LOCUS_8660;gene=mbl;note=WP_003227776.1 cell shape-determining protein Mbl (Bacillus) [pid:58.8%25%2C q_cov:98.2%25%2C s_cov:97.6%25%2C Eval:5.9e-111],MGA_872
sequence09	MetaGeneAnnotator	CDS	11945	12589	.	-	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKRISLKREVKITMVLVLAFVLLSAIYLVLVKFKGNSEPELLNYVPSKVVTNEDIPVVKEETKLLNPYTDSNVKIGKYYYDYKADKTKQENSITENDNTYMQNSGIDFIASNTFDVISSQNGEVTNVKEDELLGKTIEIKHDNNYMSIYQSLSEVNVKKGDQVTAGQIIGKSGHNKLDEELGNHLHYELYIDGKIVNPEDHLNKEIKSSKNQQ;locus_tag=LOCUS_8670;note=WP_003227751.1 stage II sporulation protein spoIIQ (Bacillus) [pid:33.8%25%2C q_cov:94.4%25%2C s_cov:73.1%25%2C Eval:8.4e-26%2C partial hit],MGA_873
sequence09	MetaGeneAnnotator	CDS	12640	12837	.	-	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAKVWLYVAVSILTIWSLEAVRINQIFKKNRHYQALVFYFLLAVSIVYLVTNFIWDFVTYSKII;locus_tag=LOCUS_8680;note=MGA_874
sequence09	MetaGeneAnnotator	CDS	12827	13273	.	-	0	ID=MGA_875;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932728.1;translation=MKIGIANDHRGVELKNYLLERLQEYEVVNLGTDTNESVDYPDFAFLLGEKVANHEFDYGIAICGSGIGISIACNKVKGIRCAKVSNIEEAKYTRIDNDANIVALSANTNQEDALEIVEAFLNTDFSHEERHQKRIDKITKYERGEYER;locus_tag=LOCUS_8690;gene=rpiB;EC_number=5.3.1.6;note=WP_010932728.1 ribose 5-phosphate isomerase B (Chlorobaculum tepidum) [pid:46.8%25%2C q_cov:93.2%25%2C s_cov:97.2%25%2C Eval:5.1e-28],MGA_875
sequence09	MetaGeneAnnotator	CDS	13330	13773	.	-	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKHLEKETTLKKEKREIGIILLCAVASACIISLLATIKPKVIIRTGNFRNYSAFRQYATAAKIEDYGIYVLGIICIIIIIVGFLKVAKSNNTLGLNFAIVAKHILLAVLIWFCIVPLFSLSIERTIGAHRITCWCGPDYIQIDRRK;locus_tag=LOCUS_8700;note=MGA_876
sequence09	MetaGeneAnnotator	CDS	13830	14042	.	-	0	ID=MGA_877;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545159.1;translation=MKKNIHPEMMDCKVTCACGETFTVKATKPEINVEVCSKCHPFYTGQQTRASRAGKVDKFNKKYGFDKKQA;locus_tag=LOCUS_8710;gene=rpmE;note=WP_012545159.1 50S ribosomal protein L31 (Thermodesulfovibrio) [pid:60.3%25%2C q_cov:90.0%25%2C s_cov:95.5%25%2C Eval:1.0e-18],MGA_877
sequence09	MetaGeneAnnotator	CDS	14116	14715	.	-	0	ID=MGA_878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRKVKLFSLSLFLIVIYYIYINVNPPIEYLDLGDNYKENRTYHYYDYITNYLRKKNKLKNFNNYTSDDYLIEDIYNEISNSSLKKDLREAKILTISIGKNNILYLKGKGKSNKEIKNSIKTNIEELIKEIRKYYKRDIYLLEIENKNTYQDVTNDINRLYRKEAKRIPKLYYIETNNLLEKGPYEKEISKRIIKKLEK;locus_tag=LOCUS_8720;note=MGA_878
sequence09	MetaGeneAnnotator	CDS	14747	16003	.	-	0	ID=MGA_879;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732525.1;translation=MKCLEIEQVKKLTGTVRISGAKNAAVALIPAAILADTGDVTICNVPDITDTDNLCDILKHLNVKTKRASESVLINAQEMKNVEISEEFSVKMRASYYFMGALLAKYKKAVMYFPGGCAIGKRPINLHLKGFEALGAKVTNDGNKYTVEADELKGNNIYLDIASVGATINIMLAAVKAKGTTIIDNAAKEPEIVNVAVFLNSMGARITGAGTSTIRIEGVESLHGAFHEVIPDRIEAGTFLIAGALAGENLKIDNIIPEHLESLLSKLDEVGVPLEIGDDYVVVSKGENYHRTNIITRVYPGFPTDLQQPFTVLLTQAEGKSTVEETIWENRFMHAPYLEKLGANVEVKDKKLIVVGKTPLVGTTVKATDLRAGAAMVVAALIAEGKTKIEDAEHILRGYEGIVEKLTNVGAKIELKEI;locus_tag=LOCUS_8730;EC_number=2.5.1.7;note=WP_003732525.1 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Listeria monocytogenes) [pid:51.5%25%2C q_cov:98.1%25%2C s_cov:96.7%25%2C Eval:6.9e-118],MGA_879
sequence09	MetaGeneAnnotator	CDS	16095	16631	.	-	0	ID=MGA_880;product=manganese efflux pump MntP family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393871.1;translation=MNSIRLFLFLGIGLSMDTFSLSIIYGTNSIRKSTRFLLSILVGSFHFFMPILGFVTTSFLTKNININADLVTGIIFLILGVDMIVKDEEEKNNNLGVLEALLFSLSVSLDSLSIGVALGLQKENIILASIIFSVCSFLFTVLGLSIGKRIREKLTNKTNLLGVIILFFLALKYIIKSI;locus_tag=LOCUS_8740;note=WP_011393871.1 manganese efflux pump MntP family protein (Moorella thermoacetica) [pid:24.7%25%2C q_cov:94.4%25%2C s_cov:95.9%25%2C Eval:1.2e-10],MGA_880
sequence09	MetaGeneAnnotator	CDS	16653	17171	.	-	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIVMALIVGMASLLKYNSEEYIVIPNEAIRLRVIASSNNEADQSLKREVKRNLTKELFPLIKEARDINEVRENIRSNFKDLSLNIKEVTKDDNYQINYGKNYFPEKTYKGVKYPAGQYESLVVKLGDGAGKNFWCVLFPPLCLLEGEKDKANDVEYKFLVKDILKKYFQ;locus_tag=LOCUS_8750;note=WP_003227654.1 stage II sporulation protein R (Bacillus) [pid:36.3%25%2C q_cov:87.8%25%2C s_cov:70.1%25%2C Eval:3.2e-26%2C partial hit],MGA_881
sequence09	MetaGeneAnnotator	CDS	17215	18033	.	-	0	ID=MGA_882;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001267061.1;translation=MTVDELLVHAQKYIHKDQAKLLLADLLNKNPLELLNFLNSSVDNEIANEYKKRVEAIKEGKPLQYVIGNVNFYGNKFLVNEDVLIPRFETEELVENTLKYIDKLFEGKVKIIDLGSGSGNIGLTLKQKLPNAEVDLIDISPSALEMSKKNAEELKLEANIYKSDFFDQVEGKYDVVISNPPYIKDGEEIEDIVKNNEPELALFAGVDGLDCYKKIFKDIKEHINDKFLIALEIGKDQKEDLIKIINDTFDKVRIDVLQDLSERDRMIFIYNE;locus_tag=LOCUS_8760;gene=prmC;EC_number=2.1.1.297;note=WP_001267061.1 peptide chain release factor N(5)-glutamine methyltransferase (Bacillus cereus) [pid:37.1%25%2C q_cov:87.9%25%2C s_cov:86.6%25%2C Eval:2.8e-41],MGA_882
sequence09	MetaGeneAnnotator	CDS	18035	19096	.	-	0	ID=MGA_883;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421389.1;translation=MIERLETIEKHYNDLSAELANEETLKDVNKTKKISKELSDLEETVSCFNDYKKVLEEIEQAKEILNDPDLKDMAKEEIAAKEEQKGDLEKKLELLLIPKDPNDNKNVVMEIRGAAGGDEANIFAGDLFRMYSKYAEKEGYKVEVYNAIEGTAGGYSQIEFLVKGDGAYSKLKYESGSHRVQRVPTTESNGRLQTSTATVLVMPEADDEVNIDINPNDLRIDIYRSSGCGGQGVNTTDSAVRITHLPTGLVVTCQNERSQIQNKEQAMKVLKSRLYDLEIQKQEEEAGKERRSKIGTGDRAEKIRTYNYPQNRVTDHRIGFTTKQLDRVMDGDLKDIIEALIAEDQKRKLAGEE;locus_tag=LOCUS_8770;gene=prfA;note=WP_003421389.1 peptide chain release factor 1 (Clostridioides difficile) [pid:52.8%25%2C q_cov:98.9%25%2C s_cov:99.2%25%2C Eval:1.4e-108],MGA_883
sequence09	MetaGeneAnnotator	CDS	19134	19565	.	-	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKGYKREDLELMSKKDITNLILENRVRPMSTADLFNKIIDLLGLPKKTFDEKIGDYYMALSTDKRFVLLDNGKWDLKNRYSSDKIKKEEITTDEEDEETDEIIEDEIVEDNYDDDDDYDDAESDDDLKDLVVIDEDELEME;locus_tag=LOCUS_8780;note=MGA_884
sequence09	MetaGeneAnnotator	CDS	19674	21419	.	-	0	ID=MGA_885;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003020254.1;translation=MRIIKELNKRVNELVKDLDFDEELSIVTSARPDLGDFQINNSMNLAKKFQKNPREIAESIVKELEKDEALKDINIAGPGFINFSLTDEFLEEVINRISDNIENNIDKVSSKKIIMDYGGANVSKALHVGHLRSANIGEALKRLARLLGCNVISDAHLGDFGRPLGLVILEIKKRFPDLEFFNENYEGDYNNIDLPITNADLEEIYPYASAKAKEDETYLEEAREITLKLQKHEKGYYELWQKIIGISKEDIKKVYDELNVDFDLWEGESDAAEYIEDTIKVFEDKNLVKESEGAKIIEVKKEDDKLPMPPLLLVKSNETVSYETTDLATIYERMKKFNPDEIWYLTDERQTLHFEQVFRAARLGEIVNNNTVLEFIPFGTMNGKDGKPFKTRDGGVMTLKELMQLIYVETDKRINEEIVEENKREQTAKDIAISSLKFADLLPFRRTDYVFDPDKFADLDGKTGAYLLYSTIRIKSLLNKAEGIDYEKITKISGAADRKIMLMLLEMPKVLEKAYSVKSLNDICEYVYNLIATYNSFYAENKIITCPDKDLQTSWLALSSVVYKTVILLLDILGMNIPEKM;locus_tag=LOCUS_8790;gene=argS;EC_number=6.1.1.19;note=WP_003020254.1 arginine--tRNA ligase (Francisella tularensis) [pid:39.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-124],MGA_885
sequence09	MetaGeneAnnotator	CDS	21416	21772	.	-	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKKISVKLLSSDEKIAYDVIGDFSSDDSELYYEEEDMYKTSVIYNFLTNVLKRDNREMYLEYNFAEEEGKVLIKDLDQEMYLDLQVEKINKTKNTITIKYKVNGIDYKYSIRIKEEV;locus_tag=LOCUS_8800;note=MGA_886
sequence09	MetaGeneAnnotator	CDS	21884	23857	.	+	0	ID=MGA_887;product=PBP1A family penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000372958.1;translation=MKKGKKIFKFLIIIIFLLFIARGGVYVYAKITPAPVINRANNLTLYDNNKKVFFQGSGSKKWISLNKMSKYIKDATIAAEDKNFYKHHGFDYLRIIKASITNVSNKSVEQGASTITQQYAKNLFLNFDKTWQRKWKEMWYTIELEAHYSKREILEGYLNTINYGHGVYGIENASRFYFNKSASDLTLAEATMLIGIPKAPSIYSPLINKEKAKERQLIILNSMVKNKMITRKEKKEAYNTDLIYYGKKESEELSTVMYYYDAVLDELKTISSIPKSYSDSKGLKIYTYLDRNSQINLEESIKKEIPDSSKIQTSVVMMKPNSGRIIALVGGRDYNKSEYNRATSAKRQVGSTMKPYLYYAALENGFTPSTTFTSEKTTFTFNNNKDYAPNNYNNIYGNKPISMATAIAYSENIYAVKTHVFLGSEALIDVAKRVGINEELEDITSLPLGTEEINIIDMAKGYSAFANLGNKVSPHLIKKVVDGNGKILYEDKHKGVVVLNKSLCFILNNLLTSTYDSNYIDYNYPTAINLENKLTHKYALKSGTTDTDNWYIGYNKDIITAVWVGYDDNKKLKKTEYKYGQNIWLNSVETYEKGKTNEWYKIPNNVLGVLVEPISGRPAIETDKKKKLVYFIKGTEPEGELITTFEEKLNRDLVKAS;locus_tag=LOCUS_8810;note=WP_000372958.1 PBP1A family penicillin-binding protein (Bacillus cereus) [pid:43.1%25%2C q_cov:94.8%25%2C s_cov:91.2%25%2C Eval:1.7e-143],MGA_887
sequence09	MetaGeneAnnotator	CDS	23923	24459	.	+	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYIIIAAVIVILLIVLSFISSKKKIERIMLSVNEAITNIDVLLKKKLELLKTLEGLVKAKIDINDLNIDLEKLEKEELDAFQLNDRLKDIHNDLFKAIDMNKKVNKNKKIIDCLNELNDNEEDLFGVLKFYNDSVVEYNRIISSFGSRLPALLLRFRKLEFFSNEKREIFEILKNK;locus_tag=LOCUS_8820;note=MGA_888
sequence09	MetaGeneAnnotator	CDS	24468	25391	.	+	0	ID=MGA_889;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023515.1;translation=MAYIERLENLVQGNVKTIVLPESDDERVLEAAKVIEEKGLVKIILLGENYLNPSTYSDIDLMASKLVEIRSGKLTLPEAKELLQTNYMYFAIMLVVLGKADGVVSGARHSSSDTLRPALQILKKESIASSFFIMETNDHDLGEDGILLFADCGMIQDPTSEELVTIAHDSAESFKTLVGATPKVAMLSHSTLGSAKGPLVDKVIKATTLFKEKYPDVLVEGELQVDAALNEDVAKRKGDNISGKSNVLIFPNIDAGNMAYKLVQILGHAKAYGPLTQGLSHPVNDLSRGCSVDDIITVILITAYQAF;locus_tag=LOCUS_8830;gene=pta;EC_number=2.3.1.8;note=WP_011023515.1 phosphate acetyltransferase (Methanosarcina acetivorans) [pid:45.6%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:7.5e-73],MGA_889
sequence09	MetaGeneAnnotator	CDS	25414	26076	.	-	0	ID=MGA_890;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003242965.1;translation=MIGNSWDVYLKEEMNKDYFKELLEKTKKAYREKTIYPKQNEIFNAFRYTPYEKVKVVILGQDPYHGPNQAEGLSFSVKNEVKRPPSLQNIFKELEEDLHIKVGKTNSLKPWALEGVLLLNAVLTVEEHKPASHQNIGWETFTDEVIKTINKKEEPVVFILWGSFARSKKKYITNPEHLIIESTHPSPFSAYNGFFGSKPFSKTNKYLKSKGLKEIDWSIK;locus_tag=LOCUS_8840;EC_number=3.2.2.27;note=WP_003242965.1 uracil-DNA glycosylase (Bacillus) [pid:56.8%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:3.8e-69],MGA_890
sequence09	MetaGeneAnnotator	CDS	26086	26541	.	-	0	ID=MGA_891;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048404.1;translation=MIKIVCVGKIKEKYLQDAIAEYQKRITKYDNIKIIEIKDTTTDDINKNLLTEEKEIRKHLNNNEYIIVLDIDGKELSSEELAAKLEKTYLESSNITFIIGGSYGLSKGIKSEANYHLSFSKMTFPHQLFRVILLEQIYRSFKIINNETYHK;locus_tag=LOCUS_8850;gene=rlmH;EC_number=2.1.1.177;note=WP_012048404.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Clostridium botulinum) [pid:49.7%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:1.7e-34],MGA_891
sequence09	MetaGeneAnnotator	CDS	26543	27298	.	-	0	ID=MGA_892;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001289497.1;translation=MKFKTIESGSKGNCSLLLTAKTKFIIDIGITYLKLKRSLEELNLVPNDFTGILITHSHTDHIKSLGAIIKYTNLDVYIPLKMYAELKEIVPKERVKVLEEKNEVEDLIIEVFPTSHDTKCSVGYLFQNNNKGLVYITDTGYINRKILNKIDNKEIYLIESNHDIEMLMKGPYPDFLKERVKSDYGHLSNDTTARYLKKLIGKKTKYILLAHISEKNNTYEKILEEMKKNEIDKKAEIILAKQDEESPLVEV;locus_tag=LOCUS_8860;note=WP_001289497.1 MBL fold metallo-hydrolase (Streptococcus) [pid:37.9%25%2C q_cov:90.8%25%2C s_cov:87.4%25%2C Eval:1.4e-39],MGA_892
sequence09	MetaGeneAnnotator	CDS	27300	28769	.	-	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKVLILIVFFSYFFVVGFTVGKLEPKEVYRVYISGKPIGLIESKEKLENYIDQEQQSIKRKYGVDKVYAPQELIVKKEMTYSNKISSIESIYNKIKDLSPFTIDGYQITINKLEEKNTKTKTQRIYCLKRNTFTKSVEKTVKSFVKEEDYDDFKEGKKKKIEDTGKIVENIYIKNKITIKKARIPVDKTIYTNEEDLSKYLLFGTTKPQAKYKVKEGDTIPDVAFSNKISNEEFLIANPKLKDENALLFPGQVVTLGIIKPQFSVVEEDHVVVREEKKYRTETKYDDTKDIGYMETTQKGVNGENRLTQKIQKVNGETTSVVTVSTEVLKTPINEVIVKGGKESYYQGGVGSPVPTKGAWGWPASCSTVSSGFGYRWGVLHDGTDIAGCGYKSNIFAAQAGTVTISGSKAMNGQYIVIDHHNGYFTMYAHLCVGCRYVKAGQNVVKGQVIGGMGQTGAATGVHLHFAIWRGSPYGRGSQPLNAMSMY;locus_tag=LOCUS_8870;note=WP_005811628.1 M23 family metallopeptidase (Desulfitobacterium hafniense) [pid:28.4%25%2C q_cov:60.5%25%2C s_cov:60.2%25%2C Eval:6.4e-25%2C partial hit],MGA_893
sequence09	MetaGeneAnnotator	CDS	28769	30118	.	-	0	ID=MGA_894;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226923.1;translation=MALKTMPNNIEAEKSVLGACFLSEYALQKACESLSEDHFYDAKNAKIFTAILDLVEKKTPLDLTTVTSELKNKKQLKEVGGVEYLSEVLDFVPTATNIDYYIKAVEDTAILRNLINTATEIATEGYNTDEEVNETLDNAEKQILNIVKNRKSSEFRTIQDVFAKTQENLEKLASAKEDITGIPTGWYDFDRITTGLHENEFIVIAARPAMGKTALALNIASYVAKNTDKSVALFNLEMGAEQLALRMISSLGQIEGYKLRTGKLVNNDWKRINEAMSQLADSNIFIDDTPGITIGEIRAKCRRLASSEKGLDLVIIDYLQLISGGRNYGSNRQQEVSDISRSLKTLAMELHVPIIALAQLSRAVESREDKRPLMSDLRESGSIEQDADIVAFLYRDDYYNKEARTEDNTSISELIIGKHRNGPTATIELLFKKNTSTFLNLKRDKEGEK;locus_tag=LOCUS_8880;gene=dnaB;EC_number=3.6.4.12;note=WP_003226923.1 replicative DNA helicase (Bacillus) [pid:55.8%25%2C q_cov:97.3%25%2C s_cov:95.4%25%2C Eval:5.7e-134],MGA_894
sequence09	MetaGeneAnnotator	CDS	30129	30566	.	-	0	ID=MGA_895;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700898.1;translation=MKVILLTDVKNQGKKGEIREVKDGYGTFLINNKKALPANAANLKQHAYEEKKAEEKHDADVKEAEKVKKKLEKEELNFKLKVGDNDKVFGSITAKAIAEELNKLNYNVNKNKINLKRPLTTLGVHKVEVELHKEVKGEVTINISK;locus_tag=LOCUS_8890;gene=rplI;note=WP_003700898.1 50S ribosomal protein L9 (Ligilactobacillus) [pid:32.4%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:5.6e-16],MGA_895
sequence09	MetaGeneAnnotator	CDS	30571	31548	.	-	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKSHKKIKKIFKKSKRIFIMAHNNLDLDALGSSIGFYTILTKQRKKCFLVMEETEHELGVGKVFKELEGCLKIVNSENIETFMHKNNKKNLLLILDTNKKELVQAPKVLDLFSKKMVIDHHEPSKKTIDTKYLFIDSEASSTCEIVEQFIEAYSAKINPYIATIILSGIVLDTNNFTLKTDASTFYSAYYLTSLGASVKKVEYLLKQDLEEYIERQKLLTNIEIKDNIAIAKGTPHAVYRREDLAKIADTLLFFNEVEAAFVVAKIDKDEVGVSARSTGDIDIAKIMEKMNGGGDKYNGATKIGTEPISKVVEKLKSILDKE;locus_tag=LOCUS_8900;note=WP_011673985.1 DHH family phosphoesterase (Lacticaseibacillus paracasei) [pid:33.5%25%2C q_cov:96.0%25%2C s_cov:47.8%25%2C Eval:3.0e-43%2C partial hit],MGA_896
sequence09	MetaGeneAnnotator	CDS	31635	31850	.	-	0	ID=MGA_897;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391678.1;translation=MADFYRKKKKVCAMCTGKDVNYKDVETLKRYINEKGKILPRRVTGNCARHQRHIAREIKRARTIALIPFTK;locus_tag=LOCUS_8910;gene=rpsR;note=WP_011391678.1 30S ribosomal protein S18 (Moorella thermoacetica) [pid:58.6%25%2C q_cov:95.8%25%2C s_cov:93.3%25%2C Eval:1.4e-18],MGA_897
sequence09	MetaGeneAnnotator	CDS	31866	32330	.	-	0	ID=MGA_898;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000934760.1;translation=MNKVFLIGRLTRDPELRYTGSNVPVCSFSIAVNRTFTNSNGEREADFINIVVWRKQAENVKNYLSQGSQVAIDGRIQTRNYEDKEGNKRYITEVVADNVEFLGSKKDGNSKGDEPTPYDFKDEDAKEEKTTDVEDNPFADFGSSIEISDDELPF;locus_tag=LOCUS_8920;gene=ssb;note=WP_000934760.1 single-stranded DNA-binding protein (Staphylococcus) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:2.4e-42],MGA_898
sequence09	MetaGeneAnnotator	CDS	32340	32627	.	-	0	ID=MGA_899;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001233779.1;translation=MNKYEVIFIVKPDLEEAAITKEADAMKKVLTGKKAKIVEEKAWGQKELAYEIRKYKTGYYFYYLIEADSKAIDEFDRIAKINENLLRSLIIRVEE;locus_tag=LOCUS_8930;gene=rpsF;note=WP_001233779.1 30S ribosomal protein S6 (Bacillus) [pid:42.1%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.4e-18],MGA_899
sequence09	MetaGeneAnnotator	CDS	32754	33197	.	-	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDETYEYLHEYGFDALELDSFERLNHGVFYLDYNDVRKIITFLEDKFLFPDEIIKIININPFLLTESSKKINELENIYNELGFDHNQLRTLITKNPLMYSVNPDEVEKIVEYLRMQSLDNEKICKLIIKNPKIINMKFEEFKTEIY;locus_tag=LOCUS_8940;note=MGA_900
sequence09	MetaGeneAnnotator	CDS	33204	34859	.	-	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINLISIKQVYCNLRRSATKDKISLLSATQINKHFEKYYYDKQQDKCFCPYTGKELTKETAILEHIIPISCGGGTVLFNCIPALKSINGPNEKGARHLLDWWPKSGYFSEARLQTLIDYMISAYEEVFQRENIQLMIDSEEELVLEEINREIDEIDFSNEKKLLEQTKMTGQLESFSFLNDCIALLSNDKNKKYYEEKIARMKNDNAFKEIEKYEEFYSIFKDILREKFYPGSREYLTISLKYNLSELINSMPNDVKAPQEIREEISRRLNNIANILEKNDISIYSYFDNLGSSQIQNVLAKEKLTEEETKKFIEELELCPRDKFRQLINYVENNGGKLPSRKNPRTKQEKILGKFCNRIQDVNNYSFKTKLTKEELKELHNSKYESLNKIYKNILYKATLKKIKIEYVDDEIKKKMEFALQELSKNKAILSQIEIKNKYKEVIKVSPFFELIYYVENNGGKLPSSKSKDPQTRKLGKFRRTLQTVIKTKGGATFKVRLSEEELKLLHDSKYESLNEIYKSLVARAKTNNIDKYISIDNKIQKEEQRKEKR;locus_tag=LOCUS_8950;note=MGA_901
sequence09	MetaGeneAnnotator	CDS	34918	36018	.	-	0	ID=MGA_902;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000524669.1;translation=MSLKAGIIGLPNVGKSTLFNAITKQKILAENYPFATIEPNVGVVTVPDERVEKLNEMYEPHKKIPTTFEFTDIAGLVKGASQGEGLGNKFLSHIREVDAIVEVVRCFDDGKIIHVDGSIDPIRDVETINLELALADLEIINNRIERMGKKAKTTKDKNDLIELGALEKSKKALEESKPLRLLDFTKEELFALKSFSFLTLKPVIYLANISEDDLDKEDNEFVKSLKEYANKENSKVITICAKLEEDLADMPEDEKKEMLEGLGLSSSGLDQVIKTTYDILGLATYFTVGKDEVRAWTFKKGMNAKECAGIIHTDFEKGFIRAEVISYEDLIECGSELKVKEAGKARLEGKDYLMQDGDICHFRFNV;locus_tag=LOCUS_8960;gene=ychF;note=WP_000524669.1 redox-regulated ATPase YchF (Bacillus) [pid:60.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-129],MGA_902
sequence09	MetaGeneAnnotator	CDS	36073	37665	.	-	0	ID=MGA_903;product=AbgT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868784.1;translation=MKYRKRKLKKFYFHPITVFIFLTLFVMVLSAICSAFQMQATYDTVNKITGELEPNLVTVENLFNFYGLNFLISSASKNFISFAPLGMLLISMIGVSVAEASGFTEALAKRHLRKVPKSVLTYFIILIAIFSSLINDIGYVILIPLVASIYLTNKRNPILGIVTAFCAVAYGYGVSLFIGSMEVSLIPYTTSAAYLIDGNAHIALTSNLFFIIFTTIALSFAGTFVVEKFIAPKIGKYREGDDISKTLELEYIDLEKQEQQKLEKDRNENRGLRFAMITAIVVTLAFIYMIIPGLPRSGLLLDMSQKTYLNQLFGEASYFQDGFTYLICILFLTMGLAYSFGAHKFKNDKQLIENSSKVFSNLGSVIILIFVVSQFIAVFKKTNIGIVITAWLANLLNHLSFSGIALIIAVILLIAVSNLFLTTPAAKWQIFSPVVVPMLMQSNISAPFAQVIMRAGDSITNGMTPLLAAFVVYIGFLNVYNLHKDKPITIRKAIGFTLPYFWISMAIWIFIIVAWYLIGLPIGPGVYPTI;locus_tag=LOCUS_8970;note=WP_012868784.1 AbgT family transporter (Thermanaerovibrio acidaminovorans) [pid:32.0%25%2C q_cov:97.0%25%2C s_cov:94.7%25%2C Eval:4.7e-77],MGA_903
sequence09	MetaGeneAnnotator	CDS	37670	37861	.	-	0	ID=MGA_904;product=DUF951 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003639829.1;translation=MESKNLNYKVGSKVIMKKQHPCGENLWEITKLGADIKIKCLNCGRSLFMPRIEFNKKLKKIVE;locus_tag=LOCUS_8980;note=WP_003639829.1 DUF951 domain-containing protein (Lactiplantibacillus) [pid:66.1%25%2C q_cov:88.9%25%2C s_cov:88.9%25%2C Eval:1.7e-16],MGA_904
sequence09	MetaGeneAnnotator	CDS	37851	38669	.	-	0	ID=MGA_905;product=mechanosensitive ion channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002455953.1;translation=MLVTMFDAIDIDLNYIVRPIVYIFIGVIVYYILKAVINTNMHKRFVKKRHYKKRITTINALILNIIKYLIIISVIISILTVFKVDVRSIITGLGITAAIVGLAFQDFIKDILAGISIVSEDQYEIGDTIKIGDFMGKVTLISLRSTRIQDFKGATKIIANHTITEVINYNLEDSLALVDIAIDYKANTDEVLNTLEKIAGELDKSLENTKGPVEVWGIEDLSSSAVVYRMCVLVDSMNQYVTQRIMRKAIKDKLEEAKIKIPYQQIEVHNGK;locus_tag=LOCUS_8990;note=WP_002455953.1 mechanosensitive ion channel family protein (Staphylococcus) [pid:27.7%25%2C q_cov:88.2%25%2C s_cov:83.4%25%2C Eval:2.0e-18],MGA_905
sequence09	MetaGeneAnnotator	CDS	38678	39559	.	-	0	ID=MGA_906;product=stage 0 sporulation protein Spo0J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001051832.1;translation=METKRRALGRGLEELFNNEPLNYNKMEEKIITSTPKEEIVKIKLDELRSNPYQPRTNFDQTALNELADSIKEHGVFQPIIVKKSIKGYEIIAGERRVKAATIAGLEEIPAIIRDFTDEEMMEIALLENLQREDLNAVEEARAYQKLLESLGITQEQLAQKLGKSRSHITNMLGILTLPEEVLNRIEAKEISMGHARVLSKLEDREQIEELAKRIVKEDLSVRQIEEITSSDKVYERKHKINKNKERDDEYQYVEEQLVEKLGTKVKIKKGRIEISFANNNDLNRILEIMKLNN;locus_tag=LOCUS_9000;gene=spo0J;note=WP_001051832.1 stage 0 sporulation protein Spo0J (Bacillus) [pid:48.8%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:1.0e-68],MGA_906
sequence09	MetaGeneAnnotator	CDS	39549	40334	.	-	0	ID=MGA_907;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722150.1;translation=MGKVISLVNQKGGVGKTTTSINLSASLAALGKKVLLVDLDPQGNTSTGVGINKGEIEKSIYDVFTGKCSINDAIIKTKYKNLFVIAATINLAGLDIELLEKSQTTVDFNKGGQLKKHIDSVKDSFDFVIMDCPPSLGLITTNALTASDSVIIPVQCEFFALEGIMQLLNTIMLAQKSLNPNLDIEGVLLTMLDSRTNLGFEVVEDIRKFFKERVYNTIIPRLIRLTEAPSHGEPIIAYDPKSRGSEAYINLAKEVIARNGN;locus_tag=LOCUS_9010;note=WP_003722150.1 AAA family ATPase (Listeria) [pid:63.4%25%2C q_cov:98.5%25%2C s_cov:99.2%25%2C Eval:1.4e-90],MGA_907
sequence09	MetaGeneAnnotator	CDS	40421	42199	.	-	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTEKEIVYLQLEDIIPNRFQPREVFDENSLKELAVSIKEHGVIQPIIVRKVDDKYEIIAGERRYKAAALADLKKIPAIVRDIDDKESSKVTLLENLQRKNLNPMEEARTYQKILDLDQMTQEELAKTMGKSQSAVANKLRLLALPKKVQDALMNEQISERHARALLNLEDDSKKEELLDKIIETKMTVRELEKTINELNTQSSGINDLEENLPEVPIEEPQDSTTNDIPEEVGEAKAVPNLPTDDLQEQVTSDLPAEEENQEIPDVPIAEDGNDASVDITKPQEESVDVGVNSFINSDLITPDTEEKKTDKEFGEVTYAPPEGEEESQSGLPKFINYGEIDDDEDDGEEEKNLATSTSIDINDLKENTADINTEEIKKKEDIDDLLKVDPNAKAAPEPTVKEDGPGFKFINPEESEEKEEKPEVEEKTIIDNPMDYFTSPDVIPTADSADLNDNNQKVEETDNNTAIDDILNGSGNSSNYREAKFDENGDFVDDDGTSTESPEVGEKKEDPYIYIPDSIKDKAALTSILMSDGVETSESKKTEPISLKEAIDEIRQTVSKLEKGDVGIETEEIDLPNNYQINIKIRKDEEN;locus_tag=LOCUS_9020;note=WP_010990072.1 nucleoid occlusion protein (Listeria monocytogenes) [pid:51.8%25%2C q_cov:32.1%25%2C s_cov:67.3%25%2C Eval:3.9e-51%2C partial hit],MGA_908
sequence09	MetaGeneAnnotator	CDS	42292	42930	.	-	0	ID=MGA_909;product=16S rRNA (guanine(527)-N(7))-methyltransferase RsmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243029.1;translation=MNREEFIKELQKLDINISPEQLEQLERLFNILVEENKKTNLTRIIEKEDVYLKHFYDSLTITKAVNLNSINTLCDVGSGAGFPGLVLKIMYPHLEIVLIDSLLKRVKYLNETIKKLDLTGIEAIHTRAEDYHDKKFDLVTARAVANIDKLLKYTMHLVKKEGKFIAMKGNINQEITPDVEKKINKKYLIDEIIEFELPIENSTRSLVVIRNK;locus_tag=LOCUS_9030;gene=rsmG;EC_number=2.1.1.170;note=WP_003243029.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Bacillus) [pid:44.8%25%2C q_cov:99.1%25%2C s_cov:90.4%25%2C Eval:4.7e-45],MGA_909
sequence09	MetaGeneAnnotator	CDS	42923	44785	.	-	0	ID=MGA_910;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288799.1;translation=MNNIDVIVVGGGHAGCEAAYASATLGKKTLLITSNINNIADMPCNPSIGGPAKGIVVREIDALGGLMGKIADRGAIQVKMLNTKKGPAVRALRAQEDKAVYPKEMLKELKATKNLDILEGMVEKLLIKNKQVQGIELDNGEKISSKAVILTTGTYLKACILRGAKKTPSGPHGEKESKNLSNDLKKLGFNILRLKTGTPPRIEKSTIDFSKAKLEEGDKEKRTFSFTNKCFYDVNNQVPCHLIYTTEETHKIINKNLERSSMYGGYVEGIGPRYCPSIEDKVVRFSDKSRHQLFLEPESLSYDDIYIQGFSTSMPEDVQEKLVHSLPGLEKAKINKYAYAIEYDAIDSKQIKRTLETKLIENLYTAGQINGTSGYEEAAGQGLIAGVNASLKLDNKEPLILRRDEAYIGVLIDDLVTKGVKDPYRLLTSRAEYRLLLRHDNADIRLSEYGKKIGLLKNSQYQDFKKKIKDIEELTKKLKETRITPKKEVNNYLERINTTPLKEGLSLYELIKRPEVEIKKLENFIELNYDFEVLEQIEINAKYEGYIRKALKEAKKMLALEEKKIPEEINYNKVPNIASEARQKLKEIKPTTIGQATRISGVNPADIAVLSVYIRRGKYE;locus_tag=LOCUS_9040;gene=mnmG;note=WP_002288799.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Enterococcus) [pid:54.9%25%2C q_cov:99.0%25%2C s_cov:97.3%25%2C Eval:1.3e-195],MGA_910
sequence09	MetaGeneAnnotator	CDS	44798	46147	.	-	0	ID=MGA_911;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000632720.1;translation=MDDTIVAISTALGKGAISIIRLSGKDSIKIVNSVFNGVDLNKVDSHTINYGFIIDGNKKVDEVLVSVMKAPRTYTTEDVVEINSHGGIIATNKILKLMLKKGARMAEAGEFTKRAFLNGRIDLTAAESVMDIIESKSNEAMDLAMKGLSGSTRKLIEEFRENLIKILANIEVNIDYPEYEDIEEMTIKDIEKEIKTMKNKLSKILESSKNTRFIKDGINTVIVGRPNAGKSSILNKLLEEDKAIVTDIEGTTRDIVEGSIYLDGILLNIIDTAGIRETDETIEKIGVEKSLSLIEEADLIIVVLDGNKKLNKEDKEILERTKNKTRVVVVNKDDLKQNVDPNELPKEAITINTFDNSIDKLKDKIRNLFELEKINTKEATYFSNTRQIDLVEKSLDKLEIIKKRLKEKTPIDLIELDLKEVFDTLGEIIGVTYDEEIIDHLFENFCVGK;locus_tag=LOCUS_9050;gene=mnmE;note=WP_000632720.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Streptococcus pneumoniae) [pid:49.0%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:6.8e-127],MGA_911
sequence09	MetaGeneAnnotator	CDS	46205	47377	.	-	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIGRIKYNNKIFDIFIDDKHQKHFLEVVKEEAKEKYVKPDLEDLVRLTLIYNTRDPYTYYDSIAEHRQKHKLKRIVANTIGALTISATIFSLSGGILKLNRENDTLDKINNYERVEEEEVEDLLTIEHITLDDIDLDEVSIDDVRKTLQNNVFLNDEQKEEINDFISAVEEKEENIDLRILNYNLKDIQVVEGPVDSESILGKYVIDENTLFIESKEELGDDYNEVLYHELTHVLHLSKVESKYVKGTKKGNCLKEFSVLNGYGVGLEEGMNEVISNYLLSDYTNMKEYYQSEPEYVCYGDVPYTCLGLLEALDGYYSINDFLNGDVYGLESLLKKIESEDIIDRIDVAYLSFQDEVEVLEEENEMEYMQNQSLEQETDLVDEEVRRK;locus_tag=LOCUS_9060;note=MGA_912
sequence09	MetaGeneAnnotator	CDS	47429	48046	.	-	0	ID=MGA_913;product=protein jag;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010990093.1;translation=MEKRKFSGKDFDSAVEEAKIAIQETEENLIIRQVGETKGGLFKGKKVEIEVVEKREVVEYIKNFLIDLLKDLGFNPKIEVKNKKEVPTYIIYSDNDALLIGKNGKNLKALSMVVAAHIKKELGESFKFLIDVNDYKERHQQIIERMAKKLAREVAATKVEVKMERMNSFERRIVHNTLTNNKKVYTESEGEEPNRYVVIKPKEDK;locus_tag=LOCUS_9070;note=WP_010990093.1 protein jag (Listeria monocytogenes) [pid:29.6%25%2C q_cov:94.6%25%2C s_cov:95.1%25%2C Eval:6.2e-23],MGA_913
sequence09	MetaGeneAnnotator	CDS	48027	48977	.	-	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKIFRLLIVLLLVITLTGCAKTLTDKDKKPVKNTVTGQNLTKNILCKPHAEKTIKLYEKNKVKIDKLPECKDLKINSGNYEGLWTTFFVKPLAFIIVLLGTKIGNYAVSLIIVSILIRLVVFPLTKKTAMQSEMMKKAQPELNRIQNKYKNKSQDKDAMMKQSQEMMAVYKKYNISPMGGCLFAFIQLPLFIAFFEAVQRTPAIFEDTFLKLQLGTTPIVGISGSNWYAYLILMLLIAASTFYSFTMTMKDTPSMDGNNSMKNMPIIMSIMIIIMGLYMPSALGIYWITTNLFTIGQNILVKRSKEVNGKKKV;locus_tag=LOCUS_9080;note=WP_003722505.1 membrane protein insertase YidC (Listeria) [pid:31.2%25%2C q_cov:71.8%25%2C s_cov:79.6%25%2C Eval:1.7e-22%2C partial hit],MGA_914
sequence09	MetaGeneAnnotator	CDS	48955	49314	.	-	0	ID=MGA_915;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167186.1;translation=MKKKFIVKSNREFNEIINSKHSTSNSCFIVYYKKAKEKYSRFGISVGKKIGKATIRNKYKRKIRAIIDNNKKDYSNNLDYIIIMRKECLNQKHEILEKNLNILIKNIDRNDLNEKEKNI;locus_tag=LOCUS_9090;gene=rnpA;EC_number=3.1.26.5;note=WP_011167186.1 ribonuclease P protein component (Mycoplasma mycoides) [pid:49.1%25%2C q_cov:89.9%25%2C s_cov:99.1%25%2C Eval:2.3e-21],MGA_915
sequence09	MetaGeneAnnotator	CDS	49361	49483	.	-	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRTYQPNNRKKSKKHGFFARKKTNILNNRRRKGRKRLCK;locus_tag=LOCUS_9100;note=MGA_916
sequence09	MetaGeneAnnotator	CDS	49840	51201	.	+	0	ID=MGA_917;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000428021.1;translation=MNMSTIWNNFLKNIQDELSSLSYETWFKDTELYKLDDGKAVIIVPMLIHKKQLGDNYYDLIVENLNKITNTNFELEFLLKEEIEPESDSPKQEKISDGVPKENNFQSNLNPNYTFETFIVGNSNKFAQAAALSVAESPGAMYNPLFIYGNSGLGKTHLMHAIGNYIIKNSNRKVLYVTSDQFISDFIGINKKNSEGNNFNYIEFFKDKYRNVDVLIIDDIQFLGGATQTQQEFFHTFNTLYSDSKQIIISSDRSPDDLKLLEDRLRTRFCWGLTVNIFPPDFALRKEILKKKIIAGNFEKEIPEDVIEYIASNIGTDVRQLEGSITRLIAYSTIMGGAKIDVDLAIEALKDFISKGMSEKDDIHRIQKIVADEFSITVEDIRGKKRSANIAFPRQIAMYLCRQLTDESFPKIGTEFGGKDHSTVMHSVEKIDKELKTNTELQKTIEKLKKNII;locus_tag=LOCUS_9110;gene=dnaA;note=WP_000428021.1 chromosomal replication initiator protein DnaA (Bacillus) [pid:48.3%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:2.7e-115],MGA_917
sequence10	Aragorn:1.2.38	tRNA	1554	1640	.	-	.	ID=Aragorn_35;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0340;note=Aragorn_35
sequence10	MetaGeneAnnotator	CDS	1671	2246	.	-	0	ID=MGA_920;product=segregation/condensation protein ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000375167.1;translation=MNKKAILEGLFFVMGDDGVSLKQIEEVLEIDEDKANSLLEELKKDLVSDDRGLTIEKLGNKYKMTTKSEHKEYYKKIVTDEESNTLSQAALETLAIIAYNEPITRIDVDKLRGVSSSQMLRKLVAKGLIEDVGRSDQPGRPYLYSTTDLFLDYFKMSSKSELPSIDEYLEEEEETEESDLYTAKYREEEVL;locus_tag=LOCUS_9120;gene=scpB;note=WP_000375167.1 segregation/condensation protein ScpB (Bacillus cereus) [pid:45.5%25%2C q_cov:81.7%25%2C s_cov:82.1%25%2C Eval:2.7e-35],MGA_920
sequence10	MetaGeneAnnotator	CDS	2246	2956	.	-	0	ID=MGA_921;product=segregation/condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723598.1;translation=MELKFVIDDFEGPLDLLLHLIKEAKMDIMDIEIEKITQQYLDFLDLQKKMDLEIASSYLVMASELIEIKSKLLLPRETLDEEEEIDPREDLINRLLEYQAYKDITKELQEKEALRREIYTKARENITNYLDEDAKLDTDVTLDDLMEALKRYLVRKEEKKPLHTSVTTKEVSVSGRRDSIKKILKSRKRVKFTELFEDFSREYIVATFLAILEMAKEKEIKIVQENTFDEILVEGR;locus_tag=LOCUS_9130;note=WP_003723598.1 segregation/condensation protein A (Listeria) [pid:43.6%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:6.7e-54],MGA_921
sequence10	MetaGeneAnnotator	CDS	3028	3327	.	+	0	ID=MGA_922;product=RNHCP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888516.1;translation=MKRFNMIDEEFICENCGKKVPPLEYSARDHCPFCLYSKHVDINPGDRENDCKGLMEPIGIEKYKDTYKIIYKCTKCRRTHKNIAARDDDYNKIIEISKM;locus_tag=LOCUS_9140;note=WP_010888516.1 RNHCP domain-containing protein (Deinococcus radiodurans) [pid:45.4%25%2C q_cov:90.9%25%2C s_cov:82.2%25%2C Eval:5.1e-18],MGA_922
sequence10	MetaGeneAnnotator	CDS	3333	3683	.	-	0	ID=MGA_923;product=stage V sporulation protein AE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000345915.1;translation=MLLVRSFFFCGFICLIAQVLLSNTKLTPGHVTSIFVVSGAFLDVFSIYDKLVLFFGGGACVPITSFGHLLIHGSLAHADKSGFLGIFMGMFDLTASGITAAIIFAFFFALIFKPKN;locus_tag=LOCUS_9150;gene=spoVAE;note=WP_000345915.1 stage V sporulation protein AE (Bacillus cereus) [pid:52.2%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:4.6e-27],MGA_923
sequence10	MetaGeneAnnotator	CDS	3683	4675	.	-	0	ID=MGA_924;product=stage V sporulation protein AD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001241156.1;translation=MTFKYKNVYVAATSTVVGPYEKKGPLGDYFDKDYSDLYCGAKSIEQAEMKMQKDSIDIVLRKAKCQKKDLDLLISSDLSNQIMASNSAGKCIGKSFLGIYSACAGSAEGIIIGANFIENSQIKKTIVTVSSHNLASEKQFRNPTEYGVPKKETSTFTATGAASILLQDEKTSIKVESVTIGRIIDCRENDPNNMGAVMAGAAIDTIRTHLRDTKREASYYDLILTGDLGKYGKEIVKDYLWQKEKIDVRDNLEDCGTILYDLEHQKEVHAGGSGPVCSALVNYSYILDKLKKKELKKVLLVPTGALFSPVSLFQKKNILSIAHAVSLEAI;locus_tag=LOCUS_9160;gene=spoVAD;note=WP_001241156.1 stage V sporulation protein AD (Bacillus) [pid:43.3%25%2C q_cov:99.7%25%2C s_cov:97.0%25%2C Eval:2.3e-70],MGA_924
sequence10	MetaGeneAnnotator	CDS	4672	5124	.	-	0	ID=MGA_925;product=stage V sporulation protein AC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000147736.1;translation=MDKTYDDIVQKQNKGAKSTKKTYLDCFVSFFVGGLIGMFGEWLVEKYCLLFHISRSDSMAYMIITLILIASFLTALGIFDKLAARAKCGLLIPITGFAHSMTSAAMDARSEGLIHGLGSNIFKLGGIVILYGIVSAWVFGLLRYLVGGLS;locus_tag=LOCUS_9170;gene=spoVAC;note=WP_000147736.1 stage V sporulation protein AC (Bacillus) [pid:41.5%25%2C q_cov:94.7%25%2C s_cov:92.8%25%2C Eval:4.5e-27],MGA_925
sequence10	MetaGeneAnnotator	CDS	5155	5781	.	-	0	ID=MGA_926;product=RNA polymerase sporulation sigma factor SigF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230458.1;translation=MEDIDILEYENMVYKVISKYKNYYDLDDLYQAGMLGLKKALDHYDTEKGTKFSSFAWFYIKGEVCKYIKDDNPLKVSSDIIKLNKSINKAKEVMSLKMGREPTIDEIAIYLEIPYEELVSAYDSALKVESLDQDEIYNNIGFEDQALNPEVMDLKMEVQHLEKEEQEIIVGRYYEDMTQAELSQKLGISQVQISRKEAKVLSKLKNNL;locus_tag=LOCUS_9180;gene=sigF;note=WP_003230458.1 RNA polymerase sporulation sigma factor SigF (Bacillus) [pid:38.3%25%2C q_cov:96.6%25%2C s_cov:83.5%25%2C Eval:6.3e-31],MGA_926
sequence10	MetaGeneAnnotator	CDS	5781	6071	.	-	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYTDLFVNRGVIFMKIDGEINDITIEQFDNTINYLLYNIGIKYFVMDFIAVKMNKGIIPIINNKLLEIYTSCEKVVIRGLDNKLLDLSFIEKGCY;locus_tag=LOCUS_9190;note=MGA_927
sequence10	MetaGeneAnnotator	CDS	6180	6980	.	-	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFILLIIVVVLVFLLAPVIFNNTISSKKVQNEFEKSKCYRKENLARYQNYQKKEPDLKIKEIVLRVNMNLDYDFYTNTKVVKNPSRIDVLINKYYHFPDGYEPDDLVVLPGEYARGGMKLRKEAKEALDKLVESAKKDNMNIYVQSSYRSYDYQVKLYNNYQAKDGKEAADKYSARPGYSEHQTGLSIDIGTKKVSFNNFENTEEFNWMQDNAYRNGFILRFPKNKKAITGYIYESWHYRYVGRKIAKRIHDNKLSLEEYIACN;locus_tag=LOCUS_9200;note=WP_011082532.1 M15 family metallopeptidase (Staphylococcus epidermidis) [pid:44.2%25%2C q_cov:72.6%25%2C s_cov:81.1%25%2C Eval:2.1e-41%2C partial hit],MGA_928
sequence10	MetaGeneAnnotator	CDS	7069	8214	.	+	0	ID=MGA_929;product=D-alanyl-D-alanine carboxypeptidase DacF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398637.1;translation=MKRLLFGLFLIILIIPLSVKGLNEKELVSSNTTSAILLEESTGKILYSKEIHKKVPVASLTKMVAQIIILENIEQKKIKWDDVVTVSKNASDMGGSQIYLQYQEKMTVRDLFKGISMASANDATVAMAEYIAGSEEKFVKKMNNKVKKLGLKDTNFKNATGLDEENHYSTAYDIAMIARELLTHKDILSFSGQYEDYLRKDTPNKFWLVNTNKLIRFYDKADGLKTGHTDNAKYCIAATAKRDDLRLIAIILGAEKPKIRNQEATNLLDYGFNNTKYQVLYKKNKPIKKVKITNGSKKYLHVLPKYDVIIVYTKSEKKKGINTTIKMKKIKLPIKKNQVVGTLIIKSNKKVINKIPLKAKENIHKLSFIKIIINNLKSLVY;locus_tag=LOCUS_9210;gene=dacF;EC_number=3.4.16.4;note=WP_004398637.1 D-alanyl-D-alanine carboxypeptidase DacF (Bacillus) [pid:42.1%25%2C q_cov:97.6%25%2C s_cov:97.2%25%2C Eval:1.2e-86],MGA_929
sequence10	MetaGeneAnnotator	CDS	8226	8615	.	-	0	ID=MGA_930;product=large-conductance mechanosensitive channel protein MscL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147388001.1;translation=MKKKNGFIAEFKKFIAQGNVMDLAVGVIIGGAFSTIVTSLVNDMLMPLVGMLTGGVNIAGLNVKVGSAVLNYGAFLQAIINFLIIALCIFLIVKAMNKFNKKKEEEPAAPAEEIVLLTEIRDALKNKKK;locus_tag=LOCUS_9220;gene=mscL;note=WP_147388001.1 large-conductance mechanosensitive channel protein MscL (Fusobacterium pseudoperiodonticum) [pid:54.7%25%2C q_cov:91.5%25%2C s_cov:94.1%25%2C Eval:2.8e-32],MGA_930
sequence10	MetaGeneAnnotator	CDS	8659	9231	.	-	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMTFFDKVALVIKYILSSFMTIEISILCLLLFIFIFLNIKTNDKKVKIATVFCFLIFIAVIIACYSNYVSASFKVLTKAVLHYIYFPSMAAYFFMMVLVTAVLIYSIVSKTMNKKVKTLNIVVACLEYLLFVLVISVCVTNNINLKADEMIYQNKNILALVQTSNVILFFYLEILVLYKLYNYFKKKFD;locus_tag=LOCUS_9230;note=MGA_931
sequence10	MetaGeneAnnotator	CDS	9245	9868	.	-	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNKKLNRIKKSQLYFIGSLLVLIGVVCLSSNFILTVKAELFDEIKFKFFDEEDNKVNDTSVVDKVDESEKPKINYDYIGYLEIPKIGLKRGFLEKSSPYNNIEYNVTVSSQADFPDKKKGNLILFAHSGDAYIAYFNYLYKLKTGDRAYVTYKKKKYEYKLVKVEVQPKTGEVVIHRNFNVTTLTLITCTNNDSKTQSIYIFEIV;locus_tag=LOCUS_9240;note=MGA_932
sequence10	MetaGeneAnnotator	CDS	9846	11270	.	-	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKQTQKKNITTANVKATFLFAALIAAFIIAMGMINFTGIAYAAESTLPDSFVAKGTAVNPSWNYINGIIMGADIAAPDGTQLYCLEHDKAFPLTDRNITYTKNNDTINPNYIDDGIVYILSQGYNQNPNFAPSLTPNEAKYVTQIAIWYYQCLRDGRLSETDPEGPYLTATQIAAIKADSKYGSEVAKLAEGAKSEYDHPTQNTITVNTEGVRWSVSGKYLETSVIKPEYTGYLKSYKVVLPENTYGARVVDENGKEVSSSTPIAVNKGFKVQVEISKVRNTNKIDLQNVVINGTFEVRKAYSYSPTSGDQYDDYQVLLYAAWDSVDVPTDANFHFDIKTGPVKISKTDITNSAEVPGATLVIKDCTGATVASWVSGKEPHYIEALPYYGDDCKYSLTETIAPKGYAKSSTTVQFNVKPSGEVTSVVMTNTPTTKSPDTGSNIPWFVYLIGILAIGAGIVVVATNVYEQKQKA;locus_tag=LOCUS_9250;note=MGA_933
sequence10	MetaGeneAnnotator	CDS	11331	13193	.	-	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNYKIVDPHNTYIEEGVVLGEGVIIFPNVSIVGRTVIGDNTIIDSNSMIKNSIIGEDNYISNSIIEDNNIIGDNNRIGPYAHIREDNVIGSDNHFGNSVEIKKSQIGDSNYFKHFSYIGDAIIGNNVNVGAGVVFANYNSKKNTKETSKVEDGASIGANSVIVAPVVIEKDSVVGAGTVVDKKVSSDSLILARRDNIYKEKYYSKNKKLPKFLKGDILLKKQRGEELSYEELDYVFNGYMNKEVADYQMSSLLMAICINGMSDEEVINLTDIFIKSGEVLNFDDVEGIKVDKHATGGIGDKATLIVTPIVASLGIPVIKISGRGLGYTGGTVDKLNSIPGMNLKLSKDEIRKQVEKVGLVICSQSDSLVPMDKVIYALRDVSGTANSIPLIAVSIMSKKIAMGADKILIDIEVGEGALIKTLDDAKELARLMVKIGGKYGKEVKTIISDMNTPRGYCIGNNLEVIEAMNVLQNKEHNKLSDLCVEIASHIVVMAKNISYSVARNEVLQVIRSGKAYNKFLEFVEAQGGDLSKLKIDSKRIDVKSDKDGIITNISALEIGKLSVMLGAGRLTKEDSIDYSAGIKLNKLTGEYIKANEILCSIYTKKDVDLEILRKIFTIE;locus_tag=LOCUS_9260;note=WP_002485262.1 pyrimidine-nucleoside phosphorylase (Staphylococcus) [pid:49.0%25%2C q_cov:64.5%25%2C s_cov:94.0%25%2C Eval:1.9e-101%2C partial hit],MGA_934
sequence10	MetaGeneAnnotator	CDS	13271	13624	.	-	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLGKRIKSLRLDRGLTQKELGDMMGVTKVTIHCYENDKRMPTIDTLIALAEIFNVDINYLLGTDYHVIADKDSKYGVKMAEEEIKFIKTIRNYDKLYDYLINDPKRFAELIAKKLR;locus_tag=LOCUS_9270;note=WP_003428185.1 XRE family transcriptional regulator (Clostridioides) [pid:43.5%25%2C q_cov:53.0%25%2C s_cov:58.5%25%2C Eval:4.3e-09%2C partial hit],MGA_935
sequence10	MetaGeneAnnotator	CDS	13732	14079	.	-	0	ID=MGA_936;product=single-stranded DNA-binding protein SsbB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227798.1;translation=MLNQVVLVGRLTQDITLKKSDNGKSYAHFSLAVPRSFKNMDGTYETDFIDCVAWEMTAKNTATYCKKGNIVGIKGRVQSTVYEKDKEKKYKMEIIAEKVTFLTKNEEPEEEAAKK;locus_tag=LOCUS_9280;gene=ssbB;note=WP_003227798.1 single-stranded DNA-binding protein SsbB (Bacillus) [pid:45.6%25%2C q_cov:88.7%25%2C s_cov:91.2%25%2C Eval:2.2e-21],MGA_936
sequence10	MetaGeneAnnotator	CDS	14230	15543	.	-	0	ID=MGA_937;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001118827.1;translation=MEIVGISKAKIEKISQFKKEDKWVTDYRLNSYEEFKKQSLPSFGPEIELDFSKIIYYKNDKQDEKIKDDWKQVLKPIREEMDYLGVIESEKHLDGIGVQWESEVIYHNMIKELEDKKVIFTSIEQAMKLYPDLVKKYFGTIVKNDENKFAALNGAVFSGGSFIYIPPNTTLDRPLQSYFRINSKNMGQFERSLIIVDDNSSLHYVEGCTAPTYSDSSLHAAVVEIYVGKNSKCRYSTIQNWAPNVYNLVTKRALVEEGGTMEWIDGNIGSYKTMKYPCCVLKGDNSKGTCITISVASKSQEQDSGARMIHLGKNTTSNIISKSIAKEGGNATYRGKVFIDKKASNSSSTVKCDTLILDDKSKSDTIPTNICHNLSSIIEHEATVSKINPDNLFYLESRGLSEEQAMSLIVLGFIEKFREELPMEYAVELNQLLKQNL;locus_tag=LOCUS_9290;gene=sufB;note=WP_001118827.1 Fe-S cluster assembly protein SufB (Bacillus) [pid:54.2%25%2C q_cov:98.4%25%2C s_cov:92.5%25%2C Eval:2.3e-135],MGA_937
sequence10	MetaGeneAnnotator	CDS	15561	15989	.	-	0	ID=MGA_938;product=iron-sulfur cluster assembly scaffold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166686.1;translation=MDEELKREIIIDNYQHPVHKGLVDDEAYIKENTNNESCIDNIDIMVKVENGVIEDIVFDGEACAISTSATSIMIKSLLNKKVEEAKKILLNYENMINEGDYDKKLLGELNVYDTIYKQPNRKMCALLPHNAIKKILEEIEKA;locus_tag=LOCUS_9300;note=WP_011166686.1 iron-sulfur cluster assembly scaffold protein (Mycoplasma mycoides) [pid:35.2%25%2C q_cov:97.9%25%2C s_cov:96.6%25%2C Eval:8.6e-19],MGA_938
sequence10	MetaGeneAnnotator	CDS	15990	17183	.	-	0	ID=MGA_939;product=cysteine desulfurase SufS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001020767.1;translation=MNREDFPILNNDIIYFDNGATTLKPKSVIEAMNKYYFEHTSNIHRGDYKQAIVTNELYDGTREVVKEFVNAQGAEVIFTKGTTESLNLVVFGYMKKHLKRGDEVLLSKAEHASNILPWIKLSEEIGINIKYAPLNKDYELTYESIEKAITPKTRVVSIAQVSNVVGDVRDIEKIGALCKKKNILLSVDGAQSVPHMPVDFTKDNMDFLAFSGHKMAGPTGVGCLVVKKALIDKMEPLIYGGGMNQDFASDGSYELKKGPSRFEGGTPPIAEVIGLREAINYLSAMGMDTIHKHELALKKYLVDELSKIENIKLYNTKSKSGILSFNINDVFAQDTSIYLNHYNICVRAGNHCAKVLKDELNIKNTVRISLYFYNTKEEIDKLIEVLRQSYNIFKVVI;locus_tag=LOCUS_9310;gene=sufS;EC_number=2.8.1.7;note=WP_001020767.1 cysteine desulfurase SufS (Bacillus) [pid:43.1%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:8.5e-94],MGA_939
sequence10	MetaGeneAnnotator	CDS	17195	17833	.	-	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRILIDKDQFIALKKDSELTIKNDSVLTLVIEENIDLVFNIEKVKTDIYVYAVDKSLSVTINANKEKSICNFYYSNINYDDNKYQINVYHKAPKSEVNLYNHGVNVENNKLLYDVTSKVPKDNKECITNQDNRIINIKDGKSTIRPILLIDNYDISSSHSAYIGKFDDDVMFYLTSRGISVSKAYELLLKGFLVHADPEGITEFMDELSKI;locus_tag=LOCUS_9320;note=MGA_940
sequence10	MetaGeneAnnotator	CDS	17826	18587	.	-	0	ID=MGA_941;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003702968.1;translation=MLEIKNITVKTTDDNKLILDKFSLTIPKGEIHVIMGPNGVGKSTLSKVIMGNYKYKVTKGDILFKKKSILDKSTEERAKLGLFVTMQDPMAIDGVKLSEFLKTALREKEGDVNLYDFINSLDDAAHDLKMDPSMLHRSLNKSFSGGERKKSEVLQLKVLKPEFIILDELDSGLDIDSLKLVCKNINDYLKENSDTAVLIITHYPRILEYIKPDRVHILLDGQIKKSGDRKLAEEIESSGYLSINEVEEAKNYE;locus_tag=LOCUS_9330;gene=sufC;note=WP_003702968.1 Fe-S cluster assembly ATPase SufC (Ligilactobacillus) [pid:48.8%25%2C q_cov:96.8%25%2C s_cov:94.2%25%2C Eval:1.1e-60],MGA_941
sequence10	MetaGeneAnnotator	CDS	18674	20362	.	-	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILRVAVPSGKQCNQITTDDGNKYYFNDEGKINDNLFIVSANPLVVVDEAAKTDLGVIDGAGNVVIPLDKKEIQKLDGVADYLLVVESNPTDSKVLDAIGKQNDPGFRPQIANEMSEIEAQILAEMNRDGTNSRILFSDSYSQAGLYDLTGNKIPGTECSFVGQNNSAIYFHDNIKGSASQKMKVASAEETPEEAAPQPEAPAAEAPAENNVEEAPSAPEEAVSQPEAPAANANLSMNADGSFGEETTAPNVANMFDYNEADTNTQDAMPNDFFEKMQGVNNESSDFDIPSEDFAEEPEELEENNIDNYVEPEEPDALISDAIEKFEESYSVVEDLKHVIDKRDEKYDKMVADYERKLAQKDEDHHKEIDELNYKYDTDIAKLKNHGANWQSRYQRANARAEVLDEEGKKKSDTIEKLREQLRESYEELTQLKSDQSELSTKYENALEELKTEQKLHNEETERADNLQDENNRLIKGRSQLIENMRNMTRQINSVKELVKGVEPEGGLDIKEPPRADYDDNEVFKEEAKEDNLVDFSLGDSLTNIPVAFTEDDKYSFKENN;locus_tag=LOCUS_9340;note=MGA_942
sequence10	MetaGeneAnnotator	CDS	20488	20823	.	+	0	ID=MGA_943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKNFLTFGMVTLFLVIIISFAFIIINEKDTPFLLNFAERKMTNYVKKKYPQEEKNFQYSKVRYYEKGNSYKMRITNINNKKKYFVVILKNKKMKDTYNQTYNKEVIKYE;locus_tag=LOCUS_9350;note=MGA_943
sequence10	MetaGeneAnnotator	CDS	20816	21217	.	+	0	ID=MGA_944;product=HIT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870381.1;translation=MNDCIFCKILKGELPSKVIYEDEILSVFMNIDPNTNGHLLMVPKNHEVTFDDVSEEFITHSLSVIRDVIYPLVKEKLGAEGLTISQNNYLGQEVKHFHIHLIPRYSDDGVLYTYNKRVIRPVDETYETLTKKD;locus_tag=LOCUS_9360;note=WP_010870381.1 HIT family protein (Methanocaldococcus jannaschii) [pid:39.1%25%2C q_cov:94.7%25%2C s_cov:97.7%25%2C Eval:1.5e-22],MGA_944
sequence10	MetaGeneAnnotator	CDS	21232	22008	.	-	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSILGKKVLKILGVLLFASNSLMITTGDFESGFDPSTLNRSFIGMADIKPIAQEQKEVKEEVKVERINNVVSTPVIESNSINIDGILNKSLMKDTTGENFYLNHGINGAYDGIGVPYIDFRTNFNTRKTIAYAHSNMSGNGPFQVLQNYHNNKAFYDAHRYITINFDGKKYTYLIFSVYVSVADSPESEGLDYFYDMNYSDNEWDATIKKYKTNSDYDTGVTVNGNDKILILQTCSMDPNYREKYYRYNLLVMGKLV;locus_tag=LOCUS_9370;note=MGA_945
sequence10	MetaGeneAnnotator	CDS	22445	23431	.	+	0	ID=MGA_946;product=peptidylprolyl isomerase PrsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245079.1;translation=MQKKIGYILVIVALLGVITGCGSVKLKNGEKAVVTYNKKGKISSDALYKEIVKKYGINNLIDMIDHKLFDKKYPADDEEKSEINNQIAQIKSQYGEANFENAIQTYYGVKDEKELRRSLSLDYKRDLAVKDYLKKQLTDEEIKNYYDNNIYGDIKASHILISANITDDMDPEEQEQVKEKAREKAEKIIEKLNNGKKFADLAKKYSDDEATASKGGDLGYFNKDSNFDEDFVNAAILLKKGEYTKEPVQSQYGYHIIKKIKEKDKPSLKKAKDDIKTTLAEEKLKSDNYLHNKTLRDIREEKKVKFKDSYLKKEYKKLMNRLTGVTKE;locus_tag=LOCUS_9380;gene=prsA;note=WP_003245079.1 peptidylprolyl isomerase PrsA (Bacillus) [pid:33.2%25%2C q_cov:95.4%25%2C s_cov:93.8%25%2C Eval:3.3e-37],MGA_946
##FASTA
>sequence01
AGAATTAGAAGTTATTTAGGTGATATGATGATTGGCGTATTTGATTCAGGAATTGGTGGTAGTACTGTTTTAAAAGAAATAATAAAGGAACTACCTAATCAGAAATATATCTATTATAGTGATTCTTTACATAGTCCTTATGGTAATAAAGATGAAAAAGAATTATTTGAAATAGTCAATGATGTAGTAGTGTTCTTAATGAATAAAGGATGCAAAGTAATTGTAATTGCTTGTAATACAGCTAGTGCTATTTGTGTAAAAGAATTAAGAGAGAAGTACAAAGATATAGTTTTTATTGCTATTGAACCAGCTTATAAGATGGTATATGATTATAATTTCTCTGGTAAGACCTTAGTACTAGCTACTAAAGGTACTATTGAAAGTGAGAAATTTTTAAAGTTATATTATAAGTATAATAATAACAATACTATTTTAAAACCTTGTATTGGTTTAGCTGAATTAATTGAAGAGAATGATCAAGAAAAGATAGATAAATATATTGAAGAAAACCTAAAAGAGTATAAAGGAGTAGAAAATGTAGTTTTAGGATGTACTCATTACCCTCTTATTAAAGATAATTTAAAAAAGGTTTTAGGAAATGTTAATTTCTTTGATGGTAGTATAGGTGTTAGTAAAGAATTGAAAAGACAGATGATTAAACATAATCTATTAAATGAAGGAGAGTTTTCTATACAATTCTATGACTCTTCTAATAATATCAATAAAGAGAAACGTTTTCATGAAATAATTTATTGACAATACTAAAATATTTAGTATAATTATTATTGTCTACTTATTTAGATGAGCTTTTTAGTTCATTTAATATGTGCGGATGTAGTTTAATGGTAGAACCTTAGCCTTCCAAGCTAACTACGGGAGTTCGATTCTCCTCATCCGCTCCATGTAAACAAAAAGAACTTACTATTAGTAGGTTCTTTTTTTGTAGTAGTTAGATTAGAAAATGAAGCTGTAATTTGCTAATATGTAATATCAATGATATAATAATAAAACAGTAATACCATAAAGGAGAAAGCTGATGAATACTAATGTAAATAATGACATTAATGATAATCAAATTAATTCAAAGGAAGAAACTGGGGCAAATTGGATTGACGAAAAAGCTAATTATTATCAAAGGAAAAATTTTAATGTGGATAATGGTATTGAAAAGGAAGCTGAAAACAATGTAGGGGAGATAAGACTGGCAATATCGTGCATAAATTTTTTGGCTGCTCCTGCTGCTATTATTGGTATAGAATTCTCATTTCTACCGTTTATAACATTTAGTGCCGCAGCAGGAAATACTTCAAGTGGGAATGTTTTGATGGGTGTAGTAACAGCATACATTGTATTTACGATAATCTTTTTATTAACATCTTATATTAATTATTATAAGCGGAGCAAAACAAAAAAAAGGAAGCGAAAATTAATTTGTTTAGGAGTTTTAATATTGATTGTTTTCTTTATATATGCATTCTTTTTTTACAGCGTTCAATTACCAGGAAAACATTAAATAATTAATAAAGAGGTGCTTACTATTAGTAGGTTCTTTTATTTTTTTAAAAATAATGTATAATGTTAATAGGTGATAATATGAAGAAGGTATTATTTAGTGATTTTGATAATACTTTATTTGTTGAAGATGAGGAAGTAGTAGATAAAAATATAGAAGCTATTAATCACTTTATCCTTGATAATATTTTTGTAATTATTACGGGTAGGACATATAAAAGTGTTAAAAGAGTATTAGATTTATATTCCATAAAATATACTTATTTAATCTGTAAGAATGGTGCTGAGATATATGATAAGGATAAATTATTATTAAAAAAGAATTTAAAGAAGGAAGATATTGAGACTATTAAAGAGATTATTGCTAAATATAATGTTGGATATAGTGTTGATGATTTTGCTGATGAAAGATTTATTGGTGATGATGTCAGTAGTATTTTTATAAGAAGAGATTATAGACTTAATTCTGATTGTATAAAGGAAATAAGAGAAAGAACGACAACCTATAATTATTTAAGTCCTCATTGGTTTAATATTGTAGCTGAAAATGTTAATAAGGCTTTAGCGGTTGAGGATTTAAAAAGAATAATAGGTGAAGAGGTTAAGATATATACGATTGGTGATGCCATTAATGATAAAGAGATGATCAAGAATTATAATGGAGCTAAGATGAAGGTTCATGAGAGTTACTTAGATGATCTTGATGTTCCAGCTTATGAATATTTTTATCAATATGTAGAACAAATATTAAAAGAGGATTAATCATATAATTACTAAGGTGATTATATGATTTCTTTTGTCACAAATTTAATTATTAATTATGGTTATATTGGTATGTTTTTAGGAATGATTTTAGAAGCAGTTATTATTGTTATTCCAAGTGAGGCTATTTTAGCGACTGGCGGTATTTTGGCTTCTCAAGGAATTTTTTCTTTTTGGAAAGCTTTTTTAGTTGGGCTTATAGGTAGCGTTTTCTGTGCTATTATCATTTATTGTATTGGTTACTTTGGAGGTTATCACTTTGTATCGAAGTATGGGAAGTATTTTTTTATGAAGGAAGAAGATATTACTAAATCAGATTCTTGGTTTAATAAATATGGGATGATGGGTGCTTTAATTGGTCGTAATTTTCCAATTATTAGGACTCTTATTTCGTTGCCTATAGGTATTATGCGTCTTTCTTTCTTTAAGTTTTTACTCTATACCATTATTGGTTCTATTCCTTGGACTTTTGTTTTTGTTTATGCAGGGTATGCTTTAGGAAATGGTTGGGTAGTTGTTGACAAGTATGTCTCAAAGCTTAAATTCCCAATTAGGATTCTTTTATTAATCTTAATAATAGTTTTTATAATAAAGAGAATCAGGCAAAAAAGACTGGTAAAAAGTTACCTTTTATGATATAATCATCTGCGGTAAGAAAAGAAGTGGTCAAAATGAACAAAAGAAATATTGCGATAATTGCCCATGTCGATCATGGTAAAACAACTTTAGTTGATGAAATATTAAAATCATCTGGAATGTTTCGTGATAACGAAGCTCTTAACGAAATGACAATGGATTCTAATCAATTAGAAAAAGAGCGTGGTATTACTATTTTAGCTAAAACTACAGCACTTGATTATAAAGGCATTAGAATTAATATTCTTGATACACCTGGTCATGCTGATTTTGGTGGAGAAGTAGAGAGAATCATGAATATGGTTGATGGTGTTTTATTAGTAGTTGATGCTTATGAAGGACCAATGCCTCAAACAAGATTTGTTTTAAAGAAGGCTTTTGAAGCTCATGTTAAACCAATTGTTATTATTAATAAAGTTGATAAACCAGCGGCTAGATGTGCTAAAGTTTTAGACGAAGTATTAGATCTTTTTATTGAGTTGGGCGCTACTGAAGAACAGTTAGATTTTAAAGTATTATATGCTTCGGCTGTTAATGGAACCTGCTCTTATGAAGAAGATTTGTCTAAACAAACTCCTGGTTTTACGGAAGTATTAGATACTATTATTGAAGAAATACCAGAACCAACTGGTGATAGTAAAGCACCATTACAATTTCAACCAGCTCTTTTAGATTATAATGAATTTGTTGGTCGTATTGGAATTGGTAAAGTTCATAATGGTAAGATCAAAGTAGGACAGATGGTTGATTGTTTAAGACTTGATAATACGACAAAGTCATTCCGTATTCAAAAATTATTTGGGTATTTGGGATATAAACGAATTGAAATTGAAGAGGCAGAGGCCGGCGATATTGTCGCTATTGCTGGATTATCTGATATCAGTGTAGGGGAGACTCTATGTGAGGTAGGAGAGAATCATCCTTTACCAAGACTTCATATTGATGAGCCAACACTACAGATGACTTTTGGAGCTAATTCATCACCTTTTGTTGGTCGTGATGGTAAAATTGTCACAGCTCGAAAGATCGAAGAACGATTAAATAGAGAAACACAACGCGATGTTAGTTTGAAAGTAGAACCTGCTACTAATGAATCATTCTTGGTTTCTGGTCGTGGTGAACTACACTTAAGTATTCTAATTGAAAATATGCGTCGTGAAGGTTTTGAATTAGAAGTATCAAAACCAACTGTCATTATTAAAGAAATCGATGGTGTTAAATGTGAACCTTATGAAGAATTACAAATTGAGGTACCAGAAGAATCAGTAGGTACAGTTATTGAACAATTAGGTCTTCGAGGCGCAAAGATGGAGAACATGACTAATTTTGAAGGACAAACGAGACTTCTTTATACTATTCCTTCTCGGGGATTAATCGGTTTTTCTACTGAATTTATGACTCTTACTAAAGGTTATGGTATTATGAATCATACTTTTAAAGAGTATATGCCTATTGAAAGTGTTGATATTGGTGAACGAAAATTAGGTGTTTTAGTATCAGTTGAAAATGGTCAATCAACAGCTTATTCTATTGGTAATTTAGAAGATCGGGGAGTTATGTTTATTGAACCAGGAGTAGAAGTATATGAAGGAATGATTGTTGGTGAGTGTAATCGTGATAATGATTTAGCAGTTAATGTTGTTAAGGGTAAAAACTTAACTAATGTTAGAGCAGCTGGTTCGGATCACACTGTAGTCTTAAAAAGACCACGTCCAATTTCTTTGGAATATGCTCTTGATTATATTAATTCTGATGAATTAGTAGAAATTACTCCAAATAATATCAGATTAAGAAAGAAAATACTTAACACTGAAGAACGTAAAAAATGGGATGCTAAAAATAAATAACAACTTATTGAAAAGTTGTTATTTTTGTGTTATTATTTAATTAATAATAAGGAGGAGTTATGAAAAGTTTTTATAAGCTATCAAGAAAAGAGTTTAAAGAAGTTAAGAATGAATTTATATCTGATTATGTAGGAATGAAATTAAACCTAATAACTAATGTTGCTTTTTCTATGGCGGGATTATTCTTGCTTTTCACTTTAGTTCAAGGATTCTTAGTAGCATTAATGGGAGAAACAGTACCACAAGAAAACCTTAACCTTGATTTTATTATCATTATTTTATCTTTTATGTGTGGACTTATTACTTATCCATTCTACTTTTATCATTTGAAAAAGTTCTATGATGAAAAGAAAAAGAAAAAATAGTTTATTAAACAATTCTACAAGCTTGTAGAATTGTTTTTTGTTTGGTATAATTTTATAGTAAGAAGTGAGTGATTATAATGTTTCGTAAAAAAACTGATGAAAAGATTAAAACTCAAGTACTTAATTTGGATGAAGTAAGGGAAGCAGAAGCCAATGAAAGAAAAATAAAACATCGTAAGTTACCAAAAAAGTTTTTGGTTATTGCTCTTATTTTAATTGTGATTGGATTGCTTTATTTACCAGCCAAAGATTTAATAAAGAAATTTGAAGATGAAAAGCGAAAGATTAATAATGATAAAAAGAGTATTACTTGTACCATTAACGATAAGAATAAAGACAATCATCTAATTGAGAGGACTAGTATTTTTAATTTCAAAGGTGATGAATTAAAGAGCTATAATATTTTAGTTACTACTACTTCAGCTAAGACTGATGGTGATAGTATGAAGAAGTTTAAAAGCTATTATGATGATTTAAACAAGAAATATAAAAAAGCTTCTGAAGAAGAAGGATTTAAAGGGACTGTTGAATATAAAGATAAAAAAATTATTGAAACTATGAATGTTGATTTAGAAAAGTATGATGGTGATGACAAGATTGTCTTATATAAATTAGATGATAGTATCACTGAAGTAAAAGACAAAGAGAAAGAAGACGGAGCCGTTTGTAAATAAAAGAAAAAAGCTGCTATTAAGCAGCTTTATTATCTTTTTTTAAGGTTCTTTTTTCTTTGGCAGTTATTCTTACTTTAGTGCCATCTTCTAATCTATGAACTTGAAGATTTAGTTTTCTAGCTCTATTAGATGTGTTTAAGGCATGTGAACGGTCACGTCCTTTTAATGGTTTTCTATTTGTTACTTTTACTGGCATGACAAAACCTCCTTTGTAATTCGTTTTTCTTTTAAAACTTTAACATAAAAGTACTTTTAAGTCAAATAAAATCTATAAAATTTAGTATTATTATGGTAGAATAAAACTAGTAAAGGAGGTAGTATTATGGATACAGTTTTAAATGTTAAAAGTAACTATACACTGTTATCGAGCATGCTTAGAATTGATGATATTATAAGTTATGCTAAAAAAAGTAATATGACCTCCATTGCTTTATGTGACACTAATATGTATGGAACAATGGAGTTTTATAATAAGTGTCGAAAAAATGATATTAAACCAATTATTGGTCTTTCTTTAATATTAGATGATTTAAATCTGTGTGTTTATGCTAAAAATTATAAGGGGTATAAGAATTTAATTAAATTATCAACAATTCAAAATGAAAATAAAATGTCTTTAGAAGTCATTAAGAAATATACTAATGATTTAGTAGGAATTATTCCTTTTGATTGTGTTGATAAGTATGATGATTTAAAGGATTTACATGAAGATTTTTATTTAGGATATAGTAATAAGGAAGAGGAAGCTAAGGCTAAAAAGATTACTAAAAATATTGTCTTTTTCAAAGAATGTCTTTATAAAACAGTTAGTGATTCTGAGTATTTGACTTATCTTTATCGGATTAGAGATTCTAAAACAGTAAATGATGAAGTGGTGTATTCAGTTTTAAATAAAGAATTAGATATGAATATTGATAATTATACTTCTAATGAAGGACTTAATAATACTTTAAAGATTGAAGCATTATGTAATTTAGAGATTGAAAAAGAAGGACTATTATTACCTATTTATGAAGTTCCTAAAGGAATTAAACAAGAAGAGTATTTATTTGAACTTGCTAAAAAAGGTCTTAAGAAGAGACTTGGTAGTATAAATGAAGTTTATCAGAAGAGACTTTCTTATGAGTTAAATGTTATTACTAAGATGGGTTTTACTAATTACTTTTTAGTTGTTTATGACTTCATTAGATATGCTAAAAAAAGTAATATTTTAGTGGGTCCAGGAAGAGGTAGTGCTGCTGGTAGTTTAGTGTCTTATTCGCTAGGTATTACAGAGATAGATCCAATTAAATATGATCTTTTATTTGAAAGGTTCTTAAATCCAGAGAGAATAAGTATGCCGGATATTGATACTGATTTTCCTGATGATAAGAGAGATTTAGTAAGTGATGATGTCAAAGAAAAATATGGGCAAAAGCATGTAGCAGGAATAGTTACTTTTGGATCATTATCGGCCAAAGCAGTTATTCGTGATGTTGGTAGAGTATTAGATGTACCTAGTTATAAAATAGATTCTTTATCAAAGATTATTCCTAATTTTACGAAGGATAAATTAAAAGATTTTTATAAAAACAATGAACGATTTAAAGCTAAGATTGATAGTGATAGTATCTTAAAGAATGTCTATAAAATTGCTTTAAAATTTGAAGGTTTCCCAAGACATACTTCATCACATGCCGCTGGCATTGTCATGTGTAAATATCCTTTAGATGAAGTCTTACCACTTACAGTTAGTGACGATATGTATCTTACTAGTTATTCAATGGATTATTTAGAAGATCTAGGTCTTTTAAAGATGGACTTTTTAGGACTACGCAATCTATCTTTAATTGCGGATGTTTTGGATAATGTAGAAAAACTATATAATGAAAAGATTAATTTTAATGAAATAAAACTTGATGATAAAAAGGCTATTGAAGTATTTCAAAAGGCTAATACAAGTGGTATCTTTCAATTTGAATCTAGTGGAATGCGGGAGTTCTTAAAGAAGTTAGTTCCTAATAGTTTTGAAGATATTTTTGCCGCAATTGCTCTTTTTAGACCAGGACCAGCTGGTAATATTGATACTTTTATAAGAAGAAAACATGGCGAAGAGAAGATAACTTATATTGATAAGAGTTTGGAACCTATCCTTAAGAATACTTATGGTATTTTTGTTTATCAAGAACAAGTTATGCAGGCAGCTAATATATATGCGGGATATTCTTTAGCAGAGTCTGATCTTTTGAGACGAGCAATGAGTAAGAAAAAGACCGAAGTTTTACAAAATGAAGAGAAAAAGTTTATTGAAAAAAGCGTTGCTAAGGGTCATGATAAAATTCAAGCTAAGAAAATATTTGATTTGATATTGAAGTTTGCGGGTTATGGTTTTAATAGATCACATTCAGTAGCTTATTCCCTTATTGCCTATAAAATGGCTTATTTAAAAGTGCATTATCAGTTACCTTTTTATGCTGCTATTCTTTCCAATGTAACACTTTCACCAGTTAAGACTAATGAATATATTTTAGAAGCTAGAGAACGTGGTATTGAGGTTCTTTCTCCTTCAATTAATAATAGTGATATTAAATATAAAGTGGTTGGTGAAAAGATATATGTACCTTTTTCGCTTATTAGGAAGATTGGTATTGTTACTTCTAAAACTATTATTGAAGCTCGTGGTGAAGAGAAATTTAAAGATATTTATGATGCCTTTTCAAGATTATATATTGGGGGAGTAACTAAGAAGAGTTTAGAGTACTTAGTTTATGCTGGTGCTTTTGAAGAATTTGGTTATAATCGAAAAACACTTATTGATAGTTTGGATAGTTTAATTGATTATGCAACATTAACTAAAGATATTGAACCTTCTTTAGTAGAGAAACCAATTATTGAAAGAGAAGAAGAATTTGATAAACTATTCTTGTTAGAAAAAGAAAATGAAGTATATGATTTTTATCTAACTTATCATCCAACTACTCTTTATTTTAATAAGAGTAAAGGAGCAGTTAAAATAAAAGATATTGAGTCTAATTATAATAAGATTATTACTTTAATAGGACTTGTTGATTATGTTAAAAAGACAACTACTAAAAAAGGTGAAAGTATGGCCTTTGTAACAATCAGTGATGATCTTTCTAAGACTAGTGTTACATTATTTCCAAAGCAGTATGATAAAGTTCCTCGTCTAAAAAGAGGAAATATTGTTAAAGTGGAAGGTAAGGTAGAGAAAAGATATAATGAGTATCAAGTAGTAGCTAATAAAATAGAAATAATAGAGGAGAAATCATGAAAAAAGATAATATCTATATAGTAGGTGTAGTTATTTTTGCTTTAGATGTCATAGTTAAGACAATAGTTAAAAGCAATATAAAGCTATTAGAAACAATTAAAGTTATACCAGGTTTTTTTGAACTTACTCATGTAGAAAATGAAGGAGCGGCTTTTTCTATTTTAAGTGGTAGTAAATATATTTTAATTGTAATTAGTATTATCATCATGTTTTTACTCTTGAAATATATAAAAGATGTAAAGAAATTATCTAATATAGAAGGAATAGCTCTTGGGTTAATCTTAGGAGGATTACTGGGAAACTTATTAGATAGAATTGTTAACTCTTATGTACTTGATTACTTGGCTTTTAATTTCTTTGGTTACCATTTTCCGGTATTTAATTTAGCGGATATTGCGATTACAGGAGGAGTTGTTTTATTGCTTATAGCAACAATTATTAAGGAAAGAAAAGAGGGAAAAAATGATAGTAGAAGAAATGGAAGGAAATAGAATTGATAAATGGATTAGTCTTAAACTAGATTTATCCCGGGCTAAAGTACAGAAATTAATTAATGACGAGAAAGTCTTAGTTAATGACAAAGTAGTTAGTGCTAGCTATAAAGTGAAATTAGGGGATAAAGTAGTAGTTAATGATGAACTTGATTATACTACTTCAGTAGAAGCTGAAGATATTCCTTTGGATATTGTTTATGAAGATCAATATTTAATGATTATCAATAAAGAGAGTGGCATGGTTACTCATCCAGCACCCGGTAATTATTCCCATACTTTAGTTAATGCTCTTCTATATAAAATGGGAGAAAAAGTAAGTTCTGATTTGCGACCGGGAATCGTTCATAGATTAGATAAAGATACTAGTGGACTTATGGTAGTAGCTAAAGATGATAAGACTTTGGAGCTTTTAAGTAATATGATGAAAGAACATAAAGTAAAGAGGACTTATGTGGCTTTGGTTAAAGGAGTTATTCCTGAAGCTTCTGGTACTGTTGATGCTCCTATTGGGAGAGATCCTAATAATAGACAAAAACAGGCTGTAACTGATAAAAATGCTAAAGAAGCAATTACTCATTTTAAAGTTTTAAAGAGGTTTAATAATGCTACTTTGATTGAGTGTGAATTAGAAACGGGTCGTACTCATCAAATTAGGGTACATATGGCTTATATTAAGCATCCCGTTTTAAATGATCCAACATATAATAAAGATAAAGCTTCTTCTTTTGGACAAATGCTTCATTCTAAGAAAATAGAGTTTACTCATCCAATTACAAAGAAGAAGTTAGAATTTGAAAGTGAATTACCAAAAGAGTTTAATGATAAAATAGAAGAACTAGAAAATGAAGAGTAATTATCTCTTTAAAACTTTTGGGTTCTTTGTTATAATTATATTGCTTGCGAAGGAGGGATAAGATGGATACACAAATGAATATTGTTTTAGATGATAAGAATACATTTGTTATGAAACTTCTACATTATTTTATTACTGAAAAGAATTATACACCAATTATTCTTCAAGGTGCAGAAAATGAAATTTGGTTAGAAAACTTAAATGAAAATTATGAAATAATAAGAATTGTTTCTGGTTATATCCATAATAATGAACAATTCGATTTTGATATGTTTAAAACTCATCGAATTATGCGTAAGATTAAACGTAAAACTTTATCCCTTAACTTAAATACTTTATCAATCTTTGTTGATTTAGGAGAAAGTGTTACTTTAAAGAACAGTAAAGATATTCTTTGTGTTAAAGCTACTACTGAAAAAGATTTAAAAGAAAGCAATAGTATTAATAAGAGTTTTCCAGATATCTTTAATAAACTTAAATATAGTGAAGAGGGAGTAAATCTATTTGTAAAAATAACTAATGATATTAACAAACATAATCAAATGGATGCAGCTAAAGCAGAGGAAGTATTTAAACAAAAAGTGCCAGTAATTACTTATATTCTAATGGCTATAAATGTCATTCTATATGTTTTTCCTTATTTATTAGGAAACTATGATTATGCTCTTTCGTTATTAGCACTTCATCATGATAGTGTTGTAAATGGTGGAGAATACTATCGACTATTTACGGCTATGTTTATGCATGCAGGTATTTTCCATTTGTTGTTTAATATGTATGCTTTATATGTTATTGGTACTCAATTAGAGAGCTTTATTGGAAAGATACGTTATACTTTGATCTATTTATTTGGAGGAATATGTTCAGCTCTTTTATCGTTAGCCTTCCTTTCTGATAATGCTATTTCTATAGGAGCTAGTGGAGCTATTTTTGGTTTGATGGGTGCATTGCTTTATTTTGGTTATCACTATCGAGTTTATTTAGGAAATGTAGTTCGTAGTCAAATAATCCCTTTAATAGTTCTAAACCTAGTATTGGGTTTCCTAGTACCAGGTATCGATAATGCTGCTCATATAGGTGGTTTAATTGGTGGCTTTTTAGCTCTAATGGCTTTAGGAGTTAAGTATCGTTCTAAAGCGAGTGAGCAAATAAATGGAACTATTCTAACAATTATTTATATTGCATTCTTAATTATTATAAACTTTGTCTATCATTTTTAACGTTATCTAAGGGATAACGTTTTTCTGTGCTATTGTAAAAAAAGTAAAATAATGATAAAATATAACTATATTGTATGAGGTGATACTATGGATACCAGTAAAACTAATTTATACAAGTTAAGTGATCTTCGTAAAGCTGATACTAAAAAGGTTTTAAAGGAAGTTTATAAAGCTTTAGAAGAGCGAGGATATAATCCTACAGACCAAATGGTAGGTTATCTACTATCTGGTGATTTAGGATATATATCTAATTATAAGGATGCTCGTAAGAAGATTAAGAAAATTGATCGCTCAAAACTTCTTGCCTATTTATTAAATGAGGCTATGAATAAATAATGCGTTATTTAGGATTAGATTTAGGTAGTAGGACTTTAGGAATAGCGATATCAGATCGTCAAGGAATAATTGCTAGTCCATATGAAACGATTAAACATAATGAAGATTATGATTATTTGGTTAGTGAAATAGAAAAGATTGTTAATAAAGAAGCTATTGATGAAATTGTTTTGGGATTTCCTAAGATGATGAATAATGACATTGGTCCTAAAGGGAAATTGAGTATTGAATTTAAAGAGAAGTTAGAGAAAAAAATGGGTATTCCAGTAGTATTACAAGATGAACGAATGACTACTAAGCAAGCTGAAGATGTCTTGATTAGTAATAATACAAGGCGTAATAAACGTAAAAAAGTCATTGATAAATTAGCGGCAGTAATAATTCTACAAAGTTATTTAGATAGAAAGGAGAGGTAAGATGAAAAAAAATAAATTCACTCTTATCGATGAAAAGGGGAATGAAGTAGAGTACGATGTATTATTTACTTTTGAAAGTGAGGAAACTAATAAGAATTATATAGTTTATACAGATAATTCTAAAGATGAAGCAGGTAATATCAGAGTATATGCTTCTATATACTATCCTGATGAAGAGAATTCACCATTAGAGCCAATTGAAACAGATAAAGAATGGCAAGTAATAGAAACTATTCTTTCAACTCTTCAGGAGGAAATAAAGAAGAAAAGTACTAAAAAAGCAGAAGAATAAAAGCAAAAAGGAGAATATATGAGAAAAGCAACACTAATAATTCTAGTAGGATTAGGGGTATTATTACTATGCCTATTTGGTTTTTATATGTATGAAACAATGCCTGTTGATCGTTCTTCAAATGCTGATGTTGAGGTTGTTATTCCTCAAGGAATGTCAACAAGGAATATTGCTAAACTTTTAAAGAATAAAAATCTTATTCGTAATGACACTTTCTTTATGATTTATGTAAAGTTAAATAGAAAGAGCTCTATTAAAGCTAGTACTTATGAATTAAAAAAGAATATGAGTATGGATAAGATAGTTAATATTCTAAATAAAGGTAATACCTATAATCCTGATGTAGTCAGAATAACTTTTAAAGAAGGAGAAAGTATTACTAAGTATGCTAAGGAAATAGCTAAGAAGACTGATAATAGTTATGATGATGTTATAAAGACTATTAATGATAAAGAATATTTAAAAACACTTATTGATAAGTATTGGTTTTTAACTGATGATATTTTAAATGAAAATATCTATTATTCATTAGAGGGATATCTTTATCCTGAAACAATTGAGTTTAAAAACAAAGAAGTTTCTCCTAAAGAAATAATTGAAACTTATTTGAAACATACCGATAAAGTTTTATCTAAAGACAAGGATAAACTAACTAAAGGTAAGTATAAAATACATGAATACCTTACTTTGGCTTCTATTCTTCAATTAGAAGGAAGAAATACTAAAGATCGAAGAATGATAATGGGTGTTTTTGAAAACAGACTTGCCAAGGGAATGAATTTAGGTAGTGATGTAACTACTTACTATGGTTTAAAGAAAGAAATGGATAGTGACTTAAGCGTTGAGGAATTCAATAAGGAGACTCCATATAACACTAGAACTAATAATATGGTTGGTAAACTACCAGTAGGTCCTATTTGTAATCCAGAACTTGATAGTATTGAGGCAGTTCTTAATCCAACTAAAAATGATTATCTTTTCTTTGTAGCTGATAAAAATGGTAAGGTTTACTATACTAAGACTAATGCTGAACATACAAAGAAAGTACAAGAGTTAAAGGATAATAATTTATGGATATGGTAATAAAAGAAATTAAAAAAGATGCTTTAGCTGAAGGGATTCCTATTATGTTAGATGATGGAATTGAGTTTTTATGTAATTTTATCAAGGAACATGAGTGTAAAAAGATTTTAGAGATAGGAGCTGCTGTTGGTTATTCAGCTATTATGATGGCTAATGTAGATGAAAAAATCAATATAACAACAATCGAACGTGATGAAAAGAGATATTTAAAAGCTTTGGAGAATATTAAAAAGGCTGATAAAGAAAAACAGATAAAACTTATTTATAATGATGCTTTAAATATTAATATTGAAGATGAAGAATTTGATTTGATTTTTATTGATGCGGCTAAAGCCCAAAATATTAAGTTTTTTCAAAGATTTGGTCTTTACTTAAAGAGTCATGGGTTCATTATAACTGATAACTTGAACTTTCATGGCTTGGTTGATAAAGACTTAGAAGAAATAGAAAGTAAGAATGTTAGGGGAATTGTTAGAAAGATAAAAGAGTTTAAAGAGTTTCTATTAGAGAACAATGATTATGAAACAGTATTCTATGATGTTGGTGATGGAATCTCTGTTAGTGAAAAAATAAAGGAATGATAATATGTTTCAAATTTTGGCTGACGATCTAGGTAGTTATTGTAGCGAGGCAGGAGTAGCTAATATTTTCTACATAACTAAAATACTATTTACTATTTTACAAGTAGTAGTACCAATAATATTAATAGTTTCAGCGAGTTTCTCTTTAATTAGTATGATGTCTTCACCTGATAATCCTAAAGCAAAAAAGAGTTTAATTAATAAGGTTATAGCAGCAATAGTAGTAGTTTTAATACCATTTATTATTGAAATAGTTATGGGAGCAATTGCTACTGGTGGGGGAAGTAAGTTTAATTATGCCGATTGTTGGACTAATGCTTATGAAGCATATTCAGCACAAGAAGGTGAAGAGGAAGATTCTGATCCAGGGGAGAAAATAAGAGAAAAGTGTTTAATTAATAAAAAAACTAACAAGCCTTATGATGAAGAAAATTGTTGTGTTAGTGGCGGTAAGTGGTATAAATCAATAGGAAAAAATGGTGATCCTTGTGATGAAAAAGAATCAACATCTAGTTCTACTAAGTCAGCTCAAAACGAGCAAGCGACTTCAAATAATAGTTCTAACCCTAGTTCATCTAATACCAATTCATCAAGTAGTAGTTCTAAGGCTTCTACTAATAGTAACGAAAGTAAAAAAGTTGTTGCTGATGAGGTAGTAGCAGTTGCTAAGAAGGCACTAAAAAGCCCAAGTAAAAATGGAACTGCTTATAAAAGCTTATATGAGAAAAAGACTGGTAAAAGTGCCGGCTCTGGTGGATATTGTACTGAGTTTGCCAATTGGGTACTTTATCAAGCATTATCTAATGCTGGTAAAAAGAATTTATGGAAGCCAGCTAATGGTGCTAGTTCATTAAGAAAGGCGTATAAAAAATACATAGTTTCTAATTGTAAATACAGCAATATTAAACCAGGAGATATTCTTTCCTTTGGTGGGCATACTGCAGTTGTTATAGCTAATAATGGAAGCTCTGGTATTCAAGTTATTGAAGGACATTCTGGAGTGAAGAAAAATGGAATAAAAGTAATTAAGAGTAATTCTGGTATTGATAAAACAGTTTATTCAAAAGCATTATTAACTTCTGATAGTGTTTGGAAGAATTGGAAGATTATAAGAGTAAAATAATTATAAAAAAGGTGTGATAATATGTTTCAAATTTTAGCTGATGATTTAGCTAGTTATTGTAGTGAGGCAGGAGTAGCCAATATTTTCTACATAACTAAAATACTATTTACTATTTTACAAATAGTAGTACCAATAATATTAATAGTTTCAGCAAGTTTCTCTTTAGTAAGTATGGTATCTTCGCCTGATAATCCCAAGGCTAAAAAGAGTTTAATTAATAAGGTTATAGCAGCAGTAGTAGTAGTTTTAATACCATTTATTATTGAAATAGTTATGGGAGCAATCTCTACTGGTGGCGGAAGTAATTTTAATTATGCCGATTGTTGGACTAATGCTTATGAAGCTTATTCACAACAACAAAGTACAGGAGATGATTCTGAATCAGGGGAGAAGATAAGAGAAAAATGTGTAATTAATAAAAAGACTAAGAAGCCTTATGATGAAGAAAATTGTTGTGTTAGTGGTGGTAATTGGTATAAATCAATAGGAAAAAATGGCGATCCTTGTGATCCTAAAGATGAAACGAAAGCTACTAATGATAATGCTAAAAAAGCCTAAAAGTGATTTGAAATTAGTGTTAATAAAGAATAAAACCTAATAAGGTTTTATTTTCGTAGAAGGTGATAAAATGAAGTTGATTACAAAGGTTGATTCTAAAAACTATAATGAGTATAAAGACTTAACAGATGCTTTAATTATGCCTCTTGCCAATTATGCAGTTGGATACAAATCATATTTTATGTTAGAAGAAATTAAAGAAGCAAAAGGTCTTGATCTTTTTGTAGTTATCAATAAAAACATTTTTAATGATGATATTGATGAATTAAAAGAAATATTAAAAGAAATAGATAAACTAAATATTAGTGGTATTCTTTTCTATGATTTATCTTTAATTGCGTTAAAAAAAGAATTGAATTTAAAAACAGATTTAATACTAGATATTACCCATATGATGGATAATCATGATTTAGTTAATTACTTTTCTGACTTAGGAATTAACGGAGTTCGTTTACCTAGTGAATTAACTATTGATGAGATAAAGAGTATAAAACAAGAAAGCAAAATACCAATAATGGTTAATTATATTGGTGTAGAAGATGTTGCTTTTTCAAAGCGAAAACTACTTACTAATAGTAATATTAAAAAGGATAGTACTATTATTAAAGAAGAAATTAGTAAAGAAGAGTTTATTGTTAACGAATCTGATTTAGGAACTAGTTTTTTAAAGAAAGAAATCTTTAACGCTAGTTCAGCTTTAGAAGAATTAGTAGAAGTAAATACTGACTATATTATTCTAAATGAGGACTATATCGAACATGATAAATTTGTAAAAATACTTGCGAAAACTAAAGAAGTATTAGATAATAAGAAAAATTATTCTGATTATCAAAAGGAAATTGAATCCTTAATTGGTAATTATACAGGGTTTTTATATAAAGATATGATTTATCGGGTGAAAGGAAATGAAAAAGATTGAACTATTGTCACCGGCAGGTGATTTAGAAAGATTAAAAGTCACATTACTTTATGGTGCAGATGCAGTCTACATTGGTGGTAAAGAGTTTAGTTTGCGTGCTAATGCCACTAATTTTTCACTTGATGAAATAAAAGAAGCTTGCCTTTTTGCTCATAAATTAGATAAAAAAGTCTTTTTAACAGTTAATATGGTTATGCATGAAACTGATTTAGAGAAAGTATATGACTATATTGATAAAGTAATTAATTGCGGGATAGATGCTTTTATTGTTAGTGATTATAACTTAGCTCATTATATAAAAGAAAAGCATCAAAAAGAAGTTCATATTTCTACTCAGGACTCTGTTACTAATAAAGTAACAGCTAAACTATTAAAGGATTTAGGTGTGAAGCGAATAGTTTTAGCTAGGGAATTATCTAAAAAAGAAATAAAGGAAATAATTGATTATAGTGAAATAGATATTGAAGTATTTATTCATGGAGCGATGTGTACTTGTATGTCAGGTCGTTGTGCTCTTTCAAATTATACAACAGGAAGAGATGCTAATAGAGGAGGATGTGCTCAAGTATGTCGCTTTGTCTTCGATAGTGATGGTAATAAATTTACAATGGCTACTAAAGATTTAAATATGGCTAAGTATATAAAAGATCTAATTGATATTGGTGTTGCCAGTTTAAAAGTAGAGGGAAGAATGCGTTCATTATACTATTTAGCAACAGTTATTGGTACGTATCGTAAAATAATTGATGATTGCTATAATAATAGTTTAACTGATGAAAAAATGCAATCTTATCAAAGAATTTTAAATAATGTTGCTAATAGAGAATCAACTACCCAGTACTTTATGAAGGAAGCTGATCAGAATGATCAATACTTTGTTGGTAGACAAGAAGTATCTAATCAAGAATATTTAGGACTAATTACTGGTTATGATAAGGATAATAAGTGTCTTATTTTAAAAGAACGTAATTACTTTGAAATAGGGGATAAGATAGAAATATTTACTCCTAAGGGAGATAGTTATCAAATAGTTGTAGAAGAGCTTTTTGATGAAGATATGAACGAACTAGATGTAGCTCGTCATCCTGAACAAGTATTAAAAATAAGATTTCCTAAAGAAGTAGAACCTTATTCCATGATTAGATTAATAGAAAAGAGGAAGTAAGATGGATATAAATAAAGTTAGAAAGAATTTTTTGTCTAAAGAAAAGTATCTACAGCCTTTTGCGACAAAATCAGAAGAGGCTATACGGTTAAAGAAGATCGTTGAAGATATGCGACCTCCTTATTTTAGAGATAGTGATAAAATAATTCATTCATTTAGTTATACAAGATATGCTGATAAGACCCAAGTTTATTCTTATAAAGATAATGGTAACATCAGTAAGCGAATGACTCATGTTCAGTTAGTAAGTAAGATTGCTAGAACAATCGGTAGGGCTCTTAAGCTAAATGATGATTTAATTGAGGCTATTGCTTTAGGCCATGATATTGGTCATAGTCCTCTAGGACATGTTGGGGAACAAATCCTAGACGAGATATCAATGAATGCTTTAAATGAACGCTTTGCTCATAATATTCAAAGTGTTAGATATTATATGAATGTTGATAATGGAGGTAAAGGCCTTAATTTAACAGTTCAGACTCTTGATGGAATTATGTGTCATAATGGTGAAATACTATCACCGGTATACAAACCAATGAAGAAGAGTAAAAAAGAATTCTTAAGGCAGTATGAAGAGAGTTATTATGATTTGGATGCTTCTAGGAAATATGCTCCAATGACGATTGAAGGCTGTGTTGTCAGAATAAGTGATGTAGTTGGTTATATTGGTAGAGACATTGAAGATGCGATTGATTTAGGTCTTTTCCAAAGAGAAGATATTCCTAAAGAAATAACTGATGTTTTAGGTAATACAAATAAGGAAATAGTTAATACTATAATTCTAGATATTATTGATAATAGTATGGATAAACCATATATTAAGATGAGTAAAGATGTTTATGAGGCAGTTTTTGCTTTAAAGAGGTTTAATAAGAAAAACATCTATTTAAAATCAATGACTACAGAAGAATACAATTATTATAAAAAAGGTATGACTAATCTTTATAAAAAGTATTATAATGACTTATTAGAGGAAAATATGAGGAGTCTTATTTATCGTATATTCTTAGCTCATCAAAGTGATGAATACATTGAAAGTACTAAAAAAGAACGTATCGTAATAGACTTTATTAGTGGTATGACTGATGAGTATTTTCTTAATCAAATAAAAAGTATCGATATAGCTTGATTTCAATTTTATAATGTGCTATAATTAGGAGGCTATTTGCGCATAGGGGGGGTGTACTATGGTTTGCAAAGTTAACTTATATAAGAATACTAACCCTTTAGAAGTTACTAAGGAAAAGCTAGGAATAGTATTGGTTGAACAACATAAAGATGGTAGAATTACTGAGTTATTTAGTAATGATGAACTAAATGTTTATGTAACAGCTGATCAAAAAGGACATCATGGGGAAACATTATATTTTCCCGATCATGAGTATCGCGAAAGAGTTAATGAGGAAATAGAGGAAAAAGGATATTCATTATATGTAGTTTTTGAAGAGATTGATTATGATAGTGAAATAACCAGAGAAGATTTAGATTACTATATGAATAATCAAAAGAATTATTCATATAATAAGTTTAAAAAAGGTTTTGCCATCAATCAAAAGAAACTTAAAAGAGGTGAATAATTATGAAAAATAATAATGTTGTATATTTAACTGAGGAAGGATTGAATGATTTGAAGAGTGAACTTGATAACTTAATTAACGTTAGAAGACCAGAAAACATTCAATCAATAAAAGAAGCTAGAAGCTTAGGAGATTTATCAGAGAATGCTGAATATGATGCTGCTCGTAATGAACAAGCAGAAATAGAAGCGCGTATCAAACAAATTGAAAAAATGTTAGAGAATGTTTCTATTATTACTGAGAGTAATACTGATGAAGTTGGTTTAGGTTCAACAGTATCTATTAAATATGTAGAAGATGATGATACTGATGAATATAAGATTGTTGGTTCTCAAGAAGCAGATCCTTTTGAAAGTAAAATCTCTAATGAATCACCAATTGCTCAAGCATTACTTTCTCATAAAGTAGGAGATGTAGTAACAGTTGATTCACCAAATGGTAATTATGATGTAGAAATTATTGAAATAAAATAATTTCTTTTTTTATGTTTTATTGTCAAAATAAATAGTATAATAGTAGTTGAAGTTGCGCGCTTTTTGCGTTATAATAAAGCATATTGGAGGGATAAATATGGAGAAAAAAGAAACAAAAAAGACAAAGGAAAAGAAACAACCAAGCAATGTTCATGAAGTGGTTGTTAAAATAGATGGTAAAGAATGGAAAGATGCTGTCAACAAGACTTTTAAAGAGCAGAGTAAAGATGCTAAAGTAGATGGCTTTAGAACAGGTCATGTTCCTAAAGATGTCTATATTAAGAAATTTGGAATAGAGCATATTTGGTTTGCCGCTGCTGATCATGTGTTACAAGAGGCTTATTTTAAAGCTATGACTGATTCTAAGTTAGTACCAGTTGTACAACCAGCAGTTAACATTAGTGCTATCAGTGATGAGTATGTGGAATTTACTTTTAAGATAACTACTAAACCAGAAGTAAAAGTTAAGAAGTATAAAGGATTAAATGTTAAGCCAGAGACTGTTAAAGTAGCAAAAGAAGAAATAGATCATGCTATTGAACATCTATTAGAAAGATATGAAGAACTAGTTACTAAAGAAGATAAGATTAAAAAAGGTGATGTAGCAATCATAGACTTTGAAGGATTTAAAGATGATGTTGCTTTTGAAGGTGGTAAAGGAGAAAACTATTCTTTAGAGATTGGATCTAATTCTTTTATACCAGGTTTTGAAGATGGGTTAATTGGTCTTAAAGCTGGGGATGAGAAGGATTTAAAACTTAAATTTCCAGAAGACTATGGTGCTCCTGATTTAGCTGGTGCTGAAGTAGTATTCAAAGTCAAAGTTAATGAAGTAAAAGAAAAAGTAAAAAGAAAGATGGATAAAGAATTCTTTGAAGATTTAGCTATGGAAGGAGTTAATTCCAAAGAAACACTTGAAAAAGAAGTAAAAGAATCCTTAAAAGCTCAAAAAGAAATGGATGCTGAAAATAGATATGTAGAAAAACTATTGGAAGAAGTATCTAAGAATGTTGAAGTAGATATTCCTGAAGAAATGGTTAATGAAGAAGTAGATCGTCTAATGCGTAGATTTGAAGAAAACATGAAGATGCAAGGAATTAATCTAGATATGTATTATCAATTTACTAATTCAACTGAAGCTGATTTAAGAGCTACTTTAGAAAAAGAAGGTTATCAAAATGTATTATATCGTCTAATGTTAGAAGAAGTAATCGAATTAGAAGAATTACATGTTGAAGAAAAAGAAGCAAAAAAAGAAGCTAAAGAATTAGCTAAGAAATACCAAATGGAAGAGGAAGAATTCTTAAAACAATTTGGCGGAATTGAAATGATTAAATATGATTTAGAAATGCGTAAAGCAGTAGATAAATTAAAAGAGTTGAACAAATAGTTCAACTCTTTTTTAACTACTTATTTGTAATGTTACTGTATCACAATTAGTAAATGTTCTTGAATCAATACTACCAGCATTGATAACAATACCTTTGGTAATACCAGTAGAACTCTTGTATTGACAATTGAACTTAACCTTTGGATAAGTACTTTTAATCTTACTACAAGTACCACTTGGATTAGAGAAGTCATATAATTCCTCATATAAATAAACGGTTGTTTTGGTAGTGCATGAATTGGTTTGTGGTTTTGTACTATTTGCTGAAGAATTATTTACTTGAGCTGCTCTACTATAATTATTTACTTGTGATGGAGTACTTTCGGCACTTGGTTTAACTCCGGTTGATAATGTTAAATTAACTGTTATATTAGAAGCGGTTTTAGATCCGGCAGCGATAGATTGTTCAAGGACAGTATTCTTGGCTTTATCAGAGTTTTTATAAGTAAAGGTGTAATCTATTTTAAGTTTATCTAATTTTTCTTTAGCGGCACTTTTAGAAAGACCAACTAAGTTTGGCATAGTAACATTTTTGCCATCAGATATTTTGATGATAATAGTATCATCGTTTTTAATTGTTTCACCTTTTTTATATGAGTAAGATATTACTTCACCTTGTTTAACAGTATCACTGAATTCATGTTCTTCCTTATATTTAATATTATATTTCTTAGCCCAAGCATAGAATTCATCTAAATTCTTAAATTTTGGCATCTTTAGTTTACCAGAAGATAAAACTATTTTTAATGTTTCTTTTTCTTTGACTTTATCCTTATAATCAAAGTTAGATGATATTACTTTGTTCTTTTTAATTGATTCATCATGCTTATAGACAAATTCTAAGCGTAGTTTGTTTTTAATAGCCCAATTACTTATTTCTTTAATATTCATATCTTTAAGATTAGGTACAGTTATTTCTTTTCCTTTAGAAATAGTAATAACTACTTTATCATCTTTTTTAACACTAGAACCTGGTGTAATATCTTGACGAGATACTTTTCCTTTCTTGATTTTATTACTAAAGTCTTCTTTTAATTCATAATCTAATTGATTTTGTTTTAAATAGACAATCGCATCAATTTTATCCATGTTCTTTAAATCACGCAATTTAATTTCATGGTCTTCAACTTTTTCTCCCAGAGAGAAGGCAAGTAGAATTTCATCATCTCTTTTAACTGTACCAACTTTACTTTGGGAAATAAGGGTGTTTTCCTTACGATCAGATTCGTTAAAGTCAACAACGATATTCGATAAATAGTTTTCTTTAATATATTTAACTACTCTTTCAACACTCCAACTAGTCATATCTGGGATAATAATCTCTTTACTAGGATCAACTCCGTCACTGACAGAGATTGTGATAATCTTATTCTTATCAATATATTCATAATTATCTTGAGTAATGACTTTGTTTTCTTTAATTATTTCACTATATTCATATACTTGGTCAATCCCAACACCATTCTTCTCTGACCATTTAATTATGTCGGTAATATTTTTGTTGGTGAAATCAGGTACTTTAACTTTATTAGTAAAAATACTCGCAAAGTTAAGGCGATAATTCATATTGAAAAGATAAAAAACTATTAATAGAATAGAGGCGATGTTAATAATGGTGTTTTTCTTTGTCTTATGAGTACATAAGAAAGAAATGTACATAAGAGTAAATAAGAATAATAAACTTTCACTGATTAAAACAGTATTAAAATTCTCCAAAATATCTTTATAAACTATACATCCGATAAAACTACCAATAGCTACTATAAAGATAATTGCGAGTAGGATAAATTTAAAAACATGTTTACTCTCTTTTTTCTTCATTGAAAACACCTCTTTGCCTTTACAATAATTATACACCATTATGTTGTAAAATTGTTTAAGATATTGGTAAATTGACACAGGGCGTGTCAAGCAGGTTTCATTGAAAAAAAAGAGGGGATATGGTATAATTTTATTAGGTGAAATTTATGTTGGGAATTGTTATAGTCAATTATAATGATGCTAAGACAACGAAGCGGCTTTTAGATAATATTAAGGATTATCAAATACTTGATAAAATAGTGGTTGTCGACAATAATTCAACGGATAATTCTTTAAAAGAATTGAAAAAGTATAATAAGAAGAAGATAGAGATTATTGAAAATAAAAAGAATTTGGGTTATGCCGCAGCCTTAAATATTGGTGCTAAAAAGGTAGTAGAGGAATTAGGCAAATGTCATATTATTTTCTCTAATTCTGATGTTATTATCAATGGAGAAGATAGTCTTTTAGAATTATCTAAGACAATCTCTAAAAAAATTAAAGTAGTTGGTCCAACTATTGTTGAGGGAACAAACTTAAATAGAGGATGGAAACTTCCTTCAATTAGAGATGAGATTAGAGCTAATGTACCAATATTAAGTAGAAGATGGAATAAGGAACTATTATATGGTGAAGAACATTACGAAAAAGACATATCAATAGTTGATGTGGTCTCGGGTTGCTTCTTCTTGGTTGATTCTAAAGCTTTAGAAGCAGTTAAATTCTTTGATGAAAAAACTTTTCTTTACTATGAAGAAAACATCTTGGCTGCTAAGATGAAGAAGAAAGGTTATGAAGAGGCTGTTTGTAATAAAGTTGTTATCCTACATGATCATGCCAAGACGATTGATAAAAACTATAATAGTTTGAAGAAATATAATATCTTAAAAAATTCACAAGAATACTTTGCTAAAGAATATTTAAAAGCTAGTGAAAAAGATCTTAAAAAAATAAAAAAATATCGTAAATTATATACATTGTTAAAATATAGAAAAGTAGAGGAGGAAGAAAAATGAAAGGAATTATTTTAGCAGGTGGATCAGGAACTAGACTCTATCCACTTACAAAGGTTACATCAAAGCAGTTAATGCCAATATATGATAAGCCAATGATTTATTATCCACTTTCTGTTTTGATGGAGGCTGAGATTAAGGATATTTTGATAATCTCAACACCACAAGATCTACCAAGATTTAAAGAACTTTTAGGAGATGGTAGTAATTTTGGGATTAATCTATCCTATAAAGAACAACCTTCACCTGATGGACTTGCTCAAGCATTTACTATTGGTGAAGAGTTCATTGGTGATGATACATGTGCCATGATTTTAGGAGATAATATTTTCTATGGAGCTAATTTAAAAGGAGAACTTTTAAAAGCTAGAGAAAATGCTGAAAAGGGAAGAGCTACTATCTTTGGATATCATGTTCATGATCCAGAAAGATTTGGAATTGTGGAGTTCGATAAAGATGGTAAAGTATTAAGTGTTGAAGAGAAACCAGAACATCCTAAGAGTGATTATGCTATTACGGGATTATATTTCTATGATAATAGTGTAGTCGAAAAAGCACGTGATTTAAAACCGTCAGCACGTGGTGAATTAGAAATAACTGATCTTAACAGAATCTTCTTAGAGGAAGGTAAACTAGATGTTATAACAATGGATTATGGTTATGGTTGGTTTGATACTGGTACTTTTGATAGTCTTTTAAAAGCTGCTTCCTTTGTAGGAACTGTACAAACTCATCAAAATGTTACTATTTGTTCACCAGAAGAGATTGGATATCTTAATGGTTGGCTTGATGAAAAGAAATTAGAAGAACAAGCAAGTGTTATGAAGAAAAATACTTATGGTCAACATTTATTGACCTTAATAAAGAGAAAGAAGTGATAATATGAAGAAAATAGAAACAGAACTTTTAGATTGTTTTATATTAGAACCAGATCGGTTTGGAGATGAAAGGGGTTATTTTTCACCATACTTTATTCAAAATAATTTTGATGAACTTGGTTTCGAAAGAGTAGTACAAGCTAATAGAAGTAAGAGTTCCAAAGGTGTTTTAAGAGGACTTCATTTCCAAGAAGATCCTAAATGTCAAGCTAAAATAGTAGAAGTTATTAAGGGTGCTGCTATTGACGTAGTAGTTGATATTAGAAAAGATTCAGAAACATATGGTAAACATATTGCTGTAGAACTAAATGATCAAAATAATCGTCAACTTTTTGTACCTAGAGGTTTTGCTCATGGGTTTGTTAGTTTAGAGGACGATACTATTTTCCAATATTTAATTGATAATGACTATGCTCCTGACAAAGAAGGAGGAATTCTTTGGAACGATCCTGATTTAGGAATAGATTGGGATAAAATGCTTACAGATAATGGTATTGATGAACCTCTTCTTTCTGATAAAGATCAAGTTCATCCAAGACTTAAAGATAGTAAGGTGCTTTTTAAGAGGAGGAAATAATGAGAAGTTTAATAACTGGTGTTAATGGACAATTAGGGTATGACATAGTTAGACATCTAAATTTATTAGGTGAAAAAGACTATATGGCTTTAGATATTGCCGATATGGATATTACTAATAGAGAACAAGTAATGGAAGTAATTAAAAAATATAAGCCAGATGTTATCTTTCATTGTGCAGCTTGGACAGCTGTCGATAGGGCTGAAGATGAAGAAGAGATGTGCACAAAAGTAAATGTAGAAGGAACTAAGAATATAGCTGATGCTTCAATTGAAGTAGGTGCTAAACTAGTATATATGTCAACCGATTATGTCTTCGATGGTACTAAAGAAGGAATGTATACTGAAGAAGATCAACCTAATCCCCAAAGTGTCTATGGTAAGACTAAATTCTTAGGTGAAGAAGAAGTAAGAAGAAACCCAAAACACTTTATTACTAGGATATCTTGGGTATTTGGTATTAATGGTAATAATTTTATTAAGACTATGTTGAAGTTATCAGAAAATCATGATGAATTAAGTGTAGTAGCTGATCAAATAGGTTCACCAACCTATACTTATGATCTTGCTAAACTACTTATTGATATGAGTGAGACTGAAAAATATGGTACTTATAATGTTACTAATGAAGAATTCTGCTCTTGGGCTGAGTTTGCTGAATATGTCTTAAAAGATACTGATACTAAGATTAATCATGTAACAACTGAAGAATATGGTAAAGATAAGAAACAAGCTTATAGACCAAAGAATTCTCGTCTTGATAAAACTAAATTAGGTGATAATTTCTATCGTTTGCCTACTTGGCAAGATGCTACAGATAGATATAAGAAAGAATTAGTGAAAGTGAGGAAGAAATAACTCATCCATAATGGCGGAGGGGAAATGAAAGTATTAGTTACTGGGTGTTGTGGCTATATTGGTTCACATACTTGTGTTGAATTGTTAGATAATAATTATGAAGTAATTGGGTTGGATAATTTTTCTAATAGCAAAAAGGAAGTTTTAGATAAAATAAAAAGAATAACTTCAAAAAGTATTAAGTTTTATGAAGGGAACATGTTGAATGAAGAACTATTATCTAGAATATTTGTAGAAAACAAAATTGATGCTGTGATTGATTTTGCAGCTTATAAGGCTGTTGGTGAGTCTATTTCAATACCTATTGATTACTATATTAACAATGTTTCTAGCGTTTTAATTTTACTTAAAGTAATGAAAAAGTATAAATGTAAAAGATTAGTATTTAGTAGTAGTGCAACTGTTTATGGAACTCCAAATAAAGTACCTATTACGGAAGATAGCCCAATTGGAGGTACAACTAACCCCTATGGAACAAGCAAACTAATGGTGGAACATATTCTAAAGGATGTTTATAAATCTGATCCAACTTGGGATATATGTATTTTGAGATATTTTAATCCTATTGGAGCACATTCATCATCATTGTTAGGGGAGAATCCTAATGGTATACCAGCTAATTTATTACCATATATTACAAGAGTAGCTAATGGTAAATTAGCTGAATTGTCAGTATTTGGTGATGATTATGATACTAAGGATGGTACAGGTATAAGAGATTATATTCATGTTGTTGACTTGGCAAGAGGGCATATTAAGGCACTACAGAAATTAGAGAAAGAAAAAAAGGGATTATATATTTATAATTTGGGGACAGGTACAGGTTATAGCGTTTTAGATATTGTCCGTACTTTTGAAAAAACCAACGATATGAAAATTAAGTATAGAATTGCACCTCGTCGAGAAGGAGATGTTGCCAGTTGTTATGCCGATCCTTCAAAAGCTAGAGAAGAACTTGGCTTTGAATGCGAGAAGACATTGGTAGATATGTTAAAAGATGCATGGAATTTTGAAAAAAGAAATTTTTAGATAAAAGGAGATGATAAAATGAAATTTCTTATAACTGGGGGAGCAGGTTTTATTGGTAGTAATTATCTACATTATGTAACAGAAAAGTATCCAGAAGATTACTTTGTTTGTTTGGATGCTTTGACTTATGCAGGTAACTACAATAACATTAAGGATTTAGAGAAAAGAGATAATTTTAAATTCGTTCATGGTGATATAACTGATAAAGAATTAGTTGATAAACTTTTTGAAGAAGAAAAATTTGATATTGTTATTAACTTTGCAGCTGAGTCTCATGTTGATAACTCTATTAAGAATCCATCCATTTTCTTAACTACTAATATTATTGGTACTCAAGTATTAATGGATGCTTGTCGTAAATATGGCGTTAAGAGATATCATCAAGTATCAACTGATGAAGTATATGGAGATTTACCACTTGATCGTCCAGATTTACTATTTACTGAAGATACACCAATTCATACATCAAGTCCATATTCATCAAGTAAAGCCGGAGCTGATTTATTAGTTATGGCTTATTATAGAACATTTAATCTACCAGTAACTATTAGTAGGTGTTCTAACAACTATGGACCATATCAATTCCCAGAAAAGTTAATACCAGTAGTTATTTCTAAAGCTTTAAAAGATGAAAAAATACCGGTATATGGTACTGGAGAAAATGTAAGAGATTGGATTCATGTTCATGATCATAATGTTGGTGTTGATATGATAGTTCGTAATGGTAAAGTAGGAGAAGTTTATAACTTAGGAGGACACTCTGAAAAAACTAACCTAGAATTAGTTAAACTAATTCTTAAAGAACTTGGTAAGAGTGAAGACTTAATTGAGTTTGTAGCTGATCGTAAAGGACATGATTTAAGATATGCAATTGATTCTAGTAAAGTAGAAAAAGAATTAAATTGGAATAGATCTTATACCTTTGAAGATGGTATTAAGGAAACCATTGATTGGTATACATCTAATACTGATTGGATTGATAATATTTTATCTGGAGAATATAAAGAAGCCTATAAAGATTAGGCTTTTTAATTTGTTTAAAAAATGATAAAATGATTTTAGAGGTGGATAATATGAAAATCGCAGTAGCTGGAGCTGGATATGTAGGCTTATCTTTAGGAACGCTACTTAGCCAAAAGAATGAAGTTGTTGTTTTCGATGTTCTAAGAGAAAAAGTTGATAAAATTAATAAAAGAATTTCACCCATTAAAGATGAACACATCGAAAAATATTTCAAGGAGAAGGAACTAAATTTAAGGGCTACTACTGATTATAAAGAAGCTTTTGTTGGTGCAGACTATATTATTGTTGCAACCCCAACTAATTATGATGAAGGACTAAATTGTTTTGATACTTCTAGCATTGAGGATGTCATTGAAAAAACGCAACAATTAAATATTGATTCGACAATAGTTATAAAGTCAACCATACCTGTAGGATACACTGAAAGTATAAGGAAAAGATATAATCTCAAAAGTGTTTTTTTCTCGCCAGAGTTTTTGCGGGGTGGTAATGCGTTATATGACAATTTATATCCATCAAGAATTATTGTGGGATCTAAAAGCAAAGAAGCAAAGAAATTCGGACAATTACTAAAAGAAAGTTCTTTGAAAAAAGATGTTGTAATAAAATATATGAATTCTACTGAAGCCGAAGCAGTTAAACTATTTTCTAATACTTATTTAGCTCTTCGAGTGGCTTATTTTAATGAATTAGATACTTATGCTGAGAGTAAGGGCTTAAATACTAAAGATATAATCGAAGGAGTTTGTTTAGATCCTAGAATAGGGGATTATTATAATAATCCTTCTTTTGGATATGGTGGCTATTGTTTACCGAAGGATACCAAACAATTAAAAGCTAATTATAAAGATGTTCCTGAGAACTTAATTAGTGCGATAGTAGATAGTAATTCTACTCGTAAGGATTATATTGCAGATGAGATAATTAAGAAAAATCCTAAAACAGTAGGTATTTATAGATTGACTATGAAGAGTAATTCAGATAATTTCCGTTTTAGTGCTATTCAAGGTATAATGAAGAGAATAAAAGCTAAGGGAATAGTAGTAATTGTATATGAGCCAAGTTTGAAAGAAGAGTACTTCTTTAATAGTAAAGTGATTAAAAATTTAAAAAGATTTAAAAAGGAAAGTGATATTATATTGACCAATAGGTATGATCATGATTTAGAAGATGTCACTAATAAAGTATACACTAGAGATCTATTTAAAAGAGATTAGTAGTTTTAGTAATGAATATATAGGAGAGAAGTATGAAATATTTAGTAACAGGAGCAAGCGGTTTTATTGGATTCTATCTTTGTAAAGAACTGTTAGAAGATAGTAATAATCTGGTTGTTGGTATTGATAATATGAATGATTATTATGATGTTTCTCTAAAGGAAAACCGTCTAAAAATTTTAAAAGAATATCCGAATTTTACTTTTTATAAAGTTGATATTTCTGATAATAGAAAACTACTAAAGATTTTTGAAAAAGGAAAGTTTGATGTGGTAATTAACTTAGCAGCTCAAGCAGGAGTTCGTTATAGTATCGATCATCCTGATTGTTATATTAATTCTAATGTTTTAGGTTTTTATAATATCTTAGAAGCATGTCGTAAGTATCCAGTCAAGAAATTACTCTTTGCTTCATCATCATCAGTTTATGGCAATAACAAAAAAATTCCTTATAAAACTACAGATATGGTTGATACACCAGTTAGTTTATATGCAGCTACTAAGAAGTCTAATGAACTAATGGCTTATTCTTATAGTAACTTATATAATATTCCAGTAGTTGGTCTAAGATTCTTTACGGTTTATGGTCCGATGGGAAGACCTGATATGGCTTACTATTTATTTACTAAAAGAATAATGAATGATGAGCAAATAAGGGTTTTTAACAATGGCGATATGTATAGAGATTTTACTTATATCGATGATGCTATTGATGGGATTATGGCCTTAGTTTCTATTGAAATACCAAGTGATCAAAATGGAGTAAAATACAAAATATATAATATTGGTAATAACAATCCAGTGAAAATAAGCAAGTTTATTGAGATCTTGGAAAACCTCATTGGTAAGAAAGCTAAAAAAGAGTTCTTACCAATGCAAGATGGTGATGTCTATAAGACATATGCTGATATAGGAGAATTAACTAAGGATACAGGGTTTGAACCTCAAACACCAATAGAAGAGGGATTAGAAAAGTTCGTTAAATGGTATAAGAAATATTATAAATAGAATAGAAGCCTATAAAGATTAGGTTTTTTTGTTTAAATATTTGCAAAAAGGATAAAAAAAGTTTATACTTAATTTAGAGGGTGATGTTGAATGATGTTCGTATGTTTTTTTCTACCAGCTTTAATTGCGGTAGCAATCTATGATAATCTATATAAAAAGAGATTAAAGACAAAACAAGTGGTTTATAATTATGCATTATATAATGTTTTAATAAATCTAATTACTAATGTTGCAATCATCCTGATGAAAAGTGGAGAAGTGGTTTTAAACGAGGAAAGATTTACTAGCCGTTTTACTTCTAAGTACTTGATAATTGCTTTTTTACTTAGTATCTTTTTAGCAGTAGTAGTAGGTTATATAAGAGAAACATTTAAATTTGAAGTAACAATTGAAAAGATGAAGGTAAAAAAAGATGAAAAATAGTAAATGGCAAAAAATAAAAAACGTTTTAACTATTTTCTTTTTTATTATATTAGTCTTTTTTATTACTGTTTTGTTTTTTGTGCGAACTGAATATTCCAATATCACATATGAAGAATTAATATTTCATCTTAATGTCCCTCTAGAAGGATCACATGCACCTTTTGTTGGCAACTTTTTTAAAGAGGAAGCCTTTGCCTTAATCATAGGGATACTATTTATAATTGCTGTTGGCTTTTTTATGAGTAAGATGTTTTGGCATTCATTTACCCTTAAAATTAAAATGAAAAAGGGTAAAAAAACTAAAACTAAGCGAATTAAAATTAAAAATAATTTGCGTTTTTTTGTCATCGTGCCACTTGCTATAATTTTGCTTGTTCTTTATTTAATGGTAAAACAAATAAGATTTGATGAGTATGTCTATAACGTTAAGCATCCGACCAAGATTTATGAAAAATATTATGTTGATGCAAAAGAAACACAGCTTATTTTTCCAGAGACGAAAAGGAATTTAATATACATATACTTAGAGTCCATGGAAAGCAGCTATAGTGATTTATCTAGCGATATTTCCGAAGTTAACAATTTGATACCCAAGTTAGAACAGTTGGCTGATGAAAACATTAGTTTTTCAGATACCGATAGTTTAGGTGGCGCTTATCAGACTTTTGGAGTAGGTTGGACAATGAGTGGGATGGTTGCTCAATCGGCGGGGATTCCACTTACTATACCAGTTTCATCTAATTCAATGCAGTTTTATAAAACTTTTTTACCAGGTGTTACTACTTTAGGGGATATTCTTGGAAAAGAAGGCTATAATCAAGAATTTATGATGGGTTCTATTAAAGAGTTTGGAGGTCGTGATAAGTATTTGATTCAGCACGGGGAATATAAGATATACGATTTAAATACTGCTCGTAACTTAAAAAAATTCCGATGGATTACGGAGTTTGGTGGGGATTTGAAGATGGGAAATTATTCGAATATGCCAAAGAGGAACTAACTAATTTGTCGCAGAAGGAAAAACCATTTAATTTTCAGCTTTTAACTGCCAATACACACTTTGATGAAGGACATGTAGAAAAAACTTGCGAATATTCGTTGGCCAATCATTATGCCAATAGCGTAATTTGCTCTGATCAACAAATCTATGAATTTATTAGGTGGATACAGCGACAAGAATTTTATGAGAATACTACAATCGTAGCTTCTGGTGATCATTTGGTGATGGGCGAATACTTATATCAGGAAGAAAAGTCTTTGAATGAAAGACGAGTGTATAATGTTTTTATAAATCCTTATGTTGATTATGATTTTGAACGATTAAGAAATAGAACTTTTACAACTTTGGATATGTATCCCACGACGCTTGCAAGCATTGGTGTAAGAATAGAAGGAAATAGACTGGGTTTAGGTACTAATTTATTTTCTAATAAACAAACTTTGCCTGAGCAATTAGGAAAAGATGAGGTCGATAACGAATTAAGTAGGCCATCAAACTTTTATAAGAATGAACTGTTATATGTAAAATAAAAGTCAAGTAGGACTTTTATTTTTTGATTTGGTATATATTCTTTGATATAATGATATGAGAGGAAGTGGTAGTGTGTTGAGGAGAAAAATTGTTATAAATGCATTTTTATTGTTTTTGTGCACTCTTTTTATGAGTAATATGAAAGTATTAGCTCTAGATGATGAAGCAGCGCTTGCAAATCAATCTGCCGATGAAGTAACTAGTCAAGCAAATCATGTTAGTATTAAGTATCAAACACACATCCAAAACTATGGCTGGCAAGCTGAAAAAAAAGATGGAGAATTAGCGGGTACTACTGGCAAATCACTGCGTTTAGAGGCTATTAAAATATTTTTGGATTCTGATATTTCGGGTTATGTGGAATATATTACGCATATTCAAAATATTGGTTGGGAAAGTGGCTATAAAAAAACAGGAGAAATATCAGGAACATCTGGCAGATCATTACGCCTAGAAGCTATAAAAATAAGGCTAGTTGGAGAAATAGCTGAAAACTATGATATATATTACCGCGTTCATGCTCAATATAGTGGATGGTTAGGATGGGTAAAAAATGGAAGTCCAGCTGGAACAGCAGGTTTATCTAGAAGACTAGAAGCAATTGAAATAAGGTTGGTAGAAAAGGGAAGTACGGAATTAGTTGAAGGAAATGGTTTTGTAAGTAAAGGTATGGAATTCAGCTATCAAGCTAATGTTGAAACAAAAGGATGGCTTAGCGCTGTTGGTGATGGTAAAACGGCAGGAACAACTGGTAAAAGCTTAAAAATGAAAGCCATGAAAATAAGATTATCAGCACCAGGCGAGACAGGCACGATACAGTATATTACTAAAGCTCAAGAAGGAAATTGGGATAGTGTTTACAAATCATCTAGTCAAATAGCAGGTAATCCTAATTCGACTTATGGCATCGAAGCAATAAAGATAAGATTAACTAGAGAGTTGGCTGAAAAATATGATGTCTATTATCGCAGCCATATCGAGGGCTATGGTTGGTTAGGATGGGCTAAGAACGATGAAATATCTGGTAATGTTGATTTGAGTTTAAGAATAGAAGCTATCGAAATAAAACTTCTTCCTAAGGGAACAAATTTTGTCACGGGAGATAGTTATATTGCTAAAGATGCCTATCTTTCATACCAGGCTCATGTCCAAAATATTGGTGATCAGGCTGTTGTTTTAGAGCGAAGTATGGCCGGAACCACTGGTAGAGGTCTAAGAATGGAAGCGTTTAAAATAATGCTTAATACAGAACTTTCTGGTAGTATTCAGTATAAAGCTTTTGTCGAAGATGGCGATTGGGAAGAAAACTATAAATCCGCTGGCGAATGGAGTGGAACAATAGGAAAAAGTAAGGCGATTCAATTAGTTAGAATAAAACTGACAGGTGATTTGGCTACTAAATATGATGTCTATTATCGAGTTCATTCTGATAAATATGGTTGGTTAGGATGGGCCAAAAACGATGAGATGGCTGGTGCAACATATTACGATATACAAGCTATTGAAGTAAGATTATATTCAAAGAGAAGTACTATTAAAACAACGTTAAAAACCGCGAACCATTATGTTGAAACTGGTTTCTATAAGCAGAACGGCTATACTTACTATAGAGATAAGAATGGAAAACAAGCTACTGATTGGATACACATAACAGGAACTAAGTATTTCTTTAATTCTTTAGGGGTTATGATCGGTAAAAATGTCCGTAAGGTAATAGATGTTTCTGAGCACAATGGAAAGATCAATTGGGATACAGTGAAATCTCAAGGTGATGTTGATGGCGTAATACTACGAATATCTAGTAGTGGACTAGCTCGTGAAGATGCTCAATTAGCAAATAATATTGCTGCTTTAAAGAGATTGAATATTCCATATGGTATTTATATTTATAGCTATGCTGAAAACTATAATGAAGGAAAGCAATATGCTGAATTTACGGCAAATGTAATTAAAAAATATAGTATGAATCCTAAAATAGGAATATTCTTAGATTTAGAGTCAAATGGAATAACCAGTTACATGGGAGTTAGTCAATATGAAAAAGTTGTTAAAGGTTATGTTGATACAATGTTTAGTAAGGGTTATGGTAATTTAACTAGTATCTATACTTATAAAAACTATGCTGATACTGCTTTGAATTCTAGTACTTTAAGACCACAAATTACCTGGATTGCTCAATATAATCATTTCTGTACTTATAGTGGATCTTATGTGGGTTGGCAGTATTCATCAACTGAAAGGATTCCTGGCATATCAGGGAATGTTGATGTAAGTGTTTGGTTTGCTAATTTTTAAAAGTAGTTAAAAACTACTTTTTTCTTTGGGATAATAATAGATAAATAAGCTAATTTATGATATACTAATATATGAATATGGAGGAGTTTATGATTGCGCAATCAGAAAAAGTTATCGAAGTAAAAAATGTATCTAAGAAGTTTAAACTAGTCTATGATAAGCCAAGTACTTTAAAAGAAAGGATTGTCTTTTGGAATAAGAGTAAAGTTAGTTATCATGAAGCTTTAAAAGATATAACTCTGGATGTGAATAAAGGAGAAACCATTGCTTTAATTGGTGTTAATGGTAGTGGTAAGTCAACTCTTTTAAAACTTATGACAAAGATCATTTATCCGACAAGTGGGAAAATAATCACTAAGGGAAAACTAACATCATTATTAGAGTTAGGAGCAGGATTTCATCCTGATTTTACAGGAAGGGAGAATATCTATTTTAATGCTGCTATTTTTGGCCTTAGCGCTAAGGAAATAGATGAACGAATTGAAGATATAATCAATTTCTCTGAACTTGGAGAATTTATTGAAGCTCCAGTAAGAACGTATTCATCAGGAATGTATATGCGCCTTGCTTTTTCGATTGCGATTAATGTTAATGCGGATATTTTATTAATAGATGAGATTTTAGCAGTTGGTGATCAACATTTCCAAGAAAAATGCTTTGCTAAACTCCAAGAGTTAAAAAAGCAACATAAGACAATTGTTATTGTCAGCCATAGCTTAGATTCTATTAAAGATCTATGTGATAGAGCAATTTGGATCAGTGAAGGAAAAGTAGAGGCTGATGGCAAAGCGAAAAAAGTTATAGATGAGTATTTAAAGGTGTGTGGTTAGAATGCTTAGAGAAATATATAATTACCGAGAGTTGTTAAAAACAAATGTTAAGAAAGAAATACGTGGTAAGTATAAGGGATCTTTTTTAGGTGTCCTTTGGTCTTTTGTTAATCCATTACTGCAAGTATTGGTTTATGCAATAGTATTTCCATATATTATGCGAATTCAAACACCTAATTATTTACAGTACTTAATTATTGGTATTATTCCATGGACTTTTTTCATTACGACTATTAATCAGGGAATGATTACAGTTAGAATGAATGCTGGAATTATTAAGAAAGTTTATTTCCCAAGAGAAATATTACCACTTTCTGTTGTTTTAAGTGGACTCATTAATTTCTTTATCAGCTGTATTATTATTCTTATATTCTGTTTGTTTGGTGGAATAGGAGTAAGTGCTCATTTATTACTCTTACCAGTTATTGCTTTAATTCAGTTTGTTTTTACTTTAGGAATGGTTTTTGCTTTATCAGCAATCAATATTTACATTAAAGATACTGAGTATTTAGTTCAGTTTATTCTTAATATGGCTTTTTATGCAACACCTATTCTTTATCCGGCTACGTTATTTCCAGAAAGGTTTAGATGGATTTTATTTGTTAATCCAATGTCAGAAATCATAGAAGCATATCGAGCAATATTCTTATACCATACTTTCCCTGATGTTAATGGAATGATATATTTGGTGATTGTTAGTGTTTTAGTACTTGCTTTTGGATATATGATTTTTGAAAAACTAAAGAAGGGTTTTGCTGAGGAGGTATAATGTGAAGCAGTACGATTTTATAGGTATTAAATCATTTAAAATAGATGGCATTATAAATCCTAATGTAACAATAGCTGGTACTATAAAATATAAAGATGGTTATGAGCTGGTATTAAAAGCTGATAATAAAAAGATTGAATTTAATCATATTCCAACAAATAGAGAAGAAAACTTTATAATTAATGCTGTTTTACCTAAGGATACAAAACAAATAAGCTTATATTATAAAAAATCTAAACAAGATAAGTTTTGTTTAGTAGCGACTAGAAAAACGAATATGTTTAAGCGATTTGTTAAAAAAATACTAGGCTTCTTTGTTAAATTAGTTAAAAAGGCAATCCGTGTATTATATGTTCTTAAACGAGGTATTAAGTATTTATGGCGTGAATATCACTTTTTAGTACCAATTAGTCTTTGGCCAAAATATATAAAAGATTTTAGAGATAGCGTAAGACGGTATAATCACAAATTTTTTAATCCAATGTTAAAAAGTGATTATTTGAAATGGTTGCGAAAAGAAAAAGATAATACCGAAGAGCTTAAGACTTTAAAATATCAACCATTAATTTCAATATTAGTTCCTGTTTATAACGTTGAACCAAGATTATTAAAAGAGTGTGTTGATTCTGTTTTAAATCAAACATATGATAATTTCGAATTATGCTTAGTAGATGATGCTTCTACTAACGAAGACACAAAAAAAGCTTTGGCTGAATATCAACAACTCGATAAGCGTATAAGAGTAAAGTATAGAAATAAAAACGGACATATTTCAGAAGCAACTAATGATGCGCTTAAGATGGCTAAAGGTGAATTTATTTCCTTATTAGATAATGATGATGTACTAGATAAAAACGCTTTATATTGGGTAGTGGATGCCTTAAACAATAATGATAAATTAGATTTCATCTATTCTGATGAAGACAAATTGGATTTAGATGGTCATAGATGTGAACCCAATTTTAAACCTGATTTTTCTCCAGATACACTTTTAAGTATGAATTATATTTGTCATTTTACAACAATCAGAAAAGCTTTAGTAGATAAAGTTGGTGGTTTTGAAAAAGGGTTAGAAGGTGCTCAAGATTATGATTTGTTTTTAAAAACAACAGAACTTACTGATAATATTTATCATATCCCAAAGATATTATATCATTGGCGTAAGGTAGAAGGCTCAACAGCACTAAAGGGTTCGGCTAAATCATATGCTGAAGATAAAGGTAAAAAAGCTTTAGAGAATGCTTTGGCGAGAAGAAAGATTCCTGGAACTGTAGAAATTGATGACATTAGTAAATACTATAAAATTAATTATGACGTAAAGGGTGAACCACTAATATCTATTGTCATTCCTACTAGAGACTATGCTGATATATTGAAAAAGTGTGTTGATTCAATATATGAAAAAACGACTTATAGGAATTTTGAAATAATTGTTGCAGATAATGATAGTAAAGAAAAAGAAACTTTAAAATATTTTAAGGAAACGCAAAAAAAGCATGATAATTTCCATGTTGTAGAGTGCAAGTTCGAGTTTAATTATTCAAAGATAAACAATATTGCAGTAAAGCATGCTAAAGGAGAGTATATTGTTTTATTAAATAATGATACAGAAGTTATTACTCCTGAGTGGCTTGATATAATGGTAGGATATGCTTCCCAAAAGCATGTAGGTATTGTGGGACCAAAGCTTCTATATCCAGATGGTACTGTTCAGCATGCAGGAGTTATCTTGGGGCTTGGCGGAGTGGCTTCACACGCTTATATTGGGGCCAACAGAAACGATACCGGTTTATATGGGAGACTTAGAGTACCATATAATTATAGTGCCTGTACAGCAGCCTGTTTTATGATAAAGAAGGATATTTATACTAAATTAAAGGGACTTAATGAGGAATTAAAAGTTGCCTATAATGATATAGATTTTTGTATACGTGTTTTAAAAGAAGGATATTATAATGTCTTTGTTCCACAAGTTGAACTTTTACATTATGAATCTAAATCAAGGGGATTTGATACAACAACTGAAAAATATAAAAGGTTTTTAATAGAGTCAAACTATATGTATGAAAAATGGGAGAACACTATTAATAATGATAGATTTTACAATCCTAATTTCAGTAAAAATGGATGGTTTGTATTAGACTCAGGAGTGAGTGATAAAAATGATTAATTATATTTTGAGTTGTATGTATATATTATTCTTTTTGTTTAGCTTATATTTCATTGGAAATATACTGTTTTCTAAAGTAAAAAGTTTTCCATTAAGGATAACATATATATATTTGATCTATAAATTCTTTGCTTCTTTATTTGGTTGTATAACCCAATTGTTAAAGCTGCCATTTCAGTTTTATTTTATAGTATTATTGATATTTTGGATTGCTTTATATGGTTATGCATTATACAAAAAGAAGAAAGAGAATATAGTTGTTTTTGATAAACGGCGAAACAAGGAAATATTTAAGAAGTATTGGTTTGTTTTAGTAATAGCTATAATATTAATTTTCTTTTCAATGATTAATATTGAATATCATTGGTTTGGTAATCATTTAGATGATGGACTATATGTAAATATTGTTTCTGATTATGTTAAAGGAATAGATACTTTTCATATTCACTCAGCTAATGGCCTTAATCAAATAGCCAAATTTGGTCCTCATAGTTTGAACACTTGGCAATTAGAAGCAGCTTTCTATGTAAAAATATTTAGAGTTGTTCCGGTAGTTCTTTTAGCCTTTGCCCAGAGTTTTATTAATTATATTATCTTTATGTTAGTAGTGCTAGCTTTTTTAGAAAAAGTCTTACCAAAATAAGTTATTAAGAAGTATAAGTATCAGATTCAGTTTATTCCAGCAGTTATTATCTTGTTTATGTTTCAATTTGATGTTTTAAACCGAATGATTACACTTCAAGATGGATGGCAATTTGGTAATGCTATGTTTTATGGCTCAACAATAATAAGAACTATGGGTATTTTCTTGTTGTTAGTCCCATTTATTGATAAAGAGAAATTAGGGTTTAAAGATTTAGTAATATATGGTTGTATAAGTTTTATTCTTTTGGCACAATCTTCAGTAGCCTTACCAGTAGTTATAATGGTGGGGGTTGCTTATTTTGTTTCCCATTTATATTTTGATAGAAATTGCAGATTTATTCTTGCTTTGGTACTACTTTTGTTGATAATATGTGGAATAGTTTTACCAAATATAGGATTAATCAATGATCATGCTTTAAACTTATATAGAGCTAATAGTAGAAGTATCATTTTATATGGTTCAATTATTGTTTTTCTACTTGGGTATTTATATAAAAATAAAACTATTAATAAAATAAATACAACAATTCTATTTATAATAGCATTTATGTATATTCCTGAAATTAATGATATTGTTGAAAACTTATCTATGTATGATTTTGTAGAAGCAAGATTTTGGACAGGAACATTTTATGCTATAGCTATTCTAGCTTTTGCCTATGCTTTTGTTTTTGCTTGCAAATTATTGAGCAAGAAAAAGCTATTGGTTTTAAAGGGTGTTCTTTTATTCCTATTAGTACTAGGTGTTACTCTTTCGTTTGAATTTAAGTATAAAAATATATTCAAATCAATTGAAATACTTAGATATAATAATAAATTATTACCTAATTCAACAGTTAATCTTGGTAAAGAATTAGAAAGACTACATATAAAAACTAAAGACCATTTGTATGTTTTAACTCCTGATTGGGTTGTGACTAATGGTTATAATCACTCTTTAGCTGTTTTGTTGAGACAGCATACTCCTAGCAGTAGTATAATTAGTGCTATACCTAGATACGGATATTTTAGTAATAAAGAATTTAAAGGGTATGAGCAGGCAGATAATGATAATTATAATGCTTTTATGTATGACCAATCTGGTCAAAGTTATCTAAGAGTAAAAAAAATTTTAGAAAAGTATCCTATTAATTGTTTAGTTGTTACTTCAAAACTTGCTGATTGGATAACCAAGGACTCAGGATTTGAGTTAAAAAAATCTGTTTGTGATGTTGATATTTGTTATTATATATATTATAGAAAATAAGAGGTAAATATTATGAAAAAAGTTTTAATAGTAATTCCAGCTTATAATGAAGAAAAAAACATATTAAGAGTTTATAATTCTATTATGGATTATAATAAAAAGAACAAGACAAATTATGATGTGATAGTCATTAATGATTGTTCAACTGATGGTACCAGTGAAGTATGTCATAAAAATGATATACCGGTGGTTGATCTTATTCATAATCTGGGAATAGGTGGTGCTGTCCAGACAGGGTATAAGTATGCTTGTTATCATGATTATGATGTTGCTGTTCAATTTGATGGTGATGGACAACACGATATTAGATATGTTAAAGATATAGTGAATCCTATTTTAGAAGCAAAGGCAGACATGGTTATTGGAAGTAGGTTTGTTGAAGAAAAATCAACCTTTAAATCTACAAAAGCTAGGCGCGTCGGCATAAAGATAATTTCTGCTTTTATGAAGTTTGTGACTCACAAAAAAATTTATGATGTTACTAGTGGCTTCAGAGCTATAAATAAAGAAATAATATATGATTTTGCTTTATCATATCCTAATGAATATCCTGAACCTATTACTACTGCTGAAATCTTAAAGAAAAAGTATCGAGTTAATGAAGTTGCAGTAGAAATGAAAGAGCGAATTGGTGGAGTATCTTCAATAAGAGCCTGGAAAAGTGCTTATTATATGATGAATGTCTGTTTAGCGCTATTAATCATTAAAACTAGGAGGTATAAAAGATGTCGTTAAAATTAGTTTTATTTATGAGTTTAGGGGCAATACTATTAATATTGCTAGCTACTTATTTTCTTAGAAAAGGAAGAATACCAGAAAAATATGCTCTTTTATGGTATGTATTTGCTTTAATAATTTTGTTGTTTAGTGTTTTTCCAAACGTGTTTTATTCTTTAGCCAAAGCCTTTGGCTTCGTAATACCTTCTAATATGTTAATGCTTGCTTTAATTGCTATTTTGTTTTTGTTAGTTATGGCATTAACTATTATGATGGCTGGTCAAAAGAAAAAAAGTATTCTTTTGATTCAGGAACTTTCTCTACAAAAACTAGAGTTAGATCGAATAAAAAGAGGAAATAAATAATGAAGACTATAGCTATATTTTCAGCTTATTATTATCCTCATCTAGGAGGAATAGAACGGTATATTGATAATCTAATGAAAGAATTTATCAAGATGGGTCACAAAGTAATACTGATTACTTCCAATTATGATAATTTGAAAGAAACTGAAAATAAAAAAGGTATTGAGATAATTAGATTACCAGTGTTTAATGCTTTTAAACATAGATATCCTATTATTAAGCATAATAAGGAAGAAAGAGAACTATTAAGCAATCTTGATAATTATAAAATTGATTCAATAATTGTCAATACGCGTTTTCATCTTACTTCACATATCGGTGCTAATTATGGTAAAAAGAAGGGAATTCCAGTTTATTTAATTGAACATGGGTCTAATTATGTGACTCTTGATAATAAGTTTATCGATTTTTTTGCTAATCGTTATGAGGATTTTTTGACTATGAAAATCAAGAACAAAATAGCTGGTTTTTATGGTGTTTCTAAAGCCTGTAATGAGTGGCTTAAAAGATTAAAAATTAGTGCTTCAGGGGTATGGTATAACTCAATTGATGTCAATCAAAAATTACCAGCTAAAGAAAAGCATAAAACAATTAATTTTTTATATGCTGGTCGATTAATAAAGCAAAAAGGTGTTGAGAACATATTAAATGCTTTTTCTAATTTGGAAAAGGAACATTCTAATATAAGATTATTTATCGCTGGTGAAGGACCAGAATTTGATTACTACAAGAGCTCTTTTACGAGCAAAAACATTAAGTTTTTAGGTAAACTTAACTATGATGAATTAGTTAAGTATTATGCCAAGACAGATATTTTCTTATATCCACCTTTATGGCCTGAAGGATTGCCAACTTCAATTTTAGAAGCTGGTTTGATGAAATGTGCAATTATTGGTACAAACCAAGGTGGTATAACAGAGGTTATTAATGATAGTAATGGTATAATCGTTAAAGAAAACATAAAGTCATTAGAGAAAGCTATGGCGAGACTAATTGAAGATAGTAAGCTTAGAAACAAATTACAAGAAGCTATATATAAAACAGTTATAAACGAGTTTTCTTGGGAAGTAACTGCTAAAAGAATAATAACTGATATGAAATAGGTGATACCATGAAAAAAGTCAGTATAGTGTTATCTATATATGAACCAAATTTAAAATATTTAAAAAAGCAATTACAGTCTCTTGAAAGGCAGACATATAAAAATATAGAGGTTGTAATTCGTGATGATTGTCCAAAAAATAAAACTGCTAGAGAAATCTTTGATAAATACTTACCAAAGACTAAACATAGGATTTTGCCTTCTGGTAAGAAAAGGTTGGGGTATACAAAAAGTTTTGAGGAATTAGTTAAGAAGATTGATCATGATGGTTATATTGCTTTTTGTGATCAAGATGATATTTGGGATAAAAAGAAAATTGAATACATGGTCAACGCTTTAGAAAATAGTAATATGGATCTAGCAATTTGCGATCGACAATTGATAGATGGTGATGACAAAGTTTTTTGTGAAAGCGAAAGTGCTACTTTTAAGGGAATTAGAAGAACATGGACAAAGGGAAAAGATATTTATGAAATGTGTCCTTTTTTGACAATTGCTCCAGGGATGAGTATAATCTGTAAAGCAAGTTTTGCTAAAAAGTGTTTGCCATATTATCCGTTTGCTTTTGATAAATACTTGACTTGCTGTGCGGCTTTTGAAAGCAAAATATTAAAGGTTGATATTCCTTTGGTGCAATATCGAAGACACGGTAAAAATGTCAGTGGAGTATTGAATGGAATTTCAACAAAGAATGATTATTATGAGCAAAGAGTTCTTTCACATCATATTTTAGTAAACAAACTAGCATCTATTTATAAAAATGTTGATACTAGTAAAATGGTTGCGTTTTCAAATGCTAGAGTTAATAAAAATATATTTAAAATTTTTCAATATAGGAGAATTAGTCCTGCACAAGCAAAATTTGAGATTATTTTAGCGCTGACCCCAAATTTTGTGTTTGAACAGGCTTTAAAAATAAAAAGGAGGGGTTAATTATGCGAGTGAAAAAATCATTCTTGAATGCTTTTTTTGGAGCATTAATCTTAGTAATTAGATCAGTACTTTTATTTGCGGTTAGAATAGTTTTTGTTAAGACATTAGGTAAAACACTTCTAGGGGTAGATAGTTTATTTACTAATATACTTGTCGTTTTATCAATCGCTGATGCCGGTATTAGTACTGCTATTAGCTTTAACCTTTATAAGCCATTGTCAGAAAAGAATTATAAAAAAATAAGTTCTTTGATGACTTTCTATAAAAAAGCTTATAAGAGACTAGGAATTATTGTCTTAGGTGCTGGCGTATTATTTATGCCTTTTTTAAGTATTATTGTTAAAGAAAATATTACTAATTTATACTTGTTCTACTTGATTTATTTATTCTCAACAGTTGTTACATATTTTATTTCATATAAAGATTCTTTGCTTACTGCTGACCAAAACTTTTATAAGTCAAGTATGATAGTAGGAACAACGTATATTTTAATGTATGTTTTAAGGATAGTGTTTTTATTGATCTGGCCAAACTTCTTAGTATTTGCTCTTATCCAACCAATTATGATAATTATACAAAGGGTTTTGGTTAATAGATATATTACTAAGTGTTATCCAATGGTAGACTTTGATTATAAGGAAGAGATACCAAAGAAAGAACAGAAACAAATATTTAAAAATGTTAAATCAATGTTTTTAAATAAAATTGGCTATTTCTTGGTTAATGGAAGTGACAATATTATAATTTCGGCAATTCCCTCTTTGGGTTTAGGAACAGTTGCTATATATACTAATTATTATTCGGTGGTGGGGGCTATTGATACAATAATTGCTAAGGCTATATCAGGGGTTACATCAAGTTATGGTGACTTGGCAGTTGTTGAGTCTAAAGATGTTCAAGAAAATGTATTTAATGTTTTGTCTTTTGTTAACTTTATTATTTATGGTTTATTTGGTGTGGGATTCTTTTTCTTATTAACGCCATTAATAAAGATATGTTTTGGTAGTTCGTTTGATATAAGTACAGTAACATTATTGGTTTTATGCCTTAATTTCTACTTGGTAGGAATGATTAGACCACTAGATATTATTAAAGAGGCTACAGGAAACTATTATCAAGACCGATATGTAAATATTTTTCAAGCGATTATTAATATTGTTTTGTCAATTGTATTAGGAAAGCTTTATGGTTTGTTTGGAGTGGTTCTAGCTACTTTGATAAGTTTTGTTTGTTTACCTCTTTGGAATAGACCATATGTGGCTTATAAATATATCTTTAATAAGAAACCATATAATTATTTGAAAAAGCAGGCTATTTATTTTGTTTCCCTACTAATTATTTGTGTAGTTTGTCATTTTACTTTAAATATAGTAACTATTGATAATGCTGTTTTTGATTTCGTTGTAAAAGCGTTGTTCATTACGATTATATATTTATTATTAGTTTCTGCTTTGTATTGTCGTACTAAAGAATATAAAGAAGTTGTATACCTGATAAAAAAGAATAGATTATAAAATCTATTTTTTTTGAAAAACAATTGATTTTTGTGTAAAGCAATCCAAATACTCTTTTTAATAAGTGATTATTTTGTTATACTATAAGAAAGAGGTGGTTTTCATGAAAAAAATAGCAATTCTTTCTTTACATCTAGGTTATGGAGGTATTGAAAAATCTATTGTAGCGCTTGCTAATATGTTATCTGATAAGTATAAAGTGGAAATCATTTCCTCTTATCGACTATATGATGAACCAGCTTTTGATATTGATAAAAAAGTAAAAGTGAAATATTTAATAAAAGATTTGATTCCTAATAGAGAAGACTTCAAAAGAGCAGTTGAAGACAAGAGAATAAAAAGTATTTTTAAAGAGGGCTTTAAAAGTGCCAAAATATTGAGACTTCGTAAAAAGACAATGGTTAATTACATTAAAAATACTGATGCCGATATTGTTATTTCTACTAGGGATATCTTTGATGAATGGTTAGGTATTTATGGACCAAAGGATGTTTTGAAAATTGGTTGGGAACACAACCATTATCATGATGATTTAAAATATGCCGATAGAATCACTAGAGCTAGTAGTAAACTAGATTATTTAGTTGTTGTTTCTAAATCATTACAAAAATACTATGGTAAGAGACTTAGAAAAAGTAAGTGTCATTGTGTCTATATTCCTAATGTTCTTGATTCGGTTCCTAAAAGGGTATCTAAACTAGAATCAAAAAGAATTATATCAGTGGGAAGACTTTCTGAAGAAAAAGGATATGATGATTTAATAAAAATATTCTCCGTTGTTTCTAAAAAGCATAAAGACTGGGTACTAGATATAGTTGGTGATGGAAATGAAAGAAAAAAACTGGAAAGACTTATTAAGAATTTAAAACTAGAGAGCAAAATAACTCTTCATGGTTTTAGAGGTAAGGAATATATTGACGAGTTAATGGATAGGTCATCAATATATGTAATGACATCACATACTGAATCTTTTGGAATAGTTTTAATTGAGGCAATGAGTCATGGACTTCCTTGTATTGCCTTTTCATCAGCTGAAGGTGCTAGAGAACTTATTGCGAGTGGTAAGAATGGTTATTTAATTAAGAATAGAAGTTATAATGCTATAATTAAAAAAATTAATGACTTGATAAAAAATGAAGAAGCTCGTAAAAAAATAGGTAAAGAGGCTTATAAAAGTATTAAAAAATATACCAGTGATGTTGTCGAAGATCAATGGTTGAAAGTATTAGAAAAGAAGTGATCCTATGAAAAGAATAATGTTTATATCTTCAGCTGGAGGACATTTATCAGAGATGCTACAACTAAAGAAAGTTATTGATAGTAATGACTCTTATATTGTAACTGAAAACACTAAGAATAACTTATCTTTAAAAAAGAAATATAATAACAAAGTATCATTTTTACTTCATGGATCTAAAGATCATATATTTACATATATTTTTAAGTTTATTTATAATACTTTTAAGAGTTTGTTCTTATATTTTAAAGTTCACCCTGATTATATTATTACTACAGGAGCTCATACAGCAGGAATGATGTGCATTTTTGGTAAACTTTTTGGTAGTAAAGTTATTTATATTGAAACTTTTGCTAATATAAATACTAAAACTGCCACTGGTAAGTGGGTATATAAACTGCATGCTTATGATTATTTTATTGTGCAATGGGAGAGTATGTTAGAACTTTATCCTAAGGCAATATATGGGGGGTGGATCTATTGATCTTTGTAACATTAGGGACCCAAGATAAGAGTTTCAAAAGATTATTAAGGCTAATTGATGAATTAAAACAAAAAAAGAAAATTAGAGATAGAATAGTGGTTCAGGCAGGATATACCAAGTATGAATCTGATAATATGGAAATACATGATTTTGTTTCCCAAGAAAAAATGAAAGAATATATTAAAGAAGCAGCAATTGTAATTACACATGGTGGAGTAGGATCTATTTTAGGTGCTTTAAAGCAGAATAAAAAAGTAATTGCAGCAGCACGGCTTAAACAATATAATGAACATACTAATGACCATCAATTACAAATAATAAGAGAGTTTAGAAACAGAGGTTATATTCTAGCCTTAGATAATTTTAGTGATATTGATGAAGTTTTAAAAAAAGCTAAAACCTTTAAACCAGAACCTTATAAATCGAATAATATAAAGTTTAATAATATGATTGAAAAAATTATTGCTGAAGATGATCATACACATTGGTTAAGACGAAAGAAAAAATAGGAGATACGTATGCTAGGAACATATACTATAATTATATTAATAATGGTAATGACATTTCTTTTAATTAAGTTGAAAACAAAGAAATTATTGGTGTTCCTAATTATTTTATGTATTTCTTTTTTGTTGGTTTTAAATAATAAAAAATTCAAAACTTTTTTAATAACATCTTCTATGTCAACTAAGCATCATCAATATATTGCTAAATTTTTTTATTCTAATGATGAAATAAATAGAGTACTCAATAAGAATAAAGTAGTGGATCAAGGAGAAATAACTGATCTTTCTTTGATTAGTTTAAATAAAAACAGCAAGCCTCTTAATAAATATGAAAATGAATTGTTGAAATATAGGACCAAAGAATTTAAGCTTTTTCATTTAAAAGGACATGGCTATAGAGGTTATTTAGTGGCAATCTACAAACCAGAGAAGGTAAGTATCGCTTATTCTTCTAAAATTGGTAAAGAGGGGGAATATATTACTAAAATAGCTAAAGACAATAAGGCTAAAGTGGTTATTAATGCTTCTGGCTATTACGATCCTAATTGGAGGGGTAATGGTGCTATTCCCCATGGTATATTAATTAAAGATGAGAAAATAATAAGTGAATATAAAGATAGTGGAATGAGTGGAGGAATTATTGGTTTGACTTCAAACCATAAACTATTTTTGGGAAATATTAAGAAAAACGAAATAGCTAAGTATAATATTAAAGAAGCCATATCGTTTGGACCATATCTAATTATTAATGGTAAAAAGAACAAAGTAATAGGTGATGGTGGTCTTGGTATTGCTCCTAGAACAGCTATTGGCCAGCGAAATGATGGAATATTTTTGTTTTTGGTGATAGATGGAAGATTAATTACTTCGATTGGTGCAGACTTAAATGAAGTTCAAAAAATATTATATAATTATGGAGCCTATAATGCAGTCAATTTAGATGGTGGCTCTTCATCAGAATTATTAATCAATAAAAAAATAATCAACAAACCAGTTGGTGGTGGTAAAAATGGACTTCGCAAAATGCCAGTATATTTTATGATGAAATAGGTATAGATTGGTTGATTCAATCTATATTTTTTGTTATACTTATATTTGTAAAATAAGAAGGTAGTAAGTATGGCAAAGAAGAAAAAAAGAAAGAAAAAACAAGTTGGTAAAAAGGAATACTTATTCAATGTTTTAAGTATTTTAATAGTCATTATTTTTGCCCTTGTTATCGGATATAGGTCAATATATTATTATAGTAAACAGACTAATAAAAAGGAAAAAGAAGCCTTTACTTTGAAAAGTGCGGTAGTGGAGACCAATCGTCTTACTAAAGGTGATAATGGTCTTCATAAGGACAAAGAAGGTTATTATTTTACAGGAATAGTCGATAATAATTATGTTAGTTTCTTTAATCGGCTTTTTAGGGTTGTCCGTATTTATGATGATAATTCAGTTAAATTAGTAAGTAATAGTAATGAAGCTGTTTTTGACTTTGGAGATAGTTCTAATTATGACAAATCTAATGTATATAAATGGTTAAATAAAACTACTGAAGAGCATTCAGGAATTTACTATAATACTTTTAGTGGAGTAGAACAACTTCTAAAAAAGACTAATTATTGTATTCCTAAATTTAAAGATGAAGATATTAAATGTACTGATAGTAAAAGTGATTACTTTTTACCACTTTCTTTAGAAGATTATATTTTAGCTGGTGGTAAAAAAGGATTTATGAATACAGAGGAAAACTCTTATTTATTAGGTATTAATGATAAGAATGATAATTTATATGTTGATGAAGAGGGTAATGTTGAAGATATCAGTTATTATAATCCTAGTGGTATTAAAGTGGAATTTACTCTTAATACTGATATAAAGGTTATTAATGGTACTGGTACTTTGAATGATCCTTATGTTATAGATCAGAAAAAGAATGATAATTATGTCAATAAGTATTTAAAACTAGATAGTGATTTATATAAGATTTATGAAAATGGTGATGTTTTAAGATTAATAAAAGCAGATTATATTAAAGTAAATAATGAATATTATGAGGGACCTTTTTCTAATCTCTATGGTACTTTTAATCCTTTTTATAGAAGAAATATAGCTTACTTTTTAAATACTACCTATTATAATAGTTTGTCTTATAAGGATTTATTGGAAGAATGTGAGTTTTATATTGGAGAAGTATCGGATACAACTTCAGTAGATTATAAGAATATTTATGGTGAAACAATAACTAATAAAGTTGGTCTTCCTAATATGTATGATTATAACAGCACTAAAAAATTAAATGATTATTTCTTAATTAATACTATTTCTAAAACATCTAAAGTAGTGCATGTTTTCGATTTTCGTGGTATAATTAATAATAGTAGTGTAGATGATAATAAAAAGATAGTGCCAACAGTATGTGTACGCAAGAGTATGATTAAAAAAGGAACAGGTACTATTAGTAATCCTTACAAAATGAGGTGATTAAAATTAAACGGAAATTACGACTTAAAATTAGACCTTTCACAATAATAACATTTTTGTTTGATTTAGCTTTTATTGCTATTTTGGTTATTATATATACACCAATAATTAATTTTAAGAATTTATGGGTTACAACAGCAATGACTACCATGAATCATCAGTATTTGGCTTATACTTTATATAGTGAGGAAGATGTTAATAAGATAATGGATTCTAACTATATTGAAGAAAGTAAAGAAGCTATGAATCTTGATGATATTATAATTGGTGATAATAAAGAAAAGAAACATTATAAAGATGAATATGAAAGGGCTATTTATACTAGAGATAAAGATAATGATGTTTATAAAATAATTAGAATAAATGAAAAGACTTATAAAGGATATTTGACGGTTGTTTATGATCCTAAAGATGTTACTTTGGCTGTTCCTAAGAAGTTAGGCAAAGCAGGTACTTCTGTTAATAATTTAGTCTTAGAAAATGATGGACTAGTTGGTATTAATGGTGGTGGTTTTGAAGACTTAGATGGTTGGGGTAATGGCTCTAAACCATATGGAGCTATTATCAAAGACGGTAAACTATTATGGGATTATAAAGAATCAGGAGGCTTGATTGGCTTTACTAAGACGCATAAGTTGTGGCTTACAAATATGGAACCAGATGAAGCTATTAAAAAGGGTATGAGTGAAGCAGTAGAGTTTGGACCTTACTTAATTATTAATGGTAAAAAAGCCAATATCCACGGTGATGGTGGTTGGGGTATTGCTCCAAGAACAGTTATTGCCCAAAGAAAAGATGGTATAGTTCTATTCTTAATTATTGAAGGTCGTCTACCAGGATATTCTATTGGTGCAGATTTGAATGAAGTTATTGAACTTTTATCTAAATATGGAGCCTATAATGCTGCTAACTTAGATGGAGGAGCATCATCAACAATGTCAGTTAATGGTAAACTATATAATAAACCTTCAGCTGGTGGTGAATATGGTGGTAGAACGGTATCTAATGCTTGGATAGTTACTAATAAGTCTCATAAAAAAGTACCTAAGAAAAAAGAAGTAAAAAGATAAAAGAAATTTTATCTTTTTTATTTGTTGTTTAGAAAAATAATAAATGGTATAATTTAAGATGAGGATGGTAATATGACAGGGTTACTAGAAAATATAAGTGAAATAATTGATCAAATAACTATCTTTATGCAAGATGGTGGTATTATTTGTGGGATTTTCTTGATTCTTTTAGAATCAATTATTCCTGTATTACCACTAGGTGTTTTCATTGCGATGAATATTAACGCCTATGGTTTTATACTGGGGTTTGTTATTTCTTGGTTAACTACTTGTTTTGGGTGTTTCCTATCATATACATTATTTAGATTTATTGGTACTAAATTATTAAAATTATTATCAAAAAAAGATCTTAAGAGAATAAAAAAAGGTACTAAGAGAATAAGAAACTTAGAGTTCAGTAACTTGGTTTTATTAATTGCTCTTCCTTTTACACCAGCCTTCTTAATAAATATTATTGCTGGTCTTTCAAATGTTCCTAGAAAGAAATTTATGGCTGCTATTTTATTAGGAAAGCTATTTATTGTTTATTTCTGGGGCTTTATAGGTAAGAGCTTTATTGAAAGTATGAGTGATGTAAGAATACTTATAAGTATTGTAGTAATATTAGTAATTGCGTATATCTTTTCCAAGATAGTCGCAAAGAAATTTGATTTAGAGTAGGTGATAAAATGGAATATGTCATAATTGGTATTTTAATTGTAATTTTGATTGTTAGTGTTATTTCTTTATTTAAAAATATTAATGAAGCTAAAATAACGGATCGATTATCTAATTTAGAGGTTAATACGGTAAAAGAATTAGGGGAGTTTAAAAACTCAATTACTAAAGATATGAATGATAGCTTTACAAAGTTAAATGAACAAGTAGAAAAGCGTCTTATTATGATTAACGAGAAGACTAATGAAAGACTTGATCAAAACTTTGAGAAGACCAATAAAACTTTTACTTCAGTGATTGAACGTTTATCTAAAATAGATGAAGCACAAAAGAAAATAGAAAGTCTATCAACTGATATTGTCTCTTTACAGAGTATTTTAACTGATAAAAAGTCAAGAGGTATCTACGGAGAAGTTAACTTAAAACATATTCTAGCTAGTGTTTTTGGTGATAAGAATGATGATATTTATAAAATACAATGTCCTCTTCCTAATGGTAGCATAGCTGATTGTGTATTATTTGCTCCAGAACCATTAGGTACAATTGCGATTGATTCTAAGTTCCCATTAGAGAACTACCAAATGATGGTTGATACTAATTTATCTAAAGCAGAAAGAGAAAAGTATTCTAAATTATTTAAAGCGGATGTTAAAAAACATATTGATGCGATTAGTTCTAAATATATAATTGATGGAGTAACAACTAATCAAGCTATTATGTTTTTACCAGCGGAAGCGATATTTGCGGAGATAAATGCTTATCATCCAGATGTTATTGAGTATTCTTATAAAAAAGGTGTCTTCATTACTTCCCCAACTACCTTATTTTCTACCTTAACAGTAATTGAGATGGTACTTAAGAATATTGAAAGAGATAAATATACATCACTTATTCATGATGAATTAAATAAACTAGGACTTGAGTTTGCCCGTTATAAAGAAAGATGGATTAAATTATCAAAATCAATTCAAACAGTTAATAAAGATGTGGAAAATGTCTCAATTACAACTGATAAGATAACAAAGAAATTCGAAAGTATTAATAAGGTTGATGTCAAAGCTTTAAAAGAAAAAGAGTAAATTATACTTTTATTTCTTTTTTTGGTATAATTTTAAGAGGTGATATAAGTGAACAAGAAGAAAGAATTAGCTAAAAATACATTTATAATTCTAGCAGGTAAAGTATCTACCCAGATGATTACCTTTTTCATGTTGCCTCTTTATACTAGTTATTTATTAACTGAAGAATATGGTCTTGTTGACTTAATAACAACTTATGTAACTTTAATTATTCCTATTATTACTTTAGATACGGAAATGGCAATGTTTAGATTCTTAATTGAACGACGAAAGGATAAGAAAGAAACTAAGAAACTACTAGCTAATAACTTCTCTTATCTTTTAATAGCATTAAGTATCTTTACTGTCTTTTACTTAATAGTAGTTCAATTCTTTACTATTCCATTTAAATACTTAATTTTACTTGATATTATTATTTGTGTTTTATCTAGCAATTTCTTACAGATTGCAAGAGGAATGGGTAGAAATACAGTTTATTCAATTGGATGTATTGTTACTGGGCTTTCAATAGTAGCTTTGAATATTCTCTTTATTGTTTTCTTGGGCTGGGGAGCATTTGGTATGCTTTTAGGAACAGCTTTGGGTAATTTTATCTGTGATATTTACTTGTTTATAACTCTAAAATTGTATAAAAACTTAACTTTTAAATATAATGATAAAGCTCTTATTAAGAGTATGTTAAAATACTCAATACCACTAGTACCTAGTACTTTAGGATGGTGGATAATTAATATTTCTGATAAGACAATTATATCAATCTTTTTAGGAGTAGCTTTTAATGGTATTTATGCTGTTGCAAATAAATTTGCGACAATTTTCTCATCACTTTTAAATATCTTTAATTTATCTTGGGGCGAGTCAGCATCTCTTCATATTAATGATTCTGATCGTAATAAATTCTTTTCAGATGTTTTCAATACAATCTTTAAGTTATTCGCATCTTTAGGATTAGGTATTATTGCTTGTATGCCATTTATCTTCCCAATTCTTATTAATAGTCGTTATAATGATGCCTATAACTATATTCCTATTTTAATATTAGGTATTTGTTTTAATGTATTACTTATCTTATATAATGGCGTTTATATAGCTAAAAAGCTTACTAAACAAGTAGCTAATACAACTATTATTGGAGCTATTGTCAATGTAGTAGTTAATTTAGTATTTGTTAAGTTTATTGGTCTTTATGCAGCTGCTATATCGACAGCGACATCGTGCTGTGTTATGACTTTATATCGTCATTTTGATAGTAAAAAGTATATTAAGATTCAATATGATAAAAAGAGTTTTATAAGTGCGTTTGTACTATTTATACTAGTAATGCTTACATATTATTATCGAAATATTTACTTACAGTTAATAAGCTTAATAATTGTCATAATCTATGCTTATTTAACTAATCGTAAATTACTAAAAAACTTTTCTAAATCATTCTTAAACAAGTTAATAAAAAGAAATGTCTAAGCATTTCTTTTTTTATTTATAGTAAGTTACGTTCTTATCCTTTTCAACTTTCCTAATCAATTTAGATAAAATATTGACCGCAATTTGTTCAGTTTTACGATTGACATCTCGAAGAGAATTGAATTCTACCAAGTCAAACCCTTCAATATTATCAATATGTTTTAGCAATTCATCAAAGATTTCCATTCCTTGTTCTACGGTTAGACCATCAATACTTGGCACAGATACACCAGGAGCAATATCGGGATCAAAGATATCCATATTGAATATAACATGAACACATTTAGTTTTAGTTAAAGCCATTTCAAAGGCTTCATTAATAGATTGTTCAATTCCTTTTTCTAATAGTTCTTTTTGTTCGATTATATTGACGTTGGAATATTTAATATTATCTTTTTCCCATTGATCAATACTGCGTACTCCCACAAGAACACTTTTACTAGCCTGGATAATATCACCATCATAAAAGTCTCTTAATTCTTCACATTTATAACCATTGATTGCTGCATTAGAGAGTCCGTTGATATTACCGGATACAGTTGATTCAAAAGTATTATATGAGGGATGAGCACTTATTACTATCATTCCAATTTTTTCGTTCTTTTTAGAAGTGGCCAAAGCGGAAGGAATAGAAATACTAGAGTCACCACCAATAGAAATAGTAAAGAATTTGTCTTTTTTAGCCAAAACTTCTTTATATATTTCAGCATTTATTTTATCAACATCATATTTGTTTTTTTTACGATCAGATAAATTTCGACTCTTGATAATATTCTCGTTTTGTTTAACTACACTAACTTCTCCTTCAAAAAAACCTTTGACATCATTAATTAATTGAAGGGAACCTAAATAGGCACCATCAATATGAACTCCTAAGTCACTGGCACAACCAATTATTGCTACTTCCATATTTTATCACCATTATAATTCTATCAAACAAGCAGGTTTTTTTCAATGGATACAACAACTCCTTTACACAATAAGTATAAAAGCTTTACTATTTCATAAAATTAAAAGGGGAGTTAATATGTTTAATATAATTAAAATAGTAAAAGATCTTATCTTTTTAACGGGATCATACTCGAATGAAGTATTTAAAGATCCATTATCTAAAGAAGAAGAACAGGAATGTTTAAGACGATTACAGTTGGGGGATAAAGAGGCCAGAAATAAGTTAATTGAACATAATTTAAGATTGGTGGCCCATATTGCTAAAAAGTTTGATACAGAGTTTATTAGTCTTGATGATTTAATTAGTATTGGCACTATTGGATTAATTAAAGGAATTGATACTTATTCAAGTGCTAAAGGTACTAAAATAACTACTTATGCTGCTAGATGTATTGAAAACGAAATATTAATGTATTTTCGAAGTAATGCTAAAACCTTTAAAAATATATCTCTTAATGAAGGATTAGGCTATGATAAGGAAGGAAATGAAATAAATATATTAGATCTCTTAAAGGCTCCTGCGCCAGATTATGTTGAAGAAATAAGTCTAAAAGATAATATAAAATTACTTTCTAAATATATGAAGGTTTTAAATGAAAGAGAAAAAGAGATAATTATTAAGAGGTACGGTCTTTTTAATAATGAGGAGTTAACGCAAAAAGAATTGGCTAAAGAATTACATATTTCTAGAAGTTATGTTTCAAGAATTGAGAAAAGAGCATTAACTAAGATGTTAAGAGAATTTATTACTAACAAAGATATAGATTAATAACTAAATATTTAGTATAATAGTACTAGGTGGTAGGTTATGAAAATGATCATTACGGATAATGAAACCAAACTTAATATGTTAAAAGATGAAAGCGATTTTCATGATTATAAGTTCATATCTAAAAATGAGTTTTTTCGTAATCTTTTTTTTGATTATGATTATAAAACAGTTACATATTTGATGGAAAAGGAAAATAAAAAAGTGGATGCTGTTCTTAATATACTAAATAGTTTATATGTAATTGATGGAAACAAGAAATATAAGAACAAAAAATTAATTCATTTACAGGGAATAAAGAAAGATTTAACTGATAATAATCTTTTAATATTTAATGATAATTTTAAGAATTATTTACAGCGTTTTTCTTCTTTAGATGTAAGAAATGTATTTTTAGAAAAGCATGAGACAGATGCTTTAAATGAACTTGATTTAGAAGTAAACTATATCGAAGAAAAACCATTAGGTAAAACTATACCAATTTGTCAATATGAAACTTTTGAAGAGGAAATATTTGGTGTTTTAACTAGAATTAGAGAATTATTAGATGAAGGGGTAGATATTAATAAGATAGTTTTAACTAATGTTACCAAAGATAATTTCTTTTTGTTAGAAAGGTGTTTTGATCTGTTTAATATACCTGTTTCCTTACCTAAGAAGATAAGTATTGTTAAAACAAGACAAGTAAGGAAGTTTTTAAAAACGGGTGATTTGTCAGTAATTGAGGATAAAGCTATTCTAAATAAAGTGACAGCAGTTTTAAACAACTTAGTTGAGATAAAAAATGATAAGTATTATCAAGAAGTCTTAGAGTATAATTTAAAACATATGTATTTAGATAATATTACTTTGAAAAACAGTGTCAGAATTAAAGGATTAAATACTATATTTTTAGAAGATGAATATGTATTCCTTCTTTCTTTTAATAGTGATGTTATTCCTAAATATGTAAAAGATGATTCTTATATAACAGATGATCTTAAAGATGAAGTAGATATTTATAAAACTTATAAGAAAAATAAAATAATTAAGGAAACAACCCTTTCTTTATTAAAGTCAATAAATAATTTATATTTGTCTTATCATTTATATGATGATAAAGAAATGGCTATTTCTAATTTAGCTAAAGAATTATCTTTAGAAGAGGTAGAAGGAGAAGTTAATTATAATATTAGTGATAAGTATAATAGATTAAAATTATCAGAATATTTGTATGATTATAATAATTATAATGTTCAAAATGAAGACTTAGAGTTACTTTGTAGTAATTATGAAAGTATTTATAATAGTTATGATAATTCTTTTACCGGAATTGATAAATCTGATTATTTGGATTATGTAAAAAAACCTTTGACACTTTCATTTTCTTCATTAGACAACTATAATCAATGTGGTTTTAAATACTATATAAGAAACGTTTTGAAAATGGATAAATATGATGAGGTTTTCAGTATTTTTATTGGTAATCTATTTCATTACATTTTATCTCTAAAAGATGAAGATAATTTTAATTTTGAAAGGGAATGGAATAAGTATTTAGAAAAGAAGGAATTGACTAATAAAGAATCAGTATTACTTTCTTTTGTTAAAGATGATTTTAAAATGATTTTAGAAAAAATGAATGAAATGATGGAAAGTTCTTTGTTTAAGAAATCTTATAGTGAAGTACCAATAGAAGAAAAATTAGACAAGGAAATAGAAGTGATTTTTAAAGGTATAATCGATAAGATAATTACTTTTCAAAATGTTAATGATACCTATTATGCAGTGATTGATTATAAAACTTATGATAAAAAGTTTGATCTAAATAATGTTTTATATGGATTAGATATGCAGTTAGTTATTTATACTTATTTAATAGGTAAATCTAATCTTTTAAAGAATCCTATTTTTGCTGGTATGTATTTTGAAAAAGTAATTAACTCTAAAAGGGAGGAAGAACCAGATATTAGGCTTACTGGTTTTTCAACAGATAATTTAGCTGTTTTAGAAAAACTAGATTCTAATTATATAAATAGTAAGATTATTAAAGGCCTTGGTTTTACTAAAGAAGGAAACTTTAAAGCGAGTTCAAAACTACTTAGTGAAGCAGAACAATTTAATTTAACAAAGTTAGTCAAAGAAAAAATTGAAAATTCAGTTGATGATATTTTGGATGCTAAATTTGATATTAATCCTAAGAAAATAGATAAAGAAAATATCTCGTGTAAATATTGTGAATATCGTGATTTATGCTTCATCAAAGAAAAAGATATTATAGAATTGGAAAAACCAGATATTAAAGAATACTTAGGAGGTGATCTAAATGCCTAAGTTTACAGTTGATCAACAAAAAGCAATTGATTTAGAAGGAAAGAACATTATTGTCAGTGCTTCAGCTGGCTCTGGTAAAACAGCTGTTTTAACCGAAAGAGTATTCCGTAAAATAAAAAGTGGGATTAGTGTTGATAATCTACTTGTTTTAACTTTTACCAATAAAGCAGCAGCAGAGATGAAAGATAGAATAAGAAAGAAATTAGAAAAAGAAAAACTGGTAGAAGAAACAGAAAAAATAGAAAGTGCCTCTATAACTACTTTTGATGCTTATGCCTTAGAATTGGTTAAGAGATATAGTGATATTTTAAATGTTTCTAAGGATATAGAGATAACTGATATTAATATAGTTAATTTATATAATAAGAAAATCCTCGAGGAAATACTAGACGAATATTATGAAAAAAAAGAAAAGAACTTTTTAGATTTAATAAAGAAGTTTTGTTTAAAAGACGATGATAATTTAAAAGAATTAATTTTAGATATCTTTAATAAATTGGATTTGTTATATGATAAGAATGCGTATTTAAATAAATATTTAGATGTTTTTTATGATGATAATTTTTATAGCTATGTTAAAGAAGAATTAGAAAACATTTTATTAAAGAAAATAAGTTATATTAGAATTTTATTAAATAGACTACAGGATAATGAAGTAAATTTTTATGATTCTTTTGAGAGGCTTTTAGCTAGTAATAATTATGAAGAAATTAAAAGAAATATAGATTTCTCTATACCTAAATCTCCTAATAATAGTAGCGAGGAAGTAAAAAGTTTCCGGAAGGAATTAAAACTAATATGCGATGAAATTAAAGAAGTAGTAAATGAAGATTTTGAGAGTACCTTTGTCTTAGAAAAAGATTTAATAAGTGTATTAATAGATATTTTAAAGGAATTATCTTTGAGGACGAAGATTTTTAAGGACGAGAACAATATCTATACCTTTGCTGATATTTATAAGTTATCTATAAAACTAGTTAATGATTATGAAGATATTAGAGATGAATTAAAATATAAATATAACGAAATACTAATAGATGAGTATCAAGATACTAGTGATCTTCAAGAATTGTTCATTTCTAAAATAGAAAATAATAATATCTATGTAGTAGGTGATGTTAAACAATCTATTTATAAGTTTAGAAATGCCAACTATCATATTTTCAAAGAAAAGTATGATAGTTATAAGAGTGCTGATAATTCTGAAGTAATAGATTTGAACAAAAACTTTAGAAGTAGGGCAGAAGTATTAAAAAGTATTAATGATTTATTTAAGTATTTAATGCGTAAAGATATTTCTTTTTTAGATTATAATGATCACTATATGGATTTTGGGTTTTCTAATTATAACGAATTAAAAAATGAAAATAGTAATTATGATTTAGAAATATATACTTATGATGAAGAAAGAGCTTCTAAAGAAGAACAAGAGATTTTTATAATAGCTAATGATATAAAAGAAAAGATGGATAGAGAAATACTAATTTTTGATAAAGAGATAGGTACTTTAAGAAAGGTTAAGTACAGTGATTTTACTATCTTAATTGATCGAGCAACTTCTTTTGACACTTATAAAAAAGTGTTTGAGTATTTGGGAATACCACTTTCTTTAGAAAAGGATTATGATTTATCACTAGAAGATGATATTTATATCTTTAAGAATATTATTAAACTGTTAATTATGATTAAAGAAAATAACTTTGATGAAGAATTCAAGAAGGCTTATTTATCTGTTGGTAGAAGTTTCCTTTTCAGATATAGTGATCAACAATTATTTGTTGATCTTACCAGCAATAAATATATTGAAAGTGAGCTTTATAGAAAATGTTTAAACTTGGCTAAAGATTTAGATAGTATATCAGCTGCTGAAATGTTTATGCAGATTATAAAAGAATTTAACTATGAGGAAAGATTAAACTATATTACAAATATTAAACTGTTTAGAAAAAGAGAGAAGAGCATTTATGAGTTGATTGAAGGTTTAGAGGAAGCTGGTAATACTATTTATGAAATACCAGACTTGTTAGAGGAACTTCTTGATGACAATAATATTAAGATAGCTCTAGAAAAAGAAAATATTGATGCGGTTAGGATTATGACTATTCACAAATCTAAGGGATTAGAATTCCCAATTTGTTATTTTGCTGGTTTCTATAAAAAGTTTAATATGAGAGATCTTAGTAAAAAAATATTATTTAATAAAGAACTAGGAATTGTTTTTTCTGACAATGCTATTTTAAAGTATATTCTAAAAGAAAAAGAAACTGAAGCTGAAATAGATGAACAGATAAGGCTTTTATATGTAGCTCTTACTAGAGCTAGAGAAAAGATGATTATAGTTATGCCTAAAATAGAGGATTATAATGATGAATTGACTGGTTTTGAAAAAAGTCATTATAATTCATTCTTGAGTATTATTAAAAGCATTTATAAATATTTAGATAAATATATAATTCCAAAGAAAGTAGAACTAGATACTAATTATAAATATCCAAAAGAATTAATGACTAATCTCGAAGGTAAAGGTAAATTAAATGTTCAAAATTTTGATATTAGAAATGAACAAATAGAGAAAAAGAAGTATTCTAAAGAAAGTACTTTACTTGATGAAGAAGTTGTTAAAAATATGGATTTTGGTACTAAAGTGCATCAAATATTAGAATACATTGATTTTAATAATCCAAGGATAGAGAATATGGATATACCAGGGGATATTAGGAGTAAAGTTGAGAAGTTTATTAATAGTGATTTAATTAAAGTAAATAAGAATAGTAAATTTTATCAAGAATATGAGTTTGTAGACAATGATAGTTTAGGAATAATTGACTTAATGATTGAGAATGATAAAGAATTAATTATAGTTGATTATAAACTTAAAAACATTGAAGATGAAGCCTATAAAAAACAGCTTAAAGGTTATAAAGATGTCATTTCTAAAAAGACGAATAAAGAAATTAAAACATATCTTTATTCAATTTATGAAGAAAGATTGAAGGAAATATTATAGTACTATTTTGGGGGTGATATAATGCGTAAATTTATTGTCAGTGATCTTCATGGGAACGGTGAAGTATATAATTCAATTATGCATTATTTAGATAATATTAATTTGGTTGAAGATGTTTCTTTATATATAAATGGTGATTTAATTGATAGAGGGATCAATTCTTTTGAGATGCTTGCTGATACTAAAAGAAGGATTCAAGAAAAGGATAGTTTCCCCATTAATTATTTGGCAGGCAATCATGAACTTATGATGTATGAAGCTTTAAAAAAAGGATCTTTTTCCTTAGTAGATCTTTGGATGTTTAATGGTGGTTTGATTACTTCTGGTGGTCTTGATTTTGTATCTTCAGAAGAGTTCGATAGTATTATTGATTTTGTTGGTGATTTAAAGATATATCAGCCTTTTGAAGAGACGGTAGCTGATAAGCCAATTATGCTTGTTCATGCTGCTTCTTCAGGTTATTCTCCTGATATAATGAATTTAAGATTAAAAGATAAAGATATGAGCTATATGGTAGAGTATGCAGTTTGGACAAGAGAAAAAGATGAATTTGGATTAACTCATATAATTGGTAATGATGATTATTTTTCTGTTATTGGACATACTCCAACTTTCAATAAAGAAGGATTCATTTATAACAAGGATGATAAGTATTTAAACATTGATGGTAATTGTTCATCTTATGCTTTAGGTAGCTTTATATATGATAGAGTACCCTTATTAGAAATAAAAGAAAAAGGGGTAGAAATATTACAATTTAACCATAACAATGAAATCGTTGGCGGTTATTTTTTAGATAAAGAGTTGGAACCATTAACGGACAATGATCTTTCTAAACGAAGAGTATATCTTGACCATTCACTAGATAATTGCGAGGAAAAGCAAAAACAATTAATTAAGGAATACAGAGCATAAAAAAAGATTCTATATTTATAGAATCTTTTTATTTACCTAATGTTAGAGTAACAGCATTGTTAGAAGCAACTTTTCTTCCATAACCATAGTTTTGAGCAGTTACAGTATTACCATTACCAACAAATTTTACAATCATACCATGAGCTTTAGCCCATTTACTAGCTTGATATTTGGTATCACCAATGAAGTTGGGTACTTGAATGTATTTAATTTTGGCTGCATTATATGGTCCGTAACCAACGACTTTTTTCTCATATGGCTTATTGATAGAGAAAGAGAACTTTTTAATTGGTTTATATTTCTTTAAATCTAGATTTACTTTCATTGCTTTTTCAATATCAGCTCTAGATTGTTCAACTGGAACATAATTCCATAAATTCATACGCATTCTCTTATCAAATATGGTAGCACCATTTCCTTGTAAATACATTTGATCAATATCAACAATATCAGAATTCTTAGTAGCTAGAGAACTCTTATTAATATCACGAGCCACATTATAGAAAGAAATTATTTGTTTGTTATTTAAATTGGTATCCATATTCTCAGATACAGCATCTAACACTTCTTTAAATTGGCTCATATTATTAATACTTTTTATTTTGTCCATTAATGCTTTAATGACTAGTTGTTGGTTTTGACCACGATCTAAGTCACCAGCAGCTAATTGTTTACGGTTACGAGCTAATACTAGAGCTTCTTCACCGTTAAGGTGTTGTCTACCACCTTGAATACATACTTGTCCTTTACGATCGGAACTATCAGTACAAAGGTCTTTTGGAACATCAACGTCAATACCATCAACAGCATTAACTAATTTTACTAAACCTTTGAAATTGATCTTAACATAATAATCAATTGGAATATCAAAGTAATCTTCAATAGTATTCATCATACAATCATTACCATAAGCAGCAGCATGAGTTATTTTGTTTTCTGCTTTATCATTCCAACAAGCAATTGGTACATAAGAATCTCTAGGTATTGATAACATAGTAGCATTTAATCGTTTAGGATTGAAAGTAATTAGGATTAACGAATCACCATTAGCAATAGCGTTTTCACCTAAGGTTTCATCAGTAGAATCTACTCCCATCAAGAGAATAGTAAATGGTTTATCAATACTCTTACCACTAGCAGCTTTTTCTTTTTTAGAAATATCTGATTTTTTAATCCGTTCAGATTTATGAGCAATGATTTTAGTATCATCTTTAATATTTTGGAAAGCTTCAACTGATGAATAAGTACTGACGTAATTATCACCTACAAAGATAGCATCCAAATCTTTAGAATATAGATCAGCAATCATTGAAGAATAATCATTGTATTTTTTGATTTTGTTATTAGCATCCAGGTTATATTCTCTAATCATTTTTTGAGGAATAATATATCCTTCTGGAGAATACTTATCATCTAAAATGGCGATTGTTCCCTCATCTAAATCATCAGGAGTTTTAATTTTATCGTTTGATAGTGTAACTAAGTAAGATGTATAAGTAGACACATCTTTAGATAGAGTACCAAGATATCCATAAACGTAGGATATAGCTCCGCCAATTAAAATATTAAGTATGATAAATAAGATTAGGGAAAATACTAAACCCTTATTCTTCTTTTTCTTTTTCCTTTTCTTTTTAAAACGGTAACGTACTTTAAATAAAAATACTAAATCTAAGAAAGCAATGACTCCAGCTATTGTATATAGATATATCCGGATATCATTCATATCTCTAATTAAATAGAGGTTATATATAGTGAAAGCACTAAAAGCCAAAGCTACAATATAAAGAAACAAGATAACGAAACGGCCATGTACTTTATTATCATTCATTTAATCATCTCCCAAGCACTATTATTATACATTATATCGGATAATAAATACTAATACAATAGACAAAAAAGTGTCAACTTTACAAATTATTTGCGTTATATTTTACTTTTTACTTTACATAGATGTTATAATAAAGTTGATAAAATAGGAGGATGGTAAAGTGAAAAAGTATATTAGTTTGACTATTTTCAGTTTGTTTATCTTTTTAGGCTTTATACCTAATAGTTTTGCTTTGACATCTTCTGAGTATAAGAATAGAAAACAATGTAGTAATTTTGAATTAGCTAAAGCTGGAAGTAATGGAGCCGCTACTAAGGTTAATTGTTATAGTAGTTATAGTGCGGCTAAAAGTGCTATGAATGCTAGTAGTGAGAAAAACTTGTTTATTTTTGAAGTTGGCAGTACTACTAAAATAGTAGATGCTAAATATGCCATAGTTGATTTGTCAGCTACTGGTCCTGATTTAACATACTTTTATACAAGTAAGGATTTAAAGACAGCTTATACTTATATGGATACAGGTTCACTATATGGTGGTGTGGATGGAGCATTACTAGATGTTAATTATGGTAAATCAATTAAAGTAAAAATAGCTGGACTTATATCTTGGATACCAAATAATACTTTTGAATTAGTACCACTTCCGTGGGTAAAGAGTAGTGCTAGTTATACTATAGGGGATACTATTAAGCATAATTATGTCAATAAACCTAGTGAGACTTATTCTGGTAGTAGAGGTAGTGTAATTGGTCCTAAACCAGATAATGTTGCTAAAGGTACTTATTATTCATATGATGGACATTATTTTTACAATGATCGTTATAAAATGATTGATGATTATAAAGCTGGTACTTATAGTAAAGCTGTTAATAGTAGTCCATACTATAATTATTATATGTATTTATCTAATCACTCAAAAACTAGTTATTCAGCAATTAATATCGATGAATATATAAGAAATAATATGGGGGTATCTAAAGCTTTATATGGAGATAAATCAGTAGATAATTCATCAAGACTTTATGGACAAGGAACTTTCTTCTATAATACTCAAGAGATTCATGGTAATAATGCTTTACTGGCTTTTTCACATAGTCGTAACGAATCAGCTCATGGTCGCAGTTCGATTGCGATTAAGAAGAATAATGGTTTTGGTCTTAATGCCGTTGATTCTAATCCAAGTGAAGCTTCTAATTGGTATCCAACTTTTGCTTCATCAATTTATGAATTTGGTCGCGTTTGGATTACTGATGGTTATGCCGACCCATCTGATTGGCGTTATTTTGGACCGGCTTTTGGGGATAAATTAATTGGTATGAATGTTAAGTATGCTTCTGATCCATATTGGAGTGAGAAGATGGCCTCACTATATTATGATTTTGATAAAGCCTATGGTTTACAAGACTATAACTATTATCAGTTGGGAGTAGTTACTAAAGCTACTAATGCATATTTAAATTCTAATGGTACAAGTGTTGCTTATAAATATCCCGAGGCAGAAGACGGAGTATTAATCTTAGGAGAAGTTGGCAATTATTATAAAGTTCAAAGCGATAAAATAATTAATGGTACCACTATAACAACAACAGGTAAATATAACTGGAATAGTGCGGTTTATGTGCCAAAGAGTGATATTAAAAAGATTAATACACCTAAAAATGGTTATAAAGCACCAAGTGCCGTAACTGCTTATAAAGATAAAGATTATACTTATGATTTATATGTAGTTAGTGCTACTTTAAAACCAAAGGTAGTTGTAACTACTAAGGATTTAAAGTATTATTATGATTCAACTCTACAAAAACCAACTGGTAAAACAGTTTTAAAAGATAAATGGTTAATGGCCTATGCTGAAGCCTTTGATAAAAATGGTAATACTGTAGCTTATCTAGTTACTAGTGACTATAAATTTGATCAAAAGCACTGGATACCAGCAGGCGGAATAAAGTTTAAAACAACGGGTTATGGTAAAGTAACAGTTAATGTATCAGGTGCTTATACTTGGGTTAATTCAACGCCACATGAGAGTTCATCTACTATTATTGGTGGTCAATACAATTATTCTTATGTACCATTACTTACTTCAACAACATCAGATGGTAAGACTTGGTATAAAGTACCAGTTAGTTTAACCAGCAATACTAATTCTTATGGTTGGACAATTGCTCATGATAGCGAAGTAAATATTGCTCTTACTATGTATAATGCAGATAATGATAATAAACGTTTAAATATTAATAATGCACCAGTTATAACTACTAGTAACACGACAGTTTATCTTAATTCTACTTTTGATAAGATGAGTGGAGTAACCGCTACAGATAAAGAAGATGGAGATATTACTAATAAAGTAACAGTAACTGGTAATGTTGATACTACTAAGGAAGGAGCATATACACTTACTTATAGTGTTACTGATTCACAAGGAAGTAGTGCTACTGCTAGTAGAAAAGTAACAGTTATTAAGAATGAAGCACCAGTTATAAATGTTAGTGATAAGGTCGTTAAACAAGGAACTTCTTTTGATAAGATGAATGGAGTAACTGCTACAGATAAAGAAGATGGTAATATTACTAATAAGATAACGGTTACTGGTGAAGTAAATACTGATGAACTAGGAAATTATACACTTACTTACCGGGTTGAAGATTCTTATCATAATGTTACTACTAAAGAAATAACTGTCGAGGTATTAACTGAAGAAGAATATATAGAAAGACATCCTAGAGTAGAAAAAGAAGGTATTTATTACTTAGATGCATTAAAAGAAAAGAATAATAAGGTATATATTAAAGGTTATCATGCGATTAAGGGTATTAATAACACTAAAGATGAAAACTTTACTTATAAATTAGTTTTTGTAAATCAAAATACAAGTGAAGAAATAACTAAAGATCTAAATAGAATTATGAATACTAGTGAAATGACTAGACCGGTATATCATACAGATAACTTTGATTATACATATTCTTGGTTTGATGGTTCTATTGATATATCAAATATGCCAGAGGGTGACTATAATGTTTATATTGTTACTGAAAACGATGATTATTATGCCAGAACTGTTGTCAGTGATAAAGTATTAAAATCAAAAATAACTAACTTTGTTGACGGTAATAAGTATTTAACCACTAGAAACAATTATCTTCATGATAATGTGGCTTTAGAGTTTGTTATTAGAAATGAAAAAATAGCTAATAAGAATTCTAATATCTATAATGCTTATAACCAATATCGGGAATTATCCTTTAAGAATGATTTGTTATATATTAAAGGAACGGCTTATTCATATGGCATGAACTTAGCTTTAACCGCTAATCTTAATCGAAAAATAGTATTTGAAAATATTAATAACTTTAATAAATATACTTATGATTTAGCATCTACTAACAATGGACTTTATCAAGTAGGAACGACTTTAGGTGATAACTTCTCTAAAGATAAAGCTTGGTTTGATAAAAGTATAGATATTACTAATATTCCAAAAGGTAAATACGCTATTTATATAGTAAATAAAGCTAATATTGAAGACTATGGTGAACTTACTGAAGTATTGCTAAGAAGTTTAAATGATATAGTCTTAAATAAAGACGGTAAGAAGTATTCATTTAAAGTTAATAATAAGCTTAGATATAGAATAGAATTGTATGTTGAATAAAGAGACTAGAAGTAGTCTCTTTATTGCGTAAATATTTGTAAAGCGGATATAAAGTTTATTGAATTGATGCTAAAGATATTGATATAATGATTATAAGTAATAATAGGAGAATGTTTATGAAAAAAATAATGAATTTAAAAAACATAGGATTAATACTAACAATAGTATTAGTATCAATCCTAACTTTAAATACAAAGAATGTAAAAGCTACAGGAACAGTAACTTGGAGTGGACCAAGTTCAATTACTATTAGAGAGACTATTAGTAATATGACAAATCCTATAGTGGCTAGTAGGGCGTATGGGCTTTTTGTTCAAGGAAATGATATAACGCCAGTTACAACAGCAACAATCAATTTTACAGCCAGTGATACTCCAACAAACTATCAAATAACGAAATCTACAACAATGAACTTGACAAGTTTAGCATTCTCAAAACCAGGAGATTATGAATATTCTATCTATCCCGACTGGTTATTAGATAATGCAGGGCATTTCTTGGATAATTACTCTACTGGTAGTCATCACTATAATGTTACCTACAGATATAAGGTGATTGTCTCAGTACGAAATGTTGTTGATGCTAACAATACACCGACAGGGGACTTTACGGCAACAACAATACTAGAATCATGCGAGTATAATGAGCAAACGAACAACTATGAAAATTGTACGAAAATATCCCCAGTCAGCGGAGTTCTATATGCTGACTATGATTATGAAACTAATCCTGAAAGCTTTGCTCATATAGAAATATCAAAAACTGTTAAAGGTATTGGAGCTGATACTACTAAATACTTCCCCATAACACTTACTATATATAATGAAGGAGCAATCTTCGATGATTGGGAGTATCCGATAACAGGAATAGATAGTACTATAACTTATAATGGTCAATCAGTAACCCAACCTACAACAATTGGTAATGGAACTCCAGTTATAATATATATAAAGCATGGACAAACTGCGATTATAGGTCAGGCTACAAGTGGTGGCAGTAGTTTTGACCTTATACCAACCAAAGCAACTGTTGGTTATAGCGGAGGTGGTGGTGGTTCATATGCCAATTCACAACTAAAAGAATATCGGGTGCAAAAACTCGCTGGAGAGCAAATATTTTATGGTAGCTTTTTTACCGTAGCAGAAGATCCTAAGGATTATTCTCCTTCGATATCACCTGATAATGAGAACTTTTTTAACGTTTCTTCTGTTTCAGATATAGCTGGTATTCCTTCAATAGAAATTGGTGGAGAACAAAAAAAAGTCTTACCTATTATGGAGGGAGGGACTTATCCAATTTATTTTATTAACACCAAAGAAATGTCACCAGTGACAGGACTAATCTTTACAATACTTCCTTATGTGATATTAGTAGGTATTGGAGTAGGTGGAGTATTACTATTTAGATATTCAAAAACTAAGAAATCAAAAAGTTAAGGCTTTTTGATTTTTTTGTTTTAAAAACTTTTTAGCACTTTAACTTGACAAGTGCTAAAAAGAGTGCTATAACATAGATGAAAGGAAGGATGAATATGGATTTAATGCCAAGAAAATTCTATTTAGATGACATGTTTGATGACTTTTTATCTACTAAAAGTACAGGAATGAAATGTGATATCTATGAAAAGGATGGATGCTATCATGTAGAGATGGATACACCAGGATTTAGTAAAGATGATTTAAGTATTTCAATGGATAATGGTTATTTAACTATTACTGCTGAAAAATCTCATGAAGATAATGATGATAGTAAAAACTATATTCGCCGCGAAAGAAGCTACGGTAAATATGAAAGAAGCTTTTATCTTGGAGAAGTAGATGAAGAAAATATTGATGCTACTTTTAAAGATGGAGTATTAAAACTTTCAATTCCTAAAGCAGATGAAAACAAATCAAAAAGAGTTATCGAAATTAAGGACTAATAAGTCCTTTTTCTTTTGTAATTTTATTCTATTTATTATATAATGATTATGAGAGGATGATAGTATGAAAAAGATAATGGATGGTAATGAAGCTTGTGCTTATTCTGCTTATAATTTTACAGAAGTAGCAGGAATATATCCAATTACTCCAGCTAGTCCCATGTCAGAAGTTACTGATAAATGGGCTGGTGAAGATAAGAAAAACTTCTTTGGTATGCCAGTTAAAATAGTAGAGATGCAGAGTGAAGCAGGAGCTATTGGAATGGTACATGGTAGCTTACTTGCGGGTTGTTTATCTTCTACTTATACATCTAGTCAAGGACTTCTTTTAATGATACCAAATATGTATAAGATAGCAGGTGAGGGACTTCCTTGTGTTATCAATGTAGCGGCTCGTTCACTGTCTACTCATGCTTTATCAATTTTTGGTGATCATCAAGATATATATGCGGTTAGATCAACTGGTTTTGCGATGATGGCAATGTCTTCACCACAACAGTGTATGGATCTTACTAATGTATCTTATTTATCAGCTATTAAAGGACGAGTTCCTTTTGTAAACTTTTTTGATGGTTTTAGAACTAGTCATGAACTATCTAAAATAGATGTTATTGATAGTAACGAGGTAAAATCTCTTATTGATCAGAAGGCACTTAAAGAATTCCGTGATGAGGCAATGAATCCTGATAAACCTTACACTAGAGGTACAGCTCAAAATGAAGATATTTATTTTCAAATTACTGAAGCTCGTAATAAATACTATGATAAATTACCAGACATAGTAGCTGATTACATGAAAGAGATTAATTTAATTGCGGGTACTAAATATGCTCCATTTAATTATTATGGTTCACCTCGAGCTACTAAATTAATTGTGGCGATGGGTTCTGTTTGTGAAACAATTAAAGAAGTGGTTAAACACCTTAATAAAAAGAAAAATGAATATGGTTTAGTAGAAGTTCATCTTTATAGACCATTTTCTACTAAATATTTCTTAAAAGCTATTCCGAAGACAGTTAAGAAAATTGCTGTTTTGGATCGGACTAAAGAAGCAGGAAGTAGTGGAGAGCCATTATATTTAGATGTGGTTAAGACAATTAAAGATATTGAAAGTAAAGTATTGGTTGTTGGGGGTCGTTATGGCCTTTCATCTAAGAATACAACACCAGCTATGATTAAAGGTGTATTTGACTTTTTGGATAGCAAAGATGTTCATAGTAACTTTACAGTAGGAATTGAAGATGATGTGACTAATTTAAGTATTAAATATGATCCTAGTTTTGTTTTGCCAAATAATCATACTGATTTCTTGATTTATGGTTATGGCAGTGATGGAATGGTTAGTGCTTCTAAAGATATTTTGAAAATTACTGGTAATCATTCTAATGCTTATGTACAGGGATATTTTAGATATGATTCTAAAAAATCTGGGGGTATTACTATTTCTAATTTACGGTTTGCTAAAGATAGAATAACTTCGCCTTATTATATTGAAGAAGCGAAGATGGTTGTCTGTACAAAGGACGCTTATTTAGGAAAACTTTCAATGTTAGAGAATATTAAAAAGGATGGTATTTTCTTACTTAATACTGATGAAGATGAGATAACTGTTCTAGATAAGATGAGTGTTAAAGATAAGAAAATATTACAAGATAAAAATATTAAATTCTATATAGTTAATGCTTCTAAAATAGCTTTTGATAATGGTCTTCGTGGTAAGATAAGTGCCATTATGGAAGTTTTAATCTTTAAACTAGGAAAAGTCATTGATTTTGATTTTGCTTGTAAAAAGATTAAAGATAGTATAAATGTCCGTTTTTCTCATAAGGGGAATGATATTGCGAAAAAAAATATCGAGGCTATTGATGAAGCAGTTAATGCTTTAAAAAGGGTTAAAGTTCCTAATGTAACTTTTGATGAAATTGTTGAAGAAAAGAAAGACATGTTTGATTTAATAGGTGCTATGGAAGGAGATGTTCTTCCGGTTAGTAGTTTTATTACTAATGCTCATGGTGCTCATGATGCAGCAACCTCTAGATTTGATAAAAGAAAGATTTCCAATATAGTACCAAAGTATTGTAGTGAAAACTGTTCTACTTGTGGTTTGTGTTCACTAGTTTGTCCGCATGCAGTTATTAGGCCTTATCTTTTAGACGAGAAGGAAGTAGAGGAAGCACCAGAAAGTTTAAAAGGAAAGCTTATTGATGCTAATATCAAAGATGCTAATTTGAAGTTTACTATTGGTATCAGTATTGATGATTGTACTGGTTGTGGACTTTGTGCTGGTATTTGTCCGGGTCTTAAAGATAAAAAGGCTTTAAAGATGACAGATAAAAACAAATTAAAAGAAGAAGTAGAAGAAAATGAATATTTAATTAATGAAGTGAGTGAGAAAAAAGATGTCTTAAATCGCTTTACAATTAAAGGTAGTCAATTAGTAGAACCTAAATTTGAATTTAGTGGAGCTTGTTCAGGATGTGGAGAGACACCATATATAAAACTTTTGACTCAGTTATTTGGTGATAATATGATTATTGCTAACGCAACGGGTTGTTCCTCTATTTATGGAGCTTCAACTCCTTCGATGCCATATAGTGTTCCGTGGGCCAATTCTTTATTTGAAGATAATGCTGAATTTGGTTATGGAATGAAATATGCTGATGAGGCTATGAAAGATAGAATTAAGAAAGTGATTAGTGAAAATCTTTCTAAAGTAAAAAAAGAAGAGGAAAAGATTTATAAAGATTATTTAGAAAACATTAATAGTGATACTGCCGATAAACTTTTAGAAATTGTTGATAAAAGTAAAATCTCTGAATTGAAGAAGTTAAAAGACTTTATTAAACCAAAATCAGTTTGGATGATTGGTGGCGATGGATGGGCTTATGATATTGGATTCTCTGGTATTGATCATGTTTTGTCTAATAAAGAAAATGTTAATATCTTAGTTCTTGATACAGAGTGTTATTCAAATACTGGTGGTCAGCAATCAAAATCTACTAGAGAAGGAGCAGTTGTTAAATTTGCTTCTACTGGTAAAGAAACACCAAAGAAAGATTTAGCTGCAATAGCTCTTACATATCCAAATGCTTATGTAGGAACAATTTCTTTAGGCGCTAATCCAATGCAAGCTATTAACACTATGAAGGAAGCTGAAAACTATAATGGACCATCAATTATTATTGCCTATGCTCCTTGTATAGCCCATGGTATTTTAAAAGGTATTCAAGATAGTATTAATACAGAAAAGAAAGCTACAGAATCTGGTTATTTTCCATTATTTAGATATAATCCAGAGACTGATGAATTTAAAATTGATTCCAAAGCTGATTTTTCTAAGTATTATGAATTTATTGCTTCTGAAGACCGCTATCGCTCTTTGAAGAAATTAAATAAGAATTATCGAGAAATGTTAGAAGATAATAAGAATAATGCGGAAAAACGCTTTGATCATTTAGAAGATATTTTAAACAACAAAAAAGAAGAGAAATAAATCTCTTCTTTTTGTTTTATCTAGGAAGTTGCACCCCCTGAGGGCAACTTCCAAAAAGAATAAAAAGGGGTTGGCTAGTGTGATACTAGCGACCGATTCGCCTAATAACCGAATCGGTATGGTTTATACTAATCGAAATGGTCCCTTTTGTCAACAAAAAATGTGAAAAAAATTAAATTTTTAAAAAAGAGTACTAATAAGCTTGAAAATATGATAAACTATTTATATAAGAGGTGTAATATGTTTAAAAAGAGTAAAGAAATACCTAAGACAAATTATATACTTTTTGCCATTATGATTTTGGCGGTTATTCTAGTGTTATTCTTCATAACTAGCTTTTATAGAAACAGAGTAAATGAGATGAAGGAAATACCAGTTATTAGAGACTATTTATTGGAGATTAATCCAGTAGAGGTAGATAACTATATAATTGAACATCCGGGAGCTGTTTTATATATTTGTCAACCTAGTGATGATGTATGTCGTAATTTTGAGAAAAAGTTTAAGAAATTTGCTGAAAAGAACAATTTATATAATTATGTGACTTTCGTTAATTTAAATCATACTGATGTTTATGAATTCTTTGATAAGTTTAATATTAACTATGTTACTAAGAAAGAAATAACTACTAATTATCCAGTAGTAGTTCTATTTGAGGACGGTAAAGTAAAGAGTTTTGTTCAAGGAAAGAAAGATAAACCATTGACTGTTGATGATGTTAAATACTTTTTAAAGATTAATGAAATAGGAGAAAACTTTGAATAATATAGTTTTATATGAACCAGAAATACCTCAAAATACTGGCAATATTATGCGAACTTGTGTAGCGACTAATACCAAGCTTCATTTAATTAAACCGCTTGGTTTTTCTTTGGAAGATAAGTATTTAAAGAGAAGTGGTCTTGATTATATACCTAAACTCGATTATGAAGTTTATGAAAATTTTGAGGAGTTTAAGAAAAAGAACAAGGGAAAGTATTATTTCTTTACTCGTTATGGTAAAAAGCCACATACTAGTTTTGATTATACTGAAGGTGATAACTTATATTTTATCTTTGGTAAAGAATCTACTGGTATTCCTAAGGAAATATTACAAGAAGATTTAGATCATTGTATGAGAATACCAATGAGTGCCAATGTTAGAGCTTTAAATCTATCTAATAGTGTTGCGATTGTTTTATATGAAGCTCTTCGGCAACAAGATTTTAATGATCTTTTAAGATATGAACCACATAAAGGACAAGATTATTTATGGAAGTAATCTTGTTTTTTTGTTTTTCTTTTGATATACTAATAGAAGAATAGGAGGGTGGGTCTATGGTATTTAGAAAACCTTATGCTTTTTTAATTAAAAACTTTAGAAAAATTCATATTCTCATGCTTCTTTTGGTTATATATGTTTATGTTAAAAACATAAGACTTTTAGCATTTGTTAGAAATTATGTTGCTTTACAATCATATAATTCTGCTTTAGAGTCGATTGATAAATATATCGGCTTTTTACCATATTTGGCAATTCTTTTGATTTTGGTAATAACGGGATTATTGATTTATTTGTTCTTATATAAAAAGAAGCCTTGGAAATTATACTTAATAATTATTTTGGCATATGTTTTGATGTTTATTGGTTTTAATATGGCTGGTAGTTATTTTCATAATTATGATGCCAATTCAACTATCGCTGGAGCTATGGCGGTTAGAGATGTTTTATTTATTGCCTCTCTTTTACAATATCCGGTTTTGGTAATATTAATAATTAGAATTACGGGTATTGACATGAGTAGATTTGATTTTGCTCATGATGAAGAGTTTATGTCTTTATCCGCTGAAGATCGCGAAGAGTTTGAAATAAATATTGATATCGATAAGGAAAGTTTTAAGCGAGGGTTTAAAAGAGTTTTTCGTAATCTTAATTATTTCTATCAAGAGCACAAGTATATTGTGCGGCTTTTAAGTGTTGTTATAGTAGGAATAATTGGTTTTGTTGCTTATTATAATATTTTTATTGTCAACAAGGTTTATAAAGAGGGAACTGTTTTAAAAACGTTGGATTATGCTATTAAGATAAACAAGTCTTATTTTACAAATACTAATTATCAAGGAAAAAAGATTTCTAAGAATAATTTTGTAATTTTAGATTTAACAGTTAAGAATAATGGTGCTTCTAGAACAATGAATGTTGAGCGGTTTCATATTGTTAATAAGAATAGCGATCAAACCAATACATACTACTATAATAAAGAATTTAGAGATTTGGGAACTCCTTATGAGTCATTCGAATTAAAAAGAGATAAAGAAAAAAGATTTTTACTTATTTATAAAGTTGATAAGACTTTGGAAAAAGATAATTTTAGTTTGTATTATCAGACAGTAGTGGATGGTACTGATTCCAAATTAATTAAAATGAAACTTAATTTAGAAGATGTTAGCAATGTAAAAACGATGGCCAAAGTCAAATTGGGTGAAGAGCAAAAACTTGAAGAATTGAAAGGAACGACCGAAGAAATAACGATTAGTGATTGCTTAATTGATGATAGTTTTTCATATAATTATTATTCGCGTTTTAGTGATGATACAAGTGGATTAGAGAGCGAAGATGTAACAGCCAAAACAGGACAAAAAATTATGAAATTAGAAATGATAACTTCTTCTTTAGACAATCAAGATTTGGTTGACTTTTCTCTAATGTATGGTAAAATAAAATATGAGGATAGTAAAGGTAAGAAGAAAGATGTCGCTTTGAAAAACGCTATAGAAAGAGAATACTTTGGCAACAATCTTTATTTGATCGTCCCTGACGATATTACAAAAGCTACAAAAATAGATTTTATCTTTACCCTTAGAAATAGAAGATACATTTATAATTTAAAATAGAGTAAGGAGATAAATATGGAAAGGGAGCAGCTAATAAAGGCAGTAAAAATAGCAGTTACGTGTTTAATAGTGTTTTTGTTTTTATGGTTTTTATTAATTTATCCTTTAGGAAGTTTTAATAAAAGCGAGAATAAAATGCAAAGCGCTGCAAAACGCTATTTTGAACTTAATCCTTCTAAATTGCCTAGAGAAGGAATGATGGCTACAGTTGGATTAGCAAAACTTTATAGTAAAAATTATTTAGATGCTCTTTACATTCCTTATACCAAGAAAATGTGTTCGGTGGAGGATTCTTGGGTTAAGGTAAAAAAAGAAAAGGGTGATTATAAATACTACACTTATTTAAAGTGTGGGATTTTATCGTCTAATGTAGATCATAACGGACCAAATATAGTTTTAAATGGTGATGAGACTATTAAATTAGATTTGGACAGTGATTATAAAGAATTGGGAGTTAAAAGCGTAGTTGATAATACTGATGGTAAAATAGATGTCAATAAGGTGAAGATTAACAGCTCAACAGTAAACACTTCTAAAGTAGGTACTTATAAAGTTAAATACACAGTAAGTGATAGTTTTAAAAACCAAACAGTAAAGATTAGAACTGTCATTGTTCAAAAGACTTTGGCTTCCGCGGTTAAAAAAGCAACTAATAATACAGGGGTTTATAAAGGAGATATAGATAACAATTATATTAGATTTGCTAATACTTTGTTTAGAATTGTTAAACTAAATAAAGAAGGAACAATTACTCTAGTCAGTGATAATTCCTTGGCCTTTGTTGATTATAATAACCTAGATAATTGGTTAAATAAGTATTATTATGATTTATTACCATCTTCATCAAAAAAGTATTTAGTTGATAGTAAATGGTGTGATGAGGAAGTAAAAGATTCTAAGAACTATAAGCAATGCCAAAATTCTACTGCGAAGAAGATAAGCGTCTTATCTGTGGCTGATTATAGCAATTCTATTTCTGACGGTGAATCATATTTGTCTAATTATAATAGTTCTTGGACAAATAACGCTAAAGATGACAATACAGCCTATACTGTTTCAACAGTTTATGGAACTGGTGATTTTAAAGCTAATAATAAAAACGATAATTTGGGAGTAAGAGTTGCAGTAACAATTAAGAAAGGAACAACTCTTACTAGAGGAGATGGAACTGAGACTAATCCTTATACTTTAGGAGACGTTAAAAGAGGTAAATCAAGCTCTAAATTAAATACTAGATTTGTTGGTGAATATATAACTTATGGGGGAATGATTTATCGTATAATAAACACTTCGGAAGACGGTCCTACTAAAGTTTTGGGAGAATTTGAAGTTGTTGATGAAGAAAGTAGTCCAATAGAAATTGGTTATGAAAAAGAACCTTATATTTATAATCCTCGGCAAAGTGGTAATATAGGATATAAGATAAATAATGAACTAAAGGCTTATTTCAAGACAAATTATTTTGTTAATCATGAAATAGAGGTGCCAATTTATAATGATAAAGCTACTTATCAAAAAGAAAACAGTACTAAAAAATATAAAGTTAAGTTTTCGGCCCCTAATATGTATGAAATATACAGTTTCCCAGATGATCGTTCTGGAGCAACTGGTTATTGGATGATAAATTCATCTCAAAGTAAAGATTACCAATACTATACTAATCCATCAGGATTTTTGAAGAACGGAAAAACTGAGTCTTCAGCGGTTACTGGTGTTAGAATAGTAGGTTATTTAGATCCTAAGTGTAGTATTCTATCTGGGGATGGAACATACGAGGATCCGTATGAGATAGCTAAATAAAGGAGGTGTTTTGTGGCTAAAAGCAAAGCCAAGCAGGAAAAGAAACTTCTTATGATTATATCTGTTCTTCTGTTTTGCAGTGTATTTGTTGTTCTATTATCAATGCTTATTAGAAGTTTTAAACCTTTCTATAAAGTAGAAGATCGAGTAGAACAAGTGCAAAGGGAAGCTAAGAAGAGAAGTGATCTGGTAGAAGGCTGGATTAAAGTACAGGGCACTAATATAGATTATCCAATCATCTATAATGATTATTACAAGGGAACAGATTTAAACAATATAAAATATGATTTTGCTTGGAGTAATGAAAAAGTAGATAAACTTACAAATAGACCTTTGATTGTAGGACACAATTTGCTTAATGTTTCCAAAACACCATTGATAGCTGATCCTAATCATTCTAGATTTGAGCAATTGATGAGTTTTGTATATATAGATTTTGTTAAAGATAATAAATATATACAATATACAATTGATGGTAAAAACTATTTGTATAAAATCTTTTCAATATCATTTGTAAATGATTCTACTATTGATTATGAAACTGTTTCTATGACTGAAGAAGAATTAGAAAAGTACATAGATAGTAGTATTAAAGACAGTATGTTTGATTTTGATATTGATGTTTCAAAAGAGGATAAGATAATTACCTTAGTAACTTGTACAAGGATGTTTGGTTATGATAGTGGCAAAACATTTAAAATAGATGCTAGGATGGTAAGAGATAAAGAAAGTATCCGAAATTATAAAGTAAAAGAAAAGAAAAAATATAAAAGAATCAAAAAAGTAATGGAAGGAGATAGCGAAGATGAGCAAGATATTTAAGAAGTATAAAATAGGGGTCGGATTGAGTGTTGCTTTAGTATTATTGGTAGCATTACTTTTGAGTTTTGTCAATGTTAAAGCAGAGCCAATAACTGATCAAGGTGCTGATATTGGCGACGAAATAAAAAAATCTGTTGACGTTAAAGAAGGAGAAGCCGATAAGGACAAAAGTGATGACGGTAAGAGTTACGAAGATAAGATAGCTGATTTTTCAAAGGCTGTTGTAAAAGTAGATTCTAGTTGTGCTAACGATAAGAAGGACAGACCAAATTGTACTGTTACTAAAGCAAGAGAAAGATATGATGTAAAAGCTGTTTTCTCTGATAAAGATAGAACAGCTACGTTATCAGCAGCAAAAGGCAAATATAAAGTTGTTGCCATGATTGGTGATACTAATAACAAAACAAATTATACTTTAAATGCTGGAACGAAATTAAAAATTCAAGTACCAGAATCTGGTAATCTTGAGGTTTTAATTACAGTAAAACTATCTGAAGATGATTCTAATAGCTCTTATTGTCGTGCCGGCTGTTATGTTGAGAACTTTACTCATAGCTTTAATGAGCAAGTGGGTAGTGTTGAAAACGTTCATTATGATGGTGTTTGTAAATCGTTTAGAGAAAGTTATACACCTTCGCGTTCGGCAGAGGAGCAAGCAAAATTAAAGGAATTGGTTCCTTACTGTTTTAATACAAGTGTAGACTCGGTGTGGCCAGAAGCAACAATAAAACAAGTTATTGAATCAGCTAAGGTTGTTGCAAAACTTAATTATATAGGGGGAGGCAAAATACCTGATGCTACAGGATATACTTATGTAGATCCTGATAAAACTAATCTTGCTAAATTAACTTGTGATGCGTGGAGTCCAAACATAAATGAGAAGAAATACTACACTAAAAAAGTAATAAAGGACAATAGTGTATGTAGTGTTACTTGTCAAGAAAAATTCAAAGTAAAATATGATGCTCCTACTTCAGTAGTAGGTGGACAATGTTTTACTTATTCAGTTCAAGTAGAAAGTAAAGTTGATTGTGAATCTAAAATTAAAAAATCAGCACCAGAAAAACCAAAGATTTGTAACCCATATCCAATTTGTAATGGTTATGCTGGTTATGCTCACCAGGGTGGACCAAAGGAAGAGTTTGATGCTTGTGTAAGTTCTTGTGATAATGGTAGTTATTCACAAAAATGTATTAATAAATGTTATAAGAAAGTATACGGAACATCAAATAAGGTTAAAACAACCGCTATGGATATTGGTGAATATGTTGCTGACAAAACTGCATCAACATGTGGAAAAGTAAACAAGAACAGTATTAAATCAGTGATGAAATATAAAGCTGAATATCCAGGAGGATATTATTACTGGAGTGGAAACACAATAAAATGGAAATATGATTCATCATATGGAAGTCTTTGTGGATTACCAGGTGCTAAATTCTATTATCAAAGTTATTATTATACAAGAAGAATGTTAACTGGTACTGATTATCCTAATAGATATGCAGGACCTTATATTGTAGATAGTAATGGTTTTAGACGAGCAACTTATTGTCATGAACACTGTAGATATGTGGGATGTAGTAAAAAGACTAAAGATGGTAAAACGGTAGCTCTAAATGCAAAAGAAGCAGCAGAACAATATCGGACGGCTTTAGCGGCTTATACTAGAAAGATAGAAGCATGTAGTAGTGTGGCTAAATGTGAGTCTAAAACAGCTACATACCATATGGAAGTAGATGTATATCAAAATGGTCAAAAGAATACCATAATATACAATGCATCAAACAAACCAAATAATGATGGAAAATCAGCGGGTACTCAAACTAATACTGATGGTATTATTAGAGATTATGGTGGACCATGTTATGGTAAATCTAGTTCTGAATATGATTATATGACTAAAATAAACTTCCCAGGAACCTGGAAGAATCTTAAAACTGGCAAAATAGTTTGGAAAAATCCAAATAATGTTAAATATGCAAAAATAGGAAAAGATCATTCATTCTGTGTACCTGAAAACGTAGATGATATGAATTCACTATGGTGGGTTTGGGATGTTAAATCAAGAATAGATAATGGCGGTAACCGTATTAAAGCTACTGATGCTGTCAAGAATAGCATTGGTAAACTAAAACAAAATATTCATGCTAAAATTACAAAATTCGGATTATTCGGTTGGGGTGTAAATATTGATTGTTTCTATGCTACTTACCGTGAAAATGAAGGTGATGATCCTAAGTGTACAGAATCTGATGGTTGTACAACCTGTAAAAAAGGTAATTGCCCTAATACTTGTACCAACAACAATGGACTTTATAAATGTACATGTGTTAGAGATTGTACTGAAACTAAAACAGATTCTACAAATGTAGCTGTTAGAACAGTTGATAATAGTAATTTATTCCCTAATAGTACTGCTTCTGATCCAAATACAAATATCAATATTAAAAAGTTGAGTTATGAAAACAAAGAAGAAGGATTGTTGAAATTATCTGATAGTAGAGAAATTGGATTTAACTGGAACTGTAATGCTACAAATCTTAATAATAGTAACTATCCAATAGCTCCTACTATACTAAAAGGATTTATTGAAGAAACTAACCAAAACAAAGTAATTGTTGGTGGAAAAACAAGTGAAGGAATATATAATAGTGATTACCTTGATTATGAATTCCATTTAACTAAACAACAATTAAGAGATATAAGAGAAGGCTACAGCGATGATAAATTTGGTGAATTTCGTGTTAATGATAAGAGTGTTAAAAATGGGGTATATACTTATACAAGCGCTTTAATTGATAGATATGCTGGACGGAGAAATGCTGTAATTGGTGAGAACAATTCATATATAAAGTGTACTGATAGTAGTTGTTCTAATTTGAATGATGCGTGCATTACTGCAAAACGTGCAGAGTGGACAGCTGCTAAACAAGTGAAACAGTTGATTGATCAACACGAGAAAAGGTTATAGGAGGTGAGAAATAATGAATAAAGCGATGTTAGCTGTAGGAATTATCTTTTTAGCACTACTTGCCTTTGCAACTATTAATTTAATCCAAGATTTTTCTACGGGACAAGAACTTGATTATTATTTATTAAAAGAGACTACTGATGCTGCAATGGTTGATGCCCTTGATTTTGACTTTTATGCTGAATCAGGATCAATTAGAATGGACAAAGAGAAGTTTGTTGAAAGTTTCTTAAGAAGATTTGCTAAATCAGCATCAGCTAAAGATTATGATATTTATTTCTACGCTCTTAATGAAACACCACCTAAAGCTAGTGTTAAAGTTGAAACCAAGACTATTGCCACAGCACAAAGTACACCTACTGGAAAAGATGAAAATAATGGTAAAATAGATATAACGACAACATATAACAGTATTTTAGAGACAAAGTATTTACAAGATACAATGTCTAAGTGGAAGATTGCAACTGGTGAACTAGATGCTAATGTAACTACTAGATAAAGAAAAAGAAAGGGATTGAGAAAATGGCTAATTTAACTAATGGTATAAAAAAATTCTTAAGCAATAAAAATACAGTTACTATCTTGGGTGTGGTAATAGCAGTTTTAATCTTATATTTTGGTTATAATTATCGGGTACGTCAAGCTACTAATCCGGTTGATGTACCCTATGCTAAAGTTACCATTGAACCCGGAACAAAGATAACTGAGGATATGGTAGGAACAATGAAAGTTCCACCTGCTATGCTTACTGATGGGGTTATAAGAGAAGTAGCAGCCGTTGTTGGTAAATATCCTAATGTGGATAGTATTATCCCTGAAGGAAGTTTATTCTATTCAAGAAGTGTTGTTGAAAAGGAACAACTTCCTGATAACATAATACTTGACTATCCTAAAGGATATACTTTATATAACTTGGCGGTTGACTCTAGAAGTACATATGGTAACTCTATATATCCAGGTAATTATATTGATATTTATTTAAGAATTACAAAGAAAGTAGCTGAGAACAGTACTAATAAAGATGATAATAAGCTTATGTATGCTAAGTTTATTGAGAATGTAAAAGTACTTGCAGTTAGAGATTCATCTGGTAAAAATGTTTTTGCTAATACTGATGAAGAAGTAACACCAGCAATGATTATCTTTGCTTTACCAGAAGATGATTACATACTTCTTAAAAAAGCAGAGGAACTAGCTACTTATAATAGTGAGATAATTCCTGTTCCAACAGCTGAATCTTTAGAAGATGATCCGGCTGATGTTAAGGTTAGTTCAAAAGCTTTAAAAGATTATATAAATGAAATAACTGTTTGGGACGGAAAATAAAAGAAAAAAAGAATAGAAAGTTGTGGTTTGATGAACGAGAATATATTTGATCAATTAGATTTTGGACCATTGAGAAGTCTTTTAGAAAATGATGATATCACTGATATCTCATTTTGTAATGGAGGTCAAATCTGGATTCGTTCGCTTACCCAAGGGTCAATACGAGTAGAAGTTGAAGGATGCACACCAGATTTTATGGAAAAACTGGCTTTTCAGTGTTCAAATGTTATGGGAACAACCTTTAATAATGCCAAACCATTTTTGGATGCTGAATCAGCTGAACTTCGTCTTAACTTTGTTCATCAGTCCATTGCTACTAACGGAATTGCTTGTGTTATTCGTAAAACACCAGCTAAAATCCGATTAGAAAAAGAAAAATTATTAAAAGAAGATTATTTTACAAATGATATTCATGATATTCTAATTAAGTGTGTTGAGGGTCATTGTAATATATTGGTTTCTGGAGAAACTGGTTCTGGTAAAACAGAGTTTGTAAAATATTTGGCTTCGCATACTAAAACCGATGAAAAAATAATAACCATTGAGGATACATTGGAATTGCATTTGGATAAAATATTCCCTCAAAGGGATATCGTGGCCATGAAAACAAATAATGTGGCCTCATATACTGATGTGTTAGTTACCTGTATGCGACAGAACCCAAAATGGATATTGCTTTCTGAAGTGCGTAGTGCTGAAGCGGTAACAGCAGTTCGAAATTCAATTTCATCTGGACATAACATTTTATCAACAATTCATGCTGATAAAGCCAGTGCTATACCATACCGTCTATATTCATTAATGGAGACAGATTTAGATGTGCATCAGTTTTTAACTACGATTTATCGTTATGTACAATTAGGTGTTCACATTAAGGCATATTATTCAAAAGAAAAGGGAAAGTTCCATCGAGAAGTGGATGAGGTTGTAGAATTTTATGTTGATGAGAACAACGAACCACAGACTCATATTATTTATCAAAAAGGGTTTGGTAAGGAACCGGTTTTAAACATGCCTAGTCCACATTTAATAGAGTACTTAGAAAATCAAAATATTCATTTAGATAGTAATATGAAAGTTACTAATGCTGATCAGCCTTTTGGGGATGACGAAAAGAAATCAACTGCACAAGTTGAAGCAGTAGTTCCACAGAACGAAGTAACTGTACCTCAAAATGAGGTACCAGCATCAAAGGAGGAAAAAGAGGCACCTAGCGTTGTTCAACCAGTGAGTCAGGTAAGCAGTATTCCTCAAAGTACAGTAACATCATAATAAAGAAAGGGGAGATAAATATGGAATTGTTTTTACTACTAGCAGTAGCTATTTTAGTGCTGTTATATAGAAATTATCGTGGTCAGAACATTTCTAAATTCTTTAGTGATAATTTTAAAACCATATACGATAAATTTGCTCCATATTCATATAAAGTAGTACGTGAAAAGACTAAAGAATTAGGGCAAGAGTATACGATTAAAGATTATGCTATGCAAATAGCTTTCTTTGGATTGTTTGCTGCTGTTGTAAGCTACTTATACTTTTATAACATATTAATATCTGTTTTCTATGTTTTTGCAGCTATAATGGTTGTTCCATATTTATCATATTTAAGATGTAAAAGAGTATATAGTGAGTTCTTGTTTGAACAAATTCAAGTGTATACTTCTAATACTATAATGGAGTTTGCAACTACCCAGTCTTTTGTAAAAGCAATTGAAGGAGTTAAGCAATCAGGTATTTTAGATGATCCTGTAGCTCGTGATGTTGATCATATGATAGAACTTGCTTATCGTGATGGTAGTATTGATAATGCTCTTAAGTATTTTAGTGATCTATATCCATATTATATTGTTAAGAATATGCATCAATTGTTTTTACAAATTACTAAAGAAGGAGCTCAAAACTCGGCTGATTCATTAGATAATATGCAACTTGATATCGATATGCTTGTAGAGTCAGTTTATCGAGATCGAATTGATAGAAAAAGTTTCCATAGATCATTTTTACAATTTGGACTTATGCTTTATGTAATGGCTATGCTTGTCCAATATTTAGTTGGAAGGGAAAGTTATATAAAAATGTTAGATTCATGGTATGTACAATTATTGTTGCATGCTATATTGATTATAAATAGTTATTTTCTTCTTAAGGGAGAAAAATATTATAACGAGAATGTAGGTGCAGAATAGATGGAAATACTAGCAATTGGTGTTATAATTATATTTATTCTTTTCTACAATAAAACTGTTGATAAAAACAAGTTTATTGCTGATAATGAAAAGTATTTTGAAATCTTACGAGAAGATGATTATAACTTCTTATTATACGCTAAATATGGTGATGATGTTGATGTTGATGTTTTGTTTAGGAAAAGATTAATGTTAGGTTTGATAGTAGGATTAATCTTTATGTCTCTTTCATTAACTGGAGGATTTTCTGCTTTGAATTTCATTGTTGGAATTGTCGTAGGGGTAGTAGCATTCAAATATCCGTATTTTGGACTTAAAAAATACTATAAAGCACATTTACATGATATTGATATAATGCTTCCATATTTCTTAAAGAGTTTGGAGGTTTTAGTACAGCATTATACAGTACCAGTAGCCCTTGGTAAATCTATTGATGATGCACCTGAAATATTTAGACCAGGATTAAGAGTTTTAGTTGATCGTATTAATGCTGGTGATTCTAGTATTGATCCTTATATGGAGTTTTCCAATACTTATCCAGTTAGAGATTCAATGAGAATGATGAGGTTACTTTATAGATTAGGACTTGGTTCTCAAGAAAAGAAGCAGGAACGTCTGATGATGTTTTCTAGAACAGTATCATCTTTACAGAATAAAGCTCGTGAAACTAAGTATAAAGAACGTTTGGGTCATATGGAAAGCCAAACTATGATAATGTTAGTTGTTACTGGTTTAGGGGTTATGTTAATTTTATTAATTGCAATGTTTATGATGTTTACTGGATAAAGTGTAAAGTAGAATAAAAAAACTAGTAAAAATGCGTTTGCTTTGGTATACTAGTATTATGATATGATTGGAAGGAGATGTTAAATATATGAAAGCAGCTACAGGAGAATTAAATCTAACAATTATTACAGTTTTGGCTATTTCGGCAGTTATTGCCTTTTTCTGGTTCTTATGGCCAACTATAAAAGATACTGTTAGTGATAATGTGAATAATATTACCGATGGTGGAAGCGATCCTACTGGTACTAGTTTTATTGTGGTAAAATAGAGGTGTAGTATATGCGAGATGCAATTGGCGGAATAGTTAATATTCAGATTATTCTAGTTTTTATAGTGTTGGTAAGTGGTTATTTAGCTTTTTCTGTTAATTATACAAAAGCATTTCGGGCTAAGAATAAAATAATTAATGCTATAGAACAATATGAGGGTATGACTGATAATGCTTCTTTAGCAGAAGATGGTGATACAGCTACCTATCTTAAGCAAATTGGTTATAGTGGTCGAAGTAATTGTCCGACAGGATATAATGCTGACCCTTATCAATTAGGTTTTTGTTGGCGTGAGACACAAGTTGATACAACTAATACTGCCTTGGATAAACGGTATTTTAGTGTTATGACATTTATCAATATTGATATACCAATAATAGAAAAAATATTGGATAGAATTGAACCGTTCAAAATAAAAGGTGACACTAAATTGATAATTACACATAAAAAATAAAACTATTTTATATAGTTTTTTTAGTAAAGGATAAGAAGGTGAAATAGATGAATGTATTGATCGGTAATAAATATAGCGATGTTTTAGCTATGTTAGATATTGATGTTATTAAAAGTATTACTGGTGAATATGATGCTGATGAAATAGTATCAATGTTCAAGAATTTTTACTGTAATCGAATAATTATCGATTTAACAGCAATCAAAGACTATGCTAATATATCTAATGTGCAAAAAATATCAATTGGTTTAGAGACCGATAAATTAATATTTTTATTACCACCAACACCAGAATCATCGTCTTCAGCATTCTTATCAAAACTTATTTCAATGGGTATTTACAACTTTACCACTGATGGAGATGGTATTAAATATCTTTTAGATCATCCTAATGCTTATAAGGATGTTGCTCATTATCAACAATTAAACGACATGTCCACAACGGTTAATAATGTCGTTATTAGTGGTGTTAAAGTACTTGGCATTGAAAATGTTACCGAGTCAGCTGGTGCTACGTCGCTTATTTATATGATTAAGAAGCATTTGGAAGATAAATATGGAATTAAGGTTGCTGTTTTGGAAGTAAATAAACGGGACTTTAGTTATTTTGAAGTAAAGGACTATTATCCCACAACCAAAGAAAATCTATCTGGTGATATTGCTAAATATAAGAGTTATGATGTACTTTTAGTTGATTTAAATAATACTCCGGATACAGGAGTATGTGGGGATGTTCTATATTTAGTAGAACCATCAACAATTAAGTTAAATAAATTAATGCGAACCAATCCTAAAATACTAAAAGATCTACAGAATAAGAAGGTTATTCTTAATAAAAGTCTATTAAATAGTAAAGATGTTGCTGAATTTGAAAGAGAAGCTAATCTAAAAGTTTACTTTAATTTAAAGCCACTTGATGAGCGAGTTGAAAATTCTGATATCGATGATCTTTTAGCAAAACTAGGAATGATACAAAGAACAGAAGAAGAACCAAAAGAAGAAAGTGGGGGATTTTTAGGACTCTTTAGAAAATAATTACACTAATTTGTTCTTTAGACTTGACGATTTATAAAAAAATAATATATAATATTGATAGTAAAGGAGATAGAGATTATGAAGTTATTTCAAATAGGTGCTGATTTTGATCCATGTAGTAATGGGTTGTTGCCATTCGTTAAGATTATCAGAAGAGGAATATTACCGTTTATTCAAATTGGTATCCCTATTATTTTAATAGTTCTAGGTACAATTGATTTGGGAAAAGCTGTTGTATCAAGTGATGATGCAGAAGTTAAGAAATCTCAAGGAAGACTTATTAGACGTTGTGTTTATGCGGTGGCAGTATTCTTTGTTACTACATTAGTTACATTATTATTTAGCTTAGTTGCTGATTCTTCAGGTGAAAAAACAGCTAGTACATGGACTAGTTGCTGGAAGCAAGCTTAATTTGATATGTAAAGTGCTATACAAATTATTTGTATAGTTTCTTTTTTTTTGGTAAAATATTATTAGATATGATGGGAGTTTTTAATATGAAAAAGATAAGATTTTTAATTCTTTTAATTTTAATTGGGATAATGATATTACCAACGAGTGTTTGGGCACTTCCAGCAAACAATAATAGTGATGGAACTGATCCGCGTGCAGAGTGTAGTGTAAAGGTTGGCGATGCTACAGTACTAGTAAGAATATGGGGTAAAGATCAAATATCAGCTGAGTGTAAAGGAACAGTTAAAAGCAGCAAGCCGTGTTCTGAAGCAAATTTAAGCGGAATAAAGCACGATGATTTTGTTACTAGTGATAAGAAGCATGCCCAATGTCCAACAAATACAACTTATTATGCATTGGCTAAGTTGAAAACAGGAGGAAGAACATATAAAATAACTTTATCCAAAAAGAAGCCAAGCTTAACAAAATCTGAGAAAATGAAGCAAAGTATCGTTCTTGAAGAAGTAAAATTTAACAAGGAGTTTACTAATGACACAATGTCTAAAAACAAGGAAAAAAGGGAACAAGAGAAAGGAAAATACAATAAAGAAGCTATTAGTAAACTTGAACAAAAGGAAACTACTAGTTGTAGTGGAATCTTTGGTTCAGTTACTGATAAGGGAAAGAACGGCTCTCCAGCGTCATTAGCTTATATTTTCCAACAATTATTTAATTATTTAAAAATATTAGGTCCTTTATTAGTAATTATATTAAGTGGTCTTGATTTTACAAAGACAGTATTATCAGGTGATGACGAGGGTATGCAGAAAGCTACTAAAAAGCTAGGAATTAGATTGGTTTTAGTAGTATTGTTATACTTTATACCTGATTTAGCTAAGTTTATTCTAAGTATTTTAAATGGTGGTTTAAAGGATCCTACTTGTGGTATAAAATAAATTGTATAAAACATTGTACAATTTATTTTTTTTTGATATAATTATGATAGTATATAATATGTAGAATAGTAAGGTGGTGGAATAATGACACAAGGTACACCAGCAACGTGGTTAACAAGAGCTTTAAGAACTATTTGTGCTTTTATAGATAGAATAGTGTATTTTTTAATTGCTTTCGTTTATCAGTTGTTTATTCAAGTAGCTAATGCTACTTTGTTGCGTGGTTCCACTGTTAGAACTTTAACTGCTAGAGTCCAACTTATATTTGGACTTTTACTAGTATTTAGATTAGCTGTTTCGGTTATTAATGGGATTATTAATCCTGATACTTTGACTGATCGGGAAAAAGGTTTTTCTGAGGTTATTAAAAGAACAATAATCGTTTTAATTATGTTTACTTTGATAGTACCAGTAAATGTTAGTAATCCTACTAGTCATTATCAAAAGAATATTGCTAATCATGGACTTCTTTTTGGTACTTTGTATGAAATTCAAAATAGTGTTTTATCTAGAAACGTAATGTTTAGATTGGTTTTTGGTGGAGATGAAGGGGAAGATTCGGATTTAAATAATATGTCATCGTTATCGGGTCAAGCGAATGCTATGGCGGGAAGTATATACAAATCATTTATGTCAATTAATTTAGCTGATGAGTCCAAAGGGGAAGATGATCCTAGTAATTGGATATGTGAAGACGATATAACTGATTCAGAGATTAATTATTATACTAAAGCTGATGCTTCTGTTTCTGATGTAGTATCACTTACTGAAGAATGGTGCCAACCTCCTGATGATAAGAAATTCTCGAATATTTTTAAGCCTAAGGCTTTAGAAAAAGGTGTATTTAAGTTTGCTTTTCAACCTTTGATTTCAACAGTTTGTGGTGTGTTCGTTTTGATAATGTTTATTGGCTTTACTCTAGATATAGCTATCAGGGCTATTAAATTAGCAATTCTACGTTTAATTGCACCAATACCAATAGGTAGTTATATTGATCCTAAGTCACAAAGGGATGGCGCTTTTGCTTCTTGGATTAGAATAACTATGTCTACATATATTGATTTATTTATTCGTTTATTAATCGTTTATTTTGCGATTTTCTTGGTTCAAGAAATATCTACTAAGGGACTTGTAATTGAGAAAGTTAGCGATAATATTCTTTTGAATAGTTTAACTAATGTTGTTATGTATATAGCTATCTTCTTCTTTGCTAAGCAAGCACCAAAATTTATAATGGATGCTTTAGGAATAAAAGGTGGCGGTATGAGCAACCTTGGTCTTTCTGGGTTACTTGGAGGCTCTGCTATGCTTATGGGTGGTGGAGGCCTACGAGGAGCAGCTTTAGGAATGATGCAAGGATTAGATGCTGCATCTGATTCTGCTAGAGAAGGTAAAGGTTATTCACCAATGTCGTCTTGGGCTCAAAATCGTGATCAAATGGCGAAGATTAGAACTGGTAATAGAGAAGCCCAAGGTGGGCTTATGGGTCAAGCAAAGGATTATTTAAACTGGAGTACTCGTGAGAGAAAGGCTAGACAGTTAGGAATTGGAAAAAAGGATTTGGCAGATCAAAGTGCCAGAGCTAAAGCACTTAAAGAACAATATGGTAAGGCTGCTGCTGAAAAAGCTTTGGCTGATAAGAATTTACAAGCATCAGCTCACTTGAATCATGGGCTTAATTTGGCAAGGTATGTTAATTCAGATGGTTCTTGGAAAAGTGATGATGCTAGACAAATTGCTTATAAAAAACTTGGTGGCGAGCAGCGGGTATCTGAACAATTGGCGTATAATAAAGCTTTGAGTGCATCAAGAGCTGCTGATGAAAGATTTGGTAAATACGAGAAATTATATAACGATGCTAATAAACGTGCTGATGCTATGGAGAAACGTGCAGATCAAATGGGTATTGGTCCAAACGTTCGTTCTATGGAAAAAGCTCCGGGTCGTATAGCAACTGCTGTTAACGAGAGTGCTTTAGGACAGGCATATAATGCAAATCGTGGTCATGATGTATTCCAAGGTGGAGATTATCGTTCTGATCTTAAAACTGAAGCAGAATTTGCTAAAGATCATAAGGGTGATATTATCCTTGATAAAGATGGTAACCCAGTACACGAACACCTTACTGGTCAATACAAGCGTGATATTGATAGCTCTGAAGGAATTGCTGACAGTTCTACTATTGGTAGTATTGGAACTGGTGCCACTGGTGGTGGACCTCCGCGTCCATAATAAGAAAGTGAGTGTGATACTTTGTGAACAGTTATTTAATACCTTCTAATACTAAGAAGGGCAGTTTGATATTAGGTATATTTAGACCCGTTGATTTGATTATCTTTGGGACAGGTGTTATGGTTACAGTTATTTTACTAGCTACAGTAACCCCATCGTCATTACTAAAGACAATAATTGTATTGGCACCTGCGCTGGTTACAGGATTCCTAGTAGTGCCAATACCTTATTATCATAATATGCTTAATGTTATATCTGAATTAATTGCATTTTTAACAAATAGACAAAGATTTTATTGGAAAGGTTGGTGTGTGATGGATGAAAAAGAAGACAAAGCAAGTGAGCGTTAGTCCTTATACTGAGGATTGGACTCCTGTTGAATCAATTCAAAATGGTATGATTATTACCAGTGATAAAATGAAAGTAACAGGTGTTAAGGTAACGCCTCGTAATATCTTTATCTTATCACCAGACAATCAAGCTAATGTCTTGATTGCACTTAAAAACTTTTATAATAGTATTGATTTTGAGTTTTGGTTGGTGGTTGCTGATAGACCAGTGGATATATCAGTTTATATGTCACAATTACAACTTCTATATAATGAAGCATCATCACCAGCAGTTCGTAAATTAATTAATCAAGATATGGAAAAAGGGCAAACATTTATTAATAACAACATTGTTGATACAGAGTATTACATTATGTTTAAAGAAAAGAATGAAGATGCCGCTCAAAAGAAGATTAGACAATTAATTAATGGTTTAGCTTCATGTGGACTTAATGCTTCTCAAACTTCCAATGATGATTTACGCATAGTACTAGACAACTTCTTAAATGGAGGTCAGAGAACTGAATTTGGGACGGTGATGCCAGTATGAGTATAAGTTTAAAGACTCAAGTAGCACCTAAAGGATTACATTTTGGAGCAAGTGACTTTATGATTAGTGATAAATATGCCACTATTTTATCAGTGGTATCTTATCCAAAATATATCAATCCAGGATATTTAGCTACTCTTACTAGTATGTCTGGTATTAAAGTTGTTATTAAACATATACCAATACCTTTTTCGCAAATGTCAAAAATGCTTAATCGTCAGATTGCTGATTTGAGGGAAAAGTATAATCAAGAAAAAGACCAAACAGCTAAAGAGAGAATTAGGCAAGATGCTGAAAGTTTGGAATACTTTACTTCGATGTTAGCTGCTAGTCAATCAAGAATATTTGATTTTCAAATGCACATTATGATTACAGCTGATACTAAAGAAGAATTAGAATTAAAGAAAGTTAATGTTAAAAACTATTTGGATGCGATGGAACTTAGAGCTATCTCTCTTCGCTTTGAACAAGAAAAAGTTTTGAAATCAATATTACCAATTTTTGGTAAGCAAGATATTGAAGAGAGAATTGGTACGCCAATACCATCAGTTACAGTAGCAGCCATGTATCCATTTATCTTTGATAGTATTAAAGATCCAGGATTATCATGTCTTTTAGGAGTAGATTTTTCTGGAGGAGTTATCTTATTTAATCAATTCTTATATAAGATACGTAAGGAAAGCAATCGTAATAATGCTAATATGCTTATTTTAGGTACATCTGGTTCTGGTAAATCAACTGCGGCTAAGTTGCTTCTACGTACTCATATTAGAAATGGATGTCAGATAGTAGCTATTGATCCTGAAGATGAGTTACATGAAATTACTCAGACTTTCGGTGGAGATACTATTGATATTGGTAAGGGTGGAGAATTTGGCCTTATTAACCCATTAGAGGTAATAATTGATGCTGATGAGGAAGAAATTAAACAAGGACTTGGATATACAGTTCTTACTAGAACACTTCAGTTTTTAAAGGCTTTTATGAAGTATTATGATCCATCTATTACTGAAGATGTACTTACTATGTTTTCTGAGATAGTTCAAGATACTTATCGTCGTTTTGGAATAGATTTTAATACTGATTTTTCTAACTTCACATCAGCTGATTATCCAACTTTTACTGATGTTTATGCAACTATTAAAGGAAGACTTATGTCTATGACTGAACAAACTCAAGAAAGAGATATTTTAGAGCGTTTGGAGTTAAAAGTTAGACCAATTACAAAAGAATTGCGTTTCTATTTTGATGGTCATACGACAATTACTAAGAATAGTGATTTTATGGTTTTCAACATTAAAGAGTTAATGAACAGTGATTCTAATGTTCGAAATGCTTTATTCTTCAATATTTTAAAATATGCTTGGGGACTATGCTTAGACTTTAATGTTGATACTATTATGATGGTAGATGAAGCGCATGTTTTATTGGGTGATAATAATGCTTTAGGTGCTGACTTCTTAGCTCAAGTACAAAGACGTGCGCGTAAGTATAATACAGGAACTATTGTAATTACTCAACAACCAAGTGACTTTGCTGATCCTTCAGTTATTACTCAAGGAAAGGCTATCTTTGACAACGCCTCTTATTATTTAGTTATGGGATTAAAGAAACAAGCAGTAGAAGATTTAGGACTTTTAATTGATCTTAATGATAATGAGAAAGATGCTATTAAGAGATTCTCGCAAGGTGAAGCCTTGTTTGTATGTGGTAATAGGAGAATGAGAATAAATGTTGCTGTTACTCAAGATGAATTAGATTCATTTGGTAGTGGCGGTGGATTCTAAGATATAGATGAAGTAGGTGAGGATTATGCCCGATGAAAACAAGAATCAACAAAATTTAAATGAGTTGAATCCTCAAGGAAACCAAATAGATGGGCAAATAAGTTCTAAACCCAGTTTTATTGATAAAGATTCTACTTTGGCTTCCAATCGCAATAAAAAAAGACAACAAGAAAATGATTCATCACAAAAATTAGCAAAAACAGCTGCGAAGGGCGCAGCTGCTTATTTGGGTGGTCCAATAGGTGCTAAAGCGGTTGATGCTTTATCAAAGACTAAGGCAGGCCAACAGATGTTAAATAAAGGCGGACAAGCTTTAAGCAGAATGCCTGGTATGAAAAAAGGAGCTCAAATTCTTGATAAAACAGGAGCAACTGATAAAGCTGATAAGGCTATTGATGTGGCTAGTGGTGGTAAACCAGACTTAAGTTCTGGTAGTAAAGCTGCTGATGCTACTAAAACAAAGGATAATAATAGTGGAGGAGAATCTAATGCTGATACTTCTTCAAGCAACTTTGGTAAATTAAATCCTTTTTCACGTAAGAAAAAAACCAAATCAGCTGAAGCTGATAGTGATGATACACAAAAATCCAAATTATCTTTACCTTTTATAGGTAATATGAGTTTGGCTACTAAAGTTATTGCTATTGGATCAATAATAGGTGTTTTCCTTTTGTTCTTCCTTATTTTAGCCCTTTTTGGTATAAAAAGATTTGATCCGATGTTTGCTAATGATGATGTGAAGTATTCAGCAACAGGTTATACTAAAGATGGAAAAGATGGCGAAGAAGACGGTAAAACAGGAGCATACTTTGTTGGTGAAGATGAAATAACCTCTGAGATATATGAAAAAATTAATAAAGTATCAGAAAAATATGATAGTAATTCCAAGACTATTAGAAGAGGATTGGCCTCTATTTATACAGTCATTAGAGATTATGATGATTGCTTTTCTGATAAATCAGAAGAAGAATTTGAGGAAAAGCTTAAAAAAATGGCTAAAATGATTAATCAAAGTATTTCGGATGAAGTCGATGGAAACACATCTTCAGGAACCGATACGACTACTGATACCGATAGTAGTGATACTGATACAACAACTACCGATACTGATGATAGTACGGATTCTGACGATAGTACAGACTCTGATACTTCTGATTCAACATCTGATAGTAATACCTCTGGTCGTTTTTTTTGGATAGGTGATTCAAGAACAAACGGAATATGCTGTCATGTTAATAATATATTGACTACTTCTGAATGTAATGCAAAATGTAGGTATTCCGTTCATGGGCCAATTACATTTGGTAATGATATTTATTTTGCCCAGGGAGGGTCATTATTCTATTCCGACATTGGTGGTAGACAATGGATGCCTGATATTGTTCCTAAAGAAGTTAGTGCGCGACTAAAGGAAGGCGACACCATTATTATGTTGATGGGGGTAAATGATGTTCTTAGTTTTGGTGCTAGCAGACCAATTGATTATTATTCGAAGAAGATGAATGAACTAGCAAAGGGCGATTGGTCTAAAGCTAATATAATATTCATGTCACTTAATCCGGTTGATGAAACTAAAACTCACTGGCGAAATGCTCCAATAATTGAATTTAATAAAGCTATGAAGGCAAAGTTAGATTCAAGAATAAAATTTGTTGATTCTTATTCAATAATGATGCAAAAAATTCATGACTATACTTGGCCTGATGGTCTTCACTATAATATAGAAGGTAACAAGAAAGTATATTCTATTGCCAAACAAGCTGCTGGAGGTGATTTTCCTAGCAGTAGTGGTAATAGTTGTGATTTGGGTATAGATGAAGACTGGTTAAAAGAAAAACTTATTGATTATTTCAAAGATGTTGCTGATAAAGAACCAACTGATACGCAAGCCGAAGCAATGGCTGATGAGGTTATCCAAAATATTAAAGATTATCAAACTATCATCGGTGAGGAATGTGATGAAGGAGATGGTGATTCTAGCGGATGTGGAGATGCATCTGAAGTGGTTAGAGTTGCTCAAGAACAATTAGATTCAAAAAAGAATTCTTCCTTTATAGGCGGTAAAAAATATAAAGATTATATGGGATTGGCTTTTTCACAACCATGGTGTGCAGCTTTTGTAGCATGGGTTGCTAATGAAGCTGGTGTATCTCATGATGTTGTAGTTAAAAGTGCAGCTGTTTCTGGACATTTGGGTTATGGTCAAAAACAAGGGAATTATCATTCTAGTAGTTCAGGCTATAAACCGAAACCTGGTGATTTAGTTATCCATAAGGGTAGTAGTTTTGCCGCTTCACATATACAAATTGTAGAAACAGTAAAAGATGACAAGACATTTACATATATTGGTGGTAATGAAGGTGGATCAAATACTAGTAGTAGAGTTACAAGAGGAACTCTATCTGTTTCTAGCACTACAGGATTTGTATCACCTAATTATAGTACGGCAGCTTGTTCAATAACTTTAAAAGGTAGTAGTAATGAGGCAAAATGTTGGAACTTCTTTATTGATAAAGGCTTTTCTAAGCAGGCAACTGCTGGTATAATGGGTAATTTATATGTTGAATCGGCTGGTACTTTTGATCCGGGCATTCATGAATTTGGTGGTGGTCCTGGTATCGGTATTGCTCAATGGACATATCCAACCAGAAAGAACAATTTGTATAATTTTGCCAAAAAACAAAACAAAAAATGGAATAATTTGGATGTTCAGTTGAATTTCATTATATGGGAATTAGATAATGGTTCATATTTTGATGTCAAGAAGTTTAAAAAGCTTACAAGTATTGATCGGGCTACTTATTTGTTCTCTCATAATTATGAAAACCCAGCCCAACCAGATAATCCGGCTAGATGGACTGCAGCTAAAAAGCTTTATAAAAAATATGGAGGGAAATAATGAAAAAAAGTGATATTAGAGCCCTAATAATTATAGGAATAATTTTAGTTATAATATGTGTAGTTGCCTATGTATTAAATATTAAAGAAAACCAAATTTTTACAAAAACCAAAATGAAAGATATTGAATTTCAAAACATGGAAATATTAACTGAATTAACAAAAAATGAGAAGGAACACTTTAAAGTAAAAATTTTAAATTATTTAAACAAAAAGCATTATTCATACTATACGAAAGTTATATTTAAAGAAGTAGAAACTGAAGAGGAAAAGACTTATATTTACTTCTATCTTAATAATGATTTTAAAACTTTATTTGAATGTCTTTATAACAGTGGTAATCCTAAAATTTACTATTTGGGTGATGAACTTGTTCCTCATTATGAATCAAAGAATACCTCTAAAATGTATATGGCTATTATGAATCCAGAAGAGTATAAAGAATATATAGCTCAAGAAAAAATTAATGAGGAAGAAAATAAGCAATTAGAAGAGAATAATGCTGATGTTGAAAAGGATTTAGAAGAAACGAGAAAGGAAGCAGAAAAATTACCACCAGATGATGATAATCCGTGGTCATGATGGTTGTTAATTATGGTAATTTGTGCTAATATTATATATATAGATGGAGGAATACTATGAAGCTAAAAGTACGTGCTGAAGCTGAAGATTGGTTTATGTTTATTGTTTTTGCAATATTTCTATTTTATGTTGTTTGTCTAATAGTATCAAATATTGCTTCTTTTTCAGCTGATGGTTTATTTTCAGGACTTAATCCCTTACCAGCTTTAATGCCTGGAAGAATTTTAACGACTCTTATTTTCTATTTTGTTATTTTAATAGGAATTTTTGTTAGTGTTTCTTCTAGATTTTTCGAATTTGATGAAGGTATTGGTATTGAAACCAGTAAAAAAATGAAAGGTTATTCTAGATGGGCTAAAGAAAGTGAAATTCAAAAATATAAAGGAACAGAAATGGTTAATGTCCGCGATGATAATATTAAAACAGCGGGTGTTCCTATTATGTATAAAGGTAATAATATTTGGGTTGATAATGGTGAAAACCATACCTTAGTAATTGGTGCTACGGGTTCTGGTAAAACACAATCAATAGTTTTGCCAACTGTAAAACTATTATCTAAAGCGCGTGAGTCAATGGTTATTACTGACCCTAAAGGTGAAATATATGAAAAAACAGCGGAAATGTTAAAAGAAAAAGGTTATCAAATATTACTTCTTAATTTCCGTAATCCGCAAAATGGTAATTCTTGGAATCCAATGGATTTACCATATAAAATGTATAAAGAAGGAAACCATGACAAAGCAATTGAGCTTTTAGATGATCTTGCTCAAAATATTTTGTATGATGAATCTAATAAAGATGATCCATTCTGGGAGCAAACTTCTGCTGATTATTTTTCCGGTGTCGCTTTGGGGCTTTTTGAAGATGCGCGGGAAGACCAAATAAATATTAATAGTATTTCGTTAATGACAACAACTGGAGAAGAGAAATTTGGTGGTTCTAACTATATAAAGGAATACTTTAATATGAAAGATCAAACTAGTCCAGCGGTTATTAATGCTTCTGCTACTGTTAATGCACCAACAGAAACTAAAGGTTCAATTCTTTCGGTATTTAGACAAAAAATAAAGATGTTTGCATCTCGGGAGAATTTGTCAGAAATGTTATCATATTCTGATATTGATTTAAAAACTATTGGTGAAAAACCAACTGCAGTATTTATTGTAATCCAAGATGAAAAGAAGACATATCATGCTTTAGCTACCATCTTAGTTAAACAAATATATGAAACACTTATTTCAGTTGCTCAAGAACACGGTGGGAAGTTACCAGTGAGAACTAATTTTATCTTAGATGAGTTTGCTAATATGCCACCTCTAAAAGATATTACAACAATGATTACCGCAGCTCGTTCTAGATTAATTAGATTTACAATGATTATTCAGAACTTTGCCCAACTTGATCAAGTATATGGTAAAGAGAATGCCGAAACAATTAGAGGTAACTGTGGTAATTTAATTTATTTGATAACTACTGAGCTTAAAGCTTTGGAAGAAATATCAAAGATGGCTGGTGAAGTTAAATCTAAAAAGGATGATAAAACAGCTTCAACCCCATTAGTAACCGTTACTGATTTACAGAAGATGAAAGAAAATGATGTCATTATAATGCGACTTCGTCTTTCACCATTTAAAACACATTTTACTCCTGATTGGCAAATTAATTGGGGTAAAGAATATCCTAAGGCTGAATATCCATCTCGAACAAAAAGAGAATTACATATCTTTGATATTAAGGAATTTGTAAAACAAAAGAAAAAGGAAAAGATTATTGAGATGATGAATGCAGCTGAGAAGGAAGAAAAAGAAATGACTCCAGCTTTAGAAGTTAATGCACCAACAATGACTCCAAAACCAATTCCAAGTGCAGTTCCTCCAAGGGCAAATGATGATTTAGGACTTGATGTTGATGAATTGGTTAGAAAAATAGATAAGAAGATTGCAGAGCTTGAAAAAGAAGAGGAAGAAGAGAAAAAGAAACAAGGAGTAAAAGGAGTTGCAGAGGTTAATCCAGTTAATGAGACTAACAGAGTTGTTGAGGAAAAGAAACCAGTTAATTTGGAATTAAAGGATGAAGAAGAAGAGAATTATTTCGATGATTTCTTTGATGAATAATAAATTCAAGGGCGGTGAAGAAAATGAAAGATGATTTAAAAACAGAAGTAGTTAATCCAAAAATTGACGAGGAAAAGAATAATAGTAGTAATAGTAATAACAGTAATAAAAGATTAGGAGATATTTTTAGAAAACTATTGCAAAATAAAATGATGAAATATATGGCTATGTTAGTGGGATTGTTAGTTATATTTCTATTAGTAATGTTCATAGTATCAGTGTTATTTCCAGGAAAACCATCTTATGCTAAAGTAGAAGCAACAATGGAAAATGCGGCTAGAGCTTATTTCCATGATAGGAGTGATAAACTTCCACAGGAAGAGCTTTCTTCAGTTAGTATTTCAGCTGAAAGATTAGCAGAATTAAAATATATGAAGACTTTGGATAAATATTTTAAGGATGATACTGAATGCTCTGGTAATGTAACTGTTACTAAGAATTCTGCTGATACTTATAATTATGTAGGATATTTAGATTGTGGTAAGGATTATGTTACTAAGGAATTTTATAAAGAAATAATTGCCTCTAAGAATATAGTTAATAATGGTTATGGTATTTATAACATCAATAACGAATTTGTTTATAAAGGTGAAATTAAGAATAACTACGTTATGGTAGATAAATTACTATTTAGAATAGTTAAAGTTAATTCTAATAATGAAGTAGTTTTAATTTTAAATGAGCCAACTACAGTAAGAGAAGTTTGGGATGATAGATTTAATAAGTCTCAAGACTGGGAATCTGGTATTAATGATTATGCTGTTAGTAGAGCTAGAGACTACTTAAAGAATATGTATAATGTTGGTGATGATGAAACCATTAAACTAAGTGCAAATACTAAAGAAAAACTAGTTAAGTTTAATGCTTGTATTGGTAAGAGAAAAGAAGATGAGACAGCAAAAGATAATTCAGTTGAATGTAGTAGAATGCTTAGTAATCAAATTATTTCTCTATTAACAGCAGCTGATTATATGAATGCTAGTGCTGATGTTAATTGTCGTAAAACATTAGATAAATCATGTAAAAACTATAATTATTTAGCTGATGATGAAAACTGGTGGCTTTTAACTGCTGATGCTAAAAATGATTTTGAAGTATATCAAGTTGATAATGGTATTATTGATATATTTAAGGCATCACAAACAGCTAAGTTTAAACCAATTATTCATTTAGGACCAACTACTAAATATGATAGTGGTAAAGGTACTGAAAAAGATCCATATGTGTTTAGATAGACCATAATGGTCTTTTTTTCTACACCGAAAATCTCCTTTTTATATAATATATTAGGAGGTTATATGAATATTTCAATTGATATTTTAAAAAGATTAATGGAGAAGGAAGAACTCCATTTAATTGATATTAGGTCTTCATCTCAATATGGAAAAGGTAGTATTGAAGGAGCAGTTAATATACCAGCTGATCAACTTATTAATGCTCCTAGTAAATATTTAAATTTGTTCGAAGAATATTACTTTTTTTGTGAACACGGTTATACTAGTAGGAGAGTAGTGTCTTTTCTAAATAAACTAGGTTATCATGTATTTAATATTGAAGGTGGTTTTTCTTTATATAATAAAAAAAGATAGTTACTATCTTTTTTTGCGGTAATAATAATTATTAGTATAAACTGGATATGGCGGATTATAATACATTGGGCAACATCCTTGATTATAATTACCATAGAAATGAGATTGATTGTTATTAGCAATACCATATCCTAAAGCAGTGCCGGCAAGACCACCAACTACAAAGGGTGCCCAAAAAAACCGATCACCATTACTGTTTCTAAAAACTTGATTTTGATACATAATAACACTCCTTTATAATAGCATATGTTTTATTTATAAATTGGTTAATGATATGATATAATTTTATTAGGTGATTAATATGAAAAGACTTCAAAAAGTTATTAGTGAAGCAGGTATTGCTTCTAGAAGAAAAGCTGAAGATTTAATAGTAGCAGGAAAGGTCTCTGTAAATGGAAAAATAATAACTGAATTAGGATATAAAGTAAGTGGTAATGATATTGTTTCGGTGGATGGTAAAGAGCTAAAAAAAGAAGATAAAGTATATTTTTTACTTAATAAACCAAGAGGTGTAGTATCAACAACTAGTGATGAAGTAGATAGAAAAACTGTCGTGGAATTAATTGATACTGATAAAGCTATTTTTCCAGTTGGTAGACTTGATTATGATACTACAGGACTTATTTTGCTTACTAATGATGGTGATTTTGCTAATATTATTACTCATCCTAGTTATGGTTTAAAAAAGACTTATATTGCTAAAATAAGTGGCATTTTAAATAAAGAAAAGGTAACTTTATTAAAAGATGGTATTCTAGTTGATGGTAAGAAGAGTAAAGCTTTAAGAGTTAAAACTCGTCGTATTGATAAAAATAAAAATACTTCTATTGTAGAAATAGAAGTAGCTGAAGGTAGAAATCATATAATTAAAAAGATGTTTAATGAAATAGGTTATGATGTTTTGAAATTAAAAAGAGAGAAAATAGATATTTTCACGATTCAAGGGTTAAAATCAGGTGAATATCGCAAATTAACAGTTAAAGAAGTAAAAACGATTTATAGTTATAAAAAGAATCCTTAATAAGGATTCTTTATTCTTCTTCTGTAGAAATAGCACCAGTAGGACAAGATTCTACAGCGCTAGCAACTTCATCTTTTTGATCTTCATCTATTTCTTTCATAATTACTTCACTTACACCATCATCATTAATTTCAAATACTTCTGGGGCAATCATTTGACATGCTCCACAACCAATACAAGCATCTTTATTTACTTTTGCTTTCATTATTATCAACTCCTTAAGTTTAAGTATACTAGAAAAATCTCTTTACGTAAAGGACTAATTAATTTTATTTAATTGTAGATAATATTATGTTATATTTATTATAAGAGGGTGATACTATGCCTAGTAGAATGGATCGCTATAAAACTAGTGTTGATAGTAATGATAATACTTTGAGCCGTAGTAGAAAGAATAAAGACTTGTATGATGAGTTAGCAAATAACACTAAATATACTAATTTATCTGATGTTTCTAAGTTGACAGCAGTTGACGTTAATAAGGCTAAAAATTCAAAGACACGTGAAAGCTATCAACAGCTTAAAGAATATAATTTAAATGCTAGTAAACCAAAAGTAAAAAAAGAATTAGAAGAGTTTAATTATATTTATCAAGATCATGAGAATAGAATTTATGATATTAATAGTATTTTAAAAGAAGCGAAGAAGAATAGAGAAAAAGTAGATGAATTAGAGAAGAAAAGGAATTTAAAGAATGATGAGTTTAATGCTACTAAAGGGGAACATAAAGAACTAAAAGAAGAGAATAAAAAGATTAAGAGCTTAATTGATACAATTGCGACTAAAACTTTAAATGGCGAATTAGATGTAAAGACTTCTACTGATCTTTTAAGCGATATTATGGCTAATGATGAAAACGATAAAGTAGAAGCTATGGAAGATAAAGAGAAAAAGGAAAAGTTGCCGGATATCAAAGAAACAACTGAAGATTTAAGTATTAGTAGAAAAATAATTGATAAAGATGCTATTAATCTAGCTGATACTGCTAAAGCCTTAAGTCAAGAAGAGAAGAAACCTAAGAAAAAAGCTTTGGAAAAGACAATTGATGATTTGTTTAAAGATATGGATAAGTCTTTTTATACCAAGAGTATGGACTTATCAGATAAAGACTTTGTAAGAGACTTACAGACTGAAAAAGAAAGTAAACATATCTTTATTAAAATCTTATTAGTTTTAATGGTTTTAATTATAGCTTTAACAGTAGTATATTTCGTTGTCTTTAATGGGGATATTGATAACGTAATGAAGTTAATTAAGAAATAAGAAATATTTTAAATATTTCTTTTTTTTATTTAAAAAAGTATTCTAACATGATATGATAGATATAGTTAAGGAGTAGTAGGCAGTATGAAAATAAACTTTTTAATTAATGATTACAATTTAATCTGGAATGTGTTATTTCAAGCATCAATTACTGAAAGAGTACATGCTTTAAAACAGAAATTATGGAATAATTATAAAGATGCTTATAGTAAAGCTTATGGTGATAATAAGGAAATAATTGCGGATTATAAAAACTTTATTCCTAATGACGATACTATTTATAATATGGTAGTAGGAAATGAAGTCTATTTAAATGTAAAAAGACAGACGGAGAAGTACCGGATAGAACTTTTAAATCTTTGGGATGAAAATAAAAAAGAGATAAATAAATTTGTGAAAGAAGTACTTAGAGTTGATATTGCTCCTGTTGATATTTTAGTAGTAAATCCCCATGTTGATAATATGGATTTATCAGGGTTAGAAAAGGGTAACACTATTGTTTGGAGTAAGAAAATAGATAAAAGTGATAGAGCTAAAAGTCTAGCTATTTTAATCTATTCAATTGCTTCTAAACTTACGCTTAAATATAAAGGTGATGATCTTTTAATAGCGCGTTCTGTTTTAGAATTGGCTTTATTAAATGAATTGCCTACTAGACTAGGAAAAAGAAGTTATTATTTGATGGGTAGTACTAACCTACAGCCAATTAAAAGGCAAATATATCCTTATTTTCTTATGTATTTAGGAGTAACTAAGGAAGATATGACTAAATATATGGAAAGGGATAAAATAGCGTTTGACACTTTTAAATATACTTCAGAAAGACAATTAAAGAATGTTGATATTAATAGATTTATTAAGTTTTGTATAAATAATAAAAAGTATATTATGAGGATGAAATTATTGGATACAGTTTAGAAAAAGAGGTGATGCATCTTGGAAGAAAAATTAAAGATATTTTTAGATAAAATAGAATTAGATAAAGATTTATATAATTCTTTTTTAGACAGCAAATTAACCAAGATTAAAATCAGTAGCGATAAGAAAAGATGGACTTTGTTTATAGATGTGCCCAAACCTCTTGATTTAGATATTATTAAGGAAATAGATTCTAAAAAGAATACTTTAGATAAAAATGCTGAAGAAATAAATATTGTGTATAATCTTGATAACTTAGATAAAGAAGTACTTTTAACTTATTATCCATACGTATTGGAACAATTAAAGACGAAAGTAAAGATTGTTGAAAAATATAGCGATTTACTAAAATTAGAAAGTGACAAGCTAGTTTTAGTTGTGCCTACCAAAATAGAGATGCGCACTTTGGAAAAACTCTTACCAGATATTAATAAATTATATAAGATGTATGGTTATGATGTTGATATTGATATTGTTTTGCGTAAAGAAGAAAGAACAGCTATGGAAATTGCTAAATCTTTAGAAGTCGATTATGAAAAATATGCTAAACTCAAGAATAAGAAATTAGCTATTGCGAATAAAAAGAAAGTACCTGCTAATGATAATTGCATTTTAGGTAGAACTATTAGAGGAGAGTCCCTACCAATAAAAGCCTTATTAGGTGAAGATAATGATGTTGTTGTTACAGCTAAGATATTTGATACTGATTTTTTTGAATCAGCAAAATCAGAATTTAAGATTATTACTCTAAAAATTACTGATTACACTGATAGTATTTATTGTAAAATCTTTACTCGTGATCGTAACGAATTTAATCGTTTAAAAGAAGATTTAAAGAAGAATCAATGGTATAAGATTCGTGGTTATACTAAGAATGATGCTTTTGCCAAAGAACTTGTTTTAAATGCCCGTGATGTAGAAGTAATAGAGTCTTTAGATGAAGAAATTGTTGATAATGCTAAAGAAAAAAGAATAGAACTACATGCTCATACTAAGATGAGTCAAATGGATGGACTTTGTGATGAGAAAGAGTTAGTTAAACAAGCTATCGCTTGGGGGCATAAAGCTATTGCGATAACTGATCATAATAGTGTACAAGCCTTCCCAAATATTTATAAATTTGTGACTAATCATAATAAGAATTTAAAAGAAGGGGAAGAACCATTTAAAGTAATATATGGTACAGAGCTAACTATTATTGATGATAATGTAGATATTGCTCTTAGACCTAATAAGAATAATTTACTTGCTGAAACTTATGTGGTTTTTGACTTTGAAACTACTGGTTTTAATGCTGGTGGCAATGATTCTATTATTGAAATTGGTGCAGTTAAGATAAAAAATGGTGAAATAATTGATAAATTTGATGAACTTATTAATCCTGGAGTAAAACTAGCTAAGAAGATAACAGAATTAACAGGTATTACTGATAAAATGTTAAAAGATAAAGATAATGAAGAGACGGTCGTAAAGAGATTTATGAAGTTTTATGGTGATTTGCCTCTTGTTGCTCATAATGCTAAGTTTGATGTATCTTTCTTAGAGATGGCTCTTAAAAAGTATGATTTAGGGGAATTAACTAATCCAGTTATTGATACTTTGGAACTATCTAGAAGTATTGATAGTAATTATGGAAGACATTCTTTATCTGCTATTGTTAAGAGATATGATGTTGAGTTTGATGAAGAATCTCATCACCGAGCTGATTATGATGCTTTAGGGACAGCACTAGTCTTTCATAAGATGTTAAAGAAATTATCCAATCGTAATATTGAAACAATGGACCAATTAGAAACTATTGTTTCCAAAGAAGAAATTCATAAGTATGGACGTAGTTATCATGTTAATTTATTAGTAAAGAATAAAACGGGGTTAAAGAATTTGTTTAAGCTTGTTTCTTTAGCTAATACTAAATATTTATATAAAACTCCTAGAATATTGCGTAGTGAAATTGAAAAGTATAGGGAAGGTTTATTAGTTGGTTCCGGTTGTTATGAAAGTGAAGTTTTTGTTAATGCTAGGAGTAAAACAGAAGAAGAATTAGCTGATATTGTTCGTTTTTATGACTATGTTGAAGTGCAACCAATAGAGTGCTATTCTCATTTAGTAGAAAGTAGTGAATTTGCTAATGAATTGGAACTTTCTGAGCATTTAAAGAAGATTATTAGAGTTTCTGAAGATGGTGGCAAACTAATTTGTGCTACTGGTGACGTTCATCATCTTAAAAGAGCGGATCGGATTTTTAGAGAGATTATTGTTAATCAAAAGGTACCTGGTGGTGGTAGACATCCTTTAGCGCGATATAAAATAGATAAAATACCTTCTAATCATTTCCGGACTACAGAAGAAATGTTTAAGGATTTTGGTTTCTTAGATGAAAAAACTAGAAATAGGATTATTGTTGATAATCCTAATAAACTTGCGGATATGGTAGAAATGGTTGAAGTTATTATTGATACCCATGGGGTTCCTTTTGCTCCTAGAATTGCCAATTCTGAGAAAATAGTAACCGATATGGTCTTTGAACGAGCTACTTTCTTATATGGAGATCCTCTTCCTCATAATATTTTACTTAGAATTAGTAATGAATTATATGGAGAGTATATTGCCAAAGTATTAGAAGAGAAATACTCAAATAAAGAGTTTGATAAACAGCTTTATAAAGTTTTGACTGCTGGTAGTAAAAAAGTAAAAGAAGTAATTAAAAAAGAGCTAGCACAAGATGAAAATATTAAAAATATTGATAGTGAACTAAATAAAAAACTAGGAGGAGTTATTGGTGGTAATTTTGATGTTATTTATTTAATAGCACAAAAGTTAGTAAAACATTCTAATGACGAGGGATATTTAGTTGGTTCTCGTGGTTCGGTAGGATCTTCTTTTGTCGCAACAATGATGAATATTACGGAAGTAAATCCATTACCTGCTCATTATTTATGTCGTAATGAGGAATGTAAATATTCAGAATTTGTTGATGAAGAAGGAAATCCTTATGGATTAACATATTCATCGGGTTACGATTTACCAAATAAAAAATGTCCTAAATGTGGCAAAAAAATGGGTAAAGAAGGACAAGATATGCCTTTTGCGACTTTCTTAGGATTTAATGCTGATAAAGTACCAGATATTGATCTTAACTTCTCAGGAGAGAATCAAGCTAGTGCTCATGCTTATACCAAAGAATTATTTGGAGTTGATAATGTTTATCGAGCAGGTACTATTGGTACAGTAGCTGATAAAACGGCTTTTGGATTTGTTAAAGGCTATTTAGAAGAACATGGTATTAATGATATGCGAAGTGCGGAAATTGAAAGGCTTGCTTTAGGTTGTACAGGTGTTAAAAGAACAACTGGACAACATCCAGGAGGTATAGTTGTTATACCAGATTATATGGATGTCTTTGATTTTACTCCTTATCAGTATCCAGCTGATGATATAGAAGCTGAATGGCGGACAACGCATTTTGATTATCATGCTATTGATGAAGATGTTTTAAAACTAGATATACTAGGGCATGATGATCCAACTGTTTTAAGAATGCTACAAGATTTATCGGGACTTGATGTTACTAAAGTACCAATGGATGATAAAAAAGTCTTTTCACTACTTTCATCACCAAAAGAATTGGGAGTAAGTAGCGAAGAGATATTATGCCCAACAGGTACTTTAGGTCTACCAGAAATGGGTACTAAATTTGTTATTAATATGCTAGAACAGACTAAACCATCTACTTTTGCTGAAGTAGTTAAAATATCTGGTCTTTCACATGGTACCGATGTCTGGGCTGGTAATGCTTCTGAATTAATTGATAAGAAAATAGTACCATTTAAGGATGTTATTGGTTGTCGTGATGATATTATGGTTTCCCTAATGAACTGGGGAGTAGAACCATTAACGGCCTTTAAAATCATGGAGTTTGTTAGAAAAGGTAAAGCTTCTAAGGACAAGAAAAAATGGAGTGAATATAGTAAGATAATGCGTGATGCGAATATTCCTGACTGGTATATTGATTCTTGTTACAAGATAAAATACATGTTCCCAAAAGCTCATGCCGTTGCTTATGTTATGAATGCTATAAGAATAGCTTGGTTTAAAGTATATCATCCACTATATTATTATGCTGCTTATTTTTCAATTAGAGTAGATGACTTTGATATTGAAACTATGATTAAAGGTAAAGATGCTATTAGGCAAAAACTAATTGATTTACAAAATAAAGGGTATGAAGCTACTAATAAAGAACTTAATATTATTGAAACTTTAAAGATTGCTTTAGAGGCTGCTTGTCGAGGTATTAAGTTTAAAAATATTGATTTAAAGAAAAGTGAAGCTTCTAGATTTATTATTGATGAAGAGGAAGAAAATACCCTTATTCCTTCATTTAATACCCTTGATGGATTAGGAGGTTCAGTAGCTAATAGTATTGTTGAAGAACGGTCTAAAAAAGAGTTCTTAAGTATCGAAGATGTACAGTTTAGAGGTAAGGTTTCAAAGACTTTAATTGAGAAAATGGTAGACATGAAAATCCTTGATGATTTACCAGAATCTAATCAATTATCACTGTTTTAGTAGACAAATCCCCCAAAATGTGGTATAATACAGGCACTTATTTGAGGGGGGTGGAAGAAATGACAGATTTAGAAAAACTAGAAATGATTGTTAGTGAGATTAGCGGTCAAAATTTAGATATCGATAAATCATTGCAGTTGTTAGAAAAAGATGAGAAGCTTTATAAGCTTGTAGAATCAGTAGCAACAGATAATCTAGAATCTATTAAGAAAAATGGTTTTATGGATAATCTAAAGAGTGAGCAATTAAAGAGTCTATTTTCTTCTTATTGTATCTTAAATAACATAACTATGGAAAATCCCGGAGAAAAGGAAGAATACGAAGGTAAAAAATATGACATTAATGCTCTTTCAGCTGATGATGATGTCAAAATGTATTTAACTAGTATTTATAAGCATGCTTTATTTACACCAGAAGAAGAAAAAATGTATGCTTATAGAATACTTGCTGGAGACGAAGAAGCTAAAGAAAAATTTATTAATGCCAATCTAAGATTAGTTGTTTCAATTGCTAAAAGATATTTAGGTCGTGGTGTTGATTTCTTAGATTTAATTCAAGAAGGTAACATAGGTCTTATGAAGGCTGTTGATAAATTTGATCCAACTAAAGGTTACAAGTTTTCAACATATGCTACTTGGTGGGTGAGACAAGCAGTTACAAGAGCTATTGCTGACCAAGGTAAAACAATTAGGGTACCTGTTCATAAAATAGAAAAAATCAACAAAATGAGAAGAGCTAAAAGGCTATTGACTGAAGAATTAGGGTATGAACCTAGTAAAAGAGAATTAGCTGAGGCTATGAATGTTTCTCTTGAATATATTTATCAACTAGAGCGTGAAGCACAAGATCCAGTTAGCCTAGATACTCCTGTTGGTGATGATTTTGAAGATAGTACTTTAGGTGACTTTATTCCTAGTGATACAGATGTTGAAGAGGAGTATTTAAAAACTGATCTTCATGATCGTATTTTTGAAATGCTAGATAATTGTGATTTTAAGAAAAGAGAAAGAGAAGTTCTTATCAAGAGATTTGGTCTTGATGGCGAATCACCAAAAACATTGGCAGAACTTGGCGATGAGATGGGAGTTACTAGAGAGCGTATTCGTCAAATAGAAGCTAGAGCTTTAAGACGTCTTCGTCATCGTAAAAGTAGTCTACATAAGATAGGTGATTATTCAACTAATAATGACTATCTTAATGTTTGGAACAAAATGATGGTGAAGAAAAAATAATATTATAATTTAATAAATGTGCTATAATAAGGTAGAGGTGAAATTATGAAAAAAGCTTTATCTAAAAGAGAAAAAGTTTTAATTGCAATCATTATTATCTTATCAATAGCACTTTTAGTTTGTCTAAGTGAACTTATGAGTAAGAACACTTCTTCTAAAAGTACAAAGACTGATACTGATACTGTAGAGACAACTGGTGATGAAAGTTCTTCAACACAAGCTATTAAAGATAGTGAGAGTATTAAAGACGAAGAAAAAGGAGATTTTAATAATATTTCAATTGATGATTATTTAGAATTGAAAAAAGGTAGTGAAAAGAGTATTATTTTTATTGCTCGTCCTACTTGTGAGTATTGTGCTATTCAAGAACCAATTACTAGATATTTAGTATATAAATATGGTCTTGAAATTAATTATCTTAATACTGATGAAATGGAAGCTGATGCCCAAAATAAACTAACTAAATCTAGTGATATCTTTAAAGATGGTGTCAGTACACCAACAACATTAATAGTTCAAAATGATGAAGTGGTAGATGCTGTTATTGGATTAATGGATCTTGAACATTATACGAAGTTCTTTAAAGATTATGGTTTAATTGATTAGGAGGAAAATATGAGTGTATATGAGAAAGTTTTAGAGTTTAAAAAGAAATATCCGGGAACTGTTGCTTGGCGACTTAAGAAAAATGCTAATATAGTTGAGAAGCACTTAAATTCTGATGAAAAGCTTTTATATGTTTTTGCTGGCCAAAAGAACGATAACCCTTTCAATATAGTTTCTTCTGCTGTTATTGCTTTAACTAACAAAAGGATTCTAATTGGTCGTGATCGAGTAATAGTTGGTTATTTCCTAGATTCAATAACTCCTGATATGTTCAATGATATTAAGGTTCGCAGTAATATTATTTGGGGAAGCGTTGATATTGATACAATTAAGGAGTTCTTTACTATTTCTAATATTTCCAAAAGAGCTTTAGTAGAAATTGAAACTAATATTTCGGAATATATGATGGAAATGAAAAAAGAATACGGTTCAGCTAATAGAAAATAAAAAAAGGAGCATTTGCTCCTTTATTTTTTATGGAGGGCCTAGTCGGATTTGAACCAACGATCAGGGAGTTGCAGTCCCACGCCTTACCACTTGGCTATAGACCCATGACACTGATAATTTTACACTATTTGAAGTAACTTTGTCAATGTTAATGCAAACTATTATAGTTTATGACTAAATAGGAAATGGTTGAAAATATTTAATTTTTTTGGTATAATAGCACGGCAAAGAGGGGGTGTAGGCATGATTTATGAACATCATGATAACTGGAAGCTCGGTAGAATTGTTGACCTTGCTACTGTTAATCCTGAAGAAGCACTTCTTAAATACGAAGAATATTTAGAAAAATATCCTAAAGATTATAGTGCATATACTGATTATGCTTATACACTATTAGTATTAGGAAGAGTAGAAGAAGCAGAAAAATTGATGGAATTTACCGAAAGGCAAATAGAAAAAAGAAGTGATAACCATTTTAATTATGTCATTAAGAATAAGATTAGATTATTTATCCTTCAAGAACGCTATGAAGAATTATATGATTTATGTCTTGAATATCCTGATATAGACGATAATATTAATCCTATTATTGTTTATTGTAAAGAGAAATTAGGTATTTTGAAATCAGATGATGTTTCTAATACAGGTTACTTATGTCATCAAATAAGTAATTATCAAGAAGAAGAGTTTTTAAATCATATTGAAAGACATTTAGATAGTGATAATTTAGATCAAGATGAAAGAAGTGCAGCATACTTTAGTTATGATTTCCCATTAGAAAAAATTCTTAAAGAATCTAGAAAGTATATTCCTTCTTCATTAAGAGTTTTACAGTATTATATTTCTAATACTTATTTCTTTAAATACGATGCTTGTGGTAAAGTAGAAAATCAGACAGCTGATTATTTTCGATTAGTTACTATTCATGATACTGATAAATATATTACTATGTTCCCTTCAATTGAAGGAGAAGGTTTTCCATATGTTAATTTAAACTATTTAAGAGAAAAAGAAGAAAAACCTAAAGTAAAAGTGAAAAGCCAAGTGGAAAAATTTAATCAAAGATATTCAAAAAAATAAGCGTACTTATATAAGTACGCTTTATTATTCAAATGGAGCGGATGAGGGAAATCGAATCCCCGTCACAACCTTGGCAAGGTCGTATTCTAACCACTAAACTACATCCGCATGTACTTATATTCTATCATAAAATTATTCTTTTGCAAGGTTTTTGATGACAAAAAGAGGAAAATATGGTATAATATCAGGCATTAAATGGGGTGGTGGTTAGATGGAGACTATCAGCTTAAAAACAAGAGATATTAAAAACTTAGATATCTATAATCCGGGTAATGAAGTGTTTAATACAGAATCTAAGCTTTTTGTATTGGAACCAAAGACTTGGAGTAAAGAGGGGACTTTATTTAAGTATTTATTTATCAGAAGACAATCTAGTTTAGCTAATAAACTTTTTACAGTAACAATGTTAAATGATAATAAAAAGTATTTTGATGACAAGACTTTCATTGTTCCTAATAAATTAGTCAGTGTTGATAATGAAATATCTGGTTTTACAATTCCTTTTCTTTCTAATAATACTAACTTAGGCGTTCTTTTAAATGATCTTGCGGTTGATGATAAGACTAAAATAAAATATTTAAAAGAATTAGGTAGTATTTTGAAAAGAACTGAGGAATTAAATAAAGAAGGATTTGATTTTGCTTTTAACGATTTACATGAGAATAACTTCATTATTAACCATGATGATAATGATAGATTATGTGCTGTTGATTTAGATAGTTCTTATATGAAAACTAATTATCCCCAAGCATCACATTATTTATTTAGTAATATGTATATTAATAAAATATCTGAGAAGTACCCAGTTAATAAGTTTGGGATTAATATACCTGATTTAAACAGTGATTTATTCTGTTATAACATGATTATTCTAAATACTATTGCTCATGGCAAAGTATCAAAACTAAATATTAATGATTATTATATGTATATTAATTATTTAAGTGATTTGGGTTTTGGTGATAACTTATTAGCATCTTTTAGAGCGGTATATAGTAGTGGTAATAACATGAACCCAGTTAATCATTTAGATGAGATAAACAGAGAAAAATTAGGTGCAGCTAATTTAAATGTATTTCGTTATAAAGTTAAGACAAAGCAATTATTTTAACTTGAAAAAGAATAGTTTTTATTATATAATTATCTAGAAATACGATGAACTTGAGGAGTAAGTATTTAATTCTTAAAGAGAGACTATGGTTGGTGAGAATAGTTAGATGATGATACTGAAGGTAGCAAGGGAGTAGGTTTTCTGAAAAGAGTAAGTTAATTCCGGAGATGTTTCCGTTATCAAATAAGAGGTATTTATTAATATAAAATAAGGTGGTACCACGAGAACTTCGTCCTTAAGCGTAGTTCTTTTTTTATTATTAGAAGGTGATATTTATGAATTTGGACCAAGCAATTGAAGAATTTAAAAATTATACTAAAGACTATATTAATCTAAGTGATAAATGTGTCTTAAAGATAAATCACACCCTACGAGTAGTCAAAAGATGCGAAGAAATAGCTGAGTCATTAGATTTATCAAAACACGATATTGAGCTTGCCAAACTTTGTGGTCTTCTTCATGATATTGGTAGATTTGAACAGTGGAAAAGGTATGAAACATATTATGATGAAAAAAGTGTTAATCATGCTTTATTAGGAGTAGAGGTCTTAACTACTGATAACTATATTAAGAAGTATGTTGATAATGAAGAAGATGAAGAAGTAATTCTTAATAGTATTAAATACCATAGTCGGTATCAAATACCTCAATATTTAAATGAGCGAGATAAAATGTTTTGTAATATCGTAAGGGATGCCGATAAATTAGATATTTTATATTTATATACTATAGGGCAATTAGGAAGTAAGAAAGTAGAAGAGCCTTTTAGTGAAAAAGTTTATCAAAAATTATTAAATAAAGAAGAAATAAAAAGTACTGATAAAAAAACTAAGGGTGATATTATATCGATTTCTTTAGGATTTGTCTTTGATATTAATTTTAATAAAAGTTTGGAAATATTATCAGAGGAAAAATATCTTGATAAAGTAATAGATCTTTATCAAGAACGAACTACTAATGAGGAGTTTAAGAGTCAACTAGAAGAAGTTCGCAAAGTAATAAATAAATATATAAAGGAGCGGATAGGATGTTAGCTAAAAAATATGATCATGAACAAGTAGAAAAGAATAAATATGAAAATGGTTAAAGAAAGATTATTTTAAATGTGATGAGAAAAGTGATAAAGAACCATATGCAATTGTGTTGCCACCTCCTAATGTTACAGGAGTACTTCATTTAGGACATGCATGGGATGTAGCTCTTCAAGATGTTATCATTCGGTATAAAAAAATGAATGGCTATGATGTTTTATGGTTACCAGGAATGGATCATGCTGCTATTGCGACAGAAGCTAAAGTAGTAAATCGTTTAAAAGAAAAGAAGATAGAAAAATATAGTTACGGAAGAGAAAAATTCTTAGAAGCTTGTTGGGATTGGACTCATGAACATGCTGATATCATTAGGAAACAATGGGCTAAACTAGGTATTAGTTTAGACTATTCTAAAGAACGCTTTACTCTAGATGATGGTATGGCTAAAGCCGTAAGAAAAGTATTTATTGATTACTATAATAAAGGATTAATCTATCGAGGAGAAAAGATAATTAACTGGGACCCTGTTGCTTGTACAGCTTTATCTAATGAAGAAGTTATCTATAAAGAAGAAAAATCTGCCTTTTATCATATTAAGTATTTTTTAGAAGATAGTGAAGAATTTATAGATATTGCAACAACTCGTCCAGAGACTTTATTTGGTGATACAGCAGTAGCGGTTAACGAAAAAGATAAGCGATATAAGAAATATGTTGGTAAGAATGTTATTTTACCACTTATGGATAAAAAAATTCCGGTTATTACTGATGAACACGCTGATATGGAGAAAGGAACTGGTGCGGTTAAAATAACACCTGCTCATGATCCTAATGACTTTGAAGTTGGAAATAGACATAATCTAGAACGAGTAGTTATTATGAATGATGATGCTACTATGAATGAGAATGTTCCTAAGAAGTATCAAGGTATGTCTAGAGAAAAAGCCAGAGAAGAAGTCCTAAAAGATTTAGAGAAACTAGATTTACTTATTAAGATAGAACCATTAACTCATGAAGTTGGTCATAGCGAGAGAACTGGTGTTATGATTGAACCAATGATTAAAAAACAATGGTTTGTTAAGATGAGACCACTTGCTGATCAAGTTCTAAAGAATCAAAAAGATAAGGACACAAAAGTTCATTTTGTACCAACTCGTTATGAAAAAATAATGAACCATTGGATGGAGATTACATATGACTGGTGTATATCAAGACAACTATGGTGGGGACATAGAATACCTGCTTATTATAAAGGTGATGAAATCTGTGTTTCGGAAAAATCACCAGGAAAAGGTTGGGTTCAAGATGAAGATGTACTTGATACTTGGTTTTCTTCAGCTCTTTGGCCTTTCGCTACTCTAGGATGGCCAGAAGAAACAGATCTTTTAAAGAGATATTATCCAAACTCAGTATTGGTAACTGGTTATGATATTATACCTTTCTGGGTTAATAGAATGACTTTCCAAGGAGAAGAACTATTAGGTAAAAGACCTTTTGAACATTGTCTAATTCATGGACTTATTAGGGATAAACAAGGAAGAAAGTTCTCTAAGAGTTTAGGTAATGGAATAGATCCATTTGATATGATTGAAAAGTATGGAGCTGATGCTTTGAGATACTATCTTACAACTGATGTATCACCAGGAACTGATATGAAGTTTGATGAAGACAAAATAAAAGCATCATGGAACTATATTAATAAAATATGGAATGCTTCTAGATTTGTACTTTCTAATATTGAAGAATTAGACGAGATAGACTTAGATAACTTGAAACCAGAAGATAAGTGGATTTTAACTAAACTACAAAAAACTATTAAAGAAGCAACTAAGTTTATGGAAAAGTTTGAATTTAATAATGCTGCTAGTACTATTTATGAATTTACTTGGAATTATTTCTGTGATTACTATATTGAAATGGCTAAATATACCATGGATGAAGATTCTACTAAATCAACCTTAGTATATGTTTTAACGGATATCTTAAAACTACTACAACCATTTATGCCATATGTAACTGATGAAATATATGGAATGCTACCAATTAAAGAAAGTGAAGATATAATGATTGCTGATTATCCTAAATATAATAAGAAGTATATCTTTGCTGAGGAAGAGGTAGTAGTAGATGATTCAATTGAGTTCATTAAGTCATTTAGAAATGTTAAGAAAGAGAATAATATTACTAAAGATATGAAAGTGTTATTTGATACAACTGATAGTAATGATTTAATTGTAAAAATGTTAAAACTAGATGAAAAGATTGTTAAGAAACCACTCGGTATTAATGCTTATAAAGTATTCTCTAATCGTATTAAGGCAACTATATTCTTTGAAAAAGAGGAAGATGATAGTAGAAATGATGATATTATTAAAGAATTAAAAGAATCAATTGAAAGAAGAGAAAAATTACTTGCTAATGAAAACTATGTCACAAAAGCACCAAAGAATGTAGTTGATATGGATAGAAAGAAGTTAAAGGAAGAAAAAGAGAAATTAAAAGTTTTACTTAAATAATATTGTAAACATATGTAAACAAGGATCTATATCCTTGTTTTTATATAGAAAAGAAAGTATAATGTATATATAAGATAAAATAGGTGAATTGTATGAAAAGAGTATTTAGTTTATATAATATATGTTTAGTATTAATACTTGGATTAATATCAGTACTAACTCTAACGACAACAGAAGTAAAAGCTGTTGGTAATGTAATTTGGCCTAATGGACAAACAGCTCCTATTGAACGAACAGTCCAAAATGTTTATAATGCACCAGAAGTTACGTTTTATTATGATATTATTGATCCTAATGGTACCTCAGCTGCTATGTTTGATGAAGGACCTATTGTCAATTCCAAAATTAAGAGTTTAGCTAATAATACTAGTTGTAGTGTATCGTATCATGATTATACAGTTACTCAATTTTCAAGAGCAAATCATTTGCCGGATGGATTTGTTCCTACTGAGGCTAATACAATTTCTGCAGATGGTTATGTACCAATATATATCTTTTCTGAAGCAAGTGGGACAGTGTCATATTATACCGAGGCGGAAACAATTTATTTAAATGCGCAAGCACAATCTATGTTTTCTGAATTTGTTGTTCTGCAATACATAACAGGTGGTCAAGAATGGGACGCTTCATTGGTATATGATATTGGAGGTTTCTTTAGTCATTGTCAAGCTTTAATGGATATATCTTTTGTTACGAATTGGGATGTCAGCAATGTTCACAGTATGAATTATACCTTTTGTGCTCTAACTTCAATTGCTGATAATAGATATTCCGCTTTATCTAATTGGGATACTTCAAATGTAGTTAGTATGGAATATACTTTCTATGCCAGCAATATATATAGTAATGAAAGCATTGCTAATTGGAACACTTGTAATGTTATTTCGATGAAGGGAATGTTTAGAGAGTGTACCAACTTACAAGGATTTACAGCTGCCAGTTCTTGGGATACTAGAAATGTAACGGATATTAGTTATATGCTTTATGGATGTGTACGTTGTGGTGGTGTTTTTCAAATATTGGGACGACCAACGAGTTATGATGGTGCTTTTTATAACACGGATATAACGAATAATGTATATGGTAATTCTTGGTTGACAATCAACTATAATTGTAGTGTGACCAATAATATAAATGCTATTATGGCTACGAAGTCTGGTAATTCTAGAATCCAACTTGGCAGTTGTGTACAACCAAGTGGCACTTGTCCTAATCCGGCATATATTGATCATGATACAAGAGATGGTGCTTCAATAGCAGAGGTCCCTCTTACATTTGATGGTTCAGATACAGTAAGTAATACATATACAGTTAGCGGTCTATTTAATCTAGATTTGAATAGCCTGACCAGGTTAAAGATGCCTATTACTGATGTAGGAACATATACTCTTAAAGTAAAAGAAGTGGGAACTGCTACTGATCTTTATCCTGTTGATGAAGATAATGAATATACAATAGTTATTCAAGCGGAGAATATCCTTGATAACAATGATAGGCCTACTGGTGACTATAATGCTACATTTGTAATTATGGATGATAACGATACAAAGAAGCAAAAGATGGCTTTTGCCGAACCTAAAGATGAGAGTAGATTTGGGCATATTGAATTGACTAAAACTATTAAGGGTATTATGTCTGATCCTACTAAATATTTTGATTTTTCTATTCAAGTAGATGATCGACCAACCTATACTTGTACTGACTATAGCGGAAGTGAAAAGTATCCTATATCTGGAGTAGATTCAGGTCATTATAGTGCCGCTGAAGTTACTAAATGTAAGAGTGGTACTAAAGATACTATATCTTTAAAACATGGACAAACAGCTACTATAGGACAATTCACTTATAACAATAATAATTATGATGCTATTTCAACAGATGATTACTATAAAATAATAGAAGGTACGGAAAGTGATTATACGACTACTTTTAAAATAAATAATGGTAGTGCTACTAGTGGAAGTGATACAGGACTTAATTCTATTAGTAATAGTGGTAATGTGGTTACTTTCTATAATCAGAAAGAAGGTTCTCCAGTTACGGGAATAATCTTAACAATTCTACCTTATCTAATATTAATAGGTATAGGTATTGGAGGAGTACTCTTATATAGAAAAATAGGGGCCAATAAAAGAACTGTTTAATAATTAACTGCGATAATTTTGTATTATTCGCAGTTTTTTGTTATAATAACTTGCGAGGTGGGTTTTATGAAAAAAATTATATTTTATGACAGAGCTAAGGAAATGTGTGAAGCTTGGGAAAAAGAGTTTAAAGATATTGATGAAGTAGAAGTACAAAATGTTGGCTTTAGTGATGTTAAAGCAAAATATGTAGTAACTGATGGTAATTCATACGGAATAATGAATGAAGGTACTGGTCGTGAGGTTAGAGATTATTTCGGTGTGGAAATACAAGATTCTATTCAAGAAACTATTTTTCTTAAAAGAATGAAACCATTGGATGTTGGTAAATGTTTAATGTTTGGAACTACTGATTTAGAAAAGAGTTTACTAGTTTATGCACCAACAGTAGATACTCCGGGTCGTATTAATAAACTTAATGTTTATGAAGCAATGCGTGGTGTTATGAATATGTGTTATGCTACTAAAGGTGATATAGCTATTTGTAGTTTAGGTACTAATGATGGTATTAGTTATGAAGATTCAGCAAAGATGTGTCATAAAGCTTATACAAAATATTTAAAACATATGGTAAAAAGAGAAGATTAATTCTTTTTTTTCTTTACTTGCGAAAAACTTCTTTTTTTATTAAACTTTATTTAGGTGGTATCATGATTGATAACTATAAATATGAAAAAGAATTAATTAAAGATGGTATTAAATATATTGCTGGTGTAGATGAAGTTGGTCGTGGTCCTTTAGTAGGTCCAGTAGTTGCAGCCTGTGTAGTATTACCTCTTAATTTTAAATTAGAGGGACTTACTGATTCTAAAAAACTAAGTGAAAAGAAAAGAGAATTCTTTTTTGATATTATTATGGATAAGGCTTTAGGAGTAGGTATAGGTATTATTGATCATAAGAAGATTGATGAAGTTAACATTTATGAAGCTACTAAACTAGCAATGAAAGAAGCTATTCTGGAATGTGAAAAGAAATGTAAGATAGAGCATGTTTTAATTGATGCGATGCCTCTTGATATTAATCTTCCAACTACATCAATTATTAAAGGTGATTTAAAAAGTCTTACTATTAGTGCTGCTTCAGTTATAGCTAAAGTTACTAGGGATCGAATGCTTTTAGAATTAGATAAAAAATATCCCATGTATGATTTTATCCACAATAAAGGTTATCCAACTAAGAAACATTTAGAAGCTATTAATAAATATGGTATTATTTTAGAACATAGAAAAAGTTATGGACCAGTAGCTAAATATCTTAAAGAACATAGTAAATAAAACGACAATAGTCGTTTTTTTATAAAAGTATAATTTATTGACTGTTTTTTTAAAATAATTTCTATAATATAAATAAAGAGTTAAATATGTAAAGCTATGCATTAAATATTTGACAAAAGAATAATTAATTAGTATAAATAATAAAGAAAAGGAGAAAGCTTATGGGTAAAAACTTAGTTATCGTAGAAAGTCCTAGTAAAAGTAAGACAATTGAAAAGTATCTAGGAAAAGATTTTAAAGTAGTATCCAGTAAAGGTCATATCAGAGATTTAGCAACTTCTGGTAGATTTGGATTAGGTGTTGATGTTGATAAAGATTTTAAACCTAATTATGTAGCTATTAAGGGTAAGAGCAATGTCATTATTGGTTTAAAAAGAGATGTTAAAAATAGTAATATGGTTTATTTAGCATCCGATCCTGATCGTGAGGGAGAAGCTTTTGCTTGGCATTTAAAAGTGGCTTTAGGAATAGAAGATGATAAATATAAAAGAGTATTATTCAATGAAATCACTAAAGATAAAGTGCTAGAAGCTATTGATAAACCTACTGTTATTGATGATGATTTGGTTAAGAGTCAAGAGACAAGAAGAATTCTTGATCGAATTATTGGTTTTCGTTTGTCTAAACTTTTACAAAGTAAAGTAGGAGCTAAATCAGCTGGAAGAGTTCAAAGTGTAGCTTTGAAATTAATTGTTGATAGAGAACGAGAGATTGAAGCTTTTGTTCCCGAAGAATACTGGAAGATTACAGCTATTTTTGATAAACCAGAATTAGAAGCTGAACTATTTAAATATAAAAAGGATGATATTGAATTAAAAAATGAAGCTGATACTAAGAAGGTTTTAGATAGTCTTGGTGAAGAGTACACAGTTGAAAGTATTTCTCAAAAAGAAAAGAAAAAGAAGAGTAAGTATCCTTTTATTACTAGTACTTTACAACAAGAAGCTTCTAATAAACTAGGTTTTAGTGCGAAAAAGACAATGAGTGTTGCTCAAAAGCTTTATGAAGGAATTGATTTAGAAGATGAAACAGTGGGTCTTATTACTTATATGAGAACTGATTCTATTCGGCTTTCTGATGAGTTTAGTAAAGCTACTTACAAGTATATTTATGATAATTATGGTAAAGAATATGCTGGTTATGTTAAGAAGAGTAAGAAGACTGAAAATGTGCAGGATGCCCATGAAGCAATTCGTCCAACTAGTATTTTTAGAGAACCTCTTAAGGTTAAAAAGTACTTATCAAGTGATGAATTTAAACTATACTCTTTGATTTATAAAAGAGCTTTAGCATCTTTAATGGCTGATGCTAAAGTAAAGGGTACAACTATTGTTCTTGATAATAATGATTACAAGTTTAAAGCAACAGGTAGTGTGTTGGTTTTTGATGGTTATTTAAAAGTCTATGCTGATTATGAGGATCAAGATGATAAAATATTACCAGAAGTTAAAGAAAATGATGTTCTTGCAACTAACAAGGTGGAACCAGCCCAGCACTTTACAAAACCACCAGCACGTTATACTGAAGCTAGACTAATTAAAGAAATGGAAGAGTTAGGTATTGGTCGCCCTTCTACTTATGCGAAGATTATGGACACAATTAGAAGTCGTGATTATGTTACGATGGAAGATAAAAAGTTTGTACCAACAGAAGTTGGGTTTGAAACAACGGATAAGCTACAGGAATTCTTTAGTGATTTAATTAATGTTGAATATACGAAAGAAATGGAAGAAGATTTAGATGAAATAGCGGAAGGAAAACTTGTTTGGAACAAAGTATTAGATAAGTTTTGGCAAGTATTCGAACCTAGAGTAGAAAAAGCTTTTGAAGATATGGATAAGAAAGCTCCTGAAGAAACAGGGGAGACTTGTCCTAATTGTGGTCATCCTTTAGTAGTTCGTAAAGGAAGATATGGAGAGTTTGTAGCCTGCAGTAATTATCCAGAGTGTAAATATATTAAAAAAGAAGAGAAAAAAGAAGTAGTTATTATGGATTGTCCAAAATGTGATGGTAAGATTATTGAAAAGACTACTAGACGGGGTAAAACCTTCTATGGATGTAATAACTATCCAAAATGTGACTTTGCTTCTTGGGATAAACCGATAGGTAAGAATTGTCCTTTGTGTGGAGAATACTTAGTCGAAAAACAAGATAAAGTAAAATGTTCAAGTTGTGATTATGAAGAATAATTAAGAAAACCAGTATATTATTACTGGTTTTTTTGGTATAATTAATTAGGTGGTATCATGAAAGAAAGAGATGAGTTTTTAGAGTATTTAAAATATCAACGAGCATATTCAGACTATACAATTAAAAACTATGAACATGATATTTCAGAATTTTTAAAATACTTAGAAAAAGAAGGAATTGACTTTAAAAAAGTAGAGTATAGTGATTGTCGTTTCTATTTAATATATTTGAATAGTCTTGATACTAAGAAGACTACTATTAATAGAAAACTATCTTCATTACGAAGCTTTTATAAGTATTTAGCTAATAAAAAGATAGTTGAGAGTAATGTCTTTGCTTTGGTACAATCTCCTAAAAAAGAGAAAAAACTACCTCGTTATTTTGAATACAATGAATTAGAAGAATTATTTCATACACCTAATTCTAATACTCCTCTAGGACAAAGGGATTTATTAATATTAGAACTTTTATATGCGACAGGTATTCGAGTAGGAGAAGCTGTTAATATTAAAGTTAAAGATATTAAGACTGGTCAAAGAAAAATATTGATTTTGGGTAAAGGCAATAAAGAAAGATATGTCTTTTATGGAGCTTATTGTGAGGATATTTTAAATTTATATTTAGCTGAAGGACGAAGAACTCTTCTAAAAAGTGATTCCCCATATTTACTTTTAAATAATAATGGTAAAAAGTTAACGGAACGAGGAGTACGTTATATTTTAGATCGAATAATTAAGAAGACTTCTTTAAATAAAAAGATATCTCCGCATATGATTAGACATTCTTTTGCGACACATCTTCTTAATGAAGGTTGTGATCTATTAAGTGTTCAAAAATTATTAGGACATGAAAGTATTAAGGCTACTCAAATCTATACCCATGTTTCTACTGATCGATTAAAGGAAGTTTATTATCAGAATTTTCCTCGAGCTAAAAAATAATAGCTTTAAATAGGGACATTTATTTGATATAATAAAGTTAATAAGGAAGTGAATACATGCAGTTTAATAGTAAAGAGGAACTCTATAAAAGAGTATTACCAGCGCTTAGAACTAAAAAAGATGAATTCTCTAGACTGGGGTACTCTTATATTAAAGAGGAAGATATTTGGAATTATTTAGTTATCTCTTCTTTTCAAGATGCACATGAGTTGATGTTATCAGATATTGTAAGTGATATTATGCATGTTCCACTTAAGGAAGTAGATGCTTATTTAAAAGAGACTATTAAAAGACAAAAAAGGGAAGCAAAATTAGATAGTTAGAGGTGAACAGAATGAAAAAGAAAGAAAAGAAAGTAAAAGAGAAAAAGATTAAAAAGGATAAAAAGATTAGTGAAAAGAAAATGCAGATGATTAGTACTACTATATCTTTTGTTTTAATGTGTGTAATCATTGGCTTCTTATTTGTGCCACTTTTTAAAGGTTTGAAATTTGGTTTGGATTTACAAGGTGGTTTTGAGGTTTTATATCGAGTAGATTCTATTGATGGATCTAAAATGACTGGTGAGAAGATGACAGCTACTTATAAGACTTTACAAAAGAGAATTGACTCTTTAGGAGTAAATGAACCAGAAATTATTTTGGAAGGTAAAAATAATATTCGGGTTAAATTAGCAGGTATTACTAATCAAGCAGAAGCTCGTGAACAATTATCTACTGTCGCAACTTTGTCATTTAGAGATGTAGAAGATAATTTACTTATGAATAGTGATGTTTTAAAGGCAGGAGGTGCCAAGATAGGACAAGATTCTTCTGGTAATCCAGCTGTATCTCTACAAGTTGCTGATAAAGATAAATTCTATAGTGTTACTAATAAAGTAAAAGATATGGAAAAGAACTATATCGTTATTTGGTTAGATTTTGAAGAGGGAAAAGATTCTTTTGCTGCAGAAAGTAATTTATGTGGTACTAATGCATCTAACTGTTTAAGTGCTGCTACTGTATCCCAAGCTTTCGCAAGTGATGTTATTATCCAAGGTAACTTTACAGAAGATGAAGTGTCTAATCTAGTTGATTTAATTAATTCAGGATCATTACCATCTAAGCTTACTGAAATATCATCTAAAACAGTAGGAGCTTCTTTTGGTGAGGGAACTTTATCTAAGACCTTTATGGCAGGTTTAATTGGTATTTGTTTAATATCACTATTATTAATATTTGTTTATCATTTCTCTGGCTTTATATCAACAGTATCAATTATTTTCTATACATTCTTAGTATTCTTAGTATTCTGGTTAGTAGGAGGAGTATTAACTCTACCAGGTATTGCAGCTTTAGTATTAGGTATTGGTATGGCTGTAGATGCTAATGTTATTACATATTCTAGAATTCAGGATGAATTACGACAGGGTAAATCCCTACCATTTGCTTTTAAAACAGGTAGTAGAACATCTTTAAGAACAATTCTAGATTCTAACTTAACAACTCTTTTAGTAGCTATTATTATGTTTGTATTTGGTGAATCTAGCGTTAAAGGTTTCGCGACCGTCTTAATTATTACTATTGCTGTAACAATGGTTACAATGGTTGCATTAACTAGACTTATTCTATCTAGGTTTATTAAGAGTGGTTACTTTGATGATAAGACTAATTTATTTATTAATATTAAAGATAAAGATAAAATTGATGTTACGAAGGAAAATAAAGAGGATATCAAGAAACCATTTGCTAAAGTCAACTTCTTTAAACATGTTAAAGCTTTTGTTATTACATCAGTAGTAATTATTGCTTTGGGATTAGCTGTTGCTGGATTTAAAGGACTAAATCTAGGAATAGATTATCAAGCTGGTAGTGATATTTCAGTTGAGACTAAAGAAAAACTAAATAAAAAAGATATTCAGGCTGATATGAAGAACTTCGATGTTAGTTTAAGAGATATTGAAGTGTCAGGTAAGAATGTTAATATTCGTGTTAAAGATGTCTTAAAGAAAAAACAAATTGCAGAAATTAGTAAATATTTTGAAGATAAATATAAAGCTAGTGTGGAAATCGGAGTTGTATCTAATGTTGTTAAGAAAGAATTAACGAAAAATGCTATTTTCTCAATTCTTATTTCAATGATTGGTATTATTCTATATATTTCAATTAGATTTAAATTCTCATATGCTATTTCATCTGTAGTAGCATTATTCCACGATGTCTTTATGATGATAGCGGTATTTGCTATTTGTCGATTTGAAGTATCGGTTATGTTTATTGCCGCAGTACTGGCTATTATTGGATATTCAATCAACGATACGATTGTTTGTTTTGACCGTATTAGAGAAAACATTGATAATTACTTGAAAAAGAATAAGAAACTCTCTAAAGAGGAATTGAAGAATCAAGCAAATAAGAGTATTCAAGATACCTTTATGCGTACAATCTATACTTCAATTACAACTCTTTTACCAGTAATTGCTTTAATAGTATTGGGTTCTAGAGAAATACTTAACTTTAATATTGCGATGTTAATAGGATTGATTGCGGGTACTTATTCATCAATCTTTATCGCCACAACTTTATTCTTAAAACTTGAGTCTAAAAGTTTAGGAAAAGAAAAGAAAAAGAAGAGAGTTTATCGGGAAGTAGAGGAAAGAAAGATAAAAGGAATAAATTGTTAAAGAGGGTGGTCCGTTTATGACCAAAACAAAAGAAAGAGACGACATTACAATTGATGATGTCTTGGAGAAAGTAAAGGCCTATTTAAATGAAGACGAAATAGAGAATATTAAAAAGGCTTATTACTTAGCTGAAGAAAAGCATATGGGTCAATATCGCAAAAGTGGGGAAGAGTTTATTACTCATCCCTTAAATGTTGCGTTAATCCTAACTGGTGTTTATGCTGATAGTGAAACTATTGAAGCTGCTTTACTACATGACACTTTAGAAGATACTGATTGTTCTAAAGAAGATATTGAGATGCTTTTAGGACCGGAGGTATTAAAACTAGTTGATGGGGTTACAAAGATTTCTAAGATTAATTTTTCAACGGAAAATGAATATTTAATTGATTATTACAAAAAGATAATTGTTGGAATGAGTGAAGATGTCAGAGTAATTATTATTAAACTGGCTGATCGTCTTCATAATATGCGTACTTTATTTGCCATTCCTGAAGAAAGGCAAAAAGTGAAGGCTCGTGAAACATTAGAAATACTAGTACCAATTGCTCATCATTTGGGAATTTATAAAATCAAATCAGAATTAGAAGACTTATCTTTGCGTTATTTAAAACCAGATGTTTTTTATGATATTGCGGAGAAATTAAACACGACTAAATTAGAACGTGATGAAGTAGTAGATTTGATGAAGAAAAAACTTACTAATATTTTAACTGAACATAATATTCATCATGAAATTAAAGGGCGAAGTAAGAGCATTTATAGTATTTATAATAAACTAGATAAAGGCAAGAAGTTCAGTGATATTTATGATCTTTTAGCCCTTCGTATCTTGGTTGATACAGAACAAGATTGTTACTTAGCTTTAGGAATAATTCATTCAAAGTTTAGACCTTTACCTAATAGGTTTAAGGATTATATTGCGATGCCAAAAGTTAATATGTATCAGTCACTTCATACTACTGTTTTTGGTGTTGATGGATATTTGTTTGAAATTCAGATTAGAACTTATGATATGAATGAAGTAGCTGAAAACGGGGTAGCATCTCATTGGGCTTATAAAGAGGGTAAGAATGCTTCACAATTAATGCAGAGTAATACTGAACAAAAATTACAGTTTTTTAAAGCTATTATTGATTTATCTAATAATAAAATGAGTAATGAGGAATTTGTTAATAGTGTTAGAGATGAAGTTTTAAACAATAATATTTATGCTTTTACTCCTAAAGGTGATGTTATTGAGCTACCTATTGGAGCGACTCCAATAGACTTTGCTTATAAGATTCATACTAAAGTAGGAGAAACAATGGTGGGAGCTATTGTCAATAATAATATTGTACCTCTTGATTATGAAATACAAGATAATGATATAGTTAAGATTAATACTAAAAAAGATGGTACACCATCACGTGAGTGGTTAAATATTGCTAAGATGACTCAAACTAAAAATAAGATAAAATCTTATTTTACTAAAAACGAAAAAGAATTAAATATTGAAAAAGGTAAATATTCTTTAGAAAAAGAAATGCGAAGAAGAAAAATACCTAAAGATGATATTTTAAATGATAAGAGCTTGCAAGAAATATTTAAGAATTTAAAAATAGATAGTTTGGAAGAATTATATTTAACGATTGGTAATGGAAAGAATGCACCTAATGCGGTTATTAATATAATTAAAAAGCCAGAAGAAGAGGCACCTAAAAAAGTTCAGATTGTAAAAGAAAATAATGATACTGATTTAGTAGTAGCGGGTATTGAAAAAGTTAAAGTAAATTTAGCTAATTGTTGTAATCCAGTTTATGGTGATGAAATAATAGGATATATTACGAAGAGTAATGGTATTAGTGTTCATCTAAAAAATTGTCACAATGTCGAAATGCTTGATAATAGAGTGGTAGATGTTTCTTGGAACAAAGAGATTCCAGGTAAGAACTATTTCACTAGTATTATTGTTTATACTAATTCCATTGATAATAATATTCCTGATATTGTTTCTCATGTTCAGATGTTTAATATCGCTGTAGACATGATTAAGACTATCAACGATGAAGGTAAAAAGATCTATGAAGTAGATATTTGGGTTAATAACAAAGAAAAATTAAATAAGTTAATTTTAGATTTAGAAAAATGTGAATATACTATAAAAGTAGAGAGGTTTATACGATGAGATGTATAGTTCAAAGAGCTCTTGATGCTTCTTGTATAATCGATAATAAAACTGTTGGTAAAATAGATAACGGACTAATGGTTTTAGTTGGTTTTACAGAGGGTGATGATTTAGATAAGATTAAATGGATGGCTAAAAAGATCGTCAATATGCGTATTTTTGATGATGAAGATGGAGTTATGAATAAATCGTTATTAGATGTAAATGGAAAAATTCTTTCTATTTCACAGTTTACTTTATATGCTGATACTTCTAAAGGAAATAGACCAAGCTATATTAAAGCTTTAGGCGGAGAAGAAGCAATTAAGCTTTATGATTTATTTAATCAGGAATTGAATAATTATATTAAAACAGAAACAGGTAGTTTTGGGGCTGATATGGAGATAAAATTTACTAATGTTGGTCCTGTAACTATTATGTTAGAGAGGTGAAAATATGTTTTCTAGTAAACCAAATTATAAACTCATTAATTTAACGGCTTTAATGTTACTTTTATACATTGCTTTTGCTAATGTTAGTTTATGGTGGGGAGTCTTTACAGCTATTGTTAAGGTATTAGCTCCATTTATCATTGCTTTCGTGGTAGCATATGCTCTCCATCCATTAGTAAAATGGTTGGAGAAGAGGAAACTACCACATTGGTTAGCAGTTACTTTAGTAACATTAGGAGTTGTCTTATTAATTGTTTTCACTATTACTGTAACTCTACCAGTTTTGTATGAACAATTAAGTAGCTTCTCAATTATGTTGGTAGAAGCTATTGAAGATATTGCTACTAAATTAAATATTAATTTGGGTAGTTATGAAATATCAATTAGTTCTTATTTAGAAGAAGCTACTAAAAATTTGGGTTCCATTATATCTAATGGAGCAATGGCAGTTTTATCTGCTTCTTTGGGATTCTTAGCTTCATTCATAATTAGTTTCATTGCTGCTATTTACTTTTTAGCTGATATGCAAAAAATAAGAACAGGCTTTAGAAAGTTTTTAAGCAGTTATAGTAAGAAGTGGCTTAAATACTTCCGTTTACTTGATGAGGAAATGGGTAATTATTTACATGGATTAGTTATCTTTATGGTTATTCAATTTATTGAATATGCTTTAGTATTTAAAATAGTAGGTCATCCTAACTGGTTACTTTTAGGTTTTCTTGCTTGTATAACTACAGTTATACCTTATTTTGGAGGATTAATTACCAATATTATTGCTGTTATAACAGCAAGTGTTGTATCTAGTTTTACTTTCATAGGAACAATTATTATTTGTCTTATTTTCCCACAATTAGATGGTTATATTATTTCTCCTAAGATATATGGTAAAACTAATAATGTTAATCCATTAATTACCATTATGGTAGTATCAATAGGTGGTACAGTTGCTGGTGTAGTAGGTATTATAGCGGCTCTGCCAATCTATTTATTCCTACGTTGTACTTATAATTTCTTTAAGAAAGATTTACATAAGAGTGTCGTTTCTTTTAAGAAAACGATTGATTAAATTAAGAAAATAGTTGTATAATATAAATAACTTCTGGAGAAAGAGTAATATTTATTTGTCTTGTAGAGAGTTCATGGTTGGTGAAAATGAATAGATAAAGAATATGAAGACATCTCCTTAAAAGGAAGCGTATTCTGGCGTTAACAGACAAAGAGTAATAAATTAAGGTGGCACCGCGAGATATTCGCCCTTAGGATGGTGGTACCTTTTTATTTTAAGGAGGGATTTTATGATAACTAAACCTAAAGGAACAAAGGATATTCATGGTAAAGATGCGAGAAAGTGGCAGTATATTGAAGAGATTGTATCTAATGTTTTAGATAAATATAATTATACTTTGATTAGAACACCACTTTTTGAAGCTAGTGATCTTTTCCATAGAGGAGTAGGAGAAACAACAGACATAGTTTCTAAGGAAACCTATGATTTTATTGATCGTGGTAATCGTAATATGACACTTCGTCCAGAAGGTACTGCAGGAGTAGTACGTAGTTTTATTGAAAATAAAATGTATGGAGATAACTTACCACAAAAACTATTCTATATTGGACCAATGTATCGCTATGAAAGGCCACAAAAAGGTAGATATAGAGAGTTCTATCAATTTGGTATGGAACTTTTAGGTAGTGATGATCCAATTGGTGATGCAGAAGTTATATCAGCTGCATATAATATTTATAAAATGTTAGGTTTGGAAAAATTAAAAGTAAATATTAATTCTTTAGGTGATAGTGAGTCTCGAAAAGATTATCATAAAGCTTTAGTAGAATATTTAAAACCTCATATTAATGAACTTTGTGATGATTGTAAAGAAAGATATCAAAAAAATCCTTTAAGAGTTTTAGATTGTAAAGTAGATAGAGATAGTGACATCTTAAAGAAGGCTCCAACACCACTCGATTATTTAAATAAAGAAAGTAAAGAAAGATTTGAAAAAGTGTGTGAATACTTGGATATGTTAAAAGTACCTTATGAAGTAAATCCAAGATTAGTAAGAGGACTTGATTACTATAATCATACAGTTTTTGAGATTGATGATACTGCTAAAGATATGGGTAGTCAAAATACTATTGGTGCTGGTGGTAGATATAATGGTTTAGTAAAACTATTAGATGGACCAGATACTCCTTGTATGGGTTTCGCAGCTGGTATTGATAGAGTAATGGTAGCTTTAGATGCCGAAGAAATAGATTTAGATGTTAATGATGATGTTGACTTGTTCTTAATGTATGTCAATGATGAAGAAAAGAGTTATGCTCTATATCTTTGTCAAGAACTAAGATTAGCAGGTTTTAGAGTTGATACTGATTACTTGGGTAGAAGCTTAAAAGCCCAATTTAAACAAGCTGATCGGTTAAAAGCTAAGTATACAATTGTACTTAATAGTAAAGATTTAGATAATAATGAAGTTAAAATTAAGAACAATAAAACAAAAGAAGAAGAAATAATTAGTATTGATGCATTAATCTATTATTTAGATGAGAATTTAGAAGATGAATGTGACTGTGGCGATGATTGTCATTGTGGTGATGACTGTCACTGTCATGATCATAAATAGAGGTGGAGTATGAAGAAATATAATAATGCTGATTTTAATATTAAGAATTTAAATGAAGAAGTAGAACTTTTTGGTTGGGTTTCTAAGAAAAGAAATCTTGGAGGCTTAGTATTTATTGATCTTCGTGATCGAAGTGGAATTATTCAACTAACAGTTCGTCCTGAAAGTGACTACTATGAGTTGGCTTCTTCTCTAAAAAGTGAATCAGTTATTAAAGCAACTGGTAAAGTAATTGAAAGAGAGAATAAGAACAAGAATATACCTACTGGAGAAATTGAAGTAGAAGTAGTTAATCTAGAACTTTTAAATTCATCAGAAGATTTACCATTTGAAATTACTGATGATATAACAGCTTTAGAAGATACTAGATTAAAATATCGTTATTTAGATTTAAGAAGAAATGAACTTAAGGAAAAACTAATTACTAGGCATAAAATCACAATGGCTGTGAGAAACTTTTTATCAGATAATGGCTTTTTAGAAGTAGAAACACCTATTCTTTGTAAAAGTACTCCTGAAGGAGCAAGAGATTATTTAGTACCTTCAAGAGTAAATAAGGGTAAGTTTTATGCGTTGCCACAATCACCACAACTTTTTAAACAATTATTGATGATTGGTGGAGTAGAAAAGTATTTCCAAATTGCTAAATGTTTCCGTGATGAAGACTTAAGAGCGGATCGTCAACCAGAGTTTACACAAGTTGATTTAGAAATGAGTTTTGTTGAAGAAAACGATGTTATGGATATTACGGAAAGACTAGTTGCTAATGTTTTTAAAGAAGTTAAAGATATAGATGTTAAGTTACCACTTGAAAAAATGAAGTATGATGATGCTATTAGAGATTATGGTAGTGATAAACCAGATTTAAGATTTGATATGAAAATTGAAGATATTACTGATATTTTCAAAGATACTGAATTTAGTATGTTTAGAAGTGTTCTAGATAATAAGGGTGTTATTAATGCCTTGGTTGTTAAAAATGAAGCTAATAACTATTCTCGTAAGGGAATTGATAAACTAACTGAATTAGTTAAAACATATCGAGCTTCTGGTTTGGCTTTCTTAAAATATACGGAAGGAGAATTCTCTGGAAGTATAAAAAATGGAGTTAGTGAGAACGAATTAAATAATCTTAAAGACCAATTAGCTCTTGAAGATAATGACTTAGTATTAATAGTTGCAGATAATTATAAAACTACAAAAATTGCTTTAGGTGCTTTAAGGAATCATTTAGGAAAAGAATTAAATCTATATAAAGAGGATTATCATCTTCTTTGGGTAGTTGATTTTCCATCTTTTGAATATAGTGAAGAGGAAGGAAGATTTGTTTCTTCACATCATCCATTTACTTCACCTAAAGATAGTGATGTTGATAAATTGATTAATGATAAAGAACATTGCTATTCTAAAGCCTATGATATTGTCATTAATGGCTATGAAGCTGGTGGTGGAAGTATCAGGATTCATGATGCTAATGTCCAAGCTAAGATGTTTGAAGCTTTAGGTTTTAGTAAAGAAGAAGCAAAGAGAAGATTTGGATTTTTCTTAGAAGCATTTAAATATGGAACACCTCCTCATGGAGGGCTTGCTCTTGGTTTAGATAGATTAGTAATGCTTTTAACAGGAACTGATAATATTCGTGATGTTATTGCTTTCCCTAAGACAGCTTCAGCATCAGATCTTATGAGTGAAGCTCCAACTGAAGTAGACAAAAAACAATTAGAAGAATTAGGTATTAAGAACTAACTTTAGTTAGTTCTTTTGTTTACTTATAGCTAAAATAAAAGTATAATACTTTTGAAAAGGGATGATTCTATGGACGGAATACTTGTTGTTAATAAGCCTAAGGGAATAACTTCTTTTGATGTTATTCGTAAAGTTAGTAAAATATTAGGTATTAAAAAGATAGGTCATACTGGTACTTTAGATCCTATTGCTAGTGGTGTTTTAGTACTTACTATTGGGTCGTATACTAAAGTAAGTGATTTACTTTTATCTACAGATAAAGAGTATATAGCAACTGCTAAGTTAAATATCTTAACTGATACACTGGATACTGAAGGAAAAGTAATTAAAACTGATAGTAAAAGAATAGCTAAAGATGTTTTGGAAAAAGCAGTTAATAGTTATGAAAAAACTTATCAACAAGAAGTGCCAATATATTCAGCAGTTAAAGTAAATGGTAAAAAACTATATGAATATGCTCGTAACGGGGAAGAAGTTCTTTTACCCAAAAAGGAAGTAACTATTAAAGAAATAAAACTTTTAGAATATAATGATAATATTTTTAAATTTAAGTGTACCGTTTCTAAAGGAACTTATATTAGGAGTTTAATTAGGGATATAGGAGAGAGTCTAGGTACTTGTGCAGTTATGAGCGAACTAGTGCGTACTAGACAAGGAAAGTTTAGTATTAATGAAGCATATACTTTAGAAGATATAGAAAAAGACAATTATAAACTATTAACTTTAGATGAAGTCCTTGCTGTTGAAACAATTGATGTTTCGGAAGAATTATTTCATAAAACTAAAAATGGAGCAAAACTAGAGAATACTTTTAATATTAAAGATAGAGTAATATTTAAATATGATAATAAAATAATAGCTTTATATAAATTAGAAGAAGGTATGTTAAAAGTAGATAAAATGCTTTACAAAAGTTAAAAAATTTAGTATATTATTATTGCTTACCAAATCTTGGTTTAAAAAAGATCCGATTTTTTACTAAGTTTTGGCGAATATATAAGAAAGGATGTGTTTTTTGTGGCTTTAACTAAAGAAGCAAAAGCAAAGATAGTTAAAGAGTATGCTAGGGGAAAAAATGATACTGGTTCAGCTGAAGTACAAATTGCTATTTTAACTGAAGAAATCAATGAATTAACAGATCATTTGAAAGAGCATATACATGACTATCACTCACGTAGAGGACTACTTAAGAAAGTAGGTCAAAGACGTAATATGTTAGCTTATTTAGCAAAAACTGATGTTAAGAGATATCGTGAGTTAATTAAAAAATTAGGATTAAGAAAGTAGACATTTATTTTTAGTGTCTATTTTTATTTTAAAAGAAAAGAGGTAGAGTATGAAGAAAAGAAAATATGAATTGGATTTTTATGGTAGAAAAATCATTGTTGAAAATGGCGAATTAGCTAAACAAGCAACAGGCTCAGTATTAATTAGATATGGTGATACCGTTGTTTTAACAGCAGCTGTAGTATCAAAAAATGTTAACTTATTATCTAGTTTCTTTCCACTAACAGTTAATTATCAAGAAAAACTATATTCAGTAGGAAAGATTCCAGGTGGTTTCATTAAAAGAGAGGGAAGACCAACTGAAGCAGCAACTTTAGCTGCTAGAATGATTGATCGTCCTTTAAGACCATTATTCCCAGAAGATTTTAAGCACGAGGTACAAATTATTAATACTGTTTTATCAGTAGAACAAGATAATGCCCCAGAACTAGCAGCAATGCTTGGTTCATCACTTGCGGTATCTATTTCTAAGATTCCTTTCTTAGGACCAGTAGCAGCTGTTAAAGTTGGTTATGTTGACGATAAATTTGTTATTAATCCAACAGTAGAAGAATTAGAAAAGTCTTTAATAGATTTAACAGTAGCAGGTACTAAAGATGCTATTAATATGGTAGAATCTAGTGCTAAAGAAGTAAAAGAAGATATCATGTTAGAAGCATTGATGAAAGGTCATGAAGCAATTAAAAAACTAGTTAAATTCCAAGAAGAGATTATGGCTGATATTGGTGAAGAAAAAATGGAATATGATAAACTAGTAGTAGAAGATGACTTAAGAGAAGATGTTACTCATTTAGTATCAGAAAGACTTGATAAAGCACTTAGAATTAAAGATAAATTAGAAAAGTATGATGCAATTGAAACTATTAAAGAAGAAGTATTAGATAAATATACTAAAGAATATGAAGAATTATTAAAAGAACAAGAATTAAAAGAATTGTTAACTAAAGTTAGTATGGTAATATCTGATGTTGAATATCGTCTATTTAGAAATATCGTTGTTAATGAAAAGAAAAGAGCAGATGGTAGAAAGATGGATGAGATTAGACCTCTTTCTATGGATGTTGATCTATTACCTAGAACTCATGGTAGTGCCTTATTTACAAGAGGAGAGACACAAAGTTTATCAGTAACTACTTTAGGAGCTTTGGGTGAACATCAAATATTAGATGGTTTAGGAATAGAAGAAGGAAAAAGATTCATGCTTCACTATAATTTTCCACAATTTTCAGTAGGAGAAACTGGAAGATATGGAGCTCCTGGTAGAAGAGAAGTAGGTCATGGTGCCCTTGGTGAAAAAGCATTACTACAAGTTATTCCTGATGAAGAAGAATTTCCATATACAATTCGTGTTGTATCTGAAATATTTGAATCAAATGGATCATCTTCTCAAGCATCTATCTGTGCTGGATGTATGTCTTTAATGGCTGCAGGGGTACCAATAAAAGCTCCAGTAGCAGGTATTGCGATGGGATTAATTACTAGTGATGATGGTAAGAAATACCAAATATTAACTGATATCCAAGGTATGGAAGATCATCTAGGTGATATGGACTTTAAAGTAGCAGGTACTAAAAATGGTATCTGTGCTCTACAAATGGATATTAAGATTAAAGGTATTACTGAAGATATTTTATCAAAAGCATTAAAACAAGCTAAAAAAGCTCGTTTAGAAATACTTGATAAGATAAAGAAAACTATTAAAGAACCAAGACCAGAAGTATCTAAATATGCTCCTAAGACTGAAATATTTATGATTAAACCAGAAAAGATTAGAGATGTTATTGGTCGTGGTGGAGAAATGATTACCAAGATTATCTGTGAAGCTTCTGATGTTACTGATGTTAATAATCAAAATGCTGTTAAAGTAGATTTAGAAGATGATGGTAAAGTAATTATCTATCATACAGATAAGGATATCATTGAGAAGACAAAGCAAATGATTTTAGATGTAACAAGAGAAGTAGAGGTAGGTAAAATCTATGAAGCTAAAGTTACGCAAATAGAAGACTTTGGATGCTTTGTAGAAGTATGGCCTGGTTGTGAAGGACTAGTACATATTTCTAAACTTGATAAGAAGAGAGTAGATAAAGTAAGTGATATTGTTTCTGTTGGTGATGAAATACTAGTTAAAGCATTAGGGGTAGATAAAAAAGGTAAACAAAACTTCTCAAGACGTGATGCTTTATTCGATGATAAAAAAGAAAAATAGAATGTCAAACAAAATGTAAACAAGGATTGAAATCCTTGTTTTTCTATATTAAAAAAGGTATAATAGATATATGAGATAAAATAGGAGAAGTATATGAAAAAAGTATTTAATGTATACAATATAACTTTAATACTTGTAGTAGCACTAATAGGAGTGCTAACACTAAGAACAACCGAAGTAAAAGCAGCAGGTACTATAACTTGGACAAATGGAAGTACAGTTACTTTAAGTAGAACAGTACAAAATGTATATAATGCTCCTGAAGTAGACTTTACTTATGGAATATCAACAGAAGACACTTCAATAGTAACCCTAAAAACCGCAACTTTTGATAATGGTGAAACTGTTAACCGAAAAATGAAAAATACGGCTAACTATGATATAGGGTATGGTTATGATATACCTGATCAAGCTCTAGTGGCAATTAAGCGGAGTCAAACTTTGCCAAATTATTTTGTTGCTACAACCGAAAATACTGTATCAGCTTCAAATTCGGAATACCCAATATATATATTCTTTGATGATGAGGATGGAACAATGTATTATTATAGCGAAGCAGATACAATATATTTAAATGCTAATTCTTCGCAAATGTTTAGAGATATGCGAGCATTAACGGATATATCTGGCCTATCAGAAGTAGATACCTCGAGAGTAACAAATATGCACCATATGTTTCAGGTCTGTAGTGCCCTAACTAGTATCAGTGCATTAAGTAATTGGAATACCTCAAGTGTAACCTATATGGACTATATGTTTTGCGATTGCGCAAATCTAGCAAATATCAATGGAGCAAGTTCTTGGAACACTTCGGCAGTTACTGAAATGCGTAGTATGTTCGAAAACGATACTAAAGCCTCAGGAACAATCCAAATATTAGGAAATCCAACAATATATAATAGTGCATTTAGAAATGCTGCAACAGCATCAGGTGCAGAAATAACAGTAAACTATGGAAGCAGTACTAGTAATATTAATAATATTATTGCTACTAAATCAAATAATTCGAATGTTGTTAAAGGAAGCCAAGTATCAGTGCCAGCAAGTTCGAATGATGTAATCTTTAATCGTAAAACGCTATCCTTTGATGGAAGTGAGACAGTAAGTAATAGTTATACCGTAAGTAAGTCATCAACTATTAACTTATCTAATATAGGATTAAACTTTACTAAACCAGGCAATTATGAACTAAAAGTAAAAGAAATCTCTACTAGTAATAGTGCCTATCCAATAGATGATGATAATGAGTATACTATTGTTATTCAAGTTACCAACGTTCTTGATGCTAATAATGTACCAACAGGAAATTTTAATGCAACCTTTGCAATAAAAGATGATAATGATACTAAAGTAAATAATATGCCTTTTTCTGAACCAAAAGATGAAAGTAAGTTTGGTTATATTGAGGTAAGTAAAACTGTAAAAGGCGTTATGGCAGATAGAACTGAAGAGTTTGAATTTAGTATACAAGTAGATGATGATGAAGAAATTGATATTGCATGTGAAAACTATTCTGGAAGTGAGAAATATTTAATATCTGGTACTGGAATAACAGAAGACGGAAATGAAGTAACTAAATGTAAGAGTGGTACTAAAGATACAATTCATTTAACACATGGACAGAGTGCTACTATCGGAAGATTTACCTATAACAATAATAATTATAATTCTATTTCTATAGATGATTATTATAGTATATTTGAAGACGAAAAAGATGGATATACAACTTCATTTAAAGTAGGAAGTGGAAGTGAGACAATTAGTAGTGAAATGAGTCCTACTGCAGTAAGTAATGGAGCAAACTCAGTTACTTTCTACAATCAAAACGAAGGTAGTCCAGTAACGGGATTCATCTTAACGATTTTACCTTATCTAATCTTAATTGGATTAGGAGTTGTTGGTATTAGCTTATATAAAAAAGATTGGAGCCAAGTATTAATTAAAATGAGAGATAAGTAGAAATACTTATCTTTTTTTTACATATAATTAATTGGTGATTTTATGTATAAATACTATAAAATAATACTTATTGTTCTATTAACGATATTTAGTTTTTATTATACGAATAAGACTATTGACTTTATTAGAGAAGCAGATCCTATTATGAAAGAAATCAAACATAACAGATATAAATTTGATAAGAAATCTATTAATGCTTCAGTAGGTGATTTTTATATGATTCCTGGTATTAATGGTGTTTTAGTTGATACTAAGAAGAGTTACTCTAAAATGAAAAGATATGGTAAATATAATGAAAATTTACTAGTTTTTAAAGAAGAGGAACCAGCTATCTCTTTAGATGATATTTATGATAGGTTTATTATAGGTGGTAATGGTGAGAATAGAAAAGTAGCTTTAGTCTTTATTATTAGACGTGATGATAAAATAGACCATTTATTAGATATTTTATCTCAGGAAGATGTTAAGGCAACTTTCTTTATGGATGGTCTTTTTATTGAAAATAATCAAGATTTGGTTAAAAACTTAACTAAATCAGCTTTTGAAGTAGAGCTTTTAAGTTATAATGGTCGTTATCAAAAGAAATATTTTAAATATGGAATTGATCTTTTAAAAGATATTACTAATATTAGACCAAAATACTGTTATGCTTCTTATAGTAGTGAATATATTTTAGATTTGTGCAATAGTTTATCAATGCACACAATTATTCCCAATATAAATCCTTCTAACAGGGCTTACCAAATAGTTAAAAGAAAGCTGGTTAGTGGTTCAATTATCTCTTTGAAAAATAAAGATTATATTTTGGAAGAACTTACTACTATTATTTCTTATATTAAACAAAAAGGATATGATATAGTTAATTTGAATGAACTATTAAGTGAAAAGAGATTTGAAGAAGAATAAACTTCTTCTTTTTTATTGCGAAAAAACTTTAAAAATAGTATAATTAAAGGAGTTAGTAGGGTGATAAGATGTATCTAAAAGAAATAACAGCCATCGGGTTTAAATCGTTTGCTGATAAGATAAATATTGAACTTGACAATAAGATTACCTGTATAGTTGGCCCTAATGGATCAGGGAAAAGTAATGTCGTTGATGCTGTACGTTGGGTTTTAGGAGAACAATCTGTTAAATCACTTCGTGGTGATGGTGCCATGAGTGATGTTATTTTCTCTGGATCAAAATCTAGAAACAAACTTAATGTCGCATCTGTAGAACTTATCTTTGATAATAGTGATAATTATGTAAATATGCCTTACAATGAAATATCAATTAAACGTAAGGTTTATCGTAGTGGAGAAAATGAATATAGTTTAAATGGTGAAAGATGTCGTCTTAAAGATATTGTTAATTTGCTTTTAGATACTGGTATTGGTAAAGAATCATTTAATATTATTTCTCAAGGGGAAGTAGATAAGATTTTATCTTCTAGTGCTAATGATAGAAGAGTTATTTTTGAAGAAGCATCAGGTATTTTAAAATATAAAAAACGTAAAGAGGAAGCAGTTCGTAAATTAGATCGTACACATAATAACTTAGATAGGGTTAATGATATTATTGCAGAGTTAGAAGGACAAGTAGAACCTTTAAGAGAACAAAGTGAAAAAGCTAAAGAGTATTTAGATAATAAAAATGCTTTAGAGAATTTAGAAGTAGCTTTACTTGCTTATGAAATAGATAAGATGAATACTGAATTAAAAGAAGCTCAAACTAAGAAAGAAAAGATTGAAAAAGAAATATCTGTTTTAGAAAGTGAAAGTAGTGTTATTGATACTAAACAATTAGAAAAAGAAAAAGAACTTACTAAATTAGAGAGTAAATTAAGGACAAAACAAGATGAATTACTGAAAGTTACAGGAGAAGTAGAACGTCTAAATGGTGAGAAAAAACTAATTGAAGAACGTAGTAGTCATAAAACCAGTGAAAATGAAGCACTTGATAAAATGCGTGAGCTTTTAGAAAATATTAAGATTTTAGAAAGTGATATTAAGTTAATAGACGAAGGAATTAAAAAAGATGATGAAAAGATTTCTTCTTTAGATAAAGAAAGTGGAGATTACGAAAAAGAAATAGATCGTCTAGTAAATAGAAAGAAAGTCTTAGAAGATGATTATTCAATGATGAATAGAGATATCATTAATTTGAATAATAAGATAGAATCCCTTCGGTTAGAAAAAGATAATGTAACTTTACCATATAGTGTTAAAAACATTATTAATAATGATGGCTTGACAGGTATTTATAATACTATTGGTAATTCTATTGATATTGATGATCAGTACTTAACTGCTTTAGATATTGCCGTTAGTGCTAATAAGAATTTTATTATAGTAGAAAATGAAGAAGCTGCTACTAAAGCAATTAATTATTTAAAAGAAAAGAAGTTAGGTAGAGCGACTTTCTTCCCGATTTCTGTTATTAAAGAAAGATTCGTTGATAATGATACTTTGAAAAAGATAGAAAAAGACAAAGACTTTGTTGATGTTTTAGATAATTTATTAACCTATAATAATAAATATGCAGGTATTATGAAGAATCAATTTGGTAATATTTTGGTATCTCCTGATATAGAAGCAGCTAAAAGATTAGCTAAAAAGATAAATCATCGTTATAAGATTATTACTTTAGATGGAGATGTTATCAATATTGGTGGTTCAATGTCTGGTGGTAGTAAAAATAAAGTTCGAAGTATTTTCTTGATTAAACAGGAAATTAAGGATACTAAGGTACTATTAGAAGAAAAGAAAGTTGATATTGATAAGACTTTAGAAAATATTAGTCAAAAAGATGAAGAAATTAAAGGTCTAGAAGAAAAGGTGTTTACTTTATCTAAGAAAAAAGCTGAGATAGAACAAGTTAGAGGTAAGAAAAATAGTGATAGACTACTTCTTAATGAAAAGCTATCTTCTGAACAAAAGGATTATGATTCTTATAAAGCTATTTCCAATAATACATTAGAAAAAGAAGAAGAGAAGACTATTAATAGTTATTATGAAGCCAAAACTAAGAAAGCAACTATTGAAAATGAAATTAAGGCTTTAACTAAAGAAGTCGAAGACTTAAAAGTAAAAATAGATGAAGAGAATGCTAAGAATAAACTTAGAAGTTCTAATCTTCATGCAGAAGAAAAAGAATATCAAAAGTTAGAAATATTAATTAATAGATTAGATGTTAAACTAGATAATATGTTACTTACTTTAAATGAAGATTATGCTCTTACTTTTGAAAAAGCTAAAGATAAATATAAACTAGAAATAGAACCAGATATAGCTAGAGAAAAAGTTAATAAGCATAAGAATGTTATGAAAGCTCTTGGTATGGTTAATTTGGGTGCTATTGAAGAGTTTGAACGTGTTAATACTAGATTTGAGTTCTTAAATAATCAAAAAGAGGATTTACTTAAAGCTGAAGATACTCTTTTAGAAATTATGGAAGAAATGGATGAAGTAATGGAAGAAGAGTTTGCTAAGACTTTCGAAGAAATCAAAGTAGAATTTAAGAAAGTATTTAAAGAATTATTCGGTGGTGGTGATGCTTCATTGAAGTTAACTGATCCAGATAATTTACTAACTACTGGTGTGGAAATAGTAGCTTCACCTCCAGGAAAAAAACTAACTACGATATCTTTATTATCTGGTGGAGAAAAGACCCTTACCGCAATTTCTTTATTATTCTCAATTCTTAATGTTAGAAAGATTCCATTCTGTTTATTTGACGAGGTAGAAGCGGCCTTAGATGAAGCTAATGTTGATCAGTTTGGTCATTATCTTTCTAATTATAAAGATAAGACCCAATTCTTAATTATTACACATAAGAAGAAAACGATGGAATATGCTGATACTTTATATGGAATAACAATGCAGGAATCTGGTGTTTCTAAATTAGTTAGTGTTAGACTAAAAGATAAGTAAAACTAGTATAATTAGTTTATCTATGATAAAATCTAGGGGAAGAAAGGAAGAAGAATATGGAAAATAAAGCAATTACTAAAAGAGATGTTGATTTTGCTAAATGGTATACAGATGTCATTAAAGCGGCTCATTTAGCTGATTATACTTCTGTAAAAGGTTGTATTGTCATTGAACCTAATGGTTATGCTATTTGGGAAAAAATAAAGTCTATTATGGATCAAAAATTTAAAGAATTAGGTCATCAAAATGTTCAATTACCATTATTAATACCAGAGAGTTTATTTAATAAGGAAAAAGAGCTTATTGAAGGGTTCGCTCCTGAACTAGCTTGGGTTAGTGAAGTTGGTAAGAAAAAAATGGATGAACGTTTAGCAATTAGATCAACTTCAGAAACTTTATTCTGTGATTACTATAAAAAACATATTACTTCTTATAAAGATTTACCAAAACTATATAATCAATGGTGTAATGTCTTTCGTTATGAGAAAGAAACAAGACCTTTCCTTAGAAGTAGGGAATTCTTATGGCAAGAAGGACATACTATTCATGCTACTAAAGAAGAAGCTATTGATGAAACATATCGTATGATGGAAGTTTATAAATGGTTTAACCATGAAATACTAGCTATACCATCAATTACAGGAATAAAAACTGAAAAAGAAAAATTTGCCGGTGCTGAATTTACTTTGACTAATGAGGATTTAATGTATAATGGTGTCTGCTTGCAAGATGGTACTAGTCATTATTTTGGTCAAAAGTTTAGTAAGGCCTACGATGTTAAGTTTACTAATAAGGATAATAAAGATGATTATGCATACTATACAACATGGGGTAAAACCACTAGAGCTATTGCGGCTATTATCATGGTTCATGCTGATGATTATGGACTTGTTTTACCACCAAGAATTGCTCCTAAACAAGTAGTTATTATTCCAATTGGTGATAACGAAGAAGTAAAAGAGCTTGCTAATAAATATAATGATGAATTAAATAAGAGTGATATTAGTACTTATATTGATGATTCTGATAAAACACCAGGCTTTAAATTTGCAGAAGCAGAAGTAAATGGTATTCCAATTAGAATAGAACTTGGTAAAAGGGATCTTGATAACAAAAAAGTTACTCTAGCTAGAAGAGATACTAGAGAAAAGATGGAAATAGATCTTGATAGTGATATCGTAACTGAAGTAAAAGAATTATTAGAAACTATTCAAAAAGATATGTATGAAAAAGCATTAAAAAGACAAAATGAATTAACTTTTGAAGCTCATAATTTAGAAGAGATGGAAAACATATTAAATAAACAACCAGGTTTTATTCACGCTATGTGGTGTGGTGATCAGGATTGTGAAGACAAAATAAAAGAGATTAAAGGTTGTAAATCAAGATGTATTACTGACGATAAACCAATTGATGATAAGTGTGTTTGTTGTGGTAAAGAAGCAAAACATCATGTTATTTGGGGAATTCAGTATTAAAAAATGTAAAGTATACACTTAAGGGTATACTTTTTAATTTTAGAAGGGGAAAATATTGCTATAATTATGGTAGAAAGGTAGGTTTTTATGGAAGAAGAATTAAAAACTAAAGCAAAGAAAAGTAAAAAACAAAAAATAGTTATTGTAATTCTTTGTTTGCTAATCGTAGGGGCTTTGGTTGCCGGATATTTTCTATTATTCCCTAAAAAAGTAGAGAAAGTAAAAGTTAAGAAGAAAGAAGTTCATAAGGAATACCGTATTACCGGTAATGATTTAAATGATTTTGACTTATATTTCTTAAAATTAGAGAACGAGGAAAAAAATAAGATCTATAGTCCTTTATCAATTAAATATGCTCTTGAAATGTTAGGTGAGGGAGCTAGTGGAGCATCTAAAAAGCAAATAGATGAAGTTATAGGTAGTTATAAAGCTAAAAAATATACTAATAGTCCTAATATGTCTTTTGCAAATGCTATGTTTATTAGAAATGAAGTCAAGGACAATATTAAGAAGAGTTATACCAACAACTTAGCTAAGCGTTATTATGCTGAAGTTAAATATGATTCCTTTGCAAATGCTAGCAATGTTAATAATTGGGTTAAGGAGAAAACTTTAAACTTGATTTCTAAATTATTTAATGATAGTGATGTTGCTGATGCTGAATACTATCTTATTAATGCCTTGGCAATTGATATGAATTGGACTAATCAAATACATTGTGCTGCTGGTAGCAAAGTACCTTGTAAGGGTTATAGCGTTTATTATAATCACGAAAAAATTTCTGATGAAGATCATGCTTATAGTGCTAATGTTTATCCTTATCTTGGTGATGAGGAATTTGCCCATTTAGATTTTGAAAATGCTGAAAATAGAAAAGCGGCTACTGTTTATGCCAGTTTTAATCGCTATGACATCGTTAAAGAGATTGGTGAAGATAAAATAAGAGAGATAGTTGGTAATGAGTACAAAAAATGGTTAGCATCAGAAGATGGAAAGGAAGCTGTAGCTGGTGGTATGGCAGAACCTAATGTTAATAAATATTTAGATGAATATATTAAAGATATAGATAAAAACTATGGAAAAGAAGCTTCTTCATCAGATTTCTATGTTTATGATGATGAAAAGGTAAAAGTTTTTGCTAAAGATTTGAAGGAATATGATGGTTTAAATCTACAATATGTAGGAATAATGCCAAAAGAAGATGATCTTACTGATTATATTGATAATGTTAAGGCAACTGACGTTAACAAAATAATTAAAAATTTAAAGGAATTAAAGAAAGAAAACTTTAAAGATGGAGTTGTTACATTAATTGAAGGTGATATTCCAATGTTTAATTATGATTATGAATTAGAATTAATGAGTGATTTGAAAAAAATAGGTATAAAAGATGTTTTTGATCAAGATAAAGCTGATCTTTCAGGTATGTTAAAAGAAAGCAAAAATCATTATATTGGCCAAGCTAAACATAAAGCTACTATTGAGTTCTCTAATGATGGAATAAAAGCTGCAGCAGTTACTGCTGAAGGAGGTTTGGGTGGTACTACAGGAGGATTTGATTATTTATTTAAGGTCCCAGTAGAAGAAATAGACTTAACTTTCAACAAACCATATTTATATTTAATAAGAGATAAAGATAGTGGTGAAGTATGGTTTACGGGAACTGTTTATGAACCAGAAGAACATCCGGCTGAAAAACCGAAGAACACATATTAAAAATAGCCTTTAAGGCTATTTTTTATTGATACATTTCTAATTTTAAAGAGTTTAAATTATCTTGCATGATATCAATATAGTTTTTATTGTTATCTCTTTCATCATCTGTTAGATTACTAGTATTATTTAAGTCAACAACTTCTAAACCATAGTCAGAAGCGAATTCATCAACTGTAGGTGATAGCTTATCACTTTTAAACTTGTATAAGTGATCAACAATACCGCTTCTTACTTTCATTATAATAGTATCTAAATCTTTTTCACTAGTGTTATCACTAATTACTAAGACATCAATGCCAAAGGTAGATAAATACTTAAGAATAGGATTAGAGGTTAGGATTACATTACTATCAGCTTCTTCTACCGCTACTCGGTAGTCAGCATCTAACTCTGAAAGTTTAATCTTTAATTCATTATAATTATCAGTTACTTCTTTTTTAAGATAACTACTGGTGATATATTCATTTAAACCCATTCGAATATTATTACTCATCATTAGTAGGGAAGAAGGATTTAACCATAAGTCTTCACCAGAATAATCACTTTCTAAGACATAAGCAGCATCAATTATTTTTAGTTCAGGATTAAGATCTAGAAGTTCAACAGCTAATTTTCTTTCTTTTTCTACTTGTCCATTATAGACGAATAGATCTTTAAAGGCATAATCCTTTTTTTGTTTCTTAGTTATTTCATAATTACTAATGTTGACACCATCGGGATAAATTGATGATATAGTGGCATGCTTTCCATAAATGTTTTCCGTAATATATTCATTTGGATAGTTAGTAACAATAATTTCAATATTCTCCATATTATCTTGTTTACAACCACTTATAAATAAACTTAATGTAATAATTAATATTAATAAACCAATTCTCTTCATTCTTTTTTTCCTTTCTTTTCAGGTACTAAATCAATTCCTCCTTTAGATAGAGGATTGCATTTTAAAATTCTTTTTAGTGCTAAAAAAGAACCCTTCAATATACCAAATCTTTCAATAGCGATGTAAGCATATTCTGAACAAGTAGGAATATATTTACATCTACTGTGTACTTTACCAGGAGTTTTTTGGTATTTCCTAATGCATTTTAATATTATATTTTTCATATATAAATAGTGTACTATAAAAACTTCTAATTATCAAACTAAAATTGACTATTTTATAAAGATATGGTATAATATGCGTCGTTAAAAAGGGGTGGAGGAAATGAACGAGAACCTTATATCTTATTTAGAAGATAAATTTATACCTAATAATATTAGAAAGAACACTACTTTTAATGATTATGGTGATGAAGAAGAGTTCTATACTATTTCTTTACGAAAAATTTTTCGTCTTGCGAAAAATGAAGAAGAGTTTATTACCATAATGGATTATTTAGCTAAGAATAATATTCGAGTATTTGATATGAAAAAGAATGACTATGATTATGATTTTCCTAATTATGAAACTCGGATAATTGATATTAAAAATGCGAAAAAGCCTTATAGTGAAGAAGAACAAACAGCTAAGTTTTTAGAATATGCGAAAAGCAAAGACCCTAAACTCTTTAATGATTTATTTGAACATAATTATCGCTTTGTTCTTTATATGGCTTCTAAGTATAGTTATTCCTATAGACTTCCTCATGATGTAGCTTTAAGTGCTGCTTGTGAAGGTGCTATTGACGCAATTAGTAGATTTGATGCTAGTAGAGGAATAAAGTTCTCTAATTATGCCCAAAAAGCGATTAGGAGTAAAATGTTGTATCGTAAATTTGATTGTTATAAAAAAGGAAATGATGCCTTTTTAGTTGATTTTTTAAATGCTATGATCGCAGTTGAAAAAGAATATGGTCAAAGAATTGATGACAGTGTATTAGGAAAAGAAATGTTAGAAGAAGTTTTGGATATCTTAGAGACTAAAGGTGTTTGTGTAGCAGATAAAAATGGTAAAAGAAGAACTAGAGAAGATATTCGTAATCTAATGAATATTACTAATCATTTAAATATTGAGGATGAGATTCTAGATGGTGGTTATAATCTTCCAAAATATGATTTGTCTGAATCTTGTCTATATCATGAAAACTTAAGAAAAGAGATAGATGAAGTACTTTCTGGTTTAACTGTAAAAGAACGACAAGTACTAACTCATCGATATGGTCTTGAAGATGATCGTTTTAAACGTCTTCAAGAATGTGCTGATTATTTCGGAGTTACTAAACAACGAATTAATCAAGTTGAGAAGAATGCGTTTCAAAAGATTAAAAGATCGAAAAGTTCGAAAAGACTAAAAGAATTTTTATAATTCTTTTTGTTTGTTTTTATTCTAAATAAAGCGTATAATAATATTGATATTAGCGAGGTGATATAATGGAAGACTTATTTAAAAGACTTGGTATTAAAATAAAAGATATTAATCTATATAATAGTGCTTTTTCGCATAGTTCATATGCTAATGAACATAAGAAGAAAATAGATTATGAACGATTAGAGTTTTTAGGAGATGCTGTTATTGACTTAGTTATTTCTGAATACTTATATCAAAAAAGTGATTTAGGAGAAGGCCAAATGACTAAACTTAGAGCTAGTTATGTCTGTGAAGATGCTCTTTATCGTTATTCCACTGATTTAGAGCTTAATAAGTATTTAAAAGTTGGTCATGGTGAAGAAAAGTCTGGTGGTAAGCATAAAAAAGCCATTGTCGCTGATATATTTGAAGCTTTAATGGGAGCTATTTATTTAGATTTGGGTTTTGATACAGTTAGAAGAATAATTCTAGAAATAGTAGTACCTTATATTGAAGATGAAGAAGTTATTTTCTTTAATGATTATAAGAGTTCTTTGGGAGAGGCTGTCCAAACTGATAATAAATCACTTCAATATGAAGTAATAAAAGAAAGTGGTCCTGATCACGACAAATTATTTGTAGTAGCAGTTATTGTTGATGGAATAACTTTAGGAAAAGGGGAAGCTAAGTCAAAGAAAGAAGCTGAACAACAAGCTGCTAAAGATGCTTTAGAGAAGCTTGCTTTATAACTTGTGTTTTTGATATAATTAGCTTACTTTATGATAGAAGGAAGGAGGAATTAGATGAGTAAAATTAAAGTTTTTGCTTTAGGTGGATTAAATGAATATGGTAAGAATATGTATGTAGTTGAAGTAGATAAAGATATTTTTGTCTTTGATGCCGGCTTAAAGTATAATAATAATGTTAATTTAGGAGTCGATTATATAATTCCTGATACAACTTACTTAGAAAATAATGTTGATAGAATTAAAGGTATCTTTCTTTCTCATGGTCACTTATCAAGTGTTGGTGCTGTTCCTGATATCTTTGATAAATTGAAAAATGTTGATATTTACGGAACTAAACTTACTTTGGATGTTTTAAAAACTAGAATGAGTGATAGTGATAAGAAAAAGATTAAATTAAAAGAGATTAAACCTCATACTAAAATAGAGTTTGGTAAGAATAGTGTTTTCCCTATTAGGGTAACTCATTCAATACCAGATGCAGTTTGTTATGTACTAAATACTCCTGATGGAGCTATTGTCTATACTGGAGACTTTGTTTTTGATTCTACGATGCTAGGTAAATATAAAACTGATATTGGTAAACTAGCATATGTTGGTAAACAAGGAGTATTACTTTTGTTATCAGAGTCTGTTTATGCCTGGAAAGAGGGTTATACTTCACCAAAGAACAGAGTATCTGACTTTATTAGAGAAGTACTAACTCATAATGAAAATCGCATAATCACAACGGTTTTACCAACTGATTTTTATCGTATTCAGGAAATATTTAATGAAGTCAGTGAAACTCATAGAAAGATTGTTATTATGGGTAAAGAACTAGGTGACTTAGTTAAAAAAGGTATAGATGATGGTTATTTAAAAGTAGGTAAGAAAGTAATTGGTGATTTAAAGAATGTTGATGATAAGAATGTTGTTATTTTAATTTCATCAGATAATGAACGACCATTTGCTAATTTAGAGAGAATTTTAAAAGATCGTGATAAATACATTAAAATAAAGGATACTGATATGGTATTTATTGCTGAACCAGCTTCAGTAGGTATGGAAAAGAAATATGCTCTTATTATGGATGAAGTTGCCATAGCTGGTGCTAATGCAATTAGTTTATCAACTAAGAAGCATCTTTTGGCTCATGCCTCTAGAGAAGATTTAATGCTAATGATCAATTTGATGAATCCTAAATACTATATGCCAGTTAAAGGAGAATACCGTTATCAGTTTATGAATGCTTCCTTAGCAGAAGAATTAGATATTCCTAAGGAAAATATCATCTTAAAAGAAAATGGTGATGTAGTAGAACTTGATAATGGTGAATTAGTAGAAAACTTTGAGAAAATTCCTATTGATTCAATTCTTATTGATGGTAAGGATAGTGAAGATATTGGTGATTTGGTTTTAAAAGATAGGGAAATGTTAGGGGAAAATGGAATTGTTCTTTTAAGTTGTACTTTAGATAAAACAACTAAAAAGATTTTAGCAGGTCCTGAAATCTTAACTCGTGGTTTCATCTATGTTAAAGAAAGTCAAGATTTACTAGAGAGAACTAAAGAGATAGCTAAAGACGTAATTGCTAACAGTATTGATTATAATGCTGAAAGAGTAGATTATACTTTGATTAAAAACGAAGTTCGAAAGGTTCTTGGTAAATTCTTCTATGATGAGACCGAATCTAAGCCAATGATAATTACGGTTATTCAAGAGGTTTAAAGCAAGAAATACTTGCTTTTTTCTGTTATTTATGATATAATTAAGCACGTAATTTGGGGGTGTAAGTTATGTATTTACTTAAACGTTTAGAACTTCATTCAAGAGGTATTTTAATAGGTCTTACTGGTACTTTAACACTAGGTACTATTGGTGCTATAACTATCAAAGAATTAACTACTGAGAATACTACATATGTTGATGATATTAAGCTTAGCAAAACAATTGCTGATTATAGTTATGATGATAGTGATTTAGATGATTCTTTTAAAGAATATATAAACGAGTACTTTGCCAATAAAGATAAAGACTTAATTGCTGATGCTGATACAACATCTAGATATATTGATAGTTTAGAAGTTACTAAAGACTTAAAACGTGGCTATGATGATATTAATAAAATGTCTAAATTAGCTGAAGATGAATATCGAAGTGTTTTATTCTTATCTGTTGAAGAAATTGAACAAATGAAGAAAATGGTTGATAAGAAACCAGCTAATGGTGATTTAGTTAAATTAGATTCTCAAATAACTGCTTATAAGAAATTAGATTACTTTAATAATTATGCTGATGAGTGGTTAAAAGAAAACGGAGAAGCTAATAGCGAAGAAATACTTATGGGTTCTATTAAAGCAGCTGTTGGATATGAGTTTAATATTGATCCTAAAGAAGTTGATAAAAGAGTAACAATAGAAAAACGTACTTCTTCAGATGTTAAGGAACCATATGAAATAACTGTTAAACGCGAAGGTTGGTCAAAAGAAAGTAAGACATATAATGTTAATCATCAACAAAAAGTATTACACAATGCTTTAGACTGTCTTTATAACCTACAACGTCGTAAGAATTTAAAGAATGAAGATTATGATGAAGCTATTGATCACGCTAAATTAGTTATTATGAGTGGTGTTGAAACTGATGGTGATAACTTAATGGCTGGACGTAGTATGAGAGAAGTAAAAGAGTTAATAAAAAAATAGAAATATTGTAAAAGTAACGAAAAGACTATATAATTATTTATATAGTCTTTTTATTAGGAGGATAAGTATGATAGAGTCTCTTTTTGATCGGATTAAAGATTTTGGTAATACTTTTGTGGAAAGTTTTTCTATGAAAAAGAAAGAACCATGGTATAAGTATTATTCTAATTTGAAGAAGATAAATTATCCTAATTTAACTTTATACGAAGTAATAGAAAAGACTAGTTTAGCTTATCCCAACAATTATGCTTATGAATATTTTGGTAAGCGAGTAAGATATAAAGAATTTTTGGCTAGTATTAAGAAAACAGCTAGTGCTTTGATTGAATTAGGAGTTAAAGAAAATGACCGTGTAACTATTTGTATGCCTAATACTCCAGTAGCAATTACGATGTTTTACGCAATTAATATGATTGGGGCAACAGCTAGTATGATTCATCCTTTATCTAGTGAGAACGAAATAAAGCATTATCTTAATGATTCTGATAGTAAATATGTTTTAACAATAGATTTAGTTTATGATAAAGTTATTAATGTAATTGATGATACTAAAGTGGAAAAGGTCATTGTTAGTAGTGTTTCTGATGGTATGACTAATACTAAGCATACATTATATTATTTTTTCACCAGTAGAAAAAATAAAATTGAAAAAAATGAAAAAGCTATGTTTTTTAATGAATTATTACGACTTGCAGCTTATGACAAAGATTTTAAAGGGGTCAAAAAAGATAAAAATGATGAAGCGGTAATTTTATATACTGGAGGTACTACTGGAGCTCCTAAAGGAATAATCTTATCTAATTTGAACTTTAACGCTTTAGCAATGCAAGCTAATTCTTTTATTGATGAAGCAGTAGAGGGTAAATCTATTCTTTCAATATTACCAATTTTTCATGGTTTTGGATTAGGGGTATCTGTTCATACACCACTTTATATTGGTATGAAGGTTATTCTAATACCTAGTTTTAGTCCTCGAAAGTTTGGTCATTTATTAAAGAAATATCATCCTAATGTTATTACAGGAGTACCAACTCTTTATGAGGCTTTACTAAAATCAAAATTAGGTAAACATGATTTAGAGAGTCTACAAGCTGTTATTAGCGGTGGAGATGTTTTAACACCAGATTTTAAGAGAGAAATTGATGAATTTCTAAAGAATCATGGTTCTAAAGCTGAAGTTAGATGCGGCTATGGCCTTACAGAATGTACTGGTGCTTGTTTATTAAACCCTGTATCACGTTATAAAGATTATAGTATAGGTATTCCTTTCCCAGATATGCAGTTTAAGATAGTTAAATTAGATAGTAATCGAGAAGCTAAATTCTTAGAGGATGGAGAAATCTGTGTAGCGGGACCAACTGTTATGAAGGGTTACTTAAATGGTAGTGACGAGACCAAAAAAGTTTTAAAGAAAGATAAAACAGGTACTCTTTGGTTACATACTGGAGATATTGGTTATATGGATGAAGACGGATTTGTTTTTTATCGTCAAAGAAGAAAAAGATTAATCATTTCTAGTGGATATAATGTTTACCCATCTTATATTGAAAGTGTTATCTCTTCTCATGAAGCAGTAGAATCTTGTGTAGTAATCGGTATTGATCATCCTTATAAAAAGCAAGTAGCTAAAGCATATATTGTCTTAAAAGATGGTGTTAAACTAACTAGTTCTTTAAAAAAGAAGATTAAAGCTTATACCGAGGAACGTTTAGTACGTTATTCATGGCCTTATGAATATGAATATCGTAAGGAATTACCAAAGACTTTAGTTGGTAAAATAGCTTATAAAGAATTAGAAAAAGAAAACAAAAAATAAGTGCTTTTTGTTTGACATATAATTGTAATATATGGTATAATCTTGACGTTTGATGCCTCATGCTCAAACCGCATTGAAAAGGTTTAGACACTAGAAATAGTACCTTAAGAGCGAGTCTTAAGATTAACAAAAGGAGGTAGAAGATATGAACGCGGTAATTAAAACCGGTGGTAAACAATACTATGTCAGTGAAAATGCTGAAATCTATATTGAAAAATTAGATGCAGCAGTTGGTGATAAAGTAGAGTTTAACCAAGTATTAATGATTGATGGTAAGGTTGGTAATCCTTATATTAAAGATGCTAAAGTAACTGGTGAAGTTCTAAAGAACGGTAAAAACAAGAAGATTAAGATCTTTGTATATAAGAATAAAAACAAGTCTAATCGTAAAACTCAAGGACATAGACAACCTTATACTAAAGTAAAGATTACTAAAATAGTTGGTTAGTGATATTATGATAAAAGTAAATGTTTTAAAAGAAGAAAATACTATAAAAGAAATACAAATATTAGGACATGCTATGTATGATGATTTTGGTAAGGATATCGTATGTAGTGCTGTTAGTTCAATCGTTATTACGACTATTAATGGTCTTTTAGCGATCGATGATGAATCGATTCTTTATGAAGAAAAGAAAGACGAATTAGATATCATCATCAAAAAAGAAAATGATATTGTGAATAAACTAATTAGAAATATGTTAGATTTATTAAAATCTTTACATGAACAATATCCTAAGAATATTATTGTGAAAGGAGACTAAATCCATGTTGAAAATAACATTAAATATCCAGTTATTTGCTCATCATAAAGGACAAGGATCTACTTCTAATGGTCGTGATTCGGCAGGAAGAAGATTAGGTGCTAAAGCAGCTGATGGACAGTTTATTACAGCTGGATCAATTATATATCGTCAAAGGGGAACTAAAGTTCATCCTGGAGTAAATGTAAGACGCGGAAACGATGACTCTTTATATACAACTATTGATGGCGTTGTTAAATTTGAAAGAGTAGGAAAAGGAAGAAAACAAGCTTCTTGTTATCCGGTAGAAAGTAAATAACACCTAAAGGTGTTTTTTATTTACATAAAAAAAATAAAAAGAGTATACAAAAACGGATAATATGTTATAATTATATTAAGAATAGGGATGGTGGATATGAAAAGTGTAGAATTTTTAACTGAAAAAGGTGTAGATATCGCTAAAGCTTTAGAGATTTTTGGTGATATTGAAACATATAATCAAACTCTAGGAGATTTCAAGAGTGCGTTAGAAGAAAAAATACCAAAGCTTGAGGAATTAAAAAATGCTCATGATATGGCTAATTATGCAATTGTAGTTCATTCTATGAAAAGTGATGCTAAATACTTTGGTTTCTTTAATTTTGCTGAAGTAGCTTATCAACATGAAATGGCTTCTAAAGAAGGTAATGTGACTTTTGTTGAAGAAGATTTCAACAATCTAATTACTAAAGCTAAAAAAGTACTTGGTATTGTAATTGAATATTTAGGTAGTGATGATGGTGCTTCTGAAGAACCTAAAGTAGAACACTTAGATGCTAAACCAGAACCTAGTAATGAAGATTTAAAGATTACTCAACCCACTATTATTGTGGCTGATGACTCTAATATAGTAAGAAACTTTGTTAATAGTAGTTTTAAAGATGTTTATAATGTTTTATCTACTGAAGATGGACAATATACTATTGATGTTTTAAATGCTAACATTGGTAATAAAAATATTAAATGTCTATTATTAGATTTAAATATGCCTAGAAAAAGTGGTTTTGATGTTTTAGAGTTTATGAATGCTCATAGTTTATTTGATATGGTTCCAGTAAGTATTATTACTGGAGAAGCCTCTAAAGAAGGAATTGACAAAGCTTTTAAATATCCAGTAGTTGATATGTTACAAAAACCATTTACTGGTGAAGATGTTAAAAACTTAGTTAATAAGACAATTGAATCATCAGATTGGATTTAAGAAGTAGAAATACTTCTTTTTATTAGGCATAAATAATTGTCTATTTGCATCTTTTTAGGTATAATAAGAACAGAAACGGGGTGAATAACATGTTTGTTGATGAAGTAATAATTGATGTTATCGCTGGTGCTGGTGGTGATGGCTGTACCGCTTTTAGAAGAGAGAAATATGTTCCTTTAGGAGGACCTTATGGTGGTAATGGAGGCCATGGTTCAGATATTGTTTTTAGAGTAGATGAAGGATTACATACTCTTTTAGATTTAAAATATCAAAAAGAAATAAAAGGTAAAAAAGGAGCCAATGGTGAAGGTAAGAATAAACATGGTAGAGGGGCAGATCCTCTAATAATAAGTGTTCCACCCGGCACAATGGTAACTGATCTTGATACAGGACTTATCATAGCGGATTTGAAGAAGAACGGGGAAGAACAAATAATTGCTAAAGGAGGTCGTGGTGGTAGAGGAAATACTGCTTTTAAGACACAAACTAATACGGCCCCTAACTATAGTGAAAATGGTGAACCTGGTGAAAAAAGAAGGATAAAAGTAGAATTAAAGATGTTAGCTGATGTTGGTTTAGTAGGACTTCCTAGTGTTGGTAAGAGTACAATTATATCTTGTGTTTCTAAATCAAAACCTAAAATAGCAGCTTATCACTTTACAACTTTAACTCCTAATTTAGGAGTAGTAAAAGCAAGTAATGGTAGAAGCTTTGTAATGGCTGACTTACCAGGATTAATCGAAGGAGCCAGTAAAGGCGAAGGCTTAGGAGATAAATTCTTAAAACATATCGAAAGAACAAAAATAATTGTTCATGTTTTAGATATGTCTGGAAGTGAAGGAAGAGACCCTTATGAAGACTTTGTAATGATTAATAAAGAATTAGAAGAGTGGAGTAGCAATCTAATTAAAAAGAAAATGGTTGTAGTTGCCAATAAGATGGACATTGATGGTGCTAGTAAAAACTTAGAAGAGTTTAAGAAAAAAGTTGATAAAGATTTAAAGGTCTTTGAAGCAAGTGCAGCTATGAATAAAGGATTAGATAAAGTAGTAAATTATCTAGGAGAATTATTAGAAGAAATCAAAGAAGAGAATATCTATGAAGAAGATATGTTAGAGTCTCATGTTTTATATAAATTCGAAAAGGAAGAGCCTTTCACAATCACAAGAGATGATGATGGTACTTGGGCAGTAGAAGGTGACCAAATAGAAAAGATGTTTAAAATGACTAAGTTTACTGATGAAGGAATCAGAAGATTTACTAAAAAACTATATAATCTGGGTATAGAAGAAAAGTTAAAAGAAGCTGGTGCTCAAGATGGAGATAGTGTCAGAATAGTTGATTTCTATTTTGATTATAAGGAGTAATTATGCTTAAGATTGCGACATTTAATATAAAAAATGATTATAAATTATATGACCCAGAGAAAGCAGAGACTATTTATAATTTTTTAGTAAAAGAAAAAATAGATATTCTTTGTCTACAAGAGGTATTTGATAAGTGTAGTGATGACCTTTGTAAAAAGATTAAAGATACTGAGTATAATATGTATGGTAAATATCGCTTTAGATTACATATTTTAAGAAAGATTAATGAAAAAACACCTATTATTACTAAAAAAGCTAAAACTACTAAGACTATGCATTTACCTCATCTACCTAGTCCTTTAAAAAGAGTTATTACGAGAGTTGTTACTGATACAGAAGATGGTAAAATAGCCGTTTATAATACTCATTTAGATTTTATGTATGAATTCACTAAGAAAAGACAATTGAAAAGAATTATTAAAATTATTAAAAGAGAAAAATTACCAGTAGTATTAGTAGGGGACTTTAATGCTAAAACAAATAAAGAGTTCTTTAATGAATTTGTTGATGAGTTAAAAAATTTAGGAATAGAACGAGTAAAAATAGATGAAAAAACTCTAAAGCAATCTAAATATAATAGAGCTATTGATCATTTATTTATCTCTAATTCATTTAAAGTAATTTCTAAAAGAGTTGAAAAGGATCTCAAAATAAGTGATCACTACCCATTAATTATAAAAATAGAGAAACGTAAAGAACTGTAAACAAGGCAAAATGCCTTGTTTTTATATACTCAAAAAGTTATAATAAGTATATAAGATAAAATAGGAGAAGTATATGAAGAAGATCTTTAATGTATACAACATTGCTTTAATACTTGTAGTAGCACTAGTAGGAGTGTTAACATTCAAAACAACAGAAGTAAAAGCAGCAGGAACAGTGTCATGGCCAGATGGTAGTACAGCAACAATATCAAGAACAGTAGAGAACGTTTATAATGCTCCTGTAGTGGATTTTACTTATAGCGTATCAACAGAAGATTCGTCAATAGTAGCGTTAAAAACCGCTACTTTTGGTGATGGAATGTACACAGTAAATCCAAAGATAAAAAACATGGCCAATAACGTGAGTTGGTATGATTACGTTTCTTCTGAAGAAGCTGTTTCGGCCTTTAAACGAAGTGAAATTTTGCCAAATGGTTTTGTTCCTGCAGAGGAAAACACTATATCAGACGAGGATTCGGATTACCCAATCTATATATTCTTCGATGATACTGATGGGACAATATATTATTATAGTGAAGCCAAAGTAGTATATTTAAATAGTGATCCATCATATATGTTTGCTGGGTGCAGTGGTTTAGCAGACATAAGCGGTTTATCAGGAGTGAATACCTCAAAAGCAACGAATATGGAGGCAATGTTTAATGGCTGCGCAAAATTAACTAATATCAGTGCCTTAAGCAATTGGGACACCTCAAAAGTAACCCAAACGACGTCTATGTTTGGAGAATGTACTAGTTTGGCCGATATAAATGGAGCCAGTAATTGGGATACTTCAAGAATGGAAAATATACAAGGCATGTTTTATGGTTGTCCAAAGGCATCAGGCACAATACAAATATTAGGAAATCCGTACTATGATAGTATTTTTGCTGAAACAGCCACAGCTGCCGGAGCTCAAATAACAGTTAATTATGGAGCAAATACGCCAATAGATAGCATTATTGCAGAGAAATCGTCAGGTTCTCATATAGTAAAAGGGCAACAAGTATCAGCACCTTCAGGAGGAAATTCCCAAAGCGGAGGATCAAGTTCTAGTTCATCAGAAACAGTATTTGATACTAAGACCATCTCATTTGATGGAACTGAAACAGTAAGTAATAGTTATACAGTAAATAAGAGTACGACAATTAATTTTGCTAATATGGGACTAAGCTTTAAAAAACCAGGCAATTATGAATTAACTGTGAAAGAGTCTGCTACTAGTAATAGTGCATATCCAGTAGATAATGATAATGAATATACAGTAATAGTACAAGTAACTAATGTAACTGATCAAAATGGAACTCCAACAGGAAACTTTAATGCTAAGTTTGTTATTAAAGATGATAATGATACCAAAGTAAGTAACATGCCTTTTAGTGAACCCAAAGATGAGACTAAGTTTGGACATATAGAACTAACTAAAACAGTTAAAGGTATTATGGCTGATAGAACTAAAGACTTTAGTTTCAGTGTTCAAGTAGATGATGCTGCAACTAATGCCTGTGCAAATTACTCTTTAGGAGAAAAATATCTAATAAAGGGAACAGGAGTACCTGAAGATGGTTCTGAAGTAACTAAGTGTAAGAGTGGTACCAAAGATAGTATTACTCTAAACCATGGAGAAACAGCTACTATAGGACAGTTTACATATAACAATAATACCTATGATTCTATTTCTATAGATGATTATTATAAGATAATAGAAAGTGCTGAAAGTGACTATACCACAACCTTTAAGATAAATAGTGGTAGTACTGCTAGCGGTAGAGATACTGGAAGTAATGCTATAACTCATAGTGGTAATATTGTTACTTTCTATAATCAAAGAGAAGGTTCACCAGTAACAGGAATCATCTTAACAATCCTACCTTATTTAATTCTAGTAGGTATAGGTGTTGGAGGAGTACTTTTATTCCAAAATAGAGAGAATATATTAAAAGAAAAGAAGAATTAATCTCCTTTTCTTTTTATTTGATCACCAACTTTTAATAATGGTCCTGCTCCTAGAGGTAAGATATAAACATTATAGACTTTTCTTTTGGGAAAAATTATTCTTTCAGTAATAGTATTTGGATAAATATATAGTACTTTATCATTTTTATCAGTCATAATAATATCAGTACTTTGACAGAAGAAATAGGTATTTATACCATGTTTCTTTTCAAATAAATATCCTTCTTCTTTTAGAGGAGGAAAGAAGAATCTTAAACTTTTAAGTCTTTTTCCAAAGGTATCTAGTTTGTTTATTTTTATTTTAAACTTATCTATTTTTATATACATGGCTATCACCTTAATAATATCTTAACATAATCAAAAAAACTTTACAATTTTAAAGAAAAGCTTTATTATTTATAGAGAAAGGGATGATATTATGAGTGGACATTCAAAATGGGCAACAACTCATCGTAAAAAAGAATTAATTGATGCAGCTAGGGGTAAAGTGTTTCAAAAATTAGCAAAAGAAATCTATGTAGCAGCTAAGAGTGGAGCTCCTGATCCTGATCAAAATGCTTCTTTAAGAATGGTTGTAGAAAAAGCCAAGGCTGCTAATATGCCTAAAGATAATATTAAGAAAGCAATTGATAAAGCTAAGAATGCTGGTTCTGGAGAAAATTATGATTCTATTAGATATGAAGGATATGGACATGGTGGAGTAGCTATTATGGTTGATTGTCTTACTGATAATAAGAATAGAACAGCTTCTTTTGTTCGAAGTGCTTTTTCTAAACATGGTGGTAATTTAGGTACTGATGGTTCTGTTAGTTATATCTTTGAGAAGAAGGGTGTTATTGAGGTAGCTAAAAGTTATGATGAAGATGAAGTTACGATGGCTGCTTTAGAAGGTGGAGCTAGTGATGTAGAAGTACTTGATGAATCATATTACATAACAGTAGAACCAGAAGACTTTATTAAAGTTAAAGAAGCTTTAGAAGAAGCTGGGGTTAAAGAGTTTTTAACTAGTGAGGTTACATTTGTTCCAAATATGGAAGTAGAACTTAATGAAGAAGGATGCGAAAAGGTTCATAAATTACTTGATGCTTTAGATGAACTTGATGATGTTAATGATATTTATTGTAATTTAAAAGAAGATTAACAACTTTATAAGTTGTTATTTTTTTACCTTGTAATTAAAACTTATGTTTGATATAATATAATTGTTAAAATCAAGTTATTGTGGTATTATGTTGGTAGGTGATTTCAATGTATGAATATATGATTGGTAAAATTGTCGATATTAAAGCAACGGGTATTGTTTTAGAGGTAAATAATACTGGTTATTTTATTAATGTAGCATCTCCATATTCTTTTGATTTGGATAAAGAAGAGAAAGTGTATTTATACATTCAAATTAGAGAAGATGAACATAATTTATTTGGTTTTAAAACACTTGAAGAAAAGGAATTATTCTTGAAATTAATTGGTGTTAAAGGACTAGGTCCAAAAATGGCTTTACCTATTTTAGCAGTTGGTTCTATTTCGGGAATAGTTGATGCAATTGAAAGGGAGAATATTCTTTATTTGAAGAAGTTTCCTAAAATTGGTGAAAAATTAGCTAAACAGATTATCTTGGATTTGAAGGGTAAACTTGATTTTGAAGGTACTGATTTAGAAAGTAATCATGAAGGGGGTATTGAATTAGTAGAAGCTTTGAAAGCGCTTGGTTATAAAGAAAAAGAGATTAAAAACATTATTCCTCAGGTGGATAATAGTTTATCTTTGGAAGAACAAATTAAGGAAGCTTTAAGGCTTTTATTAAAGTAATTATGAATAAAGTTGTAAGTTTTAAAGAAAAAATGATTGATCAAATGACGGATAAGATTCTATATGATTATAGGTATGAAATCTTTATGGATAGAGATTATCTAAAACCTTATATTGAAAGTATTTATAGTTTTTTGGAAAGACATCATCAAGTTTATCGCTTTCGTGATGAACTAATTGGTTATTTTGATGAGGCTTTAGAGTTTGATAACTATAAAGCAAGATTGAATACTGATAAATTGATAGATAGTTTAGTGGAGAATAGTCCTAGTTATAATGACAATGTAGACGGTAAAATATATGTATTAAAGGAGGGGAAGAAAAATGGCCGAGGAAAGAGTAATAACTGAAAGAGAACTTACTGATGATGAAATAATGGATAATACTATTAGACCAGAGACAATAGAGGAGTATGTTGGTCAAGATGAAGTGGTTGATAATTTAAAAGTTTTTATCAAAGCAGCTAAAATGCGTAAAGAAGCTCTTGATCATGTACTTTTATATGGCCCTCCAGGACTTGGAAAAACAACACTTGCTTATATTATTGCTCATGAACTTGGTAGTAATATTAAAACTACAAGTGGTCCTAGTATTGAAAAGTCTGGTGATTTAGCAGCAGTTTTATCTACTCTTGAACCAGGAGACGTTTTGTTTATCGACGAGATACATCGCTTGCCACGTTTTATTGAAGAAATTTTATATCCAGCTATGGAGGATTTTACTTTAGATATTATTGTTGGTAGTGAAGGTAATACTAGAAATATTAAAATAGATTTACCACCTTTTACTTTAGTAGGAGCTACTACTAGAGCAGGTGATTTGACTGCTCCTTTAAGAGATCGTTTTGGTATTATTAATAAGCTTAATTATTATAGTGATAAAGAATTAGAAAAGATTGTTAAAAGAACGGCTAAAGTACTTAATATGAAGATTGCTAGTGATGCTGCCTTAGAACTTGCTAAAAGAAGTAGAGGTACACCTAGAATTGCCAATCGGTTATTTAAAAGAGTTAGTGATTTTAGCTTGGTTGAAGGTAAAGAGAAAATCGATTTAGAAATTACTAATAAAGCTTTAGAAAGATTAAAAGTAGATAAATATGGACTTGATGCTACTGATCATCAATTATTACTGGCCATTATTAATAAATTTGGAGGAGGTCCAGTAGGAATTGATGCTATTAGTAATTCAATTGGGGAAGAGGTAACTACAATTGAAGATGTTTATGAACCATATCTTTTACAAAAAGGACTTTTAAAAAGAACTAATAGAGGTCGAGTAGTAACAGAAAAAGCTTATGAAGTATTAAATATCGATCATCAAAAAAATATATTTGAAAATGAGGGATAATTATGGAAATGAAGAAAGCTGCTTATGCTTATTTAGCTAGTGCTATGGATATTGGAATCCATAACTTTGGTGAAAAGGAATGGGAAAAAATATGTGATATATCTGATGAAGTACAAGATTATCAGAAGGAAAAATTTGTTATTCCAGAATTCTCTAAGTTGGTTATTGGAACTAGTATTTTAGCTCTTAATGAGAATAAAGAAGAAGTTAATAATTGGAGTGTCCCGGAATTGGAATTGTTTTCTACTTGTTTTGCCTATGATAAATTTTCGGCTCTTTATAATGGAGAAGAGTTCTCTTTAAAAGAAAAAATGAAAGAGTTTGACAAAGAAGTGTTGCAGGCTGTTTTACAACAGAAATTAGGGAAAAGAGATGCTATGGAATTTATGTGGAATATTGAAGGACAGCTTTATGAAATAGGAATGGATAAAGAAGATGTATTGCATTTTATTAATAATAGTAATAAAGAAACAATTAGAGAATTTACCCAAAAAGCTTATCATAAAGATGCCGAGTTTTTAGAAAAGAATCAAGATGAAGTTGGTAAATTATGCTTATAGACGAATTTGACTACGAACTTGATGAAAGTTTAATTGCCCAAACTCCTCTTAAGGAGAGGGATAAGTCTAGATTGATGGTGCTTGATAAAGAAACTGGTGAAATAGAACATCGTACTTTTTGTGATATTATCGATTATTTAGAAAAAGGAGATACTTTGGTATTAAATGATACTAAGGTATTACCAGCTAGACTTATTGGTAGTAAAGATAAAACAGGTGCAGTTATTGAGGTATTACTTTTACAAAACATTGAAAATGATACTTGGGAATGTTTAGTAAAACCGGCTAGAAGAATCAAAAAAGGTGATCAAATTACCTTTGGTGATTCTTTATTAGTGGCTACTTGTACAGAAGTTAAAGATGAGGGAATCAGAATCTTTAATTTTGCGTATGAAGGAATCTTTTTAGAAGTTTTAGATAAGTTGGGAACAATGCCACTTCCACCTTATATTCATGAGAAATTAGAAGATAAAGATCGTTATCAAACTGTTTATGCTAAAGAAGTAGGTTCTGCTGCTGCTCCAACAGCAGGTCTTCATTTTACTAAGGAATTGTTAGAAAAAGTTAAGGAAAAGGGAGTTAATGTTGTCTATATAACTTTACATGTTGGTCTAGGTACTTTTAGACCAGTTAAAGTAGAAAGAGTTGAGGATCATAAAATGCATAGTGAATACTATCGTGTTGATAAAGAAACTGCTGATCTTTTAAATAATACTCGTAAATCTGGAAAAAGAATTATTGCGGTAGGAACTACTTCTACGAGAACTTTAGAGACCTTAATAAAAAAATATGGTGAATTTAGAGAAGATAGTGGCTTTACCGATATTTTTATAACTCCTAAAGATAAAATAGATAGTATTGATGCTTTAATTACTAATTTTCATTTACCAAAATCAACATTAGTGATGTTAGTATCAACTCTTGCGGGTAAAGACAATATTTTACATGCTTATAAAGTAGCTCAAGAAGAAAAGTATCGCTTTTTCTCCTTTGGTGATGCGATGTTCATAAAATAGGAGGACATATGAGAATAGAATATACATTAAAAAAGAAAGATAAAAATACTGAGGCTCGTCATGGTAGTATAAAAACTAATTATGGGGAATATGAAACGCCTATGTTTATGCCAGTAGGTACCAAAGCTACTGTTAAAGGACTTTCTAAAGAAGAATTGGCTGCTGTTGGTCGTGGTATTATCTTAGCTAATACATATCATCTTTGGTTAAGACCTGGAGAAGATGTTATTGATAAGTGTGGTGGTCTTCATAAGTTTATGAATTATGAGGGACCTATTCTTACTGATTGTGGTGGCTTTCAAGTTTTTTCTCTTATTCAAAATAAGGAAAAAGATATTACTGAAGAAGGAGCTAAATTTAAAAGTCATTTGGACGGAACAGAACTTTTTTTAACTCCAGAAAAATCGATTGAGATTCAAAATAAATTAGATAGTGATATTGCGATGAGTTTTGATGAATGTCCTCCTTATCCAGTTACTTATGATTATATGAAGCAATCAGTTGAGAGAACAATTCGTTGGGCTGAAAGAGGTAAAAAAGTTCATAAAAATGATCATCAAGCTCTTTTTGGAATAGTTCAAGGAGGAGAATTTACCGATTTAAGAGAGTATAGTGCTAAAGAGACTGTTAAGTTAGATTTTGATGGTTATAGTATTGGTGGTACTTCAGTAGGAGAACCTAAAGATGTAATGTATAAAATGATTGAAGATGGAGTACGTTATTTACCAGAAGATAAAACCCGTTATCTAATGGGAGTAGGAGATCCTATTGATATTATTGAAGGGGTAATTAGAGGAATTGATATCTTTGATTGTGTACTTCCTACTAGAATTGCCCGTCATGGTCAAGCTTTTACTAGAACTGGTAAAATTAATTTAAATAATGCTAAATATATTACTGATATGTCTAAACTAGATCCAGAATGTGATTGCTATACATGTCAGAATTATTCTAAAGCTTATATTCGTCATTTGATAACTACTAAGGAAATGCTAGGGGGAAGACTTCTATCAATTCATAATATTCGTTTCTTGATTAAATTAACAGAGGAATTACGTAAAGCTATTGATGAAGATCGAGTTTTAGAATATCGGGAAGAATTTATTAAAAAATATAGTAAAAAAAGTCCTTAGGGACTTTTTTATATGAAAAAGATGGGACCATTATTTGTATTATTATTTATTTTTTCTTCTTGAATATGATCATTAGAATTAATGGCACCCGCTATTTTATATATTGTTTTGGCATTGTTCATAATTGGTTTAAATTGTGATACTATTGGTATTGCTTGATTAATGACATTTAAAGTTTTAGAAGTATTAGTAAGCATATTAGACCAATTAATACCTCTTAGAAAACCTCTTATTCCAAAACTAGGAGCTGTATAAAGATATGGATTATTAAACATATACCCACCTCACTATAATAATATATGTTTTAATTGGAAAAATGTTTTAAAAAAAATATATTTATGTTATAATAATTAATAGAATAGGAAGGAAGTGGAATGATGAGTATTGTTAGTCAATCGCTAGTTTATATTTATCGCTTTGTAAACTTTATTTTTACCCTTCCTAAGCATATCTTAAATAAGAGTGAGGATGCAGTTCTTGGAGGTATTGATAAACAAGAATTAAAGAAATCACAGGAAGATTCTAAAGTGCCTAATACTGAAAAAGAACTTACTGAAATAGATCAGAATTTAAAAGGAATTGGAAAGGATAGAGCAAAAAGAGGGGAAAGAAATCCTGTCTATTCTTTTCGTTATGTAATTTTAGCTGATAATGGTAAGAAAGAAAAAGGTATTTTTGAAGCAGAAACTTTAGAAGACGCTACTAACTTTTTAAAAAGAGAAGGATATAATGTAGTTGACGTTAAACCAAAATCTAAATTTGACATTGATTTTAATTTTAGAAAGACAATTAAAAATGGTGATTTAGCTTTTGCTTTAACACAGTTATCTACTTATGTTAAAGCTGGAATTCCTTTGGTTGATGGAGTTAGAATATTAGCTAAACAGACGACAAAACCTTTTCTAAAAAGGGCTTTTGAAAGATTAGTTTATGATCTTTTAGCAGGTGATGAATTATCTGAGGCTATGGATAATCAAGGAGATAGATTCCCTCGACTTTTAATAAATATGATAAAGACAGCAGAGATGACTGGAGATTTAACAACTATTCTTGATGATCAAGCAGAATACTATGAGTCAATTGAAAGAACAAGAAAGCAAATGATTAGTGCGATGACATATCCGGCAGTGGTTTTATTCTTGGCTTTTTGTGTTTTAATCTTTATGTTAGTTTATATTGTTCCAAGATTCGTTGATATGTTTGAAAGCCAGAATGCTGATCTTCCATGGATTACTAAAGCTGTTATGGCTGCTAGTACCTTTGTAAAGAGTAATTTTGTATGGTTAATTTTAGGTCTTGTGGGATTTGTTCTGTTATTTAGATATTTATTTAAGAATGTTACTGCTTTTAGAAAGACTATTCAGACTGGTCTTATGCATTTCCCAGTAGTAAAAAACATTATTATTTATAATGAGGTATATAATTTTACTAAGACTTTTGCTTCGCTTTTAAATCATGGTGTTTATATAACAGATAGTATGGAGATTCTTTCTAAAATAACTACTAACGAAGTATATAAAGAAATAATTGGTAAAACGCTTACTAATTTAGCTCATGGAGATTCTATTTCTTCTTCCTTTAAAGGAGAATGGGCTTTTCCAGTTGTGGCTTATGAAATGTTAGTAACTGGTGAATCAACAGGACAGTTGGGATTGATGATGGAGAAAGTGGCAGAACACTTCCAGATGTTGCATAAAAATATTATTGACCAATTGAAAAGTTTAATTGAACCTTTGATGATTGCGGGACTTGCTGCTATAGTTGGAGTAATTCTTCTTTCAATAGTAGTGCCAATGTTTGATATTTATGGAAAGATCCAATAGGAGTGAGGGATAGTATGTATATAGCTTGTCTTATTATATTCTTTATCTTGGGCTTACATATTGGTTCTTTTTTAGCTGTTATAGCGATTAGAACGCCTAAACATGAAAGTTTTTTAACAGGGCATAGTAGATGTGATAATTGTAATCATGAATTGAAATTCTTAGAAATGATTCCAGTCTTTTCCTATGTTATTCAAAGAGGTCGTTGTCGCCATTGTGGAGAAAAGATTTCTTCTTTATTACCAATTGTTGAATTATTAACGGGTTGTTTATTTGCTTTGAGTTTCTATCTTTTTGGTTTTAATTATAATTTGTTTATTGCTTTAGGGATAGTAGCTTTATTTATCATTGTTTTAGTAGCTGATATAATATATATGATTATTCCTGATCAAGTACTAGTGTTTTTTTCAATATACTTTATTGGTTTACAGTTTTTAAATGTTGGACTTGTACAAACTCTTTATCATATTTTGACAGGTATTTTCCTTTTTGCTTTAATGTATTTAATTATGTTGGCAGGAAATAAACTTTTTAAGAAAGAGAGTATGGGAGGAGCCGATATAAAGCTAATGTTTCTCTTTGGACTTTTATTAGATCCATTAATGGGATGTGTTTCTATCTTTTTAGGTAGTTTTATTGCTTTACCAGTTTCTTTATACTTATTACATTCTAAACATGAACATATTATTCCTTTTGGGCCTTTCTTAACATTATCTCTTTTAATTATTTATTTCACAGGTATTAATACTACTGATATTATTAGGTTTTTAGGAGGATAATTATGAAAAAACGAAATAGTTTATTGATAATTATACCTGTGTAGAGTATAGTCCGGAAATTCTGGTAATTGGTTCAACTAGAGATAATAACATTATTAATATATACTATAGGAAAATAGATAATAAAAAGACTGATACAAAAACAGATGGTAATAAAATAGTATCTGATCGAATAAATAATCCAAAAACAACAACTAGAAATATGTTCTTATATATAATTATTATGATGATATCCATCGTATGCTTCGTATTAGGGATTAAAAATTATAAACAAATAAAGAGTTAATAAACTCTTTTTTTTATCCTTTAATTATGATAAAATAGCTTTACAAAGTCGGGTGATAATATGAAAAAAAATATAAATATTTTACCAGCTGATATATATGTAGTAATTAATAAAACTAAGATTGATAATGGTGATATTGATATTGTCAGTAAACTTTATCAACCAATTATTGGTTTTACAGCAGTTAGTTTATATATCAGTTTAATTAATGATCTTCGTACTAATGAATTCATGAGTGAAGAATATACTCATCATCATTTAATGACTAAAATGCAACTTTCTTTAGATGAAATAGTTATGGCTAGAGAAAAACTAGAGGGAGTAGGTCTATTAAAGAGTTATTTAAAGAAAAATGAAAGTGTTAATAATTATGCTTACCTTTTATTCTCTCCACTTAGTGCGAATGAATTTTTAAATCATCCTATTTTGAATGTTGTTTTATATAATAATTTAGGTAAACGTGAGTATGAAAAAGTAGTTAGTGAATATAAAATACCACGGGTTAGTTTAAAAGATTATGAAGATATTACTAAGTCATTTAGTACTGTTTATAAAAGTATACCTAGTAGTAGTTTTGGTCAAGAAAATATCATTAAAAAAGAAAAGAATAATTTATTGATGGATAAGTCAATTGATTTTGATTATATTATAGCTGGTATTCCCAAATCAATGCTTAATGAAAAGTGCTTTAATAGTGATGTTAAAAGATTAATAAATTACTTAGTATTTACATACAATATATCACAAGAAGATATGCTTTCTTTAATTAGGGATTCTCTTAATGAGAAGGGTATGATTGATAAAACTTTATTAAGAAAGAATTGTCGTAATTATTATCAATTTGATAATGGAGGCTTTTTACCAACACTTGTATATCGTACGCAACCTGATTTCTTAAAGAAACCACAAGGGGATACATCTAATTGGGCAAAAATGGTCTATACTTTTGAAAACGTTTCACCTTATGATTATTTAAAGGCTATGTATAAAGGTACTAAACCAACAGCGCGTGATTTAAGATTAATTGAAAGTTTGTTAGTTGATCAGAATCTTTCGCCAGGAGTAGTTAATGTATTAATTTCTTATGTTTTAAAAGTTAATAATCAGAAACTAAGTAAGAATTATGTTGAAACAATTGTTGGTCAGTGGAAGAGACTTAATGTAGAAACAGTTGAAGAAGCGATGCGGATAACTGAAAAGGAACATAAAAAGATGCATAATAAGGATAAGAAGAAAAATACTAAAGTTCCTGATAAAACTCCAGTACCAGAGTGGTTTGATAAGAAAATTGATAGTAAGGAATTAAGTGCTGAAGAGGAAGAAGAAATAGATAAAATATTAGAAAGTATTGCTTAAATAGATTTTTTGTGCTATAGTAATTAACCATTAAAGGCTGTATCTACAGCATCAGGGGGTATATATGTTTAAGGATAGTACTAAAGCAGAAATAACTAATAAAATTATTTCTATTGTTAGTATGACACTGTTCTTTTTGGTAGCTTTTTGGTATTGGTTTGGGTTAAACCTTAAATAGAATAGTGTTAATTAGTGTAAAAATAATTTATAATCATTGTAAATTATTTTTATTTGTGCTAATATGGTAACGTTGTGGGAGTGAAGATGATGGATAATTACAATGAATTTTACAACATTATTGATGAAGTTTTAACAGTAGATAAATTCCAAGAAATGAAGAATATTCCTCATCATGGAATAACTAGATATGATCATCTAATGAGAGTATCATATTATTCATATTTAATTTGTAAAAAACTTCATCTAAATTATAGGGAAGCAGCTATCGGGGGACTATTACATGATTTCTTTACTACTGAATTAGATGATAGTAACAGTTTAAAGGCTTTAGTTAAACACCCTAAATGTGCCCTTAATAATGCCGATAAATATTTTACTTTAACGGATAGGGAAAAGGATATTATTAAAGCACATATGTTCCCAATTACTATTCAACCGCCAAAGTATTTAGAAAGTTGGATTGTTGATATGGTTGATAATGGTGCGGCTATTTATGAAAAAGGAAATGGCATGAAGAAGGAATTAAAAACAGTTGCGACCTTTCTTTTAATTTTATTTATAAATATTATGAAATTTAGATAGTATCTAAATTTTTTATTGTTATTTTATATATAGTTTGGTAATATATAAGTATAAAATGAAAGGAGAAATTATGAAAAGAAAGGTTTTATTATTTAGTGTTTTAATACTATCTTTATTTATACTAGCTGGTTGTTCTGATGGTAAGAAGGTTAAAGTATTAAAATGTAGTATTGAGAAGGATGTCACTGATAGTATTCATCTTGAATCTAAATATAATGTTTATTACACTGGTAAATATGTTAATAGTATTAAAACGGTAGAGTCTGTAACTGCTAAAGACAAATCAGTTTTAGAGGCTTATCAAAAACAATTAGATGTTGCCTATAAGGAATATCGGAAACTTGATGGTTATGATAATAGTATTGAGCTTAAAGGTGATAAATTAACAAGTAAAACAAACATTGATTATACTAAAATTGATATGGATGAACTTGTTAAAATTGAGAAGAGTTTAAAGAACATTATCAAAGATGGCAAAATAAAAGTTGATGATATTAGAGCCATTTATGAGGATGAGAATTTTGGAGCTAAATGTGAATAAGTGAAACAATTTGTTTCACTTTTATGTCTGCGTAGCTCAGTTGGATAGAGCAATCGCCTCCTAAGCGATAGGTCAGGCGTTCAAATCGCCTCGCGGACACCATTGGTAATAAAAGACTATGAAAAATGTAGTCTTTTTTTGTGCAATTATTTAGGAAAATGGTATAATATTTTTATAAGGTAGGAAGCTATATGAGAATACTTAGTTTATTTGATTGTCCGCTAGGAGATATAAAAGAGTTTTTACCTCTTATTAAAGAGCAAGGTTTTGATGCGGTTCAAATATCACCATTACAGCATACTAAAGATGATTATTCTAAAGAATGGTGGATGCTTTATCAACCGCTTAATTTTGAGCTTGGTAATAGAATAGGTTCTAAAGAGGATTTATATGAATTGTGTCAAGAAGCTAATAAAAAGGGAATTTTAATTATTGCGGATACAGTAGTTAATCATTTAGCCAATAACTCTGATAGTGATCCGTTGGAACCAAATAAGAATGCTGATTATGAGTTGTTATCAGATCCGGCTTGTTGGAAGGTTAAAAAACAAGTTACTAATTGGGATGATCGGTACCAAGTTACTAATTTTTGTATGGGATTACCAGGACTTAATCCTCATAGTAAGAAAGTACAGGCTAAAATAATTAAAATGCTAAATGAATATGCGGATTTGGGAGTTGATGGTTTTCGTTTTGATGCTGCTAAATCAATAGCTTTACCTGATGAAGGTTGTGACTTTTTCCCAGTTATTACTTATTCACTTAACAGGTGGTTACCAATAATTTATGGGGAAGTTTTGTTTGCTAATGAGGATTTAATAAATAAATATGCTAGGTATATGCGAGTTTTAACTAACTCACACAGTAATAATAAAGATGCTATTATTAAATTTGTGGAGAATAAGGATAGTTTTCTTTCTGGTGATTTAGGATGGACATCTAATTGGCCTAAAGAAAGGGTTACTAATGAGTATCAATATTTAACTAGGGAGTATCCTAATACACTTTATTATGCTAGAAATTATACTGATGATTGGCACGAATGGAAATCACCTAGAATAAAAGAAGCAAATCATCAATATGTTAAACGTTATCGAAGGTAGGGGAGTTCTATGAGAAGAAGAGTACGTAATTATATTCGCTTGTTTTTGTTGCTTCTTATTATAGCTAATATAATAATAGTAGCTATTAATAAATCACAGGCACAGACACAAGAGGTGGAAGTAGTAAATCTAAATAATAATAATTTAGAAATATCATATATTGATGTTGGACAAGCTGATAGCGCTTTGATAAGAGTTAATGACAAATATGTTTTAATTGATGCTGGTAGTAGAGAAAGTAGTAATAAATTAGTTGATTTTTTACATAGTAAAGGTGTTACTAAATTTGAATATGTTGTTGCGACCCATCCTCATGAAGATCATATTGGTGGTATGAAGAAAATCATTGATAATTTTGAAATTGCTAATTTTTATATGGCTGATGTCATTACTACTACTAAGACCTTTGAAGATATGTTGGATGCTATGGCTGATAAGAAGATAACTTTTAAGACTTTAAATCTTTTAGATAGTTTTAATGTTGATGAAGCTAATTTTGTTTGTTTATCGAGCTTGTCAAATAATATTATTAATCTAAATGATGCTTCTATAGTTTTGAAAATGGATTATTTAAAGACTAAGTATCTTTTTATGGCAGATGCTACTGATAATGTTGAGCGAAACATGCTTGATTATGATCTTAAAAGTGATGTTTTAAAAGTGGCTCATCATGGCTCTAAGTATTCAACAAGTGCTGCCTTCTTAAGTTTAGTAGAGCCTAAATATGCTATCATATCAGTGGGTAAAGATAATGTTTATAAATTGCCTAGTGATCAGGTTTTAAATCGTTTATATGGTAGTAATATTAAAGTATATAGGACTGATTTTGATGGAACTATTACTGTTACCAGTGATGGTGAAAATATAAAAATTACTAAGGAAGTGAATTAAGATGAGAATTAAATATGCTGTTGATAAGATAGAAGAAAATATTGCCGAATTAGAAAATTTGGAGACAGGGGAGCATCTTTATATTAATGTTAAGAAGTTACCAGCTAAAGTTAAGGAACAAGATGTTTTAGTGTATATTAGTAAAAAGTATGTTTTAGATAATAAAGAAAAAGAAGAAAGAAAGAGAAAGATAAATAAGAAATTTGAACAATTAAGGGAAAAAAGCAATTGAAAAAGAGTGATGTTTATGTTAGAATTATACTAGGTGATAGAATATGGGGATATTCAGTGACGTCTGGTATATTAAAGCTTTATTGCTTTATATGTTTACACCAGTAGTTCTAGTGTGTATTGGCTTGGCTTTGTATGCCTTTCATATTTATCGTAAAAATAGGATAAATGTGACTTTTGTCATAAAAAGAAAAATAAAATTAATTCTAGATGTTGTCGGTATTTTGCTGTTAGGGGCTTTATTTATACTAATGATTGGTTTCGTAATAGCTTTTGCTGTGATAATGGATTCATCTGATTTTACTAATAAATTTGTTTATTATACTTTAATCGCATCTCCATTATTACCGTGTGTATTCATGTTTAATTTTATTCTTAACTTCTTTAAAAATCTTAGAAGTGAAGAAGAAGAGGTTAAAATTGACAAAGATGAAAAATTTGATATTGATCAAATAGAAAAATTTGATGTTGATCAAGAGGAAAAGTTGAATTTGGACATTGAAGAGAATAATAGTTCAAAAAGTAATGAATCTGATGATGAGGAATTAGAAGTAATATAGTAAGGTGATTTGATGAAAGAAGAAAAGGGAAACAAAAAAGAAAAAGGTAATGCTTTGATTTATATTGCTATTTTCTTGCTTAGTTTATTTATTATTTTACCACCACTTTTTAGAACGATGTTCAAAGTGGATAAAGAACCGAAGACAGAGCAGAAAAAAAGTAAATCTAATACTCCAGAATTAGTGTGTAAGTATAATAAATATAATTATTCTATTAAAGCAACAACTACATATGAAAAAGGTGAAGCCACTAAAGTTGAGTTGATTTATACTAATAATGCTTATGAGGGAAATGATAATGTTGATGATAAAGTATTAGCTAAGCAAAAGGCGATTGATGCTGAAATAGAAAAATTTAATGGTCTTATTGGTGCTGAATATAGTAGTGAGGGATTTACAACTAAGATAACAATACCAAGAGAAGCTTTGGACTCTAACGAAGATAAAGATTTACCTTCAAGGTTTGCTGATGTTGATAGTGTTAAGAAGTACTATGAAGATTTAGAATATAATTGTAAAGAAAAAAACTAATTTAATTAATTAGTTTTTTTAATTTTAGCTTTTTTTAAATAAAAACCATCTTTTTCGGCGGCATCAATTATTTGTTTAATAGTGTTACCTTCTTTTTTATGATAGGTATAATGGTATTTAGTAGTGTTATTATTATCTTCTTTAGTTATTTCTTTAAATTTAATAATATATTCTTTATCATTTTTAGTAATTTCCATTTCTTTAATTATTTTTAAATGATTTAATTCTTGGTATTTAGTGCAACTACATAAAAGGAGTAGGATTCCTATTAAAACTATATATTTTTTGATTTTAATCACCTCGTTTAGTATTCTTAGTAAAAATAGTATTTCGATTATTATATTTGGTTTTGATAATGGCATCTAACCATTCTTGCATATTTAAGGGAATAAAAGGGTACAAATAAGGAATGTTAAATGATTTAATAGTGATGAGTCTTAAAAATAATAAGGCGGTAGCAATAACAATACCATCTAAACCGAAAAGAGCAGCCATAATTAAGAAAATAAAGCGCCATATTCTAGTAGCGTTAATTAATTCAATGTCAGAAAAGACTAATCCGGAAATAGAACTAATGGCAATAACAATAATCATAATCGGTGAAATAATACCAGCTGCTACAGCGGCATCTCCTAGAATTAATCCTCCTAAAATAGAGATAGAACTACCGGTAGTCATACTCATTCTAATATCTGATTCTTTTAATATTTCAAAGCAAATACTCATAAAAATGGCTTCAGTGATAGTGCTGAAGGGAACTAATGATCTTTGAAGTTTTAAACTGAGAAGAATATCTAGGGGTAAAAGATTTTGATTATGAGTGGTTAAGGCAATATATCCTGCAGGTATAAAAATAGTAAAATAAAAAGCAATAATTCTTAATATTCTTATAAAAGAAACATGAATGTTTTTTTGATAGTAATCATCAGTGTTTTTAAAATAGTCAATAAAAAGATTGGGTAGTATTAAGGCTGTAGGACTAGTATCCATAATAATGACTATTTTTCCTTCAAGAAGAGCCATAGCAGCTTTATCTGGTCTTTCGGTAGAAATAATTGTAGGAAAAGTAGTATTGTTTCTGGTATCTAATCTTTTAATTAAATAACTGGAATCAATAATAGCATCTAAATTAATGTTTTTAAGAATATTTTCTACTTCTTTAACTAAATTCTTATTAACTATATCATTGATATAGAGAAGACCAGTTTTAGTATTAGATCTAGTACCCAAATAATAGGTATTACACCATAAATTAGAATCTTTAATTCTTCTTCTGATAAGACCTAAATTAGTATTATAGTTTTCATTAAAAGCGTCTTTAGGGCCTCTAATACTTAACTCATTATCAGATGTTCTAACACCAGTATCTAAGTGTTCACGTACTTCAATGGCATATATATTTTTATCGATAAGAACTAAAAAACCATTGTTTAAATAATTAATAATATCTTTTTCTTTTATTTTTAAAATATGATTATCGGGAAGTGAATTATCAATTAATTTATTAATACTTTTAGTATGGATTAATTCTCTTAGAATAAAATCGTTTATTAGAGAAGTTGAAGTTAAGACTTCATTATATATTAAGAGAATTTCTTTTTTATTAATTATTATTTTTTTATATAAATAATCTTCACTATTACCCAACTTCTTTTTTATTCTATTTTCTATATCCATAAACTCACCACTATTATTATTACCGATAACTTTATTAATATTAATCTTTCTGTTATACTGAAAGAGTGAGGTAACTATGAAAGTATTAATAACTAAAATGGATCATTTAGGTAGAGGTATTACCAAAGTTAATGATAAGATATGTTTTGTTAATAAGGCTCTACCAGAAGATGAATTAGAAATAAAAATTATTAAAGAAAAGAGTAAGTACTTAGAAGGAGAAATAATTAAGGTAATTAAACCATCACCACTACGAATAACTAGTAAGTGTCCTTATTTTAATGATTGTGGTGGGTGCCAATACCTTAATTTAACCTATGATAGCGAATTAAAAATAAAAGAAAATATTTTTAGAGAAATTCTAGCTAAATATGGTAGTGTTGATGATAATATAATTAAAAAGATGGTCAGTATCAATGAAGATTTCTATCGTAATAAAGTTACTTTTCAAGTAGAAAATAAAAAACTAGGTTTTTATAAATATAATTCTAAAGAATTAGTATCGGTAGATGAATGTCTTCTATTAAATAAAGAAATAAATAAGCTAATTAAACCATTGCAGGAATTAGTAAAAAAAGAGAATATATCTCAGATTATTATTAATGTTAGTAATGATTTAAAATTAAAGATGGTACAGATTAAAGGGGAAGTTACTGATTATACGGAAATACTAAAATTAGTAGATGTTTTAATTATTAATGATAAAGTAATTAGTGATAAGAGTTCTATAACAACAACTTTATTAAATAATGAATTTATCTTAGGAAAAGAAACCTTTTTTCAAGTTAACAAAAAAATAAGTGAAAGACTTTATTTACAGGTTGTTGATTATATTAAGAAATTATCATCAAAGAGAGTATTAGATCTCTATTGTGGAGTAGGTTCTATTTCTAGTAGTATTGCTCCTTATGTAGAAAAGGTAATTGGAATAGAAGTGTCTAAAGAGGCGATTAAGAATGCTAAAAAGAGTAAAGAGCTTAATCATATAGACAATATAGATTTTATTGCAGCCAGAGTAGAGGATAGTTTAAATGTTTTAAGTAATGATATCGATACAGTAATTGTTGATCCTCCTAGAAGTGGTCTTTTAAAGAAAGTGGTTAATGAATTATTAGATAAGGAAGTACCAAATATTATATATGTATCATGTAACCCTATAACTTTAGCTAGGGATTTAAAACTTTTAAGTGAAAAATACATAATAAAGGAAGTTATACCTTTTAATATGTTTTTACACACTTATCATTGCGAATCCATCGTAGTTTTAGAAAGGAAGTAAAGATGAAGAAAATAATTATTATAATAACAATTATAGTATTAATTTCAATAATAATATTTCTATATAATAGAAAAAGTGAAAAAAATGGTTTTACTGGTACTATATATACAATAA
>sequence02
ATACAATACCAAAAGTAGTAAGTATACTAAATATTAATAATAGTATATATGGTGTTAAGATTGTTACTGTACCAGTAGCAGGACTAATATTATAAGTATTCTTATAAGTAATAGTCTCATCATCAGTAATAGTCTTAGTAATAGTTCTACTATTAGTATCATTTACAGTTGTTTCATATCCTGTTTCAGAATCTTGAGTAACTGTAATACTATAACCAACTGGTATAGATAGTACTTCAGACTCATCATTCTTTAGAGTGAATGTTGTTCCTAATTCAGGTACTACTACATCATTATTATCTCTTACAGTAACTGTATAACTAAATTCTTTATTAACACTTGCCATATTGCCATATACCTCATTTGTTACTGTTACATCAACATTTGTTAGTATACAACTTCCTTTTACCACATTAGAAGTACTTGATTTAGTTGCTATTATAGCATCTATATTGGTTGTTTCTGTACAATTATATACTACTGTTATTTGAGAACCTGTATCTGTAGCAGAATCGGAGAACATTCCATAATAAGTGGTTGGATTACCTAATATTGGGAAAGTCCCTGACGCTTTAGGGCAATTAGAAAACATAATAGAAGTATTAGTTACATTTGATGTATCCCAATTACTGGCACCATTAATATCTTCTAGCAACGTACATCCATTAAACATGTTACTCATATTTGTTACGCTTGAAGTATCCCAATCACTAGCACCATCTATGTTTTCTAAAGAACTACAACCAATAAACATACTACTCATGTTTGTTATATTTGAAGTATCCCAATCTGATAGGTCATCTATATCTGTTAGATTCCTACACAGAGCAAAGAAAGAATTAATATTTGTTACTTCTGAAGCATCAACATCTGCAAGACCACTTATATCTGTTAATGATCTAAACCCATTGAACATATTTGAACAGTCTTCATTTAGATATAAAGTATCAGCTTCACTATAGTAATACATTGTTCCATCAGTACTATCAAAATAGATATAGATTGGTTTTTCTGATGTAGAACTTGATATTGTATTTTCAGCTGTTGGGGTAAATCCGTTTGGCAATGAACTAGCCTTCTTAATTGCTTGAATAGTTGTATCAGTTGAACTCGGGGTCATTGAGCTTGAATTATTAGCTAGATTTTTCATCTTAACAGTCACATTATTTCCAGTATCAAAGGTTGCACTTGTAGTTATACAACTTCCTTTTACTACGTTAGAATCGCTTGATTTTGTTGCTATTATAGCATCAATATTTGTTGTTTTAACACAATTATATATTACTGTTATTTGGGATCCCGATTCCCTAGAAGCGTATAAAAATGCATCATCATATGATGTTGGATTTCCTAATATTGGGAAAATTCCCGAAGCTTTTCTACAATCTCTAAATATTTTAGATATATTTATTACGTTTGACGTGTCCCAATTACTTGCTCCATCTATATCCTCTAATGAACTGCAACCATAAAACAAATTTTTCATTGTCGTTACTTTTGAGGTGTCCCAATTGCTGGCTCCATCTATATTCTCTAATGAACTGCAACCATTAAACATTCCTTCCATCGTCGTAACATTAGAAGTGTCCCATGAACTTGCTCCATCTATATTTAATAAACTTATGCAATCATAAAGTATATCACTCATGTCGGTTATACCAGAAATATCCCAATCACTGGCTCCATCTATATTTGTTAAAGCATGGCAGCTATAAAACATTCTTTCCATTTTTGTTACATTTGAGGTATCCCAATCACTGGCTCCATCTATATCTTCTAATGACCGACAAGTATCGAACATTTTATCCATTCTTGTTACCCTTGAGGTGTCCCAATTGCTGGCTCCATCTATATTTTTCAATAATCTGCACGTATAAAACATACTATCCATTCTTGTTACTTTTGAAGTGTCCCAATTGCTGGCTCCATCTATATTGGTTAGAGCGCTACACCCGTTAAACATACTACCCATGTTTGTTACTCTGGAAGTATCCCAAGATGATGCACCATCTATATCCTCTAACAAGTCACAGTTATAAAACATATCGGCCATATTTGTTACTTTTGAGATGTCCCAATTACTTAAAGCATCTATATTAGTCATCTTGCAATCTCTAAACATGAACTCCGTGCTGGTTACATTAGATGTATCCCAATCTGATAAAGAGTCTATATTTGTTAAAGCACTACATCCATAAAACATAGAACCAATATTTGTTACTTTTGATGTATCTACTTCGCTAAGTCCACTTATATCCTCCAAACCTTGGAAGTGTCCAAATAGGCGATACGAAAAACTATTTAAATATACTATTTCAGCCTCACTATAATAATACATTGTTCCATCTGTATCATCAAAGAAGATGTAGATTGGGTATGGTGAATCGCTTGTTGATATGGTGTTTTCAGTTGATGAAGTAAAGCCAGTTGGTAACGAAGTTGCTCTTTTAACAGCTTTGATAACTGTATCAGGAGTACTATAAGACATTACTGTTGAATTGTTAGCTAAATTCTTCATTTTAGCATTTACTCTTTCTCCCCAATCAAAATCAGCAGTTGTACCCTGTCTATATACTACATCAATAGTATGATCAGTTGTTACATTAGTAAATGTATATCTACTCTTGTAATCACTTGTACTTACTGCTATTCCATCTACTAATATACTATCTATTACATACCCACTATTAGGTTTATATTTAATTGTCTTATCAGTTCCAGATTCTACTCTAGAAGTTTCTGTTATGGTTCCATTAGTTACACTTGTTGTTATCTTAGGCATTTCTTCTATTACATATGGATTGTTCATACTACCATTGCCAGTGGTATATTTGGTGCCAGGTTTTAGAGATATAACCGGGCGAACACCCTGAGAGTAGTTCGGCACACCATTAGAGAACCCCCCCGCTGAAGATATTGAATAAAAACTGGTATAGTTATTAATGATATCAGGCGACAAAAGACAATAATCTTGTCCTGTTTTCCGAGTAATACTATTATCAAGTAAAGCCATTTCTGATGCTGTAGCCAACCCCACTGGATATCTCAATGCTGCTTTCGCATTAGTTGTTGTAAATTGATCTGTTACATTATTACACTTCAATACCGGAGTGTCTAAAGAGTTAAAAGTCATGAATGTTGATGTGTTTCCACCATTGGGATTCCATCCGTTTGTTGAAGGATTATCCTCTGCTCTGTTATTACAATAAATAACATCTTCTAAGTAATCCGTATAATTTACCATATTTTGATGATACCAAGCTTCTATATATCCTTTCATAGAAGAATTATACCTATTCACACCATTATTATATAGCATTTCATTTTTTGCATCCTCTACACTTTTCCCTCCCGTTAAATCTATATAATTTGGTATTGTTCCATTTAGATAGTATATATAGGATAAGGTTGAACATTTCCCTGTTTCGTTCCAGCATGTATAGTGATGTGTGTTTAAACTTGTTTTATTTGTATCATTTAAATTCCAGAGAGTTACTGAATCATTATTTAAAAAATATTTATATGTATTATCGTCGGGATCTAATCTATATTCAAACCCGTTTGCATATTTGTAATTATTTTGCCTAATGCTTGTATAATCCATTCCTGTGCTATAAGTATACCCCGCATACCACAAGTCACTACATGTGTTATTAGTAGCATTCTTACATACATATTTGTTTTGTACATTTGAGTAATTACTATACCAATCCTTTCTTTCTATTGTTGCTGGTTGAGTTTCATTCTGATTAGTAATAGTATAAGTACCATCTCCATTGTCACGATAGCTATCGCCATAAGTATAAGTGACGTTAAATCCTCCTAAACTATTATTTGTTGAATGGAATAACTGAATGTAATACATGCTTGAACCATTTACAGCTGCTATATAGTATACATTTGTTCCTGTATAAGTTTGAGATGTATTTTTAAAAGTATATTTACCTACAAGACTTGGATAATCACTTGTTGATGATACTTGGTATGGATTATCTAAATTAAATTTATCTGCAGTAGGACTTCCCCATGTTACAGAATCTGCATACCAATATGATGTATTAAGTGAAGAAGAAGATAAAACTTGTTCTCTATTACTATTCTCTTTTCGGGGATAATAATTATTAAACATGTATCCTAGCATGGCAGGGGAATAACTGCTAGTATTAAATGCGCTTTTTCCAATCTGCGAATAATGAGTATCTCCTATGGTATATGAAGCTGTATAGGCTGTAGTAGAGTTGTTATATGGCCCTACATAATATAAAGTTGTACATGTGCTACTACTATTGGCACAGGTATATTTCCCTATTAGGTTTTGATATGTGGAGTCGCTCCAAGTAGCAGTTGTAGGATTAGTTAAAGTAAATATGCCTGTTGATTCATTATATGCATATGAATCACCATATTGATATGATCCGTTTAAATTTTTAGTTGTACCAAATGTCCCTATTACTCCTTTATCAGTACTTCTTGAAACATCGCATTTATAAGTAGGGTGGTATTTACCATTATAAATTAGTTTTACACCACCAGTATCTGTTGTTCTTAGCATTTGCCAACATGTATCTCCTAATTTTACATTGTTTTTGTTTAATACAATTGACGCTGTCTGTTGAGTATTTTCACGCCAATAATATATTGGTTCATTTCCTGAATTATCTAACGTATCTTGATGCTCTCCAGTGTATTCTTGTGCATATGTACCTTCAGTAGCAGCATCCTTCAATACGTCATATAGTTCATTACTTGTTTCATTCTCTGCACGTGAAAAAACCAGGAATGCTCCTGTTATTATTAAAACTACTATTAGTACTGCTTTCCATCTTTTACTCATATATCCTCACTATTTATATTATAAATAACATTTCTGGAAAAAGCAAATTATTATTAAATAAAAAATGGAGTTTTCTCCATTTAATTGTTTTCTAATTTATTAACTTGTTTAATGAAGTTCTTACTCTTTAAATATACTCCTGTATATCTATCATAATAGTCTTCTAAGAATTCATTAATGTCATTTTCTACACTATCTTTTACATCTAGTTTAGTTATTTTAGCAATATCCACATAATAATACATTCTAAGTAGTTTTACTGTTTTTTCTGATACTATTTTTTCATTAGTATGACAATTTCTACAGATATATCCTCCTCTTGAAGCATCAATTGTTACTATATCTTTTTTACTACCACATAATGCACATTCATCTAAATTAGGCATTACTCCTAAATATTCTAAACATTTAAGTTCTAAGATATTAGTTATTACTAAAGGATTATATCCTTCATTTATTTTGTTTAAAGCATTTTCTGTTAAGGTAAATAGTCTATTATCATTATTTTCTTTAGATACTTGATTTACTAAATCTATTATTAGTGATGCATAAGATATATTAGTTAAAGATTTTAATATATTAGGATAGGAATTAATTAAATCAACACTTATTAGAGTTGATAAAGCTTTTTCTTTATAATAAATATTGAATTTACCATATACTAATTTATTACTGACACTACGAAGTTTACTTTTGGGCTTTCTACACCCTTTAGCCATAATACCAATTACTCCATGTTCTTTAGTTAAAACATTTAAAATCTTACTAGATTCACTATAATTGGTTGTGGTTAAAACAATTCCTTCTACTTCAATTATTTTCAAATCCTATCACTTCTTTTCTTTAAGTTTGTTATACATGATGTAATACTTTATATCACCGGTTTCTTTAAATAGATTCCATAATATTTTATCCATAAATAAAATCACCTCTATTAATATATTGATGATTTTATTTTGTTTTTATTCCGCTTCGTTACTAATTCCTAATTCAATTAGATATTTTTCCCTGTCACGCCAATCTTTAATAGTTTTGACATGAGTTTTTAAATAGACCTTTTTACCTAAGAACTTTTCAATATCAAGTCTGGCTTTAGTACCTATTTCTTTAAGCATAGATCCATTTTTACCAATAATTATTTTCTTGATATTATCTCTATCTACTACTATAACAACACCGATATTGACAATATCCTCTAACTCTTCATACTCCTCTGTATAACAAGTTATAGCATGTGGTATTTCTTTATCTGTTAACTCTAATACCTTTTCTCTTACTAATTCACTGACAATGAATTTAGTGGAAACATTAGTTAATTCTTCTTCATCATAGATCTTATCTTGTTCTGGTAAATATTCTTTAATTGTTTTAATTAATTCTTTTATATTATCTTCTTTTAGTGCTGAGATAGGGATAATTTCTTTAAAATCATATTGATCTTTAATATCATCAATTACCTTTAAAAGTTCTTCTTTTTTTATTTTATCTATTTTATTAAGTAATAAGAAGATTGGTACTTCTTCATTTTCCTTCTTAATCTTTTCAATTAAGAATTTATCTCCTTTACCAATACCAGTAGATACATCTGTTAAAAAAAGAATTAAATCAACATTATCAGTTGAATTATAAGCTTTTTTATTTAAGACATTATTCATCTTATGAATAGGTTTAGCTACACCTGGAGTATCTACAAACACTATTTGACTATCATCATCATTATAAATACCATTAATAATGTTTCTTGTTGTTCCTACTTTATTCGAGGTAATAGCTAAATGTATTCCTAGGATGGAATTTAAAAGAGTACTTTTACCAACATTAGGACGTCCTACAATACTTACAAAACCGCACTTCATTTTAAATCCTCTTCTAAAAAAGATGAAATAGGTACATAACTATTTATTTGTAATTTTAATAATTTATCCTTCATAAGCACTCCTATTTAAATAAGGTAATTAGCTTTGGTAAATAGATAATGGAAAAGTTAATAACAGTTACTAAAAACAAAGTAAACTCTGCTCCACTAGCAGTATCTTTAGATACTTTAGCTAAAGGATGTATTTCTGGTGATGCTTTATCAACAACAGCTTCAATAGAAGTATTAAGTAACTCTGCAACTATTAAAAGACCAAAATGTAGAATAACAAACATCCATTCAATCCGATCTAATTTAACAATAAAACCTAATGCCACCATCACAATAGTAGCTACAAAAATAATAGATAAACTTTGTTCATTAACATATGCATGAGCAATACCATGGAAAGAGTTAATAAAACTATTTTTAAATCTCTTTAGACCAAATTTTTTCTTTTTGACAAATACCTCGTTTTTTAAAATATCTTTTTCTTTCTCTAATTTTCTTTTACTTTCTTCTAGTTTTTTACTAACATCCTTTTTCATAATTATCTAACACCTCTTTCTGTTTCTTAAACATTTCTTTTTCTTCCTCTTTGGTCATATGATCATATCCTAATAAATGATAAAAACCATGAATAGCTAAAAAAGTTAATTCTCTTTTTAGACTATGTCCATATTCTAAAGCTTGTTCTTTGGCTTTATCTAAAGAAATATAAATATCTCCTAGAATTCTCATCTTATCTGGAAGAATCATATCTTTTTCATCTTCTAAAGCAAAAGTTATAACATCCGTAGCCTTATCAATATTGCGATAATCCCTATTAAGCTTATGAATATAAGAATTATCAACAATTATGACATTAAATACAGAATTCTCTATCTTTTCCTTCTTAAGCGCGAAATCTAAAGCCTTTCTAATGTCATCAATATTTTCTACTTCTTCATTTGTTTTATTTAATACTTCGTACATACTCCTCCTATATATGGGTAAATAATAGTATTGTAATAATTATAGTTAAGATAACACTTACAATATCTAAGAATATTTCACTTTTAAGAACACTTGGTAATTTACTAGCAAATTTATCTAATAAATAATAAATAATATATCCAAATACTCCCCCAATTACATTTAAAATAATATCGTCTATATCAAATACTCTACCAATATATAACTGTACTAATTCAATAGCTAAACTAGTAAATAACGTCATAAAGAATACTAAATAGACTTTTTTAGGTTTCAAATAATAACTAACAAAGAAACCAAAAGGCATAAAGAGTAATAAATTACCTAAAACATTTTTAAAGAATAGATTTGTTCCTAATCGGTATCTAGTTATTTCTTTAAATGGAACAAAATTATTAGTTGACCATGATACCACATCTTGACCAGATACTATCTGGAATAAACAAAGAATATAGATGATAAAGATCAAAGAAAACAATTCTTTATAAAGGGTACAATGCATTCTATTCTTAATTAAATAGGCAACTCTTAAAGATACCGCTACCACAATAGAAATAATAACCATTGGCCAAGTAACATCTATAACATCTTGAATTGCATTAGCTATTGGGTTTAGCATCTTCCTCACCTTCTTTTAATTGGACATTTTCAATTGATAAATAACCCGTAATATCTTTTTCAACTTTAAATAAAATATCCACTTCTATTTTACTATCTTTTTCATTTATTTTCAATGCTTGTTTTGTAAGTATTTTATCTTCTCTATTTAATTTATCGAGAAGCTTCTTCGTTGCAATATCAATAGAGTAATTAATAGCTCTATTCTTATTATACGCTCTTTTTATTATTTTTGTTTTGTCTTCAGTAATGTATTCCAAAGTAATTGGTAATAAGCTATCTTGCCAGATGGTTCTTTTCTTGATAATGAATGAAGTCTTATATTTCTTTAGATTTAAGTATTTATTGAAAAAATTAAATGATAATATATGATGAATCTTATTCAACTTTTTTTGTTTAAGATAGTATTTTGGTAATATCACTTGAACTTGGTACCATACTTCTCCTTTAACCTTCCCATTACTTTTTACTTTAGCTACTTCTTTTTCTTTATTATGAATTATTCCACTAATTAAGATATCTCCTTTTTTAACATAATCATATTTCTTTTTGATAATCTCTCCTTCTTTAGCATCAATAGAAGTAATAAGAGCATCATCAGTAGCAATAATATGGCGAGGCCTGTCATCTTTCTTCTTACTTCTTTCTTTTCTTTCTTCTAATTCAATTATATATTTAGTACCTTTTCTTTTTATTTCTAAATAATCTATTCTTTTTCTTTCTTTAGCAAGGATTTTTTCTTTAATCTTCTCTTTCTTTTTAAAACTAACTTGAAAATGGTATTTACTTATACCATTTTCTTTTAAATCATTTCTAATTACTTTTCTTAAATTCTGATTGGGATGATTAATCTCTATCTTAAATATCAACTTAGATAATAACAAAGGAATTAGAACAGCAATTATTATTCCTATTACCAAAATATAATTGTTTTGGATCATTCTTTTTATTTTTAATGGTCCATAATAATTAACTATTTTATGTTTAATACTTTTTAGCTTTGGATAATCTTCTTTACTGATGATAATATAGATAGCTTTCTTTTCTATCTTAATTGCATATAAATTAATTCTTAGTGCCATAATTTTATTCAAATTATAATTTCTATTAATTCCATAGAGCATTATTTGATATCTATTCATTATCAATAACCTCTAGTGTTTTTAAAGTACCACTTATTAGGAGTTCTTCATCAATCATTTTAATTAGTTTTAGTTTATTACCTTTAATTATTATCTTTTTACCAGTAACTATTATTTCAATTTTATTATCTTCTAAAGTAATTATTTTTTGGTAATTAACTATATTAATTTTATCTTTTAAAATATTTATTCTATAGTCAGTATCGAACAAATATCTTTTCATCTCATTAAGCATCTAATCACCAGTAAATTATATGAAAAAAAAGACTTATTTAGTCTTTTAGATATTGTTTAGTCTTTCTCTTATTTTATTACTTAATTCTTTCATATCAACGCTACCTTTAAGGGAAGAAGCTTTCTGCATTACTTTACCCATGTCTTTAATACTTTCTGGTTTAACTTCTGCAAAAATCTCATCTAATTTAGCCTCTATTTCTTCCTCTGTTAATTGTTTAGGTAGATATTCTTTTAAGATTTCAATTTCTTTCTTATTCTTTTCTACTAAATCTTCTCTATTTCCTTTTTCAAATTCTAGTATTGCTTCATTACGTTGTTTTATTTCTCTAGATACACAATCAATTAAAAGTTCATCATTAATTTCAACCTTTTTATCGATATGTTCCTTATCAATAGTACCTTTAGCCATTCTTAAAACAGTTAATTTTTCTTTATCATGTTCTTTCATAGCTGTGATGATATCAGCTTGTAATTTTTCTACTAACATTTTTTCCTCCTTTAATATAAAGAGACTATTAACTAGTCTCTATTCATCATTTTGTTTCTCTTTCTTGAATTTTTAATACCTTGCTTTTTAGCTTCTCTTCTTCTTACTCCGGGTTTATCGTAAGCTTCTCTTTTTCTACACTCAGAAGGGACACCATCTCTAGCTACTTTTTGTTTAAAACGTTTTAAAGCTACATCTAGATTTCCGTTTTTAACTGTAACTTGTGTTGACACTTGAATTCCCTCCCTTCCGTTTTTAATTCACACCAATTATAGCATAACTTTCTTATTAGAACAAGAAAATTTGACAATTTTAGTCAATTAGGAGTTCTCTAATATTTTGACCAATGAAATAAGAAAAGTGTAAAAGCAAAACTGTCATGATAATTCCCATTAATATAAGCATGATTATTGAAATAGTTTTATGTTCTTCATAAAAGTTATTTATTCTAGTGGACAAGCTTTACCTTCTCCGAATCTTCTAAGAGCAGAACCTAGTCCCTTACCACTATCAATTAATACTTTAATAATATTTGTAAAAGCATTAATCATACTAGAGGTAATAGCATTCCCTCCCTTAATCATTTTTAAATCGTTTTCTTCTATTCTTTTCATTCATTACACTTTTTAGGATGAGCTATGCCCTCAATAATACCTGAAATGAATATTATTGTTCCTGCTATAGCAACTCCAACCCAAAAAGAAACACCTCCTTTTACTTTTTTTAATTTTTCTTCATCTAGTTTTTTCATCTTTTCTCCTTCCATATTTTCTTTAATAGTTCATAAACGTTCTCTTTCTTTACAAAAAAACTTATATTAACATAATCACTAGTTTTAATTCTTTTTGGTAGTTTAGTTTTAATAATTATTTCATGATAGTTATGCTTATCTTTTTTTAAGACATTCCTAGTTACTGATATTGGTTCGTATTTTTGTTTATGATCTTTTAGATAAAGATATTTACTTTTGTTTAATAAAGCTAATTCATCATCGTTTACAATTAGTTTAAGCATATCTTCGTTATACATTGATCCGATTATTACTTTATAATGATCATATTTAATTTTAGTAGCACTAAAAATTAAAATAGTGATAACTATAAAAACCAAAACAACAATGACAAATATAGTTTCATCTTGATACTTTTTCTTCATAAAGATGATGATTTTTTAAAAGTAATACACGATTAAAGAAATCATTATTTAGGCGATGGGAGACAACAATAACCGTTTTATCTTTTAAAAATTCAAATATTCCTTTCATTATTTGTTCACATTTAACTTTATCAATTCCATTAAAAGTTTCATCAAAGATATAAATATCACTTTTTTTAAGAAGAGTTCGGGCGAGTATAATTCGTTGTTTTTCACCAGTACTCATGTTATAGCCGTTTTCTTCAACGATTTGATTGAAACCGGCATTATCTTTTCTTACTATTTCATCAACTTTAGTTAATTTACATATTTTATTTATTTCTTCAGAATCATAATTCTTGTATAATTTTATATTTTCTAAAAGAGTATCGGTAAAAAGGTATTCATTATTAGATACATAGATAATACTATCTCTAATTGTATTTAAATGGTAATGATTAATATCAATACTATTAATGGTAATTTGACCATAGGGAACATCAATATACCGCATTAAACTCTTCACAAAAGTGGATTTACCACTACCTGACGAACCCTTTAGTAAGATCTTATCCCCCTTTTTAATACTTAAATTAATATCTTTTAATAATTCCTGATTATTATACGAATAAGAAAAATTTTTAAATTTTATTGTTCCTAGAAGTGAATAGTTTTGATAATAGATACTACCGTCAAATATTTCGTTTTTAATAGTATATAGATCTTCTATCCTTTCTTTAGCAAGTTTATATGCTTTATAATCTGTATAAAGACCAACCAAATTATTAAAAGAATATAAAATATTATTAAGTAGACTCTGAAAGATAATAAATTCTCCTAGAGTTATTTCTTTTTCAATAACTAGTTTGGAACCAATTCCTAAAATAAGAATATTGAAAATACCATAGATAATATTTTTAACACTTTTTTCTTGTTCTTCTTTTTGATAAATACTATAGGCATCTGTTAAAAATTTCTGATACTTAATTTTAAATTTATCAATAATCAACTTTTCTAGATGCATACTTTTAATCGCATTAGGTGACGAAATACTTTCTACTAAATTAGAATTAACTATTGCCAAATCTTTATAATATTTTTTAATACTAGGAGTTATGTAGTTACGAAAGAAAATAGTTGATATCGATATTAATCCTAAAGAGATAATAGTAATTACAGCTAGTTGATAGTTGATATTAAATAATAGTATTGTGAAGACGACAATAAATAGTAAGTCACTGATTAAAAAAGAGATAGCTTTGGCAATAAACTCTTTAACAATACTAAGATCTTTAATTCTAGATAATATTTCACCTGAAGTCCTATTTTTATAATATAAATATGGAAGCAAAATTATTTGTTTAAATGTACTGTTCATTATTTCTTCATCTAGCATAGTAGAAAACTTTACTAAAATATTGTTCTTTAAAAGAGAACAAGTTTCTTTGATAAGGTACATTATAAAAATAAAGGCACTGATAAATAAAATATTATTAGTCAAACTGTAGTTTATTGATTCTTCTTGAAGATATTTGAAATGGTAAGTTATAATTATGGTCATTATATTGATTAGAAATGTTAAACTAAGTAAAAATGGTAAATACTTTTTGTGTTTAGTTAAGAATGAAAAAAGGAGTGTCTTAACCTGATTTTCGGAATTTATATGAATAATGTTTTTAGCTGGTGTAAGGAGTATAAATACTCCACTACTCATCAGATTGAAGGAAGCAAAAGAAAGAGTTTTCTTTCCTTTAGCTGGATCCATAATTAATAGTTTTTCTTTTTCATAATCAATATCATAAATAACTATGAAATGATGATAAGTCTTATTTATGATGGTGTGCGCAATTACTGGAAATGTTTCTTCTTTTAAATCTTTGATACCTCCTTTAGCTCCATAAGCAGAAAAGCCAACCTTTTCAGCTGTTTCAACTAGTTTATAAGCACTAACACCTGTTTTATCTGTATTAGTCCACTGCCGTAAACGTTCTTTAGAAACATTGCCATGATAATGCTTAATAATTGATAACAGACAACAAACACCACAATCTTTAATACCATCTTGGAGTACTATTTCCACAAATAATTATCACCTCCAATTATATTATTCGAAAAAAAAGAAAAAAGCAGTTAACTTTTTTCACTGGTTTTAGAAACATTTAAAACCATACCCATACTAATCATACTCATTAATAATGAGGATCCTCCATAGGATATGAATGGTAAAGTTACCCCTGTTACTGGGATTAGACCTACTACTACCGAAAGATTCATAACTGTTTGAAAGGCTAATTGAAAAGCAATACCAAAGACTAGATACTTGGCAAATAAATCATTTTGGTTTAGAGCTATTTTAAGTGATCTATAAAAAATTAAAGCAAAGAGACTAATAATAATTATTGCACCTCCAAAACCGAATTCTTCAACAATAATTGAAAAGATAAAATCAGTTTGGGGTTCAGGTAAATAGAAATGTTTTTGAATAGAATTACCGAACCCTTTACCAAGTAATCCTCCAGGACCTATCGCATAAAGACTCTGAATTATCTGAAAACCTGTTCCCAGTGGATCTTTCCAAGGATTAATAAAAGAGATTATTCGATTTACTCGATATGGTGCTATAGCTATTAAACCTATTATTCCTGTTATACCAGTAATTGCTGTAATAAAAAAGAATTTCATACTAACTCCACTTATAAATAGTAGTGCTATAATAGTTAGTCCTAGAATTAGGGCTGTTCCTAGATCTGGTTCTAACATAATTAAGGCAAAATAAAGACCTGTTATCCCCAGAATTGGTAAAACCCCCTTGATAATACTTTTTAAATACTTATTATTCTTTGATAAATATTTGGCTGTAAAGATAATTAATCCTAGTTTAGCGGCTTCACTAGGTTGAATACCAAGTGGTCCTAGTCCAAACCAACTTCTACTACCATTTCTAATACTTCCTAGTCCTGGAATAAGAACTAATACTAATAATAAAAGACAAATACCTAAGATTATATTTGCCTTTTTATAATAAATATAGTAATTAGTTTTAGATATTACAAGCATTAGAACAATTCCTATTAATACAAATAGTGTTTGTTGCTTTAGATAGTGAAAGCTATCATTAAATTTATATTCTGCCCAGATATTAGACGATGAATAGATCATTATAATACCTATTATTACTAAAATTATAATGGCGATAAAAAGGTAAATATCAATTTTCTTTCTCGTACACATCACCTATATAATTTTATAGTAATTACTTAAATATTATGTCATAAAAAAAGAATTCTAGTAATTCTCATTTATTTTAGCAAAAATTTTATCTAAGAATTCTTTTACTTCATTATAGTTTCGTGGGCAATAAGCATACCCTCTAGCAGATATGTCTTTATCATCTTGAATTTTTATGAATAAGTTAAAACTAAGTGCATCATAAATATTTTTATTTATTCTATTATAACCATTCCATCTTGATACTTTAAGCTTATTTAAGCCAGTAATTAATTCCTGCATTATGTCATCATCAATCACAATTTCTTTTCTGTTAATACTCTTTTTAGGATCCCATTTATCAATACTGGCATAACATTTATCCTCACAAACTATTTCATAAGTAGCACTTGGTCCCCACCCTGGATGATGACCAAATTCCAGTTTTTTTATTTCTGTTATTTCGATATTTTTTCTACTATCTAAAACAAAGAATAGTAAAATACCTAGTATTACTACTATACCAATTATTAACGCAATAAGGTATTTTTTCTTCATTATAACCATACTCCAAAAATTATTCCTGACATAGCTAGAATAAGGCCAGCAATCCAGAATAATTTAACAATATCATTTTCTTTCCAACCTAATTTTTCAAAATGATGGTGTAACGGAGTCATTAAGAATACTTTTTTATGAAAGACCTGAACCCAGATTGATTGAATAATAACTGATAATGTTTCTATTACAAAGACAAAAGCTACTATTAAAAGAGTTAATTCCCTATGAGTTAGAATCGCTATTGCGGCCATAACAGCACCTAAAGCAAGAGAACCTGTATCACCCATAAAGATCTTGGCTGGATGAGTATTAAAGACTAAGAAGCCTACTAAACAGCCTGTCAATAATAATGAGAATAATCCTAATTCTTCAAAACCAACAACTAATGATATTAGAGCAAAGGCAACAAAGGCAATAGCTGAAAGTCCGCCAGCTAAACCATCTAGTCCATCAGTTATATTAACAGCATTACTAGCACCTACTAAAACAAATAGGATAAACAAGCCATAAAGCCAACCCATTTCCATATCAATATGTAAGGTCCCTACTACCCAAGATGTTTCGCCACCAGCTCGCATATAAATATAGAAAAACGCTACTGCGATTAATACTTGCATAAATAATTTCTGATAAGTCGTTAAACCTTCATTATTACCTTTACGAATGGATAAAAAATCATCCAGAAAACCAATTAAGGCATAACCAATAAATACTAATAAAACAATTCCTAAATTAGATGAATAATCTAATTTTCCTACTAATAATAATCCTAAAGTAATAAAAATAGTAGGAAGAATAAAGATAAGTCCTCCCATTGTCGGTGTTCCTTCTTTTTTACGATGAGATTCACCAACAAAAACACTTATTTTTTGACCTACCCGCATTTTCTTTAAAAGGGGTACCGCTATTAAACCTAAAATACATGATGATAAGAATCCTACCATCATTACTACAATTGCTTTTGTCAATAATAACATTGTTATCACATCCATTCCTAGACATAAATTAGTATATCATATAATTCACTTTAGAAGACTATTTAAACCAAATATAGACAAAACTTTACACTTACTTAAGCATTAACCTAACTACTCCTTTTTCTTCTTGTTTTGTTCCTGGAAGTGGTGATTGGGAAATCACTTTTTTGCCTGTTCCGGAATATTTAACAGTGAAGTTTTTTAGTTTCTTAGTAGCTTTTTCGACACTTAGACCGATCACATTAGGGACTTTATATAGAGGTACATCATTCCATTCTAGATCTTTAGTAAGTTCTTCTTTTTGTTTGGGAATTTTTAATATTTTAATAATATCTAGAAGGATTCTTCTAGCTATAGGAGTTGTTGTATAACTTGATAACATCGCGGTATGCTTAGGATTATCAATAGCTATATATAAAACTGCTTTTGGTTTATTAGCAGGTACAATTCCAACAAAGCTCATAATGTAATTATTATCTAGGTAATGACCATCTTTAACCTTTTGGGCTGTTCCTGTTTTACCACCTATTCGGTAACCATCAATATAGGCTGCTTTACCTCCTCCTTTTGCTACTACACTTTCTAGGGCATAACGCATAATACTGGATGTTTTTTTACTAATGGTTTTTCGCACTAACTTCTTTTTATTCTCTGTAATAATATTGTTAGAAGCATCCTCTGATATACTTTTTAAAACATAGGGATGATAGAGATTTCCATCATTTAAAACCGATGATATTGCCGTTACTTGTTGAATAGGTGTTACTGATACTCCTTGGCCAAAAGCCGAAGTTGCTAGTTCAATATTACCTACTTGATTTAGATTAAAAATAATGCCCTTACCTTCACCATTTAAATCAATACCTGTTTTTTCTCCAAATCCAAATTTATCAATATAAGAGAATAGTTTCTTTTTTCCTAACATTTGTCCCATTTTAACAAAACCAGGGTTACAGGAATTCTGTAATACTTGAAGATATGTCTGCTCGCCATGACCACCTGCTTTCCAGCATTTAATAACGGCACTATCTACTCGCACTTTTCCAGAATCATAGAACTTGTCTTTAAATAGATCGATTTTCTTTTCTTCAATAGCGGCACTAGTAGTAATTATCTTAAAAGTGCTCCCTGGTTCATATGTTGACCAAATAGGTAAATTACGAGAAGTGGTCTCTAAAGAATATTTCTTATAGTTATTGGGATCGTAATTAGGACGAGCACCCATTGCTAGTATTTCTCCATTATTAGGATCCATAACTAAGGCTAAAGCATTCTCTGGTTCGAACATACTCATAACATTATCTAGTTCTCTTTCAACTGCTTTTTGTATGTTATAATCAATCGTTAGATTAAGATTCATTCCTGTAGTTGGTTCAACATAAATATCTGATAATTCTAATTTATTACCCAACGTATCTGAAAAATACTTAATAGCGCCATTTTCTCCTGTAAGATAGGAATTGTACTGAAGTTCCAGTCCTGATAAACCTTGATTGTCAATACCAACATGACCTAAGACATGCGATAACATTTTACCATGGGGATAATATCTTTTTGCTTCTTTTACTAGGTAGACACCAGCTAATTTATAATTACTGATTTTATCAGCTTGTTCATAAGACAATCTCCTACCTTCAGGATGAACCCGTTCTATTGAGGTTTTTTTACTTAAATGCTGAAGCATATTATCATAACCAGTATTTAGTATAGGCGCTAAAAGGTGTGCTGTTTTCTTCTTATTTTTAATTTGATTAGGAATAATAACTAAGCTAGTAGTTGTTAGATTATCAGCTAGTATTATCCCATTGCGGTCATATATCTTTCCCCTTGATGCTTCTAAAGGTAAATCTCTACTCCATAAATCTTCTGCTAATTCAGATAGTTTTTTATAATCAAAAGTTTGAACATAGAATATTTTTAAAACAATTAAAACAAGTGCTGTCAAAAATACTAGTAATATTATTTTAATACGTTCATTTATTCTTTTAACGAACATCATATCACCAATTAAAAATATGAGAACAAAATAAAAAAAAGAACTTTTTAAAGTTCTTTATAACCAACACTTTTCTTAAAGAGAAAAATATTTAATCTAGATAGTGCATTAGGAACATGTAATACTAGTATCCGGTAAATAAAATCTGGAGCAAAAATAAATATAAATGGGATTAATATCGCTATTACTGGTTTTATAAAGCTACCACTTTCACTCAATATTAAGTGACTACTTCTTGATATATCTAAAACTAGAAGAGCTATAACAATTCCTAAGGCCAAAGTAGCAACATAAGAGACTACTCCTCCTAATGAGTATATAATATATACCAATATATAATTAATTACTTGGAGGATACCACATACTAATGATTCTAACATTACTAATATAAAAGCAATTATTTTTCTTAATTTTGGTGTCTTGTAATACTTTAAATACTCACGGAAATACTCCCATTTAGTGTACATTTTCCGATTATTATCTTCATTATATTCAGGATTATCTCGATCAAATTTTTCATACTTAGGATTAGTATTACCCATTAAGGATAAATCATATTCTTTTCTTTTTTCTTCATCAAGCAAAATATCTTTAGCTTCGTTTAACTGATTCATAATCTGAGCAGCATTGTCTTCTTTTGATACATCTGGATGCCATTTTTTAGCTTGAATACGATAAGCCTTATTTATTTCTTCAGTACTAGCATCTTTACTAACTCCTAAAAGTTCATAATAATTAATAATATCGTTCATGTCATCACCTCTTTGTCATTGTGACAAAAGAAAAAGAACAAAATGTTCTTATTTTGTTAGTTTCATCATAGAATTATTTAATTTTTCCATGAATTTGTTTTGATCTTCTTCTTTTAAATCTTTACTCTTAATAGCATCTTTTACTGTTTCTTTGATTTCTGCTGTATTTTCCATAGTTGATTTAATATCTGAGGTTATTTTAAATAGTTGTTGTTTATCCTGTTTAATATCAGCAATCACTTTAGTATCTACAAAGTATTGAGTATCTTTAGCAATTTCTTTAATATTACTTTCAATACTAAAGCTTATTTTAGTACCCATGTAATCAATATCGGCAATAAATGATTTCTTGCGTTTACCATTTGCAATAGCTATTGTACCAATTTCCTTGCTATTACCATCGTAAATGACAATGTCTCTATTCTCTTTATTATTAGTAATCTTTAATTTACCTTGTAATTTATCACCAGAATACAATTCTAAAGTACTTATTTTACCCTTTTCATAAGATAGTTTAGCTTCTTCAATAATTAATTCACTCTTATACTCTTTCATAGATATATAGTCAACATAAGAGTTATATTCTAAGCCTTTATCTAATAGTTTTACATCATCTTTTACAGTAAGTTCTTTAGCATTAATATCATTATCTTTTAGTATTTTAGTTGCCCTACTATCATTTTGAATATCTTTGATAACAGCATTAATTATTTTATGAGCAGCATCATTATCTATTTTTAAGGTTATCTTTAATACTTTCTTATTCTTATCATTAATCTTTGTAGTAGCCATTTCTTTTGTAAAATACTTATTATCTAAGTGTGAAACAAAAGATTTAGTAACAAACTTATTTAAGTATTTAAGGTCTTCAAAAACTTCATTATCATCTTCACGTACTTTAAGACCTAATTTATCTTCATTTTCAATGTATTTACTACTTAAGCCATCAAGATAATAGTATTCTTTTTCACCATCAATTAAGTATTTACCTGATAGTAAATTGTCTTTATCTAGATCAATTTTAACTGTACTTAACATCTGATCTTTACTAGCATCTTTAATTATAGTTACATTACTCTTTAAATTCTTTAAATTCTTTAAAATATTATTAGTTTCAGCATCAATATCTTTTAAAGCCTCTTTATCAGTTTCAATATCAAAAGTAATATCATTAGATATTGTTGATTGTTCTCCAAGATCAATGTCACTACCTTTGATAGTTTTATCTAATTTAGCTGAAACATCATTAATAGATGCTGAAATTAGTCTCTTAGGATTACTATAATAGAATAAGTAACCAGCTACTCCTAAACCAAGTAATAGTAGTAGACATATAATAGCAATAACTACACCTTTTTTACCTTTTTTCTTAGTCTTAGGAGTATTAATGTCTTCACTTTTTAGCTTTTCAGCTGCCTCATTCATTTCTTCAGCAACAGCTCCCTTTTCACTGACAAAAGTCTCTTCAAAAGGATTTTTGTCATCTTCAACAGTCTCAACCTTTTCTAAAACAGGTTCTTCAACAGGAGTTACCTCTACTGTAGGACTTTCTTGGTTTTCAACGGGAGTTACTTCTACAGGAGTAGTTTGTTCTTCTTTAACATCTAATTGTTCAATATTATCATTATTTTCTTTCATTTTCACACCTCTTTATTTCCTTTTTAAAAAAGAATTAGTTATTATCTAATTCTAATACTTCTATTTCTTCGACGATTTCTTGTTGTTGCTCCAGAATTAGCTTCAATCTTCTCTTTAAAATTTTAATATTGTTTTGCATTCGCTGTAAATCAACATTAACCCTCTCTGCTTTTAAAAGGGCTTCATTAACAATTCTAGAAGCATTGTTTTTAGCGTCAACGATGATTATCTTTGCCTCTTTCTCAGCATTAGCAGTAGCTCTTTCTTTTACGCTTTTAACATCTTCTAAAGCAACATTTAGTGATTTTTCAATCCGGCGATAATGTTCTAGTTCTAATTTTAATCTAGATACTTCAGTAGATTTTAATTTATAATTATTTACAATTTCTTCTGTCTGTTTGATTACATTATCAACAAAACGATTGACTTCTTCTTTATTATAACCATTGCTCTCTAGATTAAATTTGTCCATATAATCACCTCTGGATATAATTTAGTGTCTTACCAATTAAACTCGTCGTCTTCTTTATCTTTAGCTTTAGATTTAGCCTTTGATGTTGGCTCCTTATCATCAGAAATTTGTCCTTCAACATTGACATTGTTAGGAGTACATAGGAAAATTCCTCCACCTAACTTTTGAAGATCACCACCAATGGCATATAAAGTACCACTTAAAAAATCAACAATTCTTTTAGCTTGATCAGGAGTTACTCTTTTTAAATTAACAACAACTGCATTTCTAGCTTTTAAGTAGTCCGCAATTTGTTGACTTTCTGAGTATGCTCTTGGTTCTAAAAGCATCATCTTTGAACCAGCTGGACCATTGTCCTCAGCAAACTCTTCTTTAGTAGATGAATAAAACTCTTCTTCTACTACTGTCTCCTCATTATCATCATTTCCAAAAATATTCTTTAATTTATTTAAAGCCATTTTCTTTTCCCTCCATACTATCTTATTCTAATAATAATTATATCATACTATTTATCTTATACCAAAAAAATTTACATAACTTTACATATCAATAAATTTTACTAGTGATATATTTATACATTCCGTATATATCATCTAAAGTTATTGGTTTAGAAAATTTCAGAGCTAGTTCATAAACATTGCTGGTATTAATATTTAGAATTACATCAGCATTTTCAATCTCTACAGAAGCAGTTACTATGTTTTTATATGGTATAGAAAGTATTTCTCGACGATTACCAATAATTAGTTTATAATTAACAATCAAAATTCTTCGATCAGTAACCACAAACATATCACGATTGCCTCTACTAATGAAGAAAAGTTCTTCATCTTCATAAAACATATCTAAAGTTTCATAGTCTAATTCGTCTTTTTTGATTAATGTATCAAAATTGACACGTGGTAACAGGGGTTTGAATTTTAAATATGCCATAGTAATTACCTCCTATAATATTTTTAGCTTTGTAATAGGCCAAATTCTAATTATTGATTTACCAACAATTTGTTTTTTACTGATAAAGCCCAGTTCGCGGCTGTCAACCGAATTATTACGATTATCCCCCATTATAAAGTACATATTCTTTGGTACTTTTTCTATTACTTGAAAATCATCCGTCATTTTATTATCTACATAAACTTCATTTACACGAGTTCCATTTACATAAAGATTACTATCAATAACTTTTATTGAATCTCCAGGAATACCAATTACTCGTTTTACAATCCATTTATCATCTTGATAGACAGCTACTATATCTTTACGTTTAACATCTGTTATCCGATACCTTACTTTGTTAAGTACTAAGATATCACCACTACTAAGTGTTTTTTCCATTGAACTACCAACAACTTGTTGAAGAGAAAAACCATAGGAAATAATTATAAAGATTATAATTATGATAATAATAGTTCGGAAGCTATCTTTAAAGAATTCTTTTATTTCTAAAATATCCATTAACTTCACCCCTATACAACTATTTCCTCAACGTTACTCTTAACGGTATTAGTATCAACTGGTTGATTTGTCTGTACTTCCTTTTGCCAAACAGATGACACATCAACATTACTACTAAGAGGAGCTGGATTTGGTTTTTCTACATATAGTGAAGTTGGTACTCTAAAGGCGCTACCAAAAGCAACACAATTTCCTGGTTTTAAGTTTTTAGCTTGTTCCATAACTTCCTGTGAAATATTTGGTACCATATTCTTAATATATTCAATATCTCTTGGATGTAATGTCCTAAAGATAATAAAGTTTGAACATTGAGAAATGGCTGTATCAGAAAGTTCTGATGGTCTTTGAGTAATTAAACCTAATAATACTCCATATTTACGTCCTTCTTTAGTAATACGATCAAAGATATTATAGCCAATAATATTAACGTCATTATCATTTTGAACATAACGATGGGCCTCTTCAATAACAATATGATATGGAACAGATCCTCTATCAGTATTATTAACTGCCTGATTGAATAAAAGCTTAGAAATTATCTTAGTAATTACTTTAGCCAAACGATCATCGACATAGTTAATATTAAAATTAACTACTTGGGCATGAGTAAAATTCTTTTTATCATTGGTAAGATCGTAAATGTATTCACCTCTAGTAACATACTTAGGATATGAGAAATACTCTTTAGATGCTGAATTAGCTAATGTATGAAGACGAACACTTAAGATATTAGCATAATCAAATACTTTTTCACTTTTTAAACTTCCCTCAGAAATAAGCGCAAATTCCATGGCTTCTTCTAAATCAGACAAGGTATATAGAATCTTATCATTAGGATCGTCCTTATACTCTAATTCGTCATTAATAAAGCTCTTAATGAAGTCTACTACCAACTCCATTTCTTGCATCTTACCACTTTTATCAATAATTAAACATTGCTTAAAAGTTCTAACATAACCAGGTTGTACTATTTTACATTCTAAATTCAAGTCTTCAGTATTAAATTTAGTTAAAATAGCAATTACTTGGTCACGAATCTTAGTTGAATCAAGACCACTAACTAAAATATCTAGAAGTGCTCTAGCAATAATATCATTTTTATGATCTTTAACTTCTTTTCTACTACCAGTTAAAATCTTTACTAATTTTAAAGTCTTTTCAATAATTGGTAATTGAGTTGGCGTAGTTGCATCTAAAAGTAAAGCTAAATCATCAACATCCAATAACCATAATGGTATTCTTAGAATATCAGTATCTTCATAATTAGTATTAGTCGTATAAGTTTTATAACTTAGCTTTGGATTCATATTATGAAGATTATCAAAAACCTTAGTATATTCACCATAGGCATCAAAGATAAAAATATTAGAATTAATTGGTGGATTTGGTCCTTGAAATAATCTTTGGAACATACCGGCAACAGCATATGATTTACCACTACCACTATTCCCCAAAATAGCAAAATGATTAGAAAAGAAACTATTTATATCAACATTAATACGATAATTCTTATAAATATTACTTACTCCTAGATAAAACTCTGTTGATGAAGGTTTTTGTTTACCTAAGATTAGTTGCAATTCATCTAAAGTAATCAAACGTACTTTAGACTTAAAAGAAGGTTTAGTGGAAACTCCAGGATAAAAGAAGATATCTCTGATTTCTCCAACAATATTAATTATTAACTTATCTAGAGTAGCGCTTACTATTTCGCCAACTATCTTTTTATCACCATCTTCAAAAACAGCATGAAGATTGACTAAGTTGGCTTGATTGTTAATATCAATGGATAATTTAACATAAACGCTATTACCATCAATTTCATAAATATTACCCAGCATATAAACACCTTCTTATTCTTATATAATTATAACATGGTAAGTGAAAGTTTCAAAGAAATATTTAAAATTTCTTTGGAAAAGTTTTATTTTTACGATATAATTCTTTTGAAGGAGATGATTATTTTGAAAGTACCTTTTAAGAAGGCCAATATTTTATTACCAAAGAATTGTGATATGACCAAATGGAGCGTTATTGCTTGTGATCAATACACATCTGAGAAAGAATACTGGGATAAAACTAAGGAAATCGTAGGAGATAGTCCTTCTACTCTAAATTTGGTTTTACCAGAAATATATTTGGAAGATAGTGATGTTGAAGAAAGAATCAATAGTATTAATAGTAACATGGAAAAACTATTAGCTGAAGATTTCTTCAAAGAATATCCAAATTCACTTATTTATACCGAAAGAACTCAAAAAGATGGTAAGATCAAAGAAGGATTAATGGGAATAATTGACTTAGAAGCTTATTCTTATGAAGTAGGATCTGACTCTATGATTAGAGCTACTGAAAAAACAGTTATTGAAAGAATTCCTCCAAGAGTAAAAGTTAGGGAGAATGCTTCTCTAGAACTTCCTCATATTATGATTCTAATTGATGATGAAGAGAAAGATATTATTGAAAATATTAAGAATACTACTACCGAAGAAGACAAATTATATGATTTTGAACTAATGCAAGAAGGTGGTCATGTTAAAGGATATTTACTTAAAGATGATGTGGCTGATGAAATCATTAATAAATTAGATAAGTTTACTGATATTGACTATTTCAATAATAAATATGGCGTTACTGAAAACAATCCTTTAGTATTTGCTATGGGTGATGGAAACCATTCTTTAGCTACTGCTAAAACTTGTTATGAAAATTTAAAGAAGACTATGAGCGAAGAAGAATACTTGAATCACCCAGCTCGTTATGCTTTAGTAGAACTTGTTAATCTACATAGTGATGCTTTAGAATTTGAAGCTATTCACCGAGTAGTATTTGATGTTGATGTTAATCATTTAATTGATGAACTATCAAAATACTATGAAATTTCTTATGAAGAATGTGATGGTCAAAAGATGACAATGATTACTAAAGATGACGAAAAGGATATATATATTAAAAATCCTAAATCAAATATTGCTGTTGGATCTTTACAAATATTCTTAGATGATTATCTAAAAGACAATCCTGGTAAAGTTGACTATATTCATGGTGATGATGCTACTAGAAAACTAGCTCAAGGGGACAACAACATTGGCTTTATTCTACCTGCCATGAAAAAAACTGATTTATTTAAATCAGTAATTGTTGATGGGGCGTTACCACGTAAAACCTTCTCAATGGGTCATAGTGATGATAAAAGATTCTATTTAGAAGCACGTAAAATAAAATAACCATTTGGTTATTTTATTTTTTTAATCTTAATTAAAACTTCGGCACTTTTTCTAATTTCTTTTCTTTTTACTCTTTCCTCTTGTTCTGTTTTAGTAATAGTTGTGATCATATCCATATAATCATCTATTTGTTTTAGAGTTGCTTCTAATTCTTCACTTTGCGAGTATAACTCTTGTAGACGATTAAACTCTCTAATTCTTAGAGTCTTTAAAACACTTTCATACTTTTCTCTATTTTCAACGCTTTCAGCATAACGAGCAATAATATCAGGATTAATATAAGTACCTAAATGTCCCCTACCATCTCGTACTTTTAATAAAGTACCGTTAGCTATTAAATCTGGACATTTAGAACTTGTATCATTAGATACTCCTATAATAAGTGGACTTTCAAAAGATTTTAGACCTTTGTGATATAAATTACTACAATCAGCATTAATTCCCAAGTATTCATTAACAAAACGGGAAATACTAATTTCGTCTTTTTCTAAATTGATATTTTTTCTGAACGTTTTCATCAGGACACCTCTGCTTTCTTTTTTGATCGTTATTTCCTTTTGTATTACCATTCATATTATCAACTATTAAGTTTAATTTGTCATTGATATACATTTGGTCTTCAAAAGTTATTTCTTTCCTATCGATTAAGTAATTATCAATTAAAATTTGGTTTACCAAGGCATCTATGTTTCGAACAGGAGAAAAGACCTTTAAACTAACATTTTCATTTTCTTTCTTACTAGAAGTACTATTTAAATATCGCAAAGAAGTATCTCTTCTAATAATATCTTCAATTAAGAAATCTAAATTAGTTTTATTTTCTTTTAATTTATTTACTTCTTCACCACAATCATAGTTATTTTCATAGAATAGTAAGCTTAAATCTTTTCTTTGAGCGTATTCTTTGATAACTTCTAAAGCAAAGCTATTGGTAATGTAATTAATAATATTGGCTGTTTGATAATTAATACCATCTTCTAATCTTAAATCATCAAATATTAAATATAGTAAATTATCAATAGTTTTCTTTAATTCTTCATTAGCACTTTCTGGTAAATAAGCAAAGTCTCCGTAGTATATATTTTCATTAACATTAATAGTAGCTTTCTTGAAATCGAAGTATTCTAAATTAAAATCATTATCAATAATAAATTGGTAGGCAAAAACTGGCATATCTTTACCGGCATCTAATGATAACTCCTTATTCTTCATTTTATTCTTAAAAATTCTTTTACTTCTACCCTCATTAAGGGCTTTTTTGTATGAATTTTTATAATAGTAATCATCACTATTTATAAAATGCAATACATCAGTAGTATAGATACTTAGTCGGTATTTATCATCATCTAACTCTTCCAGAGAAATAGCATTTTCCAATAACTTAGCTTCGTCGTTATCAATAGTAATCACAAAACGATTTCTTAAATCTAAACGGTTTTCGTCATCAGTTTCAATAAAGGCACTTTCCTTAAACGGTAAATCTTCTTTACCTCTTTCAATAAAAGAGCGATGTTTAGCAATTAAGTAATTTATTTTACTTTTTCTTAACTCATCGTCATTACTAGCAACGGTATCTAAAAACTTATCACTAGCAATTAAGAATAAATTATCGAGATAATCATCTTCACTTGTCTTTAAATATAATCCCACCACTTGATCAAAATAGTTTTCTAACTCTTGATCATTATGGTTTAATAAAACATTAAAATAATTACTTAAAACATCAGTAAAAATAAGTCGATCATTATAATCTTTCAAATAAACTATTTCTTTAAAATTAGCAAATAACACTTTAACGTATTCAATATTTTTTAAATTGAAAATTATTTCTTTAGTAATGTTTTCCAAATCATCAGATAAAGCAGTATCTATTTTATAATCTTTAATAATTTTGTTTTCAATGTTTTTAATACTATCACTGATTCTCTCTTCGATACTAGAGAAAAGAATCCGATTTTTAAGATTATTGTTAGTACCATTTGTCATTTCATTATCTCTGATTTTATCTTGGAGATTTATATCTAATTCTTTTAATTTATGTAAAACTAAAAACAACGAATTATCATCTTTTTCTTTCAAATTATCTAGTTCAATTTTACCAAGACTATAATTATAATAACGAGTTAATTCTTTAAAATAGTCATTATTTTTAACATCAGCTTCAAAATTAATTTCTTCAATACTATTATTAAAGAAAGTAATCAAAAAGATCATTAAATCATAGTCGGTTTTCTTATTAAACATTTTCTTTAGTTTAGAAAAAGAATAACCTGTACGTTGTTTTAATATTTTTTTTAATTCTAATTCATTATCATTTGTGATATTTCCCATAACCGAACCTAATCCCTTCTGTTTTTACTAACTAGCTCTAAAACATCAGTAAGCTGTTTTATACGCTCAATAATCCTCCTCGCTTTAACCTTATCTACTCCGCTGGTAGTAATAGCTAAATTCTTTTCTAATTCACTTAAATTCAAATTGGAAGTGAAAAACGTTGGCAAATGTTCTTCCATTCGATATTGAAGAATGGGACCAAGTATTTCATCACGATTCCAATTACTACAGTTTTCAGCACCAATATCATCTAAAAGCAAAAGATCTACTTTCTTAAGAGTGTTGAACCTTTCTTCAAAATCTTCATTGAAAGATGCTTTTAGGCTTCGTAAAAACTCTGGATAATAACAGATAACACTTTTAATTCCTTTTTTAGCCATTTCATTGAATAAAGCAGCAACGAGATAAGTCTTACCGCTACCAAAAGAACCATGTAGGTATAAACCCTTAACATCTTCCCTACCATATTTCTTGGTAAATTCCTGGAAATATTTTAGAATAGGTATTCTCTTGGCATCTTTATAAATATCTTTTAAAGAAGCATCCATCATTTCTTTAGACATTTCAAATAGTTCAATATTTTTCTTATACGCATCCTTTTCCAATTTATCATTTAAGTATTTACAAGCATTATATGAAAAAGATATACTATCACCTTTTACTTCTGGAGTTAAAAGATAACCTTTTACACTATTCTTACAATTAGTAAGACCTTTACAGTCTTTACAGTTTTTATATTCACAAGAGGCATCTTCTAAACTAGAAGTATAGTTAATAAGAACATCTTCTTTAGCTGGTATAGTTTTAATAAAGTCTTTAAAATCTTTATTACTACAAGCATCCATAAAAGATTCTTTTAAGGCTTTATGATCAACTTTTTTATTTAATACTCGCTCTATACTTTTCATACAACCACCTAGCTTTATTGTACATTTTTATAAAGAAAAAGGCAACGTTTTTAAAGAAAAAAAGATTGCCTTTTGCAATCTATTAATTATATTTCTCTTTTATATATTTAATTAAATCTTCCTTATCATATTTTTCATCATATTCAATTAAGACTTCTGCCTTGTTAAATGGATTATTAAAATCAAAATCAGATTTAACTGCCTTTATTCTATCATTTTCAAATAAATGTCTAACTAAATCCATATAACAGTATTCACAATACCATCTAATTTAATTTCCATATATAAAATCGCCTCTTGAATCAATTATATCATATTAGCTTATATTCTCTAGCAATTATTCTATTATCAGAGCAGTATTTAATTACATACTCATTATCTTGTTTACAAATAATAATTCCCACTGTATTATTTTCTTCAATAGTCTTTATATGTTTATCTACATAATTCATATAAGTCATGATTTGACCTGTATGTTCTTTCTTAAGTCCAGTTGTTTTCAGTTCAACAACCACATAGCACTTATACTTAATATTATAAAGAAGCAAATCTATATAATTATATCTATTACCAAATTTAATTGGATATTCATTATCTATAAATGTAAATCCATTCCCAAGTTCTTTCAAAAAAGACGCAATGTCCTCAAGTATTAATCTTTGCAATACTTTTTCTGATATATTTTCATAATTATTACTGTTTTTAATTCTTACTGGATTAGGAATTAAATCATTTGGCCTAAGTATTTCATTTTTGTTTAATTTATTTCTTGTATTTTCTGGTAATCTCTCATATTCATTAGATTTTATTCTTTCTCTTAACTGCCTAATTGATAAATTATTTAATTCAGTTATTTTGACATAATATTGAAATTTATTATCATCAAACCAAAGAATTTCACAATAATGACTCCAACTTAATTTGGCAGACAGTGTCTGCCATTTTTGAGACACTTTATAAAATTGCCTCATATTTCTTAAATTTCTTTGACTATAACCCGAACCTAACTCTTCTGTTAACTTTAAAGAATACTCTTTAATAATGCTTTCTCCATATTGATTACCTGCATTTAGTAATAATTTTCCAACATTATAATATGTATCTAAATCACTTTTGTTAATTGAATAGTTTTTTACTTTTCGATTTATCTCATTATTTATTAATTCATTTTTAATTTCATTATAATAATTCATATCTACTCCTTTCTATGGACTACAAGTCCCTACTCTCAATTTATTATTTTTAATCTTAAACATAATACTTCCATCTATATCTGTTCTATATATTTTAGAATATTTTAAGTTTTCTAATACTTCTTTGTTTGGATGACCATAACGATTTTTCTTACCTACACTAATAATTGAATTCTTGGGTTTTATTGCATTTATAAATTCTTTACTTGAGCTTGTATTAGAACCATGATGCCCTACTTTTAAAACATCAATATCTGGTAAATTATATTTAGAGAGTATTTCTTTTTCAGTAGTTACACTCGCATCTCCCATAAGCATAAATTTATAACCATCGAGTTCTGTATATATAACATTTGAATTATCATTCTCATTGGAATAATCTTTTGTTTGTAAGAAGTAGAGTTTATTATTATCAACATTCAATTCTTTAATACAGGAATAATACTTTATCTTTTTTCTATTTAATACTTTTATTAATTCCTTTTCTAAATAGTTATATCTTCCACAATTAAATATTACTTTTTCTATCTTTGTGTTATTAACTAGGTTTATTGCTTCTCCCATGTGATCCGCATCACCGTGAGTAAGAATAAGTGTCTCTATTTTGTTTTTACCTAAGGACTTTAAATAAGGAATGGTAATATTATTAGAGATGTTATGCTTATCATCAAATAGTTTTCCTCCTGTATCAATTAAGGTGACTTTATTGTTAAGGTATATTAGACTAGAATCTCCCTGACCAACATCAAGAAAAGTTACAAAGCTATTTTTGATTACTTTAGGATATGAATAGTGCATGATTAATAAAATAATTAATGGTATAACTAACAGTTTCTTGTTTTTATATAGTCCATATAAACAAATTATTACCATGATTATATAGATAACATAGATGATAAATGGTCCTTTAAAAAACAATATTTTAGATAGTTCTATTGTATTTAAGTAGTATGCACTCTTCTCTAAAATATTTAAAAATATATAAAGTAAACCATCAAATAGAGGAAAAATAAAAGTAATTAGTACTAAGGGAAAAACTATAAATGTAATTAGTGGTATATAAAAGATGTTGTAGATAATACTTAATAGATTAATTTGATAAAAATAATATAAAGTAATAGGCAAACTGATTATAAAAGATATTAAGGAAGTATACATAATTAATAGTATTCTTTTTTTTATTGTTTTCATCTTATCAATAAAAAGTAATAGTCCTAAACTAATAGAAAAAGAATATAAAAAAGCTTGATTAAAGATGGAATTAGGATCAACTAGTAAAGTAATTCCTAAAACAACTATAAATAATTGATATGGTTTAATATATAAATAATATAGCTTATTAACTCCAAACAATATAAAAAACAATACTGCTCTAAAGATTGAATGTTTAAAACCAACTATAAATAAAAAAAGAAGTAACGATCCACTACTAATTAAATATACTTTATTTTCTTCTAATCCTAATTGCTTTAAAAGATACATAATTATACCAGCTAAAACACTGACATGCATCCCGGACAAAGCAAATAGATGAGAAATACCTATTTCCTGATAACTATTAACTACTTCTTTTTTTAAATAAGATTTGTCTCCCAACAGAAAAGTTTTTAGATATTTTGAAGAAAGAGAAATTCTTTCTATTCTTCTTGTTATAGCATTTTTTATTTTATAAAAAATACTGGTTTTTGTGCTTATTACTTTAATTTTATTGATAGTAAAGGTATAAAAGATGTTTTGCCTTTCTAAATATTTCTTATAAGAAAATATATTCTTAGTGGTTGTCTCATCAATACTATTAATCTTTCCTGTTATTCTTACTTTATAACCTGCTTCTATTTTACTTAACTTTGGATTGTCATAATAAGCTATTATCTTTTCTTTACCTTTGATAACCAAAGTTATTTTTTCTTGATCTTTTTTAATACTTTCTATTATACCGGTGATGGTCTTAGTATCTTTTTGATAGATACTTCTTTTGGGAATACTAATTCTTATGATAGTAATTATGGTTACTACTACTAGAATAGCTAAATATAACTTATTAGATAGTAATGCTTTCCTTAATCTTAGCAAAGACTCCGTCCCCAATGCCATTTACTTCTTTAATATCTTCTATTTTCTTGAAATTACCATGATCACTGCGATATTTGATAATACTTTCGGCTTTGGCTTCACCAATACCAGGAATCATCATTAATTCTTCTTTGGTCGCAGTATTAATATTTATTTTACCAGTTACACTATTATCTTTTTTACTTTCTTCTTTCTTTTCGATACAAGCATCATTTTTTATTTCTTTTTCATTATCTGTGCATATCTTAAGGGTTTGTTCTTCTTTTTCTTTGGTTCTTTGATAATTTTGAACTTCTGCCACTGAATAAATAATAATGACCATTTCATCAGTTACTTTTTTACTAAGGTTAATTACTGTTGTATCAGCAATCTGAGTTAATCCTCCTGCTTTTTCAATAACATCTATTACCCGATCACCTTCAGCCATAGTATAAATACCAGGTTCGTTTATCTGGCCTTTAATATCTACTTTATAATACTTAAGTTCTTCTTTTTTTGAGGTAGTTTTCTTTTTTAGAATAACTGTTTTTTCTTTTTTAGGAGGTTTATTTAAACTCTTTATAACATAATTACTTAAGACAGCTACTAGTATTAATGCAATTATAGAAAAAGCAATTATTTGTTTTCGATACTTATACTTAAATGTCAAAATTATCACCTCAACTATATTATAGAAATAAAAAAAGAAAAACATTTAACTATTTTTCTTTTTTCGTGATAACTTTGTTTCTACTGCGACTCTTTCAACTATTACTAGTGAAACCATCAGACAAACTGTATAACTACCACCATAACTCATAAATGGTAATGGTACTCCTGTCATAGGCATTAATCCAAATAACCCCAGTAAATTAACCGCAATATGCATGAAGATATAAACAGCTATACCATAGCACATTAATCCATCTCTAAGGGTTGGAGCTTTCCTACCAATTGCTAGAATGCGATATAAGACAAACATATACATTAATAGAATAGCAATACCTACAATAGCCCCTAATTCCTCAACAATAACTGCGAATATGAAATCAGTATATGGTTCAGGTAAATACAAATATTTCTGAGTAGAATTACCAAGTCCTAAACCTGTTAGTCCACCATTATTAATAGCAATATACCCATTACATACTTGATTACCAGTAGTTAAAAGCTTATCACAAGGTCTTGTATAATCAAACCGCTCCAACTGTCTTTTTTGAATAACACTTTTACCACTAGCGAGTAGAAAAATCGCTAGTACCATCAGTAATCCTACAGCCGCAAAAATTATTTTCCCTTTTAATACTTTAGGAGTTGGTACTGCTAAGAAAATCATTCCCACAATAGTAATAAAAATAATAGCAGTTCCTAAATCTGGTTGTAACATAATCAAAAAGGCAATACCTAGTCCGACAAAGACTGGAAATAAGACCTTACTATAAGAGTCTAAGCCTTTTTTATTTAATTCATAAAAGCTAGCAGCCCAAACAATATATACTATTTTAATAAATTCACTGGGTTGAAAATTAATTGGTCCTAAATCAAACCAACTGACAGCTTGGTTCTTGGCTTGTCCAATTGCGAGTAGTAGAACTAAAGAAGCTCCAATAAGCAACAATAAAAACCAGGAGGCAATACCATAGAATTTAGTAGTACGACAAATAATAAATATTCCTAAAGCCAATCCAATAACTAAGAAACCAGCTTGTTTCAAGAAATAATTATAAGGACTTGCTGCTTGAGCCATATAGGCTATAACATTTGATGATGAAAAGACCATTATTAGGCCAATCGCAAAGAGAATAGCTGAAACTATTAATAACGGATAATCAATGTTTTTAATGACTTTTTTCATCCTATTCCCTCCTATATTCTATATACATTATACCATAATTTAGACATATTCATTAACACAATTTACCTACTTGTCATAATTTATACTAGAATAAGTAAAGGAGGAATATATATGTATTATTATGGTGGTGGATCTACTTGCTGTAATAGCGGTTATGGAATGCCCTATTATCCAACCTATAACAACAATTCTAACTTTGCCATTATTTTAGTATTGTTCATTTTATTAGTAATTGTCATTGGAACTCGTTTTACAGTAAGCAATTAAAAGAAAGAAACCTTTCTTTTTTTTTAGTTTTATGTTAAAATAAAGCCGGTTGGTGATATTATGCTTAAAACATGTGATATTCTAGACGAAAAGAATAAAGTTTTACGTGAAATAAGTAAAGATGTAGTTTTTCCTCTTACTAAGGAAGATAACAAACTAATTAAGACAATGATTGAATATCTTACTAATAGTCAAATTGAGGAAAAAGCTGAAAAATATGATCTTCGTCCAGGAATGGGAATGAGTGCTGTCCAATTAGGGGTATTAAAAAGAATATTTGTAGTAGTTCATGAATATGAGGAAGGAAAGTTTAAGAATTATATCTTGATAAATCCTAAGATTATCTCTAATTCAGCTGAAAAGATATATGTTGAAGAAGGAGAAGGATGTCTTTCTGTAAATCGTCCTGTAGAAGGAATAGTTCCTCGTTATGCCCGTGTTACTATGGAAGCTTTTGATGAAAAGGGAAATAAATTCCAAGTACGTGGTCGTGAAGAACTAGCAATTGCTTTTCAACATGAACTTGATCATTTAAATGGTATTTTATTCTTTGATCATATTGATAAAAAGAATCCTTTTAAAGATAAAGATCTTTATCGAGCAATATAAAAGAAAGTATTACTACTTTCTTTTTTTTATTTAAATCTTGGTGCTAAATCAATTGTTATTTCCATACCATTAGTTATTTGAGAATTAGGAGCAATTGATTGTTTAGTAACATAACCATTACCATTTAATTTAACTTTCATTCCTAACATCTTTAAGATGCTTTTAGCTTCTTTAGAAGACATTCCAACTACATTAGGAACTGTTATATTAGAATCATTAGTAATTAAGTAAATAGTATCATCACTACTAACTAATACTTTTTTACTAGGGTATTGATTAATGATTTTAGAACCAGTACCTATTACCTGATGGTTAGTAATACCATTTTGATTTAATAATTCAATGGTAGAATTTAAATCTTTATTCTTAAACGATGGTAATTTATACTCTTTTACTTTCTTTTCTTCTGCTTTATCCTGGCCATAGTATTTAGATAAGTTATTTACTATACTCTTAACAGCATCAAAAACTGTACTTTGTTTACCACCACCAGGACGTGAGGCCGCAGCATAAATAATTATTTTGGGATTACTCTTAGGATAAATACCTGTAAAAGAAGAAATAATATCTGCTTCTCCACCTAAATAACCGCCATGACGTTCATCAGCTATTTGAGCAGTACCAGTTTTACCAATTAATTCACCAGAATCAATTCTAAAGCCCATACCGGTATTACCCAAACCATTAACAGTATCATCCATTAATGATTTTATCTTAGTGACAGTTTCTGTTGAAGCTACTTTCTCTATTTCTGTTCTTTCACCTTTAAAAACTTCTTCTTTAGTAACAGGATCAACTATTTTATCAACGATATATGGTTTTAATAACATACCGTCATTAGTAAGTGGTGTTAGGGCTTGAATCATTTGTAGAGGTGTAACCGTAATACCTTGACCAAACCCAGCATTATATATTTCTGTTTCATATTTAAAATTAATTTGACCTTTAGCTTCATTAGGTAGACTAATACCAGTTTTACTACCAAAACCAAGTTTCTTATAGTATTGTCTTAACATAGTAGCGTTCATATGTCTGTGAATAAGATTAATAATACCAACATTACTTGATAAAGCATATCCTCTATCAAACGAGATAACACCCCAACCACTACGTTCATGGTCACCTATTTCGGTACCATCAGAAGTAACAAAAACTCCTGATTTATAGGTTTCACTACCATTATAGACACCATTTTCCATAGCGCACATATATGTAAATGTTTTCATAGTAGAACCGGGTTCATAAGGATAAGAAGTTGTTACATTTAGGTAGTTTTCAATATCTTTTTTATTAGGATCAAATGATGGTGACTGAGAAATAGCTAAAATCTTACCTGTTTTGGCATCAGCTATAACAACAGTAAACCATTCAAAACCATAACCACTTTTAGCTTTAGCTAAAGCCTGTTCAACATAGAATTGAATACTACTATCAACCGTTAAATAAACGTCCTTACCCTCAATAGCTTCTTTTCTTAATTCCTTAGTATTGGCAATTTGATAACCACGTAAATCTTTCTGGAAAGTAACATATCCATCTTCACCAGATAAAATCTTATCGTAGTATTTTTCAAGTCCCATTTCCCCAACTATTTTTTCTTTTGTTTCCTTTTTTTCTTCATCAGTCTCTTCAGTAGTCTTGGCATAACCAAGAGTATATGACAAGAAATTACCTTTTGGATAATATCTCTTGTAATTCTCAACGAATGTTAGTCCTGGTAAATCTAATTTTTCAATTTTGTCTTTTGTAATTTCATTTAAATTCTTACCCTTAGTACCAAATTCAGTTTGATATAAGTCTTTATTAAGATACTTAAGTATTTCTTCTTTAGACATTCCCAGAATAGGTGCCAATTCAGTAGCAGTTTTCTCTTTATCAACAACATGTTGTGGTTTCTTTTTATTAGTAGTTCTTTTACTAGATAAATAAGCAATTAGTTTATAAGAGGTTACATTTTGAGCTAAAACTTCACCACGTGAATCATAAATTACTCCTCGTTGTGCTGGTAAAGTAGTTGTAGTCATTGTCCTCTTATCAGCTAATTTCTTTAAATTAGTTCCATCTATTTCCGTAGCAGTTGATAATTGTAATAATCTTAAAATCATTACAGCAAACAAAAAAAGAGAAGCCATAATAAATAACTTGCTATAACGAACATTATTCTTTTTTCTCCTCTTCTTTTTCAAAATATCACCACTTATTCTACAGTTTTAATGTTATTATTATTATAACTTAATCCTTGTGTTTTGGCAACTTCTTCAATTTTAGTAAGTGAAGCTAATTCATCAATAGCCATCGATAAACTTTCATTTGTTTTGGTCTGAGCAGCTATTTCTTTTTTCTGTTTTTCAACATCAAAATTAATCTTAGCTAATGTTGCTTTAGAAAAGACAATTGATATTGGAGCAATTAAAACTAAAGTAATTGCTAATGTATACAATAACTTTTCAAATTTTGACATCTTTACTCTTCTTTTTACCTTTCTCATATTTCTAACCTCACTTTACTTTTTCGATTGCTCTCACTATAGCGCTATGAGCTCGTTTATTTGTTTCTAATTCTTCTTTACTAGGTTTAATACCCTTTCTAGTTACCAGTTTAAAATCTGGTAGTAGTGAAGGATCAATATTAGGTAATCCTTTTACTTTTTCGTCTACTTGTGATAATTCTTTGAAGTAATTCTTGACGATTCTATCTTCTAAAGAGTGAAATGTAATTACTACTATTCGACCATTGATATTTAGAAGATCCTTACTATCATGAAGAGCTTTTTCTAAACTACCTAGTTCATCATTAACCTCTATTCTGATAGCTTGAAATATCTGTTTAGCTGGATGTTTATTTATTCTAAATTTCATTGGTACAGCACTCTTTATTATCTCAACTAATTCCAAAGTTGTTTCAATTGGTTTTTCTGCCCTTTTTTCAACTATTTTTTTGGCTATATTAGAAGCAAATTGAGCTTCTCCATATTTCTTAAAGACTTTAGTTAATTCTTCTTTAGAATAGGTATTTACAAGCTCATAAGCACTGAAAGATTGTTCTCTATTCATACGCATATCAAGTTTGGCATCTTGGTGATAACTAAATCCTCTTTCGGCTTCATCTAATTGAGGAGAAGAAACTCCTAAGTCAAATAGTATTTTATCAACTTTGGTAATACCTCTTTTATGTAATTCTTCCTTCATATTGGCAAAATTACTCTTAATGATAGTGAAGTTAGTACCAACGGTGTGGAGGTTGTTGGTACTAAACTCTATCGCTTCACTATCCTGGTCAAAGGCGAATAAAACCCCTCGTTTTATTCTTTTTAATATGTTTTTACTGTGTCCGCCATAACCTACTGTCGCATCTACTACGATATCAGTATCTTGTAAATGAAGTAGATCGATCGCTTCTTTTAAAAGTACACTTTTATGCATAGTAGTCACTTCCTAAATATACGGTATGTCGTTAAATAGGTTTTCAGCTATGTCTGACATGCTGTCGTTGGCAGAATTAATAAACTTATTCCAAGAATCGTTTGACCATATCTCTATTCGTTCTCCTGCACCAATGATCACACAATCTTTAGTAATATCGGCATAAGAAACTAATGGGGAGGTAATATTAATACGGCCTTGTTTATCAAACTCTACCACAGTGGCACCGGATAAAAAGAATCTCATAAATTCTCGAGCATCTTTCTTGGTGAAGGGAATTGTCTCTAATTTTTGGACGATGCGCTCAAAATCTTTTTCAGAATAAGCGAACAAGCATTTTTCAATACCACGCGTAACTATAAACTTATTGCCCAGTTCTTTCCGTAATTTTGCTGGTATTATAAGTCTGTTCTTTTCATCAATTGTATGATGATACTCTCCTAAAAACATTTCGCATCCCCCACTTTTCACCACAATTAACCACTGCTTGTATTAAGTGTACCTTATATATGTTAATTTGTAAACAAAAAAAAGAGAAAAAAATGATTTTTTCTCTTTTGAGTGTAAAGTTTACATTCTTGTTCTTTTCTTTATTAAATCTTTAATGTATTTAAGGAACTCTTCCTGGGATAATGTAGTTGTTTCTTTAGTACCAAATAGACGATAACTAATAGTCTTGTTTTCTTTCTCTTGATCACCCAAGATAATAGTGATTGGAATCTTTTTAATTTGTGATTCGCGTAAACGATAACCTAGTTTTTCATTGCGAGCATCTAGTTCTACACGAATATCCTCTTTTGCTAGAAGGTCGTTTACTTCCTTAGCATAATCAGCTTGATGTTCACTAGATACCGGCATTATTATAGCTTGAATTGGTGCTAACCAAACTGGTAGAACTCCCTTAGTCTCTTCTAAGTAATAAGCAATAAAACGATCAATAGAACCAAAGACAGCTCGATGTAAAACAACCGGTGTTTTCTTACTACCATCTCTGTCTACATATGTCAAATCAAAGCGCATTGGTAGACAGAAATCTAATTGGCATGTAGAAACAGTAATTTTATTACCAACAGCTGGTTTTAATTGTACATCTAACTTAGGTCCATAGAAAGCAGCTTCACCTATCATTTCTTTATAAGGGATACCAATATCATCTAAAACCTTCCTAATAACATTTTCAGCTTTATCCCACATTTCATCATCAGGATAATACTTTTCAGTATCTTCTTTATCTCTTAGTGAAAGCTCAAATTCATAATCAGTTATTCCTAAATCCTTATAACAATCTAAGATTAAATCAACTACTCTCTTAAACTCATCACCGATTTGTTCAGGAGTTACAAATAGATGAGCATCATTTTGACAGAAAGTACGAACTCTTTCTATACCTTTTAACGCCCCAGAGGCTTCAAAACGACAGTCCCGGGCAATTTCCCCAATTCTAATTGGTAAATCACGATATGAGTGAATACCATTAGCATAAATCATCATATGATGAGGACAGTTCATTGGTCTTAAGACAAATTCTTCATCCTCAACCTTCATTGCTGGAAACATTGAATCTTTATAATGATCCCAATGTCCAGAAGTTTTATATAATTCAACATTACCTAATGGTGGAGTTAAAACATGTTTATACCCTTGCTTTCTTTCTTTTTCTTTTATATAATTCTCTAACTCTTGCCAAACAATATAACCATTTGGTAAATACATAGGTAATCCTTTACCTACCAAATCACTAGTCATAAAGATTTCTAACTCTTTACCCAATTTACGATGATCACGTAATTTAGCATCGGCTAATTCTTGAAGATGTTTTTCTAGATCTTCTTCATTGTCAAAACAAATACCATATATTCTCTGTAACATCTTGTTTTTAGCATCATTTTTCCAATAAGCACCCGATACTTTAAGTAATTTAAAATGCTTTAATTCTTTAACAGTATCCACATGAGGACCACGGCAAAGGTCAGTAAAATCTCCTTGAGTATACATCGAAATAACAGTATCTTTTTCATCCATTCTACTGATTAAATCTATTTTATAAGGATCATCCTTAAATCTCTCTAAAGCTTCTTTTTTAGTAATTTCTTCTCTAACTATTCTTTTACCATCTTTAGAAATTTTCTTCATTTCTTTTTCAATAGCAGGTAAATCTTCTTCAGTAATTACTTTGTCCCCTAAATCGACATCATAGTAGAAACCTTCTTCAATAACTGGTCCTACCCAAAACTTTGCTTCTGGATATAGATGTTTGATTGCTTGAGCCAATAAATGGGCACAAGAATGATTCATAATACTTAGTTTTTCATTTTCTTTTATATTGATCATTTTCTTTTTCCTCCTCTTTTAACATATCTTCTAATACAGATCTTCTATATTCTTCTTTTAGTTTTCTTCTTTCTTCCTTAAAGATATCATCTTTATCTACTTCTCTATTCTTCATTGTATCCATTTTTTCTTCTAAATATAGATCTGTTAATCTTTTTCGAAAATCTTCTTTTTTCATATAAAAACTCCTAACATATTGTTAGGAGTGAATTACACGGTACCATCCTTGGTTTAACTTAATTAATGTAACGGCTTTTAACCGGATATCTCTTTCGAGTTCAACTGTTAAAGGTAGTAATAAATAACTCTTCAATCTGTTTGCACCAACCACAGACTCTCTAGTAAAGAGGCTTATTTATCATGTCCTTCGTCTTCGTCTTTATGTACATTATATCACAATTCTAATAAAAATCAATTATTGTTTCTGCGACCATATACTAATACTAATCTAAACACTTGTAGTAAAGCAGTAACAACACTAGCTAAATAAGTTGAAGCAGCTGCTTTAAGCATTGTCTTAGCATTTTTTACTTCATCATCTACTAAAAAGCTTTCTTCTTTTATTGCTTGCATTCCTCGTTTAGAAGCATTAATCTCTACTGGTAGAGTTATAACTTGAAAAGCAACTATAACAAGTTCTGCAATAATACCTATTCTAACTAGATTAAGTAATCCTAAAGCTGCACCTACTACAATAGCAATATAACCAGCATAGGAAGAAAAGTTTACTAAAGGCACTATTCTATTACGAAGTCTCATAGCTTTATAGCCCACTTTATCTTGAATAGCATGACCACATTCATGAGCTGCGACTGAGACAGAGGCAATAGTAGGATCTTCATAAATAGATTTAGATAAGCGTACTACTTTTTTAGTTGGGTCATAGTGATCAGTTAAGTACCCTTCTACTTCTTCAACAGTTACATCTTTAAGTCCATTCTTATCTAATATTTTACGAGCTACATCCTTTCCGGTTAACCCATTTCTGTTTTCTACTTTGGAATATTTACTATAAGAACCTGAGACAAAAGTCTGAGCAATAAAAGCAATTGCGGCTCCTAAAAATAATAATCCATATTCTACTAAATACATCATAACTACTCCTTTTATCTGAATATTATCACTTATAGTAGAAAGTGTCAATTCCCAAAAAAATAAAAACGTTGATTTATCAACGTTTAAATACAAATGGTCGGGAAGACAGGATTTGAACCTGCAACCTCATGGTCCCAAACCACGTGCTCTACCAAGTTGAGCCACTTCCCGAAACTGGCGCGCCCGAAGGGATTCGAACCCCTGACCTTTTGGTTCGTAGCCAAACACTCTATCCAGCTGAGCTACGGGCGCATTAACCCAACGGCTACTGGGCATATTTATGTAAAAATAAATTATTAACAAACTGGTGGCTCCAGCGGGAATCGAACCAGCGACACAGGGATTTTCAGTCCCTTGCTCTACCAACTGAGCTATGAAGCCACTAAATGGCGGTTCCAACGGGACTCGAACCCGCGATCTTCTGCGTGACAGGCAGACGTGTTAACCAACTGCACCATGGAACCAAATTGGTTGCGGGAAGAGGATTCGAACCTCTGACCTTCGGGTTATGAGCCCAACGAGCTACCAGACTGCTCCATCCCGCGATGTAAATTTAAATGGCGGAGGAAAAGGGATTCGAACCCCTGCGCCGATTGCTCGACCTCCCGGTTTTCAAGACCGGTCCCTTCAACCAGACTTGGGTATTCCTCCATAAGTGGTGCCTAAGGCCGGACTTGAACCGGCACGTGATTTGACTCACGCAGGATTTTAAGTCCTGTGCGTCTACCAATTCCGCCACTCAGGCACATGGTGATCTGTATGAGATTCGAACTCATGACCCTTTGATTAAAAGTCAAATGCTCTACCGACTGAGCTAACAGATCATAACAAATAAATGGCTGCCCTGGTTAGATTCGAACTAACGCATGTCAGAGTCAAAGTCTGATGCCTTACCACTTGGCTACAGGGCAATAAAATGGTGGAGAGAGATGGATTTGAACCATCGAACCCGAAGGAACAGATTTACAGTCTGCCGCGTTTGACCACTTCGCTACCTCTCCATAAAAATGGTGCCGAAAGTAGGACTTGAACCCACAACCTACTGATTACAAATCAGTTGCTCTACCAATTGAGCTATTTCGGCACAATGGTGGGCGATATAGGACTCGAACCTATGACCCCCTGCTTGTAAGGCAGGTGCTCTAACCAACTGAGCTAATCGCCCAATTTAACCAATATTAAACTGTTGCATGTATAAATATATCAATTTATCGCCGTTTTGTCAATATTGATAACCCCTTTTTGTAAAGTATTTACATTTTCACTGACATTTCTTCTAATTTATCATCAATCCATGAATCTAGTTTTTCACTTAAAGAATTAAATCCATTAGTAGTTTCATTTATTTTTAGTTTACGTTTTTTATTAAAACGATAATCCAAGTTTTTAATACTTAATTTTAAATGACATTCTTCACTATTAACTTCTAAAACTCTAACTTTAATTGTTTCCCCAATATGGACATAATCATTAACATTCTTAACAAAATCATCAGATATTTCAGAAATATGAATTAAACCACTATAATAATTATCCAGACTAACAAATATGCCATAATTCTCTATTCCAGTTACGCAACCAGTAGTAATATCGCCTACTTTATAATTTTGCATAACACCACCTCTTCTGTAATTATACCATAAAAAAGCTCTAAAACAAAGCTTTACTACTAGCTAGTTTACTAGTATAATTGTAGTGGTGATTGTTATGGACCAAGAAACTGCTAAAATTATCAACATTATCGATAAAATAAGACCTTTCTTAGTTGATGATGGTGGTGATATTGAATTTGTTAAGTACGAAGATAATATTGTTTATGTAAAACTTCTAGGAGCTTGTGCTGGCTGTTCTTTAATTGATGTAACTCTAAAAGAAGGTATTGAACAGTTTATTATTAATGAAGTTCCTACTGTCAAAGAAGTAAGAAATATCAATTCCGAAGCCAATCAATACTAGGAATGTTGTTATTTAATTGTATTTTACTATAAATATATTTTATAAAATCTAAATACCTATTAGTAAGAGAAATAATTTTTATTATTTCTTTTTCTTTGGCTTTATTACTGACAATATTATCATACTTATCAAAATATATAGAAGGATATATAAGCCGAGCCATTAATAAAGTATATTCTGTATTTGTTAGAGAAATATTATCCATAATATAATCACTTATTTCTTTATAATTATCTTCGGTTAAAAAGACCATTTTCAAGTATTCGGCTAGATCTCTACTTTTATAATCAATAATTAAATTTAGGGGATTATAGTAATCATCAACATTATTAGTAATTCTAATATGAGAAAGATACTTAGGAGTATTCCCATTAATCCTATTATTTACAAGAAAAGCAATAGCAGTTTCAGCCATACCTATATAGTAATTAATACTACTATATAGAATATAATACTTATTCTTGATATGTTTTCTTTGATAGTCATAGTAATCATTCTTTCTACTCCACAAATATACCCAATTACTATGATCAATACTGCCAATAAAATTATTGGGAATTGGTAATTGATTTTTAATAATTACTTCCTTTAAATTTCTGGGTAGATTACTATTAACCTTTATTAAAACATATCTATCATTATCTACTATGGTAATAATACTTTTTTGAATATTGTAGATAAAACTGTAATACTTTCTAGCAAATAATTTTAAAATATCATTAATAATAACTATTTCTTCATTATCTCTTTCAATTTTAAAAAACAAATATTTATTACCGCGATAGAAAAAAAGATAATAATCTTTTTTTGCTTGAATAGTTATATTATTAATATTATAAAAGTAACTGAGAATATTTTCCATATTATTTATCTCTCCTTTAAATAATATGAAAAAAAAAGAAAGTTATACTTTCTTTTATCTTCTCATTGCTCCTCTTAAAGCTTCGATATCAGCATTAAGTTCAGATGCTTCTTCAGAATTACGAGCAATCCGATCTTGATACTCTTTCTTAGTAGCATTTTGAGCTTCAATTTCTTCTCTTTGAGCTGCTTGTGCTGCTAATAATTCATCTTTAAGAGCACTTAATTCTTGTTTTTGACTTTCAAGTTGTTCTTCACTTGATTTAGCCTCTTCTTCTAGATGTTCAAGATCACTATTATTATCCTTAATAGCACTATCTAATCTTGCTTGTTCTTCTAGTAATGCTTTAACATCTAAAACGCTACTCTCATCAGCTACTTGAACAAAGCCAACACCTTCTGGCATTGAACCAACAGGACTATAACTACGAGGTTCTTCTTTTGCGGCACGTCCTTCTAATTCTTTTCTCTTAGCTGTGAATTCATCATAGGTAATATGACCACTGATAAATTCTGTACGATAATGTTCAAGTTCATCTTCAAAATTATCAGCTTCTTTTTCTTCAACAGGTGCTTCTTGTTCAGGCATTTTATTAAAGTCAATATAATTAGGAATTGCTGGTGGTAAATAATCTTTCTCTTCATCATTTACTTCTTTAGCTACTTCCTCTTTAATTGAACCAATTTCTTCTTCGCTCAATTCTTTTTCATCTTCTTTTTCTTCATTGATAAGTTGTTGTGCTTCAGCAACCAATTGAGCTTCATCTGCTAATTTATCTTCTTCAGATACAAGATGGTTTTCTTCGATTTGTTGTCTTAATTTGGCAGCTATTTCATCAACATTGATTTCGTCTTCAGCATCTTCATTAACTGCTACTCTTGGTGCAGTAGCATTGATTTCATCTTCATAGACTTCATCAGGTGCCAATTCTTTTTCTTCTTTGTTGAAGTATTCTTCTTCAGCAAGTTCTTCGAAATCAAAATATAATTCTTCAGCTGCATCTACAATCTTCTCTGGTATTTTAATAGGATTAGAATATTTTTCATCTTCCGCATGAACTTCACTTGGTAATCTAACTGGTTTTAGAGCAGCAATTTTTTCATTATTCCATTCAATATATTCTTGATACTCTCTAATTAGTTTTTGATTTCTACCAAAGAAATTTCTAATTCTTTCTCTAATACTAGTAGGTTCTACTACTTCTCTTTGAAGACCGACAACTCTTTCCTCTATTACTTTGTTAGCTTCCTCTAATTTTTCAATACGGCGACGACTAACTTCAGATAGTTTAATTCTTTTACTATCTTCATCTTTAGCGCCAACACTTTGATCATAAAGGCCGCTACCATGAATGTCCCTTAATTCAAAATCTTTTCCTCTTTCCATAATAAACCCTCCTAAGTATTATTCAGCTTTAGACAATTCTCTTAATACATCCTTGATACGATTCCATTCGTTTTCGTCATCAACACCTCTAAGTCTTGGTTCTCCTGATGAGCGATCTACATTAGAAACATATACTGTTACATTACCATTAGCATCTTTTTCGTTTTTAGTATAAATAACGTACTCTTTCTTATTGTCTTTAAATTCAAACGCTAAGATCACTTCTACTTCATCAACAGAACCATCTTTGGCTACGATAGACATCATTTTCTTTTCAACTTTATTATCCATTTTGTATCCTCCCTTTATTATTCATATATATTCATTTTAACATATTTAAAATTTATTTCAAGGCTTTCTTCACTTTTTTTAATAAAAAATATTTAGCTTTATAAGCACAGTATTTTTTTAAGTAATCATCTAAGGATTCTATCGAGTTTATCTTCTTATAATTCTTATTTTTCTTATCATTAAAACCTTTTAATCTTATTTTTCCATAAGACATATCTCCCATAATATAATCAAAGTCGTCAAAGTAGTCAGTAACTAAAGAAGATACTTCTTCATAGTCAAAAATATCATCTTTATCTTTAATTAATTCATATTCATTGTTATTAATCTTATATTTTTTCATAATTCTCTCCTACATAAATTATACCTTTTATTACTTGTTTGGTAAAGGGTAAATTTATGTCCCTTTAAGATAATATGCTGGTATTTTTCCATTAACTATTTTGATTACTAAAGGGATTTTGTTCTTTATTACTGTCTCTTTAGAAGTAGTAGGCATAACAATACGACCATGAAGTTTAATAATTAGATTAACTGCTATATAAGCATTATTAATACCATATTCTTTAATATCAGTATCGATATAAGAATTTGCTTTACCAGAAAAAACTAATTTGATGGGAATATTGGTTCCTAAGTTAGATAAAATATCACTATCAAAAAGAATACCTATGGGTATTTCACAAACAATTCCTTTAGATAAATGATGGTACTTCTCTCCCCGAAGAGTTGCTGGTAAAGCAATATTATCAATATTCCCCTCTTCAATAGCAATAACTTGTTTAGTTATTTGATCAGTTACTTCATTTAGTAAACTATTTACTTTTTTAGTATTAAAGTTTAATTCTTCTATTTCGTTAGATGCGTTTTTATCCACAGTAAAAATATCTTCTAAATTCTTATTAGAAAGTATTTTTTTAGTTTGATAAGTAACAATATTATTAGTTAGACGACTTACTTCAATATTAGCATAGCGATAAAGAGTGGGATTAATCTTTCTACTAGCCAGTTTAATTATAACAAGAGAAAAAAGCATACTGAGGCCAATAAAAAAAATAATTAGTTTATATCCCCTAATACTTTGTTTCCACCAAAATAACATCTTCACCTATTTTATTGATTTCCATCCAGCTTATTTTCTTCTCTTCTTCTTTACTAAAAACTCTGAAACCACCCTTCAAAGGATCAACAACTAAATAATTAATATTCCCATTATCTCTATTAAAATCCACATCAATAATAGTTCCAATGTTTTTGCCATCTAACATACTAACCACATTTTTACTTTGTAAATCTGATAATCTCAAGTATCATCACCTAATAAAATATATGCCTCTTACTTTAATATTTTCTTTAATTTTTTGACAGCCGATTTCTCTAATCTGGATACTTGAGCTTGGGAGATATTTAATTCCGAAGCTATTTCCATTTGTGTTTTACCAATGACAAATCTTTCATCCAAAATGAATTGCTCTCTTTCTTCTAGTCTTTCAATCGCATCTTGGAGTGAAAGATTGTTCTCAAATCTATGATTACTTATTTTGGTATCTTCAATTTGATCATACAAATAAATAGTATCTCCCCCATCATTATAGATAGGTTCAAACATACTAATTGGTTCTTTTAATGATTCTAAAGCATTAACAATTTCGTAATAACTAACATTTAACTTCTGAGCTACTTTTTCTAAGTCCAATTCTTTTCCAGTTTCCATTAGATATTCTTCCTGATATTTTAGAGTTTTATAAGCAATATCCTTTAGTGATCTACTCACCCTAATAGTATTATTATCACGTAAATATCTTCTTATTTCTCCTAGTATCATGGGAACTGCATAGGTAGAGAATTTAACATTATGATCAAGATCAAAATTATCAATAGCTTTTAAAAGGCCTACACACCCTATTTGAAATAAATCATCTAAATTATCACATTTATTTTTAAAACGTCTAAGAATAGATAATACTAATTTCAAATTACCCTCTACTAGCAGATTACGGGCAATTTCATCTCCTTGTTGCATAGCTTTAAATAAATCTTCCATTTCTTTACTAGTTAAAACCTTTATCTCTGAAGTATCAAGTCCACATATTTCTACTTTGTGCTTAGCCAAAAGAAAAAACCTCCTTTAAATCAATATTGATTTAAAATGAGGTTTATTATTCATTATCTTGATATTTTTCTATAAAACTTACTTCCTTACCATTAGTTTTATATCCTAATAAAGTATCAATATTAGTATTAATTGTTGAAGCAAAAATATTAGAAGGAATCAATGGATTATCTTTTTCCATCTTGGCAATTAATTTCTTGATCTCTAAACGCTTAGAATCTTTAAGAGTACTTTTAGAAGTAACAGTACAAGCACAATTAATAAATTCTAAATCATTACTTTTACTAAACTTAATAATATCTCTTTCTCTAACTAAGTAAAGAGGTCTAATTAATTCCATTCCTTTAAAGTTCGTACTTCTTAATTTAGGTGGCATACTTTTAAATTCTCCACCATATAAAATACTCATTAGGACGGTCTCAATAACATCATCAAAATGATGGCCCAAAGCAATTTTATTACAACCCAATTCTTGGGCTTTTTTATATAAGACCCCTCTACGCATTCGGGCACATAAATAACAAGGAGCTTCCTTTGATACTTTTTCAGTTACCTTAAAAATATCTGAATCAAAAAGATGGATATCTAAATTCAATAATTTGGCATTCTTCTTTATAAGTTTAACTACTTCTTTAGTATAACCAGGATTCATCACTAGATATACCAAATCAAACTTCTTATCACCATGTTTTTGAAGTTCTTCCATTAACTTAGCAAGAATAAAAGAATCTTTTCCTCCTGAAATACAGACCGCTATTTTATCGTTTTCTTCTACCAGTTCATATTCTTTAACTGCTTTAGAAAACTTACGCCAAATATCTTTACGGTATTTAGTAATCAAGTTCCTTTCTATTTCTTCGTGTTTTAACATTTATTAACTCCCGTACAGACTTTTTCCTCAATCTTAGAAATATTTTCTTGGAATATTTTTTTAATCTTCTTTTTTTGTTTCGCAGTAAGTTTTTTATAAGGATCTTTATGTTCATCTAAAGTACCAATATGTACACCTTTAATTTCTCCATCAGAAACAAAGACTACTGTTGGGAAATAAAGCCTTTTAATACTAGGATCATTTAACCCTTCATACTCTCCTAAAAAGTCTCCTAAAAGCTCAACAATCTTTTTATATTCAGCTGTACTTTCTTTATCAACAACAATATTACCATCTTCATCTAAATGTTTTTGATCTCTGATTGCAAGGGCATTATAATAGTAAAAATTAGGATAATCATTCTCCTCTATGCTTTCTAAAAGAATTGGTACTAAATTACGACACCAAGGACACTCTGGAAAACCAAAGAAGATAACAGCAGTATCTTTTTGTAAAGCAGAAATAATCTCTTTAGCACTTTTATACTGTACATTATTCTTTTTAGGTATATTAAGAGTTAAATACTCTTTTCCGTCTTTAGTTTTCTTATGATTAAACTTTTCATATTCTTTTTTAAATTCTTTTTCATCATGAGAATAATTATTAGTACTTAATACAATAGCTGTGATAGCTCCAATTAAAATTATTATTCCTCCAATTATTAAACCAACTTTTTTCATTTCTTCTCCTTTAAACATTTCTCTTCTAAGAACTTTTCTACCCCTTTATTATCATTAGAACTAGTGGTATAATCAGCCTTTTTCTTTATTTCAGTACAGGCATTTTGAACAGCCACTCCATAGTAATTACTTTTCATAAGACCAAGGTCATTGTAACTATCACCAATAACAGCAATATCATTATTATTAATATTCAATAATTCCTGAACTTTTTTAACACCAAGTAACTTATTAGCTTTTAATGATGTAACTTCAACAACAAAGTCTTTTTTAGTATGAATTTGGACTACTCCTTCAATACCTAAATCTAGTTTCTTTATTTCCTTACAGGCTTTAACAGCATCTTCTTTAGTAGAGAAATGAACTTCCATTTTATAAATATTATTTTTGTTGTCATTAATAAACTTCTCAGGATTAGTAATTATCTTTTGTAAATCATAAAGCCCTTTTTCTACTTTGATAATACCTGCATATATATTCCAAGCATCAGGAGTACAATAACAGAGGATTCTATCATTAGCATATAACTTATTCAAAGCCCTAATAGCTTTTAAAGTAAGTCTTTGTTTAGCAAGAACTTTTTCTTTGTTAACATCATAAATATAGGCACCATTTAAGGAAACAATATAATCAATAAAGTGGTAATCTTTAGTATATTCTAAAACTGATTTTAAGACTCTACCGGTAGCCACAGCGAAAAGGCCACCATTACGGCGATATTGATCAATAGCCGCTACTGTAGTTACAGGGATACCATCATCACTATCAATTAATGTTCCATCAAAATCAGATACTACTAATTTAAACATCTCCATCAACTTGCCTTTCTTTTTATCATTATAGCACCATCTTAACAAAATAAAAAGAACCTTTGGTTCTTAATATTTTAATGGCGGAGCAGGAGAGATTTGAACTCTCGCGCCAGTTACCCGACCTACACCCTTAGCAGGGGCGCCTCTTCAGCCTCTTGAGTACTGCTCCACTTATATCAAAAAAACTCATATTTAGAGTTTTATTCACAACTGGTGACCTGTACGAGATTTGAACTCGTGAATGCTGCCGTGAAAGGGCAGTGTGTTAAACCACTTCACCAACAGGCCATCTGGCGCCTCAACTAGGACTTGAACCTAGGACCCCTTGATTAACAGTCAAGTGCTCTAACCAACTGAGCTATTGAGGCATTTATGGTGGGCCTGACAGGACTTGAACCTGTGACCCCACGCTTATCAAGCGTGTGCTCTAACCAACTGAGCTACAAGCCCATAAATAAACTTGTCTAATATAGTTTACACTATATTTTTATTTTTGACAAGATTATTTTAATAGATTTAATTCATTTTACATTTTTTCATCAATTACTTTAGTAACAACTTTTTCTAATAAAGCATAGATAAAATGTGATATACATATACAACAAATAATAATTAGAACCATGATGAAAGTAAGATTAGAGAAATTAAATACTTGTTGGAAACAGATGGCACCAACAACAAAGAAAGCAATCATTAATCCAAATAGTGCTTTGCGCATTAAATTAAATGGTTGGCATATTTTATATAAAAGAACAAACGATGTATAACTAGTCATCATTACGGAAAGTGTTGATATTTCAGCAACTGATAAATTCTTAAAATTAGCAATCGTAATAATAATTAGAATATTTAAAACAATCGTTAGAGCTGGTGGTACTGCCTTCTTTAAGATATTTTTCATAAAGCGACCCGATACTAATTCTTCATTTGGTTCTAAGGCTAAAACAAAAGATGGAATACCAATTGTAACTACGCTAGTTAAAGTAAGTTGAATTGGTATAAAAGGATATGCCCTTTGGATAAAGATAAAAATTAATGATAACAAAGTAGCATAAATAGTCTTTACTAAGAATAGAGATGCACTTCGTTCAATATTATTAATAGTACGTCTTCCCTCTTTAATGACATTAGTCATAGCCTGGAAATTATTATCTAATAAAACTAATTGGCTAACATTCTTAGCGGCATCACTACCAGCAGCCATTGCTACTGAACAGTTAGATTCTTTTAGGGCTAAAACATCATTAACACCATCACCTGTCATAGCGACAGTATGACCAGCATTTTGTAGAGCAATAACAAAATCTTTTTTCTGTTCGGGACTAACTCTACCAAAAACATCATATTTTTCAATAGCAGCAATAATATCTTTATCTGTTTTTAAAGTATGGGCATCAATGGCTAAGGCATCTTCTTTTAAACCTGCTCTTTTAGCGATCGATAAAACGGTATTAGGATTGTCCCCAGATATTATTTTTAAATCAACATTATTCTCTCTAAAATAGTTTAATGTGTCTTTTGCTTCTTTTCTAATTTGATCTTGGATTAGAATAAAAGCTAATAAGGTCTTTTTGGACCCGGTTTTCTTAACTACAGCTAAAACTCGATAATTATTACTGTACTCCTCTAATTCCTTGGTTAATCCTTTTAGACTATCTAATACGAACTCAGGAGCACCTATTAAATAAGTATCTTTACCACAAGTAATACCAGAATATTTCTTTTTGGATGAAAAAGAAATCTTTTTATCTACTTTTAGTTTTTTTACAGGTACAAATTTCTTTTTTAAAGCAATCGCTGTTGGATTATTATCATCTAAAGCATAAACAACACTACCAACAATATCATTAACTTCTTGATCAGTCTTTAAAATAGTATCTACTACTTCCATCTCACCAGTAGTAATAGTACCAGTTTTATCAATACATAAAGTATCAACCCTAGCTAATGTTTCTATACAATATAGATCCTGCACTAAAACTTTTCTTTGGGAAAGACGAATAACACTAACTGCTAAAACCGTACTAGTTAAAAGTACTAGTCCTTCAGGAATCATACCAATTAAAGCTGCTACTGTATTAACTACTGCTTGAGTAAGATTATTACCTTCTAAGTATAATTGTCTAGAGAAAAGTAATATTCCTACTGGAACAATTAAAAAGGAAATAGTCTCAATAATTCTATTTAAACTCTGCATTATCTCTGAAGATATTGGTTTAATATATTTAGTATCACTACCAATTTTGGCAGTATAATTATCTTTACCAACATGTTCAACTTTACAAATAGCTTTACCACTTACTATAAAACTACCAGATAAAATAGAATCATTTTTCTCCTTGGCAATGGTTTCTGATTCACCTGTGATAAATGATTCATCAACTTCTACTTCACCATCTAAAATAACAGAATCTACTACTACTTGATTACCATTACTAAATAAAACGATATCATCAAGAACAATTTCTTCAATACCTATTTTCTTTTCTACGCCATCTCTTATTACGGTAACTTTTTGTTCGGCTAAAACTTGTAATTTATCTAAAGTCTTTTTACTTCTAGTCTCTTGGAAAATACTAATTAAAGTATTAACGACAATAATTATAATAAAAGCTAAGTTCTTAAATGAACCAACTGCGATAATCGCAATAGCTAAGACAATATTAATAATATTGAACAATGTAAAAACATTACTAAGAACGATTTCTTTCATTGTCTTAGTATTGCTAGTAGTATCAACATTAACAAGTCCTTCTCTTTTTCTTTGTTCTACTTCTTTAGCAGAAAGACCTTTAAATTTAGCTTTTTTCTCAGTCATATTCTCACCTTATTTAACGATTATAATATATCATAATTTAAATACTTTGTCTATTGATGACGTTAACAAAAAAACCGTTGTTAAACAACGGTTACTTTCTAATGGTGGAGCATAGCAGGATCGAACTGCTGACCTTCACGGTGCAAACGTGACGCTCTCCCAGCTGAGCTAATGCCCCAACACAAGATAGATTATAGCATATTATTTCTAATAATGTCAACAATTAATGAAAGCGTTTATTTAAATATTCTCTTTCACTATAATATCTATCTTGATGCCTTATGAGATGTCGATAGTCTCTTCTAAAACTTTTTTCATTAGAAACTATCTTTACTTTAGGAAATCTTATTCTATATAAATATCTTTCCAATAACATTTTATTAAAATAGACATTTTTATTATCCCTTGTTTCTTTTATTTTATACAGTAAGAAACTAAGCATAAATAAAATATTTAGATTAGTATTGATAATTATACTCGCTATAAATAAAACTATCACTATAATAACTGAAATCTTAATTGTTAAATCGATACTTTTTAAATAAGAGAACTTAAAGGCTAATAAGTTATTTAGAATTTTACCACCATCTAGAGGATAAATTGGTAAGAGATTAAAAATCAATAGACTAAAGTTGTAAGTAGTAAATAGATTTAATTCTAAATTGTTGCTAATGAAAGAACACAATAAAACATACCCTATTATTTGCATTAAAGGACCAGCTATTAAGATAGCTAATTCTTTTTTTAAAGAAATATTAATTCTAGAATCAACTTTACTGATACCACCAAATGGATAAATACAGATTTTATTAACTGGAATTCCCATTATCTTAGCACAAAGAAAATGACCAAGTTCATGAATAACTACAAGATAAGTTAATACAAAAAAAGGAAAAAAAGCTCCCATTAGAATAGCAATACCAGCAAAAATAGAAACAAAGGGAGAAATATAAAAATAATTAAATATATTTTTTATAGTCTAAAAACTTCCCTTCTTTTTGGAATACCAAGTAAAGCTTACTATTAATACTTTCTCCTAATAAAGTTCCTTTTTCTATATAATCATATAATTTAATATTATTAGTATTTATATTACCATACCAAGTACTAATTCCATTGGTTTGTTCTATAACAATAGTTTTTCCATAATCTTTTTTATCACCTATAAAGACTACAACTCCGCTTTCTAAAGTAGGAACCATATAGTTTTTACTGACTTTTAATTTAACTCCATCCTTGTAAGTACTACTATCACTATATTGTAATTTTTCGGCGAAAACCTCTTTGGTCGTGGGACTTATTTTATCAATTGATAAGATGTTACCAAAATATTTTTCATAAGCCTTTTTAGTTTTATTGAACTTGAAAGAAGCTTCATAAACATTCCTTCTAATTATAGTTTTAAACTTAGGGTTTTCTTTTACAATAATCATTCCTAGTAAAAAGATAATAGTAGTTAACATCAATTTACTTAAGAACTTCTTAAATATTTTACTAATACTATTTCTAAAGCTATTACTTTTTATTTTACTATGCATATCTTCCCTCCAGTAAAGGTTATGAAGATAATGAAAAAAGTATACTAATTAATTTTTAATTTAGTATACTTTTTTGGTATTAGTTTCATTATTAAATAAAGTACTTCTACATAGATAATATTTAATATAAGAGAATGTCCTATTTTATAGAGAATGTCAATTAAAGTTATTTTCTCTAACTGAACAATAATAAAAATTAAACTAGTTAGTACTTCATAACTAACTATAACTACTATAGTATAAAGAATAATAGTTAAGAAATTAGTAGGAATATTCTTATATATAAAGATAATAAGAAGTCCCATTATAGCAAATATTACACCATTAAAAATAAGTAAATTGGTATAGCACAAATCATAGACTATTCCTAAGACGAAAGCGCTTATTAAATACTTTTTTTTATCCTTTTGAAAAAAAGGATAAATAATAATTAGAGCTACTAAAGTAAGCATGGGATAAAAAAGAGATAAATCCCCTTGCATATAAGAGGTAAAATTAGTTAAGATACCATCTAGTAGTAATGATAGTACCATTATTATAAGCGCTATCATTTTTTCTCCTTTAAGACTGTTACATAATGAATCTTATTAAAATCTTGGTTAGTTTTAACATATGCAGTCTTACTGATGTTATAACGATCATTTTCTATCTTATCAACTTCACCAATAAATATACCCCGAGGGAATTTATTGCCTAAACCACTAGTTAAAACTTTATCCCCTTTTTTTAGATCAACTGTTTTATCAATACCGGTTATTTTAATACGATTTTTCTTCTTATCATAACCACTTAAAACAGCATAAGTATCACTATCTCCAATATTAATCATAATTGATACTTTATAAGTCAAATCATTACAAGTAATTAGTTTAACCTCACTATAGTTATGTCCAACTTTATTAATACTACCAATAAGTCCATCAGCTGTTACTACTGCCATATCTTTTTTTATACCATCTTTTTTACCTTTATCAATATTAAGAGTATTAAACCAGTAAGTTCTATTTCTTGATAAAATAGTAGCATTCTCAATACTATATTCAGTTAAAGTAGAATTTAACGCTAGTGCTTTTTTTAATTCCTCAATTTCTTTTTCTAAAGACTCATTAACATTTTTTTGAATAAGGTAACTCTTAGATTGATCAATATTCTGTAACTCTTTTGAAGTGAAAGGTTCAATAAGTAATTTTTCAATATAAGTAATTCCTGATTTAAGAATGTTTTCCCCTTTAGTAGTCTTCCTATTTAAGACAAGAGAATAAATAAACAAGCTTAAAACTACTATACTAATAGTAGTAATAATAATTATTTTCTTTCTTTTTTGTTTCTTTTTATACATCAAACCACCGCTTCTTTAATATTATAATATAGATACTTTTTTTAGACAACTATTTGATTTTACCATTTTCATAAAAACTATAAAAACTATCATTACCAATAATTATATGATCAATAATAAAGATTCCATGTATTTTACCAATAGTAACTAAATTATTAGTAAAATAAATATCTTCAGGACTAGGATTAGTATCACCACTAGGATGATTATGTATACATACAATAGAACTAGCACTATATAAATAAGCTTCTTTAAAGATTTCCCTAGGATGAACAACACTACGATTAATTGTACCCATAAAGAGTAATTTCTTATCTATTAATTCCTGTTTATTATTAAAATAAAGAGCATAAAAAAACTCTTGTTTTTTATTTAAGAAAAGATCTTTAATATAATAATATATTTCTTCAGCATTACTTAATCTGAAAGCATCAGTCTTCTCATTACTTAAAACTATTCTTTTACCAAGTTCAATAGTAGCGATTAATTCTAAGGCTTTAACTTCACCAATTCCTTTAATACTAGTAAGTTTGGCTATAGTCGCATCTTTTAATTTAGAAATATCATCATAAGTCTTTAAAATATCTAGGGCTAGTTCTTTAACCGATTTATTATGAGTACCATTTTTTAGAATGATCGCTAAAAGTTCTTCATTAGATAAAGCACTACTCCCATATTTCTTTAATCTTTCTCTAGGTCTTTCCTTACTTGGAATATCTTTAATCATATACATAGTAATTCCTCCTATGTATATTATTCATTAGTTTTTTAGTTTTTGTTGATAACTTGCTAAAACAAGTTCTTCCATCTTTAATATTTCTTCTGGATCATTAGTTTTTTTAATCATTTCATCAAACTGACTATTTATTCTGGCAAACTCCGCATTATTAAAATCTTCTTCCTTAGTATAAATAGTATATCCTTTATCTTTATAAATATTAAAGAGTTTCTCTAAAACCTTTTCATCTTTGGTAATACCAACATAAACATAATATTTGTTATCCTTCTTAATTACTGCTTTTGGGGATAGGCCTTTAACATTTTCCCTTAATTGTTCTTCAGAATTATATACTCCTTCCTGCATAATATAAAAACTATTACTATGGCTGATAACAGGAATCTTTTTACCATAATGAGTAGAGACAAAGTCCCCTACAAAAGCCCCAATTAATACTGCAATAAATAAAAAAAGCAAATCTCTCTTCAATCTTTTCATATATCCTCCTGAACATATTCTACTAGTTCAGAAATGAGAAGATTGTCGAAAAAGTTGCCCTTTATTTATGATAAAAATTAGATACTAGTTTTGCAAATTCAAATAAAATAATATTACTCTTGTTAATAGCAAAACTTTTACCTAAAGCTTTACCACCGATTGTTAAAGCAGCTGTTACAGCTGAAAATAAGACGAGAGCGACAAAAAGATTAATATTAAGCACTCTAGAAAGAGATGTTGCTAAAACGACAGCTATACTTCCTGAGATAATTCCACAAACATCACCAATAACATCGCAACAGAAATTAGATACTTTATTAGCATTTTTCTTAAATCTAACTGCTAACTTGGCTCCTTTTATCTTTCTGGAATTCATCGAATGAAAGATAGCTTCATTGGCACTAGTTACACTGACACCAACAATATCAAATAAAATTCCAATTAAAATAACTATTATATAAAGAATTATTCCTAAAGCTATTGGTAAATGCGTAAGAAATAGTTCAGATACAATCGAAAGTAATAAAGAGATAATAAAAGAAAGAATAATTACTTGGATAATCCATTTATTATCTGTTTTAATTTTTTTATTTTTTCGATTGAGTTCTTTTTTCAATTCTTTATCCATAATATCACCTAGAAAATATTTTAGCACACAAAAAAATAGTATTCAAATACTATTTAATTACATTAATTAATGGTTATTAATATGGTTAATCTTAGGTCTTAGGTCAAGTAGGATTTCCCTAACTCTTACATATTCGTTACCAAATATGCCGTTCCCATTTAAAAGAGTTATTGTATAGTCACCTGATACAAGACTTGATTGCCACTTAGTACCCACTACAATCCCATAGTAATATCACTCTAGGAGATTTCCTCACCAGTCTTTATTATTAGTTCTTTTTTGCAAAGGTAATTTCATAACAATGATCGTTAATTCCAAAGCCTCCACTCAAGACAAGCTACGCTGCACATAGCTTTCGCCACATTACAGGTTTAATCCTAATTCGTAAATGGTCCATCAGTTGGAACGTATAGGCCAATCACAAGATTAGGTCTCCACGATCTCTGGGTCGAAGCTCACATGCCATTGCGAGTTGCCCAAAAACCTCATCTTCAGCATCCACCCCAAACTGGGCGTAAGAAGCAAACACCAAAGGTTTCATAGATATGCTCTTTAATCGTATTTTACCCCGATCTTCATAATAAAGTAACTGACTAGAATAGTGTACCATCAATTACATCTATAATTATACCAGAAAATAAGCAAAATGTCAAGTTTACACTATTATATGAAAAAGGTCTTGATTTTATTAATCAAGACGATCTAAAGTTATTTTTCCTAGTCTGCCACTCTTTAAATCATTGATAATAGCAGTGGCAACTTTTTCATAATCAACAACTCCTCCGGAAGCCATTAACCCTCTTTTTTTACCAATTAATTCAAACTCTTCAACAAAGTCCTCAGTTAAATGATCAATACCATACCTTTCCTTTAAATTATCAGGATAGTACTCATATAGTTTCTTCAAGATAAATACAGCCAAAGCGTTTTTATCTAGTATTTCCTCTCTAATTGAGGAAAAAGCTGCTAAAACATGAGCTCGTTCCTGATCAGAGAAATCAGGCCATAGAATACCTGGTGTATCTAAAAGTTCTAAATCCTTATTAATTCTAATCCAAGAAATGTTTTTAGTAACACCAGGTGTATTACCAACATTAACTGACTTTTTAGAAACAAGTCTATTGATTAAAGTACTCTTACCAGCATTAGGAACCCCAATGACTAGAGCTCTAAGTGGTCTCTCTTTCATACCCTTAGCTTTTCTTTTTTCGTTTTCTTCTTTCATAATATCAGTACTTATATCAAGTATCTTTGCTATTTTATCAGTAAGAAGATTAATACATACTACTTTATATCCTAAATCTTCATAATATTTAATAAACTTATCAGTTTCATTCTTATCACAAAGATCATATTTAGTCATAATGATTACACGAGGTTTTTCTTTAATAATGTCATCAATATCATCTATCTTACTAGATCTAGGCATTCTGGCATCAATAACTTCATAAACAACGTCAATTAAATTTATTCTTTATTTAATTTCCCTTTTAGTCTTAGCCATATGACCAGGATACCAATTTATATTAGTTTTATTTTCATTCATAGAAATCACTTCCTTTTTATTTCTACTTATCTATTATATCATATTTTTTATTTCAAAGAATTCGATAATATCATAAATTAAAAAAGAAGTATAATTATACTTCTTTTCCTATAACTAAATGATATTTTTGAAAACCTTCATCATTCATACTACATGTCTGTAATATAATTATATTATCATTTTCATCTAATTCAATACCTGTTTCATATAAAGACTTGTTTTTTAATTTATTAATATGTTCTTCCCAACTAAGGCCATTAAAAGAGTTTAAATTAACATAATCATAATCACTAGTCTCTATATAAGAAGAGTATATCTTATATTTTCTTATTCCTTTCATTGTATACAGATTAATACTATTATGTTTTTTCCAATAGTCTTTCTCAATATAATTATTTAGTTTTAAGAAAGGTAATTCTTTTTCTTTGCCACTATGTCCATAAATTAATAGTTTTCTATCACTTAATTCATTTCTATAATCTAAAACAATACTGCCTTTATTATCATATTCCTTTTTATAATTATGATTCAAATAGTAATCATTATCATCACTTTGAAGTACTATACTACTAGTAACTTCTGGTATTTCGATATACGCCACAATATCATTATTCTGATATTTTTCTCTTAATTTATTAATATCGATACTTTCAGTTTTTTTCTTTTCGGCTACAATAGGTTTATTTTTATCTTTTGGTTTAACCTTTGAAGTACGATAAGAAAAAAGACTACATATAATAAGTATTACTACTAATAGAATTGTTGTTTTCCATAATCTATTTTTCATAATACCCCTCCAATTCCCGTATATTATAACACAGTACACAAAAAAAAGAAAAAATTAATTAAATCTTTTCTTTATCCTTAAACTCAATCCAAGTACACCTAATAATACTATAAACAAATAAGCGTTAGAAGTCTTATTAGGATTAATTCCAGTTACTGGAGGAACTATTTCTGTTTTGCCAGTATCTTTTTTATAGTTAATTAGAGTTAATTTTACTTGGTGCTCTTCATCATATGGATTGTACCATCTAATTCCTAGTAAGTTTTGATAAGCGCCATTATCAAAATTATAAGCTGATATATCATAGGCGGTATTATTGGTAAAAAACATGTATAAGTGCATATCTGCTGGATGGTGATCTCTATCACTGACTAAGTATTGATATAACTCATAGTATCTAGCAAGTTGAGCTTTTACAGTGGCATTGTTTTTAGCATTATGATCTCCACCATTCCAGTGTCTAGCTAAAGTACCAAAGGCATTTCCATTACCAACACTAGTTGTGAAGACATCTGATCCTAATGGAGCATTAGGAAGATAAATAAAACTTCTGAAATGAGTATATAAATACCAATAATATCTACCATCATAATAATAATCTTCAACGCCTTCAGGTATAGCGCTTATTCTGGTTACTCCTTGAACTCTTGTCAAACCAGCATTTGTATAATTCTTTAAAGCATTCTCAGTAATATATCTAATTTCTGCTTCAGTTAAATCACTAAATAAGTCACTTGCTAATTGACGATGATAAATAATATCTAAGATTTTGTCATATAATTGTTGAGAACTTAAACTTTGATCAGATATGTCCCGAGGCTCTTTATTTTGTTCGGCATCAACATATACTGTTTGCACCATAAAATCCCTAATATCAGATGCAGTTAAAACTTCTCCATCATAATTAGAGTTTTCATCGGGTGTTTCCCAATCTTGATTAATACAATAAACTTCTTCTTTGTGGCCATTAAAATCTACATAATATAAAGGTGTACCACCATAATGAGAACAAGGTGTTTTTGACCAATCAACACCAGCATCAAGATCAATAACCTCTACTTTAGCTGTAAAGGCCTTATCTTCAGCTTTTATATATCCCTCGGGTGCAGATACTTCATGTAAAACATATTCTCCTTCTGGTAGTAAAACTTCATGACTAGTTCCATCAGAAACCCACTCATCAACAACAATACCATTAGAATCTATAATTTGGATTGTTGCACCTACTAAAGGATTACCAAGTTCATCTGTTTTATTAATAATAACAGAAATTTTATGAACCTCATTAATAATTACTCTTTCAGTAGTTGGTTCATTAGTGTCTTCTATTTCATCACCAATTTCTCTAACTACTGGTATTTCTTCTATTTCTTCTAACGAATCATTACCTTCTTGTTCAACTTCTTCACCAATAGTTGGTTCTTCCACTACATCAGTATTTATTTCTTCAGCATTAACATCTAAAGAAATGAACATAAAAGAAAAAGCAATTAGTATAATCAAAAGTCTTAGATATTTCATATTATTCCTCCCATGAAGCACCAAAGCATGACGCTTACTTAATTTATTATAATAAATGGTTAAAATGATTTTGTCAAACAAAAAAGTATTTGCCATCTTATTGGTAAATACTTTTTTAAAAATACAATTTTTCAATTACTTCAATATTTGTATCAGATAAGCACTCTTTTAGTTTTTTACCATCATCTTTATCTCCTATTATAGAACCATAATGAATAGGTATTACTATTTTAGGATTAATTGTTTTTACTAATTCCGTTGCTTCATTAACATCCATAGTAAAATATCCTCCAATTGGAATAAAGGCAATATCACAGACTACACTTTCTGCTTCTTTAGTCTTATCAGTATCTCCAGCTATATAGTAAGTTATATTATTATAAGTTACTATATAACCTAACCAATTATTTTCTCTTGGATGGAATTCTTTATTAATATTATAAGCTGGAATAGTTTTAATACTAATATTATCTATATTAGTTTCTTCATTAGGATCTAAAAATATATAGTTCTTAAACTCCATTTTACTTATTACTTCCTTCATAGACTTAGGAGCAATTATAATGGTATTTTCATTCTTTACTTTTTCAATTGATTCTTTATCTAAATGATCATAATGTTCATGAGTAATAAATATAATATCTGCATCCTTACTTTCTTCTTCAATTTTAAAAGGGTCAAAATAAATAATTTTATTAAGTTCTAATCTAATACTACTCTGGGTATTAATTGTTACATTATCTGTTTCCATATTACCTTCCTTTTTTATTTTGTTTTAAATGATTTAAAGTCATTGCGAAAAGCTCCTGTTAAGGTCTTTACTACCATATCATGGCTTATGTCACTAGGTTTTCCTGAAGCAATTAATGGGATGTAGTGTTTTTCATATTCTTTTTGGATACTAGCATACGTAGACAGGTATTTATCATAATTATTATATCCAAATTCATAAGGAACCTCATATCCATGGAAATTTATTAGTTTGTCTTTCAGACTTTCTTTATTAGCCCTATATAAATCACGTACTTTTCCTTCAGCTATCATATCTAGGTAAACATATCTTCTATCATCAAAAGAAATATCAATATTATCATTTTCCGGAACTCTATCGCATATGTTTTTTAAAATGTCATAGGACATATATTCATTTACTAATTCATAAATATAATCACCGTTTTGGCCGGTAAAACCAACCGATGGTTTAAACCGATGAATTAAAAAGGCCGGATTAGATATCTCACTTGGTTTTCCAATACCAAGATGTAAGGCGTGATTAAGTTCGTGAATTAAAGCATGTAGTGAAAGAGGTTTGTTTACTTTATAAATTATAACAGGTGGTAATAAATTGGGAATTAGACCACCTAAAGTTTCTTCAATTTCTTTTAAATACTCATTTACTTTAATCTGTTCTTTATTATCTAAATCATTTATCTTAATATCTGAACATACATGGTTATTTCTATCTATAAAAACAAACCTAGTAGAGTCAATGGTATTACTTATTCTATCTTGATACTCTTCACCATAAAAAGAAACAAATCCTTCCTTTAAAACAGGTAATAATTCATCAATATTCTTTTTAAATTTATTATTGTACTCTTTATCCATAGTTTTACTCCTTTTATAAACCTCGTGAAATTAACTCTTTTTGTTATTTTTTCGCAACTATTGTATATTCATAAGTTGTTGTTGCTTTATAGTATGGTTTTAACACATTATAAGATACTTCTTTTATTCTATTACCAAATTCATCATATTCATATTCAATTGTATATGTGCCATTAGGACTACTCTGTGTTTCCTTAGTGATATTATCATCTTTATCATATTCATAGATATAAGTCATCTTATAATTGGTTTTATAATTAATAGTTGTTTTCTCTAATGTTTTTCCTTTAGAAGTCTTTTTATAACTATAGTGCCAAGTATTATCTTCAGTTGTTTTTCCATCTTTTATCTTTCTAAATCTTTCTGTTTTAATCTTATCATCTTTGTTATAAGTATAATTAATCCTTTCTATACCATAACTAGCAATTGAATACTCAACTATTTCTTCTTCCAAATTGTTCTTACTATTATATTTCATCTTATGAGTGGCATTAGAAGTACCACTAGTTTTAAAAGAAGTAATATTGTGAGTCTTAGAATCTACTTTATAATCAGAATAAAATATATTTCTAGAAAGTCCTGTTGTTTTAGTTTTAGCTAAAACCAGTTTTTCTTTAACTGTTTTACTATCTAACATAAGAGCATCTGTTAATTTAGGATTAGATATCATATCTTCTAGTTTTCCTACTACAACTATTTTATCTCCTTTATTTAATCCCTTTAAAACTTCTTTATCTAAATAAACGTCAATTGGAGTTAAGGATCCTAGCTGACAATGATCCTTATTAATAGAGTATACTTCTCCCATATATAAATACCATTTTCCTTCATAGTCTTCAGCTTTAGCTTCATTAACAAAAACTTTGGAATGAACGGATTTCCAATTAAGAATTTCAGCTTTTTCCACTGGATCAATTGCTTTTTTTACTAGATCAAAAACACTACAACCAGTTAAACCTACTATTAATAATGCACTTATTAATATACTTAAAAACATTTTTTTCATTTGTTTCACCTCTTTATTTTATTATAACTCATTTATCTTCTTCTTTTAATATATGGTTCATCGTCATCAGTTAGATAATTAGTTAGATCAATATCATTATCAATAGCCATTTTTACTAATGTTTCTGGATTTGCTCGTTCTACTTTATCTAGTTCTACCATTGCTGCTGGAGAAACATTAAACATTATCCCTTGGTAGTGTTGTTCTAAATCATCACGTAGTCTATCAATATCTAAAGTTATATCATCATTATCCATAAATACCTCCTAATTAAATTTAACATATTTAAAGCCTAAGCTTTTATAAAAATCTGCTGCTCTTGGTAAGTTTAGCGCTCTAGCAATCAACAAATTGTACACTTCATCAAACATGACTATACTAAATAAAGTAATACTTAGTATTAAGAATGCTTTCTTAGACATTTTTTTAGATAAATATATACAAAATGGTACTATTCCATAGATTAATAAAAGTGAAGATACTCCAAAGAAGAGAACACTTCTTAAACAGATAAAACCACCTATATTACCAAAATTCCATATTTCCTGATTATAATCCCATAGTCTTAGTCCATCACCTATTTTATAGATTACAAGCCCTGAGAAATATTCTAATAGACCAGTAATAACAAGGGCCGCAATAAAAACTAATAGTGGTTTGTTTCTTATTTTCTTAGTGAAAAACATTACTAATAGAGCACCATAAGCATAAATATTAATCCAAGGAAGAAAATTACCTCCTTGCATATAAAACTCTTTACAGCCACCATCAAAGTAATAAAGAATAAATTCATATATCCAACCAAAGATACCAGCAAGAACAATAGTTAAGAATATAACTCCTACTTTCTGGTACATTTCAAGTGAAAGCTTATTTTCTTTATATTTATTTATTATCTCTTTCATAATGTCTCCTCATTACCATAAAAATATCATATATTTAGTTTTATTTCAAATAAAAAGAATAGATATTAATCTATTCCTTCACTTTTCTCTCTTCCTTCTTTAAGTGCATAACTAGTAGTGTTCCTCCTACACCAATACCGGCTAGTATTACATAAGGTAGTATTGTAAAGATTAGTCCTGTTACTGGTGACATTTCTTTTGTATTATAGAAATCTACTGTTACTGTGTTTGAATCAGTATTCATATTATATAACCCAGTAGCACTAACATAGTAGCCACTAGTAGAACTTCCTCCGTTTACCGAGAATGCTGGAGTGTAATCACCTGGACTCTCCTCAATAGTGAAATAACTTCCATAACAAGTCTTTCCATCAACAGCAGCTAATTTCTTGACGCTAGGCGTAGTTGAAAAATCGTATTTCTTATGATCAGGATCAGGATCAATATCGGGAGTTTCTTCCCCACAATAACCCCCAGGAATTACATCAAATGTGTTTCCTTCACTTGTTACTTGTCCGATGGTTGCTGTCTGGCCATGTTTTAAATATATTGTAGTCGGGGTTCCATCAGTTATTGTTGTTGGATTAGTTATGGTATTACCATTATAGGTTACTGTTGCGTCTATTCCACTTATTGGATATACCCATCCACTACTATCAATTATATTTGGCACTGCTCCTTCAGTAGTTTCATCTTGAACCAAGCCACTATCATTATCTATATTTATTGTGAATGGAAAATACTTAGTTGTATCAGCCCCAATGCCTTTTACAGTTTTAGATAGTTCTATGTGCCCAAATCTATTAGGATTGGTTTCTAAATAATGATCTGCATATAAGACCCCAGAAACTGGGGAAACTTTTTCTTCGTCATACTCATACTCCTCAGTTTGCTCATTATAGACAAGCCGTCTAAGTATTAATGAGACAGTATAATTACCTGTTGGTGTATTATTAGCATCTACTACATTTCTTACTGATATTGTCACATCATAAAAAGCTGAATCTGACGAAGGAATAAAATAATTATTTAATATTTTTCCTTCACCAGCCTCTAGGCTACCTTGAAGGATATAGTATTCATAATCGCCTGGTTTTGTAAATGTTAAGCTTGATAAATTCATTGTTGTAGACTTCGTTATTTGATAGTTAGTTGGGGTATCACTCGCTGTATAGTTTATTGTTGCAGTTGCTACATCATTATTGCTCGAATATTCCACAAGAGTATACTTCATACTAGCCACTATTGGATTTGCTGTGTTTCTTATAGTCTCCCTAATAGTTATACTACTTGGTCCAACCCAGGTTACTGTTCCTGCGGCTTTTGCTTCTTTTATGTTTAGACTTAGTACTCCTATTAGTACTACTACAAGCATTAAAAATCCATTACGTATACTAAATACTTTCTTCATATACTTACCTACCTTATATATTTATTATAGCTTATCATTAAGGAACGTGTCAATTAAATGGGGATATAAAAAAGAGGTTTAAACCTCTTTTATTTTGTAATTATTGTTGCTTCATTACCTTCTAAAGCATTAGTTAAATTATTTAAATCAGTGATGATAGCATCATTACCTGTTTCTTTAACAAACTCAATAGCTGCTTCTACTTTAGGAAGCATACTTCCTTTAGCAAAGTGTCCTTCAGCTATATACTTTTCCATAGTAGCAATATCTACTTTACCAATATCTTGAGCATTATCAGTATTATAGTTAATCTGAGCCTGTTTTATATTAGTTAGAATAACTAATAGATCAGCATTAATATTACGTGCCATTAATGAACATAATTTATCTTTATCAATAACAGCACTAGCACCTTTAGTAGGTTCATCTAAATAGACAGGAATTCCTCCACCGCCACCAGCAATAACTATATTATCTTTTTCAATTAAATCTCTGATGGTATCTATTTCTACTATTTCTATTGGTTCTGGTGAAGCTACTACTTTTCGGTAACCACGTCCGGCATCTTCAACATAAGTATCACCACTAGTTTCTTTTAATTTATCAGCTACTTCTTTAGTATAGAATGGTCCGATTGGTTTAGTAGGGTTTTTAAATGATGGATCATTCTTATCAACCTTTACTTGGGTAATTAAACTAACTACACTTTTACTGATATTTTCTTCATTTAAGACCTCTTTAATTCCTTTTTGTAAGTGATAACCAATATATCCTTGGCTCATGGCAGTACATTCAGCAAGCGGCATATAAGGAATATCTTCATTATCAAGACTGTTTTCAAAAGCCAAGTTAATAATTCCTACTTGAGGACCATTACCATGACCAATTACTACTTTATCACCAGCTTTTACTAAAGGAACAATAGTCTTAACAGCTTCCTTAATTAAAGCTTGTTGCTCGTCGGGAGTATTACCTAAAGCATTACCCCCGAAAGCAATAACTATTTTTCTCATTTTTTACCACTAGGTAATTGTTGAGTTATACAGTGAATATTACCTCCACCTAATAGTATTTCTCTAGCATAGATTGGTTCAATCTTACGACCAGGGAATACTTCTTCTAATAACTTAATTGCTTTTTCATCATTAGGATCATTAAATACTGGTAGAGCAATAAAACCATTACCGGTATAAAAGTTAACATAACTAGCCGCTAATCGATCTCCTTCTTCACGAGGTAGAGTTCCGTCAACAGCATCTACACCTTCACTTTCTTCTTTAGTAATTAGAATAGGTGCTGGTGTATACATCTTATGAATAACTAGTTTTCTTCCCTTAGCATCTGTTTCACTTTCTAAGTAATCATATGCTTCTTTACTTCTTTCATATTGAGGATCATTCTCATCATCAGTCCAAGCAAGTAGTACTTCTCCTGGTTTAACAAAGTTACACATATTATCTACATGACCATTAGTCTCATCATTATAGATTCCTCTTGGTATCCAAAGAACCTTTTCTACATTTAAGTATTCTTTTAATTTATCCTCAATTTCTTCTTTACTCATATGAGAGTTTCTTCCTTCTGATAATAGACATTCAGCAGTTACCATACAAGTTCCTTCACCATCAACATGGATTGATCCACCTTCTAAGATAAAGTCATCAGTACGGTAACTATCAACACGTTCTAATTCACACATTTTACGTGCTATCTTATCATCAGAATCCCATGGGAAGTATAATCCATCTACTAATCCTCCCCAAGCATTAAATGTCCAATCAACTCCTCTTACTTCTCCTTCATCTTTAACAACGAAAGTAGCACCACAATCACGTACCCAAGAGTCGTCATTAGCCATTTCTACTACTCTAACATTATCATCTAAATGATGACGAGCATTATCAAATTGTGCTTTAGAGACAATTACTGTCATAGGTTCATATTTACCAATAGTATTAGCTACTTTAGTAAATACTTCTTGAGCTGGTTTAGCACCTAGTCTCCAGTTATCTGGCCTCTCTGGCCATATCATATAACATCCATTATGATGTTCAAATTCACCTGGCATTCTATAGCCATCTTTTTTTGGTGTTGTTTCTAATCTTTTCATATTTCCTCCTATAATTAAATTAGTAGGTTTAAAACCCACTAATTTTTTTATTCTTTTACCTTTTTATCTTTTATTCTGGCTACGAGTATTTCCTCAATAATGAATGAGATTACTACTCCGGCAATAAGTGGAATGTTACCTATAATATAATCTTTTGTAAAGTCACCGAATAATGTGAATAATACTCCTAGTATTAATATTACAAATGGTACGATAGCAGCAACATGAATCATTACATTACCACCAGGTACTTTGTAAGGTCTTTTAGCATCTTTATCTGTTTTTCTAAGCTTCAAGAAAGCTAAGAACATTGGGATATAACCAACAAGTAGAGTTATCCAACTTAAACAGAAGAATAAACTGAAGCCAGCTTCAAATGATTCACTAACGAAACTAGCAATTATTCCAGCAATAACAATTATAGAAGCTACGATACCATTAATGATTGAAGCCATATATGGTACGCCTTCTTTATTAGTTTTAGTAAATGCTTTTGGTAGCGAACCATCTTCAGCAGCATATTTAGCTACTTCGTTAACTCCAAAGCTCCATGAAGCTATATTAGCAATAAATGTATAAACAAACATACATCCAGCAATTATAACTAGTACTTTAATAGCAGAAGCACCTAAACCAACAGTAGCAAATAAAGCATTTAATACATCAACAACTATTTCGGCACCTGCTCCTATCCAATCAGCATTAGCTGGTAGGGCAACATTGAATCCTGTTGCTGGTAAAACATAGAAGAAGGCCATTAAAAGTCCTCCAATGATTAGGGCTTTTGGTATTTGTTTCTTTGGATCATCCATATCATTAGCCCAAGTTCCTACTACTTCAAATCCCATGAAGTTGAATAGGATGATAGAAACGAATGATAAATCTCCTAAATTAAGTCCAGGGAATAAATCCTTTGCACTAGTAATTGGGTTAGCACTATGTCCTGTTGATATAAAGGCATAAATACCAAGAGCTCCAATTCCTAATAGTAATACTACTTTAAATACTGTTCCTAAGTTAACAATATATTTACTTTCGCCAACACGTTTAGTTCCTAAGAATGTAACAAACCAAATGTATAGTAATTGAATACAAAGTAGTGTTACAATACTTAGTTCTACACCGAACATTCCCGCAATAATATCTGTCACAGCTACAGCTAATGAAGATATCCATAATGGGAAGTTAATCCAGTAGTTCCAGGCAACACGACCTGCCCATTTAGGGCCAAAAGCACGTTTTACCCAGTCATACATCCCTCCTTCTGAAGGATATGTTGTTCCAAGCTCTGCTGTAATCATTCCGTATGGTAAGCAGAAGCATACCAATAGTAGGATCCACCAGAAATACTGAGTATTACCAATAGCGGCGGTTGGCATTACAGATTCACACACTAAGGTAAGACAAACAGTTCCTAAAATGGCATCCATCAATTTAAATTTTCTTTTCTTTGCCATATTAATTTTCCTTTCCTAATAATTTATTACATTCTTCACAGGCTTCATCCTTCTTACCCATGAAGTATACTAAAAGCCCTCTCATGGCTGTTAGTCGATTTTCAGCTTCATCGAAGCAAATAGAAACATTCTCATCATCCATAACATCATCAGTTACTTCTTCACCTCTAGTTGCTGGTAAACAGTGCATAAACTTAACGTTTGGAGCACATTTAGCTAGTAACTCTTTATTAACTTGATATTTAGGATAGAATATTTTCATTCTCTCTTCTTTAGGCATTTCTGATTCATATAATCCATACCAAACATCGGTATAAACGAAATCAGCATCTTTTAAGGCTTCTTCAGCATTATCAGTTATTAAGTAAGTACCTCCAGATACTTTACAGTTTTCTTCTAAAGAATCAATATAATCTCCTCGAAGTTGGAATCCCTCTGGTCCAAAGTGAACAAAGTGACCACCCATCTTCGTAATCATCATTCCAAGTGATGCACATACTTGAGTACAATCACCAACAAAGACAACTTTGATATCTTCTAATCCTTTACCTTCTGGTAAGTGTTCAAAGATAGTAATGATGTCACCCATTTCCTGAGTTGGATGATTATAATCACTCATACCATTTAGTACTGGTACTTGTGAATATTGCGCTAACTCAGCAATAGTCTTATGCTCAATTACTCTAGCCATGATAATATCAACAAGTCTTGACATAACAATAGCCGTATCCTTCATACTCTCATGTTTACCAAGTTGTAAGTTTCCTGGAGCAAAATACTGAGCATGTCCTCCTAACTGTGTCATCGCTGTCTCAAATGAAACCCTCGTTCTCGTAGAAGCTTGTTCAAAGATCATTCCTAAAGTCTTATGATATAACGTATTTAACGTATGACCAGCTTTAAGAGTTTTTTTGATTAATAAGCTTAACTGGAGAATATCCAAAAGTTCCTCTTTAGTAAAATCTTGGGTTGTAACATAATCTTTTTTCAAATTATCTACTCCTCCTTATATTATTACAATACAATTATAATTCTTATTTAAAAATTTTACAATACTTTTACAGTTTCTTTACACTACTTTACTATTATTTCATTTTAGCCCAAGTTTTATCATATTTTTTTATATTAGAACCTATATTACGAATATAGCTACCATTCTTTAATATTCTCTTAAGTTTTTTATTACTCATTTGGGAAACATTTCTATTAGTCGCAATATATGGATATTCAGAAACTATTCTTTTAGCAATATCATCTCTTAATAAATAATCAATGAATAAATAGGCGTTATCAACATTTTTACTACCTTTAACAATACAATAATTATCCATACTTAAAGCATAACCATCTTTTGGATAAATAATCTTTATTTTAGGATTATACTCTTGAGCTAAAAGAGCTTCAGCATTCCATAAAAGACCAATATTTACTTCACCAGTCATTAAAAAGGTCTTTGGTGAATCACTATCAAAAGCTTTAACATTAGGTTTCATCTTTAAGAAGAATTTTTTAGCCTCTTCTAAATGCTTGTCATTAGTATCATTAATGTCATATCCATTAACTTGAAGACAAGCACCAATAATTATTCTTTGATCATCAATTAAAACAATATCATTTTCATACTTCTTATTTAAAAGATCTTTATACCCTTCTATATTTTCTTTAATATGTTCAGTATTAACTGCTAAAACAGAAGTAGCTAATAAAAATGGTAGAGAATAATTGTTTTTAGAATCATATTCTTGTTTTAAGAAAAGAGGATTAATGTTTTCATAATTATTAAATCTCTTTTTATCTATTTTAGTTAACATCTTCTTTTCTTTCATTAAAGAAACCATATAATCACTAGGAAAGACCACATCATATGTTCCTTTTTTAGATGAAGAAAGCTTCGCCAAAAGTTCCTCGTTAGAAGAATAAGTACCATAATTAACTTTAATATTATACTCTTCTTCGAAATCACTAATGACATCATCAGGAATATAACTGGTCCAGTTTAATACATTTAATTGATTAGTGCTTTTACTAGTACAACCCGTTATTAATAATAGACCTATTAGGAAGAAAAGAATCTTTTTCATGCTACCACCTTCTTCCTAATCTTTCTTGATTGATAAATTATTGAAATAGTTAAGATGATAATTACCGTTAGTAGCATTAAACTAGTTAAGGCATTGACATCCGGAGTAATTCCCGTTTTAATCATTGAATATATCTTTAATGGTAAAGTGTTACTACCAGGCCCAGCTGTAAAGTAAGAAATAACTACATCATCCATTGATAACGTAAAAGCTAAAGTAGCTCCACTAATAACTCCTGGTCTTATAAGCGGCAAAGTTATCTCTTTAAATACTTTGAACTTGGAAGCACCTAAGTCTTCAGCTGCTTCTTCAATCTTTTTAGTTGTATCAGATAAAGTTGAACGAACACTAGTAATTACAAAAGGAATAGAAAAAGCAATATGCGATAAAATTAAAGTAAACATTCCTAAATTAAGATTCATTAAAGTATAAACACTAAGTAAGGCAATACCTAATACTATTTCTGGAATAATAATTGGTATATAAAGTAATTTGTTCACAAAGTTTTTACCAAGGAATTTATACTTATATAAACCAACAGCAGCGGTAGTACCAATAACTGTTGAAGTAACAGTAGATGTTACAGCAATAATAATTGTATTTATAAATGCTTCTAAAAGATCTCTATTTTTAAATAGTTCAGTATACCATTTTGTGGTAAAACCAGTGAAAACAATGTTAGTTTTGGCTTTATTAAAAGAATAAATGACTAAAACTGCAATTGGTAAATAAAGAAAGATAAAGACTAAAATGATAAAGAGGTTTCTTAAGAATTTATTTTTATGTTCCATCTTACATTCCTCCTAACTCATCGATGTTTCCACCGATTTTCTTATATACTCTAACTAGAAGGAAAGTTACAATAATTAAGAAAATAGAAATAGCAGAACCAAAAGGCCAGTTACGGGCTGTTAAGAATTGATCTTTGATTAAGTTACCAATAATCATTTGTTTTCCGCCACCTAAAATATCAGAAATAAAGAAATAACCAATAGCTGGGATAAAGACCATTAAAGAACCATTAAAGGCTCCTGAAATTGTTTCTTTAAAGATAATATCTTTAAAAACATGGAATTTATTAGCTCCTAAGTCTTTAGCGGCCTTAATTAGATTAGGATCTAATTTATTAACCGCAGCATAAACTGGTAATATCATAAAAGGAAGTAAGGTATAAACCATACCAATAATAATACCAATATTGTTATACATTAAACTTAAAGGTTCTTTAATAATATTTAGGGAAGTTAACCCATTATTAATAATTCCGTTTTTGCGAAGTAAAACAATCCAACCATAAGTTCTAATAAGGGAATTAGTAAGAAAGGGAATCATTACTAACTTAATTAAAGCATTTCGAACTTCTTCTTTTTTATCCATTAAAAAGATGGCGAATGGATAAGCAATCACTAAACAAATTAACGTTGTTATAATTCCAATTAAAGCTGATTTGGCAAATATTAATAAATAAGTACTATCAATAATCGTTAAATAATTAACAATACTAAAATGGTAGTTAATACCTCCAACATAGTCTGTTTCACAGAAACTTAAAAATAATATATAGAGAAGTGGTAAAAGAATTAAAACAAAACTATATATTACTACTGGCCATAAAGAAATATTTTTAAAAAGATCTAACTTCTTATTCATTTTTGTCACCTAAAACAATAATATATTTTTTAGGAACTTTAAGATATACATCACTACCCTCTTTAAAAGAAGAGGCATCCATTAAATTTATTCTTAATTCGGTATTATCTTTTTGAACAATTAATTTAGTAATCATACCATCATAAATATATTCTTTAACAACTCCTTTGAAGGAATCAAGACTTTCAATAGAACTAATATCAAAGCATTCAGGTCTAATAACAACTGTTTTCTCTTCCCCTACTTGATAATTTTTATTATCAATTGTTAAGTCCATATTATCAGGTAACGAAACAACTGCTTCATTTTCACTTACTTTCGTTATTTTACCAGTTAGTATATTAGCTTCACCAATGAAGTCTGCAACAAACTTAGTATGTGGTTTCCGATAAATGTTTTCAGGAGTATCAATTTGTTCTACTGTACCATTATTAATAATCGCAATTCGATCAGACATGGTTAAAGCCTCATCTTGATCATGAGTAACATAAATAAAAGTAATCCCTAGTTGTTTTTGAATCTTTTTAAGTTCAATCTGCATCTCCCGTTTTAACTTTAAATCTAAAGACGCTAAAGATTCATCAAGTAAAAGTACTTTATGATTTAAAACAATTCCCCGGGCAATCGCTACTCTTTGTTGTTGTCCACCAGAAAGTTCATCTGGTTTTCTATTTTCGAAACCCTTTAGTTTAACTAAATTAATCGCATCTTTAATTCTTTTATCTGCTTCAGTTCTAGGTACTTTATGCATTTTTAAACCGAAATCTATATTATCCCAAACAGTCATATGTGGGAATAAAGCAAAATTTTGGAAAATAGTATTTACTTCTCTTTTAGCAGGTACAATATCAGTAACGTCTTTACCATCAATAATTACTTTACCACTAGTTACTTTTTCCAAACCCGAAATCATTCTTAAAATAGTTGTCTTTCCACAACCAGAAGGTCCTAAAAGGGTTAAAAACTCCCCTTCATAGATATCGAGATTTAAATCTTTGATAACGTGTTCTTTACCAAATTTTTTAGATAAGTTTTTTAATTCTACTAATACCCTTTTCATTCTATCCACCTATTATAATTATACCTGTTATTTATTTAAAAGTAAATAAAAAGTCAGTTATTACTGACTATTTTTTATTACCAAATCTATTAAACGGATAAATAGTAAATGTAGCATGTCCTAAAATATCTTTTATATTAACAGGACCTATAATTCTACTATCCTGAGAATGTGGTCTATTATCTCCCATGACAAAGTATTCTTTTTCTTTTAATTTAACTTCTTCAAAATCAGCTGTATCCGCATGATAAAACTTTTCTTTGACTGGTTTATTATTAATATATAAAGTTCCACCACTATAAGATACTTTCTCACCAGGTAGACCAATTACTCTTTTAATAATATATTCATTTTGATATTTAATTACTACAATATCAAAACGCTCTATCTTTTTAAGTTTATATCTTGTCTTATTTAAAAACATTATATCTTTATCGTGTAAAGTATAATACATTGAAGCTCCGTTTACTTTAATAGGAGTTACAACAAATGTCTTAACTAGAATCACAACAACAATAATTATTAAATAAGGTATTAATTCTTTAAACTGTTTACTATTCATATTATCCCTCTTCATCTAATATTATAATTAATCTTCCTCTCAGCTTCAAGTAAAAAAAAGAAGTGTTTACGCTTCTTTGTCTTTTTTCTGAGTTCCTCTTTCTTTAATACGGTATTGACCAACCATATCTTTTAAGAAGTTTAGTTTAGCTCTTCTAACTTTTCCTTTACGAACTACTGTAATTTTATCCACTTTTGGTGAATGAATTGGGAATGTTCTTTCTACCCCAACACCACTGGATACTTTACGAACAGTAAATGTCTCAGAAACGCTACCACCACGGCGAGCAACAACTATTCCTTCAAAAGCTTGGATACGTTCTCTTTTACCCTCGATGATCTTAACATCAACACGAACAGTATCTCCTACACGGAATTCAGGAACATCTTTTTTCATTTGTTTAGTATTAATCTTATCAATAACATTACTCATGAATAGGTCTCCTTTCTAAATATATAATCCAGTAATCATTACATTAATAAGCGGATTACTTTCCAACGTGTTAAATTATACCATCTATTTAGAGAAAATGCAAGAAGATAAAGAAAAAGAACCATTATTTGGCTCTTATTGCATATATATATGAATTTATTTTAGCTATCCAAGTACCGCTTTCAGCATATCTTGGACCAATAAGTTCAACTGTATTTAGTCCTCTACTATAGTAATTACGAGCTAGATTATCAATCATACCAACAATTCCGGCATCAAGTGTTGGATAACCTTTATAACCACCATTACCACAGACTGGAGATCCTTTTTGACCACCAACATTATTACAAGCTACTACTAGATTACTACAACGCCAATTACAACCAGTTTCGTGTAACATAATAGCGGTCGCTACTATAGGGTCAACACCAACTTGTAAAGAGTGCTCCGCAATTAAACGTCCTTTACCAGCTAAATTACTATTTAAACTACGATCTAGTTTAGCAGCTAGTTCATCAAGCGTCATATGCTCATATACTTCTACTCTTGGTGGAGTTACTGGTTTTGGTTCTTCTTTTGGTACCGCTTCCATAGAAACTGCTTCTACTTTAGCCTCTTCTTTTTTAGGCTCTTCAGTAACCTTAGGAACTACTCTTTTCGCAGCCGCTAAATCTTTAACTTCCACTACATCAGTAGAAATAACTGTACTTTCTACTTTTTTCTTTAAATTTATATTGTGTTCAACAAAACCTGCTACAGCAAACATCACCCAAGCTGTAACAACTAGTAGAGCCCCAATTATTCGATATTTATTCATGAGTACACCTCTTTATAAACATATTAATATTACCATCAATATATTATCTTGTCAATTCGACAATTATCGCAACTTAAATGTTAAATAAGCTCGTTTATAGACAAGAATTAGCGCTATTATAATATATAAAGCAGCTGCAATTATAACCATTAATGAAAAGTTTAAAGGAGCAAAGTGATAATGAGTACTTTCATAACAAACAAAATAAGTTAAAAAGCTTACTATACTATAACTAATACTTTTCATGCGTAGATTTACATCATAAGGTTGTAATAAATAATAGATTACCAAATAATGTACTGAGAAAAAGACACTAATCGCAATAACAGCTATAAATAATAGGATGTATTCCATAATACTCAAAGGATTAGTACTTAGAATTAGGATTGTTATTAAGCCTCCTCCCAGTACTAAGGCTGGTAAAAGATTAACTTTAGTGACTATTTTAAGTCTTTCTTTAAAAAGATTTAATATTACTTTTGGTTCCCTATAAAAATTAAAGGAAAGCATAAAATGATCACAGTTAATAAACATGGCTTCAGTAATAATAGAACCTCGATTAATAAAATACATGATAATCAAAAGTGCTGGTAAAAATTTAATAATGCCATCCCCTATTTCTTTAGCGTAATTATCACTAAATAATATTAAAATAATAGCTCCAATAATTACTACCCCAATGAAAAAAGTAAAATGAAGAGCTGATCTTTGTAGTATTGCTTTATGTCTTTCAAAGAAAATAGTATTAAAATAATTATAGCCATGTTTATTCTTTAGTTTTCTAGGATCAATATGATAGTCTTTTTTTCTAATTTCTACAGCCATTTCCCTAGTAGTCATATTTTTACTTTCTTGTGCCATTATAACACTTTGACTATTAATCTGTTTAAAGAAGAATGGTAGTTTATCTTCTTTAGATATTTTAATAAAACTAAGAATAGCTAATCCTAAAGAAATAATAGATCCAATAAATAAAAACAAGAAAGGAATCTTTACTTTTAATAGAACTATTAATAATAGAATAATTCCTACAATAATTAGAACTGTCGTTACTAAAAAGGTCGAAGTAATTACTTTTTTATTGTATTTTTTATAATATAAAATATTTAGATATTCACCTATTACTTTTATAGATACTGATATTAAGGATATCAATAATATAGTTACAATATCTAAGTGTAAGATACTATTAAAAGTAAGCATTACTAGTGTATTAAGAAGTATATCACGAATAAAACTATATATAATATAAGCACAACTATACTTATTCGCATCCATTCCTAATAAAATAACATTATAATACTTTTTAATACCACTTTTTAAAGTATCGGTATTTAAACACATTCCCACAATAGTAAGCGCAAGAAAGACTTCTTTAAAACAACTTGTTCTTTTCAAAAGATATAAAAGATAAATAATAATTCCAAAATAGAATATTCTAAAAGCAACTAATCTTAAAAAAGATAAAACTAATGATAAGTATCTAATAAAAGTCTTTAAACCTTTTTTCTGATAGTAATTACCCGTAAAAATACCTTTAAGAAGTTTGTTATGGGTAAGAGCATAAACAAAAGAATTAAAGGCTGATACAATATCAATTTCAAAAGACTTTTTTAATGTCTTAAACATCTTTCTCATCCTTTAAGGCATTAATAATCTTGTTTTTATACTTAGTAGTATTTAAGTTTTTCTTTTCTACTAATTCTAACTTTTTATTATTAATAATTACTATTTCATCACATAAAGATAGTGCTAGTTCTAATATGTGAGTTGAAAAAATAATAATATGTTCCTTCTTTTTCTTCTTTAAGAGTGTTTTCATCTCTTCACTAACAACAACATCTAATGATGTTAAAGGTTCATCTAAAAGCAAAACATCTTTATTATCAATAAAATTAATTAAAAGTTGCATTTTGTTTTTCATACCATGAGAATAATCCTTCATTAATTTATCCCCATCTTCTTTAGATAATCTAACCATCTTTAGATATTCATCAATACTTTTTAAATCTTTTATTTTATCTTCATTAATATCTAAGAAGAATTGTAAGAATTCTCTACCAGTTAAAAACTCAGGTACTTTAGGAGTTGCGATAACATAGCCAATATCTTTAGACTTTAGAGGGAATCTAATTTCTTTTTCTAAGTAGATATCACCACTAGTTTTTTCAATATCCTCATTTAGACAATTGAAAAAGGTCGTTTTACCGGCTCCATTACGACCAATAAGACCATATATCTTACCTTCTTCAAAAGTAAAGTTAACATCGTCTAATACTCTATTATCACCATAATCTTTAGTTAAGTTTTCTACTACTAACTTCATAAATCTTCTCCTCTTAGTTATTATATTTATTGATTAAATCAGTAAACTCCTTTTCTAATTCTTCTAATCTTTCTTTAGTTTTGGCCTCAAAACGAGCTGTTATATTAGGGCCAGTATTACTAGCTCTAACTAAAGCAAAGGCATCAGGATATAATACTTTAACCCCGTCAATATCTAAATACTTATAGTTTTTTTCTTCTGCATACTCTTTGATTCTTTCTACAACATTAAATTTCTTATCATCAGGTGAAGCAAATTTTATCTCTTCAGTAGAATAGTATTTTTCCATACCCTCTAATAATTCATCAACAGTTTTATCAGTCTTAGAAAGAATCTCTAATAATCTTAGACCTGCATAAAGTCCACTATCAAAACCTGGCCAACGGTCTCTAAAGTAAACGTGTCCTGATAACTCCCCACCAAAAGGCAAGTCATCATCACGTACTTTAGTCTTAGTATAAGAATTTCCAGTTCTAAAACAAATACCCTTGCCGCCTAATTTTTCAATTTCATCTTCTAAAGCTTTAGAACATTTAATATCATATAGAAACTCTTTTTTAGAAACTTTATTAATAATATCTCTAATGATAATGATCATATATTGATCAGTAGGAATAAAGTTTAAATTACTAGATACTACTCCCAAACGATCTCCATCTCCATCAAAAGCTAATCCAACATCAGCACCCTCTTCTTTCACTTTAGCTTTTAATTGGTCTAAATTCTCTTCTACACAAGGATCGGGATGATGATTAGGAAAAGTACCATCTGATTCACCATTAATAGTTATTAAATCTATTGGGAACATTTTATATAATTCCTCAGCAATAATACTAGTAGTTCCATTACCTGGATCAATTACTACTTTTAGTCTTCTATCGCCGAAGTGTAAATTTTCTTTAAATAGTTTTAAATAATCTTCTCTAATATTCTCTTCTCTTAGATGACCTTCGCCTTCAGTGAAGTTACCAGCAGTAGTAAAATAATAGAAATCCTCAATCTCTTTTCCTTTAATATTACCAGACTCATCAATAGCCATTTTAAAACCATTATCATCTTTTGGATTATGTGAAGCTGTTACCATGATGCCTGAAGGATTATTATATTTAATAGCGGCATAATAATACATAGGAGTCGTGACCAATCCTAGAGAAATAACATCAGTACCACTTTCTAAAAGACCTTTAATTAAGGCATTATATAACTCATCACTAGAGATACGGTTATCATGACCTACTAAACAGGTATCTTTACCAAACTTTTTTAGATAACTACCAAAACTTTTACCTATGGTATAAGCAAAGTTAGCATCTAAATCTTTACCCGCAACACCTCTAATATCATACCCTCGAAATACACTTTTATCTAATTCTTTTAAAATCTCCATTTTTATTATCCTCCTTTATATTTAAAAATATATTTTCCATTTTTATTAATTTGTCTTCCTCTATACTCTGATCAAAAGAATGAACATATTCATAGAAAAGAGTTTGATCAATTCTACTAAAACTATCACATAATAATAAATCTGAAAGTTTTTTACCTGTTTCTGTTTTAACTAATTCTTCATTTGGAAAAACACCTAACTTTTCATTTAGTTCTTCATCTCTAAAAACAAATTGTTCATAAGTAGGATCAACTAAATAATAATCATCTTCGATATTATCAAAAACCAAGACAAATTTATGACTGAACTTACTATTACTAACATCACTAATATCAACAATTCTATTTAAAATGTGCTTGCTATTTAATTCATGACTAATATTATTAGCGACATAAGTACATAAACCCTCTGTTTCATAAATATCCCGCATTTCTTTATCAATTACAAAAGCAATTTGTTTAGTAATGGGAATATTTGCAGGTTTTAAAATTTTATAATATTCTTTTAATTCTTTCATAGTCTTCTCCTCTTGCTAATTTTTATCTGAATAATTAATAGTAATAAAAAATGATTAAAAGTGCCTAGGCATTCCATCGTTATCAACTATAAAAATGATATCATAGATACCCAAAATAAGCAAAAAAAAGAACTATAAGTTCTTTTTAAAATAAAGCCGAAATAAGCATAATAATTATTCCTAAAGCTACACCATATGTCTTTATCTGACGATTCTTTTTAGTCTTAACTCTAGGATATAGTTCATTTACCAAAATATAAATAAGCATACCTACTGTAACTGATAATAAAACACCAATTAATACCTCACTTAAAGCTGTAACATTCAAGGCATACATAATTAGACCCCCTAAGAAGGTTGAAAAGGAAAGAGCTAGAATAATAATTAAGGTCTTCTTCTTAGAACGATTAGTTTGGTACAAAGTACTAGTAATAACCATTCCTAATGGAATGTTATGAGCCCCAACACCAATCATTGTTGCTAAGGCAGTACTGGTATTTACTAAGCCAGCTGAATAAATAGCCATTCCTTCAATAATGTTATGAATAATTAAGGCTATTGATGATAAAACACCAATGTGAACTAAATTATCTTTCTGTTCTTTTTTAGTCATCTTAGCGTCTTCATGATCAGGAATAAAGTCATCTAAAATATCTAATACTAAGTAACCAACTACACCAAAAATAATAAATAGATAAATACTCTTAATACCAAATGCATCAGCAACTTCAGGTAATAAATCAATTAGAATCAACATGATAATAACTGAAAAAGCTAAAGAGATGGAAAAATCTACATATTTTTCTTTGGAGTTAGATACAAAAGAAATAACACTTCCAATTAGAATAAACATTCCTAAGATTAAAGTAATAATTAAACCAAAAACTTTATAATCCATAGTTACCTCCTATTTAATAAGTACTAATAGAATAACTATTATAGCTAAAACTATTCGATATATCATAAATACTTTAAAGTCATGCTTTTTAAGATATTTAAGTAAGAACTTAATACAAATTAGACCCATAACAAATGAAGAAATAATACCAATTAAGAAGATACCTAAATTATTAAGAATCATCACCCAAGTACTTTTCTTAACTAGTTTCAAAATGACTGCTCCTAAAACAACAGGTGCACTCAAATAGAAAGAAAATTTAGCAGCATCTTCTCTATTTAGTTTTAATACTCTAGCACTAGCTATTGTAGTACCACTTCTAGAAAAACCTGGTATTAAAGCCAAGACTTGACTACAACCAATGATTAAAGCTTCTTTTAAAGTAAGTTTCTTTAATGAATTAGTACTCTCACTTAACTTATCAGCATAATAAATAATGATACCCATAACAATTAGAGCTAAAGCTATAATAATATAATTAGACCTAATCATATCTTCAATAGCATCTTCAAATAAGAGTCCTACTATAGCAGCTGGTATTGTCGCTATGACAATAGCCCAGAAAAGTTTACCTGATGTTGTTTTAACTCCTTTAGTAAGACCTTCACTAATCATTTTAATAAAATCATTGAAGAAAAAAACAATAATAGCTAATAATGTTCCTAAATGAAGAGCGACATCAAAAGTAAACTCTAAGTTTTTACCCATGAACATACCAATACCAAAAACATCTCTAAAGATAATTAAATGAGCAGATGATGATATCGGTAAAAATTCAGCTATTCCTTGTACTATTCCTAAAATTATTATTTGTAATGTATGCATATTATTTATCTCCTAACTTATAACCAATAGTAAGTCCTAAAAAGACTAAAACTAAGGCTACTAAAACTTCATATAGACTAGGACTTAGTCCAAATAATGGAACAATTAAAGCTATTATTGAAGCTAAAACAAATCCTAGAATACCATAATAAGTTTTTGTTTTATATTTATTGAGTAACATTTCAATTAATTTAGCAATTAAGACTATGCCAATTAAGATACCAAGTCCAAATGGTATTAAGATTAATAAACTATGAGTAAAGTTATCCGTCAAATGACTAATAGTATTAATAATTGGTTTATAATATCCTAAAAGCATTAGAACAAAAGATCCCGATACACCAGGAATGATCATAGTACCAGCCGCTACCATTCCAACTAAGAATAATAAACAGCCACTACCAAGGGTTAAAGTATCTAAAGTTACTGCTTTAGTATCGGTCTTCATAAATGTCATAGCCATAATTAAACCAAAGGTAATTAGAAAGACTATTACATTAGAGACTGTTACCTTCTCTTTTTTTACTTTACGACCAATTAATGGTACTCCACCTAATATAAGAGCAATAAAGAATAAAGTAGTTGGGAATGGATATTTAGAAAGACACCAATCAATTACTTTACTCATTAATAGAATAGCTAAGCCAGCACCAATAATAATTGGTAATAGAAACTTAATATTCTTCTTAAAATTAGTAAAGAAGTGACTAATAGCTTTAATTAGGTCTTCATAAATACCCAGAGTAATAGCTAATGTTCCCCCACTTACTCCTGGGATAATATTAGCTATTCCAAAGACAAAGCCCTTAATTCCTAAAATAATATTTTTCATGTCATCACCTAGTTTTCAAAATATTCCATCATCAAAGGAACAATATGCTGTTTTCTCGACATACATCCTTTAATAAAAGTTCCTTCTTGTAAATCATCAACACCATAGACCATTTCTATAGTTTCTTTAGCTTTGGTATTATATAAAACATAAGAACCATCTTTATTAATATCAGTAATATATAAAGTAACTAAACTATAATTATTGGCACTAGCTACTTGATCTAATACTTTAATATATTCAGGAAGTTCTTCTTTTATTTCAGTATAGTTATTAGTGAAGAACTGTCCAACTGCAAAGATATGATCTTTGGTATTATAAACTTTAAAGTCATTATAAAGAATATCTTCTTTACTCATGTTTTCTAATGAATTACCTGCAGCAATTAATTCCATACCATATCTTTCATAATCAATACCGGTAATTCTAGATAGTTCTTTAACTGCTTTAATATCAGCTTTAGTAGCAGTAGTACTCTTTAATACTAGAGTATCTGATAAAATACCAGAAAGTAACAATCCCGCTATTTCTTTAGGTATTTCTATCTTACTAGCAGCAAACAAATAATAAATAATAGTACTAGTAGAACCAACAACCATAGCTGTATAATTAAGAGCTTTATTAGTAGTTAAATTACCCAAATTATGATGATCAACTATTTCAATAATTTCAGCTTCATCAATACCATCAGCACTTTGCATCTTATCATTATGATCAACTAATACTACTTGCTTTCTTCTCTTGTCATTTAAATCAGTTATCTTTAATAATCCTAAACATTTATTATGTTTATCAACTATTGGATAATTAGCATGTTTAAGCTTTTTATTAACATCTAATACATTATCAACATAATCATCTTCGGAGAACTTAATCGTATTATAATTCTCAACCAAAGTATTAGTATAATTAGAAAGACTAATTAATCTACCAACATTATAACTATCATATAAAGTAGATATAACATTTATTCTTTTTTCTTTAACTATTTCTAATTCAGAAGCAGATAACTCATTACTATTAATCAAAACAATTAAATCAATATCATCAAGAGAAATATTACTTATCTTATCAGTAACAATTACTCTTTTATTAACTAAAGTACTTTCTATTTCAGAAGTCACTTTTAATACTTCTGTTCCTTTTAAAACATCTAATAAATTATCATAAGAAGTTATTAACTTATTAGTATTATTTAAAAAATCACGAGCTAAATCTTTAATTGTAATAAGTCCTAGAAATTCTTTATCTTTATTAACAACGGGAATAGCTGTTAAATCATCAGTTACCATCTTTTGATAGGCTGTATAAAGTGGTTCATCCTCTTCAATATAGAAATCATGATGATAGTTAATGTCTTTTAATTGTAATTTAACATCATTTAAATACTTTGGTACTGCAACACGAAAATAATCGAGAACATATTTAGTCTCCTTATTAATGTCTCCTAATACACGTGCTTCAGTATTCATCCCCAATTTATTCTTTAAATAAGAAAGGGCAATAGATGAAACAACGGAATCAGTATCAGGCTTCTTGTGACCAAAGATATATACCTTATCCATCCTATCACTTACTTTCTCTTAAATTATAGCAAAAATATATCAATAAGTAAAATAAAAAAATCTAAAATCTTTTTCTGATTTTAGACTTTATTCTTCAGTTTCAACAACTTTATTTTTCTTATAAGATCCACACTTAGGACATACACGATGAGGTTTAATCATTTCTCCACAGCTTGGACATTTTACTAAACCTTTTACTTCGATTGCATTATGGCTTCTTCTAAGTCTTTTTCTTGTTTTTGATACCTTACGAGCTGGTACTGCAAAAAGTTGAATATTAAGTCTCATTTTATCACTCCTTATTTATTTCTTCTAATAATTCTTTAAAAGGATTATTGGTATTTATCTCTTCATCTTCCCCTCTTAAAGACCAATCTTTTCCTTGATACTTGGAAAAGTCATTGACTTCGGTATACCTAACCGGTACCTCTAGGACAATATTTTGCCACAAAAACTCATATAAATCAAGTGAATTTGGTAAATTTTCCTCGTTTTCGAAGAGATTACCATCTACTTTAGCATTAAACTCATAATAAACATCTTCTAAAGAAATAGCATCTTCTAAAAGCATTTTCCCAGTTATATCAAGATCAACTTTAATTTCATCAGCACTATCTCTAAAAATACTACCCAATACTTTAATACCATTTAATTCCTTAACATCACTATTTTCAAAGTAGTTTTTAGGAATATCTACTACTCTATCTATTTCTATTTTATCAACATTATGCGAATTGAGCATTGTTAAATCAATATTCATATTATCACCACTATTATTATAGCGATAAATAATCTTAAAGGCAATTCCATTTGCACCTTTTTATTCTTTTTGATAAACTTTGTGTAAAGGAGGGATCTCTATGAAAAGCATTGGTATAATCGCTGAATATAATCCTTTTACTAAGGGACATCTATATCATTTAGAAAAAGTTAAAGAAATGTTTCCTGATTATGCAATAATTGCGGTAATAAGTGGTAACTTTACTGAACGAGGTGATGTTTCTATAATTGATAAATTTACTAAAACTGAAATAGCTTTAAAGATGGGAATAGACTTAGTAATAGAACTACCTTATGGCTATGCGACTGATTCAGCTGATTTCTTTTCTTATGCTGCTTTAAAAATATTAAATGAATTACAAGTAGAAAAAATAGTCTTTGGTAGTGAAAGTGCTAATATAGATGATATGAAAATTATTGCTGAAACTCAAGTTAATAATAAAGACTTCGATAATTTAGTAAAGATTAATATGCGACTAGGTACTAACTATCCAACAGCCATCTCCAATACTATATATGAACTAACTAATAAGAAGATTACTACTCCTAATGACCTTTTAGGAATAAGCTATTTAAAAGAAATATATATAAATAAATATAATATAGAACCTATATCTATTAAAAGAACAAGTGATTATAATAGTACTAGTCTAAATAATAAATATCCTAGTGCCAGTGCGATTAGAGAGGCTCTAGAAAAAGGTAAAGAAATAAAGAATTATGTACCAAAAGAAGTATACAATATATTAAAGAAAACCACCCTGCACTTTCAAGATGATTACTTTAGTATCTTAAAATATAAAATAATGACTACAGACGATATATCTATTTATCATGGTATTGATGAAGGAATTGAAAATAAAATTAAAAAGAGTATCTTAAAAGCCAACAATACTGACGAATTAATCGATCAAGTAAAATCAAAAAGATATACTTATAACAGAATCAAAAGAATGTTAAACCATATACTATGTGAATATACTAAAGACAAAAAGAAAGAAATTAAAGATATTAATTATATTAGAGTATTGGGTTATAATGATAAAGGAAAAGTATACTTAAACAAAATAAAGAAAGATACAAACATTAAAATAATAAGTAACTTTTCTAAAGCTAAAGATCCTTTAATGGATTTAGAATTCTTAGCTACTATTACTTATGCTTCTACTCTAGATGAAAAAGAAAAACAAAATTTAATAGAAAAAGAATTTAAGCATCATCCTTAAATTCTTTTTTATATTACTTTTGATGTTTCACCTTTAATTTTTCTCTATTTTGAAATAATAACACTCCTCCAACACCTATACCGACTAGTATTAGATAAGGTAGGATTGTTAGAAATAATCCTGTCACCGGTGAACCTTCTCTTTGATTATAGAAATTAACAACATTACCATTATGAGTTATCGAGTTAGATCCCGTATCATTTCCACTAGACTCACTTCCACTATTTATCTTAAAGGTTGTGGTATAGTCACTTTCTGTACCTTCTATTATCTTGTAATAATCATCTATAGAAATAGAGTCGTAAGTATTGTTGTTATATGTAAACTGTCCTATAGTAGCTGTTTCTCCATGATTTAGAGTAATTGAATCTTTTGTACCACTCTTACACTTAGTTACTTCAGAACCATCTTCAGGTACTCCTGTTCCTTTTATTAAGTATTTCTCACTTCCAGAGTAACTTTGACAAGCACTACTTGCAGCATCATCTACTTGAACACTGAAACTAAAGTCTTTAGTTCTATCAGCCATAATACCTTTAACTGTTTTAGTTAGTTCTATATGTCCAAACTTAGTTTCATCCTTTGGCTCATTAAAAGGCATATTACTTACTTTGGTATCATTATCATCTTTAATAACAAACTTAGCATTAAAGTTTCCTGTTGGAGTTCCATTTTGATCAGTTACATTTGTTACTTGTACTATTACTGTATATTCATTATCATTATCTACTGGATATGCACTATTACTAGTAGCAGTCTCTTTCACAGTCAATTCATAATTGCCTGGTTTTTTAAAGCTTAGTCCCATATTAGCAAAATTAATTGTTGTACTCTTATTTACTGTATAACTATTACTTACAGTTTCAGTTCCAGCGAAAGATATGTCTTGGGTGTAGAATACTATTCCACTACCAAAAGTTGGTGATTGGGATGGAGATGATACTTGACTACCCTTTATAACGTTTGATCCTGCTGATTTAGTAGCGATTATATTATCAATATTAGAAGTTCCACTCCCATAGTTTACTGATATTTGGGTTCCTGATTGCGTAGCTGCATTAGTAAAGGCACCACTATAATTTGTTGGGTTAGCTAATATCTGAATTGTCCCAGAAGCATTTGTACAACCATTGAACATATTATTAACATTAGTCACCCTTGAAGTGTCCCAATTACTAATACTATTTATATTGCTCAAACTACTACAGCTATCAAACATCCCTCCCATATTTGTTACTTTGGAAGTGTTCCAATCTGATAAAGAATTTATACTTGTTAAAGAACTACAGTAAATGAACATGGCAGACATAGTAGTTACATTTGAAAGATCCCACGCACTTGTTGCATCTACACTAGATAATTGTGAACAATATGCAAACATCCAAGATGTATTAGTTGTTTTAGAAGCATCTACTAAACTAAGGCCTGATATATCCATTAATCCTTGCATGTTTCTAAACATGTTGGCAGAAGATGAATTCAAGTATATTTTATCTGCTTCACTATAATAATACATCGTTCCGTCCGTACTATCAAAAAAGATGTATATTGGAAACTCCGAATTGGCTACCGATACTGTGTTTGCTGCGGTTGGAACAAAACCACTTGGTAAAGAACCAGCTTTTTTTATAGATTTTATTGCAGTGTCAGGTGAGCTGTATGTCTTTGTTGAACCATTAGCAAGAGTTTTCATTATTCCATTAACTGTTGTTCCTGTGTTAAAAGTTGCCAATCTAATTAGTGAGGTATCTTCTGTTGATATACTATAAGTAAAATCTACTACAGGAGCATTATAAACGTTTTGTATTGTCCTTGATATTGTTGCAGTACTACCATCTGGCCAGTTAACAGTACCTGCCGCTTTTACTTCCATTGTTTTGAATGTTAACACTCCTACTAGTGCTACTACAAGTATTAAAGTTATATTGTATAAATTAAATACTTTTTTCATATGCTTTTCCCTACCTTATATATTTATTATACCTTTTATTATAATGTAAAAACAAGGTATTTAGCCTTGTTTACAATTCTTTTACATATTCTTGGGTAAAGTAATACTTACTGTTGTTCCTTTATTAGGTATTGATCTATATTTAATTGTTCCACTATGAAGTTCTATTATTTCTTTAGATAGAGGTACTCCTAGACCAGTTCCTTTACTTTTAGTAGTAAAAAACATTTTATTTATCTTGTTTAAAGTCTTTTTATCCATACCAATACCATTATCTTTAATTATTATCTTTACTTCTTTAGTACTATTTATTACTTTAATATTAATAAGCATTTTATCTTTTACTTTTTTAGCTTCTAAAGAATTTTTTAAGATATTTACTAATACTTGTTTCAATCTATTATAGTCAGCATTAACAATTATTTCTTCACTTTTAATATCAGTTTCCACTTTAACATTATTCTTTTTTAATAAAGTATTAGAATTAGTTATTACTTCTTCGATTAAAACATTAATATCCATTTCCTCTTTATTTATTTTGATCTTAGTATAATCTAGAAAATCATCCATTAATATTAGAGTCCTTGATATTTCCTCATCTATAATATTTAGGTACTTTTCTCTATTCTCTTCCTTAATATTATCTTTTTTCATCATGTCAATATACCCTTTACAAACGGCAATAGGATTTTTAATTTCATGAGTCATTTTAAATAATGATTCTCTTAAAGCTTTTTCCTTTTCTAATTCACGTAAAGTAATATTTAAACTTACAGTTTCTTCAACCTTCTTAATTAATTCAGTTATTATATAAGTAGTAACACTTAGAATAATCATTTCCATAAATATTAAGAAAACATTATACATAAATGAAGCATGAGGCATAATATAGATAAATATTTCTAAACTAATAATAAAAGCTTTTATAATTAAGAACCTGCTTATAAATTTATTAAAACTAGTTGTTTTGATAAATAGCACATAATAAATAATGTATTCTATTATTAAAAGGACAATATTAATATTAAAATCAATATATGAAAGTACTATCACAATAATTGATATTATAATAGAAAGATCTTTTCTTTTCTTTAAATAAGCTACTAGTAAGGGAACATTTATTAAAAGTAATTGATATATCCACAAATCTTTATTATGTAATTTAACAAGAAGAAATATTGATGATAATAAAGCTAATTCTAATAGTTCTTTTCTTTCATTAATATCTAAGTTTTTAGTATAAACAATATATAACAAATAAGCCATTATGGGAAATAGTATATATATTGAAGTGAGTATAATAGTTTCAAATAATTGCATTCTACCACCTCAATGATATAGTACTATTTTCTGGTGTCGAATTTTGTCGAAATATGAAAAAAATAGCAAAAATTTGCTATTTAAGGTCGTCAATATATTTTTTTAATTGTTTAGACTCAGGTCCTAAAATTATTTTTAATTGATTATCAATTTCTACTACTCCCTTAGCACCTAAGTTATGAATTCCTTCTTTATTAGCTTTAGAAACATCGTTTAGAGTAACGATAAAGCGAGATAAATTACTTTTAGTATCGATAATATTTTCTTTACCTCCTAAAAGCTCTACTAATCTGTTTAAGTCTAAAGATGCATCTTTCTTATTAGCCTTTAAAACCGCTAATAAGATTATTAATAAGACTACTCCTATTATAATATATTGAATATAATTCATAAATTCTCCTTTCTACTTAATCGTAATGATAAAGGGACTGTCTTTAGTACCTATTCCATCTTTAATATAAGCATCACTTCTAATATAAAGAGCTATTTTAAAAGCAAGTTTAGTATTAGATCTTATTGCTCCTGATAAAGAATCACTATATATAACTCTATTATACTCTTTATCATAAGGAGTAATTAAGAAATAATCATTCTTTTCATTGGTTGTAAACATTTCTCCATATCTTAGAAGTCCTATTTTAGCATTAACATATTCTCCTTTAATAATGTCTTTATAACTATCTTCATAAGTACATTTACTATTATAGAATTTACCTTCTACTAATAGGTCTTTAGAATTATCACTTAATTTCTCATACCAATCATGATTTAAATAATAAGCAATATTTTTCTTATCATTTAAATCAAATTTAGATTCTTTGGAAGAAAACTTTTTATTATTAAGTGTTTTCATAGAAACTAATTTAGTCTTTTCTTCATCAATAGTTACTATGCGATAAAGTTCATCATTAAAATGAACATATTCACCAATAGACCTAGTATTTAAAAGAGCATTATCCTCTACATAATCTTCTAAATAATAAGGATTACTTTCACTACCATCTCCACCTTTAATTTCTACACTACTTAGAATATTAATGGCTGGTCTAATTAGATGGGTTAATTCTTTAGAAGATGTTTCTACCTTACCCTCTTTATTTACAATCATATTACTGTCATTATCATAAGTATAAGTAACCCAATTAGTATTATTATTTAGATAACCATCTCCAATACTTTCAGTAGTACCATTATATGATAATTGATAATCATAAGTAGTTAATAATCCAACTGGATTAGTAATAGTTTCATAACTTTTAGATTTTCTAATATCTCCTAAGATACGACCATCATTATATTTAGTCCAAATACTATCTTGTTTAATATAATCTTTATAACTTTTTAAACTACCTAAGAAACCATTATTACTAGTATCATTTAAGAAATAATCAATATCATCATTACCAGATAAAGTATTAATACCTTTATCAGTAACCATTTTAACGGTATTTTCTTTGTTATTGATTGATACTGCTCGCCATAATTTACCACTATACCAAACATAGTTATTAGGCTTTTTAGAAGTAATAATACTATCATCATCAACTTCTTCAATATTATTAGATAAATCACTTATTAACATATTGTATAATGCTTTATTATCAGCTACTGGCTTAGAAGCTGCTCTACTAATATTTAGTATTAAATTAGAGGATACTCCTAAAAAAATAAGTACTAGGGCAAGAATTAATAAATTATACTTATTTCTAATTAAAAAGTTCATATTAATTCCTCCTTTCGTACTCTATTTATAGTATATCTTATTTTAGTATTTTTTTCAATAATTTAGGTATATATATGAACAATTTAAGTATTATTTACATATTCTATAGTAGAGTTAAAAAGGAGAGATAGATATGGATAATAATGATTGTTGTCTAGGAAAACTATTAAAAGTTATTGATACATTACAAAAAAACGCCAACAACGAATGTCCAATTGATGAAGGTTGTAGTCGTCCTTATTTAGGAACTTTTACTAGTTCTTTGTGTTATAACACAAGACCAGTAACTTTATATTTAAAAAATGGTGATTTATTTAGTGCTCCTTATAATAGTACTGGTACTACATCTTCTGTTTTCAGAGTGGAAAGAGTTAAAGATTGTTGTGCTAAGTTAAGAGTCTTAGAGCCAGTTGTTAATGAGGGTGTTACTACTTATAATGCTACTAACTTTTTTGTTGATGTTAATTTACAATGTATCTGTGCTATTAAATGTTTAGCTGACATTATTTTAGAAAATATTTAGAAAGGAGTTTTTTCCATGTGTGAGGAACAAAATAATACTTGTTGTTTAGAAAATACTTTAGCTAAGATTATTAAATTACAATGTATAGATTCTATCTGTGATGTTGAAGGAGGTTGTGATAAACCTTTTTTAGGACCTACTCCTAGTATGGTTTGTTATAATACCAGACCAATTAGTCTTTATAACTGTTGTACTGGAGCTCTATGGAGTTTTCCCTATACCAGTGGAGAAACAACAGCCAATTCCACTGTCTTTAGAGCCGAATCACTAGATGGTTGTTGTCTTACTTGTCGGATCTTAATTGATAATGGCAATGATACTTATACCGATACTTCAGAATTCTTTACTATAAACCTAAAATGTTGTGGTGCTCTACAATGTCATAGTGATGCTTTCGTTGAATTTAATAATAATTAAAAAATCCTCATTGGATTTTTTATTTTATCGTTATATCAATAATATCCCCTATATTAATCTTGTCATTATCAATAGTTAAAACATAATTATTATTCTTACTAATTAAACTAGTATCATAAATTCTATCTTTAGTTGTAATTAAAACATCTTTATTAAAAGCAAACCCATTACCATTAAAGATTTCTTTTAAAACATCATATTTATTAAGACTAATATGATCTTTACTAATCCGTTCTATTTCTTTATTATGACCTATCTTTTTGGTGATTATATTCTTATAAATGGGTGAAAGTTTTTTCATAGAACCTCCTTTTTAATAATTTTATGTATTTACTAAATAAAAATTGAATAAATTTGTTATAATACTATTAACGGGGTGATTTCTATGTTACGTCAAAAAATTAGTTTTAAAATTATTATCCCTGTAATTTTATTTGCGATTATCAGCATTGTTACTATTTATAGTGCTTCTACATATATTTCTGCTGGTATGGGTAACTTAGCTTTAAAACAAGCTATTTGGTATTTAGCAGGTATAGTGGTAGTTATTTTTATCGTTAAGATGGGTAATAATTATTTATATGACAAAGCCTTTCTTTTCTATATTTTTGGAATAGTATCCCTTTTAGGATTATTACTTTTCGCAACACCTATTAATAGTAGTAAATGTTGGTATATTGTACCAGGTTTAGGAAGTATTCAACCAAGTGAATTTATGAAAATATTCTTAATGCTTTACTTAGGAGTATTTATTCATGATTTTAGGGATAAGTATACTAATCCTTCTATTAAAGAAGAATTAATCTTTATTATAAAATCGTTTGTTATCTTCTTAATACCCGCTGTTTTAACCTTCATGCAACCTGATACAGGATCTGTTATTATTTATTTAGTAATATATCTTTGTATGATGTTTTTATCAGGGATTAGAGCCAGATGGTTTATTATTGCTTTTGGAATTATTGGTGCTATCTTAGGTACCGTTTTAGGAATATATTTCTTCAATGGTGATATGTTTATAAAAGTTTTTGGTACTGATTTATTCTACCGTTTAGATAGAATATTTGCTTGGACTAGTGGTAGTGGATTACAACTAGAAAATGCTTTAGCATCCATTGGTTCAGGGGGTTTAGTTGGTCACGGATTTAACCATACTCCATTATACTTCCCTGAATCAGGAACAGATTTTATCTTTGCTGTTTTCGCTTCTAATTTTGGTTTTATTGGTTGTCTATTACTAGTTGGTCTAATTCTTTATTTTGATATTAATCTAATACTACTTTTCAAAAAGAAAATCCAAGATACAGAAAAGTTCGTTTTAGCAGGTATTGTGGGAATGCTTTTATTCCAACAAATCCAGAATATTGGTATGACAATTGGTCTATTACCTATAACTGGAATTACTTTACCATTTATATCTTATGGAGGAAGTTCCCTTCTATCATACATGATATTAATTGGTATTTTGATAAACATTTCTAATGAAAAAGATCATAAATATAAATATTAAAAAAGTGATGATTACTCATCACTTTTAATTACGCTTGTAAGTAAATATTCATCTCCATATTTCTCAAAACGATATAAGTAAGTATCCAGTTTATCACTCAACTGTTTTTGTTCTTCGTCAGTAAAATTAGGTTCTCCCTCAAATTCATATACTTTCTCTTTGGCCTTTGGATCCTTATATACTTCGTTTTTTATAATTTTAGGTTCCTCAATAACAGTTAATTTTAAAAACAATAGTTTTTGAGCAACTACTATATAATCAGTGTAGAGTTCTTTAAACTCAGTTTGTAAAGGAAATATATTTAAATTATTATCCTGACCATTATATAAGTACTTATCATCTTTAACTTTATAAACTGTCAAATTATTACTCTTAATTGGTTTTTTATAATAGTTAACACTTAGAAAGTATTTATACTTGGTTTCATCTAATTCATCAGTAGAAACTTCCTTTTTAGAACCATCTTTATTTATACTTGTTAATAATACTAAAGTTTTTTGCATATCATTAATTTCATCCAAGTTCTTAATTGGATAATTTTGTCCTAAAACATTATTGTATACTTCTATTTTAGGAACAATTAATTTATCATAAGTATGAATAAATTCATTAAGTTCTATTTCTTGATGATCTTTCTCTTTAGCAGGTAATTTATCCTTAGTAAAACTTATATTTTTACCATATAGAAGTAATCCACCACCAAAGATTAATATCAATCCAACTATAATTAATAATAGACTTTTTTTATTCACTATAGTTCCCTCCTAAGAATAAACATATTTATAATTAGCTTTGCATTTACTAACCCAATAAGAACAAGTCTTTTTCACTCTTGTTGACCTACAACAACGATACTTATTACCACTACGTTCAATAGTTAAACCATTGGCAGAAGAACACGCTATTCGGCCATTATTAGGAACCGCCCAACCACTACATGATTTTGTCGTATAAGAACAATCATAATACTTTGTACACCCTGTATAATGAGAAAATACTGATTTTCTCTTATATGTTTTAGAAAAAGCTTTACTATTTCCGGCATTATCTGTACAAGTACTACTTATTGTTACACTGGTTCCACTCATTTTTTTAGAAGTATTGCCACTCTTAATTCCACTTAAGGCATCAGAACATGTTAATTTAGCAGTTCCGCCTGCAGCTATTTGTCCACTAGTAAAGCTTCCTGTAGGATTAGTACGATCCAGTTTTATAGTATAATTGCTAGAATATGATGAACAATTTCCTAATTTATCACATGCACGATACTTAATATACGATACCCCTTGTGCTTCGATGTTGCGAGCTGAAGCTTTTATATTGGTGTCGTTGGAAGTTTTTCCAGTTGTTGTATATTGATAATATACCCCTCCTGCTCCACTATCAGTAGCACCACTAGCATTTGTATAGACTTTTCCAGAAAACCAAGTATTATTTGGATAAGCACTTAAGCCACTGGCATTCGCTGGTTTTGTACTGGCATTCTTCCATTTATAAAGACCTACTTTTAACCCTGTTGGGGCGGTTTTATCAAAATAAGCATCATAAATACAAGATTGAGTGTTTCCCACTTTATCTTTAATCGTTTCCGTGTATTTTGCGGTAGTACCACTAGAAAATGTTCTTTGATAAGGACTTTTTTCACAACCACTCTCGTTATCAGCACATGCCAATTTTATTGTTCTACTACTATTAGTCCAGGTTGTACTTGCCCCTGTAGCCTTTCCACATGTTGGCGGCGTTATATCAATATAAACATTATAAGAGCAAACTTTTTCATTACCGGCTTTATCAGCTATTGTTACTGAGGCTCTCTTAGTAGTTTCTAAATAAGTATTATTGTAACTACCTCTTGCACAATTACTTCCACCTGTATCATTACAAACTTGGTTTATTGTACGAGCTTTTTTCGTCCATACATCACTAGCATTTTTTGCCTCTCCACAAGTTGGTGGTGTTTTATCTATTTTTACTTCAACTACTCTGCTTTGGCAAGTAACTCCGTTAGCACCTCTACCTATTATTCTATATTTGCTTATTCCAGGTTCACTTATAGTAATTGTTTTTTCTTCGTGATTATCGGAATCAAATTTAACCCAACCAGCTGCAGTTTGTTTTAGAATATCAAAACTTTCTATTTTGGTAGGTTTTTTAGCTTTCAATATTACATCTTGATTTGTCCATATATTAGCTGGTGTAGCCTGCAGTATATTATCACAATTTATTATCTTTCCCATATTTGGATCTGCTGTACTTTCTATAACTTTATTTTTATAATTAGGGCAATTCAAATACGTTTTATAATCATATTTTTTCTCGCCTGTTTTGGTTATTACTACATAACTTTTTTCATCATAAGGCTCACTGGCATTAGGATCACATACTTCTTTAGCATAATCTTTTACTTGTTCTATATAATCCTCACTTTGTAAATCAGCTAACGCGACTTTATTTGATTGACCAACTCTAATAGGGCGTTCTCCCTTATGGTCATTATAGTAATCCATTCCAGCTGCTACCACTAATTTATCTATTCTTCTATAATAGCTTTTTTCTAAACTCTTCCGTACACCACTTACACCCATTATAGCTAAAGTTGTTAAAACAGCTACTATAGCTAAGGTTGTTAATAGTTCTACCATTGTAAAACCTTTTTTATTCTTCACTATCATCACCTACTTTGTTATTTTCTTTCTTTGTATTTTATAAGTTGTTTTTAGAAGGGCTTTATCGCTTAATAACCTTTTAAAAAATTTAGTAAGTTTAATCCTTCCTCCTGGGATTATTTCTCTTTTATGTTTAAACATTTCTTCTACGGCATATTTAGCTACTACATCAGCCTTCATAGCTTTAACCCCAAATTTGACATTAGCTACTTTATTAAAATTAGTGTCAACAGGTCCTGGTGTTAAAACTGATATATGAACATTACTCTTATTCTTCTTAAGTTCATACCAAATACTATTAGTAAGGCTTAAAACATAACTCTTAGTAGCGTAATAAGTTGCCATTAGAGGTCCTCCTGGCAAGAATCCTGCTGATGAGGCAACATTTAAAATATATCCTTTATCTTTTTTAACAAAATCACGCAAAAAAGCTTTGGTTAGAATATGCAAAGCTTTTACATTGGTCTCTATCATCTCTAATTCCCGAGATAATTCTAATTCAACAAAATTACCACATAAACCAAAGCCAGCATTATTTACAAGAATATCGATATCTTCTCTTCTCGTTTGGACATAAAGCTCTTTAGCTTTTTGTTCTGAACTCAAATCCATAATAATGATCTTTGATTTAGTTTTTAATTCTTTTTGTAAGGTTTCTAGTTTTTCTTTATTACGGGCTACTAAAATAAGTTCGTACCCTCTATTTGATAAGCATTTAGCTATTTCTCTACCTATACCACTAGAAGCACCAGTTACTAAAGCCTTCAATATTTTCACCTTCTTTAATTCTTGATAGTACTACTTTCAAAATAATAGTTTTTATTATCTATATGGAAACGATATTCAATAGTATTAGCTTTATCTTTATCCATATAATCATCAATATTAATTGTACTATCATTAATTGAGTTGGCAGCTACTGTCTTGCTCTCAATTAATCTAGTTTTAGCATAATCAGAATAAACATTAATTATTACATTAGAACCTGAAGGTTGCTGAGAAGTATAAACTACTCTTTCAGTTAATACTAAAGTATTGCCTTTTTTCTTAGCCTTAGTCAATTTAGTATAAGCAGTCTTTATTTTGTTCTTATTAGCTTCTGCTGTATCAAAAGTAGATTTATATGATTTTAGGTTTTCATCATAGACTAAATTCACCATATTACCACCATCTTTACTAAATGGTAAGATAATACGATAAGATCCTTCTCTATGATATGGTATAACTTTACCAAAGAATTTTTTAAGAGCTTGTTCAAACTCATCAATTGATACCGCATAGATTTTCTTGCCATCTTGCGTTTTACCAGTATCTAAGAAATTATCAGTATTTAAGAATTGAGTAGCATAGAAAATCTTTTCAGCATTATCAAAGTTATCAAGAGTTACCTTTCGATTAGTTAAGAAATAATCTTTATTATTGGCATTATCTCTACCATAAGTAACATAGTTATAAGTAGTAACTATTCTTGGACTCTCAATTGATAATGTCTCTTCAACATTACTTGCTGGTGAATTTTTATCTTCCTTTGGTTTAGATGAACTATTTTTACCAATCATATTAAATAATAGTACCAAAAGAACAATAACTACTATTGCTCCAACAACAATTCCTATTAATTTTAAAAGTTTAATTATATTCCCCTTTTTAGGGTTATTTTCTTCTGTTTTTATTTGGTCATACATGAAACCATCTCCTACTTTAATTAAATTATATCATTATTTAGAAACTTTGTCTTAATTTTTGTCAATAGATATGTAAAGTATAATTACAAAAAGATTACTATATTAGTAATCTTTATTAACCATTTTTAATACAACTTTATTACTTAAGTTGAGTTTTTTAATAACTCTATCTAAATCTTTTTTATTTAATCCTTTAATAATTTTTAATTTGTTATCAATAATCTTATTATATCTGACAATATCCATAAAAATAGAATCAGCAGCATTATCAACGTTTTCATAACTTCTTACTAAATTAGCAATCCATATTTTCTTATACCGATTAAAGTCATCAGTACTTATCTCAATATTTTTAGTGTATTTTTCAAAAGTCTTGATAAACTTATCTGGTTCTTTAGTGGTAGCATATACATAAAGGGTTTTAAAACCATCAACTGTCTCAGAGAAAGTACCAAATGAAAGAGCAATATTATTCTCTACTATTTCTTCATAATAATCACTACTACGTCCTAAAACTACCGCAATAATCATATAAAGATAATAATCTAATTCGACTTCATTTTTAATTGGATAATCCTCTGTTTTAGTCTTAAAAGCCATTCCTACTTTCGGAATTTGGACATTCATTTTTATTTCGTCTTTTGCTTTAGCAACTGTTAAATCTTCCTTATAATCAATCTTTTTAGGAACTGGATAAGAAGTAATACCATCAAAATTATGATGAATTATTTCCATAGCCTTTTTAACATCAATATTACCTGTAGCAATAATGAACATATTACTTGGTTGATAAAAAGCACTATAACAGCGATATAAATCCTCTTTAGTTATCTTTTCAATATCTTTAACACTACCAATAACGTTATTCTTTCTAGGTAAGTTTTTGTAGGTATTTTTCCTTAAGGTATCCGCTAAAACACGATCTGGATTATCAAGACCCATATTAATTTCTTCTTTAATAATACCCTTTTCTTTAGCGACGTTTTCATCAGTAAAATAAGGGGTATTTACATATTTCAATAGAAAAGCTAAGTTCTCTTCATAATTAGTAGTACCTGTAAAATAATAAGCTGTTACATCATAATTAGTAAAAGCATTAGCATCACTTCCTTGTTCAGCATAGAAAGTAAAAGGATCTATTCCTTCTTCTGTTTCAAATAACTTATGTTCTAAGAAGTGGGCAATACCATTAGGAACCCTTACTTTTTTCTTCTTACCATTAGGAACAAATTCTATTCTATCTGATCCGTATTTAGTGACATACATAGTAGTATAACTACTTTTATTTTTGATTGGACACAAGAAAACTTCTAAACCATTTTTTAGTTTTTCATAGAAAATAGAAGTATCTAATCCAGTTAGTTTTATTTCTTTCATGAAACATCACCTTCTAAACAATAGATAGTATCCATTTTAATTTTCTTAGCTAAAGCAATGATATCTCTTTTAGTTACTTTCTTAATCATTTTTTTAGCTGTTTTAATATCATCTTCACCTAAAGTATCAATACTATAATACATATTAATAACATTATAAGGATTCTCTTCTACCGTATTCATATTAGATAAAAGAATAGCTTTAGATTTTTTAATATCCTTTTCTGTTAAATGACCTCTTTTAATTTCAATCATAATATCATCAACTAAACGAATTACATTTTTCAAATTCTCTTTAGATATTCCTGCTCTAATTAATAGAGTATGATCTAATTTATATGAACTAGAATAAATATAATAAGCATAGGAATATTTTTCTCTAATAATCTTAAAAAGCTTACTATCGCCAGTTGATCCTCCTAAAATTAGATTGTATACAGGCAAAACATATTGTTCTTCAAATTTAGTTAGCTTTTTAATTCGACAACCAATAGTTAATTTAGATTGATTATGATCATCTTTTTCAGTAATAATTAATGGTTTCCTAAGAGCTTTTTTCTCTTCTAAATAAAAACCTATTCTTTTCTTCTTTAATACTTTAGACGAGAAGTTAGTAGTAATAATTTTTTCCATTTCTAAAAAATTAATATCTCCTACTACATAAACATCCATCATTGAATTATCAATCATATCTTTATAGTGTTTATACAAATTAGTAACATTAATATCTTTTAAATCTTCTAAATAACCGCACATTCTAAGAGAACTAGGTCTTTTCTTATCCATCTCTTCACTTAATCTAATCGCACTAAATAAGGAAGTGTTTTCTTTTAGACGTTCTAAATACTCTTTATTATCTTTTTTAATAATATTAACTACTTTAGGATTAAATCTTCTACTTTCAACATCAGGGTTATACATAACTTCACTTAACAATTCAATTGCTTCCTTGGCATTACCTTTTTCAGTATACTTATCATTTAAAATATCAATCGAAAAAACTGTCGTTAAGTAATTACCAAAACGATAGTTATTGACTGTGATATTGGAAGCATATAGTTCTTGTTCCCTAATATTTAAAAGTTTATTGGTATTATAAGTCTTAGTTGAATAAGTTAAGACATCAGTTAAGATATTACGCATAGTAATATCTTCTCTCTTAATAGGTTTCTTTAAATATATTTTAACTACTACTTCTTTAAAATTATCAGTCTTTATTAAATGAATATTATATGATCCTTTATCAATCTTTTTATATTCCATTGTCTTCTTCTCCTCTTATTTATTATGTCCGAGTTATAGTTTTTTATTAAATAGAATCTAGGGCCAATAAAATCATATCATTTAATTTAGTTTCCCGATCCCCACTAGATATTTCAATATTACTAAAAGATGAATCTACTATCGTTAGAATAGAAGCTGCTTCTTTATTGAGATGTTTAGCTATTGCGAAAAGAGCTGCGGTTTCCATTTCAGAAGCCAAAGTATCTAAATCAGCTGGATAATTCGCAAAATACTTTTCCTTATCAAGATAAACATCAAAGACATCAGAAGTTATAATTCTACCTCTTTGATAAGATAGATTCTTTTCTTTAGTTATCTCTTCTAATTTATTAGTAAGTTCTTTGGTAGCATAATACTCTTTTTCTGAATCATCAAAGAAAAGTTTAGGATATGCTGATAATGTGAACGCACTATCAGCAATAACTATATCTAAGACATTAACTTCTTTTTTATTAGCTCCTGCGGTACCTACTCTAATAATTTTTTCAACATCATAAAACTTATATAGTTCATAAGCATAGATACCCATACTAGGCATACCCATACCAGATGCGAAAACAGTAACTTCTTTTTCCTTATATTTACCAGTAAAAGCTAACATACCCCGAACATCATTTACTTCTTTCACATCAGTTAAAAAATTATCCGCAATATATTTAGCTCTTAGGGGATCCCCAGGCATAATTACTGTTTTAGCAATATCTCCTTTTTTAGATTCAATGTGTGCAGTCATTTTTACCTCCTACTAAATAAAGAGAATTCCTTCTCTTTATTCTTCTTCGTCTCCTTCTAATTTGATTAATACTTTTCGTGGTTTAGAACCATTTGCTGGTCCCACTATACCTCTTTCTTCTAATAAATCAATAATCCGAGCCGCTCTATTATATCCTAGTTTAAACTTTCTTTGTAATAAAGAGGCACTAGCTTTACCATTTTCAATAACAAATTCTACTACTTCATCATATAAAGGATCATCATCACTACCTTGTTCAGCTTTAGATGAAGTAGCTTTAGGACTAGCATCCAACTTCAATAATTCTTCATCATAAGAAGCTTTTTGCTGATTAATAGTATGATCTATTATTCGTTTAATCTCTTCATCTGTGATAAAGGATCCTTGTATTCTAGTTGGTGTATTCATTCCAATAGGTAGATAAAGCATATCACCTTTACCAAGTAGTTTTTCAGCACCAGTTTGATCTAAAATAGTTCTAGAATCAACTCCAGATCCTACTGAGAATGATATTCTTGATGGAATATTAGCCTTAATAAGACCAGTAATAACATCAGTAGATGGTCTTTGGGTCGCTACAATTAAATGCATTCCCGCTGCTCTAGCTTTTTGGGTAATTCTAAGAATAGAATCTTCTACTTCTTTAGCCGCTACCATCATTAAATCAGATAACTCATCAATAATAATTACTACATAAGGCATCTTCTTCTTTGGTTCATCTTTATGTTTAGCATTGTATTTATTAATATAATTATTGTATCCTTCAATATTCTTAGTCTTAGTTTCATTAAATTCTTCATATCTGCGTTCCATTTCTGCTACCATCTTGGCAAGAGCAACAGCGGCTTTTTTAGGATCAGTTACTACTGGACACATAAGATGAGGAATACCATTATAAACCGATAATTCTACTACTTTTGGATCAACCATTACTAGTTTTACTTCATCCGGTTTAGCCCTCATCAAAATAGAACAAATAATACCATTAACACAAACTGATTTACCACTACCTGTAGTACCAGCAATTAAAAGATGAGGCATCTTATTAATTTCACAAACACCAATTTCTCCCATAATACTTTTACCTAGAGGTACCATCAGTTTTTTATCAAAAGCATTCTGCATTTTTTTACTATTAATTATTTCATAGAAACTAACTGGAATTGGTTTATCATTAGCAAACTCAACACCAACAGTATTCTTACCTGGAATAGGTGCTTCAATTCGAACATCTTTCTTAGCTAAAGCTAAAGAAATCTCCCTATTGATAGCTAAAATACGATTAACACGAGTACCACTAGCAATATCTAATTCATATTGAACAACAGATGGTCCAACATGAACTTCTACAACTTTACCAGATATCTTGAAATCATTAAGAACTTTCTCTAAAGTTTCAATGTTCTTCTCAATAATAGCTTCATTAGCTTCTTTTTTAACCGCTTTTGGTTTATTAAGAAGATCCATACTTGGTAAAACATAATTAGCCATAGACCCCTCTTCTTTAGGAGCATCTTTTTCTTCAAGAGGAACTTTTTTCAATTCATCAATGCTAGAAATAACCATTTTTTCATCTTCGTCACCAGCACTAATCTTAACATCTCTTCTTTTTCTTTCTTTTAGGCCCTTATTCTCTGCTCGTTTTTCTCTATATTCAGCAAAGGTTTCTTTTAAAGTTTCCATAATAGAGAAACCAGTAAATAGTGCTAAACCTAGGCCTACTAAAACCCAAGATATGATCTGCATACCAGTAAATGAGAATAGTTTGTCAAAGAGAATAGCTAGACTACCACCAATAATACCTCCACCGACATCAAATAGATTCTCAACACTACCATTATTCATAATTGAATTAAAAGACGCAACCAATTCATTAATGGTTTCTTTGAAAATAGCCGCCATATTAGAATCATTTTCTAAGACAAAATCTTTATGCATCATGATTAAAAGACCAATTACAATTAAATAGATACCAATCAGTCTACTTTGTAAGAAATCAGGCCACTTTCTTTTGATAATTAAGTAAAGACCTAAAATACATAAAACTACTAATAAAACCATGTAAAGAGATCCCACTAAGAAAAGAGCAAATGAGGCCAACATTCTACCGACAGGACCATATTTACCAATACCTAAAATAGCGATTAAAACAAACAAAACACCATATAGTTCTTCGCTATGTTCAAATCTTTTTACATGCTTTCTATTCTTTTTCTTTGCCATATTTATACCTCTATATAAATTATAGCATCACTAAATCACAAATGACAATAAAAAAGTGTCAAATAAAGACTTTGTTTACACATGAAAAAATCAACCTAAAGGTTGATTTAAAAATTCCTGTTTTGTAAGAATGGTGGCAATTCAAATTCATCACCATTATCATCGTCATCATCAGCATTTGTTGTAGCAACATAAGCTAATTCTGGTTCCTTACTTTTTTGTTTTCTTTTAGACTCAATATTTGATTGGAATAGAGTCTCTGGTTCTTCTTTTTCTTTTTTACTCTTCTTATCAAAACCAGTAGCAATTACAGTAACAATTACTTCATCAGATAAGTTCTCATTGATAACTGAACCAAAGATAGTATTAATATCATTATCAGCAGCAGCTCTTACTACTTCAGCAGCTTGTTCTGCTTCAAACAAAGTAAGGTTTACACCACCAGTAATATTAATTATAGCATCTGTAGCACCAGAAATAGATGTATCCAAAAGTGGTGACGCTACAGCTTGTTTAGCTGCTTCAATAGCTCTATCTTCACCCATACCTATACCAATACCGATAATAGCTTTACCAGATTTCTCCATTACAGCTTTAACATCGGCAAAGTCTAGATTGACAAGTCCTACTACAGCAATCAAATCAGAGATAGATTGAACACCTCTTCTTAGAACATTATCAACCTCTTTAAAGGCTTCTAACATTGGTGTTGACTTATCAACTATTTCTCTTAAACGATCATTAGGAATAACAATCAAAGTGTCAACATGTTTTCTTAATTCACTTAAACCTTTTAAGGCATTTTCCATTCTTCTTTTTCCTTCAAAGGAGAAAGGTTTAGTAACAATAGCTACTGTTAGTGCACCTAAAGCTTGAGATATTTCAGCAATTACTGGAGCAGCACCAGTACCAGTTCCTCCACCCATTCCACAGGTAATAAAAACCATATCAGCACCAGCTAAAGCATCTTCAATCTCTTTTTTAGATTCAATAGCAGATTCCTTACCAATTTCTGGCATACCACCAGCACCTAGTCCATCAGTAAGAGATGCTCCTATTTGAATCTTAGTATCAGCTTTAGAGTTATTTAATACTTGTAAATCAGTATTAGCAACCATAAATTCAACGCCTTTGACACCAGACTCTACCATTCTATTAACAGCATTATTTCCGCCGCCACCGACACCAATTACTTTTATTTTTGCTAATTGATCCATTTCTAATCCGCCTAACATATTATCCTCCTTTAATCAAAAAAGTGTCCAAACATCTTGTTTATTACGCCAGCATTTTTATCTTCATTTATATTAGTTTTAACAAAATTATCATCTATTAATGTTTCCTCTTGATCTCTAAGAGCTAATTTTTCATCATAGTATTTAATTAATCCTAAAGCTGCACTATACTTATTTTCTCTAGCTCCTAAAGTAGTCATATTGAAGACTGTTGCCTTGTGACGAAAAACATCATCAACAACATATGAAAAGCCTGATAGCTCTGTCATGCCTCCTGTTATAATTATATATCTTATTTCTCTTTTTGTTAAGTTTTTTATCTCTTTTTTTGCAACTTTTAAGATCTCTACAATCCGTGCTTCTACTACTTTAGAAATATCTAACTGAGACACTTCTTGTTTTTCATTACTATTATCAACAATCTCTACTTTATCCATGTCATCAGAGTAGTTTTCAGAAGCAGTTGCGAACTCTTCTTTTAGTCTATTAGCTGTTGTTCTATCTATTTTATAAACATAAGCTAAATCATTATTAACATGGTGTCCACCAAGAGGAATAGATGAAGTATTAATCATAATTCCTTTAGTAAATATTGATATAGTAGTAATATCTTCACCAATATTAATAATTGCTCCTACTTCTTGATCAATATCTTTATTGTGAACTGTATAATAATCCCCAATAGTTTTATAAGCCATATCAACAACTTCTAAACCAGCTAAATCAATAACACCTAACATTTGGTAAAGACTTGTTTTAGGTGAAGTAGTAAGCACTACTTTAACTTCTAGTTTTGTTCCTCTTTTCCCTTTAGGATTCTTTATTTTTTCTAAATCGTTTATTCTAAAGAATACTGGTGTTACTGTTACTAGTTCTTCTTTATTTAATATTTTTTTAGAAGCTGCTTCTTTAATTACTTCAGAAATATCACTACCAGTAATTACTTTTTCTTCTTCAAACTCTATTTCTCCTTCAGCCATATCAAATTTAGTTTCATCTTCATATACACAAGCAATTACTTTATTAATTTCTGTATTTAATTTGGCTTCTTGTCTTTTCTTTACTTCTTTAATAGCCTCCACTACTTTAGCAGCATTAACTATTAAGCCTTTTTTAACCCCGTGCGATTTAATACTATCGGAAGCTAATGGATAGAATTTGCCATTATGTTTTTTGACAGTAACAAGTTTAACTGTATCACTACCAATATCGATAGCTGTATATATATTACTCATATCTTACCTCCGATCCTTATTAATACAATTATACTATATTTTTACTTTTAAGCCAACTTTTTTCCTGCTTATTTATTTCATTATCTTAAAATGATTACCACTATCTAAGTAAAGAATACCTTTTTTACCTTCTAGTTGAGCTAAAACATCATTATAATAGTTCATCTTTTTAAACTTAGTTAATGTTAAATAAACTGAATTATCATCATCCATGAATAGTAAAAACCGGTCTTTATCGTATTGATTAGGGGTATAAGATATTTCTGATACTTTAACTAGAATAGTCGGTTTAATTGTCTTCATTTTAGTAACTAGTTTTTTATATGTTTTAGGAGGAACCTCATTAGTAAGTCTAGGTACTAATAAATCAGCATCGCTTTCAATAGCATGACCATTATCTAATACATATTTATTTTTCAAACTATCAAAGAAAAGAGGTTCGTGTTCTGTAACAGTAATCGTCATAGTGTGATAGAAACCTTTCTGAACTTTAACATCTTTAATATAAGGACTCTTCTTTAGTTTCTTTCTAACTGACCAACTAGAAGTATGCCAAAAACTAGGATAGTCTTCTATACCAGCTTCCTTCATTATATACTCATCAGTCAAATAATTTGTCTTTAAAATAGTTATATTTTTGATAGGAGTATTTAAATATAATTCCACACCCAAAAAGATTAATGCTAGAATAACTAGCATTATGAAAAAAGGTAAAAGCTTTAATTTCTTCTTCTTGACTATTTTTTTGGCCATAATTACTCCCAATTTACAAATTCTTGTTCAACTTTTAATTCGACATGATAATTCTTTTTAACTGTTTCTTTAGCAAAATCAATTAAATACTTAATATCATCACTACTGGCATTACCCATATTAACGATAAAATTAGCATGTTTGTCACTAATCATAGCGCCACCTTTTTTAAGACCCTTTAAACCGCTCTTTTCAATCAATTCACCAGCAAACATTCCTTCAGGATTACGGAAAACACTACCAGCTGAAGCATATTCTAATGGTTGAGACGCTATTCTTCTTTTTCTTCTTTCGTTAATAACTTCTTCAATAGCTTCTCTTTTACCACGAGCAAGTTTAATAGTAGCTTCCAAACAAACATATTTAGGATGTTTCTTTAAGAATGAAGTTCGATAATGGAAATTCATTTCTCTATTAGTCATAACAATTATTTTTAACTCTGGTGTTAATACTTTGACATTAGTCACAATATAACCCATATCACTTTTATAAGCACCAGCATTCATAAAGACAGCTCCACCAATTGTTCCAGGAATACCAGAAGCAAACTCTAATCCAGTTAAAGAGCGTTTAGCTGCTAAATGAGATAAACGTGGTAATGATACTCCAGCACCCACTGTTACTTTATTACCGTTCCATTCTATTTTATTAAATTCAGTTAATTTAATAAGAACTCCATCATACTTTTTGCTACTAAACAAAAGATTAGAACCATTACCTAAAATCTTATATTTAACTTTATAATACTTAATTAAATTAATCAATTCTACTAGTTTTTCTTCATTTTTAGGATAGACAATAGCTTTAGCTATTCCTCCTACTTTATAAGTAGTGTATTTACTCAAAAAAACATTTTTTTCTACCTTACCAATATTAGAAGAAATAACTTTATTTAAAAATTCATCCATGTTATTTCCCCTCTTTCAGTTTTACTATTTCATCATATATTTTAGAAGCACTATCTTTAACTCCTAAACTTAGTGATCCTTTTTTCATCTTTTGATATAGTTTTTCATCACCTAGTATTTCCGAAATAGTAGTTAGGACATTTTCCTTATTAAAATCATCTTCTTCAATAATTCGACAGGCATTATTTTTTTCTAGTTCTTTAGCATTTTTAAGTTGATGATTATTAGTAACATATGGTGATGGTACTAAAATAGCTGGTAAGCCAATAGAAGTTATTTCAGCAATAGTTGAAGCTCCTGCCCTAGAAATAATTAAATCAGTATCTTTCATAATAGAAATTAACTCATCAGAATAAGGAATAATTAAAACATTTTTACCATGTTTAATGTTTTTATACTCATCATAGTAATTATTACCAGTTATTAATAATACTTGATAAGCTTCTTTATCAAACTCTGGAATTAATTCCTTTAGCTTAGTTGTCATTGTTGTAGAACCTAAACTACCCATGACAATAACTACTAATTTTTTGTCTTTAGAAAAACCATATTTAGTACGACTAATACTTTTAATCTTAATAATCTCTTCACTACGAGGATTACCGGTATAAACCACTTTATCTTTTAAGTCATCTTCAATATAATCTAATGTTTCTTTTAGAGAAACACATAGTTTATCTACTTTTTTAAGAAGCATTTTATTAGTCATCCCTAAAACAGCATTTTGTTCATGGATTATAGTTTTATATCCCAATTTGGTAGCAGCTGAAATAACTGGAGCAGTAATATAACCACCAACTCCAATTACAACATCAGGATCAAAATCTTTAATTACTTGTCTTGCCTTTTTCAAAGCTTGTTGATACGTCAATAAAACTTTTATATTCTTGAAAATATTCTTCCTATTTATTCCCTGCATAGCAATACCCTGGTAATCAATACCCATTTTAGGAATAATATCTTTTTCCATTCTATCAGTAGTACCAATATATAGAAGTTGCAGATTCTTGTCTTTTTCTTTTAATTTATTGATGATGGCTACTGCAGGATAGATATGTCCCCCGGTACCACCAGCAGAAATAATTACTTTCATTATAATCACCTTTATATTTATATAGTATTTTAAATACTCTTAATCGTTACTTTAATTATACCTTTAATTTGATTATAAGTAAATAAAAAACAGTCGTTAGACTGTCATGTTTATTCACTTTCTTCTACTTTAATAAGGCCATGATAATGACCATCTTTATCAAGATTTAAATTAGTGTCTTTATCAATCCATAATCTAATAGTATAATCAGCTGTTTTACCAGGTTCAATAATATCAGTAGCTAAAACACCGTTTTCTAATTCATTTAATAAAACGATATTATTATGTTCCTTATCCTTATGATAACCAAGCTTAATACTTTCTATTGGTAGTTTAGTATCACTGCATCCATCAAGATCATACTCTTCTTTATCATCAAGAATCTTAACAGTATATTTCAAATTCATCTTACTGTTGTTTTTAATACTAATCGTATATCCTTTAGATGAAAGACCTAAAGCATCAGTTAATGGATTTACTTTAGTAATACTGATCTTGTCTTTTTCTTTTTCATGAAAAGTTACTTCTAAATTCTCAACAGGAGTAACTTGATCATTCTCTTTACTAAATTTATCATAAATAAATCTAGTAGCTACTATTGCGAAAAGTAAAATAAAGGCAATAACAATACCTCTTTTGAGATAATACTTTAATAAATACTTATTCATAAAGCACCTCTTTCTATAGTGTGTCTGGAAGCTCTTTTTTAGAGTGAGCATACTTAATATTTTGACTACTTAAAACTTCATTATTTAACGATCTAGTATCTATTTCTGAAGATAGTAAATCCTTAATATATTCTGCACTAGCTTCAGTGGCATAAACACTCTTCATATTTTTAATAAGTTCATTTAAATTATCAGCTTGTTTAGTAAATGCTTTGGTAAGATCAGCAATGTTTTCTTTACATAAATCTATTTGTCTTTCCAAAGCTAATATTGTATCTTCGGAGATTAATTGATCTTTCATAATGATACCTCCTATATAACATCTATTTTTTCAAAATTATTATTAATATTCACTAGATTACTATTATCACTTAAAACATCTTCCACTTTCTTAACACTTTTAGCTATTTCTTCAGAAACACTATCTAATTGCTGTGGTTCTAAGTTAAATTTATCTAGATTTTCTAGTATTTTGAAATGAAGAGGACTATTAAGATATTCAACAACTCTATCATATCCATCTATTTTGACATCCCAAAAAGATTGGTCCATAACTGTAGAAGCTAAAGCATTACCAAAAGCAGAAGTTGGTGCTTTGGTACCATCACACTCTTTTAAAGCGTTGATGGTATGGGCCAAAAGATTAATTTCATCAACTAGATTAGTATAAGTATTCGTAAGGTTGTTTATTTCAGTTCGTAGTACTTTGGATACTTCACTTATTCCTTTTACCGATACTGTACTTTCCATAGTCTCTCCTTTTTTAATATACTAATATTATTATACAAAATATATTTCTTTTTGAATATAGTTTTCCCTATTTTTTTTACATTAATTTACAAAAAAAACAAAACCACTATAATAGTGGTTTTATATCAAAATGGTACCCGCGAGGCGACTCGAACGCCTGACCGATCGCTTAGAAGGCGATTGCTCTATCCAACTGAGCTACGCAGGCATATAGCACAGATACATATGAATTATACACTAAAAAAAACTATTTTTCAAGTTTTTAGGGTAAATCTTTTCTAGTTATCTCTTTTATTTTTTGACCATTTACTTTAAATACTACTTTCTCTTTTTCCAAGGTTTCAAATACTGAATATGATATTGAATAAATAACTTCTTCTAAAATTTCCTTTTTACGGTCAAAAATACCCGAATCAAAATCTAGAGTTATAGATGTATCATCTTCGTCATAACCTTTTAGATGAGTATTATTATTTAAAAAGCTCATTAGATTAGGTTCATAAATATAACTACTAGCTAATTCATCAATAATAACTTTTATTTTTTGATCTTTAGTATTTAAATACTTAGTTACTGGGACATAATAATTATTGCTATCAATTTCTTCTAAATAGTATAAGACTACTTTTTGTGTATCTTCTCTTTTATGGATATCTATTCTTTTATTAATTCCTATTTCCCGAGTTAATACTTCCGGTAAAGGAATATTAGTATTGGGATAAGTTTTTAAAACTTGATCTTCTACTAAGATTTGAACTTCTTTAATATCAGCGATATCAGTAATACTAAATACTAAAGATTCTATTAGTTTTTTAGAAAGATGAGGAGTTATGTTAAATAGTTCTTTAGAAAAGTTAAGTATTGCTCTTCCATCTTTAACATTGATACTTTTTATTTTGGTATTTTTAGGAATTGTTCCTCTTAAACCAGTTGGTTTTAATGTTTGAGAATCATCTTTTAAAATATTTATAATCTTGCGAATATTCTTTTCATCAGATTCTTCATCTAAAATTATTCTATTTTTAACTAAATATTCATTAGAATCCATTAAATAAACACTGTTAGTTCCCAACCCTGATAAATACTCTATTTCTAAACCAACCGGTAACTCTTCTTCTTTATTGGTAGGTAAAAAATAAATAGTCATAAGAACAAATGCAGTTAGGGTTGTTATAAAGATTTTTCGAAGAGCCTTTTTCTTAAGCATTGTATCACCTAAAAAAGTATATGAAAAAACGCACTAAAAAAGTACGTTTATAAAGATATTTCATTTAGTTTTAATAATTCAACTACGGCACTAGCGCGACCACTAACACCTAGTTTCTGCATTGCATTTGATATATGATTACGAACTGTTTTTTCACTGATGTTTAACTCAGTAGCTATTTCTTTAGTTGTCATATTATCAACTAAAAGTTCAAATACTTCTCTTTCTCTATTAGTTAAAATTCTTTTAACCATTTTTTCACCTCTTTATACTGAATACCTATCAATATTTTATGAGGTGAAGTCATCTCCTGTTAATTCTTATGCCCATTTTGGAATTTAACAGTAGTAAAGACTCGTTCTTGATACTCTTCTTGAATAGTTCGCATGATATCATTAGCTAAAACTTTATCATATTTATCACTAATAGCGACTACAGATATATTACTATTATCTATTTTAACAAAACTATCTATTTTTAAGTTATCTTTTATTTTATTTTCTAATTTCTCTTCTTTACCCTTTAATCCATTTAAATACTTTAATTGTTCATAAGCATTATTCTTTTCATCTGCTGTTAGATCTTTATTAGTTAATTGTTCTTTTAAAGTTGTAGTTAATTCTTCCCTTTCTTCTTCTAGTGATACTCGCATAGCTTCTAATTCATTTGTCTTTTTAACTTTAGCCTTTTTAAGTTTACTTTTTTCTACTACTTCTTTAGTGTTTTTTAAAACTAAGTCATTAGGCATTGTAATATAATATACACTTAGTACTAATATCAAACTGAAGAGTGTTAAAAACCACAAATTTTGTTTATTAATCATCCGAACATTTCCTCACTTTCTAATTAAGTGTATGATTAATTAAATAATTTAGAACTACTTTTTAAGACAATAAAAAAGCGCTTAATGCGCTTTAAAACTATCTCAAGTCTTCTAAGAAGTGATCAAGTTCTGATTCATTATCATAGCTATATAAGTATTTAGTAGTATAACTACTAGCATAGTTTTCAACATCAATTGCGACTAAAAGAGATTTCTTATTATCTTTATTTGGTACATAGACAATATTTAATAAGTCTCCTTGATTAGTAGAACTATAGATATTATCTGAGATTGAGAAACTATAACCAGGACAAGTAACCTCATATTTTATTTCTTCTACTTTAGAGGCTGCTTTTAGTTTATTAAAGACCTTAGTAATAGAGTCTTTAGAAAGTATCTTATGGGTTTTATCAAAAGCATTACTACTGCTGGCATCAGCAAGTTTACAAGTTGATAAATAAGGGTGGGTACTCTTAACATTATCCATATAGTCCTCTATCTTAGCCTGCATACCATCATAATCAAACTTAGAGTTTTTAGCAACCACTTTTTCTTGTTTTTTTTCATCATTACTAGGTGGTACTGTTTCCTTTTTATAAGTTGTCTCTTTCTCTTTTGGTTGATAATCAGCTACAGCATCAAAAACTATATAAGCCCCCATTGCTAAAACTAATAGCCCTAAAACACATACTACAATAATAAATATTACTCTTTCTGTACTCTTCATACTTCCTCCTTTATTTTATTATACAATAAAACATGCTCTTAAAAAGAGCCTAAGCTCTTGATGAATATTTACCATTAGCAGTACTAATAAGTATTTTTTCTCCCTCTTCAATAAATAGAGGTACTTTTACTACTAGCCCTGTTTCTACTGTAGCATCTTTCATAGCATTATTAGCAGTATTACCTTTAACAGCTGGTTCAGTGGCTGTTACTGTTAATTCTACTTTATCAGGTAAATCGATACCTAATAGTTCTCCTTCATAAAGGATAACTTGGACATTCATGTTTTCGATTAAATAATTCGTGGCATCACCAATTTGATCTTTAGAAAGTTCTAATTGCTCATAAGTATCCATATTCATGAAATAATAAATATCACCAGTATTATATAAATACTGAACATTTTGTTTACTAATATTTGCTCTAGCAAATTTTACATTAGTATTGAATGTCTTATCAAGAATACCTCCAGAACGAAGATTTCTTAATTTAATCTTCATAAAAGCAGGACCTTTACCTGGTTTTACATGTAAAAATTCAACTATTTGATAAATCTCATTATCAATCATAATAGTCATACCATTTTTAATATCATTTATGTTAATCATCTTTTACACCTTCTATTTCTTTTCTTTATGAGTTGTATGTTTTCTACATTTTGGACAATACTTACTTATTTCTAATCTATCAGTAGTATTTTTAACATTCTTATCTACACGATAGTTTTCTTCTTTACATTCACTACATACAAGTGTCTTATATTGTCTGTTTCCTACTTTTGCCATAATATCACTCCTTTTTTATCTGCTAGTATTATATCAAACTTTTCTTTTACTAGCAATCTTTTTTTAATATCCGTACATATCAAAATATTTAGCTGTTATCTCCTTAGAGATTCTCATTGTAACTAAGGAAGCGTAATCACTCTTAGAATTTGGGTAAGATGAGTTTGGTGAAACAACAGTAATAGTAAATCTTGGGTTAACTGAAGGTACATATCCTAAGAAGGAACTAGTAATAGTTTCTGTATCAATTCTACCATCATCATCAGTATCAATAAAGCTTTGAGAAGTACCAGTTTTACCTGCTGAATCATGGTCATAAGCTACATAGCCACGTCCATAACCATCACCACGCATAGTAACCGCATGGAACCCTTCTTTAACTCGATTGAAGTATTCATCTTTAGTATCAACTTTATTTAACACTTCTCGTTTAGATTTATAAATGATTTTACCTAAAGCCTCCGTATTAGTTGCTTCATGAACTTCTCTTAACATCTGCGGTTTAATTCGCTCTTTGCTATCACCAGCAAAAGTTGTTATATACTGGGATAATTGCATTGGAGTATATGTTTCATACTGACCCATAACATAATCAAGTAAATTACCTGATGATTTGTCTTTTCCTTTACCGGAAACACCTATTGATTCAACTGGTAAGTCTATTTCTGTTTTAACTCCTAGTCCAAAGGAATTATACATTTTTCGATATTTATCAAAGACATCTTGTCTAAAAGGAACATATACACCATGATAATATTCTACTCCTGAAAGACGCATTGCGATTTTAAATTGATAAACATTGGAAGATTTAGCTAAAGCTGTAATATCATCGATAGTTCCTAAGTTATCAACAGAAGAACACTTCTCTGGAGCTCCCGATATTTTAACACATTCATCACGCATGTACTCTCCTATTTCAACTCCACCGTTATTATAACCAACTAGCATAGAAGCTCCTTTTACAACGGAACCTGGAGTAACTGGTGAAGTAAGAATAGCTGGAGTATAATCTTTAGCTACCCAATGACCATTTTCTAAAACAGCTTGTTTACCACTAATAGCTAGTATTCCTCCATCTTTAGGATCTTGTAGAATGACAAATGAATGATCATAGTAAGCAGTGTTTTGTTCTCCTTTAGTACTAATTACTTGTTGAGATAAAATACGATCTACTTCTTGCTGAAGTTTAATATCAATATTTAAAACAATATCGTTTCCTCTTTTACCTTCGCTTATTAAAGATAAAGTTTTTGAATTAACAACTTCGTATTTTTCTTTAGTACCATGTAAATAGTTTTCATATTGTTTTTCAATATAACTTGTACCAACTCGATCACTTAGGCTATAACCATTAGCTAAATAATAGGCTTTTTCCTCAGCTGGTAGTCCTTGAGTAGCTGAAGAAACATTACCTAAAATAGTTTTTAAAGTATCTCCATAAGGATAAGTTCTTTCCCAATCTAGTCTAGTATTAAATCCAGATAAATTATTACTATTCTCTGTAAAATAAGCATACTCTTCTTCTGTAACGTTAGTCTTAATTATCTTATCATCATAAGCATAGCCTTTATTCATTAAATAATAAATATAAGTTGCTTTATTATCATCATTAGTAAAACTATTTAAAATATTATCTGTTATTCTTTCTTTTTGTCTTTTTAAGATATCACTACTAGTAATTTTTCTTTCTTCTAAAGCAGTCCATTCATTTTGAGTAATTAATTTCTTAGCTTTAGTAGGATACTTTTTTAAATAAAAGTCTTTTTTCATATCAATAGTTAATTTGGAAATATCCAATTCAATATGAGGTGCAACTAAATAAGCTAGTTCTATTTCTTTTTTAGTAGTATTAGTTTTTTGTTTTTTATAATAAATAGTTTTAACCGCAACATTATCAACCAAAATATTATAGTTTCGATCATAAATTCTTCCTCTTGGTGATGATGGACCTTCAACATCATCATAAGAAAGTTTAGTTAGTTTCTTTTCATATTCTTTTTTATCAACAATCATTACTTGAAATAATCTAGTTATAATAACTAAAAAAACAAAAATAGTTATCCCCAGCAAAAAAATACTCCTCCTAGACAAAATTTTGTCAAAAGAAGTTCTTTTCTTACTACGATTAATTCTCTTTGTTTTCTTTTTAGCCATAATTTTCCCCCATCTATAGTTTATCACATAAATGGAAAGTTATTTCATATATTTTTAAAAAGGAGAAATTTATGCCTAATGAATTAATAAAAAAATATATAAACTTACTTACAATTGACCATATTAAAAAGTATGCCTTAGCTAACAATATAAAAATAACTGCTGATGAAGCAGCAGTTATTTATAGTTTTATTAAGAATAATTATCAAGATTTATTAACTGGTAATATTAATAATTTATTACCATTAAAAGAAAAGATAAATTCTAATACTTATAATAATCTAGTAATTCTTTATAAAGAAGCTTGTATTAAGTATTTATGACTTTAAAACCTTTTTATATATTTCTACTAATTTTTTACCTACTTTTTTAATATCTCTTTCTGAAGCCACTTTATAACTTTCTTTAGTTAAATCTGGCAATTCATTGTTTAGGATTTTTTTAATTTTCTTTTCAAATTCATTTATGTCTTTTGCTTTATAAACATTTTTACCATCTATTAACCAATCATCAAAAACTGGAATATCTCTAATTAGAGCTTTAGTTTCACAAGCACAAGCTTCAATAATAGGAATTCCTTCAGTTTCTTCATAAGTTGGGAAGACATATAGATCACAACTATTAAGAGCTTCTTTGATTTCCTTTTGGGGAACATATCCTGTAAAAGTTAAATTAGGTAATTTAGTATTAACAGCTTTTCGTACTTTACTAGTAGTAAGATAAAGTGGTGATGAACCAAACCAAACAAACTTATATTCTGGTAAGCGTTTAGCTAGTTCTACAAAATCAATAATTCCTTTTCTTTCAATATAAAGGCCAATCGCAATAACTATTTTATCTTCTTTAGAAAAGTTATATTTTTTTAGGAATTTACTACGCGCTTTTTTATCTTTCTTAAATAAATCCAATTCAATACCATTGCTTAAAGCATAGATAGGTTTTTTAATACCATAACCTTCTAATAGCCTTTTAGAATATGGTGTTGGAGTAATAATTACATCCCCTAAGTTATAACACTTAATAATCCATTTTTTAAATAATTTAGATGTCGCTTTACTGAAGAAGAAACCATCTCTAAAATCTTCTTCTGTAGAGTGGGCATGATATACTACTTTTTTACCCATTTTATGTGCTTTTTTAGCAAAAAAATATGATTTTGGTCCATAGAAATTAATATGAACAATATCAAAATCATCATTTTTATCAGTTGTATAAGGAATACCATTTTCTTTTAAGGCTTTCTTTTGATGTTCTATAGCCTTACCAAGACCACTATTATGCAGGAGTTTTTCACCTTCGGTATATAATAGAATTTTCATACTTCTCGCCTCGTTTTAATTATATCATAATCTAATTCTTCAGTCTATTATTCAGCACTTTCAAAGAAGGCTAAATAGGCTCTATAAGCCTCATAAATATCAAATTTACTAGTTACTTCATATGGAGAATGCATTGATATTAATGGTACTCCACAATCAATTACTTCAACCCCTTTATTAGCTAAGATATAGGCAATAGTGCCTCCACCACCAAGATCTACTTTACCAAGTTCAGATAATTGATATTTTATATCATTCTCTTCAAAAATACTTCTTATTTTAGCAACAAATTCAGCATTAGCATCACTAGCTCCACTTTTACCACGAGCACCAGTGTATTTATTGACATCAAGGCCATATCCAATGTAAGATGCATTGTTTTTTTCTGAGGCTTCGGCATAATTAGGATCAATACCCACTCCTACATCTGCTGATAACATCATTGATTTATTATATATTTGAGAAAGAAGCCCTATTTCATTAAGTCCCATTTTATTTAGTACTTCATTAATAAACAAATCAAAACTTTCGGAATACATTCCCGTATTACCAACACTACCTATTTCTTCTTTATCGGCAAAGATAGCCACTTTAGTAGAAGCAGTTTCTTTAGCATTAATTAAAGCCAGTAAATTAGCATATGAACATGATCTATCATCTTGACCATAGGCAGCAATCATACTTTGATCAAAGCCTAAACTTCTAGCTTTAAAAGCTGGGACTAATTCTAGTTCAGCACTATTAAAATCACGTTCTGTAATGTCATACTTTTCATTGATTAGTTTCATTATATTTTCTTTAATTTTATCATCACTATTAGGAATACTACCAACTAAAACATTTAAGTTTTCTCCTTCAATAGCTTTTTCTAATTCTTTTTTCTCTTGTTCTTTGGCTAAATGAGGTAATAAATCAGTAATTGTAAAAATAGGATCTTTATCATCCTCACCAATATTAATTCCTATTTTTGTACCATCAGCTTTTACTACTACTCCATGTAAAGCAAGGGGAATAGTTGTCCATTGATATTTCTTAATACCACCATAGTAATGAGTTTTAAATAGAGCTAATTTATTACTTTCATATAAAGGATTAGGTTTTAAATCTAGTCTAGGGCTATCAATATGAGAACCCACAATTGATAAACCATCTAGTATATTATCACCTATTATCATGGCATAGACACACTTATTCCTATTAAGATAATAAACATGATCACCAACAGATAATTCCTCTATTTCTTCAATATTAACAAAGTTATATTCTTCTAATTTATTAACAATGAAATCAGCAGCTTCTCTTTCAGTTTTTGAAGCATTTAAAAAATCTATATATTTATCACAAAATAAATATATCTTTTTTAGTTTATCTTTAGATATATCTTTATAACCGCACTCTTTCTTATTCATTAACTCCATACTTTCACTCTCCTATTATTATTTTATCATATTATTTAAAAAACATTATTTTTTTATTTATTAGTTTACATTTAAGGCTATTTTATGTTATAATTATTAAGTCTTATGGACCCTTAGCTCAGTTGGTAGAGCAACTGACTCTTAATCAGTGGGTCTAGGGTTCGAATCCCTAAGGGTCCACCAGATAAAAATAAAGGACGATATCGTCCTTTTTTTTATTCTACCAAAAAGCTTAAAACCTTGGTCTTTTTAATCAAGTATACACTCATTAAACTACAGATTAGAATAATCAGGGAAAAACCTGTTATTCCTAGTAAGGAATTAATTTCTTGATAAGAGAAATATTTAATTGTAATATCTAAGAATATTCCATGAATTAAATATACTCCTAAAGACATACTTGATAATATAGTTATAAATTTACTTAAATGTTCCTTTTTATAGTTCGCTATTACTAAAGTATAAAGTGCCATTGAAGCAACCATAATAAATGGAGTTCTATAAGCAAAGAACAAATTATAAAACATATGATATTTTATTGAATAAATATAATTTAAAGTTACACTAATGGTGATAGCAGCAATGGTAGAAGATACTAATAAAGGATTGTATTCTCTGTTGTATTTCTTCTTAGCATAATCATAAAGGTACTTACCAATGATAAAATAACCCATATGGGAAAAGATAGTAAATACTTGAGCTATAGTATTATTAACAATACTAATAGTTGATAAAGTTATCCAAATAATTAGTAATACTATTTTTATTTTTTTATCTGTTTTATCTAAAACTTTTTTTAGTATTGGTTGAACCAAATATAATAACAGAATAGTATATAAAAACCATAAGTGAGCCCGATAAGGCTGAATTAATAGCATATATAATTTATCATAAGTAATTCCTAAAAAATAGTATTCCCATAGAAGATAAATAATATCCCAAACTACTATCAGTATTAAGAATTTTATTATTCTTTTAATATATTTTTTCTTATCAAATTTTCGATCTAGTAATAAGGCACCACTAATCATAAAAAAGATAGGGACACTTACACGCGCAGTTGTGTTAAAAAATAATGATCCTAAAAACTGCTTATTACTAATAATTCCAAAACTACGAGAATAAACATTAGATACATGAATAACAACTACTAAGGCCATAGAAATAACTCTTAAAATGTCGAAAGTATATTCTCTTTTTTGCATAAACTACTCCTTCTAGTTTCTAAAACACCTTTTTAAATTCTTCTATTGTATAAAGATTACCATCCTTTTCATATTTTACATATGAATAAGCTCCATTTTCTTTAGCAACTTTAAATACATCTTTCTTTTTCTTTAATTTCTTTTGTTCTAAAACTTCTTCATTCCACATTGAACTATCATTATGATCTAGTTTAGTAATAGTATTGATATAACTATACTTCTTTTTGTTCTTCTTTCCTTGATATAAATATGTTGTATGTACTACATCAGTAGATTCTCCTTTAAAGACAGCAATATATCCTGAAGGAATACTATTTTCATTAGCATTAAACAATACAATTACAACAGTACTTAATAAAACAATGAAAGCAATAATTATAATTATCCAAACATTCTTTTTCATAATTCACCTCATAATAAATTATTAAAGCGAATGAATATCATTCGCTTTAGAAAACTATTTTAATTTTTTAGTTCCTTTTACTCCTCTCCTAGCTTGATATCCAGCTAAGATATTACTATCAAACGAATGAGTTTTACTTATTCTTTTTTTGTAATCTTTTACCCCAATATTAATTAGATTATTTAATAATTCTGTATAATCTATATTAATTGGTTCAAATAAATAGAATGAAAGAGATCCAGGAATAGAATTGATTTCATTGATGTAAACTTTCTTTGTTTTAGAATCAATTAAGAAATCAAAACGACATACACCAGATGATCCTAAAGCTTTAAAAGCTTTTAGAGCCATAGTTTCAATTTCTTCTTGCATATCTTTAGGTATCTTGGCTGGTATTTCTCTAGCAGCTGAAGCCATTCCTTTTGATCCTTTAGCTGGAACTTTAGCTCCTAATTTACCTTTAACTTTAGAAGAACCAATATATTTATCTTCATATGTTAGGAACTTATTACTTGATAAAACCTCTTCAATAGCACTAACTGTTTGTGATTCATAGTTACCTAAAATAGCAATATTACATTCCTTTAGGTTTTCTACTAATTCTTCAACAATAATTTTATTATCATAATTAATAGCTTCATCAAGCCCATCAATTAATTCTTTATCATCTTTACAAACAGCAATACCTACAGATGAACCAGTAGTTGCTGGTTTAACAATTACAGGATAAGATAGTTTTTTAATTTTCTTTAAAACTTCTTCTTCATTATCTTTGTACTCATTATCATAAAACCAAACATATTTAGTAATTGGTAATTTTTCATGTTCAAAGATATTTTTCATATAAACTTTATCTTGTCCTACTACAGAAGCATAGACATTAGATCCTGTAAATGGTATTCCGATAGAAGTAAGATATCCTTGTAAAACACCATCCTCTACATTAGTACCATGAACTATTGGTAAAGCTATATCAATATCTGTAACTATTCTTTTAAAGCCTTTTTTATTTTGTAATACATATTTACCATCTTTGTAATATAGTACAACATTAGTGGCATATTTCTTTAGTAAACTCATATCACTAAAAGTATCAATATCCATTAACATATGTCCTGTATACCACTCTCTTTTTTTATCGATATAGATTGGTATTATCTCATATTTTTCTTGATTAATTTTATTCATGGCTTGAATAGCAGATATAATACTAACTTCATGTTCTACTGATTCTCCACCAAAAATAACTCCTACTTTAATTCTCATATATTTTCCTCCTATTCATTATATGTATCTGGTAGATCATTTTCAAAAAGTGCATAAACCTTTTCCTTACCACCAGTCAATGTTCCTATAAATTTATATGCATCTTTAACATTATTATATGTAATAATATTGTCTTTAGGATAACCTTCTTCTATTAATCCTTCATAGATAGGTTTGGTTTTCTTTTCACCAATTAAAACTACATAATTGGCATCTGAAAGAGTCGCTATCTGTTTACCTAGTTCTTTATTATAATAATCTTCTTTATCACCTAATTCAATCATTCCTGGAGTAACAACGACTTTAATACCATCAAACATTCCTAAAACTGTCATAGCACTTTTAGCACCAATTGGATTAGAGTTATAGGCATCATCTATTTGATAGAAACCTCCTAATTTCTTGATTTCTAAGCGGTGTTCTATCGGTTTAACTGTTCTTACTGCTTGAATTAGTTTATCCATTGGAATACCAAATTCTCTTCCACAGGCAATACCAGCTAAAATATTATAGACATTATGATAACCTAAAAGTTTAGTTGTAAATTGATATTTTTTCTTATCACCTTTAATCTTAAGGTCAAAAGTAGTTCCTTCGTGATTACATTTAATATTTGTAGCCTGGTAATCAGCATTTTCTTCTATACCAATCCAAATAACTTTAACTTTGTTTTTAAGTTCATATTCTACTTGTTTAGGATCATCCTTATTTAGAATAGCAAAACCATCTTCAGGAAGAGATTCAATAAGTTCAAATTTACCATCTCTAATATTTTCCTCACTACCGAAACTCTCTAAATGAGCTGTACCTATCCTAGTTAGAATACCATATTTAGGTTCTACTAGATCACATAGCTCCTTTATTTCACCTTTTTTATAGGCTCCCATTTCCGCAATAAAGATATCTGTAAATTTATCCAAAGTATTATTAATTGTCATCATTAGACCATTAGGAGTATTTAAATTCCTAGGACTTGGATAAGCATTATATTTAATGTTTAAGATATCAGCTAGAATTCTTTTACTACTAGTTTTACCATAACTACCAGTAATACCAATTACTTTTAAATGAGTCATACTAGCTAATTTACTTTTAGCCTTTCTTCTAAAATGATAAAAGACTTGCTTTTCAATTGGAGTATTAATTAACTTAGCTAAGTATACAACAAAGTAATTGAAATAACTCATGAAAGTAAGTATAACTATTACTAACCAAACTGTTTTAGGATTATCAAAATCTAAAAACATAATTAGAATTGGTATTAAGTATAAAATACTAATCGTCACTAATAATCTTTTGACTCTAGCTGTATAAACAAGAGGTTTTTTATTCTGATTCTTTCTTTCAATATTCATAATTGTAATAAAGCTCAAGATGTAAATAATCATTAGGATAAAGACCATTATATTGGTATAGACATGGTCTCCAGCAAACGTATAGTATGCATATAAACTAGTTATTAATGCTACAAGTTCAATATTAAAGAACTCTTTAATATTCTTAAAAACCCATTTTAAATAACGATTATTCTCATTATATAAATTTTGTTGAAGCATGTGTAAAGCTCTGGTAGTCTTCTTAATTACTGCGATTAAGAATAAAAATATAAAAGCTAAATAGAATAGTCTAGTCATATTATTTACCTCCTAAAAAATTATTTAAGATACTAATTACTTGATTTAAGTTTTCTAAATAAGCATAATGGGTTCCTGGTAGTACTATCAAAGCCGCATCTATCATTATTTTTTCTAAATCCTTAGCATATTTTAAAGGGGCTTCAGTATCATTTTCACCCCAAATTAATAAAGTTGGTTCTTCTATTCTTCTAGCATATGGTGATAGGTCTTCATTAACAGTATTGACTAATATTTCTCTCATCATTGGTGAAGCTGCTTTATAATCACGAGAACCAATATACTTTTTCATGTATTCACCAATACCATTAAGACCTGGTAAAGTCTTTAGCTTCTTTAGTGTTTTAGTCTTTAGTGATAACTCTTTTACTTCCTTAAAACAAGGGCTACCAAATAAAACTAATTTCTCAATAACATGATCAGCACAATATCTAATAGCCACCCGGCCACCAAAGGAGTGCCCTATCACTGTTGGTTTATCAATTTTCAATTTCTTAATTAATTCTTCTAACATGTCGGAATAATCATCAACAGTCCAGGCTGTTTTTGGTTCACTACTTTCTCCAAAACCAGGAAAATCAATAATAGTAACGCGATGATTCTGAGAAAGGGGATCACCAATTGGTTTCATCATTTCAATATTTTGTCCCCAACCATGTAAAAGAATAACATCACTGCCTTCGCCATATTGTATGTAATTAATATCAGTTTCTTTAATATTAATTCTCATAATATCACCAATTTAATTATAGCATTAAACCCAAAAGAAAACAATTAAATAGTTTTTAATTGTTTTTTAAATTTCCTCTTTTTAAAACCAAAACTTTATTTTGTTCTTTAGGTGACAATCTTCTAATTTTCGAAATATTATCCATAGCAATTTGTCTATGAGTTTCATAAATATATTCACAAGAGTTAATCGCAGCTCTAATATCACCTAATTCTAAATACTTATGTTCATAGAAAGCAGCATAACTGAAGGCCTTACGAATAATAGAATCACAGATATCCGGATTAGCACTATCTTCTCGATAATCTCTATTCTTGGAATTAGTTAATCTAATAAGTTCATGATTAATTTTATTAATTTCTGATTCATTATAACGGAACTTTACACCAATAAGATTAGAATATTTCTTATATGATTGCCTAATTATTTTATCTAAGATCTTCCCTTCAGGTTCTTTAATAGTAATCTTATCAAATCTTCTTTTGAAGGCAGGATCCTTTTCAAAGTTTTTATATTCTTCTTCGGTAGTAGCTCCTATTATTTTAACATCAGCTCTGTCAATATAAGGTTTAATAATATTGGCTACATCATTAGTACCAGTTCCTTTACCAGCACCAATAACAGTATGAATCTCATCTAAGAATAAAATTACATCATCACGACTAGCTAATTCATCAAATAATCCTTTAGTATTTTCTTCTACCATACCAACAAATTTACAGCCGCTTATTAATTCAGTAGCACTAGTTTTTAAGATTTTCTTATTTTGTAAATATTTAGGAACTTCTCCCTTTTGAATACGATAAGCTAATTCTTCAACTAAAGCTGTTTTACCTACTCCCGATTTACCTAATATCATCGCACTATTATAGACAAGTGCTATTTCTAATTCTTTAATTTCTCTTTCTCTACCTACAGCAGGATTAGTTGGATAATTAACGTTAGTTAAATCTTTAGTATATGTCTTAATTGATGAAGTAGGTTTAGTTACTGTTGATCTTTTTTCTTCTAAAGAATCTTTTTTACTCTTCATCTCTATATCATTATTATCTGTTGTGACAAAACTAATAGTATCATCTTTTATATTAGGAGCGGCATTTTCTAAATACTTCCAATATAAACTAGTTATTTCTTCATCATCTTTAAAATCAGAATTAAAAACAGAAAAATAAAGTAAAGAATATATTTTTCGATCATTATAATCTTCTTTAGCAATAACTAAATTAATTAGATTTATCATTTGTTCTCTAGTAAGATCAAATGAAAAGCGAAGAAGAAATTCTGTTTCTTGTCCTTCTTTAGGAGTATCGAAATTAGCAATTATTCTATAATCATCATCAGAAAACTTAACTCCCAATAAGTGTCTACCAGTAATTTCTTCACTTCCAAATTTTTCTTGTGCTTCTTTTTCATTATAATCATTCCAAAAGTAGTCTATTACTTTTTGATTAGTTTTCATATTACCACCACCAAATAGTGCTTTGTATTATAATACACGAACCATAAAAAAACAAGACTAATTAGTCTTGTTTATCTCTTTTATCTTTTCTTCAATACGATTACCATATTCAATTGAATCATCGTAGAAGAATCTTAGTTCTGGAGTATGTCTAATTTCAATTCTATCAGCTAATAATTTACGAATATATTTACTAGCTTCATTTAAGGCTTTCAAAGTAGAGTTTTTCTTTTCATCATCTAAGACTGTAAAATATACTTTGGCATAAGATAAATCATTAGTAACTGTTACTTTAGTTATAGTAACAAATTTAATATCTTCATCTTTTATTTCTTCTGCTAGTATTTTACTTATTTCTTCCATATAAGTATGATTTAATCTTTCTATTCTAATACTACTCATACTTACCTCTTAATCTCTACTAATTCATAAATTTCAATATTATCGCCAACTTTATAGTCTTGACAATTCTCTAGTGTAATACCGCAATCCATACCCTTTTTAGCTTCTTTGGCTTCGTCTTGTCCTTTTTGTAGAGTATTTACTTTACCAGTATAGACAACTATATCGTCTCTGATAATTCGTGCTAGAGAAGTATTCTTAACATAACCTTCTGTAACATGACAACCAGCAATTAGACCTACTTTAGAGAACTTAAATAATTGTCTTATCTCTAAGTTACCAACTACTTTTTCTTCATATTCTGGATCTAACATACCTTTCATAGCATCTTCCATATCTTCAACTAATTTATAAATAATATCATAGTTTTTGATACTGACACCATATTCTTTAGCAATATCCATAGTTTTGGCATTAGCTCTAACATTAAAGCCAATAATCATAGCTTGTGATGCTTGTGCTAAGACAACATCACTTTCAGTAATAGCTCCAACGGCACTACGAACGACATTAACTTTAACACCATCAATATCTATTTTTTCTAAAGCACTTTTAACAGCTTCACTACTACCATTAACATCAGCTTTAATGATGACATTTATTTCTTTAATTCCCTCTTTAATCTTACCAAACAATTCTTCTAAACTCATACCACTGAAATTACTATCTTCTTCTTTAGCTCTTATTTTTCTTTCTTCAGCAATAGCTTTTCCTTGTTTTTCAGTTTCAAATGCCATAAATTTATCACCGGCAGCAGGCACTTCGGATAGGCCGGTTATTTCTACTGGTGTTGAAGGAGCTGCTGTCGCAATGTTTTCTCCCTTATCATTCTTTAATGTTCGTACTTTTCCATAACTAGTTCCTACAACAATTGGATCTCCTAATCGTAGTGTTCCATTTTGAATTAACAAAGTAGCTACACAGCCAGTAGTTTTATCTTTTTTACTTTCGATAACAACACCACTTGCATATCTATTAGGATTAGCTTTTAATTCACTCATTGAAGCTACTAAAAGAATATTTTCTAGTAATTCTTTAACGCCATCGCCTTTTTTAGCTGAAATCTTATTAACAATAACATCTCCTCCCCATTCTTCAGGAGTAAGACCATTATTAGATAAATCTCCCATTATTTTATCAATGTTTTTAGCTGCGCCTTCTTTATCAATTTTATTAATAGCAACTATAATTGGTACTTTAGCAGCTTTAGCATGATCAATAGCTTCAACTGTTTGAGGCATAATACCATCATCAGCCGCTATAATAATTACGATAATATCTGTGCATGACGCACCACGAGCACGCATAGCTGTGAATGCAGCATGACCAGGTGTATCAATAAAAGTAATATCTTTATCGTCACACTTAACAGAATAAGCGCCAATAGCCTGAGTTATTCCTCCAGCTTCTCCTTCAGCAACACTAGTTTTCCTAATAGTATCTAAAAGAGTAGTTTTACCATGATCAACATGACCCATAATAGTAACAACTGGAGCTCTCTCAACTAAATTCTTTTCATCTTCTTCAATTTCAAAGTTTTCAAAGTCACTGATATCGACACTTTCTTCTTTCTTTAAAGTTTTATTATAATCAGTAACAACTATTTCTGCAGTATCGAAATCAATAGTCTGATTTTGATTAGCCATTACTCCTAAACCAATTAGCTTTTTAATTATTTCATTAGCGTTAACACCTAATTTATTAGCTAAATCAGCTACTGTCATTTTACTATTATAAACAATGATATTTTCATCATCTTTTTTCTCATTACTTTGAAGTTTTTCACGATGCTTATATAAACTCTTTTTTTGTTTTAAAAACTCTTTAGTATTTTCTTTATTCTTAGCTGGTCTTTTCTTAACTTTTTTAATACTATTATCTTCATCTAAATCAATATTAGTTTCTTCAGCTAATTCAACTGCTTTATCATAAACTTGTTCTTCTTCTGTTTCTTCTACTTCTTCTTCCTCTTCTTCGGTACTACTATTGATTTCATTATCAAGTAAGATTATATCTTCATCAGATAATTCAGTATTTTCATCTTCATATGCAATACTTAATTTATCACAAAGAGCTTTTATCTCATCAATGCTTTTATTAACATCTAACGCATAATCAGCAAGATTCATCATCATTTATCACCTCTTTCTTAAGATTTTACTATTTCTTCTATTTCTTCATATACTCTCTCTTCTATTGTACTCTCTAATTTCTTTTCTAGAACTTTACTTTTTCGAGCTTGTTTTAGAACCTCTAAATCTTTTTTTATATAAACTCCTCTTCCATTAGCTCTGGAAGTAGGATCAGCAAAGACTTCTCCCTCTTTATTCTTAACAATTCTAATTAGTTCTGCTTTAGGTAGTTTTTCTAAGGTTACCACACAAGTCCGCATTGGTATTTTCCTTGTCTTCATAACTCCTCCTTATTCTTCATTACGAATATTGATACCGAATTCTTGAGCTTGTTCTGGAGTCTTAATATCAATGCGATATTTAGTTAATCTACTAGCTAAACGAGCATTCTGTCCTTTTTTACCAATTGCTAAAGAGAAGTTATCTCCCTCAGCAATAACAATTGCTTCTCCTTTTTTAGGATCAGTAACTAGAACAGTTAAATTCTTAGCTGGTGACAAAGCATTTTCAATAAAGACTGCTGGATCACTATCGTATTTAACAACATCTATTTTTTCACCATGTAATTCTTCAATAATACGAGCAATTCTACTTCCTTTTTCACCAATACAAGCACCAATTGGATCAACATTATTTTTCTCTGACATAACGGCAATCTTACTACGAACACCTGGTTCACGAGCTACTGAATATAATAAGATACTACCATCTACTAGTTCTGGTATTTCAGATTCAAATAATCTCTTAACAAAACCATAATGACTTCTAGATAGTAAGATTAGCATTCCTCTTTTGTTATTATCTACTTTAGTAACATATACTTTTATTTGTGAACCCATTTCAATTTTTTCACCAGGGATACAATCTTTCTTAGGAAGAATTCCATTACATCTTCCCAAATCAATAAAGTAATTATCACTATCTTCTAAGGCAACTGTTCCTACTAACATTTCGCCTTCTTTATCACCAAATTCATCCATAATAGAAGTTCTTTCAGCTTCTCTAATCTTTTGAACAACTACTTGCTTAGCAGTTGAAGCTGCAACTCTTCCAAAGTCTTTTGGAGTTACTTCAGTATCAATCGTATCTCCTACTTTTAATTTTTTATCTTGTTTTTTAGCATCACTTAATTTAATCTCTGTTTCCGGATTAAAGTATGATAATTTTTCCTTTTCTTCTTCATCTTCAATATTAGCAATTTTCTCTTCATATTCCTCTTTAGAAATCTTATCATCTTCTACTACTGTTAAATAAGAATAAACTTTAATATCTCCAGTTTCTCTATCAATTAATACTTTAACATTAGTCTTTGACTTAAAATTCTTTTTATAAGCAGATGTTAAAGCTAGTTCCATAGCATCATAAACGATTTCTGGATCAATATTCTTTTCTTTAACAATATTATCAACAGCTGCTAAAAACTCTTTACCACTACCGTTCATTTTGTCCTCCTTTTTCTTTTGAATAAATATCTAATTCATCAATATCTTTTAATAAATCAGTCTTATCTAATTCTTCATTAATAATTCTACTAGCATCAGTAATTCTATTTAAATCAATTACTCCTTCACTATCAAGTTCAATGTTTAAAACATATTTACCTTCTTTTTTTTCTTTAAAGATAGCACTTACTTGCAAATTATCATCTTTAATTAGATTATTAACTATTGTCTCTACTTCTTTTTCCACTTCATCCTCCATTTATAAAATTTAAAGAGTGGAAACGCTTCCACTCCATGTCTGCACTTATTATAGCAAAGATACTCTTATTAAGCAAACATTTTTGTTATTTTTTCTTTATTTATGATATACTTTATTAGTAGTATAAAGGAGTTAATATGGAAGATATTCTAAGCGTTATTTTTATAGTTATTATTTTGGGATTGGTTATTTACTATTTTGATAAGAAAAAAGATATTTTACTTAAGAATATCTTTAAAGGGGTTTTAGTCTTTTTCCTATTCTATTTTAGTAGTGTCTTTGCGAAAATACCAATGCTCATCTTTAACATTAAATATAATAAAAGTACTAGTCCTTATTTAAGTATCTTTTCTAATACTTGTTTAGCAATTGTTCTTATTCTTATGTATCGAAAAGAACTTCTTAAAGAGTTTAAAAAATTTAAAGACAAGTTTAGTGATAATATGGATGTTGGTTTTAGATACTGGATGATTGGTTTAGTAATTATGATGGTCTCTAATATTCTAATAAGTGCTTTTGTTACTAAAAACCAAGCTACTAATGAACAATTAGTCCAAGATATGATAAAAAGGATTCCTATTATTATGATTATTAATGCCGGAATTATTGCTCCATTTGTAGAAGAAATTACTTTTAGAAAGTGTTTTAAAAACATCTTTAAGAACAAATGGTTATTCTTAATTATCTCTTCTTTAGTATTTGGTTCACTACATGTTTTACCTGGTATCTTTGATGGTGCTAGTATTAGAGAAATATTCTTTCTTCTTCCTTATTCAGCTTTAGGATTTGTTTTTGCACTAATGTATTACGATACTGATACTGTCTTTACATCTTATACTATGCATGTAATTCATAATACTATTTTAATAATCTTATCGATTTTAAAATAGTTTTTTTTATGGGGAAAATTTGCTATAATATAATTGGTGATGATATGCATACCAGAGAAGAAAAAATGAAAGACATTAGAGAAGTCATTGAAACCGAGGAAGAACGGAAAGCTAGAAAAAGATTTGCTATTAGAATCTTTAAAATAATTGTGTTTGCATTTTCTTTTGTTGTTCTTTTCTTTTTATATACTTATTTCTATTCTACTAAAGGATTAGTTATTAAAGAAGAGAAAATAGTAAATGAAAAGATTCCTGTTTCTTTCAGAGGGATTAAAATAATTCAGTTTTCTGATCTTCATTATGGATCTACTTATTATAATAATGAACTTAAAAATGTTATTAATAAGATTAATAAAAGAAGACCAGATATTGTTATTTTTACTGGTGACTTAATTAATAAAGATTATAATCTTAAAGATAGTGATAAAGAAGCTATAATTGCTAGTTTAAGTAATATTGATGCTACATTAGGTAAATATGCTATCTTTGGTGAAGAAGATAATGATTATACTAATAGTATATTATTACAAAGTGGTTTTAAAGTTTTAAATAATAGTAAAGATGATGTTTATACTACAACTAATGAATATATTAGTTTAATTGGTCTTAGTATTGATTATAATATTACCCAAGCATTTACTAATTTTGATAGTAGTAAGTATAATATTTGTATCTTCCATGAACCAGATATTATTACGGAAATATTAAAGGATAAGACTTGTGATTTAGCTTTAGCAGGACATTCACATAATGGTCAAATCAATGTTCCCTTTCCAATAATAAGAAAACATAAAGGTACTAAATACTATAAAGAGTATTATAAAATAAAAGATACTGACTTATATGTATCAAGTGGTCTTGGTACTAGTAATATTAATGTTAGAGTTGGATCACATCCATCGATTAATTTCTTTAGATTATATAATAACTAGAAAAGATTAAATAGTCTTTTCTTTTTCTTTAGATAAATAGGTATTTTCTTAATAGTTTTATTACTTAGTTTTATACATAGAACTCCTACTTGATTCTTTTGAGAATAGTTTTCTTTCATATCAATTCTAATTATTTTTTTTACTTCATCTCTTTCACTACTTGTCAAAGGATAGGAAAAATCCTCTTTAATATAGACTTCTTTATTAAAGAGCTTTTTATTTATTCTAAAACTTTTTTTATTTACTATTCGGTACTTTTTATACTTAGAAAAGATTTTTTCATATAAATATTCATGAGTATCATATTGATTATCATCATCAAGAGTAACTATTGTTAAATTAAGACCATTTTTAGTAGCTGTACTAACAAAGGTTCTTCCGGCTTTAGGTGTATAACCGGTTTTACCTCCAGTAGTATATTTATATCTATTAAGTAGATCATTGCGGTTAGTCCAAATATAAGTTTTTCCTTTAGTTCTAGTTGTATACTTTTTACTTTTAGATATCTGTCGATATAATTCTTGTGTATTGTAAGTATAACTTGATAATTTAGCCATATCATAGGCTGTAGAAATATTTCTGGTTTCTTCGTCTAAACCGTGAGGATTTTTAAAAGTAGTATCTTTCATACCTATTTCTTTAGCTTTAGTATTCATCATTTTAACAAAACTCTTTTCACTACCTGCTGTATTAATAGCTAAAACTAAAGCTGCATCATTACCACTTCTAAGAATCATTCCATATAGTAAATCTCTAACTGTTATTTTTTCCCCTACTTCAATATAAATATTGGAACCATACATTTTTAATACTTCTTTTCCGACTTTTACTTTCTTATTTACATCAGTGTTTTCTAAAGTAATTAGAGCTGTCATTATTTTAGTAATTGACGCTATTAATCTTTTATCATGAGTATTATTTTGATATAGAACTCTCCCACTATCCATATCCATTACAATACTAGATCTAGCACTATCTAAGGCATAAGTATTAATAGGAAATAAAAGTAATAAAAATAAAAACATATACTTTTTCATCTTTTCACCTAAAAAAGTATATGTCTTATTAATTATAATTATTTTAAGTTTTCTAAGAATCCTTTTAGTTCATCACTACTATTATAATAGAAAGCATAGCCTTCATCTTTGTAACCAACTAAAAGAGAGGTTTTATCTTCACCATAATCAAGTAAGAAATGATCTTTTCTGTTTTCTCCATCAATATCAGTAGTAATTAAATAGATATAAGCTGGACATGTCCTAGCAGAAGTTGTCTTCTCTACTTTATTAGCTTGCTTTAATTTATTTACTACTTCCATAACAGAATCGATAGATAATTCTTTATTATTGATATCTAAATTAGGATTATTATTCTCATCAACACCGTTATCTTTACAAGTTGATATATAAGCTTTAGTATTCTCGTCTTTTTCAACTAATTTAACTAATTCGTCTTCTAGTCCTTCATAATCAAAACTTATTTCTTCGGTATCGGTATTATCAACTTGATTTGATTTTGGACTAGGCTTCTCACTATTATCAATGTATAATAGCACTCCTAAAGTAATACTAATTAGGGCACAGATTACTAGTACCATAATTGTGAGCTTATTTTTTTGCATAGGCCACCTCTATTATTCTTTTATTTCTTATTAACCATATCAGTTATTACATCAATAGCTTTAGTTAAAGTATCGTCTTCTTCTTTTTTCTTTTTCTTCTTTGTAGTGGTTTTCTTCTTAGAAGTTTTATTCTTAGCTTCCATGTATGTTCCTACAGCAGTAACTACTTTACCAATATCATCACCATGTTCTTCAACAAAGTCTTTAATATCTTCTAAATCTATTTTATCTTTTTTCTTTTTCTTTTCTTCTACTTTAATTACTTTCTTTTCTTTTGCCATTATTCCTTCTCCTCGTCTTCTTTAAGTTCAGGAATACATCTTCTACAAGGATCAGTTAAGTTGTTTTCATAAGCAGCTGCGACACTTCCTTCATAAACTTCTTCACTGCGTGAGAATGCTGGACAATCTTTATCAACATGGTACTTCTTACTATGTTTAGCCCAATATACTTTACCACTTGGAGATACTGCTTTAACTTCTTTTTCAGCATGTGCTAATTGTTCAGCACTAACAGGATTAAAGTCATAACTAGCAACACCAGCAATTAATAAAGCAATTATAGCTATAGCACCAGCTATCCCTTTTTGTTTACCATCTAAGTCTTTATTAGTGAAAATAAAGATTATTACTGGTAAGAAAGCAAGTATAGATAAAATAGTACCTAAATTATTCCATATCCAGAACTTAGTTTTATCTTTTTCACTAGCAGGATCAATATGATTAGCTTTTTTCCATAGTAATGAACCAGGGACAAAGAATATTAAATCAAGAATAACAAATAAAATAACAAATCCCATTAAACTCATTTTAGAGAATAAGTCTATTCTACCAGTTAGTCTTAAGATAGCTATTACTTCCATGACAATAGCTAGTAACCAACAAACTATTGCTCCTATCCGATACTTTTTAGCATCGCCTTTAGCATCCTTTCTTTCTTTAGCTTTTATGATTCTTCTGTTTTCATCTAGGGTGTAAGAATTAGTATCTTTAGAATCATCAGATACTTTAACTATTTTCTTTTCTTTTTTGGCCATAAAAATCTACTCCTTTATACCTAAATTATAGCATGGTCAAAGAAAATAAGTAAAGAAAAAAGACTATATTAATCATTATATAGTCCATGTATCTTAGTAATATCCTCATCAGGAATAATAATTATTTTCCACAAATTATTATCTTTTTCTAAGTCAAAGCTAAGAGTATATTTAACTTTATCAGTTACTTTTTGCATCTGTTTTATTTTATATTTCATAAACTTATCATTATCAACACTTCCATCTTTAGCTTTAAAATCTTCTTCATGTTCTAAAATATATTTATCAGCTCTAGCAATAGCTCTAGCATAATCAAAAACTTCAATTTCAACATCTACAACAGCACTATCACCATTAACTGTTTCGTTTTTAATTTTGTATGATAAGTTTTGATATTGTTTTTCCATTAAAGCCTTATATTCAGCTTTATTATCATGACTTAAGCTTTCATCAGCATCTAAAGTAGTTTCTAAATCATTTAATACTTCTTTATCCATAGTTTGGTATTTACCAAAGAACTCTTCAACTCTTTTAGTAGGTGTGTTCATCATATTCATACAACCAACTAAAAATATTAATGGTAGTATTAATAATATTTTCTTCATAATTATCCTCCATTATTAATATGGTAGATAATTATTTTTTTATACAAAAAAAGTGCTTAATGCACTTTTAAAAATCACAGGCACCTGGAGTACGATAATATGGTATAACATCTCTGATATTATCAACACCAGTTAGATAAATAAGTAAACGATCAAAGCCCATACCAAATCCTGAATGAACACAGCCTCCATATTTACGAAGATTTAAATACCAAGCCATATCTTCTGTATTAATATCTAATTCTTTCATTCTAGTTATTAATTTATCATAATCATCTTCTCTTTGGGATCCACCCATTAACTCACCAGCACCTGGCACTTCTAAATCAACAGCCGCTACAGTCTTACCATCATCATTTTGTTTCATATAGAAAGCTTTAATATCTTTAGGCCAGTTATAAATAAAGACCGGTCCATTAAAGTGTTCAGTAATATACTTTTCATGTTCTCTGGCAATATCTTCACCTTGTTTAGGTTCAAATTCCCATTTAACATCAGCTTTTTGTAATATATCAATTACTTCTTCATGAGTAACTCTAGTAAATTTAGAGTTAACTAATTTATTTAATTTATCAATAAGTCCTTTTTCTACAAAACTATCTAAGAATTTCATTTCACTTTCAGCATTATCTAAAACATATTTAACTACATATTTAAGCATATCTTCCATAATATCCATGTCTTCAAAAAGATCACAAAAAGCCATTTCTGGTTCAATCATCCAAAATTCAGAAGCATGAGTTTTAGTATTAGAATTCTCAGCTCTAAATGTTGGTCCAAAAGTATAAGTCTTTTTATAAGCCAAAGCGAATGTTTCTGCTTCTAATTGACCAGATACTGTTAGAGAAGCTTCTTTAGAAAAGAAATCTTCATTATAATTTACTTTACCATCTTCCATAGGAATATTAGCAAGATCAAGAGTGGTTACATGGAACATATCACCAGCCCCCTCACAATCACTAGCGGTAATTAGAGGTGCATGAAAATAGATATAACCATTTTCATTAAAATATTTATGGATAGCATAAGCTGCTATACTTCTTACACGGAATACTGCTTGAAACAAATTAGTTCTTGGTCGCAGATAAGCCTGTTCTCTTAAGAACTCTCTACTATGTCTTTTTGGTTGAATTGGATAGTCCTCTGGACAATCACCTAATAAAATAATATCTTTAGCTCTAATTTCAAAAGCTTGTTCTTCCTTAGGAGATTTAACAACAGTACCTAGTACTTTAATTGAACTACCTACATGATATTTACTAATTTCTTCAAAATTAGTTAGTTTATTATCATAAATAATTTGGGCATGTTCAAAACAAGTTCCATCAGAAAAATCAATAAAACCAAATTCCTTTTGTTTACGATGATTCCTTATCCAACCAGAAAGTTCAACATCCTTTTCCATATATTCATTTAGTTTCTCATAAAGTTCTTTTAAATCCATAATATACCTCCTAAAAAACAAAAAGAAATGATAAGAAAGTCTAAAAGACGGTACCATTTCTTGTTTAACTTAATTAATATAACGGTATCTACCGGCTCTATCTACTTAATTCAATAAAGCAACTCCTGAGTGTTCTCCTAAGTTATTTATTAATGAGCTTACACCAAACCTCATCTCGCTTCAATAAATTAAACTTATTTGTCTCAATCACAGTTATTAACTAAATTATAGTTACAATATATGTTTTTGTCAATTATTTGATTACATATTAATTCCCTTTGTATTTTAAATAACCAGACCACGTACCATAATAATCAGCAACATTTATTTCTTTGCCAGAAGAATCACCAACAGATCCATCAAAATTGTCATGGGCACCAAGTAATTTTCCTTTTCCTACGTACATCTCTGTATGACTTCCTGGAGTAATTACAATATCTCCTGGTTTTAAATTATTTACATTAGGGTTTCCAGGTACATATTCAAATTTACCTGTTTTAGTAAATGCTTTTATCATATTACCTGTATTTGTTGCACCAGCTGCTTTAACTGGTATGCCAGCCTTTTCATAGGCATTAATTATAAGTGAGGAGCAATCATAAGAACTACCTTCTCTTACTGCTTGTGAATATCCAATACTATCATTATTAGCTATTTTCTTAGCCCAAGCAACAGCTTTTTCACTAGAAGGGATAGGTTTTGCAGCAAAAGTACTATTAGGTATATTATTTGTAGTTTTTGATGTGTTATGTACACCTGCCTTAGTTTCTGATGGAGTTTTCCTTCTTAGATTCTCTATTTTCTCTTTTGCTCCTGACGACTCTATTCCAGCCGAACTTGCTGCTTGTTGTTTTTTTCTGCCTTCTGCTTCTTTTCTACGAGCTTCCTGTAATTCTTTCATTTGCTTATCTGATAGTTTTCCACTACTAGATTGTTTATTGGCTTTAGCTTTTTGTTCCTGTTCAGCTTTTTTTATCAAGTAGTCATCTTTCGAATAAGTTGTGCTCTTTTTAGCTTTATTGGCATTTGTATTTGCATTTTTATTCTTATTGAGGTTGAAATAATCAACTTGTTTTTTGTCAGATATTAAACCTTTTTCGCGCCACTCTTTACCTAATTCAGTCTCTGGTACTTTAACATTCTTTCCAAGTGTTATTCCTCCAGCTGCTACTGTTCCTGCTGTTGTAGCGGCAGCACCTGCTTTATCCTTAGCTCTAATCTTTCTAGCTTCAGCTTCTTGCTGTTTCTTTCTTCCTTCGGCCTCTCTTTTTCGGGCCTCTTGTAATTTCTTATACTCAGCTTCAGAAAGTGTTACTGGCGAGGATTTCTTATTTTCCTTAATATCTTTACTAGCTCTATATTTTTGATAAGCAGCTACTGCTCCTCCTGTTGTAAATCCCATTGCTACTCCATTTTTGGTAATTAGCCAGGCGCCATTATCTTGTTTTACAAATTTCAAATTTTCATCTATCCAGTATGGGGAAGTTTTACTTGTAACATTAGCCCCGTTATTCCCTCTAGCAGCATCATATTTATTATAAAATATATTCTTTTGAAAATACTCTTTGAATTCTTTATCGTTCAAAATAGCATCTATCTTTTTCTGTTTTAAAGCAAGCGCTTGAGCGTTACCTTTTACGCGGATACTATATTTTTGTAATGTGCTTATTATCTTCTTTATATTTGCATTCATCTGTTGCTCTAATTTTTCTGCTTCCATCTGTGCTACTGATTGTCCACTTATATTCCACACTTCATCAAATACTTTATAAGTAGTCACTCTATATACATATTCATCTTCTCCAACTTTGTTGGTATAGTTATATGATGACTTATATTCCGCAATGTCTTCTCGACCTTCCACCGGCTGTCCGTTATATGAATCTAGTTTTCCCGCTGCATTCTTAATGGCTTTTAATCGATTGTCTATGCTTGCTAATGTACTATTGATTTTTTCAGCTACTGTAATTAGATATTCGCCTGCTTGAGCCATTTGTTGTGCATTTGCTTTATGATCTGCCATAATACAACCTCTCCTATCTTATTCTCTGTTTTGTAACCATATCTGGTTTAAATTTTCTATCTTTAACAGCAATTATCCTACTACCGCTATAACTCATTTTAGGTACATTTTTCTCTAGTTTTTCAATTGCTTTAACTATTTTTGTTGAATCAGTTAGGTTTTGCGCAGAATTCGATAGCTGACTTGCAGCATCGCCTAATAAATTTGCTATTTGCGTATTTAATAATTCCAATTCGGTATTGATTTGTGAAGCAGCTTCATCTAAAGCTCTTTTAGCTTCATTTACTTGAGCATCTGATACTGCCATATAATCACCTACTTTTCTATCTATATACTATTATAACCTTAACAGATTATCTAATAAAATATTTTTATTTTATCTTTACACTTTATTGACAAAAAAAGATGGATATTTCCATCTTGTTATTTATTATACATTTGAATCATGTAAGCTTGTTTCAGCTGCGCTTTGTGCAGTAGCCAAGTCTTCAGCTGAAGTTTCAATTCTTCCTTTAATAATTTCTACTTCTTCACTAAAAGCATTTACCATTTGACGCATTTTTGCTTTAATATCAGCAATAGCAGCGTCAGTTCTTTCACTCTGTAATCCTCCAGTTGCCATAATTTCAGTATATTTCTTATCTAATGCCTCCATATCAGCATTAATTCTTTCCTCATATTTTACCTTTAATTCATCCATTTGAGCACGTATTGTGCTTACTTCTACTAAATTCTCTGCCATTTTTTATCATTCCCTTCTATTATAGTTGTTCCATTTGACGAGCTAAACGTGCAACTTCACGCATTCCTCGTTCTTTGTTTTCAAGCATATTAACAAAATCATTTCTAGAATCCTGCAAAAATTCTGTTAATACTTGAACTTGGCGTTCACCATTTCGAGTCACCCATTTTGGTGCTAATTCTCCTTTAACATTCTTTTCAATAAATTCATTAGTTGTTGTTGAAACTAGATTCTTAGTTTCTTCAATAACTGAAGCTAACTTGTCAATTTCTTCTGGACTAAAATATATTGTGTCACTTGCCATTTTTATTTCCTCCTATCTTTCTATACACTTTAATTATATTATACTATTTTTATAAATGTAAATTGGTAGCTACCAATTTTACATTTATTTGACATTATTTTATTCTGCGATAATATTGCCAATAATCCACACCATTGCATGACACATTACCGTCTACGCTATTTTCATGAACCCATAGATCTTTTCCGTTTTTATCTTTACCATAGTAAATACCTATGTGGTTAACACCACTATCTGTTGGTTGCTGAAGAAAAGCTACATCTCCAGGTTTTAGTTCTGATTTGGAAATAGGTGTTGATGCTGCCCAAATAGTTTTAGTACCGCACATTAAGTATCCATCTTCCTCGGTATAACATAGTTTCTTGCCAGTTGTTTTATAATATGCCAGAGCAACAAACCCAGAACAATCAAGACCAGAAGGTGGAATGCTTCCGTCTGGTAATGGTTTTCCGCAATCCTCCGGATTGAGCGGTCCTTCTTTAGAATCATACATATGATAAGGGATCATGCCTACATATTCATTAGCTGTATTTGCAAGCTTTTGTCCTTCATCATTTTTTTGGTACTCTACACTTTTTTCACTTTTACCAAATTCATTTAAAGAATTAGCTATTTTTCTTAAATCATTTGCATATTCTAATTCATCACCAATTAATTTTTTGTTTTTGGTAAGTTCTGCTGCCACACTCAATATAACAGCTGCAGCCGCTTTTGCTTGAGTTTTTATTTCTTCTTCAGTTTCTTTAACACTATCTTGAATATATTTGGCCTTTTCTAACCCTTCTTCATATCCATCTATTTGCCAAATGTTTTCATATACTTTTTGTTCATACCTTAAATAACTATATTCTCCATCACTTAAAGTCATAACATGTACCGGTGGCTTTGTGATAGTTGGTTCTTCGGCAACTTGTTCTCCATTGTATGTGCTTAAAGCAGTACATGCATTATGCAATTGCATTATTTTACTGTTGATACTTTGAATATCATCCCCTACCTTTTTGGTTAAAGTTGCAATATCATCTACAACAGTGGCGAGCCCGCTAACACTAGTATTACTCATAGTTTTTGCTTCCTTTCACTATAGGTAGTATTAAGTAGCTTACCCTGAACCGGTTTATATGTAATATTTATACTACCAAGTCCGAGAACATTCTTCATTAGGGTAAACGATTCTTCAATATCAATTTTTCTTATTTGCTTTTCGAGCGCAGGGGTTGCCTTTCGCTTATCAACACTATTTAAAGTAGCAACAATTGCTTCTCGATATCTTTCAACATTCATTCGCAATGTTGTGATTTCTTTAGCTAATTCTTTTTGTTCATTGATAATCGCTATTTGCTCTTCTATTGACTGTTCAGAGATAGCCATAACAATTCCTCCTATCATATCTAGTTCTATTATAAAGCAAAAATGTAAAGAAAACAAATTCTTTACATTTTTACTTTACATTATTATTAATTCTGTTCCGTTACGGATATCAGTATTCTTTAATATCTGCGCTTCATCATAGGCATTACCAGATATTCGATTATAAAGTCTTTCATTATTAGTTATATCATAATACCCATTAGATATTTCCACTAAACTTTTAGAAAGTAAGATGACAAGGTCACCAATTCTTTTACCAACTGGTAGAAAAACTTCATAATGGCTCTCAATATAGGGGACAAATAATTTTACTAATACTTTATTCTCCATTATCTTCACCTTCCAACACTTTCATCTTAATAGCATTACCCTTTTGAATTACATATCCAAAGTTACTTTCAATTGGTTCGTTTAGTTCTCTAAGTGGTGTTACTAAACTATGGATAGTAGATGATCCTAGACCTCTTCCAATCCAGATACCTTCATCTAATGCAGCATTAGCTTTAAACCATGTTTCATAAGCAATACTCTTCATATCAATAATTCTAGCTATAAATATTAGATGAACATTGTTTAGTTTGTTTAAATAATTACTTAAATTATTCTTAATATCATCTGGTATTAAGTTAATAAACTTATCAATACCATTAATAAATACTAATAGAGGTTTATCTCTTTGCTTAGTAACTTCTTCATTAAATCTATTAAAGACATCATCAGTGGCTTTTAGATAAATGCTTTTAGCATAGTTACTATTTGTATAAGCATTATTAAGATCTATTACCATAGTATCAATAGTACCAATCATATTAGTTTCCTTAATTACTAAATCAGTAAAGTTATTCATCATTTCTACTTCTTCAGAATTAATTAGATTAATTTTACTCTTGGTAAAGTCATAAGTAACTACTCCTAAAGAGATTGCTTCTAATCCTACTGGAATATGTTGATAGTCAGAGAAAGAAGCTAAAACATCTTTAATAGTAACTTTTTCTGGTAATACTGGTATCTCTGGAGCTACTAGTTTAATATTTTGTTTTAGAGTACTTGTTACTTGTTTAATGTAATCATTAAGCTTGCTTTCTTCACAAACAGATGCTGTTTGGAATTCAAATATTTCATCACCAATTAGAGCTGCTCCTCTATTATCAGCATCAGTTATATCAGGTGCCTTCTTACCAAGTAACATATTATATTCAATTTGTGAAGCAAGTTTTAATGGGATAATATTTGGGAATGATGAACGCATACCAAGACGTAGTGACCTATCTGAAATAGCTGTCAAGATAACATGAACACCATATTTATGACCATCACGAGCTATTTTTTGTAAAAGGGTATCTTCATCTTCATAAGCTTCTTTAAATCCTTCATAACCAGTTACAATTAAGACAATATTAGGCATCGTTTTATTAGAATTCCTAATATAGAAATCATAACTACCATTATACTCTTGGAAAATACGTTTTCTGTTTTCAATTTCAGAATTTAGTATTCCCAATAATTTGTCTATTTTTTCAGTTTCATTAGCAAATATTACATCTCCTACTTGAGGAGCGGTTTTATACATCTTAAGAGTTTCACTATCAAAATCCATAATATAGATATTTACCTCTTCAGTAGTATAAGTAGTAATTAGGGAATAAATAATAGAATTAGTAATAGTTATCTTTTCATTCATACTATAGATAACTGTATTACCTTTTTCATTTAAGTCAATAGTAAGTAATCCTTGTTTTTGTTCTTTAGGATTATCATATTCACCAACAATACTTTGTAAAATAAAGTTTCTTTTAGCAAAGCGATATTTCTTCCGTAATTCATCAACAAAGATATTAGCCTGTAGTTTATCAAGCCATAGTTTTGGAATAGAAATATTTTCGTTTTTAGCTAAATTACTTAAGTATTTAACAATCTGTGGTAATTGCTCTCCCTTAACAACTGTACTTTCACTCTTAGGAGCAGAAATAGTCTTAATACTTCTACCTATTCCATCAATAAAGACAATAGAATCATCTCTTTCTTTATAAACTCGTTCTTGAGGAATATATAAAGCTCCAGAATAAGCAGATTGTCCCATTAAGAATAGTTCGTTATAACCAACTTGTAAATAGAAACGTCCTGCATCTTTTAAATCAGCCGCATCTGGTCTTTTAATTACTTCGTTAGAATCACTAGCATCTTGAACTTTTAGACAAACTCTAAATCTGGTATTAGACCAAATCTGATCATTGACAATACCACTTGGTTTTTGGGTCGCTAGAATCAAGTGAACTCCTAGGGAACGACCAATACGTGAAGTTGATATTAATTGATCCATAAACTCTGGTTGTTGCTGTTTAAGTTCAGCAAACTCATCAGAAATAATTACTAAATGTGAAATAGGTGTTTTTAAAAGTCCTTCACGATAATACTTTTGATATTTATAGATATCAATAGTACCTTCACCTATTTTTTCTCTGGCTTCATTGAATAGTGCTTGTCTTCTTTTTAATTCACTTTCAATAGATGCTAGAGAACGACTAATATCAGCAGCATCTAAGTTAGTAATTGTACCTGCTAGATGAGGAAGTTTAACGCCAGTTTCTTTTGATTCAAAAGCACCAGCTAATCCTCCACCTTTATAATCAATTAAAACAAATGATACTTCTTCTGGATGATAATTAATAGCCATTGAAAGAATATAAGTCATTAAGAATTCTGATTTACCTGAACCAGTCATACCAGCAACTAATCCATGAGGACCATCTTTTCGTTCATGTAAATCTAATCTTAAAATATTTCCATGTTCATCAATTCCAATAGGTGCCCCCAAAGATACAATTGGATTATTATTCTTCCAACGATCTAGAGCATTAAGTTGTTCTATCATACCAATATCATACATTTCTAAGAAGTTTAAAGTCTTTGGCATAACATAGTTTTCTAATTTATTCCTGATAGGAATATTAGCTAGTTTTAAAGCACAATAATTAAGATTAAAATTACTATTTTCTTCAATTGTAAACTTTCTTTCTGTTTCTTCAGATAACTCTGATTCAAAAGTAATACCATTTTTCATATCTTCTAAGTTGATAAAACCATTACACTGCGTTGGTAAGTTAGCTAGATTTGGATTTAAGATTAAGTAACTGAAACCATAATTAACTTTAGATTCTAAAACATCACTAGTAATACCAAACTCCTTAGCTTGTTTATAGTCATCAGTAATAATTAAATAGTAAGTAGCAAATCTTTTATAAGCATCAGTTAAATCTTCACTTTCCTTAAACACTTCTTTTCTAGCACTAAGCACTTTTTGTAAATAAGCAGATATCTCTCTTCCTTCTTCAAACTTAGTTGAGAAAAAGCGCATATTTTTACTATCATCAAAAGCATGAGGTAAGAAATGCATAAAATCCCAATATTTAGCTTTTTCTTCGTTAGTGAAGACAATTATTTTTAAATCATAATAACTGTGCAAAGCCATTAATTGAACGAGTAAAATGTCTAGAAATTTCTTAGTATAAGCATATTTTCCTGTAATAGATAAAATGTTTTTCTTTACTAAAGATAATACTTCTGGTACACCATCAATTTCTTTGTATTTATCTAAAATAACACGCATTTTTTCGTCCATAGTGTCTTCTTCAACACTGAACTTCTCTCCTGGAAAGTCTAAACCAATATTTAGATCTATTTTTCCAATACCTAAACGAACATTTAGGAAATCATTTTGATGTAGTTCTCTTTCCCAAAGACTACGACTATTTTGAGTAATAATGTTATAACACTCTAAAGGACTCTTGTTGTTTGATAAAAGAATCTGTTTTTGGTTACCTGCTATTTCTTTTAGTTCTTGTTCTTTCTTTTCTAAATATTCATTATACTTTTCCTCTATTTTAGCTTTTTTCTTTTTATGTTGTTTTTTCATAAAACGACGATTAAGAGTTGGCCAAAGAAGTGTTCCTCCCAACATCGAAAACGACATAACTAAAGTAGGCATAACACTCATAGCATTACCAGTACCATTTCGTAAACTCATAAAAGCTACTACCATCATTACTAAAGAAACTGATCCCATGGTAAGCATTGGTCCAACCGTCAATAAAAGAGGTGTTTGATCTTCTTCGGGCATTTGCGGATGAGGATCAACTTTAAATGTTTTCTTATCAATTACCTGCATAAAACGAGGTGAACGTTCAAAGTAATCTTTTTCTTCATATAATTCTACTTCGCTACTATCTTGTGACAAAGTCTTAGGTGTTCCTTTAGTTATTTGTTTAGCTGTTAGTTTATTAGAATTTACATGTACTGAATTATGAGGAGCACCAATAATTAAACGATTAGAAAAAGCAATTATTTTTAAACCCATCAAGAAAATAATATCCCCATGATTAAGTTTCATTTGTTTAGCAACTGGTTCACCATTAACAAAAGCTTTATACTCTCCTCCTGCTTCTTCTAAAACCCAAGAATTTCCCTTATAAGTTAAATTCAAATTAGAGTTTTCAACCAATTTATTTAAATAACAAATGTCATTAGTTTCTTTATTACCAATAGTAATAGTATTATCACCTTTGATTTCATAATACTTTCTATTATCATCGTTAACATTAACTGAATAAATTATAAAATAAGCACCCGTATCTACTTCTTTCAATAACAAAAATTGATAATTAGCAAGATAAGCACTCTTAAGCTCTTTATCATCATTAGACATTATTTTATAATTGCGGTTACTAGTAGCTAACCACTTACCATTAGATTCGCTGATATTAATAATATTTTTACTTTCATCTTTAATAAAGTAACTTCCGTTTATTTTAGAAGGCAAAGTAAAACTAATTAGTTTTTGTTTAGATATAATATATACAAACATAACTTACCTCCTAATTATTCCTATTATAATTATATAAGTTTTTTCCCTTTTTGGCAAGATATTACTAATAAAAAAGAAACTCTTTTTAGTCTCTTTTTAGTCTTCATTTGGATTTTCTAAATTTATTGGAACTTTAGGATTATTCACTGGATTTATAGTTGGGCTGGGATTTTGTGGTGTAGGAACACTTGGACTGTTTTCAACGCTTGGCATTACTGAGATATTTTCTTCAATAGGCGTTGAATCTTCTGCACCATTATCTTTTTTAACACTTGCTTTTATTTCTTCATAATGTGCATTTAATTCTTTATTCATTTCTTGATATTCTTCACTATCATAGCCATTGTATAATACTTTTTCTATTTCATCATGATTAAATACTATAACGATATCTGAATCTATTATTCCGGCTGGATATGGACATCCTCCATAGTCAAACATGTCAGCGCCTTCTTCTTTTTGTTTAGGAAAAACGCAATAACTAGTTATCATTACATTTCTCTTTGCTCCTTTTAATAATACAATTGTTCCAATTGGTAAAAATCTTTCTTTCATTTTCTCTCCTCTTTTTCTTTTATTTCTTCTTTAATTCATCTATTGGATTGATTCCTGAAGGGAATTTTTTACTAGCGCCAGGTTTTAATTGATCACTATTAGAGTTTTCATCTTCCATTTCATCTATAGCAGCATTCTTTACACTTCTTTTTACTTGACCTGTAGTTTCTTTTTTTGCCATATTTCCTGTTAATTCTTGGTAGGTGCCTCTCTCTGCACTTCTTTTAGCCATATTGCTATTTTTTCCTCCAACATATTCACCAGCACCATCAACCATACTATCTACCGCGCCCTCTTTCATTGATTTACCAGCTACTTTATATGGGTCTCTTCCCTCAGCTACATTTTGATTATATCGATCACCAACATTGCTGCCATACTCAGCTATCTTTTTACCTACATCCTTAAATGTTTTAGCAACAGGTGTTTCAGAACCCGCTTCAATAGCTACTTCATCAATATAAAGTTCACCAGAATACATGGCTTTATTACGTATTGCCGATTTAGAAAAAATCTTTGTTGCTGCAGTTTTAATTCCTGATGAAATCATACCAAAACCTGTTACATATCCTGCAGTTTGCAATAAATCAGCAGCTCCACCGTTACTCTTTATATAACTATTCTTCTTAAGCTTGTCACCAGATTCTTTCCATTTTTCATCAGGTTTTGCCCATGAATCTACTGGCTTCGGTCCTTTAAAAGTAAAATCTTCAAAGTGACCCACAATATCATAAGCTGCTATATCTAAAAGTCCTTTTTCAAGTTTTTCTAAGCCATAATGACCGGCTATTTTACCTGATATAACATGAAACCCGTCAAATAAACCTTCAGCCATACCAACAACACCTTTTTCAACATGCCATAGTGCCATCATCCCAGTTGCATATAATCGTTTAGCCTTATATCTCAAGCTCTTACCTTGCATATCAAAAATACTATTAGTTCCACCTACGACTGATTTGCCAAAAGCATCAAATTTGTTTCCTAAAAGATTAGCAAAGGCTGCCGGTAGTTTACCTAATATTGGAATATCCTCTATTCTACTAACGCCTTTGCTCCAATCTTTAATATTTTGACTGGCGTTACTAATGGCTGCTATGCTTTTATCTATGTTTTCACTAGCATTACTTGTTTCATTACTAATGGAGCTTAGTGGCGATAGATTTATTTCAGTAGCCTTTCGAGCACTTTTGATAATCGATTTGCCACTTTCAACATTACTGTCGGCTTGAGCAACTTCTTGTTTAGCAGCATTCAATTGACTTTTTACGGTTTTAGTGTGACTTTCATTGTACACGACTCTACCAAGGTCTCTAGCGACACGGTTAGTAATTCTATACTTTTCTTTTTGCTTTTTACTAGCCGCTGTAAAATCTGGTAGTGGCATATCTCTCAGCTCCTTTCGTTAATTATCATTGATTATTTTCTCTTTTTAACCGTTCTTCTCTAAGACGTGCTTGTTCCTGTAAATATCTTAAATGGGCTTTATACTCCTGTAATTGCCGTTGTTGTCTTTGATAAAGTTTCTCAGCCGAAGCTAAAATAGCATCAGCAGCATTTGCAATTCTAGTACTACTATCAGACAAATCTTCAGCAGTGTTATTCAACTTTCTTTGGGGATTAGTAAATCCATATACTAAAGTTTTTGCATCAGCCGCGGCTTCACTAGTATATTCGCTTGCTTGTTTCATATTTTTAGCACCTTTTTTAAGCATTTGACATCCTTTTCTAATGGTAGCTATGTCAATCATATCAGCTTCACTTTTTATTGGGTATAAACTCATATTCTTCTCTCCCTACTATCCTATGATTAGTATATACCAATCCTACGTTTTTTACAAACAACCAGCCTTCATTTGACAATCCTATTTACATTTTTTGTGTTTGTGTTAAAATGATAGTAGGATGTGATTTTTATGAAAAAACAAATTCTTACTGGTATTAGACCAACTGGTAATTTGCATTTGGGGCACTACTTTGGAGCTGGCAAAAACTATTTGAAATATCAAGATGATTATGATTTCTTTTTGGAAATAGCTGATGTTCAAGCTCTAACTGATAATTTTGATAATCCTGATAAAGTAAGGGAAAATGTCTATGAAATTACAGCTGATTTATTATCTATTGGTCTAGATCCTAAAAAAGTTAATTTCTTTATTCAATCAAAAATACCAGAGATTGCCGAAGCAACAGTATTTTATTCTAACTTAGTAACAATTGCACGACTTGAGAGAAACCCAACCGTTAAAAGTGAAATAGCTCAGAAAAAAGAACTATTTGGTAATAAGGGAGAAAGTATTACTTATGGTTTTTTGGGATATCCTGTATCACAGGCAGCTGATATAACTATTTTTGATGGCGAATTAGTTCCCGTTGGTGAAGATCAACTACCACTACTTGAACAATGTAGAGAAATAGTAAGAAAGTTTAATTCTATTTATGGTACAACTCTAAAAGAGCCTAAGGAAATACTAAGTACTACTACTAGGGTAAAAGGTTTAGATGGTAATGAGAAAATGGGCAAATCTTTAGGAAATGCTATTTACTTAGTAGATGACGAAGATACTATTGCTAAAAAAATTATGCAGGCTAAAACTGATACTACTAAGATAAAAAAAGATGATCCGGCTGATCCTGATAAATGTATGGTTTATTACTATCACAAACTAATCGATAGTAATAACTTAGACAATATCTGTGCTGAATGTAAAAAAGGTGCTCGTGGTTGTGTTGAGTGTAAAAAAGAACTTATTAAAAACATGAATGAATTTTTAGAGCCAATTAGAAAAGAAAGAGAAAAATATAATCCTGAACTAGTAAAAGAAATATTAGATGAAGGTACTAAAAAAGCTCAAGAAAAAGCAAAAGACACCATGAAAAGAATTAAGGAAGCTATGAAAATCGATTATTAGTTTATAAAAAAAACATATAAATATATGTTTTTTTGTTTGTCATATTTTAATTAACACTATATTGTGTTGCACCTTGAACAGCTTTTTCTAGGTTCTGAGCACTTTCTGTCATTTCGCTTTTTACAACAGGAATATCATTATCAAAGATTCTAGTCCATTCTTGTAATAATTCTCCTCCCCACTCTGTACTTATAGCTTTACCGGAACCTTCTCCGCCGACATTTTTTCTAACAACACCATCTAATTCTTCCATAGCAGCATTAACATCATTTACTATGTTAACTATATTTTGGGCATCATCTAAAGCCTCTTGAGTATTTATCTCTAAACTTTTACCTGGCATTTTATTTCTCCTTTCTGATCTTTTATTTAAAGCTTTCTGAAACTGCATTCATCATTTTATTAAAACTAGCAGTTTGATCTTCCATATATTGATCAATTTTATTCAAAGTATTAGTTATATAATTAAAAGTATCTTGTTTTTCATTATATTTGCCTACAAATGCAGTCGCTAAATCACCTTTAATATCACCTTGATTAACTTTATTAACAACATCCTGTAACTTTTGCAAACTATTTCTATAATGGCTACTAGCTTCTTTATAAGCCTCGTTTACAGCGTTTAAACTTCCACTATCTGCTGATATATTACCACCCATCATTTCACCTCCTATTGTTTACTTTCAATTAAATTGTATCATTATATCTAAATATTTCAAACCACAAGTGTAAAGTTATTGTCGATTTTACACTTATTTAACGTTGATTAGTTTTAATATATGGAAGATTTTAAAATGATTTTTATTAAAGTTTTTATTAATGTCTGTAATCATTTTGTTATATTGTTTTTCAATGTTCTTATTGCTTTTATGATAGATTTCTTCATATAAATACTTAATCTTATTGTAATCTTTATTGATATAGGCTGCTTTTAAATCTTGAATAATATAGTTCTTAATAAACTGTTCTTTCCTGGTATATAGTTTTTCTTTTTCTCTTTCCAAAATTTTATACTCTATACTAATTATATCCATATCAGTTACTAAATCTAATATTTCCTCTTCCTCATCTAAAAGTAGTGAACTTATAGTAAGTTTTTCTCCTTTATCACTAAATTCAAAAGCAATAGCTCTATTACCATCAGTCAAGATAGTAGCGTATTCTATTCTTTTAATTATTCCTGAAGCAAAGACTTCAGTCTTATTATTAATTTTTTTTAGGAAGTTTGTACTACATTTAATCTTATTAAAAATAAAATCTTCTAAAACTGATGATTCCACTTTGAAAAGAGGAATATTTTTAATATGTTCAAAATTATCATCAGAATTCCATTCAAAAAATTCATACAGTCTTCCATCTAAAAAATTTAAAATAATATCACTTATCATTTTTTCTCTCCTTTGAAAACTAAATAGGATACTATTATTAGGCCTATAAATGTGCATAAACTACCAATATGGGTAAAAATATATTTTAAATAATCTATTATAGTATAACCAAAAGTAATTAAATTTAAATAAATAATTAGATAGGTAAAACCAATGGTCATTAGACTAAAACCCAATAAAAAAAGCATTATTCTTGATAACATAATTACTCCTTTATTTATTATATAGTTATTTAGATATATTTATACAAACAAAAAGAGCACTATTTGTGCTCTTTCTCTACTTTTATTTTACAAGTTAAGTCATTAAGTTTATACTCTTTATCTAAACCTTTCTTAGAAGTTATTCCGTTAGCTAGTGTTTCTCTTTTAATATAATCTTCATATTTAGAAAGCATTTCTTTTACTTTATCATCACCTTCATAGTAAATCTTGATGTGATCAGTAATTACTAAGTCTAGTTCTTTTCTAATAGCTTGAACGTTGCGGACAAATTCTCTTGATAATCCTTCTAAAATTAAATCTTCAGTAAGAGTTGTATCTAGTACTACACAAGTTCTAGTATTAGATGCGCTAGCATAACCTTCTTTTTGTTTTAAAGTAATTAGAACGTTCTCTGGAGTTAGAGTTAACTCCTTATTAGAGTCTAGGGTAACTGTTAGACCCTCATCAGAGATTTTACGAACATCATCACTAGACATATTAGCTAAAATATTTTGTAAATCTTTAATCTTAGGACCTAGTTCTTTACCTAGTACTTTAAAATTAGGTTTAACAATATATTCTAGATATTTAGTCATGTCTTTAGTATATTCAATTTTCTTAACATTTAACTCTTCTTTAATAATATCAATTAAATCACCAATAATCATTTCATCACTTTCTGGTAGAAGCAATTTACTAATTGGTTGACGCACTTTGATATTAGCCTCTTCTCTAGCATATCTACCTAAAGAACAAACATCTCTTACTAAGTCCATTCTCTCTTCAGCAGTTTCATTTATTAAATCAGAATTCTCTGTTGGGAAATCTGCTAAATGAACTGACTCTTCACCAGTTAATTTTTGATATATTTCCTCAGTTAAATAAGGTGTAAGTGGTGCACATAGCTTACAAAGAGTTGTTAGTACTTCATAAGTAGTTAAGTAAACAGCCTTTTTACTATCACTTAATTTACTATCCCAGAATCTTCTTCTGTTACTTCTAATATACCAGTTAGATAAATCATCATTTAAGAATGGTACGATTAATTTAGCTACTTTATTAAGATCAAATTCTAAATAAGCATTAGTAACATCTCTTACTAATTTATTTAGTTTAGAAAGCAACCATTTATCAATTAATTCTCTTTTTTCTACTGGAATATCATATTCTCTTGGATCGATATTATCAGCATTAGCATACATTTCAAAGAAGGAATATGCATTCTTTAGAGTTGATGTAAACTTAGAATATACTTCTTTTACACCCTCTTCATTAAACTTAAGTGGTGTCCAAACTGGAGAAGTATAAAGCATATAGAACCTAATAGTATCAGCACCATATTTTTCCATTATAGCAATTGGATCAATAATATTTCCAGTTGATTTAGACATCTTTTTACCATTGGCATCAAGCATCATATCATTGACAACTACATTTTTGAAACTAGATTCTCCAGAAATAATAGTTGAAATAACTAATAGGACATAGAACCATCCTCTAGTTTGATCAACTCCTTCAGCAATGAAATCAGCTGGGAATTGCGATTTAAATAATTCTTCGTTTTCAAATGGATAATGATATTGAGCATAAGGCATAGATCCAGAATCAAACCATACATCCATAACATCTTTTACTCTGGTCATCTTTTTACCACATTTACATTTTAGATGAAGATCATCTACATATGGTCTATGAAGTTCAATCTCCCGAACATTGACATCTTCTACTACTTTTTCTTGTAGTTCATCAAGAGAACCAATTACTTCTCTATTACCACACTCACATTCCCAAATAGGCATTGGACAACCCCAATATCTATTACGAGATATTCCCCAATCAACCATATTGTCAAGCCAGTTCGCAAAACGTTTTTCACCAACAAAATCCGGATACCAATTAATTGCTTTATTGGCTTCAATTATCTTATCTTTATAAGCAGTTGTCTTAACATACCAAGCTGGTTTGGGATAAGAAATAAGTGGTGAATGACAACGCCAACAATGTGGATAATCATGCTTTATTTTTATTTTTTTGAATAATTTATCTTCTTCCTTTAGCCATTTAATAATTTCTACTTCTAAGTCAGAATCCGTTACTAATCTACCCTTCCATGGTCCTTCAGTATAAGTTCCATCTGGTCCGACTGGATTAACAAAACCAATTCCTTTTTCACGACATACACGATTATCGTCTTCACCATAAGCAGGAGCCATATGAACTATACCTGTACCATCAGCATCACTAACATAAGTATCCGCAACTACTTCAAAGGCTTTACCATCAACCTTTACAAAAGGCATTAATTGTTCATATTTTTCTCCCTCTAAATCAGATCCTTTATAAGTCTCTAAGATCTTAACATCATCACCTAAAACACTACTAATTAAAGAGTTAGCAATAATGAATTTATAACCCATAGATTCAACTAAGTTATACTCTAAATCAGGATGAACACAAAGAGCAACATTAGCTATTAAAGTCCAAGGAGTTGTTGTCCAAACTAGGAAATAAACATCCTCATCTTTCTTTTTAAAAGGAAGAATAATAGAATTAACTGGTACTTCTTCATAACCTTGAGATACTTCATTAGCAGAAAGTTCAGTACCACATCTTGGACAATACCAAAGAACTTTATTACCATAATAAAGTAAATCCTTTTTAGCCATTTCTTTAATAATCCACCATTCAGATTCAATATAATCATTATGGCAGGTTACATATGGATGATCACAATCAATAAATTGACCCATCATATCTGTTACTTTGTTGATTTCATCAATATTAAGAGCCGTGGCTTTATTACATTCTTTACAGAAGTTTTCCACACCAAACTTTTCAATATCTTCTTTAGACTTAAAACCAAGTTTTTTCTCAACATTAACTTCAATTGGTAGTCCATGAGTATCTAACCCAATCTTTCTAATAACTCTATGTCCCTGCATAGTTTTAAATTTACAGAAGGCATCTTTAATAGTTTTGGCAAAGACATGATGAATACCTGGTGCGGCATTCGCATATATTGGTCCATCATAAAACACCCAAGAATTCTTTTCATCTCTAGTTTCAATACATCTTTTTAGAATATCTTGTTTCTTCCATTTCTTTAGAATTTTTGTTTCTACTTCATTTATTTTTCCTGTTTCTAGTTTTTCAAATTTCATACTTCTTCCTCCTATCCTAGATATATAACATAACTATAATAAATAACAAAAATTGTTAAAAAGACAATTCCTTCCCACCTATGAATTTTATAATCATTACGAGAGAAGATAAATAGTAAAAAGGCACTAAGTAACATAACTCCAACATCAATATAATTGAAAGCAATATGTCCAACGCCACCAAATAAAGCAACTGGCATACCAATAACTACTCCAATATTGAAGATACAACTACCAACAATATTACCAATCGCAATATCATATTCTCCTTTTCTAGTAGCCATAATACTAGTTACTAATTCTGGTAGAGATGTTCCTAAAGCGACTACCGTAAGAGCTATCATCTTTTGACTAATACCTAAAGCTTTCGCTAAAAAACTGGCACTATCAACTACTAAATTACTTCCTAAAACAACTGCGACAATACCCAAAATAGTAAAGGCAAATGATTTTACTAATGGCAAGTACTCTTCTTTACCATCATCATCTATCTTGTTTCTCATCATCGAAATAAGATAATAGACAAAAACAGTAAAGAATAAAAGAATAACAACCCCGTCACTTCTTGTAAACTGATTAATATCTTTAAGATTAAATAAACTATCTGATATTAATACTGCGAATAAAGTGGTCATAAGAAGGGTTATTGGTAATTCTTTTTTTACAGTACTATTCTTAACATTCAAACTATGAATAATAGCACTAATACCAATAATAAGTAATATATTTAAGATATTACTACCAATGACATTACCAAAGACAATATCTCCATTACCTGATAAAATTGATTTTACACTGACTGCAAATTCGGGAGCACTTGTTCCAAAGGCCACAATAGTTAGACCTATTAACATCTTAGATACTTTAAAGTTACCCGCAATACTACTTGCTCCTTCAACAAAGAAATCAGCACCTTTAATCAGGATAACAAAACCAATTATTAATAACAATATGTTTAACAGCATGTTTCCTCCTTAAGAATAAAAAAGAGACTTCGCCTAAGGACGAAAATCTCGTGGTACCACCTTATTTTATAAGTATTACTTATATCTCTAGACTCTTAACGTGAGTATCCGTATTTATCTTATCCATAAATCACAACTTGAAAGTGATCTTAGTATAGAAGTAATGCTCTCTTTTCCAGCCAAGAAGAGATTTTCTATCATCCTTTTTTATACTACGTCTTTCGCACTTGTTTTTCTTATATAATATAACATATACTATTTATTTTTTCAAGGTATTTAACTACTTATTAGTAAGATGCTCCAACAAATCTTTTTTCTTATTTCTTGATACTAATTCAGTATATTCACCATTTTTAAAGATTATACAATTCTGTTGATAATCAAATCTTTTAATCTTATCAGTATTAACAATTAAACTACGATGAGTCCTAAAGAAACGATTGTCAAGTTCTTTTTCCAGTTCAGTTAACCCTTTAGGTATCTTCTCATCACCACTAGTGGTATGAATAGTACATCTTTTACTATCAGGTTCTTTTTCGATATAAATGATATCTTTATAATCAATAATATTAATATAAGAATTATATTTATAACTAATAGTATTGGGTTTCTTGTGATAGTTATCTAAAGCTATACTAATAGCTTCTTTTAGTCGCTTAGTAAATGAATCAGCCTTAGTAATAAAATCAAGAATATAAAGTCTGGCTCCCAGAGCTTCATATTTATATTCAGGATAAGCAGTAATTATGATAATAGTTGATTGCCAATCATTATATTCTTCTCTAATCATTCTAGTGGCATCTATTCCAGAACCATTATCAGTCATAATATCTAATAAATAGATCTTTTGACCAGTTACTTTCTTAACATCTTTTTCAAAATCACTATTATATTCTGAGTATTCTTTGATCTTATACTTGATATCAAAGTTCATCATATAACTATCAATAACTTTAATTTCTTGATTACGAATCTCATTCTTATCATCTACTACTATAAATGTTAGCATGCTATCACCAGGATAATTTTACCATATTTTTCCATTATTTAAAATAAAAAAGAAGTCTATCTTAGACTTCTATTTTAACTAAAAGTAAACATTAACCATTCTGGTTTAAAGATAACTAATAATCCAATAATAAGCATTATTAGGCCACCAACTAGATGTGAATACTTATTATACTTACTAGAAATAGCTGCAACTTTCATTGTCTTCATAGCTATTATAAAGATGATAACATCATCAAGCATAAAGGCTAAAGTATAGACAAAGATATACCATAGTGATTTAGGAATGGCAATATCATTTATTCCTAAAAGGCCGGTAAACATAGCTGGTAGACCAGCTGAACATGCTAGTTCAATTAAGTTAACTGATAGAGCTAATAAAGCTATACCAATAATACCAGCTTTAAAGCTCTTTTCAGTAGTATACTTCTTTATCTTTTGAATAATTGGTTTCCTTTTTTTATCATCAACAACAACACAACCAGAGTCATCACTAATAATAAAGGCTCTAATATTAATGACAGCACCAATTAAAGCTACTACGGCAATAATCAGTTTTAAATATAAAGGATTAAAACCATTTAAAGCTTCAGTAATTCCACTCCAGAAAAGAAGTATTAGGAAGTAACAAATTGCTGATGTCAGTAAGAATGTTCCTCCTAACCACCACATTTTCTTTCGATCTTTCATGGTTACTAGAATACTAATTAAGAAGATCAAAACCCACATGGCACATGGATTAAAACCATCTACTAAACCAATAGCAATAGTAGCAGAAATTAAAGATAAATTACGAGCTTTAACTTTCCCTATAAATGGGAAATTAAAAGTAGTTGCCTCGTCTTCTTCTTTTTCTTTTTCTTTAAATTTATTCTTTTCAGCTGGTTTATATTTACCTTCTTCAATTAATTTAACAGCATCAATAGATTTTTCTGTACTATAGAAATCTACTAATCTATCCAATTTTCTACCAATTGAATCGGTATAACCAATAGTTCCTACATCACTAATCACTGTGAAAGGAACACCACTGCTTTCTGTTTTTAATTCTTTTTTTACTTTGTCCATTAACTTTTTATTCTCATCGTTATACCACACTTCATAATCTTTAATGACAATATTATCGTATTTAGTCTTTAGATTATCTAAGAATTTTTCTTCTTCAGCACAGTGTGGACATCCACGACCATGAAAAAAATAAATAGTTACTTTTTCTTTAGCATTAACACTTACAGTATTTATAAACAAAAAGGAAAAAAGAATTAATACATATAATAACTTCTTCATATTACTTCTCCCTTATAAATTCTAACATCTCTTCTTTAGTATGTTCTCCTTTTATTCTCCGGAGTTCTTTACCATCTTCCATAATAATAAAGACTGGTAGAACTGTTCCTGGATTATACTTTTCTACTTCTTCTTCATCAAAATCATAATCGAGTGTAGTTGTCTTAATATCTATTTCCTCTAGAACTTCATTCCAGATGTTATTCATAACAACACAAGCACTACACCACATGGCATTAATCTTTATTATTTCCATATAATTCACCTAATTCAGTTAGTTTTTTTGATAGTACTTCAACAAATTTATCAATCTCTTCTTTAGTTGTCAAATGAGAAATACTTACTCTGAGACTGTGTGCGGCATAATCACTACTCTTAGTAATGGCATAAACAGCCTGAGAAATACCATCTCCTACTCCAGATGAACAGGCAGTCTGAGTTGATATATAGATTTCTTCCTCTTCTAAGGCATGCTGCATCGTCTCTGGTTTAATATTCATAACACTGAAATTAACAATATGTGGAACAGAGTTTTTAGTACTATTGATATGTACCTTGTCAAGTTTCTCTAACTCTTCCCGTAAATGATCATTTAATTCACAGACATGATTTACTCGATCTGAAAAATTATCATAAGCAAGACGTAAAGCTTTAGACATTGAAGCAATTAGAGGGGTTGCTGGAGTACCACTACGATAAATAGTAGTTGATTTGCCACCATGAATTAATGGTTCAATATTAATACCCTCTTTTTTGATTAGACAACCAATTCCTTTAATTCCATAAAACTTTTGGGCAGAAAAGCTAGCTAAATCAACATTACTAAGATCTACTACTTCTTTACCAATACTTTGCGTAATATCACTATGAAAGAATATCTTTGGATAATTTCTTAGTATTTTACCGATTTCATTAATTGGTTGTGATACACCTACTTCACTATTGACACTAGCAATTGATACTAGAATAGTATCTTCTCTAATTAGTTCTTTTAAATTATCTAAATCTACTAAGCCATCATCATTTATTTTAACAAAATCAACATCAAAACCTAATGATTGAAGATAAGATGTAGGAGCAATAACAGAAGAATGCTCTAACTTAGTTGTAATAATATGTTTACCTCTATTTTGATGTTTTAAACATATACCCTTAACAGCAGTATTGTTAGATTCACTAGCTCCACTAGTATAAATTATTTCTCCTTCTTTAACTCCTAAGATATCCGCTATCTGTTTTGTCGCATCATCAATTAATTTTTTAGCGTCATGACCTAATTTATGTAATGAGTTGGGATTACCAATAAATCCCTCACAAGCTTTATTAAAAGTATTTAAAACTTCCTTATCCACAGGTGTAGTGGCACTATAATCTAAATAAACCATGTAATCACCTTCTAAACATATAAATTATATCAAAAAAAAAGGAATAAGTATAGCACTTATCCTTGTTTTTTAATTTTATCAGTTCTCTTTAAAACAATAACAAATACAATAGCACTAATTGCTAAAAGAATTAAGAATTTTATAATTAAATCTGCTGTATAAGGATTAATCATTCCTCTTCTACTAGTTCCATGAGAACCTTTATCATCTTTAGATGGATCTACTGGTTTAACATCCCCACCATCATCAGATGGTCTAATAACAAAAGCAGCTTTAGGCTTTTTATCACCTTCACCTTTTTCTTTAACATATAGTTGATATCTTAAATTATCGCCATCACGAGTAATTTCGGCTGTTAAAACATAATATGTATCGGCACCATCTAAAGTTATCTTATAGTCATAGATTCCCACGTGTTCAAAATTAAGTATACCAAAGTTTTTTTCTTCCCCTACTTTAATATTAAACTCTTTAATACTAGGTGTTGGTGCATTAGCTGTGATAGGAGTTATCTTAGCTTTATAAGCTTTGCTGTCCTTGGCATCTACTACTACTTTACAAGTAGGTATTGTAATAGAATCGGCAGCATATACATTAATAAAGCCTAAGCATAAAACCGCAATAATTATTAAAGCTACTTTCTTCATAATTTCACCTCTTATTATCTTCATCTTTAGTATAACACATTTATATATCAATTAAAAGTATTACTTCAATTCTACTAACTCTAATTTTTTATCTTTATGTACAAATATTAAAGTAGCTTTATCTTGATAACCTTTCCCTTGACGATATTTCCAAGTTGCTTTAACATGATAAGCTTCATTATCAGTTTGGTCATTATATTGATATTCTTTTTTATCAACACTTTCAATTTCAACTTTAGTTACTTCTGGTAAAGTCTGATGTCTCTTACCATAAAGATCATTTTCTACATATTTATAGTAAGTGTCTTTCGCATTAACTACGAAGTTGTCAAGAATACTTTCTTCAACAAATTCAACACCACCAACATCAGTCTTAGCTATTTTATTATCTAAACTGAAGAAATCAATTATAAATAGTTTAGAAAGTAATTCAACATACTTTTCTTCATCCACTTCATCTTTTGATAAAACCTTTTCTAAGTCTTGGAATGTTTTCTTATAAAGACCACTTTCATTTTCTTTTAACTTATAGCCATACTCAGGTATTTCTTTAATAATCTTTACTTCTTTAACTCCTTGATTATAGAAACCAAAGTAATAAATAATACCTCCTAAAGCTATGATAAGTAAGATGAGAATAAATATTAAAAACCTTCTCACACCCTTTTTTAATTTCATTTTATCCCTCCAGTCTATTTTTCCACATCTTTAAGCAAGTCAAAGACAATAATATTATTAGAAACATTTAATAGTTTTTCCGTATAATCACTTTTTTCTTTAATATATTCTTCACTAACAGCACTATTATCTAAAGATAGATATTCTTGTTTTTGACTATTATAGTAGATTTTATTAGTAACAAAGTTACCATTAGGAAATACTACTATATTATTTTTACCAATATCAAATATATCATGACCTAAAGCATATTTATTATAGAAACCTAACATATTACCAAGTGTTGGCATAACATCATACATTCCCATAACATCAGTTACTTCCATATTGAGATCAGTTCCAGCCATATCTTTAGACCAAATGATAAATGGTACTTTTCTTCCTAATTCATATTTATAATAATCGAAATCAACATATGTTGGATCATCCTTCTCTTTAACCTTATCCGTATTAGTATCATAATTATAAAGTCTACTATAATCTTTCTTAGGAAGTCTTCCATCATGATCACCATAAAGAATTAGAATAGAGTTTTCTAATAAACCTGCTTTATCTAAGTCATTAATAAATTGGCCTAGAGCTTCATCCGCATAATGAACTGATTTGAAGTAATTACCTAGTTTAGTTCCTTCCATATAAGGATGAGAAATAGTCTCTACTGTCCCATCTTCATTTGTTTTTTCTTCTTTAATATCAACTGGGAAATCACCATATTTATCTACTGCGGAGAATGGTGTGTGGTTAGATAACATAATACTTAATCCATACCATTTAGGATGTTTCTCATTAATCTTTACCATTTTCTGAACTGATTGTGCAAAGAATGATTTATCAGAAAGACCTAATCCTACTAAATCTTCTTTCTTAACATCATAAGTTTCTTTACTATAGAACTTGTCATAGCCTAAACTCTTATGCATAGTTCTCCGGTTCCAGAAATCAGCATTATTAGCATGCATACTGTAAACATAATAACCTTGCTTTTTCAAAAATTTAGGTGTTGAGATATACTCACGATCAAAGTAAGAAACAAACGCAGTTCCGCTTTGAGTTGGCATTAGTGATGTATTATAAGTAAGCTCCGTATCAGAACTAGTTCCAACACTAACTTGTGAATAGAAGTTGGAGAAATACATTCCTTCTTGGGATAGTTTATTAAGTGTTGGGGTAAGCTCTTTATCGTTAAACTTAAGTCCAATCGTATTTGTCTGCATACTCTCACCATGAATAACAATAATATTTTTATCTTTAAAGATATCTGTATATTCATTTTCAGGACTCTTCTTTTTATCTTTAAAATATTCGTTAAATTCTACTTTAGCTTTATCATATCCAAACATGGAATTAATCTTAGGTTGAACAGAAGCGATCAAATCGTTCACCTGATAAACATATATACCAAAGCGCATAACAATATATTCTCTATTCCATTGTTTAGTAAATCTTCCTATTTCTAGTGGTGATAGTGTAAGACAGAAGATTGTTGTAATAATACCACCTGCAATAATTGTTTTAACAAATTTATTCTTTCTAACTTTTTTGATCTCAACTTTATAATAATCTTTTTTCTTTAAATATCTATGAACTAATATTAAAATTATTGGTCCAATAATATACATAACATCTTTTACTTGGAAAACGTTCTCAGTAACCGCATCTCCTACTTCACCAATGTATTGAGTAAGTGAAAGCATAGATACAGACGCAAAAGATGTATAGAAAGTATAATAGATAGAATTAACTGTACAAATAAAAGTAAGTACTAACGACATAATAAAGAAATATGTAAATCTATTCTTTGGCTTAAATAAGTAACCAAAAGATCCCAATAATACCGCAAAGGCTAAATCAGCCATTATAGGTTTAAAAGCTAAATAATTTTCTATAGTATGCATTGTTAAAAAACGAAGCATAGTAGAATTAAGAACACAAGTTCCCACAAACGTCAAAAACAGAACATTATGCTTAAAGTATTTTTTAATCAAATGCTCTCTTTTAACTTTTTTTAAATACTTAATTGTCTTGTCTTTAGCATCAATAGCGATGCTTTTTATTTTTTTCATATACATCTCCAATATTTTAGCATTTATTATTCTTTTTTTCAATTTTCTAGTCTTTAAATAGTTTAATAACTTGGGTTCTTAAATCCTGTTCATTACTGTTGGAAGCATTAATAATCATTCCTAAAACAAAGACATAAGCTAAGATGTAAACCCATAGGAAGAGAATAATCAAATTAGATATACTTCCATATAACAAATCATAATGAGCAAATTTATCAACATAGAACGAATATATATAAGTAGTTATTGCCCAACCAATAGCAGTAAATAACGAACCTATTGTGGTTGTATGTGATTTTATCTTTTGATCAGGCGCAATTATATATATGAACTTAACAATTAAATAGACAACTATAATCGCTACTGGATATTTTAAGACAGTATAGACATTATAGATTAAAGATACCATATCTTGATTAGCAGCATTATCTCTTATAAGAGCAAAGATCTGTTTACCAAAAACAGGTACTACTAGTAAGAATAATAGTAGTCCTACTAATAGGAATGTCATACCAATAGCTTTTAACCTTCTTTTAACAATACCCCTATCTTTAACTTTATAGATTTCATTAGAAGCTATAATAACTGAATGAGCTCCATTAGAAGCTAAGATAGCAGCCGAAATAAAGAAGACAAGGATATTCCAATTTAAACCTTTTCCAGAGACAATATTAATCATCTTATCAGCCAAATCACCAGCTAAAGATGAAGCTAATACTTCTTTTATGGAATTAAGTGATAAACCAAAATAAGCACAGACATTAGCTACTAAAGCTAAAAGAGGAATAAAAGAGAGAACGAAGAAAAAGGCAAGCTGTCCTGGTAAGACTCTCATCTGCGGTTCTTTAAATAATCTTTTAGCTTTGCGCATAAAAACTCGTACTCGCTCCATGTTCCTCTCCTTTTATTCTTATTTAAAATCTTCTTTGTTAGTTATCATTTCCAAAGTAGCTTCATTTATAGCATCATCTAATGTTTTTATTTCATCAGTAATAATTGAATAACCAATAGCAGCACCAAATGAATATGGTAATGACTTAAATTCTTTAGTTAGTTTCTTAGTATAAGTAATTATTTGTTTTTCACTATAACCTACTAAATAAATTAAGAATTCGTTACCATCAGTTCTAACTATTTCAGAATTCTCTAACTGTGTATTAACAAGGATAGAAGCTGCTTTAACAATTAGCTTATCCCCTTCTTCATGTCCATAATTATCATTGACATATTTGACATTATTTAAATCAATCATAATAACTGAACGTGGATATACTTTTGCTTCTTCCCATTCATTTATCTTAACATTTAAATAATTTCTGTTCTTTAATGAAGTAAGCATATCAGTATATTTATGATGATCTAATTTAACATTTTTCTTATGTTTACGACGATATTTAAGTAGTAAATATAATAGTAATAATATTAATAATGGTATAAAGATAACAATTAATGCAATAGTATATACTTGTTCAAAAGTGGAATTCTCTAGTATAGAAGCATTTAAACTATCAATACCACTATTACGATAATTATAGTAAGAAT
>sequence03
TACTTTTGGTATTGTATGTGTTCGTAAAAGAATAGAATAGGAAGAAGTTTTTCTTCCTTTTTTATCTAATTATTATCTGTCAAGTATACTATAAATCGTTGACTTATTTACTAAAAACTAGTAATATATAGGTAAGTTGTGATGACTGAGTTTGGAACCTCACGAGCAGTATACTATAAAAGAGATCTCTTATGATAAATAAGGTGGAACCGCGGAAATATTTCGTCCTTATGATTCATGAGAGTTTTTATTTTAAGGAGGGATAGTGTGAATATCTTTATAGGAACATCTTCAAGAGATGAACTTGATAAAAAAATCTTAAATATGAGTGATGAATTAATTGAAAAAGTAGCCAAAGTACCAGATTTAAATCTAGTATATGGTGGTTATGATCATGGAGTTATGAAAAAGTGTTATGATGAATTTAAAAAGAATAATAAAAAAATAATTGGTATTACAGTAGATGCTTATGATGATGAATTAGACTGTAGTGAAGTAATTATTAAGAAAAGTACTTTTGATCGTACTAAAGAAATTTATAATAAGAGTGATATTTTATTAATATTACCAGGTGGTATTGGTACTTTAGCTGAATTATTTTCTATTATTGAACAAATGCGTACCTATGATAATGATAAAATCTTGATTCTTTATAATAAAGATTTCTATTATAAAGATTTAATTGAAGAAATATATAAGATGTATCAAGAGAAGTTAATAGAATATCCACCTAGTGAATATATGTTAATTAGTAATGATATTGATGAAATAATGACAGTAGTGGAGAATTTTTAGGAGGGATATAATGGAAAAACTAACAATGGAAAAATTAGTTAATTATTGTAAACAATATGGATTTGTTTTTCAAGGAAGTGAAATCTATGGAGGTCTTGCTAATTCCTGGGATTATGGACCTTTAGGTAGAGAACTAAAAGAAAATATTAAAAAAGCTTGGTTTAAACGTTTTATTCAAGAAGAAGTACATAATTATGGACTTGATGCGGCTATTATCATGAATCCTGAAGTTTGGGTAGCATCAGGACATGTTGCTTCTTTTGCTGATCCTTTAATTGATTGTAAGAAGTGTAAAATGCGTCATCGTGCTGATAAATTAATTGAAGACTTTACTGATGGTAAAGAAACTGGTGATGGTTGGGATAATGAAAAACTAGAAAAATACATTGCTGATAATAGTATTGCTTGTCCTAATTGTGGTTCTACTGATTTTACTCCAATTAGAAAGTTCAATTTATTGTTTGAATCACATATTGGTGTAACTGAAGATTCTAATTCCAAAGTATATTTAAGAGGAGAAACTGCTCAAGGTATATTTGTTAACTTTAATAATGTTTTAAGAAGTATGCGAGCTAAAGTACCATTTGGTATTGGTCAAATAGGTAAAGCATTTAGAAATGAGATTACTCCAGGTAACTTTATCTTTAGAGTACGTGAGTTTGAACAAATGGAATTAGAGTTCTTCTGTAAACCAGATACTGATTTAGAATGGTTTAAATATTGGAAAGAGCATTGTCTAGCATTTTTAAATGATTTAGGTCTTAATAAAGATAACTTACGTTATCGTGATCATTCTAAAGAAGAATTATCTTTCTATAGTAAAGCTACTACTGATATTGAATATAAATACCCAATGGGTTGGGGAGAATTATGGGGAATAGCAGATCGTACTGATTATGACTTATCAGTTCATGAGAAGCATTCCAAGACGGAATTAAAGTATTTAGATCCTGAAACTAATGAAAAGTATATTCCTTATGTAATTGAACCTAGTATTGGTGTAGATCGTCTTTTATTAGCTCTTCTTGCTGATGCCTATAATGTTGAAGAGTTAGAAAATGATGAGCGAGAAGTACTTAAAATTCATCCTTTCTTAGCACCATATAAAGTAGCAGTCTTACCACTTGTTAAGAAATATCATAGTGATAAAGCTAAGGAAGTATATAGTATTCTTAGTAAAGAATTTATGACTTCATATGATGAAGCAGGATCTATTGGTAAGAGATATCGTAGAAGTGATGCGATTGGTACACCTTTCTGTGTAACTATTGATGATGAGACAGTAAAGAATAATACAGTTACTGTTAGAAATAGAGATACTATGGAACAAGATACAGTTAAACTAGATGAATTAAATGATTACATCAAAGAAAGAGTAAAATTTTAGTGACTTTTAATTGATAAAGTGTTATAATACTAAGTCAACTGAGGAAAGAGGTGCAGTTATGAAAAATTATGACCGCGTATTAGAAGTTTTAAATGCTACATGTGATTTTTTATCAGCATACGAAGGTAAATCATACGAGGGAAGTATTATACCTGTCAAACTTGAATTTAACAATAATCTTTTAGAACGGGGCTTAGTAGTAGTTTATGAAAAAGATAAAAAGAAACTAGCTCGTGCCGAAATAGAAGATAAGTTTGAAGATAATGATATTGCTGGTTTACTTACACCAAGTAAGAACTATATACAACTTGCTTGTATTAAGGATAAAACCATTACTACAAACATTACTTTTGATGGTGAATGTGTTATTACTGATGGTATAGGACCAGCTGGTGTTATTGATCCTAAATATAGTGTTATCAACGACATGTTTGAAGATTGGTATATTACTAAAGAACAATTAGGTAAGCACTTAAGATATGATGATATTTATCAACATGCTTATGTTTATGCTGAAATGTTAAAAAGACGTGAAAAAAAGATGTCAAAAACTAAAAGAAAATAGTTGACAATTATAGGCTTTAAGCATATAATTAGTAAGGAATTAAGGAAAGAGATTTTATATCCACCTGATTGCGAAAAGCGATAGGTCAAAAGCCAGATAATAAAATAAGTTTATTAGGTTTTTAAAGTGGATATAGAATTATATCTACTTTTTCTTTAATTTAATTGGAGGTGTTTTGAAATAGCAAATAAGAATGATTTGTTAAAAAATGAACAGATTACAGTACCTGAAGTTTTGGTTATTGGACCAAATGGTGAACAGATGGGAATTAAATCCATTGAAGATGCTAAGACATTAGCAACTTATGCAGCTTTAGATTTAGTGCTTATTTCACCTAATGCTAATCCACCTGTTTGTAAAGTAATGGACTATAACAAGTTCAAATATGAAAAACAAAAGAAACAGAAAGAAGCAATGAAAAAGCAAAGAGCAACCCGTTCAGAGTTGAAGGAGTATCGTATGACTCCTAATATTGATGTAGGTGACTTTGAAACTAAGCTAAGAAATATCACTAAGTATTTAGAAAAAGGTGACAGGATTAAACTAACTGTTCGTTTTAAAGGTCGTCAAATGGCTCATACTGAATTAGGTAAAGATGTATTAGATCGTTTTGCGGACAGACTACAAGATTTAGCTACTATCGAACAACAACCTAAATTAGATGGTCGAATGATGACTATGTTATTGGCACCAAAAAAAGATAAATAGAAGGAGGAAGAATTATGCCAAAATTAAAAACCCATAAGGGAACAGCTAAAACAATGAAAAAGCGTAAGAATGATTATAAGATCGGTAGACCTGGTCATAATCACAATACTGGCTATAAGCCAACTAAATTTAATAGAAAAGGAAGAAGTGGATCTACTTTATCAAAGGCAGATCAAAAGAAGCTTAAAAACTTATTGAAATAGGAGGTAGAGGAAAATGGCAAGAGTAAAGAACAGTGTAACGACAAAAGCACGTCATAAGAAAGTGTTAAAACAAGCTAAAGGTTACTTTGGTAGTAAACATAGATTATATAAATCAGCTAAAGAACAATTAATGCATTCTGGACAATATGCTTATCGTGATCGTAAACAAAAGAAACGTGATTTTAGAAAGCTTTGGATAACAAGAATTAATGCCGCTTGTCATGAACGTGGTATTAGTTATTCAAGATTTATTGATGGTTTAACTAAAGCTGGTGTAGCAATAAATAGAAAGATGTTATCAGAAATAGCTATTAATGATCCTAAAGCTTTTGATGAAATAGTAAAAACAGCTAAAAAAGGATTAGAAGGTAAAGTAAAAGCTGAAGAAGTAAAAAATAGTGCTGAAGTAACTATTAAAGGAAAGACTGCTAAGAAAGAGACAGAAGCAAAGAAAGAACCAGCTAAGAAAGCACCTGTAAAGAAAGAAGAACCTAAAAAAGAAGTAAAGAAAGAGGCTAAGAAAGATTATGCTACACTTTCAGTAGCTGAATTAAAAGCTGAAGCCAAGAAAAAAGGAATAAAGGGTTATTCAACAATGAAGAAAGCAGATTTAATTGCTGCTTTAAAATAAACATATTAGATGGTTTATTTATCTAGTGCCCTTGTGGTGATAAATAATAGTCTAATAGAAGAAAAATAAAAACGAAAAGGAGATTATGATATGACAGTAGTATCAATGAATTATTTATTAGAAGCTGGTGTTCATTTTGGACATCAAAAAAGAAGATGGAATCCAAAAATGAAGGAATACATCTATACAACAAGAGATGACATATATATTATCGATTTACAAAAGACAGCAGAAAAGATTGAAGAAGCTTATGCTGCTATTAAAGAAATCGCTGAAAAAGAAGGAAAGTTCTTATTTGTAGGAACTAAGAAACAAGCTCAAGAAGCTGCAGAAGAAGCTGCAACTCGTACTAATATGTACTTTGTAAATGAAAGATGGTTAGGAGGAACTCTAACTAACTTTAAGACTATTAGATCAAGAGTTAGAAGAATGGAAGAAATTGAAAAGCAAGAAGAAGATGGAACTTTCGATTTACTTCCTAAAAAAGAAGTTATTAAAATAAGAAAAGAATATGACAAATTACATCGTAATTTACGTGGTATTAGAGATATGAAGAAAGTACCACAAGCAATGATTATCGTTGATCCTAAGTGTGAAGAAATTGCGATTAAAGAAGCTCGTATTTTAGGAATACCTGTATTTGGTATTGTTGATACCAATTGTGATCCTGATATGGTAGATTATGTTATTCCTGGTAATGATGATGCTGTAAGAGCAGTTAAATTAATTATTGGAGTACTTGCTAATGCCATTGCTGAAGTAAATGGTAATGAAATGATTGACTATGTCAATAATGATGATAAGGGTAAAGAAAAGCCAGCTAAGAAGGAAACTAAGAAAGAAGAAAAGGAAGAACCTAAGAAGGAAGAAAAACCAAAGAAGACTACTAAGGAAGAGACTAAAGTAGAAGAAAAGAAGGAAGAAGCACCAAAGAAAGAAGCTAAAAAAGCTCCTAAAAAGGAAGAAGTAAAAGAAGATTTAGATTCTAAGACTTTAGTTGAATTAAAAGAAATGGCTAAAGCTAAAGGTATTAAAGGATACTCAAAACTTAAGAAAGCTGAACTTATTGAAGCTTTAAAATAAGACATAAAAAGGAGAATAATGATGATAAAAGCAAGTGATGTTAAAGAGCTAAGAGAAAAGACAGGCGCTGGTATGCTTGATTGTAAGAAAGCTCTAGAAGAAGTATCAGGGGATATGGAAAAAGCCATTGATTGGTTAAGAGAAAAAGGTATTGCCAAAGCTGCTAAGAAAGAATCAAGAATTGCGGCTGATGGTTTGTGTGAAATTAAAACTGATGGCAATAAAGCTGTTATAGTAGAAGTTAATTCTGAGACTGACTTTGTTGCTAAAAACGAAGAGTTTACTAAGTTTGTTGATTTAGTAAGTGAAGCAATTCTAAATAACGATGTTGAAACTAATGAAGATGTTTTAAAATTAGATGTAGATGGAGAAACTATTGAAGAAAAATTAGTTGCTCTAACTGCTAAAATAGGAGAGAAACTATCTTTTAGAAGATTTGAAAAGGTTGAAAAAGAAGATAGTGATGTCTTTGGTTCATACTTACATATGGGTGGTAAGATTGCTGCATTAGTAGTTCTTACTGGTGGTAATGAAGAAGTGGCTCGTGATGTGGCTATGCAAACAGCCGCTATGAATCCTATGTGCTTAAATAGAGAAAGTGTTCCTGCTGATGTATTAGAGCGTGAAAGAACAGTTATTAAGGAACAAGTTCTTAATGAAGGAAAACCAGAAGATATAGCAGAGAAAATGGTTAATGGTAGACTAAATAAGTTCTATAAAGAAATATGTCTTGAAGAACAAGAGTTTATTAAAGAATCAAAAATGTCTGTAGGAGACTTCGTTAAAAAAGAAAATGCTTCTATTAAAGCAATGTACCGTTTTGCCGTAGGTGAAGGAATCGAAAAGAAAGAAGAAAACTTTGCCGAAGAAGTAATGAGTCAAGTAAACGGATAATATAAAAGGTGCAGTATGAAGAAACTATTATTAATACTACTTGTAGGTTTAATTATTATAAGTGGTTGCGGAAAAGTTGTAAAAGTAAAAAAAGTAGAAGAGATTACTGATAACGAGAAATTTGCCCAAGAATTTGATATTAGTAAGGAAAATAATTTTAAATATCTTAATTATGATGAGTTAATGGATGTATTAAATAATAAATCAGGTATTATCTTTTTAGGTAGTGGTGATTGCGAATGGTGTAAAAAAGCTGCTAAACTTCTTAATGAGTCATTAAAGTATAAAGATATTAAAGATGATATTTATTACTATAATCCTAAAAAGATTAAAGCAAATAATAACAAAAAATATCAAGAATTATTAAAGATTCTTGATCCATATTTAACTGAAGATGAAGATAAAAACAAAGAATTGTTATTACCAGATATCTATTTCGTTAAAAAGGGTAAAATAATTGATCATAATAATGATCTTGCTACTATAAAGACTAATCCGGAAGAGTATTTAACTAAAGAAAGAAAAAAAGAAATAAGAGAAAAATACGAAGACTTAATTAGTAAATACAATGTCAAAGAATGTAAAACATGTTAATTACATTCTTTTTTTTGTTCAAAAAAAGGTTATAATTATGATAAGGAGAGTGAAAAAGGTGATTGAAGAAAAGAAGAAAAACAAGTTAGTCGGACCATTTATTATAGTATTACTACTATTACTTGGTTCTATAGGATTCATTCTTTATGATAAAGGAATAATCTTAAAACAAAAAGAGGAACCAAAAACAGAGAAAAAAGAGGTTAAGAAAGAAGAAAAGAAAGAAGAAAAAGAAACTCTTGATTTCGTAACTGATCTTAGCAAGGTTTCTAACAAAAGAGGAGAGAATACTTATGTTTTAGATGGATCCGATGGATTTGACAATTTTTATCAATTGGATAAGGACCAAAAAACAGTTAAATGCCAAATTTCGTGGGATAGGATGAATGAAGCAATAAATGGGCAAAAATCCAATACGGTAGGATATAAAGTTGAGGACATTGAAATAACGTTTGAACAAAAAGTAAACGAAATGTATTTTGGCGGAACAGGACAAAGTATATCAGGAGATCTAGTACTGTTTCTAATGGAAGATGGTACGGTCGAATATATTCCGACATATTATGCTGCCAAAGCAAAAGAAATAAAATCCTATGGAAAAATACCAGAGCTTGAGAACATAATTAAGTTCTATAGTGCAGGAGTTAGGGCAGGACAATTTGGATATCATACAGTATTGGCTCAGGATAATACCGGAAAACTATATGATTTAGAACCTTTAATAAAAGAATTTAATTCAACAGAATAAAAAAAGAAAACTAATTTTTTCTTTTTTTATATATAAAAGTGTTATATAATATACTTAAATAAGGAGAGATAAATATGTTTGATCAAGTGTTAAGTAAATTAAAGAAAAATATGGATAGTTCAATTGATGCTTTTGAAAAGAGACTTGCTAGTGTACGTGCTGGTCGTGCTAATCCATCTAGTTTAGATGGGGTACAAGTAGAATACTATGGTAATTTAACACCACTTAAGTCTTTAGCGACTATTTCAGTACCAGAGGCTCGTATATTAATGATTAAACCTTTTGATAAGAGTTGTTTAGCTGATATTGAAAAAGCTATCTTTGAATCTAATTTAGGATATACTCCTAATAATGATGGAGAAACAATTAGAATAGTAATTCCTGAACTTACTGAAGAACGTCGTAGGGAACTTACCAAACAAGTAAAAGCACTTGCTGAAGATGCTAAAGTATCAATTAGAAACAACCGTCATGAAGCACTAGATGCTGCTAAAAAAATGGATGCCGATGAAGATAGTGAGAAGCGTTTTGAAAAAGATGTTCAAGAAGAAGTTAATAAGTATAATAAAATAGTAGAAGAAAAGCTTAAAGAGAAAGAACAAGATTTACTTAACATTTAAAATATGGTATAATTTCTATATCGACTTTGACCTAGGAGTAGTAATAAGAATTTTCTTTTCAAGAGAGACTATGGTTGGTGAAAATAGTTAAAGAATGCTTATGAATTCACCTAGTGAGTTCCTATAACTAAATTATAGGCGGATAATCACGTTACGATAATTAAGAAATAGTATAACTATAAAATAGGATGGTACCACGAATAGTTCGTTCCTATATTATGGTTATTTTTTTTGGAGGGATTGAGATGTTTGATGATGTCAAAAAGAAGTTAGAAAAGGATCTGAAAGATATTAAAGACTTAAAAGAATTAAATGATCTAAAAGTAAAATATCTTGGTAAAAAAGGTCTTATTACTGAACTTAATAGTAAGATTAAGGAAGTAGCTAACGAAAAGAAAAAAGAGTTTGGAATGAAAGTAAATGAACTTCGTACATCATTTAATGATTTTTATGATGACAAGAAAAAAGCATTAGAGGAAGAAATCTTAAATGAAAAATTAAAAAACGAAGTAATCGATATAACTTTACCAGCAACAACTATTCCTATGGGTTCTCCTAATATCTTGGAAAGAGTTATTGAAGACTTTGAAGAAGTGTTCATGTCTTTAGGATATGATGTTTATGATGGACCAGAAATAGAAGAGGACAAATATAACTTTGAACTCTTAAATATACCTAAAGGTCATCCCGCTAGAGATGCTCAAGATACTTTCTATATTGAAGGGGATGAAATATTACTTAGGAGTCAGACATCACCTGTTCAAGCAAGGGTTATGTTAGAGAAGAAGGGTAAAGAACCAGTAAGAATGATTTGTCCTGGTAAAACATATAGAAGAGATGATGATGATGCTACTCATTCTCATCAATTTATGCAAATTGAAGGACTTTTAGTAGATAAGAATATATCTTTATCTGATCTAAAAGGAACTTTTGATGTTGCTGCTAAAAAGTTATTTGGTGAAGACACTGTAACTCGTTTTAGACCATCATATTATCAATTTACTGAACCTTCAGTAGAAACTGATATTTCATGCTTTGCTTGTAAAGGAGAAGGTTGTTCACTATGTAAGAATACTGGTTGGATAACGATTTCTGGTGCTGGTATGGTTCATCCTAATGTTTTAAGAAACTGTGGTTATGATCCTGAAGAATGGAGTGGATTTGCCTTTGGTTTTGGTGCTGACAGATGTGCCATGTTAAAGTATGGTATCGATGATATTAGAACTTTCTATAATACTGACTTACGCGAAGTAAAACCTTTTGATAGAGGGGGTGCTAAATAATGATATCAATGAACTGGGTAAAAGATTATGTTGATTTAGAAGGAGAAGATTTAAAAGATTTAGCTGTTAAAATTACTAAAGCTGGTATCAATGTTGAAGATGTTGTAACTAATCATATTGATCATTTAGTAATAGGTGAAGTTAAAGAATGTGTACCTCATCCTGATTCTGATCATTTAAATATTTGTCAAGTTGATGTTGGTGAGAAAGAATTAAGACAAATTGTCTGTGGAGCACCTAATGTTCGTAAAGGTATAAAAGTAATAGTAGCTCTACCAGGAGCAATTTTACCAGGAGACTTTGAAATAAAAGCTGGTAAAATTCGTGGTGAAAAGTCTGATGGTATGATCTGTGCTTTATTTGAACTTGGTTTAGAAGAAAAGACAGAAGAAACCTACGCTAAAGGAATTGAAGAATTAAAAAGTGATGCTCCTGTTGGTGTTGATCCCTTAGAGTATTTAGGAGTAGAAGATACTAAATATGAACTTGATGTTCATAAACATCGTAATAATGACTGTTATTCACATATTGGATTTGCCTATGAAGTGGGAACTATTATTAATAAAAAAGTAGAGTTGCCAGTAAGCAAATATAAAGAGTCTAAAGAAGATATTAATAAGTATATTAAATTAGAAGTTAAGACTGACAAGTGTCCATTCTATTTAGGAAAGATGGTTAAAAATGTAAAAATAGGAGAATCTCCAGAATGGATCAAAAGAAGAATTATTGCTGCTGGTATGCGTCCAATTAATAATATAGTTGACATATCTAACTTTGTTATGTTGGAGTATGGGCAACCAACGCATTTCTTTGATGCTGATAAACTAGGTAAAAAGGTCCTAGTTAGAAATGCTACTCCTAATGAGAAGATTACAACTCTAGATGGTATAAAACGAGTATTATCTGATAAAGACTTAGTAATTACTGATGGTAAGGTACCAACATGTATTGCTGGTGTCATGGGTGGTGAAAACACCGAAGTAGATGAAAATACTAAGAACATCTTCATTGAAGCAGCTATCTTTGATGCAGTCACAACACGTAATACTTCAGAAAAATTAGATTTAAAGTCTGAAGCGTCTATTAGATATGGTAAAGGATTAAACTATGAATATACTTTTCTAGCTATGGATAGATGTTGTAGCCTACTAGAAGAATATGCTTCTGGTGAAGTGTTATCAGGTAGTGTTTTACATGATAAGACTGATAAAAGTATTAAAGAAGTAGAATTTACTACAGAAGAGATTAATAATATGTTAGGTATCGAAATAAGCGATAAAGACATGGAAGTTGAACTTAAACGTTTGGATTTTGAATATACAAAGAATAAGAATAAATTCAAAGTAATTATTCCTAAAAGAAGATTAGATATAGATCCTAACGTAGCCGATATGGCAGAGGAAATTGGTCGTCTTTATGGATATCATAACCTAAAATCATCTCTACCACTTGTTCCTAACAAAGAAGGAGTTTATAAGGGTGATGTTGGTATTCGTAAAAGTATTTCTAAACGTCTAAGAAATTTAGGACTAAATCAAACACTAACTTATACTCTTACTAGTCCTGAAGATGCTAAGTTATTTAGATATGATAATCGTGAACAAATAACCCTACCAAGTCCACTTAGTGTAGATAAATCAGTTATTAGAACGAGCATAATACCAAGTCTATTAAATGTTTATCGCTATAATAAAGCTCGTAAGGTTGAAAATGTTCTACTATACGAAATTGGTAAAACATATGATGTTAACTATGAAGAAATATCTAAAGTTGCTATTCTAATGTCTGGTAACTATATTGATAACGAGTGGAGTAATACTCGTATTAAATGTGATTTCTATACCCTTAAAGGTATTGTTGAAAATGTTTTAGATTATCTAGGCTTCAAGAATAGATATAATTTTGAAAAAAGTGAAATTGTTGATTTACATCCAGGTATGAGTGCTAAGATATTAGTTGATCGTAATGAGATTGGTGTAATTGGTAGAGTTCATCCTAAACTTACTAAAGATGAAATCTATGTAGCTGAATTTAATATGACTTATCTATACGAAGCTAAGGTAAAACCATTAAAATATAAAGAAGCTTCTAAGTATCCAGAAATAAGAAAAGATGTTGCCTTTATCGTTGATAAAGAAATAACTAATGAAGAAATAACTACTGTTATTAGAAAAGCAGGAGGAAGACTTTTGAGTAGTATCGATATCTTTGATATTTATGACATGGGTAAGAAGAAGTCAATGGCTTATAAATTAATCTTTAAAGATGATAGTAGAACTTTATCTGATGAAGAAGTTATGAAAGTTTTTGATAATATTATTGATAAAGTAAAAACTAATCTTAAAGCTTTTTTAAGAGATAATTAGTGTAAAAAAGAGACAAATAGTCTCTTTTTTTGTAAATTAGACAGTTATTTTACATATATATTACATTTCATTTACATAAACTTAACAATTACCTGTTATGATAATTATAGGTGATATATATGCTAAAGAAAATGCAAGACTTAGAAATAGCTAAAGGATTATTCTATTTATCAACATTAATGATTACTTTAGGTATATTCATAATATGTATTAATATTATTAATTCTAGATCAACTATTTTTGTTTATTCTGGATTAATAAATTTAGGAAAATTTCTCTTGCCATAGAATATAATTTAGTGTATATTTAAATTAATAAAGGAGGTATATTTATGCCAATATGGTTAATCGTTATTTTAGCGATAGTAGTTTTAATTTTATTGTGGTTCTTCGGAACTTATAATTCATTAGTTTCATTAAGAAACAAAGTAAAGGATCAATGGGCTCAAATTGATGTTCAATTAAAAAGAAGAGCTGATTTAATCCCTAATTTAGTAGAAACTGTTAAAGGTTATGCTAAACACGAGAAAGGAACATTAGAGGAAGTAATTAAAGCACGTAATACTTTTGTTAGTGCTAAGACACCAGAAGAAGAGATGAAAGCTGCTGGTGATTTAGAAAAAACTGTTTCTAAATTATTTGCTCTTGCTGAAAATTATCCTGATTTAAAAGCCAATGAAAACTTTATGAGTCTTCAAAATGATTTAAAGGATACAGAGGATAAGATTTCTTATGCACGTCAATTCTATAATGATGTTGTAAGACAATATAACGACAAGGTACAAATGGTACCATCTAACTTTGTTGCTAATATGTGTCATTTTGAAAAAGAAGCATTCTTCGAAGCTACTGAAGCTGATAAAGAAGTACCAAAAGTTAGCTTTGATGAAGATGGTGAAGAAGCTAAAGAAGAGCCAAAAGAAGAAACAAAAAAAGGTAAAAAATAAGCTTACTAAGGTAAGCTTTTTTAAATAAAGGAGGATACATGAAAAAGATCAAATACTTTATAGTTTTACTAGGACTATTTATGTTTTTACCACTGACAGCTAAAGCTGATACAATTTCTGATGTAAATATGGAAATTGATGTTCTAGAGGATGGTTCTGCCAATATAGTTGAAACATGGGATGTTCAAGCTTCTGGGGGTAGTGAATGGTATAAGCAATATAAAAACTTAAAAAATATGGAAATATCTAACTTTTCTGTTTCTAAAGATGGAGTCCCATTACAAGAAAAAACATGGGATGTTGATGAAAGCATGAGTGAAAAAGATGGATATTATGGAATCAATAGAATTTCTGATGGAGTTGAACTATGCTTTGGTAAAAGTGATTATCAACCCCATAGTTTTACAATGAGATACAATATATCTAATTTTATTTTTAATGTTGATGATGCCCAAGTAATCTATTTTACTTTACTTCCTAAGGCAACTGTTGGTAACTTTAGTGTTAGATTAAAAAGCTTTTATCAATTCCCTGATAAATTAGATGTTTGGGGCTTTGGCTATAAAGGATATGCTTATGTAAAAGATGGTGTTGTTGAAATGTCTAATGAAGAGACAACATCCTTAAATAATGATTATGTTGTTTTACTGGCTAAATTTCCATCAGGAACATTCAAAACAGAAAACAAATATGAAGAGTTTAATACCTTTGATGATGTGTTAAAACTAGCTAAAAAAGGTTCCTTTGAGTATGACTATGGTACAAAAGAAAGTTTAGGAACTAAAATTTGGAATATTATCTCTTTTGTATTCTATATTGGTTTATTTATCTTGCCATTTATAATTGGATTCTTTGCTAGTAGGGCAGCCAAATATGGATATAAGGATAATAAAAAGATAACCAAGGACAATACACCTTTATTTAGGGAAATACCATGTAAAAAAGATATATACTATGCTCATGCATTAATTAAACTTAATGAGTTTGGATATAAAGAAACTAATATATTAGGTGCTATTATTTTAAAATGGATTAGAGAAGATAAAATAGTTTTCAAAAATGAAAAGAAAGGCATCTTCAATAAAGATACTAGCTCAATTGATATGAGTAAAGAATGTACTTTTGAAAACGATGCTGAAGCTAGTCTGTTTACTATGATGAAAGAAGCTTCAGGTGATAATATACTAGAACCTAAAGAACTAGAAAAATGGTGTAAAAAGCACTATTCCAAATTCCTAAATGTCTTTAAAAAGTTTACCGATGAACAAATAAATAAATTAAAGTCTGAAGGTCATATCTACAATCGTCAAGATAAGAAAGAATGTAAGTATAAGAATGTAATGGATGATAAGATTTATGAAGATAGTAAACAATTATTTGGTTTAAAACTATTCTTTAAAGAATTTACAGATATGAATACTAAAGAAACCATGGAAGTAAAACTATGGGATCATTACTTAATGTTTGCTTATCTATTTGGTATGGCTGAAAAAGTAGCTAAACAAATGAAGAATCTTTATCCAAAGGAAATAGCAAAATTAGAACAACAAGGAATGGATATTGGTACAATAATGTATATAGATCATTTATCAACAGCTAGTGTTCATGCTGCTACTGCTGCTAGAGCGGCAGCTCAAAGTTACTCTGGTGGAGGCGGAGGCTTCTCATCAGGAGGCGGAGGAGGAGGTTCCTTCGGTGGTGGCGGCTCTATGGGTGGTCGTTAAGAAAGTGTCAACACACACTTTCTTTTTTTACATCTTTATAGTAGAATATAGATAGATTTGTGGTGATAGAGTGGTATTTTTATATAATGATAAAAAATATGATATTGTAATTGAGAAGAAAAGAACTACTAAAAATACATATCTTCGGGTTAAAGACGATATGAAGATTCATATTACCACTAATTTTTTAACACCAAACAGATTTATTGAAAAGTTCATTAATGATAATTATAATTCAGTAATAAAAATGATAGAGCGTCAAGAACAGAAGAAGGAAGCTAATACTGGCTTTCGTTATTTAGGTAAGAAGTATGATATAGTTTATACAGATAGTAAGAAAGTAATTCTAGGCGAAAACAAAGTCTTTATGAATAAAGATACAGATATTGATAAATGGTATAAAAAACAGGCTAAAACCATCTTTCAAGAAGAATTAGATCGTCTTTATGACGAGTATTGTTATGAAATACCTTATCCTAATCTTCGAATAAGGAAAATGACCTCAAGATGGGGTGTCTGTAATACTAAACTAAAGACTATTACTTTAAATTTAGAACTTATTAAAAGAGATCTTAAGTATTTAGATTATGTTATTGTCCATGAACTATCACATTTAATTGAAGCTAATCATTCAAGTAAGTTTTGGAAGTTAGTAGAAGATAATTTTAAAGATTATAAAAAAGTAAGAAAAGAAATGAAAGAATTTTAGGAGGTAGCTATGCTTATAACTAGTAGTGATAATGAAAGAGTAAAAAAATATATTAAGTTAAAACAAAAGAAATATCGTGAAAAGTATAATGAATTTATTGTTGAAGGTGAACACTTAGTACTAGAAGCTAAAAGAAGTGGTATTGTTAAAGAAATAATTCTAGAAAAAGATGAAGTAATACCTCTTGATGGAGAAAAAATATATCTACCTTATGAAATAATTAAGAAGATATCTACTAATGAGAATCCACCTAAAGTAATGGCTTTATGTGAGAAAAAAGAAAATGAAAAAGAACTAGGTAATAAGATTCTTTTAATTGATGGAGTCCAAACTCCTGGCAATTTAGGAACAATTATTAGAAGTGCAAAAGCTTTTAATGTTGATACCATTATTCTGTCTGAAAACACCGTTGATTTATATAATCCTAAAGTATTAAGAGCTACTCAAGGAATGCTTTTTCATATTAATATTTATACTGATGATTTAAAAGAAGTAATCGAAAAAATTAAGAAAGAAGGGATTCCTGTTTATACAACTAATGTTAATTATGGAGAAGATGTTCGGAAACTAACAGCTAGCGAGAAGAAGAGATATGCTTTAATTATTGGAAATGAAGCTCAAGGAGTTAGAGATGAAATAACTGATTTAGCTGATAGTAAATTATACATCAAGATGAATGATGATGTAGAAAGTTTAAATGTTGGTGTTGCGACGTCTATTCTTCTATATGAATTGGGTGATGATGATGAATAATTTAGTATATTTAGGTATTATTTCCACAACTCATGGAATAAAAGGAGAATTAAAAATAACAAGTGATTTTGAATACCCAGAAAAAGCTTTTAAAGTAGGGACTTACTTAATTATTGATAATAAATCATATGAAATAAAGAGTTATCGCGTTCATAAAGGATATCATATGGTTACCTTAGATGACTATAATAATATTAATCAAGTGTTATTCTTGAAAGGCAAAAAAGTTTATAAAGTTAGAAGTGAATTAAATTTAAAAGAACACGAGATACTCGATGAAGATTTATTAGAGTATACCGTTCTAACAAATGATTGTTTTGATGGAAAAGTAAAAGATATATATGATACGGGAAATGGTAATAAAGTATTAAAAGTAGAACTTAATAATAAAGAATACTTAATCCCAATGGCTTCACCAATGATTTTAAAGATTAATAACGAGAAAAAAGAAATTATAATTGAACTTATGGAAGGAATTGATGAGGTATGAAAATAGATATCTTAACTTTATTTCCAGAAATGTTTAATGGTGTTTTCAATGAATCTATTATTAAAAGAGCTATCGAAAAAGAACTAGTTACAATTAATTTAATTAATTTTCGTGACTATAGTAAAGATCCTCATCAAAAAGTAGATGATACTCCATATGGTGGTGGTAGTGGTATGGTCCTATCTTGTCAACCTATCTATGATTGTATTAATGACATTAGAACCGTTGATAGTAAGATAATTTTACTGACACCAGCCGCTAAAACATATAATCAAAAACAAGCATATGACTTATCAAAAGAAAAGCACTTAATAATTATCTGTGGTCATTATGAAGGCTTTGATGAAAGAATAAGAAAACTAGTTGATCTAGAAATAAGTGTTGGTGACTATGTCCTAACTGGTGGTGAAATACCAGCTATGATATTAGTTGATTCTATAACAAGATTATTACCAGGTGTAATAAAAGATGAATCTCATCAAAATGACTCCTATAATAATGGTTTACTAGATTACCCAACTTATACTAAACCAGCTGAGTATCTAGGTATGAAAGTACCAGAAGTATTATTATCTGGTGATCATCAAAAAATAGCCGAGTATCGCAGGCAAGAAAGCTTAAAGAAGACAGAACAAATAAGACCTGATTTAATTAAAAAAGAAGGTGAAAATGATGCCTAAAAAGAAGTATGTAGTTGATAAAAAGAAAAAAAATAAAAAGAAAAGCATTAAGACCATTACTATTGAAGGATACAGTATGGCCAAAAAGAATCATAAGTTTTATATTAAAGGAGATAACGTTTCTAATATAGTAGTAAGTGATGAAGAATTGGTAAAAAAATTAGTTATTTATAAAGTTGAAAAACAATATAAACAACTAATTAATAAAGCTACTGAAATCCTAGCTAGTGATGATGACGATAATGCTTCAGGAAGTAGATTAATACTTGATGAAGTAGAACGTTTTCGTCAACAAATTAAAAATAAGTATAAAGAATACTTAGAAAAAGAAGAATTAATGCTAATGGCTAAACAACTAACTATTATTAAGAAAGCTGCTAAAGAGAAAGAACAAGCCATTATATCAGAATTAAATGAAGAAAAAAAGGGAAATAAATCTAAATAAGTTAAAGAAGTGTAAAGTAGCACTTCTTTTTTGTTTACAATAAATAATAAATGATATAATTATTTTAAGATAGGAAGTGGTTGTATGGAGAAAAAGAGTAAAATAATTATTATCATCTTAAGTGTAATTATTGCTTTATTAGTATTGGGCATTATTGGATATATTATTTATGATAATCCTTTTGCTAGTCCTAAGGTAGAAGAAAAGAAAAAAGTTAAGAAAGAAAAGAAAGAAAATCCTAATGCTTTAAAAGGAGAGGAAAAAGAAGAAATAAAAAAACATACAGAGGAATATCTTAGTTTAGCTAAGAGCTTTCCAATTACTGATGTTGATGATGTGGATGATCAAGCTATCTTCTGGTTTTTAACTATGAAACTTCAAAACTATAGTGAGGGTTTTGCTAAAGAAGAAATGGAAAGACTAATGGAAAAGTACTTTAAAGATGATATCAATATTGTTTATGGTGATATTAATTGTAATGTTGGTGACGGTGTATTATACAAATTGGATAGTAATTCTTCTAAATATATTCGTGTTGGTGACCATGGTCATGGTGGAGCAGGACTTGTTGCTGGTGAAATGTTTTTTGAAGATATTACTAAGGATGGAGATTATATAACTGTTAAAACCCAAATTCTTTATAGTAGATGTGATGATGCTGATACAGTAGGACCCATCTCTGTTTACTTCACCAAATGTCCAGATGAGAGTGGAAATAGTGTAGTTTATAGAACTAAAGCAGAAGGAGTAGAAATAACAGAAGAAGAATTTAAAACCATTAAAGATAAAGTACCATATACGATATTTAAGTTCAAAATAAGCGAAGATAAAAAGAATTATGGACTAGTAAGTGTTGAAATAAAAGATGCCTAAAATAGGCATTTTTTAGTGTATTTAAATAGTAAGTAAACTACTACAATAATATTAATACTGGTACTAATAATAAGAGCATATATACCAATTTTAAGAAGTGAAAAAAGTATTAGAGAAGAACTTCTAACAAATAAAGAAATAATGGTTATTTTTAAGTTATAGGTACTTTTACCCATCGCATCAATCGCAAAAGACAAAGGTGCTTCTATATACTGAAGAATACATATAGGTGCAAGTATTCTAACATAATTAACTCCTAAAGTAGTATTATAAATTAGCTTTAAGAAAAATGTAGGAAAGATTACAAGGGTTAGACAACAAACGGATCCAATTAAAAGAGAAAAGAAAAGAGCTTCCTTAATCTTTCTTTTTACTTCTTTTATATTTCTTTTAGAGTATTCCAAACTAACTACTGGTAATAAAGCTTGGGAAATAGCTAAAGTAAAGAAGGAAGGCAAAAGAATTAAAGGTAGTACATAACCCGTAATAATTCCATATTCACGTATAATAAATGTTTTAGAATAACCCGATAATAGTAAAAAAGTAGTAAGGATAATTGGTTCTAAAAAATATCCTAAAGAAGCAATTAATCTACTAGAAGTATTTGGAACACTAATAGTAAGTGCTTCTTTCAAATAGATTTTACTGGGCTTTAAATCAGATTTTCTGATTTTGGAATCCTTAGGAATAAATAAAAGCATAATTAATATTGATGATAATTCACTGAATATATTAACAATAATTAAAAAGTTAACCGCACTAGTAATATTATCTTTTAACTTAGGAATAAATATTATAATTAGAACTAATCTAACTATGTCTTCAAAAATATTGGATATTACATGGGGAAGCATTCTATTCTTACCAAAGAAATAACTCCTAATGATATTAGATAAAGTAGAAAAAGGAATTACTAAAGCAATAGAAGTTAAAGCTAGTGTAACTCTTTCTTCATGCAATAAGTTTTTAGCTAAAAAAGGACTAAAACAAATTATAATAATCATCAAAATAATATTTATGACTAATGATATCGGTACTATCGAAGAAAATAATCTTTTACTATTTCTTTTCTTTTCAGCTACTAGTTTAGAAATAGCTATAGGGAAACCAAATTGACTAAGACTAATAAAAAGCATAAAAGTAGGTAATATCAACATATAAAGACCTATTCCTTCAGTACCAATCAATCTATTAATAATAATTTTAATAACCATTCCTAGGAGTTTTGTAACGAATCCACCGACCATTAAAAGGGCTGTTGCCTTGATAAAACTACCTTTCATAAAATACCCCCCAAAAAAATAAAAAAAATGTCAAAAAAGAGTGTTCATTTTTTTCTAAATATGATATTATATTTTATGAAAAGAGTAGTGATTTTATTTCAATATGTAAAATTACTGTATAGTTACATAAATTTGCTCTTCATATATAATTTAAAAATGATAAAATAAGATTTAGAGGTGAAAATTATGAACGATTTACTTTTATTTTTAACTTCAAAGGAGATTATGATAGTCTATATACTTATTTTAGCTATTGTATTCCTTAGTATCGTAGTTTGGTTAATTGAAAGAAGTTATTATAAAAGAAAACTCCGTCATAATACCAAAGAATTAAATAGATTAGTAGATGAAGTAGGAGAAAGACTTGTAGAAGAAGAAAAGACAAAGCCTGTACCAGCAACTACTATTGAAGCTACTATTCCTACTAAGGTAGAAGAAAAAATAGAAGTTATTGAACCTACTCCTAAAGTTGAAGAGATAGAAGTAAAGCCAGTAGTTGAACAACCTAAGGAAGAAATAGTATATGAAACTATTGAAGATGAACAACTACAAGCACAAGAAGAAATAAGAAAGATTACAGAAAGTTTAATTGATGTTAAAGAAGATGAACCAATTGAAAATATTGCTTTAACTAAATTTGAAGAAGAACAAGAGAAAAATTCTATTATCAGTATTGATGAATTAATGGCTACTAAAGAAATGTATAAAGTAGAAGAAATTAATGATTATGAAGATGAAAGCAATGTAATACTTAGTATTAATGAATTAGAGAATTTAAAGAATAATACTCAACCAGTTGTAAAAGAAGAAGTAGAACCAGTTAAATTAACTGTAGTAGATCCAAAAGACATTAGGCCAAATGTTAAAGTTGTTGAAGAAAAGAAACCAACTACTACATTCAAGAGTAGTCCTGTTATTTCACCAATCTTTGGATTAGAAAATAAAGAAAAAGTAGAGAAGAATAATGTAATGAATTTAGAAAATTCAGCTACTTATGATAAGTTTGATGAAGAAATAAGAAAAACTAATGAATTCTTAAATACTTTAAAAGAACTACAAAAGAAATTAGATTAATGTATGAGATATAAACAAGGATACAAATCCTTGTTTTTTAGTTTCGTCTAGGTTATAATAAATATATAAGATAAAGTAGGAGAAGCATATGAAAAAGATATTCAACCTATATAATATAACTTTAGTAATATTATTAACATTAATATCAGTATTAACTTTAAGGACAACAGAAGTAAAAGCTACAGGAACAGTAACATGGCCAAGTGGAAGTACTGCTACTATATCAAGAACAGTTCAAAATGTTTATAATGCTCCCAAAGTAAATTTCACTTACAACGTGGTTGAGGGTTCATTAAAGACAGCTGATTTTGCTCCAGGAGCAAATGTGTACAATTCAATGGGTATATTATCTGGTGGTCCCAATCATATATATAATGTACACAGTTTTTTAAAAGCTACTTCTTTACCCGAAGGGTTTACACCTGATCCAGTCAATATTGTTTCATCATCAACTTCTGAGTATCCTATTTATATGTGGTATTCTAATAATACTATTTATTATTATAGTGAAGCCGATATTATATATTTAAATCCTAATTCTTCATATATGTTTGGTGATCCTGATGGTAATGGTAGTATTAACCTAACAAATGTTTCGGGATTACAATATGTGAACACCTCTAAAGTAACAAATATGGAATGTATGTTTTTTGCTTGGAGATTTACTAGTGATTTGGATTTAACACCCTTAGCAAATTGGGATGTCTCAAATGTAACAAATATGAATTCGATGTTTTACGCTGAGCTGTCTTCTAATTTAACTGATATATCTCCACTTGCTAATTGGGACACTTCAAATGTAACAAATATGGGCACGATTTTTAATAACCAACAAAAAATATCAGGAACCTTTCCGATATTAGGAAATCCAACAATGTATGGTGATGCCTTCTATAATGCAGCTACTCAATCAGGGTCTCAAATAACTGTTAATTATGGAAGCGGAACTACTAATATAGATAGTATAATTGCTACTAAATCAAATAATTCTAATGTAGTAAAAGGGGTACAGGTGTCACCGCCATCTACATCGCCAAGTGGAGGAATAACAGCTACTGCAACTATTTCCTTTAATGGAAACGAAACAGTAAGCAATAGTTATACAGCGACCAAGTCTACAACTATTAATCTGGCTAATTTAGGACTTACATTTACTGAACCTGGTAATTATGAATTTAAAGTTAATGAAATAGTTACTAGTAATAATGCTTATCCTATTACTAGTGATACTTATACAATAGTAATAACTGTTCGTAATGAACTTAATGCTAATAATAGGCCAACAGGTAATTTAGAAGCTACTTTTGTAATTAAGGATTCTAATGATAATAAGGTAAATACTATGAGTTTTAGTGCTCCTAAAGATGAAAGTAAGTTTGGTCATATTGAATTAACTAAGAAAGTAAAAGGACTAATGGGAAGTATTACTAAATATTTTGAATTTTCTGTTCAAATAGATGATGCAGCTAGTAATGCTTGTTCTAGTTATAGTGGTAATGAAAAGTATCCTGTAAGTGGAGTAGATTCAGGTCACTATAGTGCTGCTGAAGTAACTAAATGTAAAAGTGGTACTAAAGATAGTTTATCTTTAAAACATAATCAGACAGCAATTATAGGTCAGTTTACTTATAACAACAATACTTACGACTCTATTTCTATAGATGATTATTATAAGATAATAGAAAGTGCTGAAAGTGACTATACGACAACCTTTAAGATAAATAGTGGTAGTACTACTAGTGGTCGAGATACTGGTAGCAAAGCTATAACCCATAGTGGTAAGATTGTTACTTTCTATAATCAAAGAGAAGGTTCTCCGTTAACAGGGCTAATCCTAACAATCTTACCTTATCTAATTCTAGTAGGTATCGGTATTGGAGGAGTACTCTTATATAAAAACAGAAAAGAACTGTTAAAAGTAAAGATCTAAATTATTTAAAGAGTTGATAAAACTCTTTTTTCTTTGTATAATTATGTCCGGTGGTTATATGACATTTTCAATATATACTTTAGGTTGTAAAGTCAATCTTTATGAAAGTGAATTTGTAGCTAACTTACTTAAGAAAAATAAATACACTGAAAAAGAGTTCAGTGATTTTTGTGATGTATATATTATTAATACTTGTTCAGTTACTAATAACGCTGATAGTAAGTCTATGAAAATGATTAGAAATGCCAAAAAACGTAATCCTGAAGCCTGTATAGTTGCGATGGGGTGTTTTGTTGAGAAGAGTAAAGATAATCTAGATAAAATAAATGAATGTGCTGATATTATAATAGGTACTAAAGATAAATCTAAAATAGTTGAACTTTTGGATAAATTCTTTGAAGATAAGAAAAGGATTACTAGATTATACGATTATCTTGCTAAAGACAGTTTTGAAGACATGTACATTGATAATTTTGCGAGTAGGACAAGAGCTTTCGTTAAAATACAAGATGGATGTGAGAACTTCTGTAGCTATTGCATTATTCCTTTTGTAAGAGGAAAAAGAAGAAGTAAAGACTTTGACAAAGTCATAGAAGAAATAACCTCTCTAGTTAATAATGGTTATCAAGAAATAGTCTTAACTGGTATTCATACTGGTAGTTATGGTGTAGATATTAATAGTAGTTTTGCTTCTCTATTAAGAGAAATAGTAAAAATTAAGGAGTTGAAAAGGCTTCGTATTTCTTCAATTGAAATAACGGAATTAAATGATGAAGTACTTGCTTTATTAAGAGAGGATAACGTAATAGTTGATCATCTACATATACCACTACAATCTGGATGTGATAAGATATTAAAGTTAATGAATAGAAAATATGATTTAGCTTACTTTGAAAACAAATTAAAAGAAATAAGAAAGATCAGAAAAGATATTGCTATAACAACAGATGTTATAGTTGGATTTCCCGGTGAGAGTGATGAAGACTTTAGAGAAACAGTAGATACTGTTAAGCATTTTGAGTTTGCTAAAATTCATGTGTTCCCATACTCTTTAAGAGAAGGTACTAAAGCCGCTACTATGACTGATCAAGTAGACGGGAGAGTTAAAAAAGAGCGAGCAAAGACTCTTGGAGAAGTATCAAAAGAGCTAGAGATTAATTACATGAATAAGTTTATAGGTAAAGATTTGTTAGTTTTAACTGAAGAAGTAAAGGATGGCTTTACTTATGGACATACTAGTAATTATCTTCATATAAAAATTAATAAAGAATTAAAGCCTAATACTTTTATTAAAGTACATCTTATTAAGGTTAATTATCCTTATGTAGAAGGAGAGCCTAATGACTTACATTAAAGGAAAATATAGTCGTAGTATTTATACATCTGATAATGGTTACCATATCGGACTTTTTAGGGTGCAAGAAGCCAGTTCTGATGAATTATCTAGTTATGTTGGTAGAACAATAACTTTCACAGGTTATTTTCCTGAATTAAATGATATTGATAACTATATTTTCTATGGTAAATTAGTTCAACATGATAAATATGGAGAACAGTTTCAAGTAGATAGTTATGAAAGAGTCTTACCTGATGAAGATGATAGTATGATTACTTTCTTAACTAGTTCTTTATTTAAGGGTTGTGGTGTTGGTAAGGCCAAGGCTACTAAAATAGTTAAAACTCTTGGTAAAGACACATTAAAAGTAATACTAGAAAACCCTAATGATCTATTATTAATTCCTACTATTAGTGAGAAAAACGCTACTAAACTACATAACCGCTTAAAGGATTATGAAACTAGTTATGACAGTATTTTATACTTAACTAATCTTGGTTTTAGTGCTAAAGAGGCAGCACAAATATATAATTATTATAAAGATGATGTTATAAGAGTAATAGAAGATAATATTTATACTTTAATTAATGATATTAATGGAATGAGTTTTAAAAGAATAGATAGTATTTATTTGCGTAATAATGATGATTTAAATAATATTAATCGTTTGAAGGCAGTAGTTATATATATTTTAAATGAACTAACCTTTAATATTGGCTATAGTTATTTTTCCTTTGATGAAATTAGTTCTTATATTCCTAAAGTCCTAGGATATTCTATTTCTAATTTAGAAGAAGTACTAAAAGAGTTAGAAAAAGATTTAAAACTTATTAATTATAATAATCGTTATTATTTATATGATATGTTTACTAGTGAAGAATTAATTGTGAACAGAGTTAATATTATAAATCGCAATTCTCCTAAAAAGATTAGTAACCTAGATAAAGTTATTAAAGAAGTAGAAGAGGATTTGTCTATTAAATACAATAGTGATCAAAAAGAAGCTATTAAACAGGCTATAAGCAATGATTTTCTAATTATTACTGGTGGACCAGGTACAGGAAAAACAACAATAATTAGAGCTATATGTGAGGTATATAGGCGGATTTTTAATATTAATTACTTAAAACTAAGTAAAGAGTTAGCTCTTTTATCCCCAACTGGTAGAGCGGCTAAAAGAATAAGTGAAAAGACTAATTATCCAGCTTCTACTATTCATAGGTTCTTAAAATGGAACAAGGAAACTGATAATTTTTCTGTTAATGAATACAATCAAAGTGATGTTAAAATGGTCATTATTGATGAGTTTAGTATGGTTGATACTTATTTATTTGCTAATCTCTTAAAAGGCTTAAAAGTAGATACTAAGATCATTATTATTGGTGATGATGATCAATTACCTAGTGTTGGTCCTGGTGAAGTTTTAAAAGATATGTTAGATAGTGAAAAATTAAACTACGTTAAACTTAATAAATTATATCGTCAAAGTGAAAACTCTAATATTATTAAGCTTGCTTATGATATAAAAAGAGAAAAACTAGATGAAAGTATTTTTAATACTAAAGATGACTTAACTTTTATCAACAGTCATGATGACTTTGTAATGGATAATATTATTGACTTAGTAAAGACTTATAGAGATCTATCTTATCAAGATTTACAAGTATTAATACCTATCTATAAATCATATTTAGGAATTGATAATGCCAATAATAAATTACAAGCTGTACTTAATAGAAAGAGTTCCAATAAAAAGGAAATTACTATTGGTGATACTACTTATCGAGAAAATGATAAAGTCATTCAACTAATCAATAATCCAGATGATAATGTCTTTAATGGAGATATTGGTATTATTAAAAAGATCATAACTAGACCTAAAAAAGAAATAACTATTGACTTTGATGGTAATTTAGTAAGTTATAAACAGAGTAGTTTTAATGATTTTAAACTAGCTTATGCAATATCTATCCACAAAGCTCAAGGTACAGAAACTGATATAATTATTCTACCAATTGTAAGAACATATAGTAGAATGCTTTATAAGAAGTTAATTTATACCGCAGTAACTAGAGCTAAGAAAAAACTATTTATTATTGGTGATATTAAATATTTACACTATGCCGTTAATAATAATAAAGAAGATCTACGGAGAACCTCTATTAAAGAATTCTTAACTGATGGTATAAAACATGAATAAAACACCATAATATTACTGAGGTGATTTATTTGAATAAAATTGTTTCTAAGGCCTTGGGAATGATGGCTATAATGGGTGCTGGTATTGGAGGCTATATGCTTCTTGAGAAAAAGAACCCAGAAATGGCAAAAGATATGCAAAATATTGCAAATAATGCTAAAAACAAGGCTACTGACATAATGAATGATATGAAGAACTGATATTTCAGTTCTTTTTTATTGAAAAGTTTTATTGTTTATTATATTATATTAATGAAAGGTAGGGAAAATGGAAGTAGTAAGAGTAAAAGGGGAATCGGATTATAGCTACACAATCATCGATAATAACAAGAGTTTAAATATCTTTTTTGATAAATATTTAAACCCGTATTTTACCTGCAAAAATTTAGAGAAGGAAGATAAATATATACTTTTTCATATTACTGAAGAAGATTATAGTATTTACACTATCTTTGATAATCTATATAGAAATCTTACTAAAGAAGTAGTCGATGAAAAAAAGAAAAGAAAGTGCAAGAACAAAAGACATGGTAAAGCCATAGTTTTTGAAAGTGATAATGACATCTTTTCCTCAATTAATGAAAAGGAGCAACAAAGTAATAGCTTAATTATTGCCAAAGAAGAAACAGATATAATTATGCAGTTCAATTATAAGAATAATATTAATAATACTATTAGAGTTGATAATTCCAAAAATCAATATAATCATTTTAAAGAAGCGTTTATTGAATTCTATGACGATTTACAGAATTATGATCCTGAATACCACCAAATGCACATCAAGGAATATAAATACTTAACAAAGAAAATTCGCAAGTAATAGTAATATTTATTGTCAAAAATCATTTTTCCTGTTATAATTAGTAGTGCCTCATGAAATGGCGATGTAGCTCAGCTGGCTAGAGCGTTCGGTTCATACCCGAAAGGTCGAGGGTTCGATCCCCCCCGTCGCTACCAGGAAATTAAAGACACATTTGTGTCTTTTTATTTTTATAAATAGATGATATAATTGTAATAAGAATAAGGAGGAGTTATGAATAAGTTAAAAGTACCAATTATTATTGGTAGTATTGCGCTATTATTTCTACTAGCAATAGGTATCTATAAAGTAGGAGTAGCTAATAAGTTATTTGGACCTAAAGACGATATAAACAGTGGGAATATTTCTACAAAATTACTTGATAATGATGAATATAAAGACATTAGTTTAGATAAGATTTCTTATATTGAAATAATTAAATATACTGAAGGTGGGGATGAACGTGAAAAAATTACTGATCAAGCTAGTATCAGTAGAATTTACAATAGTCTAAAAAACATTGAACTAAGAGGTCTTACAGATAGAGCTTGTGAAGACAATACGACTATTTATGCAATATTTTTAAAAAATGGTGTCCGGAAAGCTATTGAATTTGAATGTGATTGGATAATTATTAATGGTAAAAGATATAATTATCATTAAGACAATTTATTGACAAGAAAAAATAAAATGACTTATACTTATTATATAAAGGAGGATATATGAATAAGAATTCAAAAACAGGCGGAATTGTTGGGGGATTAGTAATCTTAATTATTGGTATTGGATTACTTTGGTATAACGAAGGAAGGGCAGTTAAAACAGCTCGAGCAATTAGTGAAGCTAAAAAAACATATACTCAAGTAAAATCAGACAAAGTTGATCCTAAATATGATGGAAAACTAATTGCGACTAATGGTAAAGTAGATCTAAGTGCTAGTGATGAATTAGTTGATGAAACTTTTGGGATTAAAGTAAAAAGCATTAAATTAAAGAGAACTGTGGAAATGTATCAATGGGAAGAAAGTTGTGAGACAGACGATAAAGACAAAGAAAAGTGTACATATGAGAAAAAGTGGTCTGATGATTTAATCGACTCATCTGATTTCAAGGAAGAAGGTCATAAGAATCCAGATTCTATGCCTTATAGTGAAGAGACTTATCTAGCTAGTAATGTTAAACTAGGAGCCTTTACACTAACTAAAGAATTAGAAGAAAGACTTCCTGCTGATAAAGAAGTTAACACTCAACAATTAACTGAACAATTTAATAATAAAGTTGAAGGAATGAAAATATCTGGCAAATATATCAATAATATTCCTGAAGAAGGAACACCAGAAATTGGTAGTATCAGAGTATCATTTGCCTATAATGGAACTGACAGTGCTTCTGTTTTAGCCGTTCAAAATGATGATACTTTTGCTGAATATACTGCTAAAAGTGGTAAACATGTTTATCGCATTAAAGAAGGAATTCATACTGGTGCTGTTATCTTACAAGATATGACTGATGAAAACAACTTCATAAAATGGTTACTAAGAATTGTAGGAACAATATTAATCATGGGTGGAATTGGATCATTATTTGGCCCTATTCAAACTCTAGCTAATTTCGTACCAATTTTACGTAATATTGTATCATTTGCCACTGGGTTAATAGCCTTTGTTCTAGGTTTAGCAATCTCATTACTAGTAATAGCAATTGCTTGGTTTAGATTTAGACCAATACTTTCAATTGTACTTATTGCTATAGCGATTGGCTTAATTGTATTCTTAAGATTAAGAAAACCAGAAGAAGCTAAAACTGAAAGTAAATAGTATTTGTAAATAAGACAATCAAATGATTGTCTTTTTTTATGTTTTGGTATAAAATTATTTATATATTGCCCTGTAGCCAAGTGGTAAGGCAGTGCGCTCTGACCGCATCATTCCGTTAGTTCGAATCTAACCAGGGCAGCCAAATGTTATTAACTACGATATAGTAGTTAGATATAAATAATATTGGAGGCGTCATACGAAAAAAAGAAAGAAAAAAGAAATTAAAGATTAACACGGAGGTGTATTTATGAATAAAGAGGAAAGAATTGAATTAGCTGATCTTCTATTTCCCAATCTAGAAAATAGTATTGCTGAAATAGAGAAGAAGTATCCTGAAAGAAATCTACCTGAAGATGCTATGGTAACTCGTTATGGTCCTTCACCAACGGGTAATGTACATTTAGGTAACTTACTTTCAGCTTTTTGTGATATGGTTTATGCCAGGGAAAGTCATGGTGTTTTCTTTCTTCGAATAGAAGATACTGATCAGAAGAGAATGATTGAAGGCGGTATTGATAATATTACTAGTGTTCTAAAAGATTTTGATATTATACCTACTGAAGGCTATTCTTATGGGGGAGAATATGGTCCTTATAAACAAAGTGAAAGGACAGAAATATATCAAGCTTATATTAAAGAATTAATTATTAAAGATCTTGCTTATCCCTGCTTTATGAGTGCTGAAGAAATAGAAAGTATTCGCCTAGAACAAGAAAAAGAAAAGACCAAAATAGGTATATATGGAATTTATGCTACTGATAGAGATCTATCTTTAAAAGAAATAAAAGAAAAGATTAACGCTGGTAAAGAGTATGTCATTAGATTAAAGTCACCTGGTAATGCCAACAACATAATTACTTTTGTTGATGAGATTAAAGGTAAGATGAAGTTCCCTGAACATAATATGGATACTATTTTACTAAAGAAAGATGGAACACCTACTTATCACTTAGCTCATGTTATTGATGATCACTTAATGCATACTACTCATGTTATTCGTGGTGATGAATGGGTAAGTAGTATTCCTCTTCATTTACAATTATTTGAAGTATTAGGATTTAAACCAGTTAAATATGCTCATATTGCACCTATTACTATTAAAGATAAGGAAACTGGTAATACCAGAAAAATAAGTAAAAGAAAAGATCCTTTCTTTGGTGTTAAGTACTATGAAGAAAATGGTATTCCTATTGAAGCTTTACATCTTTATTTAGCGACAATTACTAATACTAATTTTGAAGAATGGTATTTAGCTAATCCAGATAAAACAATTGCGGATTTTACATTTACTTTTGAAAAACAGGCAGTGGGGGGAACTTCTTTTGATGAAGAAAAATTAAATAATTTATGTAAAACATACTTTTCTCGTAAAAAAGGCGAAGAAATCTATGAAGAGACTCTTGCTTGGGCTCAAAAACATGATACTGATTATGCTAGAATCTTAGAAGAAAATAAAGAGGATATGATTAGATTCTTAAATATTGAAAAAGATGGTCCTCGTCCAAGAAAAGATATTTCTAAATATAGTGAAGTTAAAGAGGAGTTCTATTATGCTATTGATGAATACTTTGAAGAAGAGAACTATCGTAATACTTCATTTGATAAAGAATATGATCTTGACTTAATAGAAGATTATTTAAATAGTATATCCCTTGATTTAACTAATGAAGAATGGTTTAGTCAAACTAAAGATTTCGCAGAAAAGAATGGATATGCTAAAACTCCTAAAGAATATAAAAAGGATCCTGATAGCTATAAGGGTCATGTCGGTGATATTTGTGAGGCTGTAAGAGTTATTCTAACAGGTAGACTAAAATCACCTGATTTATATTCAATTATGAAAATATTAGGTAAGGAGCGAATCTTCAAAAGACTAGATATGTATAAAAAAGTAGTTGCGAAATAACTACTTTTTTTGTATAATGTTTTTGTACTTGGCCTGTTGGTGAAGTGGCTTAACACACTGCCCTCTCAAGGCAGCATTCACGGATTCGAATTCCGTACAGGCTACCATTTGTAACTAAGACGTTTAAAAACGTCTTTTTTTGTGTAAAAGAAAGTAAAATATTGGCAATAATTTATTAAAAATATAAGTATCTGTGATAAAATGATAATAGGTGATAATATGAAATATTCTGAATTTGAAGCAGATGAACGTGAAAAAAGAATAAAAGAAGTAGCTGAATATGTAATTAAAACTGGTGCTTCTACTAGAAAAACAGCTGAATATTTTACTGAACATCACTTTCCAATAAGTAATGCTACTGTAAGTGAATATTGTCATCTATATAAAAAGAGAAATCCCCAAGAAAAAGAAAACATAACAAAGGTTATTAAAAATAATACTCCTCAAACTATTAGGAATAAAAAAGTCGAATTTAGAGTTTATAATCATACCAAATTACTTTTAAGTGGTTTAACGATTAAAGAAATTGCGGAATACTCACATAGTAGTTATTGGACTATTTATAATGATTTAACAATGCGTTTAAATAAATTAGATAGTTCTCTAGCTAAACAAGTTAAGACTATTCTAAAATCTCGTTCTGAAGCCAACTTAAAAAGTTCTAAGCGGAGTAAATAATGGGAAAAGTTAGAATTAAACCCCGAATAATTAAAAAAAATGATACTAAATTTATCGTCATATTCCTAATTGTTTTCATCTTGGCGGCTACTTTTATTATTTATAATATTTATGATAGAGAAATTAAAACTGATAGTCATGAACAAGAAGTAAGTATTAAAAATAAGAAAATAAAAGATTTATATAATAAAGTAAAACTATCTAAAGAAGAAGATTTTAAATTTGCTGAATTAAATGATGAAACTAAGCTTTATTTAGCTTATCGACAAATACCAAAGAAGAAATTCTTGTCTTCTGAATGCTCCCTTTTCAGTGAAGTGAAACTAGAAAAGAACAATGATTTATATATGTGTGATGATAAAGGAAATAATTCATTCAAAAAAGAAGATTTAGAAGAAGAATACCATAAGTTATTTGGTGATGTTTTCTTTAAACATAAGAGTATTATCAGTAAATACGAAATATTTAAGTTTGTTAAATCCAAAGATATCTATATAAAGGGTAAATACCTAGGGGGGAGTGATGATGTAGTTATCGCTACTAAAAGGTTAGTAAAGGCCTTTAAAGAAGATAATAAACTATATTTATTAGAAAGTGTTAACTATACTAATAAAAGTGATGGAAAAATGATTAATAATAGCAAACACTATAAAAGTGGTACTTATAAGTACACATTCAAGATTAAGAAGAATAAATACATCTATCAGAAGAAGGAATTGATAAAATGAAAATCGGAAGAGTTATAACTGGATATTTAGAAGAAAATTGTTATGTCATCAGTGACGAAAAAACATGTTTAGTAATAGATCCTGGTGATGATTATGATAAAATTGAGAAAGAAATAGCTGGTAAAAAAGTTTTAGCAGTCTTAATAACTCACCTTCATCATGATCATATTGGTGCTTTAAGACATTTCCTAAAGAAAAGAAGTATTAAGATCTTTAAGAAGGGTAATTTAGAAGAAAAAGAATATACAATTGGTAACTTTACTTTTACTGCTATTTTTACACCAGGACATTCAGAGGACTCAGTTACTTATTACTTCAAGGATATTAATACTATGTTTGTAGGAGATTTTGTTTTTGAAGGAACAGTAGGTCGTTGTGATCTTCCTGGTGGAAATGAAGAAAAGATGAAGCAAAGTATTGAAAAATTAAAAACTTATCCAAAAGATACTAGATTATTACCTGGTCATTATGAAGAGACCACAATTAAAGATGAAATAGCTAATAATATATATTTTAAATAGGAGGATATTATGTATATTGATTTAATAATAATTGTAGTTTTATTAGGTTTAGTAATATATTTCTTTAGAAAGTTTGATAGTTTTGTTTATTTCATGGCTATCCTAGATATTTTACTTAGAATACTAACTTTCTTAAAGAATAATTTACCATTACCTGATGTAGCGGCCTTGATTAATAAATATGTACCAGAAAGCATTCCCTCATTAATTGGTAAATATACTAATGGTAGTCTAAAAACTGTTCTGGTATGGGCATATGTAGTTATAATGATTATCTTTGAAGTATATATTATTAAATACTTTTGGAAAAAGAAACGAAGAAGAAGATAAAAAGCGACAAAATTACGTCGCTTTTTATTTTTAAATAATACTAGGTGATTGATATGAAAATATATGTAGATTTAGTATTATTTTTAAACTTCTTCTTTGATTTAGTTCTCCTAACTGGTATAGACATTTTATTAAAAAGGAAAATAAAAATAAAAAGACTCTTATTAGGAAGTATTATTGGTTCTTTGACTATTCTCTTGCTCTTTATAAAAATGAATTCCCTAACTTTCTTCTTATTTAAAATAGTTATCAGTATTTTAATGATTATTAGTACATTTGGTTATAAAAATAAGGAATACTTTTTTAAAAACATAACTTATCTCTATTTACTAAGTATTATTCTAGGTGGAGGACTATATCTATTAAATATTTCTTTTTCCTATGATAACGAAGGATTAATATTCTTTCATAACGGATTAGGTATTAATATTATTTTAATTATTATTATCAGTCCCTTTATCATTACTTGGTATATTAAAAAAAGTAGAAATTACCAGAATACAATCCCCAATTATTATGAGGTTAAAATTATTTTAAATAATAATGAATATAACTTGAATGGTTACTTAGATACCGGTAATAGATTGAAAGATCCTTATTTTCATCGATCGATTATTTTAGTGGATAAGAAAGAATTATTTAATATGAATAATAAATATATCTATGTACCATATAAGGCTTTAAATAGTAAGGGTTTAATAAGATGTATCAAAGTAGATGAAATAGTAATAAATAGACAAGTATTTAAAAATATATTAATTGGTGAAAGTAAAGATAAAATTAATATTGATAATATTAACTGTCTTTTACCAGGAAGATTAAAGGAGGAACTATGTTAAAGAAAATAAAACTATTGTGGTTAAGAATTACAAGTAAGTTTAATAATATTTTTTATGTAGGAGCGACGGATATATTACCAGAACCTCTTACCAAAGAAAAAGAAGATTTCTACCTAGATTTATTTAGAGATGGGGATATGAAAGCAAGAGATATTTTGATTGAACATAACTTAAGATTAGTAGTCTTCTTATCTAAAAAGTATGAAAATACTGGTGTTGATCTAGAAGACTTAGTTAGTATTGGTACAATAGGTCTAATTAAAGGAGTTAATACTTTCTCTAAAGATAAAAATATTAAATTAGCTACTTATGCATCAAGGTGTATTGATAATGAAATATTAATGTATTTACGAAAGAATAAGAAAATTAAAAGTGAAGTTAGTATCGAAGAATCGCTATCGTATGATAGTGAAGGAAACGAACTACATTTAGAAGATGTTATTGGGACTGAGAAAGACATGATTACCAAGAAACTTGAAGAAAAGACGGAAAAAGAAATAATGCTAAATGAAATAATGCATCTCAATCCCAGAGATCGAGATATTATGATATTTCGCTATGGGTTATTAGGTCATGAGGAAATGACCCAAAAAGAAATTGCTAAGACATTAGGTATTTCTCAATCTTATATATCCAGAATAGAGAAAAAGGTAATAAAAAGATTAAAATCGTTAGTAAATATTACATAAAAGATGTAAATAATAGTAAAATAGCATTGTGATAGATGCTATTTTTTAGTATAATAATTAGGTACGACTAGGAGGTATGAAAGATGAAATATGTACATTTATTCAGCGAAGGTAATGCTGATATGCGCGAGTTATTGGGAGGTAAAGGTGCTAATTTAGCAGAAATGACTAATATAGGACTACCAGTACCTCAAGGATTTACAATCAGTACTGAAGCTTGTACCAAGTATTATGAAGATGGTAAAAAAATAAACAAAGATATTGAAAAAGAAATAGTAGAAAACATTCATAAAATGGAAAAAATTACTGGTAAAAAGTTTGGTGATATTGATAATCCATTATTAGTAAGTGTTCGTAGTGGTGCTAGAGCATCAATGCCTGGTATGATGGATACTATTCTTAATTTAGGTTTAAATGAAGAAGTAGTAGAATCATTAGCAGAAAAATCAAATAATCCGCGTTGGGCATGGGATTGTTATCGTAGATTTATTCAAATGTATTCTGATGTTGTTATGGAAGTAGGTAAGAAATACTTTGAAGAACTAATCGATGAAATGAAGGCTAAAAAGAAAGTTAAAAGCGACGTTGACTTAACAGCTGAAGACTTAAAAGAGTTAGCATATAAATTCAAAGACGAATACAAGGAAAAAGTTGGAAAAAATTTCCCTGATGATGCGACTGAACAATTAATGGGTGCTGTTAAAGCAGTATTCAGATCATGGGATAATCCAAGAGCTAATGTTTATCGTCGTGATAATGATATTCCTTATTCATGGGGTACTGCTGTTAATGTTCAAGCTATGGCCTTTGGTAATATGGGAGATGATTGTGGAACTGGTGTTGCTTTCACAAGAGATCCTGCTACTGGAGAAAAAGGATTATTTGGTGAATTCTTAACTAATGCTCAAGGAGAAGATGTTGTAGCTGGTGTTCGTACACCAATGCATATTTCGGAAATGGAAGAAAAATTCCCAGAAGCTTATAAAGAATTCGTTAAAGTTTGTAAAACTCTAGAAGATCACTATCGTGATATGCAAGATATGGAGTTTACTGTAGAACATGGTAAACTTTATATGTTACAAACCAGAAATGGTAAAAGAACAGCTCAAGCAGCTTTAAAAATTGCTTGTGATCTAGTTGATGAGGGAATGCGTACTAAAGAAGAAGCAGTTGCTATGATTGATCCAAGAAACTTAGATACGTTATTACATCCTCAATTTGATAATGATGCTTTAAAAGAAGCAACTCCTATTGGTAAAGGTTTAGGTGCTTCTCCTGGTGCTGCTTGTGGTAAAGTAGTATTTACTGCTGAAGATGCAGTTAAAGGTGCTGAGAAGGGCGAAAAAGTAGTTCTAGTAAGACTAGAAACTTCACCAGAAGATATTACTGGTATGAAAGCTGCTCAAGGTATTTTAACTGTTCGTGGTGGTATGAAATCACATGCTGCTGTTGTAGGTCGTGGTATGGGTACTTGCTGTGTTTCTGGTTGTGGCGACATCATCATGAATGAAGAAAAGAAAGAGTTTACCCTAGGAGATAAAACTTATCATGAAGGTGACTATATCTCTATTGATGGCTCAACTGGTAATATTTATGATGGTGAATTAAAAACTGTTGATGCTACTATTGCTGGTGAATTTGAGCGAGTTATGAACTGGGCAGACGAGATTAGAACACTTAAAGTAAGAACTAATGCTGACACACCAGCTGATGCTAAAAAGGCAAGAGAACTTGGTGCTGAAGGTATTGGTTTATGCAGAACAGAGCATATGTTCTTCGAAGAGGAGAGAATTGCTGCTTTTAGAGAGATGATTTGTGCTGATACTAAAGAAGAAAGAGAAAAAGCTCTTGATAAGATTCTTCCATATCAACAAAGTGATTTTGAGAAGCTTTATGAAGCCTTAGAAGGTTATCCAGTAACTATTCGTTTCTTAGATCCACCTCTACACGAGTTTTTACCTACTGAAGAAGAAGATATTAAGAAACTAGCTAAAGCTCAAGGAAAAAGCGTTGAAGATATTAAGAATATAATTGATTCATTACACGAATTCAATCCAATGATGGGTCATCGTGGTTGTCGTTTAGATGTTACATATCCAGAAATAGCTGTTATGCAAACAAAAGCAGTTATTAGAGCGGCCATTAATGTTAATAAGAAACATCCTGATTGGAATGTTAAACCAGAAATAATGATTCCGTTAATTGGAGAAGATAAAGAATTAAGATTCGTTAAAGATATTGTTGTAGAAACAGCTGATAAAGAAATAGAAGATGCTAAATCAAATATTAAATATGAAGTAGGAACTATGATTGAAATACCAAGAGCAGTTCTAACTGCAGATGTAATAGCTAAAGACGCTGATTTCTTCTGCTTTGGTACTAATGACTTAACCCAATTAACTTATGGATTTTCACGTGATGATTCATCTAAATTCCTACCAGCATATTATGACAATAAGATTTTAGAAAATGATCCATTTGCTAAAATAGATCAAAAAGGTGTAGGAAAACTAATGGAAATGGCTGTTAAACTAGGAAAGCCAGTCAATAATAAGCTACATTTCGGTATTTGTGGTGAGCATGGTGGCGATCCAAGTAGCGTTGAATTCTGTCATAAGATAGGACTAGATTATGTATCATGTTCTCCATTCAGAGTACCAATAGCAAGGCTTTCTGCAGCGCAAGCTGTTATTAAAGAAAGAAACGAAAAGACTAGAGAAAACTAGTCTTTTTAAAGCAACTATTTAATTTGTATATATAATTTTGTGGTAAAATAATTATAGGATGTGAGAATATGAATAAGGATTTAGATTACAAAGAATTATCATCTAAAAGCAAAGAAGAAATAATGGAACTATTTAAAACAAATGAAGATGGACTAAATAAAAATGTTTATCATCATAGATTAGAAGAATACGGTGAAAATATCGCGACAAATAGAAAAAAGAAAACGCCAATGTTTTTTATTTTAGAAGCGTTAAAGGATAAATTTGTATTAATATTATTTTTACTTGCAGCAATAGATTTTATTACAGATGATAAAATAGGTGCTTTTATAATACTTGGTATTACTTTAATAAGTGTTATTATAAGATTTAGTCAAGATTGGTCTACATATAAATTCAATGAAAAATTGAAAGAACAAATAAGAATTTTTACTGACGTTATAAGAGAAGGTAAACAAAAAGAAATAAGACAAGAAAAAGTAGTATATGGTGATATTATTACGTTAAGTGCAGGAAGTGTTATACCAGCGGATCTATATCTATTTGAAAGTAAAGACTTATTTATTAATCAATCAGCATTTACTGGTGAAAGTGCAGCAGTAGAAAAGAATATCAATATAGAAAGTAAAACTAATGATCCTATAGATATAAATAATATATGTTTAATGGGTTGTAATGTTATAAGTGGTCAAGGAAAAGGTGTAGTTATTAAAACTGGACTTGATACATTTATAGGTAATATGAACAAACAAAAAGAAGTAGTTAAAGAAGAAACAACTTTTGATAAAGGTATGAATCATATTACAGGGCTTCTTATTAAATGTATGGTGATAATTTGTATATTAGTATTTGTAATTTATGGAATGATAAGAGGAAATATCAATCAAGCAATATTGTTTGCTTTATCAGTCGCTGTAGGTATTACACCTAGTATGTTACCAATGATAGTTAATGTTAACTTAACTAAAGGAAGTAAAGCATTAGCTAAAAAGAATACTCTAGTTAAAAGTATTAAATCAATTCAAAATTTAGGTTCTATGGATGTGTTATGTACTGATAAAACAGGAACTCTTACAAAGAACAACATTGAACTACAAAAGTATATTAATGTTGATGGAGAAGATGATGATTATGTACTAAAATGTGCATATGTTAATAGTTCTCTTGGTACGGGGTATAAAAACATAGTAGATAAAGCTATAATTCAATATGCCAAAAGTCATAATGTAGATATATCTAACTATAAAAAAATAGATGAAATTCCATTTGATTATATGAGAAAAAGATCATCAATAGTTGTGACTCATCATGATAAAATTAGAGTAATTGCCAAAGGAGCATTAGAAGAAGTAGTAAAAGTATGTGATATGGCACGAGTAAATGGAGAAGAGGTTCCAATTACAAAAGAAATAACAGAAAAAGTTAATAAAAAAGCCGAAGAAATGGAAAAAGATGGAATGCAAGTAATTGCTCTAGCAGTTAAACCAGAATATTCTGGTGTAGATGAGTATGATGCAGAAGATGAAGTGGATTTTACATTAATTGGCTTAATTGCATTCTTGGATCCACCAAAACCATCAGCAGAACAAACTATTAAAAAATTAAAAGAATATGGTGTAGATATAAAAATACTAACTGGAGATAATGCTTTTGCAACTAAAAATATATGTAATGCTGTTGGAATAGAAACTATAATTTTAACTGGAAAAGAAATAGATGAATTAAATGATTATGAACTAAGTAAAAAAGTAGAAGAAATAGATATATTTGCAAGAATGAATCCAATGCAAAAAGAAAGAGTAGTATCAATTCTAAGAAAAAATGGACATTCAGTAGGATATATGGGTGATGGAGTAAATGATGCTCCAGCACTAAGAAGTTCTGATGTCGGAATAAGTGTAGATGGAGGAACAGATATTGCCAAAGAATCAAGTGATATAATTCTTTTAGAACAAAACTTAGAAGTAATACATAATGGTGTTATAGAAGGTAGAACTGTTTATGGAAATATATTAAAATACATGAAACTAGCTTTAAGTCAAGACTTTGGGGATGTATTTAGTATCTTAATTGCATCTATATTTTTACCATTCTTACCGTTATTACCAATTCAAATGTTAATACAAGATTTTATTGTAGAATTATTACAAATTGGTATACCATATGATAATGTTGATGAAAGTTTCTTAAGGAAAGTAAAAAAGTGGGACATAAAATCAATAGGAAGATTTATGGTTATATTTGGAGTTATCTCATCAATTACAGATATAGTAGCATTCCTAGTATTCTGGTTTGTATTAAAATATAATTCAATGAATTTACAAGCTTATTTCCAAACAGCATGGTTTGTTGAGTGTATTGTTACAGAAACATTTATGATATTCTATATAAGAACAAATCATATTACAAAATCTAGACCAAGTAATACTTTATTACTATTAACATTCTTAACAATAGTTGCAACTATAACTGTACCTATAGTATTAAGCTTTACAACAGGATTTAACTTCGTAATATTACCAGCTATTTATTATTTATATTTAATTGGTTTTGTAGTAATATATGGAGTAATTGCACAAATAGTAAAAAGTATATATATTAAAAAATTGGGTGAGTGGTTATAATAATTATATAAATATAGTTATATATTTTCACAAATAAGAATTAATTCATATTTGTGTTGCGAGTTATACTGCAGCGCAAGCTGTTATTAAAGAAAGAAACGAAAAGACTAGAGAAAACTAGTCTTTTTATTTAAAAATAAATTATTGACAACGATTATAATTTAAATTAGAATTATATTGAAAATAAGAATAGGAAGGGAAAAGATTAAATGAAAATTAAGAATTTACGCGTAAGAGCTGCTTCTATAGGAGTATCTTTAGTACTAGCAGGTGGTTATGGTGGTGCCATGGCTATGCCAGTTTTTGCTGAAGATGTTCAAGAAGAAGTAGAAGTAGAGAACAATGACGAAATAGTTTTAGCAGAAGCAAATATGGGGGAAGAAATTGCTGTTGAAGAAATAGTACCGGAAGTAAAAGAACAAATTAAAGAGGAAGTTGTTGAAGAACAAGTTCCAGAAGTAAAGAAGGAAGAAGAGGCTAAAAAAGAAGAAGTAACTAAAGAAGAAACTACTAAAGAAGACGATAAAAGCAAAGAAAAAGAAGAAGTTAAAGAACCTAAGAAAGGTGCTTCTACTCCTGAAGCTTCAGAAGAAAAAAGAGAAGAAAACGAACCTCATAAAGTATCAGTAATAACTGTTAAAGTAGATGGTGAAGGAGCTGCTTTAGCAGGAGCTACTCTACAAATAATTGATAGTAATGGTAATGTTGTAGACGAGTGGATATCTGATGGTAAAGAACATATTTCAATGCTACCTGAAGGAACCTATACTTTACATGAAGCTGGAACTCCAGCTGGTTACACTACTTCTGAAGATAAAACCTTTACAGTTAAAGTTGAAGTAAATGATATTAATGCTGGAGTAGTACATGACGATAGTGGTACTGTATGTTGGCATTATGGAGGCGTACCTCTATACTATGTTGAAAGCGAAGGAGAAAGAGAAGAAGTTTACTGTATCAATCAAGATTGGAAAGAACCACATGATATAGATTACAATGGTATGGTTCTAGATGAAACAAATATTAGAACCTTTACTCCAGATAGTGATCCTTCTATGACTGACCAAGAACTATATGATAAAGTACTAGATATAATATATCATCGTAGTAAAGCAGAAGAATTATTCCCAAATCTATCTGAAATCGAAATACGATTTATTACTGAGTATGCGTTAAAGACATATACTTCTTCAGAGGTTTTAGCAGCTAATGCAAAAAGAGATGAACAAGGTCATATAATTCGGGATGAAGATGGCAATATTGTCTATGAATATTATCGTTTCTTAAGATATTATCGTTATGATCCAGATTCTCCACAAGGGTATGTAATTGATCCTGAAAATGGTGATGGATTTGGTAAATTAGCTCAACACTGGTGGACAGCACATAATCATACTAAAATACCTGATGAATATGCTCAATTATTCTATTATTTAATAGGTACTAGTGATAAACATCCTAAAGATATGCATCTATATATCTATTCAACCAAAAATTTAGCTGCTGATGGAGAATCATATCAAAACTTATTAGGAGTTAGATGGTTTGATCCATATGATGAAGACTATAAGATGTATTTATCAGTAATAAATAAAGCTAAACCATATACACCACCAGAAGAACCAGAAAAGCCTAAAGAGCAAGACAGTCCTAAAAAACAAAAGGAAACAACTACTACACCAACTAAGACTAGTGCTAAAGTAATTGATGCCCCTCAAACAGGTGATGATAATTCATTTACATGGGCTCTAGCTGGCTTGGGTTCATCTGCAATGGCTTTAACTGCTCTAGCGGAAATGAAAAGAAGAGAAAATAAAAAAGTAAAAAGAAAATAGTTCAAATGAGTGTTCATTTGAACTTTTTTTGGTATAATTTTAAGAGGTGATAATATGTTAGACAAATATTTACCAAAACTTGATCTACATGGATTAGATAGAGACTATGCCCGTATTCTATTACGTGAGTTTATTGAAGATAATCGCAAATTAGGTAATAAAACTATTGAAATAATACATGGCAAAGGTAAAGGGATACTAAAAAGAGCAGTTCATGAAGAATTGAAAATAAATAAGTTAGTCGAATCATACAAATTAGATAATTTTAATGATGGGTGTACTGTGGTTATTCTAAAAAAATGATTTTGCTATGTCTATAATCAATGAAAAAGTTAGCAATAACGCCCTTCGTTTTTATTGACCCACTTTTATCATTAGTATATAATTGAAACATAAGGTGGAGGATTTCGTCATGATGAAGTTTATCGAAATATTAAAAAAGTATAGACTTATAATATTCATATTGGTAATTAGTGTGCTTAGATTTTTATTAAGCCATAATTTACCTTCTTTTTATTTTTCAAATTTCAAATATGATGATAGGTTGATGGTAGGTCAAATGCTTTCATTAATGAAAAATCAATATTTGGGTACCTACAGTCAACTTACTTTAATTAAGGGACCAATATTTCCCATGGTTTTGTACTGTGCCAAGGGTATGGGTATATCATTTAGTTCCTTATTTACTCTTCTTTATATTTTTTCATCATTATTCTTTGCATTCTCTATGAAAAAAATCATCAATAATAATAAATTCTTTCTAGTGTTATATCTATTATTAATATTTAACCCTATTACTTATTCAGCCGAAGTGTTTCAAAGACTTTATGTAAATACTATTTCTATTCCTGAAACCTTAATATTCCTTGGATTTGTAGTAAATATCATTACGTCAGATGAAGTAAAAATTAGAGATTGTATTGGATTGGGAGTTATAACAGCCATTATGCTTTTAACTAGAAATGATAATATCTGGATTTTTGTCGTGATGAGCATGCTAATTATTTATAAATTAATCAAGAAAAAACAATTAAAGGTTTGCTACATATTCTTATTTCCAATTTTAATTACCACAGGTGCTTTTCTATTAATTTCTAGTATTAATTACAAGCACTATCAAATATCTACATATAATGAGCTTGAAAACACTCATTTTAGAGATGCATATTCTAAAATATTACAAATAAAAGACGAGAACAAAAAATTGAAAATATCCATTCCCAAAACCACACTGTATGAGTTAAGTGAAAAATCTAAAATATTTGGACTAACTAAAAAAGAAGTCAAAAGGCAGTACAAATTATCCAAACGAGATGAAGTAGACAATGGAGATATCATCTGGTTTTTTAGATTTATTACATACGATAAACATCACTTTCTGACTGGCAGACAGGCAGATAAATATTATAAAGAGCTAAGCAATGAATTGGATACATTATTTGAAACTGGTGAATTGAAGAAAGAAAAGATATTACCATCTATTTATTTAAATTCAACCACTAATAAAGCTTTAGTATTATTACCTCGTAGAATACTAAAGGCTATATATTACACATCAACTTATGAGAATGTTAGAACATATAGTATCGATGAACTAGAAGCACAAGAAGCAATATATAACAATGAAATTGATGCTTATTCTATGATCTACAGAGATTATCGTTACGCTGAAAATATTATTACAAAAAATACTCAATTAGCAGAAATAATGCGCACAATATATAAAATCTTTATAGTCCTTTTCAGCTTTATTGCTTTAATTATCTATTTTAAAAATATTAAGAAGCTAGATAATTTAGGATTTATTATTAATATTATTTTACTAGTATATCTACTTATTTTAGGAGGAGTAGTTTATACCGATATTACAGCCTTTCATGCAATCAGATACCGTTATTTATGCAATGTATATATCTTGCAAAGTATATTTATCATGCTGAATTTAGGTAGAATATATTTAAATAGAGTAGAAACTGATAATACTAAACTTGCCTCCATGAGTGATAAAGTAACTAAAAAGATAAATGGTATTAAAGTATCGGTAATTATTCCTGCCTATAATGAAGAAAAAGCTATTGATAGTACTATTAGAGAAATCAATGAAGTTTTAAAGAAACATAGTATTTACAAAGGCTCTGAAGTGATTGTTGTGAATGATGGATCCAGTGATAAGACTGGTAAAATTGCCGCTAAGAGTGGTGCCATAGTCATTAATAATTCACATAATATGGGTTATGGTTTTTCGTTAAAAAAAGGCATTAAAAAAGCTAAAAACAATCTTATCGTTATAACAGATGCAGACGGTACTTATCCATTTAATTATGTTCCTAAAATGATACAAGAACAAAAACAAGGCTTTGATTTAGTAATAGGTGCGCGATGTGGGAAATATTATAGACAATCTACTTTTAAAAACATATTAAGAAAAGCACTAAAGAAATTAGTAGAATTTGTTACCGATAGAAAAATAGAAGATGTCAATTCAGGACTTAGAGTGTTTGAAAAATCAACAGTTGTTAAATACCTTCCACTACTGTGTAACACCTTTAGTTTTTCAACTACTGAAACACTTACTTATGCCATGAACAATCATAACATTGCTTACGTTGATATCCCATACCAAAAAAGAGTGGGAAAAAGCAAAATAAAGTTAGTTAGAGACTCCATAAAAGTATTGCAGTACATATTAAAACTAAGTGTTTATTATAGACCTCTGAAGATTTATTATTTATTTACTTTCTTAGGTATTACTATATCCTTAATTGGTCTTATCTGTTCTAACTTTACGAGAATAAGATTAGGATATGTTCTAGGCATAGGTGGATTATTGGTATTTATTATCCTATTACTACTTGGTTTCTTGGCTTCACATTTAAAACAAAATAAGGATAAATAGGTGTAATATGAAAAATAGAATAAGAAAAATAGTAGAAAACAAAATGTTCTTATATGGCATATTTGGCTTACTTACTAGTATTTTAAATGTGATAATGTTTTATTGTTTTGATTTAATTATGCCATACCAAATAGCCAATCTTATTACTCTAGTTATAGTTAAATTAATTGCCTTTTATTGTAATAAAACCTTTGTCTTTAAAAGTAAATGTGCAAATAAAACGGAATTAATAAAGCAGTTTTTTAGTTTCGTGATAGTTAGAGGGTTAACATTATTAATAGATTATTTTGGTTTAATTATTATGATCCAATACTTTAATTTAGATCATGTTCTTTCCAAAATCATAATCACCATAGTAGTAGTTATTACTAATTATGTTACGGGAGAAAAGTATGTATTTAGTCAAAAGAAAGCACACTAAGTGCTCTTTTTTGTTATTCTGGCAAACTAAAAAAGAATTCTTCTTATAATATTTTTGATTCACTTTTAATTAGAACCGAATATTTATAAAAACAGGGGAGCACAAAGTTTCTAAAAAATTGTTGACTTTTAGGCATCAATATGTTAATATATAGGGCATCCAAAAAAAGAAGGGGGTAGTACGTAATGTATACCGAAAATTATGAAAGAAAAGGATTTCCAATTAGAGACTTTTTACTTAAGTTATTACTAATAGTAATTTTTGTTGTGTTATTATGCTGGTTATTACCTAAATTCATTGCACCAAAAATAACTAACTATAACAATAGTAAAAACAATAATTTGGCAAATTCTAGTTTTTCAAGCACTGAATTATCAGGTTTAAGCAGCCAAATCTTTGCTGATAATTTAGACAAAATGAAAGAGGCTGCAACAAGTTATTTTACTAAGGAACGTCTTCCAAAGGAAATTGGTGAATCTAAGAAAATAACTTTAAAAGACATGATAGAGGAGAAACTATTAGTACCATTAATTGACAAAAATGGTAAAGAATGTAACAAGACAAAAAGTTACGTTAAAATATCTAAGTTAGATGATGAATATCTAATGAAGGTAAATCTAAGTTGTAGTGAGAAGGAAGATTATATCCTAGTTCACATGGGATGCTACAGTTATTGTGAATCTGCTATCTGCGATAAGAAGGATTCTGATGACTACGAGATTAGAGGTTCAAAAGAAACTTCAATCGTACCATTCTATGGAACTAAGAGTGGAAGCACTAAGTATTATTACTATGGTGGTTCTACTACAAGATATGTACCAACTTCTACTAGTAGTAGTAAAGGAGCTGTTTATTACATAACTAATATAAACAACTATAATACTACTAATAATCATTCTGGAGGTTCAGGTTCTGTTATTAATAACATTACTAACAATGTAATTAATATTATCGTTAATAACTGTCATCAACATGGAACTTGTCCAAAGCCAGATCCAAAACCAGAAGTAGAATATATCTATGAATATAGTAAAACTACTGGAGCTACATTCACTAAATGGAGTGATTGGACTGCCTGGAGTAAGACAAGTTGTGATACTAAAGAAATAAATTGTAGTACAGCTGATCCAAGTTGTTTATACAAATTACAAATGTATAAGAGACGTGAAAAAGTAGGAAGTTATCAAAAGGCATATACAACTTCACATCAAGAATTAACTCAATTAGCTACATATAATAAGAAGTCTTGTAGTAATTTCAACTATGTAATTATTGATAATACTACATATGCAACTACTACAACTACAACAACAACTTATACTAGAATTAATACAATTACTAACACAACTGCATCATCAACTGGTGGTTGGACTTATGCTGGTCGTAAGTCATATGCTAACCCACCACGTGATACAGCTGGTGTTCATTACAAATGGGCTGGTGCTGATTATAGCTACTGTGGAGATACTTGTACAACTCTACCTAATTGGTATTATGATACCTATAAATATAGTGGTGGTTTAACTAAAGTATCTAGTACAACTACACCTGGTAGAACTACTACATCAACTTCTACTTCAAGTTCAACTTCTAGTAGCTTACAAGTAAGTTGTGGTGCTTATGTTTATAAAACAGTACCAGTATATGGATATATAACTAAATATGAAAAAGCTTATAGAACAGAAAACCTATATGGTGATGTATGCTATAAGAGTACAAAAGATAGAAAGAAAATAACTGATGGTAAGACTCAAACTAGATGGAGTGTTTATAATGATACATCACTATTAAATGATGGTTGGGTTTATACCGGAAAGAAAAGAAGAAAGTAATTGGGGGTGTAACTGATGAATATAAGAAATATAATTATTCATAACGAAAAAGGAGATCTTCATGACCATACTTTAACTAATGGTATGACTATTAAAACTAGAGACTATTTATTCGCTACCGTTATCTATGAAGATGGTACTTGCGAAGAAGTTTCATTCAATGAAGGAATTAATAAAGCTGTAAAACTTGCTAAGAAAGAAAATTTAACAGCTGAAGAAATGAAAGACTTTGGTATCGTTAGATATGTAAAAGAAGAAGACTATATAGAAGCTCTTGATGATGTTATGGATGAAATGGATGATGAATTAGAAATTGATACCGATGAATTAGATTTTGATGACGAAGATATCGAAGTTAAAAGAGTATCAAGTGAAAATGATCACAAAACTGCTAAAACTATTGGTAGATTAGCATTAGGTGCTGGTATCTTAGCTTTAATTCTTGGAAGTTGTAGTCTTACTAAGGGATTAGTTAAGAACTCTACTGAGCCAACTAAGGCAGAAGAAACAGATGATGAGGACTTTGCTAAAGCCTTTGAAGATATGACTATTGAAGAATTACTAGATACTACTACTAATGATGTACAAAAAGAAGCTATGAATAGAAGATTCAATGTAATTAACTATTTAAATGGTGAATTCGCTGACTATTACTTAGAAAGTGATAAAGATGTTAGATTCGGTTTACATTATCGTGAATTAGAAGCACTAGATTTAGCATATAATAATTACACTACTGAAGAAGTAATGGAAATGTATAATGGTTCTACATTAAACATCAAGAAATTAAATGATGCTTATAGAACTGGTACTCTTATGATGATGGGTGCTTATACAATGTCTGATTCTAATATGCCTGTTAAGGGTTATGAATTAATTAGATGTCCAGAAAAAAGAGAAATTGCTAAATCTTGGGAAGATAAGTTCTATGCAATTAAAAATGCTAAGGGACAAGATCAAATTAATAAGATTAATGATTTCTATCGTGAATTCAATAGTTTATTCCCAATTGATCAAAAGACTAGAACTGAAGGTCTAGCTCACTATGATTCAAGAGAGAATATGGACTATGAATTACTTGCTTATCTTACACCAATGGTTTCTGCTATGGAGCAAATGTATCAAAATCTTGAAGTAGATGCTACTTTAAGTGATCAAGCAATTAAATTTGTTAATGATTTAGGTGTATGTAATTATCTTGATGATAAGATTGAAAACTATGCAAGATGCGTTAATACCTGCAATGATTGTCAAAAGAGCATTGATGAGTCATATCCAACAGGATTACACTTTGAAAATGCTATTAATGCATACCTAGAAAGCAAAAACATTAATGTAATTGATGATGATCATCGTGATATCAGTAAATATGACAGATACTTAAAAGCAGTTAATGCTTACTGTGAAGCTGGTAAAGATGGTTATACTGAAAATCAAAAATATGTTTCTATTTCTAAGACTCTTCAATCTTGGTCTAAATCATCTAGTAAAACAACTTATCGTACTGAAACGAAGAAACGTAAAGTTTCTAGAGAAGAAGCAGTTAAGAAGTTTGGAGAAGCTAAAGTTAAGGCTAAAGAAGAAGCAGTTAGAAAACAAATAGAAAAAGAAAATGCTGCTGCTAAAGCTAAAGCTTTAAAAGAAGCTGCTAAGAAGAAGAAAGAACTTCAAGATGCTGAAAACAAGAAGAAAGAACAATTAGAAAAAGAAATTAAGAAAGAAAATGAACAAAATAAACAAGATGTTATCGATAATCTACCTGACTATGTAGATAAGGATAGTGTTTCACCAGATCCTGGACATAGTAGTGATCTACCAGATCCACAAGAATCAGGTAAGAGATTAGATAATAATGAACCAGAATACAAAGGTAAGGATAGGGTAACACCAGATCATATTATGCCAGTTGAACCAAATCAAGTAAATAACAACACAAGTACAAATACTAACACTAATACAAATACAACTCCTGCTAATAATTCAACTACATATGATGATCTACCAGATCCTAATGTAACTGGTAAAGACTTTGATGCTAAGGCAGAAGCTATGGTTAATGCAATGGCTAATGCTAAGAGTGAAGAAAGTCCTAAGACTTTAACAAAATAAGGATGGAAACATCCTTTTTTGATTGACAAATTAACTAATTTATGGTATAATATGTACACATATTGAGGGTAGGACTAAAGAAGAACAGGGGGTTTAATTATGAAGAAGAATTATATCGTTGAGTATTTAGATGAAAATGAATTCCGTAAAAAAGAAAGATCAGTCCGTAAATATAATATGCTTGCTTATAAAAAACTTACATTTGAATACTATCAAGAAATACGTAATGGTAATTTCTTAGGTAAAGAAGTAAATAAGAATCTTAAGAACAATACTGCTGATTACGAATTAAAATTACCAACTGATGATTTATTTGCTAAAGTACATGGTGACATTGTTTTACATTATACTGTTTACTTTGATAAGAAAATTATTCTTTTAACTAATATTACACCAGATGGTATTTTGGATGAAGGTCATAGAGCTGAACTTACTACTTATAAGGGAGTTATGGTATCTAAAGCTCATCCTGAAAAAGACATGTTTAAGATTAACCTAATGAATATGTTAAATAAATAGAGATAATATCTCTATTTTTTTATACAAAAAAAGCGCTTATGCGCTTATTTTTAATACTAGTTATAATATTTATAGAATTCATCAGTATAAGGTGTCCATCTACGATCATCATCAGCATAATTATATTTGTTTATAAATAGAATATGGGATTCATTTTTATAAAATCTAGCTGCCCATGTGTCAATTTCATCATCATATTCTCTACCAAATTCGCGAGAAAAAATATATCCGATTCTGTTTCTAAATTCATCTAGTAAATTATACTTACTATTTCCAGTAAGCATATTTATTTCTTCTAAATGGTGATTATAAATTCCCTCTCCATAATTAATTATGAAATCAGCTTCATCATAAATACTTATTAGTTCACTAGTAGTAAAAGCATTTTTAGACATGCTACCGTCAACATATAAGGCATATGAGTTTATATCATCTTTAATTAGTTTTTCCCCTTCAGTAAGATCAATCCAGTATTTAGTTTGATAAAAGTATTTTTCATACTCCTTCTTAGTAGCTTCTAAAATTGCTTCTTCATACTCAATCAGTTCCTTAATGAAATTATCATCAAACCCACAAAAGCCAAGTCTTTTATATATTTCTTTTTCAAACAAATCACTGGTTTTTTGGTTTTTAGCAATAACTAATTCTGTAAATAACAATTTATCTATATCAATAGTTTTATATTTCAACTGCATTAGAAATCACCTCACTTATAAGTATTATAAAACAAAACTATAATATGTCAACTCAGCCAATATTTAAAGATATTGACTTTTATATTGATGAGTATTAGTATAACTTAATAAGAAAGGAGTACGGTGATGTCAAACAAAAGTAGGGATGAGAGTGGATATAGTTGGCAAAAGCATAATCCTGATAGTGGTACAGCCCAACAAAACTCAAAAACTTGGGAAGGTGAACATACATGGTATGATCCTAACACACAGAAAATGGGATGGCACGGAGCCAATGCCTCAGACAAAATAAAAAAACTAGGCGGTAAAAATTAATAGTGCTTTAGAAAGTGTAGCACATCAAAACACTTAATAAAAACAGTAGATAATTATAAAGTACTACTGTTTTTATAATAGTCTAATAAAAAAAACTCATGAATGTCATAAGTTCTATGTAGACATTCAGAAAGATTCTGAATGGATTTAACAATGGTGCGGGTAACAGGAGTTGAACCTGCACGTCTAAGACACTAGATCCTAAGTCTAGCGCGTCTGCCAATTCCGCCATACCCGCATATATATAAATGGTGGACCCTATTGGACTCGAACCAATGACCGTCCGGTTATGAGCCGGATGCTCTAACCAACTGAGCTAAGGGTCCATTGCTTAATTATAATAACATATTATTATTAATCTTGCAATATAATAACAAAAAATTTCCAAGATATAATATTTATGATAGAATATAATTAATGTAGTAGGTGATAAGATGAAGATACTTTATATTAATCATTTTCCTTTAATTGGATCAGGTTCAGGAGTATATACAAGTACTATTGCTAAAAGTTTTGCCAAAAAAGGTAATAGTTCTATTATTATCTATCCTGATAATAATGATAAAACTAATGAAGAAGAGAATATTACTTACTATCCTGTTTTATTTAAAAGTCATAAACTACCATTTGACTTTCCATGTTTTACTACACATCCATTAAGTACATTTGCCTTTACTAGTATGACAGATGAAGAAAAAAAATTATATGAAGATGTATTTAGAGATAAAATAGAAGAAGTTATTATAAAAGAAAAACCTGATATTATTCATGGTAATCATATATGGACTTTATCTGGTATTGGAGCTGAATTAGCTAAAAAGTACCATATACCCCTTGTTTTAACCTGTCATGGTACTTGTATTCTAGGTATTCTTGAAGAAGAAAAACTAAAACATAATTGGGGCACTAAATGGGCTCATATTGCGGCTGATTACAGTAATAGAATTATTACTATTTCTAATGATAATAAACAGAATGTTGAAAGAATATTTCCTAATAATAAAGATAAAACTATTCTAATTAAAAATGGTATTAATACGGATGTCTTTAAATATGACAAAGCCATTGATAAAGAACAAGTTCTTAAAGATTTTAATATTCCTGGTAATTATGACAAAATAGTAACATTTGCTGGTAAACTAACTTATATAAAGGGAGTAGATACTTTACTTGATGCAGCTACAATATATGAAGATAATAATACTCTAACTATTATTGCTGGTGATGGTGAAGCCAAAGAAGATTTAATTGATTTAGCTAAGAAGAATAATTTAAAAAATGTTTTCTTTATTGGTAATAGATCTCAAGAAGAATTAAATAAATTATTTAATATCGCAACTTGTAGTGTAGTACCATCACGCAAAGATGCTTTTGGTTTAGTAGCTGCTGAAGCCATGGCTAGTGGAGCTCCTGTTATAGTAACTAATCATGGTGGCCTAAAAGATTTAGTAAATGATGAAGTTGGTTTCTTATTTGAAATAGGTGATCATAATACACTTGCTAAAGATATACTTAAAATATTAAATAAAGAAGTTATTTTTGATAAAAATAAGATAAGTCAATATGCAATAAGTAATTTTTCGCAAGATAAAATGGTTGAAGAAGTAGAAAAAATATATCAAGAAGCGATTAAAAATAGACTAAACTAGAATAAAATGCTATAATATAATAGTATAGTAAACTAAGGAGACAAAAATGGAGAATGAAAAGGTAATTAATAACATACGTGGACTAGCGTTAGATATGATTAATAATGCTGGCAGCGGGCATCCCGGTGTTGTTTTAAGCGCAGCTCCAATTCTATATACGTTATATGCTAAACACTTACGTTTCAATATAGATGACGATAAGTATTTTAATCGTGATCGTTTTATATTATCGTGTGGTCATGCTTCAGCACTATTATATGCAACCCTATATATGGCAGGTTTTGATATTACCTTAGACGATTTAAAAGATTTCCGAAAAATTGATTCCAAAACACCAGGTCATCCCGAATTAGGAAAGACTCCAGGTGTTGATATGACTACTGGACCTTTAGGACAAGGTTTTGCTACTGCAGTAGGTATTGCCATGGCTGAAAGAAAGTTAGAAAATGATTTTCCTAATGGCTTATTTGACTATTATACTTATGTACTAGTAAGTGATGGTGATTTAATGGAAGGGATCTCCTATGAAGCTGCTTCACTTGCTGGTACCCAAAGATTGAATAAATTAATTGTTTTATATGATTCTAATAATAATAGTTTAGATCACAGTACTGATATAACCTTTACTGAAGATGTGAAAAGTCGCTTTAAAGCCCAAAATTGGGACGTATTTGAAGTAAAAAATGGTGAAGATGTTGAAAGTATCGATGAAGCTATAAATGAAGCTAAAAGAAGCTCTAAACCATCTTTAATTATAGTAAATACTGTTTTAGGTAAATATAGTAAATATGAAAATTCTAATCTTTCACATGCCATGCAATTAGATGATGATGAAATAACTATTATTAAGAATAAATTAAATGTAAGAGATATTGCTTTTTCAGTATCTACGGAAGCAATTGAAACTTTTAGAGAACAAGTATCATTAAGATGTAGTAATATTACACAAAATGATGAAGCTATTATTAATAATCTTACTGAAGAACAAAAAGAATATTTTAGTTACCTAGTTATAAATGATAAGAGTATTAGAAATATCAGTTTTAATGAAGACATTGAAGAAGAAGAAGCCCCTCGTGATACATCATCTAAAATACTTAATCGTTTAGCTACCGATAATCCATATATAATTGGAGGGGCAGCTGATGTTTTCTTATCCACTAAAACTTATATAAATGATCAAGGTGATTTTACCAATGAAAATAGAGATGGTAAGAATATCTTCTTTGGAGTTAGAGAACATCTAATGGGAGCTGTGGCTAACGGATTAGCACTATGTGGTTTTAGGCCCTATGTATCTACATTTACCACCTTTTCTGATTACTTAAGACCAGCTATTAGACTCGCAGCTATGATGAAATTACCAGTTGTCTATATACTTACTCATGACTCAATTAGTATTGGTGCTGATGGACCTACTCATCAACCAATTGAACAATTAGAATCATTAAGAATTATTCCTAATGTAGAAGTATTCAGACCAGCAGATGCCAATGAAGTAATAGGTTCATATAAAGTAATCTATGAAAAGAAAGATTCTCCTGCTGTAATCGCTCTTTCTAAAAACAAATTAAAAGTACTAGGAAACGCTAAAATAAATGAAGTAGTTAATGGCGCTTATATTCTAAATGATGATGGTAGAGACCTAAATGGTGTTTTAATCTCTTCTGGTGAAGATGTTCATCTATCAATAGAAGTTGCTAATAGATTACAGAAAAAAGGTCTCAATCTTAGAGTAGTATCTGTACCATGTATAAGAAGACTAATGGAACTACCTGATAAGAAATATGATGAAATACTGCCAGTTGAAAAGAAAAAAATAGTTATTTCTACTGAAATAAGTGGTTCTTGGAACGAAATAATTTATAATCCTGATTGTTTAATAACTATGTCTACTTTTGGTGCTAGTGGTAGTAAAGAGGATATCTATAAGAAATTTGGTTATGATATTGATACATTAGAGAAAAAAGTAGAAGAATTAATTAAATAATTCGACAAAATTATCCATATTGATTTGCTACTATAAAGATGGTGATCAATATGTATACTTATTATATATTTAATATTAAAGAAGAATTTAAAGACCTTTATGGAGATAATCCATCAGGTCTTTATAATATTTTAAATAATATTAAAAATATTAAATATGATGAAGCTAATTTTGGTATTACTTTTCTCAAACAATTAACTAGAAAAATAGAAAAACAACATCTAGATAATTATCTATTCATTAAAATGCATAAAGAAGCATTTTATAGTAAAAAAGAAAACATTCATTATTATTCTGATGGGATTCTAAATGAAATATCCAATTTAGAAGTAATGAATAGTTGTATTAGAATAATTACTAATAAAAAAAATAGTATTTTTATTAAATATTTAGAAAGATATAGTACTAATTTCTTCATCTGTGACTTTAAAAATACTAACTTTTATTTTATAGATAGAATTAAAACTCTTGTTTAAATAATAAATATTTAGTAAAATAAAGAAGAAGGAGAGTGATAAAATGGCTCATGATATTATATTGGTAGTAATTAGTCTTCTAGTAGGCGCAGTAATTGGTTTTTTAATTGCTAAACAATATATGCAAAAATATCTAAAGAAGAACCCACCTATTAATGAAGATATGATTAAAACATTAATGATGCAGATGGGAAGAAAACCAAATCAAAAACAAATTAATCAAATGATGAAAGCAATGGAAAAGTATAATTAACCATTGCTTTTTATTGACACAAACTTCAAGAAAATAGTACAATTAATACATAAGGTAGGGAAGTATATGAAGAGAATATTTAGTATACATAATGTATTTTTAATGCTTGTAGTAGTACTAATAGGAGTACTAAGTCTAAATATAAAAGAAGCAAAAGCAGCAGGAACTGTAACTTGGAGTGGACCAAATTCAATCACCATTAGAGAGACAATAAGAAATATAGCAAATCCTATAGTGGCTAGTAGTGAGCATGGGCTTTTTGCTTCAGGTGATGATACGACACCAGTTTCAACAGCAACAATAAACTATACAGCCAGTGATACTCCAACAAATTATCAAATAACGAAATCTACAACAATGGATTTATCAAGCCTAATGTTTATAAAACCAGGAGATTATGAATATTATTTTGAGCCAGATGGTTTGATTGATTCAAACGATTACAGTATTGACGCATATTTTGATCCCGAAGATGATTTCAATTATTTTGTAGTAGTGCAAGTGCGAAATGTTGTTGATGCTAATAATGTACCAACTGGCAATTTTACGGCGTCGTTAATCTTATATAATACGGTGTATAATGAACAAACTGGAGAAGAGGAAATGGTAAAAATAACGCCAATATCAGGAGTGTTATATGCTAATTACGATTTTGAAACTAATTCTACGTATTTTGGTCATATAGAACTATCAAAGACTGTAAAAGGGATAGGTGCTGATACAACCGAATATTTCCCAGTAACAATTAGCATCGATAATGATCCTGGTGATAGCGAAAGTGATTATAGGAGTATTGATAGTAGTGGTTGGACATATCCAATAAGTGGATTAGATGCAACAGTAACCTATAATGGAAATACTATTAACAACCCAACAACTATAACCGATGGAACACCAACAACTATCTATCTAAAACATGGACAGACAGCAATCATTGGACAAGTCACAAGTGGTGGTAATACCTTTGATGCAATACCAGTTAAACGTAGATATTCTATTCCTCCACTTGATCCAAATCCAGGGGGAGGAGGTATTATAATTATAAAAAATTATAAAGCCAACCCTATAACTCCTAAAAAAATGATAAATATTAATGGTGATGATCTATTTGGTAGTTATTTTACAGCGGTAGAAACACCTGGAAGTTATAGTCCATCATATTCTATAGATGGAGAAGCAGCTGAAACTGGCTACTCAGTTCCTGCAACAGAAATTGCGTCGGGTACAAATACAGTAGATTTCTACAATACCAAAGAAATGTCACCAGTAACTGGATTAATCTTTACAATATTACCTTACTTAATACTAGCAGGTATTGGTATAGGAGGAACACTTCTAATAATGCATTTAAAGAAAGAAGAAAGAAAAGTTAAGGAATAGATTTAATATCTATTCTTTTTATGTTAAAATAAAGTTGGTGATGGCCATGAAAGACTTTAAGCAAAAACTTAGTAATACACCAACTGCACCTGGTAGTTACCAGATGAAGAATAAAGATGGTGTAATTATTTATGTTGGTAAAGCCAAAAACTTACAAAAACGTCTTAGAAGTTACTTTACTAAGAGTCAAACAGGTAAAACACTAAGATTAGTTGAAGAAATAGATGATTTTGAATACATAGTTACATCATCAGAATTAGAATCATTAATACTAGAAATAACCTTAATAAAAAAATATAATCCTAAATATAATATCTTACTTAAAGATGATAAAACTTATCCTTATATTGAACTTACTAATGAAAAGTATCCAAGGGTTAGAGTAGTACGTAATGTTAAAAGAAAACGAAATAAAAACTATTTATATGGACCTTTTCCTAATGTTAAAGCGGCTCGTAAAACTGTAAATATTATTAATAGAATATATCCTCTTAGAAAGTGTGATCGTCTACCTAAAGAAGTATGTCTATATTACCATATTGGTGAATGTCTAGGATATTGTGCATATGATATTGATGAAGAAATCATAAATACAATGAAAAAAGAGATAATTAGCTTCTTAAAAGGAGATAGTTCTATTATTACAAAAAAGATTAAAGAAGAAATGCAGAAAGCTAGTGATAATCTTAACTATGAAAGGGCTCTTGAACTTAAAGAAATGCTCACTGATATAGATATTACTCTTTCTAAACAGAAATTAGATCTTCGTCAAGCTATTGACTTCGATGTAATAAACTATTATACCGATAAGAATTATGTCTCTATTCAAATATTCTTCATTCGTGATGGTCTTTTAACATCACGTCATGAGGAGATATTTAGTAGTATTGATAAAAGTGAAGATGAAATTATTGAATATATTATTAAATTCTATGATAATTTAGGAATTATTCCTAAAGAAATAATTATACCAGAATCAATAAATAAAGATCTTCTAGAAGAATACTATCAAAATAAAGTATTAGTGCCAAAGAAGGGTAAATATAAGAAACTTCTTGATTTAGCTTATACAAACGCTAAAGACAAGTTACTTTCTAGGGAAGAAAAAGAAATAGAGTCTAATCAAAGTAGACTAGAAGCTATTGATGAATTAAGTAGTCTTCTAGGACGTAAAGTATCGAAAATGGAAGCTTTTGATAATTCTCATTTATTTGGTACTTTCTATGTTGGAGGAATGGTTGTCTATGATGATTTTATTCCTCTAAAGAATGAATACCGTAAATATAAATTATCACTTGATGTCAAAGATGATTTAAAAGCCATGCATGAAGTATTATATCGTCGCTATTTTAAATTATTAATGGAGAATCTACCATATCCTGATCTAATTGTGATGGATGGTGGTAAAACCCAAATAAATGTCGCTAAAGAGGTTATTTCTTCTTTAAAACTAGATATACCTATCATTGGGCTAGTTAAAGATAGTAAACATAGAACTAGCTATATAATGGATGAAAACTATAATGTATTGGAAATAAAAAAAGATAGTAAACTATTACTTTTCCTAACTAAAATGCAAGAAGAAGTACATCGCTTTGCGATTACCTATCATCGTAACATTAAAAGTAAAGGTGCTTTAGTAAGTGTCCTTGATAGTATCCCTGGTGTAGGTGAAAAAAGAAGAAAATCTCTAATTAGAGAATTTGGTTCCTTAAAGAAATTAAAAGAAGCAAGCGTTGAAGAAATAGGTAAAGTAATTAAAAATAAAACTGATGCCGAAAAAATATATAAATATTTAAAAGAAATATAGTATAATAAGATTGAGGTGAAAATTATGAATAATAAAGGGTATACATTAATTGAATTATTAGGAACTATTGCGATAATAGGAATACTTACTTATTTAGCTGTTGCTGGAGTTAGTAAATATGTTGACAAAAGTAAAAAGGAAACATATGCCAATCATGAAAAAACACTTAAAAGAGCAACCCAAAACTATATGATGGATCATCTTGATAGTACTGGTAGAATCGCTGCTTCTACATTAAAAGATGAAGGTTATCTTGATAATTTAGAGGATCCTAAAAGTCACACAAGTTGTATTCCTAATACCTTTGTCGATGTTCAGGCTAGTCAGGCACCAAATAGTTTTAATACTAGTTATACGTACACTATATGCTTAAAATGTGCTAATTATGAAAGCGAGACTTGTCCTAGTAGTTAGGTGATATCATGGCTAAAATAGAAGTAATGGATCAAAACTTAGCTAATAAGATCGCCGCTGGTGAAGTTATTGAAAGAGTTATGAATGTTGTTAAGGAACTAGTTGAAAACTCTATTGATGCTGAAGCTAGTGAAATAAAGATTGAATTAGAGAATTCAGGTATCGATAAGATAAAGATAACTGATAATGGTATCGGGATGAACAAAGAAGATGCTCATCTTTCTTTTTCGCGTCATGCAACATCTAAAATTAAGAAGATTGATGACTTATTCGATATCGAAACCCTAGGCTTTCGTGGTGAAGCATTACCTTCTATTGCCGCTGTTGCTAAAGTTAAAATGAAAAGTTCCGATGGTAAAGAGGGAACTACCATTATAATTGATGGAGGTAAGTTAGTTAAGGAAGAAGATAGTGATCTAAAGAAAGGTACTCAAATTGAAGTTGAAAAACTTTTTTATAATACTCCAGTTCGTCTTAAGTATCTAAAAAGTCCTCATGTTGAATTGTCTCATGTTTTAGAATACTTAAATAAAATAGTTCTTGCTCATCCGGAAATAAAATTTACAGTAAAAAATGATGGTAAAGAGCTAATAAAGACTGATGGTAGAGGAGATTTATTGAAAGTTATATATAATATATATGGTGCTGATGTTGCTAAGAAAATGATTACTATTGAGTCTGAGAATGACGATTATAGTTTATCTGGATATATTGCTTATCCTGAGAAAGCTCGTAGTAATCGTAATGCTATTACTACTTTAGTAAATGGTCGTTATATTAAAAATAATTTCCTTAATAGGGCTATTATTGATGCCTATCACACATATATTCCTAAAGATAAGTTTCCAATTGTTGTCTTAAACATTTCTGTAGATCCTATTTTAGTTGATATTAATATTCATCCTACTAAAATGGATATTAAATTTTCTAAAATGAATGAATTAAAAGAACTAGTTAATGATAGTATTGTAAAAAACTTAGAAAAACTAGTTTTAATACCTGATATTTCTGAAAATAAAGTAATAGAAGATAAAGCAGAAATAACTGATTATCAAGAAGAATTAGAGAAAATAGAAAAAGATGATGATTATACTATCGCCGAACCAACTTATGAAGAAATCAGTCTTGATTTTGATGAAGTTCGTACTATTAAAAGAATAATTCCGAAGGGAATTGTCTTCGAAACATATATTATTGGTGAAAATGAAGATGGTATGTATATTATTGATCAACATGCTGCAGCAGAGAGGATTAATTATGAAAAGTATCTAACAAATATGAAAAAAGAGAAAACTACTGTTACTGATTTATTAATACCTATTAAAATAGAACTACCTAACAATGAATTTATTATCGTTAAGAATAATCTTGAACTATTAGAATCCTTTGGTTTTAATATTGAAGAGTTCGGTAGTAACACTTTTATTGTTCGTTCTCATCCAACCTGGTTATTAGAGGGCTTTGAAGAGGAACAAATTCGTAAAATATTTGAAATAGTTAGTGTTAAAGAAGATTTCACTAGAGAAAAGTTCATTGATCGTACAGCGATGACTTTGGCTTGTCGAATGTCAATTAAAGCTCATGATTATATTAGTGAAGAGGACATGACTTATCTATTAGATACTTTAATTGCTTGTGAAAATCCATTTACTTGTCCTCATGGTCGACCCACTATTATAACTTACTCTAAATACGAACTAGAAAGACTATTTAAAAGGAGTATGAATTAAATGAAAAAAGACATTATTGTAATTGTTGGACCTACTGGTGTTGGTAAAACCAAAGTAAGTATTGAACTAGCTAAAAGATTAGATGCTGAAATAATTAATGGGGACTCCGTTAGTATTTATAAAAGACTTGATATTGGTAGTGCTAAACCAACACCTGAGGAGAGAGAAGGAATAATCCACCATCTATTTGATATAAAAGATATTGATGAAGAGTATTCTGTTTATGACTATCAAAAAGATGGTCGAAAAATTATTGATGAATTAGAGAAGAATAATAAACAAATTATTATTGTTGGTGGTACAGGGTTATATATTAAAGCTCTATTATACGATTATAGATTTACTGAAGGTACTAAATATGATGAATATAATGATCTAAGCAATGAAGAAATACTTACTAAAATAAATGAATTTGATCAAGATATTAATATTCATCCTAACAATAGACAAAGATTAGTAAGAACGTTAAATAAGATTGAAAATAATGAAAAAATTAACTCCAATAAAGACCAAGCACTTTATAATATCAAAGTAATTGGTCTAACTACTAATCGTGATCTTCTATATGAAAGAATCAATAAGAGAGTAGAAATTATGTTTACAAATGGTCTTTTAGAAGAAGTTAATAGTCTAAAAGAGTATTATTCTAAATCTAAAATACTTAATAATGCCATTGGTTATAAGGAATTTGTACCTTACTTTAATAATGAATGTTCACTTAATGAGGTAAAGGAAGAGATTAAAAAGAATACCCGTCATTATGCCAAAAGACAGTACACGTTCTTTAATAATCAATTTAATACTAATTGGTATGATGTTAATTTTAATGATATAAATGCTACCATTGAAGAGATATATTGTGATATAATAAAATAAATTGCAGAGGGAAGGGTTCGTAAATGAAAGATTATGAAAATATGTTTTTAGCAACTTTAATGAAAAAGTACAGTGTAGGAGATAATCATCTTGTTTTTCTACCAATGAATACAATGTGTGGATCTGTTGCTTTTTTTAATAATGTTCCTACCGTTGATGAGAATAATGAAGAAGTATTTGAAATACTGCCCGAATACGATGAAACAGTTGAAAATGGTGATTTCGCAACTATCTTTATTGATAGTGCTGGTAATAACTATTTTCCTCTTGATGATTATGACTTTCTAATATCTAATTGCGATCAATGTTATACAACACTTGTTAGAGTAACAGATTTAATCGAGGGTGAGCCAACTGAAGAAAATGTTCAGGAAGCTATTCAAAATTTTAGTGAGGAAACCCAACATTTAATAGTAGATGCTAAATATGATGATGAAAAAGATGAATATAGTTTTACTCCTATCTTTTTAGATAAAGTGTTTACTACAACTGAAGAAAATGTCGAAGAAATAGAAAAAGATGATAATGATAAAGAAGGAACTGTCTCATTAACTGCTGATGATCTATTATCTCTTTTAGCTGAAAATGCTTTTGATATTGATCAATTAAGAGATATTAGATCACAATTAACCGAAACTGCTGAGAATATCAAAGTATTAGAAGAGTTCGTTGATAATGAATTAAAAAAAGAAGAGACTCCTGAAGATAAACCTACTTCAAAGATAGTAGCCTTACTAAAGGATCAATATAATGTAGATACCTTCGATCGTAATGAAGTATTCAAGAAAGTATCATCTGCTGTTATATCTCAAGATGAACATATTGCCCGTATTCTGTCTGAATTACAGAGAATTGATATTGCTGAAGCGACTGGTTCTATTGAGTATAATTCAGCTATCTTATTAACTGGTTCAACTGGTGTTGGTAAAACAGAAATGATGAGACAGATAGCTAAAGCTATTAATCGTCCTTTTGCAATAGTTGATACCAATCAATTAACAACAGCCGGTTATGTGGGACTAGATATTGAAGAAGTTTTATACCAATTATACTTAGATTGTAATAAGGATATCAAAAAAGCAGAGAAGGCCATTATCTTCTTTGATGAAATAGATAAGAAGGGATCTTCTAATAAAGATGATCCTCATGGTAAAGGGGTCCTAAATGAATTATTAAAATTTGTTGATGGTACTACCTATATGGCTAAACCAAATATTCATTCCACTTATGGAGTAAATATTGATACATCCCATATGCGTGTAATCTTTGGTGGAGCTTTTACTGAAGTATATAAAGATTTTGGTCGTCGTAATGCTCAAATTGGTTTCAATAAAACTGAAGTAGTTAAAAAAGAACCTAATATTGATGACTTCGTAGAAAAAGCTCAAATACCTGATGAGTTTATGGGTAGATGTTCAGTAGTAATTCATTTAAATGATTTAGAGGAAAAAGATTTAGCAGAAATACTAGTTAAATCAAATATATCAGAGATTAAGAACCAACAAAAGATATTTAAACAAATTGGTATTAATCTAAAGTGCTCTGATTCTTATATAAAAGAAATAGCTCATCAAGCTTACCTAGAAAAAACAGGTGCTCGTAGCCTAAGAGGTAAAGTATCTGCTTCTGCTTGGTCAGCCCTAGATTATGCTATTGATCATACTGGTGAATTTGATACAGTTACTTTCAATAAGAACACTGCATTAGATAGTAGAAAATATCATATCTATAAAAAAGAAATCAAGAATATGGAAAAAGTAAAAACAAAGAAAAAGAGTAAATAGGAGGTTCCTATGGAAAAGAGTGATACTGAATTACTTTTCATGCAACAAATACAACATGTGGTGACGGAGTTTAATGAAAAGGCCAATAATTATAATACTAGAAGAGAATTTCAAAATGCTAGAGATTTTCTTAATCTAATTAATATCTATTTAACAAATAGAACTTTTGAATTATACGATAAAAGAACTTATTTGGAAATGGATATTGATAAAGAAAAAGAGATCTATATGGCCTTAAAAAGTAGAATGAATGGATTATTACATTATTTCAATCGTAACAGTCAAGTAATAGAGTATAATGAAAATAATAAAGATCCAGTTGATTATATTCATCTTTCTAAAGTTTATTATTATCTTAAAACAGCTACTGATATTAAGACTAATAACTTAAAAGATGTTCTAAAGTATTATAAGAAATTAGATAAAAAGATGATAAAAGAGTATTATCGGTCTACTACTACAAGTGGTGCGTTTGTTGAAGAAGCTAATACTTTAGTAGAAGCCAATAGAATAAGCAATGAAAAGAGACTGTAAAGTCTCTTTTTTAGTGTCAATAAATGTCAAAACATTTGCGTCTTTACTCTAAATTAGATATAATTATCATGGAAAGATATGGTGATTTTACATGAAATATGATTCATCATCTATAAAAATCCTTGAAGGTTTAGAAGCTGTTCGGAAAAGACCAGGAATGTATATTGGTTCTACCGATAAAAGAGGATTACATCATTTAGTATGGGAAATCGTTGATAATGCTGTTGATGAAGCTATCAATGGTTTTGGTGATTATATAAAAATAACAATTCATAATGACAAATCAGTTTCCGTAGAAGATCATGGTCGTGGTGTACCAACTGGTATGCATTCATCTGGTAGATCTACTCCTGAAGTTATTTATACTATTTTACATGCTGGTGGTAAATTTGAATCAGATGGTTATAAAGTATCAGGAGGACTACATGGTGTTGGTTCTAGTGTTGTTAACGCCTTATCTGAATGGATGGAAGTAACTATTAAAAGAGATAAAGAAGAGCACTTTATTCGTTTCAAAGATGGAGGTAAAGTAGATATTCCTCTTAAAAAGATTGGAACTACTAATAGAACAGGTACGACTGTTCGTTTCATGCCTGATAAAGAAATCTTTTCCTCAATTAATTTCTCATATACTACTATTTGTGAGAGAATGCAAGAGTCTGCCTTCTTACTAAAAGGAATTACTATTGAAGTAGTTGATGAAGAAGATGATCGTAAAGCAGTATTTTGTTATAAAAGAGGAATTGAAGAATTTGTAGAAGATCTAAATAGAAACAAAAACCCTCTTCATAAAGTTTTGACTATGAACGGTTCTAAAGACAAAATTGAAGTAGATGTTGCAATGCAATATACTGATTCCTATAGTGAGAATATTGTATCCTTTGTCAACAATGTTAAGACTATTGATGGTGGTTCTCATGAAGTAGGTTTTAAGACAGCTTTAACTAAGGTATTTAATGAATATGCTCGTAGTCATGACTTCATTAAAGGAAAAGAAAAATCCCTTGAAGGAACTGATGTTAGAGAAGGTTTAACAGCTATTATATCTTTAAAAATACCTGAAGAAGCACTTCAATTTGAAGGACAGACTAAAGGTAAATTAGGTACACCAGCTGCTAAATCTATTACAGAAGCAATTGTCTCTGAGAATTTAAGAGTTTTCCTAGAAGAAAATAAAACTATTGCGACGGAAATAATTAATAAAAGTTTAAAGAGTAAGATTGCTAGAGAAGCAGCTCGTAAAGCAAGAGAAGAAGCCCGTAAAGGAACAAAAAAGAATGTTAAAGAACGTGCTTTATCTGGTAAATTAACTCCTGCTCAATGCAAAGATAAAACTAAAAAAGAATTATTCTTAGTCGAAGGTGATTCTGCTGGTGGTTCGGCTAAACAGGGAAGAGATCGTAAATATCAAGCTATTCTTCCACTAAGAGGTAAAGTCTTAAATACTGAAAAGACTAAAGAAGCAGACATTTTTAAGAATGAAGAAATTAATACTATTATTTATACTATTGGTGCTGGTTATGGTTCTAACTTCGACATCAAGGACTGCGAATATGCGAAAGTAATCATTATGAGTGATGCTGATGAAGATGGAGGTCATATTCAGTGTCTACTTCTAACATTCTTCTATCGCTATATGAAACCATTAATTGAAGATGGTAGACTTTTTGTGGCCTTGCCACCACTATTTAAGATTCAAAGTGGTAAAGATATTGAGTATGCTTATACAGTAGAAGAAATGAAAGAGAAAAGTGCCGGTAAGAAATGTGATATCCAACGTTATAAAGGTTTAGGAGAAATGAATGCTGATCAGCTTTGTGAAACAACTATGAAACCTGGTAGTAGAACTTTAATTAGAGTTAATATTGAAGATGCTCAATTAGCTGAAAAAAGAGTTTCTATTCTTATGGGTGATGAAGTAGCGCCTCGTAAAGAATGGATTGAAGAAAATGTTGAATTCTCTTTAGAAGATGACTATAAGATATAGAAGGTGAAGATATGCCTAAAGATGAAACTAAAAAAGTAATTGAAAAAATATTTGACTATACGCTCGAAGATATTATGGGAGAGCGTTTTGGTAGTTATTCAAAATATATTATTCAAGATCGAGCTATTCCAGATGCTAGGGATGGACTAAAACCAGTTCAAAGAAGAATATTATATTCAATGCATAAAGAACACAATACTCATGATAAAGGTTATCGTAAGAGTGCAAAAACAGTAGGAGATGTAATTGGTAACTATCATCCTCATGGTGATACATCTATTTATGATGCTATGGTTCGAATGAGTCAAGATTGGAAAACAAGAGATCCTTATATCGATATGCATGGTAATAATGGTTCTATTGATGGAGATAGTCCTGCTGCTTATCGTTATACTGAAGCTAGACTTTCTAAAATTGCCAGTGAACTATTCAAAGATATTGATCGAGACACTGTTGAATTTGCACCTAACTTTGATGATACTACTAAAGAACCAACTGTCCTACCAGCTCGTTTTCCAGCCCTTTTAGTTTATGGTGCTCAAGGTATTTCTGCTGGTTATGCGACAAATATTCCTCCTCATAATTTGAGTGAGGTAATAGATGCAGCTATTCACAGAATTGATAGTCCTAATTGTACTCTAGATACTTTAATGAAATATGTTAAGGGACCAGACTTCCCAACTGGTGCGATTGTTGAAGGATTAGATGGTATTAAAAGTGCTTATGAAACTGGTAAAGGTCGTATTATTATTAAGAGTAAATACGAATATAACAAGAAGACTAATCAAATTATTATTACAGAAATACCATTTGAAGTTAATAAAGCCAATTTAGTTAAAAAAATAGATGATATTCGTCTAGACAAGAAAATAGATGGTATCAGTGAAATTCGCGATGAATCAGATAAAGATATTCGTATTGTAATTGATCTTAAAAAAAGTGCTAGAGAAGAACTAGTTATTAACTATTTACTAAAAAATACTGATATGCAAATTAGTTATAATTTCAATATGGTAACTATTGTTAATAGAAGACCTAAATTAATAGGTCTTAAAGGGGCCTTAGATGCCTTTATAACTCATCAAAAAGAAGTTGTGACTAGAAGAACAGAATTTGATTTAAGACACGCTAAAGAGCGTTTCCATATCGTTGAAGGACTTGTTAAGTGTTTATCTATTCTAGATGTAGTAATAAAAGTAATTAGAGCTAGTAAAAATAAAGCTGATGCCAAAGCAAATTTAGTAAAAGAGTTTGATTTCAGTGAAGCTCAAGCAGAAGCAATTGTTACTTTACAATTATATCGTCTCACTAATACAGATGTTGTTCTATTAGAAGAAGAATTAGCTAATCTAAAAAAGATCATTGCTGAATTAGAAGAAATACTTAATAACGAAGAATCTTTGAAAAATGTCATGAAAAATGATTTAAGAAGAGTTAAAAAGGAATATGGTAAAGAGAGATTAACTGAAATAAAGAGTGAAGTAACTGAAATTAAAATAGATGAAAAGATGATGATTCCAAGTGAAGAAATAGTTGTCTTACTTACTAATGATGGTTATATTAAGAGAAGTTCATATCGTAGTTACAAAGCTACTGATGATGATCCTGTCTTAAAAGAAAATGATTATATTCATAATTTAATAAAGATGAATACTAAAGATACTTTACTTGTCTTTACATCATTAGGTAACTACTTATTTATTCCTGCTCATACCATTTTTGATCTTAAATGGAAAGATATGCCTAAACATATCAGTAACTTAATTGAAATAAAAGAAGATGAAACAGTAGTAAATGCCATCCCGGTTAAGAAGTTTACTGATGATAAAAATATTATTATTGCTTCTCGTGATGGTATGATTAAAAAAACTAGTTTAAAAGAATTTGAAGTTAGTAGATATTCTAAACCAATTACTTGTATGAAATTAAAAGACAATGATCAAGTAATCAATGCCTATATTGAAGAAAAAGATAAAGTATTTGTCTCTACTGATAGTGGTTATGGTTTATCATTTAAAGCTTCAGAAATACCTTTAGTAGGTCTAAAAACAGCAGGCGTTAAGTCAATTAAACTAAAAGGTGATCATGTAGCTTGTGTCAATAGTTTCAATGATAACGATGAATTCTTAACTGTTATTACTGATAAAGCAACTACTAAGAGAATTAGATTATCAGAGTTTGAATTATCTACTAGAGCAAGACGTGGTCTTCTAATAATTAGAGAAGTTAAGACTAATCCCTATAAAGTATTAAAAACATTTATTGTTGAGAATAATGTTAATATTGGTCTTAAGAATAAAACTATTAATCTTTATAAAGTAACTGAATTCCCAATATTAGATCGTTATTCTACTGGTAAAGAGATTGAAAAAACTAAACTTACGGATGCTTTTATAGAGGCAACTCTAAAAGAGAAAAAAGATATTATCACTATTGAAGATATGAATGAAGAACCAAAAGAAGAAGTAAAGGAAGAAAAGGAAGTAGTTAAAAAAGAACCACCTAAAGAAAAGAAACCTAAAAAGGAAAGAATATCATTAAAAGAAATTGATGATCGACTACTTACTATTGATGACTTCTTAGATTAAAAAAGAAAATGTCGTATTTTCTTTTTTTTTTACATATAAATTAGTAGGTGATAATATGTCTAAAGATTCTTTCAAAGTCTTTGTCAGAAAACATCCAGAACTAGCTGATGCAACCTTAAATAATACAACTACTTGGCAAAAACTATATGAATTATACGAAATGTATGGGGAAAATAGTAGTGTCTGGGATAAATACTTTAAAACTAATAATGTCACAACTTCATTTACTAATTTTATTGATACTATAAAAGGTGTTGACATAAATACTGTTCAAAAAGGAATTGACAATATTCAAAAAACTATTGGCTTACTACAAGATATTGGTTTAGGAGCCACCGCTACTCCTAAAATATATGAACCAAGGCCGTTATATAAGTATTTTGATGACTAATGAATGTATATGTCCAGATGAAAATTAGAAGTAATCCTTATTTATATAGATATCTAAGAGAAAACTCTTATTGGTATAAATATTTAAATAGAAATCCCGCAAGCATTATAAAAATGGAAGAGGAAATGAAGGAAAAATATTATTTAACCTTAGATTCTAAAATAGAAGATTTAAGTAAAAAAGTAAATATGATTTCGTCTTTTCTAGATGTAATTAAGTAGATTATATGATATTATTATATTGGTGATATCTATGGAAGAAAAAGTAGATAAATTAATTAAAAGTATTGATGAAAGTAATACTGTAAAAGATATTAAAGAAAGTATTAAAGCTATAAAAGAAAACCACGAACTAATGGATAAACTTACAAAATATAATGAGACCTATGATGAAAGCCTAAAACAAGAGGTATTAGAATATCCGGAAATGATTAATTATCGTCATAATGAGAATGAACTTAATTATCTAATTTTAGAAATAAATAAAAGATTGAAGGAAATAACCAATGAAAGTAATTAGTGGTAAATATAAGGGAAGAAAACTATTAGGATTTAATATTGATGGTACTAGACCAACCATGGATAGAGTAAAAGAAAGTCTTTTTGCGATGATTCAAGATTATTTAGCTGAAGCAACCATCTTAGATTTATTTTGTGGTTCTGGAGCATTAGGTATTGAAGCTCTATCTCAAAATAGTAAATACGCATATTTTATTGATAAAAATCCTAAAGCAATAAATATAGTAAAGAAAAACATTGAAACTTTAGATATTACCAATGCTGAAGTAATAAGAAATGATTATCTAAAATTTTTAGAAAGTACAACTAATACCTTTGATGTAATCTTTTTAGATCCTCCATACAAAACAGATTTCATTTCCAAAACACTAAATATAATAGAAAAAAGAAACCTTTTAAACGATAAGGGTATTATTGTATGTGAAACAGATCAATTAAATAAAGTAAATAACAATAATTTTACTAGTATTAAAGAAAAGAAATATGGTGATAAATATATTGTTATTTTAAAAAAAATAGTGTAATATATAATTGGTGATAATATGAAAAGAATAAATAATAAGGGCTTTGCTATTTCAACTATTATTTACGGTACTTTAATTATGGCTGTAATGATAGTTATGATTTTATTATCAACCATGTCTTTTTCCAACAAAAGTACTAAAGACCTTGTAAAAGAAATTGAAGAAGACTTAAATTCCACAGCAATATTTGATACAGGTGAAAATGTTAACCAAAAAATGAAAAAGCTAGCTAATCCTGGCGCTAGTGATGTTACTAAAGATTTTGCAGATACCAAAATCAAAGCCATAAAAGGCGCTACTACTTTGCCAAGTGGTTTTACTCCAGCAGCAGATAACAACGTATCAATAACACCTAAAAAACCAATATATATCTGGTTTGATAGTACAGACGAAACAATATATTTTCATTCTGATGCTGTTACATTGTATTTAAATGCCAATAGTAATTATATGTTCATGGAACTTCAATCCTTAACAGACATATCCTTTTTATCATCTGTTGATACTTCAGGAGTAACTCGTATGCAAAATATGTTTAAATCTTGTAAATCAGTGACTAACATAGATGCATTAACTTCATGGAACACCATAAATGTAACCAACATGCGAGGTATGTTTTATGGCTGTAAAGATCTAACGAATATAAATGGTGCTAGTAATTGGAACACTTCAAATGCTGCAGATATGAGTGCTATATTTCAAGAGTGTAGTTCCTTAACTAATATAAATGGTGCTAGTAATTGGGACACCTCTAGCGCAACCAGTATGTATGCTATATTTTACTATTGTAGCGCTCTAACAAACATTAATGCATTAAGTAATTGGGATACTTCCAAGGTAACTGACATGCGTCGTATGTTCCAGCGATGCACCTTGTTAGAAAGCATAAATGGTGCTAGTAATTGGGATACTTCCAAAGTAACAGAAATAGATTATATGTTCTACTATTGTCCGAAGGCATCAGGAACAATAAAAATATTAAGTAATCCAACAACATATACTGATGCCTTTGCTAATGCTGCTACCGACTCTGGTGCCCAAATAACTGTAAACTATAGAAATAACACAACTAATATAGATAATATTATTGCTACAAAATCAGAAAACTCTAATGTTCAAAAGGGCACTTTAATAAGTTAAAAAGATAGTTTTAAAGACTATCTTTTTTATTTGACACTTTTTTAGCAATTTATATTGACAAGTGCTAATTATAGGTATATATTATTATTAGCACTCATATACTAATAGTGCTAGGAGGCGATGTAATGTTAACTAGTAGACAAAGTAAAATACTTAAACTAATAGTTGAACAGTATGTGAAATTAGCTAAGCCAGTGAGCTCTAATTTAATATGCAAAACACTTAAGTGTTCATCGGCTACTGTTAGAAATGAAATGGCTACTCTTGAAGAATTAGGTCTTTTAGAGAAGACTCATACTTCATCTGGTAGAATACCTTCTGAAAAAGGTTACCGTTATTATGTCGATAACTTAATGGAACTTAAAGAAATGAATGCTGAAGATATGTTGAAACTACAAATTATCTTTAAGAACCAAGAAATGGAACTATCAGATGCTATTAATAAGAGTCTCCAAGTAATTTCTGATATGACTAGTTATGCTACAGTAATACTTGGGTCTTCATCACATGAGAATCTACTTAAAAAAATAGAAGTGGTTCCCGTTGATGACGAAAGTATGATTTGTTTAGTAGTAACTGATAAAGGTCATGTTGAACACAAACAAATTAAACTGGAAAATGTCGATCAAATCGAGATCAAGAAAACAGTTGAATTGATTAATAACTTGATAGTAGGAACACCTATTGATGAAGTATCAACTAAACTGGAGTATGAAATTAAACCAATTATCGGAAAATATGTCAAACAACATGAACAACTATATAATGCCTTCTATCATGTCTTTTCAGATATTGCTTCCGAAAATATCAATGTTCAAGGTAAAAACAAATTCTTAACTCAACCTGAGTTTAGTAACATTGATAAAATCAAAGAAGTATTTGAAAAACTAGATGATAAAGAAGTATTGAATGACATTAAAGAAGATGCGGACAACAATATTAAAGTCTATATTGGTAAAGAAAACAATGTAGATGATGATTGTACGGTCGTTAAAACAAAATATAGTGTAGGAGATGATGAAGCAACAATTGCTGTCATCGGTCCTAAAAGAATGGAATATGATCGAGTTGTAAACATCTTAAAATATATTAAAGAAAATATTGAGAAAGATAATGAGGAATAATATGAAAGAAGAATTAAAAAAGGATCCTAATATTAAAGAGGATAAAAAAGAAAAAGAACAACCTAAAGAAGAAAACATTATAGAAAAACTAACTAAAGAAAATGGTGAATTACAAGAAAAGATTAAATACTTACAAGCTGAAACTATTAATTATCGTAAACGTAAAGATGAAGAACTAGAAAGCAGATTGAAATATGCTAATCAGGATCTAATTTTAGAACTATTAAATATCGTTGATAACTTTGAACTAGCTCTAAAGCACGAAGATGTATCAGAAGAAGTTAAAAACTATTTAACTGGCTTTAAAATGATGTATACCAAGCTTAAAGAAATCTTAACTAATTATGGAGTTGAAGAAATCTGTCGTATTGGTGAAATATTTGATCCTACTAAAGAACAAGTACTAATTACTGAAGAAGAAAAAGGTAAAAAAGAAGATGAAGTACTTGATGTATTACAAAAAGGTTATATCTTGAAGGGCAGAGTAATTAGACCTGCCACTGTAAAAATAAATAAAATGAATGAAAAAGGAGAGATGAAAAATGAGTAAAATAATTGGAATTGATTTAGGAACAACAAATTCCTGTGTAGCTGTGTTGGAGGCTGGAAATCCAACTGTTATCCCAAATCCTGAGGGAGGAAGAACAACACCATCTGTTGTGGCTTTCAAAAATGGTGAAAGAATAGTAGGAGAAGCTGCTAAAAGACAAGCAATTACTAATCCTAATACTATTTCTTCTATTAAGAGATTAATGGGTACTAGTAAAAAAGTAGAAGCTGAAGGTAAGAAATATACTCCAGAAGAAGTATCAGCTATGATCCTTTCATACATGAAAGATTATGCTGAAAGCTATTTAGGAGAAAAAGTTACTAAAGCTGTTATTACTGTACCTGCATACTTCAATGATGCTGAACGTCAAGCTACTAAAAATGCTGGTAAAATTGCTGGTTTAGAAGTGGAAAGAATTATCAACGAACCAACTGCTGCATCACTTGCTTATGGACTAGAAAAAGAAGAAGGCCAAACTATCTTAGTTTATGACTTAGGTGGAGGTACTTTCGATGTTTCCATCCTAGAACTAGGTGATGGTGTATTTGAAGTTAAATCTACATCTGGAAATAATAAACTAGGTGGTGATGATTTTGATAATCGTATTATTGACTACTTAGTAGCTGAATTTAAAAAAGAAAATGGTGTTGACCTATCTCAAGATAAAATGGCAATGCAAAGACTTAAAGAAGTTGCTGAAAAAGCTAAGAAAGATCTATCAGGAGTTACTACTACTCAAATATCAGCACCATTTATCTCACAAGGTGAGGCTGGACCACTTCACTTAGAAATGAGTCTAACCCGTGCTAAATTTGAAGACTTAATTCGTGATTTAGCAGATTCTACACTTGATTCTGTAACTAAAGCATTAAAAGATGCCAAGATGAAAAAAGAAGATATTGATAAAGTTATTCTAGTAGGTGGATCTACTCGTATACCATATATCTATGATTTAATTAAAAAAGAACTTGGGCAAGAACCAAGCAAAGAAGTTAACCCTGACGAAGTAGTAGCTATGGGTGCTGCTATCCAAGGTGGAGTTTTAACTGGTGATGTATCTGATATAGTTTTACTTGATGTAACACCATTATCATTAGGATTAGAGACTTTAGGTGGAGTTATGACTACTTTAATACCACGTAATACAACAATACCAACTTCTAAGACTGAAGTATTTTCAACTGCTGCTGATAACCAACCAGCTGTTGATGTACATGTATTACAAGGTGAACGTAGTATGGCTGCAGATAATAAAACTCTAGGAAGATTCCAACTAACTAATATTCCACCTGCACCAAGAGGAGTTCCACAAATTGAAGTTACTTTTGATATCGATGCTAATGGTATTGTTAACGTTCGTGCTAAAGATTTAGGAACTAATAAAGAACAATCAATTACTATTACTGCTTCAACTAATCTTTCTGATGAAGAAATCGAAAGAATGCAAAAAGAAGCTGAAGAAAATAAAGAAGCTGATAAGAAGAAAAAAGAAGAAGCTGATTTAAAAAATGAAGCTGAACAATTAGTATTCCAAACTGAAAAATCATTAAAAGATTTAGGTGATAAAGTAGACGCTTCTGAAAAAGAAGAAGCTGAAGGATTAATTAAAGAATTAAAAGAAGCTTTAGAGAAGAACGATTTAGACGAAATTAAAGATAAGAAAGAAAAACTACAAGAGAAGGCTATGGCCCTAGCAACTAAAGTATATGAACAAGTAAATAAAGAACGTGCTGAAGCTGCTAATAATGAAGCACCTAAAGAAGAAGAAAAAAATGAAGAAGTAAAAGAAGCAGACGTTGAAGAGAAATAGTTCTAGATAACTAGAACTTTTTCTTGGATTAGGAGAGATCATGGAAAAATATAAAGATAGAAAAGATGTACCAACTAAATACAAATGGGATTTAACTGATTATTTTAAGAATGAAAAAGAGTTTCAAGAGACATATGATAAAACTCTTAAACTAGTAAATACCTTAATTAAATACAAAGGTAGTCTTAATAATGGTGAAAAACTTTATGAATTCCTAGAAAAAGATAGTGAAATAAGTGCTATAGTAGAACGTCTTTATATATATGCCTATCTAATAAATGATCAAGAACTAGGTATCAGTAAAAATATTAGTAGAAAAAGTAAATGTGAAGAATTAATTACTCTTTATAGTATTAATACAGCTTTTTTTGCTCCTGAGTTATTACAATTAGATAAGAAGAAATATAAAGAATTATTCAAAAATAAAGGCCTTAATAAATATAAAGTATTATTAGATGATATCTATAAGAATAAAGATCATATTCTATCTGAAAAAGAAGAAAATATTATTGCGGAACTTAATAATGCAACTAACCACTTTGATGATTTTTCATCTAATATGTTAAATAGAGAACATAACTATGGAGAAATTACTATTAATGGTAAAAAGGAAGTTATTACTACTACTAATGTCCGTAAATTACTTAAAAACGATGATCGTAAAATAAGAAAAGAAGTATGGAATAAGTATTATAGTACTATTGATAATTATGCTATTTCTTCTGCTAGCTTTCTAAATGGATATGTTAAAACTAATCTTACTAATGCTAAACTACATAACTTTAAAAATGCCTGGGAAGCTAAACTATTTAACTTAGATATGAAAAAAGAAGCTTATGATGCTTTGGTAAATAATACTTTGAAAAATGTTGATAAACTACAAAAGTACTTTAGACTATTTAGAAAAACTAAAAAACTAGATAAACTATACCAATATGATTTAAATTTAGAATTAGCTGATAGTACAAAAGAGTATTCAATTGAAGAAGCTCAAAATATATGCCTTGAAGCTATTAAACCTCTAGGAAAAGAGTATATAGAGGCCTTTAGAAAGATATTTACTAATCGTTATATTGATTATGCTGAATATAAAGGAAAACAGTCAGGAGGGTATTCTTTTGCCCCTACAGACCGTGATTCCAGAATACTTATGAGTTATAACTATGATTTAACATCAGTAAGTACTATTATTCATGAAGGAGGACATAATGTTCATCACCAATTTGTATCAAAAAATAATCCCTATCACTATCGTGATGTATCAAACTTAGTAGCTGAAGTAGCATCCCTTACCAATGAATGCTTACTTTCATCATATTTATCAGAAAATGGTACAACTAAAGAAGAAAAATTAGCTGGTATTTCTAATATATTAGGTGTTTTCATCTCCAATATGTATGGAGCAGTAAGAGAAGGTACTATTGAAAGAAAATTCTATGATTATGTAGAACAAGATAATACTATTAGTAAAGAATATATGAATGATTTAGTAAATAAATCATTAAAAACATACTATGGTAAAGAAGTTATCTTAGATGAATATTCTCCATTATCATGGACAACTAGAAGTCACTATTATATGAATTATTATTTATATAATTATGCATTCTGTATCGCCGTAGCGTCTTCTGTTGCAAAAGAAATATTAAATGGAAACCAAGATATGTTAAAGAACTATCTTAAGTTCTTAACTCTTGGTAGTGATATAAAACCTCTAAAAGCATTTAAAGTACTTGGTATTGATCTTACTAAGGATGAAACATATAAAAATGCCTATCAATATTTTGATTCCATGCTAGATAAATTTATGACAATAAGTAAAGAAGGTGAAGGAAGTGGCCAGTAAAAATAAACGTGATTATTACGAAGTCTTAGGTGTCTCTAAAAATGCCACTGAAAAAGAAATTAAATCTGCTTTTCGTAAAAAAGCCAAAGAATTTCATCCTGACTTAAATAAAGATAATAAAGAAGCTGCTGCTGAAAAGTTTAAAGAAGCTCAAGAAGCATATTCTGTTTTATCTGATGAAAGAAAAAGAGCTAATTATGATCGTTTTGGTCATGCTGGTGTAGGAAATGGTCCTACCGGTAGTGGTTTTGAAGGCTTTTCAGGCTTTGGTGGTGCTGGCTTTGATGGTTTCCAAGGTGTTGATGTCGATTTAGGAGATATCTTTGATACTATTTTTGGCGGTGGCCGTGACTTTTCTTCATTTACTGGAAGAGGCAATAGAAATCGTAAAACCAGAGGAGATGACATGTTAATGCGTCTAAACATCTCCTTTGAAGAAAGTGTCTTTGGTTGTGAAAAAGATATTAAAGTTGATGTAGTGGAAGATTGTCCTGATTGTCATGGTGAAGGTGGTTTTGATAAAGAAACCTGTCCTAATTGTCATGGTAGTGGAACAGTAACCGGAGAACAACATACTATTTTTGGATCTTTTCTATCTAAAACTACTTGTCCAACCTGTCAAGGAACAGGATCTAGTTTTAAAAGAAAATGTACAAGCTGTCATGGTAGTGGTAAAGTTACTGAAAACAAAACTATTACTATAAATGTTCCATCCGGAATAGCGACTGGTGATAGATTAAGAGTATCAGGTAAAGGAAATGCTGGTAATAATGGTGGACCTAATGGAGATTTATATTTAGAATTTATTGTTAAAAAACATAAATACTTCAAAAGAGAAGAAGATGATATCTACTTAGAAGTACCAATTACCTTTATTGAAGCTATTAAAGGTGGTAAAAAAGAAATTCCTACTATCTATGGTAATGTCAAACTAAATATACCTGCTGGTGTAAATAGTGGTGATATAGAACGAATTAAAGGTAAAGGTGTTAATAATAAGACTAATAACCATAAAGGTGATATGTATATAGAATTTAAGGTAATAACACCAACTAAACTAACTAAAGAACAAAAGAAGATTATTGAAAAACTAGAAGAGACTACTTTCAATACTCCAGAAATAGATAAATTTGCCAAGTTTACTAAGGAAAACAATTAAAAAGAAGAGGATCAACCTCTTCTTTTAATATATCATTGTATGAAGAATACGATCAGTATTCTTAAAGTTTAGTTTAGCTATATCTTTTAGTTTATCTTCACCATATTTTTCTACTACTTCTTCTCCAACAGTATCTACATCTTTGCCGGCTCCCTTAGGTAGGGGAATATGTAATTCATCAGATAATTTATCAAATTCTTTTAAGAAGATATATCTACTGATGATAGATGCTGAAGCAACAGCTAAGTTTTTATCTTCAGCTTTGGTAAGAAAAGTAATTCCTTTTTGAATATTAGGTATGCCTTCTAAATATCCATAATATCTAGCTTCCCTGGCAAACTCATCTACTATTATATAGTCATAGTCTAGTTTTTCAGAGTGAACTAAATCATATAATACTTTATTATGCATAATAGATTTAATCTTATTCATATTGATATCTTTACTATATTTTTCATTATATTCTTTATTAGTTAGAATCTGTGATTTATATTTTACAATCTTTATTAGTTTAGGTGCTATTTTAAGTATTTTATCATCAGTAATCTTTTTAGAGTCCCCAACACCTAATTCTTCTAACTTTTTAATGTCTTTCTTATTGACATATGTAGCCGTTACGACAATAGGTCCAAAGTAATCACCAGTTCCTACTTCATCAGAGCCAATAGAAGAAGAGTCATAATATTTCTGTTCTTCTTTACTGATTTTCTTTTTCTCTTTCTTTGTCTCTTCTAAAGCAATACCCCACATCGAAGCATCAACATCAGCACTTTTACCTTGAAACATTACTTTACCAGATTCATACATAGTAATAACTGTGTCTTCTTCTTCAGCTTGAAATACTACATACGGTATCTTTTTAGGCCGTACCTTATCTTTATAATATTCAATCATCTTTTGTTTAATTTCATCATTAACTCTAATTACAATGTTCATGTAAAACACCTCTATTTTTATTATAGCATATCTTTTAAAAATAAGTTATAATAAAAATAGGTGATAGGTATGAATATATTTGATATAGTAATCATTATTTTACTTGTCTTAGGTGGAATAATTGGTTTTAAAAGGGGGGTTATTAAAGAAGTAATTGGACTTGTCTGTTTTATCTTAGCCTTTATTATTGCTTATCTTTTAAAAGACTTTGTCGCAGGAATTATTATTAATAATATAAGTGGTTTAAATTCTGTTACATCCATCATCACTTATAAACTAGTAACTTTCTTAGTATTATTTGTCTTAGTTTTAATTCTTTCCAGAATTATTCTTAAACTAGGTAATATAGTTGATAAGTTAGTAAAAGCTACTGTTATTTTAGAAATACCATCTAAAATACTAGGATTCATTGTTGGTGTTATTAAATACTATTTAGTTATTTTTGTTGCTTTACTAGTAGTAAGTGTCTTCAGTATTTATAATGAACAGTTTAATAACTCTCATTTAGCTCCTAAAATACTTGATAATACACCAATTTTATCAGGAGTTACTAGTAAAATACGTCATACTATTGATGATTTAAAAGATGTTGATCAAGATCTTGAAAAAGATCAAGAAATTATCGATACCTTAGTTAATAATAAGATTATTTCTAAAAAAGATATCGAAGAACTAATCAAAAAGAATAAGATTAAAGATGTTAAAGTAAAAATAAAAAAGGATTAAGATCCTTTTTTTATATATGTTTTATTAATAATATTAAGATTAACATTTTCTTCTTTTAATTTATCTAATGTTTCATTATTAATTGCTACTAAATAAGTAATATCTTCATTAAACTCTTTTTTTATAATGGTACTGTTATTAAGAATTCTATTTATTTTAGCTTCATTATTATAGGAAAAGATAATTTCGACATTATAACCGTCTTCTAATTCAATGTACTGACACTTTTTTAATACCTCTGTAATACTTTTTACATAAGCTCTAGTAAGGGGACCAACACCTAGTTTAATACCACCAAAATACCTAGTAACAACACATAATACATTACTTAAATTATTATTCTTAAGAACATTAAGCATTGGTGTTCCTGCTGTACCAGTTGGTTCTTTATCATCACTAGATCTTTCAGTATCACTTAAAATATAAGCATATGTATAATGCCTAGCTTTTGGATATTTTTCCTTTACTTCTTCCATATATTTATCAATATCGTCCAAATTAGTAACATTAAAAATAGAAGCAATAAACTTACTTTTCTTTATTTCAATCATATTTTCAGCATTAGTTACTGTTTTCATCAGATCACCTAATAATATTATATCTAAAACCCTTGAAAAAATATAGATAATTTGTTAAAATATGAGTAATTAATGTATTTATAGAACGTTGATTAAAGAAAAGTACTAAATAATTAGTTTTCAAGAGAGATCTTGGTTGGTGAGAAAGATCAAACTAACTTTAGGAAAGCTCCTTTATGAGTTCTACGGGTAACCGTTATGATAATCAAGACCAAAATAGGATGGTACCGGGCATATGTCCCTCCTAGGAGATGGTCTTTTTTTTGGAGGTGTTTATGGTTTATTTAATAAGTGGTAAAGCTCGCCATGGAAAAGATACTTTTGCGGGATTCATGAAAGATTACTATGAAAGTATTGGTAAAAAGGCCTGTATTATGCATATATCTAACTATATTAAGCATTTTGCCATTGATTACTTTGGTTGGGATGGTAAAGAGGAAACTAAACCCCGTACTTTACTACAAGAACTTGGTACTGATGTCATTAGAGTAAAGATGGGTAAAGAACTATTCTTCATTAATAGGCTTTTAGAAGATATGGAAGTATTAGAAAACTTCTATGACGTCTTTATTGTTTCTGATGTTCGTCTACCAATTGAATTCGAAGAAATTGGTAAACATCATGATACTGTAAACATTCATATAAATAGAATTAATTATGAATCTGTTTTATCAACTAAAGAACAAAAACATATTACTGAAACAGCTTTAGATAATTATGATGATTATGATTATCGTATAACCAACGATACATTAGATAAACTAAAAGAAGATGCGGAAAAACTAGTAAAAGAGGTGGAAAAAATATGAAAAAATTCACTCATATGGAAATAAGAAAAATGTGGCTTTCTTTCTTTGAAAGTAAAAATCACAAAATAATAGAAAGTGCACCATTATTACCAATTAATGATGATAGTTTATTATTCATTAATGCTGGTGTTACTCCATTAAAGAAATATTTTGATGGTAGTGTTGTACCTGAAAATAAACGGCTTACTAATATCCAAAAATGTATTAGAACCAATGATATTGAAAATGTTGGTGTTACTAAAAGACATTTAACTTTCTTTGAAATGATGGGTAACTTCTCAATAGGTGATTATTTCAAAGATGAAGCTATTTCTTATGCTATGGAACTATTAACTAGTCCTGAGTACTTTAATGTTGATAAGAACTTACTTTATGTAACTATTTATACTGATGATGATTATTCATATGATAAATGGATTGAAGTAGGTATGGATGAAGATCATATTGTTAGACTTGAAGATAACTTTTGGGAAATAGGTGAAGGTCCCTGTGGACCTGATTCAGAAATTTTCTATGATCGTGGTGAAAAATATGATCCTGATCATAATGCCCTAGAATTATTTAAATGTGGAGAAGACCAAGAACGTTTTGTTGAGATTTGGAACAATGTCTTTTCTCAATATAATTCTAAAAAAGGTGAAAAAAGAGAAGATTACAAAGAACTTCCTAATAAAAATATTGATACTGGTGCTGGTTTTGAAAGATGGTGTACTATTTTTCAAGACAAAGATTCAATGTTTGAGACGGATTTATTTAAAATACCTATTAAACACTTAGAACAGTTATCTGGTATTAAATACAGTGGTCAAACTCCATTTAAAGTAATTGTTGATCACTTAAGGGCTATTACTTTTGCCTTATCTGATGGTATTTACTTTGATAATGCTGGTCGTGGTTATGTTTTAAGAAGATTGCTTAGAAGAAGTGTACGTATGGGTAAAATGTTAAATATCAATAAGCCTTTCATTTATAAAATGGTTAGTGATGTTGTAGAAACCTTTGGAGAAGTTTATCCTAATCTAGTCGAAAAACAAGGTGAGATTGCGGCTTTAGTATTAGAAGAAGAAAAACTATTCTTGAATACTCTAGATGCTGGTTTAAAAATCTTAAGAAATTTAACTGCTAACTCTAATGATGGCTTTATTAGTGGAGCCGATGCCTTTAAACTATATGATACTTATGGTTTTCCATTTGAACTTACTAAAGAATACTTAAATGAAATGGGCTTTTCTGTATCCGAAGAAGAATTTAATAAGTATATGGATATGCAGAAGGAATTAGCTAAGAAAAATGCTAAAACAAAAACCCAAATGGCTTCTCAGAAAAAAGTACTTTTAGACTTTAAGGAACCTTCCGAATTTGTCTATGGTATTTATCGTCTTAAAAGTAAAGTTATTGGTATTTTCTCCAAAGACAGTCTAGAAAAAGAACTTACCCGTGGTGGCTATATTGCTTTAGATAGGACTTGTTTCTATTCAGAAGCTGGTGGTCAAGTAAGTGATACTGGAATAATTACTGGTCAAAACTTTAAAGCTCGAGTACTTGATGTCTTTAAAGGACCAAATGGTCAACATATTCATAAAGTTAAACTTTTAGATGGTAAAATTAAACAAGGAGATACTTGTGAGTTGATTTTAGATAAAGAACGTAGAAAAGCTATTGAAGCAAACCATTCTAGTGTTCATTTACTTCATTATGCCTTAAGAAGTAAAATATCTGAAAATATTCATCAAGCAGGTAGTTATCTTGATCAAGATCGTTTACGACTAGACTTTACTTATACTGGTAAGCTTACTGATGATATGATCAAAACAGTGGAAGAACGAGTTAATGAAAGCATTAATAATAAATTAATTGTTTCTACTGAAGTTCTACCTATTGAAAAAGCCAAACAATTAGGCGCAATGGCTTTATTCAATGAAAAATATGGTGATATTGTTCGTGTAGTTAAAATGGGTAAATCCATGGAATTCTGTGCTGGTACTCACGTATCTAATACAAAAGATATCAAAGAATTCGCAATTACTTCTTATGAATCTAAAGGAAGCAATGTCTATCGTATTGAAGCTGTAACTGCTGATAAAATTGAAAGTGCTTTAACTGAAATTACTAAACCATATCATGATGAAATAATTAAACTACTAATGAAAGCTAAATCAATTATTGATGCCGCTGAAAAAGAAGGATTAAGTCTAAATTTTGATGTTGATATTGAAAACCCTAGACCTTCTTCTTATAAAGATGTTATCTTCATTAAAAATGAACTTGCCTATATTCAAAATGAAGTAAAAATGCTTGAAAAGAGATATAACATCGAAAAAGAGAAAGCTACTTTAAGTAATTTAGATGAATATGAAAAACTAGTTAAACAATATGATGATGTATTCACTGTTGTAACTAGAGTAGATAATAAAGATGTTAATATGCTTAAAGTAGTCGCAGATGCTCTTATAAATGAACTTGGTAAAGCCTTTGTCTTCTTTGCTAATGTTAAAGATAATAAGACTGTTAATTTCATTTGTCGTAGTTCTTGTGATATTTCAGCTGGTATTATTGTTAAAGATTCAGCTGTTACTACTAATGGTAATGGGGGCGGTTCTAATACTTTTGCTCAAGGTGGAGGAAATAACATTGATAAATTAGATGAAGTATTTGCCCATATTGAGGATGTTTTAAATGGTAAAGACTATATGTAAGAATTATTTAATAGAAACTACTGATGCCAAGACTAAAGAACTAAGAATAAAGGATTTAATAGGAACTAGTAGTTTTAAGTCATATGATATTAACACTTATGATTTAAGTGAGGATATATCTTTTGATAAAGTTATGGAAAGTATTGATACTTATAATCTATTAAGTGATAATAAAGTAATTATTGTAGAAAATATTGAACATTTAAAAGATGATAGAGAAAGAGAAACCCTATCTAAGTATCTAGATAATCCTAAAGATGATATCTTACTAATTATGACTACTAAGAAAATTGATAATAAATTAAAAATATTCAAATTACTAAAAGACAAAGTAAAAGTTCTAAATGATGAAATAGATCCCACTAAATACATTAAAGATAATTTAGAAGAATATAAAATGTCTGATAAAGACATAGCTCTTTTAATAAAATATAAAAATAAAGATATAACTGCTATTGATAATGAATTATGTAAATTAAAAGCTTATAAATTAAATAATAAAGAAATTACTAAAGAAGATATTGAAAATATCGTTATTAAAGCTAAAGAAGAGGAAGATCAATTGCTTTTTAGTCTAGTAGATAGTATTATTACTAAAAATAAGAAATTAGCTTTAGAAGACTTAAATAGTCTAAAAGAACAAGCTATTGATCCTTTTAGTATTATTGCTCTTTTAGATAATCAATTACGTATTCTTCTACAGACATATATTTTAAGAGAAGAGGGAAAGAAAGAAAAAGAAATAACTGATATTTTAAAGATTCATCCTTACCGGGTAAAACTTGCCTTGAATAATTCCTATAATTATACTAGAAAAGAGATAGAAAATACTATTTTAGAACTTGCTAAATTAGATTACAATATTAAAAGTGGTAGAGAAGATAAGTCTTTAGCTTTAGATATGTTTATAATTAATTTAAAAGATAAGCATTAATGCTTATCTTTTTCTTTTTCTATTTTTTCATAAATGGCTTTAATATTCTTTTCATAACCAATATCTTTTGGTTCATAGTACTTAACACCTTTTAATTTCTTAGGCATATATTCCTGATAGACATAAGCTCCCTCATAATCATGAGGATATTTATAAGTAGTAGAATTATTTTTAATATGATCAGGTACATTAGAAATAATTCCTTTTTCAATATCTTCTAAAGCTTTATCTAAAGCTATATGAGCCGTATTTGATTTTGGTGAAAGAGCCATTTCCGTAACAATTGTTCCTAGAGGAATTCTAGCTTCTGGTAAACCAACTCTTTCTGCTGCATTAATTGCTGCATCAACTCTTGGTCCAATAGCTGGATTAGCTAAACCAATATCTTCATAAGCAATAACACTCATTCTTCGATAAATAGAATCTAAATCACCTTCAGTAATTAAACGAGCAAGATAGTGAAGGGAAGCATCCACATCACTCCCTCTAATTGATTTTTGAAATGCAGATAAGACATCATAATGTCCATCACCATTCTTATCAGAAAAGAAAACTGGCTTACTATTAATCTTTTTAATTACTTCTTTAGTCACTTTCTGATCACTAGTAGAGTAGTAAGCAATCTCTAATAGATTATATGCATATCTTAAATCACTTCTAGAGAGTTTTACAATTAGTTTGAGTGTTTCATCATCAATAGTAATTTTATCTAAATAAGGGCTTTTTATAGCCCTTTTAAGAGCCTTTAAAATGTCTTTATCAGAGAGCTCATGTAATTCAAATAATTGACACCTGCTTCTAATAGCTGGATTAATAGAATGATAAGGATTTGAAGTAGTCATCCCAATTAAAGTAATTAAGCCACTTTCAATTTGAGGAAGTAGAAGATCTTGTTTGTCTTTATTAAGACGATGAATCTCATCCATAATAAGAATAATACCATCATACATTTTTGCTTCTTCACAAACCACATCAAAATCTTTCTTATTATTAATAGTTGCATTCAAAGAACGATATCTAAGTCCTAAATCATTAACAAGAGCATTAGCAATAGAAGTTTTACCAACTCCTGGAGGACCATATAAAATCATTGAAAAAAGTTTTTTATTTTTAACTAAATTAGTAAGTACTTTATCTTTACCAATTAAATGTTCTTGTCCCACAACTTCTTTTAATGATTTAGGTGCAAGTTTATAAGCTAGTGGTTTATCCATCATATCACATCCTCAAACTATTTTATTTTTGGTGTTTTCTTAAATACTTTCACATTAGTAATTATATCTTCTTTTTTAGTTTTATTAACTGGTACTATTGCACCGCATCTGACACATTTTCTTACCATGCCATCTTTTACCGTAAGAGTTTTATCAGCGCTTAATCTATGACCTTCAATTTCACATATTTTACGAGCTATCTCTTGTAATCTCTCAATAGATCGTTCTTTTCTAATAGCAAGATACTCCATATCAGCATTTATTAAATTTATTTCATCTTGAATAATCTGTAAACTTCTTTTATAAGACATTAAAAGATCTATTTTGCTCATTCTATTTTCCTTCTTTCAAGGTAATTTTCTTCTCCATTTTTTCTTCCAAAAGTTTTGGATGCGCTAAAAGATATTCTAATAATTGAACAGATTTAATCATATAGAAACCATCTGCAATTCTTTCATCTAAAGTAATTCCAAAGTCACAGAAACTTCTAATTTCCTTTTTACCATTATCTAAAATAACTTCTTTTTGATATATTTTACCCATTGTAATAAGCATTGAATTAGTACCAAAAGTACTTAAATGATGATAAATAGCTGTAGTTGAACCAATACTGCCAATATTAGACACAACAGCACTACTATAATAAATAATTTCTTCTGTCATTGATAAAGGTAATAAATCATGTTTATCTGCCCACTTATAACAACCAACTACAAAATAACGTAATAATCTTGGTAATTTACCAACTTTAGATACTAAATCATCAGTTGAACTAGTTTCACTATTTCTTGATTCATGAACTCTTTTCCCAATCTTCTTAGAAAAAGTAAAAATATTATCATCTTCTAAAGCTTTTATAACCTGCATTACTTCTTGAGAATCATCATTAAACTCCATCTTCGCCACAAAAGATACTGTAACATTATTACGATCATAAAACTTTCCATTAACAATAAATCTATTTAAATATGGTCTATTATAAATAACTTTCGCAATAGCTGTAGAAAAAGCATGAAAACAAGTAATATGAACATCTTTCTTTTTATTCTCTTTTTCCAAGTATTTAAGAAGTTCAGTTACATCAATACTATAATTACCGTATACTTCATTATCAACTCTTCTTTTTAAAATATCATGCATAATATAATTCATTCCATTTAAATTGGTAACAACCTTACCATCTTTACGATTTCGCATCTCAACACCTCATAATAATTATATCATCAATTTGTAAAACAAACAATTTTGAATTATAATATAAATAGGGTGAGTAAGATGGAAATAAGTACTGCCATAGAAGATTATTTAAATTACTGTCTAGTGGAAAAAGGACTATCTAAAAGAACTAATAAGTCCTACCACTATGATTTGTTATCATATCAAGATTATCTAAAGAAAAAACATATTACAAAAGTTAATAGTATTGAAACTAAAACAATCGAGAATTACTTAAAACATTGCTATAACAACAATGAAGAAGTAAGTACTATTGCTCATAAACTAACAGTTATTAAAAATTTCCATAATTACTTATATAAAGAAAAAATAGTAAAAAAGAATGTCGCCGAGTTTATAGCTCGTCCTAAAACTAAGAAAACATTACCCAAAACATTAAGTATAAAGGAAGTAGATAAACTACTTGACATTAAACTAGAAACTCCTTTTGACTACCGAAATAAAGCCATGTTAGAATTAATGTATGCATCAGGATTAAGAGTATCAGAATTAGTAAATCTAAAGGTCACTGATCTGGACTTTACTAATATGATTATTAGAATAACTGGTAAGGGTGCTAAAGAAAGAATAGTTCCCTTTGGGGAATATGCTTCTGTTTCTGTGAAACTATATTTAGAAAAACGACCTAGTATGTTAAAAGGAAAAGAAGTAGAAGAGTTATTTATTAATAATCATGGTAAACCTATTACTAGACAAGGTTTCTTTAAGAATTTAAAGAAAATTTTAAAAGACAAAGGTCTAAACGAAGATATATCTCCTCATAGTCTAAGACATTCTTTTGCAACTCATCTTCTAGAAAGGGGAACTGACTTAAGAAGTATTCAAGAATTATTAGGTCATTCAGATATATCTACTACAAAAATATATACTCACATTAGTGAGAAGCAAGTAGAGGAGGATTATATAAAATATCATCCTCGGGAGGAAAAATGAAAGCATTACGGATAATTTCAATTATAATTTCAGTAGGTTATATCTTAGTAGGATTTTACTTATTTTTTGCAAATGATATGGAAGCTATATTTATACCTATTATTATGAGTACTATCGCTGGTATACCGTTATTATATTTGTTAAAGGACAAAGAGAAAAATAGTACTTTATGGAGAGTTATTCTTGCCATATTTGATGCCATTGGTATAGTAGTATTCTTATTCATAATACTTTCTTTCGCAATGCTTTTTAGGCCTTGTACTGGATATGATTGTTTAGGCCAAGCACTTTTTCCAATGACAAGTGCCTTTGCGTTACCAATGATGTTTGTATATGGCTACATAAGTGTTGATTTTTTCAAAAATAATGATAAGAGGCGAGAAAATGAAGAAGAAAAAGAAAAAGAATAATTATATAAAAACAAGTGCTGTAATAGCTATAATTAATACAGTTTTACTAATATTTCTAGCATTTGTATTACCAACAGAAATACTATTTCTTGCCATTGTAAACGTAATTCCTTTGATACTTTATTTTGCCAAAATAAAGAATTATACCTGGGTAACAATTCTTTTTATCATTATAAATGATCTTGTATTCCTAATTTGTTTTGGTTATCTAGTATACTGGTTTATATTTTCTCTAGGACATAGTAATTGTAATGAATTAATCTGTTTTAATACCACTGGTATTGTTATCCTAGGATTATTTATTAATTTTATTGTCTTTTTACCATATATTATTCTAAGTATAGATATGATTAAAAACAGAAAAAAGAAAAAGAAAAAAACGAAAACAAGAAAAAGAAATAATATGATATAATAAAGAAACAGAGGGAGATAACTATGAGGTTTAAAAGAGTATTTTTACTGGTATTAGATTCACTAGGAGTAGGAGAAGCAGAAGATGCGGTTAACTATGGTGATACAGGTGCTAATACTTTAAAACATATTGAAGAAAATTATGATTTATTTATACCTAACTTAAAGAAGATAGGTTTCTTAAATACAGTTAATATGGATGTTAAAGAAGATGTAGATGCCTATTATACAATGGCTAAACCCAATAACGCTGGTAAAGACCATATAAATGGCTATTATGAGTTAATTGGTTTATTATCTACAATTCCATATAAAACATTTAATGAGGGCTTTCCTGGCGAAATAATAGCTAATATAGAGCATATTACTGGTAGGAAAGTACTTGGTAATATCTGTTGTACTGATGATACTATTATTAAAGAATTAGGAGAAGCTGCAATAAACTATGGAGGTCTAATTGTTTATACTTCTGCTGATTCAGATTTACAAATAGCGGCTCATGAAGATATCATAGATATTGATACATTGTATAAATATGCTGAAAGGATAAGAGCTTTAACCCTTAGAGAAAATTGGCGAGTAGGGAGAGTTATCGCTAGACCATTTAATGGTTCAGCGGGTAATTATAAGTTCATTAAAACTGCTCGTAAGGACTTTGCACTAAAGCCCCCTAAAAGAACTATTTTAGATAAACTATGTGAGAAAAAGTACAATGTTATTGGAATAGGGGAAGTAAATGCTATTTTTGATGGAGCAGGTATTAATAAAACTATTAAAGCCGTAGATAATGCCGAAGCCATTAATAAATTAATTGATATTATGGATAAGAAGTTTACTGGTTTATGTATTACTAGTTTAAATGACTTTGATACTGTATATGGCCATAATAGAGATGTCGAAGGATATGGTAAAGCTATAGAAGATTTAGATGTTGATATTCCCCTAATTCTAAATAAACTAGAATTAGATGATTTACTTATTATTACAGCTGATCATGGTAATGATCCTACTTTCCCAGGTAATGATCATACTAGGGAAAATGTACCGGTTATACTCTATAGTCGTAATTTTTCAGAACCAAAGCGCTTAATACCATTTAAGACTTTAGCAGATATTGGTGCTACTATAGCAGATAACTTTGAAATCGATCCTCCAGAAATAGGAGAGAGTATACTAAGTATTCTAGTATAATAAAAGAAAGAGAACCCTCTTTCTTTTTTATTCATCAAAATAATACTCGGTAGCAAATTCTTCATTATCACGCGCTAAAAAGCTTTTACAAGATGTTTCTGATGCATCGTATGCAATTTCATCAGAAACACACCCTACGTCTATCTCCTCTAACTGACAAAGAGAGTGGTCTAAGTCCTGAAAAGCACAGTTCTCTACAGTACAGTTAATCTTCTTACATTTAACCATTATATACCTCCAGTAGTAATATTATGGATAATAAACAGATAAATATACCGATGAATTAATAAATTCAATTAAATTTAAAATATTTTTTTACTCTCTTTTTACCTCAAAATAGGGGAAGTAAAAGAGTAGTTAGATGACTTTTAAAAACACTTTGTTATACTTAAAAACAAATAAATTTGAATATAGAAGTTAACATAATATCAATTATAGGAAGTTGGTTAGGAGTAATATAAAAGGAAGGATTAAACCTTCCTTAATTGTATCTCTGCTATCTTTTCAAAGACTTCTTTAGCGTTATCAGCATTAACTTCTGTATAACCCAACTCTTTTAAAGCCTGTACCTTTGCTGTATTCAACTCTTGAGTACGAGATAGTTTTTCTTCAGTCTTCTGTTCAATATCTTTAACAAAACGATCATGAGCCTCAGCAATCTTTTTCTTAGAAGATCCACCATTATTATATAGTGTCATAGCTGAGAACATAATTCCTTCAAAAATAAATTGCTTTTCTTTGTTATAGACGAATTCCATCGCATCAGTAAAGCCCATAGCTTTAGACATATATGCTAATAGATACTTTAATTCATCATTAGTCTCCATAGATTGTAAATAATGATATAAATATAAATAAGTATTATATGTATCACGAGATTTATCTTCCATTAACTTCTCTTTTAATAGATTAATGATATCTGTAATAAGCTCTTGTTCTCTTTTATTAAATCCCTTAAGATCAGCTATTATTTCTCTATTAGTAGTATCCTTTACTCCTTCGTTTAGCCTACTCTCTACTTCTATAATATATTCACCCGTTGGATTTATCTTGTCAATCTCCTTTTCATCAGTAATATTTAAAAGACTAAACAACTTGACACATTTCTCCTTAGGCCACTCTTCAAAACTATCCATTGCTAAATAGTTATATAACATTTGTCTAGATACCCCTAAATACTTAGCTAATCTAACTTTCGATATTCCTAACTCATTAAGTAAATCGTTTAATTTATTCATTATCATTTCACCATCCTAATACAATTATAAAGATTTTTTAGACAATAATCAAGTGTAAATTGACACTTTTTATAAAAATATTGCTTGACTTTAAAAAAACTACAGTAAATACCATAGCTTTTCGTTATTCTTTCGTACTTCTTTTACCATTCCCCCGCCAATGCAGATATCATCAACATAGAAGACACAAGCTTGACCAGGAGTAACAGCTTTAACATGATCATATTTAACCAAAATATTGCCATCATCTAAATATTCCAATTCTACAGGAATATCTTCTTGTCTATATCTAAATTTAGCATTACACTTATCAGGTCTTAAATCACAATTAAAGTTGAGATCTTCTATTATAGCACTATCACTATATAAGTACTCGGTATTACCAAAAGAAATATATAGGATATTCTTATCAAGATTCTTACCAACTACAAACATTCTCTCTTCACTACCACCAATATTTAATCCCCTTCTCTGTCCAATAGTATAATACATTAATCCTTCATGCTTACCAATAACTTCATTATTATCAATATTAACAATATCCCCTGAGGTTGCGGGTAAATAGTTCTTTAAGAAGTTTTTAAAGTTTCTCTCCCCTATAAAACAGATACCTGTTGAATCTTTTTTAGACGCAAGTGCTAAATCATGTTCTTTAGCAATTCTTCTAACCTCATCTTTAGTAATATCACCTAACGGAAACAAAACATTTTCTAATTGTTTCACAGAAACTTGTGATAAGAAATAACTCTGATCTTTATTCAAATCAGCAGCCTTCTTTAAATAACCATCTTCTAACTTAGCATAATGACCAGTCGCAATATAGTCAGCTCCCAGTTTTTCAGCTTCTTTCTTAAACTGATCAAACTTTATATACTTATTACACATAATATCTGGATTAGGAGTTCTACCCTTTTTTAATTCATCAAGAAAATAAGTAAAGACATCATCCCAATACTCTTTAATAAAATCTACTCTATGCAGTTTAATATTCAATTTTTCACATGCTTCTAACGCATCATTATAATCTTGCTCCTGAGGACAAATATTATTATTTAAATCAGGATTACCTAAAATATCATTATTAATCGAAGAATCCCAATTACGCATAAATAACCCTTCAACATCATAGCCCTGTTCTTTTAAAAGAATAGCCGCTACTGAAGAGTCTACTCCTCCAGAAATACCGACGATAACTTTTTTCATATTTATCACCAAGGATATTATACTAAAAAAAGAAAGAATAATAAAGTGTTCTTCCCTTTTATAGTAATAATTTCATAATACTTGGTACTACTAAAACTTCAATTAAAGTAGAAATAACCATAAACACTAACAGTATTAGTAATACATTAACATATCTTCTAATAATCCTTTTATTGGTTTCTTCATGAAGAAATAAGATATGATATAAATACCTAGACATCTTAAGAGAATTATAAACTAGTATTAAAAATATACCTATGTTAATAATACTGGGAACAATATATATAATTCCTAAAAAAATACCTTTTGTATGATAAAAATAGATAATAGAAGCTATACTCATTCCCATAGTTAAAGCTTTAAAAGCAAAATACATCACTATAATAGGAATACCGACTAGAGATATACCTAGTAACCATATTAAAAACATACTAATGGTGTTTTTAAAGAAAACTGTTTTTAAAGCATTACCATAGTTAAATTTACCACTTTTAATTTGTAGAAAGAATCCTTCTATATAGTCCTTTAAAAGTATTTTATTACTCTTTGATAAAACTGCTATAACAAGAACTCCTAATAATATAAATATTATTGCTGTAATGATTAAAAAAGCTAAAGTTTTTTTCTTATTACGTCTAATTCTAAATACCTTTTTACGCATAGTATCACCTAATTAATCCTATTAAGAAAGATTTAACTTATGCGAAATATAATTTTACAATTTATAACATTTATCTTATAATAGAAATTGAGGTGGATATAATGAAAAAAAAGAATAATATATTTATCAAAGTAGTCGCTATTATCATGATTGTTGCTATGTTAGCTAGTTTTGTTAGTATAATCGTTTCCTTATTTTAATTACATATAAAAAAGAGAAATAACTTCTCTTATATTCCTAAAGGGAACCTCAATTGGGGGTTTTTCTTTTTTATTTTTTGAAGAGGATAACCTTCTACTTTAATATCCTCTAATTTAATATCATAGAAATCACTTTTCTCTTCATTAATCATTATCTTTGGATCACAATTAATTGGTTCTCTATTTAACATTTCAATAGCTTGCGCAATATGACGATCATAAATCTGTATATTATCATATTGCCAAGTAAACTGCCCTACTTCTAAGCCTAAATCTCTAGCTATTAAGTGTTGAAAAACTAGATATTGTACTTGATTAATACAACCAGCTGTCGCGAAATCACTACTCCTTTGTTTTAAGGACATATCTAAATAGTCTTTACCATCCCATTCATGACGTACATTAAAAGTAGTAAGATAAGCACAAGGTTTAAGACCATGAGGATCTTTAAAATCATCTGTCTGCCACATACTAATAATATGTCTTCTACCATCAGGATCACGTCTTAAATCATCTAAAAGTTCATGGACACTATTATGTCTTCTAATCGTTTCACCATAGGCAGCACCAATAGTTCTAGTATTATCAACTTCCCATTCATCCCACCAATGAACATTATATTTATCAGCCAAAACATCTAAATCATTAGAGGCGTCCTGGTATATCCATAAAAGTTCACCAATACTTTTTTTAACCGCAATCGGTCTAAGGGTTACAAAAGGACTTTCTCCTTTAGAAATATCGTAAGTCATAATTCCCTTAGTTGTTCGTCCATGGTTTAAACTAAGAGTGTGAGCTGGTTCTCCATCTTCATACTTTGGACGAGGATTATGATCAAGTGTACCTCTTGTTAAAATATCATCAAATAATACTTTGGTATACATATCCCCTTTGGTACCAATCATATTGCCATCTTTATCAAGTAAACGCCCATTCATCACTTTTGGTTCTTCATAACTAGTCTTATCTAAGACTAATTCTTTTTCACCCCAAGCCAGTTTCTGTAAATTAACACGATCAACATCAAAATTCTTCATAAAACCCTCCTATTAAATTAATTATATCAGACAAAAAAGAAAAAAGATATTATTATCTTTCTCCTTCTTCCAACATGTTAGTAATAAAAATACCATAACCCTTAGTAACATCATCTACTATCACATGTGTAACCGCACCAATAATCTTATTATCTTGAATAATTGGCGAACCACTCATTCCCTGTACTATTCCCCCAGTAGACTTTAATAATCTCTCATCATCAATCGCAAATAAAATGTTTTTAGTTTTACTGTTTGGATCAATTTTAATAATATTAATCGAAAACTCTTCTACTTGTTCATCACTAATAACTGTCCTAATAGTAGCTTTTCCAGTATGTATTTCCTTAGTAGCTGATACTTCTATTCTCTCATCATCACTAATTTCATTAACTTGTCCAAAAATACCAGCTTTAGTATTCTTTTCCACATTTCCAATATCCGCATTAATATCATACTCAGCATTCTTTTCTCCTGCTTCTTGATCAGTACTTTTCTTAATACTATCTACAGCTGCCTCATAAATTTTACCATCTTTAATCTCGAATTTAGATGCTGTATTCTTATCGACTATTTCATGTCCTAAAGCCCCAAATATTCTAGTATTGGGATCAATATAAGTAAGAGTTCCTATACCATTTATCTGGTCTTTAACATAAAGTCCTGTCTTTAATACCCCATTATCATCTTTACTTAGATTGGTTGTGATTTTCTTAATATCATTATCTCTATAAACCTCAAAGATAAAATTATTATTAGAAGATTCACTATTTATAACTTCAATCATTCTATCAATTGTATCTACTTCATGATTATTTATTCTAATGATTCGATCCCCTATTTTAAACTCTTTATTAGAATCCCCTTCAACATCATAAAGACCTACTATCAATACTCCTTTGGAGTTTACTTCAATTCCTACTGTATTCCCACCAGGAATTATATATTTAGAATAAGCCCATGTATTAAGAGGAAAAATAGCTAATACAAGCAATAATATTATTTTAGTAATCTTAGTCTTAATAAAATCATCTCCTTACTTCAGTAATTAGTATTACCAAATAAGAATTATTAAAACTAACACTATTTACCATTTTTTAAAGTTGCGAACCTATTAAATATGTGTTATATTATAATAGAGGTGAATTATATGAATGAACAATCAATTAGAGATAGAGCTAGATTACACCAAGTATATATTGATGATAAAAGGATCCTTGATTCTAAAGAGCCAAGAGTAACTTACTATGATCCCCCTGAGAGACCTAGAAAAGTAAGAAAAAGAAGAAAAAAAGTTCATCAAGGTAAAGTTGGTTTAATAATAGCTGGTCTTATTGTTGGTGGTATTGCGACTAAGACAATAGATTCATATATTGAAAAAGAACGTATTTATGATAATCGTCTAGAAATAGAAGATGAGTTCCAAGATAAACTTTCTGAGTGCGATGATTATTTAGATATAGCCCACTACATTAATTCATTAGATGCTACTAATCAACGTGGTATCATCTATTATTTAATGGATAATGTATATGATGGCAAAGCCGAAGAAAAAGACCTTCCAGTAGATAAAGAAGATGCTGAAAAAATATTTAGTCAATTAAATTATAATGATGCCCCTAACTTAGAAATCTATGCTAGAGAGTTAGGTTATTATACAGTAGATGATTATTTCGATAAAGAAGATAAATTTTTAACTAATATGGCTAAAGTTAGGATGTCAGAAAAAACGGCTAATCGCTATCAAATGGAATTAAATGAAATAATTAATCAAGAAGATTCATTTAATGCAGATTACCCTGATAATGAATTAGGTAATCCTGGTATGAATAAATAGAGGTGAATTATGGAAATAGAACAAGTCCTAATTAATGGTGTATACTACAATATATTAGATAAAATAGATTATCAAAACACCACTTACTTTTACTTACAAAACGATGCCAACGATAATCTATTAATTCAAAAATTAAATAATAAAAATCTAGTTAATCTAGATAGTGATGAAGAAATAAATACAGCTTTATTACTATATGCTGAGAATAATATAAAAGATGCTTAATTAAGCATCTTTTTCTAATTCAAAATCTTCTAAAGTATTATCTTCTTTTACTATTTTATTAAGAGATTTTTCAGCTTCCTTAAGCTTCTTATCACATTCCTTAGCAAGTTCCATTGCCTTATTAAATTCAGCAATAGAGTCATCTAAAGATATTTCTCCATTCTCTAGTTTGCTAACAATACTTTCTAACTCTTCTAAATTTTGTTCAAATGTCTTCACTTTCTTTTCAGCCATTTTTATTACCTCCTTATATTACTTCCACATTTATTTTACCATCACTAAACTCAATATCTAGTTTATCTTTTTTATTAACTAGTTTAGCACTATTAATAACTTTATTATCCTTTCTTGTAAGGGTATATCCCCTCTTTAATGTATTAAGTGGTGATATATTATCAAGCCTAGTAATTAAGTTTAAATAATTATTCTTTTCTATTTCCAATAGTTTTTCAGGTTTTTTAAAGATAAAACTACTTTTAATACTTTGTAATCTATTCTTAGAATCAGCAAGTAGTAATTTCATATTAGTTCTTAATTTTTCATAAATCATATCAAATTGCTGTTCCTTAGCAACATATAAATTATTAGGATTAGTAAAAATATATCTACTAGTTATCTTCTTTAAATCTACTTTACAAATATTCAATTTATTCAATACTTGTTTTTTTACTCTAATCATTAAACTATCTAAATAGTTTTCAACATCACTTTTATTAGGTACCGCCAACTCAGCCGCTCCTGTTGGAGTTGGTGCTCTAAGGTCAGCTACAAAATCAGCAATTGTAAAGTCCACTTCATGACCAACAGCACTAATAATTGGTATTTTAGAATTAAAGATTGCGCGAGCCACTATTTCTTCATTAAATGCCCACAAATCTTCAATTGATCCTCCACCTCTACCAACTATTAAAGTATCAATATCAAAGTTTTCAGCATTTTCTATCTGTTTAACAATAGAATACTTAGCTTCTTCACCTTGAACTAATGCTGGTAGAAGAATAGTTTTTACATGTGGCCATCTTCTCTTAATTGTTGATAAGATATCTCTAATAGCCGCTCCTGTTGGAGCTGTTACAATTCCAATTGTCTGTGGTATTTTAGGAATTGGTTTCTTATACTTATCTAAGAATAGTCCTTCTTCTTCAAGTTTCTTCTTTAGTTGTTCATAAGCAATATATAGATTCCCTACTCCATCTTCTAACATTTCATTAACATATATCTGATACGTACCACTAGCTTCATAAACACTTATCTTACCTGTAACCAAGACATTCATACCATCTTCAGGTGTAAATAAAACCTTCTTAGTATTAGTTGAAAACATAATAGCATTAATCCTAGTATTTTCATCTTTTAAAGTAAAATAGAAATGTCCTCTACTATGGGCTTTAAAATTACTTATTTCCCCTTTTAAGAACACTTGATTAAGATTGATATCATTATCAATCTTATATTTAATATATTTAGTAAGTTGGGTAATTGTAATATACTTATCTTCCATCTGGAACCTCATTATGATAAATACTATCTAAAACACCATTAATCATCTTTACAACTTTATCATCAGAATATAGTTTAGATAATTCAACAGCTTCATTAATCGCTACTATTGGTGGTACATCAGTATAAAGAAGTTCATAAATACCCAAAGAAAGAATAGCTCTATCAACTTTACTTAAACGATCAACAGTCCAATTCTTCAGATATTTATTAGCATATTTATCAATTTTTTTCTGATTCTTAATTATTTCCTTTACTGAAGTATCAACAAATTCATTTTCTACTTCTAATTGTTCTTTAATAATCGCATCAACATCATAGGTGATATCACTACCATCCATAATATATATTTGATATAAAACATTTACAATAATATTTCTAAGTTCACTTCTAGTTTTCATTTATATCACCAAATCTATTGTACCATAATAAAAAAAATAAGTCATTACTTGACTTATTTTTGTTTTGACTTTTTACGACTTTTTTGTAATATTTTTTCATTATTGCGAAGAAAGTTTTCTTCATCAATGTCGGCTGCCAAATAAGACATATTAGGTTTTCCACCCCACTCTGGATCATCAACAACATATTCAGGTGGATTATAGCTCGCCATACCACTTTCATCTACATCAGCAAAATCATTACTAACTGGATCATAATCAATGGCATCGTAATTAAACATCCAAACACCTCCCCAAGTTCCGCATAAATTATACCATAATTAGTGTAATGTTTCAAGTTGAATTACTCCTTTTCCACCTCTTCTTTTAACTCTGCCAAAAAGGTCAAAGCATCTAGTGGAGTCATCTCTAAAGGATTGATATCTCTTATTTTTTCTTCTAAATAATTATTTTGTTCCATTTCATAGTTGATGCTTTCATCAAACAAATTAGTTTGAACTATTCCTGTATTAGGAGTTTTGTTTCCTTCTTTTTCATAGATATCCAAAATTTCTTTACTTCTTTTAATCAATTCATTAGGTAATCCTGCTAGTTTCCCTACATGAAGACCATAACTCTTATCGACAGAACCATCAGCTATTTTATGAAGGAACGTAATATTACCCTTTTCTTCCTTAACTGTGACATGAATATTCTTAAGATGTTTTAGTCTTTTATCTAGTGAGGTCAATTCATGATAATGAGTAGAAAATAATGTCTTTGCCTGTACTTTATTATGAATATACTCTAAAATAGCTTGAGCAAGAGCCATACCATCATAAGTGGCTGTTCCCCTACCTAATTCATCAAATAGTATCAAACTATTCTTAGTAGCATTTTTTATCGCAAAGCAAGCTTCCTTCATTTCTACCATAAAGGTTGATTCACCACTAACTAAGTCATCACTAGCACCTATTCTAGTAAATATTCGATCAAATATTGGTATTTTACATGACTTACAAGGGACAAAAGATCCCATTTGAGCCATAATAGCAATTAAAGCACATTGCCGCATATAAGTGGATTTACCAGCCATATTAGGACCAGTAATAAGTAATATATTAGTATCCTTATCCATAATAATATCATTCGCAACATATCCATCAGTAAGAACATGCTCTACTACTGGGTGTCTAGCCTCTACTATTTCTATCTCGTGATTATCAGTAAATTCCGGTCTAACATAATTATTATTATCAGCTAGAATTGAAAATGCTTGTAACATATCAATTTCCCCAATGATTTTAGCATTCTTCTGAATCTTATCAATATATCTTTTTACTACTTCACAGATATCCATAAATAATTTATATTCTAGATTAATTATCTTCTCTTCAGCAGTTAGGATAATCTGTTCCTTTTCTTTTAATTCCGGAGTAATAAAGCGTTCACTATTAGATAGAGTTTGTCTTCTTTCATACCCATATTCATCTTTAATTAAATGCTTTTGACTACGAGTTACTTCAATATAATAACCGAAGACTTTATTATACCCTACCTTTAAATTCTTAATACCTGTTCTCTTTCTCTCTTTATTCTCAATTTCTAATAAAAAGTCTTTCGAATTAGTTGATACATTTTTTAATTCATCTAATTCCTTGTTGTAACCCTCTTTAATCAAATCTCCTTCATGTAGTGTCAAAGGTGCATCTTCATTAATAGATTTATCTAATAATAGATATAGTTCCTCTAAACGTTCTATTTTCTTATCATATTTCAATTCCTCTAGTATTTTAGCAATTCCTGGTAAATGAGCTAAAGAGTTCTTAAGTTGTATTAAATCCTTAGCATTCAAATTACCATAACTGATTCTTCCTACTAATCTTTCTAAATCATAAACAGATGAAAGTTCATTTATTAAATCATCTCTTAGAATAAATGATGTTGATAAAGTACTAACTATATCTAATCTTCTATTAATTTCTTTTTTATTAGTAAGAGGATTTAAAATAGAATGTTTAATAAATCTCGAACCAATAGCTGTTTTAGCTTTATCAAGTAACCAAAACAAACTATACATCCGATCATTTTTTCTAATAGTTTCAATTAATTCTAAATTCTTTTCAGTATTGACATCAAATTGCAATCTATCATCAGCCGTAATTAAATTAGCTTTTTGTAAGTGTAAAAGACTACTCTTTTTTGTATCAACGATATAACAAAGTAAATGTTTAATACTACTAACTAGTCTAATGTCTGATATATCATGATAAATATAATCATACTTATCATCTTCTAATAAATTATCAGCAAAACTAATAAAAATATTATAAGTACTTCTTAAAATATTTACTAATTTCCGATCTACTTTACTATTAACAATTACTTCTTTAAAATCCCATTTAACTATTTCCGCCACTACTCTATTTAGATCATTATCAATTAAAAAAGTATTAACCTCACCTGTAGACACATCAGAAAAAGCCACTCCATAACAATAATCAAAGTAATAAAGTGATGCAATATAATTATTACTTTTACTATCTAATCCTTCATCTAGTCTAGTCCCTTTAGTAACTACTTGAACAACCTCTCTTTTAACCATTCCTTTTGTTTCTTTAGGATCTTCCATTTGTTCACAAATAGCGACTTTATAACCTTTTTCAATTAAAGCATCTACATATCCAGCATAAGCTTTATGAGGGACACCACACATTGGTACTCTTTTTTCTAAACCAGCTTGTTTACCAGTTAAAGTTAATTCTAATACTTGTGAACATAAAGTAGCATCTTCAAAAAACATCTCATAGAAATCACCAAGGCGAAAAAAGATAATCGTATCATCATAATTATCTTTAATTTCCATGTACTGTCTCATCATGGGACTAAGTTTTGATCGATCTACTTCGCTTCTTTTCATAAGATATATTATAAAATAAAATAATTAAAAAAGCCATAATTAAATGACTTTTATCTTCCTCCCATAGCTTGTTTATTCTTTTTAGTTTTACTCTTCTTCTCTTTTTTAGGTTTTTCTTTTTTAACAATACTACTTAAACTCTTTAAAATCATCTCTTACTCCTTTCATTTTAATCTTTCAATTACTTCATCAAAACTACTAACACCTATTACCTTAATTTTGTATCTTCTCTTTTTCTTTTCTTTTAAAGCTTCTTTCAAATTATCCTTAGGACAGATAAAGATATCTGCTCTTTTTTTAACCGCTCCTCTAAGCTTATATTTAATTCCTCCAATATCACCAACACGGCCATCCTTATCAATAGTACCTGTTCCAACTATATTACGACCTTTAGTAATATCTTTTTTAGTAAGTTTATTATATATCTGTAAAGCAAGCATTAATCCACCTGAAGGACCTGATTCACTTTTCTTAAATTTAAGCTTTAATTTAGGATCTAACTTATAAGTATTTATTTCAATGACTCCTATTCCCGTTACTAATTTATCATCTTGTTGATAGATATAGGCAAATTTCTTTTTAACTTCTTTCTTCTCTTTTACTAAAACAGTAACTTTTTCTCCTGCTTCTTTACTATTAATATAGGTTCGATAATCATCAAGACCATTTATTTTCTGACCATCTACTTCTAGAATCTGATCACCAATTTTTAAATTAGTATTCAGGTTCTTATTATCATCAACAAAAATAATATATAGTTTCGTATCTTTAATAGATATCTTTCGCTTAGCTTTAGTATAAGCTACATATACCGAATCAGCATTAGCTTTCTCCAAATTCATTTTTTCTCTAAATAATAAATCTTTATAATCTTCATCTTCTTTATAACGATATTCATCAATACTTTCGTTTTCAAAGCCAGGAACAATTAAACTTAAAAGATATGTCGCAACTGTTCCTTTTAATTCTTCTACATAAGCGAAATTAAGTTTACCTTTTTGTTTATATTCATTTTCTACCTGAACCCTTTTATTAATATTAATAGTTCCGCCACCAACAATAACATATGAATTAGTAGGTATCGTAAAGAATAAATATATTAATATCCAAACCAAAATATATTTATAATTATCTCTAATAAAATTTTTGATCTTTTCATATGCTTTACTAATCATCAAATATCTCCTCAATACTATTATAACAGGAAAGAGGTCCATATGATAAACAAATTTAAAAATATCTTCATTTTAATAGTATTAATAATATTACTTATCTTCTTTATTCTAAACCCTACCTTAGTTATTAATAATATTACTAAAAACACGAATTCCTTTATGAATAATGTTTTCCCCTCTTTATTCTTGTTCTTTCTCTTAATAGACCTGTTACTAGCATTTAATTTTATTACAGTTTTAAAAAAACTATTCGCTTTCCCAGTAAAAAAATTATTTCATCTAGATATAAATAGTTCTTTTATTCTATTTATATCTCTTTTTTCAGGGTTTCCTAGTGGTTCCAAATATATTACTAATTTACTAAATAAAAAGATGATTAGTATAGAAAGTGCCAATACTCTTGTTACCTATACCCATTTTGGTAATATTGCCTTTATCTTAGGTACTATTGGCCCTATTCTAAATAAAAAAATAACTCTAATTATTTTAATCTGCCATTATTTAAGTAATTTAATAATCGCTTTTATTATAAGACCCAAAGAAGTAATAAAAGAAAAAGAAGTAGATAAACAAGCATCTGCTTCTTTTACTGATATCTTAAGTACATCAATTATTTCTAATACTAAGATTATTATAATTATTTTTGGTACTATGATCTTCTTTTCAACTATCTCTTTAATAATTTCAGCAACAATACCTATAAACAGCTATCAAAGTACCTTACTATGCGGAATACTAGATTTATCAAGTGGTATTATTTCTCTAAATAATTTAAGTATTCCCCTATTTTATAAAGGTCTTCTTTCATTGATATTCATCTCTTTTGGTTCCCTATCTGTTCATATGCAAGTACGTATTCTATTGAGAAATACTAAGATTAAATATAGTTACTTCCTCTTAGGAAGAATATCACAAACAGCACTTTCTATTACACTTTTTCTATTGGTCTATTGGCGCTTCTATTAAAATATGGTATTTAGCACCTATTTCATGGTAGAAAATAGGAATGTCCACAATAAATACACTATTATTAAAAAGTTTATTAATACTAATTCGTGAATGCTCTGCAGCTGCGCCCTCGTATCCAACACCAAAACGCAAATTCATTAAATGCAAATCGGGATGATTATCAGGATCAGGATCATAATTTCCAAAGTCAGGAAGTGTATAAGTAACATCTTTACCATTTTCTCCTTTGTTATCTTTATAAACAATCTTATCTCTAACAGCATTTGTACCTTTAGATTGATATACTTTTAATTCCTTAGACGGTATTTTGGATGAATCAAAATATAAAGTGACTGACCATATATTATAATTACTATCATCATCATTTAATATAGGATTCGAAACACTTTTTAAATGTAATTTCGCAATATCATCTTGAACCATCTTTGTAATAGTATTTTTATATTTAATAACCTCTAAAGAAACTGATTCCATTTCTTGTCTAGTCCGATAATTCATCACTGTACTTAGCATCATTGTGGAAATAATACCTACTAATGTAAAACAAACTAAGATTTCAATTAAGGTCATCGCTTTATTATTAAGATGCATTTCTCTTCACCTCGATTGTCGCATAGGAATGAGTAGTACCCATTTCTTTAGTCTTTCTATCGATAGAAATAATAAGTCTCTTCTTAGTATTGTCAGTTGGATTTTCTTCAGGTAGAGATTCTATATATTCCACAAATCCTTTAGGAAAACTACTTTTATTATTATTAACATAACTTCTAAAATTAGCTATGTTATATTCAGTTAAATAAATTTGATCAATTCCTACAGCATTGACAAAATTTTTAGCTTCATCACTAAGAAAAGTACCTTGTGCAGTAAATTTCTTTCCATCCTTAGTAACTTCAATTTTTTGACAATGATTATTGCAATTATTCCAACTAATATTATTTTCTCCTTCAACAATAAATCTTCTTAAGTAATGCACTACATATTTCGATTCAACATCATCATAATACTCAGCTTTTTCATATTTAGCGACTAGTGGATAAAAGTTTGTAAAAACAAACATAAACACTGTTACTACAAATACTCCAACCACTAAAGTCTCCATCAAAGCAAAACCTTTATTAGACTTTATCATTTTATCCTCCTTTTTAACTTGCTATTATCTTAAATTTATTATATAATAAAATGTAGTAAAATACCATAGTAAAGTTTAGATTGGGGTTGAAAATATGGTTACATTTGACTTTGCCAAAACACCAATAACTTCTATAGCCGATCATATTATCATTCATGCGGCCGAAAAACACGCATCTGATATTCATTTTGATCCGCGTGATGAAGGTGTTGTTGTTCGTATTAGAATTGATGGTGATCTTCAAGATTATACTATCATTCCTAAGACATACGAAAGAAATTTAGTAACGCGTCTAAAACTTATGGCAAATATGAACATAACTGAATCCCGTTTACCCCAAGACGGATCAATTAAAGGAAAATTTGGTTCCTTAGATTTGGATATGCGTGTTTCCTCATTACCTACTAACGAAGGTGAAAAAATAGTTGTTCGTATTTTAGACTACTCTAGAAGTTTGGAAGGTCTTGAAAGTTTAGACTTCTCAAAAGAGAACTTTGAAAAAATTAAAAGGATGATAGCAGTTCCTAATGGTATTATTTTGGTTACTGGTGCTACTGGTACTGGTAAAAGTACTACTACTTACTCTATCATGCAAGCTTTAAATAAAAAAGAAACTAATATTATTACTGTTGAAGACCCAATAGAAATGAATATTGAAGGACTTAATCAAGTACAGGTTAATAGTGATATAGGCCTTGATTTTGCTACTGTCTTAAGATCTATTTTACGTCAAGACCCTAATATTATTCTAATTGGAGAGATTCGTGACTCTGAAACTGCCAAAATAGCTGTCCGTGCTTCAATTACTGGACATTTAGTATTATCAACTATCCATACTAATAACTCCCTATCAACTATTGAACGTCTTTTAGATATGAGTGTTGAAAGATACTTACTAGCTAGTGCTTTAACAGGTATTATTTCTCAACGTTTAGCTAAAAGATTGTGTCCTAAATGTCGAAAGAAAAAAGAAACTAATCCATATGAAAAAAAGGTATTTAAACTAGCCCTTGATAAAGATATTAATGAAATATATGAGGCTGATCCCAAAGGTTGTGAAGAATGTACTAATGGTTATCGAGGACGAATTGCTGTTCACGAGGTATTGGAAATTGATGATCATATTCGAAATCTTATCAATAATGAAGAAGTTGAAAAAGACGAACTAAGAGAAAAAGTTTATAGTGATAAAACTATTACCTTACTACAAGATGGTCTAATGAAAGTATTAGATGGTAGAACTTCATTTGATGAGATCTTTAGAATAATTGATATTGATAATGATATTGATGATAGTGAAATAAGTGTTGAAAAAGAAATAGAAGAAAGAGAAAAAGCAGCTGAAGAAAACAAAACAAATGAAGAAACACCTACTGAAGAAAAAAAGAAAGAAGATGCTCCTAGTGAAGAACAACCTGCAGTAGAAGAAAAACAAACTACTCTATCTTCTCCTAATCTAGCAACAGATGCTAATGAATTAGAAAAAAAAGAAGGATAAACCTTCTTTTTTTATACTTTAATTTTATTCTTTTCATCAAATGGTACTAAGATACATTTACGAGAAGCTAAATAATCGCACATATGAACAAAATTCTGACATTTAGTCTTTGGTTTATCTAATACTTCATTACCATCATAATCAGTAGTCCAGTTACCCATATGAGTACTAATAGTATCAGCTAAAAACTGTATTTCTTTTTTAGAAATTGGTAAATCTTCTTGCTCCTCTTTAATATATTCTGCCATTAGAAGAGGATGATCAAATTTAGTATACTTACTTTTCTCCTTGCCTAGTTTTAAACCATCGTGAAGAATAAGAGCCATAATCATCAAATCCTTTTCCCTGTCAGTATATTTATCACCAATAACAGGGTTTTCTAATAGTTCATGAGCAATCCTAACAGCAGCTTTAGTATGACGAAGTAATCCCCCTTCTCCTTGGGCATATTCAGGATGATATTTACCAGTAGAAGCTGCTGGTATAGTAAAGAAATAATCAGGTAGTTTTTCAATCATATAACTAGCACTTTCTCTAATATCTTCATTTTTAATATAATTTAATTCTTCTTTAAACTCATCTTTTTTATTCATACATCCTCCTTAAGTATTTTAACAATAATTTCATTACTTAAATACATTTTATTCTCTGGGATAAATATTCTATTACTATCTTCTTTTAAAAAACCATTTTCTAGAAGCTCTTTAATACTTCCATACTTTTTAATAAAATACTCTTTACTAATACCTGTTTTTTTTCTTAATCCTAAAATCAATTCATATTCCTTAATTTCTTCTTTAGTTAGCTCTTCTTTTTCAACTAAATAATCCCCTTTTAAATATTTATTAATACTTCTTGTATTTAACATCCTAGTATTATCAATATAACTAGCACTAGAAAGACCAAATCCATAATAGTGTTCATTATTCCAGTAACAAAGATTATGTCTACTCTCTTTACCATTTTTTGCGAAATTACTTATTTCATAATGAATATACCCCTCTTTTGCTAATCTATTATAGATATATTCATACATCTCTGCATCAAGATCTTCAGAAATATTTTCCACCCCATCAATATAAAGAATAGTGTGTTCTTCTATTATTAGAGAGTAAGTAGAAATATGTTCAATATCTAAAGATATGATAAAATCTAAGTCCTTTTTTAAATCTTCTTTAGTTTCTCCAGGAAAAGCATAAATCAAATCGATATTGATATTATTAAAACCTAATTCTTTAGCTTTACTAATTATCTTCTTAATTCTTTCTTTTTTATTAACTCTATTTAATAATCTTTGCCCTTTTGGACTTAATGTTTCTAAACCAAAACTTAATCTATTAACACCATTTTCCTTTAATAAGACTAATTTTTCTTCATCAATACTATCAAAGTTTATTTCAAAACTAAATTCAATATTTTTACTCTTCTTTATTTTTTTTATTATCCGAAAAAGTTCTCTTAATTGAAGGACAGATAAAACACTTGGAGTTCCACCACCAATATAAATAGTATCAACAATTTCTCCTTGATATCTTTTATCTATTTCCGTTTCTAAAGCTTTTAAATAGTTAGAGACATATTCCTGATGATAGTACATCTTACAAAAATCACAATAACTACAGATCTTTTTACAAAAAGGAATGTGAATATATACTGCTTTTGTCATAATTAATCCTCAGTAGAAAGAATCTTAATAAAAGTATCACTAGGTACTTCAATACTACCAATTTGTTTCATTTTCTTTTTACCAGCTTTTTGTTTCTCTAATAATTTCTTCTTTCTAGTTATATCGCCACCATAACACTTCGCTAAAACATTTTTCCGTAAGGCCTTAATATTTTCTCTGGCAATTACTTTAGAACCAATACTAGCTTGAATAGGTACTTCAAATAATTGCCGAGGAATAATAGTTCTAAGCTTTTCCACTATACTTCTACCCCTATTATAAGCAAAATCTTTATGAACTATTGTTGATAAAGCATCTACTACTTCACCATTTAATAAGATATCAAGTTTAACTAAATTACTTTCCTGATTGCCAATTAATTCATAATCAAACGAAGCATAACCCTTAGTATAAGATTTTAAACGATCAAAAAAGTCATATAATATTTCTGCCATTGGCATCTCATAAACAATACATACTCTTTTTTCATCTAAGTAATCCATATTTTTGAAAATACCACGCTTTTCCTGACAAAGTTCCATAATAGGTCCTATATATTCACTAGGTGTATATACACTACATTTAACATATGGTTCTTTTATTTTAGCGATCTTACTCTTATCAGGCATCTTATATGGAGAATCAATCATCATTGTTTTCTTGGAAGTTAATTCTATTTCATAATTAACTGATGGTGAAGTCGCTATTAAGTCGATGCCAAATTCCCTTTCAATACGCTCAATCACAATTTCCATATGTAAAAGTCCTAAAAAACCGCACCTAAAACCAAATCCCAATGCTTTAGAAGTTTCTGGCTCATAGCGTAAAGCAGCATCATTTAGTTTTAGTTTTCCTAAAGCTTCTCTTAAGTCCTCAAACTTAGAACTAATAGTTGGATAAATACCAGAATATACCATTGGTTTCATCTCTTTATAACCCGCTAAAGGTTCGGGTGCTTTATTATTTAAAAGAGTTATTGTATCACCCACTGATACATCTTCTATACTTTTAATTGAAGCATAAACATATCCAACTTCACCAGCTAAAAGTTCAGCTCTTTTCTCTTCTTTAGGTGTATTAACTGTAATATCTAGAACTTCATAACTAGCCTTAGAATTCATCATATATATTTGATCATGAACTTTTAATATACCATTTTTTATTCTTACACTAGTAATAACTCCCTTATAAGGATCAAAAACACTATCAAAGATTAAAGCCTGTAGTGGTTTAGAAATATCAGTATTAGGTTCTTTAACTCTTAAAATAATTGCTTCTAATAATTCTTTAATGCCAGTATGTTTTTTAGCACTAGTTAGAATTATTTCTTCTTTCTTAAAACCGATGTTTTCTAACTCCTTAGTAACTTTTTCAACATCAGCATTGGGTAAATCTATTTTATTAATAACCGGAATAATATCTAATCCGTTATCTAAAGCTAAATATAAATTAGCTAAAGTCTGAGCTTCTACTCCTTGAGCAGCATCCACAACTAAAACAGCACCTTCACAAGCCGCCAAAGAGCGTGATACTTCATAAGAAAAATCAACATGTCCTGGAGTATCAATTAGATTTAAAATATAGTCTTGGTCATTATATTTATAATTTAATGTAACCGCATTCAACTTAATTGTAATGCCCCGTTCTCTTTCAATATCCATATCATCTAAGATTTGATTCTTCATTTCTCGTTTAGATAAAGCCCCTGTTTCTTCCAATATACAATCAGCAAGAGTGCTTTTACCATGATCGATATGAGCAATGATACAAAAGTTCCTAATTTTCTTCATAGCACCCTTCCTTTCGCCTTTAATTATAACAAAAAATTTGGATTTCTCCAAATTTTATTAAGCTGCTTTTACAGGCCCTGATTCCTCTACTTTTTCCTGAGGACCAGTTAAATTCATCCGTATTATTTCTAACGCTTTACTAGCTTGTTCTAAAGCTTTCTGACTATATACTTTAGATACTGCTCCTAGATAAGAACAACCTTCTCCTTTATTCATTGCTTCCAGGATAGCTGTTGCTCGCTCTTGCTTTTTAATATACCATTTATTCTGTACATCTAAAACCTTATCTAAAATATTATCAGCAATAGAATTCTCTGGATCTAATGTTTCTTTTACTTCATTATTAGTTTCAATCTTCTCGGCTATATCTTCAATCTTTTCTTCTTGCATTTCTTTTTCTACTTCTTTTCTAGCCTCATATTTAGTACTCATATCTTTAAAGAATGATTTCTTTTGAGCTTTATTGATTAAGATAGCTTGTTGTCTATCATTAACTTTTATTTCTGTTCGTACATTAGCTTCTAATTTATTGGTTTCTTTTTGAATTAACATATCAATAAACTTTTCCCTTGTTCGTTTAGTAGTATTTTCTTTTAATTTTTGTAATTTTTCTATTTTTTCAGTATTAGCGACTTCTTTATCAACAATGGTATCAATTTTATCACTTAAATCATCTAAAACCTGGTCTTCTTCCATTCCCTTCATCTTAACTTCTTCTAAAGCTTGAACGGCTTCTTCTTTCTTCTTCTCCATCATTTTTAAAGTAATACGTTCATCTTTAGCTAAGTTTTCTAATTGATCAACACTATTACGAATACTAGTAATTCTACCATCATAGAATTCAATATTCTTTTCTAAATACTCTAAATACTTTTTTTCAACCATATCATGCTGCATGGACAGCACCTTCCTCATTGGTTTTAGATAATGTTTCGTTAATAGCGTTTTGAACGGCAGCCCACTCTTCTGGATCAGTTATTTCTTTAAAGTTAAAATTATTATCTTCCTCTTCTAATCTAGAAATATAAACTTTCTCTTGTTCATCATCCATAACTTCCCCAAATGAATACATTATATAATCATTATCTTCGTATCCAGCCGCACCAAAAATATCGATAACATAAGCATCCATCTTTCCATTAGCGGTATTTACTGATATCTTAAAACCATCGTTCATAAAATCATCTCCCTATTCTGTATTAATTATATCGTATAATAGCGATATAAGTCAACAAAATAAAGAAATTTTAAGCTTTAATATTTAAAGTACCTATGATATAATAGCATTGAATATTTCATATGCCGATATAGTTTAGTGGTAGAACAGGTCCTTGGTAAGGATCAGAGGCAAGTTCAATTCTCGCTATCGGCACCAGAAAAAAGAAAAAGACTAGTAATAGTCTTTTTTATTATATGGTGTTCGGTAAAGGATTTGAACCTTCAATCTTCACCTCCGGAGGGTGACGCTTTATCCAATTAAGCTAACCGAACAAGAGAAAAATTACTTTTCACAAGTAATTCCATGTTCCTCTGTCCATTTAAGTAATTTATCTAAGTATACCTTTTTACCAGTAAAGATATTATTATCTTTTCCTTCAATTTCTAAAATCTTATCAACATCAACCTTATCATAATCAATATTAATCCTTACTATTACTTTATCCTTTTTAGTCTTAACTGTAAAATCATAATCATTAATATCTTGATATCTATTAGCTAAACTCTGATAAGCTGTACTATATTTTTTAATTAAATCTTTATCATCACTAGTAATAATATCTTCTGATTCAGTTCTCTTAACTAATTTCTTCTTGTAATAAATCTTATAAGTTCTCTTAACTTTAATGCTATCAGCTGGTACTGAATCAATTTTACAATTAATTACTTTTAAATCCTTATCTTTCTTTTCACAGCCTACACTAAGAATTAAAATAAGCACCAAAATAATAGTAATACTAATCTTTTTCATAATTTACCTTCTTCCTATATTATGATTATAGCACATTAAAAGGAAGAAAGCCATAAAGGTCTATTTCTTTCTCTTAACTTTAGGCTTTTGATTATATTCTCTACTATAAATAACTTTAGTAATGACTCCTATTCCTTGATCTAAGTTTTCTAACAATTCTTTCTTTAACTTATCTCTAGAAATACCTTTTTTACTAGCCATTTCATCTAAATCATCTTGACTATATATGTAATAATCTGGTAATTCCCTAGATGTATTATACTTATCACAATATGATACTCCTTCTAAAACATCTCTAATACCATAGTAAAAACCAGCAAAAGTATTAACCATTACTTTTTCATATAATTCTTCATCAGTACTAATCCCTTTATCTCTCTTTTTTAAAATAGCAAAATTTGCTTCTATCGTCTCATCAATTTTCTTAGGAACATTATAATCAACAATATCTGTAACATGTTCATTATTAGCGACACTTAAAGTAAGAATTTCTCTCTTTTTAGAATCACCATTTTTATAATTACCATATTCAAAACAAACTGTCTTAAAGAAATTACAACAATTATCAATTCCTAGTGCTAAGACAGTACCTAAATCAAATCTTTCTCCTGAATATTGAAGATCTTTAATCTGACACAGTTTATCCATACTTTCAGCAATTTCATCATGCGGAATGTTTTCAGCTTCCACAAGATATACCTTTTCCATTTCTAGAGCCAATACTCTAGTTAAATATGATTGAATTTTTTTCATAATATCACTTCCTAGGACGTGTATTATACCTCTTTATCTAGTATTAATCAATGCATTTTCCCCTATTTGACACTTTCATTGACAGTTTCATTAATCTCTTTAAAAATATAATTCATAACTCGATTGAAACTCTTTTCAATTATATTAGAAGTTTTTAGTCCCAAACTAGAATAAATATTATTGTAGTTTTTTTCTTTTTCAATATAATTATCAAGATCTATTTCCTCGTTATTATCTAAATCGTTCTCAAATCTTTCAATGGCCTTATTAGTAAGAGTAGTTTTTCTGTATTCATCATATTTATAATACCCTGTAGCTTGTGATATATAAAGAGCAATAAAGAGAATAAATAAAACCAAGATAACAAATCTAATAATATTTTTACCCTTCATCTTTAACAACCTCCTCAAAGCATTTAATAAAAGCAATTGTGGCATTCATGACCTCATCAATAGTATTTTCCTTACCACCAACTTCAATTAAGATAGTGTATTTATTATTGTCTTGATTATAAACTCCATTTACACCTATTCCCTTCTTTTTATAAATACCCCTACTTAACCCTGGATAATACTTATTTATTTTCTCATTTATTTTATTAGTAAAAAGAAGATTATCTTCATAATGAGGATTTTCTAAACCAATAATAAATAATAGTTTCGCAAAAGCTTTATTATTAATAGTTACGGTTGTTTTATCATGTTTTACTGAATCACGATGGACATCAACAAAGTATTTTAAAGAAGGATTCTTCTTTTTAGCTTCTTCAATCAATATTCGGCTAGCCTTATAACTACCAGCATAATTCCAATTATTTCTTTTTAGAATTTCATTAATACTATTTTCTTCAACTATTGTATAAATATTTTTGCTATTTAATACTTCTTCCATAATATAAGAAGGCATCATTACTGTTGGTTTAATACTATATTCATTAAATTGATTAGATAAATACTCTTCTTTTTGGTGAGTATTATAAATATAAACAAGGGGTTCTCTTATTTCTTTAGTTTTAACCTTCTTTTGAACAAGTTTCTTTGGTTCAACTAAATTATCATAAGAACTATTAATTCTAACTAAAACATTAAAGGCTTTTTTCATATAATCATCTTTATCTTTAATATGAAAACTGTCATAGAGAAATAGTTTTACTAGAGTTTTATCCTTAATTTCTATTTTTTTGTTTTCTAAATATTGAAACGATAAAAATACACTGTAGATAAAAATCAGTGCAAGAAAAGTAAATCTTAGTTTTCTTCTCCTTTTATGCATATTTCTACCTCAGAAAAAATATACATTAAAAGTTCTTCTTATTTTGTCGAATTATAATTAGGATGCAAAACATGATTAAGAGAACTAGCTATTAAGGAACTCAACTTCTCTATTTTAAAATCAATATCTTTAGGAGTTACTATCATATTATAATCAAGAGGAATTATAGCCTCATTTATCTTCTCTTTACTTATTTTAATTCCTATGGATTTAATTACATCATCAACTATTGTAACTTCATCAACAACTGTGGGAACCCCAATAACTATTACTGGTATTTTTAATCTTTCTTTAGTAATCTTTTCTCTTCTATTACCAATACCACTACCAGGAGTAATGCCAGTATTAGCTATTTGAATAATTTTAGTTAAGTGTTTAATTTTAGAAGATGCCAAAGCATCAATAACTATTAAGAAGTCTGGTTTTATCTTTTTTACCAAACTGGTAATAGTATCATTTGTCTCAATGCCAGTTACCCCTGTTACTCCTGGAATAAAGCAAGCAACACTGCGATATCCTTTTTCAACATCACCAAAAGTAAATAAGTGGCGAGTTACTAAAACTTTCTCAATCGTTTTAGGTCCCAACGAATCAGGTGTAGAAAAGGAGTTGCCCAAACCAATTACTAGACAAGAATCTTCTTGTTTAATCTTTTCTTTTTCTAATAGTTTAGTAAGGGACAAAATCATCTGATCTAAAACCTTCTGATAATTATCTTTATCCGTAATATCATTAAAAGAAATAGTAACGAAAGATCTATTCCTTCCTTTTCTACTTTCAATAACTTTTACCTTCTTACTATCTAAATTAAAGCTAGGATCTTCTTCAATAACCATATCTGTTCGTATATTAAAGCCTTCTAAGTTTATAGTATGCACATATATCACCATTATTATATTTACCAAAAAATCAATAAATTATTGCTTTTTTATTCCTTTTTTGATAAAATAACTTTGGTTTATTTGGAAAAGCGAGGTGAAAATATGCCAAATATTAAAAGCGCTAAAAAAAGAGTTAGAGGAAATGCTAAAAAAGCTGATGTTAATACTATTATTAATTCTAGTATGAAAACAGCTATTAAGAAGTTTGAAAAGAGTTTAAAAGAGAATAAAAAAGAAGCAGCTAATTATCTAAATATTGCTTTACAAAGAATAGATAAAGCTAAAGATGCTGGTCTTATTCATAAAAATAAAGCTGCCCGTAAGAAATCAAAACTACAAAAAATGATGAATGAAGCAAAGTAAATCTTTGCTTTTTTTGTGTAAACTTAACAAATTAGATGTAAAATATATAGTTAATTTACATATAATTTGGTAAAATATAGTTAGGTGAAAATATGAAAAAAGCGTTAGTAACTACTGGGATTTTATTAATTATGCTAGGATTTGTTTTCTTATACAGAAAAGAGATTGCCTTTGCTTTTAATAAGTATTTCCTAAATAAAGTTATCAAAGTGAACACCGTTGTTACTCTTGATAAGAAAAATTCATATTATCGAAATAAAAACTATAATTATGTTCAACAGACTACTTCATTTGTCCCTGAGAACAAACAAGATTTATTGAACATCTATTATACTATTATTAATTCTGGGGAAAAAAGCTTTTCTTTCTATTGTCCTAAGGACTATGAAAACTGCCTAAATGATGTAAAAGCTATTGCGAATAATCAAACTACTCTATCTGATATTAATAATTTTGTTCATCCTTTTAATGGTTTCACCCATATATCAACTGAATATGATCCTTTTGGTAAAGTAAAATTACATGTTCATAAAACTTATACGAATGATGAAATAAAGAAAATAGAAGAAAAGATTGATGAAATTACTAAAGAAGTGATTAAAGATAATATGTCAACTAGAGATAAAATTAAAGCTTTCCATGATTATGTTATCAATCATAGTAAATATGATTCTCTAAAAAGTGATCAAGGTATTGATAAGTATCATTCTGATACCGCTATTGGCACTCTTTTTGAAGGATATTCTCTATGTGGTGGTTATACCGATACAATGGCTATTTTCTTAAATAAGATTGGTGTTAATAATTACAAAGTATCCAGTGAAAATCATATTTGGAATGCTGTAGAATTAGATGGTTCTTGGTATCACTTAGACCTTACTTGGGATGATCCTGTTGCTACTGATGGTAGTGATATCTTAGATCATAGTTTCTTCTTAATAAATACTACTGAATTAGAAAAAAAAGAAGTCACTCAACATGACTTCAATAGTAACGTCTTTAGTGAAGTATACTAATTACTTTTGACATTTTGGACAATAATAGGTGCCTCGACCACCTATTTTTTCTTTGACAATAATACTACCACAATTAGGACATGGTTCATCCTTTTTACCATGTACTAATAATTTATTCTGAAAAAAGCCGTGAACACCTTCATCTGAAGTAAAGCTCTTAATAGTTGTACCTCCTAATTTAACCGCATCATCAAGAGTTTCTTTCGTATATTTAACTATTTTATCTGCTTCTCTACTATTTATCTTATTAGTATTCCTATATGGAGAAATATGCGCCTTAAATAATATCTCGTTAGCATATATATTACCAATACCTGTAATAATACTTTGATCAAGTAATGTTTCTTTAATTGGCTTTTTAATGCCCTTGAACTTATCTAAGAGATAATTCTTATTTAATTTATTATCATAATATTCATACCCTAATTTATTTAAAGGAGCAACTTTATAAACATCAGATTTGGGTAGCAAATACATCTTACCAAACTTACGGACATCGTGATAACGCATCTCTACTCCATCAGTAAATCTAATTATGACATGTTCATGTTTAAGAAGTTCTTCTCCCTTCTTATGAAAGAAAAACTTACCTTCCATTCTAAGATGTATTAATAGTGCATAATCAGTTAAAAATAAAACAATGAATTTACCCCTAGTAGTAATTTTTTCGATTCTTTGACCAATAATATTCTTCTTAAATTCATCTATATCAGTAGCAATTATCTTATTCCATAAGATATCAACACTAGCTATTTCTTTTTTAAGAATCTTTTTTTCTAGAGTCTTTGCTACTGTCATAACTTCTGGTTTTTCTGGCATAACATCACCTACTTAGCTTCATACCAATTATCACCACAAGCAATACCTACTTCAAGTGGTACATCTAAAGTAACGATATTCTCCATAATATCTTTTACTAGTTTCTTTAGTTCCTGTTCCTCTTCTTTTACAGCATTAATAATTAATTCATCATGAACTTGAAGAAGAATTTTACTTTTATATTTACGTTTATTCATCTCTTTATACAATTTAACCATAGCCATTTTTAATATATCAGCCGCTGTACCCTGTATTGGAGTATTAAGAGCCATTCTCTCTCCAGCTTGACGAACCATATAGTTTTTATTCTTTAATTCATGAATATATCTTTTACGATTATATAATGTTTTTACATAACCTAATTCATAAGCACTTTTAATAGTGTTTTCATTAAAAGTCTTAATTTCTTTATATGTATCTAAATATTTATCTATAAAGCTTTTAGCCTCTTTAATATCAATACCTAAGTCTTCTGAAAGACCAAAACTACTCATACCATATAAAATACCAAAATTAACAGCTTTAGCTGCTTTTCTTTGTTTTTTAGTAACTTTATCAAAAGGTATATTAAATATCTCTGAAGCTGTTGAAGTATGAATATCCTGATGATTCTTAAAAGCTTTAATCATACTCTCTGACTTAGACATATGCGCAAACACTCTTAATTCTATTTGTGAATAATCAGAAGATATAAAGGCTGAATTATCATCAGGTATAAAAGCACTCCTAATTAATTTAGAATATTCTTCACTAGAAGGAATATTCTGTAAGTTAGGATTAATACTAGATAAACGCCCTGTCCTAGTTAGAGTTTGCGTATAAATAGTATGTATTCTTCCATCTTCTCTAATTTCCGCTTTTAATCCTTCAGCATAATTAGTATAAAGCTTACTTAAAGTACGATATTCAAGCACTTTAGGCACTATTTCATGTTCATCAACTATTTTATCTAAAATATCTTTACTTGTTGAATATGACCCGTTTTTGACCCTCTTAGGGTATGGTATTTCTAACTTAACAAATAATATTTCAGATAACTGTTTAGGAGATGATATATTGAACTCTTCCCCTGCTAAAGCATGTATCTCAGAAGTTACTTTTTCTAACTTTTCATGTAACTCTAAAGAAATCTTGTCTAAATACTCTTTATCTACTCTAATACCAGTTATTTCCATATCAGCTAAAACTTCTGTAAGAGGCATTTCAATATTCTCAAAAAGATCCATCATCTCTTCTTTTTCAAGTTCTTTTAATATTTCCTCTTTAGTATCCGCAATAAATTCTACTTTTTTACAAAGTAAATCTTTTAATTCTTCACTACTATATTCCTTTTTCCTCTTTTCAGTACCATAAAAATCAGTATATAGAGGTATATCATAACCAAATTCACTCGCAATCACACTAATATCATCCTTAGGATCATAATCAAGTAAATAAGTACCTATCATCGCATCATATACTACATTATTAAGCTTAATGTCATATTTAGATAAAAGAACTAAATCTTTCTTTAAATCATAAGTATATTTTTCAGTACCATTTTCCAATAAATCTTTATTATTTAATATATCCTTCTCTTCTAAAAAGTACAAACTTTCTCCATCACAAAAACTAATACCCAAAATATTACCTTTACTATAATAAGTATTATCTACTTCAATATATAAACTATAAGGTTTTGTACTATCTAATTTAGAAATATCTTTTATTTCTTTTTTACTTTTCTTAGATACTTTTACTTCTTTTTCCTCTTCATCAAGTTCAAATTTCCTAATAAAAGACTTAAATTCTAATTCTTCTAAAGCTTTCTTTAATTCTTTTTTATTAAAACCAGTATAATTCAAATCTTCAAGATCAAAATCTAGTTTAACATCACGGTAAATTGTCGCCAAATCATAACTCTTATAAGCATTTTCTTTGTCATTAATTAGTTTTTCTTTAGTTTTACAAGTAATCTCATCAATATGATCATATAAATTATCCAAACTATCATATTTTTCCAAAAGAGAAATAGCAGTCTTTTCACCTATACCTTTAACACCTGGAATATTATCAGAAGAATCGCCCATTAAAGCCTTCAAATCAATCATTCTAATAGGATCTACTCTATAAGTATCCCTAAAAGTTTTTTTATCCATCCTAATAAAACCAGATTGTTTTAATAACTTAACATCAACTTCATCAGAAATTAACTGTAAAAGATCTTTATCACTACTAATTATAGTCGCAACAAAATCTCCTTCATTATCAACTATTTTAGCTACTGTACCAATAATATCATCAGCTTCATAATTATCAATCTCAAAATACTTAATACCCATTGCCTTCAAAATATCTTTAGCAACTGGTATTTGCTGTTTCAATTCCTCTGGAGTAGCATTTCTGCCTGCTTTATATTCTTTATACTTTTCATGTCTGAAGGTTTTACCCTTATCAAAAGCAACTAATATATATTCAGGTTTTTCTTCATTAATTATCTTATTCATCATCGCAATAAAGCCATATAAGGCATTAGTAGGAAAACCCTTTGAATTGCGCATAATATGACCTGAATAAGCAGTCGCAAAATAACTCCTAAATACTAAATTGTTTCCGTCAACCAAAATAACTTTTTTCATATATTAACTCCTAATATTAATATATACTTTTTTTCATATTTTTTCAATTACATAATAAGGATATTTTCTTTATTAAAGTATCAATAACCTCTTCATCATTAATCAAGTTAATAGAAAAAGTTTTATATCCTATTCTATTAATACTAGTACCACAATGATAAACAATATTTTTATCTATAATAAAATAACGATCATGAAATATATTATCCCAAATAACTTCTAAATTATGATATTGCTTATTATATCGCCCTATCATTTGTTTAGTCAAAAGATTATTCTTATTCGTTATAATTGTAACTTTAACAGCGAGTTTCTTAATTATATCTAATACTTCCCTATCAGCATAACTATCGATTATAATTATTTCCTTTTCAGCTTCTTTTAAAATATCTAATATTTTTGAATATGCATCATATATTTGCCCATTAAAATATATTTCATTAATCTTTTTCTTTTCCTCAAACTGTTTAAAGGTGTTCTCTATCAAACATAACCTATTATCATAATTAATTATTTTCGATTCTATATTTGACAATCTATATTCATTATTACCAATATAATGTCTCATAGCAACAAAAGCATCCATTATCTTAATGCTGACTTTCGTCGCTACATCGGTATGTAGAATGGTAGCAAGCATGGCCACACCTTGTTCAGTGAAAACCCTAATCACATATCTCCTTCCGCCATAGTTTGTATTTGAACTTGAGGTCAAAAATTTTGACCTTAAATTATCTGATTCCCCATCCGTTAGTTTCCAACTGAATCTTTCCGGAAATTTTTCAGGATTGTTTTTAACAGCTTGATTAATTTCTTTAGTACCATTTTTACAATGATAAAGCTTTGCCAAATCAGAATCAAGCATTACCTGTTTTCCTCTTATCTCATATATCATATCCTCTATTTTAACTAATCCATGCATTTTAACCTCCTGATAATTATTTTATATGAAATCTACTTATCTTTAATTGAAAAATACTACCGCAAGGAGACGGCAGTATTACAATTTACACCTTTCGTATCCAAATTCTCCATTCTAGCAGACATTAGAAATGTAGCACCGACAGCTATTAAATAAATTAGTACTACTACGCCTGCTGTTTTCAAAAACTTTTTCATAATATACCCTCCTTTTCCTTTGTTAATACCAGTTTACTACATACAATTGTTCGTGTCAATATTTTTTAAACATTTGTTTGACATTTGACATTTTTTGTGTTAAGCTACTTATATAAGGAGGGAGTAAATAATGGAGAAATTAACTAAAAGACAAGAAGATATTCTTATAGTTATTAAAAAGCTAATGGCTGAGAATGGTTACCCACCTACTGTAAGAGAAATTGGTAAGAAAGCTAATCTTTCTTCACCAGCTACTATCTTCTTTCATTTAACTAAACTAGAAGAAAAAGGATATATTAAAAAGGGAGGAAACAAAAACAGAACCATTTCCCTACTAGTACCTAATGAATATGATGAAAAGAATGAATCTGTAGTATCTGTTCCCCTATTAGGAAAAGTAACAGCAGGTACTCCTATAGAGGCTATTGAAGTGCCAAATGAATTCTTTGACTTACCAGCTGGACTAATTCCTAGAAATAAAGACATCTTTACTTTAAAAGTTAGTGGAGAGTCAATGATCAATGTTGGTATATATGATGGTGATATCTTAGTAGTTGAGAGAAAGAATACTGCTAATAATGGTGAAACTGTAGTCGCAATGAACAATGAAAACGAAGTAACAGTAAAAACCTTTTATAAAGAAAAAGATCATTTTCGTCTACAACCCGAAAATGATACTATGGAACCAATAATATTAAACGAAGTAACTATCTTAGGAAAAGCTATTGGTCTATACAGAAAGTTTTAAAAAAAGATCTCAATTGAGATCTTTTTATATTACTTCTAATTCTTCTTTTTTATCTTTCTTAAAGCCTTTCTTCTTTCTAAATAGTATTAATCCACCAGCACCTATTCCGATTAGTATAAGGAATGGTAAAATAGTTAATACTACTCCCGTTAATGGACTACCCTCTCTAGTATTTACATATGTTACTGTATTAGTACCATTACTTACACTTTGTGAAGAAGTATCTCTTCCGCTAGTAGAACTTCCACTTCCTATTTTAAAAGTAGTCGTATAATTGCTTGCTGATGCTTCTACAATTTTATAATAATCATCTATAGAGATAGAGTCATAAGTATTATTGTTATATGTAAACTGTCCTATAACAGCTGTCTGATTATGTTTTAATGAAAGACTATCTTTAGTACCACTTTTACATTTAGTTACTTCGCTTATAGTAACATGGCTTGAATCTCCTCCACTTACAGGATACTTTTCACTACCACTATAACTAGAACAGGCATTACTAGCTGCATCATCTATTTGAATAGAAAAGTCAAAGTAGGTATTAATACCACCCATTAATCCCCCTACTTTCTTAGTTAGTTCTATATGCCCAAACTTACTTTCATCTTTAGGAGCACTAAAACTCATAGTATTTACTTTATTATCATTAGAATCTTTTATATAAAATCTAGCTTCCAAATTACCAGTAGGTCTATTATTAGCATTAAGTTCATTACGAACAGTTACTACTATTGTATATTCTGTATTAGTAGCAGGATAAGCATTATTAGAAGTTGCGCTTTCACTAACAGTCAAGTCATAATTTCCTGGTTCAGTTAAATTAAGTCCCATATTAGCAAGATTAATTGTTGTCGATTTACTTGCCGTATAATTATTGCTTACTGTTTCACTACCATCAAAAGAAATGGTGGCTTCTGGAGCTGAACTACTCCCTGGTGAATTTCCGCCAGAAGGAACTGATACTACTGAACCCTTTACCACGTTTGAACCAGACGATTTAGTTGCTATAATAGCATCTATATTAGTAGTAGCACTACTATAATTTACAGTTACCGGTGCACCAGAAACAGTTGCAGCACTCCTAAATGCATTAGAATATGAAGTGGGATTTCCCAATATCTGAATTGTTCCTGTTATACTACCGCAATACATGAACATAGAAGTCATATCTGTTACACTTGAGGTGTCCCAATTACTCATAAAGCTCAAATCAGTAATGCTTGAACATTCAAAAAACATCGACATCATATTTGCTACCTTCGATACATCCCAATTTGATAGAGCAGATATATTTAGTAATCCCCAATCTCTGTCTTCTACTGCGAATGCCGCCTTCATATTTGTTACATTTGAAGTATCCCAATTAGCAAGCGGAGCTAAATCCATCTGCGATCTATCATCAATAGCAAAAATATACTCCATATTAACAACCAAGGATGTATTTACAGTACCATAACCAGAAATATCACTCAGGAGTTCCATTTGATAACACAAATAAGAAGAATCTGGATTCAAGTAAACCTCATTTGCTTCACTATAATAATATATTATTCCGCTTGAACTTGTATTATCAAACCATATATATATTGGATAAGCAGACTCAGATGTAGAAATGGTATTTCCGGTAGCAGGAGTAAAACCGTTTGGTAGAGCACTTCCTTTTTTAATAGCTTTAATTTTCGAATCATAATCATCCCATGCTTTACTTAGATTATTAGCAAGTGTTTTCATCTTTGCATTAACCACTTTACCCGTATCAAACATCGCTAAAGACTCTTCAACTCTATAAGTAAAATCTACTACTGGAGCATTATAGACATTTTGTACTGTTCTGGATATTGTTGCTGTACTACCATCAGGCCATGTTAAAGTACCAGCAGCTTTCACTTCTGTTGTTTTTAAGGTTAATACAGATATTAATACTAATATCAATAATAAAGATATGTTGTATAGATTAAATACTTTTTTCATACTATTCACCTATCTTATCATCTATATATATTATATCTTTTTTGAGCATATAAAAACAAGGCTTTTAGCCTTGTTTACAACTTATTTTACACTATTTACTATATCATTAACAATATAACTCGCTATTAAAAGACCTGCTGTTGGTGGTACAAATGCGTTTGATCCTAAATCATTTATATCTTTAGGTAATTCTTTTGATGATAAAACAGTTAAATGTTTTATTTTCTCCTCTTTAGCAAATTTCCTTATTATTCTAGCAATTGGATCATTAATTGTCTTATAAATATCAGTTATTTCTAATTTAGATGGATCCATTTTTTTAGCAGTTCCCATTGAGGAAATTATCTTTATTTTTCTTTCTATACATTTTTTTATAACTAATTCCTTAGTTTTAATAGTATCACAAGCATCTACTAAATAATCTATCTTCTCTTTAAAAAGAAGATCTATATTATCTTTAGTAATAAATTCACTGATAGTTATTACTTCACAATTACTATTAATCTCTTTTATTCTTTTTTTCATAACATCAGTTTTCTTTTTACCAATAGTTTTTTCTAGTGCAATGATCTGTCTATTAATATTACTTTTTTCTACTTTATCTCCATCAACTATAATTATTTTACCAATATTACTTCGTACTAATGCTTCTACAGTATAGCCACCTACACCACCAATACCCAAAACTAAAACAGTTTTTTCATTTAAACTGTTTATAGCTTCTTTACCAACCAACTTTTCTAGTCTTTTAAACTTTTCCATCTTAATCCTCTTTAATCTTTTTCTTAACTTTTCCTTTATTAACATTAGTAATATGTGCTACTTTAGCAATCTTATTAAATACTTCTGTATTATCTACTGCGATATCATATTTCTTCTGCATCTTTTTACCTAAATCAGTATTTAAATCATTCTCAGCATTTAAAATGGCCATATACTCACCTAAGTCTTCATGAGCAGTATCTACCGCTTTAAAACCAAAGACATCAGTAATTACTCTTACTAAATTAACAGTATTATAAACGCCATTATTAGTATAAATTCTATCCATTGTTTCTTCTGAAGCATTAGTAAATTCATCATTTATTCTCTTAATAAGATTTATCTTATCATAATCAATATTGCGATCAATACCTAATGCTTTAAAAGAAATTATTCTACTTTTACTATTATCTGGTACACTTCTTCTAATATCATCAATCATTCTTCCATATAACTCTTTAATACCATAATATGTATCTAAATTAGGAAGACCTACTTTATAAATATCAAATGAAGGTGAATTCTTATATGTCTTAGTACTGACAAAGATATTATTATTCTCACTATTAGTTTGAACAGAAAAGTTCTTTATATTATCAACTACAGCTGCTTTTGAAAAAGACTTATCTTCAAACCATTTAGAATAACATCTTCCCTTATAATACACTTCCCCACTATTTATTCTAGCGAAAGGACTATTAGGACCAATTTCATCTTTGTTGACAATTTCTTGATTACGTAGTTTTATTTCATAGTTCATAATTTTTCCATTATTAATTATTGGTACTACTAACATATTCCCCCTGCTCCTTTCTAAACAGGAGTATTATAGCATAAAACCTATATAATTGCAACAAAAAAGTCCAAAGAAAGGATTGATTAAGACGATAAAACCTGCTCTTATTACAGGTGGGTATGTATAGTTTATCATTAGGATCCCTAAATTAATAGGTCTTCAACACAGATAAGCATCCTCAACATTCCCGTATCGTTACTTTAGTCGGTTTTATATGTAATCAAAACCATTTTCTTTAGACAATTTAAATATATCACAGATTAAAAACCTTTTCAATAGAACAACCTTATTCTTTACACATATTTTATTATAGGTGATTAGATGTTTTTTACTTATAATGAGTACCAAATATATTATGAAAAACATGGTAATAAAAAGAAGAATATTTTAATTTTACCTGGTTGGGGAGAAACTAGAAGTACTTTTATTAATCTAATTAATTCTTTAAAAAAAGATTATACTGTCTATATAATAGATTATCCTGGTTTTTTAAAAAGTCCTTTTCCTAATCACGATATGTCTATTTATGATTATGCTGAAATAGTAAAAGCATTTATTAAAGAAATGAATCTTTCTAATTTAAATATACTATCTCATTCTTTTGGTGGTAGAATAGCTATTATTTTAGCTGGTAAATATCATATACCTATAGATAAAATGGTTTTAATAGATATTGCCGGTATTAATCGATTTTCTTTGAAAAAGAAGATAAAAACACTTGTTTATAAAAATTTAAAACTATTAAGTGTTTTTATTCCTCAAAAGAAAAAAGATAAGTATTTATCTTACCTTTTTAGAAAGTTTTCCTCCCTAGATTATTCTTCACTAAATAGTAATATGTATAATACTTTTAAAAACATTATTAATACTGATTTAAAAAAGTATGTTAAAGATATTAGATGCCCTAGTCTTATTATTTGGGGTAATAATGACCCGGATACCCCTTTATATATTGGTAAATATTTAAATAAACATATTCCTGATAGTGGTTTAATTATTTTAAAAGGAACACACTTTATCTACTTAGAACAACCTTTTATAATATATAAAATAATAAAAGAATTCATAAAATAACGAGATAAATTATTTTATCTCGTTATCAATTAATTTAATTTCTTTCTTTAGTTTTATTTTCTTTAACCGATAGTTCTTAGGTAAAATATTAAGAAGTATTTCTCTAGATAGTTTTTCTTTTAAGTAATACTTTTTAAAAAGATCATCTTTATTTTGTCTAAGTACTGGTCCAAAGAAATAATCACTTTTACTATATTTAGCTTTTCCTCTTTCAAATCTTATTACTTGATACATTATTTTTTTATCCTCAACTAGTTTTTCAGCACTTATAATAAAACCATTTTTAGTTAAGAATTCTTTAATATCTCTTTGGTAATTATTAGGTGAAATAATAATATATTTAAGCTTCTTAGTAATATTCATATTATTTCTAAAGATACCTTTAATAGTTAATCCACCCATACCAGAAATAATAACTGTATCAATATCATCTTTATAGACATCTAGACCATTACCTAGTAAAAGTTCTATCTTTTTATCTAGTTTCTCTCTTTTGATGTTTTCTTTAGCGTTTTCTAAAGGTTTTTCATTAACATCAGATGCATATATCTTAGCTACTTTCTTTTCTTTAACCAAATAAATATCTAAAAGAGCATGGTCACATCCCACATCTAAAGCTATTACTTTTTTAGGTACTAAATCGGCAACCGTCTTTAACCTATTACTTATTTTCATTAGTCTGTTAAGAAATCCTTTAATTTTCTTGATCTTGATGGATGACGAAGTTTACGCAGAGCTTTAGCTTCTATTTGACGAATACGTTCCCTTGTAACCCCAAAGATTTGTCCTACTTCTTCTAGAGTTCTACATTGTCCATCATCTAGACCAAAACGTAATCTTAACACTTTTTCTTCTCTATCAGTAAGTGTTAATAAAACACTTGATAATTCCTCTTTTAACATCTCTACAGTTGCATAATCTTCTGGTCCCATAGTTCTCTCATCAGGAATAAAATCTCCCAAATGAGAATCTTCTTCTTCACCAATAGGTGTCTCTAAGCTTACTGGCTCTTGAGAAATCTTATATACTTCTCTAACTTTTTCTACTGTTATATCTAGTTTTTCAGCTAATTCTTCTTCAGTAGGTTCCCTATTTAACTCTTGAGTTAATTGTCTTTGAACACGAGCTAATTTATTAATTGTTTCTACCATATGTACTGGTACTCTAATAGTTCTAGCTTGATCAGCAATAGCTCTTGTTATGGCTTGTCTTATCCACCAGGTAGCATAAGTTGAAAACTTATACCCTTTAGTTGGATCAAATTTATCAACAGCCTTCATTAGACCAATATTACCTTCTTGAATTAAATCTAAGAAAAGCATTCCTCTTCCTACATATCTTTTAGCAATAGATACTACTAAACGTAAATTAGATTCAGCAAGTAATCTTTTAGCTTCTTCATCACCATCTAATACTCTATTAGCATACTCAAACTCTTCATCAGAAGTTAATAAGTCAATACGACCAATCTCTTTTAAATACATTCTTACTGGGTCATTAATCTTAATATCTTTTGATAAAGTCAAGTCTTCAACAGAAGTTTCTGGAGTTATTTCCTCACCAGAAGCATCATCAGTACCATCATCAGATACTATTTCAATATTATGTTCAATTAAGTGATTATATAAATCATCTAAATCATCACTATCAATCTCTAACCCCTTAAGTTCAGTAGCTAGTTGTTCATAAGTAATAAAACCTTGTTTTTGTCCTAGCTTAATTAGGTATTTTTCTCTTTCTTCTAATGTTTTAATCTCTTCCACCATATTTACTCTCCCAATTTTATCTTCTTGATTTCTTCAGCTATTTTTGCTTGCTCCAAAGGATCTTCTTCTTTTTCTAGCTTCTCTTTCAATCTTTTGATTGCTTGGTTCTTACTATAATCTTTAACCACTTTAATATACTCTGCTAGATCTTCTTCTTTAATCTTATCCGGCAAGTTTAGCTGTAAGATTTCATTAAGTAACATAATTAATTCTTCTTTACCATCTAAATATGTATAAAAATCAGCTATCTCTACTTCCCCATATTTTTCGTAATAATAAATAATTTCATTAACCAAAATCTTAGCTGTCTCATTTGGATAAATAATTTTCTTCTCCTTCATAGATTCAATTACTTTATCATCACGAAGCATATAATAAATAATAGAATATAACGCTTTATCATATTTAGTAATTTTCTTTATCTCTTGTGGTTTTTTAATGGTTACTTGTTCTTTTCTTTCTTTTTTTTCGTAATCCCTAAAACGTTTTTCTAGGGTATTATAACTCAAATTATACGTTTTGGCAAGGTTTTTCAAGATTAACTCTACTCTAATATCATCATCTATTCTAACTGTTTCTTTAATTACTTGATCAATATATTTACTTAATTCCAAATCACTATCAAAATTAATATTTTCTTTTAAAGCTGCGATCTTATAATCACTATAGTTAATAGCCTTAGAAACTAATTCTTTAAACTTGGCTTCCCCATTTTTAATAATAAATTCATCTGGATCTAGATCCGAAGGAATAGTTACTACTTTTACTTCAATACCCTTCTTTTGAAAATGTTCACCAATCGCTAAAGCAGCTTTTTTACCAGCACTATCTCCATCAAGACATAAAACAATATTATTAGACATTCTTTTAATAATATCTAACTGGTCATTAGTCATTGCTGTTCCCATTAAAGCTACTGTGTTATTAACCCCAATAGAACTAGCTCTAATAACATCCATAAAGCCTTCCATAATAATTACTTGTTTACTCTTACGCACTTCCTCTAAAGCTCTCTGATAATTATAAATAGTTAGACCTTTTTTAAAGATACTACTTTCTTTAGTATTAATATATTTACTCTCATCACTATCTCGATAAATACGACCAGAGAAACCAACAATATTACCTTCAATATCTTCTAAAGGAAACATTATTCTATCTTGATACATATCAAAATCAACATTTGATAAACCAATTCTATTTAAATCATCCAAATCATACTTTTTCTTTAGTAATAGCTTTGTTAAATCATCTTTTTTATTAAGAGATAAACCTATCCCAAACTTCTTTATTAAACTATTATCAATTTTTCTGTCCTTTAGATAGTCTAAAGCTTTTTTACCAGCAACTGATTTTAAATTATTTTGATAATAAATATTAGCTAAACGATATGCTTCATATAAATGATCATTCTTTTGTACTTTTTTAGTAAGTTTTATATTACCAGCATCAATACCAGCTTTATCAGCCAAAAACTTTAGAGCTGTTTTAAAATCAACATGATCATAGTCCATAATAAAGTTAAAGACATTACCACTAGCATGACATGAAAAACAAGTATATATTTGTTTTTCTCTTGATACACTCATAGAAGGATTCGTATCATCATGAAAAGGACAAACGCCAAAATAGTTTTTGCCCCGCGCTACTAAAGGGATTCTTTCTCCTATAATATCGACAATATCTACGCTTTTCCGAACTTTTGTAATTAAATTATCTTCCATTTAACCACCTAAATCACTATCTATAGTTATACCATAAAAACCATTATTTATCAATGTATAATCCCTAGAAAAGAACATATATTAATAGTGGTGATGATATGAATTTTAAAAAAATTATTAGGAATACCATTATTCTCTTTTTACTTTTCTTTCCCCTACATTTTTTATATAGTAAAACCAAAATTCCTATCTTTATTCCCTTTGCTCCAGTAAACGAATCAATTTGGGAACATTTAAAACTATTTTTCAGTGCTAATATCCTTTGTGGTCTAATTAGTTTAAAAAGAAATTATTTTTCTAAAGTTTATGTACGCAGTATGATTGAAATAATAGTTTTTCTAGTTATGTATCTACCCCTTTACTATTTATTAGGAGAAAACATGATTGGTACTTTTGTTACTCTATTTATTAGTCTTTTTCTAAGTGAAATAATTATTAGTTTTATTGACTTTGATAAATATAATTCTTTAAACACTATCAGTATCTTTCTAATAATTATAAATTTAGTTATCTTTACTTACTTCTCCTATCATCCACTAAAAGTAGATTTATTTAGAGACCCAAAAAATAATATCTATGGTATAAAAAAATAAGTATTTAATACTTATTTTTCTTTTACTTTCTTATATATTTCTTCATGAATATCTTCAATTGTTCTCATTCTATCATTTTCATTACAAATGATTTTATCCCAAGTTAGATAGTCCGCTACAAATAAAGCATTTTGATATACTTTTTCCATAAAGTCAGTATCACTTTCATGAATATCATTCTCTATTCCTTCGTTTTCCTTTCTATTACTACGTAACTCATGAACTAATTCAAAAGGTGCTGTTAAGAAAATAACTTTATCGGGTTTAGGAATTCCTAATTTATGATATTCAAACTCTTCGACATAATTAATAAAGTCTTTTTTATCATCTAATAGTGCTGACTGATATATAATACTAGAAGTAGTATATCTATCTAATAAAACTATATATCCCTCATCATAATACTTTTTTAACTCTTGGTACCAAGTAACAGCTCTATCAGTAGCATATAATTCATTAATAAAGTATGGTGATAAATCATGAGGTTTACCAAATTTACCTTCCAAATACTCTTCAATCAATTTTCCTTGAATCGTATTATAAGAAGGAAAGTGATACTTTACTATTTTCTCACCTTCAGAAATTAATCTTTGATAAAGTAAATCATATTGAGTAGACTTACCTATTCCATCAACAGCCCCTTCTATTACAATAAGTTTACCTTTTTTCATATTTCACCTATATTAATGATTTCCTTAAATATGTTTTAACGTCTTTATCAACGTATACTTCAATAACACCACGTTCCATTATTTTAATAAAACCTAGTCCTTCAATTACTAAATCCTCCGAAAAATTGGTTTCATAGGTTCTTTTACTTAAATTTTTCAAATCATCATGACGATTATTAAGCATTCTTCTAACTTTTAGAGAATTAGCTACAAAAACAGTAAAACTATTACGGATACCTTCAATATAATCAACTCGTACTAAGTCTTCAATTAGAACAGCTTGATTCTTACGCATTTGATAAGTTTTAGGTTTAATCTCTTTTTTCGGATTAATTCTCTTTAAAATATCATCAGAAACAAAATTAGTTATAGCTGTCGCACTAACAACACCTGGGGTATCAACTAATGTTAAATGATCATTAACATCCAGTCTCAAAACATCTAAAGTTGTTGAAGGAAGTGCTGAAATACTTAGATTGGCATCATTATCAGAATAATCATTCATAATTTTATTAATTAAAGTTGATTTACCAGCATTAGTATAACCAATTATATAGACATCTTTAGTTATCTGATGAAACTTAATCTTTGATAATAAGTAATCAATATTATAATTCTTATTAGCACTTACTACTATTACCTCTTCAAATAAGTTCATATCTTTAAAATAATTGATTATTTTCTCATCTTTAACTGATTTAGGAATAGCATCTTTCTTGTTGATAACTAAAATCATTTTATTATGAACATATTCTTTAATTTCCTTTAAATTTTCAGGAATATTTAAGATATCAACTACATATAATACTAAATCATTAGTCTTATCTATCTTCTTTAAAATATTTATATACTCTTCATTGGATTTATCAACTACTTGATAATCACCATAATTCTTAAGACGAAAGCATCTTTGACAAAAATCATAATCAAGGTTTGTCGTATAACCTGGATTTAAAACGTTTTCATCTTGAAGTTCAATACCACAACCTAAACATTTTTTACTCATAGTACTTTCCCCTTTCAAAATCACCTTTTTTACTATATTTATTAATAATTTTATTCTCAATAAATCTATTTAATCCAGTAACTGGTAAATCCCTTTTACCTAGTGGATTTACAAAAGCAGTCATTATTTTAAACTTTTTACCAGCTAAAATATCTGTCATTAACTGATCACCAATAATAATCATTTCCTTTTTAGTTAAATGATACTTGGCTTTTATCTTTACTAAACTCTTACAAGAAGGTTTAAAAGCCCAACTAATACCATCAACACCTAAATCCTCTAAATAAGGAGTTATTCTTCCCTTACCACTATTAGTGACAATAACAATAGTAAACTTTTTCTTTAATTTGGTAATTAAATCTTTAGCTTCCTTTGAACAAGTAGGTTCTGAATATAGACCTAATGTATTATCCAAATCAAAGAGAAGGCATCTAATACCTTTTTGATAAAGTTTATCATAATTAATATCAAAAATACTGTTTTGATAAATATCTGGTTTAAAATCTCTCATCTCATCACCCCTAATTATTAACATGTTGATGAATTTCTTCGGTTTTATCAGTTATTTTATCAAAGGCATAACCATTCTGTTTACCAAACTGAATTATTCTCTTTAAGGAATCTCTTGTCTGTGGCTTAATATCATGAAATAAAATCATATTAACTCGATCCTTAGACAATTGCCTAGTAACATTTTCATAAATACCATCAGGACTATTTATTCCATCAGAGTCACCACTAGCAATATTCCAATCATAATAGCGATATCCTCTGTTTTTAACTTCACTAGTTAAAGTAGTCATCAAACCTGGCGCATAACGAGCACTGACAGTATTACTACTACCTCCAGGAAAACGAATTAGTTTAGTCTTAATACCAGTTAATCTCTCTACTCTATTAGAAACGGCATTCAAATCATTGAAATAAGCTTCAACTGAGGCATATAGTAAAGCATAATTATGACTATTGGTATGTAAAGCCATACTATGTCCTTCATCAGCTTCTCTCTTGATAAGATTATCAGGTCCATGACCAGTTACAAAGAAAGTTGCTTTGACATTTTCTTCTTTCAAGATATCCAAAATAACATTAGTAGTACCTTCTTTAGGACCATCATCAAACGTCAAATAAATTGTACCATTTCTACCCCGTTCTATTATTTCTACTTCCTGTGTTACCTGAGTCTCATTACCAGAAGCATCAGTAACTATATAAATTACTTTATATACCCCTAATTTATCTTTATTAACCCCGCTAGACACATGAAGTTTATTCTTAATATCTTTATCACAATTATCTTTAACATCTACTGGTGAGGGCTTAAAATTATCATGAATAAATGAATACCTTTTTTTACCATCAGTTAATGTAATTACTGGTTTTTCGTGATCACCATAAATTATTTTCCTAGTTGCTGTACCAATATTACCAGACGAATCCATAACTTCATAAATATACTTTGTAGGAGTCTTAGTAACCTTTACTTTCTTAGTAAGATTACCATCATAGTTATCAATAGCCTTATAACCAGATTCTTTATATTCTTCATATGGACATACTGTAACTTCTTTACCCTCTTCTAAAATAATTTTAGGTTTCTTATTATCTAATACTGTAACTGTTCTAGTAATAGATTTACTAAAAACACCTTTTCTAATTGAATATTTAATTGTATAAGTACCTAGTTTCTTAGAATTTACTTTTCCCTTTACTTTAACATCATCAGAAACATCTTTTCCTAAATAAGTAGCCGTATATCCAGGATCATGATACTTTTTATTATAAGTAAGTTTCATTTTATTACTACCCTTAATGATGATATTAGGAGTATAAATAATACTTAATGTGACAAGAAAAAAAAGTAGTACTACTATGCTAAAAGCAATTATTACTATTCGTCTCTTATTCTTGCCTTCTTTTATGGAACGATATTCTTCTCTAGAAACCTTACCATAAAAATCTTTGTTTTTAGTAACTTTCTTTTTCATACTTTCTTCTCTTTTCCACCTATATTATACTTTATTTTATAATATTTACAAAATATTTTTTTAATTTAATAGGAAAAACATCTATTTTTTGATATACTTACATAGTAGGAGATAAATATGAAAGACGATAAAGATATCGAAGTTTTAATTTTAGATAAAGAATTAGAAGAAAGATATAATAAAGAAAGAAGTAAAATTAAAGATAATGTTCAAAAAGAACTAAAGGGTAAAAAAAGAAAGAAATTAATCTTTTATTACCTACTTTTATTGATTTCTTTAGGTCTTTTCTTATTTAGTGGTTATAAAGTTGTAATGTGGATGATTGAAAACTATAAAACTGAACAAATTACGACTAAAGCTAGAAAAATTGGTAATGTAACAAATGATTTGTATGTTAACTTTAAAAAGTTAAAAAAAGAAAACCCTGATACAGTAGCTTGGATAAAAGTAAATGGTACTAATATTGACTATCCAGTAGTCCAAAGAGCTGATAATCAATATTATTTATATCATAGTTTCGATAATAGTTTTAATTATGCTGGTTGGATCTTCAGTGACTATCGAAATGATTTAAATAGCTTGAATAAGAATACTGTTATCTATGGACATGGCAGATTAGATGGATCCATGTTTGGTAGTTTAAAGAATGTTTTTGATGAAAGCTGGTTAAAAGAAAAAAATAATAACGTAATTTTCTTAGTAACAGAAGAAGCTAAATATACCTGGGAGATATTCTCTACCTATTCTATTAAGTCAGAATCCTACTATATAATTACTGATTTCAATAATAAAGAAGAATATCAAGAATGGTTAAATACTATCAAAAAAAGATCAAGTTATGACTTTAAGAAAAAAGTAAATACTAAAGATAAAGTATTAACTCTATCTACTTGTAAAAATGATCATGGAGATAGAATTGCTGTTCACGCAAAATTAATAAATAAAATAAAGAACTAATTGTTCTTTATTTTTTCTATTACATTAGGATCAAATTTCTTATTCTTAATCATATCAATTTCATATTTATAAGGAGGATACTCCCTATCTACATAAGGTGTTTCTAATATTTTAGGAATATCTTTTAAACGTTCATTATAAATAATATTAATTAAGTTATCAAAACCAATAGTACCAAAGCCAATATTAGCATGACGATCCTTATGTGATGATATTGCATTTTTACTGTCATTGATATGAATACACTTAACATAAGATAGACCTATTTTACTATCTATTTCATCCAAAATAGCATCAAAATTACTAACATCATATCCAGCATCATTTAAATGGCACGTATCAAGACAAATACCTATTCTAGCCTTGTTATTAATGTTAGAGATAATTTCCTTAATTTGGTCTATATTTACCCCTAATTCAGTACCTTTACCAGCCATAGTCTCTAATAATATAGTTGGACCAACTTCATCAGTAAGAACCTCATTTAAACCAGAAATAATATTATTAAGACCCTCTTCTACTCCAGCGCCAGTATGAGAACCAGGATGTAATACAATATTAGAAATTTTAAGGTCAGAACAACGTACTAATTCCTGTTTTAAAAAACTAATAGCAAAAGAACGTTTATCCATATCAGGAGAAGCTAAATTAATGATGTAGGGAGCATGGACTACTACTTTAGAATAATCAAGTCCCTTAGATTCCATCAAAGAAATAGCTTCTGCTACTTTAGACTTATCAATAGGACTACGCCTAGTATTTTGAGGAGCCCCTGTATAAAACATAAAAGTACTAGCGCCATAAGAAAGAGCTTCATTCAAACTATACAATACTTGATCCTTACTATTATAACCAACATGACTACCAATTAATAACATAAACACCTCCAAAGAAAAAACTTAGATTTCTCTAAGTTTATTATAACATAATTTACTTATTTCCAGTAATTAACTAAGCAGTTACATTAGCACGAGTTAATTGATCTTCTATAGTATCATTAGGGAATCCTTTACCATCAGTAGCATTGTTCTTAGTACCAGTTCCTTGGAAATACCAATCAGTTGCTCCTTGACTATCAGTACAATACATAACGTGCCCCATCATATCAGAATTAGTAAATGGTGACTTTAATTTCTTTTCAAATTGCAAATCATCAAGACTAACTTGCTTACCTGATGAACCACTAGGACAACCTGAAGCTGTTGTCCAATTAGCACATTCACTATCAGTATCATCTACATCACAAGATGCCTTTTCAGTTTTAGCTTGATTCAATGCCATTTTAGCATTGTCAACAAATGTATCCCTTCTTGAATTGTTAATGTAACGTGTAACCATTGGTATAGCTACGAACATTAAGATTCCCAATATTACGATAACCGCTAATAATTCGATTAAAGTAAATCCTTTTTCATTTCTCATTTCAAAATCCTCCTATCTTTAATTCTATTATATCAAACATAATTGATAAAACAAAACATTTTTTAACATCTGCTGTCAAGTGGTGTCAAATACTATGATTTAGTCACAGTACAAGTAGTTTGAGTAGGCCAGCCACTATCTTTCTTAAAGAGAGCCTGATTAGCAATAGCACCATCAGCATTTAAATCATCAATGTTATTTTCACCAATCCCACCTTTGATTTCACCATTTTTTCTCTCCTGCAGTTGAACTTTATATGTATATTTATGATTAGTACTATCATAACCAATTATTACATAAGAATTTGTAGTATCATATTCCCCATCATTAGGACCTGTTTCTAAATCAGTCTTATCCAAATATGACAAATTAATTCTTACGCAACCACTATCTACAGTTAATTCTTCATCCTTATTAAACTCATATTCTGCTAAAGTAACTAGTTTTTTAGCATCTTCTATATAAGTTGTTTTCCTGTTTTTCTCTAAAGTACTTAAAACATTAGGGATAGCTATTCCCATAATAATAGCTAAAATAGCTAATGTCGCCAATAATTCAACTAATGTGAATCCTTTATCATTTCTCATATTATCACCTAATACTATTATAAACTCTATTTTTTGTTTTTCAAAGTATTATTTCATCACTTTCTGTAAATTAGTAAACTCCTTTTCAGAAGTAAGGGTTTTTTTACTATTATCAAAGATATTATCATATCTAAACAAGGCAAAGCCCTTATACTTGTCATTATTTCTAGCAATAATTACTTGACGCATAATAACATCATCATTTTCTATCCATTCATACATTCCTTCCTTTGCATACATATCGACATTACCTGTCTTATAAAAGGCTAAAGCAAAATAAAGAGAGATTCTATTATTTTTAATAAGATTACTCCATTCATTTATAGTATTTATATAGGGTTTATTACTATTATTGAAGCCATAATATATCTGGGGCATAATAAAATCAATATATTCATTACTACTACACCACTTCCTAACATCAGCAAATATCTTATTATAATTATTATCAATATTACCATCAGGAGATATACCAAATAATATATTCTTTTTTTGGGACTTTATCTTATCATGAACTTCTTTAATTAACTTATTAACATTATCTAAATGGTACTCTTGTAAAGACAAATGATGATTTTTGGAATATATATTATAATCATCAATATCAATATCCCTACTAGGATAGAAATAATCATCAAAGATAATTCCTTTTACCTTATACTTAATTACCTCCTCTACTCCCTTAATTATTAATTCTCTTACTTCCTTTTTAGCAGGATTATAGTAAATACCATTTTCTAATACCTTTACTTTATCAGTATTAAACCATTTTTTAGCGGGACCCTCTAGTGGAATGTTCTTTTCATTACTAATACGATAAGGATTTATCCAAGCATAGATTTCTATTTGATATTTGGAAGCCACCTTTATAAATTCATCTAAAATATCTATTTTAGTATTAATACTTTTCGGAAAGATCTTACTATTATATAAAGCATCAGAAAAGCTCCTAACTTGAAGAATAATAGTATTAAAATTATTTTCTTTAGCTCTTTTTACAATCTCTTCTATACCTTTTTTTATTTCTTTAGTATTTTTATCTTTAAAATAATGTTCTTCTTCTATATAAGAAAAAAACAAACCTTTCATTTCGAAAGATTTTACTTCTTTCCTTGCTTTTTCTTCTTTATTACTTAATAGTAATAAACTACCTAAAAAGAGTATTATAAATAGAATAATTAGTCTTTGCATTCATATCACCAAGACAAATATATAATAGAAAAGATAAAAAACATGTCATTTAATGTTTTCTTTTTTAATTAGAAACAAACTATTATTACGATAAAAAGCATAAAAGACATCTTCTAATTGATAGTTTTCTATCTCTAATCTATTAAGTAACCACCTTTTATCTTTTTTTATTTGCCTTAGAGTATCTTCTAAAATATTCCCCTCAACAATAACTGGTAAAGGGTAAACACTTTCTTCTTTACCTTTAGTAAATACTGACAAACTCCCATTATTCTCTAATAAAGCAAAATCAACTTCTTCTAGGCTTTTAATACTTTTATCTCTTAAAGCCTTTAATAAATCATCAATATTATACCTTTGTTTAGTCATTTCTTTAAAATTAACTATTCCTCTATTAATAATAACTGAAGGTTCTCCCTCTAATACACTTCTTGCCTCTTTATTGTGTAGTGAGAACTTAGAATAACCAAATTGTATTAAAACTAAAATAATCATTGGTAGTATAGATAAAAGCATATTTTCTTTAACATTATCGATTGATATAGCCGCAAACTCTGCTAAAAGAATAGAAATAGTAAGATCCATAATAGATAATTCCCCTATTTCTCTTTTACCCATTAATCGGTAAAGAACTGTTATTAAAATATAGAAGATGACTGTCTTATAAATAACTATTAAATATTCCACTTATATCACCTAATATTATAGTGATTAAATGTATATTTTTTTATACTAATAAATAAACTTAACTAGAGGTGATAAATATTAAAAGAATACTTAAATATTTTCTTGTTTTAGGTACTTTTATGCTTCTTTTTACTGTTTCTCTAAGTGCTTTGTCTTTCTTCAATATAATAGATAATAATATTGTTCAAATTATATTACATATAGTTTTACTAGTATTAGTCTTTTATCTATCTTTTAAATACAATAAAAACCATTATAAAGATTATCTATTATTTATTCTTCCCGTTATTATTATCAATACTATCATATACTTAGTATTTATTAATGATAATTTCATAAAATTTCTAGTATTTAATACCCTACTAATTCTAATTACTATACTAGCTTATCGAATTAATATTCAAAAAAAAGATCAAAACTAACTTTTGATCTTACCTATTAAAATTGTTCTTTTTTTCTCATCACTACGCGAACATGTTGATAAAACAATTAATTTGTCTTTAGTACTAATTTCTGTCTTTAGATAAACATCTGCAGATGATTCAATAAAATTAATTAATTTTTCATTAATTCCGTTGTGATATTGATTAATATCATAAATCATATTACTATAACCATCTACCAGCATATAGGCATATAATTTAATTTTATAAACATTTTTACCCAGATATAGCTTACCCTTCTTATGTTTTTTAAAATAAGTCATATCTTTAAAGTTATTAACATCCCCAAACATCTTTTCACGATCCATATTATGACCAAAAATTACTGTATAAGGATCAGCTTCCAAAGGATTGTTTCGATAATCCATAAAGATTGAACCCGATAGAGAAAACTCTCTTTTATAATCCTTATTTAAGTATTCAATATTATCTTTTCCTTGAACAATTGGATAATCAATATGTGTATTATTAATTCTAATCCAACCCACAATATCTTTATTAATCTTCTTTAATTCTTCTAAAGAAAGTCTCTTATTTGGTCTAAATTTAACAATATCTTTAGGTAACTCACTATCATCTAGAATAGCTAAACTACTCCGTAGCGAGTATATTCCAAAAATAAGCAATATCAAAAAAAGGGAATAAATTATAAAATTTAGTACTTTATCTAATCCGTCAACAGTCTTATCTAATACTTTCACGTTTTCCCCTCCATTCTCTATGCTGATTTAATTATACCATGTTTAGATGTCGAAACAACTAAATTTATGAGTGGTGGACAATTAGTTTACACCAAATAAAAAAAGTGTTAAATATTTAATTTAACACTTTATCTTTAATCAATTATACTCCTTGTTTTCTTTGTTTTAATGTTGTATAAGCAACTGTACCACATACTGCGATGATTACTACTAAGATATAAGGAATAATTGTAGTAAGTACACCAGTAAGAGCAGATGCAGATTTATTGTTTGTGAATGCAGCTTGGTTATTTCCAGCATTTAAAGCATGATTAGTAAATGAAGTTCCAGTTGTAGCTGTACCATTATCAATGCTATAAGTTGTTGTATCATAACCAAGATTATTTACAGAAACACCATATGTTACTGAAGTTGGGATTGAATCGAACTCACTTCCAGCAGATCCATCTTGTCCAATAACAGCTGTTTGTCCATGTTTTAAACAGAATGTAGCTGTTCCTCCAGATACAGTTGATGGTTGAGTAGCAACTCCTGTACAAGTAGCAGCACTATCAAGGCCTGAAATTGAATAAGTATTTGTACTATCACTTAAAGTAACTGTATAAGGGAAATACTCATTTAAATCAGCAGTAGTACCTTTTACAGCACTGCTAACAGAAATATGTCCGAAACCACTACTATCTGGTGAACTAACGAACGCTGCTTCTGGTGCTGCTCCACCTGTTGTTTCTACCTTGCTATTGTCCTTATCTTTAAGAACTAAACTAGCATTGAAATCTCCTGTTGGAATATTATTTGCATCAACTGCATTTCTTACAGAAATAATAACTGTATAATGATTTGTACTATCAATTGGATAAGCAACATTATTAGTAGCTGATTCAGTTATAGTATATGAATAATCTCCTGGTTTAGTAAATGTAGCTCCTGAAAATGATAGAGATTGAGTCTTATTAACAGAGTTACTAGTAACTTGCTCACTTCCATTAAATGCTACTGTAGCACTTGTAGGAATACTTCCAGCTCCATCTGGATTCCCACTTACTGCTGCTACCGTATATGTATAGGTAACAGTTGGCGCAATAGTTACATCATTAATAGTTCTATCAATAGTAACTGAATTAGCACCACTCCATGTCACTGTTCCTGTTGCTTTTACTGGTTTTAGTGCGAATACTGATATCAATGCTATGGCAAGCACTAATCCAATATTATACACATTGAATAGTTTTTTCATTAAATTCTCCTCCTATTTTATTTAACTTAATTTAATTATACCATGTTCATCAATTATTGCAACACATTTATAATAATTATACACTTGGTTTACACCATTAAATATCTCTATTTCTTAAGACGTTAATCACCTTACCTTTGATGTTATCAAAGCTAATAGCCCCAAAGTCCCGCGAATCTTTAGAGTGAGTTCTATAATCACCCAAAACAAAGACTGAACCCCGTGGAACTGTATATGGATAGTTTAGCTTTTTCTTTTTTGGAGTTATATAGTAAATATCCTCTTCTACAATATGACCATTAATCTTTAAATTTTCATCATCAATTTCAACTATATCATTTTCAATAGCAACAATTCTTAAAGCATAATCTCTACCATTGTTTCGAACAATAACTACATCACCTGTTCGGAAATTTTTCTCCAATTTATAATACAGTAACAAATCATGATCAACAAATTTAGGATACATTGATAATCCTTTTTGAAGATGAAATCCAAAAATAATAGTAAAAGTTACTCCTAGTATTAGGGCTACAACCAATATCTTTAAAAGCATCCGCAAAAGCTTTTTAAGAATTTTTCGCCCTAAGCCCTTATTTTTGGACTCCTTTTTATCTTCCTCTGGTTTAGGTAATTCAAAAGCCTGTGGTTCTTCTGGTGTAGGTACTTCTACTGGCTTAGGCACTTCTTCAACAGTTGGTTCCTCTGGTTCGGGAACGTCTACCGGCTTAGGTACTTCTTCAATCACTGGTTCTTCTGGCTCAGGAACTTCTACTGGTGTAGAAACTTCTGCCTTAGGAACTTCTTCAACCACTGGAGTTTCTTCTTTTGGTTCTTCAAACAAATCTAAAACTTCAATACTCTCTTTATTCTCTTTCATCATAGATCTCCTATTCTAGTATCTATACTATATACATTATACATCTTTGTTTATATATTGGCAAATAAAAAAAACTAGTTTTCTAGTTTTTTCTTAATATTATCGATTAAATGATTAGTATAAGCACAACTCATAACACAAATAACTTTGTCATTAACATCACTTAATCCCTCTAAAGTATTCTCATCAATAATCTTCGCTTCAGGAATAAGATCAGTAATTGTTCTAGAAGTTACTCCATCATAATCTTCACTTTTTTCTCTGTTACAATCAATTTCTGTTAGATATACTTCATCAGCAGTTCCCAATACTTTAGCAAAATCTTCTTTAAAGTCTCTCGTTCTAGAATAAGTGTTAGGTTTAAAAATAGCTATTAATTTCTTATTCGGATATTTTAGTCTTGCCGCTTCTAAAGTAACTCTAATCTCTGTTGGATGATGAGCATAGTCATCAATAATAATTGTATCTTTTATCTTTTCTTCAACAAATCTTCTTTTAGCATTCTTAAACGTTAAAAGATTCTTCTTAATATCTTCTAAACTAATTCCTTGTTTATAGCAAGCCATAATAGCCGCAGTAGCATTTAAAACCATATGATGACCTACTAATGGTAATCTAAAGTGTTCTAATTTTTCACCATTATAATAAACATCAAACTCACTATAGCCATCGATTACTTTCTCATCTTTAGCAATAACATCATTGTTATCATTAAAGCCATAGAAAATAACCTCAGTCTTATAATCTAGACTACGAACATTTTCATTATCACCACAAGCTATTACTAACTTCTTAGTATTATTAGTATATTCATTGAAAGTCCTCTTAATATCATCCAAATCATCATATATTTCCATATGCTCTTCTTCAATATTAGTAATAATTGCATAATTAGGATGATAAGCTAAGAAATGACGATTAAATTCATCAGCTTCAATGACAAACTTTTTATTCTCTTTAGAAGCATATCCATCACCAGCACCAATAAAGTAATTACAACCAATAGTATTTTCAAAAATATGTTTAATCATTGAAGAAGTAGTTGTTTTACCATGAGTACCAGATACTCCTGTAGTATCAAACATATCAACAACTTCCCCTAAGATTTCATTATATTTTTTAATAGTTAAGCCTAATTCTTTTACTCTTTTAATTTCTTTATGATCGTCACTAAAAGCCACACTATGAGTTACAATAGTATCTTTATCTATATCATGTTCACTATCATAAAAGATCTCAATACCTCTTTTTCTTAACCCTTCCTCAGTAAATTTATACTCTTTAGCATCATCATAACCAGTAACCTCATTACCCAAATCAGCAAGTATTTGTGCAAGAGTACTCATACCAGTACCTTTAATACCTATACAATAATACTTCATCTTCATACCTTCTTTCTATTTTATTATATTAACTAATTTTCTTTTTGTAAATAACTGTTTTTAGAATAAATACACCCACAATAATTTTGTCTATAAAGCTTGTATTTATTAGAAAGTTCGATACTTCTTTTATAACCATTCTTCTTCTTAAAATCAGCATATAAATAATTAACTTTATACTTATCTTCTAAGTCTTTTCCTATTTCATTTAACCAAGTACTATTTTTATAAGGACTAATTGAAAGTGTAGTTGTAAAATAGTCATAACCCAATTCTTTAGCTTTTAAAGCTGTTTTCTTCATTCTTAGCATATAACAAGCATAACATCTCTTGCCACCTTCTTTTTCCTCTTCTAATCCTTTAGCCATTTCTAAAAAGTCTTGAGAGAGATATCCATCTTCAACAACATCGATATCCAGAAGTGCTTCTTTTAAAAACCGTTTTAATTCATTAAGACGTTTTTGATATTCATCTAAACTATCAATATTAGGATTATAAAAGTAGCAAGAAATTTGGAAATAATCTTGTAATCTTTCAATACAAGCCGAAGAACAAGGAGCACAACAGACATGAAGTAATAATTTCTTCTTTCCATCTAATCCTTTAATAATTTGTTCCATCTCATAATTGTAGTTCATATCTACCTACTCTTTACTAATTTCTTAGCTTCTTTTTTAGCTTTTCTCTTCTTTACTACTTTATAAGTAACAAAGCCTAAAATAAGACATTTAGCACCTAAAACTAACTTAATTTTACTGTTCATACTATCACCCCAAAATATGTATATACATTATACACCTTTTCCCCCGTTTTTTCAATGATTACACCCCAAAATAAAAAACTAATTATATAATTAGTTTTATATTTTAGTTGGTCTTAATACTTCAAAGCCATTAATATTTCTTAATAATCCATATATCAATAGAATTGCAATTAAGACATAGAAAACTTTATTATTTACTCTATTAGTATATAACTCCTTTTTAGTAATTTTACTATGAATAAGATCAAAAATATAAAATATTATAAAAGGAAGTAATATAAATACTAATGGATTATATCTAAATGCTTGATAAAAATCACCTTTAAATAAAGCCCCTAGCATCCGGGTAACTCCACATCCTGGACAATATACATGAAAGATTGCATAAATTGGACAAGGAATCATTACTTAGCCTTTTTTAAATTAATAGCATTTAGATCGCTTTGGATTAATGCATAAACAACAATACCTAATCCTAGTAGTTGTAATACTAAATAAAGTACAGAATTATCAGCATCACCTACACCATTATTCTTTTCTGCTACTTGCATTGCTTTACCCATCTTGTATGCCCAGTAGATACTATAGATACCACAAGTAATTAATGATAATAAGAAGGCAACTCCTCCACTAGCCATTTGTTCATCTCCGCTTTTTGCTTTAACTTCATCAGTTAGAACAACAAACCAGTAAATACCATAAATACCACAAGTAATAATAGTAAATACAATAGCTAAAGCAACATTTCTTTCTTTTGTTTCCATAATCTTACTCCTTTCTTTATTAATTAAAATATAACAAAATATATTATACTAGTCAATTACTACTTCTTTAGCAATCACTGCCTCTCAGCACTGCAAAAGAATATAATTTAATACCTTCGTTATTATTAGGATGTACACCATCTAAGATATAATCATTTTCATTATTATATTGTATTACCTTCTTTATATAAGGATTTGGATCAATACAATAAGCATTATCTAGTTTTTTCAATTCTTTATTATAAGTGTTATATAGTTTCCTTTTCTCCTTATCCTTTTTAGATATATTATAATCGTTTTCTGTAGTTTGCCAAGGAGATAACACTATATCTTCTCCCTGAGTTAATTCTACAATTCTTTTAATGTTATCTATATAGTTATTTACATTTTCTTTATTATATCTAATATCATTTGTACCAACATTTATTATACTCAAATCACACTTCGCTTCTTCTATTTTATTACTGAATTTATTAATTATATCGTATGATGTATAACTCTCTTTTGAAATATTTATTATATTTTTGTCAAAATTAGACATCAGTGGCAAATACCAAGGCTTATAACCATTCTTATACCCATTTGTTATACTATCTCCAATAAAGCATATATTTTCGTTTTCAGATATTTTTTTATATACCAGTGTTTTCTTATCATTATTATTAAGTTTAAGTTTATATTTATTATCATATTTATATTTTTTATTAGGATAATAATAATATGAATTATTTATTTTACTTACACTATTTTTTAATACTACATTACTTATTTTTTCTAACACTCTATCTTTATTTTTACTAGTAGTATTTTTTAATAATTTAGGATAATACTTTCCTTCGCTATCTTTAGTAGCAATAATCGGAGTTATTTCCGCTGCTATTATGCTATGGTTATTTTTATTAATATATAGTTTAACATACATAGAAATATCACTATCATTACCAATATATGAATTTACATAATTACCTGGCGAATTAATTATTATAGAGTTGTTTTTATATTCAATTGGCTCTATCACATGAGAATGATCACCTAATATTATATTTGCACCCTCTTTAACAAAAAAGTCGTTCCATCTTTTTTGATATATATCTATTCTATAATTAAACTCTGTACCATAATGTGGCATAACTATAATCATATCCACATTAGACTTTTTTAATTTCACAAAATCTTTATGTATTTGCTTTTTATACTTATTAAATTCTTTACTATAAGGATCCACCAAATAGTTTGTATACTTCTCATAGTTATTACTATCAAGATAATTCAAACCATAAGTATAAGCTAATACTCCTATTCTGACTCCTTTAATACTAAGAATTTTATAATTATCTTTAGTTCCTGTATAGTTTAATTTGCTATTATTAAGATTTGCGATTGTGCTATTATAAGCACTTGTTCCCCTATCCAACATGTGATTATTTGCTATTGTTACAAAATCTATTCCTGCACTTTCTATGCTTTTCAAAAATGAAGTCGGATAATTTAGCCTCAATTCCTTATTATCAGAATAATTTCCATATGAATAATCGCTATTGTCATCTACAGGGCCTTCTAAAACTCCAAACACGTAATCTGTATTATTAAATCTTTCTTTCATATTATTAAACATATAATCAAAATCATTATCAGACAATTTCAATTGATCTTCTAATAATATTAAATCGCCAACATATCCTATTGTTAATGCGTTGTCTAGTTCTTTATACTCATTTACATTTAATTCATGGCTATCAAATAAAGGTATAAGCAAAATAATAATAAATAAAAAAGATGTTAATAATAAATACTTTGTTTTAAATAGTATATCTAAAAATTTATGGACAGATGTTATAAAGCAACATAATATAATACTTGTTATTATTGATATTAATAAATAGTATTTATTTGGATATAAGTAATATGATAATAAAAGTGTTGGTATTCGATGTAAAGCATAGATATATAGTGAAGTTTTTCCTATATTAGATACCATTACTATTTTTTTATTTGGTATTAAATTAATAATCGCTATAAACAATGCCGGATTAATTATAAATGTTATTCCTCTAATTATTATTCCATATTTATTATTATAATGTGGTAACATGTAAAATTCATATGGGATATTTATTAATAATAAAAGTATGTATAATGTAATTGATATTAACAATAAATATTTACAATACTTTTTATCAAGTTTTAATTCATATTTATACCCTATTGCAAAGAAATAGAAAAAGGAAAAAAATCTTACTATTTCAATATTTTTAAATAATAATCCACTAAATAACGATACGGACAATATAAAAACAATACTGTACTTCTTAAGTATTAAATTAGTTATATATTTATTTTTAATCATTGTTCTATATAGCAATAATAACAATATAAACCAACTAGAATATTGAAGAGTAAATATATCTACCCTTCCATAAAACAAATAATTAAATAGTGAAAACTAAGTGTTCATAAATAAGAATATTGATAAACACATTAATAATCCACTATTTTTTCTATTTTTTGAAAAATAACCTGAGACAATAAAAAACATAGGCATATGAATTATATATATACTAGATAATATTACATTATAATTAGTTTTAGGCAAGTAATCATATGTTATTAACATATGACCTAATACTACCAAGAATATTAATACTCCCCTATATATGTCATAATTATTCTTTCGCATAAAACTTATCTCCTATTACTTTTTTTCATATCCGTTTCTTTTCTAAAACCGTGATGGCTTCGCAATGCTCTGTCCTGGGTTGAGGAACATATCATTAACTTTGTTCTAGATTAATAGAATATGTTTCCCAATACCCATTATTTCAAATATTAAACATTTATTTATTTCTTATATCTAATAATAGATTATATATTTCTTTTGCCTCTGGAAATAGTTTATCATAATCAAATATTCCAGTAGTATTACCATTTGTTCTAGATGCAAAATCTTCAAATTCTTTTATTGCTTCACTAATATTTTCTTTGTTAACTATATCATTAATTATATATTTAGAAGCATTTATATACTTTCTAAATAGTAAACAGTATATACATTGAAAATATCTATTGATTGGTAAAGTGGATTTCTTATATATGTCAATAACCATATCTTCAGTTATTTTTCTTGGATTAGTAACTATAATCTTGTTTACTCTGTAAATTCCTTTTTCTTCATCCACATTAATTACCTCAGCATCATCAGGAATAATAACATCGTAAATAGTATCTCCTCTAAAAATATATCTTAAAATTTTATCTTCGGTTGAAAAATTAAATCCCCCCATTTTCTCGGGCTCTTTTTCTTTTGGATTCCAAGTTTTAGCAGTAATAGTTTCATCAAGTTTAAACTCTTCTCCACTAGCATTTGATTTCAATCCATCCATTACTCTAACATATTTATTCATATTCTACTTCCTTTCTAAAACTGTGATGGATTCTAAATGCCCTGTCCTGGGGCGAAGAACATATGCCCTAGGCTTGTACTAGGGCAACTTAATATGTTTCCCAGAACCATTATCTTTCTAATCAAATAATCTATGCTGCATTGCATCAGGTTGATCTAAATACATTTTATATAGTTTATATATATCAGTATCTTTATATTTTATTTCTTCAAAGTTATTATCTAAATTTAAAATTTTACCTTTATTATAACTTATTAGAATTGGAGAATGAGTAGCTATAATGAACTGACTTCCATTCCTTACAAGATCATCTATAAGACATAGTAATGAAAGTTGTCTTTGCGGAGACAAAGCAGCTTCGGGTTCATCCAAAATATATAAACCATTTTCTGTAAATCTATTTTGTACTAGTTTTAGAAATGATTCTCCATGTGAGCATTCGTGTAAACTCCCACCATAGGAACTCCATACTCCAATATTATCTACTTCAGTAGAAAAATTATAAAAACTTTCTGCTCTTAAAAAGAATTTTGTTTTTGGTCTATTAAAAGTCCCAACTCTTAAATATTCAGATAAAACTGATGTAGTATTATTTGTCTCATAAGTAAAATTATCTGTACCACCTTCTGCTGGTAATCCTAACGCAACAGCAATTGCTTCTATAAATGTAGATTTACCAATTCCATTTTCTCCTACAAAAAAAGTTACTGGTGATTTAAATTTTAACTCATGAAAATTTTTCACAACTTCTATATTAAATGGATATTGATCAAACGATTCAATTCTATCTCTTTCTAATGAAATTACTTTAACCATTAAATTACTATCTAATCCCATAATAATTACCTCTTTTCTAAAACCGCGATGGATTCGCAATGGCTAGACCGCGGGTTTTTGACATCTCACTTTTTGTATGTTCATGGGTCTTTGCATTCCTAAAACCAATAGTTTATCAACCTTGTCTATTGGTTTTTGACATGCCATTATTTCTTTTTAATAATCCATACCCATTTTTCTTTTAAAGATAGTTTTTTAAACTCATAACCATAATCTGGTAATTCTTTTTTATAAGTTAAGAATGCATGGTCAAAATCAAAGCCAGTTATTCTTTTTACTTCTTCAAATGATAATTTATACTCTTCTTTATTATTTTCTTTTACATATCTCCATAATGGTTCATACTTACTCATATATTATCTCCTTTCAAGTACCGTGATACTTTCACAATGCCCTGTCCTGGGGCGAAGAACATATCGTTTAACCTAGTTCTAGGTCAATAGAATATGTTTCCCAGTACAAGTTTTAACAATTACATTTTTATTTTCCAAAAGAACATAGTGAATTTCCTTTTTCAGAAACATAACA
>sequence04
AGCTTTATCAATTACTTCATCAGTGTATTCTTTCTTCTCTAAATAATCATGACATTCTTTAACCGTTTTAGCTCGTCTTCTTAAACTGTTCAAAAGCATGTAATAGGCTTCATATTCTTTATTAGCTTCTTGTACTTCAATAATAGTAGCAGCATCAATATCTTTCTTAAATAAAAGGTCATATTTTAAAATAACATCCTCATACACCTTCATTTCTTTACCATTACTGAGTACTAATTTATATAATCCGCCCTTCATCTTCTTATACTTTATTACATTCATATGTATCACCAATTATATTATACTAAAAAAAAGAAAAAGTTCTAAGCACTTTTTCTGACAGTTACAAGCCCATCACATATTTCTTCTAAAGCTCTACCAATACTCTTTTTACATTTATACTCTGATTCTTTCTTTTGATGGTGCATGTTCTTTGTCATTTCCTTGCTTCTTCTAGCGGCCACAAGAACTAATTCATATTTAGAATCAACTATGTTTAAAAGTTTATCGATTGACGGATAGATCACTATTATCACACTCCCTATTATAAGCATAATAGGATTTTACACACAAAGCAAGCGATTTGACAAAATTAGACATTTATATTTTACATACATTGATTGTTTTGAAAATCACAGCAAGAACCACATTCTACATTACATACCTCGTTTTCCTCGCAACAAGAGTATTCCGGTCTATAAGTATGTTTATAAATATGATGATTAATTATTCTTGTTCTAATAGGACATACATGAGGCACTTCATGAACAAAAGTCCTATGAACTACTCGTTCTTGGATAGGTTCCATAGAAGCACTAGGGCCAAAACCATTAGGCATTTCAGCATCATAATTGTTAGTCATATTAACATCAACTTCATTATAGGTAAAGTTATCATTACCACTGACATTAGAATTAAAGTCAACATTAGACATATTATTAAATTCAGTATTTTCAAACATATTTTATCCTCCTCTAAAATATCATATGCAGGAAGAGGAGGATATGTTAGAAAAAAACCTTACACTTGTAAGGTTTTTAATTAACTAATTTCTGCTTTATAAGCAGTAGGCGCTACCTGGATAATAGTATTACCATCGTTAAATTTAACTTTTTTACCATCAGCATAAGTATAAACTGATTTAGACTTTCTACTTTCCTTAGACCAATTAATTGGTAAAGCATAACCATTAGTAATATAGTATCCTCCACCATTACCTACTGTTTCTAAGTCTTGATGACCATCAGCATCCATTGTTGAATTAGATACAAAGATAATTAAGATATTTTTATAAGATAATGTCTTTTTACTTTCTCTATCAACATGCTCAGCGTTATTCATAGAACGTAGATATCTTTTACTTTCTTTATCATATGTATAACTTCTAGTTTGAGTAGGTGAATAGCGAACACTTACACTATTAGCTTCTAATAGTTCTGGATCATATTTCTTTTCAGTCTTCATCTTACCGGTTTCTGGATCTTTTACTTTCTCAGTACTTATTGGTGTATGAAGATCAACTACATCAGTAGTATAGTTTAACAATTTCCAATCATCAGTTTCCTTATCATAGCCCTTCTTTTCAGCAGTATCATAAAGTTTATCAATTGAAGTAAAGACATTATGAGGAGCAGCGATTGATTTATCACGCCAATATGGAGCACTGTCATAAAGACCATTAATATTATTAACACCTAAAGATTTAATATCGTTTTCAGCAAATTTACTCCAACCAAAGTGAGCATAAATAGCATCAGATTCAAAAGCATAATCTAAGTAATAGTGACGTGAACTTCTAACTGGTCCAATTAAATCAACATCTCTATCTTTGAAGACAGCCATTATTCTAGTTAGACCACCTTCAACAATACATTCATAAGTAATATATGCTTTATCCAATCCAGCATGAGCATTATTACCAACATTATTATCAATCATAATCGCAATTGGTCTTTTATTACTATCCTCATCGACTATCTGTAGTTTCTTCTCTTCTACTTTTTTCTTCTTTTTAATTATTGGAGCATCATCCTTACCATTAAATAAGAAGAAATATGCTAGAGCACCTAAGATCAATACTAGTAAAATACTAACTATTATTATAATCTTCTTCTTTTTACCCTTTTTATTCCTAGCTACACCATTATCATAGTAGCTTTCAAAATTATCATTGTCATTCATCATTTACCACCTCTATTATAAAGATAACATATTTTGACAAAAAAAGATATATTTTTAGTACTTTTCTAATCACAGATTATAGTCACTTTATTGTATTTTCAACTATTTTATGGTATCATTAACTTGTCCTAGATAACATATTATCTAGAGAAGGAGGGAAGTTTTTTGAAAAAATATGTTGCTGAATTTATTGGTACCCTAGTATTAGTGGTATTTGGTTGCGGAAGTGCTGTAGGTGTTAATTCATTGCTTACTTCATCAGGAGCTACTATTCCATTAGCGATCTCAACATTAACTATTGCGATAGCTTTTGGTCTAGTAATTGTAGCTATGGCATACTCTATTGGTAGAGTATCTGGTTGTCATATCAATCCAGCTGTTTCGCTTGGTGTTTGGATGAACAACAAAATGACAACCAAAGACTTTGTTGGTTACGTTATTGCCCAAGTGATTGGAGGTCTTGCTGGAGCTGGTATTCTAGCTTACCTATTCAATTCAACTAAATCACTAGGAGCTAATGGTTATGGTGAATTAAGTGCCTTAGGATGTAGTATGGGAGTAGCAATTGTTATAGAAGTAATTCTAACGTTTGTCTTTGTCCTAACTGTTCTAAGTGTAACTGAAAAAGCAGAAAATTCTAGAATAGCTGGTTTAGTAATTGGATTTACTCTTACACTAGTTCATATTCTAGGAATACCATTCACTGGTACTTCAGTAAACCCTGCAAGAAGTTTAGGACCAGCCTTAATTTCTGGTGGAGAAGCTCTATCACAAGTATGGGTATTTATTCTAGCTCCTCTTGTAGGTGCCGCAATAGCAGCTATCGTATATAAATTATTAATTGACGAAAACAAAACGCCTAGAAAAAAAGCAAGTTCTAAATAAAAGTACAAATATTGTACTTTTTTATTTGGTTAGGATTAATTAAATCCTTGTTTATCCGTAAAATCAATGTAAACTCCTTCCTTTTTTCACCTTTTGCTGTTGTTTACAATATATTCTAACTCTATAATTAAATTAAACAAGAGGTGTTGCCTTAATATGAAAAAGTTTTTTATTATCTTTTCTTTCGCTATATTATTTGTGCCATATACTGTGTTTGGTGAAAACGAAGCGATTACTGGTACACCGGGTTCACCATCAGAAAACGAAACATCACAAAATACAAGCGCATCCATCAAATATCAAACCCACATTCAAAATATTGGTTGGCAAAAATACGTTGATAATGGTTCAACTGCTGGTACTACGGGTAAAGCATTGCGAATGGAAGCACTTAAAATCAAACTTGATACTAATCTACAAGGTAATATTGAATACCGCACTCACATTCAAAATATTGGTTGGCAAAACTATGTTAAAGAAGGAGCAACTGCTGGTACTACGGGTAAAGCACTACGAGTTGAAGCCTTAAAAATACGATTAGTTGGGGAAATAGAACAGTACTATGATATCTACTATCGTGTTCACATTGAAGATTTAGGTTGGTTGCCTTGGGCTAAAAACGATATGCCCGCTGGTAGTGAAGGTATCAGTAAAAGGGTTGAAGCCGTTGAAATTAAATTAGCTTCTAAAAACGATAACACTATTATAGTAGATAATGGTAGTTTTATTAAGAAATATGAAACTTTAAAGTATCAAACACATGTCCAAAATATTGGTTGGCAAAACTATGTTAAAGAAGGAGCAACTGCTGGTACTACAGGTAAAGCACTACGAGTTGAAGCCTTTAATATTGATTTAAGCTCTTCACTAGAAGGAAATGTTACATATCAATCCTTTATAGAGAGAGGTAGCTGGGAAAGCCAACCTACAACCAACGGCAGTATTTCTGGAACTACTGGTAAATCTAAAGCCATACAACTAATAAAGCTTAATTTAACTGGTGAACTAGCAAATACATACGATATCTATTATCGAGTGCACTCATCCACTTATGGCTGGCTAGGTTGGGCCAAGAATGGTGAAATTGCAGGAGTTAACCACTATTCCATTGAAGCAATACAAATAAAACTGTATTTCAAGTTTGACCAAAATAAGAATCGACTTAAAACTAAAAACCACTACATAGAACAAGTAAATTACAAACCTGCTTACTATAGTCAAAGGGATAGTCGGTGGAAAAACAAAGCTTATGGAAGATATACTATGGGCCCCACTGGATGTGGCCCTACAGCTATGGCGATGGCCCTAAGCGGAATATTAAACAAGAGTATTCTACCTACCAATGTAGCTGATTACCTTTGGAAATACACAAATGATTTTAACAAAAGACTTGCAGGTACCAGTGGTGGTGGAATAATTCATGTTGCCAATCGCTATGATGTTAAAAGAACTGCTCTTAAAAACAAAACTGAATTAATAAATGCTTTAAAGGAAGGAAAAATCATCTATGCCGCTATGGGAAAAGGTAAGTTTGTAAAAAACAGTGGAACACATGCAATAGTTTTGTTCGGATATAACTCCAATAATACAACAAATGCTTACGATCCATACGATCAAAAAAAGAATGGAGCTGTAAGTATTAATCTCATATGGAACGAAAAAAGTAAAGACCCTGATGATTATAGCGAAGGTACTGTTTTCCATAGCTTAGAAAGATATTAAGATTAAAAGTACAAATGTTGTACTTTTTTTATTTATATGCTATAATTACAGCCATAGGGGATTAGTTAAATGGTATAATAATGGTCTCCAAAACCACTGTTGGGAGTTCGATTCTCTCATCCCCTGCCATTTGAATTTAAGCAGCGTTAAGCTGCTTTTTCGTTGACTTTTTTAGGGTAGAGAATTAATATATAGGTATAGAAAGGAAACAATATATGAATAAAAACAAAATAATAAAAATTTCTGCTGAGATAGCAAATGAACTTGGTACACCACTATATACTGATGGTCATTTTGGGCATAATCATTATGCCAACTTGTATGAAGATGATGAGTTTAGTATCATTTACTATTTAAGTACTAATAGTATTTATGTTTCTAAAAATGGGAGGCATCTATTAAGCTATAACTTTAATACTGAAAACTACTATGCTGAAAATGGACATTGGCCACAACTATTGAAACTAATTCATCTGCAAATCCCTCTTGTCAAAAAAATAAGGGAAATGGATAAGGTAATTAAGGAAGAAAAAACAGAACAGCTTAAAGCGCTACAACCCTTCTTAGATACATATGTCAATTCCAAGGAAGATGAAAATGCTCGCTTAATTATGGATACTTTTTTAGAAAAGAAAGGCTTTTCTATTGATGAGAAGGAAGAAAATAATGAAAATTACTATAAATCTGATACTGATTATTACTACAATATCTTCTATGATGATGAGAAAGTACTAGAATATAAAAGTGGTAGTTCTGACTTAGATCCTTTTGTTGATAAATATGTTCCTGGAGAATGGACTATTTCCTTTGCAGAATGTATTGAAGACGCCACAGAACTCAATGAATTAATGACTAACAAAATAGTCAATGACGAAGTTCAAAAAATCATTAAAAAACCAAAACACTAACAATAGTTAGTGTTTTTTATTCCTTAGAAAGTTCAACAGTTCTTTTCCAAGTAAGTGGTCCTACTAAACCATTTTCTTCTAAACCAAAATCTTTTTGTAACTTTTTAACTGAACGTTCAGTTAGATCATCAAACTCTCCAGTTACTTTAACTCCTGGGATTGATTTCTTCTTAATGCATATCTTATATAGAAAATTCTGGTATCTTTTAACATCATCATTATTCATTCCTTTACCTAAAAAATAATCTGGATATAACTCTTCTACATATAAAGCATATTCACTAGGATAAGCTTTTAAAATCTTGTCATAAATATCAATTAAAGCTTTCCAATCAGTATAAGTAACTATACCTGTTACTGGTAGATTATACTTTCTTTGAAAGGCCATAACCATTTCTTTAGTACTATCATTAAAAACTGAATTTGTCTTTAAATAAGGAATATCTGGATCTAAAAAAGCAATAGCATCTAAATAATAGTGCAGAAACTCAATTTCTATTCCAGTATCGCCATATTTTAATTCATCTTTATACTCAAAAGTTGCTTCTTCTTTACTCAATCCTTCAGAATACAAATCAGATAGTTTTTTAACACTAGTATAAATGTACTTTATCTTATACCAAGTTCCTTTATCAACGTTACCAGTTATAGGTAAAGCAAAAATTTCTTGGAACTTTTTAACTGCAGCTTCGGTTTCTTTTTCATAAATTCCTTGAGATTCAGTTATTTCTGGTATAGCCGGATAATTTATTCGTATCCTATTTAAATCTCTCTGAATAGCCCTTACGGGGTTCCCAACACTCCCTAGTTTCACTGTATAACCAGGAAATCCTATAGTATTATCCCCTACTTTAGCATCATACTTTATTAAAGCATCATTACCATAATAGTATTTTATTATTTGAGATGGACTCTTACCTTGATTGGCAAGAGTTACTGTTCCCCATTGAGATAATCCATTACAAGTAGTTTTTCTGCCATCACAGTACTTAGTAAATAGAGGTTGTACTTGTCCTTCTTTAAAGACATAATCATTAAATATATCATCAACTAAATTACCAATATTCTCATATATTTGACGATTATAAATAAAAGTTTGATCATAGGCTGGAGAATTAGTAATATCAAAGTTATAACCTTTAGAGCGATACCATTCATTATATATTCTATTTAAGGCAAAAGAGACAATTACTAAAATATTAGCTCTTAAAGAAGCCTCGGGCCAAGTAGGATATATTTCACTAGAGGCAACATTTTTAATATATTCAGGGAAAGGTACACTGACATCTTTAGCAGCCTCACTTGGCTTTCCCAAGTGGACGATGATGTTATTTGGTACTACTGGATATCTAACTGCCATTGTTCCCCTCCATATTTACTTTTGGTGTAATATTAATATATTGAACTATAGTTATAGAACAACATAGTGATATTTCATAGTTTTGATCATAAGAATCATCGGGATAAACTGCCCTTAGATTATAAGTAGAAAAATTAGGAACTTCTAAATTGTTAGCAATTCTCTTAGGTGTTGGTAATTTAATTCCATTAATCATACCACTAGCATCAGTCTTTCCGTCATAAAAAACTATGGTATTATCCCCTATTTTCTTACTAACAATAACTTCAACACCCTCAATCGGCATAGCTTCACTAGCCGATGAAGCCCTGACTTTTAAATAACCAGTACCTGGATTATCTTCTAAATACTTTTGAAAAGAAATATCACTTTCCAACTTTTCATCGTTAATATCGATAATCATATAAACCCCCCTATATTTTTAATTTTTGACCAATAGATAAATTATTACTAGTAAGATTATTCTTACTTTTAATAGTATTTACTGAAGTATTATACTTTTTAGCTATACTCCATAAACTATCACCCTTTTTAACCGTATAAATAATGGAATCATCTACTTTCGTATCTTCTCCAAAGCACTCTAGAATAGTAGTAGTTCCTGTTCTTATTTTAAGTACTTGTCCAACTGAAAGATTAGGACTATTTAAATTATTATCTTTTAATAAAATATCAACACTAAGATTATACTTTTTAGCTATACTATACAAAGTATCACCTTTTTTAACAGTATAACTTTCATAACTAGGCGGTACTGTTACTTCTTCTCCTGTCTCCGGTATTTGTAGTTTTTGACCAATAGATAGATTAATGCTGGTTAAATGATTAAGTTTCATTATTTCATCAACAGTTGTTTCGTATCTTCTAGCAATATTATATAAACTATCACCCTTCACAACAGTATAAGTAAATAAGCCCCCTGGATTAGTCCCACTATTACTAGGTATTTTCAATACTTGTCCCGGCAGAATATTAGTCGTAGTTAAATTATTATAATTATATAGATCAATAGCAGAAATACCAAACTGATTACTAATACCATACAAAGTATCACCACTTTTAACTGTATATGTCATTTTTCACCTCTAATTAATGATATGCATTATATCAAAATTAAAGACAAGAAAAAAAGCACTTATGTGCTTATATTATTCCTGTTATTTTGTCCCCTTCAACATCAATATTCTCATAATTGGAGTGGCGAGCTAAACCAGGCATTTTAATTATACTTCCTGAAAGTACTGTTAAGAATCCAGCACCATTATAAAGTTCTACACCCTTAATAGTCAAAGTTGTATCTTTAGGATAACCTAACTTCTTTGGATCATCTGATATAGAATACTGAGTTTTAGCAATACAGACAGGATAGTTTCTTACTTCAGTTTTATCCAATTTTTCTATTTCAGCATTAGCTTCATCAGTATATACTACTTCTTTAGCATGATATATTTCTTTCGCAATAGCGCTTATCTTATCTTTAAGGGATAGATCATCTTCATAAAGAAGTTTAAAGTCATTTTCTTTTTCAGTTAAATTAACTACTTTTTCCGCAAGAGAAATAGAACCATCACTACCATCTAAGAAACCAGTTGAAGTAGTAAATTCTATTTCTTTTTCTTTAACAAAATTTTCAACAAAAGAAACTTCTTCATCAGTGTCATCATCAAACCTATTTAAGCATACTACTAAGTTCTTAGTATATTTTGATATGTTATCAATATGTGCCTCTAGATTAACAATTCCTTTTTTCAAGTCTTCTTCGCCATTATATTTAAGAGCTCTAATAGTTGTGACTAAGACAACAGCATCAGGTTTATAATCATTTAAACGGCATTTAATATCGAAGAACTTTTCGGCTCCTAAATCAGCACCAAACCCTGCTTCAGTTACTACATAATCACCTAAAGATAGAGCTAAATTAGTAGCAATAACACTATTACAACCATGAGCTATATTAGCAAAAGGTCCTCCATGAATTAAAGTTGGTGTTTCTTCTAAAGTTTGAACTAAATTAGGTTTAATAGCATCTTTCAATAAAGCAGCCATTGAACCAACTACTCCTAAATCTTTGGCATAGATAAATTCATCATCCTCATTATAACCAATGACAATATTACCTAGTTTTTCTTTTAAATCATCCATATCTTTAGCTAAGCAGAAAAGGGCCATTATTTCACTAGCAGCGGTTATATTAAAGCCTTCTCTAAGAGCACGATCATTAACATCTAGACATCTCTTGAAGATGACTTTCTTAATCTTTAATTCATTACCAAAGTAAATATGATTATCAATAGCGGCACATAACAAATCATTAGCACTAGTAATAGCATGAAAATCTCCAGTAAAATGAAGATTAATTTCATCTTCTGGTTCTACTTTAGCTTTACCACCACCAGTAGCTCCTCCTTTAATCCCAAAAACAGGTCCCATAGAGGGCTCTCTAAGTGCCAAAACAGTATTTTTACCTATTTTGTTTAAAGCATCAGCTAAAGAAATACTAATAGTAGTCTTTCCTTCTCCATATTTAGTTGGATTAGTGGCCGTTACTAAAATTAATTTAGCTTTTCTATTACTAGGTTTATCCTTTATTTTAGCTTTATTATCACCATATAATTCTAATTCTTTTACCCCTAATTTATCAGCTATTTCCGTAATTTTCTTCATACTATCCACCTCGTTCTTACATTATACCATATTTTCTTTAATAAAACTTTAGAAGTTGTTTTTTGAATGCTCTTTTTTAATCCTTTTGTAGTTTTCCTCTATCTTTTAATAAAAAACCAAGCCTTCCTTCATTAAATTAAACAAAAGTGCCATTTGCTAGATACTTTTTTTAGTGTTAGCCTATTCCGCGTTAAGAGAAAGGAGGAAAACTATGCATTCAAAAATAATCTTGGCATTGGCACTAATAATAGGCTTTAATTTTCTAAATATCTTAACAGTTAAAGCTGATAGTGCCCAGTTTTATGAAGCTGAATATGTTGATGGTGTCTATATTAGATATAAAGGAGGCGATACCACATACTACCAAAAGGCTCGTTTCTTCAGAAGAAGAAGCGATAATATGCATGCTTACTGTTTAGAGCCTTTTGTCAAAATAAATGAAGCTGTCACATATGAAGGTCAAATAAACCCTAGTACTATTAGTAGTGCTAAATGGAAAAGAATCACCCAGATTGCTCATTTCGGCTATAATTATAAGGCCCATACTACTCCTAAATGGTATGCAGTAACACAATATATGATTTGGAAAGAATTGGAACCAAGTGCTAACTTTGAATTTACTGACACTTTAAATGGGAATACTATTAAACCTTATCTTGGTGAAATAAACGAAATTAATAATTATATTAAGGCATATTATACCAAGCCTAGTTTTAATGGATCTTCTATTGATATAGTCGAAGGAGAAAAAGTAGAACTTACCGATACCAATGGTGTTTTAAAGGACTATAAAACTAATACTAAGAGTGCTACTATTTCTGGTAACAAACTAACAATTTCTGATCTTAAAGAAGGTAAATATACAATCTCTCTAACCCGTAATGATACTACTTCAAATAATCCGCCATTATTCTACTATAATGCCTCAAGTCAGAAATTGATGACTGCTGGTTATGAAGAAACCATTACTAGTAATTTAACGATTAATGTTATTAAAACTAATCTTACTATTAATAAAATAGACCATGACACTAAAAATACTACTCCTAGTGGTGAAGGCATTCTAAAAGGAACCACCTATGAACTATATGATAGTGAAATGAACTTAATAGATACCTTAGAAATAGATGAAAATTGTACTATTAGCTACGATAACTTAGTCTTTGGTAAATACTATCTAAAAGAAAAAGAAGCTGGAACTGGCTATAAACTAGACCCCAATACATATGATTTCACTATTGATAAGGAGAATAACAATATTACTCTAACCCTAGAAAATGAAATTATTAAGAAAAAAGTAACTATTAATAAAAAGTATGGCTCTACTAATAATTTTAAATCTGAGGGTAAAGCTACTTTTGCTATTTATGATAGTAATAATAAACTAATTAGAACTATCACTACAGATGAAGAAGGTAAAGCTGAATTAATATTATCATATGGTACCTATACCTTTAAACAAACATCTACTAAAGATGGTTATCATAAAGTTAAAGATTTTAAAGTAGTAATAAGTGATAAAGATACCGACAAACTAGAATTTGATCTTTTTGACTATGAGATACAAGTACCAGATACTGAATCTACTAATAATTATTTCTTACATTTAATTCTTTTGCTGTTTTTATTGATGTTGATAGCAAATCTCTATGTGGAAAAACTTAATTAATATCTTTCTTATTATCTTCGTCTATAGTATTTGCTGTATATTTATCTATAATGCGAACCAAGATCATTCTACTGTAATTACAAAAAAGAACAAGCTAAAAACCGCCTATGCTACTAGTGATGTTCTAGCGACCATTAAAATAGATAAAATAGGTATTGATCATCCAATATATCCCTTATCTAATCCCAAAAATAACGTTGACCAAAATATATCTATTTTAAAAGGATCAATTCTCCCTGATAAAGATAATAGTATAATATTTATTGCTGCACACTCAGGAGTAGGTAAAATAGCTTATTTTAACAATCTAGATAAGCTTAATAAAGGTGATAAAGTTAGTTTTTTCTATAAAAACAAAGAATATAAATACATAGTTTCTACTATATACGAAGAGAAAAAAGATGGCTATATCCATGTCAGCAAAGGAAAGGATAAACAACTGGTATTAACTACTTGTAGTAAAAACAAAGGTAAACAATTAGTAGTTAATTGTATATTAACTTAAAAAATGTAACATATTGTTACATTTTTATTTTAGTATTTCTAAAGCTTTTTGTAATTGATTATCTTTTTCCATAGTAGGATCTTTATAATAATCTTTATCTAATTCTATAGATACATCTGGAGTGATTCCTTCTTTATTGATAGATTTTCCTTTAGGAGTTAACCATTCTTCATAAGTATATTTAACTATTGCTCCTGAAGCTAATGAATAAGCTTTTTGAACAGTTCCTTTTCCATATGTTTTTGTACCCACTATTTTAGCATTAGCACTTTCCTTTAATCCAGCAGCTAGTATCTCTGAAGCTGAAGCACTATCCCCATTTACTAATACAACTATTTTGTAGTCTTTAGCTTTCTTATTATTAGAAAATGCTTTATTTTTCTTACCCTTAGCTTTTATTTGGTAAATCACATCTCCCTTAGGGATAAAAGTAGAAAGTATTTTAGAAACTTGATCTAGATGTCCTCCTGGATTGTTTCTTACATCAATAACTAAATCAGTTATTCCTTTTTTTTCTAAATTGCCTAATTCTTTTTTAAATTGTTCATAGGTATTAGCCGCAAAAATAGATAGATCTAAATACCCTATTTTCTTTCCATCTTTATCAATAGTTTCACTACCTGCTGAAGGAATATCTATTTTGGTTTTTTCAACAATAATTTCCTTCTCTTCACCATCCCGTTTTACTTTTATAGATGTCTTTACTTTAGTATCGCTTTTTATTAGATTTATTACTTCTGTAGTATCCATTTTTTCTGTAATTACTGTATCATCTATTCTAAGGAGTTCATCTCCAGGCTTTAATCCTGCTTCATCAGCAGGTGATTTCTTAATAACCCCTACAATAACAATCTTTTTATCTACTTTACCAACAACAGCACCAATACCATAGTATTCACCATTAACACGTTGATTAAACACTTTAGCCTTCTCGTTGTCTATATAAACAGTATATGGGTCATTTAAAGACTCAACCATCCCTTTAATAGCACCATTAGTAAGCTTCTCTTTATCAACTTTTTCATAATAATCATTAGTTAAGTTCTTATATGTACGAACAACTTCACCTAAATCACCATAGTCAAATTCAAGTTCTTTTACATCTCCACGATAGCTTATAACACTACCTAGAATAGCTCCAAAAGCTATAGAAACAATAATTATAATTATTACTTCTAAAGTAGAAAAACCAACCTTTTTCTCAACTATTACTTCCCGGATTTTTTCTTTTTCCATTTTTTCACCTCGTTTTTCTTATTAGCCTTAGTATTTAAGTAATTTAACACACAACCAAATACTAGAATAAATATACAAATCCATAAACTATATATTCGAATAAAAGAATATATATAACCAATAAAAGGTATATTAAGAATTACTTTTCCCAATACTTGGCTTTCAATTATTTCTCCACTATCAGCATAAACATTATTGTCACCTTTTGTAATTAAAGTATTATTTTTTTCATTAATGCCTATTATTCGATGAGTAACCACTATATCATCTCTTCTATAAGCAATTATATCCTGTTTTTTTAAATCTTCCAATTCTACCTTCTTAGTAACCACTAAATCCCCTACACTCATCTTTGGTTCCATCGAATTACTAGCAATTGTATACAAGTGTACTCTTAAAACAAAAGGAATAATAGCTACTATTAAACACAATCCAAGAAAGATGAAGAAAACTATATCAAATATTTTATTAGCTATTTTTAATTTCTTCATATATCATCTACCCTAAATATAATCATATCATTTTATACCTTTTAACTCAAATAAAAAGCACAATTTAATTGTGCTTACTTGACATTATTTTAGATATTCAGTTACTTCACTATCGCCTTCAACATATTCAACAATTTTACCCTTACTAAACTTAATTAAAGTTGTACCATTAATTTGTAATTCTTCTACACTTTCAGCATACTCGTTAGAAACATCTGACTTATGGGAAGCATTCATACCATTACCCATATCAACTTCATAAGTAGGTAAATGCTTATCCTTAGTTCGATAATTAACTATCGCTTCAGTTAAACTAGTATTAACTTTTTTATTATAGAATACTACCAAATACTCATTATCCTTTCGATTAAAAGAACTACCTAGTAAAATTTCTCTATTTTGAATCTCTGCACTACCTTTTTTCTCTACCTGTGGTGATGGACTTTTAGTAATCAAAAGCGATAACCCATAGAATAGAGCTAGTATAATAAGTATTACTACTAGCATTTTAACTGCCTTTTTCATGTCGAATTTTTCATTAACATCTTTCTTACTCATAAAACCACCCAATTAAATTATATCACAAAAAAACTTTGTTTTAAACAAAGTTTATTTCATTGTTGGGATAACATTAATTGATTTGGCAATTTCTAATAGTTCTTCCTTACCCATAACATCACTTACTAAATAGTATTCCATTCCTGATGAATTCCAAGTTAAGGAGTTATCAGCCATAACTCCAATAGTATCAGCAAACATATAAGGTTCGCCATAAGTAGGAATAACTGTTAATTCATCTTCTACATTAGCAGTTTCTTCAACTAATAAAAATGGTTTGTCTCCCTCAAAAGTCATTAGAACTCTTTCACCATTAGTTTTATCGATTTTCTCTTCACTTACTAGTTTAGTATTTGCAGGTATTACTAGTGGATAGATAACGTCTTCTATTTTAGAAGTAGTCTTCGCTTTTTTAGTATTAAAAGCCTTTGGTAACTTAAAATAGCTGTCTTTAAAAGTAGGACTATAATCTATTCTTTTAAATGTCATCTGCATTAAAGGAACCTCGTTTTTATCAAAAACATCAATTTTTTTAATGTTTAAATGTTTATCTAAAAAGATATTCTGTTTAACTAACTTTTTATTGTTTGTGTAGTTAACTTTAGTCTGTAGGACATATTGCTTCTTTTCTTTAAATAACTTCTTTTTCTTATCCCCTTTAATATCGTCTAGAATAGCTTCTAATAAATATATTTGTGATGTATTATAAGGCCAATCACTTTGAAATTTAAAACTCTTATTCAGAGCTGGAGTAAGAACATAAACGCCATCATCATTTTTAAGAATAATTTGTTCGTGTTTGTTAGCTTTGTTTTTAAGAACTACTTTATATTTATCGTTTGTCTTATATGATACATCAACATCATAATTATAGACATCGTCATTATTAGTAATTTCTAAAACACCCGATAGACGATAAGCCTTTAAATTACCAATTTTCTTCTCCAAATCTCTAGTTATTTTACCAGGCGTATATTTCCCACACCCAGTTAAAGTAAATAATAGAAGGATGATAAATATCCCAAATAATTTTTTTCTCAATATATTCACCTCTTATTTTCTAATAAATTATATTAAAAATTCTTATCAATATGACAAAAATAGGCATTAAAAAAGGATGAATTTATTCATCCTTAATAAATGCCATGATCAATTTTTAATTTTTTAACTTTTCCTTTATCTTTACCAGCTTCATCCCAGAAGTCCTTTGGTCCATAAAGAATCTCTTCTGGTTCAAAGTATTGAACATTTCCTCTCTTATCAGAATAAGTCTTTATGAAGTATCCTCCAACAGCGTTCAATAAACCTTGTTTCTGTTGAAATTGGGTTTTTGAACATAGTGCTGGCACTTCAACACATTGAACATTTCGATAAACAAAGTGATAACTCTTATGATAGTGACCTATCAATAATACTTTAGGTTTATTATGAGATTCTAAAATTTCAATACGTTTTTGTGGTTTATAAGATAGTGATTGAGCTGAACCGCCTCCTGGATGATCCAAAACGTACTTCACTCTATCTAATTTAATTTCACCTGTATCTTGTCCTAAAAAATCCATATCTTTACGACACTTATTAATCCAAAAATCCACTGTCGCTTGACCATTCTTATAGTGGGTTTCATCATGACTTCCTAAAATATAATGAGTTGTCATCCCATCAATTTCTGGATACATATCAACAGCATATCCTACTTGTTCGTCAAAACCATGTAAGAACTGTTGACGAGGATTCTCTGGTCTATTAGGATAATTACCATCAGTTAAATCTCCAACATGAAGAACATCAGTAATTCCCCTGTTATAAGCTTCCTGATATAATTCATTTAGAAGATGAACTTGATTATGAATATTACCGAAATGAGTATCAGAAACAACTAAAATTTCTTTCTCGATTAAATCCTCAAGTCCCTTCTTATTATAGGAAGATTTCTTAACAACATTCTTTTTAAAGACCATATCTTTACCATTAGGAACAATATCTACTTTTTTACCACACATCTCCCAAATATAAAGCAATCCCTGTAATTCTTTATAACTGATATGGAACTTTTGCATATAAGCATCTATAGACATGTCATTACGGACATATTTATGTGACTTTAGTGCTGCTTCAATACTAGCACTATCAAATTGAGGTGCCATTTTTGATTTAGTATTAATGCTGACACTAGTTCCAGCAAAATCCTTTTTATTACTTACATAATATGGTGAATCCATTGCTGTTATGTGCGAAAGTAATCCCTTCTCATCGGTTTTAACCGTTACATACCATGCACCAATAGTATTAGCATATCTTTTTGATTTCATTTCATTGTCAGTAGCACAAACACTAGGTACGGCAATACAATTAACATCTCGGTACTCATACTTCTCCATTTGTAATAAACCACCATATAGTAATATATCTGGTTTGTCTTCACTACGATAGGCATCTACTGTCTGTTGAGTACGATAAGAAGCTGTATAAGTTTTAGTAAGCTTAGAGTTTATAACCTGCATCTTAACTCTATCAATACTAATATCACAAATATCTTCACCAAGATAAACCATATCATCCCTAGCATCAGAAATTCTCTTACCAATATTAATATTATTAGCTTGAATATGTTTATCATCTAATTTACCAGATATAAAATAAGTAGTTATTCCCTCATATCTAGGATAATTACTAACAATATAATCTACTTGAGCTTGTGAATCATCAATGAAATTAGATTCAATATCAATCATTGGCTTTAATCCGGCTGAAATATTACCACAAAGAATTACATTTTTAATTCCCATATCATTAGCTTTGCGATATATATCATTTAAAATAGCTAATTGTTGTGATTTAGAACCTAATCTAGTATCAGATATAGCTACGAACTTAAATTCATTGGAATCATCAGTTTCAAACGAATACTTACTGACACCAGTATCTACCATATCGCCTTGATTAAGTAAGTGAAATCCATCATCATATGGTTTAACAATTATGTTTTTTCCGTCACTTAATAAATCATGAACCAATCCTAAAACTTCGAAATCACTCAACCCTAAAGCTGCGGACACTTCAGAAATATTTTTTTCTTTTTTGATCGTCTCTAATAATTCCTCAACTAATTCTTCAGGATATTCTTCAAATTCATTTTCTTCTTCAATTAAATCATCGTTTTCAATCATACAGAACCCTCCTATCTTAAATGACTCTCTCTATTATTAAGTATAGCAAAATTTTACCTAAAAAAAAAGACCTATTTTTTGTCTTTTTAGATATTAAAAACGAAATAGGATAATACTATTTCGTTTTTGCTTCTATACTCTCACTAGGTCCAGGATTAGTATTAATCATTGCCTCTAGTTCTGCTTCTTGTTGTGTAATTTGTTTGTTATATTTCATCCTCTTTAGAAAATTTGCTTCCTTACGAAGAGCTTTTAACTGTCTAATTTCTTCCTCTTTTCGTTTGATTCCTAAGTTGTTTGTACCATTTATTAGGTCGTCTTTTTCCATTTCTAGATCTTTGATTTCTCCGTAAGCTTGTGCAGCCATACGACCACCTACTCCACCAGCTTTAGCCCACATTGAACCATGTTCCCGCAAATCATGTATTCTCTCATCAATTTCTGCTATTCTTTGATCCTTGTTATCCATAATTACATCTCCTCACTTAAATTATAGCATATTTTACAAAAAAGAAATAGTTTTCCTATTTCTCCTTTTCTTCAATAGCCGCAGTTGGTGTTGGATTCTCTTTAACCATCTCTTGTAATTCAATATTCTTTTGATTGATTTGCTTATTATAACTAAATTTCTTTAAAAGCGTAGCTTCGTTACGCATAATTTTTAATCTTTCAATTTCCCGTTCCTTTTGTGTTATACCCAAATTATTAGTACCGTTTATTATGTCATTCTTTTCCATTTCTAAGTCAGCAATCTCTCCAAGAGCTTTCATGGCCATACCACCACCACCGGCACGGGCCCACATTGATTGTTGCTCTCTAAGGTTTTGAATCCGCATGTCAATTGCCTGTATTCTCTCTTCACCAGCTTTATCCATGATTACATCTCCTTTTCTAAATTATAGCATGATTTCATAATTAGTTAGCCAAAAAAAAGAAATAGTGTGTAAACTATTTCTGTGTTATTCTGACCTTTATTCTCTTGGTCTTTGGTGTATATGTAAGTCTTAAGTCCTCACCTGAAACTTTTACATCTACTTCGTGTTCACCAATACCATAGTTCTTAAGATCAACATAAGCTTTAATTGTAGTAGAATCTAAATCATTTAGTAAATCTTTACTACCCTTAACTACTACTGTTGTCTTACTATCAGCTTCGGACAATGCTTGAACTTTATAACGACTATTCAAGTTCTCTGTCGCTATTGGAATATCCTTAAAGTCCTTAGTATCTGAATCAGCAACTTTAACATATACCTTAATTGTCGTTACACTAATATCAGTTATACCTGCTGGTTTCTCTAAAGTAACTGTAAAGGTCTTATCTTCCTCCAAGTTCTTAACATTAATCTTAACTGGTAGTTTTTCAATCTTATCAATAACTGCTTGTTCACCATATACTTTTACAGTATTAATATCAGCCGTTAAAGAACTAATTGATTTACCAAAGGCTAAATGTCCTTTTGGAATTATCTCAATTGGAATTTCTTTACTTGGTGATGTGATCTTAACCTTAGCATCAACTGTCTTTGGTACAATCTCAACATTTACTTTCTTACCTTTACTATCATACGCTACTAAAGGAACATCCTTAAAGTCCATTGTACCTGCTGTTGGATTAACAAAGTCATCTACATCAACTAATGCTTTTACTGTAGCAACTTTCTTAATCTTATATTTAGCACCCTTAATAATTACATTAGTCCGATCAAGGTCAATATCAGCTATATAAAGTTTACTATCTAAGTTATCTTTATGTAGGATATCAACATCCAAGGTTCTAGTCTCACTAACTTTTTCATATATAGTAACTGTTACTTCTGATGGCTCCAATTTATAATCAAGAGATGCTATTCTTTGAGAATACTTCAACGTTACTTTATGATTACCTGGCTTTAATCCAGTTAAATCAACTGTTACTCCTGTAGATGGAGACTGTTTAGCCAAGAAAATATGTCTTTTTTGACCTACCAAAGTAATATCAACTGTCTTTGGTAATCCTTCTACTACATATAGTTCTTCATTATAAGTCGCATGAACTGGTTGTTTATAAAGTACTTCCGCATATTGATCAATTAATACGTTAGACTCCCGATCAATTATCCAAAAAGCACTAACAGCCAAAATAAGGGAAATAACTATCAAAGTGGACTTCTTCCCAATAAAACGATCTAATCCCTTAGTATTTCTCTTAAGTAAGTGCCCAATACCTAAAAACAACTTCGTAATAGGTGTTATTAACCACTTATCAAAGAATGATCCTATATGAATTATTAATTTTCCTAAAAGTCTAAATAGTATCTTCATAAGTATCTTCCTCTTCTATTTCATCATCGAACTCAACATCTTGTTTTGGTTTAAGTTCATCAATTAACATAATTCTAACGTCATCAATTGATAAGTTATGATATAACTCTCCTTTGTGTGCGATTGATAAACGACCTGTTTCTTCAGAAACAACCAAGCATAAAGCATCAGTCTCTTCAGAAAGACCTAAAGCTGCACGATGTCTTGTTCCTAATCTACTACTGATTCTAGTACTTCCGCTAGTAGGGAAAACAGCTCCTGCACAGACAACTGTATCACCTTGGATTATAACTCCACCATCATGAAGTGGGTTTCCTTCATAAAAGATAGCAATCAATAAATCACTAGATATATCAGCGTATAATTTCTTTGCTTTATCAATATAATTTCCTAAACTAATATCTTTTTCAAGAACTATTAATGCCCCTATTTTATTCTTTCTTAAGTAATCTAAAGCATTAACTATTTCATATACTAAATGTTCTCTCTCATCAACTGATAGAATTTTATGCCTTCCTAAAAGTCGATTTCTTCCTAATTGTTCCAAAATATTTCTAATTTCTGGTTGGAAGATTATGATTAAAACAAGTGGTCCCCAAGAAACTACATAATTAAGTAAGACACCTAAAGTAGTGAAACCTAAAAGATCACTTATTATTTTTAAAACCACAATAAAAGCAATTCCCTTAAATAATAAAGTTAATTTAACATTGTTGCGAATATTCTTTAAAATAAAGTAAAAAATTAACCAAACAAGAGAAATGTCTATAATCTTTTTAATAATTGTTATAATATCTGTAACTGTTAACATTTTCGCTCTCCTTTATATAAATAGTATATCTAAAATTAGATGATTAGTAAAGCTACTTAATCATCGGAATTGGATTAGAAACTTCCTCTACATTATTAGGAGCCAAAGGTTCCTCAATTGGTAATGGATTACTTTGAATTTTTTCACCAATAGGGATTGGAGCTTGAACTTTAGGAGTAGTTGGTTCTTCTTTTTCTGGCTCTGGTTTTTCATAAGCAGCTGTATCAACCTTTTCCTCTACTTCCATTGGTTTTACTTCATCCTTAAAAACAACCGTTGATTGCTTAATTTCTGGCTCTGGTGGAGCTACTGCTCCAGCTACTTCTCTATCGTTAGCTCTCTGAGGTGTGTTTTGGCCTTGAGCTGTATGAGACATTGGTCTAAATCTATCTCTATAATCAAGACCATCAGGAGTTTGTGGAGCCTGAGCAAATTGACTATCATGAGCTATTTTCTTTTGCTTTTTATCAATTAAATAGCCAAAACAAGCGCATATTAAAATACTACTAATAACCGTTGTTATAGTATATAAAGATCCGCTTAAAACATCTCGAAAGAAAACTATTATAGCACTCATCTAGCCACCTCTATCCTTATATATATAATAACATCTAAATTGAATTATGACAACCTAAAAAAAGCATTTATTTCAAATGCTTTTCTTTTCTTATGGTGCCGACTAGTAGACTTGAACTACTAACCTATGCGTTACGAGGGCATTGCTCTACCAGTTGAGCTAAGTCGGCATAAAAGTATTATTTATAATACTTTTGTAATTTTTGTTTAACTTTTTGTTTATCTGTTCCTTTATCATTATACCCTATTTTTTTATTAATATCAAAATAAATATTAAAATCTTCGGCTTTTTCACTATCTTTAACAATCACATCTAGTTTATCTCCTATCATATAGCGATCAGAACTAGTAAATAGCTTTTGATCCTTCTCATTAAATACATAGTGGCTATCTAAATCTTCATACTTTATTCTTCCCTCAATTAAGTTTTCTAATTCAACATTCATATAACCATATTCTAAAGAAGTAATAATTCCTTTATACTCATCACCAACATGTCTTCTCATATAGTAACAAGCCTGTCGTTTTGCAGCTATACGCTCTAGTTCAGCAGCTTTTTGCTCCGCTTTAGAAAACCTTTCTGCTAAAGAAGGTAATTCTAAAGCCCATTTTTTTCGATTCTCAACGCTGTTTCTCTTCGATAAAACTAATTCTCTAATCTGACGATGTAATATATAATCAGGTCCCCTTCTAATTGGCGAAGTAAAATGCACATAATCAGATTTTCCTAAAGCAAAATGTCCTAAATCATCAACTGAATAACAAGCTCTTTTTAGACTTCTAACAAACTCTGTTAAAACAATATCTTTAAGATCACCTTTTGCATTAACCCTCTCAACTAATTCTTGAAAATATTCAGGTTCCATTATAAAAGGTTGGTTATAGCTAATACCAAAATTCTTCAAATAATTGACATAATTACGGATTTTATCACCGTTAGGAGCTTCATGAATACGATTTATAACAGTTATATTTTTACTTTTCATGTACCTAGCAACTTGTTCATTAGCGGTTACCATTAAAAATTCTATCATATCTTCAGCAGCTTTTTGTCTTTTTACTTTATACTCTATTTTGCCATTCTCTTTATAAAATGATGGTTCAGCCATATCAATATTAATCATACCTTCCTTAAGGCATCTTTTCTTAAGAATAAGTGCAAGCTTATATAAACTTCTTAACTCTCTAACAAAGTCTTCATAACCATCAGGAACTTCATGCCCTTCTAAAACACTATTGACATCATCATAATTCATCTTTTTACGAGACTTAATAACTGCTTCATTAATACTAAAGTTTAGCACCTTTCCTTCTTTATCTATTTCCATTAAACTAGATAAACATAATCGTTCAACATCAGGATTTAAAGAACAAATACCATTAGAAATCTTAGGTGGTAACATTGGAATTACTTGATTAAAAGCATAAACGCTAGTCCCCCTTAAGATGGCTTCTTGATCCAAATAAGATCCTTCCTCAATATAATATGTCGGATTAGCAATATGAACACCCAATAAGAAATTACCGTTATCTAACTCCCTAATAGAAACAGCATCATCCATATCCTTAGTATCTTTACCGTCAATCGTAAAAGCCTTTAAATCAGTTAGATCTAAAACTTTCTCTTTATCGCTACTACTCACTTGATTAGGAATAAACTCTAATTCTTCTAATGCTTCATCACTAAAGAAAGGTTCAATTCCCAAATTATAAGCTAATTCTATAAACTCTTTTTCAGCACTATTCCTACTACCAATTACCCTTTTTACTTTGCCTAAGAATAGACCTTCGTTAAGTTTATCTTCAAGCGATACGATTACTTTTGAACCAACTATTTCTTCCTCATCTAAAAGAACCTTGAAACTTTGTTTTCTCTTATCATTGGACTTAATAAAGTATTCGCCATTTTCAAGGAAAACCTCTCCCAAAACAGTCTTTACTTTTCTGCTGATTATTTCTTTAATTCGATAATTATCTTTATCTATTGGCTCAATTAATACTTCATCACCATCAATAGCTTCTTTACTGTTACTATTCTTAATAATATATGATTCTTTAGAAGTATTTAATTTGTCTTCATCATCAATATAAGAAGTAATTACTGTTACCTTTCCTCCACCCTGTTTATAACCATCAAAAGTACCCTTTTTATATTTAGTTCTACTAATTGGTATATATTTATCCTTATCAACTATTAAATTATAACTTTTTACTTCTTTTTCTAATATTTGATCAATTAAAGATTTATCTTCATCACTTGTAATTTCACACACTTCATAAAGCTCTTCACGAGAAAGAGCTTTTTTAATACCATATATTCGTTCTAAAACCGTATCTACTGTCATCTTGTCCTCCGAACCTCACTTTAAATCGTACTACTATATGTCCATTATAGCACAAAAAAAGATATTTGTTCCAAATATCTTTTAATCCATCCGTTCTAAACCATTAATAAGTATACCAATATTTACAATACCACAGAACGCTATTAAGATATATACAATTCTAGTTAAGACACTTCCTTCTCCAAAGGCAAAAGTTACTAAATTGAAATCAAATATACCTACTAATCCCCAATTAAGAGCACCAACAATAGTAAGTATCAACGCTATTCTTTGTAATGTATTCATAAAATCATCCTTTCACTACTAATATTTACTAAAGTTTATGCTTTTATACAAAAAAATAATCACTTTCGTGATTATTTTACTCTTCGTACATCAATTAATCTTGCATCAGAATGGGTATTCCAAGCACTAACATTACTTTGAACGACACCCATTGATGGGTTAGTAGCGTGCATCATTTGTCCACCACCTAGATAAATAGCGGTATGAGTAACTCTACTACCATGTCCCCAAATTAAGATGTCTCCCGGTTGTGCACTAGCATAAGGTATTGAAACACCATCATGAGCTTGTGATCCAGAACTTCTACTTACAATAATACCAGATTGTCCTAAAATGTATTGAACAAATCCACTACAATCGAAACCAGTAGCTGGTGAATTACCACCACTGCGGTAACGATATCCAGCAAAGGCTCTAGCATTACCAACTAAAGTTCCATCACCCATTGGTACATTATTAACTATTTCTTGTTGTTTAATAGCTTCAGCAGCTTTTTGATCTTTATCCTTTTCTTCTGTCTTTACTGGCTGTCTTGTTACTTCCACTTTGAAGTCAGTCTGACTTACATTACCATACTTATCAACTGCAGTTACTTTAACTGGATATTCACCAGGTTTAGTAGTATTAACAGTCCCTTCAACGGTATAGTAATTAGTCTTACCTTCTTCTACTTCTTCTTTCTTAATATATTCGATATCGCCATCGACAACATCATAGACTTTCTCTACATTCTCTAAAACATTAATACTTTGACCTTGTGCAACGGATACTTTTTCCTTCTTGATTTCGGCTTCTGGTGCTTTAGTATCCTTTACTTCCACTTCGAAAGCAACGTTTTTTTCAACGCCATCTTTTTCCAAAGCCACTACTACTTGTTGTTTACCAACTTTAGATGTATCAACGTCTTCTTCGATTCGAACAATCTTACCATCAATTTTGTCCACTAACTTGTTGATATCGTAATTTGCCGAACCATATTCTACGCTAGCTGTATCAACTAGAGTCATTTTTAAATTTTGGTAGATTCTATTAGTTTCTACAGCATAACCACCAACTAATCCTAGTCCCAAAAACGCTGGAACAATGACTAATCGTATGAGCCCCGAGGGACCTAATTTACTTTTCATCTAATCTCCTCCACGTGTCCATAATTATAACACAGATCATTAAAAAAGTCAAAACAAGCAGCTCCAAACCGCGTAAAATCAATGTATAAGTTGCTTATTTTGTATTATATTATATGAGACTAACTAGTATATTAAAACTCCTCTTTATTTTTTAACTGTTTTGTGGTATAATGAACTCTCCTGGGGGCGATATGGTTTCGACAGAAATACTTTAGTACGAGTGGCAAGTCGAGTGATTACGTAATAATCAAATTAAATATAACTGGAAACAGAAATAGTTTAGCTTTCGCTTAAGATAACGGAAGCATCTTTTATCTCTTTTCTCTACAAAAGTTATAAAAGATTCATTATTCGTAGAGTATATTTAAGTGATGTCTATAGCTTAAATGAACTTTATAGACTAGTTTATATTCTTGGTTGTTAGTTACTTGGAATATAGGCAAATATAATTAACTAACTAAGCTTGTAGATATTTGTATGGCGGTATTTTTGGACAGGAGTTCGATTCTCCTCGCCTCCACCAGAAATAATAGTTCGTATATTCGAACTTTATATATATAAAAAGAAGGGTTTAACCTTTCTTTAATACTAATTAAAAGCTAGTTCTACATTTAGATCGTTGTCAGACAAAGCAATATATAAGAAGATAAGCCCACTAATCGCAATCAATAAAGATGCTATAAAGGAAAGAGTTATTAACTCTTTCTTTTTATTAGAATCATTTTCTTTAAGATTGTTTAAATCATTAATTGAACTTTTTAAAAAGTATATATAGACTATTACTAGTATAGAAAAAATAAATATTAGTATTTTGCGATACTTTTCTTTACTAATTTCATCATTATAAATATAATATCTTCGTTCTAATGAATTAGAATACCAACTTAAAAAGATTATAATTAAATAGACTATCCAAATATAGTCTTCAATCGTTATTTGCTTTAATTTTTCTTCTATTTCGGTACTTCCCATAATAAATATTATGTCAAAAATAAAGACAAATGATTTTTTTGCGACAATAATTAAGAAACAATATGATATAATAAAAATAGTGAAGCTTAAAAGGAGATGATGTTATGATACCTGTTACTAAAGATACTTTTGAAAAAGAAATCTTAAAAAGAAAAGGAAAGGTACTTGTTGATTTTAATGCTTCTTGGTGTGGACCATGTAGAATGCTTCAACCAGTATTAGAAGAATTAGAAAAAGAAAATAAAAACTGTACTTTTGCTTCGATTAATGTTGATGACAATGAAGAATTAAGTCAAGAATGTGGTGTTATGTCTATTCCTTGTTTAGTTTTATTTGAAGATGGTAAGGAAATAGATCGTAGTGTCGGCTTTAAGTCTTTAGAAGAATTAAAAGAAATGATAGGTGAATAATATGTATGATGTAATTATAATAGGTGCTGGACCAGCTGGCCTTACAGCCGCTCTTTATCTAGAAAGAGCTTTAAAAGAAGTCCTTGTTTTAGAAGCTTCAAGTTATGGTGGTCAAATATTAACTACTGATAAAATAGACAATTATCCAGGACTTCCTGGTATTTCAGGTTTTGACTATTCAAATCTCTTGTATAATCAAGCTAAAGACATGGGAGCTGAATTTGCCTTTGAAAAAGCTATTGAGATAAAGGACAAAGGAAAAATCAAAGAAGTTATAACTGAGAAGAATACTTATAAAGCTAAGGGCGTTATTATTGCTACTGGGGCTGATAATAGGAAACTAGGACTCGAAAATGAAGATAAGCTAGTTGGTAAAGGAGTTTCTTACTGTGCCACTTGCGATGGTGCTTTCTATAAGAAAAAGATTGTTGCTGTTAATGGTGGTGGTAACACCGCTTTAGAAGAAGCCCTTTATCTATCAGATATAGCTGAAAAAGTATACTTAATATACCGTCGTGATGAATTTACTAAAGCTGAAAAGAAATTAGTAAAACAAATCGAAAAAAAAGAAAATATCGAAGTAATATTCAACACTATTATTACAAAATTAAATGAAAAAGGCGGTAAACTAGCAAGTATTAACATTGAAACGAAAGATGAAGAACCTAAAACAATTGATATAAACGGATTATTTATTGCCGTTGGTAGAGTACCAGAAAGCGAAAACTTTGCTAAACTGGTTAATACTGATGAAGCTGGTTATATTGAAGCAGCTGAAGATTGTTCTACTAATGTAGAAGGTATCTTTGTTGCTGGTGATAACAGAGTAAAAGAAGTACGACAACTTACCACAGCTACAGCTGATGGTACAGTAGCTGCAACTAATATAATAAAATATTTAAATGATAAGGGAGGTAAATAAAATGTTTGATTTAAAAGGAAATGTTGCTGTAATAAGTGGAGCGTCTTCTGGATTAGGAAAGCAAATGACTTTAGCTTTTGCTAAACAAGGTGCTGATCTAGCTATTCTATCTAGAAGAATTAATGAATTAGAAAAAATAAGAGAGGAATTAAAAGACTACGACGTTAAAGTACTACCTATTAGATGTGATGTTACTAGTACGGCTGAAGTAAATGCTGCTGCTGAAAAAGTAGAAGAAGTATTTGGTAAAGTAGATATTCTAATAAACTGTGCTGGAGCTGCTAAAAACGCTGGTGCTTTAGATATGACTGATGATGAATGGAAGTTTACTATTGCTACTGATTTATCTAGTATCTTTAAAATGACTAGAGCTTTTGGTAATATTATGAAAAAGAAGAAATATGGAAGAGTAATTAATATATCTTCTATGTATGGTCTTGTTGGTAATACTAAAATACCTACAATTGCTTATCACTCAGCTAAAGGTGGCGTTATTAATTATACTAGAGCTGCTGCCGCTGAACTTGCTAAATATAATATTACTGTAAATACTATTGCTCCTGGTTATTTCTATACTGAACTAACTAAAGAAACTTTAAAAACGAAAGATTTCCAAGACTTTGCTAAAGAACATGTTCCAATGGGTAGATATGGTGAAGAAGGAGAACTTAATGCCGGAGCTATCTTCTTAGCTAGCAAAGAAGCTAGTTATGTAACTGGTATTGTTTTACCAATAGATGGAGGTTATACAGCAGTTTAATATGAAAAATAGAGTTTTGTTCATTGTTTTAGGCATATGCATACTTGTCTTGTTTACAGCCCTAACAATATTTACATTCACACAAAACGCTAAGAAAAGTAAATGGGATATAGTAGATGCCAGAATTGTAGGTACTAAAACAGAAATAGATTCATATACTACTAATAGCTATGTTGATTATAAACTAGAATTTATATATCACAATAAGGCTAATCATACAACCGCTAAATGTAGTTACTCTGCTTCTAAATGCCATAGTCTTGTTGGTAAATATATAAAGGTGCGCGTAGAACCTAAACTTAATGCCTTTAATGAATATGGCAATGTAGAAATAGAATCAGAAAAACCATTTGATAAAAATTGATGACGCTGTCATCTTTTTTTGTTATAATCGATACAGGTGATTATTATGAATAATATTCCTAAAAAACTATTAGGTGGAAAAAGAAAAGATTATTTAAGTTGGGATGAGGCATTTATGTTAAGCGCCGTAGTTTCATCAGGTAGAAGTAAAGATCCTTCTAGTCAAGTGGGAGCTTGTATTGTTGGTAAAGACCACCGCATTCTTTCCCTTGGCTATAATGGAGCGCCAAATAACTGGGATGATAAAGATTTTCCTTGGGAAAGATCAGCCAACGATCACAACCACACTAAATATCCTTATGTTATTCACGGGGAAATGAATGCTTTATTAAATTATAAGGGCGATAGTAAAGATTTAATGGGGGCTACTGCCTATGTAACCTTATTTCCTTGTAGTAATTGTGCCAAATTCTTAGCTCAAGCTGGTATTAAAAGAATTGTTTATTTATCAGATAAATATAAAGATACCGATGATAATATAGCCGCTAAAATATGTCTAGATAACTGCCAAGTTACTTATGAGGAATTCCCTAAGGAGTTGCAAAGAGATATAATCGTCTCTCTTCTCCCAGATAAAGGAATTAATGATAAATAAAAATTACAGAATTATCTGTAATTTTTTGTTCTCTTTTCAATATCACGTTGGATATCTCTTTGCTTAATTGTTTCTCTTTTATCATAGTTCTTTTTACCCTTACAAACACATAATTCTACTTTCAGAATATTGTTTTTAAAATATAGTTTATAGGGCACTATTGTCAAACCCTCTTTAGAAATAGCTTCATCTATTTTTTTTATTTCCTTCTTATGTAGCAATAGTTTTCTACTCCGAGTTTCATCATGATTAAAGATGTTACCCTCTTTATATTCACCAATATACATATTTATCAAATATACTTCATTGTTTTTAACTCTACCATAACAGTCTTTAATGTTAACAGAACCTGCCCGTACAGCCTTTATTTCCGTACCTGTAAGAGCTATACCTGCTTCATATGTATCAATGATAAAGTAATCATGTTTAACTCTTCTATTAACTATTTCCATATCATCACTCTTTTCTTAAACTACCAAAAGTTATATCTTGATTGCGGCTTAAAACTACTCCTTTATAGGTATTATAGTACTCCATATAATTAGGTAATATTTCATTAGTTAATTCACTATAAGGATATACCCTAAAGTTCTTAGCATTATTATGTTTAGTATAAAGTAGATCAGCTCTTAAATTATCTACTTTAATGCTTTTTTCTTCACCCTTCTCCTTCACTGTTATATCAAAGGCAAACATAAGTCCAGTTAATCGTTCAGTACCTAATTGATCAGAGATAAAATTACCAAGAGAATAGATTACTAGTGTATCTCCTACATATTCAACTGGTTCTACTACATGGGGATGAGCTCCTATAATAACATTAACTCCTAAATCAGACAAGTATTTAGCTATTTTCTCTTGGTCAGCAGAAACATCTAAGGAGTATTCTGTTCCCCAATGCATAGCGACAATGATAATATCAACTTCATCTCTTACTTTTTCAATATCTGCCTTAGCTTTTTCCTCACTATAGACATTATTTAAGTACTCTTTGCCTACTGGTGTCTCTAAACCATTAGTCCAAGTTGTATAAGAGAAGAAAGCATATTTTATCCCGTTTTTCTTATATACTCTGGTCTTTTCTCTTTCTTCTGCTGAAGTTCTCTGTCCGTCCCAAACAACTTTCTTTTGTTTGGACCAATATTCAACTGATTTAGTTACTCCAGTTTCTCCTTTATCCATTGTATGATTAGTAGCCAGTGATACTAAATTAAATTTAGCATCCATAAAAGCATCCCCTACTTCTTGTGGTGAATTAAACATTGGATAATTAGATAAGCCTAATTCAGTTCCCCCTAAAATAGTCTCTTGATTATAATATCTTAAATCATAATCTTTAACGATTGGTTTAATATATTGTAACATTGGTTTAAAGTCATAAGATCCATCACTTTGTTTAGCATCCATATAGACAGTACTATGAATAAGAGCATCACCAACCGCTATTACTGATAATTTTTTCTCTTTTTCTTCTATCTTAACTTCTTTTTTTTGCTTTTTAGGTTCACTTTTTTTATTAAAAGACGGCCAAACACTAATAGTTATTCCTGCAACAATTAAGATAATAGCTAGCAAAAATAATCTCTTTACTTTTCGTTTTAGCCTCTTCTTCTTCCTTCTCATTCTATACCTTCTTTACTACTTCAAAATCAATTTGTTTTTCTTCTTTAGAAGCACGTACTACTTTAACAATGACTCTATCACCCAATCGATATACATTATGCTTCTTCTCTCCGGTTAAAGTTAAATTATCCTCATCATAATGATAAAAATCATCCATATCTTTAATTGGTACTAATCCTTCAATTAAATTATCTAATTCTACAAACATACCAAAATTCATTACTGAAGAAATCATTCCTTCGAATTCTTCACCAATATGCGATTCCATATATTCAGCATGCTTCATATCTTCAACTTCACGCTCACAGTTAACAGAAGCAAGTTCCTTAGCTGAAGAATGATCTGCTACAAAGATTAATTTTTCTTCCCAATACTTAACTGTTTCTTTATCAATCTTGTGGTTAAATAAATAAGTTCTTAAAAGACGATGAACAGTTGTATCAGGATATCTTCTAATTGGCGAAGTAAAATGAGTATAGCATTTACTAGCCAATCCATAATGACCTAAGTTTTCTGGTTTATAAATAGCTTTCTGCATACTTCTAAGCAATAAAGAAGATAATATCTTAAACTCTTTTTTATCTTTTAAAAAGTTAATTAATTTTTGAATAGTCTTTGGTGACATATCCTTAAGATCACCAGTATACGTATAACCCAAAGAACTGATGAAAGATAAGAAAGATCTAATCTTCTCTTCTTTTGGATATTCATGGACACGATAAATAAAAGGTAGTTCCATATTATAAATATGAGTAGCTACTGTCTCGTTAGCCGCAATCATAAAGTCTTCAATTAATCTTTCGCCGGCACCGCGTTCCCTTAATGTTACTTCTGTTGGTACACAGTTTTCATCAACTAATATTTTAGTCTCATCAACATCAAAATCTATATATCCGCGTTCAATCTTTTCTTTACGAAGAATATCCGCAAGTTCTTTCATCAATCTTAAGTCATCAGCAAAATCTTCATAGCCTTCTGGTACAGTATTTTCTTCTAAAATCTTATTAACATTTTTATAAGTCATTTGCTTTCTTGATTTAATAACACTAGGGAAAATATCGTATTTAACAATCTTTCCTTTAGGATCTATTTCCATTACACAAGAAATAGCAAGACGATCAACATCTGGATTTAAGGAACAAATACCATTAGAAAGTTCATGGGGTAACATTGGTATGACACGATCCACTAGATAAACACTAGTACCACGTTCCATAGCATCATCATCAAGAGGTGATCCTTCTTTAACATAATAAGATACATCGGCAATATGAACTCCTAATTCATAATTACCACTTTCAAACTTCTTAATACTAATAGCATCATCAATATCTTTAGTATCGTCACCATCAATAGTAAATATTACTTGATCACGAAGGTCTTTTCGACCTTCTAATTCCTCACTTCTTACTTCACTAGGAATAGTCTTTACTTCTTCAACAACTTCATCAGGAAATTCAACTTCAATATCATATTTATGAATAATAGATAAAATATCTACTCCTGGATCATTTTTATGACCAATTATTTCAGTAACTTTTCCATAATAACCACCATGATTATCTTTCTTATCTAAAAGTTCAACTACTACTTTATGACCATCAACAGCATTTAAACTATCTTCTTTTTTTACTTCAATGTTTAACTTTATTTTAGAATCGTCTAGTGTAATATATCCAATATCATCTTTAAAATTTATTTCCCCAATATAGTTTTCAGCATCACGTTCTAAAATTCTTAAAATTCTACCTTCTACTCTTGGAGTATTCATTTTACTAGTTATTTCTACTAATACAGTATCATGATGAATGGAACCATTTAAATTGGTTCTAGAAACAAAGATATCCTCATCCATACCTTCAACGTCCACAAAACCGTACCCATTTTTATTAACCCTCAACAAACCTTTTCTTAAAGGTGAATTATCAAGTAACATATATTTATCCTTATTAGTATGATAAATAGTATACTCCTCTTCTAAATCCTTTAAGGCTTCATTAAGCTCTTTTGTCTTTTCCACATCATTAATACCTAAAGCATCACTAATCTCATAAACAGATAGAGCCTTAGTATTTTCTTTTAATACTTTAATTATGTCATCCTTCATTTTACCACCTATTCTTATTATAAAATAAAAAAGACTTTTTATAAAGTCTTTTATTATACAAACATTGAAACTAAACAAATCACAAAGAAGGCCATACCTAGTAAAAAGGTTACTCTAGTAATAACAAGTTCTGAACCTCTCTCTTTTCTGTTTTTAAATAAATCACTACCACCACCAGAAAAGATATGAGCAGCATCTTCTGCCTTAGAACTTTGTAATAAAACGATTATTATCAATAATATTGATATAACTAATAGTACTGTTTCCATAAGAGCACCTCCGTTTCAATTAAATATATTATCACACTTTAGCTTTATTATCAAGGTTTTGTTTTTCTTTCCCTGTACCCCAATATTCTTTAAATTCAATATCCTTTTCAAAAAGAATTTGATCAAATCGATCCTTAAATTTTAATCTTACCGCATCATTACGCAAATTATCTGTCCTGCTTAAATAGCGAGGATCCCCAGTATATAAGAACAATTGAATTTGACTTTTGGCTTTATCCATATCTCCCGTTCTTCTACACATAACATCAAGACTATGCCTCATAAAGCGTTCAAAATCTTCTTCTGTTTCTAATCCTACTGGCTTTGGTTTATGAAGTTGTTTACTGTTTTCATAATGACTTAGATAATCTTGATAAGTAAATTCTGGATCTGATGTCTTAATAATCAAATGAGAAATTAATTTAATGTCATCTAAACTTCTAGCTCTATATTCATCACTAAAATCAACCTTAAGTTTATCTTCATTCATCTTAACAAGATTTTCATTATAATAATTACCAATAAATCTATAAAAATCAACAAGATTAGCATCCGCTAAAGATCCATCTTTAGTCTTCTCTTTAAAATAGAGTTCAACATAGTTAGAGAAAACCCCATTATATGATTCCTTACCATCACTAGCATAAGCAATATTATTATGAGTAAACGCAAAAGGATTAGGCTCAATTAAGCCTTCCATAATATAGGAGTTATTATTAACAAAATTATTCAGTTTTTCGGCATCCTCTGGATTACCAACACGTACAACTATATCATCAAACCTTATTTTTTTAGCCACTTTTGATACATGAGCAATATTATTTTCCCCTAAGAAAGTGAAAATTTCTTTAGCTCCCTTTTCTAAGTGTTCTTCATCAAGAGGAATATACATCTTTATTTGTTCCCCTTTATTTATAACTTGCTGATAATTATTTTCAAGACGAAAGAAGTACTTATTACTACTATCGAAGAAGGCGTTAACATTCTTTTTGGTTAAAAAGTAATCATAGAATTCGCTAAACATATAACTAACATCTTTTGTTTGATCTTCAGGAGAAACTCCTTGTCTTATTAATTCACCATAGATAATATCACTAAAATTCTCTTGATTAACCACCCCAGGGTAAGTACTAATGAGATCTCTTACTCGTTTTAAAAATTGATCGGCTCTCTTAATATTATTCATCTTCTTCACCCATAATCTTCTTAAGCTCTTCTAAATTAAATTCTTTAGTCTCTTCTAAATCATCGCTTTCATCTAAATAATCAAACTCACGAGCACCTTCTTCTAATTTGTAATCCAATATATTTTCTTCCACAGTATCACCTACTTATTAAGAATTTCTTCAATTCTTATTAATCTATTATACTTACAGATACGATCCGTTCTAGACATAGAACCAGTTTTTATCTGCCCTAGCGAAAGACCAACTGCTAAATCAGCAATAGTTGTATCCTCGGTTTCTCCACTACGATGAGAAATAATGGTCCTATAGCCGTTCCCTTTAGCTAATTCAATTGTATCAATCGTTTCAGTTATTGTACCAATTTGATTAACCTTAATTAAAATAGCATTTCCGGCAGAAAGATCAATACCCTTTTGTAAGTACTTAGTATTAGTTACAAAAAGGTCATCACCAACCAATTGAACTCTATCCCCTATTTTATCAGTAATAGCCTTAAATCCTTCCCAATCCTCTTCATCAACTGGATCTTCAATTGAAATAATTGGGTATTTATCAACTAAATCCACATAGTAATCAATTAATTCAGTTGTCGTTAACTGTTTACCGCCAAAAGAATAAGTACCATTATCATAGAACTCAGAAGCAGCAACATCAATTCCTAAATTAACATCAGTACCAGGAGTATATCCAGCACTTTTAATAGCCTCTATAATTAAATCAAAAGCTTCTTCATTACTTTTAAGTGAAGGTGCAAAACCACCTTCATCGCCTACACCTGTAGCATAACCTTTGTCATTAAGAACTTTCTTAAGGGCATGGAAAACTTCACTACCAACTCTAATAGTCTCTTTAATAGTATTCTTTTCTGGAATAATCATAAATTCTTGAATATCTAGATTATTATCTGCATGAGCTCCACCATTCAAAATATTCATCATTGGTCTTGGCATAGTTCTACCTTCACCAATAAATTCAAATAGTTCTTTTCCTTCAGAAATAGCACAAGCTTTCATAAAAGCCATACTAACACCAAGTAAAGCATTAGCACCCAAATTACTTTTATCATCTGTACCATCTAATTCTAAGATTTTAAGATCTAAATCCCTTTGATTATGAATATCTACTCCACATAAAGCATTACAAAGAATCGTATTAACGTTATTAACCGCTTTTAAAACACCTTTACCGTTATAGCGTTCATCATTATCCCGCAATTCCAAAGCTTCCCTACTACCAGTAGAAGCCCCTGATGGAACAGCTGCTCTACCTAAAGATCCATCTTCCAAAATCACATCTACTTCAACTGTTGGATTCCCTCTAGAATCTAATATTTCTCTACCCTTAATATCTCTAATTTTCATTCTTATACTCCTCTATCAACGCTTTGAATTCATCACCACGATCTTCAAACTTAGCATACTGATCCCAAGAAGCAGATGCTGGTGATAAAAGAATTATTTTAATACCTTTTTCCTTTGCTTCTTCTACGCACTTCTTAAATCCTTCTTTTAAAGTTTCATATGGGAAGACTGGAATACTATTCTTTTCAGCAAATTCTACTACTCTCTCTCGACATTCCCCAATAGCAATAATAGAAGCAACATTACCAACATAGTCTTTTAAATCATCAAAGTTTTGACCTCTCTCCATACCACCTAAAATAACAATAGTTGGTTCTTTAAAAGCCGAAAGTGCTATCTGAGTACTCTTAATATTAGTAGCCTTAGTATCATTATAGAATCTAATTCCTTTAACTTCATCAACGTATTCTAAACGGTGTTCTACTCCTTTAAAAGTACTAATAGTCTTCTTAAGGCTTTCATTAGGAATATCAAACTCTTTAGCAATCATAATAGCTCCCATAATGTTTTCTAAATTATGAGTACCAGATATTAAAATATCCGTATAATCTAAAACCTTATCACCATAATAATAAATACCATCATCTTTTAAATAACAACCATTAATTTCATTAGTAGAAGAAAAGTATTTAGTCTGTGATTTAATACTTTCTAAATCATGAACTACTTCTTCAGCATCCATATTAATAATCGCAATATCTTCTTCACTTTGATTAAAGAACATCTTATATTTAGTTTCTTTATAATGTTCATACGTCTTCATAAAATCAATGTGGGTTGAAGATAAATTAGTAAATAGCCCTATATTAGGTTTAAACTCTTTAATATTTTCTCCTTGTTGACAAGAGAACTCCATAACAATAATATTATCCTCGTTTAAATCTTTTAAAATACTACACAAAGGAAAACCAATATTACCAGCTAAAAGAACTCTATCTCCTAAATAGTCATGTAAAAAATTATAAGTAATTGTCGTAGTAGTTGTTTTACCATTAGTTCCCGTAATCGCTACTATCTTTACTCCCTTTGGCATTAAGAGATAAGCAAGCTCTACTTCATTGATAACTTCTTTACCTAATTCTTTAGCCTTTAAAACATATTTATGATCAATAGGAACACCTGGATTCTTAATTAAATAATCAACACTTTCATCAATTAAATCATCGGGATGCGATCCGAAAACAAGTTTAACTCCTAAATCAGTCAACTCTTTTATTTGTTCCGCATCATGCTTATCTTCTTCTTTCGCATCGTTTAAAATCACTTCATTTCCCCGTTCAATTAAAACCTTCGCAGCTTCATAACCACTTCTAGCCATTCCTAAAATTACTATTTTCTTATTTTCAAACATTCTATCACCTAATAACATTATACTATAAATTTGACACTTTTAACATTGAAACTAAATATTTTTTTTGATATAATTGAAAGAGAATAAAGAGGAGATGCCTTTATGAAGATAGTTACATTAGAACCCCAAGAATTTGATAACTTCGCTACTAAGCATAAGTATCGCAACTATTATCAAACGTCTAATTACGCTGAAGTCATTAAGAACTTTGGTTTTAATGTGCACTTTTTAGGGTTTGTTGATGAAACTGAAAACCTAATTGGTGCCACTTTAATTATCTTCAAAGAAGTATTTATGAACAACAAAGTAGCTTATGCTCCTAGAGGAATGTTGTTTGATTATACTAACTCTTCTAAGGTTCAAGAACTAGTGGAAAAACTAAAACAAGTACTAGGTAAACAAGGATTTGTTTTACTAAGGATTGACCCCTTAATTCCTGCGACTATTAGAGACAATAAGGGAAATGTAATAAATATCAATAGTGAAGCTAATATCATTATGAGTAATTTAACTGCTGCTGGATTTTCCAGAAGAGAAGAGAACTTATATTTTGAAAGTGAAAAGCCAAGATTTGAGGCTATATCACTATTTAATAAGTCCATTCAGAATATCTTCAATAACTTCGATAAAAGAACTAGACACAAGATAAAAAAAGCCAATACTGCTGGTATCGAAGTCTTTAAAGACCAAAATAAGAACTTATCAAAGCTATATGAATTTATTAAGGATAAACACGATAAACCAATTGAATTTTATCAACAACTATGTAATAGTTATAAAGATAATATTGATTTATATTATGCAGTCTTAAACACTGAAAAATTTGTTGTCAGTAGTAAAAAACTATATGAATCAGAAATGGATATTAATGATGAATTAGCTAGAAAGATACAGGATCCTCAAGGGGGAACCAACAAAAAAGGTCTTATTAATAAAAAAATGGAATCTGATAAATTGATTAATACCTATAAGAATGACCTTGTTCTAGCTACTGAACTATTAAAGAAATATCCCAAAGGATTTATTGTTGGTGGAGCTTTAAGTATTTCCTTTGATAATGCTGCTTTCTTAGTAATTGAAGGATTTGATAATACTTATAAAGCCCTAAATCCTAACTATTTATTAAAATGGAAAATGATTAATGATTATTATAGTAGAAAATATAAGTATTTAAACTTAAATGCTGTAGTTGGTGAATTTGCTGAAAATCATCAATATACCGGTCTTAATGAAATGAAATTAGGCTTTAATACAGTTGTTACTGAATATATTGGTGAATTTGACATCATATTAAATAACTTTGGTTATAACATATCCAAAAGAGCGATTAAAGATAAAATAGACACTTAAAAAGACGATTATATCGTCTTTTATTTTTGTATTCCTTCTACGCTATAATCAGACTCAGAAGAAGCCAACATCTTATCGATTTCTTCTGTATCCGAATTACTGGACAAATCATTGTTTTCTTCAGAAAAAGGAATTTCTGGTTCGTCTTTAATGCACCCCTTCATAAAAACACTATTTCCTAATACTACTACACCAATCATGGTCCCTATAACTAATTTTTTAATATTGATATGTAGTTTTCCATTCACTTTATCCTGAATCTTATCTTGACGTAAAAGATTTTTACAATCCTCTACAGTAAGAGGTTTTTCTTTTGGCTTTTTAACCTCTGCTTCCTTCTTTGGTGTTACCTCTTTCTTTTTCGGTACTGGCTTTTCTTGTTTTGTTCTTCCAGTTAATTTATCAAGCGTCTTTTTATAGTCTTTTTCTTGAACAAAATGAACTATTCCTTGGTCAAGAAAATTATCACTGTTTAAATTACGATCTTTAGCCAATTGAGCTATTTGCTCTACAGTTTTATCATATGGTAAAACTACTATTCTACCATCATCATAGATAATAGTACCTCTTAAATAATCAGTATCTTTCTTAATCTTACCTGCTTCAATAGTCTCCTTATATGGCGTTCCTCTATGAATTAATATATTTTTTATATTATCAGTTTGATTTTGCTTCATAATAGCACCTCTAACATAATTTTAATATACAGAAAAATAAAAAGCAATCAATTTACTTGATTGCTTTATCAACTTTACACTAATTATTCAATAATTTCAGATACTGAACCAGCACCAACAGTACGTCCACCCTCACGGATAGAGAACTTAGTACCTTGTTCAAGAGCTATTGAATGAATTAATTCAACAGTCATATCTACATTATCACCAGGCATTACCATTTCTGTACCAGCTGGTAATTCGATAACACCAGTAACATCAGTAGTTCTGAAATAGAATTGTGGTCTATAGTTGTTGAAGAATGGTGTATGACGTCCACCTTCTTCTTTACTTAATACATAAACTGCAGCTTTGAACTTTTTATGAGGTGTAACTGTTCCAGGTTTAGCTAGAACTTGTCCACGTTCAACTTGTTCACGAGAAATACCACGTAATAGTACTCCAGCGTTGTCTCCAGCTTCTGCATAATCTAATTGTTTTCTGAACATCTCAATTCCAGTAGCAACTGTCTTTTGAGTGTCTTTAATACCTACTATTTCAACTTCATCATTAAGATTTAATTTACCACGTTCAACACGTCCAGTAACAACTGTTCCACGTCCAGTAATAGTGAATACGTCTTCAATACTCATTAAGAATGGTTTTTCAGTATCACGTTCTGGAGTTGGAATCCAAGTATCAACTGCATCCATTAATTCATCAATTTTAGCAGTCCATTTAGGATCTCCCTCTAGAGCTTTTAATGCTGAACCACGAATGATTGGAGTATTATCTCCATCGAATTCATATTCATTTAATAAATCTCTAATTTCCATTTCTACTAAGTCAAGTAGTTCTGGATCATCAACCATATCACACTTGTTCATGAATACTACCATTTTAGGTACTCCAACTTGATGAGCAAGTAAGATGTGTTCACGAGTTTGTGCCATAGGTCCATCTGTTGCAGCAATAACTAAGATTGCTCCATCCATTTGTGCTGCACCAGTAATCATGTTTTTAACATAGTCAGCATGTCCTGGGCAGTCTACGTGAGCATAATGTCTTTTATCAGTACTATACTCAACATGTGCAGTATTAATAGTAATACCACGTTCTCTTTCTTCTGGTGCTTTATCAATGTTTCCAAATTCAACAGCTTCATTACCGTTTTTACCAGCTAAACATTTAGTAATAGCAGCAGTAAGAGTAGTTTTACCATGATCTACGTGTCCAATTGTACCAATGTTAACATGTGGTTTTGAACGATCAAACTTTTCCTTTGCCATATTATTTTTCCTCCTCTTTTTTAATACTATTATATTTTATCTAATAATTGAATAATTTTCAACTATTTTGATACATTTTTTATTAGTTTCCTGATTTTTTAATTATTTCTTCAGAAATATTTTTAGGAACCTCTTCATAATGATCAAATGTCATTACAAATGTAGCTCTTCCTTGGGTATTAGATCTAAGGTTAGTAGCATATCCAAACATTTCAGATAGTGGTACCATTGCGCTTAATTTAACCGCATTACCAACAGTCTCTTGTCCTAGTGGTTTACCACGACGAGCTGTTAAATCACCCATAACATTACCAAAGTATTCCTCTGGGGTAGTAACATCTACCTTCATAATTGGTTCTAATAGAACTGGCTTACAGTTCTTCTTAGCCTCTTTCAAAGCAAGTGAAGCTGCAACTTTAAAGGCCATTTCATTAGAGTCAACATCATGATAACTTCCATCATATAGAGTAGCTTTAACATCAATCATAGGATATCCAGCTAAGATACCTGTTTGCATAGCTTCTTGTAATCCTTTGTCAACAACTGGAATGTATTCACGAGGAACTACACCACCAACGATTTCATCAACAAATTCATAACCTTTATCTTTATTTGGTTCAAATTTAACCCAAACGTGACCATATTGTCCACGACCACCAGATTGTTTAATATACTTACCTTCACATTCACCAGTAGCAGTTAATGTCTCACGATAAGCAACTTGTGGTGCACCAACATTAGCTTCAACATTAAATTCTCTCTTCATACGATCAACTAGGACATCTAAGTGTAACTCACCCATACCAGCAATAACTGTCTGTCCAGTTTCGTGATCAGTATGAACTTTAAATGTTGGGTCTTCTTCAGCTAATTTTTGTAAAGCAATGCCCATCTTATCTTGATCAGCTTTTGATTTAGGTTCTACAGCCAATTGAATAACTGGTTCTGGAACTTGTAAGCTCTCTAAGATAATTGGTTTCTTTTCATCACATAGAGTATCACCTGTTGTAGTATTCTTAAGTCCTACTGCAGCAGCAATATCTCCAGTATAAACATCTTTAATTTCCTTACGATCATTGGCATGCATCTGTAAGATACGACCAATTCTTTCTTTAGAATCTTTATTTGAGTTAAGAACATAACTACCACTAGATAGATGTCCTGAATAAACTCTAAAGAATGTTAAACGTCCAACAAACGGATCAGTCATAACTTTGAATGCTAAGGCACTGAATGGTTCATTGTCATTTGGATGACGCTCAATATCCTTACCATCTAAATCTGTTCCTTTAACTGATTCAATATCTACTGGACTTGGTAAATAATCAATAACGGCATCTAGTAAAGGTTTGATTCCCTTATTTCCTAATGCTGTTCCACACATAACTGGGAAGAATTCAGCAGCTAGAACACCCTTTCTAATTGCTCTTTTGATCATTTCTTCTGTTACTTCTCCACCATCAAGATAAGTCATCATCATGTCATCATCAAATTCAGCAACAGCCTCTAAAAGCTCAGCTCTTTTTTCTTCAGCAATAGCTTTTAAATCCTCAGGTATTTCAATATCTTCAGCGTTTTCCTCTTCGCCACCATCGTATTTTTTAGCTGTCATAGTAACTAAGTCAATAGTTCCACAGAAATCAGCTTCAGCCCCAATTGGCCATTCGATTGGTTTAGAATTAACACCTAGTCTATCATCAATAGTCTTTAAACTGTATTCAAAGTTAGCACCCATCTTATCCATCTTATTTGCAAAGATAATTCTAGGAACTTTGAATTCAGATGCTTGTCTCCAAACTGTTTCTGTTTGTGGTTCAACTCCTGCTTGAGCATCAATAAGTGCTACTGCACCATCAAGTACTCTTAAGGAACGCGATACTTCAACAGTAAAGTCTACGTGTCCTGGAGTATCGATGATATTAAGACGGTGCTCTTTCCAATAAGCTGTTGTAGCAGCACTAGTAATAGTAATACCACGTTCTTGTTCCTGCTCCATCCAATCCATTTGTGATTCACCATCATGAGTCTCACCAATTTTATGAATTTTACCAGTATGGTATAAAATTCTTTCTGTAGCGGTGGTCTTACCAGCATCGATATGAGCCATAATACCAAAATTTCTTGTCTTTTCTAACGACGTATCTCTTGCCATAATTTCACCTCTACCATCTATAGTGTGCAAAAGCTTTATTAGCCTCTGCCATCCTATGTGTATCTTCTTTCTTCTTAAATGCTGCACCTGTTTCATTAGATGCATCAACTATTTCGTTTGCTAAATTATCAGCCATTCCTTTACCACCACGTTCTCTAGAATACTTAACAAGCCATCTTAAAGCTAATGCTTGACTTCTAGCTGGCGATACTTCGATAGGCACTTGATAATTTGATCCCCCTACACGACGAGATTTAACTTCTAGTTGTGGTTTTAAATTCTCCATAGCAGCTTCAAATACTTCTAATGGATCTTTCTTTGTTTTTTCTTTTACTTCATCAAATGCTGTATAAACGATTGTCTGTGCAATACCCTTTTTACCATCTAACATTACTGTATTAATTAACTTAGTAACAACTTTAGACTTATATATTGGATCAGGTAGCACATCTCTTTTAACTGCACGTCTCTTACGCATTTTAACATCCTCCCTTCAATTATTTTTTTACTTTTTAGGTTTTTTAGCTCCGTATTTACTACGTCCTTGCATACGATCTTTAACACCAGCAGTATCTAAAGTACCACGAATAATGTGATAACGAACTCCGATTAAGTCTTTAACACGACCACCACGAACTAATACTACACTGTGTTCTTGCAAGTTATGACCAATTCCTGGAATATAAGTATCAACTTCTTTTCCATTAGATAAACGTACACGAGCATACTTTCTTAAGGCTGAGTTTGGTTTCTTAGGTGTCTTAGTACCAACACGAGTACAAACTCCTCGTTTTTGAGGTGATGGATTGTTAGTAGCTTTTCTCTTAATAGTATTAACTCCAACTCCTAAAACAGGGGCCTTACTTTTTCTTACTTTATCCTTACGTTTTTTTCTAACTAATTGGTTTATAGTAGGCATTAAACAAGTCTCCTTTCTTTACACACTACCGTGTGTATCATTTTCTTTCCTAAATAAAACTTTGCGTAATTCGCAAAGCAAATTTAACAGCATTAATAATATAACACTTCCATTATATTAAGTCAATACTTTTATTATAAAATATGATTAAATCTAGCAATTATTCATTGCTTTCAATAATTGATTCTGTTGTATCAGGTAATGCTTCATCATATATATTTGATGGAGAAGACTTAGAAACACCTGCTCGCCATGATAAAATTGATACTACTAATATGAATAGTATTAATACACAGACAAGCGCAATCATTGTTGGGATACTCCATCCTTCATTATTTAATTTTTTCATATAATCACCTGTTAATATTATAAAATACTTTATTAATTATTGCCAGTATTTATTAGATGAATATGTAAAGTTTATTTGAATTTTCAAACAATAAAAAAGGAATAGTTTCCTATTCCATAAATTCATCCTCTAACTTATCAAGTGGTTCTTCATCAACAAATTCACTCTCTAAATCATATTCAACATCTCTATAATGTTTATTACCAGTACCTGCTGGGATAAGTTTACCAATGATGACATTTTCTTTTAGACCCTCTAATGGATCAACTTTTCCTCTAATAGCAGCATCTGTAAGAATTCTAGTTGTTTCTTGGAATGAAGCTGCTGATAAGAATGAATCAGTCTCAAGTGAAGCTTTAGTAATACCAAGTAATACTGGTACTCCCTTAGCTGGTTTCTTACCTTCAATAACATATTTCTTATTACCATCAGTAAATTCTCTAAAGTTAACAAGACTACCTGGTAAGAACTTAGTATCTCCACTTTCAATAATCTTAATTTTAGAAATCATTCTTCTAGCAATTAACTCAATATGTTTATCAGAAATATCAACACCTTGAGAACGATAAGTATGTTGTACTTCTTTTAAGATATATTCTTGAGTAGTAATTGGATCAGTAACAGCTAGCAATTCCTTAGGAGAAATAGCTCCTTCAGTAAGTTTACTACCAGCTTTTACCTCATCATTCTTTTCTACTGCTAGTTTAGCACCATAATTAGATGTATGTTCTTTAGACTCCAATTTATTAGTAATTGTAATCTTATATTTACCATGATCTTCTTTGATCTTAGTAACTTTACCATCAATTTCAGCAATAGTTGCTTTTCCTTTTGGAGTACGTGCTTCAAATAATTCTTGAACACGTGGTAAACCTTGAGTAATATCCTCTTCACCAGCAACTCCTCCAGTATGGAAAGTACGCATAGTAAGTTGAGTACCTGGCTCACCAATAGATTGGGCAGCCATAACTCCGACAGCCTCTCCTACTTCTACTAGATTACCAGTAGCCAAGTTACGACCATAACATTTTTGACATACACCATTAACAGTATTACATGTTAATGCCGTTCTAATTTCTACTTCTTCGATACCAGCTGCTACAATCTTTTCAGCAGCACGCTCAGTAATCATCTCTAATTCATTAACTAAAACATTCTTAGTAGCTGGATCAACAATCTTCTTATTAGCAAAACGACCAATAATACGATCATATAAGCTTTCAATAACAGCTCCTGTTTTTTCATTAATAAAGGCTCTTACTACAACACCATTATCAGTGCCACAGTCCTCTTCTCTAACAATCATATCTTGTGAAACATCAACTAAACGTCTAGTTAAGTATCCAGAATCAGCAGTTTTCAAGGCTGTATCCGCAAGACCTTTACGAGTACCGTGAGTAGATAAGAAGAATTCAGCAACTGAAAGTCCCTCTTTATATGATGATAAGACTGGAATTTCTACTGGCTCACCATTAGGTTTTTGCACAGAACCACGCATTCCGGCAACCTGAGTAAAGTTAGAAATATTACCACGAGCTTTAGAATGCATCATCATAAAGATTGGATTATCAATATCACTATCAGCAATTTCCTCTAAATCACGAGAAACTTGGTCTTTAGCATCACTCCAGGTTTCAATAACTTTATTGAAACGCTCACTTTCAGTAATAAGACCCTTAGTGTATTGTTTATTGATCTTATCAACAGTTTTTTGTGCTTCAGCAACAATCTTATCTTTCTTTTTACTAGTTTCAACATCAGATATACTGATTGTTACACCAGCTAAAGTTGAATACTTAAATCCTAAATCCTTTAAGTTATCAAGCATTGTAGATGTTTCAGTTGTCTTATATCTCTTGAATACTTGAGCAATTATCTTCTCTAATGTATTCTTAACAAAAGCATCTACAAGTGGCATCTTCTTAATTTCTTCAGGAATTTTTTTACCCTTTTCAATAAAGTACTTATTAGGAGTAATTCCTTGAATATTATCAGTAGTTGGTTCATTAATATAAGCAAATGAATCAGGCAAGATTTCATTAAACTTAATTTTACCAACAGTAGTAACTAAGTATTTACCCTTTTGTTCTTCAGTAAATAGCTTATGTCTAAACGAATCAACTGGTACAGCAATTCTAGTATGAAGAGTTATTTCTCTTCTCTCATAAGCCATAAGTGCTTCATTAATATCTTTAAATAGACGTCCTTCACCATCTTCTCCAGCCTTTTCAATAGTTAAGTAATAATTACCTAAAACCATATCTTGTGAAGGAGTAACGATTGGATCTCCACTCTTTGGATGAAGGATATTATTAGAACCCAACATCAATATTCTAGCTTCAGCTTTAGCCTCTTCTGATAATGGTACATGAACAGCCATTTGGTCACCATCGAAGTCAGCATTGAAAGCTGTACAAACAAGTGGATGTAGCCTAATAGCTTTACCACCAATTAGAACAGGTTCAAAAGCTTGAATTCCTAATCTATGTAGGGTTGGAGCACGGTTAAGTAATACCGGATACTCTTTAATAACATCTTCCACAATATCCCATACAGCTGGATCTTGATTATCAATTAATCTCTTCGCAGCCTTAATATTATGGGCTATATCACGAGATACTAAACCATTAATAACATGTGGTTTAAATAATTCTAAAGCCATTTCTTTAGGAAGACCACATTGATACATCTTAAGTGATGGACCAACAACGATAACTGAACGTCCTGAATAGTCAACACGTTTACCAAGTAAGTTTTGACGGAAACGTCCTTGTTTACCCTTTAACATACTAGAAAGCGATTTTAAAGCTCTGTTTCCTGCTCCTGTAATACTTCTACCACGACGGCCATTATCAAATAAGGCATCTACAGCTTCTTGAAGCATACGTTTTTCATTTTGAATAATGATACCAGGAGCCCCTAAATCAATAAGCTTCTTTAAACGATTATTACGGTTAATAACTCGACGATATAAATCATTTAAATCAGATGTAGCAAAACGACCACCATCAAGTTGAATCATTGGTCTTAAATCAGGCGGAATAACTGGAATACAATCCATAATCATCCACTCTGGCTTATTACCTGATTTATCAAAAGCATCTAATACATCAAGTCTTTTAACTAATCTGGTTCTCTTTTGACCTTGGGCCTTTTCTAATTCTTTTTCAATTTCCGCTATTTCTTTCTTAAGATCTACTTTCTTAAGTAATTCTTTAATAGCTTCAGCACCCATTCCTACTTTGAAGCCAGTACCATATTTTTCATAATAAGCACGGTATTCTTTTTCAGAAAGTGTTTGTTTATTCTCTAATGGAGCATTACCTTTATCAATAACAACGTAACTAACAAAGTATAATACTTCTTCTAGATCTCTTGGACTCATATCAAGAACAAGTCCCATTCTAGAAGGAACTCCCTTGAAGAACCAAATATGTGATACTGGAGTAGCAAGTTCAATATGACCCATTCTCTCACGTCTAACTTTAGAACGAGTTACTTCAACTCCACAACGATCACAAACGATATTTTTATATCTTACCCTCTTGTACTTACCACATGAACATTCAAAATCTTTAGTAGGTCCAAAGATCTTTTCACAATATAGACCATCACGTTCAGGTTTTAAAGTACGATAATTAATTGTCTCTGGTTTCTTTACTTCACCATAAGACCATTCTCTGATTTTCTCAGGAGAAGCTATTCCAATTCTTAATGCATCAAACTTATTTACTTCTAACATTAAACATCAGCTCCTTCCTCAGATTCTTCATCCGTTTCTTCTTGTTCTTCCTCACTAGGTTCCTTTATCTCAACCACTGGTGAATCCTCATCAATTGCTGGTTTGAAGTCTTCTTTTTCTTCAGCCTCTTCTATTTGTTTAAGTTCTAGTCTCTCACCATCAGTATCAATAATAGAAATATCTAATCCTAGAGCTTGGAACTCTTTCATCAACACTCTGAACGATTCAGGAACACTAGCATGATTAACTTCTTGTCCTTTGACGATAGCCTCATACACTTTAACACGACCAATAACATCATCTGATTTATAAGTCATAATTTCTTGTAGCGTATGAGCAGCACCATAAGCATATAATGCCCAAACTTCCATCTCTCCAAATCTCTGTCCACCGAATTGAGCTTTACCACCAAGTGGTTGTTGAGTAACTAATGAGTATGGACCAGTAGATCTAGCATGTAACTTATCATCAACCATGTGATGTAGTTTAATCATATACATGATTCCTACGGCAATTCTACTATCGAATGGTTCTCCAGTTCTACCATCATATAGAACTGTCTTACCATCAGGATCCATCTTAGCTTCTTTCATCATCTTCTCGATGTCATCTATATGTGCACCATCAAAGACTGGAGTCGCAACATGAACACCAAGCTTTTTAGCAGCCATACCCATATGAATTTCTAGAATCTGTCCTAAGTTCATACGTGATGGCACACCTTGTGGATTAAGCATAATATCAACTGGAGTACCATCTGGTAAATAAGGCATATCTTCTTGAGGTAAAATAAGGGAAATAACACCTTTATTACCATGACGTCCAGACATCTTATCTCCAACTTGAATTTTTCTCTTTTGAATTACATAAACTCTAATTATTTTAGATACACCAGCAGGTAGTTCATCATTATCTTTTCTTGAATAGATCTTGATATCATGAACAATACCATCTCCTCCATGAGGAACTCTTAATGATGTATCACGAACTTCACGAGTTTTTTCACCGAAGATAGCATGTAATAGCTTTTCTTCAGAAGTAAGCTCAGCCATTCCCTTAGGAGTAACCTTACCTACTAAGATATCTCCTTCTTTAACTTCAGTACCAATTGTTACAATACCATTTTCATCTAAGTTACGACGAGATTCTTCAGAAACATTAGGGATATCTCTAGTAATTTCTTCTGGTCCTAACTTAGTCTCACGACATTGCATCTCATAATCAGCTAAGTTCAAAGAAGTATATTTATCATCTTTAACTAAGTTTTCATTTAAGATAACAGCATCTTCATAGTTATAACCATCAAAAGTCATGAAGGCAACTGTCATATTCTTACCAAGAGCAAGTTCTCCTTTATCAGTAGAATTACCATCAGCAAGGATAGTCTTACCAGCTACTACCTTATCTCCTACATCAACAATTGGTCTTTGATGAGAACAAATAGATGAGTTAGCTAGTTCAAAGTTTGCTAAAGTATAAGTGTCTTTTCCCTTAGCGTTCTTAACAACTATTTTTTTAGCATCAACATATTCAACAACACCATCAGCCTTAGCAATTACTTCTACACCTGAATCCTTAGCGGCTATAAACTCCACACCAGTACCAATATAAGGAGCTTCAGTCTTTAATAAAGGCATTGCCTGACGTTGCATGTTAGCACCCATTGAAGCACGAGTTGGATCATCATGCTCTAAGAATGGGATACAACTAGTAGTAACAGATACAACTTGTTGTGGTGAAACATCAATATAATCTACTTGATCAGGAGTTGCTAGAATATTATCTCCTCTAAAACGAGCATTAACTGTCTCAGCAATAATCTTATTCTTACTATCAGTTTCTACTGTTGATTGAGAAATAATATAATCTTGTTCCTCATCAGCAGTTAAATATTCTATTTCATCAGTAATAACAGCTTTCTTAACTTTACGATATGGAGTTTGAATAAATCCATATTCATCAACCTTGGCATAAGAAGCAAGAGAAGTAATAAGTCCGATATTTGGTCCTTCTGGAGACTCAATTGGACAAATACGACCATAATGTGATGAGTTAACATCACGTACTTCTACACCAGCACGGTCACGAGAAAGACCACCAGGTCCTAAAGCTGAAAGACGTCTCTTATTAGTAAGTTCAGCAACTGGATTAGTTTGATCCATAAATTGTGATAGTTGTGAGCTACCAAAGAATTCTTTCATTGCCGCTGTAACTGGTCGAATATTAATCAAAGTCTTAGGAGTAACCTCTTCCATTTCTTGAGTAGTCATTCTCTCTCTAATAACTCTTTCCATTCTAGAAACACCAATTCTAAATTGGTTTTGTAATAGTTCTCCCACTTGTTTAATACGTCTATTACCTAAATGGTCAATTTCATCAAAGTTACCAACACCATGAAGTAAGTTTAGATAATATGATACAGACGCTAAAACATCAGAAATAGTTAATCTCTTCTCAGTAATCTTTTGGTCATTACCAATAACTACTAACTTTTTCTTCTTATCAGCCGGATCAATAATCTTTACGATTTGTACTGTTCCATATTTATCTAACTCTTCATTAATCTTAACATCTTTATTACCAAAGCCTTTTTCAAAAGCTTTTTTAACTTTATCAATATTTTCCTTAGTAATAACTGTACCTTTTTCTAAAACAACTTTACTTCCTTGTTTAATATCTTCAGCTAAAGTTTGATTTAAAAGACGATCAGTAATATTTAATTTTTTATTAAACTTATATCTTCCTACTTTAGATAAATCATATCTAAATTCATCAAAGAATCTTGTAATAATTTGGTTCTTAGAAGAATCTAAGGTTGCTGGCTCACCTGGTCTTAATTTTTCATAGATTTCGATTAAAGCTTCATCAGTATTCTTAGTACTATCTTTTTCAATAGTGTTCTTTAAATACTCATCTTCACCGAATAATTTAAAGATTTCTTCATCACTAGAAAGACCAAAAGCTCTTAATAAAGTAGTAAGAGTTACTTTTCTAGTACGATCAATTCTTACATAAAGAACATCTCTAGCATCAGTTTCATATTCTAACCAAGTACCACGATTAGGAATAATTTGTGATGTAATTAGCTTTCTTCCGTTCTTATCTATTTCATTATTATAATAGACACTTGGTGAACGAACTAATTGTGATACAACAACACGCTCAGCACCATTAATAATGAAAGTAGCGCTTTCTGTCATAATTGGCATATCACCCATGAAGATTTCTTGTTCTTTTACTTCGCCTGTTTCTCGATTAAAAAGACGTACTTCTACTTTAAGTGGTGCGGCATAGGTAGTCTCCCTATCCTTACTCTCTTTAATAGAATACTTTGGTTCTTCAAAGTGATAATCACCAAACTCCAACGCTAAAGTTCCAGAAAAATTCTCCACTGGGAATAAGTCTTGGAATACTTCCTTAATTCCTTCCTCAATAAACCAGTTATAAGATTTCTTCTGGACCTCTAATAGATCTTTCAATTCATATGAGTTTTTGATTCGTGAGAAATTCCTTCTCTCCCTAAAATTACCGTATTTTACTGTCTTATATGCCACTATAAATTCACCCCAAACAATTATTTTTTAGACGACGAAATCGTGTCAAAGGAACACGTAACCAACTTATATTAATAACATAGTTCAGTCAACAAGTCAAGAAAGTTTTTCACACTTTAGAAGATAAAATCCCTTCTTTTTTCCTAACACTGTAACATTATATACTTTTTCTAAGTCGATTATTAGCGATTTGGCTCCCTGCTCTTTTTTAATAACCAAGAACAAATTGCCCTTTTCTTTTAAATGATCGTTAGCTCCCATCACCATTTCATAAACTATTTTCTTTCCTGCTCTAATTGGCGGATTAGTGATAATAGTGTCATACTTCTTTTTGACATTTTGATAGGCATTACTTTCAAAAATAGTTATGTTAGTACACTTATTAGCCTTTAAATTCTGTTTAGCCAGGTGTAAAGCTCTCTTATTAATATCGACCATATCGACATTAGCACCAGTCTTTTTAGAAATAACAATTCCTAAAACTCCATAACCACAACCCATATCTAAGACCTCAGCTCCAACTTCTACTAGTGGGATGAATTCTAATAGAAGTCTACTGCCAAAATCAATCCCTTTTTTTGAAAACACACCATTGTCAGTGAAAAAGACAAAGTCCGTCCCTAAGATGTTACATTTAACTTCGTTAATTTTACTAGGCAACTGTTCATTAGTAAAGTATTGTCCCATATTATCACTCTTCTACTAAAATAGTGCAAAAAAGAAAGAGACAACCATATATTTACTGATATAGTTGTCCCCTTTCGAGTTATATAATAACACTAAGTAAAATATCTGTCAACTTTTATCTTAAAACATTTGTGAATAAATATAAAACACCTAGCAAGAATCCAACCATAGTTATTGCCGCATAGAAGTATATTGTAACGAAGGCAGTTGGCTTTTCTTCAGGTTCTGCATATAGCTTACTAGCTGCTGTAGCCTTAGTTAGAGTCCTATCAGAACCTCCTGCTGATGGACTACTACTAGGAGCAGTTTTCTTCTCTTCTTCACGAAGAGCTTCTTGGTACTCGTTTAATTTCTTTTCACTCTTCGTTTTGGCAAAATCATTATAGTAAATACCGGCATTTCTTTCAATAATACCGCTATAATAACCCAAATCATCTTCAGGAATAAATTGACCAAAATCAGCAAAGTTTTCTCTAACAAATTTACTATTTAAATTATCAACAAAACCCATATAAATAGAAAGCATCAATAATGCTTGTTCAAATAAGTTCTGTCTTATTATTGAATCTTTAGAAACATCTGCTGGTATTTTATCAATATCCTCATAAACTATTTGTCCCTTATCAATAAAAATCTTATTAGAATTATATGATTTTACATAATAATCCTGATCATGAAGATATTTAGTCTTCTTGTCTAGTTTTAAATTCAACTCTCTATATATATCATCAGAGTTTTCTGCCCCAATGGCAGCATCAAATCGATCATTATTTTCTTTTTCTTTTAGGAGACTATTAAGAGAAACCGCCTCTTCCAAAGAAGTATTAGCTGTTTCTGCATCAAAATAAACAAGTTTTTCTTTTAATTTCTCGTTCATGCTATGCTCCCTATTATTATTATAGAGTTTCTATGAAAAAATATCAATCAATATTTGTTTAGTTGACACCATATTTGTTAAGATGAATCTTAATCCTTCTTATAATACTATTAACATTATTAATAGTAATATCTAATAGTTCGGCAATCTCTTTAATCTTAAAACCATTAAAGCGAAGCTCAAAGACTGAACTCTGTAATAGACTCATTTCATTCTTAATATTACGCATTATATCTAAATAATCAGTATTAAGTATTTCCTCATGAGGATATGCCTTATTTGACTCCAAAACTTCTAAATAATTTTTCTCCCATAGATCATTATCATACGAATAAGTATTATTATATAGATCCTTAGCTTTACTAATTCTTTTAATATAAGTTAAGATGTGCCTTGTAATACAAATACTAGCAAAAGTATAGAACAAACTAGCATTATCATTATAAGCATTAATAGCATTATCTAAAGCTACAAATCCTTCTTGAACAAGATCTTCTCTATCAACAAAGCTATAATTAATACACTGGTAATACTTATTTACTATTCTGTCGATTAAAGGTCGATACTTATAAAAAAGCAAATCTTTATCGATTTCCTTTTCTTTAACCATATAAATTACTTCATAATCATTGATGCTTTTATAATCCATAACCTCCTACTTTCTATTACGGATTACCTCATAAATCATTATGCCACTAGCAACAGATGCATTTAAACTATTAATAGTTCCCCTCATTGGAATCTTTACTCGATAGTCGCAAGCTTTACTAACTATATCAGAAATTCCTTTACCTTCATTACCGATAACTAAAGCTATTCGACCACTATAGTCAACTTCGCGATAATCAAGAGAATCATCAGCAAGAGTTGTTCCTACTACCCAAAAACCATCTTTCTTTAAAACATTGATAGCATTAGCAATATTACTAACCATAATAACATTAGTATTAAGAAGAGCTCCTGCGGAAGTTTTCATCACCGTTGCATTAACTCCAACTTGTCTGTTTTTAGAGATAATAATATCTTTAATACCCGCTGCTTCACAGGTTCTAATGATTGCTCCTAAGTTATGAGGGTCTTCAATATGATCCAAAATAACAACTACTGCATCCTCATCTTTCGAAACATCTTCTAATGATTTATATTGGTAATCCCTAATATCCAGTATTATACCTTGGTGTTTACCATCAATCAAATCATCAATTTCCTTTTTTTCTAAGTAAATAGGAGTAATTTTATTCTTTTCTAAAAGAGAAAGTATTCTTTTATCATCAAAGTTTTGTTGTAAAAAAACTTTTTTAATGTTTTCCTTCTTTTTTAACACTTCCAAAGCTACATTTCTTCCATATATTAACATACCTATTCACCTAAAACCTTCTTCATTATTTGATCCACTCTACTCTTATTACCTACTAAATCTAAATAACCAATCAAAGCTTCTAATCCAGTAGCCATTTTATAATCACCGATATCACAATTCTTAGGATGTGTATTACTTTTACAATTACGAGCACGCTTAAATACATCAAATTCTTCTTCGTTCAAAAACTTCTCAGAAATTAATCTTTCTATAATCTCTTTCTGAGCTTTAGCACTGACATATTTAACTGCTTCTTTTTGTAAACTATCAACATTAGCAATACCTTTATTAATTAAGTACTTACGTACATATTCCTCGTATATAGCATCACCCAAGTATGCTAAAACAAGGGAATTAATCTCCACTACCTTCATACCCTACTCCACTTTATAAGTTGTTCCTTCACGACTATCAATCAAAGTTATTCCCTTAGTTTTTAATTCATCGCGTATTTGATCAGCTAAAGCAAAATCTTTGTTCTTCTTAGCTTCATTTCGTCTTTCAATTTCCTTTAGAATATATTCTTCTAAATCTTTATCAATCTCTGCATCCTTCTTTAATAAGTCAAGAGATAATACTTTATCAAAATCAGCAATTAACTCTAACTTAGTCACATCACTAATAGAACTGTCTTTTAAAACATCGTAAAGAGTAGTTATTGCTAAAGCAGTATTTAAATCATTTTTAAGAGCCTCCTTAAACTTATCCTTATACCTAGAAATAGCTTCTTGATCAAGAGTTCCTTCTTCCTTCAAAGAACCAATTCTATTCAATAACTTATGATAAGCGGTTTTACTACTATCCATCGTTTCATATGAAAACTCTAAAACATTACGATAATGAGAATTTAAGCAGAAAAAACGATATTCTAAAGGAGTATATCCTTTTTCTTCTAAAAGAGATAAAGTCAAGAATTCTCCTTTAGATTTACTCATTTTACCAGATTTATCATTTAAAAATTCCATATGAACCCAGTAATTACACCATTTATGTCCTAAGAAGCATTCACTTTGAGCAATTTCATTAGTATGATGAGGAAAAATAGCATCTACCGCCCCACAATGTATATCAAGTTTTTCTCCTAAATATTTAAGAGATATACAAGAGCATTCAATATGCCAACCAGGATAACCCACTCCCCAAGGAGAATCCCATTTTAATTCTTGATCATTAAACTTAGAATTAGTAAACCAAAGACCAAAGTCATTAACATTCTTCTTAGCCTTATCAATTTCTACATCATCACGAATAGCTGCTTGTTGCTCTAAAGGATTACGATTAGATAATTTATAATAATCTTTATATTTAGTTGTATCAAAATAAACATTACCATCAGCTACATATGCATAACCATCATTAATTAGTTTCTCAATTACTTTAATATATTCATCTATATTATCAGTAGCTTTACTAATAATAGCTGGCTTCTTAATATTTAACTTTTCTATATCTTTCATGAAAGCATCAGTATAAAAAGAAGCAATCTCTAAAGCTGATTTCTTTTCCCGACGTGATGCCACTGCCATCTTATCTTCGCCTTCATCGCCGTCACTAACCAAATGACCAACATCAGTAATATTCATACATCTGTTAACATCATAACCAATATATTCTAAAGTCTTTTGTAATATATCTTCTGAAATATATGTCCTTAAATTCCCAATATGCGCATAATTATAAACAGTAGGTCCACAGGTATACATAGTTACCTTTCCCTCCTCATTAGGAATAAACTCATCTATTTTCTTAGTCAAAGTATTATAAATTTTCATCTAATCACCTCGCTATTAAAATTATACCATAAAACTATAAAAGCTGAAATCTAAAGAATTCAGCTTTATCAAATTAACCTATTATTATTTCCTTTTCACCAGCTAATATCCTATCGATAATTATCTCTGAAAACTTACTATCAATAATCATATCTGTCCTACTAGCCCCATATTTTACATAATCACTTTCTCTAACTATTTCATCGATTATCTTCCTATTAAAAGATAAGGCAATTCCTTTTTCTAGATAGTATTTTCTCATCTCCGTTAATTTATTCTCAATTATCATCTTAATTCCTTTATTAGTTAGTTTCTCAAACATAAATACTTTGTCTATTTTACTTAAAAACTCTTTAGAAAAATATTTATTAATAATAGTTTCTTTTCCATCATCAACAAAACCCAATCCTCTAGTATCAATAGTAGTAGTCATTAAAATAGTACAATTATTAAAATCAATTTCTTCTCCTTTATTATTTTCTATTTTTCCTTTTTCCATTATTTCTTTGACTACTTTTTTAACCTCATTAGCAGCTTTATCAATTTTTTCCATAATAATTAACATCCTAGGGTGCTTTCTAACCTTTTCGAAAACACAATCATGGTCATATCCAACATATCCTGGAGGCGATCCTAAAAGTTTAGTAAGGGAACTAGTATCTTTATACTCTTCCATATTTAACCGCAAGGCTTCATCATAGAACTCATTCTTATATATATTAATTAAAGATGTTTTACCTACTCCGATAGTTCCAATTAATAAATAACTATGAACTCTATTCTTTTTATAAGAATTAAGCTTAGTTTCCCTAATTAATTCATCAATAATTATATCTTGCCCAATAATTACTTTTTTCATCTCCCTAGCTATTTTATTAAGTCCTTCTTTACTATAGTGCTTATTAATTAGTACCTTAGCCTTCTCTTCTACAACTCTAATAATTGTTTCTTCATCTAATTCTTTCGGACTATTATAAAGTTCTAGTTTATTTAAACTATTTTCTAATTGCTGCTCCTTTTTCCGTAAGGAACTAGCCTTTTCAAAATCGCCATTCTTAATAGCTTTATTCTTATCTTCTAATATTTCCCTCAGTCTTTCTCTATACCTTGTTTTCTTCTCATCTTCTCTATTACCAATCACTATTTTCTTAGTGCAAGCTTCATCTAAAATATCAATAGCTTTGTCAGGTTGTTTTCTATCATGAATATATTCATTAGAAAGCTTAATTATCATATCCAACTTATCATCAGAAATAGAAATATGATGGTACTTTTCATAAGTGTTTTTTAAGTTCTTAAGAATTTCTTTTGTCTTATTAAAATCCGGTTCCTTAACTTCTATTTTTTGAAATCTTCTATTTAACGCCGCATCTTGCGCAATAAACTTATTATATTCATTATTAGTAGTAGCCCCTATAATCTTTATTTTATTACGTGCTAAAGCTGGTTTTAAAATATTAGAAGCATCAATTGCTCCTTCAGCGCCACCAGCACCTACTAGAGTATGTATTTCATCAATAAAAACAATGACATTATCCACACTTTCTAATTCATTAATCATTTTATTAATTCTTTCTTCGAATTCACCTCGATACTTAGTACCGGCTACTAAAGAGGCCATAGAAATCGAATAGATCCTAGCATCTTCCAATTTGCTGATAGCTTTCCCCTCAGCAATTTTCAAAGCCAAGCCCTCAGCAATGGCCGTTTTACCAACTCCAGCTTCTCCTATCAAAACAGGATTGTTCTTAGTTTTACGCATTAATATTTCTTGTAGTCTAAGGATTTCTTTATCACGGCTACTAACAGGATCTATCTCACCTGCTTTAGCCTTTTCAGTTAGATTAATGCCGTATTGTTCTATTAATAATTTATTACTCTTCCTTGTCTTCTTCTTTATTCTAACGGCAAAAACATCATAAAGAGCTTCTACGTCAATATTCATTACCATCAATATCCTAATGGCGACACCGTCGCCTTCTTCTAAAAGTGATAAAAAAAGTCTAAGCACACTTACTTTGTCTTCATTATTATCATGAGAATCATAAATAGCACCTTCTAATATTCTTTTTAATAAAGGCGTATATAAAAACCATTTATTAGTTTTAGAGCCCATACCAATAGAATCAACAATTTCTTTATAAAAGATATCATATGTTATATCGTATTTCTTTAGTTGTTTAGTCAAATCCAAATCTTTATGGGATAGGATTGCTAATAAAAGATGTTCACTTCCAATATAAGGGTGTCGTAATTTTTCTTTTTCTACCTTGGCATCTAACATTACTTTTTGGGCATCTTCTTCAAACTGTGAAAACATAATGTTCCTCCTCAAGTATATTCTATGATTATTCTTACCCCATGATCAATAAAATATGTTCTAAAAAAATAGACAAATTATCTCAACAAAAAAAGACTAGGAAACCTAGTCTAATTCTAATTTTTTACTTATATAACCAATACCCAAAAGAGTAAGAATGCTTAGTAAGAGTAAAACTATATATGGTGGTATTATCGTCTTAACACCAGTATCTACACTAAGATCATAACTATTCTTATAAGTTATTGTCATATCCCCAACAACTTCTTCAGCAATAACTCTACTACGAGTATTATTAACAGTTGTTGTATAGGCATTTTCTTCTGCTTGAGTAACTCTTACAGTATAGCCCTCTGGAATAGATAATATTTCAGATTGATCATTCTTCAAAGTAAATGATGTACTTAAGTTGTTATCAATTACATTATTAGCGTCACGAACTTCAACAGTATAGCTGAAGTACTTTCTAACATTACCCATATTTCCTTGTATTTGGTTAGTAATAGTTACATATGAATTATCAATTACATTAGCACACTCACTATCTTTAACAACGTTAGAGCCAGAAGATTTAGTTGCTACTATAGCATCTATATTAGTGGTTACATCGCAGCTATATTTTACTCTTATTTGTGTTAATAGGGCATCAGTATATGTGGCAGCATTGGTAAATGCAGAACCATAAGATGTTGGATTGCCTAATATTGGGAATATGCCAGATGCTTTAGTAGCATAAGCAAATACATTAGACACATTTGTTACATTTGAGGTGTCCCAGTTACTTGCCCCATCTATATCCTCTAAGGCACTACAATTTCTAAACATATAAGACATATTTGTTACACTTGAAGTGTCCCAATTTGATAGCGCATCTATATCGTCTATGGAGGTACAACCGTAAAACATATAAGACATATCTGTTACACTCGAAATGTCCCAATCTAGTAGTGCATCCATATCTACTAAGGCGACACATTCTCTAAACATATAAGCCATATTTGTTACGTTTGAGGTGTCCCAATCACTTGCACCGTCTATGTTTGCTAACGAACTACAATAAGCAAATATATTAGATATATCTGTTACACTCGAAGTGTCCCAATCTGATAAGGCATTAATATTTACCAACGAAGAGCTATATCTAAACATATAAGACATATTTGTTGTACTTGAGGTGTCCCAATTACTTAAAGCATCTATATCAGTTAAAGAACTACAATTTGAAAGCATATAGGTCATATTTGTTACACTTGAAGTGTCCCAATTACTTAGTCCATCTATATCTTCTAAGGAACTACAACTATAAAACATATAGGACATATTTTTCACTTTTGAAGTGTTTACTTGTGATAAGCCACTTGTATCTGTTAGACTTGCAAAAACATCAAACAGATATGATGAATCAGGATTTAAATACACTGTCTCTGCTTGACTATAATAATATACCGTATGAGTCGTATTATCATAGAAAATATATATTGGATATTCTGACCCAGATATTGATATTGTATTATCTGCCGATGGAGTAAACCCATCTGGTAAAGCACTTGCTCTTTTAATAGCTTCTACTGTTGAATCAGTAGCAGTGTATGCTTGTGACGACCCAGCTACTAACGTTTTTATCTTAGCATTGACATTTTTACCTGTGTCAAAGACAGTTTTATTTCCACCAGTACAACTTCCTTTGACAACATCAGAACTTGCTGATTTAGTAGCAATTATCGCATCTATATTTTGCGTTATTACACAGTCATATACTACTGTTATTCGAGTATCTGCCGCAGTTGCAGCATTAATAAAGGCTCCATCATATGTTGTTGGATTGCCCAGTATTGGAAAAGTTCCAGCTGCCTTGGTAGCACCAATAAATACGTAAGATACATTTGATACACTTGAGGTGTCCCAGTTACTTGCTCCATCTATATCTTCTAAAGAACTACAATAACCAAACATATAATACATATTTGTTACACTTGAGGTGTCCCAATCACTTAAAGCGTCTATATTATCTAAAGAACTACAATGATAAAACATATAAGACATATCTGTTACACTTGAGGTGTCCCAATCACTTAAAGCGTCTATATCAGTTAAAGAACTACAATAATAAAACATATTGGACATATTTGTTACATTTGAGGTGTCCCAATTACTTAAAGCGTCTATATCAGTTAGAGGACTACAATAATAGAACATGTAATCCATCCTTGTCACATTAGAAGTGTCCCAGTTACTTGCTCCATCTATATCTTCTAAAGATACACAATACCAAAACATGTGATCCATCCTTGTCGCATTGGATGTGTCCCAAGAACTCGCACCATCTATATTTTCTAATAATCTGCAATTATAAAACATATTGGACATATTTGCTACATTTGAGGTGTCCCAGTTTCCTAATGCTCCTATATCTGTCAAGGATTTACAATAATAAAACAAGTCCATCATCTTAATTACTCTAGAAGTATTCCAATTTGATAAAGCATTTATATCTGCCAAAGAGATACAGTTACGAAACATATAAGTCATATTTTTAACCTTTGAAGTATTCAATTGTGATAACCCACTTATGTTTGTCAAAGATTCAAAACAACCAAACAAATATGAAGAATCAGGATTTAAATACACTGTTTCTGCTTCACTATAATAATAAACTGTATTAGTTGTACTATCATAGAAAATGTATATTGGCTTTTCTGAAGTGCTTGTTGATACTGTGTTGTCTGATGATGGAGTAAATCCATCTGGTAGATCATTTGCTCTCTTAATAGCCTGTACTGTTGAATCAGTATCGCTATATAACTTAGATGAACCAGCTACTAATGACTTTATCTTAGCATTTACATTTTGTCCTGTATCAAAAAGGGCTGTACCAGATCTATCATATACATCTATTATATATGGATCTGTTTGTGAACCTGTACCAGATCTATAAGTTACACCTGATTTTAAGGATACTACTGGTCGAGTACCATAAGCAGTGGTAACAATAGTATTACTCAAAGTACCTGATGTAGTTATATAACTCTCGTTCGGACCATTGTTAGCTAAAGAATTAGGGGACCCTGTCAAATATTGAACTCCCGTTGTTCTTGCTGTATCGTTATCTAACAAGTTCATCTCTGCATAAGTTGCTAAACCTACTGGATATTTATTCTTAGCTTTGCTATTTCCTACTGCGAATTGATCAATTTGCCGACTACATTTTAAAGTTGTATTTCCATTTCTATCACTAAAAGTCATTGCTGTAGTTAAGCCACCACTTGGATCAAGTCCACTTGTTGATTGATTGGTTCTAGTTCTATCATTACAATATATTGCATCTTCAAACAGATCAGTATAATCTGTCATATTTTGGCCATACCAAGCTTCTATTTGCCCTTTTATTGAAGAATTATACCTATTAACACCATCATCATCAAGCATAGCTGTAATAGCTTCATCTATTTTCTTACCATCGGACAGTTCTATAAAGTATTTATTAGCACCAGAAGTGCCTCTAGTATAATAATACACATAGTACACAGTTGAACAAGTTGTTCCTGTTGTTTTACAGGTATAGTGATGAGTAGCATCAGGATATCCAGCAATTGTATTGGTTAAAGTATAAGTTCCGTTAGAATATGATACATTACTACCATACTTAAACCCATCATGAGCAATATAAGTTATTGCCGTAGCAGATACCGCCACTGCATATTTTGGATTACAAGTTACTGTACTTGATGTTCCCGAGCAGTAATACTTATTTGTAAGGTTTGAACGATTAGAATAGTATGTTGTTGATCTAATATTTGTAGCATTATTAATAGTAGTTCCTGAATAACTAGTTCCATATCGATAATACTTATTAACCGCCGCTAATAAACTTCCACCGGTCATAGTTATATAGTAATATGTAGATCCACTTACATTAGTTATATAGTATCCTGTTGATCCTGTTCCAGTAGAACTGGTAGATCTAACCGAATACTTACTAGCACCCCTAGTTTGATTAATTGTTCCTCCTAATTTGTATTTACTGCTAGTATAACTTATACTTGTACCATAATACATACTAGTTGTAAATAAAGAAGTAGTTGATTGTAAAACTGTTTCTGAACTAGTACTCTGTGATTGAGAAGTTCTAGGGTAGGTAGTGTTTTTCATATACCCTAACACTGCCGGCGCACCATTAGTAGCATTAAATACACTTGTCCCTATTTGGGCATAATTAGTGTCGTCTACAGTATAACTTGTTGTATAAGCTAATGTCGATGAATAATATGAATTAACATTATAAATAGTTGTACATGTATTAGAAGAAGATATACAGGTATATTTACCTAATAAGCTTTTATATGTTGAATCACTCCAAGTAGTACTACTTGGATTAGTTAAAGTAAATAATCCTGTTGACTCATTGTAAGTAAAGCTATCCCCATATTGATACTCCCCACCGGATAAATCTGTTGTTGTCCCACTAGTACCAACTATTCCTGTATGATCACCTCTTGATGTATTACACTTATTAGTAGAATCATATTCACCGTTATATATCATCTTTACTCCACCGGTATCGGTAGTTCTTAGTATCTGCCAACAAGTATTTCCTAGTTTAACATTATTATGATTAATTATATCGTTACTTCCAGTAAAGTAATGAATTGTTTCGGTTCCTGAATTATCTAAACTATCTTGGTGTTCTCCTGAATAAGTTGATGTTAAAGAATCAGCTGCCACAGCGTCATATAAAGTATTATCTATTCCATAAACCACTTTTATGGTGTGATCCTTTATTATATTGTTAAAAGTATATTTATTAGCATATGTACTGATACTTACGCTTTCTCCATCAACTGTAACACTCTTTAATGTATAACCATCATCTGCATTATAAGTAATTGTTTTCTTAGAACCCTTTTCAACTTGAGTAGTTTTAGTTATGGTTCCATGTACTACTTCAGTAGTTATTGTTGGTCTAAAGTCTATTACATACGGATCATCCTGCGAACCAGATCCAGATGCATATCCAATTCCAGCTTTTAAGGAAACAACAGGACGAACACCATTAACAAAATAAACAGTATCACTACCAGGGTTTACTTGCATAACGCGTTCAGTAGCAGAATCAGCATAAAACTGCATAGGCGATAATAGCCAATACCTATTTGTTGATTTCATAGTCTCACTCGCCAAAACTGCCTCCGGATATGTTGCTAACCCTACTGGATATTTGTTCTTAGCCTTTGAATTTGCTACCGCAAACTGATCTGTTATACCGCCGCATCTCAAAGTACTATTACTTGTGCTATCTTTAAAATACATGTCTGTTGTTAAAGTTCCACTTTTATTCCAACCATTAGTTGAAGCATTTCTCTGAGTTCTATCATTACAATAGATTGCATCCTCAAATAATGATGTGTAATCTGATAATTCTTGACCATACCATGATTCAATTAAAGCCTTAACAGCAGAATTATATTTATTTACATCATTATCATATAACATCTGATCTACTACTGCTTCTATATTAGCTTCTCCACTTAACTCTATATAATAGTTGTTATAGTAATAGTACCTAACCGTTGAACATGTGCCAGTGGAGTTATTACAGCTATAATGATGAGTAGCATCCTTAGTAGTTGATGTGTTTACTAGTGTATATGTTCCATTTGAATATGTAACTCCACTTCCCATTAATGATCCACTGGTTGGAGCAGCCTTTCCCGCATAATCATATGATTTATTAAACATATATCCTACCATTGCTGGTGAGAATCTATTAGCGTTAAATGGACTTGTTCCTATTTGGGCTCTGCCGATTGAAGAACTTATTGTATAGGATGTAGTATAGGCCTTAGTTGAACTATATTTAGATCCCACATAATACAAAGTTGTACAACTATTATTACTATTCTTGCAAGTATATTTACCCACTAGATTTGTGTAGGTAGAATCACTCCATGTTGCGCTTGTTGGATTTACTAGAGTAAAAGTTGTCCCACTCCAAGTAAAACTATCAGCATATTTATAAGTTCCCCCGCTCAAATCTGTTGCGTCTGTCTGGTATGTTCCTGCTGTTCCCACAAATCCAGTATGGTTTCCTCGTGACGTATTACACTTATTAGTAGAATCGTATTCACCATTATAGATCATCTTGACACCGCCAGTATCAGTAGTTCTTAATATTTGCCAGCAGGTATCCCCCAGTTTAACATTATTGTGATCTACGACATCTTCACTATTACCAAAATAATGTATTGTTTCTGTTCCAGAACCATCTAAACTATCTTGGTGCTCTCCAGAATATACTGACGTTAGAGAGTCATTTGCTATAGCATCATATAGTCCAGAATCAGATTTTTTATAACTAACTTTTATTGTGTGATTAGCTGTTACATTAGTAAATATATAACTATTCGCATATGTGCTTATATCTACGGGATCACCATCTACAATAACACTCTTTAACTCATACCCTTTATTGGGATTATATTTTATAGTTTTGTTTGCTCCAGAGCTAACTCTAGTTGTCTCTGTTATTGTACCATTAGCTACACTGGTTGATATTTTTGGTCTTGTATCAATTTCTACCACATATGGATCAGTCTGTGTTCCTGTTCCTTCCGTATATGTTGTACCTGATTTTAATGAAACAACTGGACGAACTCCATAACTAAGATAAGAAGCATTACCATTTATAATCCCATCTGTACTCGTAAGAAGAGAAAAGGTATAAAATCTAGTTGAATTTGAAAAATATCTAGGTGTTATATGATAGTAAGAAGCCCCTGTTCGTCTAGCTGTATTATTAGATATTAAATTCATCTCCGTATATGTTGCTAATCCTACAGGATATTTATTTTTAGCTTTAGCATTCCCTACTGCAAATTTATCCGTTTCGCTAGGGCATTCTAACACTGTGCTGGTATAAGCACCATCAAATTGATATGATACTGATGTGCTTCCGCCATTTGAGTTCCATCCATTATTTGTTGCATCTCTTCTTATTACCCGGTTATTACAATAAATTGTATCCTCAAACAAATCTGTATAGTCATCCATTTTTTGAGCATACCATGCTTCCAATAACCCCTTTATAGAGGAATTATATTTATTAACATCTTCATTATATAACATCTCATTTTTAGCATCATCAATGCTTTTTCCGCTTGTTAAAGCCACATAGAAAATCTTTGGATTTGATGTATGTTCTCTATAGAAAACATATTTTAGACTTTGACAAGTATTACCAGTCGATAAACAGGTATAGTGATGATTTGACAAATCATCTTTACCATTTGATCTTTTAGTGTTTTGCAATGTGTAAGTTCCGTTGCTATAAGTAAAACTACCACCTACTACATACCTAGTATCGGCAGTAGGCGTTCCCGATCCTTCACTAAGGCTAAACACCACATTATCATTACCAGATGAACCCTCTTCATCTTTGCTATAGACTACTTTTATCTCTTCCGATGCCTGTAAATTATTTATTGATATTTCCCCGCTCGCTTCGCCATCAAAGTTTCCTAAATAATCTGTTCCCCTATAGAAAGCAACTTCATCATACTGTGCTTCACAAGAAACTGTATAGCTTAATTTATAATCTCCCGCTGTTGTCACCTTAAATATTATTGTACTGTACCCATCATCCTGATGCATTGCGCTTGTCCAAGTTTTATTAGTACTATCCCATGTATATGGATAACCAGAAGGACTGGAATAATTTGATACTATACTATAATCACTTTGATCAAGTAAAGTATAGGTTGGATAAACAATATCTCCCCAATTTGTAGGACTTGTATCTTCATAATTATATACACTATTAAACATGTACCCAACCATTGCTAAAGAATCATTATTAGCATTAAATGGGCTTGTTCCTATTTGGGCTCTATTAACAGAAGAACCTACTGTATAGTATGTAGTATAAGCGGTTGTACCACTCTTATATCCATTAATGTTATAAATCGTTGCACATGTATCAGATGATGATGCACAAGTATATTTGCCTAACAGATTTTTATATGTACTACCATTAAAAGTTTCAGTAAAAGAATTAGTTAATGTAAATTCTCCCTCTTCCTCGTCATAAGTAAAGCTATCTCCATATTTATATGACGAATTTAAATCAGTTGTAGTTCCGTTTGTTCCAATTATTCCCTTATGAGTTCCCCTAGATGTATTACATTTATTGGTTTCATCATATTCTCCATTATAAATCATCTTTACTCCACCAGTATCAGTGGTTCTTAATATTTGCCAGCAAGTATCACCTAGTTTAACATTATTATGGTTAACTATGTCGTCACTACCAGTGAAATAATAAATTCCCTTAGTTCCTGGATTATTTAAACTATCTTGGTGATCCCCTGTATAAGCCGCAACTAAAGAATCATTTGCTACTGCATCATATAAAGTATTGCTGCTATCTGCACGCGAAAAAACCAGGAATGCTCCTATTACGATTACAGATACAATTAAGTAAAATCTCTTACGTCTATACATATGCTCCCTCTACTATATAATCATCCAATTATATTATACCTTTTTTTTATGTATAAAACAATATTTATTACATAAAAAAAAGATGGATTTTTTCCATCTTTTTTATATCTTATATTGCACTAACTATAACAAAGATTATAAATAATACAACAATTAATTCTAATAGTAATTTCCAAACAGCTTTTAACCATTTTTGATATGGAACATCTAAGTATGTTAGAACACCCATCAAGATAACACTTGTTGGAGCTACTAACATAACAGCACCATATAGTGATTGGAACATTACAAATACTAATGATTTATTTACACCAGTTTGAGTAGCAATTACAGGTACTGTTGCTTGGAACGCATATGCTGCATCAACATTTAGTAAACTAGAAATGATAGCAGTTATTCCACTAGCAGCAAGACTAAATTTCTTACCTAATATAGCATTATAGAAAGCTAATTGGAATGGATGGTATGTTACTAATACCAAAATACCATAAATTAGTATTACTATTAATGCAGGTTTAAGAGCTTTTTTAGCACCTCTACCAATAGCATCTAAATAGTCATCAAATTTGATATTATAGATAAACTTAATAATCAAACTTAATACTGCTAACATGATACCAATTTCCATTACAGTCCAGTTACCAAATGATGAAACTGTTCCTAATACTTTAGCAAAGATTGGGAATCCAAATAATTTGAATCCAATTACTGCGTTATTAGCCTTTTCAAAAGCCATTAATTTGAATACGCTATTCCATGGTAATAGCGACAGAATCATTACCAATAAAATTACTGCAAAAATAACAATTAGTGGTATTAAACTCTTCTTATTACCTTTACCAGATGGTACATATTCATCTTTAGCAGCTTTTAATTCAGTCTTCTTAGTATTATCTTTAGCAACAAACATTAAAGTATTAAATACAAGTAATGCTAAACCTAATACAAGGATTATTATTTTAACCCAAATAGCATTTGTGTTTTCAAGACCTAATGCTTGATTTAGTAATGATGTATTAGTATAACCAAATGTTGTTCCAGCAATACCGATCATCATTGAACCAACAATAGCAAATACTGCAGTTATCTTACTATATCCAAGTAATAGTATCAATGATATTAAGAATGGTACAAACACTATTAATGGTAACTGCATTCCTACAAATGAAGTAAGTAATGCTAAGATAACCATGATAGCTACTAAAACTATTCTTTCCTTTCCTTTAAATTTAGAAGCTAATTTGTCTAACATCTTTCCATAAGCACCAGTTTCGTTTAGTACTCCATAGAAAGCACCAACTACTAATACAAATAACGCAATATATCCAAAATATTGAAGAGACGTTATTTGATAGTTGAATAGATCAAATACTCCCATTTGCATACGTTCACCTGCTACATAAGCACTACCTTGGAATGAAGCTGTTTTAAAGATCCATGTACACAAGAATAATACTAATGTAGTAAGTAAAACCACTTTTAGTGTATTATGTTTCTTCATAATCTACCTCCCACTATAATTATACTCCACTTTCCCCTTCCTTTTCAACTTTTTTGCGTATTTTTTTCATATTTTTTCATAAAAAAAAGCAAATTTTTCTTTTGCTTTTTTTAATTCTCTCCCTTAGTAAGGAAAAATACTAAAAGAATAATTGAACCTACAAATGGAACTAAACCAATTAGTATCCACCAACCAGATTTGCCAATATCGTGAAGTCTTCTAATATCAATAGCTAGATCAGGAAGTATATTGACTAAAGTCCAACAAAACATAATTATTCCAGCTCCTGAAGCCATGTTGAAAGTATTACTATATGGTGATGTCTGTACCATCATATCAGGACCAAATATTAATGAAGCAATAACACCTATTACAAAAGTAACTATTAAAGACATTAATACCACTAACCAGTAATTCTTTCTACCTGTTTTGCCCTTAAAATCAACATATCCTTTCCAATAATCCTTATAAGCTTGTAACATAAACGATTCTCCTTTCATATAAATTATATCAAAAAATATAAAAAGAATAAATATGAAAATATTTATTCTTTTATATTTGGTTTCATAAGAGGAAATAAGATAACATCTCTAATCGAATCTTGTTCAGTAAATAACATACATAAACGATCAATTCCATATCCGATTCCTCCAGCTGGTGGCATACCATATTCTAACGCCTCTACAAAGTCCATATCAATATCATTAGCTTCATCATTACCCATGTCTTTTTCTTTTAATTGTGATTCAAAACGTTCTAATTGATCAATTGGATCATTAAGTTCAGTATAGGCATTAGCAAATTCCTTACCACCAATGAAAAGTTCAAATCTTTGAGTAAAGCGAGGATCATCTTTATCCTTCTTTGTAAGTGGCGATATTTCAATTGGATGTCCATATAAGAATGTTGGTTGAATTAATGTTTCCTCCACATACTTTTCAAAGAATTTATTAATAATATGACCGTATTGTTTTTCGTGTTCTAATAGTTCAATATTGTGTTCTTCCGCTAATTTCAAACACTCATCTAAAGAGTCAATTTCCTTAAAGTCTATTCCTGTTTTCTCTTTAATGGCATCAGTCATAGAAACTCTCTTCCATTTACCTGATAAATCTATATCATTATCAGCCCAATGATAAGTGGTCTTACCAAAAACTTGATCAGCAATTGTCTGGAACATCTTCTCAGTTAGATCCATCATTCCTTCTAAATCACTATAAGCAAGATAAGCCTCCATCAAAGTAAACTCTGGATTATGCTTAGCATCCATTCCTTCGTTTCTAAATGTTCTACCTATTTCATAGACTGCTTCCATACCTCCTACTAAAAGTCTTTTTAAGGGAAGTTCTAGAGCTATTCTTAAGAACATATCTAAGTCCTGAGCATTATGATGAGTAACAAATGGACGAGCAGCAGCTCCTGTAAGTAAGGTTGATAAAACTGGTGTTTCTACTTCCGTAAATCCTCTACTATCCATAAAGTTTTGAATACACCTAATTATCTTTGGTCTAATAAAAGCTACTTCTCTAACTTCATCATTCATCATCAAATCAACATAACGACGGCGATATCTTTCTTCCTTATCAGTTAATCCATGGAATTTTTCTGGAAGAGGGCGAAGAGCCTTTACAAGATGAGTATACTCTAAACATTTAATGGTTACTTCTCCTGTCCTAGTTTTCATTACTTTACCATGAACACCAACTATATCTCCAATATCAGCACTCTTGAAAAGAGTATAAACTTCTTCACCAACATCATTAATAGAAATATATATTTGAATAGGTCCTGTCTTATCTTTAATTGTGAAGAAAGAAGCTTTTCCCATCTTTCTTACAAACATAATACGACCAGCAACAGTTACTTTATCATCCATCTTTTCAAATTCATCATGTTCTACATCCTGATACTTTTCTTTTATATCTTTGGCAAAACTATCTCTTTCGAACTTTTCACCAAAAGGATCTATTCCTAGTTCTCTAATCTTTTCTAATTTTTCTCTTCTGACTTGTTCTTGTTCAGTTAATTTTTCCATTTTATCACCTACACTTGTACTACTTTTGTATTACCCAAGAAGTCATGAATACCACGACCATCTTTTCTTGCTGAAGCCATTATAATAGTAGCTATAACTATTACATATTGCACTGATTCAATAATTATTGATGCATATAAGAATACATCTTTATTACCTATAAAGGCAAACAATAAGGAAAGCATTTCAAAGATAATGGCATTAATAATTAACGCTCTTAAAACAACATTATTAATAGAAAGCTTATCTCCGTTATTATTAACAACTTTAATCTTCATTAATTTTTTACCAATAGTTTGTCCTTTGTTGTAGAATTGGAAAACTACAAAGTAAAGAATTGTAATTAATAAACTTATTAAAGATGTAGCTCCCTGTGCCCTTGTTATCTCATAATTTAAATCTGCGGTTTGTACATAATAAGTTTTTAAACCTATTTCCTTCTTATTATATTTTTCAGTAGCTGCTTCAGCCTCTTTATTTAACTTGTTAATAGTCTCGGTATTAGTAAAAGGTATTGCTAATAAAGACGCACAAAAGCTTACTAATAGTACATCTAGAATAAAAGCAGCTAATCTTTTAGAAAATATTGCCTTATTCATTTAATCATCTCCCCTCAGCTCATTTAACACTAAAATTATATCATGAATTTTAGTACACTTAAAGATTTTCTTTTTAGTTTCATTAATATTAGGTATTCCTTTTAAATACCAACCAATATGATTTCTTATTTCTAAAACTGCTAATTTTTCGTTTTTAACATCTTTTAAATAGTTTAAATGTTTAATACACATATTTATTTTATTTTCTTTAGTAATTTCTCTTTCGTATTTACCAGTATCTAAATACCCTATACATTCTTCTACTAACCAAGGATTTCCTAATAGTCCTCTACCAATCATTACAGCCTGACATCCAGTATAATCTAACATGTGCTTAGCATCCTCAGGAGATTTAATATCCCCATTACCAATAACAGGAATATTAACAGCTTCTACTACTTCTTTAATAATATCTAAGTCTACTTTACCAGAATACCCTTGGCTTCTAGTTCTTCCATGAACACAAATAGCACTAGCACCTGCTTCTTCAACTTTTTTAGCTACTTCGACAGCATTAATACTATTACTATCCCAACCACTTCTTATTTTAACTGTCACCGGAACGGATACAGCATCTACTACTTTTTTAACTATCTTCTTTATCTTATCTGGATCTTTTAGAAGCGCACTTCCTGCTTGGGCTCTAAGAGCCACTTTAGGAACCGGACACCCCATATTAATATCAATAATATCTGGATGCATTTTCTCTTCAATTAGTTTAGCGGCTTCAACAAAAGATTCTTCATCACTACCAAAAATTTGCTGAGCAAGAGGTCTTTCATAGTCAGTCATATAAAGCATATTCATAGTTTTCTTATTGTTATAACAAATAGCTTTATCACTAACCATTTCAGCATAAACTAATCCACAACCAAATTCCTTACAGATTCTTCTGAAGGCACTATTAGTAATACCCGCCATTGGCGCTAAAACTATTTGGTTTTCAATTACAACATTTCCTATTTTCCACTTCATATCTTCTCTCCAAAAAAGAATTAGATTAATTATCTAATTCCTATTCTTTTTATTTTTAATTAATCTTTTTTTCTCATCATTGATATTCTTTTTACTATATACTTTATGACGACCAGCTCGCTCATATATTTCATTAGCTCTTTCCATATATGTTCTCTCATCTATCTCACTAAGTCCATATTCTTGCGCAGCTGCTTGAACCTTGTCTCTAGTAACAGTAATAGAATTATAGAGAAAAACCCCTTTCTTTAAAAATCCTCTATTATCAATTTCCAAAAAGTCATACTCAGGACTTAATAATTCGGATTCTACTTTGCGTATCAAACATTGAAGTTCATCTCGATTGTCTGTCCCTAAAACTTGTTTTATTTTTAATAGATTTAACTCTTTTCTCAGCTTTTTCAGCTCGCTACTATCCATTATAACTCCTTTAATTATCAAGTTCTTTTAAAAGTTCTGCTTTATTCATTTTTGAATAATTCTTAATTCCTTTTTTCTTAGCAAGTTCTTTAAGTTTAGTTATTGACATAGCTTCTAGAGATGTATTTTCATCTTCATCAGGCATCTTTTTATGCTCAACTAAATAATCAATTTGTTCTTTAGTAAGTGTTTCATACTCTAATAAAGCTTCAGCAATTAATTTTAATAAAGCCATATTGTCTTTAATTATTTCTTTAGCATGCTTATGGCAATTATTAATAATTTTTCTAATTTCCATATCTATTTCATTAGCTACTTCATTAGAGAAGTGTTGTGCTTTATTATAGTCTCTTCCTAAGAAAACACTCCCTTCTTGTTGTTCAAATTGTAATGGTCCTAAATCACTCATACCATATTCAGTAACCATAGCTCTAGCTATTTTAGTAGCTTTTTCAAAATCATTATGCGCCCCTGTAGATATTTCTTTGAACACTATTTCTTCAGCAGATCTACCACCTAAAAGACCAGTTATTTCCTCTAACAAATCGCTTTTGGTCTGACATAATTTTTCCTCAGTTGGAATCATCATGTTATAGCCACCAGCAGCTCCTCGAGGAATAATAGTTACTTTTTGAACATCGCTAGCATTAGCTAATTTAAGTCCAATAACAGCATGTCCAGCTTCGTGATAAGAAACTAATTGACGATCTTTTTCACTATACTTACGAGATGTCTTAGCAGGACCCATAAGTACTCTATCTGTTGCTTCATCAATTTCACTCATAGTGATTTTTTCTTTATTTCTTCGTACCGCTAAAAGAGCTGCCTCATTAAGTAAGTTCTCTAAATCAGCACCTGAAAATCCTGGTGTTCTTTTAGCAATATTAGCAAGAGTAACTGTATCCGCTAAAATCTTATTTTTAGCATGAACTCCTAATATTTCTTCTCTACCTTTAATATCTGGTAAATTAACTGTAATTTGACGATCAAATCGACCAGGTCGTAAAAGGGCAGGATCTAACACATCAGGTCTATTAGTAGCGGCAATAATTATAATACCCTCGTTCTCACCAAAGCCATCCATCTCGGTAAGTAATTGGTTTAGGGTTTGTTCTCTTTCATCATGACCTCCACCTAAACCTGTACCACGTTGACGACCGACGGCATCAATCTCATCAATAAAGATTAGACACGGAGCATTTCTCTTAGCTTGTTGGAACATATCCCTAACACGACTAGCTCCAACACCAACAAATAGTTCTACAAAGTCTGATCCGCTTATAAAGTAAAATGGAACATTTGCTTCTCCAGCTACTGCCCTAGCAAGTAAAGTTTTACCTGTTCCTGGAGGGCCAAATAGAAGAACGCCTTTAGGAATACGAGCCCCTAATTTTTGAAATTTTTTTGGATTCTTTAAGAAGTCAATTAATTCTTTAACTTCTTCTTTCTCTTCTTTTAACCCAGCAACATTTTTAAATGTTACTTTGTTTTTCTCGCTATTTAGTTTGGCTTTGCTTTTACCAAAGTCAAGGGAACTCTTGTTACCAGCCATCTGCTTACTAAACAAGAAGAAAGCTCCACCTATTAATAAAACTATTGGTAAAACATTAATTAAAACTAAAACTAGAGTTGATGACTCTGGATCAGCCACCGTCGTAAACTTAAATGACTGTTCTTCACTAGCTTCAACTAATCTCTTCATGATTTGTTCAGAAAGTGGTAATCTAGCAAAGAATTCTTCATTAGATTTATATCCTTTTAATTTGCCTCTTACTTCATAGATTTGAGCACTTTCTCTTGGTGTTAATTCCATCTTCTTAATATTACCATCAACTACTTGAGTCATAAATTTATCATATGTTAAGACATTTACTTTCTTGTTCATAACATTTAAAAAATAAATAATCGTTAACATAATTAAAGCCATCATTAAATATGGTAGTAAATTCTTTTTAACATCTTTCTTTTGAACTTTCATCTTCTTCCTCCTTACTCATATTTCAATATTATATCATATTCTTCATCTTTTTTCTTATCATATTTACTTTTTTTCAGACCTGGTAACCAAACAACATTATTTGTACTATCAACTACAACTGGCCAAAGGTCCCTCTCTTTAGAATTAATTTTTTTATCAATAAAGATATCCTTAATTTTTTTTGAACCGTTAAGCCCTTTAACCTTCATCTTATCACCAATGCGTCTATTCCTAATAATAAGTGGTAAGTTAATTTCTTTACTACACAAACGGCATATATCATTACTGTTTCCTTCATCAAACCCTTCTTTTATAACTTTACCATTAGGTAGTTCTACATACTTATTATACTCTATTTCATAATTAAACACTTCATCATTTTTTCTATTTATTTCTAAAAGATTATATTCCTTCCTAGCAATAACATCATTAGGTAAATCAACATAACTATTAGCTTTCTTGCTTTCTAACATTTTCATAATCAAATCAATATGATGATCAGTTATAAGAATTAAATCGTCTTCATAAAATTTGTTAATCAAAGAGTATAGAATTTCTTTTTGAAAATAAGGATCTACTTGTTTAAACAAATCAATTATAATCTTATCTTCTTTAGTTACTTTCTTTAAAACTTTCTGCTTTTCTCTTTCAACAATTTGATAAGCTTGGTCTAAATCTTCACTAAATTTTAAATACTTTAAATGAATATTAGGGTCCTCACTCTTTAAAAAGGGCAAGACATTAGCTCTATATCTATTGCGAGTATACTTCATCTTTTCATTAGAACTATCTATAAAATATTGTACTTTATTTTTTCTATTATATTCGAGAAGATCTTCTTTGGTCATATCGATTAATGGTCTAACTATTTTATAACCATCTTTTTCTACTTCTTTTTGAAATCCCGAATATCCCTTTAGACTTGATCCTCTACTAATTCTCATTAGAATGGTTTCAATTAAGTCATCACCATGATGAGCAGTCATTAAGTAATCAGCATTATACTTTTTTACTACTTCTTCAAAGAAGTTATATCTAATATTTCTTGCTTCATTATGGAAATTATCATCACCATAATTATCAATTAATAAATACTCAAACAAAACATCATTTTCTTTACAAAATGCTTTCATGAAGATTGCTTCTTCTTTACTTTGAGTCCGTAAATTATGATTAACATGAGCACAAATTAGTTTTAAATTGTACTCCTCTCTTTTTTTAAGAAGCATATCAAATAAAGCCATAGAGTCAGGACCACTAGAGCACCCAATAACAATAGTTGAATTTTTCTCGACATCTATTCTTTCCATATTCCTTCACCACTTATATTTTATATTAAATAAAGAAAAAAAGCCATATTTAAATGACTTTTTTATTTTATCTGTAGTATTATTTCTCCGTCTTTAGAATATAAGTATTTTTCCCTAGCATAACGAGCAATATAATCAGGATCTTGTAGCTTAGTAGCATCAGCTTTTAAAACTTCCTCTTTTTCTTTTAATTCTTTTAGAGCCGTACTAAGTTCTTTCCTCTCTTGATACTTGGAATAAATTTCTACCCAATACTTACCTAAAGTAAAGGATACTCCAAAAATTACAACCAGTGATAAAAGACCTAAAGTGAAGAATCTTTTGGCTTTTCTACGTTTATTACGTTTATTAACTTTAGACATTTTATCACCCACTTTCTTAAATTTATTATAGCACTTGTCAAAACTGCAATAACATTTTTATCCCTTATTTATGTCTACTTTACATATTTTTTAAATGTTCCCCCTCCAAATACAACTAGAATAAATATCCAATTAATAACTCCCTCATTTATTACTCTCATTCCTAGAAAATATAATAAACCAATATCAATAAAGAAAAATGTCGTAAAGATTATTCTTTTCCTCTTATCTTTATTAAGTAAATACTTTCTCTGTCTATTAATTAAAATATAAACAGCATATCCATAGCCAAAAGAAAAAAGCAAGGATAAAACTTGCGTAGTAAGATTCATTATTTAAATAATCTATTCAAAATACTGTTTTCTTTGTTTTTAGTTTTACCATCTTCTAAATAAGTCATACTATTAACTAATCCTTTAATAGAAACATTTCCTTGCATAGTATCTAATTTAATGAGTTCTAGATTCTCCCCTTTAATAAGTAGTATTCCCATAACTGTATCCATTAGGAATTGCTCGTTATCAAAGCTTTCTATTTTTTTAACACCACTAACCACTAAATTTTTTCTTTCAACCAAACTAATCCCATGATTATAATTATTAATTAAAGCATCTTTTTCCATAAATATCTCCTTTATAGAAGTATATGTTAAAGAAAAATAAATATGAAAAAAAGAGAACTATTCGTCCTCTTCTTCTACTTCTTCTTCACCAGCAGCTTCTGTGTCTTCTTCTGCTTCTTCCTCATCCTCAGTATTTTCATACTCTTTAATGATAGCTTCTTCAAACATACTTCTAACTTCTGGATTAATTGGATGAGCTATATCTCTATATCCACCAGTAGGTGTTTTTCTACTTGGCATAGCGATAAACAAACCATTGTCTCCTTCAATAATACGAATGTCATGAACTACAAAGCTGTCATCTAAAAGGACAGATGCAATTCCTTTCATACGTGATCCTTCTTTTTCGATCTTACGTACATTAACTGATGTAATCTCCATGTTATACCTCCCTTATATAAAGTTACATTTACAAATATATCATACAATAAAACCTACAAAAAAGCAACATTTTTATACTTTTTTCGGTAATATCTCCAAATGGTTCGTTAAAACATCGCTATAACAAAAAGTTTTTACTTGCTGAGGATTGTCTAAATCACGGATAACAAATATCTTAGAATATGTGTTTTCAATGGTTCCTTTAAATTCTTCTATCTGGTTTCTCGTCTTGTTATATCTGAAATTTAAAGTCTTACCCTTCTTTAAATCTAAATCTCTTTTTATTAAATCTGTATTCATCTAGGGAACCCTACATACATAACACCACTAGTAATTATTCCTCCAATACCATCACTTCCATATTTAGTTTTTGCTAGCATATTGATTAAATCTATATTTTTGTTTTTCTCCGACAAAGCCACCGAAGAGGCAATAATTGCTGGATCCAACGCATGAATATTTACTCTTTTAGGGCTAGAAGCAAAATTAGCACCTGCTTTAATTAACTCTTCATAATTAGATTGGCAAGCACCCGCAATAATAATTAGTTTGTCCTGGCTGTGTTCATACTTACGTGCCTCTAGTACTGCATCAATAAAGTTCTTAGTATTTTGGTAATTATCAACGTTCATGACATCTTCTTTTTTCTTAATATAAGCATCATGTCCTGTTATAACAACAATATCTGGTTTATACTTTTCTAAATATCCTGGTAGTTTTTCTGCAATATCTTCCTCCTCAATATTAACTCCAAAAGCTTTAACCTTCATGCTATCATAAAAACGCATGCATCTTTTCAAATAATCATCATCACTATCAATATGTAGAACTACTCCTGGTAAATAAAAATACTCATCGCGATCTAAATTTAAATTCTTTTGATTGTCCTCAATAATTTTTCGATCATCACCATCGCTATTTACTTTTTCCTCTTTTACTAAATCATCAATATCACTATCAGCATACAATCTAAAATCAACACCCTTTAATATTGCTTTATTACCATTAATACTAAGCACTTCAAAAACAATATCATTATTATAGGAATTACGCGATACGATATCTCCAACACCAATCATATTCATCATCTCCCTATTTAATTTTATGAACAAAAAAAATAACTATTACTTATTTAAAGCATTAGCTATTTCAACAAAAATCTTATAATCTAATTTTTCACTACGGACAGTTAAATCATAATTGTACTTCTTTAATACTTGCTCAATCTTTTCTAAGTCGTAGTCTTTTAAATTGTTTCTTAGTGTCTTTCTTTTAAACCTAAAAGCGTCTCTAATCAATTTAAAAAACAATTCTTCATTATCAACTTTTTCTTTTTCCTTCTTTGTTAAAGATATAACCACACTATCCACTTTTGGTCGGGGAACAAAATTATTTCGACCAACCACAAAGCACTTTCTTAAATCAAAATAATAGTTTAATAGAACGGAAATAGAGCCATAATCTCTACTACCAGGAGTAGCTGTAAATCTCTCCCCAAGTTCTTTTTGAACCATGATAACAATTTTTTCAACTTCTATTTTTTCTTCTATTATTTTTAGAATAATAGGTGTAGTTATGTAATAAGGAATATTGCTGATAACATATAGCTTTTTATAGTCAATATCATCAATATCTTTCTTAATGTTTCGTTTTAGAAAATCATCAAAGATAATTTTTAATTCTTTATCCTTAAATTTTTCTTCTAACTCTTCCTTCAAATCTAAATCTATTTCATATGCCAAAACTTTTGTCTTCTTTAATAACTCCTCTGTTAGGACTCCACCACCCGGTCCTATTTCAATTACTAAATCATCTTTAGTTAAAGAAACAGTATTTACCATATCTTCTATCAACTTCTTGTTAGTTAAAAAGTTCTGACCGTACTTTTTTTTGAATTTAAATGATTTGTTCATCTGATCACTTCACTTTGTTTAAGATTATTACCCTATTTAACACCAAATCACCTTTTTTGACAACTATATTTTTTTCGCCGTTCTTATAAATACAGCAATTAAATATATTGTCAGCAGTTGATAAAGTTATTCTCTTATTAAACTTATTATCAATCTCTATTTTTTCTGGTAAGACATATTCTTTAGTCAATAGTTTTATAGTAGTATCAGTTTCTTCCTTATTGGCAAACTCCACAGCACTAACCAAATCATAGTAATAGATTTTATTTTTGTTTTTGCTTATAGAACAAACAGGATCAACTTTAGTTACCAAAGCATCATAACTAATTGTTTTAGCTTCTTCCTTTTTGCTTTTCTTCTTTATTTTATGAAAATGTTTTTTGAAAAGGCCATATAATTTCATAGAATCAAAAACCATAATTAAGAGACAGAACATTAATACTAACAAGATCCATCCATAGGCATTACTCAAAAAATCCTGGACATAACCCAATTTTGGTATTCTAAAAAGAACTTTTCCATAAATATCATTACCATTAATATAACCAGCATCAGCAGCATTATTATAGTCGCCTTTAGTTTTGAATAAATATGTTTTATTATTCATCTTTTTAATAGAAATAACCCTATGAGTAATTGTTAATCCCTGATACTTACTATTATTGGAAACAAAAGTAATTATGTCTTTTTTCTTAATGTTCTTAGGATCTATCTTTCTTACTATTACAGCATCTTGAACATTAATAGTTGGTTTCATTGAAGGACTTACAATTATGTAAGCATTTAATAGAGGAACTACTTTTTTATTTGCTTCTTTATTTTGTCTTAATTCAACAAAATAAATTAAAGCTATTACTAAAATAAGGGATAAGATCACAGCAAAAAACGCAATTAGACTGCGTATAATTATCTTTTTAATATTTCTTTTGCCCTTCCCTTTTTTACTCATTGTATCATCCTTTAACTATAGAGCTTTTCCATAAATATTTACTTTTAATGTATACTTCTTATCCTTAAAGTCTTTGGCTTTTTCACTAATCCAAACTCTAAGACGATATTTATCTATTCTTGATTCTTCAACAGTTTCAGAGTGAATAACCATACTTCCTGCTGGTGAACCAATTTTACTGTCTTCTTCACTTTTCTTAAATCCAATCGGTCCAGCAATTGGAATATATTTCTTTCCTTCTTTTTTCTCTAAATATATTCTCACATCATTATCACTAATATTAGATGATGAATCCTTAATAAGAGCTATTTCATATTTAGCCTTAATGGTAGCAAGTTCTTCCATCTTAGTAGTAACTGTAAAATCAAAATATTCCCCAACATTAGAAATCTTTCGACCAATTTCATCGTTCATAGTTAATTTATTATTAACCGAAATACCATTAGTCTCCTCAGTATAAGTCATCACAATTGATGCGGTTGAAACAGTATCTTTATTTTTCTTTTTTTCAGCTGTTGAGAAAGCTACAAACGACGAAAAGATTACGGCCAAACCTAAAAAGACCATAATGAAAATAGAAACAGCATATAGAATTGGTGTTTTCTTGCTTTGTTCGCCATTATCCATCTTTCTAACAACCCCTTCCTACTATTAAAATAATTATATCATTAACTTAAAATTAAAACAATAAAATAAAACTGTAAGTTTTTACAGTTTTATTCCAGGAAACATTTTTAAAGCGTTCTCTGTTGTTTTATTCATCACTTCATCAATACTAGTTTCTTTAATTTCAGCTATTTTTTTCGCAATAATTGGTATATATTTTGGAGAGTTTTGCATACCACGATAAGGATCAGGGCAAAGATAAGGACTATCAGTTTCTAAAACAATATCATCTAAAGACAATTTTTTAATTACTTCTGATAACTTACTATTTTTAAAAGTTACCACTCCACCAATTCCTAACTTATAACCCATTTCAATATATTCTATAGCTGTCTCATAACTACCACTAAAACAATGAATTATTCCTTTTACATTATACTTCTTTAACGTATCCATCGTATCCTTAGTAGCTTCCCTGCTATGAATCACTACTGGTATATTTAATTCTTCTGCAATCTCTAATTGTCTTTCGAAAAGCTCTTTTTGTTTTTCCTTTTCCTCTTCAGTTTCAACATAATGATAATCTAGTCCTATTTCTCCTAAAGCAACGACTCTTGTACTCTCTAAATTTTCCTTTAAATAATCTAAATCATAGTCATTAATCGCATCCGGATGATAACCAATACTCAAATATAGATTGGGAAACTGTGTAACTAATTTTAATGATTCTTCTATATCTTTTGTCGCACATCCGCAACTGATCAAACATTCCACTTTCTGTTTTTTACTTTCACTAATTACTTTTTCAATATCATCATAGTACTCTTTTAGAATATGACAATGGGTATCTATAAACATATTAACCTCCTAAAAAAGCATCAATTACTATTGACGCCTTCTTATTCTATGTATTTTTATTCGACAAAAATATACTGTAAAGATTATCAAATAAATAACATCTAGAATATTATAATCATTAATAATAGTTAATATCAGTAAAACAGCAACACCAAGATAAAGTTGATCAAAGATGCAAATCTTTCTAGAATTTTCTTCTTTCATGCTTCTCCTTTTCCTACTGCACTAACTAAATATATCATAACTAATTATACTTTTCTTATAAAATTAGGTTAGTAGACGTCTTCTTGACATTATTTATCAATTCTTTTGAATAAGATTGTAGCCTCTCCTAAATTATATTCGTTATCAGCTAAATATTTAGGCTCTTTCCTGTCGTTATTCAATTGTTTCAAAATACTAGCACTAGTGTCTGGCATAAATGGTTCTAAATAAATAGCTCCTACTCTAATTGCCTCTAACAAATTATATAGAACTGTCTCCAAGCGATCTTTCTTATCTTCTTCTTTAGCAAGAACCCAAGGAGTATTTTCATCAATATATTTATTACTAGTTCGGAAAAGATCAAAAATGACAGTTAAAGCATCAGCAATATGTAGTTCCTCAATCTTTTTATCTACTAAAACATCAAGATTATTTATCTCTTCAACATATTTCTTATCAATTTCTTCTTCGACCTTTTTGTTTTCTATTTTACTATCGAAATACTTATCAGCCATTTTAATAGTTCTTTGAACTAAATTTCCTAAAGTATTAGCTAATTCAGTATTAATTCTTTCAATTAATAGTTCTCTAGAAATATTACCATCAGCCGCAAAAGGAATCTCGTGAAGAAGATAGAACCTTATAGCATCAACACCAAACTCTTCAACCAAGTCATCAGCATATAAAACGTTCCCTTTGGACTTGCTCATCTTATCACTACTAGTTAAAAGCCATGGATGACCAAACACTTTTTTAGGTAATGGAACACCTAATGACCATAAGAAACAAGGCCAATATATTGAATGGAACCTAACAATATCTTTACCAATCAAATGTAGATCTGCTGGCCACCATTTCGAAAACTCTTCACTAGAGCCATCGGGATCATAACCAATATTAGTTATATAGTTTGTAAGGGCATCAAGCCAAACATACACAACGTGTTTAGGATCAAAATCAACTGGGATTCCCCAACTGAAACTTGTCCGCGATACACATAAATCTTGAACCCCTGGCTTAATAAAATTATTTAGCATTTCATTTCTTCTAGCACTTGGTTCCAAGAAATCAGCGTGTTCAGCAAAGTAATCTTCTAATTGTTTTTGATATTTAGACAACTTAAAGAAATATGCTTCTTCTGTTGTTTCTTCAACCTCTCTACCACAATCAGGACACTTACCATCTACTAATTGTGATTCAGTCCAAAAAGATTCACACGGTGTACAATAAAGACCTTTATATTCACCTTTATAAATATCACCACTATCATACATCTTCTTAAATATCTTTTTTACTACTTCCTCGTGCTTAGGATCTGTTGTTCTAACAAACTTATCATAACTGACATTCATTAAATCCCAAATCCTCTTGATTTCAGCAGCAACTTCATCAACAAATTCTTGTGGAGTTTTTCCTTCCTCTTTAGCCTTTGTCTCTATTTTTTGTCCGTGTTCATCAGTACCAGTTTGAAAATAAACATCAAATCCCTTAAATCTCTTATACCTAGCAATAGCATCCGCTAAAACAGCTTCATATGTATTACCAATATGGGGTTTCCCTGAAGTATAAGCAATCGCTGTTGAAATATAATATTTATCCATTTTAATCACCTCTTCAAAATAAAAAGCCCTATAACATAAGGACGAAACAATTCCGCGGTACCACCTTATTTTATAAAGCTTATACTCTCATTATAGTTAACGCCTATCTACGTTTATGCTTACATATCAACATAACTGTTCATAAGCCATAATTTATATTTATATGCTCTTTTATCTCACCAAACTAAAAGCTCTCTTCGCCATATTAAATATAAATCTCTTAATCACAACATTTAATATGACTGTATTGTACCATGTTTATCTTTATTCTTCAATATATTTTTCTAAAAACTGTGCACAGGCTAAAGCAAATTTTTCATCAGTTGTCGTTATAGTACTAGTACTAGAACATATGATAACTAAGCCCAAAATATTTCCTTCATTAATAATAGGTGAAACGCAGTAAGAGTAATTGTTCTTTTCTCCTTTAACTAATTCAGTCCCTTGAAAGTTTTTATTAACTATTGCTTTACGATCTACTATTAATTTTTCTAAATAATTAGATATTGGTTTATCCACGAAAGTTTTTTTATCTTCCCCTGCGCAAACAATAAACATATCGCGATTAGTAATTAAAACGTTTTTTTCAATGACTTTACTCGTTTCATCCGCTAAAGTCTTAGCCATATCCTTATAATTATCCATTACTGAAAACTTCTTTAGTGATATTTTTTCATTATCTACTAGTATCTCTAATGGTTCCCCATCTCTAATGCGAAGCACTTTGCGTATTTCTTTAGGAATTACTACTCGACCTAACTCATCAATTCTTCGTACTATTCCGGTAGAGCTCGTTGGTTTAGTCATACTTAAAGCCTCGCTTTCTAATATTATTCTTCCAAAAAAAGGATTCTTTATACATAAATCATCCTACTTATATTATAGAGACTTTTCGAGACTTTTCTTTTGGTAATATTTACCATTTTTTAAATACATAATTTACAATTAGTTAACAAAAAAGTTCTAAACTCAATTCAGAACTTTTTCTAAAAACTCTACTAGATAATAAACTGGGTGTTTATCCAAATGCAACAAATCTAGAATTATTTCCAAATTATCACCTATTGTTTTAAAGCGAAAATAATCACTAACTTCAAATGACTTCACAAACAATATATCAGCACTATATTTTAATACTGTCTCTTTATCTAGAATTAATGAGACACTGTTTTTCTTTTCAATTACTCTTCTTATTGGTAATTTAGTAGCTAATTTTTCAAACCATTCTTCATACATATATATTTCCATATCTTTAGTTATCCTACCAAATCTGTCTTCTAATTCCTTTTTTACCGATTTAAATTTAGATAACGAGTCCACTTCATTAATCTTACGATGAATCTCAATTTTAATATCTTGATCATCAGCATAACTCTCATCAATATGTGTTTTAACATTAAGAAGCGGTGGTGCCATATTATCTTCTTCAACAGCAATGCCCTTTTTTAAGGCAACCTGACGATTAAGCATTTTTAAATATAAGTCCACGCCTACTGAATCAATAAAGCCTGCCTGTTCGCTTCCTAAAATATCCCCCGCTCCTCTAATAGCTAAATCACGAGACGCAATGGAAAAGCCACTTCCCAATTCCGTAAAATCCTTCAATACTTGTAATCGTTTAATTGCAGTTTCCGTAAGCACTTTATGGCCTTTATACATTAAATAGGCATAGGCAAAGCGATTACTACGGCCAACCCTTCCTCGCAATTGATATAACTGACTCAATCCAAAGTTATCAGCATTATAAACGATTAAAGTATTAACATTAGGAATATCGATGCCAGCTTCGATAATAGTTGTACAAATCAAAATATCATATTTACCACCAATAAAATCTTCCATTCTACTTTCCAACTCTTTTTTAGACATTCGACCATGAGCATAAGTAATAGAAGCATCAGGAGCCAACTTTGATATTCTATCAAAACATCTTTCAATAGTATCTATCCGATTATATAAGATAAATACTTGCCCTTTTCGCGATAATTCTTTATAAATAGCATCTTTAATGATTTGGTCATTTTCTTCAATAACATAGGTCTGAACTGGATAACGATCTACTGGTGGTGTTTCAATTAAGGATAGACTTCGCACACCTGTTAAAGACATCTGTAGTGTACGAGGAATTGGTGTTGCGGATAATGTTAAAACATCAACATTCTTTTTCATCTTCTTTAGTTTTTCCTTATGAGCCACTCCAAAACGCTGTTCCTCATCAATTATTAATAAGCCCAAATCTTTTAATTTAACATCTTCACTGAGTAATCTATGCGTACCTATTACTAAATCTATTCCTCCTTTAGATAATTGTTCTAAGATCTTACTCTCCTCTTTCTTAGGAGTAAAGCGATTTAATAGTGCAATATTGACTGGAAAGTTTTTAAATCTTTCTTTAGCGTTTTCAAAATGTTGCCCTGATAAGATTGTAGTTGGACATAAGAACAATACTTGCTTAGAATCTAGAATGGCTTTGAAAGCCGCAACAAAAGCCACTTCTGTTTTACCAAAGCCAACATCACCACAAAGAAGTCTATCCATAACATTTGTTGATTCCATATCATTCTTAATTTGAATAATTGCTGTCTTCTGGTCTTCAGTTAAATCAAAAGGAACTTCTTTTTCAAAAGCCTTCATATACTCATCATCCCGGGAAAAAGAGTATCCAGCAATTGATTCCCGTTCAACATAAAGATTCATTAGTTCCTCCATCATATCAGCAATCTTAGAATCAACCCGTGCTTTAGTCTTCTTCCACTCAAGACCATTCATTTTACTGATTCGAGGCATTACTCCCTCTTTGGTTGAATATTTGCTTAAATATTCAATTTTTTCGACTGGTATATATAGTTTATCCTTACCTTGATATTGAACTTCTATATAATCTTTTTCAACTCCATTTTGTAAAAGGGTTTTTATTCCTTTATAGATACCAATCCCACAAATATCATGAACTACATAATCCCCTATCTCTAGTTTATTAATATCTTTAATCTTAGAAGCATAGCGGAATTTAGTATTATACTTCTTAGTTTTACTTTCTTCGCCATAAATTTCCTTTTCAGTTAAGAGTAGAATATTATTATAAAGAAATCCACCCCAAAAATTATTTTCAATAGTCTTACATTCGTATTTAAACTTTTTATTAAACTCTTTTTTGTTGTTGGGTGATAGACAAACTATTATCTTTTTAGGATTAATTTTATCAACATAATTATTTAAAACTTCATAATTACCAGAAAAATTAGGAATACTCTTAACATCATAATTAATAATATTCTTATTTTCTGCTTTTTCTAAATTGTTGATACTTTCATAAAACATTACTCTCTTAGGAATAATTTCAGAAAAGTCAAACATATACTTCCCTTTAAATTCTTCATCCTTAGTCTTATGATAAGTAAACATTTCCTCAACTAATTCTCGCTTAAAATAGTTTTCTATTTGATCATGATTTTTATAAAACACTATTGGGTTATCTAAATAATCATATATTGAAGATACTTTTTCATATTGTGGTAAGTACTTTTGTTTTGACTTTTCTACTTCCTCTGAACAAATAAATTCTGTTCGTGGTTTAATAGTAATTCTTTTGATATTTTCAAAAGTTTTTTGATTATCAGGATCAAAGTATTTAATTCTTTCAATCTCATCACCAAAAAACTCAATTCTAATGGGATTGTCTTCGCCCAAAATAAACACATCAACAATATCCCCATGAGCTGAGAACTCTCCCGTTTTAGTTACAAAAGATTCTCTTTTATAACCATTCATTATTAGCTTTTCAACTATTCTGATTGGTGGAATAATATCGCCAACATTCAAGTCTAAGAAAGCTTTTTTATAATTAGCTGGTGTTGGTAGAAAACGCAAGTAACCTGTAAGATTAGTAACCACTATTTTTTTACCTAATAAAATTTCATTCAAAGTTTCTAATCTATTAATCTCCAAATCCGGACTAATGGCTACTGCCTCGCTAGTTAAAAAGTCATCCATTGGGAAAAGTACTACATCTTTATTTAAAACTGCCAAATTACTATATAGTTTATTTGCTTCATATAAACTATTAGTTACAAGTAAGATATTACCCTTCTCTTTTCTAAATAATTGATCTAAATAGACACAAAAAAACTCATCAGTGGCACTTAGCCCCCCCTGATGTTGGAATGAAATATTAGTAAGTTTTAAATATTCATTCATATGCATCACCTAGCATTTAGTATTATACTTATTCATCAACTCCGTAAAAGTCATAGTCAAATAATCATCTAATATATCAGGCGTTTTATTAATGACTTTATCTATTTTTTCTAGATCACTTTTACTAATTTTTCCTAAAACATAATCTTTAGTATCTATTTCTTTGTTATTAGATATTCCAATCTTTAGTCTCTTATAGACGTCAGTACCAATATTTTCTTCAATATTTTTAAGACCGTTATGTCCCCCAGAAGATCCTTTACTACGTAGTCTAAAAGATCCACTTGGCAAATCTAAATCATCAGATATTACTAATATATCCTTGGGTTTTACTTTATAGAAATCCATGAACTTTCTAACAACTGTTCCTGATAAGTTCATATATGATAAAGGTTTAACAAACAACACCTTTTCTTCATCAATGTTTTCTAAAGCATATTCACCATTAAACTTGGTCTTCATCTTTGTTATACCTTTTTCACTCAAATAATTATCTATTACCATGAAACCTATATTATGACGAGTTTTTTCATATTCTTTTCCTGGATTACCTAACCCAATAATCATTTTCATAATATCACCACTTATTCAAGTATATTATATCATTTTTTAATAAAAAAAATAGCTTATTAGCTATTTTTTCTTAATAATGTTTTTTATCCTAACTTTTTTCACAAAAAAAGTCAACAAAAGAATAAAATATTCTATATATTTTATTCTTTTGGATTAATTATTATTATCTTTTCTATTTTTTCTTTTCAGTATGATACTCTTTATAGACTATTGATTTAGAAACATTTCTTTCCTTGGCAACTTTTTTTATTGCCTCTTTTTCACCCATCTCATCTAAATAAAGCCTAACATGTTCTACTAAAGAAATCTGTGAAAAGTCATTTTCTTCCTTTGAACCCTCAACAATTAATACTAATTCTCCCTTTATTCCGTCAATGCTTTTTAGAAGATCCTTTATTTTTCCCTTTCTTATCTCCTCGTGAATCTTTGATAATTCCCTAACCACAGCTATTTCTCGATCACCAAACACTTCTAAAATATCAGTTAATGTTTTTTCAATTCTGTGCGGAGCCTCATAAAAGATTATAGTCATTGGATAATGTTTTAACACCTCCAACTCTTTTTTTCTTTTTGTGCTTCTAGAATTTAGAAAGCCGTAAAAGATAAATGGTGATGGATCAAAACCTGACATAGTCAAAGCAGGAACAAAGGCTGTAGCTCCTGGAAGAGATATCACACTATAATCATGTTCGATAACTTCTCTAACAACTACAACTCCAGGGTCACTGATAATTGGGGTTCCTTGATCAGTAATCAACGCTATACTTTTTCCTTCTTTTAGAAGACTAATTACCTTCTCCTTAACCTTATCTTCATTAAATTCATGACAGCTAATTAGTTTTTTAGTTATATCATACTTTTTTAAAAGTTTTCCACTCTCCCTAGTATCTTCACATAAAATGATATCTACACTCTTTAAAGTGTTCAAACCTCTAATCGTAATATCCTCTAAATTTCCAATAGGAGTTGGAACTAAATATAAAGCTGGTCCGTTATTATAACTTTTTTTAATCATCCTCTTCACCCATAATCTTTCTATATTCAGGAGTTTTTCCACCGTTTTCAAAAAGAATAAGCGGCTTCTCAACTATTAACCCTTTTTTAGCATTTTTACAAGCCTTAAATAACATAATTTTAGCTGATCTTTCTTTATTATAATAAACATATCTAATGTTTTTCACACCTAAATTATACTTTCTACTACTTTCTAGAACATCTTCTAGGTTTGTTACTGGATATACCATATAAAGACGACCGCCATTCTTTAAAAGTTTACTACTCTCTCTAAAAACATCATCTAGAGAAAGCAATTGTTCACTCTTGGCATTAGTTTTGACTTTATTTTTAGTAATACTTTCTTTACTAAAATAAGGAGGATTACATAAAATAACATCAAAACAATCATTTCCTAATTTCTTATAACACCCCTTTATATCCATTTCTTTTATTTCAATTTGTTTTTCTAATTTATTATATTTTAGTGATTTTTTTGCTAAATCAACGCTCTCTTTTTGAATATCAATGCCTATCATTTTTTGTTTGTGCTTTTTACTTAGAATAAGTAAATTAACACCATTCCCTACACCCAATTCCAATATTCTTTCATCATTTTTCTTAATTTCTGTATAGTATGCAAGTAACAAACTATCAAGACTAAAACAAAAAAAGTCTCTATTTTGATATATTTTTCTTTTTTTAAAACCTACTATATCATCTAGAGAATTCATTTATTAAACCGTCCTTTCTAGGATATCGCCATTTTCAAGTTCTAATTTATAAGCCTTTTTGAAGACATCAATAGAAACTACTTTTCCTTCACCTTGATCAGTTTTCATTTTCATACCTATTTTAGGTAAATCTTTTTTCAAATAACTATATGTCTCATCTTCATAGTTTAAGCAGCATAGTAATCGATTACATAGTCCGTTTATCTTACTTGGATTTAAAGCTAGAAACTGATTCTTTGCCATATTGATAGATACACTAGAAAAGTCAGTTAAAAAGGTATTACAGCACAAAGACAAGCCACAAGGCCCTAACCCTCCAAATTGCTTAGCCTTATCCCTAATTCCAATTTGTCTAAGTTCTATTCTAGTACGATAGCGAGCTGCTAGTTTCTTAGCTAATTCCCTAAAATCTACTCTAGAATCTGCTAGAAAGAAGAAAAACATTTGCTTACGATCTAGAGAATAATCTACCTGAACAATATTCATATTCAAATCAAGTTTTTGCGCCTCTTTCTTTGCTTCCTTAATAGCTTTAGCCAAAACCTTCTTGTTTTCTTTCGCCTGAGATAAATCTGCATCGGTTGCTTTACGACGAATGGTTTCAAGGCGTCCATCGATATTTTTCTTACTAACTTTTATTACATCACTTTCGCAAACACCAAGATACTCATTCTCATCAATAACAACTACAACATAATCTCCTTTTTTTACACCCCACTCACCTGGAGCATAATATCTTTTATCAAAAAACAAATCAAATTTTACTAATACTGCATCAATCATTTGTAACCTCCATTAATCTAGTTAAAAACGCATCTAACCACAATTTATAATTTACATTATACGCTAATTTTTGTATTTCTTCCTCAATTATTAAAACATATTGCAAATATTTTTCATTATAATTATCTATTAATTGCTGATGATAATATTTTTCTATTTGGGAAAAAATATTATTTGCACTAACCTTATCAGGCAATAATTTCAATAACTCATCAAAATTAACTATAGCTTCTTTTGTGAAAGCTTTATCCAGCGTTTCTTTTTCCTCACCAGATAGTTCTATCTTCTCGTCATTAATTAATCGTAATATTTGGGTTCTTGACCTAATTGTATCTAAAACATTATACCTATTCTTAGTTATTAGAATAGCAATTATTCCTTCTTCTGGTTCCTCTAAGAATTTAAGAATTGAGTTAGCAGTTGCTGGTGTTAATTTGGCTGCATCATCAATTATATATATTTCTGGATAGTCTAGAAAAGATTTTTTAGTATAATCTCTCTTTATTTCCAATAATTCTTCCTTCTTAATAACTGTCTCTGTCTCTATTCTTTTTAAATTAATAAAACAATTATTATCTATTTGATTAAAAATCAATTCTAATTCTGCCTTTGCTGGCTTATTACTTTTCAATATTTCCTTTATAAAATAATCAATATTTTCTTTGTAATCAATAAGACCATTTGTTTCAATCAAATAGGCATGCGAAAGACGCTTATTCTTAATAATTTCATCTATTTCTTTTTTGAATTTACTTTGTAAAGCCATCATATCACTTCCATTACAACATCAACACTTTAAATAAAATCAAAGCAACTATTGCTGGGGCACCCAAAAATGTTACACCTAATACTGTAAATATATTTATAGGAATTATCATATTAAAATTAACAGCTATTAAATTGTACCCATACAGCAAAAAACCGCTTATAACTGCCCTTTTCGCTACATCAATTATCTTATTTATCATACTCTTCTCCTTTAGTAAAAGGTATGATTCTTATTTTGTATTATGCTACTTCTTTTCTTTCACTTAGAGCTCTTTCCAAAGTTAAAACATCCATGTATTCCATTTCGGCTCCAACAGGAACGCCACTAGCTAATTTTGTTATTTTTATCTTATTATCATCTAGTATCTGTTTTATATATAATACTGTTGTTTCACCCTCAATTGAAGGTGTTAAGGCAAAAATAATCTCCTCAAAGTTTTCCTTTTTTACCCTCTCTAGTAGTTTTTCTATACCAATGTCCTCAGGATTAACCCCCTCTAAAGGACTAATTAAACCATTTAGAACATGATATACACCATCAAATATCTTAAGTCTTTCAAACATAAATACACTTTTTGAATCATCAACTACACACAATTTCTTCTTGTTTCTCTTCTCATCAGAACAAATAGAACACTTTTCCTGATCAGTCAAAGTGTTACAAATACTACAAGGATGAATCTTTTCCTTAGCTTCTTTCAAACTATCAGAGAAATAAGTAATGTTTTCGTCATCAAAATCCAATATTGAAAAAGCCATTCGTTCAGCAGTTTTTTCACCTACACCAGGTAGAAGTCTGAAGGATTCAATTAATTTTTTTAAACTCTCAGGATACATATATCCTAAAAGCCTCCTGGCAACATACTACTAAACTTTCCCATCTTCTGCTCAGTTTCATCATCAATTTTCTTCATTGCATCATTAATAGCCACCAATAGCATATCTTCTAACATCTCCAAGTCGTCTACTGAAAGATCGCTTTCTTTGCTTATTTCAATTTTCTTTACTTCTTTTGTTCCCATAATAGTAACTTTTACTAGGGCACTTTCACCAGTAAATTCTTTCTTATCGATTTCTTCCTTTGTTTTCATCATATCTTTTTGTAAGTTTTGTGCTTGTTTCATTAAAGCTTGCATATTCATAATATCATCCTCTTTTCTATTCAAATTCAACTATATCACCAAAGATACTAGCCGTTTCGTCATTTTCAACTTCTTTTTCTTCTTTAACATATATTGGTTTAATATCCTTTTCTAAACTATATTCTTTTTTGTTTTTAATATTTTCAATATACTCCTTCTTAAGTTTTTGCCATCTTTCATCATCAATAATAGCTAGTTTTATTGGTGTACCTATTATTCTCTTATAAACCTTCTCAATTTCAGCAATTTGATTAGCATTTTTAGCAACTAACGAGTCAAATTCATAAGTTATAATGGCGTATTTTTCGCCAGCTGCACGAATATTTGATTCTAACAAGTCACAAATCAAATAGCCCTCATTTTGATCAAAAGAATGTTCACGGAGTCTTTCAAAGTTCTCTTTTACTTTTTTTAAATATTCTTTTGTAGCGGTAGCAAAAGTATTATTGATTCTATTATTTACTACTTCATTATAATTTTGAATTTTTGATTTGTTATCATTTGTTTTAGTTGCCGTTTTATTCACTATTCCCTTATTTTTAGCCGTTTCCATTATTTCCCGGGAAATATTTTCTTCTTGGGAAATAATATTTCCTGAACTTTTTTGCTTGTTTTTCTCTATATATGATAGAAGTAGAATTTCCACAAAAATCTGTGGATTTCCGCTTCTTTTTACTTTTTCCATATTTTCATTAATAATATTTGCTAAAGATTGATAATCACTAATATTAATAAGTGAGTTATTCAAATAACCATCAACAATTTTATCCCGTAAATAAAACAATTCCTGACTAATTATTTGAATTACATTTTTGCCATCAGCATTGAATTTACCGACAATTTTTAAGAACTCTTTATTATCACCATTAAGTATTGATAGAGTTAGTTCATCTAATTGTTCTTCATTTATTAAGCCATTTAGACTAACAAATTCGTTCATAGTTATTTTTTTGTCAGTATAAGACGCCAATTTATCAAGCATACCAATTGCATCACGCATTCCGCCATCGCTGAAATTAGCAATACTTTCAATAACCTTCGAATCAATATCGATCTTCTCTTTTGCACTTATTTCAGTTAATCTGCTCTCAATCAGTTTGTTTTCTAACCTTTTAAATTCAAAACATTGGCAACGAGAAACAACTGTCTCTGGTAATTTTTGGAAATCAGTAGTTGCTAAAATGAAAATAGCATGTTCTGGCGGTTCTTCCAATGTCTTCAAAAGAGCATTAAAAGCACCCACTGTAAGCATATGAACCTCATCAATAATATAAACTTTATATTTAAGATCGGCTGGTACAAAGTTAATTTTAGAACGTAATTCCCTGATTTCATCAACACCATTATTAGATGCCGCATCAATTTCGATAATGTCTATACACTCTTTTTCTTTTGATATTTCACAAGCCGTGCACTTTTCGCAAGGATTTCCATTTTTGTTTTTTTCACAATTAACTGCCCTGGCAAAAATCTTAGCTATTGTAGTTTTTCCTGTTCCTCTAGGACCATAAAAAATATAGGCATGGTTAATCCGATCAGTTTTAATAGAATTTACCAAGGTTTTTACTACTTGTTCTTGGCCTGACACTTCATCGAAATGGAGGGGTCTATATTTTCTATACATTGCTTGATACATATAATCACCTTTTCTATCAATATTATAGCATATAACCCCTTGAAAATTAACTATTTTCGCATATTTTTAAAAAAACTTTTCCACAGTTTTTCATATGTCTGATTTTTACTTTTTTTGCACAAAATTTGCTTGTTATTATCGTTTGTTTTTAGAATTTTATTTACAATTTTCCTCACTTCAGAATTATCTATCTTTACAAAGTATTCTATCTCATCAATTCGCGCTTGTTTTATTGCACTAGCGCACATAGGACATGGCTGTAAAGTCACTATCAATTTACAACCATCTAGCCTCCAATTACCAATTTCTTTACAGGCTTTATCAATAGCAATCAATTCGGCATGTCTTAATGGGTTGTTTTCCTTTTCTTTGGTGTTATGAGCCTTTGCTATTATCTCATCATTTTTAATAATAAGTGCGCCCACCGGAATTTCACCATCATCATAGGCTTTTCTAGCTTCTTTCAAAACTTCTTCAACATATATTTTCTTCATATTTTCTCCTAAAAAAATGATGCACATGAATTAAATTTGTTAAGGCTGCTGTCTTCCAACTCTGACCTGGTTCCAAATAAATTCATTGCATCGATAGTATTTTAATATATTTTCATATTTATTGCAAGCTCTTATTTAGTTTCACGTGAAACTTTATATTTGTCTGTTCATAAAAATAACGTTCCACGTGGAACGTTATTAATTTTAATCTTCTGTCTCTGTTTCACGTGAAACGTCTTCTTCATCTTCCTTAGCAACAATAGCTGTTGTTGCAACAATCTGATTGTCTTTTAGATTAATTAACCTAACACCCTGTGTTGCCCTACGAAGTGTTGATATTTGCTCAAAAGGCATTCTCATAACAATACCGCTATCAGTAATTATTACTAAATCACAATTATAGTCAGGACTAACACATTTCAACGAAGCCATTTTACCGTTCTTCTCGGTTAGATTAAGAGCCTTAACACCTTTACTGCCACGGTGAGTTAAACGGTATTCATCAATTGCAGTTTTCTTTCCATAACCTTTATCTGTTACAATTAGTACTAATTCATTTTCGTATATTACTTCTGATCCTACAACTTTAGCACCATCTAATTCAATTCCCTTAACACCTGCAGCAGTTCTTCCCATTACTCGTACTTCTTCTTCTTTAAAATGAACCATTCTCCCGTTAGAAGCACCAATTACTATTTCGTTTTCACCATTAGTCTTCCGAACTGAAATAAGTTCATCATCTTCTTTAAGATTGATTGCAATTTTTCCACTACGGCGAATACTATCAAATTCTTCTAATGAAGTTCTCTTAACTAGACCATTTTTAGTAGTAAATACCAAGTATTTACAATATTCGTCATCAGTTGCTATATGTAATATCGAACTTATGTTTTCCTCTTTTTCTAGTGGCAACAAGTTTATTATTGGTAATCCTTTAGATTGTCTACTATATTCTGGTATTTCATAACCTTTCAACCTATAAACTCGACCTTTATTAGAGAAGAACATTATATAATCGTGTGTTTTCATTGAAATTAAATGTTCAACAAAGTCTTCTTCATTAGTTGTCATTCCTTTAATACCTACCCCTCCTCTATTTTGAGCTCGATAAGTATCAGATTTCAGTCTCTTAATGTATCCTTTGTTAGTTAAAGTTACAATGATATCTTCTACTGGTATTAATGACTCGTCTTCAATAAAGTCGATAGCTGTCATATCAATTGTTGTTCTTCTCTCATCACTATAACGGTTCTTAATATCAGTAAGTTCATTTTTGATTATATCTAATACTTTTGCTTCAGAAGCAAGAATAGATTTTAATTCTTCTATCTTCTTTAATAAATCATTTAATTCGTCTTCAATTTTTGATCTTTCTAAACCAGTTAAACGACGAAGTTTTAATTCCAAGATACTATTAGCTTGAATTTCCGTAAGTTCAAAACTCTTCATTAAAGCTTCCCTAGCATTTTGATCGGTCTCAGAACCTCTAATTATCTTTATTACTTCATCAATATTATCTAACGCTATCTTATATCCTTCTAGAATATGAACTCTAGCTTCTGATTTAGCTAAATCAAATTTTGTTCTCCTAATTATTACTTCTTTTTGATAATCAACATACTTAGCAATTATGTCCTTTAAACCTAACGTTCTAGGAGTACCATTGTCTAACATCAAGAAAATTACACTATAATTAGTTTGAAAACTAGTATGTTTATATAGATTATTTAATACAACTTGGGCATTAGCATCCTTCTTCAAAGTAATAGTTATCTTAATACCATCCTTCAAATCAGTATGATAATCAGATATTCCCTCTATTGTTTTATTACTTACTAATTCGGCTACTTTATTCTTAAGATCCATAGTATTAATACCATATGGAACCTCGGTAATTTCAATTATGTCATGTCCTTTATGTTCTTTAATTTCTGCCCTACTCCTAATAGTAATAGTTCCTCTACCGGTTTCATAAGCTTTCTTTATTCCTGAATTACCTAAGATTATTCCACCGGTTGGAAAGTCAGGTCCCTTAACATATTGCATTAATTCTAACACATCCAATTCAGGATTATCTATGTAGGCAATACATCCATCTATTACTTCTCCTAAATTATGAGGTGGAATATTTGTCGCCATACCAACAGCGATTCCCATACTTCCATTAACTAATATATTAGGAAAGCGTGATGGTAGTACTTTTGGTTCTTTTCTAGTGGCATCAAAGTTGTCGTCCATATCAACAGTTTCTTTATTAATATCTCTCAGCAATTCTAATGATAGCTTAGCTAAACGAGATTCGGTATAACGCATAGCTGCAGCCCCATCACCTTCGATATTACCAAAGTTACCATGACCATCAATCAACATATAACGCTGGTTAAAGTCTTGAGCAAGTCTTACCATTGCCTCATAAATACTCGAATCACCATGTGGATGATAATTACCCATAACTTCTCCAACTGTTTTAGCACTTTTACGATGTGGTTTATCAGGTGTGTAACCAGACTCAAACATTGACCATAAAATTCTTCGATGAACTGGCTTTAATCCGTCTCTTAGATCAGGTAAAGCTCTAGCTGTAATAACACTCATTGAATATTCAAGAAAGGATGTTTTTACTTCACTAACAATGTTGTTCTCATCAAGTCTATCGCGCTCATGAAAGTATCCATTAAAAGAATGTTCTTCCTTTGTTTCATTAATTGTCTCTTCTACTCTTTTATCTTCTTCCATTTCCTACACCTCCTAAATATCCAAATTCTCAACATAAACAGCATTTTCCTCAATGAATTTTCTTCGTGGTTCTACTTCATCACCCATTAATTCACTAAATACTTGATCTGCACTCATTAAATCTTCTACTGTTATTTTCCTTAAAGTTCTCGTATTGATATCCATTGTTGTCTCATTTAATTCATCAGCATCCATTTCACCTAAACCTTTCATTCTAGCTATTTCAGCTTTAGAACGAACATTTTCAGGTAAAGATTTAAGATAATTATCTAATTCCTCGTCATTAAGGACATACTTTCTAGTTTTACCATGCATTATTCGATAAAGTGGTGGTTGTGCTGCATACACATGACCAGCCTCCACAATTGGTCTAAAGAAACGATAAAATAATGTTAAAAGTAACACTCTGATATGTGAACCATCCACATCGGCATCGGTCATGATTACTATTTTGTCATAACGTAGCTTAGACAAATCAAATTCATCACCAATTCCTGTACCAAAAGCAGTAATAATGGTTCTGATTTCTTCATTACCAAGAGCACGGTCAAGTCTGTTCTTTTCAACATTTAAAATCTTTCCACGTAATGGTAGAATTGCTTGGGTCATGGAATCTCTTCCCTTTTTAGCTGACCCACCAGCAGAATCTCCCTCGACAATAAAGATTTCTGATTCTTTTGGATCTTTACTCTTACAATCAGATAATTTACCAAAGAAATTAGTTGTTGATAAATCACTCTTTCTAGTTATTTCTCTAGCTTTACGGGCAGCATTTCTAGCACGACATGCCAACATAGCTTTTTCAATGATTACACGAGCTTCATTAGGATTTTCTAATAAGAATTTTTCAAATCCCTTAGAGAAAATCTTATCTCCTAGTTTTCTAACTTCACTGTTACCAAGTCTTCCTTTAGTTTGTCCCTCAAATTGTGGATTAGGATGCTTACATGAAATAATCATTGTAAGTCCCTCTTTAACATCGTCACCAGTTAAAGAATCATCCTTTTCTTTTAAAATATTGTTTTTCCGAGCATAATTATTAATTACTCGAGTAAGAGCTCTCTTAACTCCTTCCTCATGAGTACCACCATCATGCGTATTTATATTATTAACAAATGAATAAATATTTTCATTATAACCAGTAGTGTATTGCATCGCTACTTCGAAAATAACTCCATCCTCTTCACCATCTAAATGAATTATATCTTCATGAATAGGAGTTTTTCCTTGATTAATAAATTTAACATATTCACTAATACCACCTTCATAAACAAAAGTCTCACCAGTAGTATCTTCATCATCACGATCATCTCTAATTGTTATCCTAAGCCCCTTATTTAAGAAAGCTAATTCCCGAACACGAACTTTCAATGTCTCATAATCATAAATATCAGTATCAAATATATTAGGATCTGGTTTAAAGGTGACAATAGTTCCTGTTCTATTTTTTTCACAAGTATCAATTTCATGTAATGGTTCCACCGTATGTCCACCATTTTCAAAGCGAACAAAGTATACTTTACCTTCCTTATATACTTTTACTTCAACCCAAGAAGACAAAGCATTAACTACAGATGCACCTACACCATGTAATCCACCAGATACTTTATATCCTCCACCACCGAATTTACCACCAGCATGAAGAACAGTATAAACTGTCTCTACTGTGCTAATTCCAGTTTTCTTATGAATTTCTACGGGAATACCACGACCATCGTCCTTAACAGTTACTGAATTATCTTTATTAATAATAATTTCAATATTTTCACAATATCCTGCTAAAGCTTCATCGATTGAATTATCAACAATTTCCCATACTAAATGATGTAATCCTTTAACATCAGTTGTTCCAATATACATCCCCGGTCTTTTTCTAACTGCTTCTAATCCTTCTAGAACCTGAATTGCGGATGAATCATATTTTTCTTCTAATTTTTCTTTCACTTTATCCCTGCTTTCTTTATAATGTTATCTTTCTTTATTTCGAAGACAGATGCCTCTTCAATATACTTCTTATTAATGTTTTTTAAATCAGTAGTAGTAATAATACTTTGAATATCACTACCAATTAGATTTAATAATTTATTACGTTTACGAATATCTAATTCACTAAAAATATCATCAAAAAGTAATACTGGTTTTGTATTGGTAATACTCTCAAATATACCTATCTCAGCTATTTTATAGGCAATAATTGATAATCTCTGTTCTCCTTGAGAACCAAATAATTTTAAATTCTGATCATTTAAATAAAAATTTAAATCATCACGATGAGGTCCATATAAAGTCATTTTGTTATTAATTTCTTTAAAATAATTATCTTTATACTTCTTTTTCATTGTCTTCCCAATTGATTCTTCATCATATTTGTCAAATTCAATATTAGGAAGATATTCAACCCTCAAGGTACCTTTATTAGATATTTTACTAAAGATAGTATTAATCGAATCATTTATTTTATCGATATATTCTTTCCTAGAAATATATATTTTAGTAGCTTTTTCAATTAATTTATCAGTTAAAACATCTAAATATTTTGTATCAGCAATACTGTTTGTATATAAAAGTTTCAAATACTCATTCCTAGTTCTTAAAATTTTGTTGTATTCATTATAAGTATTCAAATATATTTTAGATAATTGTGATAATTCAACATTAAGTAAGTTTCTCCTAATACTAGGTGAGCCCTTAATAATATTTAAATCATCAGGTGTAAAAACAATAACATTTAAATTAGATATATAATCAGATATCTTTTTTACTTCATTATTATTGATGAATAATTGCTTGTGATTTTCCCAAATATCTACCTCTAAAGATTTAGGAATTGTTTTATCTTTACTCTTAGCTATTATTTTAGCTTTTTTTTCGCCTATTTTAATTAGATTTAAATCTTCTCTAGTACGAAAGGATTTAGTCAAAGAAAGAATAATTATACTCTCTAAGATATTAGTCTTTCCTACTCCATTATTTCCAATTAAAATATTCATCTTTTTATTTAATTTAATATCTATCTTACTATAATTTCTAAAATTTACTAGTTTTAAATTAGTAAGTATCATAAATCCTCACAAAAAGCACTCATATTCATCACCTACACCCTATTCAGTATTACCTATACATACAATTATATTATACCATATATGGGCCGTTTTTGCACTAAAAAATAGTTAATTTCTTAACTATTTTTGCGGTTTCTTAATAATGATTCTAATCGAGCTGATCTTAGTATCTGATTTTCAATTGAACGATAAGAAATTGGAATAACAATTTCCTTATTATTATCAAAAATTACCTTAGTTTGGTTATAATCAGTTTGATAATAATCTTTAATATGATTAAGTGATAACCAAATACATTCATTATCATGAGGAGAAGTAGTAGGAAAGAAAATAATATTCTTCGAATCTTCTACTACAATTGGAACTTTATATTCAACCCCTAAAATACTTTTTGAACCTTCTTTTCGGCCATTATAAGAACTACCAAAGTATTTACAAGATTTATCCATAATTTCAAAAGCACTTTCACTTATTTGATAATCATATTCATCTTCTAAAACTCTAGTTTTTTCTTCTCCATTAGCTATTACAGCTAAAGTTCCTTCATTAATTTCATAATTCATTTTAGCCACCCCCTATCTGAAAACATCTGCTTTCAGGGAGGTATCCTAGCACATCTCTTTGTCGAAAATAATCGAATTTTGTAGATTATCTTAATAAGTTCTAATTGGTAAAATCAATTGAGTTAAACCTTCATCATCTTGACCATTTATTAGAATAGGTTTTACTTCCCCAACAAACTTAATTTCAATATCTAAAGAATTAAATGTCTTTAAAGCTTCCATCATATATTTAGCACTAAATGATATCTTAATATTCTCTTTACTTTCCTTTGTAATATACATTTTTTCTTCTACTTTACCAATTTCCATAGAAGAACTACGTATATATAAAGTATTACCATCAGTTTCTAAAGTAACAATATTTTTATCTTTATCACTAGTAAGAATACTAGCTCTATCAATAACACTATAGAATTCATTTAAATTAACACTAATATTTAAGAAAGTCTCCCTTGGTATTAAATTAGTAGTATTAGGATAAGTACCATTAATAAGACGAGATTGAAATTTAATATTATCATAGATAAATAATATCTTATTACTAAAAATATACATCTCTACTTTTTTATCATCAGAGGAATTATATATTTTAGAAAATTCTACAATATTATGACTAG
>sequence05
CTCTGGTGTATCTGTTGTAGCTCCAGCTGCAGTGCAGAGTAGCTATGTCTGGAAAGGATAACCGCTGAAAGCATCTAAGCGGGAAGCCTCCTTTGAGATGAGTTTTCCCATACGTATGTAGTAAGATCCCTCAAAGACGATGAGGTTGATAGGCTGGAGATGGAAGAATGGTGACATTTTGAGTTGACCAGTACTAATAGATCGAGGATTTAACCATAATTAATTATTTGATGAACACAGTATCTTAGTTTTCAAAGAACTATTTTAATAGATTATATTTTCTTGGTTACTATAGCAAGCGGGGTACACCTGTTCCCATCCCGAACACAGAAGTTAAGCCGCTTAACGCCGACGATAGTGTATGCGAAAATAGGACGTAGCCAAGAATTTTTTTATGTAATGATTTACACTTTTTAATAAATTTACCAACATAAAGTTGTGTAAATCTTTTTTTTTGCTTATAATAATATATAGGTGATCAAAATGGATTATAGATTAACAACATACTCAGAAGAAGAGACAATTGAATTTGCCCAAAACTTGGAATCAGAGAAATTCCCGAAAATGGTAATCTGTTTAATGGGTGATCTAGGTAGTGGTAAGACTGTTTTTACTAAAGGTTTTGCAAAAGCTTTAGAAATTGATGAAGAGATTACTTCACCTACTTTTAATATTATTAAAGAGTATACTAGTGGTGAAATGCCACTATATCATATGGATGTATATCGCTTAGATGGTAAAGTTGAAGACTTAGGATTAGAAGAATACTTTAATAAGAAAGGTATAACTATTATTGAATGGGCCGATACTATTGAAGAATATTTACCTAAGAATAGACTTGATATTAAGTTTAGAACAAGTGATGATAACGAAAAGAAAAGAACTATTATTTTAGTACCCCATGGTAGGAAATATGAAGAACTTTGTGAGGCGGTTCTATGAAAGTGATGTACATAGATACTTCCTCAAGTTTTTTATATTTTGGGATAGCTGAAGATAATAAATTACTGGTGGAAGTTAAAAAACGATATGACGAAGAATTATCCAAAATGGCAATGGTTGATATTGAAAAAGCTTTTAAAAAAGCCAAAGTAGAACCAAAGGATATTGATAAGATAATTGTTGTTGATGGACCTGGTTCTTTCACAGGTATTAGAATTGGTATTACGATTGCTAAAGTATATGCTTATAGTTTAAATAAGAAAATAACTACCATTAGTGCTTTAGAAGCAATGGCTTTATCAAATGATAATAGTGATTATCTAGTACCAATGCTAGATGCTAGACGTGGTTTTGTTTATAGTGCTATTTATAAAAAGGATTTAACCACTGCCCTAGCCCCTGTTCATATAAAACTAGATGTTTTAAAAGAAGAATTAAAAAAGTATGATGATGTTTTAGTTATTACTAATGATGATATTGATATTGATTATCAAAAAGAGAGTTATTCTCCCGATATCTTAAAGATAATAACTAAATTTAAAGATAAAAAAAGTATTAATCCTCATGCCGTTAATCCTAATTATTTAAAGCTTACCGAAGCTGAGGAAAAATTAAAATGATTACAATAGTAACTAAAGATAATATAGAAGATGTTCCAAAAGATATGAAAGAAGTTATTACTACTTTTGAAACTAATCCTTATGCCAAATATATATTTTATGTAGAAGAAAAAACATTAGGATATCTATATTATAGTGTGATCTATGATCGTATTGAGATTAACTATATTGAAAGTAAAAGAAAAGGAGTAGGTTCCATTTTAATGGAGGAACTATTAAAAGAGAAACTACCAATCACTCTAGAAGTATCAAAAGAAAATGAAAGGGCTCTTACTTTATATAAAAAGTATGGTTTTAAAGAGGTGGCTCTTCGTAAAGGATACTATGATGGAGTAGATGGTATACTCATGGAAAAGAAGTGAGAAAATGAAAGATATGTACATTTTAGGAATAGAATCTAGCTGTGATGAGACTAGTGTATCGATTGTTAAAAACGGAAGAGAAGAAATCGCAACTGTTGTATCTAGTCAAATTGATATTCATAAAAGCTATGGTGGTGTAGTACCAGAGATTGCTTCAAGAAACCACGTCAAAAATATCACCATTGTTCTTGATGAATGCCTAACTAAAGCTAAAATGACCATGGATGATATTGACGCTATTGCTGTTACCTATGGACCAGGTCTTATAGGCTCCCTTTTAATTGGGTTAGAAGCCGCTAAGACACTTGCTTTTATTCATAATAAGCCTCTTATCCCGGTTCATCATATTGCGGGACATATTTATGCTAATAGTTTAGTTAAAGAGATGACTTATCCTTTACTAGCTTTAGTAGTAAGTGGTGGTCATACTGATTTGATACTAATGGAAGAAGAATATAAGTTTAAAAAACTAGGTGGCACTTTAGATGATGCGATTGGTGAAGCTTATGATAAAGTATCACGAGTAATTGAACTTCCTTATCCTGGAGGACCTAAACTAGATAAATTAGCTCATGAAGGAACTCCTTCCTATAAATTACCAATTCCTCTAAAAGATGATTCCTATAATTTCTCTTTTAGTGGTCTAAAAAGTGCAGTTATTAATTTAGCTCATAATGAAGAACAAAGAGGAAGAGAAATAATTAAAGAAGATTTAGCTGCTTCTTTCCAAAAAGTCGCAGTAACAGAAATAATTAATAAGACTAGAAAGGCTATTAAAGATTTTAAAATAAATAATCTAATTGTTGCCGGTGGAGTAGCGGCTAACTCTGAAGTAAGAGAACAAGTAACTATACTTTGTAAAGAAGAAGAAATAGAGTTTAGTTTTCCCCCAATTAAATATTGTACAGATAATGCTGCCATGATCGCAGCGGCTGGATACTTTGCTTATAAACATGGTAAAAATGCTGATATGTCTCTAAACTCTAAATCAGTAGATAGTTTGAAGTAGGTGATAAAATGAATAAAAAAGTATTAATTGTTTTAATAATTATAATAATTCTAATTGTTTTAGCTCTTCTTTACTTTTTCTTAAAGCCAAAGAAAAGTGATACTGAAAAAGTACCAAAAAACTACCATGTAGTTTTAGATATTAATGCTGGTATACCTTTCAAATGGGAGTATAAAATAGATGATGAGTCTATTCTTAAATTAAAAGAAAAGGTAGTAAGAGCCGAAGAAACTAAAGAACCAATTTCTGGTGGTCTTATGCATGAATACTATACTTTTGAAGGACTAAAAGAAGGAGAAACTAGAGTTACTTTTTCCTTTGTCAACATCACTGATAATACTAGTGATGAGACTAGAGAATACAAGGCTGTAGTTGATAAAGATTTAAAAGTAACAGTAACTGAAAATAATTAATCGAGGTGTAACATGGTTAAAGTAGAAGATTTATATGACAAGACCAAAATACCTGTTGATGAAAAATTAGTGGATGAATTAATTGATAAGTACCTACAAATTAGCTTTAAAGATATGAATGATCAACAACTAAATATAGGTGAACGTAAAATAAGCAGTTTATTATATAACAAAATTAATTTTGTTGATAATAATAAAACTGAAATAAATAAACAGGATTTAGATACTTTAATTACCAAAGTTCAAAATGATTTTGAAAAAGCGGGGAAACCTTATAATCCAGCTCAATATGGAGGAGTATCTAACCCCCTTGGGATAATGCCAGGGTGGCAAGTATTTCAATCATGGAATTTGCTAGGGACTGAAAAAATAGCAAGCAAAGATTTAAATCATAGGTTTTATTTTGGTATTGATAATAGTAAGTTATATGATCTTTCTAATGTATTATATGACGAACTAAAAGAAGCTAATATACCTTTTTATTTCAAGATAGAGAATAACAAAGAAGCTCAAAGAAGAGATAAAATAGTTTTATATACATCAAGTGAATTACTTCCTAAGACATTAGAAGTAATTGAGAAAGTACAAACTAATAGAGCAGATTTAATTAGTAGTTGCTCTGAGCCATCAATACTAATGGGAAAACTAAATGAAAAAATAGGTTATGCTACTGAAGGACATCAATCAAATTCTTCCTACACAGATATGTTATGTGAGACTTTTACTGATTCCATTGAGAAGAGTTTAAAGGACTACCAAAGTAAAAATTCAAATTCATCTTTAAAAGAAGTATTTAAATCTAAACTAGAAGCTTATGAAAAAAGGGGTACTAAGTTAGAAACTGTAGACGTAAAAAGAAGAATACTGATGGATCTGTTATTAAAAGAAGATCCTAATTATAAAAAAGAATTATTACAAACTTTCAGGAATGAGCTTTCTGATAAGGAAATGGATTTAAATAATATCTGTTTTAACAAAGAGATAAAACAGGAAGTAGATACTATGTATCAGGATAATACAAAAGAAAATGCTTTTACTAAAGATTTTGATCATGACTTAGAAATGGAAAGAATGGTTAATTATCAAGAACAGACCGAGAAACTTCCTGATGACGTTAAGACCTTACACGGCTAAAAGCTTGACTTTTACCCCTAAAAGTGCTTTAATATTCACTCGTAAAAAGCACATAAGGGGGTTTTTTTATGAATGAAAGAGAAATGGATTTTTATCATGGTGCTGAAGTCTTAAAGGTGCTTGGAGAACCAGTTATTAATAATAGAAAAGAAAGACTTTTTTATCGTGATTTTGGTCTTAAATTAGTTTCATCACTTAATAGAGATTCTGAAGGAAATATTTCTATTAAAGATTTAAGAATAACTTATGAAGACCAAGAAGTACTTCATTCTCAAAAAGATGTTTATAACCCAGGATATTGGGAATATATTCTTAAAAAATTATATGAAGACTGTGATGTTTACTATAAAGATAGAGAAAGAAATAAACCAAAGACATTATACTTAAAGAAAAGAAGTTAATTAATTAACTTCTTTTTTATATTTACTTTCCAACTTAGTAACTAAATAATATAATAAATAAGATATTATACCTAGTATCACTACACTAGTAATAACTAAATTAATATTAAAGACAGAGGATCCATACATAATTAAATATCCTAAACCCTTCTTAGAGACTAATAGTTCTCCCATAATAACTCCAATTAAAGTCATACTAATATTAACTTTTAAGATATTAATAAAATTTATTCTATTACTAGGAATAATTACTTTAGTAAATATTTGGTACTTAGTAGCTTTAAGAGTCTTCAATAGTTTAATATAATCTTTATTAACATTAGAAAACGCATTATAAGTATTAATAATAGTAATAAAGATTGATATTGATAACGCCATAACAATAATTGATTTAATAGAAGCTCCTACCCATATAATTATTAAGGGTCCTAGAGCTACTTTAGGTAGAGAGTTTAGAATAGTTAGGTAAGGATCAAATATCTTTGCTAGAAGAGGAAACCACCATAGAAGGGAAGAGATAATAAAACCAATTATAACTGATAGGCTAAAACTAATTAGTACTTCATAGATAGTAATAGAAAGGTGTCTAAATAAACTACCATCTTCAATTAAAGAGAAGAACGTGTCTAATACTTTTACTGGTGAAGACATTAAAAAAGAATTAATTATTTTAAAAGAGTCTAATAATTGCCAAGTTGTAATAAATAGAATGATGATTAATACTCTAAAGAAAAGAACTTTTCTTTTTTCTTGTTTTCTTTCTTTTAAATACCTTCTATGTTCTTCAGTATAATTCATCTAAATCACTCCAGATTAAATCATAATACTTATCAAAGTATTCATCTTTTCTGTTTTCAACGGGAGTTTTCTTATTCTTTAGTTTAATCTCATAAATGTTTTTTATTACTGCGGGTCTCTTAGATAAAACTATAACTTTATCAGACATTGAAATAGCTTCTGCTAAATCATGAGTAACCATAATAGCAGTAATTCCTTCATCTTTAATCATTTTATAGATATCATTACTAATTAATAGTTTTGATTGATAGTCAAGTGCTGACATTGGTTCATCTAAAAGTAAGATATCAGGTTTTAGGGCTAAAGTCCTAATTAAAGCAACTCTTTGCCTCATACCTCCAGATAGACTATCAGGGTATTTATTTAAAAATTCTGATAGTCCATAAGTATGTAATAAATCTAAGACATATTTCTTTTTATCTTCGGTTAACGAATTAGTTATTTCTAGTCCTAAAAGAGCATTTTCTAAAATAGTTTTCCATGGGAAAAGACAATCACTTTGTAACATATATCCTAACTTAGTATTATCTTTTAAATGGACTGTTCCACAAGATTTATCTTCTAAAAAAGAAAGAATGGAAAGTATAGTAGACTTTCCACATCCTGATGGTCCTACAATAGAGACAAATTCTTTTTCAAATACGTTAAAGGAAATATCACTTAGTGCTTTTATCTCATCTTTAGGATCTTGATAATTCTTTTGTAAGTGTTCAATCTCTAATACTTTATTCTTGATAGATAAGCTTTTCATAAGCAACCTTCTTATCAAGTTCTTTAGCTTCAATCATAATATCTTGAAGATGATCAAAATCCTTCTTACTAAAGAAAGTACTCTTAGACCAAGCATTAATATCTCGGTAACGTTTAATCACTTTCTCTAATACTTCTAAACTAGTATCATTAAATTGTTTTTTTATGGCTTTAGCAATAGTTTTATCATTATGTTTTTCCACATATTCTAATCCTCTATTAATAGCTTTATTAAAGCTTTTAATAGTCTTTTTATTCTTCTCTAAATAACTACTTCTAGCATTAAAAGCTGTATAAGGGACTTCTCCTCCTAATTCCCCAACAGAGGCCACTACATATCCTATTTTCTCTTGTTCTATTTTGGTGGCTTCAGGTTCAAATAGAGTAACAAAGTCACCTTCACCAGAAGAGAAGGCTCCTCCCATAGCATTAAACGCAATTGAGGTATCAATATTAACTTCATTTAGTTTAATACCGTTTTTCTTTAAAGCGTATTCTAAAGTCATTTCTGGCATACCACCTTTACGACCACCAATAATATTTTTACCTTTTAAATCTACTAGTGAAAAATCCTTTATTTTTTTCCTTGATACAATAAACGATCCATCTTTATTAGTAAGTCTAGCAAAAGTCTTTAAATAATCTTTTTCTTTATTATTATAGACATAGATAGTAGCTTCACTACCACAGAAACCAATATCCGCATCCCCAGATAAAACAGCCGCTGTCACTTTATCCGCACCAGGAGTTAAAATTAAATTAAGATTGATTCCTTCCTCTTTAAAATAACCTTTCTCAATCGCTACATAAAAAGGGGCATAAAAGACTGTATGGGCTACTTCAGCTACAGTTACTTTCTCTTCTTTTTTAGGGGGCTTATTTAAATTAATAAAGACCATTGATACTAAAAAGAAAGAAACAAAGACTATTAAAACCCATGTAAAAAATTTATTCATAATTCCTCCTTATCTAAATTACTATATGAAAAGATAAATAATTGGTAACTACTTTTTGCTTAACTGTTGCCAAAAGAATAAATTTATATTAAAATAATAATAGATCGATGATTGGAGACTATAATAAAATAATCTATTTAAAGAGAGGCTATGGTTGGTGGAAATAGCTATAGATATTTATTTAATCTACTCTAGGAGATGAAGAATAATTCTTCCGGTTAAAAACCGTTATGTAATTAAGATGAAAGAGGATGGCACCGCGAATTATTCGCTCCTTGTGTTGTTCTTTTTTGCCTTTTTAGGAGGAGATTTATGTTTGATACTCATTATGATTTATTAACTATTGCTTATGTCGCCTACTTAAAAGACGATTATTCCTATTTAAAAGAAATAGCCAACTATTTTAATGAGAACAACGTTAAAGGAGTTATTGCTAATCTCTATTTTATGAGTAGAGAAGAAATGAAAGAAGAATTACATGAGAACTACTATAGAGATGATGTTTCAGTTTTAGAGATGTTTAAAGTAGCTAAGGATATTTTAGATATATTTCTTCCTAATAAAGATATTTTATATAGTATTGAAGGAGCTGACTATATAAAAGATGAAGATGAATTAGAAGAATTATATAATAATGGATTAGATGCTTTAATATTATGCTGGAATACTGAAAGTAAATATGGCTCTGGTAATCGTTCTAATAAAGGCTTAACTCTAGAAGGTAAAAAACTGCTTACTAAAGCTATTGATCTAGGTATGGGAATTGATTTATCACATGCTAATGTTAATACTTTTTATGATATGGTGGACTTAGTAAAACATGAGAAAGAAGAAGGTAAAGATGTTTGTGTTTATGCTAGTCATTCTAATGTTTATGCCATTTGTCCTCGTAGTCGTAGTTTAGAATTTGAACAATTAGAAAAACTAAAAGAAATAGATGCTTTAGTAGGTGCTTTTTCTAATAAAGGATTTATCATTAGAAAAGGTATAGATGAAGAGAGTGTTGATGCTAGAAAGATGTATTTATTACATTTAATCTATCTTTCTAAAGTACTAGGACCAAATAAAGTAATGACAGCTACTGATGATATGACTTTCTTAAAAGATACAGGTAATAAATATGCTCTTAAAAATATTTATGAATATAAAGATATTTATAAAGAGTTGAGTAAAGATCTAGAATCCGTCTTTGGCGAAGATAAAGAAAAAATAATTTATAATAACGCTAAAGAACAGATTTATGATAAAATAAAAAAGAAAAGAGAAAAAAGGAGAGGATTATAATGGAAAAGAATAATCAAAAAGTATGGTGGATTATACTTATTGTGGGGGCGATATTTTTACTTGTAGGAGGTTTCCTTGTCAACAAGAGTGATAGTAATGAAACCGCAAAACCAAAACTAATAAAGGTTGCGCTAGACAAACAATATAAAGAAAGTGTTCAAGCAGGAAGTTCTATATCATTCAAATATACACCTGAAGAAAGTGGTTACTATTATTATGATTGGTCAAACAATGGAGATGAAAATACTGGCGTAGAGTTTTCAGTTTTAAAGAATAATAAAGATGCTATGGAAGCAGAAGGAGAAGGAACAAAATTCTTTGTTTATTTAGAAAATGGTAATGATTATTACTTTAAAAATCATGCTGAAAACGATGTAACTATTTCTTTTGAAATGGGTAAATTTGCTGAAGGAAATATTACTGATGGTGAAGAAGTAACTATTAATAAGAATACAGTTTTATTCTATGAAGGAAAAGAAACAGAAACCAAACAATTAACTTTAAGTGATGATTCTGCTGCTAGAGTAATGGTTTTCCATCCTGATAATTATAGTGTTGGTTATAGTTATGATATGAAAGGACTATTTGATATCAAAGCAGGATTAAAATATAACTTCTATTGCTATGATGTTAAGGGTGATGTAAAAGTATTAGTAAAGAAAGCACCAGCAGGAATAATAATCGAATAAGAAAAGAGATGATGTGAATGATCGACATCAAATTAATAAGAGAAGATAGAGATCTAGTAAAAGAAAATATTAAAAAGAAGTTCCAAGATGATAAACTAGTTCTAGTTGATGAAGTATATGAACTTGATCAAAAAGTACGTAAGTTAAAAAAAGAAGGCGATGAACTTCGTTTTAAGAGAAATGAACTAAGTAGTGAGATTGGTTCTTTAATGAGAGATGGTAAAAAAGAAGATGCTGAAAAGATTAAAGCTGATGTCAGTGCTATTAATGAAAGATTAGAGGGATTAGAAAAAGAGGAAGATGAACTTAATCTAGAGATAAAAACTAGAATGATGGTTATTCCTAATATTATTGATGAATCTGTTCCTCTAGGTAAAAGTGATGAAGATAATGTTGAATTAGAGAAATTTGGTGAAGCTAAAGTACCAAGTTATGAAGTACCATACCATATTGATATTTTAGAAAGTTTACAAGGTGTTGATATGGATGCTGCTTCTAAAGTAGCAGGTAATGGTTTTTACTATTTACTAGGTGATGTAGCTAGACTTCATTCGGCTATTTTAACTTATGCTAGAGACTTTATGATCGATAAAGGGTTTACTTATTGTATACCACCATATATGATCAGAAAAGCAGTTGTTGATGGTGTTATGAGCTTTGAAGAAATGGATGCTATGATGTATAAGATTGAAGGAGAAGATCTATACCTAATAGGTACTAGTGAACACTCAGTAATTGGTCGTTATAAAAACGAAATACTTAAAGAAGACGATTTACCAATTACCCTTACTTCTTATTCACCATGCTTTAGAAAAGAAAAAGGAGCTCATGGTATTGAAGAAAGAGGAATTTATCGTATTCATCAATTTGAAAAACAAGAGATGATTGTAATCTGTACTAAAGAAGAAGCTAATTCTTGGTACGATAAGATGTGGAAATATACAGTAGATTTATTTAGAAGTTTAGATATCCCAGTAAGAACTTTAGAATGTTGTTCTGGGGATTTAGCCGACTTAAAAGTAAAATCATGTGATGTAGAAGCTTGGAGTCCAAGACAAAAGAAATATTTTGAAGTGGGTTCATGTTCACTTCTAGGAGATGCCCAAAGTAGAAGACTAGGTATTAGAGTAAATGGTAAAGAAGGTAAGTATTACCCATCTACTTTAAATAATACTGTAGTAGCGCCTCCAAGAATGTTAATTGCTTTCTTAGAAAACAATTACAATGAAGATGGAAGCATTAATATACCAGAAGTATTAAGACCATATATGGGTGGCCTTGATAAAATAACTAAGTTGACTTAAAAATGGTACATGTTATAATAAAAATTAATTGAAAGGAAGGATATTATGGAATTAAAAGGAAGTAAAACAGAAGAAAACTTAAAGACTGCTTTTGCTGGAGAATCACAAGCCAGAAACAAATATACATATTATGCCTCAAAAGCTAAGAAAGATGGTTATGAGCAAATAGCTGCTATCTTTGAAGAAACTGCTAATAATGAAAAAGAACATGCTAAACTTTGGTTTAAAGAATTAAATGGTGGGGATATTCCTACTACTGAAGTAAATTTACAAGATGCTGCTAATGGGGAAAACTTTGAATGGACAGATATGTATAAAGGTTTTGCTGAAACAGCTAAAGAAGAAGGATTTGATCGAATAGCTGATCTATTTGAAAAAGTAGGAGCTATTGAGAAAGAACATGAAGAAAGATATCTAAAGTTACTAGCTAACTTAAAAGATGATAAAGTATTCCATAAAGATGGTGAAAAGATGTGGATTTGCCGTAACTGTGGACATGTTTATATGGGTGCTGATGCTGTTGATATCTGCCCAGTATGTGCTCATCCAAAAAGCTTTATGGAAGTTAAAGCAGATAATTATCTATAAAAACTACGAAAGTAGTTTTTTTATTTAAAAAAACTTGGTTAATTAAAGAATTTATATTATAATGTTATATATAAGATAATAACGGAGGATGCCATGAGTAAGAAGAAAGTTATATTTTCAGCAATCATTGTATTTCTACTAGGCTTTTTAATGGTAAAAGCAAGTAGTAGTGTTGAAATAACAAGTATCAGTATTAAAGAAAAAAGTGCGACTATTTCAGTAACTGATCCCGTCTTAAATAATAATGAAGTAACTAGTAATATTACTTTTAATCAAGAAGGAGATTATGTTAATTTTGGTGTTGTTTTAAAAAACAATACTGATAAAGAATATAAAATAAAAGGTATTACCGACAATAACACTAATGAAAATATAAATATTACTTATGATTATCCAGAAGTTATAGATTCTGGTGAAAGTTCTACTATTAAAGTAAAGATGCTTTATCAAAATAAATTAGTAAATAAAGACTTAAAGATTAATAATTTAGTTATTACTTTAGAAACTGAAGAGGGAAAGAAAAAAGATATTATAATTAATCCAGAAACAAATAGTAAAACTTTAGTTAACCCTTTAACTAAAGATGGTATCTTTAAATATCTATGGATATTATTAATAAGTGGAATAACACTATTAATTATCTTTAAAGGAAAGAAATTAAATAAAGCTCTATTAATGGTAATAGTTACTTTATTAATAGTACCTATCCTAGTAGGAGCTAAAGAAAGTATTACTTTAAAATTTAGTGATATTGATATTAAGGGTGAGTTTGAAGTTTATCAAGTTAGTATAGATCCTAATAATGGAACAGATCCAATTATTAGAGAAATAAAGTATGGTGATAAATTAGGACAATTACCAAGTGTCAGTAAAGATGGATATAGTTTTGATAAATGGGCTGATCAAGAAGGTAATGATGTAGATGAAGATACTGTAATTACTGGTCCTATAACAGTAACTGCCGAATATACTGCTAATACATATCAAGTTATCTTTAATAGTAATGGTGGTTATGGTCAAATGGATCCACAAGAAATGACTTATGATCAAAAAGCTAACTTAATAGCTAATGATTTTGATAATGGTTCTCATGGCTTCAAAGAATGGAATACTGAAGAAGATGGTACCGGTACTTCATATGCTGATGAAGCCGAAGTAAAGAACTTAACTACTAGTGGTGAAATAACTCTTTATGCTCAATGGGAAAAGATTGCTAAATTAGAAAGTGGAAGTTATGTCAATCAAAAGATGAGTAATATGGCTTATGATCCTGATGGATATTCACCAGATGTTCCAAGTATATATCAAATTAAAAAGACAACAACTTTACCAGATGGATTTGAACCAATGGGTGACAATACAATATCAGATTACGATTCTGAAGAACCAGTATATATATGGTACGATGAAGATTATGGAATAATGTATTGGTATACTGAAGCCGATAAGATAATATTAAATGAGTATTCTAATAATCTATTTGGCGGTTTAGAATACTTGTATAGTATTGATTTATTAGATAAACTTGATACCCATAATGTACAAGATATGTCTGATATGTTTAAAAATGTATCATCATTTAGCGATTATTCAGGGCTTGCTAATTGGAATGTTTCTAATGTTAGTAATATGTCCAATATGTTCTATAACAATCAAGGGCTTTCGAATTTAAGTGTTCTTGATAATTGGAATCCTTCCTACTTAACTAATATGGGAGGAATGTTCTATAATACTCCAATTACTACGGTAGATCCTTTGGAGGATTGGAACACTACTTATGTAACTGATATGAGCCATCTATTTGAAAATTGTTGGCGTTTAACTGATTTTTCTGCTCTAAGTTCTTGGCATACTGGTAATGTAACTAGTTTAGCGTATACATTTGCTAGTACTAAATTAAGTGATTTAAGAGTAGTTGGTGGTTGGGATGTCAGAAAAGTACAAGATATGGAAAGAACATTCTCTAGTTGTAATCAAATAACTACTCTTCAGCCATTAAGTGGATGGCAAACTAATAGTGTAACTAATGTATTTAATATGTTCTTCATGTGTCGAAGTGTAACTAATTTATCTGGTTTAGAGAACTTTAATCTTTCTAGTTTAACTAGTCTTAAAGCAATGTTTAATGGTTGTACTGGCATAACTAATGTTGATGCTTTATCAGGTTGGAATACATCTAATATAACTAATATGGAAGGGGTATTTAGTTCTTGCCAGGGTCTAGAAAATGTTAATGGCTTGGCTAATTGGAATACATCTAATGTAACCAGTATGGCTAGTATGTTCTATTATAATTCTTCTTTAACAAGTCTAGAACCATTAAAGAAATGGAATACATCTAATGTAACTAATATGGGTAATACTTTTAGGGGGTGTCAAAAACTAGAAAGTGTTGAAGGAATTGATCAGTGGGATCTTAGAAAAGTTACCTCAACTATTGCTATGTTCCAAGCAGCTAGTAAAATATCAGGTACTATAAAACTTTCTAAAAGACCAACTTCTTATGGTGATATGTTTAGAGATGCAGCGACAGCTGAAGGATCAGAACTAATAGTAAACTATACTAGTGATGTAACTAATATAGATAACCTTATTAATACTAAATCTAGTAATTCTCATGTTACTAAAGGTGAACTAGTACCATAATAAAAAACTACGAAAGTAGTTTTTTTTATTTATTTTTTTTCACTTTTGTGATAAAATAAGCCAGAAGGAAGTGATATTATGGCCGAATTAAAAGATGTTAAAGGTATAGGTCCTAAATCACTTTTTTTGCTAGAAAAAATGGGTATAACTACTATTGATGATTTAGTAATGCATTATCCTTTTAGATATGAACTATTAAAAAGAGGTAATTTAGAAGAAACTAAAGATGGAGAACAAATTATTATTGATGGTAAAGTAGAAAGTATGCCTATTTTAATGAGATTTAAATCTAATCTAAATAAAATGAATTTCAGATTACTTACTCAAAATGGTGGAGTAGGAATCTCTATCTTTAATAGAGCCTTTTTAAAGAGTCATTTAACTGTAGGAACAACCATAACAGTTATTGGTAAATTAGATAAGAAAAAGAATATTATAACTGCTTCTGATATTAAATTTGAAGGATTAACCTCTAAAGTAAAAATAGAACCAGTATATCATCTTACTAATGGTATTACTAATAAAAATATTCATAATTATATTAATATGGCTATGTTGATGTTTTCTAAAGAAATATTTGACTATATACCAGAATATATTCAAAAAGAATATAACTTTCCTAATAAGAAGACTTCTCTAAATATTATTCATAACCCATCTACTGCTGATAAACTAAAACAAGTAACTAAAAGATTAAAGTATGAAGAGTTATTTGCTTTCATGTTTAAGATTAATTATCTAAAGAATGAAAGAAAAAAGAATAATAAAGGTATTAGAAAAGAAGTAGATAGAGAAGAGTTAAATAAACTTATTAAGAAGATACCTTTTGAACTTACTAATGATCAAAATAAAGCTGTTGACGATATCTTAAAAGACTTAGAAAAAGATTATAGAATGAATAGACTACTACAAGGAGATGTTGGTAGTGGTAAAACAATAGTTTCTTTTATCGCTATGTATGCTAACTATTTAGCTGGTTTCCAAAGTGCTTTAATGGCTCCAACTGAAATACTAGCAACCCAGCACTATAATAATCTAAGAGAACTATTAAAGGAAACAGATATTAATGTAGAACTATTAATAGGTTCAACTCCTAAAAAAGAAAAAGAAAGAATTCATAAAGAATTAGAAGAGGGTACTATTAATATGGTTATTGGTACTCATGCTTTAATCCAAGAAGAAGTAAACTATAATAACTTAGGATTAGTTATTACTGATGAACAACATCGTTTTGGAGTTAATCAAAGAGAGAATCTAAAGAATAAAGGTATTACTCCTGATATTTTATATATGTCAGCGACCCCAATACCAAGGACTTATGCTTTAACTCTATATGGTGATATGGATATGTCCATTATTAAAGAAAAACCTAAAGGTAGAAAAAAGATTAAGACTTATGTTAAGAGTAATGATGAAATAAAAGATGTTTTACAAATGATGTATGATGAATTAGAAAGTAATCATCAAATATATGTAATCGCACCTTTAATTGAAGAAGGTGAAGGTAAAACAGATTTACAGAGTGTCATGAATCTAAAAGATCAAATGATGTTAGCGTTTGGTAAAAAGTATAAGATTGATATTATTCATGGAAAGATGGCTGGAGGAGCTAAAGAATTAATCATGCAAGAATTCTTACAAAATAATATTCAAATATTAATATCAACTACTGTAATAGAAGTAGGAGTAGATGTTAAAAATGCTACTACAATGGTTATCTTTGATGCTAATAGATTTGGTCTATCAACTCTTCACCAATTAAGAGGAAGAGTTGGTAGAGGAGAAGATGAATCTAAATGTATCTTGATTAGTAAAGTTGATACTAAAAGACTAGAAATAATGGAACAAACTGAAGACGGATTCGTTATTAGTGAAGAAGACTTAAAACTAAGAGGTCATGGAGATTTATTTGGTACTAAACAAAGTGGAGATATGGAATTTAAGATAGCTAATCTAAAAGAAGATTATAAAATTCTATTAAAAGCTAGAGATGATTCTAAAGAGTATTTGGAAAATAAAGACTATGATAAAGACGAAATTAAAAAGAAATTAATAAAGGGTATCATAGGTAGTTGACAAAATATAAAAATTACTTTATGATTAAAGTGCATGATAGATAATCATGCCGAATTTATACTCACGATTATATTAAGTGGGTATATGTTCAACCGAACCCCCTGAAGATAGGCCTTTTGGCCTATCGCTTTTTTTATGTTATAATATAGATAATAGGAGGAGCACATGAAAAAAAGAATAACAATAATATCAATTATAATCGCAATTGCTATAATAATTATAGGAGTAGTAATTGGTTATCGAAATATTAATAATACTAATAAATCTCTTTTAGTAGTAAGGACATATGCTAAGTATACATCTTCATCTCGATTTGATGGTACTGCCATATTTAATGATGGAAGTGTCTATAGTTGGAGCTTTAAAGGATCTACTGATAAAGAGTATAAAAAGTATATTGATAACAATAATATTGATACAAAAAAAGGTCTAGAAAAGTTCATCTTAAAAAGAGGAAAGAAAAGATCAAATAAAGTACCTAGTAATGAATTAGAAGAGATTAAAAGAATTGTTAATAGTTTAACAGAAAAAGATACTGACTATGAAGTTGGTTGTTCTGCTACCCAATCTGGTAATTTCTCAACAGCGGCTTTTAAAGACACAACAAGATATGAAATAAAAGTGAGTGGTGCTTGTGATGGTACTAGTAAGACAACTAATTCATCTAGAATATTAGCTATTGCTAATAAGTATTTGTAATTAAAAACAGAAGATAATATCTTATTATATGATGTATAATAAATATACGTAAAAAGGAGATGGTAATATGAAAAAACGAATTGTTTTAGTATGTATTGCCATGTTTTTAGAACAGGAGAAATAGCTTCAAGTCAAAAAATCTATCTGAAGGGTATTGGAGCAAAGATAAAGACTTACTTTTGGATTAATGCTTTTATAAGAGAATTTATCGCGACATTATCTAGAGAAAAAGAAAAGCATATTAAAACAATAATTATATTAGTACTACTAAGTTTTTCTTTACTAATTGTACATTATTTAAGTTTATATTTATAATTAAAAAGGTCATTAAGACCTTTTTTATTTTAATAATTCAGTAAAACTGTTAATAATATTATTATTCTTTCTAGTTGATTCAATTAAGTATACTAAGTCCTTCTCTTTAAAACTAAAGTTAGTATCTAACTCAAATAACTCTTTAGAATCTAATTTACTTTGAACATATTCTTTTACAACTAAACCAACGCCTAAACCACCTCTAGCACAATCTTCTATTATTAAGTCATTTCCTATTTCCATTAATGGATGAATAATGATATTATTTCTTTTACAAAACTCATTAAAATTCATCCTGTTACTAGCATTAAATGGAAGTAATACTAAAGGCAGGGTAGATAAATCTTTCTTAGTAATAGTTTTATCTTTATACTCACTATCACCATTAACTACTAATATATCATGTAACTTCTTTATTTTAGTAATAGTAAAGTTACTAGGAATATCATTAGGTAAATGAGTAAAGACAATATCAACAAGTCCTACTTGAGCTCTTTTAATTAATTCAGGAGTAACTACAGTATGGACTATAACATTAATATTAGGATATAACTCATGAAACTTCCTAATATAGGGCATTAAATACCTCTGCATAATAGTATTACCCGCACCAATATTAATAGTTCCACTTTCCATATTATTTAAACTAGTAATATCTTCTTCAGCTGAAACAATTAAATCCATGGACTTCTTAATCTTATTAAAAAGTAATTCCCCGGCATTAGTTAAAGAAACACCACCTTTTTCCCTGTTAAATAAAATAGTATTAAGATCCCTTTCTAAGACCTTAATTGACTTACTAACAGCAGGTTGAGAAACCATTAATTCATTAGCGGCCCCAGTAATACTTTTGTTCTTTGCTACATAGTAAAATACTTTATATAATTCTAGATTTGTTTTCATAAAAACCCCCATAACTAAAAGTTATATTTCATATAAAAAATATGTATTTTAATTATACCACTTTTTGCCTTATAATACAAAGTTGTTTGAAAGGCCAATCAGACAAAAACTAAGAAGGAGGGTAGAAGTTGGACAAGACAATACTTGAACAAGTTAAAGAAGCAGCGAATAAAGCTAAAATCAAATATGTAAGTTTCTTTAATAACGGAAAGATAGTAAAAGACAACGGTAGAATGGAAAGAAGCTTTAATAAAGCCAATGATTCTTATCAAAGTGAACTTTTATTAGAAACAATGGTAGATGGTGCGAAGCTTTATTCAAGTTTCTATGATTTTGATAGTATAGACATGCATCTAATATTAGGTTTAGTATTTAATGAACAAGATATTAAGGAAGATCAGCAACTAGAAGGTGCGAAACCAATTAAAGGTCTTGTAAGATACTATACTGGAACTTTTGATATTACTAATGGTGAAGAAAAAACTAGTTTTGATGATGGTAGATATTATCCATCTACTCAAGGATTTATTAATTATAACAAATTAATGAAAGCTATTGAAAAAAGTGGATTAGATTATACTGGTCCTGAAACATTCCAAGAGTTTGAAGAACAAATCCTAGTAGGAGAACCATTTGATATTAAAGTATCAGCTAATCTATCAAAAGAAGAAAAAACAACTGGTAAAGTAAAAGTAAAAACAAAGTAGATAACATTGTTATCTACTTTTTATATGTTATAATTAATATAGGTGATTATATGAAGAAATTATTTATCTATTATAGTTTAACTAGTAATGGTGATGTAGTAGCAAAAGAATTAAAAAAGAAAGGATACGATATTAGAAAAGTTATAAGTAAAAGTAAGTATCCTAAGAATAGAGCTTTAATGATATTAATAGGTGGTTATAAAGGAACGTTTAATAAGAAAGATAAACTATTAGACTTTGATAGTGATATAACTAAATATGATAAAGTAGTAATAGGATCTCCTGTTTGGAATGATAGATTATCAGCACCTATCAATACAGTAATAAGTACAATAGATACAAAAGATATAGACTTTATTCTATATAGCGCCAGTGGTAAAGCAGAACATGCTAAAGAAAAAATAAAAGAACTATACAACAAAGAACCAATAATCCTAAAAGAACCAAAGAAACATAAAGAGGAATTAGAGAAGTTAAAAGGGATATAGAAAACTTGCTCTCTTCCCCCTGGCCCCTAAGTGGTGTCTTAGAAATCCTTATTTTATAAAGATTTCTTTTATTTTAGGTACCATTTTACATACCAGCAAGCTAGTACATTTTGAAGAGAGCATAAATTTGGTTCATCTCAGTACATATTTAGGGTAGCACAATAGTAAAAAATTTCAAAGTCATTCGAAATTAATTATTATATTTCATATAAAATGATGAGGAAAACAGAAGGTTATATGATATAATGTTTATAGGAGATATAGTAAGTACAAATCAGGAGGAAAATATGTTTGATATACAAAATCGTAGATACATAGGTAATAAATATAAATTAATGGATTGGATATCTGATTTAATAGACAAAAATTGTAAAAATTGTCACTCGTTCTTTGATGTATTTGCCGGAACTGGATCTGTAACGGATTATATGTTTGATAAGTATGATAGATTTATAATAAATGACTTTTTATATTCAAACAATATAATATATAATGCCTTTTTTTTGAATGAAGAATATAATGCTGAATTGATAAATGATATAAAAATTAGATATCAGAAATTAGATTCATCAAAACTTAAAGATAATTATGTTTCAATCAATTTTGGAAATAAGTTTTTTAATTATGATGATTCTTTAAAAATTGGATACATAAGAGAAGACATTGAAAAGTTAAAAAAATCTAACAAAATTAATTACAAAGAATATAGTATATTAATTGCTTCACTATTATATTCTTTAGATAGGATAGCTAATACAATTGGCCATTATGATGCTTATAGAAAAACAAAAGAAATAAAATCAAGTTTCATATTTGAATTGATTAATCCTAAAGATGATAATCAAAAAAAGGTAATAGAAATATATAGAGAAGATTCTAATGGCTTAGCTAAAAGAGTTAAATGTGATATTGCTTATATAGATCCTCCATATAATTCGAGACAATATAGTAGATTTTATCATGTTTTAGAAAATATTACTGAATGGAAAAAACCTGAGTTATTTGGGGCTGCTTTAAAACCTAAAGAAAAAAATATGTCTGATTATTGCAAGGTTACTGCTCCAATAGCGTTTAATGATTTGGTTCAAAGCTTAGATGCAAAATACATAGTAGTTTCTTATAATAATACATACAATTCTAAGAGTAATTCTTCAAAAAATAAGATTACATTAGAAGAATTAGAAACAATATTGTCTAGTAAAGGTGAAACACAAATATTTGAAAAGAAATACAAGGCATTTGATGCTGGGAAAACAGATTTAAACGATCATAAAGAATTTATATTTATAACTAAAGTAAAGAAAGATATTAAGAAGGAAATATCTTATAGATCACCATTATTTTATGTTGGTGATAAATATAAATTAATGCCTGAAATTAAAAAATATATGCCAGAGGGGATTGTTAATTATGTAGAACCTTTTGTTGGCGGTGGTTCATCGTTTCTAAATGTAAAAGCAAAAAATTATATTGTCAACGATATAGATACAAGTATTATGTCAATTCATGAAATGCTAAAATCATATTCATTTGATAAAGAAAAATTCTTTGATAAAGCTTTCAAATTAATAAATCGTTATGGATTATCATGTTCATATAATGGACATTTAGTTCCTGAAGAATTAAAGCAAAAATATAAGAAAACTTACTATGCTAAGTATAATAAAGAAGCATACATAAAATTAAGAAATGACTATAATAAAGATCAAAAGGATATATTAAAGTTATATTTATTATTAATATATGGATTTAATCATATGACAAGATTCAACTCTAAAGGTCAATTTAATTTACCTGTTGGTAATGTGGATTTTAATAGTAATGTATATAATTCACTAAATTATTATTTTGATTATTTAAAGAGAATAAAAATAAAATATTCAAGTATGGATTATAAAAAATTTTTAAATTCTTTATTGCTAAATGAAAATGACTATGTATTATTGGATCCTCCATATTTAATAAGTCAAAGCGAATATAACAAATTATGGAGTGAAAAAGATGAAAAAGAATTATATGAATTATTAGATGAACTTGATAAAAAGGGAATTAGATTTGGTATAACAAATTTGGTTTATCATAAAGGAAAGAAAAATACTATTTTTGAAAAATGGTCTAAAAAGTATAATGTTTATGAGATTAATAGTAATTATATAAGCTTTAATGATAATACAATTAAAGCAGGATCTAAGGAGGTGTTTGTTACTAATTATGGCACAAGCAAAGAGTAAACCATTATCATTTTCTACTACTATGAGAAATCCTAATAGAATAGCTGGTTTTTTATCACAAATAGTAGAATTTGAAGGGCAAGTTTTAACAAGTGAAATAATATATAAAGTTATACATAATGTTATAAAAAATAAATTATATTATACTATGTATGAATATGGCAAACCTGAATATAAAGATATATATTTTTCTGACGAATTAGAATTTTCTGATGAACAAGTAGATGATATTATTGCTAGTACAAAACAAAAACATAAAGAGGCAGGATTTGAAGAGGGTTGGGAATCACGCTTTGATACTTGGTTTAGCTTACCTAAAGAATTTGGATTTGTCTTTTATGAAAAAGGAAAACAAATTAGAATATCTGAAACAGGACATATGTTAATAGATAATAGTAATTTGGAAGAACCTGATGAAGTAATGAATCAAAATATATTTTTAAACAGTTTATGTAAGTATCAAACAAATAATCCATTTAAGAAAAATTTAAATGAAAATAATCCGTTACTTTTACTTTTGAATACAATTAAATTATTGAAGAATGATCCTGAAGAAAATGATGCAGGAATATTTAGAAGTGAACTTAGTTTATTAATATGTTGGAATAATAATGATGCTACTGAAGTATATAAGCTAATTAAAAAGTTACGTAAACAAGTTGGGTTTCAATATAGTGATGAAATGATTTATGATATTTGTTTAGAATTATTAGGATGTGTTACACCAGAAGAAAAAGAAGCAAGTAAAAAATATTTTAAGATTGATAAAATATGTGGTGAAGCAGTAGATGAATATATAAGAAAAATGAGAAGCACAGGAATATTATCGTTAAGAGGAAATGGTAGATTTTTAGATTTTAATAGTTTTGAACAAAAGAAAATTGACTATGTACTAAGTAAGTACTCATCTATTAAAACTTATAGTAGTGAAGAAGAATATTTTAATTATATTGGTCAAAAAGATAAAGAATTATTTGATATTAATGATGAAGTAGATTATTCTAAAGAATATGGTATAAAGATTGAAACACTAAATAAATTTGCAAACAAGTATACTAAGGAAGAAATATTTAAGGAACTTCTGATTTTAAGTAAGAAAACAGAAAGTAAAAATGATGAATTTAGATTTATACCTGATCCAACAAGATTAGAATTTTTAACTAGTATTTCTCTTGTTCAAAATTTAAATGGATGTTATGTTGAACCAAATTATTCAATAGATGATGAGGGAATGCCAACTATGACTGCAAGGGGCAATATGCCAGATATAGTTTGCACTGAAATAAGTGAAAACCCAAATGTATCGCCTTTGATTTCAAATGTTGAAGTGACCATGATGAGAGGTAAAACTGACCAAGTTATGAATGAGATGATACCTATTAGAAGACATTTATTAAATGATATGTCAAAGCATAAGGATGTTTTTGCTGTTTTTGTTGCTCCATTTATTCATGATGATACTAAAGAAGCTTCTGAATGGTATAAACATAAAGACAATATAAATATAAATTTATATACAATAGAAGAATACATTTTAACAATAGAACAGCATAGTGAATTATATTATTTGAATAAAATGGAGATGAAGTAATGGAAGCAAATAATAGAATGTTATATGATGATATAATAAAGAAAACAGATGTTCAATATACGATTCCGGTATATCAAAGAAATTATACTTGGGAAAAAGAAAACTGTGAGTTATTGTATAACGATATAGTTAGTAGTATAAAAAATGAGAGAAACCATTTTTTAGGAAGCTTAGTTTATTCAACAACAAAACGTAATGATATAAAAAGCTGTCCGATAATTGACGGACAACAAAGATTAACAACAATTATGTTATTATTGAAAGCTATTGATGATTTAATTAAAGATCCTGAAAATATTACAAAAAAGAAAATTAAACAAAATATATATAACGAAAACTGTGAAGAGAGATATAAACTAAAACTTAAAAATAGTGATAATGATAATTCTGAATTGGAAAAAGTATTGATGGGGAATACTACTAATTTAGATACAACATCTAAAGTAGTTATCAATTATAATCATTTTAAATCTTTAATTAAAAGAACTATTGAAACAGAACAGTGGAGCCCTGATAAATTGGTTGAAGGCATTGATAGATTGGAAATTGTTGAAATAGTTTTAAACGAAGGAGATTCACCTCAAAAAATATTTGAAAGTATAAATTCTACAGGAGTAAAGTTAACAACTGCAGATTTAATTAGAAATTTTTTACTTATGGGCATTTTGGATGTTGGAAAGCAGGCTGAAATATATAAAAATTATTGGATAACAATAGAAAGTTTAATAGGTAAAGATAATATTGAAAAGTTTTTCTATGATTTTCTTGTTTCAAAGGATACAAGGTACATAGAAGAAAAGAAAGTATATGAAAATTTTAAAAAATATTATATAAATAGTAACATAATAGGAATTGAAGGTATTGAAAAGATATTTAGTGAAATAGTTAGATATGCTCAGTATTATAAATTGTTAGTTTTAAACAATTCTAAAGATTATGATAAAGTAACAAATCAATTATGCAATATATTTAATATTTTGCAACATAGAACTATATATCCATTTATGTTAAAAGTATGTAATGATTTTGATGATATTAGAAAATTACATATGAAAAGAAAAAACGATGTAGGTGAAGAAGTTAAAATAGAGTTAACAAAAGAAGAAGAATTAGAATTAATAAATAAGGAAAAAGAATTTAATAACATTATAAGATTATTTGGTAATTATGCTATGAGACGTAATATAGCAAATGTTGCTTCATCAAGTCTACGTAGATTTTATGCATCTTTATATAATAAAATATTTGAAAAAAATAAAAATAATTTTAACTGTTATTTTAAGGCATGTGAGGCATATTTATGTACATTAAAAACAGAAGATAGGATGCCTAATGATAATATGTTTAAGGATGGCTTACTATATAGTAATATGTACGCTAATGCTAAAACAAGAATATTAAGATATTTCTTTGATTTGATAGAAAATAGTGGAAAAGAGCCAGTCGATATGTCTGAATTAACTATAGAACACATAATGCCTGAGACATTAAGTACTCAGTGGAAAACAAGTTTGGGTGATAATTATCAAGAAATATATGATAAATACGTTCATACATTAGGTAATTTATCCATTACAGGTTATAATTCTGAATATAGTAATGATCCATTCTTGAGTAAGAAAAAACGTTATAATGATATGCTTATTACAGGTGAAACTAAAATTGTAAAATTGAATGAAGAATTAAAGAATAATAAAGAAAACAACATAGAGATTTGGAATGAAGACGAAATTGAGAAGCGTGCAGAAAGATTATCAAAAGTAATTATGAAGGAGTTTCCTTATCCTAAAGACATAGATACTACATTAGAGTTTGAAAAATTTTATGAATTCTATATAGATAATCCTGAAGATAATGCTGATGAATTTGAAAACAGCCCTGCATACAAATTATATGGATTCCAATTTGAAGAAACAAAATATAGGGCAGATAGTTACAGAAGCATATTCAAGGAGATAATTAAATTATTATATAATATTGATAATTCTGTTTTAGATGACTTAGCAAATAGTAATTATACCTATGAAAGAGGTAAAACTATAAGATTTTCGAGAACTAAAGAAAATGAGCATCAAGAAGAAATTTTACCATCATTATTTGTTTATACAAATTATAGTAGAAGTACAATTTTTGATTGGATAAGAGATTTATTTAATAGATATCAATTAGATATATCATTATTTTGTTTATTATTTATAGAAAAAGAATAAAAGAAGGCGCTAGTACAGGCTTAATATATAAGTTTTTGTATGGCGTTTTTTTAGTAGGAGGTAATTAATAATGTCTAAAACTATCATTCACAATATGCCTTTACCTTCAAATACAAAATATAAATGGTCTGAATGTTTTGCTAAATTAATGTTGGAAAAAGTGATAACTAGTGAGTTAAATAATTTAGCTATAGCTGATAAACCAGATCTTCAAAATGCAAGCATGAGTGTTGGTATTGAGGTTACTACTGCTGTTGATAAAAAAGATATGGAGTTAGAGAGACTATACACTGAAATTGAATATGGATTGATTAGAAATATTGAAGGTGCAGCAAAAAAAATTAATAGATTGGGTGGAAAAATTATTGATGGAATATTAATTCATCCAGGACGACAAGAACACTTATGAATATATATAATTCTTTTAAAGAAAAAGTAATTTTGTTAAATAGTGGAAATTATACTATTTTTAAACATAATTATATATTCATTACTGATGAAAATTTAGCACATGAGGAAGAAATCAAAATGGTAATGATGGAGTTAGAGTTTATACAGGAAAAACAAAAGAATAAATTTGAAAGGGCTTATATATATATTTATGGAGATAAACTTTATGAGTTAAATCTAAAACAAGAAAAATACAAAATATTTAAATTATCTTCAGATGAGGTTTATAGAATAAGTATAGATGCTAGAACTATTGTAGAAGAAAAAGAAATGGAGATGTAATTATGAAATTAGCTGAAAACCAAAAAATATTCAAGCAGTTAAATATTGATGATGCTTTGTGGGATGATATAAAAAAAGATGACAATAAGGTATTAATTGTTTATGGATCAAATGGAAGAGGTAAATCTACAATAAAAGATTTATTTCAAAAAGAAAATTTAGAAGAAAAGTTTGGATGTGAATCAGAAAATCAATCTAATACTTTATATAATGAATTTGGAAATAATAAGTTTTTAGTATTTGATGAAAAATTTGTTGATCAATTTGTGTATTTTAATAATGCGCTGCAACAAAATAGTATGAAAATTATAATGAAAACTGATTACATAAATGAACTATATAATGAAAAATCACACGCTAATGATGTAGTAGATATGATATTAGATACAATCAATAAATATTTATCGACTATTGAATCATTTAATTCTATTCTAAATATTAAGTCTAATACAGGAAAAATTACTGATGCTAAAAAAAGATTTGCAACTACATTTATAGAAGGAAATTTGCCATATAAATATGATGATTTATTTGAAATAAGTGACGATAATCATAGAAAATGGTGGTATGAAGGTCTTTTACTATATAAGGATAATAAGCTTGATTTTTGCCCTTGGTGTAAAACTACTATTGAATCTGTAAATGAATCTTTAAAAGAACAAATAAAATCTGTGGATAATACGAAGCGAATCAATACTAAACTATTTAGTGATAAAGTTGATAAAGTTTCTAATCTGTCGACAATAATGAATAACACTTTAATTAATGAAGAAGTAAAAAATAAAATTAGTCAACTAATTTCAAAAATAAACGTTTCTGTAGATCAGAATGTTGAAGAAAAGATTTTAACTGACATGGAGTCATTATATTCTTTATTGATTAATGATAATGAAATATTTGCTGAAATAAAAGATAAAGTTAAAATTTTAGATAATATATTAGAGATACAAGACATAGATTTAGCTAATAATATATCTAAATTAAAATTTTTTAGTCCAACAGATGAAATTATCAAATTAAGTGATAATTTGGATTATTTTATTAAATATAATAAGGATATTATTAATGGTATTAAAGATAGTAATAAAAGATTGCATGAAATAATTAAAAGTGACGAAATTGATATTAATAATATTATTAAAAGTTTAGGATTAAAATACTATATAGAAATTGAATCTGATACTATAGTTTCCTCTGGAATAAATGATAATGAAAAATACATGTATTTAAAGAGTTTGAATGGAAAAGACGTAAGTCAAAATATCGGGAATGTGCTTAGTTTTGGTGAAAAAAGTACATTAGCGTTTGCAATATTTATAGAACAGATTCGAAATTGTACTGATGAAAACACTATTATAATTTTTGATGATCCAATATCTAGTTATGATATTTTTAGAAGATATACTTCGCTCGGAATTATACAGACAATTACTGCATTACAATATAAAAAAATAGTAATACTTACACACGAAAGTAATTTTTTAACGTCGATTGTTTCAAATTATGAACATTATACAAATGTTAAATGTACTATTTTAACAGAAATTAATGAATCAGAAATAGAAATAAAAGAATTACATAGACAATATGATAGTGAGGTTAATGTCTATAAAGATATGCTGAATTTTTCCTTTGATTTTCATATTTCACAAAGAATAATAGCTTTAAGACAGTTGCACGATTTATATCAATATATAACTGGAGATAGCAAAAAAGAATTATATAAATATATATGCAAATTAGTACATTTTAGAAAAGATGAACAAACATATTGGAATCAAGTAATGAAAACACAAATTAATGAATTATTTAATTATTTTGCTATTAGTTATGATTCTCAAATTGAAAATATAAAGGATGAACAATTAGTATTTTCAGACATGGAACAATTATTAAATGAGATAACATCAAAGGATATATATGATATTACATTAGAGGATCTAGTAAGCTTAAGAATGATTTCAGAAGTTTCAGTTAGAAATGAATCGAATGATGCAAATAAATTCAAAGTTAGAACATTATGGTCTATTAAATCATCAAGTAAAAAAGACCAACTTCAAAATTTTAAAGTTCTACTTAATTCAATTACTCATATCGATAATGATGAAATAACATGGCCTGTTTTATGTATAAATGATTTAAAGTCAATTCCTAAATATGTTATATCCCAAATTATTAGTATAATAAAATAATTAAAAGCATATATAGCCACGAATCTATATATGCTTTTTTTATAACATTTTTACATCCTATTTTAGATGACAAATTACATCCCATTTTAGATATTTTTGTGGTATCTAAAAAATGATACTAAAATGTACTACAGTGTACAAACCCTTATTTTATAAGGAATTTTGAATTGTGGTGAATAAAAGAAAGGCTAAAATTTTCGGCCCCCTGAAGAGAACAAAGATATAATTATGTAATTAGGTCTTAAAATAAAACAAATAAAGTGATAAAATTGTTAATGGTTATAGAATAGTAAAAGGGAAACTTGGTATTTGGAATATTTAATGGGTGATTATATGAAAGAAGTTATTGAAGAGTTAAGGGAAGAACTTGGTGATACTTTATTAGTGGCTGTTAGTAAGACTAAGAGTAATGAAGATATAATGAAGGCTTACGACTTAGGTCTTCGTGATTTTGGTGAAAATTATGTACAAGAGTTAGTTAGTAAGATGGATTCTTTACCTAAAGATATTAAATGGCATATGATAGGACATTTACAAACTAATAAAGTAAAAGATCTTGTTAAAAGAAATATTTATTTAATTGAATCTGTTGATTCTTTTAAATTAGCTTCTATTATTAATAAAGAAGCTCTTAAAAATAATAAAGTTATTAATATTTTAATTGAGGTTAATATTGCGGAAGATCCTAATAAGACTGGTTGTCTTCTTTCTGAATTAGATAATTTAATTAATGAAGTAGGTGGATTATCTAACATTAAATTACTTGGTTTAATGGCTATTGCTCCTCATACTGATAATGTTTCTGATATTAGATCTTCTTTTAAAGAAATGAAGAAATTAAAAGATAAGTACAATTTTTCTTTGCTTTCAATGGGTATGAGTAGTGATTATAAAATAGCTATTGAAGAGGGTTCTGATATCGTTAGAATTGGTACTAAAATATTTGGAAAAAGATTATGATAAAGTAATTGCTTTTTTAAAAAAAAGATATTATACTATAATAAAGGAGGAGTAGTATTATGTATAACAATTATGGCCTTACTCAAGCACCTGTTGTTAGTGAACCAAATGGTTTTGAACAACTTTTAAATAGTTCTGAACCAGTAATTGTAGTGTTCTGTCTTTTCATAATTCTAGCAGCTATTGCTTTTGCAGTACTAGTAATTGTTGCTCAATGTAAGATATTCAAGAAAGCAGGAGAAGCACAATGGAAAGCATTAATTCCAGTATACAGTACTTGGGTAAACACAAAGATTGCCGGCCTAGCTTGGTGGTGGTTCTTAATTATTACAGGATTAACTGCAGCAGTAGGAACTTGGACCAACATTAATTGGGTATTTACTTGGAGCTTATGCCTAGTATCATTCAATTATTGTTACAACCTAGCTAAGAAGTTTGGTAAAACAAATGGCTTTGCAGTCTTATTGGCACTTTTACCTATAATTGGAATACCTATCTTAGGATTTGGTAGTGACAAGTACGACAAAGGTGCTAAAGTTGATAAGAATGGTATATTCAAAGTAGAGAAATAAAAAGGGATATCAAGTGATATCTTTTTTTGAATATAACTTTTTAAATAATTAATACTAATATTAGAGGTGATTAAGTGAAAAAAGTACTTTTAATTATTTTGTTATTACTAGTAAGTGGGAGTTTAATAATATACTTTAGTAAAAGAGAAGTCAAAAAACCAGTAACTTTTAAGAAAGGAGTTCCTAAGACAAGTATGAAGATTAATATTACTATTGATGATAAAACTTTTGAAGGGGTATTAGAAGATAATAAAACAACTGAAGAATTTATTAAGGTTTTACCTCTAGATATTAATATGGAGGATTTAAATGATAATGAAAAGTACTATTATTTTAATACTAGTTTTCCTACTGAATCTAAAAACTATAAAGAAATTAAACGGGGAGACATAATGCTTTTTGGTGATAATTGTTTAGTTATTTTTTATGAAGATCATACTTCTTATTATGATTATACTAAGATAGGTAAGATAAATAATACTGAAGGTCTTAAAGAAATATTAAAGAATAATAAAAATAAAATAAAAATAGAATTGAAATAAAATGTAAAGGAAATAATTAAATTTAATTATTTTTTTCTTTTCATGATATAATTAAATAGAGGTAGATACGATGGAAGAAAAATTTGATTTAAAAAAGAAAAGAATTAGTATTCTAGATAACTATGGAGAAAATCTAACCGAGAAAGATTATATTACTAATCCCGCTATTGGTAGGGAAGAACAGATTAAAGAAGCAGTATTAATATTACTTACTCCTGATAAATCAGTTGTTTTAACTGGTAAACCTGGTGTTGGTAAAACTGCTATTGTTGAAGGAATTGCTTATAGAATGCAACTTGATAATATTCCTGATAAGTTAAAGGGTTATGAAATTATTAAAGTAAATACTAGTGCTTTATTAGGAGTAGATCCAGTAACTGGAGAAGCTAAGATTCAAACTCTAATTGATGAGTTAAAGAATTATTCTAAATTAATTCTCTTTATTGATGAGATTCATACTCTTATGGGTAGTAAGGGTGAAGCACTTGACTTTGCTAATATGTTTAAACCAGGACTAGATCGTGGTGATATTAAAGTAATTGGTGCTACTACTGATGATGAGTATGAGAGATATATCTTAAGAGATAAAGCCTTTGTTCGTCGTTTTGCCAGAGTACGTGTTGAAGAACCTACTCGTGATGAAACAGTCAATATTGCATTGGGTACTTTACCTAAGATTGAAAAAAGAACGGGTGCTAAAATGGAGTACTCAGACTTTACTAAGAAACAAATTATGGAGTTTTTAACGGATATAACCAGTGAGTTTAAACGAATCTATGAAATTGGTTCTAGGTATCCGGATATTGTTTTGACTATTATTCAAGAAGCTTTCTCTAACGCTTTATTTGAAAATAGGAAGAATGTCAACATTTTAGATTTCCGGAAAGCTCTTGTAAACTCCAAAAATATTTATGATGATATTAAAAGAAAAGAACTACCAACCTTTGATCAAATCTTCGATGATGAAATAGAAAAAGCTAATGCCGGAATAATAGTTGATAATTAAAAAATTATTAACTATTATTTTTTAATATTGTATAATGGAGTTAGATACAGTATAAGGAGGACATATGTGTGGAATAGTAGGATATATTGGCGATAAGGTTACCACTGAAGTTCTCTTAAAAGGAATAGAGAATTTAGAGTATCGTGGATATGATTCGGCTGGTATCGCTATTGCTAATGAAAATAAAATACAAATAATAAGAGAAGTAGGTAAAGTTTCTAAATTAAAAGAGAAACTAGAAAAAGAAAAGTTAATTACTTCTTCTTTTGGTATTGCTCATACTAGATGGGCTACTAATGGGGAAGTATCTCTTAAAAATACTCATCCTCATAATGTAGGAAAAGTTACTTTAGTACATAATGGTATTATTGAAAATGCTGATAAACTTAAAGAAAGATTATTGAAGAAAGGTTACGTCTTTAAAAGCAAAACTGATACAGAAGTAGTCGCAGCTCTTTTAGATAATTATTTAAAGACTAAATCTGAAAAACAAGCTCTTTTATCAATGGTAAAACAATTAGAAGGTAGTTTTGCTTTAGTTATTATGATTGAGGGTAAAGATTATTTATATGCTGTTCGTAATAAATCACCTTTAGTAATTGGATCTTTAAAAGATGAAAAATATATTGCTAGTGATATACCAGCTATTGCTGAATTTACTAAAGACTATTTATTACTAGAGGATTTAGAAATTGCTAAAGTAACGAAAGAAGAAGTAGAAGTTTATGATCAAAAGGGTAAAAAGGTAAAAAGAAAAGTTAAAAGAATAGATGTTACTAACGAGATAATTGATAAACAAGGTTATGAACATTTCATGTTAAAAGAAATTATGGAAGAACCAAGGGTGTTACATAATCTTTTAGATATTTATTTGGACCATCTAGATGACTTAGATATTTCTCGCTATGACAATGTCCATATTGTAGCCTGTGGTTCCGCCATGTATGCGGGTATGATTGGTAAAGTTCTATTAGAAGAAAAAGCTCATATTGATGTAACAGTAGAAGTGGCTAGTGAGTACCGTTATAAGAAAAATATTTATCGGGATAAGACTTTGGTTATTTTAATATCTCAATCAGGAGAAACTGCCGATACTATAGCAGCTTTACGTATTGCTAAGGCTAATCATCAAGATACTTTAGCTATTATTAATACCAAGAACTCTACTATTGATAGAGAAGCTGATAAAACATTTTATATTGAGGCTGGTGTTGAAGTAGCAGTTGCGACTACTAAAGCCTATATTTTACAGGTAGCTCTTTTATCATTAATGGCTTATGTAACTGCTAAAAAGAAATCACTTTTAGATGTTGATGAGTGCATAGAAGTAATTAATCATTTTAAAGCACTACCAAGATTAATTCAAAATATTTTAAAAGATAATGAATTATATAAGAAAATAGCTAAACAATTATATAAACATGATAATATCTTCTTTATTGGTCGGAAGATGGATTATGCTATGTGTTTAGAAGGTAGTTTAAAACTTAAAGAAATATCTTATATTCATAGTGAAGCATATCCAGCTGGAGAATTAAAACATGGAACTATTTCTTTAATTGATAAAGGATTACCTGTTATTGCGATTATGACTGATAAGAAACTAAAAGAAAAGATGCTTTCTAATATTAAAGAATGTGAAGCTAGATATGCTAAGATGTTTATTATAACTAGTGAGGTTATTGATGAAAAAGATACTACTATAGTAGTTAAGAAAACAGATCAGTTTACTCAAACTCTTTTAGTAGTACCAATCTTACAAATGATCGCTTATAATGTGGCCTTATTAAGAGGTTGTGATATTGATAAGCCTAAAAACTTAGCTAAAAGTGTAACTGTCGAATAAAGCCCTTAGGGCTTTATTCTTTTAGGGGAATCTGCTATAATAACGATAGGAAGTGATACTATGTCCAAGCACTATTTAATTGCCAGAAGAAGAGATAATTCATATACAACTATTGATGTTAATGGTGGTAATAAATTAGAAGAGATTGATATCTATACTAGTTCCTTCTTTAATAAGAATGATTTACTTCAAGAATTAGAGAAAAAGGGTTTAGAAGTTGGTGATGGAATAGATCTTTTTATAGCGACTTATTCTTCTAAATTAAAGAAAGTTAGAACTAGAAGAGTTTTATATAAAACTATTTATAATGACGAATTGCGTAGTAATGCTAAAAGAAGTTTAAAAGGACAAAGTATCGATACAGAAAGACTTTATAAACAAGCAGCTTCCTTAGATGGTAATTATCGTTCTTTAGTACATATTGGTTATTTTGATATGTATAAAGCTTTTGAAAGAATTCTAGCTAATAGAGGAAAGAAGTTAGAATATCATCATGAAAATAAATGGTTAGAAGATGATTATAAGACTTATCGTGATGTTTTAGCGTCTATACTTGTTTATCATAACTTAAATATTAAAGATTTAAATGATCATGATAGAGCTTTACAAAATAAAAGTGAATTAAAAGCTCAAAGACAGATGATTGTTGATAGTTTAACTAAGACACTAACTAGTCCTTATCCTGGACAAGAAGCTCTTGAAGTAGGTAAGAATAGGGGTAGTAAAACTTTATCTCTTTCTCAAAACAATAATAATTTTATTCATATTGATAATATTGAATTAGATAATGTTAAAGAAAATACTACTGTTGTTAAAGAAAAAAGAAAAGGACTTATTAAAGAAACTGAAGGACAAATTAATATTGATGATATGATTAGTTCGCAAAAAACAGTTTCTTTAAATAGATTATTAGGAGACGCTGTTAACTATGATGAGAATAATCGTAAAGAAGCAGAAAGTAGTATTTATCGTTTCTTAACTTCAGGTGCTTATATTAAAACAGGAACTATTTCCGAAAAAGGAAAAGAAGTTAGTCTAAATTATAAGAACTTACCTTTTGATTTAGATCCAGAAGAAAAAGCTTATTTAGAAAAGTTAAAGTCATCTAAAGTATTATTTAGAAGAGTAAATGAATATCATCGTTATCAAGATACTAGTTTTATAGCGCAAGTAGATAAATTTACTTGTGCTGATGAAATTAGAGCTAGATTGAAGAAGTTATCACTTAGATCAATTAATAATCTAGCTAAGTTCTGTGTATTATATAAAGATTGCTATGATAAAGCAATTAGTAAGGAAGAGGTTAAAGATGGTTATCGCCGATAAGTGGGAAGATTATGAAATATTAGATGCTTCAAAAGGAGAAAAACTAGAAAGATGGGGTAAATACCATCTTTTAAGACCAGATCCTCAAATTATTTGGGATCAAGGAGATTTATCTAAAAGATATAGTTCTATAATTGATGCTCACTATTTACGTAGTTCTTCTGGTGGTGGTCATTGGGAGAATTTAAAAACTATTCCTGAGAACTGGATAATTTCTTATAAAGATTTAAAGTTTAATATTAAGCAAATGGGCTTTAAACATACAGGACTTTTCCCTGAACAAGCTTATAATTGGGATTTTATGATTAAAAAGATCAAAGAAAGTAAAAGAAAAGTAAAAGTCTTAAATCTTTTTGCGTATACTGGAGGAGCTACTGTAGCTTGTCTTTCCGCAGGAGCGTCTGTTGTTCATGTTGATTCTTCTAAGGGAATGGTTGACTGGTGTAAAGAAAATGTTAAACTTAATAATTTAGAAGATAGAGAAATAAGATATTTAGTTGATGATGTTATTAAGTTCGTTAAAAGAGAAATTAGAAGAGGGCATAAATACGATTGTATTATTATGGATCCTCCTAGTTATGGTAGAGGTACTAATAAAGAAGTATGGCAATTAGAAAAAGATCTTTTTAACTTAGTAGAGCTATGTATGGAAGTTTTAAGTGATGATCCACTATTCTTCTTAATTAATTCTTATACAACAGGTATATCTCCTAAAGTATTAGAAAATATTTTAAAAGTAACAGTTAATAAAAAACATCCAGGTAAAGTAGAAAGTGATGAAATAGGATTACCAATTAAAGAAGAACTAGTTTTACCTTGTGGTATTTATGGGCGTTGGGAACATGAGTAAGCTAAATGTTTTATATGAAGATAATCATGTTATCGTAGTAGAAAAACCAGTTAACGTTCTAAGTCAAGCTGATAGTACCAAAGATATTGATATGCTTACGTTAGTAAAAGAATATATTAAAGAGAAATATCATAAACCAGGTAATGTCTACTTAGGATTAGTTCACCGTCTAGATCGCCCTGTTGGAGGAATTATGGTTTTTGCTAGAACTTCTAAAGCGGCATCCCGCTTATCTGAACAAGTACGAACTAATAAAATAGAAAAAGTTTATCTAGCGATTGTTAAAGGTATTTTAAAAGAAAAAGAAGGTACTTTTAAAGATAAGATTAAGAAAATAGAAAATGGTAATTCTATTATTGCTGAAGATGGAAAAGAAGCAATTCTTAATTACCAGGTTCTATCTGAAAAAGAAGGACTATCATTAGTAAAAGTAAAACTAATAACTGGTCGCCATCATCAAATAAGAGTACAATTTTCATCAAGAGGATATCCTTTATGTGGTGATCAAAGATATGGTGACGAGGATAAAACACAGATTGCTTTATATGCCTATGAACTTTCGTTTTACCATCCAACGACTAAAGAAAAGCTAACATTTACTTTACTTCCTAAAGGTAATTGGTGGACAGAATTTACACTGTCAAAATATGTCTAATGAAATAAATATTTGCAAATGCAAATATTTTTTGTTATTATATATGTTAGATAAGAATAAAGGAGAATGGCTATATGAAAAACTTTGATTTTAGTTGGTTTTTAACAATACCAGGAATGTTGATTACCGGAGGAGTATTATTATTAATTATTGCCTTGATAATATTTATTGCTACTTCAGGTAAGAAAGATAAAAAAGATAAGAAGAAAGGGAAGGAAGAAGTACCAGTGGATAATAATATGATGAATGCTGCACCAGCAGCCGGAGCTGTAGCTCCAAATCCAGAAATTGCAACTATGGATGTACCAGCTGATACACCAGCTGAAGCACCAACAGAGGCTCCAGCAATCCCAATTGAGGTACCTGATCCAACTACTGAAGCTACTCCAGAGCCAGCAGAACCATTTGCTGTACCTGAGGCTACACCTACTCCTGAAACACCAGCAGCAGAGACACCTGCTGTAGAAACTCCAGTAGTAGAAGCAGCACCAGTAGAAACTCCTGCTGTAGAAACACCAGTAGTGGAAGCTGCTCCAGTAGAGGCAGCACCAGTAGAAGCTACTCCAGTTGAAACTCCTGTTGTAGAGGCAGCGCCAGTAGAGACTCCAGTAGTAGAAGCTGCTCCAGTGGAGACACCAGTAGCTGATGCTCAAGTACCAGAAGTACCAGTAGTAGAAACACCAGTAGTAGAAGCTGCTCCAGTAGAGGCAGCACCAGTAGAAGCTACTCCAGTTTATGGCGGTGCTGATCCGAGTGTAAGCAATGTAGATGTTACTCCAGCTGAAGAGCCAAAACAAATATATGGTGGCGCTAATCCTGCTGATAATACCGGTGTAGTAGAAGCTACTCCAGTAGAAACTCCAGTAGTAGAGGCAGCACCTGTAGAAGCCGCTCCAGCAGCAACTCCAGTAACACCAGTTAGTGTTCAACCAGTTGGTGAACCAAGTTCAATCCCAACAGTTGTTCAAAACGAAACAAATAATTAACGAGCATAGCTCGTTTTTTTGTCATAAAAAAAAGACCTTTTCATATGTTTTATTAGAAAGAAGGTAAAATATATGGAAACACTTAAAGTAAGTAGTAAATCTAATCCCAATAGTGTTGCGGGAGCTCTTGCCAATGTTTTTAGAGAAAATGATAAAGTAGAAATTCAAGCTATTGGAGCTGGTGCTTTAAATCAAGCTATTAAAGCTGTTGCTATTGCTAGAGGATTTGTTGCTCCTGCTGGTAAGAACTTAGTATGTATTCCTGCATTCACAGATATTGCTATTGATGGAGAAGAAAAAACAGCTATTAAACTAATAATTGAAAGCAAGTAATTAAAACTTGCTTTTTTTTATTGTAGATTTTAACTAATTATAAATATTTATATATAAAAATGGTAATTTGTATGTAAAAGAGTTATCAATTAGTAAAAAGGATCATTTGACATATAAACAGTATTTGTTATTATGCCTTTGATGGAGGTAATAATGAATTACTATAACGAGATAAAGAACAAGCTTATTGATAATGAGATATATATTAAAGTAAAAGATTATTCTAAAGAAAGAAATAGAGTAATTACTTATTATGAAGTGGGTAAGTTATTAAGTTCTGCTGGCAAACAATATGGTGATGGAATAATTAAAGAGTATTCAAAAAGATTAACCAATGAAGTTGGAAAAAAATATACTGTTAGATATTTGTTTGATATTAGGAGATTATACTATTTTTTAAAAGTGCACCCGCTGGATGCATTTTTAACATTTTCTCATTATAGAGTTTTATTTGTCTTGAAAGATGACAACGAAGTCAATTATTACATAAATCAAACTGTTGAAAGAAATTTATCAAAACGGGCATTACAAGAGGTAATTAAAAATAAAGAGTATGAAAGATTGCCAGAGAAAACTAAAAAGAAATTAATAGAAAACAAAAATACTAGTGTACAGGATTTAATTAAAAATCCTATTATAATAAGAAATCCTAATAATATAGAAGTAGTAAAAGAAAAGGTACTACAAAGATTAATACTAGAAGATATAGATAACTTTTTAAAGGAGTTAGGAGACGGATTTAGTTATATTGAAAATGAATACAAAATAAAGATAGGACCTAGTTATAATTATATAGATTTATTACTTTTTAATTATAAATATAATTGTTTTGTGGTAGTAGAGTTAAAAGTAATTCCTCTAAAGAAAGAACATATAGGACAGATAAAAGTATACATGAACTACATAGATAATCATTTAAGAAATATTAATCAAGATAAGACAATAGGTATTATTATATGCAAACATAATAATACATTTATTATGGAATACTGTTCCGATAAAAGGATTCTTTCTAAAGAATATAGTTTGGTTTAATTTTTGACTTTTTCATTTATTTTTAGTATAATATCTACTTGTCCCTTAAAGGAGAGGTGAAAACATGTTTTATGATGAGGAAAAAGCTATTACTAAATGTGAAGAACAACCGGCCCTCATATTTGAACTGATGAAGGAAGAGTATTTTGATACTGTTGATAAAGTTCTTTCTAAAAGAAAGTTTGATATCAATGTTTCTGATGAAAATGGTGATAGTGTTCTTCAGAAATTATTAAAACTAGGTCAATATGATTTGGTTCTAAAACATATGAAGAAGAAAAACTGGCACGTTAATCATCAAAACAACAGTGGTAATACTTTTGCTCATATATTAGTTACTATTGATTATTTGAAAGTTAAAAATATTATGGATGCTTTAAGTAAAAGAAAAGACTTTATTCCTAATATTAAAAATAATAATGATGAAACCATCTTAGATAAATCTAAATATATTTATACTTCCCTTAGAATTATTAAAGATAATCGTTTCAATAATATTGATACTATAGCTTTCTATAATTTATATAAGAACTATATTAAATCATCAGTTTATGGAAAGTACTCCAAACTTAATAATTTAGAATTAATTATTACTAATTTAAATAAGAAGGAAAACCTTCTACCAAGATTACAATTAGTAATTGATACTCTAATTGTTAATATGGAGGAAATAAAGAAAGAATTAGAAGAAAATAACATGACTAGTATTGATCGAATGATTACTTCATTTATTTAATACGTTGTGTTTTTTTTCTTAATAAGATATGATATTAGAGGAAGTGATACTATGCAGTTACCTGATTATAAAGAAGCTCGTAAACGAAATAAAAACTATCAAAGAATAGAGTATGTAATCGACAAAAAATTAAAAGACAAGTATCAAGGTAAGACTTATTATATAAGAACTTATGGTTGTCAAATGAATGAACATGATACCGAGAATATTAAAGCTATTTTAGAGCAATTAGGTTTAAAAGAAATAGATAATATGAATAAAGCTGATATTGTTTTACTTAATACTTGTTCTATTAGAGAAAATGCTCATAATAAAGCTTTTGGTATGTTAGGAAGATTAAAACATTTAAAAGAAGAGAGAAAAGATTTAATAGTTGGTCTATGTGGTTGTATGGCTCAAGAGACTGGGGTAATAGAAGAAATACTAAAGAATTATCCTTGGGTAAACTTTGTTTTTGGTACGCATAATATGTATAACTTACCAGAGATATTAGATGAAGCTATTACTACTAAGAAACAACAAATAGAAGTATTCTCTAAAGAAGGAGATCTAATAGAAGATATCCCAGTTAAAAGAGAAAACAAATTCAAAGCTTATGTCAACATTATTTATGGTTGTGATAAATTCTGTACTTACTGTATTGTTCCATTTACTAGAGGTGGAGAAAGAAGTAGAAAGAAAGAAGATATCTTAAAAGAAATAGAAAAACTAGTACAAGATGGTTATAAAGAAGTAACTTTACTAGGACAAAATGTTAATGCTTATGGTAAAGATATTTATGATGACTATGGCTTAGGAGAATTATTAGAAGATGTAGCTAAAACTAAAATACCTAGAATTAGATTTATGACTTCTCATCCTTGGGATTTTACATCTAAAATGGTTGATGTAATCGCTAAATACGATAATATTATGCCTGCTATTCACTTGCCAGTTCAAAGTGGATCAGATAGAATTCTTAAATTAATGGGTAGAAGATATACTAAAGAAAAGTATTTAAAACTATTTAAGGAAATAAGAGAAAAGGTTAAAGGCTGTACCATTTCTACTGATATTATAGTAGGTTTTCCTAATGAAACAGAAGAAGATTTTGAAGAAACAATTGATTTAGTAAATATATGTAAATTTGATAATGCTTTTACTTTTATTTATTCTCCTAGAGAAAATACTCCAGCTGCTAAATTAAAGGACAATGTAACAATAGAAGAAAAAGAGAAAAGACTATATAAACTTAATGAAATAGTTAATGGCTACTTTAAAGAAAACAATGAGAAATTAGTTGGTGAAACAGTTAAAGTTTTAACTGAAGGTGAATCTGCTAAAAAAGATAACTATTATGGTTATACTGATACTAATAAATTAATTAACTTTACTGGTAAAAAATTACAACCAGGGGACTTAGTCAATGTTAAAGTAACAGAGGCTAAAACTTGGAGCTTGGATGGTGTTCTAGATGAATAAAGAAATAGATAAAAGTCTAGAAGAAGTTATTAATTATATAAAGAGTAAAAAAGAGTATCAAAAGTGCATTGATCTAAAAAAGAAAATGAATAATAATAAAGAACTTACTACTTTAATTAATGATATTAAGAAAAAACAAAAAGAGTATATCAACAGCGGAAATAGTGTCAAGTTAGAAAAAGGATTAAAAAAGCTAAATAATGAATTAGACAAATATCCTATATATATAGAATATAATAACAATCTGAAAACAATTAATGAAGATATTGAAATTTTAAAAAAAAGGTTAAATGATTACTTTACAAGTGTTATAGAGATATAACACTTTTTTTTGAAATAAAAAGAAAAAAGTTATATAATTGAATATATAATGAGGAGAATCAGTATGAAAAAACGCCAAAATATATTTTTATTTATAATAGCAGGATTATTATTTTGTGGAGGATTGACGGGCTTTATTATGACTTTAAGAGCATCGCTAGCTGAAGTGGGTACCAACACTTTATATGGTGCTATTGCAGCTGATCCTTTAACAGCAGTTTATGAAGGAGAACATCAAGATAGTTTAGATGGTTCTGGAAATGAAGCAATCCATTATTTCACAGGTAGTGATGAGATAGTAAATCACAATAATGTAAAGCTAGGGGATACTTGTTGGCAAGTATTAAGAACTACTGATACTGGTGGAGTTAAAATGATTTATAATGGTCCTTATGATGAAACCAACAAATGTAACTCTTCAAGAGGAACTCATAAAGGTATAATTAATACAAAAGGAGAGACAACAGATTTATCTGGTGGAGCTTATTTATACGGTTATGGTTTTACTTATAATGAGTCAACGGGAGAATTTACTTTAATTAATCCAATCAGTGCAACTTGGAGTAGTTCAACATATAAAAGTTTAGAGGGCAAATATACTTGTATGAGTACTTCTGATACTTGTACAACCATTTATAATATTCATAGTTATAGTAGTGATACAAGCGCTAAAACAACTAGTTATACAATCGATGATACCCACTATTCTCAAATTGGAACAAGTCCCTTCAATATAAATTCCAATCTGGCTATGGGCGGATATATGACTAATAGTTCCTATTCCACTACGGCAACTTCTTATACAGCGCAAGCAGAACAGGTTTTACAGCAAAGCAGCAGTTTGTTTACAAATAGTTATTACTATGGATCAAGCATAAAAACTAATGGTAGTCTCTATAATATAGGAGGAACAATAAGTAGAAATCCGGGAGCAGGATTATATACAGTCTTGTCTTCTAGTCTTTATGGTTCAACAGCATATTATATAGTCGGTAAAAGCGGTTCAGTATTTTATTACTTAACTTTAACTGGCGGTAAATCGCTAGCTGCAACTGAGAAATACTACACGTATGGGGATAGTTATACAGGAAATACTATAGCTAATCCTTCAAGTTTAAAATCAACAAATTTCTTTTCTAGGCATAATAGTCTTAGAAATAAATTCTATTGTTCTGGCGCAACAAGCACTGCTTCTTGTACTCTAAAATATGCTACAAACACAACACCAGCAACAATAAGTTATATTTCAGCCAGTGGTACAAAATATGGTAATAAAGTAACCTATGCTAATGGAAAATATACTTTGGTAGGTGTAGTAACTGGTTTTCCAGATAAGAACCACCATTATACATGTAATAATGGAGCAACAACTTGTGCAACGGCATACTATGTAAATTCTTTTAGTGGAAATGCTTTGCGCCGAATAACACTAACTGGCGGAAAAAACATCAATAACGTTATTGAAGAAATGTATGATTCTAATTCCGTAAACCACTATAATTCATCGATAAAAAGTCAGATAGAAGGTTGGTATAGAGCAAAACTAGCTAATTATACAAAGTATTTTGAGGACGCTATATATTGTAACGATCGAACTAGAGCCAATCAATCAGAAAGTGGATTTGGCCCAAGTGGAGGAAGTTTAACAAAATCATTATATTTTACTGATCGAAATGACAATACAGCTTTGAAATGTACTAAGCAAACTGATCAATTTGCAGTTGGTAATATTAAGGCTAAGAATAAATATCCTGTGGGATTAGCAGCAGCTGCAGAAATGAATTTATTAGATAATGATGCGGCCAGGACGACAGGAGAAAGCTATTGGTTAGGATCACCTTATGCTGCTAGTATTTATGCTAGCAATGGTTATATCAATAATGAGGGAAGTGTTATATCTTATAATACAGGTGAACCTCGCGGGACTCGTCCAGTAGTATCTTTGAAAGCTGGCACAAAATATATATCAGGAACTGGTTCGCAAACAGATCCATATGTAATTGATATAAGGCCAGTCATAACTACTAGCGTTAAACATGGTACTATAACCGAAACTGATCAAGTAGAAGAAGGTTCCAACAAGACAATTAGTTATAGCCCTGATAGCGGTTATCAGTTAAAGAGTATTAAAGTAGATGGTGAAGAGGTAAGTATTACTACATATGCTAATAGTTATGCATTTAATAATATAACTGAAGATCATGCTATAGAAGTAGAATACTGGAAACCAACAATAACTACAAGCGTTATTCACGGAACAATAACTGAAACATCAGATGTGGATTCTGGTGAAGATAAAACAATTAATTATAGCCCTGATAGTGGTTATGATTTGAAAAAGATTACAGTAGATGGTGTAGATGTAAGTATTAGTGCTCATGCTAGTAGCTATACATTTACTAATGTAACCGAAGATCATTCAATTGAAGTTGAGTATTGGAAACCAACAATAACTACTTCTGTTATTCATGGAACAATAACTGAAACATCAGATGTAGATTCTGGTGAAGATAAGACAATTAATTATAGTCCAGATACGGGGTACAGATTAGAAAGTATAAAAGTAGATGGCGTAGAAGCTAGTATAACAGCTTACCCTAATAGTTATACCTTTAACAATGTAACAGAGGATCATACCATAGAAGTAGTATATGTCAATAAAAAAGTAGGCTATATAGTAAACTATTTAGAAAATGAAACTGATAAAGTCTTACATACTCAAAAACGAGAGGAAAATGCTTACTACGGTGATGAAATAATCAGCATACAAGAGATGATTGATATTGATAATTATCACTTCGTTGATTTCAACAAAGAACGAATAGTACTAGAGGAAAATATCAATGATAATATCATTAATCTATACTATGAAAAAAATAGTAAAGAAGAAGTAATTACTGAACATAGTATGGTTCTTACTAGTGAAAAAGCAAAAATAACAAGTGAAGAAGACAAAGTTGATTATCAAATTAAATATCGAGTAGGTTTAGAAAACTATGTTGGTAAGGTCAAAGCTAAAATCACAGCATATTTACCATATCAAATAGATCTTGATGAATCTGATTTGGATGGTGGTAAGTATAATAAAGATTATCGAACTATTACTTGGGAAGGAACAGTTGATATTGATAGAGAAAATAATCAAATTAGTTTTGATAAGGATATCGAATTAGTATATAAAGGTTACGATCTAAGTAAAAATGAACTTATTAATGTAGTTGCTGGCGAAATTACTTTAAAAGATTTAGATGATTATACTGAAGAAGTCTATGATACTAAAACTACGAGTGTTGATATTAAAAAAGACGTTAAGCCAGATGTTAAACCTGATGATAAAGGAACAAATAATAAAGATAAGTCTAGTTCAACTAATAAAATAGTATCTGATCGAGTAAATAGTCCAAATACTACAACTAGAAATATGTTCTTATATATAATTGTTATGATGATATCTATCGTATGCTTCGGATTAGGTGTTAAAAATTATAAACAAATAAAGAGTTAATAAACTCTTTATTTTTTGTCAAAAAAACTAGTTATTTGCATATTATATAGCAAAAAGGAGTGATATTTTATGCAAAGAATTAGGGAGATAGTTACTAAAGCTGTAATTGGTAAAGGTAAAAAAGTGTTTACTGATACTGAAAAGATAACCCCAGATAATAAACCTACTACTATTTTAGGTTGTTGGGTAATTAATCATCAATTCAAAGGAAGTGAGCACAATAATCAAATAGTTATTGATGGTAGTTATGATATTAATATTTGGTATTCTTATGATAATGATACGAAAACTGATGTTATTAAGAATACTAATACTTATCATGAAGTAGTAAATATGCAAAATGATGAAGAAGTAGAAAATAGTGAAATTATTATTAGAAGTTTAAAACAACCTAATTGTACTAATGTTGAAATTGAAAATGGTACTATTAATTATACAGTTGAAAAAGAACTAGGTGTAGAACTAGTAGGTGATGTCTTTGTTAAGATTGCTGATAACAGTGAAGATTTAGAAGATGATTGGAATGAAATATTAGATCAAAATCCTGAAAAGATAGAGAAAGAAATAGAAGAAGAAGTACAAGAAGAATTTATCGATGATCAAGAAATTGTCTAACTGTTAGCAAAAAAAGGTTGACATCTAACAAAGTTGCATATATAATAACAAATATGAGAAAGGAAGTGGTACTTGATGGCAGTAAAATTGAGATTAACCAGAATGGGAGCAAAGAAGAAACCCTTCTATCGAATTGTAGCTAGTGATTCTAGGAGACCTAGAGATGGTAAGTATCTAGAATTAATCGGAACTTATGATCCAAGTAGAAATCCAGCTGAAATTAAGATTGATGAAGAGAAAGCTTTAAAATGGTTGAATGTTGGAGCAACTCCTTCTGATACTGTTCGTAGTTTTTTAAGAGCTGAAGGTATTATGAAGAAATTTGCTGATAGTAAAGCTAAAAAAGCTCCAAAGAAAGAAGAAAAGAAAGAAGCTCCTAAGAAAACAGCAACTACTAAAAAAGCAACTCCAGCTAAAAAGACAACAACAGCTAAAACAACAACTAAAAAGGCAACTACAGCTAAGAAGACAACAACTAAAAAAACTGAGAAAAAGGATAAGTAATTATGGATTTAGTAAGTTTAACAGAGAAAATAGTTAAATCAATTGTTGTAGATGAAGATGCTGTTAGTGTTAAAGAGTTCGATTCAGAAGATGAAAATACCATTCTAATTCAAGTTATTGTCAGTGAAGAAGACTTTGGTCGTGTTATTGGTAAAGGTGGAAAGACAGCTAATTCTATCAGAACTTTAGTACAAGCTAGTGCTTCTTTACATGATAAAAAGTTTGTAAAAATCGATATTGATAAATTTTAGAAAGTGGATGCTTTCTTTTTTTTTCTTTTTATATTATAATAATAAGAGAAAGGTCGGGGATGATTTGTGAAAAAACGAGTAATTAGTGCTTGTATCATTTTGGCGGTTTTAATACCACTTATTATAATTGGGAAAGAACCATTTGAAATATTTTGTGTTGTTATGGCATTGTGTTCAATGCATGAATTAATAAGAGTAAGGAAGAATAAAAAAGATTTTCCTGTGATTTTAAAGATCTTTGCTTATTTATTGGTAGCTTTTTTAACTATGAATAATGCCGGTTCTGCAGACTTTAATTATTCAATTGATTATAAAGTAATGAGCTTTATTATCTTTGCCTTTTTCTTACCAATGATCTTTGTTAATGATCATAAAAAGTATAATTTAAATGATGTTTTATTCTTAGTTGGTTCTACTTTATTTTTAGGACTAAGTTACAATCTTTTAATGATTGTTAGGAATAATGATATAACATATATTATATACTTATTATTAATAACATTCGTAACCGATACTTTTGCATATTTCAGTGGTATGTTAATAGGTTCTCATAAACTAGCACCTAATATATCACCAAAGAAAACTATTGAAGGACTTTGTGGTGGTGTTGTAGTTGGTACCTTAGTAGCGACAGTATACTATCATATGATTATTAATCCTAATTTTGGAGTTTTACCACTTATTGGTATTACTTTACTACTATGTATAATTGGTCAACTTGGAGATCTTTGCTTCTCAGCTATTAAAAGATCATATAATGTTAAAGATTTCTCTAATCTTTTACCTGGACATGGAGGTATATTAGATCGTTTTGATTCTTTAGTTTTTGTTTTATTAGCTTTTGTATTATTTATAGAAATTTTATAGGAGGATGGGCATGACCATAATAATTTTTATCTTAATATTAGGCGCTATTATCTTTGTACATGAATTAGGACATTTCCTATTTGCTAAAGCTAATGGTGTTTATGTCTATGAATTTGCTTTAGGAATGGGTCCTAAACTAATTAGTAAAAAAACCAAAGAAACAACTTATTCATTAAGACTTATTCCCATAGGTGGCTTTTGTCAACTAGCTGGTGAAGATACTGAAATGGATAAGGATCATAAAGTTCCTAAGAATAGAACTTTGCAAGCTAAAAGTCCTTGGCAAAGATTTTTGATTATGTTCTTTGGAGCTGGATTTAATTTTATTTTTGCTATTTTGGTATTATTCTTTATTTCCTTGTTTGGAGGAAGTGCTGATTATAGACCAATAATAAGTACAGTAGAAAAAAATATGCCAGCAGTAGAAGCAGGAATTAAAAAAGGCGATATCATCAAGGAAATTGATGGTCACAAGATTAAAACCATTGATGATATTTCTCTTTATTTAGTTATTGCTCCTCATAATAAAGCTACTAAAATAGTAGTTAATCGTGATGGTAAAAATATAACTTATAAAGTTCAAGCTAAAAAAGTTAAAGAAAAAGGAGAAAAGGTTTATCGTTATGGAATAGGTCTTGATAGTAAAAAGAAACATGGTTTTATAAATGCTATTAAATATACTTATCATAAGACAGGAGCTATTTTTAGACAAATGGCCGTTACCTTAAAATCTCTATTTACTGGTGGAGTTAAATTAAATCAATTAAGTGGACCAGTTGGTATTTATTCCATTGTTGGTGAACAGAGTAAAGATGGTTTGGCTAGTATTCTTTACTTAATGGCATTCTTAAGTATTAATGTTGGTTTTATTAATTTATTGCCTTTACCAGCTTTTGATGGAGGACATATTCTATTTATTATTATTGAAATGATTAAAGGTTCACCAGTTAAACCAGAGACAGAAAACATGATTCATACAATAGGATTATTCTTATTGATGGCTTTAATGGTCTATATTACGTTTAATGATATAATGAAATTATTCTAAATTAGGACTTGTCCTAATTTTTATTTAAAATAATAGTTACATATAAAGAATAATATGATATAATCATAATATAATAGGAGGTAACCATATGATACGGAAAAACAAAAAAGGATTTACAATGGTTGAACTTTTAGCAACCATAGCTATAATAGCTGTTTTAACAACGCTAGCTATAGTGGGGGTAAACGGAGTAAGAAATTCCCTTAAGAGTAGTTATTACAAGCGAGTAGAAAAGCTGGTAGTAGCAGCGGGAATGGATTACTATAATGACCATAAAGGAGAACGACCTATTAGAATTGGTCAATCTAGTCAAGTGGCACTATCAAAGTTGGAAGGTCAAGCTTATATTGAAGATGTTAAAGACTATACTAAACAATCATGTGATGCTACTGAAAGTTATGTTTCAATAACTAAGACAAGTGAAAAAAAATATGAATATGATACATATTTAATATGTCCAGACCGTCTTGAAGATGATGTGCCCGAAGACAAAAAAATAGATCCCAATATAGGAGAGGCAACAGACTGTAGTGACATGTTATCATCTGATGCCACGGATTCTGAATGGTCACATACAAGTACAAACTTAAGAGCAACCTTAACACCTGATATTACAGAATATATACTTCAAAAGAAAACTAGTAAGGGATGGGAAACTATTGGAGAGACTCATAAAGCTGACTATACACTTGCTATAAGTGATAATGGAATTTCTACTTATCGAGCAAGAGGAACAGGGACTAATGGTAAGTATTGTACTAGTAATACTGTTAATATAAAAATAGATAAAGATAATCCAAGATGTGGAGATGTAACTGGAGAAAGTACCAGTTGGACAAAGAGCCCTAGAACAATATCAATTGCTTGTTCAGATGGTGAAAAAGAAAGTGGTTGTGTTGAACCTACATATCAACATACTTTCTCAGCAGATACTAAAGTTGGAACTATAACTATTGCTGATAAAGCTGGTAATACTACTAATTGTCCTGTTAATGCTTATGTTGATACAACACCTCCAACTTGTGGTACTGCAACAGGAACAAGTACTAGTTGGACAAAGAGTAGTAGAACAATAACTCAACCTTGTACAGATAATTTAAGTGTTTGTAATAGTGTTCCTGCCACTTATTCAACAACTACTAAAACAGCTTCAGTAACAGTAACTGATAGTGCTGGAAATTCAAAAACATGTCCAGCTTATAATGTTTATGTTGATACAACAGCTCCAACTTGTGGAAGTGCATCAGGTGGTGGTACTTCTTCAGCGCATAAGTTTGGTAATGTAACAGTTTCAGTAGGATGCTCTGATAGCCATAGTGGTTGTGGAAGTAGTTCATACAGTAAAACTTTCTCACCAACTACTACGACTAGTACAATTGCGATAGCTGATAAAGCTGGTAATAGTAGAAGCTGTTCTGTTAATGTTTATAGTTATCCATGTAGTGCTCCAACAGTAAGTGGTTCAGTAGCATCAACTAGAAAATGTCCTTATAATGGTGAAACTTTATCAAATACTAAAATAGTAACCTTTACAGTTGGTGGTTGTAGAAATGGTATGACAAGCTCTAATAGTTATATATGCTATTATAATAAATCGTCAACAACAGCTTCTGGATGGTCAAGTCAACAAAAACGTCATGATAAAATTGTTTCAATTGGTTGTGGTAAAGTAAAATGTGGTTATCATTCAAGTAACTGGCATGGTAGCTGCATTAGTTCTAGTAACCATGGTGCTTTCACAGGTAGTGGTACTAAATGGAGTCTAAACCGTTCAACAGAGTGTGCTTACATTAAAGCAGTAAGTAGTGGTGGTACTAAAGAGATGACTTGTAACATGAGTACTGGAAAATGTGTAACTGGTGTATCTGCTATGATAAGTAACTGTTAATGAATGAGTATAAAAAACTAGGAATATATCCTGGTTTTTTCTTGCTTATAATACTGTATATGCTATAATTATAATAGGTGGTAGAATGAAAAAGAAAAAAGGGTTTACAATGGTTGAACTTTTAGCAACCCTAGCTATAATAGCTGCTTTAACAACTCTAGCTATAGTAGGAGTAAATACAGTAAGAACAGCTCTTAAAAACAGTTATTATAATAGAGTAAAAAAATTAGTAATAGCGGCGGGAATTGATTATTATAATGATCATAAGAGTGAACGACCTGTTAGAATCAATCAAACTAATAAAGTGGCACTTATAGACTTACAAAATGAAGATTATATTGAAAAGGTTAAGGATTATGCCAAGGAAGTGTGTGATCCTGATAATAGTGAGCTTATTACTGATAAAAGTTATGTTGTAATAACTAAAAAAAGCACGAAAAAATATAGTTATCAAGTTTATTTAAATTGTCCTAATTATAGTGATGGTGATCCTCAAGAAGAAAATCCAAATCCAAATGTAGGAGAAGCAACTGACTGTAGTAATATGTTAAGATCAAATGCTACGGGTTCTGGTTGGTCACATACAAGTATAGACTTAACAGCAACCTTAACACCAGATATTACAGAATATATAATTCAAAAGCAAAATGGTGACAAATGGGAAACTATTGGTTCAACCCATACTGGCGATACTACACTTACTATAAGTGATAATGGAGTTTCTACTTATCGAGCATTAGGAACAGGAACTAATGGTAAGTATTGTACTAGTAATACTGTTAATATACAAATAGATAAAGATAATCCAAGATGTGGTGCAATAGAAGGAGCAAGCACTAATTGGACAAAGAGTCCTAGACTAATTAAAATTAAATGTTCAGATGGTGAAAATGAAAGTGGTTGTGTTCAAGATGAATATCAACACACATTCTCTGCAGATACCAAAGTTGGAACTATAACTATTGCTGATAATGCTGGAAATACCACTGATTGTCCTGTTAATGCTTATATTGATACAACACCTCCAACTTGTGGAACTCCAACCGGAACAAGCACTAGTTGGACAAAGAGCCCTAGAACAATAACTCAGCCTTGTAGTGATAATGTAAGTGGTTGTAATAGTGTTCCTGCCACTTATTCAACAACTACTAAAACAGCTTCAGTAACAGTAGTTGATGGTGCTGGAAATTCAAAAACATGTCCAGCTTATGATGTTTATGTTGATACAACACTTCCAACCTGTGGAACAGCAACTGGTGGTGGTACTTCTTCAGCGCATAAGTTTGGTAATGTAACTGTTTCTCAACCATGTTCTGATAGTCATAGTGGTTGTGTAAAAACTCCATATAGTAAAACCTTCTCACCAACTACTACGACTAGTACAATTGCGATAGCTGATAAAGCTGGTAATAGTAGAAACTGTACTGTTAACGTTTATAGTTATCCGTGTGGTGCTCCAACAGTAAGTGGCTCAGTAGCAACCACTAGAAAATGTCCTTATAATGGTGAAACTTTATCAAATACTAAAACAGTAACCTTTACAGTTGGTGGTTGTAGAAATGGTATGACAAGCTCTAATAGTTACATATGTCACTATAACACCAAATCAACAGTTGCTACTGGCTGGTCGAGCGATCAAAAACACCATAATAAAATTGTGGAAATCGGTTGTGGTAAAGTAAAATGTGGTTATCATTCAAGTAACTGGCATGGTAGTTGTAAAAGTTCTACCAATCATGGGGCTTTCACAGGTAGTGGTACTAAATGGAGTCTTAATCGTTCAACAGAGTGTACATACATTAAAGCGGTAAGTGATGGTGGTACTAAAGAAATGACTTGTAATATGGGTACAGGAAAATGTGTAACAGGCGTATCTAATATGATAAAGAACTGCTAATAAAAAAATAAAATCTAGGATAATCCTAGGTTTTTTTCTTTTGCCCTTGTTTTATTTTTAAAATGATATATAATAAAAAGCAATACGTATTTTTGGGAGGTGAAATCATATATGAAGTCTAACAAATTAGGAGTCCTACTTGTCAATGATATGGTTTTATTCCCAGGTGCTGAAATTCGTTTTGAGATTGACAACCTTGAACAAAGACAGATTATTTCAGTAGCAGAAGCTACAGAAGAAAAAGAAATATTAGTTGTCAATCCAATTGAAAATAACTTAGACAGTTTAGATATTACAATGCTTCCAACAGTTGGGGTAGTCGCTTCCTTAAAATTAAAAATGGATATTCCTAATGGTAAAACTAAAATAGTTTTAAAAGGTCTTCGTAGGGTAAAAGTAGACAGCTATTATCTTAATAATAGTTATTATGAAGCTACTACTAAAAAACTTGTTAAAAGAATTGATAAAGAAGACGAAGCTATGTATAGAGATATTTTAATTAAAGGCTTCGATAAATATATTGAAAATGTCCCCTATGTATCTAATGCCATTATGGCTCAACTAAAATACGTAGAAAAACTTAAAGAAATGACTGATATGATTGCGAACTTTTTACCTATTAGTTATGATAAAAAGAAGAAATATATTTTAGAATCTAGTCCTATTCTTAGAACAACAATGCTTATTGAAGACATGAACGATGATATTAAGTATGTTGAGTTGGAACGTAAGATTGAACAAGAAGTTGAAAAAGAATTAAATGATACCCAAAAAGAATTCTTCTTAAGAGAAAAAATAAAAACTATTCAAAAAGAATTAGGAGATGTTTCTTCTAAAGAAGATGAAGTAGAACGCTTAGAGAAAAAACTTAGGTCTTTGAAATGTTCTAAAAGAGTAAAAGATCGTATTAAAAGAGAGATTGATCGTTACAAGAATGTTAATTCTAATTCTCCGGAATTAGGAATGATTAGAGATTATTTAGATTGGATGCTTAATTTACCTTGGCAGAAATATACTAAAGATAATGAAGATTTAGATGCGGTTAAACATGTTTTAGATACTTCGCACTTTGGTCTTGAAGATGTTAAAACTAGAATAATTGAGTATTTGGCAGTTAAACAAAATACTAATAATTTAAAAAGTCCCATTATTTGTTTGGTAGGTCCTCCTGGTGTTGGTAAAACATCTTTAGCATTTTCTATTGCTAAGAGCTTAAATCGTAAATATACCAAAATAAGTGTAGGTGGTATTAATGATGAAGCTGAAATAGTAGGACATAGAAGAACTTATGTTGGTGCTTGTCCAGGAAGAATAATTTCCGGTATTAGAAAAGCAGAATCTACTAATCCAGTCTTTATTATTGATGAAATTGATAAATTAAGAAAAGATTTAAAGGGAGATCCAGCTAGTTCTTTATTAGAGGTTTTAGATCCTGAACAAAATTCTAAGTTCTCTGATCATTATATAGAAGAAGAATTTGATCTTTCCCAAGTAATGTTTATCGCGACAGCTAATTATATGGAACAAATCCCCCTAGAATTAAGAGATCGTTTAGAAATAATTGAACTATCTAGTTATACTGAATATGAAAAAGTTGATATTGCGATGAACTATTTAATTCCCAAGAACTTGGAATCACATGGTTTAACTGAGTTAGAAGTTCAATTTGATGAAAAAGCTATTCTTTCATTGATTCGTAACTATACTAAAGAAGCAGGCGTAAGAGAATTAGAAAGAGTAATATCATCACTACTAAGAAAGATAGTTAAAAAACTTTTAACTGACAAGAAGACCGCTGCTTACCAAATAGATACTAAGAAAGTAGTAGAGTTCTTAGGTCATGGTAAATATGAATACTCTAAACCTACTAAAGTTGATGAAGTAGGAGTTGTTAATGGTTTGGCTTATACAGTTTTTGGTGGTGATGTCTTACCGATTGAAGTAACTTCTTATAAAGGTAAAGGGAAACTTCTTTTAACTGGTAGTTTAGGTGATGTTATGAAAGAGTCAGCTAAGATTGCCTTAAGTTATATTAAGACCAATGCCAAAACATTTGGAATAGATTTTAAAGTGTTTGAAGAAAACGATATTCATATTCATGTTCCAGAAGGAGCAGTTAATAAAGATGGTCCTTCAGCAGGTATTACGCTAACTACAGCTCTTATTTCTCTTTTCACTAATAAAAAAGTTTCTTCTGATATAGCGATGACTGGAGAAATAACCTTAAGGGGGCAAATATTACCTATTGGTGGTTTGAAAGAAAAGATAATAGGAGCCAAAAGAAATGGTATTAAAGAGATTTTTATTCCTAAAGATAATAAAAAAGATTTAGAAGAAATCGATAAAGAATTAACTAAATCAGTAAAATTTATTTTAGTTGATAAATATCTTGATATTTATAAAAAGATATTTAAATAAAAAGAGTTAGTATTATTCTAACTCTTTTTTCATATTATTTTATAGAGGAGGAACAAAAATGAGAAAAACAATATCTTTACAAAAAGAATTAACTTTTCCTACTATGATAGGAGAAATTAGTAGTATAGCTTTAGATAATAATCTTAAATTTATTAATTCTAATAAAATAGAAGGTGATTTAGTAGTAAGCGGTACTTACAAAATGACTGAGGCATCAAGAATTACTGAAGACTTTAATTATAGTATTCCTACCGAAATAGAATTAACTGAAAACCTGGAATTAGAAACAGCCGCTATTGATATTGATGACTTTACTTATGAAATAATAGAGGAAGATATCTTATTATGTAAAATAGACCTTTTAGTGGAAGGCGTAGAAGAAACAGATAGTTTAGAAGAAGAAATAAAAAAAGAAATAGTTGAAGAAGTACCTACAGTAGAAGAAGTTAGTAGTGAAGAAATAGAAAGAGCATGTGATGGTGGTGCTTTAGAAGAAGAAAAAGAACCAATTGAATTGAATTCACTATTCTCTAATTTAGATGATGATAGTTTTAAACCATATACAGTTTATATTGTTAGAGAAAATGATACAGTTGAAGGAATCATGGAAAAGTATAATGTTACTAAAGAAGAATTACTAAAGTATAATGATCTTGATAAGGTAAGTTTAAATACTAAATTGATTATACCAACTACTAATACCAATGAAGATTAAAATAAGAGATATTAAAGAAAATAAAAAAGTAAATAGAGTTGAATACATTAATAGTGCCCTAATCATTGATAATAGAGTCTATAAGAAAAGAAGAAATAAAGAAATATATAATTATTTAGAGGCAAAAGACTTTCATTATTATCTAGAACCAATTAGAACTAAAAAAGGAATTGATGAATTTGCTTTCCTCAAAGAAACAAAAATAGATAATAATGATAAGGCTCTTGATTTGATGTATATTCTTGCATATTTACAGAACAAAACTGCATCTTATGAAGATATCAATTTAGATAAAGTAAAAGAAAAGTTTGAAAGTGTCAATGAAAGAATTATTTCTCTTAGAAACTACTACTATCAACTACAAGATAAAATCGAAAGAAAAGTCTATTTTAATCCTAGTGAATATCTATTGATGGTTAATATTTCTCTTATTTATGAAGCACTTAATCAAGCTAAAACAACCATTGATAAATACTATGAACTAGTAACAAAAAAAGAAAAAGTTCGGAAAGTATTTATCCATGGTAAATTAGAACTTAATCATTTTTTTGATAATGAGGATAAAAAACTAATTAGTTTTAATAATTTAGAAAAAGATCTTCCTATTTATGACTTTATCTACTTTTATAAAACACACTATCGTGATGTCGATATGATTGATCTATTTAATGTCTATCAAAGTAGATTTCTTTATAACGAAGAAGAATTAATGCTTCTTTTTGGTGAAATATTAGTAATGGATAAAGTGAAGATAAGGGATAATTCTTATTTAGTATATGAGAAGGTTCAAAATTTAATTGAATATGTTCAAATAACTAGAGAATTCGTCTTAAAGCAGAATGAAAAATATAAAGAATATAAAGAGAAAAAACTCCAAGAATAGAATAATAGCATTTATTTTAGTAGTTATAAATATAAGAATTAATGCTTGGTAAAAAACAATAATAAAAATTATTGGTATTAAAGAAGAAAAGAAAGAACTATTTCTTCTTTTTTGTTTACAATATGAACAGCGACAAAAGAAAGAATGCTTATTGTTCATAAGGATCACCTAGTATATTTTATGTTATTACTTTAGATAATTTACAATTACTGAAAAATACCTTATAATAAAATTGGTGATGAAAATGAATAGAAAAGGATTTACATTAGTTGAAGTTATTGCGGTAGTCGCTATTATTGGTTTTTTAGCAATAATAACCATTCCAGCTATTAGTAGATTATCAGCTGGTAATAATTCCAAAACAGTTGAGACTTTCGAAAAAACATTAAAAAATAGTGCTAAAGCCTATATTAATGTGACTAACCAAACAATTACAAGTACTCCTCAGAATATAACCTGTACAACTTTACAAGGTGCTGGATATATCAAGCAGTGTACAGTTAGAGGATATAACTGTAATAATCCATATGTAGAAGTACGTGCAGATTCTGATCGTACAAAATCTTATATTTATACGGTTCATGGTAATTGTACAAAAGCGTAATTAATTGACAAATAACACTTTTTCTGGTATAATATAGCCACTATTTTGATTGGGGGGATTTTAGATGAAAAAGAGAATGAGTAAAATACTAAATTTAGTACTAGTTGGAATAATTAGTATGTTGTTTGCTCTAGGGAATGCCAAAGCATTAGACAACACTGTTACTGTTGGTGTATCTTCTTCTTTAACACCTTATGTAGCTGACGTTCATGTTGCCAAGATGCCACTAGTTGGTGGTGGATATGCTTATTGTACTGAACTAGCTAAGATTACACCATCTAATATAACAGAAAAGTTAGTACAAGAATCAGATGCTGGAATTACTTATATTCTAGTAAATGGTTATCCAAGGAGAAACATTACTGGTAATGGAGACTATGACTATTACATTACTCAAACAGCTATTTGGTGGTATTTAGATGATATCAACGGAACTGATTACTTATCATTAGCTTTTAAAACTGATGGTAAAGATGAATTTGGTTTAAGACCTTATGTTAAAGAGTTAGTTGAAGCAGCTAAAGAAGCTAAGAGTTCAGGCTATGGATATGGTTCAGTAGTACTTAATCCTAAATCTTCTAGTTTAGAATTATCTAGTGATAAAAAGTACTATGAAACAGTAATTGAACCTGTATTTACTAATGTTTTAGGAACTTATACTGTTAGTGTTAACTCTGATAAAGCAATTATTACTGATTTAAATAATAATGCTAAGAATACTTTCAATGTAACTGAAAGTTTCAAGATTAGAGTTGCTAATGGTAAATATGATCCAAGTAAGATTAAAGTAACAGTTTCAGCTAATAATACTTATGAAAAAGCCTTCTATTATGCAGCTGAGAATCCTGCTATCCAAGGAGTAGTAGTATTACAAGATATCGCTGAAGAAGTAACAGCTTCATTAGAATTAGCTATGAATCCAACTTGTGAAAACGGTGGATTAACTGATGGTTGTGAAGCAGCTGAAATAGTAGATGTTCCAAATACTAATACTAATACTATTCTTTACATCATTGGTGCAGTTATTCTAGTATCTTCTACTGGATACGTATTCTATAATGCAAAACTTAAGAAATAATGAAACAAGAAGAATAACTAATAGTAAGATCGCTTTTATAGCCAGTATCCTTACTATAATAGGATTATTCTTCTTATCATATAATTACATAATGGCTAAAAAAGCCGTTGTCTATGAATACATTAATGGAATCTATGTAGAAGAAAAACAAGATAATGATGTAGAAGTAGTTACCGAGAATAAAAAAGAAGGGGAAAAGGAAGAAGTAGAAGAAAATGATAGTGATTATATTGGCTATCTTAAGATACCAAAAATCGGGTTTGAAAAAGGTTTAGTTGACAAGAATTCAGAAGAAAATGATGTAGAAAAGAACCTTTATATCGCACCAGTATCTGCTTATCCAAATGTTAAAGGTGGTAATTTAATTATTGCTGGTCATTCAGGGACTGGATGGAAAGCCTTTTTCAATGATTTATACAAATTAAGATTAACTGATCAAGCTATTGTAACTTATAAGAACAAAGAATATGTTTATCAACTTATGGATTTTTATAAACAACCTAAGAATGGAAAGGTAACAATTAAAAGAAACAAATCAAAGACAACACTTACTCTTATAACGTGTACTAATGGTGATAGTACAACTCAGACTGTTTATATATTTGAATTAAAAGAATAGAAGTTACATATCATGTAATCTATAGGGGGTGATGAAGATGATAAAAAACTTATCTTTTAGTGACCTTTTAGCGAATGTTGGTGGTGTTATATCATCTTCATCGTTAAACATTATTTTAATTATCATATTTGTTATATTAGGATACTTATTAATCAAGTCTGATAATAAATATAATAATTATAAAAGATATGGTCTAATAGGTGTAATAATGATTATCTTAGGAGTTTTAATCTATTATAATAATGGTTTATTTAAAACTCTTGATTATCTAGCTAATAATTTATTCATGATATTTTACTTCCCTAATTTATTAGCTTATATAATTGGTTTAATTGTTTTAAATATTGTTGTCTTTAAGACAATTACTAATAGAAAAACAGATAAATTATTAAAAGTTGTAAATACTATTGTCTATTTAATAATTATGTATATGTCCCTTTTATTAATAGGAATTATCTCTAAAAGTAAACTAAATGTTTTTGCTTTAGATGATATCTATAAAAATAGTAAAGCTTTATCTTTAATTAGACTTAGTTCCATTATCTTTATTGTTTGGTTATTATTTATTATTCTTTACAAAATATATTTGAACTATTTAAATAAGAAAGATCTTAAGCTACCAGCTTATAAGAAAAGCGAAAATAAGATCAAACCTAATTATCAAGTTAAAGCTAGAAGTTTACCTGATTATATTAAAGAGATAGATTATCCAAAGATAGTAGAAAGAGATTACAAAGAATACAACATTAAAGAAGAAGAGTTAACTAATGAATTTGAAAGACAATTATCTTTAGATGACTACAAACTATTAGTAAAATTACTATTAGATCATAAGACTAAAGAAGAAATGAGAGAAAAGGTTTCTTTCAAGAACCTAGATGATATTGCGACTATTAAAGCAAGAATTGAACAATCACAAAATGAAGATTCGGGGGTGGAAAACATGTTAGAAGAAGTAGAAAGAATTGTAACTGGTCCAACATTAGAACAAGTTATGCCAATATATAAACCAGAACAAGAAATGATTTCTAAACATGACGAAGAAGTTATCACTAAAACAGTAGAAGCTATTGAAGAAAACTTATATCAAGCTAGAAGAAATAGTAATGTAATCGAAGAAGTAGAAAAAGATGATGACTCTTTGAAACAAGCTAAAATTGCCGAACTATTGAGATTATATCAAGAATAAAAAGAGAATTATTTCTCTTTTTTTATGCTTTAATTTAGAGTATAATTATTATAGAAAGAGGGATAAATATGGATTTAACTAAATTAAATGATGAACAACTAAAAGCCGTTAAATATAATGATGGTCCCTTATTAATAATTGCAGGAGCTGGTTCTGGTAAGACTAGAGTTTTAACAGTTAAGATTGCTTATTTAATAGAAAATATTCACATCAGTCCCTATAATATTCTGGCGATTACTTTTACTAATAAAGCCGCTAATGAAATGAAAGAACGAGTTCATAACCTAATTGGTAGTGATGCTGACTTTATTCAGATATCAACTTTCCATAGTTTTGGGGTTAGAATTCTTAGAGAAAAAGACAATGCTAAACTACTGGGATATGATAAAAACTTTTCTATTGTTGATAGTGAAGATTCTTTAGTAGTTATTAAGAAAATATTAAAAGAATTGAACCTTGATCCTAAGTATTATAATCCTCGTTCTCTAAGAAATAAAATAAGTAGTTTAAAAAACGATATGTTAATGCCTGATGATTATGAAAAGTATACAGCTAGTGATTATGAAAAGGCTTGTTTAAATGTCTATCGTAAGTATCAAAAGAAATTAAAAGAGGGAAACTTAGTTGATTTTGATGATCTTTTACTATTACCAATCAAACTATTTAGAGAAAACAAAAAAGTTTTAGAATATTATCAAGAACGATTTAAATATATTTTAATTGATGAATATCAGGATACTAATGAAGCCCAGTATAAATTCAGTAAAATGTTAGCTTCTAAATATCGTAATATTACGGTAGTGGGTGATGATAGTCAGTGTATCTATGGTTTTAGAGGATCTAACTATAAAAACATTTTGAACTTTGAAAAAGATTATAAAGACGCTAAGACAATTCTTTTAGAGGAAAACTATCGTTCAACTACTAATATTTTAGATGCTGCTAATGATGTTATTAAGCACAATAAGAATAAAAAAGATAAGAGTCTTTGGACTAAGAACGAAAAGGGTAATAAGATTAAATATTACAGAGCCTATAACGAAAAAGAAGAAGCTAGGTATGTAGTTCGTAAAATAAAAGAATTAGTCTCTTCTGGTGTAAACTATGAAGATATTGCTATTCTTTATCGGACTAATGCTCAATCCCGTGTTTTAGAAGAAGAAATATTAAAGGATAATTTACCATATAAAGTAGTAGGTAGCTTTTATTTCTATTCTCGAAAAGAAATAAAAGATTTAATTGCTTATTTAAGATTAATTTATAATGAAAAGGATAATGTTAGTTTCTTAAGAGTAATTAATTATCCAAAAAGGAAGATTGGCCCTAAAACAATTGAACAGTTAACTGAAAAAGCTGATAAAGAAGGAATTAGTTTATATGAAGCAATTGATAGTGGTAAAGAATTAGAGTTTAAAAAAATTATTGAAGACTTAAAGAAGGTTAAAGATAATGTTACTTTGACAGAATTAATTGATAAAGTTTTAGATGCTTCAGGAATTAGAAAAGAATTAGAAAGTGAAAAGACTTTAGAAGCTGAAATAAGATTAGAGAACTTAGAAGAGTTTAAATCTATTACCAGAGGCTTTGAAGAAAAAGAAGGTCTCATTTCCTTAGAAGATTTCTTATTTGAAATTAGTTTGGTTAGTGATAAAGAAGAATATAGTACTGATAATAATCGTATTAATCTAATGACTATTCATTCAGTTAAAGGACTAGAATTTGATTATGTCTTTGTAGTGGGTGTTGAAGAAGGATTGTTTCCACACATAAATTCCTTAATGGATGAAAAAGATTTAGAAGAGGAAAGAAGACTTTGTTATGTAGCTATTACTAGAGCAAAAAAAGATCTTTATTTAATTAATGCTAAAAGAAGAGTCCTTTTCGGTAATGATGAAATTAATCCACCTAGTCGTTTCATTGGTGAGATTAGGGAAGAGTTATTAGATGCCAATACGGAAATAGAAAAACAAGAAGAGAAAATAAAGGACGAAGAAATATTCCGTGATGAAGAAGTTGACTATAATGTAGGTGATTATGTCTATCATGAGACCTTTGGTACTGGTAAAGTAGTAGAGGTAACAGAGACACTAGTAAGTGTAGCTTTTAAACACCCTTACGGAGTTAAAAAGTTAATGAAAAACCATAAGAAATTATCAAAAATATAGTATAATAATATAAGGAGGATATATGAACAAAGAAATAACTTTAGTAGTGTTGGCGGCTGGTATGGGAAGCCGTTTTGGAGGTTTAAAACAAGTAGAACCTTTTGGACCTAATGGAGAGTTTATTATTGATTATTCTATTTATGATGCCAAAAAAGCTGGTTTTGATAAAGTAGTATTTTTAATTAGAAAACATAACTATGATCTCTTCAAAGAAACTGTAGGTAAAAGAGTAGAAGAATATATTAAGGTAGAATATGCTTTTCAAGAAATGGATGATTTAAAAGAAAAGTATCATCTTCCTGAAAGGGAAAAACCGCTTGGAACTGCTCATGCAGTTTGGTGCTGTAAAGATGTAGTAGATGGTCCTTTTATGATGATTAATGCTGATGACTTCTATGGCTATGATGCTTTTAAAGAAGGATATCAATTCTTAAAAAATAGTATTTCAGATACTGAATATGGAATGGTTGTCTATGATGTTATTAATACTATCACTGAACATGGTTCTGTTAAAAGAGGAATAATTGATATTGTCGATAATTATATTAATAAAATAGTGGAATCAAAAATAGAGATGAAAGATAATAAGCTAATGGCTAGTCCTTTAGATAGTGAAGAAGAAAAAGAAATAAGTAAAGATACTAAAGTGTCAATGAATATGCTTTTATTAAATAATAATATCTTTACTTATATCGAAGAAAATATGGATGAAATGTTTCTAAATAGTGATAATTTAGATACCTGTGAATACTTAATACCAGATGTCTTAGAAAAGGGTATTAGAGAGAACAAATTTAGAGTAAGAGCTCTTAATACTGATAGTGTTTGGCATGGAGTTACTTACAAAGAAGATAAAGACGAATTAGTAAATTCAATAAATAAATTAATTGAAGAGGGTAATTATCCTCACGAATTATGGAAAGGAGGAAATGATGAAGCCTAGTTTATATCCTAAGACCTTTATGTGGTTATTTGGAGGTCTATTAGTATCTTTTATTACTGGATATGCCTTATATCTAAATGAAACTATTCTTGCTAATGTTTTTAGTTCTAAAGCAATGTGGCTTTTAATTATTTTAGAATTAGGTGTAGCAATTTTCTTTAGTGTTAGGATTAAGAAAATGTCTAAGGTAACTGCTATTTTCTGTTATGCACTCTATTCCTTTTTAACGGGATTTACCTTTGGCGTTATCTTTATTACCTATGAATTAGCATCTATTATTTTAGTATTTGGTATTACTTCAGTACTATTCTTAATATTTGCTTTATATGGATACTTTACGAAAAGAGATATTAGTAAATGGGGATCTTTCTTATTGATGGCTCTAATAGGTATTATTCTTTGTTCAATAGTTAATATCTTTTTACATAGCTCTGTTTTTGATTTGGTTCTAAGTATTGTTGGAATAATTATCTTCTTAGGATTTATTGCTTATGATATTCAAAAATTAAAAGCCCTTGATGATTATATAGGGGAAGATAAAGCTGCTATCTTTGGAGCTTTCCAATTATACCTAGATTTCATTAACTTATTTATTAGATTATTAGAACTATTTGGCAAAGTTAAAGATTAATCACTTCAAATGAAGTGATTTTTTTATTGTTCTATTGACGAACATATGTATTTGTTTTATAATAAAAACAAAGCATAAAGGGAGGTTTGGGAAATGCAAGAAATAATTAAAAACAATATTAGAGTGGAAAATATGATTTATGAAATCGGCGAAAAACAAATAATGATGGATTCGGATTTAGCCAAACTATATCAGGTGGAAACAAAACGAATTAATGAAGCAGTTCGTAATAACCCAAATAAGTTTCCTACGAGATTTAGCTGGATTTTAACAGAAAAGGAATGGGTATCTTTAAGGTCGAAAATTTCGACCTTAAACGGTTCGCAAATAGGTAGAGGCCAACATAGAAAATATTTGCCAAGAGTTTTCACTGAACAAGGAGTAGCAATGCTTGCGACAATTTTAAAATCTAGTGTTGCGACAGAAGTGAGCATTAATATAATGGATGCTTTTGTTTTAATGAGAAAATACATATCAACAAATTTGCTTGAACAAAAATGTATTAATAATATGGTGCTAGATCACGAGGAGAGATTAAAAATGGTGGAAGACACCTTTTCGAGATTTAAGGAAGTAAATAATCACTTGTTTTTTGAAGGACAAATATATGATGCGCATTCTCTGTTGATAGATATCTTGAAAAAGGGGCAAAAAGAAATAATAATTATTGATAACTATATTGATAAAGAAGTTTTAGATATTTTAAAGAAAATAAATACGAAAACAATTATTATAACTAACAAATATAATAATATTGATTACCAAAAATATAAAAAACAATATCATAATATAATTATGAAAATAAACAATAGTTTTCATGATAGATTTATTGTTTTAGATCGAAAACTTGTTTATCATTCTGGTGCTAGTTTTAAAGATTTAGGTAAGAAGTGTTTTGCTATTACTAAAATAGAAGAAAAAGGAATTTTAGAAAAGATTATAAATTTGCTATAATATAAATGAAGGGAGGAATACCATGGTTATTGGAGTTCTAGTAGAAATAACTAACAAAAATGTTGATAAACTATTTTATTATAAAGTACCTAAAAACTTAGAAAAAGATATTAGAATTGGTATTCGAGTTAAAGTTCCCTTTGCCAATAAAAAACTCGAAGGTTTTGTCTTGGAAATAACTAATAAAAAAATAGATATGGATTTAAAAGAAGTAATAGCTATTGTTGATAATGAGATAGTCTTAACTGAAGAATTAATTAAACTAGGTAAAGAAATGAAAGAATTAACTCTAGCATCATTAATTAGCTGTTACCAAGCGATGTTACCTAAGGCTTTAAAAGCAAAGAATAATACTTTGATTAATAAAAAGTATGATGTTTATTATCGTTTAAATAAAAAAGAAGAAAAATTTAATAGTAAACAACAAGAAATAATTTCTTTGTTTAAAGATAAAAAATTAGTACCTCGTCAAGAAATAATAAATATTTCTCTTAGTAGTTTAAATACCTTAGTTAAAAAAGGTGTTCTTACTAAAGTGGAAAAAGAACACTATCGTTTAGAACACAACAATGAAAAAGTTAAAAAACATCCTTTAACTGCTGAACAAAAAGAGGTTGTTAGAAAAGTAGATATGGATCGTTTTAATACTTATTTATTATATGGGGTTACTGGTAGTGGTAAGACTGAAGTATATATGGAGTTGATTGAAAAAGCTCTTGAAAAAGGAAAAAGAGCTCTTGTTTTAGTACCTGAGATTTCTCTTACTGAACAGATGATAGATCGTTTTGAAAAACGTTTTGGTACAAGTATTGCAACTTTACATTCATCTCTTTCTGAAGGAGAAAAGTATGATGAATATCGAAGAATTAGTAAAGGGGAAGCTGATGTTGTAATTGGGGCTCGAAGTGCTGTTTTTGCGCCCATTAGTAATTTAGGTATTGTGGTTATTGATGAAGAGCATAGTGAGTCTTATAAACAAGATTCTACACCTCGCTATAATGCGATTGATATTGCTAAAATTAGAGCCAAAGATAATAATATTCCGCTTATACTAGGTTCTGCAACTCCACTTTTAGAATCATTTGCTAGAGCGAATAAAAAAGTTTATAAACTATTAACTTTAAAGAATAGAATTAATACTACTTTACCAGCTATCGAGATTGTTGATTTAAATAAAGAAATCAAGTCTATGCAGGGACACTTTTCTTCTACATTAATTGAAAAGATGAAGGAAAAACTAGCTAGAGGAGAACAAGTCATCCTTCTTTTGAATAGAAGAGGTTATTCTTCTTTTGTCACTTGTCAAAATTGTGGTGAGGTTATTAAGTGTCCACACTGTGATATAACACTAACTTATCATAAAACTTCCCATAATTTACGCTGTCATTATTGTGGTTATGCGACTAAATTTTATGATAAATGTCCCAACTGTCAGGAACACGCCTTAAAAGATTTAGGGGTTGGTACCCAAAAAATAGAAGAGGAATTGAAAAACTTATTTCCTGATAATAAAGTCATCAGAATGGATTTTGATACTACTAGTAGAAAAGGTATGCATGAGAAGATAATTAATACTTTTAAAAACCATGAAGCCGATATCTTATTAGGTACTCAAGTAGTCGCTAAGGGATTAGATTTTCCTAATGTTACTTTAGTTGGAGTAATTAATGCTGATACTTCTTTAAATATTCCTGATTTTAGAAGTAGTGAAAATACTTTCTCGCTACTTTTACAAGTGGCGGGACGTAGTGGTAGAAGAAACAAAGGAGAAGTTGTTATTCAGACTTATAATCCTGACCATTATGCCATAAAACTATTAAATGAACATAACTATGAAAAATTCTATCAACAAGAAATGATGATTCGCAGAAATTTAAAATATCCACCATATTATTATCTTGTTCATATTAGAGTAAGTAGTAAAAAAGAGGATTTACTTAGTCTAGAGACCAAAAAAATTATTGGAGCTTTAAAAAGAAACTTAAAAGAGACTATTATTCTTGGTCCTTCTATTAGTAATCCCTATAAATTAAACAATAATTTCCGTCTTTCTATTATCTTAAAATACAAGTATGAAGAAAGACTTAATGACACTTTGAATAAACTTATTGATCATTATAAAGGGAACAATAATATCAAAATTGATATTGATTTTAATCCTAGACACTTTTAAAAGAGATATATTATCTCTTTTAATAATTGTAAAAAAAGATATATTTTGATATACTTATATATATAGTAGAGGTGGTGGTAAAATGATTGAGAAATTCTTAGAACGAGCTGATGTCTTAGATTTTTTAAGAGAATGCTTAACGGATTCTAGATTTGTCAACACCACAACTTCAGAAATGTTTGAAGAAGACCTTTTCCTTAAGAATCAATATGGTCTTTTATTTGCCATGGATGCTTTGATTAAATTTGATATTATTGTTGGTGATCCAGACTTAATAGATGAATATGTGGCCCAACTTAGAAGAATTATGAAAAAGTTTAATACTGGTAATGATCTTTATTTGGGACTTAATAAAACTTTAGGTAAGTTAATTGCTTCTAAACTTAATTTAGAAGATACTGATAGTCCTGAAAATAAAAAAGCTATTATCAAGTATATTTATGAACGATATATTCAAAACGGTTATATTTTCCATAGCTTTCCAGCAGAATATTTAGAAGAAATTAAAAATACTGGTATTGATAGTAGTGAAGCTTATTATAACTTGGAAGAAGTTAAAGAAATTGATGCCATCTTTAAGAATCATGGTATGGGTAAAATTTTTGATGGGTTAAATGAAAATCATAATTATGCCATTGATATTACTGATTCCCCATTAATTGCTTATTTCAATGCTTTAAATATGCCTAAATATTTAAATACTTTTACTTCTACTAATGAGTACTTACTTGAAAATAAGTATGATCGCAATGCCTTTTATAAAAAAGACAAAGTAGCTTGTTTAGATAATATTAAAAGACTATCTAATAATGCTGGTCTAACTAATCAAGAAAAAGAAAAAGTACTAGCTTTCTTTGAAAAAGAATGGAAGCTTTATAAATGTAATACTTGTAGTCCTTATATTATGTTTATTAAAAGAAGTTCTCTTTCTAAGAATTATTTAGATCACTATCAAGCTATTTTAGATAATTGTCATAAAGAAGATGTTTCCTTTAGTATTGAAAAAATATTAGAGAGTAGATATAAACATGAAAAGATAAGTGTTAAATTAAATCCTAATGATTATAAATTTGTTAAATTAGCTGGTTATAAAAAAGTGTATTTTGGAGATGAAGAAGGATTTGAAGAAATCTTTCCAGAAAAAGAAAAAGAAGAAGAGGAAACTCCATCTATGGGATTTGGTTTTGCTTTTGCTAATAACTATGGTGGACTAACAATAGTTTTCCTATTAGGGATAATTTTAGTGTTAGTTGGAATAATTTTAATATTATTAGGTTTCTATCAATAGGAGATGATAACTATGCAAGATAAAAGAGTAATATTTATGGGAACACCAGAGTTTGCTTTACCAATTGTAAACTGTCTATATGAAAGTGTTAATTTAATTGGAATTATTTCTCAACCCAATAAAGAAGTAGGGAGAAAGAAAATAATTGTTGATACTCCAACAGCGGCTTTTGCCAAAGAAAAAGGTGTTCACCTAATGCAACCAATAAAAGTAAGAGAAATTACTGAGGAGATTAAAGAGTTAAATCCTGATATGATTGTTACCTGTGCTTATGGACAAATTGTTCCAGAAGAAATATTAAATATTCCTAAATATGGATGTATTAATGTTCATGGCTCACTTTTACCTAAGTATCGTGGTGGTGCACCAATTCAACGGGCAATCATGAATGGAGAAGAAAAAACTGGTATCACTATTATGTACATGGATAAAGGAATGGATACTGGTGACATGATTAAAAAAGAAGAAGTAGAAATAGAAGAAACAGATAATTTAGAAACTCTTTCTAATAAATTATCATTATGTGGTGAAAAACTATTACGAGAAGTTCTACCAACTATTTTTGCTGGTACTAATGAACGAATTAAACAAAATGATGATGAAGCTACTTTGGCACCTATCATTAAAAAAACTGATGAGTTAATTGATTTTAATCAAACTAAAGAAGAAGTGTTTAATAAAATAAGAGGCTTATCACCAGTACCAGCAGGGTACTTTATGATGGATAATAAAAGAGTAAAAGTCTATGAGTCTTATAAAAAAGATGAAAAGACTAAAGAGCCATCTATTATTTCTAATATTTATTCAGATGGTTTCGCTATTAGTACAACTAATGGAGAAATAGTAATTACTAAACTACAAGTTGAAGGTAAAAAACCTTCTTCTGGTAAAGACTATTTAAATGGAGTTAAAAAAGAAAGTTTACTTAATAAAAGAATTAATTAGGAGTGTCTATGGAACCAAAGAAAAGTAAAATTGCTAGTATTATTACTTATATTAAAGAAGCTCGTAAAGACCCTAAGAAAAAAATGGTCTTGTTCTTTGCGTTTTACTTTGTTTTTTTCTTAATTATAATTATTATGGTACGACTAAATGGAAATAATACTTCTATCCAAAAAGAAAATCTTATTGGTAGTAAGTATAGTCTAAATCAATTAAAAAAAGGTAATTATCATTATGTATATGATTTAAAAATAGGTACTGAGGAAAAAGTAATTGATGGTGAAAGAAACGGTAATATTGAAAGTTTTGAAGTAAAAGAAAATGGTAAAGTTACAAGTTTCTATCAAAATAGTAAAGAATGTTTAAAGAAAGAAAATGGTACTTGGGTAAAGACTGAAAATCCCAATAAATATTCTTATATTACTGATATTGATAATTTAGAAAAGATTTTAGATAAAGCAACTTATATATCTAAGACAGAGTATAAAAGTGAAGAATTAGACTTAAATTATGAAATTAGTACAACTACTCTTACTGAACTTTTAGATGGTAAAAAAATAGATATTGATGATGAAACTAATAAGATAGTTATTAGAACTGATATAAATAAAGAAGCTTATGCTTTTACTATTGATTTAGAACCATACTTTACTTATATAAATAATAAAGATACTGAGGCTAGATTTAAGCTTACATATGATAATTTTGGTAATGTAGAAGAAATAATAAATCCCAAGAAATAGGAGTGATAAACTATGATGTATACAATTTTTAGTAAAAGAAATATAATAATTCTATCAGCGGTTTTATTAGTTTTAGTACTAGTTAACTCACTAGCTTATTCTAATGATGATTTTAAGATTAGTTTAAGATATGATAAGACAAAAGATACTAGTAAAGTATTACATAGAAAGACAGATGAAAGTAAGAATGCTAAAAACGTTGAAGAGGTAACGTTAGTAGTAAAATATGATATTCGTGATGTTCGTGATAATGGTTATGCTCCTAATGATCTAGTTATAAAAGTAAATGGATTGGGTAATTACAGAGATGATCAAATGAAAGTTAATATTGATAAAAACATTGCTCAAGATAAGAATAGTACTAATAAAGATGCAGATTTTACTTATTACTATAATAAAAGTACTAATCAATATATTTTTATGAATAATAAGCATATTAAAGATTATATGAAAGGGGAAATTAAATTAACTTTCCATGTTAATAAAGAGAACATAATGGTTGATTATAAAACAGCTATAGTTGCCTCTTTAACCGCACCAGGAGATGTCAAAATAGGAAGTGATGAATTGTTATATGAAGAAAGAAGATAATTCTTTCTTTTTTAATGCAAAATTATTAAAAATTTGGTAAAATTAATATAGGTGATAAACATGGAAAAAGAAAGACAAAGAGTAGAAGAATTAACTAGAATACTTAATGATGCTAACTATGATTATTATGTTAATGACAATCCTAAAATTACTGACCAAGAGTTTGATAAATATTTAAGAGAATTAGAAGAAATAGAAAAAAAGTATCCTGAGTTAAAACAAGAGAATTCTCCTACTAATAGAGTTGGTGGAGAAGTAATTGATACTTTCAAAAAAGTAACTCATTCAATTCCTATGTTATCATTAAGCGATGTTTTCACCGAAGATGAATTAATTAGTTTTGATGAAAGAATTAAAAAGAAAAGATAAATCCTAAATATGTCTGTGAATTAAAAATAGATGGACTATCAGTCTCTCTTCACTATGAAGATGGTAAACTAGTTAGAGCTGCTACTAGAGGAGATGGAGTAGTAGGAGAAGATATTACCCATAATGTTAAAACCATTAAAACAATCCCTCTTACCTTAAGCAAAAAAGTATCTATTGAAGTACGTGGTGAAATCTTCATGAACAAAGAGACTTTAAAGAAGATTAATGAAGAGAGAAAAAAAGAAGGAAAACCACTACTAGCTAATTGTCGTAATGCCGCAGCTGGTTCAATTAGACAATTAGATTCAAAGATTGCTGCTAAAAGAAAATTAGATTGCTTTATTTATCATTTGCCTAATCCTTTGGATTATAATATTCATACACATATGGAAGCCTTAGAATATATGAAGAGTTTAGGCTTTAAGACTAATCCTAATAATAAATTAGTAAATAATATTGATGAGGTATTAGATTTTATTACCGAAAAAGGTGAAATAAGAGCAGATCTTCCTTATGATATTGATGGTATAGTTATTAAAGTAAATAGTGTAGATGAACAACAGACTTTAGGTTATACAGCTAAATATCCTAAATGGGCAACAGCTTATAAATTTCCAGCTGAAGAAGTTCTAACTAAATTAAAAGATATTATCTTTACAGTTGGTAGAACTGGTCAAATAACACCTAATGCTGTTTTAGAACCAGCTATAGTAGCCGGTTCAACAGTATCACGCGCAACTCTTCATAATGAAGATAATGTTATTGAAAAAGATTTAAAAATAGGAGATATTGTCTCAATTAGAAAAGCAGGAGATGTTATACCAGAGGTAATAGAAGCCAAGAAAGAAAGAAGAACAGGTAGAGAAAAAGATTTTCAAATGATAAGTAATTGTCCAATGTGTGGAACTAAATTAACTAAAATAGAAGGACAAGTAGATTATTATTGTCTTAATAAAGATTGTCCAGCTAGAAAAGTGGAAAACCTAATTCATTTTGCTTCACGAGATGCTATGAATATTGAAGGTTTAGGCGATAGAATAATTGAAGATTTCTATAACTTTGGTTATATTAAAACTATTCCTGATATTTACAATCTAAAAAAAGAAAAAGAGGAGTTAGAGCGATTAGAAGGTTTTGGTACAAAGTCAATTGATAATATGTTAAAGGCTATTGAAAAGTCTAAAAACAATCCTCTAGAAAAACTATTATTTGCTTTAGGAATTAAAAATGTTGGTAGTAAAACAGCTAAAATACTAGCACTTCACTATCAAACAATGGACAATTTACAAAAGGCAACTATAGAAGAATTAACTAATATTAAAGATGTAGGATCTATTATTGCTGAGTCTTTAGTATCTTATTTAGAAGAAAACAAAGAGTTAATTGAAAAGTTAAAAGAACTAGGATTAAATATGACTACTAGTTTAAAAGAAAGTACAGAAAAAACTATCTTTACTGATAAGACAGTAGTAGTAACTGGTTCCTTAGAAAACTATTCGCGTGAAGAGATAAAAGACCTAATAGAATCAATGGGTGGTAGTGCTACTTCTTCAGTATCTAAAAAAACTGATTTAGTAATTGTCGGTAAAGATCCTGGAAGTAAATATGATAAAGCCAAAGAATTAGGAATAGAAATTTGGAATGAAGAAAAATTGCTTGAATATTTAAAGTGATTTATAAAAAAGAATAAGGGGTTGGCACGCATTTACTATGCGTGTCTTCTTAATTAAGAAAAATACTATAATAGTATTTATGCTATAATTAATATAGTTTTGACAAATATAAACAGTAATGCTAGAATAAAAAGCATTAAAAGAAAGCTTATGGAGGTAAAAATGGACATAAAACTATTAGAAAAATTAAAACTAGATTTAAAAGAAGCTATTAACAAAAAAGATGTAGCTAAAATTGAGGAAATAAGTAAAATACTAAATATTTCTGAAGAACAGAAAAGGTATTTTGATAAAGGCTTAACAGGATACTCATCAATAGATGAACCGTGGATGAGAAACTATCAACCGGGTGCTAGAGAAATAGCTGAAAGTATTGATAGAACCAAATCAATATCTGATACTATTATAGATAAATTTGATGAACAAAAAGAAATACCAGCTTTAAAATATTTTAATTCAACACTAAGTAGAGATGATTTTAAATTACTAATAGAAAAATGGGCCAAAGCTTTTAGAGAAATAGGAGTAGAAGCCGATGAAGTAGTACCAATTTATGGAACTTTCTTTCCAGATGTATGTGCTATGATTTTAGCGTTAAATCAAATAGGTGCAGTTTCTTATTCCTTAAAACTAACAGAGACTAAAGAAGACTTTGAAAGAGAGACATCTGAGTCAAAGGTAGCTATTGTATATGATGGAATGTGGAATAACGTAAAAGATGTATTTAGTGATGACAGATTTAAATATGTTATCTCTGTAAGTGCTGCTGATGGAGTTTTACCACCATTAAAACAAGTTGTTAAATTTAAAAGTCATCTAGAGGCAGTTAAAAACAAGTCTAAAATGCCTTCGTCTAAGAAGTTTTTACATTCAAAAGACATGATGGAAATGGCAGATGCTTATAGTGGAAAGTATAAAGAAGAATTTAAAAAAGAAAGAACAGCATTTATTACAAGTAGTAGTGGTTCTACTATAGATGGCCAGGTTAAGGGGATAATGACAACAAATGAGGCGGCAGTTACACAGCTTGGGAAATGTGTAGCAGCAGAAATGCCATTCAATTATGGAGAAAACGTTCTTACCAACATGCCACCTACGGCATCAACAGCTTTGTTTTGTTTGTACCTTTTACCATTATATAAAGGTATGACAATAATTGATGATCCAAGATTGAACGAGAATACATTTTATTCACAAGTCCTACATTATAAACCACAAGTTGCAATTATGACGGGAAGCTTTTGGAAGAAGTTTTTCAGTCAGTTGAAAGAAGATGCCCAAAAAAAGGGAATACCAAACTTGGACTTTTTACGATTCCCAGGAATTGGTGGAGAAGGAATTACACCGAGGGAATTAGAGTCTATGGATCAAATCCTAAAGTTTTGTGGCTCACCGGTTTCTATCTTTAATGGATATGGTATGTCTGAATTCTTTTCTATTTATTCAGTTGATAAAGAGGATGTTAAATCCAAAAGAAATAGATTAAAACCAACTATAAGTGTTGGATTGCCTTTACCAAATGTAAGAGCAGGAATTTTTGATGAAAAAGGAAATGAGCTTGGATATAATGAGCGTGGTGAATTATACATGGGTGATGATACTGTAGTAATGAAAGGATATTATAACAAACCCGAATTAACTGCAGAAGCTTTACAAGATGATTGGCTTCATACCGGTGATATGGCTGAAATAGATGAAGAAGGATATTTATATGTTTATGGTAGAAAAAAAGATAAAACAACTTTAGTCAACGGAAAGGAAGTATATCTTTTTGATATAGCAAATAAAATAAGAGAAGACACCAACATATTAGATGTAGTAGTTTTTTCAGTACCACTAGTGGATAAAACAAATGCATTATTAGCTCATATTATATTTGAACCAAATTTCTATGGTGATAAAAACAACGAGTTAGAATCAATTGACAAATACTTAGAAGCGTCTTTTGAAGGTAACGTTAAAATAGATGGATATAAAGAACATGAAAAAGCATTTACAATTTCTCCTACAACTGCCAAAATGGATAGAAACAGCATGTATCACGATAGAGATAATTATGTAAAAGTGATTGATGGAAAAGAGTATAGAGTTGATTTACAAGAAACAGAATTTGGTGCAGTCAAAGAGATGGCAAAGAAAGAAGAAAAAGTATTAAAAAAGCGAATGTAAAATTTGCTTTTTTTGTGTTATAATAGATTAAGGTAGGTGGCTTGTATGTGGAATATTTTATTCTTATTTCAAGGATTACTTTATATTTGCTTATTATTAATAGTATTTAAATCCAAAAAGAGAATTGAATCCGAAGAAAATAAGATATTTAGAATTATGACAGTAGAGATTATAATAACCTTTATTATTGAAATTCTTCTTCAAATATCTTTTAGAAATATAGGCGTTGATAGTCCGTTAACAGTCATTTTGGGAAGAATATACTTAGTTGGATTATATATATGGTTCTGCTATTTAACAATATACACATACTACATAGCCAGAGCAAAAGATAAAGAAGAAACAGGGGCGAAAAACTATAAAATTTTTAAAAGTATAATATATATAGTTATGATTATAGGGACCATATTATATTTGACACTTCCAATGTATCTAACGCACGAAGGAGATATTAATTATAGCTATGGTCCAGCAGTTACATTATTGAAAGTATCTATAGGAACAGGTACAGTAATTTGGTTGATATTATTAATACTTAATAGAAGTAGATTCAAAAAACAATTTGTGCCTATCTATACAACAATGATGATGCTTATTGTAAACGTTATTCTACAAACTATTAATCCATCAATTCTAATTGCTACTGCTACATTTGGTTTTACACTATACATCATGTTCTTTACAATAGAAAATCCAGATTTGAAAATGTTACATGAAACAGAAGCAGCTAAGATTCATGCTGAAAAAGCAAATAGAGCTAAGAGTGATTTCTTATCTTCAATGTCACATGAGATTAAAACCCCATTAAATGCTATTATTGGGTTCTCTGAAGATATAAGAGATTATATTGATAGTGGTGATACAGCGCGTATTAAAGAGGATTCTGAACTCATTCTTGCTTCATCAGAAACACTATTAGAAATAGTTGGTAATATTCTTGATATTAGTAAAATTGAAAGTGAAAAAATGGATATTGTTGAAGGAACATATAATCCTAAAGAAGAAATAGAAAAATTAACAAAAATAACATCTACTAAAATTGGAGATAAACCAATTAAGTTTAATCTACATATTGCCGAAGATATTCCGTATGAACTTATGGGCGATTCTGGCAAAGTTAAACAGATAATAAACAACTTATTAACTAATGCCATTAAGTACACTGATCAAGGTGAAATAAATTTAAGAATAGATTGTATCAATCAGAATAATATTTCTTTATTAAAAGTATCTTGTCAAGATACTGGTCGTGGAATCAAGAAAGAAAATGTTGAGAAACTATTTACTAAGTTTGAACGTCTTGATGCTGAAAAAAATTCTACTACTGAAGGTACTGGTTTAGGACTTGCTATTACGAAAAATTTAGTTGAAATGATGGGTGGTAATATTAATGTTTCCTCTCAATTTGGTAAGGGGTCAATATTCGTTGCCCAAATACCACAGAGAATAAAGACTTTACATACTCCAGTTAGTCAAGAAACGCCTAATGTACCAGCAACACCTTCAAAAAGACAAGAAAAAATAGACGGTAAAATATTAGTAGTAGATGATAATAACTTAAATATTGTTGTGGCTAAGAAAGCTTTAGAAGAACTTATTGATAATATTGATACAGCTCTTAGCGGACAGGAATGTTTAGATAAAATTAATAATGGTGAAAAATATGATCTTATCTTAATGGATATTATGATGCCTGAGATGAGTGGAGAGACAACCTTTACTAAATTAAGAGAAATTGAAGGATTTAATACTCCTGTTATCGCAGTTACTGCTGATACTGAAGCTGGTTCTAAGGAAAAGTACATATCAGAAGGATTTATTGATTATGTAGCAAAACCATTTAAAAAAGAAGAAATTAAAACTTATTTAGAAAAGTATTTAAATAAGAAAGAAACAGAAGTAAAAGAAGAAATAGAAACACTGTAAAAGTGTTTCTTTTTTTTGGTATTTATGATAAAATAATAACGAAAAAGAGGTGGTATTATGCCTAGTGGTTTTTATGGAGATACACACAAGAAGAAGACAAGTAAAAAGAAGGCTGCAACTAAGCCTAAAAAAGTGAATACTAACGTACCTAAATTAGAAAAAGTTAAGAAAGTAAAGACTTCAAAGAAAAAAGAAAAGGGTCCTAAGAAAATAGTTAATATTATCTGCTTAGTTATTGTTGCCTTAGTAGTTTTATCTGCTATTGACTATGTTTTAGTATCTAAATATGAAAAAGGACCATTCTTTGCTATTAAGACGAAGACTCATTCTGATGGTGGTACTAAAGAATACTATGGTTTGTTCTATAAAGTTATTAAATATGATCAGAGTATTGGTCGTAAAGACATGGAAGTAGGTAGCTGGGGATTAAAATACTATGTAGAGCCAATTGATTATTCAACTCTAGATTTAGCTCTAGATCTTAACAACAAGCCTAAAGAAACATATAAGAAAATATCTAAGAAATTTATGCGAATTAGTGGAGAAGTTTTAGAGGGTAACGATCTCAATAACGAACTTACTTTACACTATAAAGATCCTGATGGTGACTATACTTTAAACATAGTATGTAAAATGTGGTCATCTAATGCCTTAGTAAGTGATTATATTAAAGGTGATAATGTTACTGTTTTAGGTACAGTTACTAAATTTGAAATGAAGAGTAAAAGGAAACCTAATACCTTAACTCTAAAGAATTGTTTTGGATCTTAAAAATAATTGAAAATAACCTCCAAGAGGTTATTTTTTGTGGTATAATAATGATAGCTAAAAAGGGAGGTTATTATGGATAAATTAACCGAAGAAGAAGTAATGCATGTCGCTAAACTAGCGCGGATTGAAATAAGTAAAGAAGAATTAGAAAAATACCAAGTTAGTTTAAAGAAAATATTTGCTGAAATTGAAAAAATTAAAGAAATTGAAATCGAAGGGGATATATTGATTAGTCCTACTTCTTCAGTGTGCCCTTTAGAAAGTATTACTGACTCTATTAGTAACCCCAAAGAAATACTAGCTAATGCCAATGATACTAGTGGCAACTATATTAAAGTTCCGGTGGTGATTGATCATGAGTAAGTATTTAGATTTGAATATTAAAGAAATAAATGAACTTCTAAAGAAAAAAGAGATTAAAGTTAGTGATTTAGTTAAAGAAGCTATTGAGAGAATTGAAAATAGTGATTTAAATGCTTTTATTACTCTTTGTAAAGAAGAAGCTTTAAAGAAAGCTGAAGAATTAGATGATAAAGAAGTTGATAATTTACTTTTTGGTATACCTATTGCTATTAAAGACAATATCGTTACTAAAAATATTAAAACTACTGCTGGTTCTTTGATGCTTAATAATTTCAATCCTACTTATAATGCTGATGTTGTAGAACTAATTAATGAAAAGAATATGGTTATTATTGGTAAAACCAATATGGATGAATTTGCTATGGGTTCTTCTAATCAGACTTCATACTTTGGACCAGTTAAGAATCCTTGGAATAAAACTAAAGTACCAGGTGGATCATCTGGAGGTAATGCTGCTTGTATATCTTCTCGTTTAGTACCTTTTGCTTTAGGTAGTGATACAGGAGGATCTATTAGACAGCCATCAGCTTTTTGTGGTACTGTTGGCTTAAAGCCTACTTATGGAAGAGTATCTCGTTATGGTCTAATTGCTTTTGCTTCTAGCTTAGATCAAATTGGACCAATGACTAGAAATGTTTATGAGAATGCTTTATTATTAAATGCTATTTGTAAGAAAAGTAAAAATGATTTAACTAGTAGTGATACCAATGAAGACTTTACAAGATTAATTGGTGAAGATATTAAAGGTATGAAAATAGGTATTCCTAAATTCTATATTAGTGATGTCATTGATAAAGATATTTTAGATAAGTTTAAGGAAATAGTTTCTCTTTTAGAAGAAAAAGGAGCTACTATAGATTATGTTGATATTGACTATATCGATAAATGTGTACCTTTGTATCAAATTATTGCTTTAGGAGAAGCATCTTCTAATTTAGCTCGTTTTGATGGTATTAGATATGGATATGCTGCTAAAGATATTGATAATATTGATGATTTATATTATAAAACTAGAAGCCAAGGCTTTGGTGAAGAAGTAAAAAGAAGAATTATGGTAGGTAGTTATCTTTTGAGTGGTGAAAATGTTGATGTTTATTACAACAATGCTTTAAGAATAAGAAATGCTATGCGTAATTCCTTCTTAGATAAATTTAATAGTTATGATCTTTTAATTGGACCAACTACAACTACGGTAGCCTATGATTTAAATAGTGATTTAGATGATCCTAATAAATCTTTTATGGATGATGTTTTAACTATTCCTGTTAATATGGCAGGACTTCCAGCTATGAGCTTACCAATTGGTTTTAGTAACGATCTTCCTATTGGAATGCAGATAATTGGTAAACCAGAAGATGAGGCTCTTATCTATAAATTGGGTAGTTTTATTGAAAAAGAATTATCCTTAGACTTAGATCCAAGAGGTGATAAAGATGAATAATTATTTAAAAACTATTGGATTAGAAGTTCATTTAGAGCTAAAGAGTAAAAATAAAATTTTCTCATCTAGTATTAATGGCTTTGGTAGTAGTGCCAATACTTTGATTAATGAAATAGATTTGGGTTATCCAGGGGTTTTACCAATTATGAATGAAGAAGTAATTAATCTTGGTATTAAAGCGGCTATTATCTTAAATTGTAAAATTAATAAAAAGATGCATTTTGATCGTAAGAATTATTTCTATCCCGATCTTCCTAAAGGTTATCAGATAACTCAGAGCAGAACACCTATTGGTTATGATGGTTATGTTGAAATAGAGCGAGATGGAGAAGTAAAAAGAATTGAAATTAGTGATATTCATTTAGAAGAAGATACTGCTAAGAGTACGCATCGTCAAAATGAAAGCCTTTTGGATTTCAATAGAGCAGGAGTTCCTCTTTTAGAGATTGTTACTAAAGCTTGTATTGATGATCCAATTGATGCCAAACTTTATCTAGAAAAACTAAAGGAATTAATGCTTTATGCTGATATATCAGACTGTAAAATGGAAGAAGGATCAATGAGATGTGATGCAAATATATCAGTACGTAAAAAAGAACAAGATAAATTAAACGAAAAGATTGAAATTAAAAATATTGGTTCTATTTCTAATGTTGTTTTAGCTTTAGAACAATGTGCTAAAGAACAAATTGAAATGTATGAAAACAACGAAAGTATTAGAGCTCAAACCCGTAGATTTGATGATAAATTAAACAAGACAGTTTTAATGCGTTATAAAGAAACAGTTAATGATTATCGTTATTTTCCTGAACCAGATATTCCTTATGTTTATCTTGATGATGAAAGAATTGAAAGTATTAAAAAAGATATTCCTTTACTACCAGATGAGTTACGAAGGATTTATCATGAAAAGGGGTTAAATGACATAAGTAGTAATAAACTAATCAACAATTTATCTCTGTCAAAATTCTTTAATAGTTTCCTTGATGAAGAAATAGATCTAGTGACGGCTTCTAATTTATTATTAGGTGATATTGCTTCCTATTTAAACAAATTAGAAATAACTATTGCTGATACTAAACTTACTAAAGATAAATTTATTTCCTTAGTAAATAAAGTTTCTGATAATAGTCTAACTAGTAGAAATGTTAAAGATATTTTAGAAGATGTCTTAGAAAAAGATCTTTCATTAGAAGAAATAATTAAAGAAAAAGGTATTGCTAATATCACTGATAGTAATGAATTAAGTGATTTGGTTGATCAAGTAATTTCTGCAAATGAAGCTAGTGTTACGGATTATTTAAATGGTCATGACAGGGCTCTTAAATACTTGATGGGTCAGATTATGAAGGCCTCACAGGGTAAGGCTAATCCAGCGATGGTTAATAAAATTTTAATTGAAAAGTTACAATTGAAAAAGAAGAATAACTAGTGTATAATAATCTATAATAGAGGAGTTGAAAAAATGGAATATATAAAAGCTCATAAATTTATGGTGGTTGCTTTAATAGTATTAGTATTATTGTTAATCATGATAGTTCAATTAAAGAATATTTTCTTACCTAAGCAAGCTAGTGGTGCTGCTTATGGAGATCGTTTAGCAGGTATTAAAAAAGTAAAAATCAATAATGATTTAAAAGACAGTATTAAGTCTAAATTAGAAAGTGACGGTATGGTTAAAAAAGCTGTTGTAAGAACTCAAGGACGGATTCTTAGAGTAACTGTTACTGTTGAAGATAGTGTTTTAGCTAATGACGCTAAGAGTTTAGCTGATATTGTTAAGAATAAGATATCTAGTAAACAGAATAAATATTTTGATACAGAAATTATCATTAAGAAAGATGCTAATGATGCTAGTTTCCCTATTATAGGTTACAAGCAACATACTAAAGATAACTTTTCTTGGACAAAAGATAGGTGATAGTATATGAAGAAAAAGTATATTATTATTCCCTTAATAATCGCTTTAATAGCGTTTATTTTGGCTTATAGATATTACAATAAAGAGGATGCTAAAACAACTCTTACTATTAATGAAAAGCATTGGGTAGAAGAAAATGTTGATAAGACTATTGACTTTGAAATCGTTAATAATTATCCTCTTTACGGAATGAATGGTGCTGGTGTCTTATTTGATTTTGTCAAGGATTTTGAAAAGACTGTAGGTATTGAATTTAACAAGATTCCTTATTTAAAAGAGACTAAACCAACTACTGATTCATATCGAATTAGAATCTTAGATAATAATCAGAAAATGACTGATAAAGATCTTTTAATCTTCCAAGATGGATATGTGGCTATTGGTAAAAAATATGTCCGTATTTCTCATATCGATGATTTAAAGAATCTTACTTTCGGTGTGTTTAAAAATGATTTAGAAGACATTAGTTATTATTTAAAAAGTGCTTCTAATATTTCCTATAAGAGTTACGATACTATTGAAGACATATATAAAGCTCTAGATAGTGACGAAGTTAATATGGTTATTGTTCCTAATATTATGTATCTAAATTATACTATTAGTAGTGACAAGTACTTTATTAATTATTATTTTACTGAACTTACTAAAAATGTTGTTTTAACTTTAGGAAATGATCCTGAATTAAATAATATTGTTAAGAAATACTATAGTAAATGGAAAGATACTAACTATATTGAATATTACAATGATACTTACTTTAATTATTATATTAAAGAGAATAAGATTGGTTCTAGAGATCGTGATAAACTAGTATCTAAAAACTATATCTATGGTTATATTGAAAATACTCCTTATGAAAAAAAATCTAAGAAGAAGGTATCTGGTATTGCTGGTGAATATATTGATCGTATAGCACGCCTTACAGATATTACTTTTGAATATAAGAAATATAAAAATATTGATGAATTAAAGAAAGCTATTGATAACAAACAAGTAGATATTTATTTTGATTATTATAACTTACCAACCAAAGACTATTTAGCGACTAATTCTACTTTTATTGAAGATTATGTTGTAATTAGTAGAAATAAAACTGGTAATGTTGTAAGTTCATTAGAATCATTAAAAGATAAAGATGTTTATTTATTAAAAGATAATGCTTTATATAATTATTTTAAGAATAATTCTAAAGCTAATTTAAAACCTTGTAAAAACATCAATAATTTATTATCTAAAGCTGATGATAATATTATTGTTCTTGATCGAGAAGTATATGATTATTATGCTAAGAAGAAATTTTCTAAATATAGTCTTTTATATACTGATACTATGATGAACGACTATAAATTCATGATTAAAAAGAACAATAAAGAATTTTATGATTTATTCAATTATATAATTGGTACTAATTATTACTATAATTATCGTAATAGTGGTATTGATAGTTTTAATTATTTTTTAGTTTTTATAATTTTATTAAATTTTTAATTATATTTCTATACTTTTTTAATACACTGTTTTTAATTTTATAATTAAATTTTTTTAATATAA
>sequence06
GGAAGTTCTCGGAATTGAGGTTTCAAAGTGCCATGTGGGAGTGGTAAGAAATATAAGCAATGTTGTGGTAAATAGCTCACAAACACCGATAAAATAAGGGGAAAAGCGAGTTTTTCTTTTTAGCAAAAAAAAGCCCAAAATTGGCTTTAGAACCATTTTAGAACCATTTTGTACATAGAATTGAATCATAAAATAGTAATATTCCGAACAAGCAAGTAAGTGAAAAAATAGTAAAAATTTGTGATATAATGAATATAGAGGTGTGAGTATGAATGAGTACATTAATTTAGATGAAAAGAATATTGATGAAGAGCATATTTGTTGTGCTATAGGAGATCCTAAACATCAAGATGGTGTAGATAAAAAGAAAGAATGGATTAAGAGTAAATTAAAAGATGGACATGTATTTAGAAAACTAAATGCAAGAGGTAAAATCTTTATTGAGTATGAGCCAATAGAAACAGCATGGGTTCCTATTAACGGTAAAAACTATATGCATATTTATTGTTTATGGGTAGCAGGTAGTTTTAAAGGAAAAGGTATTGGTAAAGAATTATTAGAATATGCTATTGAAGATGCCAAGAAGAAAAAAATGAGTGGTGTTTGTACTTTGGTATCACAAAAGAAGAAACCATTTATTGGAGATAAGAAGTTCTTTGAACATTATGGATTTAAAGTTGTTGATACTATAAATGATTATGAATTAATGGCATTACAATTTGATGATAAAGAAACACCAAAGTTTAGTGATAGTGCTAGAAAAATGGAAATTGATAGTCAAGACTTTACTATTTACTATTCTAATGAATGCCCTTATGTAGAATATGAAGTAAAAGAATTATCTGATTATGCAAAAGATAAAGGGATCAAATTAAATTTTGTAAAAATAGATTCATTAGAAAAAGCTAAAAATACTCCATGTGTATTTAATAACTGGGCTAACTTTTATAAAGGTAAGTTTGTTTCAAATACAATCTTAAATGCAAATGCTTTTGAAAAGTTATTAAAATAGATTATTAGATACTTTTTTAGATAACCATATTTTCTAAAAAGCGAAAAATCTCGCACTATATATGCAAAATGAGGCACTGATTAAGAAGATTATGACAGAAAATATGCAATTAAATTCCATGTGGCAGTGGCAAGAAGTATAAGCAATGTTGTGGTAAATAACTCGTAAAGACCCATGAATAAAGGGAAAATACGAGTTTTTCTTTTCTGAAAATACTCAAAAATAGACTTTAGATCATCATATTTTTAAAAGGTAAAATAAGAGAACATATAATTTGTAAAATAGTGACCTTACGAGGCTTTACTTTAGTATAAAACAGGTATATAATTAAGTATGAAAAGTATAACCAGTTATACATAAGGAGGTATATATGAAAGATAAGTTTGTAGGTATTGCTAAAGTTGGTGAAAAAGGACAAATAGTAATACCAAAAGAAGCAAGGGATATGTTTGATATTAAATCAGGTGATTCTATAATTGTACTTTGTGATAAAGAAAAAGGAATTGCTTTATTAAAAGCAGATGCAATTGAAGATTTGTCTGATAAAGTATTTCCAAAAGGAGAAAAGAAATAATGACAGCTATAGAAGCCAAAAAATTAACTAAAAGATTTAAAGATAAAGTAGCTGTAAATGAAATTAATTTAGATATTAAACAAGGTGAATTATTTGCCCTTTTAGGAGTAAATGGTGCTGGGAAAACTACAACCATTAAAATGTTATCTGGTCTAATTCTTCCAACTTCCGGTGAAATAATAATAGAGAATATGAACATGAAAAGAGAAGCATTTAAAATAAAACAAATCTTAAATGTATCACCACAAGAGACCGCTATTGCTCCGAATCTAACTGTAAAAGAAAATTTAGAATTTATGGCTGGAGTTTATCAGATAGAAGATAAAGATAAAAAGATTAATGAACTTGTTAAGGGGTTTAAACTTGATGAAGTATTAAATAAAAAAGCCAAAACTTTATCAGGTGGTTGGCAGAGAAAAGTATCTATAGCAATAAGCCTGATAAACAATCCAAAGATATTGTTTTTAGATGAACCTACATTGGGATTAGATGTTATAGCAAGAAAAGAATTATGGAAAGTTATTAATTCATTAAAAGGTAAAATAACAATTATTTTAACAACGCATTATATGGAAGAAGCAGAAAGTTTATCAGATAGAATTGGTATAATGGCAAATGGTAATATTGTTGAAGTTGGAACCTCTAAAGAATTAATCAAAAAAACTAAAGCTAAAAACTTTGAAGATGCTTTTGTATCAATCGCAACTGGAGGTGAGCTATAATGAGAATGTTAAATTTTGCTAAAAGAAATTTTAAAGAATTAATTAGGGATCCTCTAAGTTTAATATTTGAAATTGCCTTGCCGTTATTCTTATTATTTATATTCCAACAATTTAATATAGATGCAGATAATTATAGGTTAGAAAATTTTACTCCATCAATTATATTATTTGGCTTTTCATTTATAACACTATTTACGGCCACTTTAATTGCAAAGGATAGAACTTCATCATTTTTGATTAGACTTGGAACATCTCCAATGAAATCTAGTGATTATATTTTGGGATATATATTATCATTATTACCAATAGTTCTAATTCAAAATGTTTTATTCTTTTTAACTGCGGTTGCTATGGGATTAGAATTCAGTATGAGCATAATACCAACTATATTAGTATCTATGATTATTTCTATATTCTTTATATCACTAGGAATATTAATAGGTAGTTTAGTTAGTGAAAAAGGAACTGGTGGTTTAGGAAGTATTATTGTTCAATTAGTATGCTTTACGAGTGGTATGTATTTTCCTAAAGAATTAGTAGGTGGAGTATTTGAAATTATATGTAAATTATTACCATTTGAAGCTTGTTTAAATATAATTCAAGGAACACTACATAATGATTTTAGTAATTTAACACTTATTCATATAATAGTATTTTTAATCTATTTTATAGCTGTTATATTATTATCAATAGTTGTATTTAAGAAAAGAATGATTAGTGATAATAAATAATCGCAATATTAAAATGTATAGAACGGATGGAAATCCGTTTTTGTGTGATATAATGGATATAGATTAGGAGGAATATAATGAGCAAAGTTTTAGTTAGTTATTTTTCAGCAAGTGGAACAACAAAAAGAGTTGCAGAAAAAGTTGCAGCTGCTGTAAATGGTGATTTATTTGAAATTGAACCAAAGGAAAAATATACAAAAGAAGATTTAGATTGGATGAATAAACAAAGTAGATCTTCAGTTGAAATGAATGAAAATATTAAACCAGAGATAGCAAACAAAGTATCCAATTTGGATGAATATGATACTGTTTGTTTAGCTTTTCCAATTTGGTGGTATAAGGAACCAACAATTATAGATAAGTTTTTAGAAGAGAACAATATGGAAGGTAAAAACATCTACGTGTTTGTAACAAGTGGATCATCACCTATTGACTCTACTTATAAAAGCTTACATGATAATTTTCCAAATTTAAACTTTGTTAGTGGCAAAAGATTTACTGGTGATGAATCAGAAGAAGATTATAAATCTTGGTTAGTGTAGGTAGAATATGAACAAGCACTAAAACTTTAAAAAAGAGCGGAAAACAGTCTGCTCTTTTTTGTAATAAATAAAGTTCAGCCACTGTACACTTTTTGACATCGATATGCCAAAACTTTTGTCACAAAGTTTACATTTTTGATACAATAAAAATAAGGAGAAGGCCGGTAAAAGGAATTATACTATTTTATCTTTGAGGTGTTGTATATGAAAAAAACAATTAAGAGAAAGAAAAAACTAATCTTACCTAGAGTGTTTACCCTAGTATTTATGGCTATGTTTGCTGTATCATTAATCATGAGCATTAAGGTCTTAGCAGCTAATACTGATTTAAAAATAGTTGGTGCTGCTGTTACTGAAAAGTCAGCAAACGTTAATGCCAATATTACAGGTGTTAGTAACAATGAAGTAAAGGGTAATGTCTTATTTCATAAACTATATGATAGTGTTACCTATAAACTAGACATTAAAAACAATCTAGACAAAGAAATAACAATTATAACTATCGATGATAATAATAGTAATCCTTATATAGAGTACCGATATGATAAACACGAAGGTGAAAAACTAGGTGCTGGTAAAAAAATAGCTTTCTATACAAAAGCAATATATAGTAAAGAACTTACAGATATAACTAAAAGAAATCAACCTACAAAAGTTAAATTTACTATTAAGTATTCTGAAGACGGAAATAAAAGAGAAGACGATATAATTATCAATCCTAAAACTAATGATAATCTTCATATGAGTCTTATTATGTTACTTATATCTTCAATTGGATTAGTAGCATGTTTAACATTGGATAAAAACAGAAAAAATAAGAAAGTAGCTAAAATACTTACTGTAGTTATGGCTGGTGTAATACTAACACCAATTATAGCTAAAGCAGTAACATATGCCTATGAATTTGAAATAGTAGCTAAATATGGACTATATGACAAAGAAGTAGTTACTTATGTGGTTGATGATGAAGAAAACGCTTTAATAGCTGAATATGGTCAACCAGTAACAGGATTAGTAACTCCAACTAAAGAAGGTTATACTTTTACTAAATGGACCTATGAGGATGGAAGTGATTTTGATCCTGCTACACCAATAACTAAAGATATTAAGATAATTGCTAACTTTGCTGTTGATGGCTATACAATTACTTATGATTTAAACGGAGGTACAACGGCAACCGAGAATCCAACTATATATAAACCTACCGATAGAATAGAATTAGTAAATCCAACTAAAGATCATTATACCTTTATTGGTTGGACTGGTACTGATTTAACTGAACCAACTATGACTGTTATAATTGAAAATCAAACTGGTAATAGAAGTTATGTAGCTAACTATATACCAGTAAACTATACAATTACTTATGAGGGATTAACTAACGAAGAAAAGAGTGCTTTAAATAATCCTAGTGAATATAATATTGAAACAACTCCATTTAATTTAAATAATCCAGAAAACAGAAGAGATTCAGATGACGATGTTACTGAAATATTTGTTGGTTGGAGAGAAGGTACAACAACTTCAGAAACAATAACTTTACCAAATTTAAATTCAATGGGTAATAAAACATTTGAAGCAGTATGGGTAGAAGCAGATCCAACAATTTATACAATTACTTATGAATTACATGATGGAACAACTACTGTTGATAATCCAACATCATTTACTAAAAAGACTGAAACCTTTACTTTGGTAAATCCAACTAAGGAAGGATATGAATTTAAAGGATGGTCTGGTACTGATCTAATCGGTGATGAAAATAAAGTAGTAAGTGTTGTTAAAGGAACTAGAAAGAATTTATCTTTCGAAGCACATTATACTGCTAATAATTATCAAATTAAATTTGAAAAGAATGGTACTAATGTATCTGGTACTATGGCAAATCAAAATATGACTTATGATCAAGGTGCCAACTTAACTGCAGTAGGATATACAAGAGAAGGATATACCTTCAATGGATGGAATACTTCTGCTACTGGTTCAGGAACTCATTATGATGATCAAGAAGAGATTATTAATCTAACTTCTACTAAAGATGAAGTTGTATCTCTATATGCTGAATGGGTAGCAAATACATATACAATTACCTTTAATGGTAATCCTCCATTAGGAAGTACTGTTACAGGTGATATGGAAGATGTAGATATGACTTATGATATTCCTAAGACATTACCTCTTAATTTATATAGTGTAGTAGGGTATTCATTTGATTCATGGAATACTAAAGCTGATGGTTCGGGAACCTCAATTGCTAATGGCGCTGAAGTAGATAATTTAGCTACTACAGGAACTGTTACTTTATATGCTACTTGGGCACCTAGAACAGACACACCATATAAAGTTATTCACAAGCAAATGAATTTAGATGGTGAAACTTATACTGAAGTTGTTAAAGATAGACAAGAATTAACTGGTACAACAAACGCTTCTGTAACCCCAGCAACAAAGACATATACTGGCTTTACTGCACCAAGTCCACAGACAGTTACTATCGCACCAGATGGTAGTACAGAAGTAGTGTACTTATATAGTAGAAATAAATATGATTTAACTATTGAAGATCCTCAATATGTAGTAGAAGATAAATCTGGTGAATATTTCTATGAATCAGAGGTTTCACTAACTGCTAAAGATCGTGAAGATTATAAATTCACTGGTTGGTCTAATGGTGAAACTACTAAGACTATTACTTTAACTATTGAAGAAGATACTACAATTAAACCTCTTTATGAAATAAATATTTATATGATTACTTTAGATCCAAATGAAGGAACTGTTAGTCCAACACAGATTAAAGTAACTAAAGGTGAGGCAGTAGGAACCTTACCAACTCCAACTAGAGATGGTTATGACTTTGATGGTTGGTATACAAATAAACAATGGACTACTAAAGTAACTCCAGCAACTGTTCCAACTGGTAATGACACTTACTATGCTAAGTGGGAAGAACACGAAGAAGTAATCCCATTATGTAAGAAGGCTACTGCTCTTCATACTACAACTTGTCCTTCAACAGCTGGATGTAAGAATGCTGGATATAGTGAAGAAGGATCAAAAGGAACAACAACTGTTACATTTGGTACCATACCACACGTTGATTATGTGGCAGGAAATGCCTTTGATTGTGATATGAATGGTGATGGTGTATATGATCCTGAAACTGAAAGATTCTATTATTTAATTACTAATAGTAATGATAACGCTGTATTAATTTCTCATACAAACTATGAGGGAGAGGCTGGACAAGTAATTACTGATAACTTTAGTTATTCAGTAGCACTAACTAAATTACCAACTACAGCTGCAAATCAATGGAGTAATGCTAAAGTAACATTTAAAAACCCAATAGATAGTAGTGATACTAATACTTATGCAGCTAGATTCGTTACTTATGATGAATTAAGAGAAATAACTGGTAAAAACAATTTAACTGGACAGGGTAGTTTCGATGATTATCCATATTTGATGGAAAATTCACAATTCGTTGGTGTCGGTAGAAGTGGTATTTGGATGGCTCCAGAAACAACTACTGATGCAACTACATATTACCGAATTCATACCGGAGTATCAAACAGAAACGTAAATAGTGTTAATGGTTCTTCATCAAATAATGTTGCTAGACCAGTTATTGAAGTGCCTTTAGAGTACATGGAATCTTCTAAAGGAACTGTTCATACAATTACTTTCGAAACCAATGGTGGTACTGCTATAGATCCACTTGAAATTGAAGAAGGGGAGCCTATAGGTGAATTCCCAACTACTACTAGAAACGGCTATGAGTTTGCTGGTTGGTTCTATGAACCAGAATTTGTTACAGAAGTTCAAACAACAGATACATTTAATAAAGACACTAAATTATATGCTAAATGGAACTTTACTGCTGTTGCTAAAATAAATGATACTTATTATAGCTCTTTAGAAAGTGCTATAGCGGATGTTCCAGATACTGGAGAAGAAACAGTTATAAAATTATTAACAAATACTAGCGCGAATGCCACTGTTGCTGCTACTAAATATATTGTATTAGACTTACAAAACTATAATCTTTCTAATTCAACAAAATCACCTGTGCTAACAAATAATGGTTATCTTGTTATTAAGAATGGAACAATTAGTACTGATTCTGCTGCAGCTGGTGCTGTTGATAATGGTTCAGATGGAACGATGGAAATCAGGGATGCTACTATTATCTCTACGGGAGATAAACAAGCCTTATATAACAACGGTGGAACTGCTGAAATATTTGGTGATTCTTATTTAAGTAACTCCGGAAATCTTAGAGCGGCTGTTCATAACTTAAATGATGGTACAATAATTATAAATAGTGGAACAATAATATCTACTGCTCATAATGCTGTTTATAATGAAGCTGGAACATTAACAATAGGTGAACATGATGGTGTAATCGATACTACCAATCCTGTTATCCAAGGATATAAATCAGGTCTGTCTATCGCAACTGGTCAAACCTTTAATTTCTATGATGGTATTATTAAGGGTAAGAATAGTGCTATAGATGTACCAAGTGCTCTAGATGGAAAAGAAGCGGGTTCTGAAATAAAGAATGGTACTGAAGTAATAGGTGGTGTTACTTATCAAACAGCTATCATGTTTATGGAATCTAGTAAGTATAAAATAACTTTTGATGCTGATGGTGGTACTGTGTCACCAGAATATATAACTATTAATATTGGAGATCCAGTAGGAACTCTTCCTGTTCCTTCTAAAGGTGTATATACCTTTGATGGTTGGTTTACTGAAAAAGAGGGAGGAGAAGAAGTAGACAGTACTTATACTCCTGAAGGAAGTATGACTATTTATGCTCACTATCACTATGAAGGATCAGACGACATAGTAAACTTCAACATGACTAATGATGTCATGAAGACTTATTATAGTAGTCTAGGAGCTTGGCTAAGTGATACAGATAATTTCCAAACTAATATGGATACTAACTTTAATAATTATAATTGTTCAGAATGTACAGGCCCTAATTATCAAGCGTGCCCAACGCCAGCTGCTGGAAAGACTCTATGTGATCAATCAGTTGGATATGCGACAGGAGTAAGTACTATAAATGTTTATGAATCAGATGAAACTACTAAGGAAAAAGGTCCTTTAGTTACTTATACTACTGTCAAAGAAGGAACCATTTATAATATGATTCCAGGAGAAACATATTATTGGGAAGATACTGAAGATTCTGATGTTCATGGTTATGTTAAAGTAAGTGGTAATAGAAGAACAATTGCTTCTAATGTTCGTAATGTTCGTGATTTAGGAGGATTAGAAGTAGATCCTAATAATGATGGGGTAGTTGATGGTACTATTAAATATGGAAAACTATTTAGAGGTGCCAAACTATCTAGTAGTGCTAGTGATGTTGCTGAATTACAAAAACTAGGTATTACTGAAGAAGTTGACTTAAGAGGATCTTCTGGTGATGCTAAGTTTAGTAATTATAAAGGACGTAGTATTACTAATTATTTAATCTATTATGATACTTATAATACCAATTACTTAGTATTTAGACAGGCATTAACTGATACTATGCAAGAAGTAATAAATGGTGAAAATATTTATTTCCACTGTGCAATTGGTACTGATAGAACTGGTACTATGGCTTATTTCTTAGAAGGATTACTTGGTGTTGATGAAGAAGATAGAGTAGAAGACTATGAACTATCATACTTTACTGGATTATTAAATCGTCATCGTTTCCATGATTATTTGAGTGGTTCAAGTATTAATCCAAGGTTTACTACTATGCATAATACTTATAAGACAAATCAAGAAATCTATCAATACTTTATGGTAGGTAGTTCTGATATTATAAGTGATCAACAATTAATTCAAAACTTCAGAGATACCGTGATTGATTATAATTAATAATAAAATAAGTAGGATTTATAAAATCCTACTTTTTATATGATATAATCTATAATAGAGGTGTTGATATGTTTTATATAGGAATTATAATTATTTGTTTAGTAGGTACTCTTTTACATTTTACATATGAATGGAGTAATCATAATAAATATGTAGCGATTTTTTCAGCTGTAAATGAAAGTACTTGGGAACATGTTAAAATATGTATAACACCAACTATTTTGTGGAGTATATATGAAATATTTAAATATGGATTTAGTGGTAAATATTTAGTTGCTAAAAGTTTAAGTTTATTAACTATAATTGTATTAATACCAGTTTTATTCTATAGTTATACTTTATTTACTAAAAAAGCAATCTTAGTTATTGATGTTATTTGCTTTTATATAACTGTAATATGTTCACAATTAGTATTTCAAAAAGTAATTGGTTTAGGCGCTATGCCAAGTATTTATATTTGGTTGGGAGTTATTCTTTTAGCTCTTGAGATTGGTGCATATTTATATCTAACATTTAATCCATTTAAGAATCCGGTCTTTAAAGATCCAATTACGCATAGGTATGGTTTAGAAGGACATCCCTGTGAACACAATCACAAACATTAAAGAGGTGATAAGATGAAAAATAGAGAAAGAGAAGTTATTAAGACAAGTATAATAAGTATACTAGCAAATATCATTTTAGCTGGATTTAAAGCTCTAGTTGGAGTAGTTGCGAATTCGATTGCTATTATCTCTGATGCTGTTAATAATTTAAGTGATGCCTTATCAAGTATTATCACAATAGTAGGAACAAAATTAGCTTCCAAGGCACCAGATAGAGATCATCCATATGGACATGGTAGAATTGAATACATGACTTCTTTAATTGTTTCAGCTATCGTTCTATATGCTGGTATTACAGCTCTGGTTGAATCAATTAAAAAGATTATTCATCCAGAAGTAGCTAATTATAATACTACAACCTTAATAATCTTAATAGCGGGTATTCTTGTTAAGTTTATATTGGGAATGTATGTTAAGAGAAAAGGAAAAGAAGTAAATTCTGATTCTTTAGTGGCGAGTGGTTCGGACGCCTTTAATGATGCTATTCTATCTATTTCCGTTTTAGTATCAGCTTTAATCTATATGGCCTTTAATATAAGCTTAGAGGCTTATGTTGGTGTCTTAGTCGCAATCTTCATCATCAAGGCCGGTTTAGAGCTAATAAAGGAATCTGTTGATAATATGTTAGGTCTTAGAGTAGAAAGCGATTTAGCTAAAGCTATTAAAAAGGATATTAATAAGGAAAAAGACGTACAAGGAGCATATGATTTAATACTAAATGATTATGGACCAGATAGGTACCTAGGTTCTATTCATATTGAGGTTGCTGATACTTTATCTGCTGCTGATATTGATAAACTATCAAGAAGAATAACTAAAATGATTGCTAAAAAGTATGGGGTAATATTACACACTATAGGAGTTTATTCAGTTAATACTAAAGATAAAGAGGGAATGGCGGCCAAAAAAGAGATTACAAAGCTTGTTTTTGCTCATAAAGGAATACTACAGATGCATGGTTTCTATATTGATAAAAAAGAAAAGACTATAAGCTTTGACATAATTATTGATTTTAAAATAAAGAATAGAGAAGAAGTATATAAAGAAATATATGATGAAGTTAAAGAAAAATATAAAGATTATAAAATAGAAATAACCTTAGATATAGATACTAGTGATTAATAGTATGGTATAATAATTATGAAAGAAGGTGAAAATATGTCTATTTATGATTTAAAAGTCAAGAATAGAGAAGGCAATGTCATCGAAAGATATTCACCAACTTATAAACCAGAGGAAATGGAAGATAAGATTAAAGAATTATTATAATAAACAGATACTTGTATCTGTTTTTTTGTAAAAAATGATATAATTAAATTGGATGTGATAGAATGTCTGATGTTGAAAGATTACAAAAACTAATTGATGATTCTAATAATATTGTCTTCTTTGGTGGGGCAGGAGTATCTACTGAGAGTGGTATTAGAGATTTCAGAGGCAAGAATGGTTTATATAAGGAAAAGTACAAAGGTATTCTTCCAGAATATATGTTAAGTCATGAATGCTTGTTTAAAGAACCAAAATTGTTCTATGAATACTATAAAGATAACATGAATTGTTCAGATGCCCAGCCAAATGTTATTCATAAGTATTTAAAAGAACTTGAAGATAAAGGAAAATTAAAGGCTGTTATTACCCAAAATATTGACGGGCTTCATCAAAAAGCCGGATCAAAAAATGTCTTAGAACTTCATGGAACAACTAATAGGTGTTATTGTACTGAATGTGGAAAAGAGTATCCAGGAGAATATATTTTTAAAAGTGAAAGTATTCCTAAATGCTCCTGTGGGGGAATGATAAGACCAGATGTGGTCTTATATGGAGAAATGTTACCTGATTCTTATAACGAAGCCGTTCATTATATAATGGATGCTGATTTAATGATAGTTGCAGGGACTTCTCTTACAGTACAACCAGCGAGTAGTCTATTAGGATATTTTAAAGGAAAACACTTGGTGATTATCAATGATATGCCAACTCCATATGACTCGATGGCCGAGATAGTTATTAATAAATCACTAAAAGAAGTGTTTACAAAACTTAATACATAAAAAAAGCAAACCTTAATGTTTGCTTTTTATTAACCTTTTTCCTCTTCTTTTACTGGCAACTGCCCAACAATAAGTATCATATACTAACATTTGTTGTTGAACAAATGGTTCGTCAAGACGTTCAATAAAAGCTTCTAATTGTTTAGCTTTAGCACCACGATCTTTATCGTTAATACTACCATATATACCAACAATAATATCATTGTTACCACTATTATGAATATTTGTCCAATTCATAATATAAGCTGGTGAATAAGGGTTTTGTGTCATAAGAACGGTATCGCGTGGTAAAAGTATTGCTTCTGAATCTCTTACCGATAGGTGCTTAATTAATACTGGACGATCACCAAAAAGAGCAATATCACCTTTAATAACTCTATCTTCATTTAAACGTTCTAACCCTTCAGTATAAGGAGTAACAATAGTAGTACGAAGTCTTTTAACAATACTATCATATTTACCCTTGCCAATTTCCAATGTTTTAGCACTATTAACAGGTTCAATTTCATCTCTCATATGTCTCAACAACTCTAAATAATTACTACCTATTCTTTGTCTTTTTTCTATCCAATCAGAAAATTCAGATATGAATAAAGAAGAAGTAGGATCAACATTTTTTACTCCAGTAGCTTCGACAAATTGGTCTCTCAATGAGTGTAAGTATCTTTTCATAAAAATCCCCCCAAATACATAACGGCTATAATTATATTATATTTAAAAAAATATGTCAATTTTTCTAAATAACAAGCACTACAACAAAGGAGAAAACATATGGAAAAACCTAAGATATATTTTTCTGAAAAATGGCAAAAAAGGTAAAGTGTAAATCGAACAAAATTAGATTTTTCAGAAAAAAGGAAAATCGCTAACACCACCAAATCGTTATATATCAACGAATAATAGTAAAACAGCAATTTGGAAAAATTCCAAAAAAATGAAAAAAACGAAATTTATGAAAAATAAAAATGTCAAATTTTTATTTTTTTTAAAAAACCTATTGCAACCAAAAATTACTGGTGCTATACTCGTATTAAAGTACAAGTGTGGAGGTAAAATTATGAAAGGAAAAGGTGTGGAAGTTTCTAATTTAACAGTAGTTAAAAGAAACGGAAAAAAAGTAGATTTTGATGGTTCAAAGATTGCTTTAGCTATCAAAAAAGGATTTGATAATGTCACTGTTACTAATGGTGACGAACTAGAAAAAGTTTATACAGAGAAAGATATTCAAACAGTCTATAAGGAAGTCATCAAGGAAATAGAATCCAACTACAATGACAAGGTAAAGATTGAACAAATTCAAGATTTGATTGAAGAAGCTTTAAAGAAAAAAGGTTACAACGATGTTTATGAATGCTTTTCTGAATATCGTGAACGTCGTAGTCAATCAAGAGAATTGTTCTCTGATAAAAAGAAGCTTCATAAGTTCCTAAAGACTATTGAAGGATTAGGACTAAAGAGTGCTAATGAAGATGACAACAAAAGAGAAAATGCCAATGTTGATGGTGATACTGCTATGGGAACAATGCTTCAATATGGTTCAACAGTATCAAAAGAATTTGCAAAAACATATTTAATGAAAAGCAAATTTACTGAAGCCCATGAATCAGGTGCTATTCATATTCATGATATGGATTTCTTAGGAATGGGTACTACTACCTGTATGCAAATAGAACTAGATCGTTTATTTAAAAATGGTTTTTCTACTGGTCACGGACACTTAAGAGAACCACAAGATATTATGAGTTATTCTGCATTAGCAGCTATTGCTATTCAATCTAATCAAAATGATCAACATGGTGGACAAAGTATTCCCGCCTTTGATTTCTATTTAGCACCAGGAGTATTAAAAACATTCAAGAAACAGTTTAAACAACATATCTATGATTATTTAGATTATGAAGGAATGTTAGATTATATTAATATGGATACTGTTGCTAAAGAAATAGATAAACTAGATAGTATTACAGTTGATTTAAAGAAGTTTGCTAGATTCTATAAAGATAGTGATATCGTTAAAAGAGGTTTTGAAAAAGCCTATGAAAAAACACTAGCTAAGACTAATAGAACAACATTCCAAGCTATGGAAGGATTTGTTCACAACTTAAATACTATGCATTCTCGTGCTGGAGCTCAAGTTCCGTTCTCATCAATTAACTTTGGAACTGATACTTCTCCAGAAGGAAGAATGGTAGCTGAAAATTTCCTTTTAGCGACTGATGAAGGATTAGGAAAAGGAGAAACTCCTATCTTCCCAGTATCAATCTTTAAAGTAAAAGAAGGAGTTAACTACAATCCTGAAGATCCAAACTATGATTTATTTAAACTAGCATGTCGAGTATCAGCTAAGAGATTATTCCCTAACTTCGCTTTCTTAGATTCTAAGTATAATTTAGACTTCTATAAGAAAGGCGATTTTAGAACTGAAGTTAGTTATATGGGATGCCGTACTAGAGTTATTGCTGATGTAACTGATCTTAATAATCAAACAACTGGTGGAAGAGGAAACTTATCTTTTACATCAATCAATTTACCAAGAATAGCTATTAAACATGGTATTTGCTTAGGTGAAAGAGATAAAGCCGATATGAAAGGCTTCTATAAAGAACTAGAAGAAATGTTAGAATTAGTTCGTGATCAATTATTAGAAAGATTTGAAATACAATGTAGTAAACACTCATATAATTTCCCATTCTTAATTGGACAAGGAGTTTGGACTAATGGTGATAAACTAGAACCAGGAGATAGAATGAGAAAGATTCTAAAACATGGAACTTTATCAATTGGGTTCATTGGTTTGGCTGAGACTCTTAAAGCTCTAATTGGTAAACATCATGGTGAAAGTAAAGAAGCTCAAAAGTTAGGATTAGAAATAATTGGTTTCATGCGTAAGACTTGTGATAAGTTTGCTAAAGAATATAATCTAAACTTTACCCTACTAGCAACCCCAGCTGAGGGATTATCTGGAAGATTTGTTAGTATGGATAAAGCCATTTATGGAAAGATAAAAGGTATAACTGATAAGACATATTACACTAATTCATTCCATGTGCCAGTTTATTACAACATAAGTATTAAAGATAAACTTACACTTGAGGCACCATATCATGCTTTAACTAATGCTGGACATATCTCTTATATTGAATTAGATGGAGATACTGCTAATAATGTAGAAGCATTTGAAAGTGTTATTAGGTTAATGAAAGAATTAGAAATTGGTTATGGAGCTATTAACCATCCAGTAGATAGAGATCCAGTTTGTGGATACGTTGGGGTAATTAATGATGTATGCCCTCTATGTGGAAGAAGAGAATCAGAAGGAGTTCCAATGGAACATCTTCAAGATATAAATTGTAAATGTTAATGAGGTAAGAAAGGAGATATAATTATGAAAAAAACAGTAGGTGAAGGAGTAAAATTCGAAAGAATAAGAAGAGTAACAGGATATTTATCAGGCGATGTATCACGTTTCAATAATGCTAAGAGAACTGAAGAACATGACCGTGTTAAACATACTGGTGTTAAAGAATTAATCGCTAATGCAAAGTGTGAAAAATAATGACTATTAGACTAGCGGCATATTTACAAAGTGATTCGATAGTAGATGGTGAGGGCATTCGGACAGTTATCTGGACACAGGGGTGTCCTCATCATTGTTTAGGCTGCCATAATCCTGAGACTTGGGATTTTGCTGGTGGGGCTGAAGTACCTATCAGTGAAGTAAAAGAAATAATAGATGGTTTGGAAGGGCAAGATGGACTTACCTTTTCAGGTGGAGAACCTTTTATGCAACCTAAACAGTGTGCTGAAATAGCTAAATATGCCAAAAGCTTAGGTTATAATATTTGGTCATATTCAGGTTTTACTTTTGAACAATTACTTTCTTTAGGAAAGACTAAAAAAGAAATAATGGACTTCCTAAATGAAGTTGATGTTTTAGTAGATGGAAAATTCGAACTTTCTAAAAAGAGTTATAATTGTCTTTTTAGGGGATCTACTAATCAAAGAATAATTGATGTTAAAAAGAGTTTAAAAGCTAGGAAAGCTATTATTGATGATAAATACGAAAAAGTACCAAGTAAAAATGGTCGTAAGAGACAAGAAGGAGTTTATATTTAATAAAAAACACAGCTATAAGTTGTGTTTTATTTTTGGCTAAATACAATTGCTATATTTATTAATCTTCGGTATAATTTAATTGGTTAAAAAAGGAGTACTTAAATGAAAAATTTTGGAACATATGATGAAAAAACATTGAAAATGCTACAAAAGGTAGAACTAGAAATGTTGAAAGATATTAATAAAGTGTGTGAAAAATATGATATTAAATACTTTGCCTTAGATGGAACAGGTATAGGAGCTATGAGACACAAGGGCTTTATTCCTTGGGATGATGACATTGATTTAAGATTCCTAGAAAAAGATGTAAGTAAATTTGTCAAATGTATGCAAGAGGAAATGCCAGATAAATATTACTTTGTTAATGAAACTAGCTTTAAAAATTATCCTCTATCTTTTACTAAAATGTGCAAAAAGGATACTATCTTTGTTGAACATGCTACAGCAAATTCAGGAGTAGAGATAGGTATATTTATTGATATTGTTCCAATGGTATATGTTGACGATAATGAAAAAATAAGAAATAAGAAATTACTAAAATCGTGGTATATATATAAATTAGGGGTTTTAGCGGCAGTTAAAAATCCGGTTTTAAGTTTTGGAGGAATTAAAGCAAAAATAGTAGTGGCCGGATGCTATATAATTCATTATTTATTAAAACTACTACATTTGGATTCTGGGTTCTTTTTCAAAAAAGGTTATAAAGTTGCACTTGCAAATAAAAAAACTAACACAATCGCATCACTAAATACAGTATATAAACTAACAAGTATATATTCTGTTAACGATGTGTTTCCAGTAGTAAAAACCAAGTTTGAAGACACTTATGTTTATGTGCCCAAAGAATGTGATAAGTTGCTAAGAATTTACTTTGGGGATTATATGGAATTGCCGCCTGAGGAAAAAAGGCATAACCATTGTCCTAAAAAATTAGTATTCGATAAAGAAAAAGAAAGCGAGAATAAAGTTTAAAGCCAATGTAGAACTAAAAGGAGGCTATAATATCAATTATAGGCTCTTTTTTCTACCTTTCATGTGGCCTGGAAATATGCTATAATATAGATGGTGATATTATGAAAAACGTTGGTGTTGTGAGTTACAACATTAGATGCAATTTTACAAATTATGGTTCTGCCCTACAATCATGGGCGTTGAAAGAAACTATTGAGAAAATAGGTGGAGACAAACTGCATGCAAAACTAGTTGATTATTGTCCAGACGCCCACAGAGAGAGCGATCCCTTAAATCCTTATAAAAACATGTGGGATAAGGATGCAACGGCCAGAAAGAACTGTGAATTAACAATGCCAGCTATAAGAGAGAATTATAAAAAGTTTGAAGATTTTTATAACACACAATTTGATCGAACTAAAAAAATGTATGTTTCAGAAAACTTTGACAGTATTGTAGAAGAAGAAAACATAAAAAAATTTGTATGCGGCGCTGATACCATCTTTTGCGTTGATGAATTTGGTATAGATGATGTTTTTTATGCCAACAAAAAGTGCATGAAGGAAAATTATACCTTTTCTTATGCTGCTAGTTTTGGAGATTCTCATTTTACGGAAGAAACTTATAAGCTGTTGGATCAAAGATTAACTAATTTTAAAGCAATTGGAATCCGTGAAAGTGAAATGGTTGATTATATTAAAGAACGTACAGTAGTCGATGTAGAAAGGGTTATTGATCCAACTCTATTGTTAGAGGCTGATGATTACGAAAAGATAACAACTAAGGAGGTTCCTAAAGAAAAATACGTTTTATTATATACAAGACGTGGTAACCAAATTATGGAAGATTATGCCGATATGATTGCCAATAAACTTCACTGCAAAGTCATTGAAATAAGTTTGAAAGCAACTAATAAAGATAAACATGAAATGAGATATGATGCTGGTGTTGAGGAATTCCTAAATCTAGTAAAAAATGCTGAATATGTAGTAACTAATTCATATCATGGAATGATATTCTGTGTTCAATTTAGAAAGGACTTTGTTATTTTTTCTCGAGAACAATGCGACACTAAAATTGAAGAATTATTAAATATTATGGGTCTCCGAGATAGATTATTAGTCACAGGGAAAGAAAGATTTAAAGAAGAGATAGACTATGATGCTGTTCACAACAATATTAAATCAGAAAAAGAAAAGAGTATTAAGTTTTTACAAAAACAATTAAAAAAGGTAATAGGTGAGTAATATGAATAATAAATATCTTAGTAATAAAATACTAATCGAATTATTAAAAAAATATGGAATTAAAAAGTTAGTCCTATCATCTGGCTGTAGAAATGTGCCGTTTGTTTCAAATGTTGAAACTGATCCTGACTTCGAATGCTTTTCAGTAATTGATGAAAGAAACGCTGCCTTCTTTGGGATGGGGTTGAGTGAGGAGGCTAAAGAACCAGTTGCTATTGCCTGTACAAGTGGTACGGCTGCTTCTAATTATGTTTCTGGTGTTACAGAAGCATATTATTCTAAAGTGCCTTTAGTCGTTTTAACTTTTGATAGACATCCTTATATGTATAATCAATTGGAGACCCAAAAAATTGATCAGGAATCTATTTTTGAATCTATTACTAAAAAAAGTGTAACATTACCGATTATTAAAGACGAAGAAGATGTTTGGTATTGTAATAGACTTATTAATGAAGCTTTTATAGAAATGACAAGGCATGGTGTAGGACCAGTACATATTAATGTTCCATTAGCTGGCGATATGAATAGCTTGTTTAATGATGATAGTAATAAAATGTCTGAAAAGGGAATGAAAAAAATTAATTATGTTTCTACAAATAATATGGTTTGGTTAAATAAAGTAGAAGAACTTCTTAAAACAAAAAAAGTACTCTTTATTCTAGGACAAGATTCCCTTTTAACAGATAAAGAAAAAGAAAAATTACGTAAATTTGCCGAAATTATGGACTGCCCTATACTGACAGATAATTTATCAAATTTTAAAAGTGAGCATAATATTCTTGCAGGTCCCATTATTAAAGCTTTGAATTCTAAGACTATAAACGTTTTATTACCTGAGATAGTAATATCATATGGAAATAACATGCAAGAAAGAATAAAGGAAGTATTACGGGGGAAGAATATCAAACATTGGTATATTACACCTGATGGTAAAATTAGGGATTGTTTTAAAGCGTTAGATACAATATTTGAATGTAGTATAAATGAATTTTTAGATATGTTTAATAAAAATTTTGAGAATAAGTATAAGCCAGATAAAAAATACTTTGAGAAATGGAAAAATATATCTGAAAGTATAAAACTACCAGAAATGCCATTTACTAATTTTTATGTTGCTAAAGAATTTTCTAAAATAATACCACATGATTCACTACTGCATTTGAGCATATTGAATGCTACTAGACAGATGCAATTTTTCAATTTAGATGAATCGATAAAAGTATTTAGCAATGTTAATGCGTTTGGAATAGATGGGTGCTTGCCTACTTTTATGGGACAAGCATATGCAACTGATAATTTAGCCTTTATTATGATAGGAGATTTAAGCTTCTTCTATGGTATGAATGCGTTATCGATAAAGCACAGGAAGAAGAATATTAGAGTATTAATGATTAATAATGGTGGTGGAGCCGAATTTCATATTCAACCTGATTCTAATAGCATCCCAACCATTGACTTGCATATTGGAGCGGCGCATAACAGGACTGCCAAAGAATGGGCAATTTCATCAGGATATAAATATTTAACCGCCAACGATAAAGAATCATTTGATAAGAATATTAAAGAATTCATTTCTTCTGATAGTAAGGAGCCAATATTCTATGAAGTTTTTACGGATATGAAAACTGATGGAGAATTTTGTCTATCAGTGTATAGATATATGGAAGAAAGTATAAAAGATTTGTTAAAAGAGGATTAATATGCAAGAAAAAAGTATTTTAATATTGGGTGGCACCGGTGCCATGGGAACATCTTTAGTAGAGATATTGTCACATGATGATAAATATAGTGTCTTTGTGACTACACGGCAAAGCAACCATAATGATTATAAAAATATAAAATATATAATTGGAAATGCTAGAGAAGAAGCTTTCATTCAGCAGGTATGTTCAAAAAAGTATGATGTAATTGTTGATTTCATGAACTATAATTTAGATGAATTTGAGAATTATCATACTGCACTTCTTAATGCTGCTGATCACTATTTGTTCTTAAGCTCTTGCCGGGTTTTCAGCAACGCTGAATTAATAGATGAAAGCACCCCTAGACTGTTAGAAACAACTAATGACACGGAGTTTTTAAAAACAAATAGATATGCATTAAGAAAGGCTCGAGAAGAGGATATCCTAACAAATTCTCCATATAATAATTGGACTATTATAAGACCATATATTACATATAGTAATAGACGGTTACAACTAGGAATCTATGAGAAAGAAGAATGGTTATATAGATTATTAAACAATAGGCCATTAATATTACGAAAAGAAATTTTAGATAAGTATACAACATTAACATATGGTAAAGATGTAGCATTAGGTATATATAATATTATTAATAATGAAAAATCATTAGGGCAAAAGATAAATATTGTCACAGAGGAATATACTACATGGCAAGACATATTGGATAAATATAAAGAAGTATTAAATCGCGAATTAAATATTGAACCAGAAATCTATTATGAAGAAAATTTAGATGAGATTGAAATGTTGTTTGAGGGTGGTTATAACACTAAATATGACCGCTTATGGAATCGTCGATTTAAAAATGATAAAACAAAAGAATATTGTGGGGATATTGACTACAAAAAACCTTTACCAGGGATTGAACAATGCTTAGTAGAGCTAATTAACGATTGGAAAAAAGGTAAGGAAGTATTTAGAACAATAAATAGCGAATACGAGGACAAAATGAATAACTTGTGTAATCAAAAAACAAAGAGAAAGAGATGATAAAATGATTAACTTTACAATTGGGCCAGTACAATCTAGCAAAGAAATAAGAAGAATTGGTGGCGAACAAGTACCATATTTTAGAACGCAAGAGTTTTCTAATTTGATGCTTGAAAATGAAAAACTAATTAAAAAATTTATGGATGCTACTGAAGAAAGCAAAGTAGCATTTATAACTGGATCAGGGACAGCTTCCATGGAAGCAACTATTATGAATTTATTAACTAAAGAAGATAAAGCTTTAATTGTAAATGGTGGTGGTTTTGGACATAGATTTGTTGAGCTTTGTGAACTATATGAAGTTCCTTGTGATCAAATAATTCTAGATGTAGGACAACCATTAACCGAAGAAATATTAAATAAATATAATCCTAGCGATTATAGTACCTTTATTGTAAACGTTCATGAAACCACGACTGGTGTTCACTATGATTTAAAATTAATTCATGATTTTTGTAAAAGAAACAGTTTGTTTTTAATAGTAGATGCTATCAGTTCATTTTTAGCGGATGAATTAAGTATGAAAGATGATGGAATAGATGTGGTTATAACTGGATCTCAGAAAGCCTTGGCTTGTCCTCCAGGAATATCCATTATAACGTTATCTGAGAAAGCTGTGGAAAGGGTATATCAGAATAACCCTAAGTGCCTATATTTAAACTTAAAAGAGGCCTTAGAAAATGCTAAAAGGGGACAGACACCTTTTACTCCAGCAGTAAGCATATTAAGACAAATAAACGCTAGATTAAAACAAATTGATAATGCTGGTGGAACTGCATCAGAAGTAAAGAGAATATCAGCTCTAGCGAAATATTTCCGAGAAAGTATCAAGGATTTACCATTTGAATATGTAACTAATTCACCATCTAATGCCATTACAGCACTTTCACCATTAAATGCTAGTGCCAATGATATATTTTTAGAACTAAAAGATAATTATGGTATTTGGATATGTCCAAATGGTGGTGAATTAAAAGATAAGGTATTCAGAGTTGGGCATATAGGGGATCTAACTAATGAAGACTATGATAAATTAATAGAGGCCTTCAAAGATTTACAAAAAAAAGGATTAATCTAGGAAGTGAATTATTATGAAAAAAGTAATAACTTATGGTACATATGACCTGCTTCATTATGGTCACATCAGGCTTTTAGAAAGAGCTAAAGAGTTAGGAGATTATTTAATAGTTGGGGTAACATCAGATGATTTTGACAAGAGAAGAGGCAAGATAAACGTTCAGCAATCCCTAATTGAAAGAGTACAAGCAGTAAAAAGCACTGGTTTAGCTGATGAGATAATAATTGAAGAATATGAGGGCCAAAAAATAGATGATATTTGTAACTATGGTATAGATATATTTACTGTTGGATCAGACTGGGTAGGCAAATTTGATTATTTAAAGGAGTATTGTGAGGTAATATATTTAGATAGGACCGAAGGTGTTTCCAGCACTGAGATTAGGAGTAAAAATAGATCTCTTAATCTAGGAATAGTAGGTTCATTTAACTTTATTCAAAAACACTTAAACGAATCAAAATATGTAAATGGGTTAGAAATAACTAAAATCAACTCTGAAGATAAAATACCTAAACACATGCTAAAAGAATACAATCTAACAGTAGAAGATGATTATGATAAATTATTAGATAGTGTTGACGCTATTTATATTGCAACTAATCCTGATAAGCATTACGAAATAATAAAGAAAGCTATTGAAAAAAAGAAACATGTATTATGTGAATCACCAATAACTTTGAAAAAAGAGGAATGTAAGAAATTGTTAGCTCTGGCTGATAAAAAAGGTGTTGTTTTAATGGAAGCTATTAAAACCAATTATGCTAATGCATATATGCGCTTGATGCTACTTGCTAAAACAGGGGTAGTAGGGAAAATAGTTTCGGTTGATGCAACATGTACCAGTTTAAGACAATTAGAAGAATTAGGAGAAAAGAAGATAACTAATTATCAAAATAGTATCTGTGCTTGGGGACCAACTGCTATGCTACCAGTATTTCAATTGCTAGGAACTAAGTATAAAGAAAAACATATTACATCTTTATTGAGTGATAAGAATAAGAATTTTGATTTGTTCACAAAGATAAGCTTTGATTATAAAGATGCAACAGCAACAATCAAAGTAGGAAAGGGAGTAAAGTCAGAAGGGGAATTGATAATATCAGGTACAAAAGGGTATATCTATGTTCCAGCACCATGGTGGAAAATAGATTACTTTGAGGTAAGGTATGAAGATCCTGCCAAAAACAGAAGATATTTCTACCAATTAGAAGGCGAAGGGATACGATATGAATTAATTAGTTTCTTAAGGGCTATTAACAAGAAAACTAAGGTTGGTGGAATAAAGAAAGACACCACATTGGCTATCGTCGAAGTAATTGAAGATTTTTATAATAAAAAGAAAAATACTATATAGTAAGAATGGGGCGAGAGAATGGAAGATATAAAAATAATTGACCAATTTATGGATGAAAGAGAATTTAGAAACTATATAGTAAAACTATTAGATGAAAATGGTTTTACTGATATTTCTATTGAGGATGCTCGTCTTAGTGATGAGGAACCAAAAAATAATAATGATTTAATAGCTAAAAAAGGTAAAGAAAGATATACTATTCAGACTTTCTTAAATAAGGAAATAGGTTCCAAAGAAATAAAAGAAACATTAAGGGATATGAAAGAAGAATATGCTTCTAAAGCATTAATAATTACCAATAAGGAAGTATCTGAAGAAGTAATTAAAGAAGCAGAAGAAGCTGGCATAGAAATTTGGGATCGAAAAAAGTTTAAATAAAAAGCACAACTATTAAGTTGTGTTTTTATTCATCACGATAAGTATATTCCTTTAGCTTTTTCTTTAGTTTAAGTTCTTCTTTCCTAGTAGCTTTATCATAATAAGAAAACTCTGCTGATCTAGCTGTTTTTACTTGTTTACGAGTTTTAACTTTAGGAACTTTTATTATCCTATCTTCTTTCGGATCTTTCTTAGGAGTAACATCATAACTTTTAGGTTTAGTCATATAATCACTTCCTAGTACTATTATAACGAAGAAATAAACTTTATTGCAAATATCTTTCTATCGGTATATACTAAAATTGAAAGGAGAAAAGGATGAGAAAAGGAATAAAAATATTAAGTTCATTATTATTAGTGGTTGCAGTTTTAACTTTAGTAGGTTGTGCTGCTAAAAGAGAAGATTTAAAATTTAATGATACTAAAGGAAGTTTGGTTTTCTCTGTAAAAGAGGATGGTAATTATAAGATTTCTAAAAACCCTAAGGACTTAAGAAATACTAGAGAACAAGGAGTATTAATTGGAAAAGACTTCAAAATAAGTATTGAGTTTGATGATTCATTTGGTTATTTCTTTGATGGTGATTTTAATAAACTAAAAGAGAAGAGAAGAAATGATTATGATGACTTTAAAGAAGTAACTTATAGTGATATGGAAGGTATTCAATACTTCTATTCTGGTTATATGTGTTATAACGTTATCTTCCCAATTGAAGGAAATAAAGACTATACTTTAGTTTTATCAGTTTATGGTGCTGAAGATAATGAAAAAGCTGCCAAAGAAGCTATTAAGAATGAAGAAGTATTAGATGTGCTAAATCATATAAGTAATGTTAAGGTAAAAAAATAAGTATCGATAACGATACTTTTTCTTTGCGAAAAGAGTCAAATTAAGATAAAATATTATTAGGAAGTGGTTATATGAGTAAAAAAGTAGAACTAGTAAATAAAAGTATTGGTGCAGCCTTTTTAATATCATTAGGTAATTATGCCTTATTAAAACTAGGTAATCCTATCGGACCAGTTATCTTTGCCTTAGGTCTTTTAGGTGTTTGTTATCTAGGACAGAATTTATTTACTGGTAAATGTGGTTTCTTATTTGCGGATAAAATAAAAGTATTAGATCTAGTTATAATTCTATTAATAAACTTAGTAGCTGGTTATCTATTTGGACTTTTATACTCCATAACTGATCCGGAAGTTTATAAAGCAGCTATTGCTAAAGTAGCTAGTTGGGATTTTTCCTTAGCTTTCTTTATAAAAGCTTTTTTATGTGGAACTATCATGTATATAGCTGTAGCGATGTATCGCAAAGGAACACCTCTAGGAATAATATTTGGTATACCTCTATTCATTTTCTGTGGTTTCCAGCACTGTATTGCGAATATAATAACTTTAGGTGTTGCCAGAACCTTCGATTGGTCAATTGTTTTGGCTATAATTGGTAACTTTGTAGGATCATTATTTATGTGGTATATATCTAAAGATGTAGAAGAAAAGAAGAAAAAGAGAAAAAAGTGATTATATAATCATTTTTTTATTACGCTAAATGTAGTAAAATAAAGATAAATATTTAGATTGTTAATTGTTAGTTAGATATTTTTTGTGTATAATAATATAGAAAGTAGGTGCTTTATGGAGAAAAGTGAATTAAAAAAAGAATTAAATGAAGTACTTAAGAAAACTGAAGATTTATGGAGGTCACTTTGACATCGATAGTAAAAAAGAAAAAATAAGTAAGCTTGAAGAAGAAATGAATAGAACTGATTTCTGGAATGATAAAGAAAAAGCTGAAAAGACAATTGCTGAAATAAGTAGTTTAAAAAAGATTACTGAAGATATAGACCATTTAAAAGAAAATGTTATTGATAGTACGGAGATGTTAGATTTAGATGATAATGAAATACTAGAAGAAATAGAAAGTCATTTAGAAGACTATCAGAAACTATATGATGAATTAGAAATGAATTTACTTTTAGATGGTGAATATGATCATGATAATTGCATTGTTGATATTCATCCAGGGGCAGGAGGAACAGAAAGCTGTGATTGGGCCTTAATGCTTTACCGGATGTATAGTAGATGGTGTGAAAAAAAAGGATATAAAGTAGAAGTATTAGATTATCAAGAAGGAGATACAGCAGGTATTAAAAACGTATCTTTCATCGTTAAAGGACAAAATGCTTATGGCTTATTAAAGAACGAAAAAGGAGTTCATAGATTAGTACGTTTGTCACCATTTGATTCTAACAATAGAAGACATACATCTTTTGCTTCAGTAGATGTTACTCCTGATATTGATAAAGATTTAGATATTGTTATTGATGATAAAGATTTAAAAATAGATGTCTATCGTTCAACTGGTGCTGGTGGTCAAGGAGTAAATACAACTGATTCGGCAGTTAGAATAACACATCTACCTACTAAAATAGTAGTTACTTGTCAAAATGAACGTAGTCAACTACAAAATAAAGAACAAGCCTTAAAAGTATTAAAGAATAAGCTTATGCTTTTAGAAAAAGAAAAACAAGAAAATGAAATGCACGATATTAAAGGAGAAGAACAGGATATTAACTTTGGTTCACAAATAAGGAGTTATGTTCTTCATCCCTATTCAATGATTAAAGATCATCGAACTAATTTAGAGACAAGTAATGTTAATAAAGTGTTAGATGGAGAAATAGATGAATTTATCTTAAGTACCTTGAAGGGAGGGAAAAGATAAATGTTATTTGATAAAGAAAAATATGATCAATTATTAAAAAGTATCAATGCTAAATCCCGGATAAAGAGATTTATTGAACTTTGTATTGGTTGCTTTTTAATAGCGGTAGCCTTCAACTTGTTTTTATCACCCAATAATTTAGCACCTGGAGGAGTAGGTGGAATCGCTATTATTTTAAGACGAATTTTTGGTTGGGATAATTCAGTAACGATTTTACTTGTTAATATAATACTACTAGTAATTAGTTATTTTACTTTAGGATTTAGTAAAACTAAAAACTCTGTTTTAGGGTCTTTAATCTTGCCCCTTTTCATTAAATTAACTGCTAATATCTCTGTTTATATTAGTATTGATTTATCGCACTTAATATTACAGGCAATTTTTGGTGGAGTTATCTTTGGTGCTGGTGCTGGAATTATTTTCAAAGCTGGTTATACAACTGGGGGAACAGATATTATTAATCAAATGATGTATAAGTATTTGCATATGGGATTTGGGACTAGTACCCTTATAATTGATGGTTTAATTGCGCTTATGTCTGGATTCCTTTTTGGACCAACTATCATGATGTATGCCTTAGTAGCGCTATACATAATTAGCTATATGACAGACAGAGTCATTTTAGGAATATCTGATTCCAAAGCCTTCTATATTGTAACTACTAAAGATGAAGAAATGAAGGAATTTATCTTAAAGTATTTAAATCATGGGGTAACGGTCTTTAATGCTAAAGGGGGATTTAAAGAAAGAAAACAAAAAGTATTACTTTGCGTATTACCAACTAAAGACTATTACAAATTAAAAGCTGGAATCAACGAAATCGATAAAGATGCCTTCTTTGTCGTAACTGACTCCTATGAAGTATTTGGAGGCGAATAGAATGTTTAAATTCAAAAAAATAGATACAGAAGAAATAGCAAAAAAGATAAATGAGCATAATAAATTAAAAAGATATGCGATGTTATTAACAGCACTTTTTGTATCAGCAGTAGTCTATAATTTACTTATTATACCATCTAATTTAGTTATTGGTGGAGCTAATGGTGTCGCTGTTATAACTCGTTATATCTATCATTGGGATCCTGCTATAACAGTCTTCTTTATTTGTGTCAGTATGATGATATTAAGCTTAATGTATTTAGGTAAAGAAGTAACAAAAGGAGTAGTGGTAGCTACTTTCGTATATCCGCTTTTTGTAGAACTTACCGCACCCTTATCTAAGTATATAACTATTACTTCAAACGATTTAATTGTTGTTGCTATCTTTGTTGGTGTATTAACCGGTATTTGTCATGGAGTAATGTATAAAAGCGGTTATTCTCAAGGAGGATTACCTATTCTTAGTCAAATATTCCATAAGTATTTTAAAGTATCAATTAGTACATCAAGTTTAATAATCAATTCAATTATTGTCTTTTTAGGAGGATTCTTCTTTGGCTGGACAATGATGATGTATTCACTAATAGTAATTTATATTAATAGCTTAATGGTTGATAAAGTTCTATTAGGAATATCTGCTAATAAAGCTTTCTATATTATTACTAATAAAGAAAAAGAAGTAAAAGAATTCATTATGGAAGAATTGCACCATTCAGTTACAGTCTTTGATGTTAAAGGTGGCTTTAAGAATAGAAAAGGGGAAGTTTTATTAACTGTAATTCCTACTAGAGAATACTATGTAGTAACTGAAGGTATTAAAATGATTGATAAGGATGCTTTCTTTTTAGCGAGTGATGCTTATCAAGTAGAAGGGGGTAAATAATGGAGTTCGTTGAATTAAATGAGAAAGATTTTAGAAAGTTTTTAGATAAAAGCCCACTAAAGAATTTTATGCAGTTACCAGAGTTTGCTCATATGAAAGAGATAAATAACTGGCAAAGTACTTATGTCGGAGTAAAAGAAAAAGATAGAATAGAGGCCGCTACTCTTCTATGCAGTAGAAAAAGAAGGTTTGGTTATGAGTTCTATGCTCCTAGAGGAATACTGGTTGATTATAAAAACAAGGAATTATTAACTTTCTTTGTTGAAAACTTAAAGAAGTATATAAGAAAAAGAAAAGGATATGTCTTAAGAATAGATCCTTACTATATTAGAGTAGAAAGAAATATTGATGGTAATGTTGTTGAAGGAGGAGTAAACAACGAAGAAGCAATAATTAATTTAAAGAAATTAGGCTTTAAGAAAAGTGCTCATCCAGAACAAATTAGTTGGTCCTTTTCTTTAGATTTAGATAAGAATAAATCTGATGATGAGATTCTAAAAGAGATGAAAGGTAATACTAGAAGAGATATTACAAGAGCAATTAAGAATGATTTAATCTTTAGGGAAATAGGTTATGATGAAATTAACTTGTTTAAAGAAGTCTTAGATTCAACAGGAGATAGAAAAGGTTTCTCTACCAGAAATTTAGACTATTTTAAGAAGCTATATAATGAACTAGTACCTAAGGATTTAGCTAAGTTTGTAGTGGTAGAACTAGATATCGATAAAACTTTAGGTACTAAAGAAAAAGAAAAGAAAGAACTATCAGAAAAGTTAAAGACTACTAAAAAGAATACAGCTACTTTAGAAGACCAAATAGGTAAAATTAATAAAGAAATAGATGAATTAAAGGAATTGAAAAAGGAAAAAGGTAAAAAAATAGTTTTAGCGGCTGATATCTTTATAACCTATGGTGATGAAGTAGTATATTTATATGGTGGTAATGATGATAAATATATGAAATACTGTGGAGCTTATTTAACCCAATGGGAAATGATTAAATATGGAAGAGATAATGGTTTTAAGAAACATAACTTCTATGGTATAAGTGGAAATCTAACTGAAGATGATAAAGAGTATGGAGTATATAAGTTTAAAAAAGGTTTTGGAGGATATGTAGAAGAACTAATAGGAGAATATATACTACCTCTATCCCTAATATATTACTTACATAGATAGAAGAGAAAAATACAAGTCAATAGACTTGTTTTTTATTAGACACAAATAGACAGTCAAATTGTGTAGGAACCTTTTTTTGTTCTCTAAACTATGTTATACTTAAATATGCTAAGGTGGTGATTTTGTGGACTTAATTAGACTAAAAAATGTCACTAAACAATATAAGAATGGAGTAACAGCTATCTATGATCTTAATCTTTCAATTAAGAAGGGATCATTTGTTTTCATCATTGGTGGATCTGGATCGGGTAAATCTACCCTTATTAAGATGCTATATCGAGAAGAAAAACCAACTAAAGGACAAATAGCTGTTGGTGGTTTAAATGTTGCTAAATTAAGAAATAGTAAAGTATATAAACTACGTCGTAAACTAGGAATAGTTTTCCAGGATTATCGTCTACTACCGAAGCTTACCATTTATGAAAATGTTGCTTTTGCAATGGATGTTATCGGAGCTAAGAAAAGTGAACGTCGGATAAAAGTTCTAAAAGCTCTAGAAGTAGTTGGATTAAAGGATAAAGTTCATAATTATCCTGATCAATTATCAGGAGGGGAACAACAAAGAGTAGCGATTGCTAGAGCTATTGTTAATGATCCTAAACTTCTTTTATGCGATGAGCCTACTGGTAACTTAGATCCTGAGAAAAGTATGGAAATTATGAAAGTATTAGATAATATCAACAAGACTAGAGGAACTACTATTTTAATGGTTACTCATGATAAAGATATTGTTAATAAAATGAAGAAACAGGTAATAGTACTAAAAGAAGGACGTATCGTTAAAAATAAAGAGAAAGGAATATATTACGATGAAGCTATTTAGAGTGTTGATAAGAAGTATCCAAGATGCTTTTAAAAGTGTATTTAGAAATTTTTCTCTTTCTTTAGCGTCTATCTCATGTATTACTATTACTTTAATCATTGTCGCTATTGCGATTGTTGCGTCCTTTAATGTAGAAAACTTTACTAAATTAATTGAAAAAGATATGACTATAGTAGCCTTTGTTAGTAAAGATGCTACTACTGAAGAAGTAGAAAAGTTGAAGAAAGATATTGATAGTAACAAGAATGTTGCTAGTTATGTCTTTAAAGATAAAGCAGTAATTAAAGAAGACATGCAAAAAGAATCAGAAACTTTCAAGACAATTCTTTCCCAATGGAAAGATGAAGAAAGCCCTTTGAAGAGTGCTTTCCAAGTTAAAGTTAAAGATGTTAAAAAAATAGGAAAAACTGCTGAAACTATTGAAAATATGGATAAGATAGATTTAGTTAGATATGGTGAAGGCATGGTTGAGAAAATGGTTAAGACCTTTGAGTCTGTCGAAAAGGTTGCCTATGGAGCAGTTATTGCTCTAGTATTAGTAACTATCTTCTTAATTGTTAATACTATTAAACTAACTATTTTCTCTCGTAAAAGAGAAATATCTATTATGCGTTTAGTAGGTGCCAGTAACTTTACGATTAAGACACCATTTATTATTGAAGGTATGGTTTTAGGACTTTTGGGTTCTATTATCCCAATACTATTCACAACCTTCGGCTATATCTCATTCTATGATCATTTTGATGGTCATCTATATTCAGAATTAATTAGATTAATCAAACCAGAACCATTTATATATACTTTTTCCTTAATAGTACTAGTAATTGGTATCATTGTTGGTATGATTGGTAGTGCTAGGGCAGTAAGAAAGTATTTGAAGGTGTAATATGAAAAAGTTTATAGGTGTAGTATTAACACTAGTATTAGTTGGTACAATCTTTATTAATCCTTTAAATGCTAGTGCTAAGACTTTAGCTGAATTTGAAAGCGAAGTCGCAGCTTATGCCAGTGTATTACAGTCTAAGAAGAATGCGATTGCTAAGAATGATGCTGAAGTAGCTGAAATAAAGAAGAAAATATCTTCTATTGAAGGTCAAATAGCTCAAGCAACTCAAGATATGAAGAAATTACAAGAAGAAATTGATCAAAGTAATGAAGAAATAAAAAAGAAAAACGAAGAAAGTAAAAAGATCATGGAGTATTATCAAGTTTCAGGTGGTGAAAATGTCTATTTAGAGTATGCCTTTGGAGCTAAAGATATAACTGATATGATCTATAGAATGTCTGTTGTTGAACAACTTACCGAGTACAATGATCAAATCATGAAAGAATTAAAAGAATTGATCAAAGTAAATAAAGAAAAGAAAGTAGCCTTGGATGCTAAGAAAAAGGAATTAGCTAAATTACAAAAGGATTTAGAGACTCAAAAAGCTAGAATTAATGCTGAAAGTGCTGCTATTAGAGAGACAATGCCTGGAGTTCAAGAACAAATTAAGGCTGCACAAGCCAATGTTAGATACTATAAATCACTAGGTTGTGGTCGTAATGAAGATATCAATGCTTGTCAATACCGAATTATTCAAAGGAATACCGGCGGTGGAGGCGGCGGAGGTGGTTCTGTACCATCTACTAATGGTTTCTATCGACCAATGGAATATGGGTATTTAACTCAAGGATATGGTGGAGCTCATATGGGAGTAGACTTATCTAGTTCTAATAAAACCATCCCTATTTATCCAATTGCTAGTGGACAAGTATTTGCTAAATACTATGATGTTTATGGGGCCTTAGTTGTTAAAATAAGGCATAATGTTGGTGGTAGATTCATTTACTCAACTTATGCTCACTTAAGTAGTTTTGCCTCTATCTCTGTTGGTCAAAACATATCTCATTTGACTATGATTGGTAATATGGGATCAACTGGTTATTCAACTGGACCACACTTACACTTAGAATTAACTTCATGTGATTGGCATGCTGGAGGAGGATGTACTTGGGGACAATATGTTAATAGTACAATAGCGCCATCTTCATATGTATCTATCCCTTCTAGCTGGAGTAACAGATAAAAAAAGCGAGCTTAGCTCGTTTTTTATTTGAAAAAATATGGTATAATTATTAATATAGGGAGTGATAGAGTGAAAAGTGTTTTAGAACGTATTAGAGGAGTTATGATTTATTTCATCTGTTTTGCCTTTATTGGCTGGATATATGAAGTAGTACTATTCCTATATGATGACCACATTTTTGTAAATAGAGGGTTCTTATATGGACCATGGTTACCTGTTTATGGCTTTGGAGGAATGATTATTTACTGGTTGTTCTATCGCTTAAAAAAGAAACCAGTAAAAATAATGAAAATAAATATTCGACCTCTATTAATATTCATATATATTACGATAACTGCTGTCTTAGTAGAACTTACCACAACTTATATTTGTGATTTGTTCAAAACTGATTGGAAAAAATTATGGTTATATAGCGATGACTTTATGAATTTCCAAGGACGTATTGCCCTAGTTCCCGGTCTAAAATTTGGTTTAATTGGTTTATTAGGAGTCTATTTAATTATTCCTTTAATTGATAAACTTAAAGATTCAAAGAAAAAAGCAGTACAAAGTTTAACCTATATAATTATTTTGTTATTTATAATAGATGTTATTATTCATATGTTTACTGGTAGTACATATGCCGGACCAGTATAGTATAAGAGAAAGTGATTTCTCTTTTTTTGGCTTTTATAAGGAAATATGGTAAAATCTAGATGAAAAAAACAGGTGATTAATATGGATAAATTTAAATTAGTATCAAAATTTAAACCAGCTGGTGATCAACCAGAAGCTATTGATAAACTAATAGAAGGAGTTAAAGCTGGTAAACATGAACAAGTTTTATTAGGAGCTACTGGTACTGGTAAGACTTTTACAATTGCTAATGTAATTGAAAAAACAGGCAAAAAGACTTTAGTTCTTGCTCACAATAAGACTTTAGCCGGACAACTTTATTCCGAACTAAAAGAACTTTTCCCTAATAATCATGTCTGTTATTTTGTATCATACTATGACTATTATCAACCAGAGGCTTATGTTCCTTCAACTGATACCTATATTGAAAAAGACTCATCTATTAATGATGAAATAGATGAATTACGTCATGAAGCAACTAGTTCCCTTCTATCATATGATGACACTATAGTAGTATCCAGTGTATCTTGTATCTATGGTATTGGTGAAGTAGATGAATACAAGAATAAAATGATTACTTTAAGTGTTGGTGAAGAAATAGATCGTAATGATGTTATGAAAAGATTGGTAGATATGCTTTATGATCGCAATGACTTAGATTTTAAACGAGGTACTTTTAGAGTTAGAGGAGATATTCTAGAAGTGATTCCTCCATATCAAAACACTACTGGTTATCGCATTGATTTCTTTGGTGATAGTATTGATCGTATCAGTGAAATAGATACTTTAACTGGTGCTGTTATAACAAATAAAAAGACCATTAGTTTGTTCCCAGCTAGTCACTTCGTTGTTAGTGATGAAAAACTACAGGAAGCTATTGTTCGAATTAAAGATGAATTAAAAGATAGGTTAGCTGAGTTAAAAAAGGATAATAAATTATTAGCGGCTGAACGACTAGAACAACGTACTAACTATGATATGGAAATGTTAGAAGAAACTGGTTTCTGTAGTGGTATTGAAAACTATTCTGCCCCTTTAGCGGGTCGTAAAAAAGGAGAAACTCCAACTACTTTAATTGATTTCTTTGGTGATGATTTCTTGCTAGTAGTTGATGAATCACATGTAACACTACCACAGGTTAGGGGAATGTATAATGGGGATCGTTCTCGAAAAGAAAACTTAGTTGAGTATGGATTCCGTCTTCCTAGTGCTCTTGATAATAGACCTTTGAAATTTAATGAATTTGAGAAGAAGATTGATCAAGCTATCTATGTATCGGCTACTCCAGGAGACTATGAAATAGAAAAAGTAGATAATGAAGTTGTTGAACAGATAATTAGACCTACTGGTCTTTTAGATCCAACTATTGAAGTTAAAAAGACTGAAGGTCAAATTGATAGTTTAATTGAAGAGATAAATAAACGAATTAAATTAAATGAAAGAGTTTTAGTAACGACTCTTACTATTAGAATGGCTGAAGAATTAACTAATTATTTAAAGGAATTAGATATTAAAGTAGCTTATCTGCATACTGAAGTAAAAACTTTAGAAAGACTACAAATAGTTCATGATTTAAGAACAGGTAAATATGATGTTGTGGTTGGTATAAACTTACTTCGTGAAGGAATTGATATTCCTGAAGTATCTTTAATTGCGATTATGGATGCTGATAAAGAAGGATTCTTACGTAGTACTCGTAGTTTAATTCAAACTATTGGTAGATGTGCTCGTAATGAACATGGACATGTCATTATGTATGCTGATAAGGTGACTGATTCCATGAGCGAAGCTATAGATGAAACAAAACGAAGAAGAACTATCCAAGAAGAATATAATAAAGAACATGGAATTGTTCCTAAAACTATTAAAAAAGACATTAGAGAAGTTATTAGGAATGTTGATGTAGAAGCTAAGGAAAAGAAAATGACTAAGAAAGAACTAAACTTAACTATTGAAAAACTAGAAGAAGAAATGAGAGAAGCAGCAAAAGCCTTAGACTTTGAAAGAGCTATGGAATTAAGAGATATTATCTTTGAGATGAAAGCTTAAAAACTATCTTTAAAAAAGAAAGGGATTATGGTACAATATAATAAGGAGTGGTACTATGGATTACTATGAAATACTAGGGGTATCAAAAGACGCTAGCTTTGACGAAATAAAAGAAGCTTATTTTGCGTTGCGTAAAGATCTATCTGGTCCTGAATTAGATCTTTTAGAGATGGCTTATCGTACTTTAGCTAATGATTCTAAAAGAGCTGATTATGATATGGGAATAAACTCTCATAATAAGACAGTTAAGATTGATGATGGTGATGGTTTTAGAGAAAAACTATATCATACTATTGATTTAGATAATCCTCATCAAGAAATACTATTGAGATTTGATGATAAACCTAATCCTAGTATAGAAGAAGAAATACATAGTATAAACACCTATAACACATTAGAAAAAGAAGCAGAAGATTTAGTTGATGAAGAAGAATTAGAAGATGATTTAGATTTCTATTTAACACCTAGAGAAATTAGTAGAGCATTAGCTTTATTAGTTAGAGGTGATGGTGACGAATATATCGAAGGAACAAATGTTGCTAAACCAAGAGATCGTAGAGCAGATGAAACCGATGAGGAATATACAGCATTCCTAGAGAAATATTATCAAGAACATTTCTATATTCCTGGTACTAATATTCTAAAACCAAGAGATCGTAAAGCTAATGAAACTGATGAAGAGTATAACAATTATTTAGCTAATTACTATGCTATTATCTTTGCCAATAAACAAATACAAGAAGATGACTATGAAGAAGATTATGATGAAGAAGAGGAATTGTTAGAAGTAACTGATCGTAATAGACACGCAAAACTAAAAAAAGTTGTTCGGGGCTTATTAATTGCGGGAGCACTTTTATTAGGAGTATTAGGTATTAAAGCCTGTACTGCTAATGATAAAGAAAGTAAAGCTCCATATGGTTCTAATACAACTGTTGATGAAGCTATTGATGATGCAGGTAATACTATGGAAGAAGACTATAGTGACTATGATGATTATGCCGAAGAGTTAGAACATAGTATTGTTAATCCAGAGATTGATGATCTCCCAGAATTAGAAGAGGTAGAGGAAGATTATTCTATTAATGTTGGTGATAAGTTCAATTTAGATGAAAGCACTCTTCTATATACTGCTAGTACTGATCAAGAAGCCAAAGGTAGAGTAAATACTAATGCTGCTGCTCTTGGGGAATATACTATTGATAAGATAGTAGTGCTAGATAGTAATAATAATATTGTTGCTAATAGTAGCTTTGGTGAAGTAGATTTAGATAGTTATGATGATAGTTATAAGAAGATGATTCACTTTAGCCGTAATGTTACAGTAGAAGATATTGAAACTGGTCGAGTAGAGAGAAATAATGAAAAGAATTTGGGTTGGGTTTTCCTTGAGAATTTAAATGCTAATCAAAAGATTGGTAGTGTCTTAGAGTCTGGGAAAACAAAGTAGGTGATAGATATGAATTTAGAATTAGGTGAGGAAATAACACTAAATAATAAGGATAAGTACATTGTCATGGGTGTAACAACTTATGCTGATAAAAGATATGTTTTCCTAATGAATAACGATAATGATTTAGTTATTAAAATAGGAGAAGAAGTAATTGAAAATGATAAAGTCTTTGTTAAAATAGTGAAGAACAAAAAACTAATTAAAGAAATAATAGAACAGGTAGCTGGTGAAAAAATATCAGATTAATGATATTTTTTTATTATCTGGTTTTATCTGTGGTATAATATGGTAATAGGTGAAGGAGTATGGAAGATAAGATAGTTATTAAAGGAGCTAGAGAAAACAACCTTAAGAATATTGACTTAGAGCTTCCTAAAAATAAGTTAATTGTCATGACAGGTTTATCAGGTAGTGGTAAATCTTCTTTGGCGTTTGATACTATTTATGCCGAAGGAAGAAGAAGATATGTTGAAAGCTTATCAGCCTATGCTAGACAGTTCCTAGGAGGAACAGATAAACCAAAAGTAGATAGTATAGAGGGATTATCCCCAGCAATATCTATTGATCAAAAGACCACTAATAATAACCCTCGTTCAACAGTCGGAACTGTTACCGAAATATATGATTATCTTCGTCTTTTGTTCGCGAGAATAGGTACTGCTTATTGTCCTAATCACCATATTCCTATTAAGAGTCAATCAGTTGAAGAAATGGTTGATAAATTACTTTCTTATGAGCTTGGTACTAAGATGATTATCCTATCCCCAATTGTTCATGGTAAAAAAGGAACCCACAAAGATTTATTTGATCAATTAAGAAAAGAGGGTTTTGCAAGAGTAAGAGTAAATGGAGAAATTCTTGATTTAGATAGTAATATAGAACTAGAAAAGAATAAAAAAGATAATATTGATGTTGTTGTCGACCGAATTGTTATTACAGAAGATTCCCGTAGTAGATTACATGAGTCAGTAGAAACAGCATGTAAACTATCAGAAGGTAAAGTAGTAATTAGTATTTTAGGAGACAATAAAAAAGAATTGGTCTTCTCTGAAAACTTTGCTTGTCCGCATTGTGAGTTTTCATTACCAGAAATAGAACCAAGACTATTTAGTTTTAATGCTCCATATGGTGCTTGCCCTGATTGTAAGGGATTGGGTATTAAACTAAGAATTGATAAGGATCTAGTGATACCTGATAAGAGTTTATCTTTGAAAGAAGGATGTATTAAGACTTTAGGTGATGATGGAGATAACATTTATAATAAAAAACTAGAATGTGTTTGTAAGCATTATCATATTGATATGGATAAACCATTTGAAAAACTGACTAAGAAGGAACAAGAAATGATTCTTTATGGTAGTGACGAAATAATTCATTTTAACTATGCAACTAGAAGTGGTAATATCATGAATAATCGAGATTACTATGAAGGAGTTATTACTAATTTAGAAAGAAGATATATGGAAACTTCTTCTAATTGGATCAGAGAATGGTTAGAGCATTATATGGTTGAATTAGAATGTGAAACTTGTCATGGAGCTCGTCTTAATAATGATGTTTTATGTATTAAAGTAGGGGACAAGAACATTCATGAAGTAACAGAAATGTCCATTAAGGAATTAATTCCTTTCTTTGATAATTTAAAACTAACCGAAGAACAAAAAGAAATAGCAGAATTAATATTAAAGGAAATTAAAGATCGTTTGGCTTTCCTAGCTAATGTAGGACTTGAGTATTTAACTCTTTCCCGTTCAGCAGGAACTTTATCCGGCGGTGAAGCTCAAAGAATAAGACTAGCTACTCAGATAGGATCTCATCTAACAGGAGTTTTGTATGTCTTAGATGAACCAAGTATTGGTCTTCATCAAAAAGATAATCAAAGACTAGTAGATTCACTTTTAAAGATGCGTGATTTAGGTAATACTTTAATTGTAGTTGAACACGACGAAGAGACAATGCGAAGTGCTGATTATATAGTTGACATTGGACCAGCTGCTGGTAATGAGGGTGGCGAAGTCATGGCTAAAGGAACTCCGGCCGAAGTTATGAAAAGTAAAAAAAGTATTACTGGTGCCTATTTAAGCGGCAAAAAATGTATTGAGACTCCTAAAACAAGAAGGAAAGGAATTAAAAAGACTATTCAAATTAAAGGTGCTCAAGCTAATAACTTAAAAAATATAGATGTTACTATTCCTTTAGGAACTTTCACTTGTGTGACTGGAGTATCAGGCTCTGGTAAATCTACTCTAATTAATGAAATTATGTGTAAGGCTATTGCTAAAGAATTATATCGATCTAAAGAAAAACCACTTGCTCATAAAAAAATAGTGGGAATAGAAAATATTGATAAGATTGTTGAGATAACCCAAAAACCAATTGGTAGAACTCCAAGATCTAATCCGGCTACTTATACAAGTGTTTTTGATGATATTAGAGAATTATATACTAACTTGAAAGAATCCAAAATGTTAGGTTATAAAAAGAATAGGTTTTCTTTCAATGTTAAAGGAGGACGTTGTGAAGCATGTTGGGGAGATGGTGTTAAAAAAATAGAGATGCACTTCTTACCAGATGTTTATGTTCCTTGCGAAGTATGTCATGGTAGTAGGTATAATAAAGAAACCCTTAAAATAAGGTATAAAGGAAAAAATATTGCTGATGTCTTAGATATGAGGGTATCAGAGGCTTTAGATTTCTTCTCTAATGTACCTAAAATAAAGAGAAAACTACAAGTTCTAAACGATGTAGGACTAGGATATATTAAACTAGGACAAAGTGCTCCAACTTTATCTGGCGGGGAAGCAGAAAGAGTAAAACTAGCTAAAGAATTACAGAAAAAAGCTACTGGAAAAACACTATTTGTCTTAGATGAACCAACTACAGGATTACACACTGATGACATCAAGAGATTGCTTGCAATTTTACAGAAAATAGTAGATAATAATGATACAGTAGTAGTTATAGAACATAACCTAGATGTCATTAAAAGCGCTGATTATATAATTGATTTAGGACCTGATGGTGGTGACGGTGGAGGACAGGTAATAGCTACTGGTACTCCTGAAGAAGTTGCCCAAGTAAAAGGTTCATATACAGGAGAGTTCTTAAAGAAAGTATTATAGGAGGATATATGAGATTAGTTGTTAAAGAAAAAAACAAAGTTAGAATAAATCGTGTTGTTGAATGGTTAATCTACATGGTGGTTTATTTCCTTATTTTTTCCTTTGTAGCGAGTCTTTTTAAGACTGTTTATATTGATGATAGTCATTACTATATTTATTCAATTATTATAGTACTAATTATTTATATATTAAATATAACTATTAAACCAATCTTTGTTACTTTAACAATACCTATTACAGGGATGACTTTAGGCCTTTTCTATCCTTTTATTAATTATTTTATTCTAAAACTAACCGATTGGATTTTAGGACCACATTTTCAAATAAAAAGATTTTGGATTGGGGTCTTAATGGCTCTAATGATATCATTCTTCAATTTAGTAATCGATAAAGTAATAATTGAACCAATTATAAGGAGGTTTAAAGATGGACAAAACAGTTCTAAGCATAGGTAAATTTAATATATATTGGTATTCAATATTTATTTGCCTTGGTATTTTAGTAGCACTATTCTTCATTAGAAGAGAAGCTAAAAAACAGAAAATAGATAAAGAATTTATTGTTAATTTATCGTTCTATACCATCCTTTTTTCAATTGTAGGAGCTAGACTTTATTATTGTTTCTTTAATTGGGATTATTATGGTACTAATCTAGTTGAAATACTAAAAGTATGGAATGGGGGACTAGCTATTCATGGTGGCTTATTATTTGGAATATTAACAGTTTTAATCTATACAAAAAAGCACCAGTTACCGGTTTTAAAGATTTTAGATATTGTCGTTGTAGGAGTTATTATTGGTCAAGCTATTGGTCGTTGGGGTAACTTCTTCAATAAAGAAGCCTTTGGAGCGGCTACTACTTTAGCTAATTTAAAGGGCATGATGTTACCACAATTTATTATTGATGGTATGAAAATAGGTGGAGTTTATTACACACCAACTTTCTTATATGAATCAATTTGGTGTCTTTTAGGCTTTATTGTTTTACTTTGTGTAAGAAAGTTCTATGAACGTCTTCATATTGGTGATTTAACGGCTATTTATTTCATTTGGTATGGAATAGGACGTTTCTTTATCGAAGGATTACGCCTTGATAGTTTAATGCTTGGTAATATTAAAATAGCTCAATTAGTATCTATTATATTTATCTTAGTAGGATGTATAATACTTATTAAAAATATGCTTAATAAAGACAAATTTGCTAATCTATATAACAAAACAGAGTAGGTGGTATAATGCAAAAGAAAGTTGTTGTTTTTGGAGGAGGAACAGGTCTTTCTAGTCTGTTAAAAGGACTAAAAGAGTATCCTCTAGATATCACAGCAGTTATTACAGTATCTGATAACGGTAGATCAACTGGTAAGTTGCGTAAGGAATTTAATGTGCCCGCAGTAGGTGATATCAGGAAGGTTATTACTTCTTTATCAACTTCATCTGATTCTATTAAAGAAATGATGGAATATCGTTTCCATACTTCTAGTGATTTAGATGGTCACGCAGTAGGTAATTTAGTACTTACTTCCCTTTTAGACATTACTGGTAGTTTAAAAGACGCAATTGCGTCTTTATGTGAACTTTTCAATGTGAGGCATACAGTCTTACCTATTTCTGAAGACTCTGATTTAACTCTAATGGCCAAATTTCCTAATGGGGAAATAGTCGAAGGAGAAGAAAACATCTCGGAAAAAGGAGAAGTAATTGAAAAGATTTTTTATAAAGAAGAACCAAATGTTTTAAAAGAAGTTATTGATGCTATTAATGAAGCTGATTTAATTATTTTTAGTATGGGTAGTCTATATACTTCAATCCTACCTAATATTATTTGTAAGGATGTAGAAAAAGCTTTAAATAATTCTAAAGCGCCTATTATGTATGTTTGTAATGCCATGACTCAACCAGGCGAAACTGATAAGTTTAAGGTTTCTGATCATGTTAAACTACTTAATAGTTACTTAGATAAGAGAAAAATTGATATTGTTATCGCTAGTAACACTAAAATAAGTAAAAAGATTGCTAAAAAGTATGAAACAGAAGAACAAAAAGATGCTGTTCTTGTAGATCATAAAAACCTTGATAATATGGATGTTAAACTTATTGAATCAGACTTATTAATAGTAGAAAACAATGTTTTAAGACATGATGGTTTTAAAATAGGATCCATAGTAGTTTCTTATTTAATAGGAGATTAATATGTCATATACAGTTAAAGTAAAAGAAGAAATATTAAATAAAGAAGAAACAACTACTGAAAAAATAGCTAAACTGGCAGGATTTATTAAAAACAATGGCCTTCAAAAAGAAGAAGGATTAGTTTTGGCTACTGAAAACAAACAAATTAAAGATAGAATTAAAGAAGAAATATTATCTTTAATGGATATTAATATTGTTGAAAAAGAAACAGCAGGTAATAACTTTTCTAAAAAGAGTTTATATATGCTAGAAATAGTTGATTATGAAGTCCTATTAAAGACATTAGGATTACTAAATAGAGATGTTGTTGAAGAATATATAGTTGACTCTAATGCTGAGATTAGAGCTTATATTAGAGGAGCTTTTCTAGCAAGTGGTAGTGTTAATGATCCTAAGACTTCTAGATACCATATGGAAATAGTTGTTAACCAAAAAGAAGAAGCTGTTTTCCTACAAAAACTAATTAATATCTTTATGCTTAATGCCAAGATCTTAAATAGAGATAAAGGCTATATGATTTATTTAAAAGATGCTGAGGCAATTAGTGATTTCTTAAAGATATTAGGTGCTAATAACGCAGTTATGTACTATGAAGATATTAGAATATATCGTGATAAAATGAATAGAACCAATAGATTAAATAATTGTGAACAAGCTAATACTGATAAGATAGTTAATGCCGCTTTAGAAGAATTAAAGTGTATTGAAAAATTAGAAGAAAACATGGCCTTAGATCTTTTAGATGAAAAGGTTCAGGAAGCAGCAATCTATCGTAAAAAGTATCCAGAATCTTCCCTAAAAGAGTTAAGTGAAATTATATCTTTAGAAACAAATAAAAAAATAACTAAATCTGGACTTTATCATCGCTTTCGGAAGATAAAAGATTTAGCTAATAAATTTGAGTAGAAATACTCTTTTTTTTAATTGCTTTTTTTATTCATATGCTTGGTAACGCTTTCATTCACTGCTACCACGTATGCCTCTTGTAATGCCTTGATTGTTTCAGGATCTAGACCAGAGTCGTTGTTGACTATTTCAAAAGGAATAGTACCTCTTTTAATTAATTGCTTGATTGCCATATTAACAAAAGTAGACATATTAAGACCTAAGTCATTTAAAATTTCATTTGCTTTCTTTTTGTCTTTTGCATCAACATTAACATTGACGATGCTTGTCGCTGCCATTGTATCACCTCTATATACATTATGGATGCAAACTAACACATTGTCAATACAATATAACATGATTTTTAAATTATTTTATCTACCAATCCATAAGTCAGTGCCTCGTTGGCATCCATAAAGTAATCCCTTTCAGTATCCTTTTCAATCTGCTTTAAGGAAGCTTTTGTATTCTTAGAGAAGAGTTTATTTAGTTTAGTTCTTAGTTTTAAAATTCGTTCAGCCGCTATTTTAATCTCTGTTGCTTGTCCAGAGGCACCCCCTAAAGGTTGATGAATCATAACTTCGGCATTAGGTAAGATATATCTTTTACCTTTAGTACCACTAGAAAGTAGGAAGGCTGCCATTGATGCGGCAATACCAATACAAATAGTAGAGACATCGCTTTTCACTAAGTTCATCGTATCATATATAGCTAAGCCTGCCGTAATTGCACCCCCAGGTGAGTTAATATAAATATAAATGTCATCGTGAGAAATAGAGTCTAAATATAATAGTTCTGCAATAATATTATCAGAAGTATAATCAGTTATTTCACCACTTAAAATAATAATCCTCTCTTTTAAAAGACGCGAGAAAATATCATAGCTCCGTTCCCCGTTTAATTCTTGATCAACTACCATAGGAATTAAGTTCATTTTCTTCACCAATAGTAGTATATTTTAAAGAAATAAAAATATACATGTAATAAACCGCAAAATATGATATAATTAAATAAGGATAAAAGGAGGTGTGATAATGAACGAAGAAATTAAAGTATATATTAATAGTCAAGAATATACTTATCCTAAAGGCACAACACTACGTGAAATATCACAATCCTTTACTGATAACTTTAAACATCCAATTATCCTAGCTAAAGTAAATAATAGTATTAAAGAGCTAGGTAGAATTCCTGAAAACAATTCCCAAATAGAGTTTTTTGATTTAACTAATAAAGTCGCTAATAGGACTTATGTAGCGGGCTTGGTTTTTCTTATCCAATATACAGTTAAACAGTTATATGGTAAGGAAGCAGATATCATTTTGCACCATTCAATTGATAAAGGACTTTTAATTGAAACAACTTTTCCTCTAACTGAAGAAAAACTAAAAGAAATAGATACTAAAATGCATGAAATAGTTAAACAAGATCTGCCAATAAAAAAATTAGCCGTTGATCGAGTAGAAGCTAGTAACTATTTTAAAAAAATAGGTGATTTATCAAAAGTAGGAACACTAAAGTATAATACTAATAATATAGTATCATTATATAAACTAGGCAATATTTATAATTACTTCTATACTTATATGCCAGCATCAACTAAATACTTAGATGAATTTGCTTTCACTTATATTAGTGAGAGTAGATTTGTTCTTCGTTATCCAACAGTTTATCAAAGTGATACTATCAAGGAATATGTTCATCATGAAAAACTATATAATGCCTTTGAACTATGTAATGATTTTAATCAAAAGACCAAAATAGAGAATGGCTCTGATATTAATAATATTGTTTCTCGTGGTTGGGCTGATGAAATGATTAGGCTTAATGAAGCTGTATATAATAAGATCTTAATTGATTTAGCTATTGAAATAACTAACCATAAAGAAATAAGTATTGTCCTAATGGCTGGACCTTCTTCATCAGGTAAGACAACTGTTTCGAAAAAGTTAAAAACATTTATTAATGGTCAAGCTGTTAGAGTTTATTCAATTTCGATGGATGATTTCTTTAAAGAGAAAATGGATACTCCTAAAATAGATGGTAAATATGATTTTGAATCATTAGATGCTGTTGATTTAGATTTATTTAATGGAACAATGGAAAAACTACTTAACTATGAAGAAGTAGAGATGCCTACTTATAATTTCATTACTGGTAAAAAAGAATTTAAAGAAAAAATAAAACTAGAAGAAAAAGATGTCTTAATAATAGAAGGAATACATGCGTTAGACACCAAGATACTACAAAATATTCCTAAAGAGAAGAAATATAAGATATATCTTTCGCCACTTACTGAATTAAATATTGATAATCATAATAGAATATCTACTACTGATAATAGACTTTTAAGAAGAATAGTAAGAGATAATAGAACTAGAGGATATGATGTAGAGATGAGTTTAGCGGCTTGGGATGACGTTAGAAAAGGTGAAGAAGAATATATCTTCCCATTCCAAGATGAAGCAGATTATGTTTTCAATTCTGGAGAAATATATGAAATGGGAGTCTTAAAGACGTATGTTGAGCCATTACTATATAATGTCAGTATTGATTCACCATATTATGAAGAAGCCAAGAGATTAATTAACTTCTTAAGAGCCTTCTTACCAATACCAAGTGATGCTATCCCTAAAGATTCAGTTCTAAGGGAATTCATCGGCGGATCTTGTTATCATGATTAAATAAAAACAAGGAAAATCCTTGTTTTTTATTTTAGCAACATGTATAATAACTATGTAAGGTAGGGAAGAACAAGAAGATGAAGAAAACATTTAATTTGTACAATATAACTTTAATACTCGTAATAGTATTAGCATCATTACTAGCATTCAAAGCACCAGAAGTAAGAGCATCTGGAACAGTAACATGGAGTGGACCTAGTTCCATAACTATTAGAAACACAATAAATGAGGTAATGAATCCTATGGATGTGTCTTTGACGTATGTAATAGAGGCCGATAGTGATAATCCCTCTGGAGCTAGTGGGGCTCCTACCAATGTTACAGCAGCATTTACAAGAACTTCACCAACAGTTTCTAATTATACATTAACTAAAACAGCAGTCCTTAGTTTTAGTAATATGACATTTACCGATCCGGGCGATTATACTTATAATGTTATTTTTGGTACTGATGATATTGGTGATATCGGTGGTGATCATGCCGTATATGTGGTCCCTGAGTTTACTGCCAATTATTCTCAGTATAAAGTAGTTATTTCTGTGAGAAATATAGTTGATAGTAATAATAATCCAACTGGGAATTATACAGCCAGTCTGATACTACAAGAGTGTAATGATGAACAATCAACAGAACTTGTTTGTTCTAAAATCAATTCAGAAAGTGGAGTTTTATATGCTGACTATGATTATGCCACTACAAATATGTCAATGGGTGCAATTACGAAAACAGTAAAAGGTATAGGGGCAGACACTACCGAGTATTTTCCATTTACTATATCAATAGATGATGAAGATGGTACTTTTGATGGCTGGGTATTTCCTGTTACTATTTATGAGGATATTTATTCTAATAATCCAACAGATGTTACTAATATTTCAGTTAACTATAATGGCCAAACAAGGACACAACCAACCAGTATTACTAGTGGCGGTTCTTCAATAACACTTTATTTAAAACACAATCAAATAGCTGTTATAGGGGCAGTGATAAATGAAAACAATCCGGGCGAAGCTCTTATGGGGATTCCGGGGGGAGTCTCTTGTGGTAATGATTCTGGTACCACATCTGGTCAAAGCAATCATATTAATAAAAAGTTTGAATTAAAAAATCTTATTCAAGCACCTGATACATCTTCCAAGAACAAAGTTATTCAATTAGGAGATAGTACGCTTTGTGGAGGAGACAAATGGTCAGTTCAGGAAGAACAAGGTGATTATACGCCTTCATATGCATTTATTAACGGCGGCTCTTCAGAAGAGACTGAAGGTAATTCGTTCTCTGATGTTCGTTTTCCGCATAATAATACCTCTCAAGTTATATTCACCAATACTAAAGAGATGTCGCCTGTTACAGGGCTAATTTTTACAATACTTCCATACTTAATACTAGCAGGTATAGGTGTTGGAGGAACTCTTCTAATAATGTATTTAAAGAAAGAAGAAAAAGCAAATCAATAGATTTGCTTTTTTGTTTAGTGACGGGTATAATAAATATATAAGAAAGTGGTGATAATATGAAAGTTGCAATTAATGGTTTTGGAAGAATAGGAAGGTTAGTATTAAGATTATTAGATGGTGATAGTGATTTAGAATTAGTAGCTATCAATGATTTATCTAAACCAGAGGACTTGGCTTATTTATTAAAATATGATACTAATCATCGTAATTATAAAGTAGATAGTATTACTAGTGATGAAGATGAACTTATAATTGATGGAAAACATATTAAAGTATTTGCTGAAAGTGATCCTTCTAAGCTACCTTGGAAAGATTTAGATGTTGACATTGTTTTTGAATGTACAGGACATTTCACTGATAAAGATAAAGCTAATGCTCATATTCAAGCTGGTGCTAAAAGAGTAATTATTTCAGCTCCTGCTACAGGTGATTTAAAGACAATAGTTTATGGTGTTAATGAAGAAACACTAGATAGTAATGATATTATTATTTCAGCTGCTTCTTGTACTACTAATGCCCTTGCCCCAGTAGTTGATGTTATTGATAAGGAATATGGGATTGTTAAAGGCTTCATGAATACAGTCCATGCCTATACTAATGATCAAGCCACTTTAGATATTGCCCATCCAAAAGGGTATATGTCTCGTCGTGGTAGAGCTTGTGCTATGAATATTGTACCAGCTTCTACTGGTGCTGCTAAAGCTATTGGTAAAGTAATACCAAAACTAGAGGGTAAGTTGGATGGTATGGCTCTAAGAGTTCCTACCTCAACTGGTTCAGTTATTGATATTGTTTTAGAACTTGAGAAGAATACTACTAAAGAAGAAATAAATAGCTTATTAGAAAGTAAAAAAGGTGATGTTATTGGCTTTACAATGGACCCAATTGTATCTAGTGATGTCATTGGTACCAACAAGGCTACAGTAGTTGATGGTTTATCTACGAATGTCTTAGATGTTGATGGCAAACAACTAGTAAAAGTAATCACCTGGTATGATAACGAGATGGGCTACACCACTCAAATGGTTAGAACAGCTAAGTATTTCAGTAAAATTATGAATTAAAATTCATAATTTTTATTATGGGTTGACCGACCGACCGACCTATGATATAATATTTATAGAGGTGATAGTATGAAAGACAAAAAATGGCTAAAAGACATGCGTATAAAACATAATCTTACCCAAGAAAAGTTGGCAATTAATACAGGTTTATCTAAGTACACAATTGAGAATATTGAACAGGGTAAACGTAAAGGTGACAAAAAAACTTGGGATGCTATAGAAAAGTATTTTGCCAACACTAGTAAAAAGAGATCTCCTAAGAGTTTGTTTTTAAAAGCAATTGAAAAACAACATTATTATGAAAACTTTATTACCCGAAGTATTAAAAGTTCCAATGCCATTGAAGGGAATACTTTGTCGTATGCGGAAACATATTCGATAGTGTTTGCTGATGAATCATTACCATTACAAAATATTAATCCACGGGAGTTATATGAAGCTATCAATTTGAAGTATGCTTTAAACTATTCACTAGAACACTTAAATAGTTTTAATACTAGTTTGGTTATCAAGATAAACGAATTAATTAATAAAAACATTAAAGATACTAAAGGGTATAGGACAGGTAAAGTCTTGATAAAAGGTGCCGATTTTGTTCCTCCTCAAGCTTCTTTAGTTCCAAGTATGTTAAACGAACTTATTTACCAATACCAAAATAGTGAAGCTCCCCTTTTAGAGAGGATTGCCTTCTTTCATATTGGTTTTGAACGGATTCATCCTTTTGAAGATGGTAACGGTAGGACAGGAAGGGTTTTAATAAATCACATGTTAATAAATGAAAATCAAGTTCCGCTCGTTATTCCCGAAGAAAAAAGGATAGAATACTTTGAGTATCTACAAAACGAAGATACAATAGGTTTAGCTAAAATGTTTGCAGATCTACAAGAAAAAGAAAAAGCTAAAATAAAAGAGTATACTAAATAGAAAATTGAATTTATAAGCAAATAAAGGTATAATAATAAAAGAAAGAAGAGGTCCATATGAAGACTATTGAAACATTAGATTTAAAGAATAAGAAAGTAATTATTAGATGTGATTTTAATGTGCCTATTAAAGAAGGAAAAATACTTGATGATACTAGAATAGTTAGTGCCTTAAAGACAATTAAATACTGTCTAAGAAAGAATGCTAAAGTAATACTTATGTCCCATTTAGGTAGAATTAAAACTAAAGAAGATCTTTCTAAAAACGATTTAAAAGTAGTTGCTGATTACTTAAGTGAATTACTTAAAAAAGAAGTACTATTTTCTTCTAAAACGAGAGGTAAAGAATTAGAAGAAATGATAGATAAAATGAATTCAAAGGACATTCTTTTAATTCAAAACACTCGTTATGAAGATTTAGATGGTAATAAAGAGAGTTCTAATGATAAAGAATTAGGAAAGTACTGGGCTTCTTTAGGAGATGTTTTTATTAATGATGCTTTTGGTATGATTCATAGGGCGCATGCTTCTAATGTCGGTATTGCGGAAAATATCCAGGAAAGAGGAATTGGGTTCTTAATTATGGAAGAACTAGATAAATTAAGTGAACTTGATAATCCAGCTCATCCTTTCATTGTTATAATGGGAGGAGCCAAAGTATCTGATAAAGCTAAAATGATGGAAAATCTATTAAAAAAATGTGACTATATTTTAGTTGGTGGAGAACTAGCTAATACCTTCTTAGTTGGGGAAGGTTATGACTTAGGTTCTTCACTAGTAGAAGAAGAATCTATTAAGTATTGTCAGAAGGTCCTAAAGAAATATGCTGATAAAATAATCTTACCAATTGATTTCAAAGTAAATAATGAAATAAGTAATCGTGATTATGTTATTAAAGATATTACTGAGTTTAATTATGATGACATTGCGATGGATATTGGTGATCGTAGTGTTAAAATATTCAAAAAACATCTACAAAAAGCTAAATTGGTTTTATGGAATGGACCATTAGGTGCTTATGAATATTCTAATTATCGTCGTGCTACTTTAGATGTTTTGAACTTTCTAGTAGATAAAAACATTAAGACTATTATTGGTGGTGGTGATATTGTCGCAGCTTCTACTGATTTCAAAGATAAAATCTATCATATATCAACTGGAGGCGGAGCCACTTTAAAATACTTAGAAGGAAAAAAATTACCTAGTTTAAAGATAATGGAGTAAAATATGGAGTTTGTAAAGAATCTTAGAAAAAATACAATAGTTCTCCTATTGATAACTTTTGTTGTTCTGTTTTTTGTCTTAAAAGATGACTTTAATGATATTATTGATACCCTTTTTAAGATGAAGTATGGCTTTATTGCTTTAGCAGTTTTATTTGTCTTTATATTCTTATTTATTAAGGCTTTCATTTCTTATAAAACAGTTAAAGAAAAGGAGAAGTACTCCTTATTAGAAGCATTAAAACATACAGTAATAGTACAATTTTTCAATGGTATTACCCCTTTTTCTACTGGTGGTCAACCAATGGAAATATATATGTTAACTAAACATGATATAAGTGGTAGTAGAGCAACTTCAATAGTAGTACAGAACTTTATCTTCTATCAGACAGCCTTAGTTATTTTCGGTATTTTTGCCGTAGTAATGAACTATTTTTGTGAATTCTTTCCTAAAGTACCATTACTAAGAGAATTAGTATTATTAGGATTTATTATTAATACTTTAGTATTATTAGGAATCTTATTAATAGCTTTTTCTTCTAGATTTACGGGTTTCTGTTTAAAAATGGTTCTAAAAATTACTAAGAAGATTAAAGTGTTTAAAGATAATAAAAAAACAAAAGAAAAATGGGAGAATAGAATAAAAGAGTTTAATAGTTGCGCTAAAGAACTAAAGAATCGCAAATTATTCTTTGTTTCTAGTGTTTTATTAAATATTGTTAGTTTAGCATTTTTCTATGCTATTCCTTATATTATTGTTAGAGGAACACCTAATTTAGAGAATATTACTCTAATAGAGAGTTTAGTGGCCTCAGCCTATGTTTTAATTATTGGTTCCTTTGTACCAATACCTGGGGCTTCAGGAGGTATTGAATATGGGTTCTTGGCTTTCTTTGGAAACTTTATTCCTGGAAAGATTACCCCCGCAATCCTTCTAGTATGGCGCTTTATTACTTATTATCTACCAATGATAATAGGAGGTATATTATTTAGTTTTGATCGAGGTGAGAGCAAATGAGAATAGGACTTTTTACTGATACTTATCCACCTTTTATTAACGGAGTATCAACTAGTGTAGAAATGCTTAAGAATGCTTTAGAAAAGAAAGGACATACAGTATATATAGTTACTGTTAATGAAAGTACAGTTAAGTATAATTATGATGAAGAAAATCATGTTTTAAGAGTACCAAGTATACCAATTGGTTGGTATAACTATCGAATGAGTGGTACTTATCCTATTAGAGGAATTAATATAATTAAAAAATGGAAATTAGATGTTATTCATTCTCATACTGAACTAGGTATAGGTATTATAGGAAGAATAGTTTCTAAACAGTTTAATATTCCTCTTGTACACACATATCATACAATGTATGAAGATTATACCCATTATGTAGCTGGTGGTCACCTTAAGCATACTAGTAAAGCAGCTCTTAAGTATTTAACAGAGTTTTATTGTGATAAGACTGCTACTGAACTTATCGTACCTACCGCAAAAACATATAAATTATTTAAAGATAAATATAAATTCGAAAGAAACATTCATATTATTCCTAGTGGTATTGAAGTAGATCGTTTCTTTAAAGAAAATGTTGATAGTAAAGAAATTCAACTCCTTAAGAAAAATCTTAAAATTACCAAGAACGACTTTATCATGCTCTTTGTAGGTCGATTAGCTAGTGAAAAGAATGTTGAATTCCTACTTGATTTAGAAGAAAAGCTTCTTAAGAAGAATAAGGCTTTTAAGCTATTAATAGTAGGAGATGGACCTGATAAAGAGAAATATGAGGAGATTGCTAAAAAGAAAAAGATTGATGCTAATACAATCTTTACTGGTAAAGTAGCTTGGGATGATATGCCATTATACTATCATTTAGCTAATATCTTTATCACAGCCTCTATTACGGAGACTCAAGGATTAACTGTTATTGAAGCAATGGCTTCTGGACTTGCTCCTTTCTGTATTGATGATCCAGCCTTTTTATCAATGTGTACCGATGAACTTAACTCTGTTATCTTTAAAGACTTAGATGACTGTTATAAAAAGATAATAGAGTTCCATGGTAATAAAGAAAAACAAAAACGTTTAAACTCACAAGCTCGTATTCAATCTGAACACTTATCTTCAGCTCGTTATGCTGATAGTGTTTTAGAAGTGTATGAGCACGCTATTAAAGAAAAGAATAAAAACCGGTACGGAATTATATCGGCTATATCTAGAAAAATAAAAAAAGACAAGTAAAAACTTGTTTTTTTATTCGACAAAACTTGTCTTTTTTTGCTCTTTCCAAACAGCCAGTTCTAGTATATAATGATACTACATGGTAGTATATGGAAGGAGAAATGATGAAAAAAACGAAAGTTCTGATGATTGATGATAATAAGGAACTTGTAACCATGATTGAAGAGTATTTTAAAAATGAAGAGGATATTGAAATGGCTTTTAAAGCCTATGATGGAGTAGAAGGACTAGAACTGATTGAGAAGAAACAGGAACAGTATGATTTAATAATATTAGATCTAGTTATGCCTAAAAAAGATGGGTTATATGTCTTGGAGAAAATGAAGAAGAAAAAGATTAATAAAGATGTTATAGTACTTACTTCGTATAATGCTCCAGATATGATTAGAAAGACTTCAGAATTAGGTATTAGCTATTTCATTTTAAAGCCTTTTGAATTAGATGATCTTAAAGAAAAGATTGAAGAAGTTGTTGATGGTGTTAACTATCAAGCTAAATCAATGGATATTTATAAGAACAATTTAGAGAAATCAATTACGAAGATACTCCATGAACTAGGAGTACCATCACATATTAAAGGATATCAATATATAAGAGAAGGGATAATTACTCTTTATAATAAACCAGAAGTAATAGGTGGAATAACTAAAGAATTATATCCTGATATTGCCAAAAAATTTGATACGACAGTATCTCGTGTAGAACGAGCAATCAGACATGCTATTGAAGTGAGTTGGAATAGAGGTAATTGGGATTTAATGGAAGAAATATTTGGCCATAGTGTCGACATTGATAAAGCCAAACCCACTAATTCAGAGTTTATCGTAACTATTGCTGATAAATTAAGACTAGAATTTTCCTATCTATAAAGCAGAAATAGCTGCTTTTTTTTATTGAAAGAAAAGCAAATGTTTTATATAATATAAGTATAAGATAATAAGGAGAAGTCTATGAAAAAAGTATTAAATATTAAAAATATGGGACTATTATTAATAATAGTATTAATAGCTGTATTAACTATAAATACTAAAGAAGCAAAAGCAGCAGGAACAGTAACTTGGAGTGGACCAAGTAGTATAACTATTAGAGATACAATACATAATATAGCTAATCCTATAGTGGCTAGTACGAAGTGTGTTCTTTTTGAGGGGGGTGATACTCATGATGATGTGGCAACTACAACAATAAACTATACAGCGAGTGATACACCAACTAACTATCAAATAACTAAATCCGCAACAATGAATTTATCAAGCCTAACATTTACAAAGCCGGGTGATTATTCATACAACTTAGTTGAGGAGCTGCTTAATTCAAATGCTGAAGCATTTTGGCCTGGCGAGGATGCCCCCTATTATAAAGTGACAATATCAGTAAGAAATATTGTAGATGCAAACAATGTGCCAACAGGAAACTTTACTGCATCATTAATAATAGAAAAATGTATAAGCGGAAATATCTGTTCAAAAATAAATCCCGTAAGTGGGAATTTGATTGTCGATTTTGATTATGAAACCAATCCTGAAAGCTTTGGCCATATTGAAATATCCAAAACAGTAAAAGGTATAGGTGCAGATATCAATGAATACTTTCCATTTACAGTTTCAATTGATGATGCAGATGATGCTTTTGATGGATGGGTATATCCAATAAGCGGAATAGATTCAACTGTGACATATAATGGAAGTACAGTAAGTAATCCAACAACTATAACAAGTGGTACTCCAACAACAATATATTTAAAACATGGTCAAACAGCTATCATAGGACAAGTTACAAGCGGAGGAAATACATTTGATGCAATCCCAAATTTTTATTGTACAGGTGGTGGCCATTCTCCTACCGTCACATCATATAATTTTTCAAAAAATCTTAGAATTAGGAAACTCGCTAATATAGATGGGAAAACCTGCTATGGAAGTTATGTTTCTATTTCTGAGAATTCAGGTAGCTATACTCCCTCAATTTCTCTAGATGGAAGTGATTATATAAGTGGTGATTCATTTGATGATATAGATGGATTAGACTTAATAGATAATACAAGTTTACCGGTTGAATCTGAAACCAATGCTTATTATTTTGTAAATACTAAAGAAATGTCACCAGTGACAGGATTAATCCTTACAATATTACCTTATTTAATACTAGCTGGTATAGGTATAGGAGGAACCCTTCTAGTAATGCACTTAAAGAAACAAAAAGTAGATGCTTAATATCTACTTTTTATTTGAATATTTATTTAATATGTGGTATCTTTTCTATGGAGATAGGGTATGCGTAAGAAGAAAAAATTAAAACGAAAAGTAAAAGTTTTAATTCCTGTTACTATTATTCTGTTAATAGTTTTATTTGTTGTGGGCTATTACGAGATTCATGGTGATGTTAAGAAGTTATCTCTAAAGCTAAAAGGTCCTTCTGAAATAACTCTAGAATTAGGAAAGAAATATATCGAAAAAGGAGCTAAAGCTTACTATAATAAAAAGAATATTTCTTCTACTATTAAAGTTATTGGGCATGTTAATAGTGAAAAAGTAGGGAAGTATAATATAGGGTATAAAGTAAAGTATAAAATGGTATCTAGAAAAAAGAAAAGAGTAATAAATATAGTAGATACTATTAAACCAGTAATAACTTTAGTTGAAGATGAGATTAATATTTATCAAAATAGTACTTATGAAGAACCTGGTGTTAAAGCTACAGATAATTATGATGGTGATATTAGTTCAAAGATTAAGGTAGATAATAAAATTGATATTACTAAAGTAGGTACTTATGAAGTTATTTATAAAGTAAAGGATTCTAGTGGTAATAGTGCTGAAGCTAAAAGAATAGTTAATGTTGTTTTAGATAATCCTAATCAGAAAGTAGCAGTCTTAAACTATCATTTTTTCTATGATCCTGATAAAGGAGAAGGTTGTAATGAATCTATTTGTGAAAAAGTTAGTGATTTTAGAGCTCATCTAGAGTATTTAAAAGAGAATAATTTTAAAGCTCTAACGATGAAAGAATTTAGAGATTTCATGTATGGTAAGAGAGCTATTCCTGAAAAATCAGTTTTAATAACTATTGATGATGGTGCTTTAGGAACAGGTAAACATAATGGTAATAAGTTAATTCCTATCTTAGAAGAGTATAAGATGCATGCCACGCTATTTCTCATTACTAGTTGGTGGGATATAGAAAACTATCGGTCTCCTTACTTAGATATTGAATCTCATACTAATGATATGCATAGAGAAAATAGATGTCGGGGAGTTACTCGTGGGGCTCAAATGTTATGCTCAAGCAATGATGAAGTTCTAAAAGACCTTCAGAAATCTATTAGTATTACTAAGTCTAAACAAGCATTTTGTTTTCCGTTTTATGCTTATAACCAAAATGCTATTGAATTAGTCAAGAAAGCAGGCTTTGAATTAGCCTTTATTGGTGGCCAAAAGAAAGCTACTAGAAATACTGATAAATACCACATTCCTAGATATGCTATTGTCAAAGAAGCTACTTTAGAAGACTTTAAACATTATGTTAATTAAACTACATCTATTGATGTAGTTTTTTAATGGAGATATTGACTTTTAATAACTATTTATGTATACTTAATTTATAAAAAGTGTAAGGATGTGACAATTTATGGAACGAAAAATATATGATTTCTTCTTAAAGTGGAAAAATGATATTATCAGGAAGCCATTAGTTTTATATGGACCTAAACAGGTAGGAAAGACTTTTTCAACTTTAGAATTTGGTAAAAGAGAATATAAAAATATTGCTTATTTTGATTGCTACAACAATCCTAAAATAGTAGATCTATTTAAGAAAGAGAAAGCGCTTGATCAAATAATAGTTAAACTATCATTACTAATTAATGAAACCATTATTAAAAATGACACACTAATGGTATTTGATAATGTTGATGATGTTGAAATAATTAAAGGTATTAAACTATTTAATGCTAATACTGAATATCATATTATTGTAATTACTTCCAGAAGAGAGAACTTACTTAAGTTTAAAGGTGAAGAATTATTGTTTAAATCAATGACTGAATTAGATTTTGAAGAATACTTATGGGCTCGAGAAGAGAAGAACCTAGCTAATCTAATTAGAGAGTCTTTTGATAAACATCGTAGTTGCCGTTTTCATAAACTAGCACTTGAATACTTTTATGAGTATTTAGAAACAGGTGGTTTCCCTGAAGCTGTTTTAGCTAATGTCGAAGGTAAGAGTAAAAATGAAATAAATGTCATTAAGAAAAAGATAATGGATACTTATAAATCAGAGTTTATCTTAAATAAGAATTTAATTGATATTCCTCGATCTTTAGAAGTGTTTGAAAGTATCCCTAGACAACTAGCTAAAGAGAATAAGAAGTTCCAATATAGTGCTCTTGGTAAAGGAAAAAGAAAAAGTGAATATGAATCAGCTATTAAATATTTAGTAAATAACCAAATCCTTTATCGTAGTTATAAAGTATCAACAGTTAAATCCCCTTTATCTAGTTGTAGAGAGAAGGATAGCTTCAAACTTTATTTAACTGATGCAGGATTACTTTATTCAATGCTTCATATTACAAGAAAGGATCTCCAAAACTATTTAATTAGAGAAGCTTTATTTGAAAACTATATTGCTAAGACACTAGTTGATTTAGGTTATGTATTATATTTTTATCAATCTGAAGGAAAAGCTTTAGTAAACTTCGTTGTTCAAAACCGAGTAGGGGATATAATCCCAATAGAACTTATTACTAAGGAGAACTCTAAAGCTAAGAACCTATCAGTATTTGTTAAGAAAGTAACAGTAAAAGAAGGTTATCGAATAACTGAGAACAATTTCTCAACTAAAAAGAATATTAGATATATACCTATTTATGCTACTTTCTGTATAGGATTCTAGGATGCAATATAATGATATAAAGACACCTCAAGAGTTATATCTCTTTATGAAGAAAAACATAAAATATGGATTCATATCTAAAATAGATAATAAGGCCTATAAAAGGGATGAGTTAAATGATGATGAATTCTATGATTATATGATTCATCATGGCTATTATCTACAAACACCTGAAGAATTACTAAAAAGTGGTTATGGTTTATGTCTGGATCAAGTAGAATTAGAACGTGATTGGTTTGAAAGACATGGGTATAAAGTTTATACATATCATTCTAACTATCACAACCACACTTTCTTAATATATAATGAAGAAGATGCTTATTATCTGTTTGATAGATCATTTTATATATTTAATGGAATTCATAAAGCTAATTCTTTAGAAGAGTGTTTAGACTTATACATTGGTCTTCAAAAAAATAATTTAAAGGAACCAACTAAAGAAATAGTTCTTACTCCTTATGAAAAAATAGAGTTTGGACAGGGCTTTACTGAAATAATTAAGCATTTTAAAGAAGAATTAAAAGATAAAATAGTATTTAAGTTATAAAAAAACAGTTTGTTTATCAAACTGTTTTTATCTTAAACTATCAATTATTTCCTGAGCTCTATCCAAATTAGCATCAATATCTTCTCTATTTTCTATTTCGTTATATTTCTCTGCATTTTGCAATACTCTATCAAATTTTTCTAAGTTTTCCTCTCTAGTAGCTTCAGTATATATAGCTTTAAATACTAACATATCAACGAAGACCATTATAATTAAAGCTAGAACACTTAGTGCTAATCCAGAAATTGACATTCCCTTACTTTGATATTTACTTAAGGCAATAATACCAAATATAATAGCGACAACTCCGCCAAAGAACGATAATACATTAACAAAAGGTATAAATGATAGAATTAAACTGACAATTCCTAGAGTTAAAGCTACAATCGCAAAACTATTATTTTCGCTTTTCTTCTTCATAGTTACTCCTTTCAACATTATTATAATATAGATTAAATTATAAGTAAAATAAGATTGCCAATATAGAAAATATGTTCTATAATTTAATTGGAGGTGTTGTTTATGAAAGATAGAATTATATTTCATCTTGATGTGAATAACGCCTTTTTATCATGGAGTGCAGTTGATTTGTTAGAACATGGCTATAAGAAAGATATCAGGAAGATACCTGCTATTATTGGTGGTGATGAAACAAGAAGAAGGGGAATAGTTTTAGCGAAATCCCCTGTAGCTAAAAAATATGGTATTAAAACAGCAGATACCATCTATGAAGCTAAAAAGAAATGTCCGCAAATAGAATTGTATCCGCCATATTATGAGTTATATAGTAAAAAGTCACGTGAATTATTTACTTATTTAAAGAAATATACACCTACTATTGAACAGTTCTCTGTTGATGAGGCTTTTCTAGATATGAGTGGTACTAATTTATTATATAAAGATCATGTTAAATTAGCTCATACTATAAAAGATGATATTAAAAAAAGATTTGGTTATACAGTTAATATTGGAGTAGCTAATAATAAACTTTGTGCTAAGATGGCTAGCGATTTTGAAAAACCGGATAAAGTACATACTCTATTTAATGATGAAATAAAAGAAAAAATGTGGCCATTACCAGTAGAAGACTTGTTTATGTGTGGAAAGAAAAGCGCCGAAAGATTACATAGTTTAGGTATTGATACTATAGGAGATCTGGCGAAAGCTGATGTTGGGAAATTATATAAGCACTTTAAGAATCAAGCCAACTTCTTAATAGAAAGTGCTAAAGGAATTGATAATTCCAAAGTAATCCCCAGAAAAGAACGGACTATTAAAAATGAGAGTATAAGTACTAGTAGGACATTAAGTTATGATTATACAGATATTGATAAATTAAAAGAAATACTATTTAAACAGGCTGAAAGATTAGGTAGAGAGTTAAGACAAAAGAAGAAGTATACAACTACGGTTGGTATTGTTTTAAAGAATAATTTATTTAAGAGTTATTCCCATCAAAGGAAAGTAGAGGCAACTAATAAGAATAGTGTTATCTATAAAACAGCTTGTGAACTTTTAGAACGTAACTGGCGAGAAGATCCAATTAGATTAATTGGAATTAGGTTAGCAGACTTAACAACGAATCGTGATGTTCAATTATCTTTTGATAGTAAAGAAGAAAACAAAGAAGAAGAAATAATTCAAGATGTTATGGATAGAATCAATAATAAGTTTGGTGGTAGTAGTGTTATACCGGCTTCAATGAAGAAGAAAAAAGATTAATACTTTAATTAAGTGTAAAGACATATATTTAATTAAAGTTTTTTTATGAAAAAAATTTCTAAAAAACACTTGCAAACGTTGTAATACTTATGTTAAAATAGTCCGTGTGTGACTGCTTAGATGTGCGAGGTTGTCGATACACTAGGATAAGTTGCTAACTAGTTATCGGGTTTTTTGCACGGAGCAAGTCTATACTAAGATATAGGCGAAGGGAGGATTTATATGTCAAAAGAAAAGGTTCGCATTAAATTAAAAGCATATGATCATAGAATTCTTGACAATGCAGCAACAAAAATAGTTGAAACTATCAAACGTTCAGGTGGCGAAATATCAGGGCCAGTTCCCCTACCAACTGAAATTGAAAAGTTCACAATTCTTAGAGCTGTACACAAATACAAAGATTCACGTGAACAATTTGAAATGCGTACACATAAGAGACTTATTGATATCAAAAATCCTAGTAAGGAAACGATTGATGCATTAGCTCATCTAGACTTACCTAGTGGTGTAGATATTGAAATTAAAACAAAATAATAGGAGGAAATAATAATGAAAGGAATCTTAGGTAAAAAGATCGGAATGACCCAAGTATTTACTAAAGATGGTAAATTAATTCCGGTTACTGTTATTGAAGTAGAACCTAATGTGGTTACTCAAATTAAGACAGTTGAAAAAGATGGTTATGATGCTATTCAACTTGGTACTGATACAGTAAGAGCCAAGATAAGCAACAAGCCTAAAATGGGTCATACAAAAAAAGCAAATACTGAACCTAAGCGCTTCTTAAGAGAAATTAGAGGAGTTAATGTCAGTGATTATGAACTTGGACAAGTAATGAATGTTTCAGTATTTGAACCAGGAGAAATGGTAGATGTTACTGGAACTAGTAAAGGTAAAGGTTTCCAAGGTGTTATTAAAAGACATAACCAATCTCGTGGACCAATGGGACATGGTTCTCAATATCATAGAGGGGTAGGTTCACTTGGAACAATGCGTCCAATGCGTGTTATCCCTGGTAAGAAAATGCCTGGTCAAATGGGTAATGTTAGAAGAACAGTTCAAAATCTAGAAGTAGTAGAAGTAGATGTAGAGAACAATCTTATTTTAATTAAGGGAAATGTACCTGGACCAAAGAAAGGTTTAGTAATAATCAAAACAGCTGTTAAAAACCCAACTAAGAAAGATGCTAACGAATTAGTTAACTATGAAGAAGTAGTAGAACAACCAATTGAAGAAACAGTAGTTGAAGAAACTACTGAAGAAGCTGTTCAAGAAGAACCTAAAGAAGAAACTACTGAAGAAGCTCCTGCAGAAGAAAAAGAGGAACCTTCTGAAGAAACAAAAGAAGAGAAAGAGGAAACATCACAAGAATAACTAACTGATTAAATGTGATGGAAGGAGGATAAGTATGAAAAAAGTTGATCTTTTAAATGAAAAAAATGAAAAAGTAAAAGATATTAAACTTAATGAAGATATATTTGGAATAGAACCAAATGATAAAGTCTTATACGATGCTATTATTTTAGCAAGAGCATCACTAAGACAAGGAACTCATAGTACTAAAACTCGTTCTGAAGTAAGAGGAGGAGGCCGTAAGCCTTGGAGACAAAAAGGTACTGGTCATGCTCGTCAAGGTTCAATTAGAGCAGTACAATGGGTTGGTGGTGGCCGTTATGGTACACCAGTTCCAAGAGATTATAGTAAGAAACAGAATCGTAAAGAAAGAACACTTGCTCTTAAATCTGCTTGGGCACATAAATATAACGATAAAGAATTACTAGTAATTGATAAATTATCTATTAAGACACCAAAGACTAAAGAATTTGTTTCTCTTTTAGAAACATTAAAGATAGCTGATAAGAAAGTACTAGTAATTGTAAAAGAATTTGAGGAGAACATAATTCTTGCTTCAAGAAACTTAGAAAACGTTGCTTTAATAGCTAGTGATGAAGTAAATGTATTAGATTTAGTTGCTAGTGACGTAGTTCTAATAACTGAAGAAGCATTAAAAGATGTTGAGGAGGTGCTAAAGTAAAATGGATACTAAATATTTAGAGATTATTAAAGCACCAATAATTACTGAAAAAACTGAAATAGCAAGACAAAATGGAATCTATACTTTTAAAGTAGATCCTCGTGCTAATAAAACAGAAATAAAACTTGCTATTGAAAAGATCTTTGGCGTTAATGTTACTTCAATTAAAACAATGAATGCTAAGCCAAAGAAGAAAAGAGTTGGCCGTTATAGTGGAATGACTAATCATTATAAGAAAGCAGTTGTTACCCTTAAAGAAGGTCAAACTATTGATTTAGGACTTGGAGGTGAGTAAGAATGGCTATAATGAATTATAAACCTACTACTCCAGGAAGAAGAGGTATGAGTACTTTAAAGAATGAGGAAATTACTAAGAAGAGTCCTGAGAAGAATCTTGTAAAGACTGTTAAGAAAAACGGTGGAAGAAACAATCAAGGTAAAATTACTGTTCGTCATCAAGGTGGTGGCGCTAAGAGAAAATACCGTATGATTGATTTCAAGAGAGATAAGAAGAACATCCCTGGTAAAGTAGCAGGTATTGAATATGATCCAAATAGAACTGCTAATATCGCTCTTATTAATTACTTAGATGGAGAAAAGAGATATATCTTAGCTCCACAAGAGTTAAAAGTAGGAGATATGATTGAAGCAGGAGAAAAAGTTGATATTAAAGTTGGTAATTCACTACCTATTATGAACATTCCTGTAGGTACTGTTATCCATAATATTGAACTTAAACCTGGTAAAGGTGGAGAACTAGCACGTTCTGCTGGAGCTTCAGCTCAAATACTAGGTCGTGAAGATAAATACGTAATGATCCGTTTAGCAAGTGGTGAACAAAGAATGGTTTTAGGTACTTGCTATGCCACTATTGGTGTAGTTGGTAATGAAGATGCCTCACTTGTTAAAGTTGGTAAAGCTGGACGTAAGCGTCATATGGGAATTCGTCCTACTGTTCGTGGTTCTGTTATGAACCCTAATGATCACCCACATGGTGGTGGTGAAGGACGTGCACCAATCGGACGTAAAGGACCAGTTACTCCTTGGGGTAAACCAGCTTTAGGATATAAAACACGTAAGAGAAAAGCATCTGATAAGATGATTGTTCGTCGCAGAAATAGTAAATAGGAAAGGAAAGAAAGAATATGTCAAGAAGTTTAAAGAAAGGACCTTATGTATTCGATAGATTACTTAAAAAGGTCGAGGAATTAAATAAGTCAGGAAAAAAAGAAGTTATTAAGACTTGGTCTCGTCGTTCTACAATCTTTCCTCAATTTATTGGTCATACCTTTGCTGTACATAATGGTAAAGAATTCATTCCAGTGTACATTACTGAAGATATGGTTGGACATAAACTAGGTGAGTTTGCTCTAACACGTAAGTGTGGAGGACACGGCGAAAATAAAAAATAAAATATGACTAGGAGGATAAAGTAATGAAAGAAGCGAAAGCTAGTGCTAAAGATTTAAGAACATCTCCTATTAGAACAAGACTTGTAATTGATACTATTAGAGGTAAAGATGTTGCTGAAGCACTTAACATTTTAACTAATATGAATAAGAAGTCAGCTCGACTTATTAAAAAAGTATTAGATTCTGCTATTGCTAATGCCACTAATAACTTTGGGTTAGATGCTTCAAAGTTATATGTCAAAGAAGCAACAGTAGATGCAGGACCAGTGTTAAAGCGTCATTTCATTGATTCACGTTCACACATTGGTAGAAAAGATCACAGAACTAGTCACATAAATATAACAGTGGCTGAAAAATAATTAAAGGAGGAAAAGCATGGGACAAAAAGTTAGTCCTAATGGACTTAGAATTGGTATCAATAAAGACTGGGAAGCAAAATGGTATGCTAAAAAATCAGATTTTGCTGATGTTTTAGCTAAAGATATTAAAGTTCGTGAATATTTAGAAAAGAACTTAAAACATGCCGGTATTGCTAAAGTTGAAATTGAAAGAAATGCCAAAAGATGCGAAGTTATAATTCATTCTTCTAAACCAGGTGTTATTATTGGCCGTGGTGGAGAAGAAATTGAAAAACTAAAGAAGAAATTATCTAATCTTATTTCTGAAAAAGTAGGAATTTCCATTGTTGATATTAAGAAGGCTGATATTAATGCTCAATTAGTAGCAGATTCAATCGCTCAACAAATATCTAATCGTGCATCTTTCCGTATGGCCCAAAAGCGTGCTATTAGAAACGCTATGAAGGCTGGTGCAAAGGGAATTAAAACTAGTGTATCAGGACGTTTAAATGGTGCTGATATGGCTCGTACTGAAGGATATACTGAAGGAACTATTCCTCTACATACATTACGTGCTGATGTTGATTATGCTACAGCTGAAGCTGATACAACATTTGGTAAGATTGGTGTAAAGGTATGGATCTATAAAGGAGAAATACTTCCTGGTAGTAAAAAGGCAGTAGAAGTTAAGGAAGGTCCTAAAAGAGAAAGAAAGAAATTAGAGATTGCTGATACTAAAAAAGAAGAAAAAGCACCAAAAGAAGAAGCTGGAGGTGTTAAGTAATGTTAATACCATCAAGAACAAAACATAGACGTGTGCACAGATTACCTTTTACTGGTAAATCACGTGGTAATACTGAACTTCACTTTGGTGATTATGGTATTCAAGCTAAAGAAGGTGCTTGGATTACTGCTAACCAAATCGAAGCTGCTCGTATTGCTATGACCCGTTATATGAAGCGTGGAGGAAAAGTTTGGATTAATATTTTCCCTCACTTACCACTTACTACTAAAGGTATTGGTGTTCGTATGGGAAAAGGTAAAGGTAGTGTTGATAAATGGGTTGCCGTTGTTAAAGAAGGAAAGATCATGTTTGAAATAGCTGGTGTTTCTGAAGAGGTAGCCAGAGAAGCCCTACGTCTAGCTGCTCATAAACTACCAGTAGCTACAAAATTTGTAAAGAAAGAAGACGGTGGTGATAAAAATGAAGGTTAATGAAATTAGAGAATTATCAACAGATGAAATAAATAATAAGCTAAAAGAAACTAAAGAAGAACTATTTAACTTACGTTTTAAACAAGCAACAGGAACTCTTGATAAACCTTCACGTATTAGAGAATTAAGACACACTGTTGCAAGAATGAAAACTGTTCTTAAGGAACGTGAAAAGGACGTAAAGGAGGTATAGTGCAGGATGGAAAAGAAAGCAATTAAGAAAGAATTAGTTGGTAAAGTAGTTAGTGCATCTAACAATAAGACTATTACTGTACTAGTAGAAACATATAAAACTCATCCACTATATCACAAAAGAGTTAAGTCTTCTAAAAAGTATAGTGTACATGATGAGACTAACAAAGCAAAAGTTGGAGATACAGTAAGAATTGTATCAACTAGACCAATTTCAAAAACTAAGAAATTCTATTTAAAAGAAATCGTAAAAGAAGCGGTTATAATCTAATCATGGAATAGGAGGAAAAATTATGGTACAACAAGAAAGTCGTCTTAAAGTTGCGGATAACTCTGGTGCTCGTGAACTATTAGTAATTAGAGTATTAGGTGGAAGTAAAGTTAAGACTGGAAACATTGGGGACGTTGTGGTTGGAACTGTTAAACATGCTATTCCTAACTCAGGCGTACCTAAGGGAAAAGTTGTAAAAGCAGTTATCGTCAGAACTAAACAAGGATTAAGACGTGAAGACGGTAGCTACATAAAATTTGATGACAATGCTTGCGTTCTTATTCGTGAAGATAAGAGTCCTATTGGAACTCGTATCTTTGGACCTGTCGCAAGAGAACTTCGTGATGCCGATTATATGAAAATAGTTTCTTTGGCTAAGGAAGTACTATAGGAGGTATATGATGAACTTAAAAGTAGGAGATAAAGTTGTTGTCATCGCTGGTAAAGATAAAGGTAAAGAAGGAAAGATAATCAAGACTTTTAAAAACGATAATAAAGTACTAGTTGAAGGTATCAATATGGTTAAGAAACATCAAAAACCTATGGGACAAGAAACTGGTGGCATTATCGATATGGAAGCACCTATCGATAGAAGTAATGTTATGATTATTGATCCTAAGACTAAGAAAAGAACTAGAATAGGACATACAACTGATAAGAATAATAAGAAAATAAGAATATCAAGAAAATCTAACGAGAAACTTGATTAAACAAAAAGGAGGATAATATATGAACCGCCTAAAAGAAAAATATTTAAAGGAAGTAGTTCCAAGCTTACAAAAGAAGCATAACTATAAAACAGTTATGGCTGTACCAAAACTTGAAAAGATAGTAATTAATATGGGTGTTGGTGATGCTACTACTAATTCTAAATTCTTAGAGGGAGCAGTATCTGATCTAACTAAGATTTCTGGCCAAAAACCAGTAATTACTAAAGCTAAGAAATCAATCGCTGGTTTCAAAGTTAGAGCTGGACAACCTATTGGTTGCAAAGTTACTTTACGAGGAGAAAATATGTATAACTTCTTAGATAAGTTAATATCTATCTCTCTACCACAAGTACGTGACTTTAGAGGAGTTTCTCCTAAAGCCTTTGATGGTAGAGGTAACTACACTATGGGTATTAAAGAACAATTGATTTTCTCAGAGATTGATTATGATGAAATAGTTAAGGTTAGAGGAATGGACATTGTCTTTGTAACCACAGCTAAAACTAATGAAGAAGCATTTGATTTATTAGATGGACTTGGAATTCCTTTTAAAAAGTAGGAGGATAAAAAATGGCAAAAAAAAGTATGATTGTTAAAGCTAATCGTGAACCAAAGTATAAAGTACGTAAATATACTCGTTGTGCTCGTTGTGGAAGACCACATGCTGTTATGAGTAAATTTGGTATATGCCGTATTTGCTTTAGAGAATTAGCTTATAAAGGACAAATACCAGGGGTTAAAAAATCAAGCTGGTAAGGAAGGAGGAATAAAAATGGCAGTAGTAACAGATACAATTGCAGATATGTTAACTCGTATTCGTAATGCAAATAGTATGCGTTATGAAGAAGTTAAAGTTCCTTCATCTAATTTGAAACTAGAAATAGCTAGAATCTTAAAGGAAGAAGGATTTATAAAGGATTATAAATTAGAGAAAGATAACGTTCAAGGAACTATTGTTTTAACTTTAAAATATAGTGCTAAGAAAGAACGCGTTATCACTGGTTTAAAGAGAATTTCTAAACCTGGACTTAGAGTTTATGCTTCCGCTAATGAAGTCCCTAAAGTATTAAATGGTTTAGGTATCGCTATCCTTTCAACTTCGAAAGGGATTATGACTGATAAAGAAGCAAGAAAACAAAATATAGGTGGAGAAGTTCTAGCTTATATTTGGTAATTAAAAAAAATATAAGGAGGAAAATATGAGTCGTATTGGAAACAGAATAATAACAATTCCTGAAGGTGTAACAGTATCAGTTGATAATAATACAGTTACTGTTAAAGGACCTAAGGGTGAATTATCACAAGTGTTACTTAAAGATATTGAAATGAAAATCGACGGAAATGAAATTACTTTGACTAGAAAAAATGAAAATGCCAAAGCAATGCATGGAACAATGAATGCTATCTTAACCAATATGATTAAAGGTGTTAAAGATGGTTATGAAAAAGATCTAGAAATCATTGGTGTTGGATATCGTTTCAATGTTCAGGGTAAACAACTTGTTATAAATGCTGGTTATTCTCATCCAGTTAAGATGGAAATACCAGAAGGTTTAACAGTTACTTCATCATCTAATACGGAAATAACCGTTAAGGGTATTGATAAAGTATTAGTAGGTGAATTTGCTGCTAATATTAGAAAAGTACGTAAACCAGAACCATATAAGGGTAAAGGTATACGTTATAAAGACGAACATGTTCGTCGTAAGGAAGGAAAGAAAGCTGCATAGGCTAGGAGGTAGAAAAAATGATAAAGAAAAGATCTCGTAATGAAATGCGTGTAGTAAGACATGAGAGAATTCGTTCTGATATTTTTGGAACAGCAGAAATTCCTAGACTTTGCGTATTTCGTTCAAACAAGCACATTTCTGCTCAAATCATTGATGATGAGACTAGAACTACATTAGTATCTGCTTCATCTAACGATAAAGATCTAAAACTTAAGAATGGATCTAATAAAGAAGGAGCTCAAAAAGTAGGAGCAGAACTTGCTAAAAGAGCTAAAAAAGCTAAGATTAAAAAAGTTGTATTTGATAGAGGAGGATACCTTTATCACGGAAGAGTAGCTGCCTTAGCAGACGCTGCTCGTGAAAACGGATTAGAATTCTAGGAGGTGTATTTATGCAAAAAAGAAATCAAAATACCAAAGACAAGAGTTTAGAAGAATTAGTAATTGAGATTAAAAGCGTTGTTAAAGTTAACAAAGGTGGTCGTCAAAGAAGATTCTCAGCAACTGTTGTAGTTGGAGACCGTAAAGGTCGTGTTGGTCTAGGTACTGGTAAAGCTAATGAAGTACCAGACGCTATTAAGAAAGCTATTCAAAATGCTAATAAGAAAATGATAAAAATACCTCTAATCGATGGACGTACTATTGCGCATGAAATAGTAGGAAAATCAGGAGCTGCTACAGTAATTTTAAAACCTGCTAAAGAAGGTACTGGAATTATTGCTGGTGGATCAGTCAGAGCTGTCCTTGAACTTGCTGGAGTAAAAGATATTATATCTAAATCTCTAGGAGCAAGAACTAAATTAAATATGTCACAAGCTGCTTTAAATGGACTTAAAGCTATTAAGACTCCAGAAGAAGTTGCGGCTTTACGTGGTAAAACAGTAGAGGAGATATTAGGATAATGAAGTTACATGAATTAGAGAAAAATATTGGTGCTACTAGTTCTAAGAAACGTGTTGGTCGTGGACCAGGAAGCGGTTTAGGAAAGACTAGTGGTCGTGGACATAAAGGACAAAATGCTCGTTCTGGTGGAGGGGTATCACCAGTATTTGAAGGTGGACAATTTCCACTATTCAGACATATCCCAAAAAGAGGTTTTTCTAACAAAAGATTTAAAACTGAATATGCTGTTATTAATGTTGGTGATTTAAATGTATTTGATAATAATACTTTAGTAACACCAGCACTATTAAAAGAAAAGAAGATTGTTAAAAGACAATTAGATGGAATTAAAGTATTAGGTAATGGTAAATTAGAGAAGAAGTTAACTATTCAAGCTAATAAGTTCTCTAAGAGTGCTTTAGCTAAGATTGAAGAATCAGGTAGTAAAGCTGAGGTGATTTAGGATGTTTAGTACTATGAAGCAACTATTCACTAAATCAAATAAAGATTTGCGTCATCGTATTTACTTCACTTTAGGAGCCTTAGCAATCTTTATACTAGGTATTAATATTAGAGTACCAGGTACTGAAGATTTAACTAGTAATTTAGGGTTCTTAGACCTTATTAATGCTATGGGTGGAGGAGCTTTAAAGAGATTTTCAATCTTTGCTCTAGGAGTTATGCCTTACATTACGGCATCCATCATTATGCAATTATTACAGATGGATATAATTCCTTATTTCTCAGAGTTATCTAAACAAGGTCATACTGGAAGACAAAAGATAAGTAGAATAACTAGATATATGGGTATATTATTTGCTTTCATTGAAGGATATGCTTTTGCCTTTGCCTTTATTGGTAAATCAGCAACTCCAATGGAATACTTATATATTGCTATAGTTCTAACTGCTGGTACTGCTTTCCTACTTTGGTTAGGAGATCAGATATCACAGAAAGGAATTGGAAATGGTGTCAGTCTAATCATCATGGCTGGTATTATAGCTACATTACCACAGATGTTTATTGATGCCTTTACTAATCTAGTAACTTTTACTGGATCAACACAAGCAATTGCTTTAGGTATTATTAAGTTTATTCTATTTGTAATTGTTTATTTCGCTATTGTAATCGGTGTTATCTTTGTTGAACAAGCAGAGAGAAGAATACCTATTCAATATGCTAATAAGTCAACATATGGCTCTGAGGCATCATCATTTATGCCTTTAAAGCTAAATTCAGCTAACGTTATACCAGTTATCTTTGCATCTAGTTTGATGTCATTACCAGGTATAATTGCTCGTTTTGTTAAAAACGATACATTCACATTAATTGCTGAGAAATATTTAAATTATACTACAATAGTAGGATTTATATTATATGCTTTACTTATATTCTTCTTCGCTTATTTCTATACATTCATCCAATTAAAACCAGATGAATTTGCGAAGAACTTACAAGAAAATGGTGGTTATATCCCAGGAGTAAGACCTGGAGAAGAAACCAGCAATTACTTAACTAAAGTTCTATCTAGAATTACGGTAGTTGGAGCATTCTTCTTAGTTGTTCTAGCTGGCTTACCAATTCTATTTTCTAAGTTAACTAGCTTACCAACTAGTGTATCAATTGGTGGTACAGGATTATTAATCGTTGTTGGTGTGGCTCTAGAAACATATAAACAATTAGAAAGTAGTGTTTTAGCTCGTAATTATAGAAGAAGTTATAAGAGGAGTAGATAATGAAAAATATTATGTTTATAGCCCCACCAGCAGCTGGTAAGGGTACACAAGCAGAAATGGTAGTAGAGAAATACCATATACCACATATTTCAACTGGAGATATCTTAAGAGATATTTCTAAAGAAGATTCAGAGATTGGTAGTTATGTGCGTGAGACTCTAGCGAGTGGTGGACTTGTTAAAGATGAGATTACTTATTCTTTGATCGAAGATAGATTACAAAAAGATGATTGTAAGAATGGTTATATCATTGATGGTTTCCCTAGAAACCTAGAACAAGCTATTAAATATGATGAAATATTAGATAAATTAAATATTGATATTGGTAATATTATTCTAATTGATATCGACAAAGATATCTTAGAAAAAAGAATTACTGGTAGAAGATTATGCGAAGAGTGTAATGCTATCTACAATATTAATGAAGAAAACTCTAAACCAGAAGTAGATTCAGTATGTGATGTTTGTGGTGGTAAACTATATCAAAGAAGTGATGATAATTTAGAGTCTTTCCAAAATAGATATAATACCTATATGGAAAAGACTGCTCCAATCATTGATTATTACAAGAAAAAACATCTTTTGCATACTGTTGATGGTAATTTAGATAAAGAGCAAGTATTCGCACAAATTGAAAGGATAATCGAGGGTAAATAATGATCAGTATTAAAAGTAAAAGAGAAATAGAATTACTAAAAGTAGCTGGTAGAATTGTCTACCAAACTCATCAGTATTTAAAACCATATATTAAAGCTGGTATTACTACTAAAGAATTAGACCGTTTAGCGGAAGAGTTCATTAGAAGTAAAGATGCTACTCCTTCTTTTAAAGGTTATGAGGGGTTTCCTGCTACTTTGTGTACTAGTATTAATTCACAAGTAGTACATGGAATACCTGATGATACCAAACTAAAAGATGGAGACATTATCTCAGTTGATATTGGAGCCTGTTATAAAGGTTATCATGGTGATTCAGCCTGGACTTATACTGTCGGTAAAGTAGATGAAGAAATAAAGAGGCTACTTGCTGATACTGAAAAATCATTATTTGTAGGCTTAAATGAAATAAAGCCTGGGGCTCATATTGGTGATATTGGAGCCGCTATTGAAGAATATGCTACTTCTCATAAACTAGGAGTAGTAAGAGAACTTTGTGGCCATGGAGTCGGAACTTCTGTCCATGAAGCACCTGATGTACCTAATTTTGGAACAAGAGGTAAAGGACCTGTTCTTAAAGAGGGTATGGTTATAGCAGTAGAACCCATGTTAACATTGGGTAGTCCAGAAATATATATCTATGATAATGACTGGACAATAGATACTATTGATGAAAGTCCATCAGCTCATTTTGAACATACTGTGGTTGTTACGAAAGATGGATATCAAATACTAACGACAGGAGATGAAGAAAATGGCTAAAGATGACAAAATTGAAGTAGACGGAAAGGTATTAGAAGTAATACCCGGAGGTAAATTTAAAGTGGAGTTAGAAAACGGTCACATCGTTGAAGCTCACGTTTCTGGTAAAATACGAATGCATTACATTCGCATCTTAGCAGGAGATACTGTGACAATTGAACTTTCTCCATATGATTTAACACGTGGGCGTATTACCTATCGTAAATAAATAGGAGGGATAAAAATGAAGGTTAGACCATCAGTAAAGAAAATGTGTCCGAAATGTAAAATTGTAAGACGCAAAGGTGTAGTAAGGGTTATTTGTAGTAATCCAAAGCACAAACAAAGACAAGGATAATAATAATAGGAGGTAATTAAATGGCACGTATTAAAGGTGTAGATATTCCAGATAATAAGCATATCGTTATTTCACTTACTTATATCTATGGTATAGGTCATAGCCTTGCTAAAGAGATTTGTGCAGGTGCTAAAGTAGAACCAACCAAGAAGACTAAAGATGTTACTAGTGATGAAATCGTAAAACTACGTAATGAAATCGATAAGCATTTAACAGAAGGAGATCTTCGTAGAGAAATTAAGATGAATATCAAGACTAAGATGGAAATCGGTTCTTATGAAGGATCTCGTCATAAAAAGGGATTACCTGTAAGAGGACAATCTACTAGACGTAATGCCAGAACTCGTAAGGGTAAAGGTAAGGTAGTCGCTAATAAAAAGAAAATCTAATTAAAATAAAGGAAGGAATCGGAGGTAAAAATGGCTTATAAAACTAGAAAAAGAAAAGTTAAAAAGAATGTCCCAGAAGGACAAGCTCATATTCATTCAACTTTTAACAATACCATAACTACTATTACTGATAAAGATGGAAATGCTATAAGCTGGGCATCAAGTGGTGCTATTGGTTTTAAAGGTAGTAAGAAATCAACTCCATTCGCTGCTGGACAAGCTGCTGAAGCAGCAGGAAAAGCTGCATATGAAATGGGAATGAGAAAAGTAGAAGTATTTGTTAAAGGATTAGGACCTGGTCGTGAGACTGCCATTAGATCATTACAAACAGCAGGACTAGAGGTTACTTCAATTAATGACGTAACTCCAATACCACATAATGGATGTCGTCCACCAAAACGTCCTAGAGGATAAAATAATAGTTGAACTTATAAAAGGGAGGAATATGAAGGAATGATACAATTTGAAAAACCAGTATATAAAATAACTGATCAAATAGAAAGTAATTTCTATGGAAAATTTGAACTAGAACCATTAGAAAGAGGATTTGGTACTACTATTGGTAATGCTTTAAGAAGAGTAATGTTATCATCATTACCAGGAAGTGCCATTAGCAGTATTAAAATAGATGGTGTACTTCATGAATTCCAAACAATTGATGGTGTTTATGAAGATGTAGCTACTATTGTTTTAAACTTAAAAGGATTAGTAATCAAAAATCACTCAGAAGAAGCAAAGACAATCCATTTAAATGCTAATAAAGCAGGAGAAGTAAAAGCTTCTGATATTGAATGTGATGCTGATATTGAAATAATTAATAAGGACAAAGTAATTGCGACTCTAGCTAAAGGTGGATCACTAAACATGGAAATGACAGTTACTAATGGTCGTGGTTATATTAGAAGTGAAGAGAATAAAAAGATATATGATTTAACTGCTCCAGGAGTTATTGCTCTTGATACTAACTACTCACCAGTAGAAAGAGTATCTTATAGTATTGAAAGTGCCAGAGTTGGTCAAGATGAAACTTATGATAAGTTAATCATGGAAGTATCAACTGATGGTTCAACTAAACCAGAAGAAGCAATAGCCCTAGCATCAAGAATCTTAATTGAACACTTTAATCTTTTAACAGATCTTTCTGAATTGGCTAATGAAACTGGAATGATGGTTGAAAAGACAGAAGATCCAAAAGTAAAAGCCTTAGAGACTACAATCGAAGATTTAGACTTCTCTGTAAGAGCATATAACTGCCTAAAACGAGCAGGAATACATACTCTGCAAGATTTAGTTAATAAGAGCGAAACAGATATGATGAAAATACGTAACTTAGGTAAGAAATCTCTAAAAGAAGTTATGGATAAGATTAGAGAACTTGGCCTAGTACTACGTGATGATGATTAAAAGGAGGTTTATTTATGGCATATCGTAAATTAGGAAGAGATAATCAACATAGAAGAAGCATGTTAGCGACTCTAACTAAAGAAGTAATTAAGAATGAACAAATTAAAACAACTGAAAAAAGAGCTAAAGAAGTACGTAAATTTGTTGATAAGATGATTACTTATGGTAAGAAAAACGATTTAGTATCTCGTAGAAAAGCTTTAGCTTTCCTACATAACGATAAAGAAGTAGTTAATAAATTATTTAATGATATCGCACCTCGTTATAAGAAAAGAAATGGTGGATATACTCAAATATTAAAATTAACTGAACGTCGTGGTGATGATGCTTTAATGGTTATCTTAAAACTAGTTGAAGAAGAGAAGAAGGAAGAGAAATAAGAA
>sequence07
TATTTCTTTTGTTCCTTTTCTAGAGCTTTAGAAGCTTTATTTACTATCATATCTCTATCTATTAATGTTAGTAAAAGTAAGATAAATAGAAGCACAATTAATACAAGTAAAGTAATAACAATATAATTAGTCTTCTCTACTTTTTTAATAGTTGTATCTAAATACGTATTAGTCATATACTTATCAAAGTTCTTTTCATTTAATTTAACTTTATTATCATTAGGTAAAAAGTTCTTATAATTCTTAAGAGTTAATTCTTTTAACTTGTTACTAATTATCTGCGGATATCCTTTTACAATTAATGGTTTTTGTTTTTCTTTTGTTCTCTCGTAAGAATAATCTATTATTGGTTTATACTTTTTATAATCCTTTTTAGAAATCGCTATTAAATAAGAGCGATATACCTTGTTCTTATCTTCTACTATTACAAAATGAATCTGTTTATTATCAATCTTCGCAAAAGCTTCACTCATTTTAGAAATAGTTAGTGATGTCTTATTAGTAGTACTGATAACTTTATCCCAAGCAACTTCTTTTTTATCACTCATATATAATTTATAAGCTGAGAAGAATAAAATTCCCATTACCAGCAAATAAACTATACAGAAGAATATCTTTGTATATAAACGTAATTTCTTTTTTGGCATAGTACCACCACCACTCTCTTTTTATTTTACCACATTAGTCAATTAAAGAAAGACTAACTTTTTCTTTTTCTTTATTAATATCTATTACATGACAAGTTACAATATCACCGACTGATAGAATATCTGATGGATGCTTAACAAAACTATTAGACATTTTTGATATATGAACTAAACCATCTTCATGTAATCCAATATCAATAAAAGCCCCAAAATCAACAACATTACGAACAGTACCTTGTAATTTCTCACCAATATGAAGATCATCAATAGTAAGAATATCACTCTTTAAAATTGGTTTAGGCATATCATCACGAGGATCTCTATCAGGTGCCTTTAAAGCATCAATAATGTCTTTTAAAGTATATTCATCAATAGCTAATTCCCGAGCCTTTTCTAATAGATTTATTTCGTCTAATTTTTCTTTTAATTTAGTTGTACCTATATCACTAGTAGTTAAATCTAAAGACTTCAATAATTTTTCTGTTTTCTCATAACTTTCAGGATGAATTCTTGTCTTATCTAGAGCATTATCACCATCAACTATTCTAATGAAACCAATGGCTTGTTCATAAACTTTCGTAGTTACTCCTTTAACTTCTTTTATCTCTTCTCTAGACTTATATTTACCTAAAGCTTCCCTCGTCTTAAGTATTTCTTCAATCACTTTTTTACTTAATCCAGATATATAGGAAAGAATAGAGAAAGATGCAGTATTAATATTAACTCCTACTCTATTAACTGTCTTTTCTACAACAAAGGTTAAAGCTTCATCCAGTTTTTTAGGTGTTACGTCATGTTGATATAGACCTACACCTATACTTTTAGGATCAATCTTGACTAGTTCTGACAAAGCATCTTGTAATCTTCTACCAATACTAATAGCACTCCTTTTTTCAACAGTTAAATTAGGGAATTCAGCAATAGCTAATTTAGAAGCAGAATATACAGAAGCCCCTGCTTCATTGACAATAATATAATCAACTTTTCTTTTAGCATCTTTAATAGCATCCGCTACAAACTTCTCTGATTCTCGAGACGCTGTTCCATTACCAATCGCAATAACATCAATATCATATTTTTCAATTAAATCTAATAGTATCTTCTTTGATTCTTCTATTTTTAAATGGGGTTCCGTTGGATAGATAACTTCTATTTTTAAGACATTTCCTTTAGGATCTAAGACCGCTAATTTACAACCTGTTCTAAAAGCCGGATCAAACCCAAGTACTACTTTTTCTTTAATTGGTGGCGTTAAAAGTAAGTGTTCTAAATTATCTTTAAAATTATCAATTGATACATCCTCAGCCTTTTCTTTTAATTCACTTCTTATTTCCCTTTCAACACTAGGTAAGATTAATCTTTTTAAACCATCTTTAATTGCTTCTTTGACCACATTAACTACAAATGATTCATTATTCTTAATCTTTCTTTTTTCAATAAATTCTTCTATCCTATCAACATCATAATCTAAAGAAACAGTTATTACCTTTTCTTTTTCAGCCCTATTAATGGCCATAATACGATGTGGTTTAATATACTTAATCATTTCATTATAGTCATAGTACATCTCATATACTTTATGTTCATCCTTAGCACTTTTCTTTAACTTAGTAATAATTGTTCCATTTTTATAAATAAAATTACGGATATATTTTCTAATACCGGCATCATCACTAATCCATTCACTGATGATGTAAGAAGCATTTTCGATAGCCATATCCGTAGAAGTTACTTCTTCATTCAAATACTTTCTAGCTAATTCTTCTAAAGAACCAGTAGTTGGGAAAGCCATAATTTGTTTAGCTAAAGGCTCTAATCCCATCTTAATAGCAGCACTAGCTTTAGTCTTTTTCTTTTCTTTATAAGGGCGATATAAATCTTCTACTTCAACTAATTTCTCACACTTTAAAATAGCGTTCTTTAATTCATCAGTAAGCATTCCTTTTTCAGCAATAAGTCTAATAACATCTTCCTTGCGATTAAAGAGATTTTCTTGATAAAGATAGACTTCCTCTATTTTTTTAATTACTTCTTCATCAAGACCATTAGTCGCCTCTTTCCGATATCTAGCAATAAAAGGTACAGTATTACCATCACCTAATAGCTTTAATACTGCCTGTACCTGCTTTATGGTTATACCTAAATCCTTACTAATATTTTCAATTATCAAGTCATTCATAATTACACCTCTATATTATTCTAACAAAATAAAAATAAAGTTTAAAGCTAAACTTTATTTATATCCTTCTCTTATTATTTCAAAAGTAACATTATAGGAAACCATGAAGGCTGCGGCCTTAGCTTCTGATTCAAAGGCTAAGTCAAATAAATGCTTTTTACCAATACCTACACCAGAACCTCGGTCTAGAACTATCGCTAAGAAAGTTCCAATCTTAGAGTTCTTAACTCGAACTATACTTCCAAAAGGAATTGATCTATCTCCTGCTACTATTCTTACCCGACCATATTTGGTATCTGGATAATAAATATTACCATTTCGCAAATCCCAACCAGTTGAAGTTTTACCACTGCAACCCTTACAATCAGGACCATAGCCACTAAGACTACCTTTTAATGTTCTAATAACATCTGGTTTAGGATCTGGTTTTGGTGGAGTTGGAGGCGGAGTAGGTTTTACCTCTTCCTTCTTAGGTTCTATTTTAGTAGGTTCTTTAGTAGTTACTGTACTAACCTTTTTCTCCTTATTTTCTTTGACATCTTTTTGACTATTTTTCTTTTCTTCCTTTACAACTTTTTTGACTGGTAAAACAGAACTATTTACATATCTAATTTCCTGTAAAGTGTCAATTTGGTCATTCTGAAGAGCCTCTGTCTTTACTACGACAGCGGGTATAACCAGTAATATCAATATGTTTACTAGTACAATAATTTTTTTCATACTAAAAACTCCTCACAATAATTTTACCATTATTGAGAGGAGTTTACAATACATATATTTTTTAAATTTGTAAAGTGATTTACTCTTTCTTGTTACAACGATATTCAGCCTTAACCATCTCTTTGTTTACCTTATCAATGTTTTCATTGAAGTCGAATTTTGGATATGTTCCGCCAGCTTCGGCGAAATCAGGGCCTAATTCTTTAGAATCAAAGTTTTCATAATCTATTTTTTCCGTTTGAACTATTTTTCCATCACTTTGATTACACTTGATTTCAATACCTTTTAGGGATACCACTGCCGTACTGACAGCATCACACCTATCCATAACTAGTTTTAGTTTTTCTTCATCATCGTTCTCAGTAACAAAAGTCATATCAACTCTTTTTAATTTATTATCAGCAAAAGAAAACCTTGCTTCTATTTCCTTACTTCCTGATCGACTCTTATTCTTATAATTACAAACTAGAGTACCAGTCGTTATCTGTTCTGTCTCTTCTTTGTTGTTCATGCTTTCTAAATACTTAGTTATATCGGGTAAGAAAAACGCTACTCCCCATAATATAATAAACAGAATAATCAATAGAAATATTCTTAATTTACCGCCTTTACGTGGTTCTTCTGGTAGTGGTTGCTTTGGCTTTGGTGTTTCAACTTTAGCAGGAGCCGGTTGGCTTGCGGGTGTTGGAGCAGCAGGTTGGCTTGGTACAGGCTGTGGTGTTGAAGGGGCCACTGCATTATTAGCTGGTGCTGGTTGAGTACTAGCTGGTACCTCCTCCTTTTGAGCAACAGTCTCTACTTTAGGAGCACTATTCTCCACTACTTCTAAAACTTCTGTTTTTTCTTCATTATTATTCACACTACCATCTCCTATTATATATATTGTAGCATATCTTATTTTCTTAAGCTATCAATTTTTTCTTGAAAATGATCACTATTAGTAATATAGCTACCAGCGACTAAAATATCCGCCTTCTTACAGTTTATATAACTCTTATCATTTATTCCCCCATCAACACTAATTAAAGCGTTAGAATTGTGCTCTTTTAAGAGCTTTCGCAATTCATCTATCTTTTTCTTAGTATCCTTAATAAACTCTTGTCCCCCCTCACCAGGGTATACTGACATAACTAAAATTAAATCTAAAAGAGGTAAATAAGGAACTAATTCTTTAACCTCAGTATCTGGTGAAATAGCTAATCCACATTTTATAGCGTACTTCTTTATAAGTTCTAAGCACTTAATAATATTAGTACCTGATTCAATATGAAAAGTTATATATTCAGTGTTTAAAGCCGCATATTTGGGAATTAATTTCTCTGGCTTTTTCACCATTAGGTGAACATCTAATCGTTTAGAAGTAAAGCGATAAATATTACGCATTTCTTTAAATGGCATGGTCTTGTTTTTAACAAATTTGCCATCCATGATATCAACATGAATAAAATCAACATCGGTATCATTTAGAACTCGTAAATCTCTACCTATATCTTTACTACTTAAAAATGATGCTGAAACTAACAAGTTATCACCTCTTTTTTATTAAACTTAGATAATTAACATATCGCTCTGGTAAAATCTTACCAGTAGATACTGCTTTTTTAACCTGACACTCTTTCTCATTAACATGCCTACAGTCTTTATATTCACAAGTAAATTCTTTAAACTCTCTAAAGGCTTCCCGAATATCTTCTTCAGCAAAATCAGCAAACTCTAAAGCTGAAAAACCTGGAGTATCAAATACTTGTCCCCCACAAAGAGAGAATACTTCAACTACTCTTGTAGTATGACGTCCTCTTCCTAAAGCTTTAGATACTTCGCCTGTTTTCAATGAAAAGTTCGGTTCTAATTTATTCAAAAGGGTTGATTTACCAGCACCCGTTTGACCAACAAAGACACTTATCTTCCCTTTTAAAACTTTCTTTATTTCTTCTATATCTGTATTATACAAAATTTTATAACCAATACTTGCATAATACTTCAAATATTTATCAATTTCTTGAAATTCTTCTTCAGTTAATAAATCCTTTTTAGTGATACAAATTATTGGTTTTACTTTCTTTAACTCCATCAAAACCAATAATTTATCTAACAGATTAAGAGAAAAATCAGGTAATTTTAAACTAGTAATAATAAGGGCCTGATTAACATTAGCTACTTTAGGTCTTTTAAACTCATTATCCCGTGGTAATATCTTTTCAATTACTCTTTTATCTTCATCGTAATCAACTCGATCACCAACTAAAGGAGTTAGACCTTCTTTTCTGAACCTTCCCCGACATTTACATATCAAGACCTCATTACCAGTTAAAACACTATAATCATTACTCTCAATTTTGACTATTTGTCCTTTTTTCATTACTCAGTTGGTTCCGTTTCTGGTTCTTTATCTTTATCAGATTGACCACTATCGGGTTTCTTCTCTTCTTTTTTCTCAACTGGTTTCTTAGCAATTTCTACTTTTAATGTTTTAACACTAGACATTGCGGTATTTGGAGAAACACTTTGAGAAACTACTTTTCCTGGTTCATAAGCCGTTGTTTCTACTTCATCATAAGTAAGCGCTATATTATACTTACGACAGAACTCTTGAACATCAGCTAAACTCCAGCCGCCATTTTTCATATCTGGGAATTTTTCATCAATGTTAGGTATGTATAGAGTTATCTTCGCACCCTTCTTTACTTTAGTACCTGGTTCAATTGATTGATCAATAATCAAATCTTCTTTGTCTTTATAAAGACTTCCGTCTTCAACATCTTTCTTTTCTATTGTAACTTTTAAACCATACATATTCTTAAGTAAAGTCTCTACTTCAATATAATTCTTACCTGTATAATCTTTTATCTTATATTTCTTAACTCCATCAGATTTATATAAAGTAATAGTACTCTTACTCTTAATCTTTTTACCCTTAGTAGGATCAGTTTTTACAATCTTCCCTTTCGCAATCTTACTATCATTGATTGTCTTAACTTTAATTCTTCCTCTAAAGCCCTTATCTTTCAATTCACTCTTAGCTTCACCAATCGTCATATTCTTAAGATTAGGAACCTTTATTTCTTTACCTCCAGTTAATGCTGGCCATATAAAGAAGATAAATAATAGGATTAATACTATTCCACCTAAAACACAAGATAGAATAATTATTAGCTTCTTGTTTTTCTTTTCATCTTCATCCTCTATTTTCTCCGCTAATTGTTCCTCATCATCTTCTATTTGTTCAAGTTTACGAACTGCTTTAGCATTTTCTTCTGTCTCTGGATAAGGATAAATATATGGTTCTTCATTCATCCTTTCATCATCTAAAGCCGTAAGTAAATCCCTATGCATTTCTTTAACATCATCATATCTATTCTTAGGATTTTTAGCTGTAGCTTTTAAGATAATATTTTCAATACTTTGTGGAATAGCAGAATTCTCTTCCATTAAATTAGGAAGTGGATCTTTCATATGTTTTAAAGCTATTTCTACAGCATTTTCCCCCTTAAATGGAAGTCTACCACTTAAAAGTTCATAAAAGATAATTCCTAATGAATAAATATCACTCTTAATAGTTGATCCCTTACCAGCAGCTTGTTCTGGTGGTAAGTAATGAACACTACCCATAACACTATTAGTCTGAGTAAGCTGGGTAGAATTTAAGGCCATCGCAATTCCAAAATCAGTAATTTTTACTTGACCATCATCTTCAATCATAATATTTTGTGGTTTTAAATCACGATGAATAATATATGAATCATGGGCATGAGCCATACCATCAGTAAGTTGAAGCATAATATCAATAGCTTCTGATAGAGTTAATTTTCCTCTTTTCTTAAGCAATTGTTTTAGAGTAATTCCTTCAATATACTCCATAACAATATAGTACATTCCATCGTCTTCACCAACATCGTACATCTCCACAATATTTGGATGAGACAAAGAGGATGCTGAAAGAGCTTCTCTTTGGAAACGTCTAACAAACTTCTCATCGTTAGCTAGATCTCCTCTTAGAATCTTAATGGCTACTTTACGATCTAGAATTTCATCATATCCTAGATAAACATTAGCCATTCCTCCTTCACCAATATTCCTAATTATTTCATAACGATCATTAATTCTCTGTCCCTTAGCTATCATGGCTGACACCTTCCTCTCGAATCAAATAAGCAACCGAAATATTATCTGTCCCCCCACGATTATTAGCTTTTCTAATCAGTTTAATAACTTTATCTTCAATATCAGCATCTTCCAATAAAACATGTTCTATTTGTTCTTTCTCTAACATATTAGTAAGTCCATCACTACAAAGAAGTATTTCTGAAACATCCATATCACAATCAAAAACATCTATTTCAATCGGATCATTAGCACCCAAAGCCTTCATCAAAACATTCTTTTTTGGATGTTCTTGAGCTTCTTCCCTAGTTAATTCTCCAGCTGAAACTAATAAATTAACCAAAGTATGATCATATGTTACTTTGTGTAGTTTATCATCTTTCATCACAAAACCACTAGAGTCACCTATATTACCAAATAAGATATAATCTTTAGTAATAATAGCAATTACTAAAGTAGTTCCCATTCCTTTACTTTCAGGATGATCCTTTTCATGTTGAAAGATCAAAGTATTAATTTCTGTTACTGTATTTCGAAGCCAAGAAACAGCTTCACTCTTGTCTAAATTTAAAAAAGTGTCATTGAAATGCTTTCCTAAATAACTAATCGCTATTGAAGAAGCTACTTCACCAGCAGAATGACCTCCCATACCATCAGCAACCGCCATTAAATACTCCATATTAGTATTCTTAGTTATGATAACACTATCTTCATTATGATCTCTTACTTTACCAGGATCCGTTAAATAAAATGATTTCATAAATCTTCCTTTCTACTTCGAAGCTGTCCACAAGCAGCCGAAATATTTCCCCCGAACTCACGACGGATTGTTACATTAATTCTATTCTTCTTTAGTATATCATAAAATTTGTTAATTTGCACTAAATTAGAGCGATTAAATTCTAAATTCTCAGTTTCGTTATAAGGTATCAAATTAACATAAGAATTAATCCCTTTAATTAATGATACTAATTCTAAAGCACATTCTTCACTATCATTAATATCTTTAAGCATAATATACTCAAAAGTAAGACGTCTATTAGTCTTTTCAGTATATTCTTTTAAGACCTTCATTAAGTCTTTTAAAGGGTAAGCTTTATTAATAGGCATTAATTTACTACGCAACTCATCATTAGGAGCATGAAGTGATATAGCTAAATTAACTTGTAAATCAAGATTCATAAACTCTTTAATTTTAGGAATAATTCCACAAGTAGAAACTGTTATATGACGAGCACCTATTGCTAATCCTTTAGGATGATTAATTATTTTTATCATCTTAATAACATTATCATAATTATCAAAAGGTTCTCCAATACCCATAACTACTACATGAGAAATACGATCACCTAAATCATCTTCTACTTGTAAGATTTGTCTAATCATTTCCCCAGTAGTTAAATCTCTTCTTTTCTTTAACCGACCACTCTCACAAAACTTACACCCCATATTACAACCTACTTGAGATGATATACAAATACTATTACCATAGTCATGTTTCATTAAAACAGCCTCAATATAGTTACCATCATCAAGTTTAAATAAATATTTATTAACATCACTATCACGTTCTATTTTTTCAACTTCTAAAAGAGCAATAGAAAAACAACTATTAAGTTTCTCTAACAGTTCTTTTTTAACATTAGTCATTTCTTCATAACTATTTACTTTATGAATATATAACCATTCCCATATTTGACTAGCATTATACTTTTTTCCACCATTATTTAAAATATATTCTTCTAGTTCTTCAAAAGAAAGATCATATATACTCATAACACCACTTCCTATAATCTATTTTACCACATTAGTCGTTATCAGCACCCAAAAAATTCATTATTAAATCAATTAAAATTTGCTTTTCTGTAGGATTAGACTCCGCAATTAATAAAATAAGAGCTACTAAAGCATTATTCTCAATTATCCTCTTACCCTTTTTATATAAAATATTATAGAAATTCAGAAAGTAAATAAATAATGCTGCCGCAATTCTTTTATTACCATCAATAAAAACATGATCTTTGACAATTAAATATAAAAAATTAGCGGCTTTTTCTTCAATTGTTTTATATAGATCTTTCCCATCAAAAGACTGATATATATCGTTAATAATTGAACTTAATCCTTTGTCTCGTTCTAAAGCAAACAGATCACTATCACAATTAATTCTAGAAACCACATCTATACAATCTTCATATAATATTTTTCTATCATCAGTAATGCCTTTAGGTTTTACTAAATTTCGACGATCATAATCATTTAGTAAATTTAGTGCTTTAGCATAATTATTAATAACTCTGATAACATTGTTAGCTTCACTATCATCAAAATCCATTCTACCAGCAATATCAATCAATTTAACTGTTTTCTCTAGACATTTTAACCTTTCTTCATTAATTGCATATCCCTTTAATAAATAATCTTTTAATACTTTGTTAGCCCATTTTCTAAACGCAATACCTTTTTTAGATTTAACGCGATAACCAACACTAATAATCAAATCTAAATTGTAATAATTTATATCCCTAGTTTGTGTTTTATGTACTACAGCACCATGTTCAGTGGTATGTGCAAATTTTGCACATACCTCCTTTTTAGTCAATTCGTTTTCCTTGAATATACTATTAATATGTCGAATTATAACTGTTCTATCTCTACCAAACAGTTTGGACAGTTGCTCAACATTTAACCAAACTGTTTCTCCGCTCATATTAACTTCTAATTTTACATCTTGATCCTCAAAGATCGCTATTTCATTCTTCATACTTCTATTATTCAATTTTTTTCAAAAAAACCAACAAAAAAGGAATGCTTTAAAGCATTCCTTCTAATTCCTCTTTTATTTTTTTATCACTAATCTTCTTAGCAATTTTATTAAGTCTATTGGACTTTTCATTCAACTTTAACTTTTCTTCATAAAAATCTAACTTTTCTTTAACAATATTTATTTGTTTAAAGGCAGCATTACGACTAACATTTAAATTCTCCGCAATCTCACCTAAAGAAAGATTTTCAAAATAATAATATTCAAAATACTCTCTTTGCTTAGAAGTTAAAAGTTCTCCATATAAATCATATAATCTATTATAATATACTAAATCATCCATAACATACCTCACATAAAATCCTTAAACAGCCCATAGATATATTTTTCAATATCAAAGGCTTGTAGATCGTCTTTAGTCTCACCAAGACCAATATATTTAACTGGTATACCTACTTCCTCTTTAATAGCTAAAACAATACCACCTTTAGCTGTACCATCAAGTTTAGTTAAAACGATACCCGTAATATTAGTTATTTCTTTAAAAGCCTTAGCTTGTGATATACCATTTTGTCCAGTAGTAGCATCAATTACTAATAACGTCTCATGAGGAGCATTTTCTATTTTTTGACCCAAAACCCGATTCATTTTTTCTAATTCTCGCATTAGATTATCTTTATTTTGAAGACGTCCAGCAGTATCAACAAGAACAACATCATAATCTTCATTTATAGCCTTATCAACACCATCAAATAAAACACTAGATGGATCAGAGCCCTCCTCTTTAGCAAAAGAATCTACTCCTATTTTCTTACCCCAATCAGTAAGTTGCTCAATAGCACCAGCTCTAAAAGTATCACCCGCTACTAAAAGTACTTTTTTACCTTCATCTTTATATTTAGAAGCAATCTTCGCAATAGTAGTAGTCTTACCTACTCCATTTACCCCAACAAAAAGAATAATAGTAGGTCCTTCCTCTTGAAGATTAATCTTACTAGTAAGTATTTCATCATTAACATAAATAATGAATAGTTCATCAACAATAATCTCTTTTAAATCCTTAGGATCATCAATCTTATCTTTCTTAACTCGATCACGCAAACGATCAACAAAAGACATAACTGTATTAACCCCTATATCAGCATTAATTAATATTTCTTCTAATTCATCAAAGTATTCATCACAAAGCTTATTATATTTGTTAGTTAAGTTAAGAAGGCTAGAAACAAACCCATCACGAGATTTAGTAAGTCCTTTTTCATAAACCTTGACTTCTTTTTTTACTTCCTTTTCTTCTTCTGTCTTAACCTCTTCTTTAACAAAAGCTTTTTTTAATCTATCAAATAATCCCATGTTATCACCTAGAAAAATTATATCATAAAAACCAATATTTTAATAATAAAAAAGACTAGGAAACCTAGTCTAATTTTAATCTCTTACGTACACAAACAATACCAAAAGTAATAAGAACTCCTAATACGACTAATAATATATATGGCGCTAAGATAGAACTTATACCAGTATCTACACTGATGTCATAAGTATTCTTATAAGTGATTCTTTCATTATGAGTAACAGTTTTAGTAATAGTCCTACTATTAGTATCATTTACTGTTGTTGTATATGGTGTTTCAGAATCCTGAGTCACAGTTATACTATAACCTTCAGGTAGAGATAACACTTCAGATTCATCATTTGCTAATGTGAAAGTTCCACTTAATGCTGTATCTACCACATCATTTTCATCTCTTACTTCTACACTATAAGTAAAGTCTTTACTTATACTAGCCATATTTCCATATATTTCATTAGTAATAGTAATATTATAACTTGATTTTACACAGCTTCCTTTTACGACATTACTACTAGATGATTTAGTTGCAATAATTCTATCTATATTAGTTGTTTTATCACAATTATAGATAACCGTTACTTGAGCTCCTGTAGCAGTAGCAGTATTAGTAAAAGTACTACCATAAGTTGTTGGATTGCCCAATATTGGGAAAGTCCCAGAGGCATTAGTACAACCACTAAACATACTAGACATATCAGTAACACTGGAAGTGTTCCATGCACTTGCACCATCTACATCAGCAAGGGCACTATCGCCATTAAACATATTTGACATGTTGCTTACTCCTGAAACATCCCATTCTTCTAAAGCATCTATATTTGTTAAGGACGAACAATTTCTAAACATACTGGATGCATTATTTAAATCCGAACTATCCACTGAACTTAATCCACTTATATCAGTTAATCCTTGGAAATTATAGAACATATTTGAGGAATTAAGATTTAAATATACATCGCTATCTTCGCTATAATAATACATTGTTCCATCACTATCATCGAAATAAATATATATTGGATATTCTGAAGTGCTTAGCGATACTGTATTCTCTGTTGAAGGTGTGAACCCACTTGGTAATGAATTGGCCTTTTTAATAGCATGAATTGCTGTATCAACAGAGCTATAAGTCATAGAAGATGAATTGTTAGCTAAGTTCTTCATCTTAACATTTACATTTTGACCTGTATCAAACATAGTTCTAAGATTAGAACAACCTCCTTTTACAACATGGCTATTAGATGATTTAGTTGCAATTATATTATCTATATTGGTTGTGACTGTACAATCATATATTACTGTTATTTGGGAATCTGATGCAGTAGCAGCACTAAAAAATGCAGCCGAAGTTGAAGTCGGTCTACCTAATATTGGGAAAGTTCCACTTGCTTTACCAGAGTCAGCGAATATATATGTAATATCTGTTACACTTGAGGTATCCCAATTTGAAGCTCCATCTATATTAACTAATGAGCTACACTCAGAAAGCATACGACCCATATCTGTTACACTGGAGGTATCCCAATTTGCTGCTCCATCTATATTGGCTAATAGAGAACAATGCCAAAACATCAAACCCATATCTGTTACCCTGGAAGTATCCCAATTTGCTGCTCCATCTATATTGGCTAATCTATAACTGCTTCTAAACATTTCTGACATAGATGTTACACTGGAAGTATCCCAATTCGCTGCTCCATCTATATTAACCAAACTACTGCAACTTATAAACATTTGTCCCATATCTGTTACGTTTGAAGTGTCCCAAGATGATAAGGCATCAATATTTGATATTTTACAATCAGAAAACATTCCGCCCATTATAGTTACCTTAGAGGTATCCCAATTTGATACTCCATCGATATCTACTAGGGATGTGCACTCTGCAAATGTTCCGTTCATACTTGTTACACTTGAGGTGTCCCAATCTGTTAAAGCATCTATATCTTCTATTGCGCAGTTTCTAAACATTCCGCCCATATTCGTTACGTTTGAGGCATCCATGTCACTAAGACCACTTATATCCGTTAGGGTTTGCATTCTTGAAAACATGCTTGAAGAATCACTATTTAAACGCAATTTAGCTGCTTCAGTATAATAATACATAGTTCCGTCTGTATCATCAAAATAAATATATACTGGGTATGCTGATGCGCTTGTTGAGATAGTATTAGCTGTTGATGGTGTAAAGTCACTTGGTAGTGAGTTTGATCTTTTTATTGCCGTAATAGCGTAATCACTAGAACCTGAAGACGTTGATGTGCCATTAGCTAAAGTTTTCATCTTAGAATTTACAGTTTGTCCATTAAGCAAATCAGCAGGTTCTGTTGTACAAGCTCCTTTTACAACATTAGAACCAGCCGTTTTTGTAGCAATAATAGCATCTATATTTGTTGTTTTTACACAATCATACACTACCGTTATTTGAGCACCGGAATCCTTTGCAGCCCCACTAAAGGCACTCGAATATGTAGTAGGATTACCTAATATTGGAAAGGTACCACTAGCCTTTTTACAACCACTAAATATATTTTCAATACTTGTTACACTGGAGGTGTCCCAATCAGCAGCTCCATCTATATCCTCTAAGGAACTACAATCACGAAACATGTAGGTCATATTAGTTACACCAGAAGTATCCCAATCACTTAAAGCATCTATATCTTCTAATAGGTCACAATTATAAAACACATACCCCATATTGGTTACGTTTGAAGTATCCCAATTACTAGCTCCATCTATATCCTCTAAATTAAAACAATCAGTAAACAGCCAGGATATGTTCGTTACACTTGAGGTGTCCCAATTACTAGCTCCATTTATATTGGTTAAATTTCTACAACCTGAGAACATTCCAGACATACTTGTTACACTTGAGGTGTCCCAATTATTTAAAGCACCTATATTTGTTAGAGAACTGCAACCAGCAAACATCCCAGACATACTTGTTACACTGGAGATATCCCAATTGCTAGCCCCATCTATATCACCTAGTGAACTACAGTTTTGGAACATATAAGACATGGTTGTTACGCTGGAAGTATCCCAATTGCTTAATGCATTGATATTTGTCAAGGAAGAATTGGAAAACATATTAGACATATCAGTCACACCGGATGTATCCCAGCCTGATAAAGCATTGATATTTACTAAATCATCACAATGAAGAAACATATTGCTCATATCTGTTACATTTGATGTATCCACAGCACTAAGACCACTTATATCAGTTAATTCAGTAAAGTTGTCAAACATATATGAGGAATCACCATTTAAATAAACAATATCAGCTTCACTATAATAGTACATTGTTCCATCTGTATCATCAAAGAAAATATATATTGGATATTGTGAACTATAACTATTTAATGATACTGTGTTTTCAGTTGATGGTGTAAACCCGGTTGGTAGAGCATTGGCTTTTTTAATAGCATGAATTGTTGTATCAGCAGTACTATATCCCATCGAAGATGAATTGTTAGCTAGTTTCTTCATCTTTGCATTTACATTCGTTCCATAGTCAAAATTAGCTGTTGTTAGCTGCCTATAGGTAACCGTAATAGTGTGATCACCTGTTACATTAGTAAAGGTATAACTATTAGCATATGTACTTGTGCTTACTGCTACTCCATCTACTTCTATACTATCTAATACACATGAACTATCTGTTGGGCTATAACTAATTGTCTTGCTTGATCCAAATTCTACTTCAGATGTCGATGTAATAGTTCCGTTGGTTACACTTGTTGTTATAGTAGGTTTCCAATATACCACGGATATAGTATGATTATCAGTTATATTAGTAAATGTATAACTATTGGCATAGGTACTAAGACTGACATCTACACCATCTACTTTTATACTCTTTAATTGATAACCGCTATTTGGACTATAATTTATAGTTTTATTGCTACCAGATTCTACTCTAGATGATTCTGTTATAGTTCCGTTGGTTACACTTGTTTTAATTTTTGGCCTTGGGTCAGTAACAACTACATATGGATCACTTGTACTTCCATCACCACCACTATAAGTAGTTCCCTCCTCCAGAGAAATCACTGGTCGAATACCAATTGAACTATTACTAGTTGAGAGGGAACCAGATGTATTAATCATACGTATTGAAGGGGTACTGCTCGATAGATAATAAGGCGACATAAGATAATAAGCTTGTCCTGTATTACGAGCAGTATTATTGCCTAATAGATTCATCTCTGAATATGTGGCAAGTCCCACCGGATATGCTAATTTTGCTTTAGTATTACCAACCGCAAATTGATCAGTAACATTATTACATTTTAAAACAGTATTGCTACTATAATCTTTAAATTGGAATGATGTTGATAAACTTCCTCCGTTTGGATTCCACCCATTACTTGAAGCGTTTCCCTCAGTTCTATCATTACAATAAATAGCATCTTCTAAGTAATTGGTATAATTATTCATGTTTTGTGCATACCAAGCATCTATTACTCCCTTAATGGCTGAATTATATCTATTAACATCATTTGCATATAGCATCTCATTTTTCATATCAGTTATTGTCTTGCTTCCACCTGTTAAAGTTACGTAGTAAGCAGTAGAAGAAGATTTATAATAAATATATTTCAATTCTGAACAGGTATCACTAGTTGACAAACAAGTGTAGTGGTTATTAGATAAATCATCACTACCTTCAGCTTTTATGGTATTTTGTAATATATAGTTTCCATTCTCATATCTAAAACTATTACCAAAGACATATCGATTATCGGTTGCTTGTCCTGTTTGGGTTCCTAAACTAAAGACTACATTATCATTTCCTGATGCTTGTGATCCATCTTTACTGTATTTTACTTGAATAACATTACTTGTTGTTAAGTTTTCTAAGACTATACTTCCACTTTTACTTCCACTATCATTTTTTAGCTCTGTTCCATCTTTATAGAAGTATGCTTTATCATAATTTGCTTCGCTTGATACAGTATAATTTAATACATAAGTACCCGCTGTTTTAACCTTGAATTTAATTGAAGCGCTTGTACTATCGACTTTCATAGTACTTTCCCATGTCTTATTAGTAGAATCCCATGTAAACGGATAAGTAGCATCATTTTCTGTTACATCATAATCTGATTGCTCAAATGGTGTTGTTTGTATTTCATACGTTCCCCATGAACTAACACTTGATGAATCACTTTTATATACAGTGTTAAACATATATCCTGCTTTAGCAAGAGTACCAATACTACCATGATTAAAAATACTCGTACCTATCTGAGAATAATGAGTATCCCCTATTGTGTAACTTGATGTATAAGCTTGGGTGTTAGTGTAGTAGCTATTGACATTATAGATAGTTGTACAGGTGTTAGATGTTGATGCACAAGTATATTTACCTATTAAATTAGTATATGTTGAATCGCTCCATGTAGCAGTAATTGGATTAGTTAAGGTAAATTCTCCTGTTGATTCATCATAAGTGAAACTATTACTATATTTATAAGCACCACCAGATAAAGTCTTATTCGTCCTACTTGCACCTGTTATACCTTTATGATTTCCTCTTGATGTATTACATTTGTTGGTAGAATCATAAGGACCATTATAAATCATCTTTACTCCACCAGTATCAGTGGTTCTTAATATTTGCCAACAAGTATCACCTAGTTTTGCATTATTGTGATTGACTGCATCACTACCTGCAAAATAATGAATTGTTTCTGTTCCAGAATTATCTAAACTGTCTTGATGTTGTCCGTTATAAGCTGCAGTTAATGAATCTGCTGCAACAGCATCATATAAACTATTAGTGTTATCTGCACGCGAAAAAACTAGGAATGTTCCTATTACTAATATAGATATAATTAAATACAGACCTTTTCGTTTATTCATATGCATCCTCTACTATATAATTATCCAATCTTATTATATCTCTTTTTCAATTGTAAATCAATGGACAAACCACTATTTTTATGATATAATTACTCCGTTAGTCTTCTTATAAATATTAAAAAGAAAGGAGTTTATAATGAAACCTAATAATAAACCTAATGGGACAAAGTTAGTTGTTTTAGGAGGTTTAGGAGAAATCGGTAAAAACATGTACTGTGTAGTACATGAAGACGATATTGTAATTATTGATGCCGGAGTAGCATTCCCTGAAGATGAACTCATGGGTATCGATTACGTCATACCAGATTACTCATTTTTAAAAGAGAACGAAGATAAAATTAGAGCCCTTTTAATAACTCATGGACATGAGGATCATATTGGAGGTATTCCTTTTTTACTTAATCAAGTAAAAATACCCGCTATTTATGCACCTAAACATGCCAAGGAATTAATTGCGGTTAAATTAGAAGATCGAAATATTAGATATGATAATCTATTTACTTTTACAGAGAATGAAAAACTAATATTTGGTTCAATTGAAGCTTCATTTTTCCTAATAACACACTCTGTTCCTGATTCACACGGTATTTGTATTAGAACTAAAGATGGTACTATTGTAACTACCGGAGACTTTAAATTTGATTTAACTCCTATTGGACCAATGCCTGATTTATATAGGATTGCGAAGATTGGTGATAATGGTGTAGATCTCTTATTAAGTGATTCTACTAATGCTTTAAATTCTGGTTTTTCTACATCAGAATCAGTAGTAGACAATGCTTTAGGAGAAATGTTTTCTAAATACACCAACAATCGAATTATTATTGCTACTTTTGCTTCTAATATTTACCGCGTAAAACACATTTTTGAGACTTGTTATAAGTATAATAGAAAGATATGTATCTTTGGTCGTAGTATGGTAAATAATATGAATATTTCTATTAATAATGGCTATATAGATCACAAAGAACTTTTAGTAACACCTGAAGAAGCTAACAATTTAAAACCTGGGGAAGTTACTTTACTTTGTACTGGAAGCCAAGGAGAACCACTAGCGGCTTTATCTAGAATTGCTGATGGTACTCACAAACAAATTCATTTACGTCCTGATGATATAGCTATCTTCTCATCAAGTGCTATTCCTGGTAATGCTTTATCTATTTCTAGGACTATCAACAAACTATGTCTAAAGGGTGTTAAAGTATTTACCAATAATTATGTCTCTGACTTACATACCTCTGGTCATGGTAACGAAGAAGAATTAAAATTAATGATTAGATTATTAAAACCAAAGTATTTAATGCCGTTCCATGGTGAATACAGAATGCTTAAACGACACGCAGAAATCGGTATGAAATGTGGTATCCCAGAAGAAAATACTTTCATTATGAAAAATGGTGGTTCCCTTCTTCTATGGAATCATATGATTAGAAAAGATGAAAATGTAACTGCTGGTGATGTTTATGTTGATGGTAGTAGAATTGGTGAAGTTGGTAGTGCTGTTATTAAAGATCGAAAAATAATGTCTAGTGATGGTATCCTAGTAGTAATAGTTAATGTAGAAATGAAAGAAAGAAAACTATTAATAAAACCTAATATTACTACTAGAGGTTTTGTCCAAATTAATGAGAATGAAGAATTATTAAAGAAAATAGAAAATGAAGCAACCAAGATTATTCAAAATGATCTTAATGATAAAAAAGCTACTTTTGCTATTATGAAAAGTAACATTATTACTAATTTAAGTTCATATATTAATAATCTAACTGGTAGAAGACCTATTATCTTACCAATAATTTCTGATATAAAAAGAGAAAAGAATGATTAAATTAATCATTCTTTTTTACTTTTACTTTACCCTTTTCTAAACTCTTATTAACAGCAATTTCACTTGTCTCGACTAGTGATTTATCACTATTAACATATGAATAAGGACGTTCTTCTCTTAAACCAAATATTTTTACTCCAAGCAATCCTTTTTTAACTGGTGATACATAAGTCTTTTTATCACCATGCTCTAATCTAGTAAATGCATATATTCTAGAAGATTCACCTAATTCTTCTACTTCGTTTTTCTGAATAAACTCTTCTGTTGTTTGCTTACTTCTCAAAAACTTTTGATATAAAAGATTATCTTCATCATTCATCTCTGTATAAGCATACTTACCTCTAGGATATCCATCACTATAATAAGTACCATATTCATATGTTTCTTTTTTAATTGTTCCATCTTCTTTACTAATAATAGTAAATTTAAATCCTGCTTTTTCATAAGAACTGAATCTAATTATGTTATCAAAATCACCAGCAAACAAATCGTTTTTATTAGGTACTAATAAAACTTCATCATAATTATATTGATATAGTTTATAAGCTTTTCCATTTAATTGAGCTGGTTTTACTTCACAAGGTCTATCTTCTATTTCCATAAAATCAGAATAACTCTTTAATACTTTTATGTACTTATTATAGACATAATTAAACTCCTCTTTGTGGTAATCATAATTCATATTATCAACTCCCTTTCTTTTGACGCATAGGGAGTATATTACCACAAAAAGGAGTTATTGGCAAGTATAAACTTGTTAAACATCATTCTTAGTTACAAAATGATGATTAGATACAAGAACCCATATGTATAATCCACCTAATATAAGTATAACCCCTAGGAATTTCAATACTATACTAGCAAAACTAGCAGTATCTGGAACATCACTCAAGGTTAGTGGATTTTCATATCGTCCTCTATTACCTTTATTATTGCTGTCATTTTCTTTATCATCAGGAATAACCTCATCTTCTTCAGTTGGATCAACAACATCAACATTAGTATTTGTAAATGATGATATATCATCTTTAAAAGCAAGACTATATGTCAAATCATCATTTACTGTAATAGTAACTTCAATAATTTGATCATCAATATACCAATTATCAGATTCAACCTCATTCTGTTTTACCTGATAAGTATATTCACCTGGAGCCAATAATAATGTTTTAAATGCATAACCCATACTTTCACTAGCAACTGTTTCAATTGGAATATTATTTTCAAATAAAGTTGCTTGCATATTTAAATCTTTAATATCACCGCTATTAGAAAACATATTAATATTTACAGGAACATTAACAAAAGGATCATTAGGTGCCTCTGTTGGAGTATAATTATTGTTAAAACTATTAGAATCATATCTAACATTATAACTTAAAGCACCATTATTATCTGTAACATCAATAGTAGCTGTTATAGTTTTATCGTCTAAATCTTGTACTAAATTGTTCTCTGTTTTATGATATGGCTGTTGTTGATATAATTTATAAGTATATGTACCTGTATCATCAACACTTACAGAAGATTTATACTTTGATTCTTCATTTTCCATAGTATTAAGAACTTTATCATTAGTAGCTAAAACAGCTCTTGATTTAATAGGCTCTTCTCCCTGATAATTATCTATTATGCTTACTTCTAGCGGCACATCAACAGCTGTATAGTGAGCAATTATTTTGTTATTAAACTCTGTACTATCATAAGTAATATTATGTTTTAATTTGCCACCTTCAGCAAAGACACTTATATGGACATTTATTTCACTATCATCCATATTTATTTCATAGGTGTCATTAATATGACTAGTGTAACCCTCTTGTTTAATCTGATAATCATATTCTCCTTCTGTTAAAAATTCAACAGGTGTAAATGTATACTTATTGCTTGCACTATTTACTGTTTCTATTTTTTCTTTATCTCTATAAATAGAAGCCCTAGTAACAGGAATATTTATATTAGGATTAGGAGCATCATTAACAATATTCACTTCTATTGGAACAGCAATAGCATCAAAGCCCTTCATATAGTAGTTTTCAAAAGTACTATCACCATATCTGAATGATTTTCGATATTTTAAAACATTGTCTTCCTCATAAACTTCAACATTGACTATCTTACTGTCGCCATCAATCGTATAAGAATAAGTTGGTTCTTTATGAATACCAGGATTGTTTTGTCTAATAGAATAAATATATGTTCCTGCCTTTGCTATTTGAACACTGAAATCATATTTTTCATTAGCACTAGTTACTGTCTGTAGTTTATTATCACCTTGATAAATAGCAGCACTAGTCTCAGCAACTGAAAGGCTTTCATTATCCTTAATATTATCAATGGTTAAACTTATAGGTACTGAAATCGGATCATAGTTTTGAGTAATACTATTTTCAAAGACATTTGCTGAATAACTAATATCAAGCCATAGTCTTCCTTCTCCTTCAGTAGCAGTAACATGTACTTCTATTTCTTTACTATCATAATAGTAATCTATATTACCAATAGTTTCCTTACCGTTTTTATCTTGTTTTATTGTATAAACATATTCTCCCGGTGATGTTATTTCAATATCATTAAAGGTATACTTTCTACTCCTACTATTAGCTTGCGCTAAAGAAGCATTATTTCTATATAAAGTGGCACTTGATACAGGTGTTTCAATTTCACTATTAGAAACCGAAGTATTTATCTGAACAGAGAAATTAATACTTTCCGAAGTACTCACTTCATTATTAAACTGTGCTGAAGTAGGATTAATAGTATACTGCAGAGTACCATTATTATCAGTAACCTCTATAGTATAAGTTATTCTTTTATCATCGATATCATACATATACTCATCATTATCAAGATTCTTCTGAGTAATTATATATTTATATACCCCTGGTTCATTAGTTCTAAAAGTATAGTTATAATATTCTCCTTCATTAGATATATTCTCTTCGTTACCGCCTATTACCACTGTAGCCTGCGTATTAGGTGTAGGAATAGTATCTAGACTCTTAATAGTAACGATTTTAGTATGAATAGGAATATTAATATTATCATAGCTATAAGATACTTTATTAGTAAAAGTATTGCTTGATAAACTATAAGTACTAACAAGATTATTATTCTCAACTGTAGCTACTATCGTTAATGTAATCGTCTTATCATCTAATTCATATGAATAATTTCCATTACCAGTTATACTTGTATCTTGAGCAATTGTATATCTATAAGTACCTGGTTCTGTAACTTTAATATTAAAAGTATATTTATCAGAAGCATTACTCTTAGTTTCAATTACAACTCCGCTCTTATAAAGAGTAGCACTTGTATTAGGAGTAACACTAGTTTGATGCTTATCCGTTTTAATATTGATTTCCACTTTATTATTAACTTCCGGGAAGTCAGCTGATACCTTGTTTGTAAAGGTACTCTTACTATATTTAACTGAACATTCAAGGCCTGACGCACTCTTAGTTGCTGTAATTGTAGCTGTTATATTAGAACTATCAATATCAGTAGTAATATTACCACTAGTTGTTTGACCACTATTATCTTGTTTTATCGTATACGTATATGTTCCTTCTTGACTAATTTGAACATCACTAAAGCTATACTTGTTCTCCGATGCGGAAACAGTACCCACTTTTTGATTATCTTTATATAAAGAAGCGCTTGTGCTTGGAGTATCCAAACCACTATATGTTTTAGTAGTTTGAACATTTACTGAAAGAGGAACACTGACAGCACTATAATTATAGGTGTTAGTAAATGTATTGTCTCCATTAGCAAAAGTAGTAGACGAAATTAAGTTGTTCGTCGCCAAACTATACTCCACCGCAACAGTAGCTTTTTTAGTTGATTGATCAAAAGTCCAATTAGGAGCTGTTTTAGAAGCCTGCTTAATATTAAATGTATAATTACCTATTGTTGTTGAAGCAGGACCAGAATAAGAATACTTATTATTAACAGCTGTAACAGTTTTATTAGTAGAAGGCGATGATGATGTAATAGTAGCCTGCATTCCTAAGTTATCAAAACCAGTTTGATTATTTGTAGATACCTTAGTAACTATTGAAGCTTTAGGGTCTTTAGCAGTAAAGTCTGGTGTTAAAACCCAAGCAGAATATGAAGAATTCTGTGTATATGCATTAGTATTTTTATTCTTTTTGCCCGGATTATGGAACAAAATCCAAGGACGATAAGCTCTTCCAGATTCAGTATTTAATTCAACACTTTCAGTTTCACCTGGAACCTCAATAATGTCACCACTAGTAGTAAAATCAGAGCCAGGTAATATTTTCCATCCCTTAACATACTCATAACTACTAGAGCTTTTATAATCTCCTCCCATATAATGGAAAACATATATCCTACCATCTCTTGTATCTTTTCCATTACTTTGTGCTCCAATATTACTAGACTGATAAAGGTATCCTTTAGCCGCTGAGCAACCACCTGTAGCACCAGAAAGAGTTGTCCCAAAAACATCAACAGTACACTTTGCATCACTAATTTCTCCATCACAAACTGTATATTTAAATACGCCGCTTCTTTTTCCGCCTAAATAGAATCTTTTTAAAGAAGCATCATAAGCCATAGAAACATACTGTTTAGTCAAGGTGTTTGTTTGATCAAGTTTTTTTATCCTCTTACGCTTCCATTTTTTACTATCTAAACTGCTAGCATCTATGTATACAACTCTGTATATAGGATCGTCATTATCATCATAAATATAATATAAAATAGCTATCTCGTTCGTATCTTTTATGTATGTCATATCATTTCCATGACTATACCTTAGGGCCCGTGTTGATTCTGTACCACTACTAGTTGTATAAGTCTCTTTTTCAGTTGAAAAGTACTTTACCCATGTACCACTACTATTTCTTTTAAAGACATGAATAATACCTTCATAATTATCAGCATTTTTATTATTTGCATAAATAGCTAAGTATTTCCCAGTAAAAACCATCGATTGATGCCCCCAATTACTTATTGGATAATCTTTCTTAGAAATATTTAATCCTGAAATTTTATGAACCTTAAGATCTTCGACAACAGCATTAGCAGTAATAGCCTTCCCTAAAATTATTAGAAAAGTCCCTGAAATTATCAATAAAACAAGTAATAGTTTGGGTTGTTTCATACTACATTCTCCTTTTACAATATCGCCCATTATCCTAATAACATTATAACACCTATTAATCATATAAGCAAAAAAACAAACAATTAGTTTGTTTTTTTATTATTTCCACTTCCACTCTCTAATATAAGGCATATCAATTCCATATTCTTTAATATATTTATCATGCCGTTTTAACATATCATCACACCAATCAGCAAGTACTTTAGTAAACTTTCCATATTGAGGAAGTTCTTTTAAAGCTGCTTTTACCAAATGGAATCTATCAATTTCGTTTTGTACTCTGATATCAAAAGTAGTTGTTATAGTACCTTCTTCTTTATAACCATGAACATGCATATTCTTATTATGTCTCTTATAAGTAAGTTGATGAATAAGCGATGGATAACCATGAAAGTTAAAGATAATTGGTTTATTCTTAGTAAAGACATAGTCATATTCTTCATCAGTGGCCCCATGAGGATGCTTCTCATTAGACTCTAATTTCATTAAATCAACTACATTAACTACTCTAATTCGTAATCCTTTAATTGAGTTTTTTAGTATCTTAACTGCTGCCAAAGTCTCAAGAGTTGGTGTTTCTCCTGCACAAGCCATTACTAAATCAACTTCTCCTTTGTCACTAGCAAAATCCCAAATACCAAAGCCTTTTGTACAATGAGCCTTAGCTTCTTCTACTGTTAACCATTGTGGACGTAAATGCTTAGAAGCAACTATTACATTAATATAGTCCTTGGTCTTAATACAATGATCAAAGCATGATAAAAGACAATTAGTATCTGGTGGTAAATACATTCTTACCACATCAGCCTTTTTAGTAACTAAATGATTTAAAAAGCCCGGATCTTGATGAGTGTAACCATTATGATCTTGTTGGAAAACATGAGATACTAACATAAAATTCAAAGAAGCGATTGGCTTTCTCCACTTAATATCTTGGCATACTTTCAACCATTTAGCGTGTTGAGAAGCCATAGAATCAATTATTCTAATAAACGCTTCATAACTATGCATAAATCCATAACGTCCTGATAGAAGATATCCTTCAAGCATTCCTTCACAGACATGTTCTGATAAATAAGAATCCATAATTCTTCCTTCTGGACTTAGTAATTCATCTTTTTTATCAATAGCCATATTCCAAGTTCTTTTTTCTACTTCAAAAATAGAATTAAACTTATTAGATAGGGCTTCATCAGGTCCAAAAATTCTAAAGTTTTTATTCTTTTTATTTAAGACAAATAAATCTCTAATATATGGGGATAAATTATTAGTATCTGATGCTTCAATAACACCTCTATCAATAATATCAATACCATAATCTTCCCAATTAGGAGTAATTATCTCTTTTAATAGCAAGCCCCCATTAGCATATTCAGATGCACCCATACACTTCATAGGACTAGGAACTACTGCGTCTCTTATCTCTTTTCTTAATTTACCCTTCCCATCAAATAATTCTTCAGGATGATAACTCTTTAACCATTTTTCTAAAGCCTCTAAGTTCTCAATATGTTCATTATCAATTTGAATAGGTATTTGATGAGCTTTAAAAGATCCTTCAGCAACTTTAGGACCAGTCCAACCTTTAGGGGTAGTAAGGACAATTAATGGCCATTTCTTACTTTCCCCTTTTTTTAACTTTTTAATATCAGCAACTACTAAATCCAAGGTCCTAGCCATCTCTTCATGCATCATCATCACGTTTTTACCCATGACAAAATATGGCTTATAACCAAGTCCTTTAAAATAACTCTCTATCTCATCGTTACTCATCTTTCCAAAGACAGTTGGATTAGCAATTTTATAACCATTACGATGGAGAATTGGTAAAACAATTCCATCTTTCTTAGGATTAATAAACTTATTAATATTCCAACTTGTAGCTAGCGGTCCTGTTTCTGCTTCTCCATCACCTATAACACAAGCTGCAATTAAATCAGGATAATCTAAAACAGCTCCTGCCGCATGCACAAGAGAATAACCAAGTTCTCCCCCTTCATTAATAGATCCTGGTGTTTCAGGAGCTACATGTGATGATACTCCAAACGGAAAAGAAAACTGTTTAAAGAGTTTTTGCATCCCCTTTTCGTCCTCAGTTATTTTAGGATAAAATCTAGTATAAGTACCATCCAAATAATTATTAGCGATCATTGCTTCTCCACCATGTCCTGGTCCTGATACATAAATCATCTTTAAATTATATTTCTTAATAATTCTATTTAAATGAGTATAAACAAAGTTTTGTCCAGGAGCAGTACCCCAATGCCCAACTAAATTATTTTTAACATCATTAATGCTAAGTTTTCTTCTTAAAAGAGGATTATCTAAAAGATACAACTGTCCTACAGATAAGTAGTTAGCTGCTCTAAAGTATTTATCAATATTTTCTAATTCATTTTTAGTAAGTGTTTTCATATACGCTCCTTTATTATTCTTAAGATTATTATATAACAAAACTAGAAATATATAAAATAAAAACTGCTTACTTTATGTAAACAGTTCAATTATTTTAGGTAGGAAAATAATACAACCAATTACCACAGCCCCTAAGGCAAACACAAGTACTGCTCCTGCAGATAAATCTTTAGCTAGTTTAGCATGTGGATTAACATGAGGAGAAGCCAAATTAACTACTTCTTCTAAAGCTGTATTAAATAGTTCTGAACCAATAACTAAACAGAATAATAAAATACAAGCAAACCATTCATTAAGAGATATTTTTAAGAAAAGTCCTAAGATAATAACTAACAACATTATGAAGATATGAATCTTCATATTAGCTTCACTTTCAAAAGCCGAAAAGATTCCTTCAATTGCATATCTAAAGCTATTTCTTCTTTTCTTTATCTCTTCTTTAACATATTTCTTTTTAAACATTTTTCATCTTCTCCTTTGCTTCAATAAATACTATTAAATAAATAAGTCCTAAAAGATATCCAGCTAAAACATCTGATAAGTAATGAACTCCTAAATAAATTCTACTAAATCCAATTAAAAGTATCAATAAGGACATTATAATTAATAGAACTATTCTTAAAATTTTATTCTTAACCTGCCGATAAATTAAATAACAAAGAAACCCATAAAAAGCTACTGAAAGCATCGCATGGCCAGAAGGAAAAGCATAACCTCCCTGCTTTATCAACATATCAGTTGGTCTATTTCTTCTAATTACTATCTTCAAGATAAAGTTTAATAATGCAATAGCACCAAGATTAATAGGGATAAATATTTTCTCTTTTTTATCTTTCCAAAATACTAATAAAATTGCGGTTAGAATAACTAAAAAGGTTGCATTACATAGTTTAGTAATAAGTTTAAAAAACGTTGTTAAAAAAGGAGTACGAATACTAGCAACAAAATCTATTGCTTTTTTATCAATATTTAAAACACCTCTACTCAAAACCAACATAAGTAAGACAATAAATATTATTATAAGAATAGCAATTATAAAATATCTCTTCTTAAGTTTCATCTTATCACCACTATAATTATATCAAGCCACAAAAAAAGAAGCAATTATTTTGCTTCTTCTTGAGCTCTCGTTTCTCTAACAACAGTTATTTTAATGGTACCTGGATATTTCATAGTCTCTTCTATTTTTTCTTTAACACTACGAGCAATCTTATGTGCTTCTAGATCATCTACTTCATCTGGTTTAACAATTACTCTTAATTCTCTTCCTGCTTGAACAGCATATGTTTTATCGACACCATCCATATTATTACCAACTTCTTCTAGTTGAGTAAGTCTCTTAATATAGTTTTCTAATGAATCATTACGAGCACCAGGACGTGATGCTGATAAGGCATCAGCAATTGCTACTAAAGAAGCAATAACTGAAGTTGCTTTAGTATCTCCATGATGAGAAGCAATAGCATTAACAACTGTCTCATTTTCATGATACTTTTTAGCTAAATCAACACCAATATCAACATGGCTTCCTTCCATTTCATGATCAATTGCTTTACCAATATCATGTAATAGTCCAGCTCTTTTAGCTAAAGTTACATTTTCTCCTAATTCACCAGCTAGAAGTCCAGCTAAATGAGCAACTTCTAAAGAGTGATTTAGGGCATTTTGACCATAACTAGTTCTAAAATGTAGTTTACCAATTATTTCAACTAGTCCTGGATCTAATTTAGTAATTCCTAGTTCAAAAGCTGCATCATTACCATATTCAATAATCTTCTTATGAAAATCTTTAGCAGTCTTATCATACAACTCTTCTATTCTAGTTGGATGAATTCTTCCATCTTTAATTAGAGTCTCTAAAGTTACACGAGCAATCTCTCTTCTCAATGGATCAAAACTAGATAAAACTACTGCTTCTGGAGTATCATCAATTATTAAGTCTACTCCTGTAATAGCCTCTATAGTTCTAATGTTTCGTCCTTCACGACCAATTATACGACCTTTCATCTCATCATTAGGTAGATCAACTACCGTAACAGTTTGGTCACTAGCAATATCAGCTGCATATTTCTGCATAGAAGAGACAATTAATTCCCGAGCTTTATTATCAACAGTTAACTTAGCTTCATCTTCTTGTTCCTTAATATAAGCCGCAATCTCTCTTTGCATACTATCTTTTACTTTTTCCATGACCATTTTCTTAGCTTTTTCTTTGTTGATTCCAGATATCTTTTCAAGTTCTTTAATCTGTTCTTGTTTGATTTCTTCCACTTTACTCTTTTCATTTAATATGTCTTTTTGTTCTTTACTTAGTTTAGCTTCTCTATCATCTAAACTAGCTTCTCTTTTCTGATAAAGTTCATCTCTTTTATCCATACTAGCTTCACGTTGTAGTAGTCTGTTTTCACTTTGCTTTAACTCAGCTTTCTTCTCTTTAATCTCTTTATCAGTTTCCATTTTTAGTTTATGAGCTTCTTCTTTTTGTTCTAAAATGGCATCTCTTTTTAATTTTTCAGCCTCTTTTTTAGCTTGCTCAATCAAAGCATTTGCTTTTACTTCTTTACTCTTATTCTTAATCATGTTGAATACAAATGCTATAACAAATCCTACAAATAAACCTATTATTGCAAGTAAAATGGAGAATGTTGTGTTATTCATAAATATTTCCTCCATCTAGATTACATCGTAATCTAATTTAATTGTACTTGCTAATTTAAAATGTGTCAAGGAAGGAAAAAAAGGAATTAATTAATTCCTTTTAACTACTTTGTTTAACCTTATCTAATACTTTTTTTATGGCTGTATCTTTAACATTATCTATCTTATACCAACCATATTTAGTCATTTCTGTATAAGTATTTGCTTGTGCACACATAGTATTATCTAAACCTTGTTTTAAGAGCTTACGAACACTCTCATTAGAACTTTCTAAAGTACCATGAACATATACTTCAACAGTACTTTTTAATACTAGTAAATAGTTATCCATTAACATTTGATCATTCATTACTATTAACCTCCAATTTACTAACTAGTTTTTCTTGAAACCCTTCATGAAGTTTTAACTCTTTTTCCATAAAAGATATTAAGTTTGGATCTTCTAAATAGTTAAGAGTCTCCGCTAATACTTTAATAATTACTCCTTCATGCCCAATAGCATCTTCTACATACAATAATTCTTTTTGTGTCATTATATCCCTCCTGTTTTAGTATGTGAAACTATTATTCTTTTATACAAAAAAAGAAGCTCTTTAAGCTTCTTCTTTAGGTTTAATAAAGATATATATTCCTCCAGTTATTAATAATAGTGCCCCAGATAATAGTAATATACTTATATTTTTATTAGTATCCGGAACTTTTACTTTTTCTCCAGGTGCTGTTACTGTTTTCTTGGTTGTTGTTGTAGTACTTGTACTACTATTATCTCTACCACTACTATTTGAATTATCAGCAGCAACTTGGGCTAAAACACCATCTATATCATCAAGATTGTGAATTATAAAACGATGTCCTGATTTAGGATTAACGAGTGTTGAATCAGAAAACTCTACCTTCTCTTCATTAGACAAAACAACATAATCTTGAACCGCTAACATATCAGTATCCGTTCCTTCGATTTTTCCTGTCTTAAAGTAAATTTCATCATTTTCCTTACCATAAGCAGCAGCTCCAACATTTTGGGAAACACTTTGATTTAATGATATCCTAGTGTCTATTGTTGCTTCTTCACTTGGATTTGAAAAACTATCAATAAAAAGTTTCATATAGTCAAAGAAATTTACATAGTGAATATAATTATAACCCTCTGGTATTTCCGTTATTTTATAATCTAATGTTACTAAAACTAAATACTGTTTATTATTATCCTCAATTGTAGGAATTTCTGCTCTAACTAATTCTTCCACACTAATGTCAGAAAGAGTATAATTAACTTTTACCCCTGTTGCGGAAGTATGTCCAGTAGGAACATTAATTTCACTAGCTACTGGATTAATTGTTATTTTATCAGCAGGAATACTAATTGTTTTATAAACTGTATTAGTACGGATTCCTTCTTCATCCAAAATCTTAATGGACATTCCTTCTATAGTATATTTAATCCCATTAGCCTCATAATTCTGTGGAAACTCAGCAGCAGATACATTTAAAACTGAAACAACAAGCATGACTATAACTAGTATTAAACTTTTAATTAATTTCATAAGACTCTCCTTTACTCTATATTAATCATATCTAATAAAAGCAATACTTGCAAAAGAAAAAACACCGTATTTACGGTGTTTTTACACTATTTATTAAAATATTTCTCAATAACCTCATAATCACAATAAGGAACCTTTCCTTCTGCTAGAGCCATATAATTATCTCTTCCTTTACCTAGGATAGCTACTATATCACCTGCTTCTGCTTGATCAAGGGCATATTTAATAGCTTCTTCCCGGTCATTTATTCTTACATAATTAGTTAAAGGACTATCATCTATTAAATCATCAATAATATCATCAACGCTTTCCTTACGTGGATCATCCATCGTAAAGATTACTAAATCAGAATTCTCTAAACAGGCTTTTCCCATTAGTCTTCTTTTAGCTTTTTCCCTACCTCCAGCACTACCAGTAAGAGAAATTAATCTTTTATGAGGATATCCTTTTAAAGTTGTTAGAATGTTCTCAATAGCTGGTGCTGTATGAGCATAATCAAGTATTATCTTATAGTTAGTACCAAACTTTAGCTCCTCACTACGACCAGGAATAGTATCAATTTCTTTTATAATGCTCTTTAATTCTTCATAAGTAAATCCTTCTAAGAAAGCTACTATAATAGCTGCCGTTAAGTTATAGACGTTATAAACACCAATTAAAGGGGTTTCAAAAGAGTATTCTTTTCCATCATTAATAATAGTAAATGTAGTTTTTCCTAAAACCATATCAACATCTTTAATCTTATACTGAGCATCATCACTAAAACCATAACTAATACAATTACCCTTTTCAGCAATAATTTCTTTACCAACATTATCATCAATATTAATGATACACTTACCTGTTTCCTCCACCAAAGAGAATAAGTGTTTTTTAGATTCAATATAATTATCTAGAGTTTTATGAATATTTAGGTGATCTTCAGTAAGATTAGTGAAGATAGCATATTTAAATCTTAATGTATCAACTCTTTTATGAAGCAATGCTTCACTAGCAACTTCCATAATAATATTCTTATTACCATCATCATTAAGTCTCTTTAAATATGGATATAATTCCTCTGGTATTGGTGTTGTATTATTAGTTGTTGTCTTGAATTTCTTACTTTCAATCCCATTAGTACCAATATAAGCACAGTCATCATGATAATTAAGTATTTTATTAATAATAGTTGCTGTTGTTGTTTTACCATCAGTACCAGTTATCCCAATAAAACTACTAGTCCATTTATCTTTATCATAGAACTTCTCTAAAATAGAAATAAACTCACTATTAACATCAGGAACTTCTACTTGATAAATATCTTTATCAACCTTTTTAGATACAATAGCCGCTACAGCACCCTTCTCAATAGCACTATCAATAAAATCAATATGATCAGTAAAGAAACCCTTTTCAGCAACAAAAAGAAACCCTTTCTCCACTTTCCTGGAATCACTAGTAACTCCTGTTATTTCTAAATCACTATCACAATTTACTAAATCTTTTAATAATTTCATAAAATCACCTACTATCATTTTATCATATTTAAAGTTATTTTAATACAAATATGTTGGAAAGTATCTTATATTTCTCCTCTATAACAAAAAATGTAGACCGTTTTTATGTGTCTACATTTATCTTACAACTTCAATATATCCTTGTTTATTTTTCAGCTATTGAATAGAACTCTCTAACCTTCTTTTCAATCTCTTCAGCAAGCTCTTTATTATCTTTTAACAGAAGTTTTACATTTTCTTTACCTTGACCAAGTTTTTCACCATTATATGAATACCATGAACCCATTTTTTCTAAGATACCTGCTTCAGTACCTAAATCAATAAGTTCTCCTTCATGAGATATTCCTTCACCATACATAATATCAACTACAGCAGTCTTAAATGGCGGTGCCACCTTATTTTTAACAACTTTAATAGTTGTCTTGTTACCAACTACTCCGTCACCTAGTTTTAATTGTTCATTACGTCTAATATCAAGTCTAATAGTTGAATAGAACTTAAGAGCTCTACCACCAGTAGTAGTCTCTGGATTACCAAACATAACTCCTACTTTTTCTCTTAACTGATTTATAAAGATACAAGTAGTATTAGTCTTATTAATGGTTCCTGATAGTTTTCTGAGAGCTTGAGACATAAGTCGTGCTTGTAAACCGACATGAGAGTCACCCATTTCACCATCTATTTCAGCTTGTGGTACTAGAGCTGCTACTGAGTCAATAACAATGATACTTAAAGCTTCACTTCGTACTAAAGCCTCACATATTTCCAAAGCTTGTTCTCCAGTATCAGGTTGAGATAATAATAAATCATTAATATCAACCCCTAGCTTTTTAGCATACTCAGGATCTAAAGCGTGTTCAGCATCTATAAAGGCTGCTCTACCACCTCTCTTTTGTTGCTCAGCAATTGCCTGTAGGGCAAAAGTGGTTTTACCACTAGACTCTGGTCCATATATCTCAATTATTCTTCCTCGTGGATAACCACCCACACCTAAAGCAATATCTAAGGATAAACATCCTGTTGGACAAACATCCACTTTCATATGGGCATTATCCCCTAATTTCATAATTGAACCTTTTCCAAATTGTTTCTCAATATCATTTAAAACTTTATCTAAAGTCTTGTCACTTTTTGTTTCTTTTGTCATTATTTTTCCTCCTCTATCTAATACCATTTTATATAATAAAAAACCACTTGTCAAGACTTTTTTAAACATTTGTTCGTAATTTTACACTTTCCTCTTTTTCCTTATTACAAAAAGAAAAATTCCCTTACCAATTGGGAATTTTTCTTTACTTTTTTCTACTTAAATTTATTTTTTTGCATCAGCAAAAATCATTCTTTTACCAAGAGCAATATACTCAAACATAGATATAAGTGCCATAACTGTAGCAAATAATACTAATATTAATGATACTCTGACATTAATTAGTTCAAATGGTAAATTATAGAAGAAAGTAAGAGTAAGTCCTACCATCATAGCTGCTGTCTTAAGTTTACCAGAATTAATGGCTGCAACTACATGTCCTCTATTACCTATTTCCATCTTAACAGCATCAACAATAATATCTCTAATAATAATTACTACTGGTACTACTACTGGTATAAATCCTTGGCAAGCTAAGATAATAAGTATTGGATTTACTAATACTTTATCAGCAATTGCATCAAGCATCTTTCCTAAATCAGTAACCTGATTATTTTTTCTAGCTAGGTATCCATCTAAAAAGTCTGTTAGACTAGCAATAATAAATATTACTCCTGCCACAATATACCTTAGATCAATCTTTATCCCACTGACCATATACTTAGGCCAATTAATTCCCACTGAATAAAATGGGAAAATAAGAATAATGATCATTACAATACTTAATATCAATCTTAGTACTGTTAATTTAGTAGGTGTATTCATAATTAAATTTCTCTCCTTTCAATTCACTATTACGAATTGGTTTCCTATTCATTATCATAACCATTAAATATATAAGAACAAGTAACAATATTAAAGCTCCCACACCAATTAAAATTGGTTTATAATTTATCTTCTTTTTATACTCTTTAGTATAAGGAGAATGCATCTTTACTTCTTTAGTAGCTTCTTGTTTAGCTTGTTCTTCTTCAATATCTTTTAAAGATATCTTCGAAGTATGCGCAAATAAGAATTCATTAAACTCATCAGCCACTTTATCTGAATCAAGACCCAAGTATTTAGCATATGTCTGCATCTTATGCCTTAATTCATAGATATCTTTAAAAGCCTTAACGTTCCCAGCTTCAATATTCTCTATCTCAACTTCTTCGATCTTTAAATCATCAGCTGCTTCTTCAATACTGACACCATTTTCTATCCTGGTGATCTTTAAATATCTTCCTAATTCTTTCAGGATCTATCACCTCTTTATATAAAAAAAATAATATTAATAAGCCAAGTTCTGTACTCTTTAAAAGAGTGACAAACATCTATCTACTAGTTACCTAGTCCCTATATTAGTTCATTTCCTAATAATAGAGCTCCCCTACCATAATTTGGGTTTCTCACTTGTGGGGTTTACCCGTTTCACTTTCTTGTTTCCAAGAAATTCGTCTCTGTGGCACTTTATAGCTCCTACCATATAAAAAACTTAGGTATTACGCCGCCGTTAGATTCCTCTACCTTAGGTTATTTTTTCCCTAAGCACAAACACTACATCCATCGCAGAATGTGTGAGCCTGGACTTTCCTCAGTATAGTATATATACCGCGTTTGTCTAAATATTATTCCTCTTCTTTAGTTTTAGTTGTTCCATATACCATTTTCTCAAGTTGAGAAAGTCTTCTCATAACATCAACATTAGTCATTTCATTACTTTCAGTACTCTTTACTATCTCTGCATTAGTCTTAGCTGTTCTAAGTTCCTGTTTTAATTTCATAATCTCTGATAATAGATCAGCCTTTTCTTTTTCTAATGAATTAATGATATTAAGAAATTGTTCATAATCGCCAATGATAGTATCTAAGAAACTATCAACTTCCTTTAAACGATATCCTCTAGTATCTATTTTGAACTCTTTTTCTAAAATGTCTTGAGGAGTCAAAACAATTTTATTTTGGTACATGTCTCTTCACCAATCCTTTTACACTACCTATTTTAAAAGATTAGTCTTTTTTTGTCAATTATTTATCATAATAAATCTACTTTTAATCTTCGTAATAGTTACTTTTGATAGGACCTTATTGATTAAAAGAATCGTCTCTAGATTATTCATCACTATTCACCTCAATCTCATTTTATTATATCTTTTTTGACCTGTCCTCCGTTTCGACAAAACTTCCGATTATTTTTATCTCTTTTTATAGAAATTTTTCTAACTATATAGTATAATTAATAGTAGGTGATGCTGATTGAGTATTACAAAGCAAAATAAAATAAATTACCCTGGAGGGACTAAAGTAAAAGTAAGTAAATTACCCACTAATTATTCTAATCGGGGAATGGCTTTAGAAGACGATATCAATTTAACTAATAATTATTATATAGATAATGATATTGCCTATATTTATAAAAAACCAACTCCCATTAAAATAACAAAAGTGGATTATCCATCTAGACAAAAAGCAGTTATTAAAGAAGCTTTTTTTACCACCCCTTCCACTACTGATTATAATGGGATTTATAAGGGTAAATATATTGATTTTGAAGCTAAAGAAACCAATTCTAAAAGTTCTTTTTCCTTGGCAAATATTCATAAGCATCAAATTAAACATCTAGAGAATATTTATCGTCATGGTGGCATTAGTTTTTTAATAATTAGATTTAATAAATTAAATAAAACCTACTTATTAAAAGCCGAAGACTTAATTAGTTTTTTAGAAAATGAAAAAAGAAAGTCAATACCACTAGATTTTTTTGAAAAATATGGTATTATTATAGAAGAAAAATATAATCCTCGGTTGGATTATTTAAAGATAATTGATTTTCTTTATGGAGGTAGTTATGGCAAATAATAGAAATAAAAGATCTACATATCAAAAGAAAAAAAGATCTAGTAATAGTAGAGCTAAAACTAGAAGTGAAGCTACAAAAAGATATAGCTCTAAAGATTTTTACGGATCAGAAAGAGTAAGTTTTAAAACTACAAATTATTCTCCTAGTAAAAGTAAAACCAAACCAATAAAAACAACTGTTAAGAGTAGAAGAAAGAACAGAATTACTCTTACTAAGAATCAAAAATTGGCTTGCCTAGGAGCATTCGCTTTAGTAGAAGTGTTCTGTCTTATTAGATTTGACTGGTTTATTGCTTTATTCTTTGCTCTAGGTGTTGGAGTAATTGCTGGATTTACTGTCTTATTACATAAAGCAGAGAATAATAAAAAGCGGAAAAGATTACTTAACTTAGCAATTATTGCTTGCTTAGCATTAGGTATTATCATTGTTTCTGCAATAGCCTTATTCCTAATCTTTATTACTTTGAAGGCACCTAAGTTTGATACTAAAAAACTGAATAAAAAAGAAATGACTATTCTATATGATAAAGATAATAAAGAAATAATTAGATTAGGTAGTGAAAAAAGAGAAAAAGTAACTTATGAAAAATTACCAGAAGTTCTAGTTGATGCTATTATTTCAACTGAGGACTCTCGGTTCTTCCAACATAATGGATTAGATACTGCTAGATTTGTTTCAGCTTCTGTTAAACAGTTGGCAGGTCAAAGTGATGCTGGTGGTGCTTCCACATTATCGATGCAAGTTATTAAAAACAGTTTTACCTCAACGGAATCTCGTGGTATAGCTGGTATCGTCCGTAAATTTACTGATATTTATCTAGCTGTCTTTAAGCTAGAAAAGAATTACACTAAACAACAAATTATTGAATTCTATGTTAATAACCATTTCTTGGGTGGTAATATCTATGGTGTTGAAGAAGCTTCACAAGCTTATTTCGGTAAACATGTTTCCGATCTTAACTTGAGTGAGGCTGCAACCATTGCTGGATTATTTAGATCACCTAATGAATATCGACCAATTACTCATCCAGATGCGGCTGAAAAGCGAAGAGAAGTTGTTTTAAAAAGAATGTTAGCACATGGTTATATAACTAAAGAAGAATTTGAAGCAGCTAATTCAATTCCAATGAAGTCAATGATTAGAACAACAGTTGATGAAGAAAGTGATGAGTATCAAGGATATATTGATACGGTTATTGAAGAAGCTAAAGAAAAATATCATGTTAATCCATATACAACTCCACTTATTATTCATACTAATATGGATAGGGATAAACAAGACGCTGTTAATGCTGTCTTCAACGGTGAAGCTTATGATTGGATTAATGAAAAGATTCAAGCTGGAGCTGCTGTTCTAGATACTGAAACAGGTCAAATCTTAGCTATTGGTGCTGGTCGTAATAGAAGTGGTAAATCAACCTTTAACTATGCTACTCAAATGAACAGGCAACCAGGATCTACTGCTAAACCATTATTTGATTATGGACCAGGAATGGAATATAATGATTGGTCAACATATGGTTATAATGAAAAAGGAAATTATAAAATGTTTGTTGATGCACCATATACTTATTCTAATGGTCGAAAGATAAATAACTGGGATGGTGGATACTTTGGTACTATTCCACTAAGAAAAGCTTTATCGGCATCAAGAAATATTCCTGCCTTAAAAGCTTTCCAAAAAGTTGATAATCAAAAAATTGTTAAATTTGTTACTAGCTTAGGTATCAAACCAGAAATAGATAGTGAAGGATATATTCATGAAGCACATGCTATTGGAGCCTTCACTGGAGTTACTCCATTACAAATGGCTGGTGCTTATTCAGCATTCTCTAATGGTGGTTATTATAATGAACCATACAGTATTGCGAAGATGGAATTCAGAGATTCTGGTGAAGTAGTTGAACACAAAAAGAAAAAGAAAAAAGTAATGAGTGAAGCTACAGCTTATATGATTACTAATGTTTTACAAGATGTTAACTTAACTGGTGGTACTCCTGCTGGTATCGCTTGTAAAACTGGTACTACTAACTTTGATACTGCTACTATCGCTGCTAAAAACTTACCTGGTGATGCTATTCGTGATTCTTGGGTAATTGGTTATTCTACTAAGACAGCTATTGGTATGTGGTATGGATATGATATTGTTAATAGTACTTATGTATCACGTAATATTCCTGCCAGTGCTCAAAAAGATAGATTATTCGCAGCTCTAGTAAATGCTGGTGCTATGGAAAGAAGAAGAAGTGCTTTCAAGCAACCAAATACTGTTTCTAAAGTACCAATTATTGCTGGTAGTAACCCTGCTCGTATAGCTGGTGATGGTTACTCTGGTTCAGTTACTTATGAATACTTTAAGAAAGGTAAAGAGCCTTCTAAATCTACGGCTGATATAAAAACTAAATTAGCTACTCCTGGTGGACTTAAAGCATCTTTCAATGGTTCTAACTTAGTAACTATTACTTGGAATGCTGTATCACGTATTCCTGATGACGAAGACTTTGGTGAATTAGTATATGATGTTTATGCTGGTAGTGTCTTGATTGCTACTACTGCTTCTACATCTTTTGCCTATAATACTTCATCACCATTTACGACGTATAAAGTATATGCTACTTATAAAAGTTATAGTGGTGCTAGAAGTGATCCGGCTACATTCGAATTAAAAGAAGATATTGACTTATCTCTAACCTGTAATGCTATTACTTCAACTGATAATACTTTTGCTACAATAGATACTAGTGATTGTCAGGTTAGAAATAAAGGAACAACAGTTACTGCTAATATTAAGTCGGTTACTTTTGAAAATGGTTCACCAACCATAACTGGTCTAACTCCTGGTACAACTACTAGTCATGCTGTTAAAGCCGATGTAGAGTATCAGTCTAAGACCTATAACTTATCGACTAATGTAACTGTTATAACATAAGAAAAAACCTTTACAGGTTTTTCTTTTTTTCTTTGCATAAATTAATTATTTGGCACTCCTTACAATTAGGATTCTTGGCTTTACAATGATATCTACCAAATAAGACTAACTGCAGATGTATTTTAGCCCAGGAATCTTTGGGAAAACATTTCTTTAACTTTTCTTCTACTTGTAAAACATTATCCTTTTCCTTAGCTATTCCTAGCCTTTTAGCTACCCTATTAACATGAGTATCTACCGCAATAGCGGGTTTACCTAAATACTCACCAAAAAACACATTAACTGTTTTTCTTCCAACACCTGGTAGATTCTCTAATCTATCTCGATCATGAGGTACTATATCATTATATTCATTATGTAGAATATTCGCTATATTATGGACATATAAAGCTTTTTTTCGGAAAGAACCCAATGGTCTTAAAATAGTCTCTAAATCAGCTAGAGAAGCCTTAGAAAGAGCTTCTAATGAAGGATATTTATCAAACAAAACTGAAGTTACGGAATTAACCCTCTTATCAGTTGTTTGGGCACTTAAAACAATCGCTATTAATAGTTCATAGTCATTAGTATAATTAAGTTCACATTTAGGATCAGGAAACAAATAATCTAAATATTTTTCTATTTCTAAGGATTTATTTTTCATCATCATCAAACCAATCATAATCAAATAATTCTACATTGGTTTTATCCTCTTTTTTACCTTTAAACTTCTTTCTGCGTTCTTCAACATCTTTTAAACTCTTAATACCTGCTTTCTTCCATTCATAAAGAATCTTATCAATATAACGAAGATTAGTAACGCCATTAAAGACTGCTTCTTTAACCGCTTCTCTAATCAATTCTTCCTTTGTATTACCATCTAACCAAGCCTTAATAATTTCATATTCCATTGGTGACAAAGTTCTTCCAAATTCTTTTTCAATTAGTTCATAAACTGATAATTCATCACTCTCTTTATCACTATTATCAAAGATAAGTAAACTTAATTTACTGAAAAAAGGATTTAGACTAATATAATCTTCCATTACTTTACTCTTATTCTTTTTCGAAGTTATTTCAATCATCTTTTTATCAGTTAAGTTAGAAATAATACCCATAACTTCATCTAAAGACATCGATAAGTCATTTCCTATCTTACCAGGAGCAAAAATATCAATCTTTTCACTATAAAGGTACATTAAAACTATAAACTCTTCTAATTCTAAGTTTAAATTCTTATAATTCTTAAATAAATATAGTGGTATTACCATATTATTATCAGTTAACACTTTAATAAACTCTTGATTCTCCATAGTAACCCTCCTATCGATAATTATCTTTAATATATTTAGCTAAACTCTCTTCCTTATTCTCTAGATTATTCAAAAGAATTTCCTTTTCCAAATCATGATATATTTCTGTAAGCATACCATCATTTCCCATTATATCAATGATTTCTGTCGCGTTAATCGCAATTTCACGGCGAGACTTGATTGGTAAATCATTATATACCTCGGTAATCTTCTTAGTATCTAACTCCTTAATTTCACCCGCTATTTGATTAACATATAAACCATATTTATAAAGGACATAGGGATCTAAATTGTCTCTTTCCATTACTTTGCGAATGTTTTCAATTAATGTCCTTTCATTATTAGTATAAGGGTACTTTAAATCTTTATCAACAACTGCCCAAATACCAATTAAAGAGTGGGTCTTTTTGGCTTTATCTAAGTCACTAAAGCCTAATTCTTTAGCCAGTTTATACTTCTCAATTAATTCAATACCCTTAAGAGCATTAGGACAAGTAAACATCTTGTCTAATTCTTCCTTAATTCTATTATACGATAAAGTTCTAATCTTCTTTTTATTTTTTCTAATTGCTTCTTCAACATCCCGACTAATATTAAAATCTAATTTAGTCGCATAACGAATTGCTCTAATGATACGCAAAGCATCTTCAGACATTTTCTTATTAGCGTCCCCCACACAGTTTATAAGGTGTCTCTTAATATCATCTTGACCTTTTAAAAAGTCAATTATTTCTCCCTCACTAGTCATACAAATAGTATTAATCGTAAAGTCTCTTCGTAAAAGATCTTGATATAGATCATCAATATATTCTATTTCTGCTGGATGACGATTATCTAAATATTTAGTCTCTTTTCTAAAAGTAGTAATCTCAAATTTAACATTCTTATAATTCAAAATTACTGAACCATAAATAGCCGCTGATAGATTAACATCATAACCACTAAATACCTCCTTAATTTCTTTAGGTTTAGCATTAGTAGTAATATCAATATCATTAGATTTAATCTTTAGAATAGTATCACGCACAAAACCACCAACTATATATGCTTTATAGTTGCTGTCTTCTAACTTTTTCAATATTTCGATCGCTATTTCTAACACGAATATCGCTCCCCTATAAAATGATATTAATCTAACTTCATTATAACACATTAAAGTAAAAAAAAAGAAATAGTTTATTTAGCTGTTTCTTTTTTATTATTCATATTCATAGCAATTAATGTACCACAAACAGTTATAACTATTAATAAGATATAAGGAACAATAGTTGTGATTATACCTGTTACAATACTTCTATTCTTAGAATTAAAGAATGTTACTTTAACTACCTTTGGAACCACTTCAGCATTAGTAATGGCATTGCCATCAACAACTTCAGCACCGTTGATAGAATAAGATGCTTCATAATCTTTATTATCTTCAACAATATCAAAAAGGGTTGTCTTCTTACCTGTATCATTAGCTAGTAATATAGGTGTTCTTTTCTCTTTCAGATTAGCTATTTGGGTAGCGCTTTCATATTCAACCGGTATTACATCATAGGTTGTGCCTCCCTCAGTAACTCTTCCTATAACAGCTGTCTGTCCATGTTTTAAATAAATAGTAGCTTCAGTATTACCAATAATCTCTGTTGGCTGAGTAACCATAGTTCCTTCATATTCTACTTGTGGATCTATTCCTGTTATCGGATAAGTACCAGTATATCCCTTTAAATTAATCGTATAAGCAAAATATATATCATCTTCAGCCATATTACCTTCTACAGTATTCTCTATTTCTAAATGAGTAAACTTACCACCATTAACAGAAGCAATAAATGCCGCTATTGGATCTGCTCCTGAAATACCATCTACCTTTGTATTATCCTTATCTTTAAGAATCATACTAGCAGTAAAGTTTCCAGTAGGAACACCAGAAGCCGCTGTCTCATTTCTTACTGAAATAATAACTGTATACATATTAGTACTATCAGTCGCAAAAGCTGTATTATCAGTATCAGTTTCTGCTATTATATACATATAATCCCCTGGCCTAGTAAATTCTACATTAGCAAATGAAAGGGAACTACTCTTTTTCACTTGGTTATTTACCATTTCTTCTGTTCCATCAAAAGCTACTGTAGCGTTTGTAGGAACACCACTTGCTCCAGCAGGATTACTAGCTGTTGGAGTTATTTTATAAGTAAAGGTTACTGCATCAGGATTAAATAAATTATCAATAGTTCTTTCGATTGTTACTTTATTAGTTCCGCTCCAAGTAATTGTACCTGCTGCTTTAACACTAACAGTTTTTAATGAAAACATTGATAACAAGATAACTATTAATAATAATGCAATATTATAGCCATTAAAAACCTTTCTCATAACAAACACCTCTACTATATACAACATTATACTATTAAAAGTAAAATATTTCAACATAAAAATAAAAAGACCTTAAAGGTCTTTTTAACTATACATATTTTAGTTTACAGCATCTTTTAGAGCAGATCCTGCTTTGAAAGTAACAGCAGTTCTTGCAGCGATCTTAACAGTTTCTCCAGTTCTTGGATTACGTCCTTCACGTGCAGCTCTCTTTGCTGTTTTGAATGTTCCAAATCCTACTAGTGGAACACTATCTCCTTTTGCTAAAGCTCCTGTAATTGCAGCTAAAGTTGCATCTAGAGCTCTGTTAGCATCTGCTTTAGTAAGTCCTGTTTTCTTAGCAACAGCTTCTACTAATTCTACTTTTTTCATAATTAATTACCTCCCATATTGTATTAATTATTTAAGCACAGAATATGCTTACATATATAATCTAACATAAAACCAACATTATTTCAAGAAAATGTTGTACTTTTCTTATGTTTTTTGCCGTTTTTGACAATTTTTACTTCTTTTTGACAAAAAAACAAGACTAATTACTTAGTCTTACTTTTAGAAAGATTCCTATTTATTAATCTTAATTGTTCTATTATCTCACCTATAGCATATATCAACATACATCCTATAAAACTACAGAACCAAGTAAATAGAGTCAAAGATGTATTAAATTCAGTCTTAGTACAAACCTTACTATATAGTTCACCATTAGAACTACAAGCTGGGAATACATTTCCTAAAACAATACCACTAACAAATAGAATAAAGAATATAACAATCGCTGCCATTTGATAATAATTTAACTTTTGTTTACCTACCTCTTTCGCAATAGTATCTATTTTAGGTAAATCTTCTCTTTGCTTATCAATCTCTTCAAATATATTTGCCATCCTATCACTCCTTTATTTTCTTCTTTTCTTTAGCTATTTTCTTACTATCAGAATAAGCTTTATATAAATAGATATATCGACCAAATAAGATATAATATAGAGATCCTAGAAGTGATACACATACTTCATCAAAATTAGAAGCATCAATTAGATTAACTACTAAAGCAACAATTGATAGAATCGCAATTAAATAGAAATACATATCATTACCAATTTCATCAAAAGGAACTTTATTAAGTTTTAATTCTCTCCATACTTTAGTTTCTTTAATAAATGTATATATTAGATATAAAAGAATAACTAAGTGTAATCCCAATTCCACAATATAAGCTAATCCAAATGATTGGAATACAGTGAATAAAGAAGACATAAACATGATAAAGTATACTATTATTAGTAAAACATTTAAAAAGTTAAAGTACTTCTTCCCAACACGAGTCTGAAGAATTATAAAATAAGCTAAAGACATAAAGTAAATAGTATTATGATTCAACAAACTCCTTAAAATACTAACCGCATCCATATTATTCTTCACTGCAAATGATTGTGAAGACAGTATAATAATCGCACTTAAAGCAATTAAAAATAAAATTATAAGATTAGGATTATTATACCATTTGTCATCCTTTTTAATTTTTTCCATGACATCACTCTCCTACTATCCCATTATATCATAAATATATCAAATGTATACTAGTTTTATTAATAATTCTTCCAAACAACTTTCAAGTAGCAATTTTTTACTTTTTATGGTACAATTTCTTTGAAATTGGAGGTGATATTTATGGTCTTACCTACAGTAGCTTTAGTGGGACGTCCTAATGTTGGTAAAAGTACTCTCTTTAATAAGATAGTTGGCAAAAAAATATCAATTATTGAAGATACCCCAGGTGTTACTAGAGATCGTCTTTATCAAGATACTATTTATAATAATAAACCCTTCTCTTTAATTGATACGGGTGGTATTGATATGGAAAATGTCACCTTCAATGAAGAGATCAAGACTCAAGCACTAATCGCTATTGAAGAAGCTGATGTCATTGTCTTTATGGTTGATGGTAAAGAAGGGATTACTTCTAATGATTTAGAAATAAGTAAAATCTTAAGACGTAGTAAAAAGAAAGTAATTGTCGCTATTAATAAGATTGATACTAAGACTGCTCAAGAAAACTTATATGACTTCTATGAACTTGGCTTTGATACTTATATACCAATTAGTAGTATTCATAATCTTGGTTATATTGAACTATTAGATGCCATCACAATGGATTTTAGAGAAGCTGATGTTGAAGAAGATACTCGTCTTAAGTTTTCAATTATTGGTCGACCTAATGTTGGTAAAAGTTCACTAGTCAATGCCCTTTTAAATGAAGAGCGCGCAGTTGTAAGTGATATTGCAGGAACAACTAGAGACTCCATCGATACAACCCTAAAATATAATGGTGAAGAATATGTCATGATTGATACTGCTGGTATGCGTAAAAAAGGTAAAGTATTTGAATCAATTGAAAAGTACAGTTTAATTAGAAGTATGAGAGCTATATCAAGAAGTGATATCTGCTTAGTAGTAATTAATGCTGATGAAGGCATTACTGAACACGATAAACATATTGCTGGTTATGCTATCAATGAAGGTAAAGGACTAATACTAGTAGTCAATAAATGGGATTTAGTAAAAGATAAATCTATTAAAGAGTTTACCCAACTAGTACGTAATGAGTTTCAATTCGCTACTTTCGCACCTGTTGTCTTTTTATCAGCTCTAACTAAGAAAAGAATTCATACTCTAATGCCTGAAGTAATTAAAGTAGCTGAAAATATCAAAAGAGAGATTAAAACTAGTATTTTAAATGAAGTTATAAGTGAGGCTTATGAATTAAACCTACCTCCTACTTATAAAGGGAAAAGATTAAAGATATATTTTGTTTCCCAAAGTGGAATCAAACCTCCTAAATTTACTTTTAGAGTAAACAATAAAGGTTTAGTTCATTTCTCTTACGAAAGATATTTAATAAATAAACTAAGAGAGAACTTTGATTTCACAGGAACCCCAATTGAAATAAAATTTAAGAATAGGAGTGGTGATGAATAATGTTATTTGGTAATAACAAAGAAAGAAAAGATCCAACTAATGAAATAGAGATGCTTGATCAAGCATTAGAAAATCTAAAAAAAAGATATGAAGATAAAGCTATTACTCTAGAAGAATTCTCAAAGCTTTGTGAAGAACTAGGTAAAAAGAAAGAAAAAGCTCTAAAAAGATTAGAAAAAGAAAACAATTAATTATCACACAAGCATATTATAAAATAGGAGGAATAATATGTTTGGTGATAATTTTTTTAAAAGAGTTGAAAACAAGACTAATGTAGATAAAGAATCTATTATGTCTTTAGCTTCTAAGCTTCAAGGTAATATGAAAGATGAGAAAACTATTAGAGAAGTAATAAAAAAACTAAGTACTCTTTCTGGTAAAGAAGTTTCTAAAGAAAAAGAAGATAAGATAGTAAAGACTATTATGGAAGATAATGTTCCTGAAGGAATAGATAAAATGTTTTAACTTACAGAATACTGTAAGTTTTTTATTTAAATAGTTCTTTTATCGAATATTAGCACATATAGTTAAAATGAATAAAAGGAGAATGTGTATGGATAAAAAAGAAATTATTAAGAATATTGCGAAACGTTCAAATGGTGACTTATATTTAGGGGTTGTAGGGGCAGTACGAGTTGGTAAATCAACTTTTATTAAAAGAGTAGTTGAGACATTAATAGTACCTAATATTGAAGATGAATATGAAAAGAAAAGAGCTTTAGATGAAATTCCTCAATGTGCCGCTGGTAAAACCATTATGACTACAGAACCAAAGTTTGTACCTAATACAGCTGCTAAAATAAAGATAGATGACTTTTCTTGCAATGTTCGCCTAATAGATTGCGTTGGTTATATGATTAATAATGCTAATGGTGCTGAAGATGAAAATGGGCCAAGAATGATCAAAACCCCTTGGTATGATGAAGATATTCCGTTTGTAGAAGCTGCTGAAATTGGAACTGAAAAAGTAATTAAAGATCATTCTAGTATTGGTATTGTTATTACTACTGATGGATCAATTGGAGACTTTGAAAGAAAAGACTATGTAGAGGCTGAAGAAAGAGTAATAAATGAACTAAAAGAATTAGGTAAACCCTTTATTGTTCTTCTAAACTCTACTCACCCTACTCTACCTGAAACTGAACAATTAGCTGAAAAACTATCAGAAGAAAAGAAGGTTACCGTAATTCCTGTCAATATTGATACGATGAGTGAAGTGGATATGTATAATATCCTGAGAAGTGCTTTATATGAATTCCCAGTTATGGAAATAAAAGTTAATATGCCAGAATGGATTACTAGACTTGATTCTAAACATGATGTTAAAAAAGAATATATTAACTGTATTAGAGAAAGCGTTATCGAAATAGATAAACTAAAAGATATTGAGAATATTAATTCTAATTTCTTAGAAAATGAATATATAGAAAAAGCCTATCTATCTGATGTTGATCCAGCTACCGGTATTGTAACCATTACTATAGAAGCACCAAATGATTTATATAATAGTGTCTTAAATGATATTATTAATATTGATATAAGATCAAAGGCAGATCTATTAAGTATCTTTCAAGAGTTTAATGAAGCTAAAAGCGAATATGATCAAATAAAATATGCTTTAAATATGGTTAAACAAACTGGCTATGGAGTAGCTACTCCTAAAGTAGAAGAGATGAAAGTTGATAACCCTGTAGTAGTTAAACAAGGAACTAGATATGGTATTAAAATTAAAGCTGTAGCTTCTTCTATTCATATGATTAAAGTCGATGTTGAATCAACTTTCGAACCAATTATTGGTAGTGAAGCTCAATCTAAAGAACTAATTGATAGACTAATGAAAGACTATAAAGAAGATCCAAATAGTATTTGGAAATCAGAAATCTTTGGTAGAAGTCTAAATTCAATTGTTCAAGAAGGTATTCAATCAAAAATAAACTTAATGCCTGATAATATTAGATTAAAACTACAAAATACATTATCTAAAGTAGTTAATAAAGGTTCTAATAATATGATTGCAATCGTTATATAAAAAGATGCTAAGCATCTTTTTTATTGAAATGAACTATTTGATAAAAGTCACTATATTTAATTATTTCTTTGTTAGAAAGACTATCTAAATCAATATAGTACTTATCGTTATAAATAAGTACTTTCTTATTCTTAGGAATATCAAAATAATCATTAAACTCTAATAGGAATGTACAATTATTATATATTTCTATATTAAAACTAGGATAATCCAATTCTATTTCGTCTAAATAATACAATTCCATAATCATGTTTTCTTTATCATGATATACTTTAACATCATAAACCCCTTCTAAATCAATGCTTATTCTTTTCTTCAAACTAAGTAATAGTTTCAGTACTTCTTCCTTATTACTATAATCTAAATCTTTTAAAAAATACTTATTTAGATAAATAATAACTTTATCATTATATTCTGATACCCTCATCCTATCACCTGTTTTATAGTATGAAAAAAGCTTATTGTGTTTCCACTAATAAGCTTTCTATTTTTGTCCAAATTTCTTTAACACCTAACTTAGTATTTCCAGAGAAAACAATTAAGTCATCACCTACTACTAAGTCTAAAGTATTCATAATCATCTTTAATTGTTTTTCTTTCTTACTACCACTTACTTTATCAGCTTTAGTAGCAACAATAGTAACAGGGATATTATAATACTTTAAGAAATTATACATAAGAAGATCATCTTCAGTTGGTTTATGACGGAAATCAATCAACATAAACACTCTTTTTAAAACATCTCTAGTCTCTAGATATTCTTCTATCATCATCCCAAACTTTGTTTGAGTCTTTTTATCAACAGCAGCATATCCATAACCAGGAACATCTACTAAATAAAAAGCATCATTAATACAGTAGAAATTAAGAGTTTTAGTTTTACCAGGAGTAGAAGAAATATGAGCTAATCTTTTTCTACCAGTAAGAGCATTAATAAAACTACTCTTACCAACGTTACTACGACCAACTAGTAAAAATTCTTTTTTACCACCTTCTGGATATTGACTACGCCTAGTAGCCATTACTTCCAAATTGGCACTTTTAATTACCATTTCCTTCCTCCTTATCCAAATAATCTCTAACCGCTTTATTTAAATCAGTTATTAATTTATCAGCTTCTTTCATAGTTTTTAATCTAGCTCCTGATGCATATTTATGACCACCACCAGCATAGTTTTCAGCAATCTTATTAATCTCTGGTCCTCTTGATCTAATAGATACCCTAATAATTTCATTTTTAATATCTTCAGTAATCGTTAACCAAACAACAATACCATCAATAAAATTAAAATCATTAACCATATTACCTGGAGCAGCAGCATCTACTTCAAACTTCTTCAAAAGTTTATCAGTTATTTTAATATAACCAACCTTATCTTCAGTAACAACCATGTTCTCTGAAATATAACCTTCAAAACGAACCTCTTTTAAATCTCTCAAATAAAACTTTTGATAGATTTCCTTCATATTGAATTTATACTTCCGTAAATACTTACTAACAATACTAAATGTATCAGGAGTTGTACTATTAAAGAAACGATTAGTATCCGCAATTAAACCCATATATAACACTTCAGCAATTTCTTCATTACAAGTAAGACCAACTTCATCAAGAAATTTCATAATAATCTCACAAGTACTAGAAGCTTTTGTATCAATATATTCTAAATCACTTAACTTATCGACAAAAGGATGATGATCTATCTTGATAATACTTTTGAATTCCTTAAGGTCCTTAGAGATATCTATTCTTCTAATATCAGGAGTATCTAAAACAATTAATAAAGTCTTATCATCCATCTCCAATTTATCTAATTTACCAATATAATTGAATTTATTACTTCCAGTCCCAACAGCCATAACCTTCTTGTTTGGGAAACTAAGACGCAAAGAGTCTCTTAAGGCTACTTGGGATGCGAAAGCATCAGGATCAACCCCAATATGACGAGCAATTACAATAGTCTCATATTTTTTTATTTCTTTTAATATCTTCTTAAGCATTTTGTTTTACCAAAGTAACTGTCTCTCTAGCAATCATTAATTCCTCATCAGTTGGAATCAAATATATTAATGATTTACTATCATCAGTACTTAACTTTCTAAGTTCCCCTCTAACATCATTAGCTTTTAAGTCCATTTTAAATCCTAGACAAGCTAATTTCTCAACAACTCTTTTTCTCGTTTCAGCACTATTTTCACCAATACCAGCTGTAAATACTAAAGCATCACAACCACCTAATAAAACATAGTACTGCGCTATATAATTAACTATTGTCCGAACATATTTTTCTTGAGCAAGAATACATCTTTCATTACCCTCACTAATTCCCTTTTCAATATCACGAGAATCACTACTAATACCAGATAATCCTAAGAATCCAGATCTCTTGTTTAAGTCTTCTAACACTTCACTAGCATTTTTAGTTTCTTTAACCATAATATAAGGGATAATAGATGGATCAACATCACCAGATCTAGTACCCATCATAATACCTGCTATTGGCGTAAATCCCATTGAAGTATCAACACATTTACCATCTTTAATGGCACTAATAGATCCACCATTACCTAAATGACATGATATTACTTTTAAATTATCTTTCTTTAACTCTTTAGCAATAGCTTCAGCAATATACATATGTGATGTACCATGAGCTCCATATTTACGTACTTTATGGTCCTCATACCAAGCATATGGTACTGGATATAAATAACTAACAGGATCCATTGTTTGATGGAATGCTGTATCAAAAACAGCAGCCATCTTTACATTAGGTAATGCCTTTCTAAAAGCATTAATTCCTATTATATTAGCAGGATTATGAAGTGGTGCTAATTCAATACAATCTTCTACGTCTTTAATAACTTTATTATCAATTAAAACAGATTGTTTGTATTTTTCTCCACCAGTTACTACTCTATGTCCAATACCTTCTATCTCATCAAGAGACTTAATTATATCTAAATCAATAAGTCTATTTAAAAGAATAGATACTGCTTCAGCATGAGTTGGCATTTCTGCTTGTTCACTTACTTTATTACCATCATACTTAATAGTATAATTACTACCCTCAATACCAATTCTCTCAAAAAGACCACTAGCTAGAACAGATTCATCTTTCATCTCAAAAAGTTTAAACTTTAAAGAACTACTTCCAGCATTAATTGATATTATTTTCATTATATCCCTTCTTTCCAAGAATATTATATCAAAAATTACTATGATATCAAAGAAAAAAGACTAGAAAATCTAGTCTAATTCCAGTTTCTTACTTACATGGCTAATGCCCAAAAGAGTAAGGATACTTAGTAAGAGTAAAACTATATATGGAGGTATTATTGTCTTAACACCGGTATCTACACTTACATTATAAGTATTCTTATAAGTAATAGTTTCATCGTCAGTAACAGTCTTAGTAATAGTTCTACTGTTAGTATTATTCACAGTGGTTGTATAGGCAGTTTCTTCTTGTGTAACAGAAATCTCATATCCCCCTGGAATTGTCAAAACTTCAGATTCATCATTTTTTAAAGTAAAGGTTGTACCCAAAGAAGGAACTATTGTATCGTTATCATCGCGTACCACCACCGTATAACTAAACTCTTTGTTTATATTTGCCATATTACCATATATCTCGTTAGCTATAGTAATATCGACATCTGGTAGAGTACAACTACTAGCCTTTGCTACATTTGAAGCAGATGATTTAGTTGCTACTATAGCATCAATATTAGTTGTTATATCACACATATACTTAACAGTTACTTGTGTCCCTGATTTAGTAGCAGTACCATAAAAAGCACTTGTATATGATGATGGATTGCCCAATAATTGAATAGTTCCCGATGCATTTGAACAACGGTAAAACATATCCTCTATATCTATTAGCAATGAAGTATCCCAATTAGAAAGAACACTTATATCTGTTAAAGAATCACAATCGTAAAACATGTAAGATGTATCGGTTGTATACGAAGCATCTACCAAACTAAGCCCGCTTATATCTTCCAATGACGTTAATTCTTCAAACATCTCTGATGAATTAGAGTGTAAATATATCTTTTCGGCTTCACTGTAGTAATACATTGTTCCATCTGTATCATCAAAGAAAATATATATTGGATATTCAGACCCACTTGCAGATACAGTATTTAATGATGTAGGAGTAAAGTCATTAGGAAGAGTGCTAGCTCTCTTAAAACTAACTATTTTTGTATCTTCATCTTCTTCATCCATCGAAGTAGAATTATTAGCTACATTCTTCAACGCTTTATTTATCGTCAATCCTGTAGTAAAACTCGTCCGTGCATTAGCACATGAACCTTTGACAACATTAGAATTAGATGACTTCGTTGCTACTATGTTATCAATTCTACTTGTTCCTATACAATCATAAACAACTGTTATTTCAGCATCTGTTGCAGTAGCAGCATTGGTAAATGCACTTGTATATGATGATGGATTACCTAATATTGGGAAACTTCCCGATGCATTTGTACATCCGTTAAGTATGTAAGAAATATTATTTACTTGTGTGGTGTTCCATGAACTTGCACCATTAATATCAGATAAAGCTGTACAATTTCTAAACATATAAGACATATTTGTTACCTTAGATGTATCCCAGTCACTGGCTCCATCTATATCACCTAGCGAACTACAGTTTTGGAACATATAAGACATGTTTGTTACCTTAGATGTATCTACCGAACTAAGGCCACTTGCATCAGTCAATCCCTGAAAATTATAAAACATATATGATGAATCACTATTCAAATATAACGTTTCCGCATCACTATAATAATATATTGTTCCATCGCTATCATCAAAAAAGATATATATAGGTTCTTCTGATAATGGATTTGATATTTTATTATCAGATGTAGGTGTGAATCCACTTGGTAATGCAGTAGCCCTTTTAATTGAATGTATCGCCGTATCAGATGAACTATAAGTCATTGAACTGGAATTATTAGCTAGTTTTTTCATCTTAGCATTGACATTTTGCCCTGTATCAAAAGTGGCCACTGGGGATACATATCTCACTTTGATAGTATGATCTGATGTAATATTATTAAATGTATAACTATTACTGTACTCATTTATATCCACATTAACACCATCTACCTCAATACTTTTTAAAGTGCAACCACTATTAGGACTATAGTTGATAGTTTTACTACTTCCCGAATTAACATGTGTTATTTCAGTTATAGTTCCATTTGTAACTTTAGTTACTATTTTAGGTCTTGTATCCGTATTAGTATATATCACATAAGGATCATACATACTTCCATCACCGTCTACATATTCAATCCCTGATTTTAGTGAGACCACTGGCCGAACACCAATGAAGCTTCCATCAGCACCAGTATAATCGAGCGCTCCAGAAGTATTAACATAATTAGTAAGTGCTTGATTATAGGGGCTAGAATGTGGAGATGCTAGCCAGTACTTATCTCCTGCTTTTGCAGCATTAGCATTATCTATCAAAGCTATTTCTGGAACCGTTGCCAAGCCAATCGGATATTTGTTTTTTGCTTTAGTATTACCAACTGCAAATTGATCAAGGACATTATCACACTTTAAAACCGTATTGCTAGTATAATCTTTAAATTGCAATTTGGTATCACTATGTACATTACCGCTTGGATTCCACCCATTGGTTGATGCATTAATTTGAGTTCTATCATTACAATATATAGCATCTTCTAAAAAGTCTGTATAATCCGTCATGTTCTGAGCATACCATCCTTCTATTTGTCCTTTGATAGCCGAGTTGTATTTATTAACATCGCTACTATAGAGCATTTCATTTAATAAATCAGTTGCCCTTTTTCCGTTTGTTAAATAAATCCCTGCAAGAGTTGTTGAATCACCGTCAAGAACATGAAAAACGCTTTCACACGAATTACCAGAAGTACCACAGGTATAGTGGTGAGTGGAATCTGGCCTTGGAATACTGGAAACACCAGTTAAAGTATATACCCCATTTGAATATGTTACTCCACTACCAAATTTATATGTTATAGGTAAATAATATATACGGCTTGGACCAACATCTGTTATATACCCCATATTTGAACACGAAGTAGTAGTTGTATTCCCATAACAAAAATACTTTTCCTCCAAATTGCTAAAATTATTAATATAAGTTGTCGTTCTAATGGTTGTAGGGTTTGTTAAAGCATTACCGCTATGACTAGTCGCATATGAATAATACTTATTAACACCACTTGTAGTTAATAATTTTCCACCAGTCAAAGTAATATAATATAAATATTGAGATACTTTTCCTGTAATATAATATGCCGTTGTACCTGTCGCAGCAGCCGTCGTTTTTCTAACGGTGTATTTACCTATTAAAGCGTTTGCTGAGGTTTGTGTTGCTGCCCCAGTTAATCTATATGTCGAGCCATAATTCAAACCAGTACCATAGTAGTATGCCAAAGAAAAATAATTTTGAGTTCCTTCATCTAAAACTTTTGTAACGTCCATAGCATCGCTTGAATATTCATATGCAGTATTAAACATATATCCAACCATAGCAATAGAAGATTGGTAGGCAGAAAAACCTCCTTCACCAATCTGAGAATATTCGGTATCTCCTATTTCATAATCATGAATATAAGCAGTTGTGCTATCTTTATAACCACCAACATAATTTAAAACAGTACATGTATTTGTTGCTGAAGCACACGTATATTTGCCTAGTAAATTTTTGTATGTACTATCACTCCAGGTAGCAGTAGTTGGATTAGTTAAAGTAAACACCCCTGTATCCTCATCATAGGTAAAACTATCACCATATTGATAAGCGGAGTTTAAAGCCTTTGTGACGTAATAATTATATATCATTCCTTTGTGAGTTCCCCTCGACTTATTGCACCTGTTAGTTTCATCATATTTACCATTATAAATCATCTTAACTCCACCAGTATCAGTAGTTCTTAAAATTTGCCAACAAGTATCTCCTAGTTTAACATTATTACGATTTACTATATCATCACTACCTGTAAAATAGTATATTGTTTTTGTTCCTGTACCGCTTAAACTATCTTGATGTTGACCATTATAAGTTGCAGTTAAAGAATCTGCTGCTACAGCATCATATAATTTATTACTTGGCTCATTTTCTGCACGCGAAAAAACTAGGAATACTCCTATTACTAATATAGATACAATTAAGTATAGATTTCTTCGTCTATGCATACTCTACTCCATTATCTATTATCTATACTAATTATAACTCTAGAAAAGGACAAAATCAATAGAGACTCAGCAATTTCAAGCCTTTGAAAGTAATCCCCTTACAGGGTTTTTTATATACTTTTTTATCTTGCATATATCTTTGCATATTCAATATATATTGGTTATATATTAAATAAATTTTAAATTTTTAGTCATTTTTAATAAAAAAGTAGGCATTTGGCCTACTTTCTTATTATTTTCTATTATCTTGATCATCCAATCTACTCTTTCTATTTTGTTTAGATCTTCTGTTATTGGATTTGTTTCTATTGTTACTCTTTGAAGAACCAGGACAATCATCAAATTCATTAGCTATTTCATATTGCATTTGTTCAACAGATTGTCTTTTGTTTGCTTTATTAGATTTGGAATCTTTCTTTGATTTACGCAAAATTTCACCTCCTACATTATTAGGGTGTGAAAAATTACTCCTTTCATACTAGCAAACTCTGGTAATTTTATAATAGATCGTTTTGTTCTTCTTCTGTTACTTCTATTTTCTTAATACTATTTACTGTTTCTTCTATTAAAGTTTTATAATCAAATTTTTCTTCTTCCTCCCTAGCTTTTTCTAACTTAGGATTAATTACTGGATGTTTAGGTACAAAGATAGTACAACAATCTTCATATGGAAGAATACTAGTATCATAAGTATCTATTCTTTTGGCTAGATCAATTATTTCTAGTTTATTTAGACACGCTACTGGTCTAATTACTGGAAGATTAGTAACACTATTAATAACTCCCATACTAGATAGAGTCTGTGACGCTACTTGTCCTACTGATTCACCATTAATAATAGCTTTAGCTTTATACTTTTTAGTCAATTCTTCCATTATTCGATACATCATTCTACGCATAATAGTAATGGTATAACTCTTATCACAGTTTTTATAAATAGCTTCTTGTATCTTAGTGAAATTTACTATATATAAATTAATTTTATTAGTATATTTCACTAACTTTTTAGTTAAACTAATTACTTTTTCTCTAGCTTCTAATGAAGTATGAGGTATAGCTTCAAAATAAACACAATCAACAGTTATTCCTCTTTTCATAGCTAGATACATCGCTACTGGAGAATCTATTCCCCCTGATAACATTCCTAAAGCTTTATCTCCTACCCCTACTGGGTATCCTCCTAATCCTCTAATTGTATTAGTATAAATATAAGTTTTCTTATCTCTTATTTCTACTTTAAATAATAAATCAGGATTATGAACATCTACTTTAATATCGTCAATGTTCTTTAATAAAGTTCCTCCTAATACTTTAACATATTCCATGCTTTTAATAGGAAACTTCTTATTACTTCTTTTTACTTCTACTTTGAATGTCTTAAATTTTTCACCCTTTGCCACCTCTAAAATAGTATCCTTTATTGCCTCATCTTCACTATCACAGATAGTAGCAAGTTGATATGAATGAATACCAAAAGTATGATTTATTACCTCAATAATACTATTAAGATCTTTCTCTTTAAAAGAAATAGTCATATTAGATCTTTCTTTTAAAATACTACATTCATATTTATCTAACTTGTCTTTAATATTCTTATATAACGTATTAATAAAATAACTTCTATTATCACCTTTAGTATTAAGTTCTGCATATTTTATTAGAATTACTTTCTCCATAGTCTCACTTCCGCCTTAAATTATACCAAAAGAAAAAGGATTTTAAAATCCTTATTTTTTAGTATTTGTTTTTTTAGTAGTTTTCTTCTTTGGAGTAGTTTTCTTTTTAGTAGATGTTGTCTTCTTCTCTTCTTTTACTGGTGCCTTTTCTATTTTGTCTTTCTCATTAGTCTTATTACGAGCATAGATGATTAGTAATACTACTAAGCAAAGAACAACTAGAATAAGAATTAAAGCAACTGCATCTTGAGAATTAGATTCACTACTATCAGCAGAAGTTCCTTGATCACTAACAGCATTAGCTTTAACATCTTCAGAAACATATTTCATGACATCTTTACTACCATTTTTATAAAGATCTTTAATCTTAGTCTTAATTTCATCACCCATGTTATCAGTAAATCCAGAATAGTATTTATCCCCGATTACAATAAATGGTACTCCGGAAGCTTCTGTATTTAAAGCTTTAGCAGTAGCTTCCATTAAAGCAGAATTCTCTTCATTATTCCAAACTTCATAACTTATTAAACGATAATATTTACCATAGTCACCTTTAATACTATCGAAGAAATCTTCAGCATCTTGACAATGAGGACATCCTTCTCCTCTAAATAAATAAACATTTACTTTTCCTTTAGCGCTTACTGAAAGTGGTAATAATACTAAAAGAAGCGCTACTAAAACTAACTTAATCTTTTTCATCATAACCTCCTATAACTATTATAACACTTATTATTATTTTAGAAAATATTTATTTTTGATTTCTAAATTACTATCCATTTCATATACATAAGGAACACCAGTTGGAACCTCTACATTCATTATTTCATCATCAGAAATGTTCTCTAAATACTTAAGAATACTTCTAATTGAATTACCATGTGCAACAATAATAATATTTTCCCCTTTTAATAAGTTAGGTTTAATCTCGTTTAAATAGTAATCAATCGTTCTTTTCATAGTATCTTTTAGACTCTCAGTAGTTGGTAATTCCTCTTTTTTTAAGTTACGATACTTGCGATCATATCCTGGAAATCTTGGATCATCCCAACTAAGTGCTGGGGGTCTAACATCATAACTTCTTCGCCAAATATGCACTTGTTCTTCGCCATATTTTGCCCGCATTTCGTCTTTATTAAGACCTTGCAAAGCACCATAATGTCTTTCGTTTAATTTCCAAGTCGAAAAAGTTAAAATCATCGTTTGTAATTCTTTTTCCACTATCATCAAAGTATCAATTGCCCGATTAAGAACTGAAGTATATGCTTTATCAAAAACAAAACCATTTTCTTTTAACAATCTTCCTGCTTGTTCTGCCTCCAAAACACCTTGAGCTGATAAATCGACATCAGTCCAACCAGTAAACCTATTTTCCATGTTGTAGACACTTTCTCCGTGTCTTAATAATACTAATTTCATAGAACCTCCAAACTCTCAGCACTCTTAGCTTTATCTTGTAGATATTTAAGCAGTGTCTTTAAAGCTTCTAAAAGAGTTCCATCATCAATATGTTTCTTCATAATACTTTTATCTGTTCGATACTTATTAACAATATTTGTTAAATAAGTAACTACCTCTTCTAAAGTATATTCAGCTATTCTCTTTTTCTTTAATTCCTCGTCTAAACCAGCTTTACTATAAATAGCAACAGTTGAAGAAAGAATTAGTTCAAATAAGTCTTTAAACTTAGAATCTTCTCCCATAATATAATCATCATTAGTAAAAGTTACTACAATATCCTTCTTATTTAACCAATTAATTATTTCTTTTAGTTCTACTACTTCACTACGATATGAATAATAATCTCTTAAATAAGCCATTAGGCTTGAATATTCGTGCTGACAATTATCATTAACAGGACATGTACAACGCATAAACTTAACAACATCATTTTTAATTCTAATATCCACTTCATAAAGATTATTACCATCTTCTACACTAGATAATACCCGTGTTAAGTACTTATTTACTCTAACATCTAGAGCTTTAATTTTATTCTTATAGAAACTGTTGTATCCCCTAACAATAGCATCTTTCTTAAAAGAGAAGTTAGCACTTGGTAAATAGAAATTATCATAAGCCGCTACTCCATCAATAAACTTACCATTAGTATCTTGGTACCATCTCTTTAACATTTCTTCCAAAAAGATTCTATTTCTAGCTTTTTTAACCCTAATTGGCAAAAGTGTTGGTGCATTACAATAAGGGCAAACTGCTGTTTTGCCATCATCAATATAATCAATTATATCTTCTACTCGAACCCCTTCATTACAGTTATAACAAATACCCGCCCCATCATCTTTTAAATACTTCTTATTATTAAAACTATATTTATGAGCATCAATTAATTCTTTAGAAATATCTACAGATGAATCATAAAGAGCTTTAACAAATTCTTTATTATAGTAATAAACATCTTCTTCCCACATAATTGAAGTATATTCTTTAATAAAATCTTCTATTTCCTTAGCACTATATTTCTTATCATCTATGTTATCATCAAGTTCATAGATTTGATGATATTTTAAAATTCTTCTTAAATAATGACTATCTTGTTTATTGTCTTTCAAAATAGCTAAATAAGCTTTAACTAAAGGATCATTTAAATCAGTAGAATAAGACTTATCATTAATCTTTTCTAATAAAGAATCAACATCATTGAAGTTATCTACTATTATTCCTTTTTCTTCTAAAAGCTTTTTATTATTGTCATCTACTATTATCACAGCCATCACCCTAGGTTAATTATAACACAAATATATTCTTTTTACCCACTTTTTTAAGACATTTACCCAAGCAACTTATTTTTTTCAGAATACATTAAAAAGAAGGAGGATTTTATGAATTACAATGACTTTATGGAAACTTATTATGGTTTTCCAGTAGCGGGAGAACCAATTCCTAGCAATAACAATGTAGTTTTAGATAGTCCAGATGAAGGTTTTTTAAAAGGCAATATGTTTAAAAACACTTATGAACCCTATAAGAATTACCAGTATATGAGACTAAATCCCATTAACGAAAAAGAAAAACTACTCTATGAAATTTCTAAATATAGTTTCGCTACTCATGATTTAAATCTTTATCTAGACTTATATCAAAATGATAATAGTATCTTGATGCTATTCAATGACTATCGCAAGAAAACTAATGATCTTATTAATGAGTATGAAACTAAGTTTGGTCCAATGACTATCAGTACTGATGATGAAAAAGGTATTCCTTTTAAATGGGCTAGTAATAGTTTTCCGTGGGGAGGTAATATGAATGTTTAGTTATCAGAAAAGATTGATGTATCCAATCAATATTAAGAAAAAAGACTTAAAAATGGCCAAGTACTTAGTTACTCAATATGGAGGCCCTAATGGGGAATTAAATGCAGCTTTAAGATATTTAAACCAACGCTATACCATGCCTGATAATAAAGGAAAAGCTCTTCTCAACGATATTGGTACTGAAGAATTATCTCATGTAGAAATGCTTCAAACAATGATCTATCAACTTACTAAAGATGCTAGTGTTGAAGAATTAATTAAAGCTGGTATTGGTTCCAACTATACTGAACATGGTATGAGTTTCTTCCCTACTGATTCTTTTGGGGTACCCTACCAAGCTACTTTTGAATCAACTGGGGATGTTTTAGCAGACTTATATGAGGATATGGCTGCTGAACAAAAAGCTCGTACTGTCTATGAAAACTTAATTGATATGACCAATGATCCTGATATTTTAGGACCTCTTCTATGGCTAAGACAACGAGAAATAGTGCACTTTAATTTATTTAAAGAATTATTAGAACATTATAAAAGTAATCTAAAATGATTGCTTTTTTAGTATCATTTTGATAAAATAAGTAATGTAATTTATATGGCGGCGTTGGTGAAGTGGTTAACACACTGGTTTGTGGCACCAGCATGCATGAGTTCGATCCTCATACGCCGCCCCAGTTTAAAATGAAAAGATTCTTTTTAAAAGATTCTTTTTTTTTAATAAAATGTTATAATAGTATATATTAATAAAAATAAGGAGAATTATATGAATTATAAGAAAATAGTAGTTGCTGGTGGCGGTGTTTTAGGAAGTCAAATTGCTTTTCAATCAGCTTATTGTGGATACGATGTAACAATATGGTTAAGAAGTGAAGATAGTAAAACAAGAACACAACCTAAGCTAGATGCATTAAAAAAAGATTATATTAAAACCATTGAGTCTTTAAATCCTCATGATGAGAACAGTTGGGCAAGAGGAATATCTGATATTGATAGTTTTAATAAAGAAGAGTGTTTAAAAAAAGTTGATTTTGCCTATAACGATATTAAATTAGAAGTTGATATGAAAGAAGCAGTGAAAGATGCA
>sequence08
AGAAAACAGATAAATAATATCTGTTTTTTTATTGGAAGGATTGTCTTTTTATATGAAAATAAGTATAATGAATATATAAGGTAGGTAAGTATATGAAGAAAATATTTAGTATACATAATGTATTTTTAATGCTTGTAGTAGTACTAATAGGAGTACTAAGTCTAAACACAAAAGAAGCAAAAGCGGCAGGGACAGTAACCTGGAGTGGACCAAATTCTATAACCATTAGAGAAACAATACATAATATAGCAGGACCTATTACTGCATATAGAGAATATTATCTTTATGAGTATTTTGGTAGCTATAATCAAGCAGCAACTGCAACAATAAACTATACCGCAAGTGATACCATAACAAATTATCAGCAGACTAAAAGTACTATAATGAATTTATCGACTTTAACATTTACAAAGCCAGGAGACTATAAGTATTTTATAGACTATGATAATTTATACGATTCGAATGATAGAAATATTGACTATTTTGCTTATTTTCACGCAGAAGAACCGCTTTACATTGCAACAGTATCGGTAAGAAATGTATTAGATGAAAATGGTGTCCCAACGGGTAATTTTACGGCAACACTTATATTAGAAGTCTGTACTCATAATGAACAAACAGATGAAGACGAATGTACAAAAGTAAATCCATCTTCAGGAACTCTATATGCTGATTATGATTATGGAGCCAGACCGAATAAGTTTGGGTATATAGAGTTATCTAAAACGGTAACAGGAATAGGAGCAGATACCACAAAATATTTTCCTTTTACAATTAACATAAATAACGATCCTACTACTGGCACTTATACATACCCGCTAGATACTAGCGGATGGACATATCCAATTACAGGAATAGACGCAAGTGTAACCTATAATGGAAATACTATTAACAATCCAACAACTATAACAGTTGGGACACCAACAACAATTTATCTGAAACATGGACAAACAGCAATCATTGGACAAGTAACAAGCGGTGGAAATACATTTGATGCCATACCTATAGGTCGCTGTCAAGGGACTTATAACACCAACCCTGATTCCGGGGGATCTGGTGGCGGGATTACATCAGCATATGATTATTCAAAGATACCGAATGCTAAAAAGCTGGCTAGTATTGATGGCGGAACTTGCTATGGAAGCTATTACACAATAGAGGAAGATCGTGGTGATTATGCGCCTGAATTTAGAGTTGGAAGTGGTTCTTTAGAAAGTGGATACTACGTATATGCCAAAGGTATTAATAACGGAACTAATTCAGTAGAATTTTTGAACAATAAAGAAATGTCACCAGTAACAGGATTAATCTTTACAATACTTCCTTATGTGATACTTATAGGTGTTGGTGTAGGCGGAACACTTCTATTTATGAGTTTAAAAAAGAAAAAAACTAATAAAGTATAGACAAGATATTGAAAAATATCTTGTTTTTTGTTATAATATGAACCACTTATTAAGGGAGTTTTGGTTATGGAGGATATTTTAGTAATCAAGAAATTACATTATAAAGATGTACTTAATGATTTAAACTTAAGTATTAAGAATAATACTATAAATTTTATTTCAGGTTCTAATAATTGTGGTAAAACCGCACTTTTTAAAATTTTAACTAGAGAAATTAAGAATTTTAATGGTTATGTAAATGACTTAAATAATATTTCTGCTATCTTTTATCCAGATCTTCCTTTTGTCTTTGATAATATCCTTGATGAGATGAAATTTGTTTTAGATAATTACGCTATTGATGTTTTACTTCGAGATGAAAGACTAAATAATCTTCCTACTAAGTATGGATTAAATCCTAAGAAGAAGATTAGTTCTTTAAATAATTTTGAAAAGATAAAACTTTCTATTATGTTAGAAGAATGTAAAAGTACTAAGGTATTACTTTTAGATAATATTTTAGTAGATTTAAATACTGTTCAGATTCATGAACTAATGCAGTTACTTAAAAGTCTTAAGAAGAAAATGGCTATTGTTATTAGTTCTAGTAATTTAGATAATGTTTTATATGGGGATTATCTTCATATTATTGATGAGAAGAAGGTTCTTTTTAGTGATGAGGTACTAAAGGTTTTAAAACATGATAGTAGATTAAATAAACTAGGTTTAGACTTGCCTTTTATTGCTGATTTATCACTTAAACTTAAGTATTATGATTTAACTGACTCCATTGAAACCAATATGAATAGGTTGGTGAGAAAACTATGGGATTAGTTCTAAAGAAAGTAACTTCTTTTCCTCTATATAATATTGATATTGAGTTTAAAGAAGGAATTAATGCTTTATATAATAATAGTGATAGTAGAAAACTTGTTGATATTATCATGCGTAAGGATGATTCTAAAGGAGAAATAAATCTTCCTAAAGAAGATATCTTTTTAGTGGAGAAGAACTTAAATAAAGAGTTTACTATGCCAACAGTAAAAGCTTATTTAAACTTTGCTTTTAAGTATTATAATGCTGTTAATAAGAAACTTACTGAATTAATAGAAGAATTAGGTATTGAAAAAGACTTCTTGGATAAAAAGTTTAATATTTTATCTAGTAGTGAAGAGAAATTAGTTCAATTCATCTTAGCTTTTGCACTTGATACTAAAGTCTTAATCTTAGAAGAACCTTTTATCTATTTAGATAAACATAATGAAAAGAAGATAATTAAATATTTAGATAAATTAAAAGACAAAATAATTATTATTTTAACTAATAATTCTAATAATATATATAACTATACTGATATGACTACTGTTCTTTTTGAACATAAATTGTTATGCCAAAGAGAAAGCAAAGAGCTTTTAGAAGATATTAAATACTTACGTAAATATAAACTAAATATACCTGATACAGTTTTATTTACTAGTAAAGCTAGAAACAAGAAAATAGATTTAAAAATTCATAAGGATATTAGAGATTTAATAAAGGATGTGTATCGTCATGTTTAAGAGAAATCCATATATACTTTTATTAAATTTCCTTCTATTTATGATTGCGATTATTAATTTTAATATCTATCTTAAACTAATAATCTTTTTCATCATGTTTATTGTCAAAATTAATAAAACTAGTAGATTAGATATTTTATCTTTAGTAACTCTTCTTATTTTAATAGTAAATATTGCTTATCATAAGTGGTTTGGTTTAGGAAATATTCTCTTATTAGGTTATTATTTAAGTTTAATGGTTGCTTATCTTAATAAAAAAGATCTACTAACATTCTATAATTATCTTTTTAAAAGAGAGAATAAAAAACGTAGTGAGAATTTCATTAGAATTATGCATTTTAAAGAAGAGTTCATTAAAGCTTTTAAAACTAATCTTAGAGTATTAGGTAATCGTAATTATAAAAAGACTATTAATTATTATTACTATGTCTTTAGATTATCACTTTCTGATACTAAAGAACGATTAAATAAGAAAATTACTATCTATAGGAGAAAAGGATTCTTTAATAAAAAGAAAAATCGCGTTATAATATTAACAGACTTTAAAGATATATTAGTAACTCTAGGATATATATTACTAGTAGTTATTAGTGTTAGGGGATGGTAATGTGCGCTATTTAATTAAGTTTTCTTATGATGGTACTAACTACAATGGTTATCAAAGACAAAAGGGCTTAAATACTATTCAAGAGTGTTTAGAAGATGCCTTAACTAGTATCAATAATAAGAAGAAAGTAATAGTTCATGCGACTGGTAGAACAGATAAATTAGTTCATGCCTTAGCGCAATATGCTCACTTCGATTTAGATGTCAAAATAACTGAAAACAAGCTTAAAAGAGCTATGAATAGTAATCTTCCTTTAGATATCCATGTAATTGAAGCTAGGGAAGTTCCTGATAACTTTCATGCTCGTTATAATGTTAAATCTAAAGAGTATAAATACTTATTAAATATGGGTGAATATGATCCTATAAACAGGAACTATATCTATCAATATAATCATATTCTTAATATTGATAAGATGAAGGAAGCAATTAATTATTTTAAAGGTACACATGACTTTAGATCATTTGTAACTGAAAACAAAGTAAAGGAAAACTGTGTTCGTACTATTACTAAAGCTACTATTAAAGAAAAGAATAATATTGTTACTTTTACTTTTAAAGGTAATGGCTTTTTAAGATATCAAGTACGAAATATGGTTGGTATTTTGATTAAAGTAGGAGAAGAAAAAATAAAGCCAAGTGATGTTCTTCGCATCTTAAATAAGAAAAATCGTGATAAAGAAGGAGTAACTGCTAAAGCTGAAGGATTATACTTGGTTGATGTCAAGTTTAAAAAAAGTTAAAAAACTACCTATTTTTGTTGATTTTTAGAGGGAAATCTAGTATAATTTAATACGGTACATTTTATATTTCCCCATAAATTAGACCCTGGGAAAGTCTGATTTAGGAAAGGAGAAAAATTATGACAAGTTATATGCAAAAGAAAGAAACTGTTGAAAGAAAATGGTATGTAATTGATGCTACTGATAAACCTCTTGGAAGAGTTGCTGCTAAAGCTGCTGTTCTATTAAGAGGTAAGCATAAAGTTACATATACACCACATATTGATTGTGGAGATAATGTAATCATTATCAATGCTGAAAAAGTAAAACTAACAGGAAATAAAGAAAACACTAAAGTTTATTACTCTCATTCAAGATATGTTGGTGGTTTAAGAGAAAGAACTGCTAAAGAAATGAGAGAAAGATACCCAGAGGAAATGGTTGAAAAAGCTGTTAAAGGCATGCTTCCTCATAATAGATTAGGAAGAAGTATGTACAAGAAATTACACGTTTATGCTGGTCCGGAACATAAACATGAGGCTCAAAAACCAGAAGTAATGGAGGTTAAATAATGGCAAAAGTAAATAAATATTATGGTACAGGTCATAGAAAGACTAGTATTGCTAAAGTAACATTAACTCCTGGTAAAGGAAAGATAACTATTAATGGTAAAGATGTTAATGAATATTTACCATATGAAGTATTAGTTATGGATCTATGCCAACCATTAGATGTTACTAAGACTAGAGAAATGTTTGATGTTGATGCTAAAGTAAAAGGTGGCGGATTCACTGGTCAAACAGGTGCTATTAGATTAGGAATTACTAGAGCATTACTTGACTATGACAAAGAAACTCCAAAGGATTCTGAGAATAGCTTTAGAAAGGTTTTAAAGGCTAATGGTTTTATTACTAGAGATTCTCGTAAGAAAGAACGTAAGAAACCAGGTCTTAAGAAAGCTAGACGTGCACCACAATTTAGTAAGAGATAAAAACTCGTATTATCGAGTTTTTTTGTGCTATAATACTGATAGGATGTGATAATATGAATAGTGTTAATCATTTTTATTTTGATGGATATGATATTGATAATGAACTATTAAATGATGTAGAACATATCAAAGCTTTTATTAATGAAATTAATGAAGTAACTGAAAGTGGAAAAGGCAAAGTAACCTTAATGCCATATTTCGATGGTAAAATTAAAAGAGATGGTGGTATTAGTTGCTGTATTATAGCTGATAATTTTCATTTTACTTGTCATACCTTTTCTTTTAAAAACACTGTTTTTATTGATTGCTTTGGTTTTGATAATTGTAAGGAAAAACTACTACCAATTATCCTAAAGTATTACCAAACAGATAATTATGATCTTTGTACTGATAATATTGGACCAGGTAAATTTGGTAAACACATTATTTTATCATGTAGTCCTATGAGTTATGAAGAAGGATTAGAGACAATAAAAATTCTTCTTGCTGATATTGTAATGACTCCTATTCGTGATGTAATAACAAATTATAAAGATGAATCTCATTTTGATTTGCTACAACCAATTGCTGAATCCCATATTTCATTTCACCGAAATGGTGAAGAGATGATTGTTGATATCTTCTCTTGTAAAGATTTTGATGAAAACAAAGTTTATGAATTATTTGGTGACTCTATTAAAGATAAGTTTGCAGTTAATAGAGGAGTATACTATAAATAACTATTTACAATATAACTAATTTTACTTGATAATAACCTTGATAAAAAGGTATTCTTGTGTTATATTGTATACGGATGAAGGAAGCTTCATACAATAAAAAAGGATACGTTTGATTGTGCGAATCAGACGTAATCCCTATGGGTACATCTGAAATCAACAATGTTGAAATCAGATGTTTTTTCTATTTAAATAATAAAGTATACATAAGTATAAATACTATAGTAAATAGAAGGAGTATAATGAAAAATAGAGAATGCTCTCTTTTAGTCATAATACCACCTCCCTTCGTTTCCAAAGGGAAAACATCTGACATATTCCAAACGTATCCAACTATATTATACGAATAAATAGATGGTTTTCAGGCAATAATATGGTATAATTTTTTTAGGAGGAAAGACTATGAATGAAGAAAAAGATGGTAGTAAGTATATACCGTTTGCTGAACGTAAAAGTGATGAATCGGTAGTTTATTTTACTCGTGATTTAAGTCCAGAAGGATTAAAAAAAGCATATGAAAAAGTTAATGAGGGTATTGATGGTAAAGTAGCTATTAAACTACATACTGGTGAACCTCATGGACCTAATATTATTCCTTCTTCTTGGATAAAAGAGTTTATTAAAGATGAGTGCCCTGAGGCCACAATAATTGAAACTAATACTTATTATGAAGGAGATCGTTATACCACTGAGCAACACCGCAAGACATTAGAGGTAAATGGTTGGAATTTTTGTCCGGTTGATATAACTGATGAAGATGGAACTATTGATTTACCAGTTAAAAATGGTAAATGGTTTGATCATATGACAATGGGTAAAAACCTAGTTAATTATGATTCTTTAATTACACTTACTCATTTCAAGGGTCATACTATGGGTGGTTTTGGTGGTAGTAATAAAAACCTAGGAATTGGTTGTGCTGATGGTAGAATTGGTAAAGCCATGATTCATACATATCCTGATAAAGATCAATGGTCTATCTCTATGGAGGAATTCATGGAGAGAATGACTGAAAGTACTAAAGCTACAGTTGATCACTTCGGTGATAAAATAACTTTTGTCAATGTAATGCGTAATATGAGTGTTTCTTGTGACTGTGAAGGAGTAAACGCTGAGCCAGTTGTAACTCCTAACGTAGGTATTCTAGCTTCTCGTGATATCTGTGCTTTAGATACAGCTTGTGTTGATCTAGTCTATGCCATGAAAAAAGAAGAAAACCATGATTTAGTAGAGAGAATGGAATCTAGACATGGATTAAGACAATTATCATATATGCACGAATTAGGAATGGGTAATACTAAGTATAAATTAATTGATATTGATAATGGTGATGTTGAAATTACCCAAAGTGAAGCAGTAAAAGATTTAAAACCATTTAAGGGAGAAGAAAATGAATAAATATATGAAGATTGCTAATGAATTAGCAGAAGAAGCAATGAATAATAATGATGGAGGCCCTTTTGGAGCGTGTATAGTTAAAAATGATCAAATAATTGGTCGTGGTGCTAACAGCGTTTTAAAGACTAATGATCCTACTGCTCATGCAGAAATAATGGCTATTAGAGAAGCAGCAAAGAATCTTAATACTTTTGATTTAAGCGATTGTGTTCTTTATACTTCTTGCTATCCCTGTCCTATGTGTTTAGCGGCTATTATCTGGGCTAACATCAAAGAAGTGTACTATGGTAATACTTGTGAAGACGCAAAAAACATTGGCTTTAGAGATGAATACATTTATAAATATTTAACTAATCCTAGTGATCAAGAGGGATTAAAATTAGAGTGCCTTGATCGCGAAGAGACAATTAAAGCTTTTAATAAATTTATGGAAAAAGAAGATAAAACTATGTACTAAGCCCTTAGGGCTTTTTCTTTATGGCAAAACATAATATATATTCTAAATAGAAAAACATATACTACTGTAGGGGGTAAGAAAATGCTGAATGTGAGTTTATTAGAACAATTATTAGTTATTGCGATGGCTTTATCAACAATAACTTGCGCTATGATTCAAAAAACTAAAGGCTTTTTTAAATGTAGTGATTGTCTTACAACTTATAGCTTTTTTGTTAATATTGCGATGGGTATTATCTTTTGTTTAAGCTTTACTAAAGTTAATTTTCCACTGAGTCTTTGGGTTGGATTATTTTCCTTTTTAGGAGCGGATACATTATTTAAATCATTAGAAGGTAAACTATCATCATACCGGGATATTGTTGAAGAAAAGTACATCAAAGTACCAAAAGAGAATATAATTAAAGCAGGGGGAGATAAGTAGTGGAGAAACCAATTTATCCAACAATGACTATGCGTATAACCCAAGGGTATGGTATTGGATCTCATCGTAATAGCTTTGCGATTGATGAAGCAGGAGCTAATACTGGTATTGAGTCATTACGGGCACCATTTACGGGAATAATTAAAAAGATTTATACAGCTGATGCCAATGAAATATGGTTGGAAAGTATTGATAAGGTTGAATATCCTGATGGTACAATTGATTATATGACTGTTTTATTTGCCCATGATAATGATGTTTCTAATTTATATGTTGGTAAAAAAATAAATAGAGGGGAATTGTTCTACCAAGAAGGAACTAAAGGTAATGTAACAGGAGCCCATTGTCACATTGAATGTGCTCGAGGTAAATTTACTGGTAGTGGTTGGTATAAGAATAGTGCCGGTTATTGGTCAATTATTAATGGTAAAGCTCCAGAAGATTGTCTTTTTATTGATGATAGTATTAAAATAATTAATCGTAATGGTTATAACTTTAAAAAAATAGAAACACCTAAACCAACAGTAACTACTAAACCAGTTGTCAAAGAAGAGAAAATTAAAGATAATAAAAAGTTGATTTTTACTTGTATAAAGAAGGGAATATATGCTATTGAACTTAATAAAGGAGATAAATTATATTTAGAATAATTTATCTTTTTTGTTTTGTGTGATATATTATTGGTGGAAGTGAGATTATGGAAGCCACTAAAAAGAAAAAGATTATTGATGGATTATATCAATATTCAATGCTATTTTTAATCGGTTGTTTTTTAGGTTGTATATTTGAAACTATTCTCTGTTATTTCCAAAGGGGATATATTGAAAGTAGAAGTGGTTTGATTTATGGACCATTTAATTTAGTATATGGCTTTGGTCTTCTAGTAATAATATTAGTTTTAAAAAGGTATAAAAAGGCCTATAGCATCTTCCTAGTAGGAGCTCTATTAGGTGGTATTGTAGAATATATTTGTTCTTGGATTCAAGAAGTTTTCTTTCATACTACTTCTTGGAATTATAGTCACTATTTTTTAAATTTTGATGGTAGAACTAGTGCCTATCATATGATTTGGTGGGGTATTCTAGCCCTTCTATTTATGAAGCATCTTTATCCATCATTGATGAAATTAATTAAAAAAATAAAAAAAGGAAGATTAGCTATAGCTATTATCATCATTGTTTTCTTTATTCTTAATTCCTTTATTAGTGCTTATGCTAACTGTCGTCAGTATGAACGTAGTAAGCATATTAAAGCTACTAATGCCATTCAAGTTTTCTTTGATAAACATTATCCTGATGAACGAGTAAATAAAGTATATCCTAACAGAAGGGATTCTGTTACACACGAAAAGATTAATAAAAAGAAATCACCCAAGGGCAATATCCAAAATCATCATAATCGTAAAACCAATAAGCGTAAACAAGGCCATTAGGTCTTTTTTTGGATTGGTTTGACTTTCAGGTATTAACTCTACTACAACGACATAGATCATAGCACCAGCAGCAAAAGCTAAAACAAAAGGTAAAATAGTTTTAATTCTTAAAGAAAGAAGGGCACCTATGACAGCAGCAATTGGTTCTACAAAGCCACTTAATTGACCATAGAAAAAGGCCTTTTTTCTAGAATATCCTTCTCTTCTCAAAGGAAGAGATATGGCACTACCTTCAGGGAAGTTTTGAATACCAATACCTAAGGCTAGTACCAAAGCAGCAGCAATACTAGCACCCTTGATATGATAAGAAGCAGATGCAAAAGCAACTCCTACTATCGCGCCTTCAGGAATATTATGAATAACAATGGAAAGAACTAAAGCCATAGTTCTTTTTTTAGCAGAACTAGTCTTGATATTTTTCTTTTTATAATATATTTCAAATAGTTTATCAAAAATGAAAAGTAAAGCACCTCCAGTAATAAAACCAAGAGCTAATATTAACCAGATATTTTGTTTAATTTCTTTAGCAATTTCTATTGCTGGTTCTATCAAGGAAAAGAAACTAGCAGCTATCATAACACCAGCCGAAAAACCTAATAAAGCATCCATAATATTCTTTTTAATTGTTTTAAAAAAGAAAACTACTGAAGCTCCCAGAGCAGTAATACTCCAAGTAAATAGTCCTGCTAATAAAGACTGTAAAACTGGTGATAAATTAGTAAAAAAAGTCATAAGTTACACCTCAACATTATAACTTATGACTAAAGAAAAGATTGGTATAGGCTAACGAATAGAACGTAGATCTAAAGCTTTGATTATTAAACCATCAATTACTAAATAGATTTTATTGCCATGATAATTAATGTGATTATTCTTAATAAAGTTATAGCAGCGATTAGTTAAAGAAAGAGTACTTTCTTCATTATTAAAATCTATACCCATTTCATATTTTAAATCCAAGTATAGATAGATTACTTCATCATACCCAATTCTTTTAATTTCATAGTTTTGAAACATCTAATCACCTAGTATTAGTATGAAATAATAATTTTTAAGTATACAAAAAAAGATTTTAAAACTGAAAAGCTTTAAAATCTTTTGGTATATCACAATCTAGTCCAGTAGTATAACTCTTATTACCAAACACTTTATCTAGATTAACTCTTTTACCAGCCAAATATCTATTAACATCTTTAATCATTTTGTCAGTTTCATCTAAGGCTTCTAGATAAAGTTCAACAAATGATTTATTACTCTTAATAGATGGATCTACTGGATTATACCAAACATCATGATTACTATTTAAAAAGTTATGACGATCATCTAGTGGGTAATAATATGACACTGGTTCAAAACGGAAGGCCTTCTTACTAGTAAAGGAATCAATAAACTTATAAAAGTTTCTCTTGATACCATTAGGATCTCTTCTAAATCTCTGAAGACATTTTTCCATTTGTTTTAAACAAACATAGTAATATTCAGACATATAATTAACATCATATACTTTTTTAAATACATCATCTAACATATCCGCAAGACCTTCAGTGAAAGGCTCAATATCAAAAGTAAAATCACTAACACTAAAAGTATAAGGATTAGAATTAGTTCTTCTTCTAATCATATCGTTATCTAAGAAAACTTCCATAAAGTTATGAACACCATTGTATTTATAAGTATCAGGATTATCTTTATTTAACCAACCAGTCTTATAAATGACATATGGATGAACAGTAGAATCCAATGAATAATGACTAATTGCTCCATATAAGAAACTCATAACTTCAGGATTATCAGTTAGATTATTCTCTTTAATATATTCTACTAATGACTTAAGATATTCACCCGTTTTATTCTCATGAAAATAACGATGAAACCTACGTACATCTTTACCCCTTCTTAGATTCGCAACATTAAAAAACATAATAGGATCCATGCTTTGGGCAAACATCTTTAATTTTTCAGGATTGTTTCCAACTTTCTCTTTACTATCTTCATCTAATAGATCATAAATATCTAAAGCAAAGAAAGAATGAGTTGCGGTTGCTGGCATAAAACCCCCTCCTTAATTGGCTCATATTATAACATATTTAGCTACTTTTGTAAATATTTGCGAACAATTTTAATAAAGTGTGATATAATCATAATGAGGATAAGGTGGCTACAATGGTATTAGAGAAACAATTTAGAAATCTAGATGAACAAATAGAAATATTAAAGAATAAAGGCTTAAAAATAGATGATGAAGATTATGCCAAAGAAGTTCTTTTACGAGAGAACTATTTCTTTATTATGGGTTATCGCCATTTATTCTTGAAAGATGATACTAGTAGGACATATATAGAAGGTGCAACTTTTGAAGAATTATATAGTATGTTTCTATTTGATCGTACTATTAGAAATATCTTATTTAAGAATCTATTGATAATTGAAAATAACTTAAAGTCAATTATTTCTTACCAATTATCAAAGATGTATGGGTATCGCGAAAGAGATTACTTGCGTAGTAAGAACTTTACTAATAATACTGAAAAGCAAAGACAAGTTAATGATTTAATAAAAAAGATTAAAAGACAAGTACGCGTTAATGGTAAAGATAATACTGCTACTGAACACTATGTCAGTAACTATGGTTATATTCCTTTGTGGATATTAGTTAAAGTTTTATCTTTTGGTATTGTTAGTGAGATGTATTCAATTCTAAAGAGTAGTGATCAAAAAGATATTGCGGAAGTATATGGTATAACGGTAGAAAACATGCTTAGTTATTTACCAGTTTTAGCAAATTACCGTAATTTATGTGCCCATGAAGAGATCTTATATGATCATAAAACACAAAAGGAAATAGATGATACTATATATCATAAAATGCTTAATATTAAAAAAGAGAATAATGAGTATATTTATGGTAAAAACGATATTTTAGCGCTTATTATCATTATGAAGCAGATGCTTAAGGATGAAGAATTTACTAATATGATGTATGAAATAGGGAACGCTATTGAAACATTAGGTTATAATCTTAAGAGTATTAAGATTGAAAAAGTATTATCTATCTTAGGATTACCAGATAATTGGGATCAATTAATTAACATCGAAAGGAAGGGTAAAAATGAATAAAGTAGGGAGAATAATTTTAGGTATAGTTATTGGTTTAATAATTGGTATTTTAGGTATGTATACTTTAATGCTTTTTACACCAGTTTTAGATAAATTCTTACCAAGTAGTACAGTTATTACTAAAGATAAAACTAAAGTAGTAGAAAAATCTTCATTAGCTCCTTCAATTAAGAAAATAAAGAATGCTGTAGTAGCTATTGAAGGGTATAAATCTACCCAAAAAGGATCAACTGGTACTGGTTTTGTCTATAAAGTAGATGATAAATATGGTTATATTTTAACTAATCAACATGTTATTGCTAATGTTGATAGTATTCATCTAATTCTTACTAATGACAAAGTAATTGAAGGAAAAGCCTTAGGTGGTGATGAATACTTAGATTTGGCTGTTATACAAGTAGATAAGAAGGATGTTCTTGCTATTGCTGACCTAGGTACATCAGAGAAATCTGAAATTGGTGATCAAGTCTTTACTGTTGGTTCACCTCTAGGAGAAGAATATCGAGGCAGTGTAACTAGTGGTATTTTGTCTGGTAAAGATCGAATGGTTTCAGTTAATGTATCCAATTCCACAAATAGTGATTGGGTTATGAAAGTATTACAAACTGATGCTGCTGTAAATCCCGGTAATAGTGGAGGACCTCTTGTTAATATTAATGGTCAAGTTATAGGTGTTATTTCAATGAAATTATCTGATGAGGACATTGAAGGTATGGGCTTTGCTATCCCTATGGAAACAGCACTTGCTCATCTAGATGCATTAGAAAAAAACAAAACAATTGAATGGCCAGTTATGGGTATATCTATGTCTAATATTGATGATGCTGGAGCTATTTATAAATACCGTCTAAATATTAAAAAGAAACCAAGTTATGGAGCCTTAGTTGCTAAAGTAGAGAAAGATGGTGCTGCTGATAAAGCCGGTCTAAAAAGCGGAGACGTTATAGTAGCTGTTGATGGTCAAAAAGTAAAGAATTCTGCTTATTTAAGATATGAACTTTATAAACATAAAATAGGGGATAAAGTAGAAGTAACCTATATTAGAGATGGAAAAGAAGGAAAAACCAAAGTAACTTTAGAAAAAGAGTAGTTTTTAACTACTCTTTTTTAAATGTTATAAAACTATATATAATATAGTTCTATAAACAAGGTATATCAACATATAAACATGGTTCATGTAGAATACACTAAAAACACTAAAAAAAAACTAGCTAAAGAAGACACTCATTTGACACTTTTATGACAAGAAAAATTGACTTTTTTCGCTAAAAAAAGGTATAATTAAATAGTAAAGTAGGAGAATATGTAATATATAGTATGTCTCTTTTTTTACGAAGCATTTACTATATAAGGAGGTGGATTATGAAAGGGAATAAAAAGATTCTAACATTAGCAGTTCTAATTCTTCTAGTTGCAGTATGCTTTGGTGCTTATGCCATCTATCGTTCAGCTGCAGATGGAGATGGAAGTGTTGCTGCAGCAGAATGGTCAGTAAAGATTAATAATACTGATATTGATTCAGCAAACTTCGATTTCGATGCTGATGATATTACTTGGACTTCTTTAACTGGTTACAATGATACTATTGCTCCAGGGTCAGAAGGATACATTGATATTGCTGTTGATGCTACAGGATCCGAAGTTGATGTGCTTTTGTCTGCAACATTAGATACATCTAACTTACCAACTGGAATGACTGCTACAGTTCAAGGTGGTGGTTCTCAAACTATCGCTTATAATGCGTCATCAATGGCAACAACAGTTAGAATTAATATTGCCTGGGCTGGTGCAGAGTCAGATACTACTGCAAAAGATACTACTGATATGAATGTAGCTGGAACTGATCTATCATTACCTGTTACTTTAACAGCTAAACAATCATTAACTAGCCACGCATCATAATATAAAAATATAAAAAAGGATTAATAGTTAATACTATTCTTTCCTTTAAAGCTTATAAATCTAAAGCCTATAAATTATTTATAGGCTTTAAAGGGAAGTGGGGAAAATGGAAAAAGATCAAAAAGTAAAAGACGAAAGAAAAGAAAAAAGGGAAAAAATAATAGATAGAATAATAAAAATCGTCCTAATTATCATTATTATTTTACTTCTGCTTCATAATTGTGAATTGATTAGAAGAGGGAAGTTACTTAATGGTAATGGTGATGTCATCGAGATCAAATGTGATAGTAATGGTCAATGTGATGATAAAGACAAAGATAATCCTAAAACTGGGGATAATGGTACTGGTGGTAAATATGGTACTGCTATCAACGGTAAACAATCAGGAGGATCATCAAGTTCTCAAGGAACAACACCATCTATAAAAGATGAAGATGATGATGACGATGATGACGAAGAATTCACTGTTTTTGACAAGAAAATAACTTGGGGTAGTGAATCAGTTCTAGATATTTTTGAAAAACCTATCTATGGTTATAATAAGAAGATAGCTCCAGGAGATCATAATGCTTATAAATTTACAGTTAAAAATATGACCAAATACAATTTAAAATATGATATGACCTTCACAGAAGTTGGTAATGATAACATGGAGATGAGGTACAAGCTTAAGAAAAATGGTTCTTATGTCGTTAGTAATTATGTGACTTATGATCAATTAGACTTAAGCAGCCAATTAATAAATTCTAAAAGTAGTGATGTATATTTACTAGAATGGAAATGGCTTGGTGATAATTCTGATAGTACAGCTAAAGATAATAAGGATAAGGCTGCTGCTGGAGTAGCAACATATAAAATAAAAATTAATATTGAGGCTGAGAGTATAAATGGCTAAAGCGTTAAAGATTATATTTAATATTATCCTTATCGCTTTTATTGCTGTTTTGGCTTTGTACTTTGTTTTAAGGTTTACTGGTCGAGCTCAGATCTATAGAACCGAGACTGGTTCCATGGAAACAGATATCCATGCTGGTGACTACGTTTTAATCTTTGACAAGAAGAATTATGAAATTGGGGATATAGTTACTTATAAAAGAGGTAAGTATTATATTACTCATAGAATTATTAAAAAGAAAGGCGATAAAGTAATTACCAAAGGTGATGCTAATAACACTGAAGATAAAGCGACAAGTGTTAAAAACATTGTTGGTAAAGTGATTTATCGCGGTGGAGCCTTAAATATTCTAATAGATTACAAATATATAATTGCTAGTATATTACTAGGTTTATACTTACTTAGTTGCTACATCAATGATCGAAAACCGAAGGAAGCAGAAAGTGAAGGGAAGTGTTAGTGTGCGAAGGAAACTATTAATCATAGCTATCATTGCTGTTTTATGCCTTAGTGCTGCCCTAACTTATGCCATGTACCGAAAAGGTAAAACGGGTTCTGGTTCACTTGATGCTGCTACTTGGAGTATAACTCGTACTCAACCTGGTGGGGATATTGATTTAGTAGCTGATGACACAACTACTGATACTTATACACTTACTGTAACTAGCGCTTCAGAAGTGGATGTTATCTATAAAATTATTATTGATAATGTACCAACTGGTGTTTCAGTAAAGCTTGATGATGGAGCATATCAAGCACCACCTGCTAATAGTAATACTATTACTATTAATGCCGGAACTATTAATTATAATGATTCCGTAAAAACAAAAACACATACTTTGACATTTAAAGCTAGTGCTAATGCTCAATTAGTAACAGATGAAGATGTTGATATTGATGTAGAATTCCGTCAGGGGTTAGGAAATTAAATAAGGACAGATAGAAGATAAGAAGAGAGGTAGAAAAATGAAAGGAAAAAGACGTACACAATTTATTATACTAGTCGTAGCACTTGTTTTTTTCTATGTCCTTCTTAACGGAACATTGGCTATTTATCGCCAAGTAATAGGCGATACAATAGACTTAAGTATTATTGATCCAAGTGGAACACATCAAGTAACATTTGTAACTAGAGGAGGATCGGCTGTAAGCCCAAATCCTCGAACTGTAGCTCATAATGCTGAAATAGGACAATTGCCAACAACAACCTTAGCTGATTATAATTTTGATGGTTGGTATACTGAACCTAATGAGGGAGATGGAACTAAAATAGATAGTCACACTGTCATTACAGGCGATGTGACTTATTATGCTCATTGGATAAAAATAGTTTGTAAAAAGGCCAGTACTCTTCACACAGAAACATGTGCTGCTGGTGGTTCATGTATAGGTCATGGATATAGCGTAAATGATACTATAACTTATGGTACTATACCTATTACTGATAATCCACTAGCAGGATATGCTTATGATTGTGATGTTAATGATGATGGAACATGGGATCCAGCAACTGAAAGATTCTATTATGTAAGGGGTTATGGTGGAACTTCAAATGTTGAAAACTCAGTTTTAGTTCATTTTACAAGTTTTGATGAAGATGGACAAATGGATGATTCAACCACAAGAAAAATATATCAATTTAGTGCAGCTCTTGGTTGGCTACCAACATCAGCAACTTGGGATAATCCAGCTCTTATTGAAATGGATGGAAATGTAACAAGATTTAGTTCGCGTGCTGATATAGAAGCTGCTTGTGGATCTATAGATGGTGGCGGTTTTACCGATTGTCAGTTCTATCTTGAAAATACTAGATTTCAATCAGATACTAAAGGTAGATCAGGAATATGGTTATCAGCAGAGGGATCAACTCACTATAGAATTCATTCAGGACAACTTTCAGTTATAACAGCAGCTTCAGATAGTAGTAATGCTGTAAGACCAGTAATAGAAATCCCTTCTAATACAATTGAAGATTTCCAACCACCAGAAAATTACACAATAACATTTGATCCTAATCAAGGTCAATTAGATGACCCTAGGGAGGCAACCAGATCAGTACCTGGTGGAACAGCTATTGGTACATTACCAACTGCAACTAGAACAAATTATATCTTTGATGGTTGGTATACTGATCCTGATGATGGTGAAGGAACTGAAATCACCGATCATACTATAGCAACTGGTAATGATACCTATTATGCACATTGGAAAGAAAAAATAACTATTACCTTTAATGCTAATGGTGGTACTGTAAGTCCAGGTTCTAAAGATATTGCCAAGGGAGCAGCTATTGGTAGTATGCCAGTTCCTGAATATGGTAATCATGATTTTGTAGGTTGGTTTACTGAACAATCAGCTGGAACACAAGTAACTGAAAGTACAACCTTTAATGCCAGTACTGAAATCTTCGCTCATTGGGAAGAAAGCTCTTCGAATTATGTATTCCATATCCCTGGAGAGTGTAAATTCACATCAAGTGGTATTCAAAACGGAGAAAATGGTAACTGTATAAGTACGGTAAATCCAACTGGTTCAAATATTGATTATACAGAAAGTACCTTATCAGCTAAAAAGTATATTGATACGCAAGTAGCTTTATATAATACAACTAATCATGATAAGAATTATGAAATACATTTTGAAATAGTTGATTATGTACCTTCAGCTAATGTAAATCAAGCAACCTTCTTTAATACTAAAAATGAAGCAACAGGGTACCCTGGATTGGTTGTCAGAAGAAGTAGTAATAATATTCAAATTGCTTCTAGAAGAACTTCATCTGCCAATTCAGAAGTACTATTACCTTATGCTACTGTCACTAAACTATCAGTTTATAGAATAGGTGGCGAAATATATTATAGTGTAAATGATGGTGAAAGGGTACTCATCAACAATTTATCAGAGTATAACCCAGTGTTTGATTTAACGACATGGTTTGGAGCAACCCCAACAAATGCCCAAGCAACAACGGCCCAAAGATTCTTTGTTGGAACACTATCAAATATTTATATTAAAATCGAAGATAATTCTGATAAAGCAACAATAACATATGATCCTAATTATACAGGTGCATCAACATTTGATGAACAACATACTATTAATCAACCTATTGGAACATTACCAACAATAACAAGATCTGGTTATTCATTACTTGGTTGGTTTACTGATCCTGATGATGGTGAAGGAACTCAAATTACATCAAGTACAGTAGTAACAGCAGATGATACATATTATGCTCATTGGGCTGAAGATGTAACTGTTACTCTTAATACTAATGGTGGTACTGTAAGTCCAAATACTATAACTGTACCTTATAATACAGCGGTTGGAGAATTACCAACTCCAACGAAAACAGGATATACTTTTGATGGTTGGTATCAAGATCCAGGATTTAATACTCCAGCAACAAGTGCAACAATTATTACTGAAGATACTGATTTCTATGCTAAATGGATAGAAAATATTACGGTAACACTTAATCCTAAGGGAGGAACTGTAAGTCCATCAAGCATATCTTTTGCACCGGGAACAGCAATAGGACAATTACCAACTCCAGAGAAAACAGGAAATACTTTTGCTGGTTGGTTCACTGATGATGGAACATATTTGGATGAAGTAACTTCATCAACAACATTCAATTCTACAACCGAAATTTATGCTAAATGGATAGAAAGCATCACAGTAACATTTAATCCTAAGGGAGGAACTGTTAGTCCATCAAGTGTAACCTTTGCCAAAGGAACAGCAATAGGACAGTTACCAACTCCAGAGAAAGTAGGATTTACTTTTGAAGGTTGGTTCACTGATGACGGAACATATTTAGATGAAGTAACTTCATCAACAACATTTAATTCAACAACCGAAATTTATGCTAAATGGGAAGAAACCAGCGACATTACAATAAACTTAGATGCTGATGGAGGAACTGTAAGTCCAACCAGTATAACCATTACACCAGGAACTGAAATTGGTGAATTACCAATTCCAGTTAATACTCCTGATAAAACAGGCTATGTCTTTGCTGGTTGGTATACTGATAATACTTGGACAACTGAAGTAACCGAGTCAACAACATTCAATTCAACTACAACCATTATTGCTAGGTGGGTTGAAGATACTTATGTAGCTCGCATTGGAAGCACCTGCTATACAACTTTACAAGCTGCTGTAGCAGCAGTTCCTACTACGGGTACTAAGACAACAATAATAATATTGCAAGATATTAACAATACAGAAACCACAACAATAGCAAGTACTCAATGGGTAGAATTAGATATCGGTTCATATACTATTGAAACTAGTACTGCTCAAATAGATTTAATATTAAATAATGGAAAATTAGATATCAATAATGGTACTTTAACTAGTGCATCCCAATCTGTTGGTGGAAATAATAGAAGAGGTTATGTCATTAAAAACGCTTCAGGAGCAACCTTAAATATAACAGGTGGAACCCTTTCTTATACTAGATCAGCTGATACTGAAGGTAAACCTATTGAAAACCTAGGTGGAACAGTTAATATAACAGGAGGAACCCTTACTTGTAATTCCCAAGCCGCAGTAATTAATAATAGAACAAACGGTATATTGAATATATCCGGTGGTCATATTGAAGGAAGCAATATTGTTAAAGGACAAGCTGTTTATAATGAAGGCGGAACAGTTACAATTAGTGGTGATGCTGAATTAAAGAATGTTTCTCAATCAGGAAGTTCTGCTGGTAGAGCAGCCCTTACAAATGCTTCAGGAACGGTTAATATCCTTGGTGGAACACTCATAAGTACTTATAATGCTGGAGCTTCTAATAAGGGTACAATGACAATTGGTACTAGTGATGGAACAATTGACATTACTTCTCCTGTGTTACAAGGTGGAACTTATGGTTTAGAAAACACCAGTGGAACGGTAACTGTTTATGATGGTATCTTTAAAGGAAAAGGTACTACTCAAAATAAAGCAATAAGTAGTGAAGCTAGTGTTACTCATAGCGAAACAACCTCATTTGTTCATACAACAGAAACTATAGGTGGTTCTCAATATGATGTAGCTTATCTAGAAGATTCAGCAGTAAATATCACTATAAACTTTAATAAAAATGGTGGAGACAATGTTTCCTATAACACTAAAACATTGACAGAAGAAGGACCAATTGGTGAATTACCAACAGCAGCTAAGGATGGTACTGAATTCCTAGGTTGGTTCACTTCTGCTACTGGGGGAGAAAAACTACTATCAACAACTGAGATAACTGAAAGTGATGATGGAACAACATATTATGCTCATTATACAGTTGATGATACAGTATGTAAGCCAGCTACGACACTTCATTCATCTGGAAATACTGACTTTGGTCAAATTCCATCAGGTGGAACATTAAGTGCTGGAGATGCCTTTGACTGTGATGTTAATGGTGATGGTACATTTGATGCTACTAACGAAAGATTCTATTACTTAACTAATACCGCTGATGGAAAAGCAGTTATGATCTTCTCAAATAATGTAACCCAAGGACAGAGCGATGTAAGTGCAACTTGTAGCGCAACTGGAGTTAGTTATGCTGGAACTTATACTGAAGGTCCTACTACTGCTATGGCAGAACTTCCAACTACAGAACAATGGAAGAATGTAAGCATTTATACTCAACCTAGAACTATTACCAATCAAAATGGTGTAACTGCTGCAAGTGACGTTATTTATACTGGAAAAGCAGCTAGACTTGCTAACCTTGATGAAATTAAGGCAGCAACTACTTCTGGTATAAATGGAACTGTTAATGAACTTGCCAGTTATCCATTCCTTCTTGAAAATACTCCTACATATGATGCTAGTTGTAGATCTAATTATTGGTTAGAAACTACCCATTCATCTGGTGGAGCAACAAGAATTAATGGAGCTACTAATGGTAAGAATTTAGGACACGCTACTGGAACATCAGCTATACGACCAGTAATTGAAGTTCCATACTCAGTAATTGATGGAATAGTTAATATTGTTGAATTCGATACTATTCCAACAGCTATGAGGACATATTTCAATAATATTAGTACTTGGGCCGCTGGTAGTGATGATAGTTCACATAGTAGTTTCGATACAGCCATGACCAACAATTTAAATGCTAATAACTGTGTTTATTATCAAAACGATAATGTTAATACTGAATATGGTAGTGTTCATTGTGATCAACCAAATAAATATGATACTGGTGTTACTGGTAATATTAAGGTTTATGAATACAATGAATCAACTGGTGTTACAGCAAATGATCAAGCTACTTATGTATCTAATGATAATGGTAAGTTATATAACTTTATTCCTGGAAAAACATATTATTGGGAGTCAGCATCTGATTCTACTAAAAATGGATATGTTAGACCAACTGGAGAGAGAAGAATACTTACTATTAATGGAACTAATAGAAAGACCCGTAATGTTCGTGATTTAGGAGGTCTACCAGTTGATACTGATGGCAATGGCACAATTGATGGTAAGATTAAATTCCAGAAACTATATCGTGGTGAGAAGATTTGGGGTGGCGATAATGCTACTAAGAGTATCTTCCAAAACCTAGGTGTTAATAACGAATTTGATTTGCGTCAATCATCTGAAGCTGTAACAAGCGAAGAAGATAAACTAACTAACTATATTTCTAATGAAATAATTCATTATAGGATTGATTATACTGAGTTTGGTACACCTGCTCCAGAAACACGATTCAATGGTAAGAGTTATTATCAATTAGCTAGAGAAGCAGCTATTGACGTTATGAACAGAGTCGTAAATGGTAATGATGATTATGCTCTATATTTCCATTGTCGAATAGGAGCAGATAGAACTGGTACATTAGCTTATATTCTAGAAGGTCTTCTAGGAGTACCTACTGAATATCGTTATCAAGACTATGAATTAACTGTCTTCTTCGGATTACGAGAGAGAACTAGATATTACTATGCTAAAGGTAGTGATACATATAAGTTCATTTATTTGAAAAATGCTATTCGTAATGCAACACCAAATAATACTAGTGGTGTAGAAGATGTTAAAGCTTGGTTCCTACAAGGAAGCGATAATGTTCAAGCTGATGAAGCTTTAATTGCTCAGTTTAAAACTAAGATGATTGATTATAATTAAAAGTACTTTGTCTTTCGACAAAAGTACTTTTTCTTTGACATTGATTAGTAGTTGAAAGTGTGCTATTATAAAGATGGTGATATGATATGACAAGCAAAAGAATAAGTAGTAATAATAGAAATAGTAATTTAGTAACTAAGAATAGAAGAACAAAAAAAACAATTTCTATCAAAAAAGTATTAATTTTTCTTCTTATTGTCGCAGCTCTTGTTTTTGGAGTTATAAAGATGTGTGGACGTCCAAAGAAGGTCGAAGATAATGATTTAACCTATAATCGTCATAAGAGTTTCCTTAAGTCGCAAAATATTGGGGGAATAGTCTTTAAAGACATTGAATGTACTTATGATGGGAAGAACTCTCTTATTAAATATACTATTATTAACAAGACTAGAAAGAAAGTATACTTAAGTAATTATGATATACTTGTTCAAAATAAAAAGAAAAGGAGTATTACGAGAATAAAGGCTAGTTTTAAGGACACATTAGCTCCTAAAGAAAAAGTAGAACGAGCAGATAGTGTAGTTGGTACAGATTTAAGTAAGGCCTATTATCTGAAATTAAAATTAAAGACAACAAAAAAGTAAAGCACAGATTTGTGCTTTTTTCATACACTAATATAGGTGATTTAAATGGATAGAAAGACTATTAGGGGAGTAGTTGTTGATGCTGGACATGGTGGCAGTGATCCAGGAGCTATCTCTGGCAATTTAAAAGAAAAAGATCTTAACCTAAAAGCGGCATTATATATGGCTAAAAGATTAGAAGAACTAGGTATACCAGTGGTTTTAACTAGAAATAGCGATGAAACTTTAAGTAGAGATGAAAGAGTAAGAAGAATAAGAAATGCTTTTGGAAGCGATCCTAATGTTATTCTAATATCTAATCATATTAATGCTGGTGGCGGTGAAGGAGCTGAAATAGTCTATGCGCTTCGTAATAATGATACACTCTCTACAAGTGCGCTAGATAATATTGGTAATGCTGGTCAAAAGAAAAGAAAAGTATATCAGCGAAGATTACCAGAAAATCCTAATCAAGATTATTACTTTATCCAGAGATTAACCTCTCCTTTAGAAGCACTTCTAGTTGAATATGGTTTTATTGATAATAAAAATGATCAAATAAAATTAGAGAATAATATTGAAGACTATGTCGAAGGAGTAGTAAAAGCAATTGCTGATTATGCTGGGGTTTCCTATAGTACTGATGGTGATACATATATCGTAAAAAAAGGAGATACACTATATAGTATTGCGAGAAGATATAATATGAGTGTTGATAATTTAAAGACACTAAACAATCTAACTAGTAATGAAATACAAATTGGACAAGTATTAAAAGTATCTAATAAAGATCAATTAAATAAAGATGTTATAGTCTATATTGTCCAAAGAGGAGACAGCTTATATAAAATATCTAAAATGTTTGGTACTACTATTGAAAGTATTAAACGTCTTAATAATCTAAGTAGTGATATTATTACTCCAGGACAGGAATTAGTAATAAATGAGAATATACCTGTTGGGGAAAACAATTATTATGTAGTCAAAAAAGGAGATACTCTCTATGGTATAGCTAAAAATAACAATATTACTGTAGATGATCTTATTAAAACGAACAACCTAACTTCACTTATTTTAAAAGTTGGAGATAAATTAATAGTTCCTTAGGGAACTATTTTATTTGACTAGAACTAATATATTTATTAGAATTAATAGTGAGGTGATAAAATGAAGAAACTACTAGTAGCTATAATAATAGGACTAGTACTTATAACTGGTTGTGGTAGTAAAAAAGGGAGTGATAATATGTTGAGTGGTAAACAAAAAATAGCTATTGAAATTGAAAATTATGGAGTAATCAAAGCAGAATTAGATGCTGATGTAGCACCTATTACTGTTACTAATTTCATGAAGTTAGTTGATGAAAAGTTCTATGATGGATTAACGTTTCATCGTATTATTGATGGTTTTATGATTCAAGGAGGAGATCCTAAAGGTGATGGTACTGGTGGTAGTGATGAGACCATTAAAGGAGAATTTACTAATAATGGAGTAGAAAACAATATTTCTCATAAAAGAGGAGTAATTTCTATGGCTCGTAGTCAAGATAATGATTCAGCTAGTAGTCAGTTCTTTATTGTTCATAAAGATTCCACTTATCTAGATGGTGAGTATGCAGCATTTGGTCATGTTACTGAAGGAATGGAAATAGTTGATAAGATTTGTGCAGATGTTAAAGTAGAAGATAATAATGGTACTGTTTTAAAAGAAAATCAACCAGTAATTAAGAGTATTAAAAAAATAAAGTAATCAATACTTTATTTTTTTATATTCTAATACTAATTTATCTAAAGACATAGCTGCATTAGCAGGTGAAGGACTAGGTAAATAAATAGCTTCCATACCTAGTTCTTTTCTTAAGTACTTATTATATAAATCATAGGCCTTTTTACCAGTAGTAAATACTTTTTCTATCTTAGAAGCTTTAATTATCTTCTTAATATCATTTACTTTAACATTTTTAATAGATGCATCACTAGAACCAACAATATCACAAGATGCAATCACATCCCATAAAGCAATATGATGATTTAAAAGGAACTTTTCTTTATCACCTATTTCTTCTTCATAAAGAATGCTTAATATCTTCCAAAATCTATTCTTTTGATGAGCATAATAAGAACATACTTCTCTTGATTTAACACTAGGAAAAGAACCTAGTATTAAGACTTTAGAACTATTATCATAGATTGGTTTTAAATTATGAGTTGCCTTCATATAACCTCCCCTGATAAGTATCTTTTTTAACCATTAATTTATCAATATCATTCATTACACAGAATTTCTTTATTAACCAATCTGGTTCTACTAAATCTTCTTTCTTAGGATCACCAGTAATTCGACAGATAACAATATCTTCTTTCAAGTGTTCCAATTGTTTAACTACTATATCGACATATTCTTCCTTCGTAAGTAGATGAAAAGGTTTTTCTTTATACATTTTCTCTAATTTAGTGTTCTTCATAATTGATAACATATGGATCTTAATACCCCAGATATTTAGCTTATTTAAATGCTTTATAGTATTAAGCATATCTTCTTCTTTCTCATAAGGTAACCCATTAATAATATGTACTATTACTTTAATATTTATTTTATTTAACTTGTGTACCATTTCATCAAGTATTTCTAGACTATGACAACGATTAATTAGCTTAGATGTTTCTTCATTAGTTGTCTGAAGACCTAGTTCAATAGTAACATCAGTTCTTTTATTTAGCTCTTCTAAATAATCTAAACATTCATCGGTAATAGCATCTGCTCTAGTGGCAATATTAATACCGACAACATCATCTAAAAAAGCTACTTGTTCGTACTTTTCTTTTAATTCTTCTATAGGTGCATAAGTATTAGTATAACTACCAAAGTAAGCTATATATTTAGCTTTAGGCCACTTTTTTAAAAGCATCTTCTTAACTTTTTCGAATTGAATAACTAAATCATCAGCTCTATTTCCCGCAAAGTCTCTATTACCATTAGAACAGTATATGCAGCCACCATAACCTACTGTCCCATCAATATTAGGACAAGTAAAACCACCATCTAAACTAACTTTAAAGACTTTAGATTTATACTTATGTTTATAATAATAGTCTAGAGTATAATATCTTTTGTTGGAATCGCTATATTTAAAAGACATTTTATACTTCCTTGATTACATAGATATAAAGAGCCATTAAAAACTCTGATGGGTGTAATACTAGTAATCTTCTAACTTTGGAAAAATCATCAGTAACTAGACAATCATAAATACTTTTAATTGTTTTAAAATTACCCTTTTTAGGACTGTTTTTCATATAAGAATCAAACTTTTTAATAATTCTTTTATTATACTTCTTATAGTTATAGATAGGGGTATCATCAATTTGTAAGAAAGACCCTACATTCTCCATAATTCTATAGAAATACTTTTGTAGGTACTTATCATTAGTAATGTTTTTTAGAATAGGAATAGCTCTAACATCAATTTTCTTATTAATAATATTATTAAGGCAATATAAATAAGTCTCTTTATGAGCATTATAATTCTTCTTTAAACTGTTTAGTTTAAAAGTAAAAGTATTACCTTCTAATTTATTAAAAGCTTTTAATGTATCGTTATATCCATATTTAATATTTCTTAAAGCTGGTTCGTTATTAAAATCTAAGAAGAAAGAAAGATCATTATTAGGCTTAATCGTTGTAATTTTAATGTTCTTCTTTGGTTTCCTAGTCTTACCAGGAGCACTTAAATTAACCGCGATAACTTCATCAGCTCCTAAATCTATCGCTAAATTAATAGGCATATTGTCATAATAACCACCATCAATGTAACTATTACCATCAATATTTCTTTTCTTAAAAGCTGGAAAACAAGTAGCTGAAGCCATTAAATAATCAACTAATTTGTCTCTAGGAATATCTTCTTTTTTTAATTCCTCTGCTTGCCTTTTAGAATAATTGAATGTAACTAAACCAAAATCAATTTTAGAACGATAGAATTTACTAGTATTGATATAAGCACTTACTAATTGTTCTAGCTCTTTAACATCCATTCCTCCTTCTTTAAAGAAAGAGTCACTGTAATTCTTTAAAATTCTTAATTTAGTAGAGGTATCTTTAACTTTACCTTTACCAAACAATAAATCAAAATTAATATTTTTCCATAATTTGATAGCTCCATGATATTTCCTTTGAACCATCAAAGCTCCGTTTAAAGCACCTACTGATGTTCCGGTGATAATATCATATTTAATATGGAGTTTGCGCAATGCTTTCCATACTCCGATTTGATAAGATCCTTTGGCGCCTCCACCTGATAAAACTACTGCTTTCATATAATCACCAAGAACATTATATCACAAAATAATAGTCTTGATAATTATTGTAAAAAAAACTTAACAATGATATAATTTATTTAGGGTAAGGTGGTGATTTCATGCCAACTAGAACTGTCAAAAAAGTTAAATTAAAACCAGGTAGCGAGAGAATTTTAAAGATAATAGGCGTTGTAGTAGCGTTATTATTAATTGTCTTTATTTTCTATCGTTCTAATATTAATTCCTTAAAGAAAATAGGTTATAGTGAGAAAGCGGCTAAGACAATTCTCTCTAAATTTAAAAAGGATTACTGTCTTCAGTTAGGGGAGAATAAAACTTTAAATGCAGCCTTTGAAAGTAGTGATTACATCGAAAAGAATTTAGATACTTATTCTAAAGTTAAATATCGCAAACAAAAGCATTTAATTAAAAATATCAATAAATTAATTAAAAAGAAGTATAGTAACGACCAAATTTCCACTATTATTACTCATGGTGATGATAAAGCAGTTAGTGAATTCACTAAAAGAGATAAAGTTCGTTACTTAGATGAATTCTATACTTTAGACTATGCTAAACTAGCTCTTTATGATCGTTATGTTGATTTTATGAATAAATCAAGAGAAGATGCTGAAGGTAGTGTTATCTATGTTAACTTAGATTTAGATAAAGAAAATTATAAAGATTATAGCTTTGTGAAAGATTTCTCATATGATATGTTGATCAACAAACATCGAGCACTATCGCCAAAGTTTATACCGCCACGACTAGTTAAAATAAATAAAGAGTACTGTACTGATGGTGAAAAAATAGAGGGTAATGAGAAAGCTATTGATGCTTCAGAGACTATGATTGCCGCGGCAGCTAAGAAAAACATTCATATACTAATTAGTTCTGGTTATCGTAGCTATGATGGTCAAAAAGAAATAGAAAATATGTATTTAAAACTATATGGTGAAAACTATGTTAATAAGTTTGTTGCTCATGCCGGTTTTTCAGAACATCAAACAGGATTGGCTTTTGACTTTGCCAGTGCTAAGAAGAGTATCTTTACTACTAGTGATGAGTATGTATGGATGTTTGAAAATGCTTATAAATATGGCTTTGTCTATCGCTTCCCTAAGGGTAGTGAAGAGATAACCGGTTATACTGCTGAACCTTGGCACTTTAGATACGTTGGTAAAGAGATTGCTAAAAAGTGTCATGATGAGGATATAACTTTTGATGAATACTTTGCTAAATATTTATATTAAACCTTTAAAAAGGTATATATTTATGATAGAATATTAATAGTAAATAATAGAGGAAAAGGTGTTGGCTATGTATCCACTAGGAAAGCAATTTGAAATTGACTATACTAACGCAAAAGCCGATGGTAAAGCTATCTATGGTGGTAAAAACTATAGAATTAGTGTTCTTAGTGAAAGAGTTGTACGTCTAGAATATTCACCAGCAGGACAGTTTACTGATGAACCAACTCAATTAATTAGAACTAGAAACCTTGGCCCAGTAGATGTAAAAGTCAATCAAGACCAAACATACCTAGAATTAACTACTAGGTATTTTCAGCTTGTCTATGTTAAAGAACAGCCTTTCCTAGGTACCAAGATTGATCCGGCTAAAAACTTAAAGATTACTCTTTTAAGTACTAAAGATAAAGATCGTCAAAAGGATTGGTACTATGGTCATCCTGAAGTTCGTAATTTAAATGGTAATATGGTCTCTACAGATATTAATGTACCAAACAATCTAAAAAAAGGACTATATTCATTAGAAGGTTTTGCTTCTATCGATGACTCTAATAGTAAAATCCTAGCTGAAGATGGAACTCTAGTTAATAGAAAACCAAATCAAACTGATATCTATGTCTTTATGTATGATTTTGACTTTGGTCAAGCTTTAGAGGATTACTTTAAACTTACAGGTTATCCAGAGTTTATTCCAAGATATGCTTTAGGTAACTGGTGGAGTAGAAATATTACTTATGATGATCAAAAAATAGATGAATTAATTAAAAAGTTTGAGAAAAAGAAGATACCTTTATCAATACTACTTCTAGATAGTGATTGGCACTATCGTAATGTTGGTAAGATACAAAATACCAAAACAGGTTTTACTTTTAATAAAGACTTGTTCCCTAATCCTAAAAAGACTATTCAAAAACTTCATGATCGTAATATTAGAGTAGGTCTTAGAATTGATCCTTCTGGAGGATTATATCCTCACGAAGAGTTCTATAGTAAAGCTAGTGAGTATTTAGGAGTAAAAGAATCCAAAATAATATTATTTGATCCTTTAAATCCTAAGTTAATGGATGTTTATTTAAAAATCTTCTTACACCCATTAGAGTCTTTAGGAGTAGACTTCTTCTGGAATGACTATGATGGTAATAAAGATCTAACTAATCTTTGGTTTAATAATCATTATTTATATTTAGATAGTGGTAGAAATCCCGCTAAAAGAAACTTATTACTATCAAGAAATGCTATTTATGCTCCACATCGTTATCCTGTTTTATACGGGGGATCTAGTGAGATTAGTTGGGAGAGCTTAAAACAGTTACCTTTCTTATATCTAAATGCTTCTAACATTGGTGTTACTTTCTGGTCTCATGATGTTGCCGGTAACCATGGTGGTGTTGAAGACTCTGAACTTTATGTTAGATATGTTGAATTAGGTACTTTCACTCCAATCTTTAGATTTCATGCTGCCAGAGGAAAGTATTATAAAAGAGAACCATGGCTTTGGGATCCAAAGACTGAATCTATCGCTACTAATTATATGCGATTAAGACATCGTCTTATCCCTTATATATATACAGAATGTTATAACTATACCCAAGCCGGAATACCGTTGATGCAACCATTTTATTATAACTATCCTTGGGTATATGATGATGAACTATATAAGAATCAATACTATTTTGGTTCTCAGTTACTAGTTTGTCCAATCTTAACTAAGAAAGATATTGTCATGAACCGAACAATCCATCGTTTCTTTATTCCTGATGGTATTTGGTATGACTTTAATACTGGTAAGAAATTCCCAGGTGGTAAAAAGTATGTCTCTTTCTTTAAAGAAGAAGACTATCCTGTCTTTGCTCATGCGGGATCAATAGTACCACTATCTAATCGTAGTGACTACAATAATACTGGTATCCCAACTGATATGGAAATTCATGTCTTCCCAGGAGTATCTAATACCTATACTTTATATGATGATGATGGAGTAACTTCTCTATATAAAGAAGGATATTTCTTAAAGACATCTATTGATTATAACTATTTAAAGAGTAATTACACAATTATTATTCGTTCAGTTGAAGGTAAAAGTGGAATTGTTCCTAAAACAAGGAATTATAAACTAGTTTTCAGGAATACTAAACAAGCTGACCAAGTAGCAGTTATGTTTAATGAAACTCCAGTTGAGTGTGAAAGTTATATTGATGGTAATGACTTTATTGTTGAGGTTAAAGATGCACCAACAATAGGACAAGTTACTGTTAATTGTCGCGGAAAAGACATCGAAATTGATGCTATCAGAGTTATTAATGATGATATTGATTCCATTTTAATGGATCTAAAGATTAAAACCTACTTAAAAGAAGAAATAGCTAATATTATCTTTGGTAAAGAGACTATTTCCAAGAAAAGGATTGCTATTCGTAAGTTAAGGAAAAAAGGTCTATCTAAAGAATATATGCAGTTGTTCTTAAAATTGCTTGAATATTTAAGTGAAGTTTAGTATACTATTAATAATTCTTTATATATTGGTAGGAGTAGTAGTAATTTAATCTTATTGAAAGAGAATTTGTATATGGTGAAAGCAAATATAAGAACTTTACGAACTTACCTATAGGAAATATATCGGTGAAGATCGTTAAAACTATAAAGCTGCATGGAAACATGAAGTAAGGTGGTACCGCGAAAATTTCGTCCTTATAGATAAGGGCGTTTTTTTATTAGGAGGTTGAAATGGAAGAATTAAGTGTATTTATTCTAACTTTTATGGGAGTATTAGCGGTTTATTTAATATTTATCTTTATTCCTAATAAAAGAAGATATGATAAAAAGGATATGGACAAACAACCTATGGAGATAAAACTCTTAGAGAACTTATATAAAGTAAATATTAAAAAGACTAATTATCAAGCACTATTATTACTGATTTGTATTATATCATCATTTGATATAGCACTAATTGTATCCGTAGTAGCTATGCTAAAGAGTTTTATTCTAGAAGTATTAGTAGGAGTAATTCTAATTATTGTGATGATTTTTGTAAGTTATTATCCAATCGGACTATATTATAAGAAAAGAGGTAAGACAAAATGTACAACTACAAAGAAATAGAAAAGAAATGGAAAGAATATTGGGAAAAGAATAAGACTTTTAAGACTGACTTAAAAGATTTTTCTAAACCTAAATTCTATGCCTTAGATATGTTTCCATATCCATCAGGAGTAGGTCTTCATGCTGGACATCCTGAAGGATATACCGCAACTGATATTGTAAGTAGAATGAAGAGAATGCAAGGATATAATGTTCTTCATCCCATGGGTTTTGATTCCTTTGGACTTCCAGCTGAACAATATGCCATTACGACAGGTAATCATCCTGCTGGATTTACTGAAGAAAATATTAAAACCTTCAGAGATCAGTTAAAGATGCTAGGCTTTTCCTATGATTGGGATTTAGAACTATCTACTAGTGATCCTAAGTTTTATAAATGGACTCAATGGATTTTTAAAAGATTGTATGAAGATAATTTAGCTAAAGAAGTAGAAATGCCAGTTAACTGGTGTGAAGAATTAGGAACAGTTCTAGCTAATGATGAAGTAATTGATGGTAAAAGTGAAAGAGGGGGTTACCCAGTTGTAAGAAAGATGATGAAACAATGGGTAATTGAAATTCCTAAATATGCTGAAAGACTACTAGAAGGATTAGATTCCATTGATTGGCCTGAAGGAACTAAAGAAGTACAGAGAAACTGGATTGGTAAATCAGTTGGAGCTCATGTTGATTTTAAAATAGATGGTAGTGATAAAAAGTTTACTGTCTTTACTACTAGGCCTGATACCCTTTTTGGAGCTACATATTGTGTTTTATCACCAGAACATGAACTAGTAAATGAAATAACAACTACTGAATATAAAAAAGAAGTAGAAGCATATCAAAAAGAGGCAGCATCTAAATCTGATTTAGAGAGAACAGAACTAAATAAAGATAAGACGGGTGTCTTCACAGGTGCTTATGCGATTAACCCAGTTAATGATGAGAAAATACCTATCTGGATTAGTGATTATGTTTTATCTACTTATGGAACAGGGGCTATTATGGCAGTTCCTGCACATGATGATAGAGACTATGAATTCGCTAAAAAGTTTGATATTCCAATTATTCAAGTACTAGAAGGTGGAGATATTTCTAAAGAAGCCTTTACCGAAGACGGAATTCATATTAATTCAGAATTCTTAAATGGCTTAGATAAAGAAGAAGCCATCAATAAAATGATCGAATTCTTAGAAGAGAAAAAATGTGGTGAAAGACATACTAATTATCGTATTAGAGACTGGATCTTTGCTCGCCAAAGGTATTGGGGAGAACCAATCCCAATAGTACACTTTGAAGACGGAACAACAGAAGCACTACCTGATGATGAGTTACCATTAGTACTACCAGAGTTAGATGACTATGCACCTAATAAAGACGGAAGCAGTCCTTTAAATAAAGCTAAAGACTGGTTAAATGTAGAAATAGATGGAAAAAAGGGTACTAGAGAAACTTCAACTATGCCTGGTTCTGCTGGTTCTAGTTGGTACTTCTTAAGATATATTGATCCTCATAATGATGAAGAATTTGCTAATTATGAACTATTAAAACACTGGTTACCAGTAGATTTATATGTTGGAGGACCAGAACATTCAGTAGGGCACTTACTATATTCAAGAATGTGGAATAATTACTTATATGATAAAGGTTTAGTACCAGTAAAAGAACCATTCCAAAAGTTAGTTCATCAAGGAATGATTCTAGGTGAAAATGGTATTAAAATGGGTAAAAGATATCCAGAATACTCTATTAATCCTAATGATATTGTTGATAAATATGGAGCTGATACTTTAAGGTTATATGAAATGTTTATGGGACCACTTGAAGCCGATAAACCTTGGAGTACTACAGGTGTTGAAGGAAGTAAAAAGTTCTTAGACCGTATTTGGAGACTTTATGTAGATGAAAACAAGATCAAAGATGAAGAAAACAAGAACTTAGATAAGGTATATCATCAAACAGTTAAGAAAGTAACTGATGATTTTGAAACTCTTAACTTTAATACTGCTATTTCTCAACTAATGATCTTTATCAATGCTGTTTATAAAGAGGAGACGTTACCAAAAGAATATGCGGAAGGATTCATTAAGCTTTTAAATCCAATCGCACCATTCATTACTGAAGAGCTATGGAAACATTTAGGTCATAAAGAAACTATTGCAAATGAACCTTGGCCAACATATGATGAAAAATATTTACAAGAAGATACAAAAGATATAGCTGTTCAAGTAAATGGTAAAGTAAGAGGAACTATTACTATTAGTGTTGATGAAGACGAAGAATCTATTAAAGAAAAAGCTTTAAGAGAAGATAACGTTAAAAGACATACAGAAGGTAAAGAAATTATTAAGGTAATAGTAATAAAAGGTAAAATAGTTAATATTGTAGTTAAATAAGACAAGGAAACTTGTCTTTTTTTAATATTAATTGACATAACCATGTAATAAATATTATAATAAAGATAAGATAGATAATAAGGAGAAGTATATGAAAAAAGTGTTAAATATAAAAAATATTGGACTATTATTAATAATAGTACTAATAGCAGTACTAACAATAAGTACTAAAGAAGCAAAAGCTGCAGGAACATTAACTTGGAGTGGACCAAGTAGTATAACTATTAGAGATACAATACATAATATAGCTAATCCTATAGTAGCTACTAGGGATTATGTGCTTCAAGCTACTGGTGGACAGGAAGCATCATCAGTGACACTAAATTATACAGCTAGTGATACTATAACAAACTATCAATTGACTAAATCAGCTGTATTGAATCTATCAAACTTAACATTCACTAAACCCGGTGATTATAGATATGGAATAGTGCCTGATGATTTGCGCGTATCAGGTAACAACCTTAGTTATTTTACTCCAGCTGATGCTAACAGGTATTACGAAGTAACAGTTTCCGTACGAAATGTTGTAGATGCTAATAATGTACCAACCGGAAACTTCACAGCTTCAATGATACTAATTAAATATGATTATAACGAAACTACTGGTGAAGATGAACAAGTAAAGATAAATCCAGTTTCCGGAGTATTATATGCTGATTATGATTATATACCTGATGAATCATTCTTTGGACACATTGAACTATCTAAAACCGTAAAAGGTATAGGAGCAGATACAACTAAGTATTTTCCTTTCACAATAAATATAGATAATGATAGTAGCTTGGTTCAAGATGAACAAGCTCTAATTGATAGTAGTGGGTGGACATATCCAATAAGTGGAATAGATGCAACCGTAACTTATAACGGAAATACTATTAACAATCCAACAACTATAACCGATGGGACCCCAACAACCATCTATCTAAAACATGGACAGACAGCAATCATTGGACAAGTTACAAATGGAGGAAACACCTTTGATGTTATACCTAGGGGTTTATGCAGCGAACTTATTGATCCTTATACTCCTGGTAACCAAAACTACGATTTTTCAAGGTCACCGAGTGTCAAGAAATTAGCTGAAGTTGATGGAGCCACTTGTTATGGAAGCTATTTTACCATTGAGGAGAATCCAGGAGATTACACACCATCATTTTCATTAGCTGGATATCCAGCTACTAGTGGCTACTATGTTAGCGCTGAGGGTATTGTGGATGGTAGTAACACTGTTGATTTCTACAATCAAAAGGAAATGTCACCAGTAACAGGATTAATCTTTACAATATTACCTTATCTAATACTAGCAGGTATTGGTGTAGGAGGAACCCTTCTAGTAATGCATTTAAAGAAAGAAGAGAAAAAAGCAAAGGCATAGTTGCCCTTGCTTTTATTTTTGACTTTTTTCCTTATTTATGGTATAATATGCGCTAATTAAAGGGGGTATTGTGATGGAAAGTTGGTTAAGTGCTGAAGAAATAAGAAATAGTGGAAAATATCCAGTAGTTACATTAGAACTCTTTGATAAAGTATATGATTTAAAACTTGATGATGCAGTAATTGAAAAAGAACAAGAAATCAAAGCTAAGTATAATCAATATATCAAAGAACTATTAGATATGAAACCAGGTGACCGTCGTAAGTTTTTAAAGATAATCAAAGCTATTGAAATACGTGATAATCAATACTTAGAAGATGGAAATAGATTCTTAGTAGAGTATTATCAAGAAAGTAGAAAAGTTAACTCTATTGATTATCTTATTAGGCATGGAAAAGAATCATTAAATACGAATAAATTAGTTAAGGCTCATAAAATAGTATTAGATGGTTGTCTTAATGGTACTAACCGTATTTATAGACGTTTAGATAATACTAATTATGTAGGTAAAATAGCTGAAGATGGTGAAAGAGAAATTAGTTATTTCCCAATTGATGCGAGAGATATTGATAAAGCTACTAATGAATTCCTACATTTCTACAATAGTAAGTATTTTGATGAACATTTATTATTAAAACCACAAATAATTCATGGCTTAATCGCGACAGCCCAAATATTTGAAGATGGTAATACAAGACTTGCTAGAACATTAAAGAATGTTAAGTTATATGATTTAACTACTTTAGAGTATCCATATGAATTAGAAAACCCAGTAATATATGGTACAACAGCATATTTTGAACACCGTGATGAATATCGTAGTCTTATTAGAGATATTGCTGAGAGTAATGATGATGAAGTTTGGAATAATTGGTTTAAGTTCAACTTAGAAAGATTTGATGAATCGTTACTACACTTAAAAAGAAATAAACAAGAATACGAAAAAGTATTGGGAAGATAAAATTCGACATGAATTTTATCTTTTTTTATTATTATGTAATTGGTGATAATGTGAAAGTTAAAGTAATCGATGAAGAGTGTGAACAGGATTTAGAAGACTCCGTTAATCTTTTCTTAGAAGAAGGTCATGAGGTAATTGATATTAAATATCAAGTTAGTTCTTTTGACTTAGGAGAAGAACAAATATATTGTTTTTCAGCTATGATTATATATAAAGAATAAAAAACCTACTTAGTAGGTTTTTAATGTCTAATATTTTTAATTTTATGGTATAAACCATAACTAATCTTATATAAATAATACATTGGCTTATTAATAATTAAATCAAATTCACCAATTAATTCTTCAACAACTCCACCAAAACTCTTCTTAAATAGATAAAGTCCATATAAAGGATTATCTTGTGAGAAATCACCAGTAATACCATAGAAATTATATCTATTATACTTATTCTCAACCGCGTACTTAATACCTTCAAAGTGAAGAGAGTAGGCTGATTGAAAGTTCATTAATTCCTCATTAGAACCACCATATAAAGATAATACTTCATTACCATAGATTAAGAATAAAATACCACCTAAAATAGTCTTCTTACCATATTCTTTTTGGTATTTCTTTATTTTATCTAATTGAGCTTTTAATCTTTCCATGGCACTTTCATCTTGTTTTTGTCGAGAGGTATATCTCTTTTCATTCATTTGTAGTAGTTTCTTTTCATACTTCTCTTTACGATCATTATAAGCATTTTCTATTTCTTTAAGTTCATCCTCAGTATTTTGATAATACTTTTCAAAATCTATCTCCGCAATCATTATCTTAAGCATACCTTTATCATAGAAAGCATCCCACATATGTTCATAATACGAAAGTGGTCGGTCAATAAAAGCTCGTCTATCAGAAGTCTTTTGCATAATCTCTTTATAAATAGGTAGTTCGTCTCTAGTAATATCCCGGCAGATAACACTTGACTTCATATTCTTTCTTAAGATCTGTCTGGTCTTAGACTCCATATCTTCCATAACTTCATCTAAAGATTTACCCTTAGTATCAATAACATGCATCCATCTAGGTTGTAGAGAGTCCTGCATCACATTAAAACCAAAGTGTTTATAACCAAGTTCTTTAAGATTAGTAATTGTACTACTATTATCAAAGCCACCTTCTACTAAAGCTCCATTATTATCATGTTCCTTATATTTAACATAAGGATCAATCTTAATAAAGACTGCTTCATGTTTCTTAGCTTCTTCCTTTATACCATCAGTGAAGGCTTTAAGAACTTCTTTGTCATTATAATCAAGAAGAAATCCCCTTGGTGAATACCAAATATTTTTCTTAACAATCGGTAACTCTTTCTCTAAAATAAGAGCACAAGCTTTAATCTTCTTTTTATCTTCTAAAGCAAAATAATATGCTTTCCAGCCATTATATTCTTTTAATTTAGCCCAAGCACTACTTTGATGAAAAGTTATTTCACTGGATTTTAATGCTTCTTTATCGAATTTTTTACTATCAATCTCTATTAATTTCACTTTCAAAATCCTTTCTTGTTTTCTTTCTCTTTAATTTCCTATAAAGAGGAACTAATTTAGTAAAGACAAAGTACATAAATGGTTTAGCTACATAGTCAAATTCGCCAATGAATTCTACAAATTCTCCACCTAGACGTTTCTTAAAGTTATGAATACCGTAGACAGGATTATCTTTACTAGGATTAGCATCTCCACAAGTACCAAAGAAATCTACTATTTTATAACCTTCATCAAAGGCATCTTTAATGATTGTGTAATAGCACAAATAATTAGCGTTTAACTCCATTAAAGTAGAACTATTACCACCATGAACAGTGAAGACAGTATCATCATATTTAACAGTAATAATAGATGATAGGACAATAGTATCTTCCTTAATATCTTTAATCTCATTTAAAGTTTTATTTAATTTAGCTTTTTGGTTTTCTAAATCTTTACTTTTCTTTAAAGCTTTGTCTCTATTCTTATATTTATTTTCATCTTTTAGTTTATCTATTTCTTCTTCAAGAGTTTTGATCTTGTCTTTAAATATTTTTTTAAGTTTTTTAGTATTAGCTTTTACTATATATAAATCACTCATACCATCTTGATTAAATGTCTCAAAGAAAAGTTTATAGTACTTTTTAGGTGCTTGAATAATTCCTTCTCTTTTAGAAACATCAATCATTGTTTTATAGAAGTCATCAATATCTTTAGAATTTCCTTTAATAATATCAAAATCATATTGATTACCCTTATTTAAGATCTTTTTAGTAGTAGGATGCATTCTTTTATAAATATCATCCCAAGATCCATCTAAATGTAGTTTAAATGTATAACGAGGTTGCTCATGCTCAAAGAGTTTATTAAAGCCTAGATGCTTAAAACCAAGACTTTTTAAATCTTCAACTAATTTAGTATGATCTTCACCCTCAATAACATTACCCTCAATATCTAGATTATGTAATTTAATAGGAGGATCAATCTTAATAAAGATAGCTTTAGGAAAGTATTTCTTTAATTCATTATTGAATTCTTTTAATAAATCCATATCATTAAAATCAATCGCATAACCACAAGGAGAATATAAGTAAGAGTATCCTAAAGGTAGTATCTTCTCTAGTAATAGGGCAGCACACTTAATCTTATTCTTATCTTTAAGACCAAGATAATGCGCTTTAACACCTTTAAACTCTCTAATTTTACCAAAGTCATAGCTCTGCATAAAATGAGGATTTTTACTACTTAAAACGAACTTATCAAATTCCTTTTTTTCTAAATTTACTAATTTATTCATACAATCACCTTGACAGCTTTAGTATACCACGAATATTAGTCTAATACCATAATAAAAACTATTCCTAGGAATAGTTTTATTCATTATTTACTGGTTCTACCTCAGTAGAATCATCTTTTTCCTCTTTATCAGGTTTAGATACTGGATCTTGTTGTGGAGAATATACAGTAACTGTACCAGTATATAACTTACCATTATAATCAATAGTATATTGATAAGTACCAGCTGATCTATTATTTACTTTTGAAATATCTAATTTAATTTTATCTTTAGCATTATCAGGAATACTTTCCTTAATATAAGAGTTTAAATCAGTAGGAACAGGATCATTAATTAGAAGAGTAATATTCTTTAGAGTAATACTAGCTAAACTCTTATCTGGTTCTTTAATATTAACAATACCTACATAAACACGTTTATTATAAGTAACTGTATATTGATAAGCACCAGGTTGTTTAATATTAACAAGTGAAGTATCTAGTTTTAATTTAGCTAGAACTTTATCGCTAACAGACCCAATATTCTCAATATAATCTTTTACTTCTACACTTAAAGGTACATTTACATCTTGAGTAATATTCTTTAAGATAAGTTCTAGCTTATTACTACTAGCGACTCTTTTTTGAACTACTTTAAGTTTAACGATGTTTTTCCCTTTAACAGATAAAGAAGGCATAATCATACCACTAGAGATAGCGGTTATACCTAAAAATACTATTGATAGAATTAAGAAATATCTAATTTTTTGATTCATATCTATCACACCTACTATACCTTATACTACAATTTTAATACTTAACTTTTGTTGAAAACAAGAATAAAAGACTGTAAAAGTGTCAAATATAGTAAAGTATATTATTAGTATGATCCTTTATATCATATAAATACCTGTATTTTTATCAGTATAGTCATTATAACTATTTAATCTTTTCTCAAGTATATTAATCCTATTATTAATCTCTTCAATCTTTTTTTCTAATTCCATTATCTTACTATTAATATCATAGAAATTAGGTCCCATAAAAGGAGGCCAAGGCATATTATTCATAAACGTCACATCCCAATATAAAATATGTAAAAAAAAGAAAAGTGTTAACATTGACAATAACCTAGAAAAAAGAGTATTATAAACATATAAGATAGTAAGGAGTTATATATGAAAAAGTATAAAAACATATTATTAATCATAGTAGGGGCATTATTATTTTTAGGAGGTACAACTGGTCTTGTTATGACTACTAATAAAGCATATGCTTTACCACAAAGAGAGGGAGTAGCTGATAATTATGTCATTCCAGGAGAGTATTCTTTCACTCCTAAACTTATAAGTGGTGTAACTGAAGCTGTTACAGAATATGACAACACTCCTACTTTTCTTGCTGATAACACCATAAATTATCATGACGTAACTAATACTAATGCTAATAAAGTATATGTTATTTATAAAAATGTTGGTCGTTATCAAGGACAAATTGTCGACATGAAACTAACTTTTACTGGTTTTGAAACAGTCGATAGTTCTAGTTCTGAAAAAGTAGGAATTCTCTTTTCAGGAGCTAATATTGGTATGAGTAACCGGCACAACAACACTCGTAAAAAATATAAAATAGAGTATTATAAGCATAATACTAATGAAAAAATGAATATTAAAAACGTATTAGTATTTAATGATATTGATGGACCAGGTAATGGTAATCCTAGTTCTTTAGGAGAAGAAATAGGATTTAAAAACTTTGATAAAGTTTTATACTATGACCAATATAAAACTCATTTTTCCATCTCTAGTACATCTGATTATCTATATTTTATAGGTAATTGTAATTATACTAGTTATGAGGCAACAAGTGGTGCTCATTGTGATGCAACTGTTGATAACCCAACCCCCAAAGCTGGTTATTTAATAGGCTTAGGTGATAGTAGTAATACTCAAGAGTTTTCATGGCGTTATTTATGGTTAGGTATATCAGCTTCTCCATTTAGAATAGAAGATCCTAATCCTCTTAAGAGTGTCGATAAAGTAAAAGCTCATGTTGGTGATGATTTGACTTATACTATTGAACAATATGTACCAAGTCAATCAAATGAAAACTATTATAGTAATTGGGGAATTTATGATGAAATACCTGAAGGAACAGTTTTAATAGATAATTCTTATAGTATTAAAGATAATACTGGAAGTGATGTTACTAATAAGTTTGATATAACCTTAACTAATGATAATAAATTAGAATTTGAAGCTAAAAGTGAAGAATTAGCTGATGTAGCCTTTTATAATAATACTTATATAATTGAATTTAAGGTTAAAGTAGAAGAAAAAGGTGAAATCATTAGTAATGAAGCAACCCTAAAGAATAATTATTATACCGAAGGAAAAGAGTCTAATGAAGTAGAAACTGCTATAGTTTATAAAGTAGAAACCGAAGTAGAAAATGGAACTATTACTGAAAGTGATAACGAGGTGTTATGGCATCATGATAAAACAATAGAATATACTCCTGATACTGGTTATGAATTAAAGAGTGTAACAGTAGATGGAACTCCAGTAAGTATTAGTACATATAAAGATGATTATACTTTTGAAAATGTTCAAGATGATCATACTATAAGAGTAGTATATGGTCCTAAGGCGATAGGGTACACGGTAAAATACTTAGAAGAAGGAACTAACAAAGTATTACATCCACCAAAGAATAATGATACCGCTACTTATGATGCAGAAATAATAAGTGTTGAAGAGAAAATAGACATTGACAATTACAATTATGTTGGAGCTAACGAATACAAAATCACAATAAGTGAAGACAAAGATAATAATGAAATTATTCTTTATTATCAAAAGAATAGTCCTGATGATGTCATAAAAGATAATAGTATTGATAAGACAACTACTAAGAGTAGTATTACTAAGATTGATGAAGTAATAGATTACAAGATAGAATATAATGTTGGTTTAAAAGATTATGTTGGAGTAGCTAAAATAGAATTAATTGATTTATTACCATATGAAATAGATGAAGCAAAATCTAATTTAGATGGCGGAGAATATGATAAAGAGGATAAGACTATTAAATGGAATATAAATAAGAATGTTCAAAAAACTGATACTGGAATAAGTATTGTAAAGAACATTAAAATAGTATATAAAAACTATGATTTTACTAAAGAAGCTATTCACAATGTAGTTGTTGCTACAACTAAGTTAGTAGAATTGGATAACTATACAATTGAAGCTGATGATGATTTGGATATTACTCAGGGAATAGGTAAAGTAAAGATAATAACTCATCATGTTGATAAGAATGGTAAAAAACTAGTCGATGATGTAGTAATAGAAATATATCCAGGAGAAGAATACGCAACTAAAGTATCAACTATACTACAAGATTTAGGATACAAAGTAAAAATACCAACGAATGCTACAGGAGTTGCTAAGGAAGATATGGAAATAACATATGTCTATGAAAAAGAAATAGTAACACCAGCACCAGTAGAAAAGAGTCCTAATACGACAACTAGAAATATGTTCTTATACATAATAATAATACTTCTATCAATTCCGTGTATTATAATTGGTGCTAAAAGCATTAGAAAAGCACATAATTAAACCTGATTTAAATCAGGTTTTTAAATGTACCAAACATTGACAACACCCTTAAAAAAAGAGTATTATAGATATATAAGATACCAAGGAGTTATATATGAAAAGATTAGTAAATATGAAAATTATAGCATTAATATTTGTCATAGCTTTAGTATCAATATTAACTATAAGTACTAAAGAAGCAAAGGCAACTGGAACAGTAACTTGGAGTGGTACTAGCTCTATAACAATAGAAGAGATTATTTACGACATTACCAATCCTATAGCTGGTACTAGAACTTACAATCTTGTCGATAATGTTACAGAAAATACTGTGGCAACGGGGACTATTACTTATACAGGAAATGAAACTATTTCAGCTAATCAGATAAGCAAAACTACAACAATAAATTTATCAAATCTAACATTTACAGAAGCTGGTGATTATAGTTACAGTATTTTGCCAACACTTGATGCTGAATATGGTGATAATGGTTTCTGGCTTAATGCATTTTTTCGAAGTGGTAATGATCCAAAGTATGAAGTAATAGTATCAGTACGAAATGAGGTTGATGCTAATAATATAGCAACTGGAAACTTAGAAGCTACGTTAGTATTGAATGAATGTACATTTAATCCAAGTACAGGAAACTATGATGTGTGTTCTAAAGTAAGTCCAGCTTCGGGAACTGGTACTTTAAATGCTCATTATGTATATATCCCCGAGGATCTGATGTTCAGTCATATAGAATTGGGAAAAGAAGTCAAAGGAACAGGTGCAGAGATAAACAAGTATTTTCCATTTACAATTAATCTACAAATTGATTCTAATGTTTGTAAGCCTTTAAATTGTAATCGGTGGTCTTTTCCAATAAGTGATGTAGATGCCACAGCAACTTATAATGGTAGTACTGTTAATAATCCTACTAGTATAACACCTGGTACTCCAGTTACGGTTTATTTAAAAGATGGACAAATAGCTGTTATTGGTGAGGGGCATGAAGCAACTAGAGGAGCTGTTAATACTTTTGATACTATACCAGCTCGATGTAGCACAGTTCCTATAGCAATGAGCAATAAATATAATCTTAACAAATCAACAGGCATTAAAAAACTATCTAACTTTAGCAATGGTAGAATAAAGAAATTGGATGGTTCTAATACTGCTCCTAGCCAATTAAGCATTTCTGAGACAGCAGGAGATTATACAGCTGCTTATACTATTAATGGGGATACATCTCAATCAGGAGCTTCTTTTTCAAATCTGGCATTGGAATGTCATACTAATGAAATCCTATTTGAAAACACTAGGACTATGGCACCATTAACAGGGGTTATAATTAATATAGCGGCCTACTTAATAGTTATTGGTATAGCTATAGGAGGATTCCTATTATTTAGAAATATAAGAAAGACAAAGTTATCAAAATAATGATAACTTTTTTATTTGTATGCTATAATAAGTAATAAGTTGGTGATATAGATGAGACTTCGTAATAATAAAAATAAAGAAGAAATATTAAGTTCATCTAAATACTTAATTAGAGATGATTTAGAAAAAAATATGGGTAGATGGAAAGATGTTTTTAAAAATAATAATCCTATTCATATAGAAATAGGTATGGGTAAGGGTAAATTTATTATTGAAAATGCTCTTAAGTTTCCTAATATTAATTTCATTGGTATTGAAAAGTACGATAATGTTTTAGCGAGGGCTTTACCTAAAATACCTGATGATTTAGATAACTTACTTATTATCCGGATGGACGCTATTAATATTGATGAAGTATTTAATCAAGAAATAGATCGTATTTATCTAAACTTTTCTGATCCTTGGCCTAAAGATCGTCATATTAAAAGAAGATTAACTAGTCCCATCTTTTTAGAGAAATATGATCATATTTTTAAAGATAAGAAAGAAATCTTTCTTAAGACCGATAATGTTGGGTTGTTTGATTACTCTAAAGAATCACTGTCTGAATATGGTTATAAGCTATCTGATGTTACTTATGATTTACATAGTAATAGTAATGATATTATTACTACTGAATATGAAGATAAATTCATAGAAAAAGGCATTCCTATTGCTTATTTAAAAGCTACTAAGAATGATTAAAACTACTTGACACAAAAGCGACATAAAATCTTTAATAATATTAAAAAATTTGATATAATAGAAAAGAGTAGGTGAAATAAATGAAAAAATTTATCGCATTACTACTTATCACTGTTATTTTTATCTCCGGTTGCACTGTAACTAGAGTCGATAATAAAGAGATAGGAGAAATAACTGATATTATTTTAGGAAGTAAGAACAATCTAAAAAATACTGTTTTTGATGGTTATTCATATTACTTACCTAAAGGCTTAAAAATAGATAATAAAGATGAATATAATACTATTTTTACAGATGAGAATAATTATCGTTACTTTATGTATGTTGATGTAATTAGTTTTTATAATAATACTAAATACAAGTATAAAGTAGATGATGATAGTTATTACTCAAAGAGATTAAAATATGGTAAAAAGACTGGTTACATTGAAATAAATAAAGTCAAAAACAAATATTTTATTGAAGCCATGTATAATTATGCTAAAATAGAAGTATATGTAAGAGAAAAAGACATTAATGATGCGATCAGTAATATCTGTTACATATTATCTTCTATAAAATATAATCGTCGTGTTTTATCAACAGTTATTGGGGATAATACCCTTAACTATAAAGAGGAAACTTTCAACATTTTTAAGACTAAAAAGAAAACTACTGATTTCCTTGATTATGTTAAAGAATATGACAATATTGATGAAAAAGATGTTGATGAAGACAATGTTGAAATCGACGAGGAATAAGAAATAGGTGAAATTATGAAATTAATGGACAAATTAAAAAATGCTTTATTTGAAGAAGAGTATGTCGAAATTGAAGAGAAACCCAAAAAAGAAAAACCTAAAAAGGTAAAGGCACCAGAGAAGATTAAAGAAGACAAACCAATTAAAGCAAGGGAAAAGAAAGAGGAACCAATCGCTAAAAAGATTGCTCCTGCCAAAAAAGAGCTAATTATTATTGATGAAATAGAGGAAGAAGAACCAGTTAAGACTGATAATAGTTTTAAATTTCCAGTAATGGAAGAAGAAGATTTAAAACCAGATAATGTTCCAGCTTTTATTTCCGATAAGAAGTATGAGAAAAAACCTTGGGGTAAGAAGAAAGAACACAAGAAAGAATACCGGGAGTATGAAACTAAGGATTTAAGTTATACTAGTTATGAGGAAGAAAAAGTAGAACCGAAGTTTAAACCTTCACCAATTATTTCACCAATCTATGGAGTTTTAGATAAGAACTACAAGAAAGATGATGTAAGAGATAAAAAAGATCGCGAGATTAGACTAACATCGCCTTATTCTAGAGATAAAATAAGTGTTGATGATGTTCGTAATAAAGCTTTTGGAACTCTAGAAGATACTATTGAAGATAATCCTCTTTTAGAACAAGTAGAACCATTAGAAGAGGAAGAAAAAGTAATGGATTTTACTAACAGTAGAAAACCAAGAGTAAATAATGTTACGATGGGTGAAGCTGAAGAATACTTTGAAGACCTAGGTCTTGAATATAACAAAGACTATGTTGATAGAGGAACAACTAATGACGAAGAAGATGCTTTAGAAGAGGTTAAGGAGCCTAAAAAAGAAGAGAAGAAACCTAAAAAAGCACCAGAACCAATTAAAGAAGATAATGATTTAGATGATGATAATTTATTTGATTTAATAGATTCAATGTATGATGAATAAGGAGGGAATATTTGATGTTAATAATGAATATAGATTTATTAAATGAATTCTTACCAGCAGTACTATATATAGTAGTAATTGCTTTGGTGATTACTTTAACTGTTTTAGCAGTTAAACTAATTCAAGTGACTACTAAATTAAATAGAATTAGTGATAATGTTGAAGAAAAAGTTAACTCTTTAAATGGTATCTTTGGAATAGTTGATAAGGTATCTAATGCATCATATACCATTGTTGATAAAGCGGTAAATACTGTTATGGGAACAGTTGGAAAAATAAAGAAAAATAAGGAGGAGAGTAAAGATGAGTAAAAAAGGATTTGGAAGATTTGCAATAGGAGCTGCTATTGGAACAGGTTTAGGACTTTTATTCGCACCTAAAAAGGGAGAAGAAACTAGAAAAGAATTAAAGAAGAAGATTGATGAATTAATTGAAAGTGCTAAAGAAATTGATACTAAAGAAGTAAAAGATAATTTCGATAAGAAAGTACAAAAACTACAAGCTGATCTTAAAGACTTAGATAAAGAAAAGGCTTTAAAGATTGCTAAAGAAAAAGGTGAAAAAATAGCTGATGAAGCTTCTAAATTAGTTGATATGGCTGTTGAAGCTGGTAAACCAATGGTAGAAGAAGCAGCTGAAGAAGTAAGAAAGAAAGCTGTTAAAGTAACTAAAGACGTTCTTAAGAAATTAGAAAAAGAAGAAAAGAAAGCATAGGAATATGCTTTTTTTATTCTTTACTATTTAAAATAATAATAAAATATGGTATATTATTAATGAGTTTTTAGTAATCAAGGGAGTTGATATTATGACACTTTATGAAGATTTAGAGTGGCGAGGATTAATTCAAGATATTAGTAGTCCCGAATTAATTGATAAATTAAATGAAGGAGGACTAACTTTTTATATTGGAACTGATCCTACTGCTGATTCTATGCATATTGGACATTATTCATCTTTCTTAATATCTAAAAGATTAGCTAATGCTGGTCATCACCCAATTCTTTTAGTAGGAGGGGGAACAGGTCTTATTGGTGATCCTAAACCAGATGCAGAACGACCTATGATCACTAAAGAGGAAGTAGAAAAAAATATCGAAGGTTTAACTGCCCAAGCTAAAAGAATATTTGGTTTTGAAGTTGTTAATAACTATGATTGGATTAAAGATATTTCCACAGTTGATTTCCTAAGAGATTATGGTAAATTCTTTAATATTAATTATATGTTAGCTAAAGACCATGTAAAATCTAGATTAGAAGTAGGAATTACTTATACAGAATTCTCATATATGATTCTACAAGCCTTAGATTTCTTACACTTATATGAAACTAAGAATTGTACTCTCCAGGTAGCAGGTTCTGATCAATGGGGTAATATTACTTCTGGAATAGAACTTATTAGAAAGAAAATAGATAAAGAGGCTTATGGTATGGTTATGCCACTTGTTACTGATTCTACTGGTAAAAAGTTTGGTAAAACTGAAGGTAATGCTCTATGGTTAGATAGAAATAAGACTTCTCCATATGAACTATATCAATATTTAATTAATTTAGAAGATTCAATGATTATAGATTGTCTAAAGAAATTAACACTTCTATCAAAAGAAGAAATTGAAAAAATAGAAGAAGAAAATAATAAGGCTCCAGAGAAAAGAATTGCTCATGATGCTTTAGCTAAAGCTATGATTACTGACATTCATGATGAAGAAAGTTATAATGAAGCAGTTAAAATATCTAAATCATTATTCAGTGGCAATATTAAAGAATTAAGTGAACAAGAACTAGAAGATGCTTTTAAAAATATTGATAGTTATGATATAAGTGAAGATAAAAACATAGTAGATTTATTAGTAGAAGCAAGTATTTGTTCTTCTAAAAGAGAAGCTAGAGAGTTTGTTTCAAATAACTCAATAAGTATTAATGGAGAAAAGATAAATGATTTAGAAAAGGCTATTACTAAAGAAGACGCTTTATATGATAAATATGTAATTATCAGACGTGGTAAGAAAAAGTATTATGTAATTAATTACAAATAAAAAAACGAGAATTTCTCGTTTTTTATTTGTTATAGTACTCAACTATTAGTGATTCATTAATATCAGCATTAAGTTCATTTCTTTCAGGAAGTCTTACATAAGTTGCTTCTTTCTTCTTATCATCATACTTAATGAATTCAACTCTTTTTGATACTTTCTCTAAAGCTTCATTAACAACTTTTAAGTCTTTATCTTTCTCTTTTAAAGAGATAACATCTCCTGGTTTACATCTGTATGATGGGATATCAACCTTTTTACCATTAACAGTAACATGTCCATGATTAACAAGTTGACGAGAACCACGACGAGTATTCGCAAAACCAATACGATAAACTAAGTTATCAAGACGAGACTCTAAAAGTCTTAAGAAATTAGTACCATGAATACCTTTTAATTTAGAAGCTTCATCAAATGTCTTACGGAATTGTTTTTCATTAACTCCATACATAAAACGAACCTTCTGTTTTTCTTTTAAGTGAACACCATAATCAGATAATTTACCACGTCTAGAGTTACCATGTGCTCCAGGAGCATAAGGACGACGAGCTAATTCTTTACCAGTTTCACTAATAGAAAAACCAACTCTACGAGCTTTTTTATAAGCTGGTCCAGTATATCTTGCCATAATCTTCTCCTTTCTATATATTACATAGAACTTAAAACGATATTTTAGTCTAGTTTTAGGGAGTAATTTCTTCGCCTAACAGCAAATAGCTACTAATCTTGAAATACACATTAAAACTATCTAAAAAAGCTGTTCAAAGTCAATATGCAGTATCAATTATAACATATTAATTAAATAAGTCAATTATTATTGATTTACAAAGTGAAAATGAGTTATAATGAAACTAGATAATATAGATGGTGATTACATGGACAAAAGATGGAAAGCAGTATTAATAGTAGTTTTAATAATAACAGGAGCATTCCTGGTTTTTTCGCGTGCTGATAATACAAGTAATAAGTTATATGATGTATTGAAAGATGCTGCTACTGGTACAGTAACAATCTTAACACCATATATACTATTATTAATATTTAGTATACTTACTACTTTTGGTATTGTATGCGCTCGTAAGAAATTAGAATTAGAAAAGAGTTAATAAGAGAAGTTATTTCTCTTTTCTTTTATTTTAAATTATGATAAAATAAAAATAGTAAGGTGGTGACTAAAATGCACGGTAAAGTACTTTTTATTGTTACAGGAATAATAGTAGTAATTATTGTTGTTGCTTTAATCATCTATTTTTATCGTAAACACCGTCTTAATAAATATTATGCTAAACTTGATGAAAGAGAATATGAAAAAAACTTAATTACTTCAACACCTATTGGGGTTGAACTATCTAAGGTAGAACCAATTATTAAAAATGACAAGATGGAAGAAAAATATGAGAAATGGCAGAAGAAGTTCGAAAAGATTAAAGGTGAAGAAGTAGAAAAGCTTCAAGATATGATTATAGAACTTGAAGAATATATTGATCGTCGTGAATATAAAGAAGCTGATAATAAATTTGCTAAACTTGATATGCAGTTATATATTACGAGAGAACATGCCGATTCCCTACTTGAATCTATTAAAGAGATAACTTTATCTGAAGAAAAGTATCGTAGTATAGTTATTAAACTTAAAGCTAAATACCGTGATCTTAATAAAGAATATGTTAAACATCAAGACTTATATGATGAGATGCAAGAAGCTGTAGCTCTTCAATTAGAAAATATTGAGAAAAGATTCCTTGATTTTGAAAAAGTTATGGCTAAGAACGAATATAATGAAGTAGTTCATGTAGTTAAAGCTCTTGATACAATGATTGATCATATGGAAATAGTAATTAAAGAAGTACCAGACTTACTTCTAATGGGTAAACAATTAATTCCTAAGCGTATGAAAGAAATTAAAGATACTGCAGATAGTATGATTAAAGAAGGGTACTCATTAGACTACTTAAATATTGATTATAACTTGGAAGAATCTAAAAAGAATATTGATACTATCTTAGATAAAGTACGTGTTCTTAATCTAGAAGATTGTATGTTTGAACTTAAGACTATTCTAGATTATATGGATTCATTATTTGTAGACTTTGAAAAAGAACGTTTATCTCGCAAAGTTTATGAAGAAATGGGTAAAGATTTTGCTAAGAAACTTAAAAATACTAATGAATCAATTGATGATATTTATTCTCGTCTAGATGAAATTAAAAATATGTATGATCTAGAAGAAGGGGATATTGAAACAATCAATAATATTAAGAAAGAAATAACTACTATCAATGATGAACATAAGAAGATCAAGAATAAAGAGAAGAAGAATTCTACTCCTTACTCTGAACTTCATAAAGAAATAGAAGCTCTTTCTAATAAACTTAATGCTTTAGAAGAAAAACTAGATATTTCTTTAAAATCTCTAGGTAATATGCATGATGATGAACTTCGAGCTAGGGAACAATTAGATGAAATAGAAGAGTTCTTGAAGAAGTGCAAAGTCAAAATAAGGAGTTATAAATTACCAATTATTACTGATAAATACTTTATAGAACTTAATGAAGCTAATGAAGCTATTGTAGAAGTAATTAAGGAATTAGAAAAGAAGCCTATTGTTATTAATACTTTAAATATTAGAGTGGATACCGCTAGAGATTTAGTATTAAAGCTTTACAATACGACTGTAGAAATGGTAAAATATGCTGAACTAGCAGAAGCAGCTATCTGTTATAGTAATAGATATCGGGGTGTCTTTGAAGATATTGATACAGCGCTAGATAATGCTTCTAAGGAATTCTTCAAAGGTAACTACCAAAAGTCTTTTATAGATACAACTAAACTAGTTCAAGATATTGATCCAAATCTACAGAAAAGGTTGGTAGAAGAATATGAAAGTTAAGAATAATAAAAAGGGGTTTATTACCAATGACCTTATTACTATTATTGTTGTTTGTTTAGTTCTTTTCACTGTTATCGCAACTATGGCTTATCAATCTACTAATGGTGAAAAGTATCGTATTATGAAATATAGTGCTTATAATATGGCTACTAGTGTTGCCCATTATAAAACAGATAATGAAGGCCTAGAAGCTCATTATCTTCAAGAATTAATTGATAATGGTGCTTATTCAAATGTTAAGAATCCATTTAATAGTGCTGCTAATTGTAGTCCTACTGAGTCTTTCGTTCGCGATGTTAATTCTAAGAAATATGTTACTTTAAAATGTGGTGCTTATCTAATTGATGATCAGTATATTGGAGAAGATGCATATACTATTTATAAAGTAGGACCTTGGCATGAAGGGATGAAAGCTAAAAAAGGTGTTCAAACTAGAGCCAAATACAATCTATTAAAAGATGGTAAAGAGGTCTATCCTGAGTATTTAGATGAAGCATTGTTTATCTATACAGTTAATAAAGATAATGATACTTCTTATGGTAGTATTATTGATATAAACAAAGAATTAAAAGTAGTAGAAAAACCTTTCTACCGAACTAGAATAGTTCATATAAAGAAGCAAGATTAAGCTTCTTTTTTTTGTTCTTGATAAATAATTAATAATAAAGTATAATTGATATAGAATAGATAATTCTGGGGTGATTAGTGTGTTTGAAAAAATTACTTATATCAGTGACAATTATGCCGAGATAAAACTTATTAATAAGGATAATATCAAAGCTAACCTAATGAATATGCATCTTATCTTTGAAGATGATAATAAGCTAATTCTAGGTGAAGTAGATGATATTAATGATGACTTAGTAAAAGCCAGGTTTTTAGGTGAAATAATTAATGGTAGTTTAATTGGTGGTGTTATTAGAAAACCTTCTTTAAAAGCCAGTATTAGAACTGTTAAGAAAGAAGAAATACCTCTTATTTTAGGAGAAGATAAAAAAGGTAATATGCTTTTAGGAGGATCTCCTTTCTATAATAATCATCCAGTTTATATTGATATTAATAATTTCTTTTCTAATCACTTTGCTATCTTTGGTAATAGTGGTTCTGGTAAATCATGTGGTGTTACTAGAATATTCCAAAATATGTTTTTAGATGAAAGATTATTCCCTTATAAATCAAATATTTTATTATTTGATTCATCTGGTGAATATTATAATGCTTTCAAAGATATAAATAGTATTAATCCTAACTATAATTATCGTTTCTTATCTACTAATGAAACTAGTAGTTATGATTATGCCGAGAAGTTAAGAATACCTGTATATTTACTTAATAAAGATGATTTAGCACTACTACTTGAATGTAATGCTCATTCTCAATTACCAATCATTGAAAGAATGTTAAAGTTAGCTCGTATTTTTGCTTCTACTGATATGAATGCTAATGATTATAAGAATCATTTAATAGCTAAAGCTATTATGACTATTCTTTATACTAATCAAACATCTCCTAATAAGAGAAATGATGTATTCTCTATTCTTAATACTTGTACAACACCAGAGTTTAATTTAGAAGCTGAAGTACAAGGTGTTGGTTATACAAGAAAGTTTAGAGAATGTTTCATTATTGATTCTAAAGGGGGATTCTCAGAGAGTGTTCTTTTAACTGAATACTTAACTAAATTTATTAAAGAAGAATATGATGATTATGAACCAAGTGGTGAAGCTTTCTATGGATTGGCTGATCTAGAAAAAGCTCTTAACTTTACTTTAATTAGTGAAGGTTGGTTAAGAAATGAAAATACTTATGGTGATGCAGTTACAGTAAGAGTAAGAATGCATGCTTTACTTACTGGTGAATATGCTAAATACTTTGAATTAGAAGATAAAGTAAGTATTGAGAAGTACTTATCATCACTATTAATAACTAATGGTAAGAAGTATCAATTAGTTAATATTAATCTAGATGATGTAGATGATTCTTTTGCTAAAGTTATTACTAAAATCTTCACTAGATTAGTATTTGAATTTGCTAAGAGTCTTCCTGATCGAGGAACTATTCCTTTCCATGTTATTGTAGAAGAAGCTCATAGATATATTCAAAATGATACTGATAGATTCTTATTAGGATATAATATATTTGAACGTGTTGCTAAAGAAGGACGTAAATATGGTGTTATTCTAGGACTTATTACTCAAAGACCTTCTGAACTTTCTGATACAACTATTTCTCAATGTTCAAGTTTCTTAATCTTTAAAATGAACCATCCAGCTGATGTTGATTATATTAAAAAGATGGTACCTAATATCTCAGAAGAGATTATTGAAAAACAAAAAAGTTTACAATCAGGAACTTGTCTAACTTTTGGTAGAGCATTCAAAATACCTCTAATAGTTAAACTAGCAATGCCTTCACCAGAACCACTATCTGGTAACTGTGATGTAGTAAGTATTTGGGATGGTAATCAAAAAGAATATACTGGAAGTAATGAGAAAGTTAAACAAGCTAATAGTTCTACAGTTGATTTAAATCCTAATATAGATGAAGAAATTGTAGAACAAGCACAAGATTTAATAGTTGAAGAACAACCAACTACAGAAGAACCTACTAGTGAAGTAACTATTGAAGAAGTTCCAACTGAAGAGAAAGCACCTCAAACTACAGTGGTAGAAGATAGCACAACTTCTCCCCAAGATGTAGTTGATGATAGCATCTTGAAAGAAAAAGCAGAACCTGATAATAACGATGAACTAATTACTGTAGTACCAACTACATAATTAGTTTTTTTATTTTGTTTCTTTATAAAATAGTGTATAATATGCATAGGTGATATTATGTTTGAAAACTTAGGAGATAGACTACAAAATGCCATTGATAAGATTAAAGGTTATGGCAAGATAACTGAAGAAAATATTGGCGAAGCAATGAGGGAAATACGTCTTGCTTTATTAGAAGCTGATGTTAATTATAAAGTTGTTAAAGAGTTTACTAATAATGTTAAAGAAAAAGCTCTAGGAGAAGAAGTTAAAAAGAGTATTAATCCTGGAGATTTATTTGTCAAAATAGTTAATGATGAATTAACAGAATTATTGGGTGGTGAAGCAGCTCCTTTAAACTTAGCTGGCTCTCCTGCTATTTTAATGTTAGTAGGTCTTCAAGGTTCTGGTAAAACTACTACTATTGGTAAATTAGCTAATTTTCTACGCAAGAAACATGCTAAGAAACCTCTTTTAGTAGCTTGTGATGTTTATAGACCAGCTGCTATTGATCAGTTAAAGACAATTGGTAAACAACTTAATATTGAAGTATATGAAGAGGGTAAGAAAGACCCTGTAGGAATCGCAGATAATGCTATTAGATATGCTCGTGAAAATGGTTATGATTATGTCTTAATTGATACTGCTGGACGTCTTCATATTGACGAAGAACTTATGGATGAACTTAATAATATTAAAGATAAAGTTCATCCTAAAGAAATTCTTTTAGTAATTGATGCTATGATGGGACAAGATGCTATTAATGTTATTGAAGGTTTTAATAATAAACTTGACCTTACTGGCGTAATCTTAACTAAACTAGATGGTGATACTAGAGGTGGAGTTTCTTTATCAGTTCGTCATTTAACTAATGTTCCAATCAAGTTTATTGGTACCAGTGAAAAACTAGATGGATTAGACTCATTTGATCCTGAAAGAATGGCTGGAAGAATACTTGGTATGGGAGATGTTGTTTCTTTAGTTGAAAAGGCTGAAGAAGCTATCGACGAAAAAGAAGCTATGAAAAGTGCTAAAAGATTAGAATCTGGTAAATTTGATTTAGAAGACTTCTTATCAACTATGAATCAAATGAAGAAACTAGGACCACTAGAAAACATCATTAAGATGCTACCGGGTGCTAAAAAGATGGGTCTAACTAATATTAAAGTTAATCCTAAAGATATGGCTCATATTGAAGCTATTGTTCTTTCTATGACACCTAAGGAAAGAAGAAACCCTGATATTATTAAAGCATCTAGAAAGACTAGAATTGCTAAAGGAAGTGGTACTTCTGTTCAAGAAGTGAATAAACTATTAATGCAATTCGAGCAAATGAAAAAAATGATGAAGAATATGAAAAATGGTAATATGAAATTACCATTCTAGGAGGGAATATGTTAAAGATAAAAGATATTTCTAAAAGTTATAAGACTGGTGACTTTGTTCAAAAGGCTTTAGACAAAGTATCTCTTTCTTTTCGCTCTAATGAATTTGTCTCTATTTTAGGACCTAGTGGTAGTGGTAAAACTACTTTACTTAATATTATTGGGGGACTAGATCGTTATGATAGTGGCGATTTAATTATTAATGGTAAATCTACTAAGAGTTTTAAAGCTAAAGAATGGGATGCTTATCGAAATAATTGTATTGGTTTTGTGTTTCAGAACTATAACTTAATTACTCATATTAGTGTTTTAGCTAATGTTGAATTAGGTCTTACTTTATCAGGAGTATCTAAGCGTAAGAAGAAAAAACTAGCTTTAGATGCCTTAGACCGAGTAGGACTACTTGATCATGCTCATAAAAAGCCTAATCAATTATCTGGTGGACAGATGCAGCGAGTTGCTATTGCTCGGGCCTTAGTTACTGATCCAGATATTATTTTAGCTGATGAACCAACTGGAGCATTAGATTCTAAGACTAGTAAAGAAATTATGGAATTAATCAAAGAAATAGCTAAAGAAAAACTAGTTATTATGGTCACTCATAATAGAGAAATTGCTGAAAAGTATTCAACTAGAATAGTGGAATTAAAGGATGGTAAAATAGTTAGTGATAACAATGAAATAAAAGAAAAACAAGAGAGTAATGATTTCACTATTAAGAAGACAAAGATGAATTTCTTGGAAGCCTTGACTCTTTCTTTTAATAATATCAGAACTAAAAAGGGAAGAACCTTTTTAACATCATTTGCAGCTTCTATAGGTATAATTGGAATTGCTTTAATACTTTCTCTATCTAATGGATTCCAAAAGAAGATTGATGAATTCCAAGATACAACTCTAGCTAAAGCACCAATTCTAATTATGACTCAATCAATGAATATGGATACTAATGCTTTTAAAGATATGACTTCTTCTAAATTAAAGAAGTTCCCAACTAAAAAAGAGATTTATCCTAAGGATGATATGGTTGAGACTTTAATTCATAATAATAAAATAACTAAAGAATATGAAGATTATATTAAGGATATAAATCCTAATTATGTATCAAGTATTTCTTATACAAAGACAGTTAATCTAATCGCTATTAATAAAGATGATGAAGGTAAATATAACTTAATTCCTAATACAACGATTTCTAATAATGAAAATGCAACATCTAGTATGTGGGTTATGTTTCCATATCGTTTAAATAATAATAATACTGATATTGTTAGTGATACATATGATACTTTGGCTGGTAAAATAGAGGATGATAAACCAGGATTAGTATTAATGGTTGATACAAGAAATAGAGTATCAGCATCTATCTTAAAACAATTAGGATTTACTAAGGATCTAGATAAAGTGTCTTTTGAAGATATTATGAACAAAGAGATTAAAGTTATATTAAATGATGATTACTATACTAATATTGGTGGTAGTTTTGTTCCTAAACAAGATTATGAAGCTCTATATAATAATGATAATGCTGTTACTGTTAAAGTTCAGGCTATCTTAAGAGGTAAAGATAATGAAGAAGCTGCTTTAATTAGTGAAGGTGATGGTATTGGTTATACTAAAGGATTAATGGATATTGTCATTAGTAAAAATGATAATTCTGAGATTGTTAAAGCACAAAAGGATTTAGATTATAATATTATGAGTCATGCCGCTTTTGATAAAGAGGGAACTAATACTAAAGAGAACTTCTTAGGTTATTTAGGAGCAGATACTTCTCCTTATATGATTATGATTTATCCTAATGACTTTGATTCTAAAGATCATATTATTAAATATCTTGATAAGTATAATAAAGGTAAGAAAGGTGATAATAAAGTAGAGTACACTGATCAAGCAGAACTTATAACTTCTCTTACTAAGAACATTATGAATGCGATTACAATTGTTTTAATTGCTTTCTCATCAATATCACTAATTGTTTCATCAATCATGATTGGTATTATTACTTATATATCTGTTTTAGAGCGTACTAAAGAAATTGGTATTCTAAGGGCTTTAGGTGCTCGTAGGAAAGATATTAAACGAGTATTTATTGCTGAAGTAGTTATTGTGGGTATTTTATCAGGAATTATTGGTATTGGAATTGCTTATTTATTAACGATTCCTGCTAATATGATTATTAAAAATCTATCAAATTTAACAAATGTTGCCCAACTTTCACCAATTCATGCTATAATATTGATAACAATAAGTGTCATCTTAACAATTATTGGTGGCAGAATACCATCAGGTATTGCCAGTAAAAAAGATCCGGTTGAAGCACTTAGATCGGAGTAGGAGGAAATATGGAAAAATTATTAAAGAGGATTTTTACTACTTCAGTCGTTACTTCAAGTATATTATTATTAATAGGAATTTTACTTATTGTTGAATCTGAAGTTACAGTTTTAAGTATTTACTATATTATAGGAGCTACTATCCTATCATTAGGAGTTCTGGCTATTGTTAGATACTTTTTAGCTCTACGAGGTGATAAAACTGGCTATGGTTTAAGTATCGTCTATGGAATTATTACTTGCTTTGTGGGAGTAGGGATTATTAATAATCCTAGAAGTATTGCTGGTATTATACCAGTTATAGTAGGAATAGGAGTTTTAATTAATAGTAGTCTTAAACTTGAATACTCTATGGAATTAAAAAGACGTAATAATGACATATGGAAAAGTACAATGGTTATGGCTTGTTTATCACTACTATGTGGAGTTTTACTTATCTTTAATCCTTTCCAAGGAGCAAAAATTCTTGCTAAAATAGTTGGAGGATTCTTAGTTGTTTATGCTATTCTAGATATTGTAGGAACCCTTCGAATTAAAAAAGTAATTAAAGAAGAATTTAGTGATTTAAAGAAAATAGAACCTAAAGTAACGGAAGCAGAAGTAGTTAAAGAGGAAAAGAAAAAGAAAAACAAAAAATAAGGAGGAGGATGAAGATGTATTTATTATCAATAACTAGTAAACTAAAAGATCTAAATTCAGTAGTTCATAATTTTGTTGATAAATTTTCATCTAATCCGGCTTTTTCCTTTATTATTGCGGTAGCTTTAGCTATATTCATTTATGTAGGAGTTGCTAATTTTACGAAAAAATAATAGAAAGGGGTAATAATCTTGAAAGATGACGATATAGAGGTTCTAACACTGGATGATGAAGAAGTAAAAGAAGTAAAGAAACCTAAGGTAGAAATCATTCCTGTGAAACCAGTAGAACCAGTAATAGAAGAAAAAAAAGAAGAAAAAGTACCAGCACCAGAGCATCCTCAAGAAGAAAAAAAACAACCTAAAAGGGATTATCAAAAGTTAGTAATTATTATCTTGATAGCGGTAATTATAATAATGGTCATCTTCATTATTATGGTTCCTTTATTTACTAGATGGCTTGATCGAAAGAAAACTAATGATAAAATTAATAGTAGTAAATATCAAGTTCTTGTCTGTTCTAAATCTGATAAGAAAGAAGGATATATTATAACTGATGCGGTTAAGGTATATCATATTAAAAGTAAAGCTAAAAAAGTTGATTATATAACAGAAAGTAACTTTTATGATAAGAGTGATGATTATACTAAAAAGTTAAAAGAATGTACCGAATTAGACAGTAAAAGTGATGAGGTTTTGGGATATTTTACAAAGTGCTTAGTCAACGATAAAAAGCTAACTTTAGATAAAGAATATGATTTAGAGATATTTGATAACAAGAGTAAAGCTAATGATAAAATAAAATCAGTAGTCTTATTTGATCAAAATATAAAAGAGATTGAAGCTTATTATAAAGATAAGAATTATACATGTGAATAAAATACTAGGTAAAGGCCTAGTATTTTGATTTGAAAAAAAGAAAAAAGTTTTGTATAATAGGTTTAGGAACAGAGGTATTAACTATGAAAAATTTAGAAATAGGGAAGAAGTACCAGATTCATGGGTATAAGCATAATGGTAAAATCCATCGTGCTTGGGATGAAGCGGTACTATTAGAAATCCATGATGATTATTTAATTTTTGGGAATAATAGAACTAAAGTAATTGAAGCAGATGGAAGAAGTTGGCGAACTAAGGAGCCAGCTGTTATGTATTTTTATAAAAACAATTGGTTTAATGTCATTGGTCAATATAAAAAAGATGGTATTTATTACTATTGTAATATTGCTAGTCCCTTCTTAATTGAAGAAGATACAATTAAGTATATTGATTATGATTTAGATTTAAGAGTATTCCCAGATGGTTCTTTTAAAGTATTAGATCGTGGTGAATATAAGTACCATAAAGAACTTATGAATTATTCAGATAAACTAGATAAAGTTTTAAAGAGTGAATTGACTTTTCTAATAGAAATGGTTCGTAAAAAGGAAAGTCCTTTTGCCAAAGGAATAGTTGAACACTATTACGAAATATACAAAAAATTAAAAAAGAAGTAATACTTTTAAAACCTTTGCATATCATATAAAGAAAAGAAATTAAAAATAATTTCTTTTTTTGTTGACATTGGAAAAAATACTTGTTATATTAAAGGAGCGCATTTAACGAAAAGTGTCAATAAATGCCAAACCAATTTATCAAATTGAGTGTCAACTAAATTTTATTGACAACTATATATAATAGGGCTTTGCGAGATTTTTGACAAAATTTTAAAAAGTAAATTTTATGTCAAAAAAAAGTAAAAAAAGTCTTGACAAGTCGAATTATATTTGGTATATTGGTAACGCACTGCAACTTTCGGCAGTGGAATGATCTTTGAAAACTAAGCAAAACGTCAATTTATGAGTAGCTAGGATAAGATTTTTTTATTATGATTAAAACACTTTAAGTGTTTGAATTTTATTTGAGAGTTTGATCCTGG
>sequence09
AATATGATGATCTAAAACTGATCTAAAGCCTTTCTTTGAATAATTTTTAAGAAAAGAAAAACTCGTGTTTTCCCTTTATTCATGGGACTTTACGAGTTATTTACCACAGCATTGCTTATACTTCTTACCACTGCCACATGGGCATGGATCGTTTCTTCCTACTTTTTTTACTCTCTTTGGTGTTTGTTTTTTTGCTTCGCTCTTATCTTCGTTGGTATGCTTATTTTTAACTACTTCTTTTCGTTCAATATTTTGTCTTATTTCCGCTCTAAGTAGGAATATGGATACATCTCTATCTATTTTTTGTAACATAGCATCAAACAGATCATTACCTTCCATAGTATATGCTCTTAATGGATTATCTTGAGCATACCCTCTTAGACCAATACCTTCTCTTAAATGAGACATAGTATCGATATGTTCCATCCAGTAATTATCTATTACTTGAAGTGTAATTGCTTTTTCAAATTCATCTTTAATCTCTGGATCTATTTCAGCTAATTTATCTTCATATTCCGCTATTACTTTCTTAGATAATTTATCAATCATTTCTTCTTCTGATAAGTTTTCAATATCTTTTTTCTTAATATCTTTTCTTAGTAAGTTTTCATTAGCAAACTGTACTATTTCAGCTAAATCTTCTTCAGTTAAATATCCTTCAGGAGCTACATGTGATCTTACTAAGTCCTCAATATGTCTTCTAAATCCATCTAATACTGCTTCATGAATTGATTCAGTATCTAGAATTTTGTTTCTTCTGTCATACATGTTTTCTCTTTGAATATTCATAACATCATCATATTCTAGCAATTGTTTACGAATATCGAAGTTGTTTCCTTCTACTCTAGCTTGGGCTGTACCAATTGATTTAGTAAAGGTTTTACTTCTAATAGCTTGGTCTCCAATACCTAATGATTGCATCATTGTTTTTATTCTATCTGATCCGAAACGAACCATTAGATCATCTTCCATAGAGACAAAGAATTGGGTATAACCTGGATCTCCTTGACGACCAGAACGTCCACGTAACTGGTTATCAATACGTCTTGATTCATGACGTTCTGTACCAATTACACAAAGTCCACCTAGTTCTTTAATTTCATCAGATAACTTAATATCAGTACCACGACCAGCCATATTAGTAGCGATAGTTACTGATTTATGTTGTCCTATCTTAGATATGATTTCTGCTTCACGAGCATGGTTCTTAGCATTTAATACTTCGTGTGGTATTCTTGCTTGTTTTAATAATCTACTTATAAGTTCACTTGTTTCGATAGCTATTGTACCTATCAACACTGGTTGTCCTTTTTTATAGTACTCAGCTACAACATTAATAATTGCTTTATACTTTGCTTCTTTACTAGCATAAACCAAGTCAGCAGCATCAACTCTGATAACTGGTTTGTTTGTAGGTATTTCAATAACATACATATTATAAGTACTTCTAAACTCTTCTTCTTCAGTTTTAGCAGTACCAGTCATACCAGCTAATTTCTTATACATTCTGAATAAGTTCTGGAAAGTAATTGTCGCTAAAGTCTTAGTCTCTTCATTTATTTGTACTCCTTCTTTAGCTTCAATAGCTTGATGAAGTCCATCGGAATATGCCCTTCCTTTCATTAAACGACCAGTAAATTGGTCAACAATTATTATTTCTCCTTCTTGAACAACATAGTCAACATCTAACTTCATTGAATAATTAGCTCTTAGGGCTTGATTAATAAAGTGGACTAAAGTTGCGTTGTTTATGTCATATAAATTGTTTATATTAAACATTTTTTCTGCTTTATCGACGCCATCTTCAGTTAGATTTACACTCTTTGTCTTTTCATCATAAGTAAAGTCTTTATCTTTAGTTAAACTCTTAGCAAAACGATCAGCATCATGATATAGAGATGCATTATTCATTTGTCCACCCGAAATAATTAATGGTGTTCTTGCTTCATCGATTAGGACTGAGTCAACCTCATCAACAATAGCAAAGTTAAGTGGTCTTTGGACTCTATCTTCACTTCGCACAACCATGTTATCTCTTAGATAATCAAATCCAATTTCATTATTAGTTGAATACAGAATATCACATGCGTATTGTTCTTGTTTTTCTCTTGGATTTAGATCTCTTGTGTTAACTCCAACAGTTAATCCTAAGAAACGATGAATACCACCCATCCATTCAGCATCACGAGCCGCTAGATATTCATTGACAGTTACAATGTGTACACCTTCTCCTGGTAAGGCATTAAGATATGCTGGTAAAACAGAAGTTAATGTCTTTCCTTCACCAGTTTTCATTTCAGCTATATTACCATAGTGAATAGCTAAAGCACCTAATAACTGAACATGGAAAGGTTTTTCACCAATAACACGATATGCCGCTTCTCTAGCGGTAGCAAAAGCTTCTACTAATATATCTTCAAGAGTTTCCCCGTTATGTAATCTTTCTCTAAAGATCCCTGTTTTCTCTTGCAATTCAGTATCAGTAAGCTTTCCATATTCTTCATCTAGTTCCTCTATCTCATTAGCTAGTTTTTCAAATCTCTTTAATTCTTTATATTCGTGATCTAGCATTTTTAATATACTCATATCATCACTCCCTGCTAAATATTATATCAAAAAAAAAGAGATTGTTAAAGCATCTCTTATTTTTTCTAAATTAATTATTTTACTTCTACAGTAGCTCCAGCTTCTTCAAGCTTAGCTTTGATTTCATCAGCTTCAGCGCTAGGAATATTTTCCTTAACAACACCATTAGCATCAACAATGTCTTTAGCATCTTTTAATCCAAGACCAGTAATTTCTTTAACTACTTTAATTACTGCTACTTTAGCAGCTCCAGCATCAGCAATTGATACTGTTACTTGTGAAGGTGCAGCATCTCCAGCAGCATCTCCAGCAGCAGCAGGTGCAGCAGCAACTGCTACAGCAGATGGATCTACTCCAAATTCCTCTTTCATTGCATCTACTAATTCTTTAATTTCTAATAAATTCATTTCTTTTAAAGCCTTGATAAAATCATCTTTATTTAATTTAGCCATTTTATTTCCTCCTTATTTTTATTTTATTTTTCTTCTTCAGAAGATTCTTCTTTTTCTTCTTTTGGTTCCTCTACTGGAGTTTCTTCTTTTTTCTCTTCTTCAGCTGGTTCTTCAGCAGATTCTTCCTTTTTCTCTTCTACTGCTTCTTCTTTAGCTTCTTCCTTAGGTTCTTCTTTAACCTCAGCAGGAGCATCTCCTTCTTTTTGTTCAGCATATAGATTTAAAGCAATAGATAGATCTCTTACTAATCCAATCATTCCACCAGCTAACATAGTTAGTAACTCATCTCTAGATGGTAATACTGCGAACTCTTTTAATTTGTCTAAATCAGCTTTTTCTCCATCAATGATTCCTACTTTTAAAGTTAGAGCTTCATGTGTCTTAGCAAACTCAGCTAGAACTTTGATTGGCGCTACTTGATCTTCACTAAAAGCAAAAGCGCTTGGTCCCTTAAGTTCATCATTTAAATCATATTTTAAATCATTGAATGCTCTAGCCATTAAAGTGTTCTTATAAACTTTATAGTCAGCATTAGCTTCTCTAAGTTTATTTCTTAACTCTTTAATTTCAGCATCAGTAAGACCACGATAATCAAATAGTACTACTGTTGTGGAATTATCAATCTTATTCTTAATCTCTTCAACAATCCCTTGTTTTTGTTTTAAGACTGCTTCACTTGCCACTTTTTCACCTCCTATTATAAGGTAACCATATTAAAAGATCTTTTCGCATAGACAAAAAGACCTTTATTTACTACTTTAGTCCTCGGTAGGATTTACTTTTATACCTACTGTCTATGGCACCAACAAATTAAATTTATTATATATTAATTATTATTATTTGTCAAAACTAATTTTATCTATTTTTATTCCTGGACCCATAGTTGTAGAGATAGATATGTTCTTAACATATTCTCCCTTAACACTAGCTGGTCTAAGTTTTAAAATAGTTTCAACAAAAGCATCTAAGTTAGCAATTAAATCTCCTTCTTTGAAAGACGCTTTACCAATTAGAGCATGAACATTTCCAAAACTATCAGTTTTATATTCAACTCTTCCAGATTTAGCTTCCTCAACAGCTTTAGCTACATCAGGGGTAACAGTACCAGTCTTAGGATTAGGCATTAAACCTTTTGGTCCTAAAATCTTACCTATTTTACCAAGTAAAGGCATCATTTCTGGAGTAGCGATAATGGTATCATAATCAAACCAATTCTCTTTCTCAATCTTTTCGATCATATCAGTATCACCAACGTAATCAGCTTTAGCTTTCTTAGCAGCTTCAGCTTGGTCTCCTTTAGCAATTACTAATATCTTAATGTCTTTACCAGTTCCCTTTGGTAGAGCAATAGCACCACGAAGTTGTTGATCAGCTTTCTTAGTATCTAAGTTAAGACGCATAGCAACTTCAACAGTACTATCAAACTTAGTTGTTGCGGTTTCTTTAACTAATTTAACTGCTTCTTCTTTAGTATAAAGTTTGCTTCTATCAATTTTTTCTAAAGCACTATTATACTTTTTGCTTCTTTTCTTCATTTTATTCCTCCTTATGTGGTAATAGCGGTTTTACCTTCCACTAGGGCTAGCCTAATTATTCTCTTCTTTTGTTTCTTCTTGTGGTTGCTCGTCAGCATTTTCAGCTGGTGCAGCTTCTTCAGCAGACTCTTCAGCAGCTTTCTCTCTCATTTCCTCTGCTTCTGCTTCCATCTTCTCTAATGCTGCTTGTTGTTTAGCCATTTCTTTTTCATGTTCTAGAGCTTCTTGAGCTTGTGCAGCCAATTCAGCATCATTAACACCTTTAATGGCAATACCCATATTACGAGCAGTACCTTCTACTATCTTCATTGCTTCTTCAACATTATAAGCATTTAAATCAGGTAATTTGATTTCTGCAATTTCTCTGATTTGATCAGGAGTTAGAGTAGCTACTACTTCGTTAGCTCCTTTAACAGATCCTTTCTTAACCTTAGCATATTTTTTAAGCAAGAAACTAGTAGGTGGAGTTTTAACTACAAAGTCAAAACTTCTATCTTCATATACTTTAATCTCTACTGGTAAAATATCACCCATTTTATCTCTAGTTGCTTCATTGTACTTAGTACAAAAATCTTGTAGATTGATTCCAGCTGGTCCTAAAACAGTACCTACTGGTGGAGCTGGTGATGCCTTACCTGCTTCGATTTGTAATTTGATTACATTTACTACTTCTGCCACAAAAACACCTCCTATATAATTTGTTTTTCTGGAGTGGTCCTAACAGCTTTGCTTCCGCTATAGCAAGCTAAACTTCCCACTTATCTATATCAATTAAATATAGCCCTTAAATAATAACACAAAAGTCTTGTTTTGGCAACTTATTTATGCTTTGTTTTTCTTTTATTTTTAGTGATTTTCTGATTAAGTCCTACAGAAAATCCTCTTTTATATTCTCTTTCAGCTTCTAAACCATAAGCCTTTTCTATTTTTTTAGCTAATTTAGCATAATTATAGCGAGTTTCTTTTCCTTTAGCTAAACCTAATTTATAGAAATCCTCTGTTTTCATTATTATACCTCCAATATAATATTATGCTTTTTGGATTTGACTTAATTCTACTTCTACTGAAGTTTCTTGTCCAAATAAATCTACTATTAGATTAATCTTATTATTAGGCAAGTCTAAAGAGTCTACTACACCAGTCATACCCTTGAATGGTCCATCAATAATATTAACTTTAATTCCTTCTTTTAGTTCTTTATCAACATCCATTCTACTCATACCCATATTAGCTAGAATCTTATCTACTTCATATGGTTGTAGAGGGGTTGGTTTTGCTCCTTTACCACTAGATCCAATAAACCCAGTAACTCCTGGAGTATTACGAACTATATACCATGCTTCATCAGTCATAATCATTTCAACAATTATATAACCAGGAAACATCTTCTTAATCTTTTCTTTTTGAACTCCGTCTTTTACTTCAATTACTTTTTCTTCAGGAACAATTATTCTAAAAATGTAGTCCTCCATGCCCATAGATTCAGCTCTCATCTCTAGTTTTTCTTTAACTTTGTTTTCATGTCCTGAATAAGTATTAACTACATACCATTGTTTTTCCATAATGTCCTCCTAACCTAATAGCTCCTGAACTAGGGCAAATAAGTTCATTATTACGTAGAAAAACAATGCACAAAAGACAATAAAGCAAATGGTAGCAATAGAATACTTAACCATACTCTTTCTATCTAACCAATGTACTTTTTTAATTTCACTACGAACTCCTTTAAAGAAGAGAATTATTCTTGTTATTAAATTCTCCTTACTTGTAGGATTACTCTTAGTGTTATTTTCTTTTTGTACTGGTACTTTCTTTTGATTATTGTTGTTTCTCTTTACTTGTTTTTTGGCCATATTACATTCTCCTTTTTTCCAAAATAAAAACACTTCCTGTGCCTACATATAAAATAGCACAAAGTGTCTTTATTGTCAACATATTATTATTCAGATTCGATTATACCATAACCATTATCTTTTCTTTTATAGACAAGAGCTGGTTTGTTAGTTTCACTATCTTTATACATAAAGAATTGATGTCCTAGAAGTTCCATTTGAATAATAGCTTCTTCTTCATCCATTGGTTTAACTTCTATTTTCTTTCTCTTAATTACTTTCTCTTCTTCATCTTCGATATCTTCAATAGCTCCAAAAGTAAAATCAGGTACATTTTTTTGCTTAGAAGCTAGTTTTGTTTTATTCTTTCTAATCTGTCTTTCTAATTTATCTACTGCCACATCAACTGCAGCATATACATCTTGCTGTTTCTCTTCACTTCTTAATATAAACGATTTTAAAGGGATGGTTACCTCTACTATTTGATAGGGATTCTTAATTTTAACAACAACTGTAGCTCGGACATTATCACTATCTTCTAGATATTTATCTAGTTTAGATAGTTTCTCCTTAATATAATCTTTCATTGCATCAGTTATTTCTAGTTTATTACCATGAATAACTATTTCCATATTCATTCCTCCTTATATATTCATCATATCACAAAAGAAAGAAAAAAACCACTAGTTTACAGCGGCTAATTCTTTGACTAGTTTTACATTATGGGCTTGAAAACCTTTATCTGTATCAATCAAATCAAACTCTACTAATTGACCCTCACTTAAGGTTTTATAACCATCCTGTTCTATGGCACTATAATGAACAAAGATATCTTCTTCAGCTTTATACTCAATAAAGCCATAACCCTTCTCATTATTGAACCATTTTACTCGTCCAATCACTTTTCACATCTCCTTCTTGAATATTCTTTATCAGTTGCGCAACTAATGTATTATCATTTTAAACAATAAATAAAAGAAATGCTTTTCTTTTCCGTAAAAGGTTTCTTTCTGGCAGTTTTTGGTAATTTTTTCAATCTTTTCGACAAAATTCGACTGATTCTAGTCTCTTTCTATTCTTTAAAAGAATTTTTATAATTGCCTATTTTTTGAGTGATAAAATCGCCTTGAGAAGGTAAGTTATGAAAGATAAATTTATTAATAATTGTATTAAGTTAATTACTAAGTATAAACATTATTCTAAAGCTGATATAGCTAAGATGCGTTATGGATTAGAAGGGATTTATCTCACCTTCTATAAGATGATTATATTAATTGTCCTTTCCTTTTTATTAGGTATTGTAAAAGAATTCTTCTTAGTAATTATCTTCTTTAACATTATACGCTTTACTGGTTTTGGCTTTCATGCTGAAAAGAGTTATCAATGTCTAGTTATTTCTATAATTGAATTTATATTGCTTCCTCTTCTATTACTTAGAGTTTATGTTCCTATTTATTTTTATTATATTTTTTCCTTTTTATGTATTCTTACTTATTTGTTGTATGCCCCTGCAGATACTGTTAAAAGGCCTCTTCCTAATAAAAGAAAGCGAGTAATCAGGAAAACTTTAACAGTAATTATAGGAATTATCTATCTTTTATTAATTATACTTGTTCCTAACAATACACTTACTGTAACTTTATTATCTGCCTTAATAATAGAAGCTATTTCCGTTAATCCTATTACTTATAAAATATTTAAGCAACCCTATCGTAATTACTTAAATTATAGTGTTTAATGCCTTGGCATTTTACATAATAAAAAGGAAAGGAGATATTAGCGATGAAAAGATTATCAAAAGTTTTAGCTGCTGTAGCATTACTAGCTACTGGTGCTGCTAGTTTAGGATGCCCATGGTGGATCTCTGATGAACCAAAGGCAAATCATTTATTTAACGACTAATTAAAAAGAGAAAACTAGTTTTCTCTTTTCTTTTTATCAACAATTATACTTTGAATATAATATTCTCCTATTATCTCTTGTTTACTAACTATCCACTTGTTTTTAGAAATTAATTTATTGGCATAATAAAGTCCGTTACCATGTCCTTTTCCCTTGGTTGTTATGCCTTTTTCATTTCTTCTGTCAAAGTTAACACTTTTCTTAAAAGTATTGGAGATTACGACGTTTAGTTTTCCTTTAATTTCATATATCTCAAGTGCTACTTTCTTTTTCGTGGTTTCCCTAGCTGCTTCAATCGCATTATCAAAATATACTCCAATTAATTTACATAATACGCTGTTCTCTTCATCAGATAGCTTCTTTAATATATTGTTCTTCTTAAGTTTTATATCAACAGTTAGATTTATTGCATTTTTCTTAGCAATGGCTGCTTTATAATACATTAGTCCCTTCATTCCGCCTTTGGGTAAGTTTTTAAACTCACCTACGTTTTGTTCGTCAGGAGATAGATCCTCATTTAACAACTCTTGAATTTTCTTTTTAACGGCTTTCTCTTTAGTTAGTCCATTTATTACTGATAGTTGGTTTTTATATTCATGCTTATTAAACTCTTCTTTTTCAACCCTTTCCTCGAAGGCTTGAAAATACGTTAGCAAATTATCATATTCGTCAGTTAATTGACTGTATTTGTTGCGATTATTTATATGAATAATTATTAAAGTCATCAGAATCACTACTATAACTATATCAGCAACAACCCGATTATTGAGTGTATAATTTCTATAAATACTATATGCCAATATGCATGCTAGAATAATTGTTAATAGTAAAAAGGCGATATTAGTAATTGTACTTTTCTTTTGGGCATTAGTGTAAAACCTTTGCAGCTTTTCCCTTAACCACCTTATTTTCAGTAATAGAATAGTTACTATACCAATAGCGATATTGGCAGGTATGAATACTTGCCAATTGTTTTGTAACTGTTTAACTGTTATCATAAAACTTAACGGAATGGTCACCAAAATATCAGCTACCAACATTAAAAGCATTAATATTGTTACTACTACTAAAGACTCATTAAAAGTAATATCAAAGATTTCTTTATATATAATAATGTTTACTACATATATTAATAAAGAACTAAATTCAATATATTGGTTCTGCCTAAAGAAAACAGTAATTGCAGCTTCAATAAGAAGTAATATTATTGTCTTTAAAGATAATACTCTTATCTCTGATTTTGTTATCCCCTTAATTAAATAAAAACCTACTATTGCTGTTATTAAACAGTTAATAAAGTTGGTTATAATTACTACCATCATCTCACTCCTTCTTATTTTTTTATAATTTTACCATATTTTTCCATTATCGTTTAGATATTAACATTAAAAAAACACAAGAATTATTTCTTGTGTTTAGTTAACTTTTTCTTTATTTTAGCAATTGTTTTAGGATTTTTATCTGATATAACACTCGTCTTTAGGACGAACCATAAAACAATTAATAATAGTATTATATATATTATTTTACCAACGAACGGATCTTTTAAAACATAGAAGATAGCCGCTATAGCAAATAATATATTTATTGTATATATTATTAAAACTGTTGTTTTTTGTGAAAAGTTCATGCCCAATAATTGATGATGTAAGTGCTGTCTATCTGGTGAAAAGATTGGTTGTCGTTTCAATGCTCTTCTAATAATAGCAAAAATAGTATCTAGTACTGGTATTCCTAAAATAAGAATTGGAACAAAGAAGGAAATAAGAGCTGTAGCTTTAAACTCTAATAAAGTTATTACTGCTATAATGAACCCTTCAAAGGTAGCACAGTCACCAGCAAATATTTTAGCTGGATAGAAATTATGTACTAAGAATCCTAGAGTAGATCCCAACATAATAAGAGTTAAAATCATAACTAAACTACCATAACGACCTTGGAAGAAACCAATTATCGCAATAGTAATATAGAAAATACTACAAACACCACCACTCAAACCATCAATTCCATCAACAATATTAATCATATTACAGCATGCAACAATAAAGAACAATGTAAGTGGATAAGATAAAATTCCAAAGTCAAAATTAAAGCCAAAGGCCGTAATATTATTTAATAGTATTCCTCCATAGAAAACTATTACCGAAGCGGCAATTAACTGGCATAAAAACTTTTCTCTAGCCCTAATCGAATGAATATCATCAACTATTCCAGTTAGAATCATAATGAAACTTCCGATTAAGATGGAATTCATTTGGACACTTTGTTCACCAAATAAAATGTAACCAAAGAGAAAACTTAAAAAGATTCCTAAAGCCCCTAGTTTAGGCATCGTTTTATTGTGAATATGACGATGTCCTTCATCTGCTCGAGGACGGTCCATAGCTCCAATATGAACAGCTACTTTCTTCATAATTGGCATAATAGCTGCGGAGAATATGAATGTCGTTAAAACTATTTCAATAACTTCAATTATTTCTCTTTTCATAAGTACCTCTCTTTATTTAATTATAGAATAATTACTTTATAATAGCAAATAAAAAAGACTAGTTTTGATCTTCTTCTAGTCTTTTAATATCTTCTAATAGAACTCCTGTTCCTTCAACTACACAAGTTAGTGGTGAATCAGCAATTAGAATTTGCACATTTAATTCCTTTTGGAAAAGTTCTGTTAAACCTTCTAACATAGCTCCACCACCAGTTAGAACGATTCCTCTATTTGCAATATCAGCTGATAATTCAGGAGGCGTTTGTTCTAAAACATTAGTTGCGGCTTTGATAATACGGAACAAGCTTTCATGCATTGCTTCCTCTAATTCCACTTGATTAATCTCTTCACTATGTGGAAGACCAGTTATTAAATTTCTTCCCTTTACTTCTACTTTTATTTTTTTATCTGGTTTAAAAACATTAGCGTGATTAATCTTAAGGTTTTCTGCTGTCTTTTCCCCAATTAATAATTTATACTTACTTTTAATATATTTAATAATATCTTGATCTAAGACATTACCAGCAATCCTAATTGACTCTGAAGTAACCATATCATTAAGTGATAAAACAGCAATATCAGTAGTTCCTCCACCAATATCAATTACCATGTTAGCCTCAGGCTTAGTAATATCCATACCGGCACCAATAGCAGCTACTTTAGGTTCTTCTTCAATATAAACTGCACGTGCACCAGTTCTTTCAGCTGCTTCTTTAATCGCATTTTTCTCAACCGGAGTAATATTTGTTGGACAGCATATTAAGATTCTTGGTCTAATAAATAAGCTTCGCGCTTTTATCTTCTTAATAAAAGTGTTTAACATTATTTGAGTAACTTCAAAATCAGCGATTACTCCATCTTTCATTGGTTTAATAGCTTTTACTTTACCAGGAGTACGACCAAACATTTTGTTAGCTTCTTTACCAACGGCTATTATCTTTTTAGTCTCTTTTTCCATAGCGACTATACTAGGTTCATTAAGCACTATACCTTGCCCTTTTATCCAAATTAAAACGTTGGCGGTACCTAAGTCGATACCAATATCTTTTGCCATTTAATCGCCTCATTTCTAATCACTATATATTCTACCATAAAACTTGTATTTTTATTTACTTTTTTTTATTTTTTTTCATATAAATAAAAAGGAACCTATTGTTGGTTCTTAGAACTTTTTATTTCTTTATTTAAATGGTCTTCAGGATTAACTATTTTACCATCAATATAGAGTTCATAATGTAAGTGATTACCTAGTTCTTCATCTAGTTTATTATGCCCACTTTTACCAATGATTTGTCCTGCTGTCACTTGATCTCCTTTTTTGACGTTTACTTCAGATAAACTTTGATAAATACTCATGTAATTATTATCATGCTTAATTTCAATAGTTTTACCTAAAAGTTCATCTTCCTTAACATTAGTTACTTCACCATTTTGAGAACTTATAACATCAAAAGTATTACTAGCAATAAAATCTATTCCTGAGTTTTGCATATAGGTATTATCGTTTTCAGTAATGGAGTTCTCTTGCTTAGTCTTATCTGCCTTATAATCATAATAGTATTTACCTATTTTAACATTAGAATCAGTATAGGGATTAAGTAATTTAGTTTCTTCTTTAACTACTGGTATATCTTCATTAGTAACTACTTTTGATGGTACATAGTTTAATAGCTCTGGTTCACTATTTCCCTTAAACTTTACTAGTACTAGATAAATTGCTGATAATAAAACGAACGCTAATACTAAAACCATTGTTATTTTTACTTCTCTTTTTAATGATATTCTTTTTTCCATTTGTTCACCTCTATTAAGAGTCTTTCCCAAATAAAAAAAATTATACATAATTATATAATTTTTGAATAAGTAACAAAATCCCAAATAAAATTAGTAACTAAATAGACTATTGATACCGCCAAAAGAAAATAAAATACTAATGCTTGATAATGTCTATTCTTCTTAAATATCTGATTAATCCGAACAGCTTCCAATGACCAAATAGTTAGGATGCTGACTGCTACATATAGCCAAACCTTAGCGCTCATATTCTCCTCGCTCATATTTAGTTATCTTATCTATTCTTTTTTGATGTCTTTCTTCATGAGAAAAATCAGTGTTTAAAAATGCTTCCACTATTTCCAAAGCGTCTTCCTGATTAGTATTTGCAGAAAGAGCAACGATATTAGCATCATTATCTATTCTAGTATATTTTGCTTCTTCTATATTGCTTACTTTCGCACAACGAATTCCTTTTACTTTATTACAAGCAATACTAATACCTATTCCTGATCCACAGATAGCAATACCATAATCAAATTCATGATTTGCCACCTTCTCACCTAATAAAAATGCAAAATCAGGGTAATCAACACTTTCATTAGTATCTGTTCCTAAATTAACTACTTCATATTCTTGAAGTCTTTCTAATAAATAATTTTTTAATTCTACTCCTCGATGATCATTTGCAATTCCTATTTTCATTTTATCACCAACTTCATTATACCATTAAGCAGACAAAAAAACTAGTTTTAACTAGTTTATTTTCTTCTATCTATTTGTATATAGTCGGGGCCACACCAACATGTTATTCTGTGTGCTCCTATTGTTCTCTCAATACTCAAAGAAAACAACGGTACTATGCAAAACCAAATTAATACTGCTAACAATATATGTTTAGCAACTATAGCAAAGTTTAGCCCCAAAGTATTATTAGATTTAGCCACTTTTAAAAAACCAACTATGATGATTATAATACATATAATTCCTAAAACATAAATTCCATAATCTTCTATTTTTGCAGCAGTCGCATATTGTCGAAAGGCACTATAATTTCTGAAATTTCCTGTTCGAATAATAACTTTAGGCTTAATTGTAGCTAGTAAACTGATAATACAAGCACTTGCAACAGCACATAAAAGAATAATCCCTATTTCCCTTTTTTCCTTTTTTAAGGTTGTTTCTTTTTCTAAATGCTTTTTCATCTTATCACCAGTTTAATTATATCATTAAGCAAACAAAAAAACTAGTTTTTACTAGTTTATGCTTGTTTTTTATCAAATCCATATTTTTTATTGAATTTATCAACTTTACCTGCTCTTGATGCTCTAGTTTGTTGTCCTGTATAGAAAGGATGACATTTAGAACATACTTCTACATTAATCTCAGGCTTAGTAGCCTTAACTGTAAAAGTTTCTCCACATGCGCAAGTAACTTTGCAATCCATCATTTCTGGATGTATATTTTTTTTCATATACTCCTCCTTCCGCCATGACTTAATTCAAGTCATAGTAATAAACCGTGTTATTAATATATCACTATTTGTCTTATTTTTCAAGCTTTTTTATTATTCTTTTGCTTATTTCCTTTTCGTAAGGACCTTTTTCTAATAGATTATTAGTTTCAATATAATACAGTTTTGGTATCCTTTTTGCCTCTTTTCGATATAACCTATTAATGTCATTAGTAACATCTTGATAGGTATTTTTATTTTCTATTTCTAGTAAATAGATATCTCTTTTATAATACTTTCTTATTTCTTTTATTAACTCTTCTATATTCGTTTTAATACTATTTTTTATTTCTTTGTTACTTTTTCCTTTACCTTTTAAGTATAGGATATTGTTTTTACCAATTGAAATAGTTAAAATCTTGGCTTCCCTTAAATCCTTTTTTAATGAAGAATTGCTTATTTCATTATAAATATCTTCAATTAAATAGTCATCACTGGTATAATTATTAAAATTCTTTAACTTGTTCTTTTTTCTTAAATAATTAGTAATATAGTCATAATAATGATAAGTTCTATTTTCTTTATAGTTATCTCCTAAATCAAGATATTCTATGGGAGGATTAACATTAATATATATATAATAAATCACTATTAAGAATAGTGATAGAGAAAATAGTTTTACTTTTCTATTCATTTTATCACCGAAAAAAAAGAAATATATTACATTATATTTCTTTTAGCTCTATTTTAGCACCGACATTGGTTAATTTTTCAACTATTCCTTCATATCCTCTTAAAATATGTTCGGCATCTTCTATTTTGGTTTTACCTTCTGCGATTAAGGCCGCTACTACCATAGCTGCACCTGCTCTTAAGTCTGTAGCTTTAACAGTTGTTCCTACAAGAGGAGTCTTACCAACAACTATTAGTTTTTTATCTTTAACTTCCACATTGGCACCTAGCTTCTCTAAATATGGTGCATGCATAAAACGATTTTCCCAAATAGTTTCTTCAACAGTTGATTTTCCTTCGGCTTGAGTTAACAATACCGTAAATGGTTGTTGAAGATCAGTAGGAAAACCAGGATATACTCTAGTAATTATGTTAGTTCGATGGTAGTTTTCACCCTTAGAAACAACGACATAATCATCTCCTATTTCTAAAGGAACTCCTACTTCATCTAGTTTAGATAATAGTGATTCTAAATGTTCAGGAATAATATTATCAATTTTTAGGTTTTCACCAGCCAAAGCACCAGCTATTAAGAATGTTCCGGCCTCAATTCGATCTGGTATTACTTCGTGGAAAGCTCCATGAAGAGATTCCACTCCTTCAATTCTAATAGTAGAAGTACCAGCTCCAGTAATTCTAGCACCCATAGAGTTTAAGAATACTGCCACATTAACAATTTCTGGTTCTTTAGCAGCGTTATCAATAATAGTAGTTCCTTTAGCTTTAACAGCTGCTAACATAATATTAATAGTAGCTCCAACACTGGCAATATCTAAATAGATATTATTTCCTTTTAATTCATCAGCTTCCACTGTATATTTATTACCATCATTAGTTACTTTAGCACCTAAAGCTTCAAATCCTTTTAAGTGAAGATTAATTGGTCTTTTACCAATTGCACATCCGCCCGGAAAATACATAACTGCTTTTTTATATTTAGCTAATAGTGCGCCCATAAAATAATATGAAGCTCTCATTTTTACCGAAAACTCTTCACTAATTTCCACGTTCTTCATTTCTTGGGCATTTATTAGAACTGATTCGCTAGCTCTTTTGGTTTTAACATTTAGATGTTTCAAAATATCGCATAGATTATCAGTATCAGTAATATCAGGAACATTACAAATAGTAACATCACCAGTATCAGCTAAAATAGCCGCTGGTATTAACGCTACTGCGGCATTCTTAGCTCCACTTATACGTACCGTTCCTGTTAGTTTTTTAACTTGTTCTATCTCTAAACATTTCATATTTTCACTACTTTCTTCCTGTTTTTAACTATTTAAATAATAGTCAATATAGTTTGCTTTGTCAATTAGAAGAACGTCTTAGTTGACATTTCTAGATACTCTTTATTATATATTTTAAAGCCAGAAAAAACAAGATAATAACGCCTAATAAATTGGTTTTATTAGTAAGTTTTTCTCTGATCCTTTTACCAATTGATAATCCTAATACTGTAAAGAGAAAACTACAGACAGAAAATATGATACTAGCTAGAATAATATTTTCTTTTTGTAGACCTAAAGCTACACCAATAGAAAGACTATCTAGACTTACTGATAAAGAAAACAAAAGCGCTTCTAAAACACCCAAATTGTTATTTTTCTCCTCTTCATCTTTAACAATCATATCTACTCCTAAAATTAAAAATATAATTCCTGTGACTAGATCAGCATTAATATTAATATTTTTAGTTAGAAAACTAGTTGTAACAAAACCAAGAATGGGCATAAAGAAATGAAAAGAGCCAACTAATATACTTAAAAGGAATCTTGTGGATTTTCTAATGCTATTTGTTCCATATATTATAGATAAAGAAAAAGTGTCCATACTCAATCCGATTCCTAGAAATAAAAAAAGACGTATACTATTCATAGTATCACCTTTTATATTTTATTATTGAAAATATTTTTTTAGTATATCTTTTACTAGAAACTTATACTCAACATCATTAGCCTTATCTTTTTCTCCTTCTAATAAACAAAGTGGAGGAAATAGAACACACCAAAAATTCTTACCAGCACCATCACCTAGTTTTACTACTAATGATTCATATTGTCCGGCAGGATATTTAACTCCTTTATAGGTTTTTTCTGGAAAATAGTTCTTACCATAATTAATCTGGTAATTATCATCTTTTGTTACTTCTTTTATGTTTAGAGATAAATCTTTAAAATTACTTCTAATGTTTTCCCTCACTTCATTAATATCTCGAGCTTCTTTAATTAAAGGGAATAATTCCTTAGTAAGATTCCTTTTCACTTCTCTTTTTAAAGACTGATCCGCTTCGTTATTACTGCTGGCAATTACTCGTAGTCTAATAGCTTCATTAGGAATAACTATATATTCCTCACTATTGTATTTTAAAAGGGAAGCCATTCCTACTATCAAAGCCATTACTATTAGTTTTTTCATCTAATCATCCTCTCAATAGAATAATGATTAGCTTTATTTCATTTTATTCATTATAGATAAAAATCATTCGATCACGTTCTGATAAATCTTGTAAAACATCAATTCTTACTTTATCAAAAGTATCATTAATTATCTTGATAAGATCTTCTTTTTGGTCTTTACCAATTTCTAAAGCTATTAAAAATTTATCATTTATATGTTCTTTAATATCTTTAAAGATCTTTTTATAGCAATCAAGTCCATCAACACCAGCAAAAAGGGCTAGCTCTGGTTCATTGTTTTTAACGATGTCTTCTATTTCTTCTCCATCCTTAATATATGGAGGATTAGATATAACTACATCATACTTACCTTCTACTTGATCAAAAAAGTCACTTTTATAAATATTAGCTTCTAGTTTTAATTCTTCAGCATTCTTCTTAGACATTTCTAACGCACTAGGACTAATATCGATTAAGTCTACTTCAGCATTTGGTAGTTTTTGCTTTAAAGTTAAACCAATATTACCACTACCAGATCCTAAATCAATTATTTTAACTTTTCCTTCAAATAGCTTATCAATATACTTTAGGGTGTTTTCTACTAGTTCTTCTGTTTCAAAACGCGGTATTAAAACGTCTTCATTGACAAGAAACTTATTACCATAAAAATTGACATTTCCAATGACATATTGAAGAGGCTTTCCTTCTTTTATAGCTTCTACTCTTTTTTTATATTCATTAGCTATCTCATTATCAACTGAACTGTTTAAAAAGTTTAATAATTCTAACGGGTTTTTATTTAACAAATCAGCTAAAAGTAATTTAGCTTGATCCTTATGAATATATTTTTGAGCATGAACTAACAATTCATCAACAGTCATTTTATTCTTCTCCAGCTAATTTTCTTTTTTGGTCTTCAGCGATTAAGGCCTCAATAATATCTTTAAGGTCACCATCCATAACACGATCCAATTGCTTAGTAGTAAATCCAATCCGATGGTCAGTTACTCTATTTTGCGGATAGTTATATGTTCTGATCTTCTCTGCTCGATCTCCAGTTCCAATCTTACTTCTACGTTCTTTACCAGCTTCTTCTTCTTGTTTTTGTATTTCTAAGTCATAAAGTCGGCTTTTAAGTACTTTCATTGCTTGTTCTTTATTTTGAATTTGACTTCTTTCGTTTTGACAAGTTACAACCAATCCTGTTGGTAAATGGGTTATACGAACAGCTGAGTCAGTTGTATTTACTCCTTGCCCACCACAACCGCTAGAACGATAAATATCTATTCTTAAGTCATTAGGATTAATATCAATATTTACTTCATCATCAGCTTCAGGCATAACTAAAACAGTAGCTGTAGAAGTTTGTAAGCGGCCATTAGATTCAGTAGTTGGTACTCGTTGAACACGATGTGATCCACTTTCATATTTTAGCTTGGAGTAAGCACCGTCGCCTTTAACTAAAAACTCTATTTGGCTATAACCACCAGCTGTTCCCTCAATAGCATTATATACTTCTACTTTATAACCTTCTTTTTCAGCATATTTACTATACATTCTGAACAAATCACCAGCAAAGATATTAGCTTCATCGCCACCAGCTGCTCCTCTTATTTCCATAACAACATTCTTATTATCGTTAGGATCCTTTGGGATTAGAAGAAGTTCTAGTTTTTTCTCTAAATCTCCTTTCTGCTCTTCTTTAGCAGCAATCTCTTCTTTAGCCATATCTTTTAAATCAGGATCATTAAGAATTTCTTTAGCTTGTTCTATTTCTTCTAAAACTTTTTTATAATCATTAAAACAACTAACTGTTTCTTCTAGATCACTTAGTTCTTTGGAAATCTTTTTGGTTTTATTGACATCTTTTAGAGTCTCTTCATTAGCTAGTTCGGCACTTAAATCATTATAGTGCTTTTCAATTGTCTCTAATCTCTCAATCATAGTGTTCTCCTTTCCTAATACTTAAAAACTAGAAATATTATTCCATTTCTAGTTCGTCTTCATCTATTACTACTAAATCTTTCAAGTCATCATCACTTTCAGCATCATCGTAATCATCGTCATCATCATAATTGTCTTCAACAATTTCATCTTCAATGATTTCATCCGTTTCTTCATCTTCTTCATCGGTAGTGATTTCTTCTTTCTTTATTTTGTCAGATGAATAGCGATTTTTCAAATCCCACTTTCCGTTATCTAATAAAACAAATCTCTTATCAGTCGAAAGGGCCATATAGTAGTCCCCAATTTTTTCATCGAAAGTCTTTTTAGGTAGTCCTAACAAATCTATTATTTTGTTAAATAAATCTGCTGTACTCATGGGACGAACTCTATTTTCTAGAATTAGATTAGTAATATCTTTTTTAGACATCAATTCTAAATCTTCTCTTTTATATCCTTTAATTGTCATAGTATGCCTCCTACTCCATAAGCATTATATGCATTTTAATTTATTCTGTTCGCAAACAAAATATCACTAGTTTTATATCATAAATGCTCTAACAATGCAAGTATTATTCTACATTTTTTCTGGAATATTCATACCTAAAATATCTAAAAGTAAAATTACTGTTTTATAAACTACTGAACTCAAAGCTAACCAAGAAGTTTGCAGATCCTTGTCAGGGCAAGTAATTATCTTGTTTTCAGCATAAAAACTATTATAAGTAGCAATCAAATTGTAAACATACTCACAGATATCATTTAACGATTTAACACTGTAAGCTTTTTCTAAAACTTTAGGCATTTCTAGAAGCATTAACATAATTTTTCTGTCAGCAGCTCCAGAAATCTTGGTTATTTTTTCATAGTCGATACCTTCAGCCTTATTAAGAAGACTCTTTATCCTAATAGTTGAATATAGTAAGTAAGCTCCTGTTTTACCATCAAGATCCGCAAATTTATCAGGATCAAAAACATAATCAGTTCTTCTAAATGGTAACAAATCAGCAAACTTTAAAGATGAAATAGCAATATCTTTAGCGGTTTGTTCCCTCTTGTTTTCTTCTACTATTTCCTCATTAATTCTTTTATCAGTCTCAACATAAATCAATTGCATTAGTTCTTTTAGAGTCATAACTCCACCATCACGAGTCTTAAATGGTTTACCATCTTTACCATTCATTGTTCCAAAAGGAATAAACTCTAAAACAGTATTGTTGTTAACTATTTCTCCTAGACGAGCTGCCCTAAAGACTTGCTCAAAATGAAGAGTTTGTCTCTCATCGGTTAAATACCAGATTTCATCAGGATTAAATTTCTTCATTCTCTCGTAGATAGTAGCTAAATCAGTCGTTTCATAAGAAACTGTTTCGTTAGATTTAACCAATAATAATGGCGGCATTGGTAGTTTGTCATCTTCCTTTTTTACCTCTATTATTTTAGCTCCTTCGCTTTCTTTAACTAGATTCTTATCTTCAAAAACTTTAATTGTATCTTCAATATACTCAGCAGCATCGCTTTCGCCTTCCCACAAATCAAAGTCAACATTCAATTCGTCATATACTTTTTTGATATCTTCTTTACTAATACCAATAATTTTTTGCCATAATTCATAATAACCTTTTTCATGTTTCTGTAGTTTTAAAGTTATTTCTCGTGCTTCTTCTAAGTAGGTTTCATCTTCTTTAGCTTTAGCTGAGGCATAAGGATATATTTCTTCTAAATCAGCATTGGTAATTGGAAGATCAATATTATTATAATCTCCTTCATAATTCTCGTTAAAGAATTCTAAATCAGGAAATCTTTTCTTAATCTCTAAAATTACTAATCCAAGAGGTCTTCCAAAGTCTCCTAGATGAGCATCACTAATGACATTACAGCCTAAAAGACGAGCTAATCTCTTTAGGGCTTCACCTATATTAGCACTCCGCAAATGTCCAACATGAAGTGCTTTGGAAACATTGGCACCTCCATAGTCCATAATTATTTTTTTAGAAGAAACTTTATCAATATTGTTCTCTATATTATCACTAATTCTATTAATTACCTCTTCTAAAAACTCATCAGTTAATGAGAAATTAATAAACCCAGGACCAGCAATATTAATATCTTTAAGAGCTTCATCCTTTTCTAATTCTTTTACGATACTCTCTGCTATTTCCCGTGGGTTCTTTTGAAATTTCTTAGCCAAATTCATACTGTTATTGATTTGAAAATCACCTAGATCTGGTCGAGCTGAGGTAACAATGCTTAGTTCTTCATCAAAATCTAAATCCTTTACTAATTCATTGACTCTCTTATTTAATTCTTTTATTATCCTCATACTTCCTCCTTTATCCGGATACTGTATTTATAATCTATGCCATTAACTTTATACTTTATAGTGATTGTATTCTTAGTTTTGTTAATCTTTTCTACTTGAAGATCTAAATACATTTCTTGATCTAGATCTTTAATTAAGACTTTGCCCTCTTCCTCGGCAAAGTTGTATTCTAAATACATTTCTCTATTATCTCTTTTTAAGACGTTAGTTAAAAAGTTATAGATAACGGAAGTTTTATACATGTCTTCTTCTTCATAGTATAATTCACTATCATCACTGCTGAAATCTCCTATTACATCATACGCTATCTTTTCATCGCTTGATAATAGTTTGACACTGATTTTCTTCTGCATAACGCCACCACCAGTTTTTTCTTTTTTATTATAACACATGTTCTTTAAAAAAGAATGATTTCTAATCATATTTTTCTTCATTTTATTCATACTAATTTTGAGGTGTGCTTGATGAAAAAAGGGAAAAAGATCTTTAAGTTTCTTATAATTATTATCTTTTTATTATTTATAGCTCGTGGTGGAGTCTATGTGTATGCTAAAATAACTCCTGCTCCTGTAATAAATAGGGCAAATAATTTAACCCTTTATGATAATAATAAAAAGGTTTTTTTCCAAGGTAGTGGTTCTAAAAAATGGATATCTTTAAATAAAATGTCCAAATATATAAAAGATGCCACAATTGCGGCAGAAGATAAGAACTTTTATAAACATCATGGTTTTGATTATTTAAGAATTATTAAGGCGTCGATTACTAATGTTTCTAATAAAAGCGTTGAACAAGGTGCTTCTACTATTACACAACAATATGCCAAAAACCTATTTTTAAACTTTGACAAGACTTGGCAAAGAAAATGGAAGGAAATGTGGTACACTATTGAATTAGAGGCTCATTATAGTAAAAGAGAAATCTTAGAGGGTTATTTAAATACTATTAACTATGGTCATGGTGTTTATGGAATAGAAAATGCTTCTAGGTTTTATTTTAATAAAAGCGCCAGTGATCTTACTTTGGCAGAAGCTACTATGCTAATAGGTATTCCTAAAGCTCCTTCCATTTACTCCCCTTTAATTAATAAGGAAAAAGCCAAGGAACGGCAATTAATAATTTTAAATAGTATGGTTAAGAATAAAATGATTACTAGAAAAGAAAAAAAGGAAGCTTATAATACTGATCTTATTTATTATGGTAAAAAAGAAAGCGAGGAATTATCGACAGTTATGTATTATTATGATGCTGTACTTGATGAATTAAAAACTATTTCTTCAATTCCTAAATCCTATAGTGATTCCAAGGGATTAAAAATATATACTTATTTAGATCGTAATAGTCAAATTAATTTAGAAGAATCCATCAAAAAAGAAATTCCTGATTCTTCTAAAATCCAAACTTCAGTAGTAATGATGAAACCTAATAGTGGTAGAATTATTGCTTTAGTAGGTGGTCGTGACTATAATAAATCTGAATATAATCGCGCTACTAGCGCTAAAAGACAAGTGGGTTCTACTATGAAACCCTATCTTTATTATGCTGCTTTAGAAAATGGTTTTACTCCTAGTACAACTTTTACTAGCGAAAAAACCACTTTCACCTTTAATAACAATAAGGATTATGCTCCCAATAATTATAATAATATCTATGGTAATAAGCCAATTTCTATGGCGACTGCCATTGCTTATTCAGAAAATATTTATGCAGTTAAGACCCATGTCTTTTTAGGTAGTGAAGCTCTTATTGATGTTGCTAAAAGAGTTGGTATTAATGAAGAATTGGAGGATATAACGTCTTTACCATTAGGTACTGAAGAAATAAATATCATTGATATGGCTAAGGGTTATTCGGCCTTTGCTAATTTGGGTAATAAGGTTTCTCCTCATTTAATAAAAAAGGTAGTAGATGGTAATGGTAAAATTCTTTATGAAGATAAACATAAGGGTGTTGTTGTCTTAAATAAAAGCTTATGTTTTATCCTTAACAACTTATTAACTTCTACCTATGACTCTAATTATATTGATTATAACTATCCAACAGCTATTAATTTAGAAAATAAATTGACTCATAAATACGCTTTAAAAAGTGGTACTACCGACACAGATAACTGGTATATTGGTTATAATAAGGATATTATTACTGCTGTCTGGGTTGGTTATGATGATAATAAAAAGTTGAAGAAAACAGAGTATAAATATGGTCAAAATATTTGGTTAAACAGTGTCGAAACTTATGAAAAAGGAAAGACCAATGAATGGTATAAAATCCCTAATAATGTATTAGGAGTATTAGTAGAACCAATAAGCGGAAGGCCAGCGATTGAAACAGATAAAAAGAAGAAGTTAGTTTATTTTATTAAAGGAACAGAGCCTGAAGGAGAACTAATTACTACTTTTGAAGAAAAACTAAATAGAGACTTAGTTAAAGCTAGTTAAAAGGACCTTTTCACATTGCATTCACCCCAATACATTGGTATAATGATTATAGTAGAGGTGATGACATGTTAAAGTATATTATTATAGCGGCTGTTATTGTTATTTTATTAATAGTTTTATCTTTTATTTCATCTAAAAAGAAGATAGAAAGAATTATGCTTAGTGTTAATGAAGCTATTACTAATATTGATGTTCTATTAAAGAAAAAATTAGAATTATTAAAGACTTTAGAAGGGTTGGTTAAAGCTAAAATTGATATTAATGACTTAAATATTGATTTAGAAAAACTAGAAAAAGAAGAATTAGATGCTTTTCAATTAAATGATCGTCTTAAAGATATTCATAACGATTTATTTAAAGCTATCGATATGAATAAGAAAGTAAACAAGAACAAGAAAATTATAGATTGTTTAAATGAACTTAATGATAATGAAGAAGATTTGTTTGGAGTTTTAAAATTCTATAACGATAGTGTTGTTGAATATAACAGAATAATTTCTTCTTTTGGTTCTAGATTACCAGCTTTATTATTACGATTTAGAAAACTAGAGTTTTTCTCTAATGAAAAGAGAGAAATATTTGAGATTCTTAAAAATAAATAGGTGATAGAATGGCTTATATTGAAAGATTAGAAAATTTAGTTCAGGGTAATGTTAAAACCATTGTATTGCCTGAAAGTGATGATGAAAGAGTTTTAGAAGCAGCTAAAGTCATTGAAGAAAAAGGTCTAGTAAAAATTATCTTATTGGGTGAAAACTATCTTAATCCTAGTACCTATAGTGATATTGATTTAATGGCTTCTAAACTAGTAGAAATCAGATCTGGCAAGCTTACTCTTCCCGAAGCTAAAGAACTATTACAAACTAATTATATGTATTTTGCTATTATGTTAGTGGTTCTTGGTAAGGCTGATGGTGTAGTATCAGGGGCAAGACATTCTAGTAGTGATACATTGCGTCCAGCACTACAAATTTTAAAAAAGGAAAGTATTGCTTCCTCTTTCTTTATTATGGAAACTAATGATCATGATTTGGGGGAAGATGGTATTTTACTTTTTGCTGATTGTGGAATGATTCAAGATCCTACTAGTGAAGAATTAGTTACTATTGCCCATGACAGTGCTGAAAGTTTTAAAACTTTAGTTGGAGCTACTCCTAAAGTGGCTATGCTTTCTCATTCTACTCTAGGTAGTGCTAAAGGTCCTTTAGTAGATAAAGTTATTAAAGCAACTACTCTATTTAAAGAAAAATATCCTGATGTATTAGTTGAAGGAGAATTACAAGTAGATGCTGCTTTGAACGAAGATGTTGCTAAAAGAAAGGGTGATAACATCTCTGGAAAATCTAATGTTTTAATTTTCCCTAACATAGATGCTGGTAATATGGCGTATAAACTAGTTCAAATACTTGGTCACGCAAAAGCCTATGGCCCTCTAACTCAAGGATTAAGTCATCCAGTTAACGATCTTTCTCGTGGATGTAGCGTAGATGATATTATTACAGTAATACTAATTACTGCTTATCAAGCATTTTAAAGAGCCAACACTGTTGACTCTTTTATTTTATACTCCAATCTATTTCTTTTAGACCTTTACTCTTTAAATACTTGTTTGTTTTAGAAAAGGGTTTACTACCAAAGAAACCATTATAAGCTGAAAAAGGTGATGGGTGCGTTGATTCTATTATTAAATGTTCAGGATTAGTAATGTACTTCTTCTTACTTCTAGCAAAACTTCCCCAAAGAATAAATACTACTGGTTCTTCCTTTTTATTAATTGTTTTTATCACTTCGTCAGTGAATGTTTCCCAACCAATATTTTGATGAGAGGCAGGTTTATGTTCTTCAACAGTTAAAACTGCATTTAGAAGCAGAACTCCTTCTAAAGCCCAAGGCTTTAGTGAATTAGTCTTCCCAACTTTTATATGTAAGTCCTCTTCTAATTCTTTAAAAATGTTTTGGAGAGAAGGAGGTCTTTTTACTTCATTTTTAACTGAAAAAGATAATCCTTCTGCTTGATTAGGTCCGTGATAAGGATCTTGACCAAGGATTACTACTTTTACTTTTTCATAAGGTGTATACCTGAAGGCGTTAAATATTTCATTTTGCTTAGGGTAAATAGTCTTTTCTCTATATGCCTTCTTTGTTTTTTCTAAAAGTTCTTTAAAGTAATCCTTATTCATTTCCTCTTTTAAGTAAACATCCCAACTATTACCTATCATCTATATCACCTACTTATGATATGTTTCGTTATTTATAATCTTAAAGCTACGATAAATTTGTTCTAATAGTATTACTCTAAATAATTGGTGCGGAAAAGTCATTTTAGAGAACGAAAGGTGGTAATTCGCCTCACTTTTAATCCCTTTAGAAAGTCCATAACTCCCTCCTATTATGAAAGTTATATTACTACTTTCTAGATAAGTTTTCTCTAGTTTTGCTGCTAGCTCTTCTGATGATAATTCCTTCCCATCTATATCTAATACTATTATATATTCATTATTATTTAAGTGTTTTCTTATTTCTTTTTCTTCAGTTAAAAGGTTTTTGTTAATGTCATCAGTTGTAGTATCTTTAATCTCTATTATCTTAATATTATCATATTTAGTTATTCTTTTTTGGTATTCAGCTATGGCATCTTGTAGATACTTTTCTTTTATTTTACCAACACACACTATTTTTATCATTTTATACCTCCACTAGTGGACTTTCTTCATCTTGTTTTGCTAGTATTATCTCTGCTTTTTTATCTATTTCGTTCTTCTTCATCTCTTCTAAAATCTTTTCATAGGTATTATTCTTTTCGCTGATATGAGCCAAAAGAATATATTTAGTCTTTTTACCAATTAATTTCTTTAGGTATCTAGCTGTTGTATCATTAGAAAGATGCCCATAATCACTTTTTACTCTTTCTTTTAGAAAGTCTGGATATGGTCCTTTCATTAACATTTCAATATCATGATTACTTTCTATTAAATATATTTCTTTATTATCAATCTTATTTAAGATTTTTCTATTTATATAACCAGTATCAGTTATATAGACAAGCCCTTTATTGTTGTTTTGAAATAAGTATCCCACTGAACACTTCGTATCATGAGAAGTTGGGAAAACCTCTATTATTAGGTCCTCTACTTCATTCTTTTCTTCTAATACTTTTACTCTTTCTTTGGGAACTATTTCTTTTAATTCCGCATACATCTTAAGAGGTATATAAACATCTAGATTAGTATACTTAATAATAGCTCCTAGACTTTTAATATGATCTGTATGTGAGTGAGTAATTAGAATACCAGTAAAATCATTAGGAACTAAATTTAGTTCTTCTAATGATCTTTTTAGTTTCAAATAAGTTATACCGATATCAATAATGAATTTAGTTTTGGCGGTTAAAAGAAGGGAACAATTCCCTTTAGAACCGCTTTCTATTGTCTTAAACTTCATATTAATACATACTCATGGCATTAAGAGGTTGGCTTCCTCTACCATAAGGTGATCCTCTCCAAATAGCAAAGTGTAGATGAACTCCAGTAGCAGCACCAGTTTGTCCCATACCACCTATTACTTGTCCTTTAACTACATTTTGTCCGGCTTTAACATAGCGACAACCAACACAAAGGTGAGCGTACATTGTGAAGTAACCATTATGATGATCAATAACTATATATTGTCCATTCATAGCCTTTGAACCAGATATGGTTACTGTTCCTGCTTGGGCTGCGAAAATATTAGATTTATATCCACATCCAGCAATATCTGTTCCATCGTGAAGAACTCCCCAGCGATATCCAAATCCACTAGATACTGTTGAACATGATGCTGGCCAACCCCAAGCACCCTTAGTAGGTACTGGACTGCCAACTCCACCTTGATAATAACTCTCTTTACCACCTTTAACTATTACCTCATTAATAGGTGTCTTTAATACCTCAGTAGATACAGTTACGACACTAGTTGTTTCACCATTAACTTTTTGAATCTTTTGTGTTAATCGGTTCTCACCATTAACCCCTTTTTGGGTAGTTTCCATATAACCAATATCTTTAGTGTCATCATACTTAGTTTCAGTTCTATACTTTTTCTCTTCTCTAACTACAACATGATCTTCTTCAACCACACTAAATTGAGGTTTAATAATTCCTAAAGTTACCACTTGCCCTGGAAATAAAAGAGCATTTTCATCTTTTAATTTCGGATTAGCTATTAAAAACTCCTCATTAGAAATCTTATTACTGAAGGCTACATCAGGAATAGTATCTCCTTCTTTAACCTTGTATTTAGCTTGTGGTTTAGTCGTTCCAAATAGTAAATATTTGGATAAATCTTCTTCATTAGTATAAATAGTTTTATCAACAGGAATTCGAGCTTTTTTAATAGTTATTTTATTTTTAATATAAATGTTTTCAACTATCTTCCCTGTGTCTTCTATTTTCTTCTTTTTTCCTTCTTTGAAATCATCATAGTCTTCTTCTTTAACAAAAGACTTAACAGTTTTTTCCACTGATTTAGTAAAAGTGTTTCTCTTTAAGCAATAGATTCTCTGTGTCTTTGTTTTGGTGTTTTTCTCCTCTAATTTATTAATAGTTATTTGATAACCATCAATAGTAAAAGGGGATAGATCTTTTATTTTATTATAGATTGATTCAATTGAGGAAATCTTATTACTATAAGTCATTTCTTTCTTTACGATTAATTCTTGAGGTGCATATACCTTATCAACACCATATTTTCTTTTAATTGATTGTTGCTCTTGGTCGATGTAGTTTTCTAATTTTTCTTTTGATTCGATTAAACCTATTGGCTTTCCAGATATATAAACACGATATACTTCTTTAGGTTCTAGTTTACCAACAGTAAAGCCGACAACAAAAAAATAAGAAAAGAAAACTATTAAGATTAATACCTTCTTCTTCATTATTTTTCACCCTCTTTATCTCTTTTTAAATTTAGGAAAGTTGAGGTGTTTTTCTTAAATAACAACTCAATCGTCGCAGTTGGTCCATTACGATGTTTTCCAATAATTAGTTCGCTGATAGAAGTATTATCTTCAGTACGCGCTTCTTTGTTATAGTAATCATCTCGATATAGGAAAGCAACAATATCCGCATCTTGTTCAATAGATCCTGACTCACGTAAGTCACTCATAAGCGGTCTCTTATCTTCACGAGATTCTACTGCTCTTGAAAGTTGGGCAAGAGCAATAATAGGAACATGTAATTCCATAGCTAATGTTTTTAAACTGCGGGAAATATCTGACACTTCTTGTTGACGATTAGATCCATAGTTTCTACCTCCAGAGATTAACTGTAGGTAGTCAATAATTACTAAATCTAGTCCTTTCTCTGAGCTGGCTAGCCGACGACATTTAGCTCTTATTTCGCCTATGGTGATACCTGGTGTATCATCAATGAAAATATTAGAATCAGCTAATTGACTCATTGCTTCATTTATTCTTTTCCAATCGTTATTAACCAATTTACCAGTTCTTAGTTTATAGCCTTCAATTTGTCCTAAGGATGAAATCATTCTTAAAGCCAATTGTTCAGCTCCCATTTCTAGGTTAAATAATGCTACTGACTTATCAGTATTTTTAGCTACATAGGAAGCTATATTAAGAGCTAATGCTGTTTTTCCCATAGCTGGTCTAGCTGCTATAACTATAAATTCATTTTCATGAAGACCAGTAGTTATCCTATCAAAATCATACCAACCAGTTGGAATTCCAGTAATATCCTCTTTAGCTGATGCTAGTTTTTCTAGATTTTCCTGAGTTTTAGCAAAAACATCTTGAATCGTTCTAAACTCACTAGATTTTCTATTTTTAACAATATTTAAGATCTGCTTTTCTGCATTATCTAAAGTTTCATTAACTTCTTCATCGGTATTATACCCTTCAGTAGCAATTTCAGTAGCAGTATTAATTAAATTTCTTAATATAGCGGTATCTTCAACTGCCTTAATATAGTAATCAATATTAGTTGCGGTAGGAACAAAGTCTAATACTTCTGATAAGTACTCTACTCCTCCTACTTCTTTTAGTTGCTTCTTGTTCTTTAACTCACTAGTAACCGTTGTTAGATCAAGGGGAGTCTTTTTCTCTACCAAGTCTAAAATAGCTGTGAATATTTTAGCGTTTTTAGCATCATAAAAATGATCTTCTGACAAACTTTCACAAGCTTTTTGTAAGGCATATTCAGATAGGAAACAAGCTCCTAATACTGACTTTTCGGCTTCTATATTGTTAGGCATAGTCTTTAGTGCCATATTAATCACCTCATTTACTAATGTTTATTGTAACTTCCCCTTTGACTTCTTTATGAAGTTCTACTTCAACCTTATGGACTCCTAATGTCGTTAGTGGTCTTTTTAGATTAATTTTGTTTTTATTAACATTATAGTTTAATTTATTTAATTCTTCAGCAATGGCTTTGGCGGTTATGCTTCCGAAAACTTTATCATTATCTCCTACTTTTAGTTTAAAGTTCAATTCTTCTTTTTCTAACTTCTTTTTTACTTTTTCGGCTTCTTTAACGTCGGCATCATGCTTTTCTTCGGCCTTTTTTTCTTCATAAGCATGTTGTTTTAAATTGGCAGCATTCGCTGGAAGTGCTTTTTTATTATTGATTAGAAAAGTACCATATCCATCTTTTACTTCTCTTATTTCTCCTTTTTTCCCTTGGTTTTTAACATCGGTAAGAAGAATAACTTTCATAATATCACTCCTTGTCTAAAATGCTTTTCAATTTTTCTACTACTTTACTAATTGGTTCAGTTCCAATTTTCGTTGCTCCATTGTATTTATCACCGCCACCATTCATTTTTTCCATGATTTTAGCAATATCAATGTCGCCGGTTGATCTAGCACTTACTCCCACTTCATCTTTATCTATCTTCGCAACTACAAAAGCTGCTTCTACCTCATTAAAGAAAAGTAAAGTATCAGCAATTTTCGCTAAATCTTCTCTTCTATAAACAGCATGTGGTGTTCCTTTGGCAATCGCAATATTATCTTTGATTTCAATATTAGTAAGTAGTTTCTGTCTTTCAATATATTCTTCTAAGTCTTGTTTAAGTAAATACTCTACTTTTTTAACACTAGCTCCTAAACTAGTTAAATAATAAGCTGAGTAAAAAGTAGAAGCATCAGTTTTTAAAGTAAAGTTATTAGTATCTAGTACTATTCCTGATAAAATAATAGTCGCAATATAAGGATTAATCTTAGCCGAGTAAGCCTCAATAAACTGCTCTACTATTTCACAAGTACTTGAAGCTTCAGAATCAATAAATAAATACTTGGTATCAATTGTTTTCTTGCTTGGTTCATGGTGGTCAATAACCATCTTTTTGCTGAACAAATCTAATACTTTAGGCGCTTGCACTAACTCTTTTTTATTAGTATCTAAAATTAGTAAAAGATTCTTTTTGTTATTTTTGTGCATGAAAGTTTCAATATTTTCACTATTTACTATTTTTAAACATCCCTCTAGTTCTTTGAAAACCTTTCCTACACCTAACTCATGTTCTGTCTCCTCCATTACTAGGAAACACTTTTTTCTTTGTTTAGTTAAGATAGTATAAAACCCAATCGAACTACCTAATGCATCTAAATCTAAGTTGTTATGGGCCATAATAAAAATACGCTTGCTTTTTTTGAATATTTTTTTGATTTTTTTATGACTCTTTTTAATTTCCATAACAGCCTCCAAATATCAATATTATTATATAATAAAATTGCCCTATTGTCTAATGTTTAAGTAACAAAAAAAGAACTTAAAAAGCTCTATTTTGTGAATGGTATCAAAGCAATTGTTCTTGCTCTTTTTATTTCGCGCGCAATATGTCTTTGATGTCTAGCACAATTACCAGTAACTCTTCTTGGTAATATTTTCCCTTTTTCATTAATATATCTCTTTAATGTTTCAACATCTTTATAATTAACATCTTTACCAGTACACATTGCACATACTTTTTTCTTCTTACGATAAAAATCTGCCATTATAATTCCTCCTTTTTAGAATGGTAATTCATCGTCGCTTATTTCAATACTTGATCCAAAATCTGCAAAAGGATTATCTTCTACATCAGTAGTTTTTTCTTCTTTTGCATCTTCATCCTTGAAATCATACGGTGTTGGTTCGTCACCCTTACTATTACCATCTTTCTTAGAACCTAAGAATTCAACGTTATCGGCAACTACTTCAGTAATATATCTCTTGTTTCCTTCTTTATCCTCATAATTTCTAGTTTGAATTCTTCCGTCAATAGCTACTTGACTACCTTGTGATAGATAGTTCTTAACATTTTCAGCTTGTTTTCTCCAAACTACTATGTTAATAAAATCAGCTTCTCTTTCCCCATTAGAATTAGTAAAAGTTCTATTTACAGCAATGGAAAAAGAACAAACTGGAACATTACTTCCGGTATATCTTAATTCTGGATCTCTAGTTAAACGACCTATTAAAAATACTTTATTCATTTTTTTCTCCTACTCTTCTACTCTAATTATTAAACTACGAAGTAGATTTTCATTAATTTTTGCGATACGATCAAATTCATCGATAGCTTTACTGTCAGCTTCAATTAAGTAGTAAAAATAATAACCTGTTTTATACTTTCTTATTTCATAAGCAAGTTCTTTTTGACCCCAGGCTTTTTCTTCTACTATTTTAGCTTTTTTACCAGTTAATACCTTCTTCATAGCGTCAGCTTCTTTAGTAATTGCTGCCTCTTCTAAATCAGGTTTAACGATAAAAATAACTTCATACTTATTCATCGTTTTCACCTCCTCTTGGACTAATGACCCATAAACATCTTATGAGTAAGGAGTATCTGTTAATACTCGCTTAGTATTATAACAAAATACCTTTGTTTTGTCTAGATACTGATATAAAATTAGTATTTAATATATTTCTGTTTTAAACTCCTCAAATTTCATGTTTATGATTTTTGGATTCTTAATAATCAGTTTACATATTTTCTCATTATCTAAGCTTTGCATGCGTAAATACTCAACTATTTTCTCTACTTCATCTGGATTTACTGAATACATTAAAGGATTTTTAGTAATGAGGGTTCTTAATTGATTGTGATCAAAACCTAATTCATTATAAATGTTTTCTAGTTCGTTTATCTTCTTTGAACTCTCTGTTAGCAGAAAAGGGTTAATATTAATTATTTTGATTATTTCATCCGGAAATAGGAACTTGTCTTCTAAAAAGGTAATAATTTTTCGCACATCATTATAATCTAAATAGAAGACCCCATGGTTTAGTCTTTCGAAGCTATCTAACTCTAGCGCATCAAAACCATATTCGTGCAAGTATTCATATGTTTCATCTAACATTTTAAATCACCTTTTCTCCTTTCTTTGTTCTTCTTTTTGAATCTTATTATCAATACTAATATATTTATCAATATTATTTGTTTTTGCCCTTGCCACTAAGCTTTTATATATTTCATTTAAACTCTCATATTTTGAATCATGCAACAACTTTAATTCTTCCTCACTTAATCGCACTTTAAATGTTGCCCCACCTTTTGTTTTAATAACCGTTTGCAGTGTTCTTCTAAACTTGCCAAGTTTTCTTGTTTGTGGATCTTTTGATTTTGAACTTGGTAGCTTCCCTCCATTATTCTCAACATAATAAATTAATTCAAAAAAAGGGGATACCTTTATTACTTCTTTATATTTGTTCTTGATTTCAATTTGACTAAGAATTGCCTTGTTTTTTGACAATTCTTGCAGCGCAAATTCCATTTTCTTTTTTATCTCGTCATCTACATATTCTATTTTTATTTTTTTCAATGTAGCTTTATATAAAATGTTTTTATATATTTTATTTAAACTTTCATACTTGGAATTATGCAATTCTTTTAGTTCCTCTTTTGTCAATTTTGTTTTAAACGAATAATTGTTAACGTCTTGAATTCTATTACAAAATTTTCCTAAAATTTTTTCTTGTTTTGTTCTTGGATTTTTTCTGCTTGGTAGCTTCCCTCCATTATTCTCAACATAATTTATTAGCTGTCTGAATTTATCTCTTGGGCATAATTCTAATTCCTCTATAAACTTTTTAGTTTCTTCCTCAGTTAGTTTTTCCTTTGCTAAAACGTTTTGAATCTGACTACTTCCTAAATTATCAAAATAACTGTATATAGATATATCATTTTTTTCTAATATGTTAGCGATATTATTTAGTCTTCTTGATATCTCCTCTCGTATTTCTTGTGGAGCTTTTACATCGTTTGGCATTGAATTTATCAACTCTGATAGATTGTATTTTAATGATATCGTTAAATATTCTCTTGATCCTGGATAAAATTTTTCTCTCAAAATATCTTTAAAAATCGAATAAAACTCTTCGTATTTTTCTATTTCTTTAAACGCATTGTCATTTTTCATCCTTGCTATTTTTTCTTCATAGTATTTTTTGTTTTTGTCGTTAGATAGGAGTGCTATACAATCATTTAAAAATGAAAAACTTTCTAATTGTCCCGTCATTTTTGTTTGTTCTAAAAGTTTTTTTTCATTAGAAAAATCTATTTCGTCTATTTCCCTATTAATTTCTTCTAATACAAGTTCTTCTTCTGAATCAATCATGAGTTGTATGTTTTCCCTTTGAAATACTTCCTCATAAGCACTAATCATATAATCAATTAGCGTTTGTAATCTTGCCTCGGAAAAATATCCTGATTTTGGCCACCAATCAAGAAGATGCCTTGCTCCTTTTTCGTTTGGGCCATTTATACTTTTTAGAGCTGGAATACAATTGAATAATACTGTCCCACCACCACAACTTATAGGAATTATATGCTCTAAAATCGCGGTTTCTTTGGTTAGTTCTTTACCAGTATATGGACAAAAACATTTATCCTGTTGTTTATCATAATAGTATTTTTCAAAGTGTTTATTAATTTGCGTTGCGCTCAGCAAAGATATTTTATCTTTTGTGGCGGATCTTCTTAGATTGCAATATACTTGTTTTATACTTATTAGATTGATCATATTATATCACCTATAATAAATTATATCATAAAAAAGAAAGCACTTAAATGTTCTTTCTTTATACATTAAATCTAAAATGGCAGATGTCTCCGTCTTGCATTAAATAGTCTTTTCCTTCTAGTCTAGCTTTACCTGCTTCTTTTACTTTTAATTCGCTACCACATTCAATTAAATCCTCATATGATATTACTTCTGCTCTGATAAAACCCTTTTCAAAATCTGTATGAATAATACCGGCACATTCTTTAGCATTCATCCCTTTTTTAAAGGTCCAAGCTCTTACTTCATCTTTACCTACGGTGAAATATGTAGCTAGTCCTAAAATATCATAGGTAGTTTTAATTACTTGGTCTAATCCTGACGAAGAAAGTCCTAAACCTTCCAACATCTCTTTTTTCTCGTCTTCTGGCATATCCGCTAGATCTTCCTCTAACTTAGCACATATCGTGATGACTTTAGAATTTTCCTTATTAGCATACTCTTTTAGACTCTTAACAAACTCATTATCTTCTTTATCTAAATCATCCTCAGATATATTAGCTAAGTAAATAACTGGTTTTAAAGTTAGAAAGCTAAATGATTTTAAAGCAAAGAGTTCTTCTTTGGTGAAGTCTAATAGTCTTAATGGTTTACTTTCTTCTAAGGCTTTTTTACTTTTCTCTAACGCCCCCAACTCAATAAGGTCATTTTTATCTTTAGTAGTTTTTGCCTTTTTACCCATTCTTTCAATTCTATTATTAATTATTTCTAAATCTGCTAAGGCTAGTTCTAGATTAATGGTTTCAACATCTCTTATGGGATCAATACTTCCATCAACATGGATAATCTTACCGTCGTCAAAGCATCTTACTACTTCAACAATAGCATCTACTTCTCTAATATGTGATAAAAACTTATTACCTAATCCCTCTCCTTGAGAAGCACCTTTAACTAATCCGGCAATGTCGGTGAATTCAAAAGTAGTTGGTATTTTTTTATGAGGTTCGTACATCTCATTTAATTTTTCTACTCTTTCGTCTGGTACTGTTACTACACCAACGTTGGGTTCAATAGTGGCGAACGGATAGTTTTCTGCTAAAATCTTCTGTTTAGTAATAGCATTAAATAATGTACTCTTCCCCACGTTTGGTAATCCAATTATTCCTGCTTTTAAACTCATGTAATCACTTCTTTCTCTTCTGTATTATAACATAAAAAAAGAGTATTTCTACTCTTAAATTGTTGGATATACTCCTGGTCCAATTGGTAAACCAATTAAATACCAAGCTACAATTATAAAAATCCAAATGGCCATACTTATCCAAAAATAAGGAAGGGTAAAGCCAATAGCCTTTCTAATAGTAATTGGTTTGTCTTTATGAAGGTTATAGACATTTAAGAAACCAATATAAACAACAAAGGCCGCTAAAAGAGGAGTCATTCCATTAGTAATTGAATCTCCTGCTCGCATAATTACTTGAGCAAATGGAGCTGATATATTAGATTGCATTAGCATTGGTACAACAACTGGTGAGAAAATCTGCCATTTTGCTGCTGGTGTTGTTAAGAATAGGTTTGATACAGCAATTAATAAGATTACTGCAATAATCAAAGCTATTCCTGAAAAACTCAAGTGATTTAGTAAATTAGCTAACCAAGCTGTAATGACAATTCCGATATTAGTCTTCTTGAAGACCGCTATAAATTGGGAAACAACGAAAATTAAAATAATGACACTTCCCAAGTTAGAGAATACTTTAGATGAGTTTTCAATTAATTGTTTATCGTTTTTAAACTTATGAGCTCCAAATGAATAAGCAAGTCCCATTGTTAAGAATAAGATACATATTAAGTAAGTAAATCCATCTTGAAAATAAGAAGCTTCACCAAACAATTGGTTCAAATAAGTCTTTTGGCTCATGTCTAATAATAATCCTGATCTTGGTAATCCTGGAATAATCATATAGATGAAAGCCAATGTTACAACTATAGCTGTAATCATGGCAAAGCGTAATCCTCTATTCTCATTACGATCTTTTTCTAGTTTCTGTTGTTCCTGCTTTTCTAAATCTATATATTCTAATTCTAGAGTTTTAGATATATCATCACCTTCACGATATTTCCCTATCTTTGGAGCAATGAACTTTTCAACGACAAAGGTTCCAGCAAAGGATAAAGCTATTGTCGTAAATATAATAAAGAATAAGTTAGATGTTAAGGCAATATGAGCATTACCATCAATTAGATAAGCGGCACTCGTAGTGTAAGGAATAAGTGATACTTCCATTGATCCAATAAATAGTGATACTCCATAACCATAAGCCACCGCACAGAAAGCAGTAACTATACCTAATATTGGATTTCTTTTATTAGTTAAATAAATACTCGCTACTAGTGGTATTAATATTACATAACCAATATCATTGATTAATGATGAAAATATAGCAATTAATATAATGAAATAAGTAAGTACTGATTTAGGTACTTTTCGTAAATGTCTTTTAGCTAGAGCTTCAGTAAAGCCTGATGCTTCAGCTACACTTACACCAATCATTGAAATAAGTAGCATTCCTAATGGAGCAAAACTAATAAAGTTTTTACTGGCACTACTTATTAAAAAGTTAAGACCATAAAAATTAAATAAATTCTCAACCGTTACTAGATTTGGTTCTAATTCTCCCGTTATCTTATTAACAGTATCATATGTAGCTTGCATTTGGAAAGCTGAACATATCGCACTTAAAACCATTACAAACAAGGTTAAAAAGATAAATACTGTTATCGGATGAAAATAAAATTTTTTGAGTTTCCTTTTTCGGTATTTCATCATATCACTCCACTATTTTTTTTAATTTCTTATTGAATTCAATTCGTGGCATAAATAAACTTCTACCACAATTTAAACATTTTATTTTTATATCAGCACCTAATTTAGTTATTTCCCATAGATTTTCACCACAGGGATGCTGTTTCTTCATAATTACTTTACTTCCTACTTTATAATTTAGGTTTTTACTTTCCATTGTGCACCTCAATTTGTTGATAAGGAATCTTTATTTTAGCTTCTTCTAATTTATCTTTTATAGCTTTACGCATAATTCTTTGTGTTACATACTGATTCATTGAATCAACCAAGACACACATTCTATAGACAACAGCAGAACTACTTAAATCTTCAATTCCCCATACTTCAACAGGTCCTTTTGTATTTTCTAAACTCTTATCTAATTCTCCGGCAATCTTTTCTAATGTATTTAGTACTTCATCTGTATTAGCTTTGTAATCAATAGCGATATCAACTAGGGCTAGTGAATCCTCTAAATTATAATTAATAACTTCGGTAATAGTGTGGTTAGCAATTATCTTAGTTGCCCCTTTAAAGTCCTGGATTCTAGTACTCCGTAAACTAATTAAGGTGACTTTTCCCATGAAATCACCAATTTTAATGGTGTCTCCAATTTCATATTGATCTTCACTGACAATAGATATTCCAGCTAAAATATCTTTAATAAAATCTTGGAATGCTAATCCAACGATTGCTGCTGTAATACCCAATCCAGTAATAATAGATCTAACATCTACTTTAAAGACAGTTAGTATTGATATAATAACTGAAATAATTATTAAGTATTTTATGATGTTTAAAATAAGAGCATTGATTGTAGTAATTCTTTTTTTATAATGTCTTTTCTTAACAAAACGTTTATGCATGTTAGTATTTATAACTGCTTTTAAAATATAATAAACAATTACACCTATAAATATATATACTATAGGTCTCACTATATAGTTTAAATCAATGTCTATAGCATCAAACATAGTCACTAGCATATTTCCTCCTAATTATTCAATTTCATTATCTCTAATATTCTATTTAAATCATTATTGTTAGCAAAGCTAATCTCTATTCTGCCTTTTTTAATTTTTACCTTAGTTCCTAACTTTTCTACCAATTGCTCTTCAACATATTGATATTCGTCGTCTCTTTCTTTATTCTTGTTTATTTTGTGCTTTCTTTCATAAACTTTATCAGATGAGGTTATCTCTTCTATTTGACGAACACTTAAATCTTCTTTAACTATTCTTTTAGCTAGTTCTTCGATTTGTTCTCTATCTTCTAATTTAGAAAGTACTCTAGCGTGTCCCATAGAAATTTCTTTAGCTTCTATCCTGTTTAATACTTCCTCTGGTAAAGTTAAGATTCCTAACATATTGGTTATATGACTTCTACTTTTACCTAGTTTTTGAGCTAATTGTTCTTGTGTTATTCCTAAGCTTTCTAAAAGTTTTTGATAAGCTCTTGCTTCTTCAACAGCATTTAAATCTTCTCTTTGAAGATTTTCTAAAAGAGCTATCTCCATCATTTCTTCATCAGTAAAATCTCTAATAATAGCTGGTATTTCTTCTAGACCTGCAATAGTAGCTGCTTTTACCCTTCTCTCTCCAGCAATTATTTCATAACCTTTAATACTTTTCTTAACGATAATTGGTTGAAATACTCCGTGTTCTTTAATGGAATCAGCTAATTCATTTAAAGCTGTTTGATCAAAATTTGTTCTTGGTTGGTACGGATTACTGCGTAATTCGTCTAGTTTTATTTTAACTATTTCTTCTTTAGGAGTTGAAGTAATTATCTTTTCCTCCATCTTATTATAGTTAAGAGGTTCATTGTTAAATAATTCCTCTAACCCTCTTCCTAGGGCTCTTCTTTTAGTTTCCATTACGAGCAATCACTTCCTTCGCTAAATTAATATAGGCTTCAGACCCCCTACTTTTAGGATCATAAGCAATAATTGGTTCTCCATGTGATGGAGCTTCAGTAAGTCTTATTAGTCTTGGTATTATTGTATTATATACTCTTTCTTTAAAGAACTTTCTGATATCTTCTACGACTTCAAAACCTAAATTAGTCCGAGAATCTAGCATTGTAAGTAATACTCCTTCAATGTCTAAGTTAGGATTTAAAGACTTTTGAGCTAACATAATAGTGTTTAATAACTGCATTATTCCCTCTAAGGCGAAGAACTCACATTGAACTGGTATAATAACAGAGTCAGATGCTGTTAAAGCATTAGTAGTTATAAGTCCTAATGATGGTGGACAATCCATAATAACAAAATCAAAACTATCTTTTACACTATCAATATGTTTTTTTAGTTGTCCCCCTTTATTAAAATCAACCGTAGTTTGACTTTTTTCTAATAATTCAATGTCTAGACCTGCTAAATTAATAGTAGCTGCTATAACAAATAAATTTTTATATTTTGTTTTAATAATGGCATCATTAATAGAACATTTACCGGTGAAAACATCATAAATACTTTTCTCTATTTCCCCCTTATTAATACCTACTCCGGTACTAGTATTTCCTTGGGGATCTAAATCAACTAAAAGAACCTTTTTACCTAAGGCTGCAAGAGAGGCAGAAAGATTAATACTGGTAGTTGTTTTACCGACCCCGCCTTTTTGATTTACTAATGAAATAACCTTTCCCATAAAATCACCTATTTCTAATCAGTTCTAAATAATATTGTACCAAAAAAATATGTCTTTTGGAAGATTTTATAGAAAAAAGAAAAGATTTAATTTTCTTCATCTTTTCTAATTTTTATATTTATTTGATAATTGTTTGGTAAATCAATTTCTTCGGTCTCAATACCGACGTCTCCTTTTTCAAGTTTACTTACTGTTTGTCTAATTTCATCAATAGCTTCTTTCAAAGAAATTGGTTCTGTTTTTTTACTTTCAGATGTTTCTACTCCATCACTCATTAAAATACTAGTAAGAGCTGCTTTATCTTTAATGGAATCAGGAATATAGATATAAGGATCTTCTTTCTTTTCTCCAACTTCTGGTGATTCTGTAGAAGTTCCATCATCATCAACAAAATCACCATTTTCATCAAATTTTGCTTCTCTATAATTACTACTATTTCCAGAACCATTTAGAATATCATCAATAGCTGTATTATTATCTGTTTCTTCTACTTTTTGGTTATTATCATTTAAGTCGGCACTATCGGCAGTTGGAATAACATCAGGAGATGTGAAGTAATCCATTGGATTATCAATAATTGTTTTCTCTTCTACTTCTGGTTTTTCTTCTTTTTCTTCACTTTCTTCAGGATTAATAAATTTAAATCCTGGTCCATCCTCCTTAACAGTAGGTTCTGGTGCTGCTTTTGCATTAGGATCTACTTTTAATAGATCATCAATATCTTCTTTCTTTTTTATTTCTTCAGTGTTTATATCAGCAGTATTTTCTTTTAAATCGTTGATATCAATACTAGTTGAAGTAGCTAAGTTCTTTTCTTCCTCGCCATCATCTTCATCATCATCAATTTCCCCATAATTAATAAATTTAGGTAGTCCAGATTGACTTTCTTCTTCTCCCTCTGGTGGAGCATAAGTAACTTCCCCAAATTCTTTATCTGTCTTCTTCTCTTCTGTATCTGGAGTTATTAAATCAGAATTAATGAAACTATTAACTCCTACATCAACGCTTTCTTCTTGTGGTTTAGTAATATCTACTGAAGCATCATTTCCGTCTTCAGCTATTGGTACATCAGGAATTTCCTGGTTTTCCTCCTCCGCTGGAAGATCTGAGGTGACTTGTTCCTGCAAGTCATCTGTTGGTAGATTAGGAACAGCTTTTGCTTCTCCTACTTCTTCTGGAATATCGTTAGTTGTTGAATCTTGAGGCTCTTCAATAGGAACTTCTGGTAGATTTTCTTCTAAGTCATTTATTCCTGATGACTGAGTATTCAATTCATTAATCGTCTTTTCTAATTCGCGAACAGTCATTTTTGTTTCAATTATTTTATCTAATAGTTCTTCTTTTTTACTATCATCTTCTAAATTTAATAGTGCCCTAGCATGTCTTTCAGAAATCTGTTCATTCATAAGAGCATCTTGTACTTTTTTTGGTAAAGCTAAAAGTCGTAGTTTATTAGCTACTGCTGATTGACTCTTACCCATTGTTTTAGCAAGCTCTTCTTGAGTCATTTGGTCTAAATCAAGAATCTTTTGATATGTTCTTGCTTCTTCCATTGGATTTAAATTCTTTCGTTGTAGGTTTTCTAAAAGTGTTACTTTTGAAGATTCTTTATCATCTATATCTCTAACAATAGCTGGTATCTTCTTAAGATCAGCTAAAGCTGCTGCTTTATAACGACGTTCTCCAGCAATTATTTCATATTTATCATCAACTTTTCTAACGATAATTGGTTGAATTACCCCGTGCTCTTTGATTGATACTGCTAATTCTTTTAAAGAGTTTTCATCAAAAACTTCACGTGGTTGAAATCTGTTGGGAATGATATCTTCTAATTGTAAATAAACTATTTCTTTTTCCGTATCCACTTTATCCCCTCACTATTCTTTTGTACTCTTATAATCATTATATCAGTTTTTAGAATTTTTTCAAATAAAAAATCTTCGTTTTGAAGATTTTATTATTTATTTCTAATTACTACTAAACTTCTTGTGCTGTTTTCAATTGGTAATTCAAACTCTATAATTTCATCAATGAGGTATTTTTTATTTATCTTTTTTTCTACGTCAGGGGTGATTTCTTGGTTGATATTTCCTTTCATAGCAATGAATTTACCCTCTTTTTTGACAAGATGCATTGTATATTTTAAAAGCTTATCTATATTAGCTACTGCGCGAGCAGTTACTAAATCAAATTTTTTGTCATGATAGTCTTCTGCTCTTGTATGAATTGCCTCAATACCAGTTAAATCTAGCTTTTTTATTGTTTCATTTAAGTATTTTACCCTCTTTAGAAGGGAATCTATTAGTACTATTTCTAGATGGGGATACATTATTTTTAAAACTAATCCGGGAAATCCAGCACCAGAACCAACATCACAAAGAGTATTAATACTATTTAGATTAACTGCCTTTGTAATAGTTAAACTATCATAAAAATGTTTTAGATATACATCCTCTTTTTCAATTATTCTGGTGAGATTAGTCTTTTTGTTTTCCTCTACTAAGATATTAAATAATCTTTCTAATTGTTCTAATTGTTCTGGTGAAATATTAATATCTAGTTTCTGTAGTTCTTTTATAAACTCTTCCCTATTCATATTTTCCCCTTCTTATATAGACTGATAATACTGCTATATCCGCTGGATTAACTCCACTTATTCTAGTAGCTTGTCCAATAGTTGTTGGTTTTATTTCTTTTAATTTTTGTCGAGCTTCTGAAGCAATATTAGGAACTTTATTATAATTAATTTCTTCTGGAATTTTCTTTTCCTCTAGAGCTAACATCTTTTTAGCTTCTTTTAAGGCTTTCCTAATATATCCCTCATATTTGGCATTTATTTCTATTTGTTCTAACACCTCAAAGTCATAGTTTAATTCAATAAAATTCTCTAGTTTTTTTATCTCTACTTCAGGTCTTTTAATAAGTTCATAAAGAGATAATCCTTCTTTTAGAGGAGTGGTATTTATTCTTTCTAAATAATTATTAACCTCTTTTTTAGGAGTTATCCTTGTCTCTTTTAACTTTTTAGTTAATTCTTCTATATCTTTTATTTTCTTTTTAAAATCTTGGTACTGACTATTTTTAAGTAGTCCTATTTTTTTACCATATTCTGATAATCTTATGTCTGCATTATCATGACGAAGTAATAACCGGTATTCAGCTCTTGAAGTAAGTAAACGATATGGATCTTTTACTCCCTTAGTAACTAAGTCGTCTATTAAAACACCAATATAGGCTTCATCTCTTCTTAAAATTAAAGGTTCCTTATTATCTAATTTTAGACTAGCATTTACTCCGGCAATTAACCCTTGTCCAGCAGCTTCTTCATAACCGCTAGTTCCATTTATTTGACCAGCTGTGTATAGATTTTCAATCAGTTTTGTCTCTAATGTTCTTTTAATTTGTTTTGAATCAATAGCATCATATTCAATAGCATAAGCATATTTATTTATCTTGGCCTTTTCTAAACCTGGCAATGAATGCACTAATTTTTCTTGGACATCTTCAGGCATTGAAGTAGAAAACCCTTGAATATAAATATCATCATAAGATAAACTTTCTGGTTCTAAAAACAATTGATGTCTTGATTTGTCACTGAAACGTACTACTTTATCTTCGATTGATGGACAATATCTTGGTCCTATTCCTTCAACATAACCCCCATACATACTTGATCTTTCTAAGTTTTTATTAATTATTTTATGAGTTTCTTCAGTCGTATATATTAGATGACAGGGAACTTGATTATTAACATCATAGAAGCATTTATTTGTAAAGGAAAAAGTTCTTTTTTCTTTATCCCCTTCTTCTAATTTTGCTTTAGAAAAATCGATTGTACTCTTTTCAATTCTAGGAGGTGTTCCTGTTTTAAGACGAAGAATATTAAATCCTAATTTTTTTAAATCATTGCTTAAGTTTTTAGATTCTTTTTCGCCATGTGGACCACTTGGAGTTTTCTTGGCTCCTCTTAAAATACAAGCCTTTAGATAAGTACCTGTAGTAAGAATTACAGCTTTACTACTTATTTTTTCGCCATTATCTAATTCAATTCCTTGTACCTGTTTATTCTTAATAAGAAGTTTTTCTACCATTCCTTCTAAAATATCTAAATTCTTAGTTGCTTTTAATTCTTTTAACATTTCTTTAGGATAAACCGCTTTGTCTTCTTGAGCTCTTAGAGCTCTTACTGCGGGACCTTTTTTAGTATTTAACATTTTTACTTGAATAGCACCACGATCAGCAATTTTTCCCATTAAACCACCTAAAGCATCTATTTCTCTAACAACAATTCCTTTAGCAGGACCACCAATAGATGGATTACATGGCATATCAGCTATATTATTAATATTACTTGTTATAAGTAGGGTTTTCTTTCCTAAAGTGGCACTGGCATAAGCTGCTTCACAGCCAGCATGACCACCACCTACTACTATTACATCTATATTATTCATTTTGCACCTCTTTTATTTGCCAACACAAAAGTTTTCAAAGAGATGATCTATTATCTCTTCGTCATATGTTACACCAATAATTTCTCCTAAAGTATCAAATACTTCTTTTAAGTCTAGTTCTATCAAATCAATTGGCGTTTTCTCTTTTAATCTCTTTTTAATTATTTCTAATTTGTCTAAAGATTTCTCTACTAAATCTATTTGTCTAGTATTAGAAAAATAAGTTGCTTCTTTAGTATTGATTTTTTCTAATTCAAATAGGTTTCTAATTTTGTCTTTTAATTTGTCAATACTATTATCAAATGTGTTGATAGTTATTGCTTCTTTTGGTAGTTCATTAGGGTCAACATTTTGTTTTAGATCATCTTTGTTAACAACTACAACTCTAGTTTTATTCTTTGTTCGCTCAAGTATTTCCTTATCCTCTTTATTTAATTTTTTATTACCGTCTAGTACCACAATTATCAAATCTGCTTCTTCTATTAAAGAAAGAGATTTTTCTACTCCTATTTTTTCAATAGTTTCATCTGTTTCTCTAATACCAGCAGTATCAATTATATTAAGTAAGATCCCATCTAAATAAATACTTCCTTCAACAATATCTCTAGTAGTACCTTCAATATCAGTAACTATGGCCTTATCTTCTTCTAATAGTTTATTTAGAATACTACTTTTTCCAGCATTAGGTCTTCCTACTATAACAGTATTAATACCATCTTTAATAAATCTAGTGTTTTTACTACTTTCTAATATCTTAGAAAGCTTATTTTTCATTGTTTTTATTTCCTTTTCGATATCTTTAATAGTCATTTCTTCAATATCTTCATATTCGGGATAATCAATATTTACTTCGATATTAGCTAGAATTTTTATTAAATTCTCTCTAAACTCTTCAATTAGTTTTCTTGTTGAACCAGAAAGTCCTTTCATTGCTAAATCCATTGCTTCATTTGATTTAGACTCAATAATATCCATAACGCTTTCAGCAGCAGTTAGATCTATTCTTCCATTCAAGAATGCTCTTTTAGTAAATTCGCCTGCTTCTGCCATTCGAGCACCTTTTTTCAACATTAGTTTTAAAATTTTATTAGTTGCTATTATGCCACCATGGGAATTTATTTCCACTACATCTTCAGTTGTATATGTCCTAGGTGCCTTCATGACTGATACTAAAACTTCATCTACTTTCTTGTTACCATCAATAATAAAACCATAATTAATGGTATGGGAATCTACTTTGTTTAAATCAACACCATTAAAAACACTATTAACTATTTTAATACTGTCTTTTCCAGATAATCTAATTATTGATATAGCCCCTTTACCTAAGGCTGTTGAGATTGCAACTATTGTATCATCCATACTATTCTTCCCTTTCTCGCTGATATTATAACATTAAATGTAAAAAAAAAGAAGGATTTATTTCCTTCTTACTTCTTCATCTACTAAGTCTGTTTCTTGTTCAAGAGATTGGTTTTGCATATATTCCATCTCATTTTCTTCTTCTAGAACCTCAACTTCATCTTGGAAAGATAAATAAGCAACATCAATTCTATCAATTATATCTTCACTTTCAATTTTTTTAAGTAGGGATTCTAAACCATATACATCGCCATTTAAAAAATCATTAATACTGTAGTATCCGTCAAGGGCTTCTAATAGGCCAAGACAAGTATAAGGAACGTCACCATAGCAAACATATTCTGGCTCGCTTTGATAATATTCTTTCATATTTGTATAATCTGATAATAAATAATTAGATATAACTTCGTTCATTCCTTCTTCAAGTCCTACTCCATAACCATTTAAAACAGAAAATTCTTTAAGACAGTTTCCTTTTTTAGTTCCTTTTACATATTTTGATTCAACTTTTGATAAATGTAGAACATGAGTTAATTCATGATATAATACTTCGTTATAATCATCACCTAGTTCTTCTTTTGATTCGATAAACAATGTGTTTTCATCAATAACATATTTTCCTAGAATTGATTCACTATCTACTGGTCCTTCTACAACTTGAATATCTTTTAAATTATAGTTTAATATTCTTAAATCAATGTTTTCTTCTTTTTCTTCTACTGCGGAAATAAAGTCATTTATTTCTTCTTTTTGTTCATCGTTTAGAAAAACATTGTTCTGTAGTGTTTTTCTCACATCATCGATTGAAACTTCATCTAAATCAATATCATCTAAAGTAATATGCTCTATAGTAAGGAGATCTTCTACCTCTTCTTCCTCTACTCTTTCATAATTATTTATCTTATCCAAAGTATCATTTTCTCTATTTAATTTTAAAATTCCACCACTTAAAGAGAAAATAGTGGCAGAAATAGTTAATGCTCCGATTGTGTTTGCAACTATTCTTTTTAGCTTGTGTTTTTGTCGATGTTCAGCTATAGAATCATAGTATGTATAAGGATCTCTAGTATTATATATTAGAGTTAATCGCACTAAATCTTCTAAATCAGGTTTAACATATTTTTCTTTTGCTTCTTCTTTAACAACTTCCAAAAAGTGTTTTTGATGTTTATCATCAATAAAAATATCAAATATTTTATTATTATATTTAATTCTTCCTATTTTCTTCATAACACTACTCCTCTATTTATATAATAACACAGAAAAAAAAAGAAAAGAAGATTATTTATCTTCTTTTGGTTTTATGACTACATATCTATTTGGCTCTTCGCCTTCACTTTCAGTATATACTTTCTTATTATTGGTTAACGTATTATGAACTATTCTTCTTTCAAAAGAATTCATTCTTTCCATTTTTACTTCTACTTTAGTTGCGGCAACTTCACGAGCTAATTTCTTAGCCATTCTTTCAATTATCTGTTGATGTCTTTCTTTATAGTCATTAACATCTATTAAAAATTTAAAACTTTCTCCTAGTTCCTTTTTAATATGTGCTGCAACTACCATAGAAAGAGCTTTTAAGTTTTTACCATTCTTTCCAATTAGAAGTGCATCATTATCAGAATATATTATGTAAGTAGGAACTTCTTTTTTATTCTTTACTTCTATTTTAGGATTAAAACCTAAATCTTTTAATAAATCAATTAAGAAATTCTTAATATATTCAACTACTTCTCTTTTTTCAACTACTTCTATTTCTACTTTTTTTCCTTTGAAAAGACCGCCTTTTGTCTCCCCTACTTGTCTAATAATAAGGTTTTCTTCTGTTTCTTGTATTGCTATTTTAGCTTCTTCAACAGCGCTATCGAAGTCTTTTCCACTAAACTTTCTTTTTTCCATTTACTTCCTTACTCCTTTTTACTAAAATATTTTGTCCGATTGTGAACAAGTTAGTAGTAATCCAATATATACCTAAAGCAGAAGGCATATATAGACCCATGATAATTATCATGATACTCATAATAATTGGCATGTTTTTCATACTATTATTACCATCCATGCTTGGAGTATCCTTCATAGTCATAGTGAATGAATAGAAGGTACTAGCAGCAATTAAAAGCATTAATATTAGATATGCATACCAATTGCTTCCAGAAATACCAACGATTGGTGTTGTTCCTAATTGTAATTTTAGAAAAGTATCTTCAAAAATAGCTGGTGTTCTTTGAACAGCTTCAAAGAAAGCAATGAATAAAGGTAATTGAATAAAAGCAAATAAACATCCGCCCATTGGGCTAATATTATATTTCTTATAAACTGCCATCATTTCCTGTGATTGTTTCATCATAGCATCTTTATCTTGACTCTTGTTCTTATATTTATTTTGAATCCTATTAAGCTCTGGTTGCGCCTTTTTCATCATTTCTGATTGCATAGCTGTCTTCTTGGTAAGAGGAAAGACTACTAATCTAATAAGAATACTTACTATGATTAGTGATACAGCATAATTTCCTATTTTAGTCCCAAGTAGAACAATGATAAAGGCTAATGGTTTAACAAAGAAAGTTGTCCATAAACCTTCATAATTACCAGAATTGATTTTTAGATCCTTACATTCTGGTAACTTGTCGATCTTTACTTTATTTTTTTCATATAGTTTTATTGTTTTTTCTGCATGTGGCTTACATAAAATGTTTTTAGTCAAGTTTTGACCAGTTACAGTATTTTTTACTGGCTTTTTATCTTTATCAGTTAATGTTTTAGCACAGCCAGTAAGTGTTATTACTAATAATAGTACTATTAGTAATCTAAATATTTTTTTCTTTTTCATTTAAATCATTCCTATCTATATTTTTTATAAGAATATTTAAATTTTTTTCTAGAATTTCGTGTTTTTGATTTAAACATTCCTTTCTCATTATTATAATATAATCCAAATTATTTGAATAGTCCTTTTTATTATTATCAATAATAGCTCTTATTTTTCTTTTATATTTATTGCGAATAGTGGCCTTCCCTATTTTTTTTCCAACAGAAATACCAAAACGAGAATACTTTTCTTTAGCTTTTTTATAATAAACGATAAAACAACTATTAGATGTACTATGTTTACTATTTATTATTTCATTGAATTCTCTATTACTTTTAACAATGAACTTTTTTTTCATATTATCACCTTTTTAAATAGTAAAAAACCACTTATAATAAGCGGATTTATTTACAAAGTCTCTTACGTCCTTTACGACGACGATTATTTAAGATGTTTGTTTTCTTGCGTGCAAAAAAACCATGTTTCTTAGATTTTTTACGATTATTTGGTTGATATGTTCTCTTCATTTGTTCCACCTCCAATAGAAATCTACATTATTATAATCAAGAATCCCCTATTTTGTCAATGAATAAAGGCTTTTTTCTAATTATCCACAGTAAAAACTTATTAATTTGTCTTTCTTTTCTCACTTTTCCACAAAAAGTTGGGGGAAATGTTGATAATTTTTCCATAAATGTTTATAAAAATTTGTGGAAAATGTGGATAAGTCTATTATTCATTGATTTATTGTCCTTTTTCTTGTTTATAATTCTGTGGAAAAATTGAGGAAAACTTTTTTTCCACTTTTTCTGTTTATTTTTTCCCTTTTTTAAGTTAGAATAGTGTTAATCAACGAACTTATTGATAGTGGGGAGATGGTTTTATGAATATGTCGACAATTTGGAATAATTTCTTAAAAAACATTCAAGATGAACTATCTTCACTATCATATGAAACTTGGTTTAAAGATACAGAACTCTACAAATTAGATGATGGTAAAGCAGTAATAATTGTTCCTATGTTAATTCATAAAAAACAATTAGGAGACAACTATTATGATTTAATTGTGGAAAACTTAAATAAGATTACTAATACTAATTTTGAATTAGAGTTCTTATTAAAGGAAGAAATAGAACCAGAATCTGATTCTCCAAAGCAGGAAAAAATTAGTGACGGAGTTCCTAAAGAGAATAACTTTCAATCTAATTTAAATCCTAATTATACATTTGAAACTTTTATTGTTGGTAATTCTAATAAATTTGCACAAGCAGCCGCTTTATCAGTAGCTGAATCACCTGGAGCTATGTATAATCCGTTGTTTATATATGGAAATAGTGGATTAGGTAAAACCCATTTAATGCATGCAATTGGTAACTATATTATAAAGAATAGTAATCGAAAGGTTCTTTATGTTACTAGTGATCAATTTATTAGTGATTTCATTGGTATTAATAAAAAAAATAGCGAAGGTAATAATTTTAATTATATTGAGTTCTTTAAAGATAAATATCGTAATGTTGATGTCTTAATAATTGATGATATTCAGTTCTTAGGAGGAGCAACCCAAACACAACAAGAATTTTTCCACACTTTTAATACCCTTTATAGTGATAGTAAACAAATTATTATTTCATCGGATCGTTCTCCTGATGATTTAAAACTATTAGAAGATCGACTTAGAACTAGATTCTGTTGGGGATTAACAGTTAATATCTTTCCACCAGACTTTGCTTTAAGAAAAGAAATATTAAAGAAAAAAATAATTGCTGGTAACTTTGAAAAGGAAATTCCAGAGGATGTTATTGAATATATTGCTTCTAATATTGGTACTGATGTTAGACAATTAGAAGGTTCTATAACCAGATTAATTGCTTATTCAACTATCATGGGAGGAGCTAAAATTGACGTTGATTTAGCTATTGAAGCTTTAAAAGATTTTATTTCTAAAGGAATGAGTGAAAAAGATGATATTCATCGTATTCAAAAGATCGTTGCTGATGAATTTAGTATTACTGTAGAAGATATAAGAGGTAAGAAGAGAAGTGCTAATATTGCTTTTCCAAGACAGATTGCTATGTACCTATGTAGGCAGCTTACTGATGAGTCTTTTCCCAAAATAGGTACAGAATTTGGTGGAAAAGATCATTCAACAGTAATGCATTCAGTAGAAAAAATAGATAAAGAGTTGAAAACTAATACTGAATTACAAAAAACAATTGAAAAATTGAAAAAGAATATTATATAGGGTTGTGGATTACTTTTTTAAAAATAATTTTTTTCAACATTAGCATTTGATTAAAATTATTTGAAATATAAAGGAAAAATTAAGTTATTAACTTTTTCCACTGTAATAATAAAAATAATAGTTAAGAAAGAAGGAATATTTATGAAATTTACCATTAAAAGAGAATTATTATTAGAAGGGTTAAATAAAGTATCTAAGGCTATATCAACTAAGAATCTAATTCCAGTTTTAGCTGGTATTAAATTTGATTTAACAAAAAAGAAATTGACTTTAACTGCATCAGACAATGATATTACTATTCAGACTAGTATTATATCTAATTCTGATGACTTTAAAATTGAAAAAGAAGGATCCATTATTATTCAAGGAAAATATATTTTGGATATAATTCGTAAATTACCTGATGATTTTGTTAATATTGAGGTAATAGATGAATTAAAAATATTAATATATACTAAGAATAGTGAATTTAATTTGAATGGAATTGATAAAAAGGAATATCCTAATATTGATTTAAGTGTTTCTAAGAATAAAATTGAAATAGATGGGGATATTTTTAAGGAAATAGTTAGAGAAACAGCTTTTGCTGCTTCATATGAAGAAGCTAAACCAGTGCTTACAGGAATTAACTTTAATATTGTTGGAGATACTTTAGAAGTTAATAGTACTGATTCATATCGCTTAGCTCGTAAGATAGTAAAATTATCAAAAGATGTTGAGGAAAACTACAATATAGT
>sequence10
AAATTATTTGTTTTTGTACTCCAGATATATTAGTACCTGATTGAGCAAGATTAGCCTTAATACCTTTATCTAATTTTCTAATAAAAGAAGAAGCTTGAGCTATATCAAGAGCCTTTTCTACATTTTCTTTAGCTACTTTCTTATTGTCTTTACCAAAACGAATATTTTCCAGAATTGTTCCCTTAAAAAGAACTGCTTTTTGACTAATATAACCTAATTTACTATATAAATATTCATTACTCATATCTTTAATATTAATACCATCTATTAATATTTCTCCTGAACTAGTATCATAAAGACGAGGAATCAAGTTTATCAAAGTTGATTTACCACTACCAGTTGATCCAATAACTGCTATTGTCTCCCCAGTGTTAGCCTTAAAACTAATATCTTTTAGGACATAGTCTTCAGCATCCGGATATTTAAAACTGACATTTTTAAATTCCACTTCTCCTTTAATACTATTATTACTCTTTGTAATATTCCCTTCTTTAATCTTAGTATCAGTATCTAAAACCTCACTAATACGTTTAATTGATACTGCTGTTCTAGGATAAATAACAAAGATAATTGCTAAAACCATAAAAGATAATATTACTTGTACTGAATATGCTGAAAAGACAACCATATCACTAAAAATATTAAGACGATTTAGACCCGTTGTATTACTGATTAAAATAGCTCCTACAAAGTAAATAGCCCAACCTTGAAAAGCCATAATAGAACTCATAACAGGACTAATAAAAGCCATAATTTTTTGAACAAACATATTAGTATTAGTAAGTTCTTCATTAGCACCTGTAAATTTATTAAGTTGATATTCTTCAGCATTATAAGCTCTTATTACTTTAATACCATGCAAATTCTCACTAGTTATACCATTGATATTATCAGTTAACTTCTGAATTTTCTTAAACTTAGGAATAGCCACTAAAATAACAAACAAATTAAGAACAATTACTATTACTACTCCCCCTAAAGTAATAAGGGAAAAACTCCATTCTTTACCAGCTATTTTTATAATTGCTAAAGTCGCCATAATTGGTGCTTTGGCAAGCATCTGCACACCCATTACTACAAACATCTTTATTTGCGTAATATCATTAGTAGCTCTAGTAATTAAACTACTAGTGGAAAACTTATTAATCTCTTCCATACCAAAAGATTGGACTTTTCTAAATACTTTCTTACGTAAATTTTTCTCAAATGAAGTTCCAGTAAATGAAGCTAAAAAGATAACTGAAAAAGCCAAAACCAAACTACCCAAGGAACAAAGAATCATAAAGAAACCATTCTCTAATATTTCCTCAATTCCACTATTAGAAGTCTGAACTAATTTAGTTATTTCTGACATATAATCAGGTACTTTTAAATCTAATATTACTTGTAAAACTATTAAGATAATAGCTAATACTATAAAGATTCTTTCTCTTCCTTTTAATTCCTTCAATAACTTTAGCATTTTATCACCTCGTACCTACTATATTGTACCATTATTATGAAATATACAAAAGAATAAAAAAAGAACTAAACTTAGTTCTTTAATACATATATGGTGCCTGTGATCGGACTTGAACCGATACGGTATTGCTACCATTGGATTTTGAGTCCAACGCGTCTACCAATTCCACCACACAGGCATGTATAGATTATAACATATAATCTATAGTTTACAAAACCTCTTCTTCTCTATATTTAGCAGTATAAAGATCACTTTCTTCTGTCTCTTCTTCCTCTTCTAAGTATTCATCGATACTTGGCAACTCACTTTTAGAAGACATTTTAAAGTAATCCAAGAATAAATCCGTTGTACTATAAAGATAAGGTCTTCCTGGTTGATCACTTCTACCAACATCTTCAATTAAACCTTTCGCTACTAATTTCCTAAGCATTTGGGATGAAGATACTCCCCTTAACTTATCAACATCTATTCTGGTAATTGGCTCATTATAAGCAATAATAGCCAAAGTCTCAAGAGCCGCTTGTGATAAAGTATTACTCTCTTCATCAGTAACAATTTTCTTATAATACTCTTTATGCTCACTTTTAGTAGTCATTTTGTACTTATTACCTAATTTTTCAATTGTAAGTCCTCTATCATCACTTACTAAGTCTTTTTTTAATTCTTCTAGTAGACTATTTGCTTTATCTTCATCTATTTCCAAAACTTCTTCAATTTGTTTTAGGGATACCCCATCATCACCCATTACGAAGAAAAGTCCTTCTAGTATTGCTTTCTTATTCATTATCTTCCCTCCACTAATATTTCATCAAATGTATTCTCTTGAACAATTTTTATTTCCTTTTCTTTAGCCATTTCTAAAATAGCTAAGAAAGTAGCAACTATATATTCACGACTGAAATCTTCAAATAATTCTGTAAATTTAACCCTTTTCCTACTCTTCAAAATCTTTTTAATACTATCTCTTCTACCACTAACACTTACTTCTTTAGTAGTAACACTAGTATGAAGTGGTTTCTTTTCTTCTTTACGCACTAAGTATCTCTTCAAAGCTTCCATTAAATCGTCAAGAGTAACATCTGTATCTAACTTAGCATCTTCATCTAAATAATTAGTAATATTCTCCCTAGCTTTAGTATATATTTCTCTTCTTAAAGCTTCTTTTTCTTGTAGTTCTTTAGTAATATCTTTATAAGCTTGATATTCTAATAATCGATTAATCAAATCCTCTCTTGGATCTATTTCTTCTTCCTCATCAAGAGTCTCTCTTGGAAGCAATAGTTTTGATTTTATTTCAATTAACTCACTGGCCATTACTAGATAAGAACTAGCTATCTCTAAGTCCATTTTCTTTTGTAAATCAAGGAAATCTAGATATTGTTGAGTTATTTTTTCAATTTCAATATCCATAATATCCATCTTTGCTTCTTTAATTAAATGAAGAAGTAAATCTAATGGTCCTTCGAAATCATCAATTACAAATTTAAGTTCCATTCTATCACATCCAGACTACTATAATTATACCATAAAATTATTTTGTGGTATACTATTAACAGGTGAAGATAATGAAAAGATTTAATATGATTGATGAAGAATTCATCTGTGAAAACTGTGGTAAGAAAGTTCCTCCCTTAGAGTACTCAGCACGTGATCATTGTCCTTTCTGTCTTTATTCTAAACATGTTGATATCAATCCCGGTGACCGCGAAAACGATTGTAAAGGATTAATGGAACCCATTGGTATAGAAAAGTATAAAGATACTTATAAAATTATTTATAAATGCACTAAATGTAGGAGAACACACAAAAATATCGCTGCTCGTGATGATGATTATAATAAAATAATAGAGATATCTAAAATGTGATATCTCTAATTTTTTGGTTTAAATATTAAAGCAAAGAAAAAAGCAAAAATAATGGCAGCTGTTATGCCCGAAGCAGTTAAATCAAACATGCCCATAAAAATGCCTAAAAAGCCTGATTTATCAGCATGTGCTAAAGATCCATGAATCAACAAATGACCAAAACTAGTAATGGGAACACAAGCCCCACCACCAAAAAATAATACTAATTTGTCATAAATACTAAAGACATCTAAAAAAGCTCCGCTGACAACAAAGATAGAAGTTACATGCCCTGGAGTTAATTTTGTATTACTTAATAGTACTTGAGCAATTAAACAGATAAAACCACAAAAGAAAAAAGATCTTACTAGAAGCATTATATAGCCTCCAAACTAACTGCATGGGCAATAGATAAGATGTTCTTTTTTTGAAAGAGCGACACTGGTGAGAACAAGGCTCCTGTAGGTACTAATAGTACTTTTTTTAATTCTTTTTTCTTTAATTTATCAAGAATATAACTATAATTAACTAATGCTGAACAAACAGGGCCACTACCCCCAGCATGAACCTCTTTTTGATGTTCCAAGTCATATAAAATAGTACCACAATCCTCTAAATTATCCCGAACATCAATCTTTTCTTTTTGCCATAAATAATCCTTGACTATCTCTTTTCCATATTTGCCTAAATCACCCGTTAGAATCAAGTCATAATAACTAGCTTCTCTTTTCGTATCCCTAAGATGTGTTCGAATGGTATCAATAGCCGCTCCAGCCATAACTGCCCCCATATTATTTGGGTCGTTTTCTCGACAATCAATTATTCTACCAATAGTAACACTTTCTACTTTAATACTTGTTTTTTCATCCTGTAATAAGATCGAAGCAGCTCCTGTCGCTGTAAAAGTAGATGTCTCTTTTTTAGGTACTCCATACTCTGTTGGATTGCGAAATTGTTTTTCACTAGCCAAATTATGCGAAGAGACAGTAACAATTGTCTTCTTTATTTGACTATTTTCTATAAAATTAGCACCAATAATTATACCTTCAGCACTACCAGCACAAGCACTATAAATACCTAAAAATGATTTACCAATACATTTTCCGGCACTATTAGAAGCCATAATTTGATTAGATAAGTCACTGGAAATCAACAAATCAAGATCTTTTTTTTGGCACTTAGCTTTTCTTAAAACAATATCTATACTGTCCTTTTGCATCTTCATTTCGGCCTGTTCAATTGATTTGGCTCCACAATATAAATCGGAATAGTCCTTGTCAAAATAATCCCCTAAAGGTCCTTTCTTTTCATAAGGACCTACTACCGTTGAAGTAGCAGCCACATAGACATTCTTGTACTTAAAAGTCATGATAATCCTCCTACCAAATAACGTAAAAGACCAAAAACCCAAGCTGAGACGATACCATAGAGAATAACTATACCTCCTAATTTAAATATATTTGATCCCAAGCCATGAATAAGGCCCTCACTGCGAGCATCCATAGCAGCACTAGTCATGGAATGAGCAAAACCAGTTATAGGGATTAAGAGTCCACATTTTGCCCTAGCTGCTAGTTTATCAAAAATACCTAAAGCCGTTAAAAAAGATGCAATAAGTATTAAAGTAATAATCATATAAGCCATACTATCAGAACGGGAGATATGAAATAAAAGGCAATACTTTTCAACTAACCATTCCCCAAACATACCAATTAAACCCCCAACGAAAAAAGAAACAAAACAATCCAGATAGGTTTTCTTTGTACTCTTAGCTCCTTTGTTTTGTTTCTGTACTATATCATCATAAGTTTTATCCATAGTATCACCATTCTTATTATGGTAATAATTCTATAAATTATTCTTTAACTTGGAAAGTACTTTCGCCTCCTTTCGTGATATTTGAACCTGACTGATACCCAATTTCTGCGATAATTCAGCCTGAGTCATATCTTCATAGTATCTACCAACAATTATTTCTTGTTCCTCTTTTTCTAGATGTTGAACTTCCATTTTTAAATCCATCACCTCTGGATTTAAAGCTTGGTCTTCAAAACCAATATTATTATATATTTCATCTTGATCTAAACTCTCTACTTTCAAAGCACTATCATACGCAGACACTAATTCTTCATAAGGAATCTCTAAATAGATAGCTATTTCATCAATAGTAGGTTCTCTTCCCATCTTTAAAGACATTACTTCTTTAGCCTTATTAATACTCTTATTTAACTTAATAATATCAGAAGATACTTTTAAAGGATTATCATCCTTAATATACTTACACACTTCCCCCTTAATATAAAACCAAGCGAAAGAGGAAAACTTCGTACCTTTTTCGGTATCATAATGATCAAGTGCTTTTTTAAGCCCCAACATTCCCGCTTGATATAAATCGTCCAAATCATAGTAATTTTTATATTTAGATATTACTTTATAGACCATATTTTCATATTCTAAGATGTCAATATCTTCCATTAATAGCACCCTTTCTCGATAAAAGACAGATCCAGCAACTTATTATCTAGCCCTCTAATCACAACCTTTTCACAACTAGTATATATTTCTAATAATTTATTATTTATAATTGGAATAATTCCTTTATTCATCTTAACCGCAATAAAATCCATTACGAAATATTTAATTCCTATATTATAAAGAAGATAATTAATTGTATTATCAAATTGTTCAATAGTAATATCATTTATTTCTCCATCGATTTTCATAAATATTACCCCTCTATTAACAAACAAATCGGTATATAGCATATTATCACCTCGTGATAACACTATAAAGTAATTTTCATTGTTTTTAAAGGCTTTCGACAAAGCCTTATCTTTTTTTTAATCGACAAAAAAACAGATTATTTAATCTGTTTAATTACAAGCTATATACTCTTCTAAAGATAATTTATTATCATGAATTCTTTTAGCTATTTTCCTACCAACATAACGGTAATGCCATGATTCATAGATATAACCTGTTATTGCTTTCTTATTTTTAGGAAATCTCAATATAAAGCCATTACGATATGCGTTATCCTGCATCCAATTAAACTCTTCTGTATTCTCAAAATTATTAAAACTAACCTTCTTAGTCCCTATATCAATAGAAAGTCCTGTTTGGTGCTCAGAATAACCTGGTCGTGCCGAATACTTATCAGCAGCCTCTTTTCCATCCTTAGCTTGATAATTATTATAAAGTTTAACTTGATAATCATAGCTACGATAACTAGATTGAACATAAATATTCATATTATCTTTTTTAGCAGATTCTACTAATTTATCTAAGGCTTCTTTTGCTTCTTTCCGTAATTTCATTCCTCCTCTAGCATATTCTCCCGGAAGAACTACCAAATCATCAGGTTCATATCCATCAGGAAAATGATAATACTTATTTATCAAGACATCTATTCTACTAGGATTTTTCACTACTTTAGTATTAGTATAAAAGTCATAATCCAAATTCATATTAACCCTTAATACTATTTCTTTAATCTTTAAATCCGGTTCTTTTTTCTGATAATTTTGATATCTAGCCAAGTTCTCTTTGCGATAACATTTGCTTTTTTCAAATTCATTTTGCACTTTTTTACTAGATATAGTATTATTAAAAATAACAGGAGCAAGCAAAAAAACAAGTACAACAACTATTATTAATAAAATAAAATTCTTCATGATATCACCTACTATATATAATGTCATTAATCTCTATTTATGTATAAACTGTTCTCCTCTAACATATTTTTATTTAGGAGTTGATAATATGAAAAGATTACTTTTCGGCCTTTTTTTAATCATTCTTATTATACCACTTTCAGTTAAGGGTTTAAACGAAAAAGAGCTAGTTTCTAGTAATACCACTAGTGCTATCTTATTAGAAGAATCGACTGGTAAGATTCTCTATTCGAAGGAGATCCACAAAAAGGTCCCTGTTGCCTCTTTAACTAAGATGGTAGCTCAAATAATCATCTTAGAAAACATTGAACAAAAAAAGATTAAATGGGATGATGTTGTTACTGTCAGTAAAAATGCTTCTGATATGGGTGGATCTCAAATATATCTACAATATCAAGAAAAAATGACAGTTCGCGATTTATTTAAAGGTATCTCAATGGCTTCAGCAAATGACGCTACTGTAGCAATGGCAGAATATATAGCTGGTAGTGAAGAAAAGTTTGTTAAAAAGATGAATAATAAAGTTAAAAAGCTAGGTCTTAAAGACACTAATTTTAAAAACGCCACTGGTCTTGACGAAGAGAATCACTATTCAACTGCTTATGATATCGCCATGATTGCGAGAGAATTACTAACTCATAAAGATATACTAAGTTTTTCTGGTCAATATGAAGATTATTTACGAAAGGATACCCCTAATAAATTCTGGCTTGTTAATACTAATAAACTGATTCGCTTCTATGATAAAGCTGATGGCTTAAAAACTGGTCATACTGATAATGCTAAATATTGTATTGCTGCCACTGCCAAAAGAGACGATCTAAGGCTTATAGCTATCATTCTAGGTGCTGAAAAGCCTAAGATAAGAAACCAAGAAGCAACCAATCTATTAGACTATGGTTTCAATAATACTAAATATCAAGTTCTCTATAAGAAAAACAAACCAATTAAGAAAGTCAAAATAACTAATGGTAGTAAAAAATATCTTCATGTTCTACCTAAATATGATGTCATCATAGTATATACTAAGTCTGAAAAGAAAAAGGGAATTAATACTACTATTAAAATGAAAAAGATTAAACTACCAATAAAAAAGAATCAAGTTGTTGGTACATTGATTATTAAAAGTAATAAAAAAGTTATCAATAAAATCCCTTTAAAAGCCAAAGAAAACATCCATAAACTTTCCTTTATTAAGATTATTATTAATAACTTAAAATCCCTAGTATATTAAAAAAACAAGAATTACTTTTTCTTGTTTTTTAATGCATCTCTAATTTCAGTAAGAAGAACTATTTCTTCTGCTGGAGCAGCAGGTTCTTCTTCTTTTTTCTTATTGAATTTGTTCATTGCTTTAACAATAAGGAAAATACATAGAGCAATAATAAGGAAATTAATTATAGCTTGTAAGAAAGCACCATAGTTTAAAACAGCACTACCTACTTTAACATTTAAACCAGCGATGTTAACACCACCTGTTAGCATTCCTACAAGAGGCATTAACATATCATTAACTAGTGAAGTAACAATAGTTGAAAAAGCACCTCCAATAATTACACCAACAGCTAAATCCATTACATTTCCTTGTGCAATAAATTTCTTAAATTCCGCTATAAATCCATTTTTCTTTTTCATTTTTTTCTTCCTTTCCAACATTATAATACAACACTGTTTATATTTAATCAAACTTTTTCTTAAAATAATTATAAAGCTTATAAAGCACTAATATTTCTAAATAGAAAAACAATATAACATTACTTGTTTGTACTAAAGCTAAAATGTTTTTATTTTGATATATCATTTCATCAGCCTTTAAATTAATATTATTAGTCACACAAACACTGATTACTAAAACAAATAATAAGTATTCTAAACAGGCAACCACAATATTTAAGGTCTTAACCTTTTTGTTCATTGTTTTACTAACTATAGAGTATATTAATACTGCTGTAACCAGTACCATCATAAAGAAATAAGCAGCCATAGACGGGAAATAAATATAGTGTAGAACTGCCTTAGTTAAAACTTTAAAAGATGCACTAACATAATTACTATAGCAAGCAATTATTACAGCTATAAAGATTAAAAAGCAAAAGACAGTTGCTATCTTAACTTTCTTATCATTAGTCTTAATGTTTAAGAATATAAAGATAAATAAAAGAAGGCACAATATGGAAATTTCTATAGTCATAAATGAAGATAAAATATACTTTATTACTAAAGCAACTTTATCAAAGAATGTCATTTCCATATTACTACCTCCCTTATACTATTTCAAATATATAGATACTTTGTGTCTTACTGTCATTATTAGTACAAGTAATTAAAGTTAGTGTAGTAACATTAAAATTACGATGAATAACAACTTCTCCTGTCTTTGGCTGAACCTCAACCTTAACTAGTTTATATTCATATTTTTTCTTTTTATAAGTTACATATGCTCTATCCCCCGTTTTCAATTTATAAAGATAATTGAAATAAGCTATGTACGCATCTCCCGAATGAGCAAATAAAATTAAATTGCCCTTCTTTTTATCAGGAAAATCAGCTTGAGATGAAACTGTAACATTATACTCAATATTATTGTATGGAGAAGATTTCTCTAAGAACCCTCTCTTTAATCCTATTTTAGGTATTTCTAAATACCCAATATAGTCATAATTGATTTTTGGTTTTTCTGATTCATCAACCTTATCTACCACACTAGTATCATTTACTTTATTATCCTCTTCGTCAAAGAATTTAAACTTTATTTCATCAAACAATTCTGCCTTAACAGTTAATATGAAATTAGAACTTAAACATACTACCCCAATCAATACAAGTAAAGAGCCAATGAAATATAATTGACTCTTTTTAATCCTATTAAGCTTTTTGTTTTTGTTCATATACGTTAGTAGCAACCACTACTATTCCCGCACCTATAGCAAGAATCCCAATAAGGTATACAAACCAAGGTATATTACTTCCAGTATCAGGTGATTTTGTTGTTGGGGTATTAGTCATTACTACTGAAGTAACTTCACCAGATGGTTTAACATTAAATTGTACTGTCGTTGATGATTTAGCATATCCTTTTGGAGCAATAGTTTCAGTCAATGAATATTTACAATCATCACCATAATAAGGTAATGCTTCAATATAATGTGGTTCTTTTCCAGATACCCATGAAGCTACTGTTGCTCCAGTACAATCCTTAATTACTAATGTTGCCCCTGGAACTTCAGCACTATTAGTGATATCAGTTTTACTTATCTTAACTGGACCAGTTTTAATATCAAAATGGAAATTAGCATCAGTTGGAACATCTACTGAATCCCAAGCAGCATATAGAAGTACTTGATAGTCATCATACTGATCACCACTAGTAGGTGAATAAGAATAAGCTTTTCTCACTTCGAAAGTACCATTTATTACTACATTTTGTAAATCAATTTTGTTAGTATTTCTAACTTTACTGATTTCAACTTGAACTTTGAAACCTTTATTGACAGCAATTGGAGTAGATGAAGATACCTCTTTACCATTCTCATCAACAACTCTAGCGCCATATGTATTCTCTGGTAATACTACCTTATAAGATTTTAAATATCCAGTATATTCTGGTTTAATAACACTGGTTTCTAGATATTTACCACTAACTGACCATCTTACACCTTCAGTATTAACAGTAATTGTATTTTGAGTAGGATGATCATATTCACTCTTAGCTCCTTCAGCTAATTTAGCAACCTCGCTACCATATTTAGAATCAGCTTTAATAGCTGCAATTTGAGTTGCTGTTAAATATGGCCCTTCTGGATCAGTCTCAGAAAGTCTACCATCCCTTAAACATTGATAATACCAAATAGCTATCTGAGTCACATATTTTGCTTCGTTTGGAGTTAAACTAGGAGCAAAATTTGGGTTTTGATTATATCCTTGAGAAAGAATATATACTATACCGTCATCAATATAATTTGGATTAATAGTATCATTGTTCTTAGTATAAGTTATATTCCTATCAGTTAAAGGAAATGCTTTATCGTGCTCTAAACAATAAAGTTGTGTTCCATCTGGAGCAGCGATATCGGCACCCATAATAATGCCATTAATATAGTTCCAACTTGGATTGACAGCTGTACCTTTAGCTACAAAACTATCAGGAAGCGTAGATTCTGCCGCATAAGCTATTCCTGTAAAATTAATCATTCCCATTGCAATAATGAACGCTGCAATTAAAGCAGCAAACAAAAATGTTGCTTTGACATTTGCTGTTGTAATATTCTTTTTTTGAGTTTGTTTACTCATTTATCATCACCTTACCTTAATATAATTATATCATAAATATAGTATTTGCCAACATTTTTTTTACTCTATTGTGAAGATTTTCCTTAAAATTTCCAAATCCACATCCTTTTTAGTATATATACTGCATAAAATTTCATTTGCTTTAATATATTCACCAGTTAGTTTATTTAGCTTTATACCTGCTGAATAATCAATGCTATCCTCTTTAGTTAAACGTCCTGCACCCAACATAACTGATAGTTTTCCTATTTCCAAAGCACTAATATTAGTAATTATTCCGTCCTTATCAGACTTAACATCTATTCGTTTAGAATCAATTTTAAGTTTGCTTAAGTCTCCACCTTGTGCTTCAACAAATTCCAAGAACTTGTTATAAGCTTTACCACTTCTTATTACTTGTAACACCTCATTACGAGCCACACTGTAACTAATATTTTTAGCCATAACTACTATATGTGAAGCAATTTCTACACATAGATCACTTAACTTATTATGTTCCTTGTTTTGTAGAACATTCATAGCCTCAATAACCTCTAGATTATTACCAATACAATATCCCCTTGGAGTATTCATATCCGAAATGATTGTCTTAACTTCTTTACCATATTTTCCTCCAATCTTAACCATTAAACGAGCTAATTCCTTAGCATCATCTAAAGTCTTAATTAAGGCTCCTTCACCCACTTCAATATCAATTAGTATTTTATCAGCACCCATTGCTATCTTTTTACTCATAATACTAACTGCGATTAAAGGAATTGAATTAGCTGTACCACTTACATCTCTTAAAGCATATATAACTTTATCCATTGGTACTAGACTATCACTTTGGGAACAAATAACTAATCCTACTTTTTCAACTTGTTTTCTTATTTCGTCTTTAGACAATTTCAAATTCATTCCAGGAATAGAATTTAATTTATCCACTGTTCCACCAGTATAACCTAAACCTCTACCACTAATTTTAATAACTGGAATTCCTAAAGATGCCACTATTGGAGTAACTATTAAAGTTGCTTTATCACCAATTCCTCCAGTTGCGTGTTTATCCACTTTTATTCCCTCAACATCATCAAAATTTAAGACCTCTCCACTCTTAATAAAAATATCAGTCAAGTTAATAACTTCCTCATCACTCATACCATTTATACAAATAGCCATAAGTAGTGAAGACATCTGATAATCAGCTACTTCTTTATTCATGTAGCCATTAAAGACATAATCTAATTCTTCATAACTTAATTCTTCTCCACGTTGCTTTTTCAAAAGAATATCACCCTTTAAAAATTTTGGTAATTTCTTATTTTTACTATAGTATTTCTCTTTATAAATATTATCTCTTCTGGCCAGAATTAAGCTATCACTAGAAACCTTTTTATCAACCACTGTTCCAGCACCAACGACAGAGTCTTTCTCAATTACTACTGGCGCTACGATAACAGAATTGGCTCCAATACTAGCGCCATCTTCAACTTTACTAGTCTCTTTAGTATTCTTTTTGGAATTATAATTAGCAAAAACTACCCCTGCTCCTACATTGACATTATTACCAATAATAGCATCACCAATATAAGAAAAATGCTTAAAATAGTTTGAGTCTCCTATTTGGCTTTTCTTAATTTCGACACTATTACCAAAGTGATTGTCACTACCAATAACGTTATCCTCACGAATATGAGCATATGGTCCTATTCTATTGTTATCACCAATAATATTATTATCTTCAATTATCGAATTACTAATATAATTATCTTCCCCAATAATACTATTCTTAATCATTGAATTAGAATCAATAATAGTATTATCCCCAATAACTGTTCTACCAACAATACTGACATTAGGAAAGATAATAACTCCTTCCCCTAAAACCACGCCCTCTTCAATATATGTATTATGAGGATCAACAATTTTATAATTCAACATAGTATCACGCACCCACTATATTATTCTTATATTTATTATACCATTTATGACCAAATAAAAAAACTATTTTCATAGTTTTAACGCAATTTTTTCGCAATTAATTCAGCAAATCTTTTAGGGTCGTTAATCAAATAGTCATACAACTTATCATAGTTACGAATAGTTTTTATAAATTTTATCTCTTCTTCAGCCATCTTTACCCCATATTTACTGTCTTTATCAGCAATCACATGATAATCAGTTCCTAGTAAATAATTAATATCAACATTAAAGATTTCAGCTAAAGCAATTAGAGTATCAATAGTAGGCATTCTCTTATCATTTTCATAGCAATGAATAGTTACTTTAGTAACACCCATCATATCGCCTAATTCCTTCTGGGTTAAACCTCTATCTAGGCGCAGACTTTTAATTCTTTTACCTAACAACATAAGACTTCACCTCTTAGTTAGTCTTCCAATAAACTAAAGTAATTATAAATATAATAAAGAGGCATTTGTTTAAAGTTAACTAATAGTTACCTTCTAAAAGAAGCAGTCTATTTCTTGGCTGCTTCTTCCTCAGGTTCTTCGTTTTTAGTAAGAAAAGTTACCTTTTCGGCAATAATTTCCATTTTATATTTCTTTTCTTTGTCTTTTTCATAAACTGTACTTTGGACACGTCCTTTTATGCCAACGATATTTCCTTTTTTACAATAAGTAGCCGTATTCTTAGCTGTCATTTCCCAAGCAACACAATCAATAAAATCAGTTTCATAGGTACCATCCATGTTTTTAAAACTTCGCGGTACCGCTAAAGAAAAATGGGCATAACTCTTACCATTATCGCTCTTTTTAAGGGTAATATCCTGTGTAAGTCTTCCTACTAAAACAACTTGATTCAACATTTTTACCTCCTTTCCAGAAGATATAATAATTACAATTAAGAATAAGGCAAACGATCATTTTAATGTTTTAATTACTATAAAAGTAATAAAAAAAGAAAAGATATATTCCTTTTCTTTTTTTGACTAAATAATCATTTCAAAAATATAAAATTACAAGTTTTGCTTTAATAATTGATTTAATTCCACAGCATATTCCATTGGTAGTTCTTCTCTAAATTTCTCAATAAAGCCTAAAACAATTAAGCTCATAGCTTGTTCTTCAGAAAGACCCCTGCTCTCTAAATAGAAGAGATTATCAGGATTTATTTTAGAAACTGTAGCTTCATGTTCAATAATTGAAGAAAGATTATGACATATATTAGTAGGAATGGTGTCACTTTTAGACTTATCATCTAAAATTAAAGTATCACATTTAACGGTTGAACTACTGTTAGAAGCTTTCTTATCAATAAATACTTTACCCCGATAGGTGGCATTCCCTCCTTCTTTAGCAATACTTTTCGATATGATATTACTTGTAGTATTCTTACCTAAATGAATCATTCTTGCCCCACTATCTTGTTCTTGAGACTTAGAAGCTACACTGATCGTAATACATGTTCCTTTAGAATTATCCCCTTTTAAAACACAACAAGGATACTTCATTGTCTTATATGAACCAATATTACCATCAATCCACTCCATTGTCCCTCCTTCTTCAACAAGCGCTCTTTTAGTGACTAAATTATAGACATTAGGAGCCCAATTCTGGATAGTAGAATAACGGCATTTACTATTTTTACCAACATATATCTCTACTACTGCTGCATGAAGGGATGAGTCTGAATAAGTAGGTGCTGTACATCCTTCAACATAATGTAAAGATGAATTATCATCAACAATAATTAGACTTCGTTCAAATTGACCCATATTTTTAGAATTAATTCGGAAATAACTCTGTAGTGGTCGATCAAGAGTAGTATTAGGGGGAATATAGATAAAACTACCACCACTAAATACTGCCCCATTTAAAGCCGCAAATTTATTTTCATCGTTTTTTACGATAGTCCCAAAATACTTTTTAACTAAATCTGGATATAGTTTCATAGCTTGTTCAATGGAAGTAAAGATTACCTTTTTATCCTCAAGTTCCTTAATCATATTATGGTATATTACTTCGCTTTCCCACTGTACACCTATACCATCTAAATGCTTTTCACTTTCAATAACCCCTAGATAATCCATTTCCTCTCTAATAGGTTTTAAGACCTGTTTCCAATCATCTTTAATTTTCTCATCCTGTTTATCATTTTTATAATAGATGATCTTCGAAAAATCTAACTCTATCTCAGGACCAAAAGAAGGAAGAGATTGCTTTTTAAACTCTTCATAACTATTTAAACGATAATCAGTTACCCACTTATCTTCTTTTTTAAACTGGGATATCTTCTCAATTTTTGCTTTAGAAATACCTACTATTTCCATATCAGCACCTCAATCTATTATGCTTTTTCTATTTCCTCTAATATCTTCTTAATCGCATTGTGTGGTAATAATGCACACATCTTCCTATTAGGTTGTTTATAAATAGTATCATAAACATTTAACTCCCCTAATAACTTTTTATCATAATCCCCTTCATTAATCATATTTTCATAATTTAAAAGGATCTTTTTAGCCTCCTCTACTTTTTTGTTAAGTAGACTCTTAATCATAATACTAGTTGCGCTAGTACTAATGGCACATGCTTCACCATCAAAAACAATGTCCTCAATAACACCATTTTCTACTTTGACCATAATATCAATATTATCAATACATGATTCATTATTAGTATTTTCCTTAATATATGCTTCATCATCCACTAGTCCCTTGTGAACAGGATGCTGATAATTATCGATAATAATCTCTCTTTTTAACTCTTCATCCATTTATATCACCACTTTAAATATATTATAACTTTGACGAAGAACTTCAATTAGTTTATCAATTTCTTCTTTTGTATTATAAAAATATAAACTTATTCTGACAGTATTCTTAATATTTAGTTCATCCTTCAATACTTTAGCACAATGATTACCTGCCCGAACACAAATATTATAATGATTTAAATATATAGAAGTATCTTGAGCAAAGACATCATTAATATTAAAACTTAGAATACCACTTTTAGACTTCGTATTATATAACTTAATATTTTCAATTTTAGACAATTCATCTACTAAATATTTCTTTAAAGCTAGTTCGTGTTTATGAATAGTATCCATCCCCATAGCTGATAAATAGTTAATTGCTTCCCTTAAACCAATTACTTCCGCAATTGGTGGAGTACCTCCTTCAAATCTACTAGGACCTTTTTTTAATTCATAGGAACCATCACTGGCAAAGTCTTGGTTCATACCACCACCATAAATAAGAGGTTCCATCTTATCAATTAAAGCTTTCTTCACTACTAGGCAACCAACTCCAGTTGGTCCAGCCATTTTATGACCAGAAAAAGCTAGAAAATCCATATTATCTTTAGTAAAATCTACTGGCATGTGAGGAACACTTTGAGCTCCATCAACACTTAATAAAATATTCTTCTTTTTACAAAGAGCTCCTATTTTCTCGATATCACGAACATCGCCAACTACATTGCTAACTTGAGCAATTGAAACAACTCTTGTCTTAGGAGTAATAGCTTTTTCAATACTTTCATAAGTTAACTCATAATCTTTATTTAAAGGTGCATATTTAATATTAATGCCTATTTCTTCACTTAGCTTTATCCATGGCAAAATATTAGAGGCATGCTCTGCCTTAGAAAGAAGAACTTCATCTCCTCTTTTTAAATGCTTTTTCATATAACCAAAAACTACTAAATTTAAAGACTCTGTTGTACCTTTAGTAAATATTACTTCTGCACCTTGAGCATTAACAAACTCTTTTACTACTTCTCTAGTGCCATCATAAAGTTCATTAGTAACAATAGCTTGTTTATAGTCACCTCTATGGATATTAGAAGTATGCTCAAAATAATATTTATTCATGGCTTCAATTACACTCTTAGGTTTAAGCGTTGTTGCACCATTATCAAAATAAATAATATCATTATTTAATATTGGAAAATCTTCTCTATTCATTCTTTCACCTCCTATATCTTAGAAAGTTCGTCCATAAATTCTGTAATTCCTTCGGGATCAGCATGTACTAAAAACCCTTTTAATAATAGCTCATAAGCTTTAGATACACTAATACCTCTACTAGTTAAATAAAACATCACATCATCATCAAACTTACCAATATAAGCTGAATGTGATGAACTAATATCATAGTTATCAATCAAGAGAATTGGCCTTATAGTACTTTTGCCATCTTTAATATTGATAATTCGATTATCTTGATTAGTAATACATTCCTTATTATCTTTAGGTACTTTAGAAGTAACATCATATAAAAGTTTATTATTTTCAACATTAACACCGTGATTATATAAATTAACTTCACTCTTAGGGGCTTTATGATATACATTAATCTGATATTTATTATCATCATAATTAATATTACTATAATAAAAATTACAAATACTCTTTTCTTTATTAGCGTTAATTGTTACTGAAAGACTTTTATCAACAGCATAAACATAGATATCTGTTTTCACTTTTTCAATATTAAAGACTAAATCAATATTCTCCTCAATAACCAAAGTTAGAACACTATCGTTCTTAATAGTGAGTTCAGAATCCTTTTTTAGTGCTATAAATTGATCTTTATCTATTAATATCCTATTCATAATTCTTAGCTTCTTCCACTTCATTTATACTAAGATATCCACTAGATTCTATTTCTTCAGCTAGTTTTCGGTCCCCAGACTTTTTAATCTGACCATCTAAAAGAATATGTACCCGATCTGGCTTAATATATTCCAAAATACGTGGGTAATGAGTAATAATTAAAACTGCTGTATCACTATTCTCTTTTAAATAGTCATTAATATTCTTACATACTAATTTTAAACTATCAATATCAAGTCCAGAATCTAATTCATCTAGAATAATAAACTCAGGTTTAAGAACTTTCAATTGTAAAACTTCTGATTTCTTTCTTTCCCCGCCAGAAAAAGATTTATTTAAACTACGATGTAACATACTAGGATCCATCTTCAAGTCATGAGCAGCATCATCTAAACTATTAATGAAGTCATATAGATTAACATCCCCTTCTTTTTCACGAAGAGCTGTTTTTAAAAACTCACTTAATTTAACACCATCAATTGCCATGGGATCTTGCATAGTAACAAAAAGACCCAACTTAGCTCTTTCTTCTGTACTCTTATCAAGAATAGATTTCTTTTTAAACAGAATATCTCCTTTAGTAACTTTATATTTATAGTTACCCATTATTACTTTAGATAAAGTACTTTTACCAACGCCATTAGGACCCATAATCACATGGATTTCCCCTTTAGGTATCGTTAAAGAGAATTTATCTAAAATGAGTTTATTATCATCAGTCGTCTTAACTGTAATATTCTTTATTTCCAACATTATAATCACCCACCAATAACAATTTACAAGCAGTTATATTTTACCATAATTATCTTTCTTTTAAAAGAAAAAAACCTTTAAAAGGTTTAATTGTTTTCTTTAAATGAATACTTGTCATCTTCAGTGAAAGCAACAGGTATATTAGTTAGGGAATCACCTAATGAGAAATCTACTAGATTATCTTCCTTAGCTTCTTCCTTGAATACTTCGTTATCATCATAATCAGCTCTAGGTGGTTCTTTAATATCTAATCCACCTTCAGGTTCTACACCCTTAACTAATTCTTTAACGCTATTAATCTGTCTTGTCATATTTCTCATGTTTTCAATCAATTGACTTCTACCTTTGATAAGACGATTGTTTTCATCTTGAAGATTATCAGCTCTTTCAGTCTCTTCGTTATGTAACTTTTGCTCTGTCTTCAATTCCTCTAAAGCATTCTCATATTTAGTACTCAATTCGCTCTGATCACTCTTCAATTGAGTTAATTCCTCATATGATTCTCTTAATTGTTCTCTAAGTTTTTCAATTGTATCGCTCTTCTTCTTGCCCTCTTCATCTAGAACTTCAGCCCGAGCATTAGCTCTTTGATACCTTGATTGCCAATTAGCCCCATGATTCTTTAATTTAGCGATATCAGTATCATACTTATAATTTAATTCATCTATTTCTTTATGATGATCTTCATCTTTTTGGGCTAATTTACGTTCATAATCAGCAACCATTTTATCATATTTCTCATCACGTTTATCAATTACATGTTTTAAATCTTCTACTACTGAATAAGATTCTTCAAATTTTTCAATAGCATCGCTAATTAAAGCATCTGGTTCTTCTGGCTCTACATAATTATCAATATTATTTTCTTCTAATTCCTCTGGTTCTTCTGCAAAGTCTTCGCTAGGTATATCAAAATCAGATGATTCATTATTAACGCCCTGCATTTTCTCAAAGAAATCATTTGGCATTGCATCTTGAGTGTTAGTATCTGCTTCATTATAATCAAACATATTAGCTACATTTGGAGCAGTTGTTTCTTCTCCAAATGAACCATCAGCATTCATACTTAAATTAGCATTCGCAGCTGGTGCTTCTGGTTGTGATACAGCCTCTTCAGGAGCACTTGGTGCTTCTTCAACATTATTTTCTGCTGGTGCCTCTGCAGCTGGTGCTTCAGGTTGTGGTGCTGCTTCTTCAGGAGTTTCTTCCGCACTAGCAACTTTCATCTTTTGACTAGCACTACCTTTTATATTGTCATGGAAATAAATGGCACTATTGTTTTGTCCAACAAAACTACACTCTGTTCCTGGTATTTTGTTTCCAGTAAGATCATATAATCCAGCTTGTGAATAAGAATCTGAGAATAAAATTCTACTATTTGTTCCATCCCTATTCATTTCAGCTAAAATTTGCGCTTCAATCTCGCTCATTTCATTAGCAATTTGTGGTCTAAAACCAGGATCATTTTGTTTGCCAATTGCATCTAATACTTTAGAATCAGTAGGATTAGATTCCACTACTAATAGATAATCAGCAACTCCATCAAGCTTCTGGATTTCTTTTTTATCTAAAGGAATTACAACATTACCTGCGCCATCAATCACACCTAAGTCTGTCTTCGCAGCTTCATCAACTACTACTAAAGGGTTTGCTGAAACAATAAATAAATTATCATTTATCTTTCCCTCATCATTAAAATAGTATTTATTACCATCATCAGTAGTAATTTGATTACATTGTTTTCCGCTAGGAACAGCCACTCTTAATATTTCCATCTATAAACACCACCTATTATATTCATTATAAATCTTATCACATCTTTTAAATCAATGCAATAGCTTTTCCAAAATTATTTATTGATTAAAGAGGATTTTTTAGTTAAAATGTAATTGGTGATAGTATGAAAGAAAAGAATTTTTTAACTTTTGGAATGGTGACTTTATTCTTAGTAATCATTATTTCTTTTGCTTTTATTATAATTAATGAGAAGGATACTCCGTTCTTACTAAATTTTGCTGAAAGGAAAATGACTAATTACGTTAAAAAGAAATATCCTCAAGAAGAAAAGAACTTCCAATATTCAAAAGTTAGATACTATGAAAAAGGAAATTCTTATAAGATGAGAATAACTAATATCAATAATAAAAAGAAATATTTCGTTGTTATACTTAAAAACAAAAAAATGAAAGATACATATAACCAAACATATAACAAGGAGGTAATAAAGTATGAATGATTGTATTTTTTGTAAGATATTGAAAGGTGAATTACCATCTAAGGTGATTTATGAAGATGAAATTCTATCTGTCTTTATGAATATTGATCCTAATACTAATGGTCATCTATTAATGGTACCTAAAAATCATGAAGTTACATTTGATGATGTTAGTGAAGAGTTTATTACTCATTCACTAAGTGTCATTAGGGATGTTATTTATCCTTTAGTAAAAGAAAAACTAGGTGCTGAAGGGTTAACTATTTCCCAAAACAATTATCTAGGCCAAGAAGTAAAACATTTCCATATTCACTTAATTCCTAGATATAGCGATGATGGTGTATTATACACCTACAATAAAAGAGTAATAAGACCAGTTGATGAAACATATGAAACGCTAACAAAAAAAGACTAAAAACAGTCTTTTTTTTATACTAATTTTCCCATTACTAATAGATTATAACGATAATACTTCTCTCTATAATTAGGATCCATTGAACAAGTCTGTAAGATTAGTATTTTATCATTACCATTAACAGTTACACCCGTATCATAATCTGAATTAGTTTTATACTTTTTAATAGTTGCATCCCACTCATTATCACTATAGTTCATATCATAGAAGTAATCTAACCCTTCACTTTCAGGACTATCAGCTACTGATACATAAACTGAGAAAATCAAATAAGTGTACTTTTTACCATCAAAATTAATGGTAATATATCTATGTGCATCATAGAACGCCTTATTATTATGATAGTTTTGTAATACTTGGAAGGGACCATTACCACTCATATTACTATGAGCATAAGCAATTGTCTTTCTTGTATTAAAATTAGTTCTAAAGTCAATATAAGGAACTCCTATTCCATCATAAGCACCATTAATACCATGGTTTAAATAGAAGTTTTCACCAGTAGTATCTTTCATCAAAGACTTATTAAGAATACCATCAATATTAATACTATTACTTTCAATTACAGGAGTAGAAACAACATTGTTAATTCTTTCTACTTTAACTTCCTCTTTTACTTCTTTCTGTTCCTGTGCTATTGGTTTAATATCAGCCATTCCAATAAATGATCGATTCAAAGTACTTGGGTCAAAACCACTTTCAAAATCACCAGTTGTAATCATTAAGGAATTACTAGCGAATAGTAATACACCTAAAATTTTAAGTACTTTTTTACCTAAAATACTAAACATATTTACAACCCCCTGATTAACTTGGTATATATACCAGTTAACGGGCATAATTATACCACAAAATGGCCATTTTGTCAATTAAAAAAGACTAGTCTTTAGCCTTTTTAATATGAGATTGCACTACCTAATATGATAGCGAGTAAAATATATAAAACCACAATTATTAAAAAGTTAGGTCTTCCTGAAGTATTATTACTACATGACATATCTTTCACCTCCTAATATTAAACGTAAGCACCTAATATGATTATTAAAAGAATAAATAATACCAATATAATTCCTGCTGATCCATTACGATTACACATATAAAGTCCTCCTTTTTTTATGATTTCATATTATCTTATGGCAAAAGTACTAAAAGTGTGATTATATAGTCCCAAAAAAGTTGAAAATATATATTATTTGTTGTATTATAAAACTTGTGGGAGGAATAAATATGCAGAAAAAAATAGGATATATTTTAGTAATTGTTGCTTTATTAGGAGTTATTACTGGTTGTGGATCAGTTAAACTTAAGAATGGAGAAAAAGCGGTGGTTACCTATAATAAAAAAGGTAAAATCTCATCAGATGCTCTTTATAAGGAAATAGTTAAAAAATATGGTATTAATAATCTAATTGATATGATTGACCATAAGCTATTTGATAAGAAGTATCCTGCTGACGATGAAGAAAAGAGTGAGATTAACAATCAAATTGCTCAAATAAAATCACAATATGGAGAAGCCAACTTTGAAAATGCCATTCAAACTTATTATGGTGTTAAAGATGAAAAAGAGCTTAGAAGATCTTTATCTCTAGATTATAAAAGAGATTTGGCCGTTAAAGACTATTTAAAGAAGCAATTAACTGATGAAGAAATTAAGAATTATTATGACAACAACATCTATGGCGATATCAAAGCTAGTCATATCTTAATATCTGCCAATATTACTGATGATATGGATCCTGAAGAACAAGAACAAGTAAAAGAAAAAGCTCGTGAAAAAGCCGAAAAAATAATTGAAAAGCTTAATAATGGTAAAAAGTTTGCTGACTTAGCTAAAAAATACTCTGATGATGAAGCTACTGCTTCTAAAGGTGGAGATTTAGGTTACTTTAATAAAGATAGTAATTTTGATGAAGATTTCGTTAATGCTGCTATTTTGCTAAAGAAAGGTGAATACACTAAGGAACCAGTACAAAGCCAATATGGATATCACATTATTAAGAAAATCAAGGAGAAAGATAAACCTAGTCTAAAGAAAGCTAAAGATGATATTAAGACTACTTTAGCAGAAGAAAAACTTAAATCTGATAATTATCTTCATAATAAAACTTTAAGAGATATTAGAGAAGAAAAGAAAGTTAAGTTTAAAGACTCTTATCTAAAAAAAGAATACAAAAAACTTATGAATAGATTAACTGGAGTTACTAAAGAATAAAAAAGCGATTAATATCGCTTTTTATTTTTCAATAATATATCCCTTTTGATAGAGTTTTTTCTCAATAAATAGTTCTAATTCCCTACCACTATATTTCTTTTTATACCGCTCATATAACTTGTTATATTCTTTCTGATATTGTTCCTTATCCTGTTTAAATTCTACTCTAGCCACGCACTTATTTATTACATCATCATCAAAACCCTCTAATTTCAATTTAGTAATTATTTTCTGCTTTAAAACAAAAGGTCCTTTACTACGATTAGTTTTAACCAAATAATTAATTATCTTAGTTATTTTTTCTTCCTGTTCTTCCTTAGAATAATCCATAATTACTCTACTAATAATATCCTCTGAAAGACCCTTTTTACGCATATTAACCATTATCTTTTTAGGACCATTCTTAGTCATTATCAATTGCTCATTTAAATAACTATAGGCATATCTTTCATCATCTAAATACTTTTGTGTGACTAGTTTATTA