##gff-version 3
sequence01	MetaGeneAnnotator	CDS	513	1736	.	-	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFKNFFILIFFITLSINNVFSINFETAKKDLDNKNYKKAYDGFNKCTADCLENGNCSSEHFSCMLEIGRMLEQGLAEKNLTKKQRLKKAKFWYKYCSDKGSEICAQKSSTLEPKTQFIVKNIQEKLFDLGYPIKRDDIPGKETFAAIKQFQEKENLTVKLPTEPEEWLKLNDLLTNAIANKNNNQNIEIGKYSKYGTGIWIGKDKNLYVLTAAHFVNNCKKIRSNKYKNDLSLRIYEIDKENDLALLETDDVTDKKFIPVTLSSRIFENEKIYIYGYPRQTILGKNEETEGVVKSLKTRKNNRARIIIQPINDLYSGSSGSPVINEKGLMIGTVYGKDSIKKKILDLLRYSTSSEGLYKVNSIYVIKSFLDEHKIEYITKDINKKKTKEQIILEAERYTIPLKCD;locus_tag=LOCUS_0010;note=MGA_2
sequence01	MetaGeneAnnotator	CDS	1901	2944	.	-	0	ID=MGA_3;product=iron deficiency-induced protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DLH9;translation=MLNKKYSLLSLLIISLIVILLDLYPIESKTKNELNIYSGRKLHLIEPLIEIFKKKTGIKVNIVTGKSDQFIERIKLERNNPEGDLLITTDVARLHRAKKNNIFTKIDSKILKKNIPSKFRDKENYWFGLSVRARPIIFSKERVKIEELSTYEDLKNKKWKNRICMRSSNNVYNQSLISYMIINLGKKRTENWIDGLVKNFKKKPHGGDRDQIRSIAYGECDVTIANTYYLANMLNGKNKKDKTAAEKVSIFWPNQQSHGTHINISGAGIIKGAKNLNNAISFLEFLTTKEAQGIYTEKINEYSIRNDVKISEILTNFGEFIANDNIIHLIGKNLEKSILIASKNKWR;locus_tag=LOCUS_0020;gene=idiA;note=Q8DLH9 iron deficiency-induced protein A (Thermosynechococcus elongatus BP-1) [pid:41.1%25%2C q_cov:90.5%25%2C s_cov:88.5%25%2C Eval:1.0e-68],MGA_3
sequence01	MetaGeneAnnotator	CDS	3063	4526	.	+	0	ID=MGA_4;product=L-2%2C4-diaminobutyrate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125187.1;translation=MFNQKKIQKMAFIDPNGTNAKYVKKIISKVVDNLINKVSNAESYPPLLKKKKYLDNFNFNDLPISERELLKKTKLIINQSMNASNPYYLGHMDSLPTTMSIIGDIICSTINNNMLSKETAPVFTEIEEKVTGMLSEKFKLGEDSGGIMLGGGSLSNIQAIAIARNRILGSFDKGLMNLRRKPYIFASKEAHTSIKKAAMILGLGTQSVISIPTDSTGKMDIIFLNKCIKKKIKENGIPLCIVATAGTTISGSVDNLNEISKIAEKYKIWMHTDAVYAGALIFSDKYKNLLNGIEKSDSISFNPQKWLYITKTCSVLLLKNKKYLYSDFFTPLPYVAKDKNEYHPGELTIQGTRYPDILKLWLSLQHLGNFTYSKIIENSYRNTFLLKKNLEKINNIKFLCNPETNILCFRYVPSNINPIKHDKINLDLQKFLLNKNNIFFSYVSCNGFKWLRAVILNPFFNSRHINKICNVIESYFKKEKKLIKKVK;locus_tag=LOCUS_0030;gene=gadB;note=WP_011125187.1 L-2%2C4-diaminobutyrate decarboxylase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:30.0%25%2C q_cov:84.0%25%2C s_cov:87.5%25%2C Eval:6.8e-51],MGA_4
sequence01	MetaGeneAnnotator	CDS	4741	6114	.	+	0	ID=MGA_5;product=phosphomannomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387756.1;translation=MEKHKFNETILREYDIRGIVGKDLKLLDALFLGKSFATFLKKNKLKNVIIGYDGRNSSKEIERELVKGLFQKGIKILRIGLVPTPLLYFSMYIKKIDSAIMVTGSHNPSNYNGFKMLLKNKSLVGKDILEIAKIASTGNFLKNKKGYNKKISLLKKYLDFLSKTAKIKKNIRIAWDPGNGSGGNVINLLTKKIKGTHYLINDKIDGNFPAHHPDPTVPKNLKQLKVLVKKKKCDLGFAFDGDGDRLGVVDNKGNIIYADRVVAFLSKDVLKNKPKSKIILDIKSSQTVFNEIKKLNGKPFFWKTGHSLIKKKMKETKAVFAGEMSGHIFFGDKYFGFDDAIYASIRFLNLFCKMNKPLSDIFDCMENSFNTPELRYKSTEKEKFLIVEKLKRILKKEKKKFISIDGVRYSNKNGWWLVRASNTQDILVARCESNTEKNLKKIKLDLKLMLKKCNFKI;locus_tag=LOCUS_0040;EC_number=5.4.2.8;note=WP_011387756.1 phosphomannomutase (Rhodospirillum rubrum ATCC 11170) [pid:42.5%25%2C q_cov:96.9%25%2C s_cov:95.1%25%2C Eval:1.6e-102],MGA_5
sequence01	MetaGeneAnnotator	CDS	6172	6498	.	+	0	ID=MGA_6;product=ATP-dependent Clp protease adapter protein ClpS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U8I7;translation=MSKINYNHKLNEETLIKKRTKKKLKKPSLFKVIMINDDYTPMQFVVYLLKNYFNKNDPEANKIMLEVHNHGSGMCGIFTLEIAESKILKVINYSRNNGYPLLCIMKKI;locus_tag=LOCUS_0050;gene=clpS;note=A6U8I7 ATP-dependent Clp protease adapter protein ClpS (Sinorhizobium medicae WSM419) [pid:48.5%25%2C q_cov:89.8%25%2C s_cov:82.9%25%2C Eval:1.6e-25],MGA_6
sequence01	MetaGeneAnnotator	CDS	6500	8782	.	+	0	ID=MGA_7;product=ATP-dependent Clp protease ATP-binding subunit ClpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389862.1;translation=MLSNKLEKTIKRAISYATDRQHQYVTLEHLLLALIEDDDASAVLNACNVNVENLKISLIKFIDEELKSIVSSSVQEAEASASFQRVLQRTATHVYSSETKKINGANVLVSIFSERESHAVYFLQKQDMSRLDALNFISHGIEKNENDELEEEDMNENSENNFIYPNTYQPKETKNSDGYTINLMNKAKNKMIDKLIGRNNEIDRTIQILSRRLKNNPLLVGEPGVGKTAIAEGLAFRIFKKEVPNFLYDAVIYQLDLGTLIAGTKYRGDFEERLKKVIKNITSSKKNILFIDEIHTIVGAGATTSGSIDASNILKPFLSNGQIRCIGSTTYKEYRNYFDKDKAFSRRFQKIDIDEPSLTECFEILKGIKNYYEKFHGFKYTDEALKSSIDLSNRYISQKKLPDKAIDIIDEAGAYKKVFFKDNKEINTEDIINTVSRIVKIPISNINDQNNSLTKSLDKNIKKVIFGQDKAVDNLIRSVKISKAGLSDFDKPIGCFLFTGPTGVGKTELAKQLSKSLNSKFIRLDMSEYSEKHSVARLIGSPPGYVGFDQGGLLTESVDQNPYSVVLFDEIEKAHYDLFNILLQVMDYGKLTDNNGKSVNFRNVILILTTNIGGDNLLKKKLGFNAFTENKNNEEEIKFFFKPEFRNRLDSIISFNSLSRKVILKIVNKFLLQLKKKLLDKNISVSFSDEVKNYLVLNGFSETFGARPLARLIQSKIKEPIADYLLSKSDKLKIFLNISLSNKKELKFDFKSKKVKEKII;locus_tag=LOCUS_0060;note=WP_011389862.1 ATP-dependent Clp protease ATP-binding subunit ClpA (Rhodospirillum rubrum ATCC 11170) [pid:52.4%25%2C q_cov:96.6%25%2C s_cov:95.0%25%2C Eval:3.5e-225],MGA_7
sequence01	MetaGeneAnnotator	CDS	8775	9239	.	-	0	ID=MGA_8;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971572.1;translation=MPNIIEQHLNSIGFSLPKIIKTAGTYTPYILENNFLYISGQLPIKNNKVIYTGKINNKNKKYGYKASELCALNILALVNIAIKGNIKKIKKCIRLNGFVNTDNNFSDIPFVINGASNIIKNIFKQNGVHTRTAIGVYNLPLNASVEIDAIFLTK;locus_tag=LOCUS_0070;note=WP_010971572.1 hypothetical protein (Agrobacterium fabrum str. C58) [pid:42.4%25%2C q_cov:97.4%25%2C s_cov:96.8%25%2C Eval:6.9e-29],MGA_8
sequence01	MetaGeneAnnotator	CDS	9248	12841	.	-	0	ID=MGA_9;product=ribonucleotide-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011337531.1;translation=MKIERKFTVKGESPYKKIAFKKVKSEIRNPDGSLIFKLENVEVPVKWSQVATDIIAQKYFRKKGVPTILKKKTEKNVPKWLSKSIPDHTKLDQLPLKNKYSGEISSKQVFDRLAGTWTYWGWKGKYFDSEEDAKSFYDELRFILCEQMAAPNSPQWFNTGLNWAYGINGPPQGHFYVNHNSGKLSLSETAYEHPQPHACFIQSVSDDLVNEGGIMDLWTKEARLFKYGSGTGSNFSHVRGDGENLSGGGKSSGLMSFLRIGDRSAGAIKSGGTTRRAAKMVVIDIDHPDIEDFIDWKVKEEQKVASLVVGSKICEKHLKEIMEACWNNEIDNDKERFNLKKNIILKGKILDAKKSLIPENYIQRVLEFAKQGYKSLEFSTYDTDWDSEAYLTVSGQNSNNSVRVTNDFLESVLNDKEWKLIRRTDQKIHKTVNAKDLWEKIGFAAWSCADPGIQYDTTINEWHTCPKSGRINASNPCSEYMFLDNTACTIASINLIEFLNKNGKFEIENFKHTVKLFTLVLEISVMMAQFPSKEIAELSYEFRTLGLGYANIGGLLMQQGFSYDSDEGRSICASITALMTGESYYVSSQIAKELGVFNGFIKNKDDMIKVITNHKKAAYGEKNNYIDLSIFPVPIKGKHCPDIELVNSAKKSWENALESGKKYGYRNAQTTVIAPTGTIGLVMDCDTTGIEPDFSTVKFKKLAGGGYFKIINRLIPISLKNLGYSQFQIEEITKYVIGNATLKNCKSINHQILIEKGFTKEIIDKIEENLKNAFDIKFSFNKFIIGEEFCTKILKLKKENLNDTSFNMLEHLGFNEKEIDNANTHCCGSMTLENAPHLKEEHLSIFDCANPCGKIGKRFLSTESHIKMMAAAQPFISGAISKTINMPNKATIEECKKSYIQSWKLGLKANALYRDGSKLSQPLASAIVEEDDIVNENDSIKDKTINVAEKIATNYVKEIIRTQRNKMPDRRKGYTQKAIVAGHKVYLRTGEYDDGSIGEIFLDMHKEGAAFRSLMNNFAIAISIGLQYGVPLEEFVEAYVGTKFEPSGTVQGNDSIRMASSILDYVFRELAISYLNKKDLAHFDPDKKISPTDDNEHKINELKAANANETISRYASTGYLRNNFYVLSGGMENLENNENKSVDLKIKSKKKNINDLIKKAKLRGYEGDACGDCGNFTLVRNGTCLKCNTCGSTTGCS;locus_tag=LOCUS_0080;gene=nrd;EC_number=1.17.4.-;note=WP_011337531.1 ribonucleotide-diphosphate reductase subunit alpha (Rhodobacter sphaeroides 2.4.1) [pid:60.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_9
sequence01	MetaGeneAnnotator	CDS	12999	13370	.	+	0	ID=MGA_10;product=NADH:ubiquinone oxidoreductase subunit NDUFA12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390193.1;translation=MNVMKNISLLIYTLFKGNFVGKDENGNKFYKSNVSHGTKKDKRWVLFKEEKDTNIQPDWHAWLHHLVNKVPSKKFKKRFYWQKKKTSNFTGTTKAYLPKGHILNKDKKGEENKNYISWKPNKK;locus_tag=LOCUS_0090;EC_number=1.6.99.3;note=WP_011390193.1 NADH:ubiquinone oxidoreductase subunit NDUFA12 (Rhodospirillum rubrum ATCC 11170) [pid:30.4%25%2C q_cov:89.4%25%2C s_cov:94.9%25%2C Eval:1.6e-11],MGA_10
sequence01	MetaGeneAnnotator	CDS	13347	13544	.	-	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVFTIIFKVPKKNSSLSSTLIFEIFPLTLFRAPKIVKLSETLKEKKRIIIEKINILNLFFIRFP;locus_tag=LOCUS_0100;note=MGA_11
sequence01	MetaGeneAnnotator	CDS	13686	14333	.	-	0	ID=MGA_12;product=leucyl/phenylalanyl-tRNA--protein transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UFR8;translation=MQVNEETILKGYSQGIFPMSESFDDPNIYWINPKKRGIIPINNFKISKSLKKLIKKKKFKITINKKFKEVIYNCAKKTKNRPSTWINKEIIRLYSNLHKINHAHSIEAWHDKKLVGGLYGVTLGSAFFGESMFSNISNASKICLIYLIANLKIKNFSLLDTQFINPHLKNLGAVEVTRKKYLEILEDSLSKKANFNKKINHSSIYETIHSMTQTS;locus_tag=LOCUS_0110;gene=aat;EC_number=2.3.2.6;note=Q8UFR8 leucyl/phenylalanyl-tRNA--protein transferase (Agrobacterium fabrum str. C58) [pid:48.1%25%2C q_cov:87.9%25%2C s_cov:92.6%25%2C Eval:3.4e-51],MGA_12
sequence01	MetaGeneAnnotator	CDS	14334	15116	.	-	0	ID=MGA_13;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSFGNENVYLEKFFDNPRHIEIQIIADKKNKVLHLGERDCSIQRNKQKIIEETPSPTLSNIERKKICNLVVKTIKKIGYESLGTVELLYKNKKFYFMEMNTRVQIEHTITERVTGIDLIKQQIKIAAGQKININQKDVQFSGHSIQCRINAEDPLSFIPSPGRIEEYHSPGGPGVRIDSALYAGCIVPHHYDNLISKIIIYSRNRNEAILRLRRCLIEYVINGVKTNIPLHLKILNSKDYNKGKYHINWLDKFLSINY;locus_tag=LOCUS_0120;note=WP_010870741.1 biotin carboxylase (Methanocaldococcus jannaschii DSM 2661) [pid:53.5%25%2C q_cov:97.3%25%2C s_cov:50.7%25%2C Eval:1.2e-81%2C partial hit],internal stop codon at [15183:15185](-),MGA_13
sequence01	MetaGeneAnnotator	CDS	15183	15677	.	-	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKILIANRGEIALRIVRTCRDLGIKTVAVHSIIDKDAMHVRLADEAVCIGESSIKNSYLNSFAILAAAEITNSDAVHPGAGFFSENYDFASMVKKHKMTFIGPTSQQIKMFGDKITAKNLMKKNGFPVIPGSDNYIKNIEEAKKIAKKIGYPVILKAGSGGG;locus_tag=LOCUS_0130;note=WP_013531357.1 acetyl-CoA carboxylase biotin carboxylase subunit (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:36.7%25%2C Eval:7.8e-53%2C partial hit],internal stop codon at [15183:15185](-),MGA_14
sequence01	MetaGeneAnnotator	CDS	15685	16062	.	-	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNENLIKNLTKAIKELTEVLKKSGVSVSNLKNNENNEKTDNKRIKIEHENALTSPMVGTVYLSPEPKAKNFIKQGQTVKKGDTLLIIEAMKTFNPIKAEKNGKVEKILVNDAEPVEFGQPLIVLK;locus_tag=LOCUS_0140;note=WP_012707677.1 acetyl-CoA carboxylase biotin carboxyl carrier protein subunit (Sinorhizobium fredii NGR234) [pid:63.6%25%2C q_cov:61.6%25%2C s_cov:49.4%25%2C Eval:7.9e-22%2C partial hit],MGA_15
sequence01	MetaGeneAnnotator	CDS	16078	16515	.	-	0	ID=MGA_16;product=3-dehydroquinate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NHI3;translation=MKKILVINGPNLNLLGERETEIYGKTSLSEIEDASNKIAKNNNLELVFKQSNEEAEIINWIQSCMSDEYKGLLINAGAYTHTSVAIFDALKALKIPIIEIHLSNIHKREEFRKKSFISEVAHGVIFGFGSYSYILAIMAMKNLIK;locus_tag=LOCUS_0150;gene=aroQ;EC_number=4.2.1.10;note=Q5NHI3 3-dehydroquinate dehydratase (Francisella tularensis subsp. tularensis SCHU S4) [pid:53.9%25%2C q_cov:97.2%25%2C s_cov:95.2%25%2C Eval:9.2e-35],MGA_16
sequence01	MetaGeneAnnotator	CDS	16530	17825	.	-	0	ID=MGA_17;product=peptidase M48;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390178.1;translation=MTFISNNALSFIIRDSEIENLIKDIVQPIAKAAKQDSNKLHIYILNDNKLNAFVTPGQKIFIFSGLITETKNSNELEAVIAHEIGHITGKHHFKIYEQIAKSRNITLIGFLLGGAAAALTGNADAFAAISGGAVSAGQSSFLSFSRVQEGSADRAAYKFLNESNKSLCGMISFFEVLQKYQSNFQRNAYTQSHPLTRERISDARNAARNENCDDISISKLNLSIEERYKFMQAKILGFTDPAVVINSIKHNKKFNEDHKNYALSIANYKLFNFNLANKLIDNLIKKYPENPYFYEIKAQMYRENGFLNKSLKNYIIVNKLLPNDPLIQIELAHTLINIDNKKAINKAIKFLNQAKKKEIENDKLWYLLSIAYGRNNEMGKSKYSSAYSSYLKGDDTMALNFITRAKKITKKNTKEWNELENLENKINSKKK;locus_tag=LOCUS_0160;note=WP_011390178.1 peptidase M48 (Rhodospirillum rubrum ATCC 11170) [pid:30.2%25%2C q_cov:91.6%25%2C s_cov:86.0%25%2C Eval:3.5e-48],MGA_17
sequence01	MetaGeneAnnotator	CDS	17904	19061	.	+	0	ID=MGA_18;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390176.1;translation=MSKFISKRGQVSNFIVMDLFEQAQNLSSRGKKIIHFEAGQPTAKLPQNAFKNALNKIKTTNVAYTNPLGLDILRKKISNYYLKKYKLKINYKKIIITFGSSGAFILSFLSSFDKGSKIGVTVPNYPAYKNIIKSLDLKIKPIFCNSKNNFEYNFKTICKYKDIDGLLISNPLNPTGSLLKKEEIKKISLFCLKNKIRIIADEIYHGVNYQKNITTFLRYNKKAIIINSFSKYFLLTGWRVGWLICPNDLYSSIKNLAPNLFVAPPTISQYVALSALNYKKYLNDIVKDYKKNLDMLYDFLPTINIFPVIKPKGSFYLYADISKISNDSEKLCKKLLNEHGIVLTPGVDFDEYEGKKYVRFCYSYPKQNIIDGIKKLNIVFGRKNT;locus_tag=LOCUS_0170;EC_number=2.6.1.-;note=WP_011390176.1 aminotransferase (Rhodospirillum rubrum ATCC 11170) [pid:35.0%25%2C q_cov:97.7%25%2C s_cov:95.4%25%2C Eval:1.4e-72],MGA_18
sequence01	MetaGeneAnnotator	CDS	19029	21071	.	-	0	ID=MGA_19;product=lytic transglycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597581.1;translation=MFKNVLIFFSIIFFFLSFQNESKGLTSKQVSIIKQKVIVTNILISKVRTEKNKIKSKKFQESKIIFDLIKEKKWDKATKAAKNNIVLKKIIEWHYLSQNNNNNFFRTKKFIEKNINWPNENFFKKKMELVIERNFNNKEIIKYFEENKPLTTKGNVNYLDSLRKERGIQNVKKEAKTIWINKKFTKKQSKDFYKKYKKILTNEDHLKRIENLTWAGRSYEARRMLPIISKNKQALYNARIILRRRGGNADQAISRINQNFLNDQGLVYERLRWRRKSRLYETAFDLINPLPENLKYEKKWWYEVSIIVRKLLERKEYKKAYKLVKDFSSKSNELLSESEWYAGWIAYEYLNLSPEIYINHFLNSFENTNHVGEKAKSAYWAGKSYEKNRNKELSELWYKNSANYVTEFYGQLSFEKINKKKSLVTNEELYGNNILTKDDIAFTKTDLYKASELILANGTRKNAKKFITHLINTSSTPGQLQIIAKLSKDLGRLDLSIKASKFAKKKGFNLYHYAYPSIKNYQIYNKIEKELVFGVIRQESVFDTKAISRVGARGIMQIMPATGKKISKKLNLSYSKKRLRSDPQYNITLGSYYLYNLVKEYDSYLLALIGYNAGPRRINRWIKKNGDPRKNNVDTVSWIEKIPIKETRLYVKFVLSNMQIYRQKNQDNKKLSIFSTKYDI;locus_tag=LOCUS_0180;note=WP_004597581.1 lytic transglycosylase (Rickettsia prowazekii str. Madrid E) [pid:28.1%25%2C q_cov:94.0%25%2C s_cov:97.8%25%2C Eval:1.2e-72],MGA_19
sequence01	MetaGeneAnnotator	CDS	21149	22036	.	+	0	ID=MGA_20;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9RH76;translation=MFKGSITALITPLKNGKIDEKSFQDFVEWQIKEGSHGLVPCGTTGESPTLTHNEHERVVDLCIEASSGKVPVIAGTGSNSTDEAISLTRYAEGAGADAVLVVTPYYNKPTQDGLYNHFKSINDNCNLPIIIYNIPGRSIVDIDINTMQKLSKLKNIIGVKDSSNDLSRPLQTIDKIGNKFCQISGEDATVVPFLSQGGHGCISVTANIAPRLCSDLHNAWQKGNFKKVKNINTFLYPLHNALFLETSPGPVKYAASILKICSEELRLPLVKVSSNTKKQIRLILKKLKIKSIKTK;locus_tag=LOCUS_0190;gene=dapA;EC_number=4.3.3.7;note=Q9RH76 4-hydroxy-tetrahydrodipicolinate synthase (Bradyrhizobium diazoefficiens USDA 110) [pid:58.9%25%2C q_cov:93.2%25%2C s_cov:92.9%25%2C Eval:1.0e-95],MGA_20
sequence01	MetaGeneAnnotator	CDS	22037	22486	.	+	0	ID=MGA_21;product=SsrA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U7A0;translation=MLKKKKNAIAINRRATYDYKIGDKFEAGIVLKGSEVKSLRKNRADISHAFISQEKGEIFLKNSNIPKYLASGILNHETNRSRKLLLKKKEINKMLGNLNNKGATLVPLRIFFSSKGFAKLLMAIAEGKKQYDKRQTKKEKEWKRQKKLI;locus_tag=LOCUS_0200;gene=smpB;note=A6U7A0 SsrA-binding protein (Sinorhizobium medicae WSM419) [pid:48.8%25%2C q_cov:85.2%25%2C s_cov:79.9%25%2C Eval:1.0e-31],MGA_21
sequence01	MetaGeneAnnotator	CDS	22504	23001	.	+	0	ID=MGA_22;product=7%2C8-dihydro-6-hydroxymethylpterin-pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389611.1;translation=MIYIAIGSNLIRDKNKTPLDNCKKAIKILENYIIIKKISFWYKSKPIPSSNQPWFVNGVIEVKTEKSSIDLLDLLLKVEKDLGRIRNKKNEAIIFDLDIIDYNKKIFYKKNRLITPHPRMHERAFVLLPLKDLNPKWYHPIKKKSINELIEKIKNKQKIYKILKN;locus_tag=LOCUS_0210;EC_number=2.7.6.3;note=WP_011389611.1 7%2C8-dihydro-6-hydroxymethylpterin-pyrophosphokinase (Rhodospirillum rubrum ATCC 11170) [pid:38.0%25%2C q_cov:95.2%25%2C s_cov:96.9%25%2C Eval:6.6e-23],MGA_22
sequence01	MetaGeneAnnotator	CDS	23040	23300	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARVTIEDCIKKISNPFELVLFAAQRAKELNQGEISDLDKENDKNTVISLREIAQEKVTPNYLKLELIKSFQKNVSLLEEFEEKKK;locus_tag=LOCUS_0220;note=Q8UGK8 DNA-directed RNA polymerase subunit omega (Agrobacterium fabrum str. C58) [pid:54.4%25%2C q_cov:91.9%25%2C s_cov:61.2%25%2C Eval:3.1e-18%2C partial hit],MGA_23
sequence01	MetaGeneAnnotator	CDS	23375	25507	.	+	0	ID=MGA_24;product=GTP pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389609.1;translation=MNEQLKLVEKVKNYFPKLNVDNINKAYNFGKKAHGSQIRASGDPFFSHPLQVANILAQMKLDENSIITGLLHDVIEDTLATKDEIKKNFGIEIANLVDGVTKLSKITLKQTNKNTQIENLRKFILAISEDIRVLFVKLADRLHNMRTISFLSDNDKRKRISNETLEIFAPLADRIGIRQIKDELEDLAFDVLNPEVKSTIIKRINFLKSEGKNNIKLIIRQLNKVLINSKISAEISGREKTPYSIWKKMQKKNINFEQLSDVMAFKIIVDSVDECYTCLKEIHTNYPTVPGRFKDYISLPKQNGYKSIHTSIFGPAKQKIEVQIRTKKMDRIAELGVAAHWQYKNDLNLNEGKKYKWIRELVEIVETSSEPDDFIENTKLEMFKDQVFCFTPKGDLIALPNKSTPVDFAYAVHTKLGDVCVGAKVNGKITPLKDFLKNGDQVEIIKSKHQNPSPTWVNFVKTPKAKSRINKFIRIKEFKEHSILGRKILKHFFSKNRKKIDESNLKQTLDLFNQETTEDLYFNIGKGNLDPFKVLYAIYPSLKKVKKINNIQKIDKDNKSLPIIGLLPGLALNYAKCCHPMPGDKIAGVIIKGKGFNVHTTDCNELGKYLKKNIISLSWDNKKTKLEDYVGRIMIIVLNEPGSLGEIASAIGNNKGNIINLKLTSRKKTFFEMLVDVKVKNLKHFTNIIASIRSLEIVSSASRIKGKDVF;locus_tag=LOCUS_0230;EC_number=2.7.6.5;note=WP_011389609.1 GTP pyrophosphokinase (Rhodospirillum rubrum ATCC 11170) [pid:51.0%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:4.4e-214],MGA_24
sequence01	MetaGeneAnnotator	CDS	25497	26249	.	+	0	ID=MGA_25;product=pyridoxine 5'-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RT91;translation=MYSKLKLGINIDHVATIRNARGLLHPDPIKAALIAQDAGANNITAHLREDRRHISDLDIKNLIKKLRIPLNLEMAPTNKMVKIALDSKVKRVCLVPEKRKEITTEGGLNVIKNKRKIFNIVKELQNYNIKVSIFIDPCLKQISTCKELEVSSVELHTGEFCENKKNKKREFLQIKKSAEFAIENNLECHAGHGLKYDDVKEIAKINQISELNIGHFIIGESIFNGLKKSILKMKKIIDDSRKKRFYLKSA;locus_tag=LOCUS_0240;gene=pdxJ;EC_number=2.6.99.2;note=Q2RT91 pyridoxine 5'-phosphate synthase (Rhodospirillum rubrum ATCC 11170) [pid:53.0%25%2C q_cov:93.6%25%2C s_cov:94.8%25%2C Eval:6.6e-63],MGA_25
sequence01	MetaGeneAnnotator	CDS	26209	26652	.	+	0	ID=MGA_26;product=holo-[acyl-carrier-protein] synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57344;translation=MILEKKGFILNRHKIMILGIGIDLLKVSRIKKILDKYGELFVDKIFSNEEIKKNKINVNIVDKLAKSFSVKEAFVKALGTGFIKGISLKDITLKNEKNGKPIIHLSDRVNKYLKKITPKGYNSKVYVSISDEKDYVISNVIISLQDK;locus_tag=LOCUS_0250;gene=acpS;EC_number=2.7.8.7;note=P57344 holo-[acyl-carrier-protein] synthase (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:38.1%25%2C q_cov:85.7%25%2C s_cov:96.8%25%2C Eval:1.6e-13],MGA_26
sequence01	MetaGeneAnnotator	CDS	26658	27455	.	+	0	ID=MGA_27;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U7A7;translation=MQLSIILLFLLVIYIIFSSESKWEAFKIIVSAGTIALVIRTLLFQPFTIPSGSMIPTLLIGDFIFVSQYKYGYSKHSLPFSLPIISKRIFKKEPKRGDVVVFKTPSDNRTDYVKTLIGLPGDKIQVKQGILYINNQKIERESIDSAYVELKYTNEFDYIETFPNGKKHIIRELSGDNGANDNTIVFTVPENNFFLMGDNRDNSIDSRILNYVGFVPFENIVGKAEIIFFSIDKNNYGLGNFWKWNIRFDRIGKILNKKVNIVYED;locus_tag=LOCUS_0260;EC_number=3.4.21.89;note=A6U7A7 signal peptidase I (Sinorhizobium medicae WSM419) [pid:51.0%25%2C q_cov:88.3%25%2C s_cov:95.1%25%2C Eval:2.4e-61],MGA_27
sequence01	MetaGeneAnnotator	CDS	27445	28125	.	+	0	ID=MGA_28;product=ribonuclease 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RT93;translation=MKINEFEKKINYTFKNKDFFYLAITHSSFKRKENYERLEFLGDRVLSLIISELLFENYPNENEGALSKRLSDLVSKQKLIEDANEINIKDVIKIDNAEKRNLKLKKNISILSDVCEALIGAIYLDSNLTNAKNFIYKFWKKKIEKNILPPQDSKSFLQEIAQKKNLNLPLYKLIKKDGPSHSPNFKIEVFLKGIKKFSASGKTIKIAETNAAKKMIDYMILNKLIK;locus_tag=LOCUS_0270;gene=rnc;EC_number=3.1.26.3;note=Q2RT93 ribonuclease 3 (Rhodospirillum rubrum ATCC 11170) [pid:35.8%25%2C q_cov:95.1%25%2C s_cov:96.8%25%2C Eval:6.9e-37],MGA_28
sequence01	MetaGeneAnnotator	CDS	28127	28825	.	+	0	ID=MGA_29;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RT96;translation=MQVSDEGFILKRKKFRESSLIITFFSLKHGINTGLLKGVLKKDFGTYEIGNKVYIKSSFRLENQLWNCSFELIKNNSINYFENENKLNTLLSICYLIDLTLPSNIKQTKIFNKTETMIDNLSKNNFIKEYVLWELFLLSELGYGLDLHKCTVSGKKKDLKYVSPKSGKAVSELVGEKYKNKLLLLPKFLVDKKNNPSKEELKKGILLTGFFLKKILKQNGKSIPFCRQNILS;locus_tag=LOCUS_0280;gene=recO;note=Q2RT96 DNA repair protein RecO (Rhodospirillum rubrum ATCC 11170) [pid:30.8%25%2C q_cov:98.3%25%2C s_cov:94.0%25%2C Eval:6.8e-27],MGA_29
sequence01	MetaGeneAnnotator	CDS	28782	29363	.	+	0	ID=MGA_30;product=C4-dicarboxylate ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403750.1;translation=MEKAYPFVDRIYYLEQLMLFLKKIISYFDKINKQIGIYTSWLVLFMTLIAFSVSVLRYFFNIGFVWMQESYIWLHGIVFLFGAAYTLQKDQHVRVDIFYRNFNEKSKALVNIIFSIFFILPFIFIITKYSFPYVLKSWISLEKSREAGGLPLLFLYKTSILFFCFFLFLQTISLILRCFLVIKNIEKKIYFKI;locus_tag=LOCUS_0290;note=WP_011403750.1 C4-dicarboxylate ABC transporter substrate-binding protein (Salinibacter ruber DSM 13855) [pid:34.1%25%2C q_cov:81.9%25%2C s_cov:86.6%25%2C Eval:8.2e-19],MGA_30
sequence01	MetaGeneAnnotator	CDS	29366	29689	.	-	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPNPPLIFPNKLAIVSNNSSAIFDFSSIKPINTNNGTATNNSLVIVPNILDGINAKKSVLKKFKYEPNKANKIELPAKVNATGNPKSKNKKVVKNMLILKISIVMI;locus_tag=LOCUS_0300;note=MGA_31
sequence01	MetaGeneAnnotator	CDS	29595	30743	.	+	0	ID=MGA_32;product=C4-dicarboxylate ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000579489.1;translation=MGLILEKSKIAEELLETIASLFGKIKGGLGFTVIIVGTLLAASTGIVGATVVTMSLLTLPTMLKWGYDKKFASGLICASGTLGQIIPPSIVLILLSDVLQGAYSQSQLLKGNIPSNPISTIDLFAGAIFPGIILVAMYCVWQIILNYINPQNIIIPFNNQKKINFFNAIKIIFFPIFLIILVLGSILLGIATPTEAASLGAIGSILIGLIKRNFNLIKLKEAILHTTKISSMIFLILISAKIFSLVFIGLEGRELLSSFIEKIPGGSFGAMVFIMFLIFFLGFFLDFIQIIFTIIPIIGPIILQMDINPLWFGIMIAINLQTSFLTPPFGFALFYFRGVAPNSIKTIDIYKGVIPFVTIQLLVLLLIAKFPQIALWLPDKLY;locus_tag=LOCUS_0310;note=WP_000579489.1 C4-dicarboxylate ABC transporter (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:42.2%25%2C q_cov:97.1%25%2C s_cov:83.6%25%2C Eval:6.9e-77],MGA_32
sequence01	MetaGeneAnnotator	CDS	30748	31104	.	-	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNKKKNKLESILFSYWNGKEKLWKAFWIMGFFLQFLVAYILLFLLYLGTSIGLTWSIKIIIFLLSNAYTIWIWVSIWNCAYNVEKKIWGHISRFIVILNLIIVILIYSGFININFN;locus_tag=LOCUS_0320;note=MGA_33
sequence01	MetaGeneAnnotator	CDS	31097	32203	.	-	0	ID=MGA_34;product=C4-dicarboxylate ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071344.1;translation=MKKKNNRRSFLKKTAILTGAATLSTFIPKNTYSKKKYNWKMVTTWPKNFPGLGTGAEIFAKMINESSGGKMNIKVFGAGEIVPAFEAMDAVSSGAIEMGHGGPYYWKGKVTAAQYLSAIPFGLTPQEQNSWFEKGGGQEIADEIYKKMGCKFFVCGNTGPQMGGWYNKEIKKIEDYQGLKMRAPGLGGEVIKAAGGTVVNLHGGELLTSIQSGAIDALEWVGPYNDLAFGIYKAAKYYYYPGWHEPAAILDCFINLDKWNSLPNYLKKIISLSAKAATQQMTNEMIAGNNIALQTLIKKHKVDVRPYPDNVLKKLALLSEKVLNKLSSSDDLSKKVYKSIIKFRNASIKRSENQKKFLETRAKFVKNE;locus_tag=LOCUS_0330;note=WP_011071344.1 C4-dicarboxylate ABC transporter (Shewanella oneidensis MR-1) [pid:47.4%25%2C q_cov:83.2%25%2C s_cov:82.4%25%2C Eval:6.5e-85],MGA_34
sequence01	MetaGeneAnnotator	CDS	32187	32918	.	-	0	ID=MGA_35;product=putative arginyl-tRNA--protein transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8GVD8;translation=MNKPIKIYRNLNFHKSLPRPCPYIAGKNEYLLFTDLTNIINPNILEQLTTDGFRRSENTFYKPNCKSCNECISTRIIINNFIFTKKFKRIKKKNEDIKIQIIKPKTNYNQYKLFKNYLKLRHSEGEMKDMSYLDFKTMIEISPIKTKMLNIYKNNIFIGSILYDMYKNSFSANYSFYNPKFKNRSLGSFLILKLIDEAKKQKKKYLYLGYYIKESKKMSYKINFQPIEILKNKKWENIFEKKK;locus_tag=LOCUS_0340;gene=ate;EC_number=2.3.2.8;note=B8GVD8 putative arginyl-tRNA--protein transferase (Caulobacter crescentus NA1000) [pid:33.9%25%2C q_cov:93.4%25%2C s_cov:83.5%25%2C Eval:2.2e-39],MGA_35
sequence01	MetaGeneAnnotator	CDS	32920	33921	.	-	0	ID=MGA_36;product=delta-aminolevulinic acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RTA8;translation=MNKRFTIGKYPRTRLRRNRYKKWTRDLISENNLTSNDLILPLFVIEGKKINENIASIPSINRYSIDQILKKVEEAAKYSIPAIALFPYINKKLKTTDGKEALNKNNLICRAIKEIKKNFPDIGLICDVALDPYTIHGHDGILKNNDVLNDETIEILSEQAIIQAEAGADIIAPSDMMDGRIGIIRDRLEAEGFNKTIILSYSAKFASNFYGPFRDAIGSNKNLKKADKKTYQMDYKNSKESLREVAMDIKEGADMVMVKPALPYLDIINEIKKKFNIPVLAYQVSGEFSLLKFGEKNKIINYEKCLYESLISIKRSGASAIFCYGAIDIAKFL;locus_tag=LOCUS_0350;EC_number=4.2.1.24;note=Q2RTA8 delta-aminolevulinic acid dehydratase (Rhodospirillum rubrum ATCC 11170) [pid:52.3%25%2C q_cov:98.2%25%2C s_cov:97.0%25%2C Eval:4.0e-99],MGA_36
sequence01	MetaGeneAnnotator	CDS	34025	34522	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINFNNLFFKSVLELKKKNLNRDLRSLKRINSIKIRYKNKTLLNFSSNDYLGLSQNIFIKNNTIKIIKKYGIGSGSSRLVSGNFDLHETIEKDLAKKKKTESSLIFSTGYLVNYSVLSTILNSNLFKNPIVFSDKLNHQCIYEGCNNKKINFIRYRHNDMDHL;locus_tag=LOCUS_0360;note=B5YFU5 putative 8-amino-7-oxononanoate synthase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:37.5%25%2C q_cov:97.0%25%2C s_cov:40.2%25%2C Eval:2.4e-25%2C partial hit],internal stop codon at [34520:34522](+)%2C[34523:34525](+),MGA_37
sequence01	MetaGeneAnnotator	CDS	34526	35209	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNNKNKNNAKFILSETIFSMDGDFADIKNLIFLKKKYNSFLFLDEAHATGIYGKNGFGLSSEFSSSIDCVTGTFSKALGSFGAYIACSNKLKSFLINKCPSFIYSTSLPFSLLASIHSAIKIIPKLNNERKKLIKNSFYFRKILKNNNFNIGSSQTHIIPIIIGDPLQTIKISQKLENDGFYIVSIRPPTVTLNSSRLRLSLSSLHTKKNIKDLFNSLKLIKESF;locus_tag=LOCUS_0370;note=K0MKM2 8-amino-7-ketopelargonate synthase (Bordetella parapertussis Bpp5) [pid:41.9%25%2C q_cov:92.5%25%2C s_cov:52.6%25%2C Eval:7.0e-45%2C partial hit],internal stop codon at [34520:34522](+)%2C[34523:34525](+),MGA_38
sequence01	MetaGeneAnnotator	CDS	35212	35856	.	+	0	ID=MGA_39;product=ATP-dependent dethiobiotin synthetase BioD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H210;translation=MTNNKGFFITGTDTGVGKTFFTSILLQKFNYDYWKPIQTGNFIDNDTLNLKKILNSNHIKFHKCSYSLKKPLSPHLASKYQNIIININKIRKPKTFKPLIVEGAGGILVPLNKKKLIIDLIKKFRLPVIIVSKSILGTINHTLMTIEILKKNKINIFGVVLNNIKKKKEGDENAKSIEYFGKTKVLVKIPSIKNISKKKILNLSNKKSFNKFKL;locus_tag=LOCUS_0380;gene=bioD;EC_number=6.3.3.3;note=A6H210 ATP-dependent dethiobiotin synthetase BioD (Flavobacterium psychrophilum JIP02/86) [pid:46.3%25%2C q_cov:76.6%25%2C s_cov:79.5%25%2C Eval:4.5e-35],MGA_39
sequence01	MetaGeneAnnotator	CDS	35853	37157	.	+	0	ID=MGA_40;product=adenosylmethionine--8-amino-7-oxononanoate aminotransferase BioA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964417.1;translation=MKNSQSIKLDQEHIWHPFTQHKISPIPIKIVSGKMTKIRDENGKSYIDLISSWWVNVHGHSNPDIAKAIYKQSKKLEQVIFGGFTHDPAINLAKKITDILPKNLKKVFFSDNGSTAVEVALKIAYQYWFNQNKKKKTFIAFKNAYHGDTVGAMSLASGSDLFSVFKDLFFKIKLFDYPSTWHGDKEIEKKENLILKKIDNELEKNNDIAGLIIEPLIQGSGGMNICRNIFIQKLSRLLKKHNNLLIYDEVMTGFGRTGDFFACLKTKTKPDIICLSKGLTGGFLPLSLTITTNKIFNNFLGDNFDKALPHGHSFTANPIGCAASIASLNLFKSKKIFKKIKNIEKNHYSFKKKLLKLEKIEKIRICGTIIAFDIKGFGSGYKAIIPKKLKDYFLKKGLLLRPLGNVLYIMPPYCILKKELKYAYKIIYEGLKKI;locus_tag=LOCUS_0390;gene=bioA;EC_number=2.6.1.62;note=WP_011964417.1 adenosylmethionine--8-amino-7-oxononanoate aminotransferase BioA (Flavobacterium psychrophilum JIP02/86) [pid:44.3%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:9.2e-105],MGA_40
sequence01	MetaGeneAnnotator	CDS	37158	38585	.	+	0	ID=MGA_41;product=alanine glycine permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010883980.1;translation=MRLDHIINEKFEPISNSISNIIFYSIDYGEAQIKLIVVWLFIAALFFSFYLKFVNIWGFKHSIDLISGKFRNRFDKARGEVTHFQALTAALSGTVGLGNIAGVAVAVSLGGPGATLWMIFAGFLAMAAKFVECSLGLKYRIFNKNGTVSGGPMYYLSRGLGNIGYIKLGKILAISFAIFTVFGSFGGGNMFQSNQAFKQLITATGGDASVFNGYGWLFGFILSIIVGVVIIGGIKGIARVTEKVVPLMGGIYSLAALVIIFINYEMLPSALHSIFTKAFSPEAGMGGILGVLIVGFQRATFSNEAGIGSAPIAYSAVKSNDHMSVGFVSLFEPFFDTVVICTMTALVIIISGVYDSNTGISGVELTSQAFKKDISWFPYILSLAVILFAFSTIITWSYYGMKAWTYLVGNNIFTENFYKIIFCLFIIVGAASDLGSVIHFSDAMIFAMAFPNVIGMYFLASGLKKDLKNYKKKFI;locus_tag=LOCUS_0400;note=WP_010883980.1 alanine glycine permease (Deinococcus radiodurans R1) [pid:51.6%25%2C q_cov:96.2%25%2C s_cov:83.2%25%2C Eval:1.4e-133],MGA_41
sequence01	MetaGeneAnnotator	CDS	38613	39047	.	+	0	ID=MGA_42;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080405.1;translation=MEKKIITIASDHAGYELKNSLKKEIADIGFKILDCGTKSDESVDYPDFAKLAVENILKKKSDLAILICGSGIGMSMTANRFKGIRAALCHNTNEVKMARQHNNANVLVLAGRQIDVDEAKNCFKIFVNTSFEGGRHKKRIDKID;locus_tag=LOCUS_0410;note=WP_004080405.1 ribose 5-phosphate isomerase B (Thermotoga maritima MSB8) [pid:52.5%25%2C q_cov:96.5%25%2C s_cov:97.2%25%2C Eval:2.1e-36],MGA_42
sequence01	MetaGeneAnnotator	CDS	39070	40368	.	+	0	ID=MGA_43;product=serine hydroxymethyltransferase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87I03;translation=MTLNTDTKSNLFQDQLTSTDPEITEALQKEQIRQSDQIELIASENIASLAVIQAQGSVMTNKYAEGYPGKRYYGGCEYYDIVENIAIERAKKIFNCSYANVQPNSGSQANQAVMLALINPHDTVVGMSLDAGGHLTHGAAPNVSGKWFNAVQYGVKKEDALLDYDQIKKLALDNKTKLIIAGGSAYPRIIDFKKIREIADEAGAYFLVDMAHFAGLVAGGEYPSPFPHAHVVTTTTHKTLRGPRGGMILSNDEELGKKFNSAVFPGMQGGPLMHVIAAKAVAYGEALQPSFKEYIIDVVKNAKILSSTLINRGVDIVSGGTDTHLTLVDLRPKKLTGKDAEASLERAGLTCNKNGVPFDPEKPWITSGVRLGSPAGTTRGFKENEFEIIGNLIGDVLDGLQKNLQDNTETEKKVRHEVLSLCKKFPIYSKLL;locus_tag=LOCUS_0420;gene=glyA2;EC_number=2.1.2.1;note=Q87I03 serine hydroxymethyltransferase 2 (Vibrio parahaemolyticus RIMD 2210633) [pid:67.3%25%2C q_cov:97.0%25%2C s_cov:97.2%25%2C Eval:4.3e-163],MGA_43
sequence01	MetaGeneAnnotator	CDS	40382	41470	.	+	0	ID=MGA_44;product=riboflavin biosynthesis protein RibD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97LH1;translation=MERSSSEKDRYFMKNALNLSLRGIGNTYPNPSVGAIVVKKNKILSRGWTQRGGVPHAEIIALKKKNFSGATLYTTLEPCCHYGKTPPCIKQIINSKIKRVVIGVKDPNPKINGKGIDELKKNKINVTLGVLKKEIKKIHLGFFSNLINNKPFVSSKIAISKNGKMINSNSRWITSKSSRNYGNFIRSKHDAILTGINTVLKDNPLLNCRQNGMDSLSPVRFILDTKLRIKTNLKIIKSSRKIKTFIFTNTNNKKKILKLRKFGIKILILNENSKRINLERILFEVAKLGFNNILLESGPNLNYAFLKKKLINKIYYFQTKKNIDLDLIPAEKKINIKHIEKLKFRKIATNFIDNDILKIFEK;locus_tag=LOCUS_0430;gene=ribD;note=Q97LH1 riboflavin biosynthesis protein RibD (Clostridium acetobutylicum ATCC 824) [pid:38.6%25%2C q_cov:91.7%25%2C s_cov:87.5%25%2C Eval:1.8e-63],MGA_44
sequence01	MetaGeneAnnotator	CDS	41470	41655	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTGIIQDIGEIVKIKKEEDKKFFVLTNIDYKKLKVGSSICCNGICLTIIKREKKKKKKNC;locus_tag=LOCUS_0440;note=MGA_45
sequence02	MetaGeneAnnotator	CDS	276	464	.	+	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVAPGLTSPDMGPLVSKEQFEKVQGYIKSGLKEGAKCTVGGGTVGDRGYFVEPTVLTNASD;locus_tag=LOCUS_0450;note=WP_011122652.1 aldehyde dehydrogenase (Rhodopirellula baltica SH 1) [pid:48.1%25%2C q_cov:83.9%25%2C s_cov:10.6%25%2C Eval:6.9e-10%2C partial hit],internal stop codon at [462:464](+),MGA_46
sequence02	MetaGeneAnnotator	CDS	465	776	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVIKEEIFGPVVAAEPFDDHEEIMSRSNNSNYGLAAAVWTTDVQKAIRTAEAFRAGTVWVNCYNIFDAALPFGGYKQSGWGREMGSEILEAYTQVKSVVIAK;locus_tag=LOCUS_0460;note=WP_000080288.1 aldehyde dehydrogenase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:63.6%25%2C q_cov:96.1%25%2C s_cov:20.0%25%2C Eval:8.4e-32%2C partial hit],internal stop codon at [462:464](+),MGA_47
sequence02	MetaGeneAnnotator	CDS	831	1457	.	+	0	ID=MGA_48;product=23S rRNA (uridine(2552)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877375.1;translation=MKFKKKIKTKWHQKRLKDKYFSEAKKLGYRSRSAFKLLEINKKFRILKKGQNALDIGAAPGGWSQILVQKVFSKQKKNTIISVDLKEFKEIQNLYFIKKNIFDENFILFIKKYFLNGVDIIISDASPSTSGNKFVDHIKIIELAEKSLEIAINLLNKGGVLVIKIFDGKETKRIINIIKKKFLKLNLYKPKSSKTKSKEIYIIAKFFK;locus_tag=LOCUS_0470;note=WP_010877375.1 23S rRNA (uridine(2552)-2'-O)-methyltransferase (Methanothermobacter thermautotrophicus str. Delta H) [pid:37.3%25%2C q_cov:95.7%25%2C s_cov:93.8%25%2C Eval:2.8e-34],MGA_48
sequence02	MetaGeneAnnotator	CDS	1500	2972	.	+	0	ID=MGA_49;product=inosine-5'-monophosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXU6;translation=MGRKIYDSLTFDDVLLKPSSSSILPKNVNTKSFLTKTVGLEIPIISAAMDTVTESEMAIVMAQSGGIGSIHKNMSIEEQMNEVKKVKKFESGIVVNPVTISKDKKLKDALDVMKKNKISGIPVVEKNNKLVGILTNRDVRFVSNLEIKVKDLMTKKNLQTVREDVNMEKAKQILHKFRIEKLIVVDKDYKCVGLITVKDIEKARKYPNACKDNKGRLRVAAAVDAGEKGIERASGLMDVDTDVLILDTAHGHSKNVINTVRKIKKKSNYTQVIAGNIATKEGAQALIDVGADAVKVGIGPGSICTTRMVAGVGVPQLSAIMEVSEVTKKKKVPLIADGGIKYSGDIAKAIAAGADTIMIGSLLAGTDESPGEVYLYQGRSYKSYRGMGSISAMLKGSAERYFQDSNSEVQKLVPEGVEGQVPYKGPANIILNQLIGGLRSSMGYTGNENIKKMKKNCQFIKITSSGLKESHVHDVTITKESPNYKPEGTS;locus_tag=LOCUS_0480;gene=guaB;EC_number=1.1.1.205;note=Q2RXU6 inosine-5'-monophosphate dehydrogenase (Rhodospirillum rubrum ATCC 11170) [pid:65.0%25%2C q_cov:97.8%25%2C s_cov:98.6%25%2C Eval:3.5e-180],MGA_49
sequence02	MetaGeneAnnotator	CDS	2982	4526	.	+	0	ID=MGA_50;product=GMP synthase [glutamine-hydrolyzing];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q92SQ3;translation=MDKILILDFGSQVTQLIARRIRKKKIYCEIHPYNISKEKIKSFSPKALILSGGPASTTLKKSLKPNNFIYSLNIPILGICYGHQLLCKSFGGKVVNSKKREFGKAFIKIKNNSELFKGIYKKNSEYQVWMSHGDKVSKLPNSFSIIASTFNAKFAAIANENKKIYGLQFHPEVIHTFNGEKILENFVKKISLCKPGWKISDFIKNSIRKIKEEVKDDGVICALSGGVDSSVTAALLNKSIGKQLKCIFVDTGLLRKNEGNEIEKVFKKKLGNNFKRINARNLFLNKLKNIIDPEIKRKIIGKLFIDIFKKESKKFKSIKYLAQGTLYPDVIESKSVRGAPSVKIKSHHNVGGLPKKLNFKLIEPLKELFKDEVRILGKKLNVPDLILKRHPFPGPGLAVRIPGNITLEKIEILQQADFIFIQELKKKKLYDKIWQAFSVLLPVITIGVMGDQRSYEYTCALRAVTSVDGMTAEPYYFNSNDLAQISTKIVNEVKGVNRVVYDYTSKPPGTIEWE;locus_tag=LOCUS_0490;gene=guaA;EC_number=6.3.5.2;note=Q92SQ3 GMP synthase [glutamine-hydrolyzing] (Sinorhizobium meliloti 1021) [pid:54.2%25%2C q_cov:99.8%25%2C s_cov:98.7%25%2C Eval:3.0e-166],MGA_50
sequence02	MetaGeneAnnotator	CDS	4575	5981	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVVIDQNKNYGGIFGSVYRSSAIFYKPPKISCTVSVSNYWDFKNSIEVGVVVTLRKMSGKLIDRKEYRFDDANVLNIKTDNLEEGSIEVESFSNRNVRIPYAAVMAVYETDVSVSMVHSYGRNHSLIELEDKNSLTEGRESCWTVRSSESVLNSAFFHNGHLKVESQIVKIILTDTNGVDKVYDFKIPDIKPFETIKFSLDKICPDYKNFLNGLDGWASIHFNNHSSFTRLLVTWEDKDTGHFQVTHSNFDYSEHQTNLISATKPAYMKLPKIDGLNTLSATVYPKFTPGKYTAKTGDSTFNFETGIIIKSENDSIEFERDDGDLPARIVTGIIGNLDSNHVPFECSLGIVHENRPPKRFHWAVISKRLSSKIYITNYKEIYGIPKKDIIIAVSLYNAKNKKISKSELKYKNLDAIPSYIDPKKIFSKNINELGNDFGYVSVFCEYGGLFLFSTITKGSSMSLEHSF;locus_tag=LOCUS_0500;note=MGA_51
sequence02	MetaGeneAnnotator	CDS	5982	6323	.	-	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIYHFSKYMKAKEKVTFTKCDLNSIISVYSQKVSNGIWKDYSINFENNYAEFSIYKHTLAYPEFSIIKNNKKVFFIYSKNIELKKSKYIKDILNILKKVEKKRFLKLYYLI;locus_tag=LOCUS_0510;note=MGA_52
sequence02	MetaGeneAnnotator	CDS	6366	6911	.	+	0	ID=MGA_53;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532060.1;translation=MPEVTPICQFGTKAISFSLKGIDNRIYNLDEIQGNNGTLIMFICNHCPYVKGVIDRLVSDVMYLQKKGIGCVAIMSNDVVKYPEDSFENMKFFSQKNNFTFPYLYDEKQEIAKLYGAVCTPDFFGYNKNLELQYRGRLDNSGISGEKVKDKELLNAFNKIIKTGNGPQKQISSMGCSIKWK;locus_tag=LOCUS_0520;note=WP_013532060.1 thioredoxin family protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:1.6e-50],MGA_53
sequence02	MetaGeneAnnotator	CDS	6913	7557	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011086826.1;translation=MSDQKNFIREIDEEVRQDNLKDAWKKYRKFIISFIFSIIFLVSVINFLDFLNEKKVKKQSELFFRAIEYVEQEDYENAQNLFKEINNSKIKGFSDLSYLYLIDLINKKKISLDLKNFKADKKSLFYDLIILQKFNSDLNIENNDQLNIEEIIRISKPSSNWSFIANELLASYYLKKNDLDSAKQSLNYIMESKDSSDFIKERARTILEMIERKE;locus_tag=LOCUS_0530;note=WP_011086826.1 hypothetical protein (Bradyrhizobium diazoefficiens USDA 110) [pid:23.4%25%2C q_cov:93.9%25%2C s_cov:94.5%25%2C Eval:4.6e-08],MGA_54
sequence02	MetaGeneAnnotator	CDS	7554	8864	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSNILLITIFFIIIFLNGCSFKKNKNKNVGKIYVETVAKPDLSLRGLKVSLPKPLENNTWNQSTNNEAHQISHPLVGNEIKLFWKKSIGKGQNKKKPFSSEPVIDLQYIYTIDTELTIKVFNKKNGKIKWTKKLKKKINERKIGIISGGLAVNDNFLVVTTGTGKIFTLNKENGKIIWEKKVLAPIRAAPIISGNFVLVLAKDNRLYTYNLSKGDLSWTHEGLEEVSTFMGSSSPVVSKGIAVVTYSSGEIYGINLSNGQVIWNDNLSMLVSKKTLENLSDIRGNAVIQNNKVFVISHNGKMLAMNLNNGKRIWESSIGGIQTPWVVSKFIYVLSKDNELICLTSDSGKIVWVSKLKDFIDLEKKNKVITWTGPLLAGRMLIVTGSHGVIASISPYSGKFLGAINIKSAVDIQAIVSNKIVFFLTKKGDLIAYK;locus_tag=LOCUS_0540;note=WP_010980486.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:24.3%25%2C q_cov:47.9%25%2C s_cov:47.9%25%2C Eval:7.8e-11%2C partial hit],MGA_55
sequence02	MetaGeneAnnotator	CDS	8866	9675	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEDNKIKLCFIGNPNVGKSTLINRLLNSNELKTSEIPGTTVKTIEKRFLWKKKEFIFFDTAGVYKKKDFNFNLLIKATKTSQIIILILDSSIEKLDRLHKKLASHALKIGKGLLIIYNKWDLITNKKNKRIELEKFVKFSLPQIDYKKILFISALRDTNFTKILSLSLEIKAFLNKKVSTSNLNKWLRETIKINPPIRIKGKEIKFKYVTQVDVNPPTFKIFSNYPKKIQSSYKRFLENKLKINYNLNNISVILKFPEIKNPYNRLKK;locus_tag=LOCUS_0550;note=Q9ZCP6 GTPase Der (Rickettsia prowazekii str. Madrid E) [pid:34.5%25%2C q_cov:95.9%25%2C s_cov:59.7%25%2C Eval:5.3e-40%2C partial hit],MGA_56
sequence02	MetaGeneAnnotator	CDS	9681	11102	.	-	0	ID=MGA_57;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89MY2;translation=MCGIFGIFNHDDAATITALGLHSLQHRGQEACGIATHNKNNFYLERRLGLVGDNFTKKDVINKLPGKHAIGHNRYATSGKTFLRNVQPFFADLSSGALSIAHNGNLTNSLSLRKKLVDDGAIFQSTSDTEIIIQLIARSKRTIFINKLIDTLFQIQGGFSLILMTGKKLIGVRDPYGIRPLVLGELNGSPLLTSETCSLDIIGAKFIREIENGEIIIITDGKIKSIKPFPKVNCRPDIFEYIYFSRPDSTLGGKNIYQCRKNFGIQLAKESKTKADIVTAVPDSGMPAAIGYAEESKIPFELGLIRNHYVGRTFIEPGQQVRQFGVRLKHNANTSCIKGKKIILIDDSIVRGTTCLKIVQMLRLAGAKEIHMKVASPPIIHPDCYGVDTPEENELLAAKKKNIKEMAKFIGVNSLSFLSIDGLYKSMDCKKRNNSNPQFTDHCFSGDYPIVPIDKKLDKSKYDQLSFLTNVNI;locus_tag=LOCUS_0560;gene=purF;EC_number=2.4.2.14;note=Q89MY2 amidophosphoribosyltransferase (Bradyrhizobium diazoefficiens USDA 110) [pid:57.5%25%2C q_cov:99.6%25%2C s_cov:92.7%25%2C Eval:3.5e-161],MGA_57
sequence02	MetaGeneAnnotator	CDS	11150	11647	.	-	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIFDFIFLSLTIISSLLGLSRGLVKEFLSLAKWIISLYLAFITLDKTKLFLSNFLKETALIDLISGIIVFSFFYIILSIIFNFLSKLFSIKSLSIIDKTLGCFFGFLRMILIFSLIFIIYSDVFYNSKNPYWLDDSYSIKYIEKVSIYIKKNFLNLSLKDDIIT;locus_tag=LOCUS_0570;note=MGA_58
sequence02	MetaGeneAnnotator	CDS	11653	14142	.	-	0	ID=MGA_59;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002858465.1;translation=MSSVINKIYKNILIKNPIKIIIFLLLILGFFAFHIKNFELDASADSLILEDDKDLKIFREINNRYDSKDFVIITYKPNSDLFSKNTFNNLKKLKNKLEILDNVDGVITLIDLPLLKSANVPLKELSEEKIKKITDKDINIDIAKKEILNSPIYKNLIVSEDGEITSLIVNLKRDEQFIELLKKRNDLRAKEKLKVEEENELKKILIDYDKKKKYLKKINHQNIASIREIIKEFSDTGEIHLGGVPMIADDMIEFIKNDLINFGIGVFIFIIITLIIVFKEIRWVTIPLLNCFYAVIIMIGVLGFVNWDVTVISSNFISLMLILTIAMNVHLAVRYKQLSSEMPESKQDEVVLLTTEKMVWPCLYTALTTICAFTSLVFSGIKPVIDFGWMMTIGLSVTFLTSFILFPSILLLLEKKKELINDAEKSKFTSTLAFLAKNHGNKVLFISTLLVIVTVIGITKLKVENSFINYFKEKTEIYKGMKLIDEKLGGTTPLDIIIKFKSSVVEKEENISDSSDEELGLDEDFFDLGATNDINIEDYWFTSTKIQQIEKIHDYLENLPEIGKVISLTSIIRVAEDLNEGKKFDPFELNVIYKKLPEKLKTNVVDPYISIENDEARINLRVLDSLKDLRRKELIDRINNDFINKLELKKDQFQISGVLVLYNNMLQSLFDSQIKTLVFVMLGIAIMFIILFRSFTLSLIGIIPNFIAAISILGIMGLLKLPLDMMTITIASITIGIAVDNSIHYIYRFKEEFKKNNDYKNTIDICHMSVGRAIFNTSVTIIFGFSILVLSNFIPTIYFGLFTGLAMLIAMLAVLTLLPKLILIIKPFN;locus_tag=LOCUS_0580;note=WP_002858465.1 membrane protein (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:38.3%25%2C q_cov:95.2%25%2C s_cov:93.6%25%2C Eval:7.5e-152],MGA_59
sequence02	MetaGeneAnnotator	CDS	14190	14693	.	-	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTRARRLKRQHGLDIIMIDYLQLLRPTLSRPDNRVLEIAEMTRNLKALAKELNIPVVCLSQLSRQVEQRDDKRPQLSDLRESGAIEQDADVVMFIYREEYYIERKEPSPGTDEYQKWQDKMSKIHNVAEVLVAKQRHGPIGKVNLHFEGATTKFSNLSKSQSSENS;locus_tag=LOCUS_0590;note=Q89MX1 replicative DNA helicase (Bradyrhizobium diazoefficiens USDA 110) [pid:65.4%25%2C q_cov:92.8%25%2C s_cov:31.0%25%2C Eval:1.6e-51%2C partial hit],internal stop codon at [14865:14867](-),MGA_60
sequence02	MetaGeneAnnotator	CDS	14865	15653	.	-	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSEIKNFENKNNEKDLRIVPQNVEAEQALLAALLTNNNVYEKISDFLRPDHFYDDINGRIFEAIAKLVENNQLADPLTLKNYFLHKDEIALIGGDRYLIELAKNSTILSNTHQYGKLIYDLYQRREILTISDEISNDANSFDIDTDASEIIEKAESKLFNLSSTGETSNDFKKFSTSLVDAINSAESAFKRDGQLSGIPTGFADLDQLLGGLHKTDLIILAGRPSMGKTALATNIAFKMVNSNSMDDEKKKNVVGFFSLGM;locus_tag=LOCUS_0600;note=Q2RXD0 replicative DNA helicase (Rhodospirillum rubrum ATCC 11170) [pid:46.6%25%2C q_cov:93.5%25%2C s_cov:48.7%25%2C Eval:3.5e-57%2C partial hit],internal stop codon at [14865:14867](-),MGA_61
sequence02	MetaGeneAnnotator	CDS	15906	16445	.	-	0	ID=MGA_62;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3M9A8;translation=MEVILIENIEKLGKIGDVVNVKDGFARNYLIPKKKVLRASKENLKIFEKEKSKIEAEEKKRKIKAEEISKKIKDTEIVILRNAAENGQLYGSVTSKDIVKELILSKQIELLNEQIKIKKILKSIGVYEIEISVYTDINVQILVSVAKTKELGLEQIKEFKNPKKDKKIEKKDKKIIENI;locus_tag=LOCUS_0610;gene=rplI;note=C3M9A8 50S ribosomal protein L9 (Sinorhizobium fredii NGR234) [pid:35.3%25%2C q_cov:83.8%25%2C s_cov:78.0%25%2C Eval:3.2e-24],MGA_62
sequence02	MetaGeneAnnotator	CDS	16447	16704	.	-	0	ID=MGA_63;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXC7;translation=MSDLQKKDLKTDKRPYNFKQRSCPLSYKGAPKVDYKNVKLLKKFISEKGKILPSRITSVSTKKQRELSRAVKRARFLALLPYINN;locus_tag=LOCUS_0620;gene=rpsR;note=Q2RXC7 30S ribosomal protein S18 (Rhodospirillum rubrum ATCC 11170) [pid:64.8%25%2C q_cov:83.5%25%2C s_cov:91.0%25%2C Eval:9.3e-23],MGA_63
sequence02	MetaGeneAnnotator	CDS	16704	17045	.	-	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLYELVFIARQEVSPVRAKELAKKVNDFIKSKKGQIKKEEYWGFKNLSYQIKKSRKGHYLFFILEAPEKAILDLGSQIKLTQDIIRHMFLKIKKKDFDKNPSEMMKEMEDNK;locus_tag=LOCUS_0630;note=Q2RXC6 30S ribosomal protein S6 (Rhodospirillum rubrum ATCC 11170) [pid:38.9%25%2C q_cov:95.6%25%2C s_cov:66.2%25%2C Eval:5.6e-20%2C partial hit],MGA_64
sequence02	MetaGeneAnnotator	CDS	17145	18074	.	+	0	ID=MGA_65;product=malonyl CoA-acyl carrier protein transacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXC5;translation=MKSIIFPGQGSQYVGMCKNWYDNFREAKKVFEEADKILKEPLSEIIFKGPEELLTKTNNAQPAILIASIAMLETIKIQKKIDLQNFCKFVAGHSLGEYTALYASGVLDFISVVKLVKVRGDLMNISDKSGKGKMAAIIGLKINDIHKMLKDFKNDEICEIANDNSEGQVVVSGNKNAVDSFKLIAKENGAKLVVDLKVSAPFHCGLMNDAALKMSTEIDKTSFNKCQIPVISNVDAISTDNSSDFKSLLSKQITMTVKWRETILFMENKGIKKIYEVGPGNVLSGLVKRITNNIECFSIQNPDDMDNLN;locus_tag=LOCUS_0640;EC_number=2.3.1.39;note=Q2RXC5 malonyl CoA-acyl carrier protein transacylase (Rhodospirillum rubrum ATCC 11170) [pid:40.7%25%2C q_cov:98.7%25%2C s_cov:97.4%25%2C Eval:1.1e-63],MGA_65
sequence02	MetaGeneAnnotator	CDS	18075	18815	.	+	0	ID=MGA_66;product=beta-ketoacyl-ACP reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002719615.1;translation=MNQILKNKTALITGASGAIGGSIAKKLSSLGANIIATGTNKKKVDSLTKDLKTKSESIIADLSKDDEINNLYNKSIDKFKSIDILVNNAGINQDSLTIRMTKEQWDKVINLNLSATFKLSQLVVKSMMKNKWGRLIGISSIIGIGGNAGQANYAASKAGMISLHKSFALEFASRGITSNCIAPGFIESPMTDELSTEQKENMLKRIPVGYIGKPDDVANCVAFLTDENSSFITGSTININGGMLMI;locus_tag=LOCUS_0650;gene=fabG;EC_number=1.1.1.100;note=WP_002719615.1 beta-ketoacyl-ACP reductase (Rhodobacter sphaeroides 2.4.1) [pid:42.6%25%2C q_cov:98.4%25%2C s_cov:98.8%25%2C Eval:2.3e-55],MGA_66
sequence02	MetaGeneAnnotator	CDS	18857	19096	.	+	0	ID=MGA_67;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXC3;translation=MSEEIVSRVKKVITNHLGVKEDKVIDNAKFIEDLGADSLDQVELVMAFEEEFKCEIPDEAAEKIVTVKDAVDLIKSKTS;locus_tag=LOCUS_0660;gene=acpP;note=Q2RXC3 acyl carrier protein (Rhodospirillum rubrum ATCC 11170) [pid:71.2%25%2C q_cov:92.4%25%2C s_cov:94.8%25%2C Eval:1.3e-24],MGA_67
sequence02	MetaGeneAnnotator	CDS	19108	20349	.	+	0	ID=MGA_68;product=3-oxoacyl-[acyl-carrier-protein] synthase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXC2;translation=MRRVVITGMGVITALGNGVEENWKKLISSTSGIKIIDSFKIDDMPSKIAGVIEEDIINKSFEEKEKRKMDKFILYSLIAAEEAIKNSGWIIKNENQSSRTGVIIGSGIGGLSTIYDNSIILEKNSPRKISPFFIPSSLINLASGQVSIKYNFKGPNHSTVTACASGAHAIGDSFRLIQSNKADVMVAGGSEAAICRLGMAGFCALRALSTNFNNEPQKASRPFDDARDGFVMGDGAGVLILEDFEHAKKRNANIICEIVGYGSSGDAHHVTSPPEDGNGAERCINSALNDAKKNSEDIDYINAHGTSTPVGDKIEAKCIQKVFLKNLNKIKMSSTKSAIGHLLGASGSVESIYSILSITNKKIPPTLNLNTPIEETKKINLVPLNSIDHDVKCVLSNSFGFGGTNASLVFNSI;locus_tag=LOCUS_0670;EC_number=2.3.1.179;note=Q2RXC2 3-oxoacyl-[acyl-carrier-protein] synthase 2 (Rhodospirillum rubrum ATCC 11170) [pid:56.7%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:6.5e-137],MGA_68
sequence02	MetaGeneAnnotator	CDS	20351	21322	.	+	0	ID=MGA_69;product=aminodeoxychorismate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599407.1;translation=MKILFLIKIYNKIFLSYFFLIFLFFFEFFFSKYEYKHTFFITPNESLNTITENLYKQRIIDNKFFFKLFIFLSLSEKKIKAGEYQFHKKNIFQQINKIRNGDVYYRKFTIPEGLKTTEIINILKKTEGIILNKDLNFKKNAEGSLFPSTYIYTYGTNFNIIINKMRKEMLSVLENAWINRDKNLFLKDINEVLILASLIEKETSLNAEKPIIARVFLNRLKLNMKLQSDPTVIYAIENDADIKIDKLRKKDLNYDSNFNTYVYKGLPKGPICNPGKEAILAVTKPDDNDYLYFVANGLGGHNFSNNLKKHNENVKIYKNLKNN;locus_tag=LOCUS_0680;note=WP_004599407.1 aminodeoxychorismate lyase (Rickettsia prowazekii str. Madrid E) [pid:39.1%25%2C q_cov:87.0%25%2C s_cov:82.1%25%2C Eval:4.2e-45],MGA_69
sequence02	MetaGeneAnnotator	CDS	21324	21941	.	+	0	ID=MGA_70;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89MV4;translation=MIKNNGLYIILSSPSGAGKTTLAKKLIKNNKKLKLSISYTTRKKRPVERNNKDYIFINENKFNELKKRKYFIEWAKVFGNYYGTSLIKLKKHITKGNDVLFDIDWQGSRQIKKKLGKDVVSIFILPPSKRELIKRLKKRAQDSDNEVKKRLSFFEKELSHWKEYKYVLINDKINETLNQIKSIIKVEKIINQKSFFLKKKIKFLK;locus_tag=LOCUS_0690;gene=gmk;EC_number=2.7.4.8;note=Q89MV4 guanylate kinase (Bradyrhizobium diazoefficiens USDA 110) [pid:43.6%25%2C q_cov:91.7%25%2C s_cov:85.8%25%2C Eval:8.3e-44],MGA_70
sequence02	MetaGeneAnnotator	CDS	21925	22776	.	-	0	ID=MGA_71;product=ribosomal RNA small subunit methyltransferase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J2B9;translation=MDTIKQIINKYNLVSKKSLGQNFILDENITDKIIRNTNVKNKVILEIGPGPGCLTRSLIKAGAKKIIAVEKDSNCIKILNYQKKIFSKKLDVIEGDFLEKNIFNKTFKKLYKYKKKTLMVSNLPYKTAIPILSNIYKNREFFNELLLMFQTEQANRIIANKNTKNYGRITVLSNWLCEINKVMNLSPNYFFPKPKINSSLLKFKFKKNIKNVRDENLLKELIKKCFNQRRKTIKNNLKKLIPDIEQILLLNKINPKKRPEELNYNNYINVTNYIYEKKIILKI;locus_tag=LOCUS_0700;gene=rsmA;EC_number=2.1.1.182;note=Q3J2B9 ribosomal RNA small subunit methyltransferase A (Rhodobacter sphaeroides 2.4.1) [pid:35.9%25%2C q_cov:91.5%25%2C s_cov:91.7%25%2C Eval:1.8e-41],MGA_71
sequence02	MetaGeneAnnotator	CDS	22764	23771	.	-	0	ID=MGA_72;product=4-hydroxythreonine-4-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UGD4;translation=MNKKIITGITMGEPAGISTEITLKVWKNYKNKLEPFIFFGDPDHIIKTASKLNYKIPIKIIKNIKESVNIFKNYLPIYKISLKKKISFGKPSISNSNKVLYSIKKTVNLAFKKKISSVVTNPVEKNIINKINKKFSGHTFYIANLLSVKKPIMLLTSPKISVVPITQHISLKKAIKAINKEIIISTTKIVNKYFKTYFAIKKPKIAIAGLNPHIGENGNFGNEEQKIIIPAIKKIKKQKINISGPYPADTIFNQNFSKKFNVIICMYHDQATMPLKIIDFDNGVNITLGLPIIRTSPDHGTALNISGKNKASEKSLYSAIKLSQKIAKKKKFWIQ;locus_tag=LOCUS_0710;gene=pdxA;EC_number=1.1.1.262;note=Q8UGD4 4-hydroxythreonine-4-phosphate dehydrogenase (Agrobacterium fabrum str. C58) [pid:35.8%25%2C q_cov:96.4%25%2C s_cov:96.5%25%2C Eval:6.3e-60],MGA_72
sequence02	MetaGeneAnnotator	CDS	23775	25037	.	-	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKKIFKNFFLINLFLLLFTKNIISNSENNNLSILKRLPTSIFATVNGEPISIFDLIQRSNLFSVSARIPIDDNFETKILPDLISGYIDEIIQIQEIQKANIIVSEDQINQMIDSIEKENGFKKGKLKDFLKENKTDIKILKKQISSNIGWKQLVANKFRKQVIIQDSEIDLLHNNLKSNVGKDEFLIEQIFLSLENKKKTEVLNKINNIYKQIQNGGDFTSISKQFSESYGGKIGLIGWIPETQLDQKILNDIKLININEISKPLLGEEGYFIIKIKNKRIIGEEIINNVSLFRLQLIKNNNEINSQLKNVKNCKELEEFTNKYGTSDSGSLGNLKYNELSDYLKEEIKKLKKNEISQNIKFGEENYQIMLCEINKFKPIIPSKFKIQEILVNKKLDTIARQFMSELRSKAVIDVRI;locus_tag=LOCUS_0720;note=MGA_73
sequence02	MetaGeneAnnotator	CDS	25060	27222	.	-	0	ID=MGA_74;product=LPS-assembly protein LptD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXA6;translation=MREQIKYIQNIIVLTIFLLVLINKNLLSEEDLPFILNANKIINNDKILIIAKGEVEVIQGKEVLRADYLEFDKEKNKAFAKGNVSILDKDGVVYFADYAEIDKGFKNGLTKNISILFPDNSKIAASNGKRFKGQISRLKKALYSACNCDDPDKSPTWQIKASEVVHDSKRKKITYKNAFLEFLGFPVAYTPFYSHPDPSVKRQSGFLFPRYTSNSELGTIIGTPYYFSLSPHKDLTVEPMYIGNQRPLIYTQYRQKFLNGEINVDTSFTNAERRTRVKTYSNKFRGHLFINGKFDHNEFWRYGFNIKRSTDDTYLSRYLFEGATDRLHSDFYIEGFDDKNYFIASGIATQVQSSAYQSNKTPLVLPSINYNFQSEKTKFGFIDLNASFLSLTRREGADTRKISLQPILTYPFTDNFGNRYKFQAKTTISSYMLSHVQRTGKADYKGYKSRIHPELLFGWDLPLQKKQNGKNFIIKPQAALILAPNRGSDNEIPNEDSDSFEFGETHLFNSSLYPGNDKIEKSNQRIDYGLNFKIQSTKTGINSDFFIGQSYRFRKNNNFSKTSGLNDNLSDIVGKIGFGFGKNINLSYRFLLNKDSFFSTRRDQFRISTKIYNNDLNVNYIFLEPTSGISDEREELNLSLTHYFNDNYSLRYTLKDDMTNSGGLLGQSLSLRFDNECFTTDIGLNRSYYLDREIKPNDTFMITFTFKTLGSFSTGRNISN;locus_tag=LOCUS_0730;gene=lptD;note=Q2RXA6 LPS-assembly protein LptD (Rhodospirillum rubrum ATCC 11170) [pid:26.3%25%2C q_cov:95.0%25%2C s_cov:79.1%25%2C Eval:5.7e-68],MGA_74
sequence02	MetaGeneAnnotator	CDS	27206	28327	.	-	0	ID=MGA_75;product=LPS export ABC transporter permease LptG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014537773.1;translation=MKISNLNIFNKKLEIYILNKFIRNFIFFFFIALFIVFLIEFVELLRRTSENPNVSSIFFILYLAILKITESVSFIIPISFIVTTMITCKHFNKNREMIIIQNAGLNSFKILYPFIVFSIIFSILYISFLNPFFSYTTNLYQKVEQEMFRGKLSKASISKSGIWLRQGSDNNKIVIRASNFIPEESLFKDSTFYIFTKKNNFIERIDAQNVKLGQNNWIMKNVIINRPNKKVVKIDEYTLKTNLSIDKIENSFLDPESLSIRKMPEFINLLQESGFSATKHKMYLFKSIFLPLYLIGLILVAGSFTIKYTKTNVKNFFMILSCSVFCFLIHVISEYIYSLGIANKLPTLLASISPSIITIMMGIFFILHFERTN;locus_tag=LOCUS_0740;note=WP_014537773.1 LPS export ABC transporter permease LptG (Ketogulonicigenium vulgare WSH-001) [pid:25.1%25%2C q_cov:90.1%25%2C s_cov:92.8%25%2C Eval:1.0e-29],MGA_75
sequence02	MetaGeneAnnotator	CDS	28324	29298	.	-	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKNFFKLTSLLIPTLIPSLTPITLSLACIIVYHKLSNDNELIIIKSSGFSKVQILKPALLLSIFVALINLMLNLYLSPLSKNTFKENQKELREDIARVAFKEGRFSNLFQDITIYIEKVEDENNFKHIFVYDNRNKKDPATYIAKKAELIQNDLQNKVILRNGNRQIINKKNSQLSIIKFEEYEVNLDNLIKDDNKERIKEPEEMFVNELWDKKHLTSGRYDQNQIKSMIIEGHKRIIDPIYCIIFTLISLTFLLKDNLILQSTLKKTSMIILLIFLIEVIYLSIPNLIVKKIYLLPGIYIFPIFLLFFLLITNIQKNYFKK;locus_tag=LOCUS_0750;note=MGA_76
sequence02	MetaGeneAnnotator	CDS	29225	29455	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGVKDGIKVGINNEVSLKKFLISNPFVVTYSINFNAIISHITIIKKDVKDIKKYPICLKIYLEIIDIITILICVL;locus_tag=LOCUS_0760;note=MGA_77
sequence02	MetaGeneAnnotator	CDS	29452	30948	.	+	0	ID=MGA_78;product=putative cytosol aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TKM8;translation=MNVNFINKKVLPNFKIFFVNKDKKNITDYSISSDKEIENNILNLLSKRNFNGLLNQISNIEIFDKKINHNFLFIGIGETSEIKEFNFQYFGGLLFSFIENLKYKKISVSIENVKKISVSKESIILNLAAGIKLKSYSFTKYKNIKKDKKFKIEEINFVTSQSAKYKKMFISHNAVTEGVFFSRDLLHEPPNVLNPVHLASRAKELTKFGLKVNILDEKKMKKLGMNALLGVGMGSANPSRLITLEWNGNPRSKKAYLGLVGKGVTFDTGGYSLKPSSGMEEMKMDMGGSALVLGVMKTLALRKSKSNVVAVIGTVENMVSSNAQRPSDIVKSMSGQTIEVLNTDAEGRLVLADALWYCQEKFKVKKMINFATLTGAIIVALGNLYAGLFSNSDKLSDDLVTSANKTDEKIWRFPLNKEYDELLNCDIADVKNITGTGGAGSITAAQFLQRFVKKEVEWAHLDIAGVTWINKDLPLSKKGGTAFGVRLINDFILNNFEK;locus_tag=LOCUS_0770;gene=pepA;note=E8TKM8 putative cytosol aminopeptidase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:49.8%25%2C q_cov:85.3%25%2C s_cov:84.1%25%2C Eval:2.6e-106],MGA_78
sequence02	MetaGeneAnnotator	CDS	30949	31362	.	+	0	ID=MGA_79;product=nucleoside diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q729L7;translation=MPNQKTLSIIKPDAIKAGVENEINTIIKNSGLNILNSKKITLTETEAKGFYSVHSDKPFFEELCQFMVSGPIIVQVLEGENAVENYRKIMGATNPDEAIDGTIRKLYANSIQENAVHGSDSEENAKKEISFFFNDEA;locus_tag=LOCUS_0780;gene=ndk;EC_number=2.7.4.6;note=Q729L7 nucleoside diphosphate kinase (Desulfovibrio vulgaris str. Hildenborough) [pid:52.7%25%2C q_cov:95.6%25%2C s_cov:94.2%25%2C Eval:3.8e-37],MGA_79
sequence02	MetaGeneAnnotator	CDS	31515	32144	.	-	0	ID=MGA_80;product=phosphoribosylglycinamide formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RSC7;translation=MENLKIVVLISGRGSNLKAIAQECKKKRTPAKIIAIISNNQFASGLKIKGKFEKIFIKEKKKDFEKKLQKNLNRLKPDLICLAGFMKILSPFIIRKWRNKIINVHPSLLPSFKGLNTHKRVLEKGVKISGCTIHFVDESLDGGPIIAQAALTVKKKMKELELQKKILELEHVIYPQVINLFSKKKILIKQNKVLIKSENKEINKFIKNV;locus_tag=LOCUS_0790;gene=purN;EC_number=2.1.2.2;note=Q2RSC7 phosphoribosylglycinamide formyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:38.7%25%2C q_cov:94.7%25%2C s_cov:91.1%25%2C Eval:3.4e-40],MGA_80
sequence02	MetaGeneAnnotator	CDS	32132	33184	.	-	0	ID=MGA_81;product=phosphoribosylformylglycinamidine cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q63R55;translation=MVSKVNKYKKAGVDINSGNQFVKLIKKKVFKTHIKGSFKDLNSFGGFFNLSSLNYKEPLLISATDGVGTKIKIAQNLKKYNTLGIDLVAMSVNDILVHGGKPIFFLDYIAVEKLNKKIGIEIIDGICKGCKIAGCSLLGGETAEMPGIYQKNDFDLAGFAVGVVEKKKLITGKAIKKDDVVIGLKSSGFHSNGYSMIRYILEKKKISYKKIINKNSIGNFLIKPTKIYSKIILKLLNTNGINGMCHITGGGIIENIPRIIPNGLGIDFNNHNWKLPNIYNWFRKQGDLSFKEMLKIFNCGVGMILICKKNKAKNIISQLNKNKEPFFYLGNIIKSKKKIDFKLLEQKWKI;locus_tag=LOCUS_0800;gene=purM;EC_number=6.3.3.1;note=Q63R55 phosphoribosylformylglycinamidine cyclo-ligase (Burkholderia pseudomallei K96243) [pid:45.5%25%2C q_cov:94.3%25%2C s_cov:93.7%25%2C Eval:4.4e-83],MGA_81
sequence02	MetaGeneAnnotator	CDS	33232	34332	.	+	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNFIKIFIIFFLISIIFSKYLLSGTEKKGTIFTINDVFIDITSTSTSKAKEIALLTAQEKGFNNLMKKMLLETEYQKIKDIEAERIQEFVEAIEIQNEKTAPERYIGNLTIIFNENKILNFFNKNNIKFTSVKSKPLLILPIYKFAGVTYLWEKKNIWRNIWIKNANYQGLIPIKSSEGKFTDFILFNQDQAVKKNLENLELLAKSHDTTGVLIAILKKKYNRDKSKILFNLDLSIYRFDGGDKDTYQDTIEIYTNEFSDDVLKEARTKVEDFVNKQWKTANVLSSQKKLTRITVLFKSLNDWINIKKSINSMSIIDKYNVTNFSKNEANIIVSFSGNLNQLKLAFSQSDLDFNIEDKNLNLKK;locus_tag=LOCUS_0810;note=MGA_82
sequence02	MetaGeneAnnotator	CDS	34343	35044	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_006312857.1;translation=MIKNLKNTQLPLNLKKKNKIYEKNDFLISSSNKEAFNLINKWPNWIGRKLILYGDKGIGKTHLSNIWKTKTSALNLSLKKFKNLRLENIFQNKNTFVIENITKFFNEKDKNIKKKLEKKLLHFYNLVDEKESYVLITSLVSPKSLNIVLPDLRSRIMSSISIKIKKPDDKLLSLVLIKLFSDKQILIDKKIIKFIVYRSERSFTNLRMIVNKLDKKSLITKKKINLSFVKELI;locus_tag=LOCUS_0820;note=WP_006312857.1 hypothetical protein (Agrobacterium fabrum str. C58) [pid:28.1%25%2C q_cov:97.9%25%2C s_cov:88.8%25%2C Eval:5.8e-18],MGA_83
sequence02	MetaGeneAnnotator	CDS	35054	36835	.	+	0	ID=MGA_84;product=aspartate--tRNA(Asp/Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE17;translation=MHQFRTHNCNELKLKDKNKIVKLSGWVHRKRDHGNLLFIDLRDHYGITQIVIDKKNKFFPIAEKTTTESVIIVIGKVVPRSNETLNKKIPTGEIEVSVDEYINESPAMPLPLEVNSDKDYGEDTRLKFRYLDLRRSKMQKNILLRNKVISLIREGMVNQNFIEIQTPILTASSPEGARDYLVPSRINPGKFYALPQAPQQFKQLLMTAGFDKYFQIAPCFRDEDSRADRSPGEFYQLDYEMSFVTQEDVFNALEPVLFNVFTKLKKDFSISKPPFKRITYNESLEKYGDDKPDLRNPLLLSDVTEIFKGSSFKLFAENVNKGSIVIAIPAPNTKDKPRTFFDKLNTWAKNEGQGGMGYIQFINNDGKGPIANNLDKERINKLLEIDGVDKNSSIFFLCGKEEEIREFASAARTKIGNELNLINEKEFCFCWIVDYPMYQKNPETGEVEFSHNPFSMPQGGLDSLIKEDPMKIKAFQYDNVCNGIELSSGAIRNHKPEIMVKAFELAGYSKKDLEEKFSGLLQAFNYGAPPHGGCAPGIDRIVMLIAGEPNIREIIPFPFNQKAEDLMMNAPAEISVERLKELSLKILDLKKKD;locus_tag=LOCUS_0830;gene=aspS;EC_number=6.1.1.23;note=Q9ZE17 aspartate--tRNA(Asp/Asn) ligase (Rickettsia prowazekii str. Madrid E) [pid:59.5%25%2C q_cov:96.8%25%2C s_cov:95.7%25%2C Eval:9.8e-204],MGA_84
sequence02	MetaGeneAnnotator	CDS	36832	38223	.	-	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSAIFKQITLIIKSHDGQIFLNSSGSTPVFDGMLKVYNYEKKSNSKENEENIIPNLNSGDDVSIDKILDEQHFTQPPARYTEASLVKKLEELGIGRPSTYAPIIQVLKTRGYINIESRRIFPQDRGRIVTVFLSNFFEKYIDYDFTANLENKLDDISGGRLNYISVLDDFWKNFYNLIEQTKEIRIRDVIDKLDSQLEDHFFQPNEKNSEPRKCPTCDNGRLGLKLGRTGPFIGCSNYPDCKYATQLTSNINGDEQNGGGMALPKEIGLDPKTNKPMTIKQGPYGIYIEMEDKDGEKPRRASVPKNIPLEQLSIEKASQLLSLPREVGKYSKTNEIIIANNGRFGPYLKIGDYFVSLKEDDVYTVGQNRAIDLIEEHFKKIEKQTIGTHDNKELSVSKRGRIGYFLKNGTTSIRVPNEIDAKTISLEKAIELIEIKKTKDTEKKKKTKKKRKSKKEKIKSDI;locus_tag=LOCUS_0840;note=Q2RPE8 DNA topoisomerase 1 (Rhodospirillum rubrum ATCC 11170) [pid:42.4%25%2C q_cov:93.5%25%2C s_cov:49.6%25%2C Eval:3.9e-101%2C partial hit],internal stop codon at [38416:38418](-),MGA_85
sequence02	MetaGeneAnnotator	misc_feature	38416	39145	.	-	.	ID=MGA_86;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q9ZDK2:DNA topoisomerase 1,Q9ZDK2 DNA topoisomerase 1 (Rickettsia prowazekii str. Madrid E) [pid:54.8%25%2C q_cov:99.6%25%2C s_cov:32.2%25%2C Eval:1.8e-73%2C partial hit],internal stop codon at [38416:38418](-),MGA_86;locus_tag=LOCUS_0850
sequence03	MetaGeneAnnotator	CDS	1264	1872	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002719737.1;translation=MKKIIFILISFFISSNAYAPPPGKEIDPNWPCIQVFIEELSWGSLWTGPPLDDKSLTWKNDEKLVSLSKKLMNRKTKEEQGIIELNKYINKNSSPPELTKLFHALFDTTNDIWRNRTQKLMNFGKRQRLTSEKVAKKLETIKELSKDYEKNKNEIEKLEQEQFWDIRRFEDRRNISDSLCEQPRFYEKRLGVYGNLILEKFN;locus_tag=LOCUS_0860;note=WP_002719737.1 hypothetical protein (Rhodobacter sphaeroides 2.4.1) [pid:25.3%25%2C q_cov:85.6%25%2C s_cov:87.3%25%2C Eval:8.1e-12],MGA_88
sequence03	MetaGeneAnnotator	CDS	1880	2701	.	-	0	ID=MGA_89;product=transport permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89H04;translation=MNIFQYYLCFKGIVYRESLRFFYQRERFLSALVRPLVWLAIFAVGFRSFLGVSRPLGQPENWPYPISLVPYELYIAAGLIAMIQLFNGMQSSLSMVYDREMGSMRTLLVSPFPRSFLLISKLIAGVSVSILQVFTFLVIALYWDIEPPIIGYLTILPALFLSGMMLGALGMFLSSAIKQLENFAGVMNFVIFPMFFASSALYPLWKIRESSEILFYFCSYNPFTHAVELIRFALYGQLNEKSLLFVFVFLIIFLTMAIYGYDPSKGLMTKKKV;locus_tag=LOCUS_0870;note=Q89H04 transport permease protein (Bradyrhizobium diazoefficiens USDA 110) [pid:68.2%25%2C q_cov:96.3%25%2C s_cov:90.8%25%2C Eval:3.1e-96],MGA_89
sequence03	MetaGeneAnnotator	CDS	2704	3432	.	-	0	ID=MGA_90;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088930.1;translation=MDSSALSITKLDHSFGELKVLDNVNLFLNKGDYSILLGLNGAGKTTLFSLITRLYDNQTGSIEIFSQNIKTNPSKALANIGVVFQQPTVDLDLTVEQNLQYHASLHGMKKSLALENAISELERQNMENILKKKVRELSGGQKRRVEIVRALMHNPKLLLLDEPTVGVDIESRKLIVKHVKTLCVEKKLAVLWATHLIDEVDEKGKLIVLHKGKVLANDNVKNILKETKVKNISNAFDYYTKK;locus_tag=LOCUS_0880;note=WP_011088930.1 ABC transporter ATP-binding protein (Bradyrhizobium diazoefficiens USDA 110) [pid:47.4%25%2C q_cov:95.9%25%2C s_cov:86.2%25%2C Eval:2.6e-56],MGA_90
sequence03	MetaGeneAnnotator	CDS	3477	4439	.	-	0	ID=MGA_91;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532045.1;translation=MIKKILLVIFLILIQKTVLSEIIYVSNEKDHNITVIDGNSLEVIKTVKVGHRPRGIILSKDKKKIIICTSDDNRITVVDVDSLEVEYYLPSGPDPELMVMDDAGKFIYVANEDDNMVTVVDYVEKKVVKEIPVGVEPEGMGLSPDGKTLVNTSETTNMAHFIDTSTLEIKANVLVDARPRVAQFTADGKFVWVSSEIGGTISIIDSSKLEIIKKIGFNIPGLSKESIQPVGVILDDKRKLAYVALGPANRIAIINMETYEVEKYILTGQRVWNLMINTDGTKLYTTNGVSNDISVVDIDKRKVIKSIPVGRYPWGVAVKE;locus_tag=LOCUS_0890;note=WP_013532045.1 membrane protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:58.3%25%2C q_cov:92.2%25%2C s_cov:91.3%25%2C Eval:1.5e-98],MGA_91
sequence03	MetaGeneAnnotator	CDS	4476	5663	.	-	0	ID=MGA_92;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088928.1;translation=MKKLIYIIFLFFNFISIGLSADIQQIKIVHLNRIIEREPTIYSINPEIVNNGILGSRMGIKDNNTTGKFTNQNFELIEKNIMSKESAKEIFEEFRKNKYNFFVLNVSKDDFAKILTSNLIKDSIIINASLKDNDLRNENCNKNVLHTAPSYRMVADALIQFLKKKNWTKLLLISGANERDKQFADSIKISAKRFGLKIVNEKIWDLTHDFRRTADLEITKFTQGEKYQVLVLADEGNSFGDSGNSFGDYIPYRTWKPTIVVGGEVLKPTSWHFAHEQWGGNQMQSRFLKDSKRLMTNIDFNSWVGVRTLGEAITRTKSLDVEILLEKIVDDKFNLAAYKGKPLSFRKWNGQLRQPILLVTPRALVSVSPQSGFVHPRTELDTLGIDEPDSKCKLN;locus_tag=LOCUS_0900;note=WP_011088928.1 ABC transporter substrate-binding protein (Bradyrhizobium diazoefficiens USDA 110) [pid:43.4%25%2C q_cov:89.9%25%2C s_cov:90.1%25%2C Eval:3.0e-75],MGA_92
sequence03	MetaGeneAnnotator	CDS	5780	6307	.	+	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPLLRWWLFISLTVVLTFAFYYFGLFAEVWDKDRTKLSFLIMVMFAVTSIHCGRETIKISKALEGDISSNKIKETDWRGNQEIGWFISDLVLTVGMIGTVSGFLLMLTGAFAGVDLGDEVAMKEVLEKMSKGMSTALYTTLFGLICGGLLKIQYFSLARATDFLIGPYDNSKIE;locus_tag=LOCUS_0910;note=MGA_93
sequence03	MetaGeneAnnotator	CDS	6322	6918	.	+	0	ID=MGA_94;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088431.1;translation=MQRKYHTNLPFLDLLFNVLIGFVFLFIVSFLLINPVAKRADIEVKAEFLITVFWPDNLEDDIDIYVEDPAGNLVWFKSREPGLMHLDRDDLGKRNDEVITAAGTILFPENREIVTLRGIVPGEYVVNVHCYFKIGSDPVPVTIQIDKINPYSVVLRETVDLKNKGEEITVTRFSVNSKGDVTNVNKLPKKLVQEWQKG;locus_tag=LOCUS_0920;note=WP_011088431.1 hypothetical protein (Bradyrhizobium diazoefficiens USDA 110) [pid:42.8%25%2C q_cov:88.4%25%2C s_cov:80.7%25%2C Eval:6.3e-38],MGA_94
sequence03	MetaGeneAnnotator	CDS	6903	7517	.	+	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088430.1;translation=MAEGIIGLSATFLVLVALILWLIILSKGKFWVIKSIIIFFATLFSIILLISLKSFIGWPSGSKLPQEFQLHWAIIDEPNKIKNTDGSIYMWVSALDEDNKSKGLPRAYKINYTRKNHEEIIKGLVSLGDGIQQKGEKLKAKEDIDIDEDLSNMQEIVIYELPKPLLPEKNQRRTEQGDTTSSGFNALEIDPETGRPIIEKKDKE;locus_tag=LOCUS_0930;note=WP_011088430.1 hypothetical protein (Bradyrhizobium diazoefficiens USDA 110) [pid:28.0%25%2C q_cov:89.2%25%2C s_cov:84.6%25%2C Eval:2.3e-14],MGA_95
sequence03	MetaGeneAnnotator	CDS	7519	8307	.	-	0	ID=MGA_96;product=L-aspartate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879332.1;translation=MKKKKIGILGFGAIGQEIYKKISEKFINGYEVVGIFSEDIASKKIPNKIKCLSFNELLKKKPSLIVEVASVEACFQYAERILKKKIDFVCLSVCSFVNNSFFKKIIFLTKKINSKVYIPTGAIAGLDAISSASLNKELNLVKLIQRKPPKALLSNLESKKIKKEKILLNSTASKVCKKFPKNSNIAATLSICGLGFNKTKVVVIADPKIKKNIAEVEASGKFGKLKIILQNNPSSNPKTSRLTAMSIILSLSKKNSNFLTAF;locus_tag=LOCUS_0940;note=WP_010879332.1 L-aspartate dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:34.2%25%2C q_cov:92.4%25%2C s_cov:93.6%25%2C Eval:2.6e-28],MGA_96
sequence03	MetaGeneAnnotator	CDS	8406	9857	.	+	0	ID=MGA_97;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958177.1;translation=MSINVETKKTVKTITEKYKYGFSTKIESDTAPKGLNENIVRLISKKKNEPKWLLDWRLKAFKTWLKMKEPNWSMVKFPKINYQDSYYYSAPKPKKKLKNLNEVDPAILSTYEKLGIPLEEQKRLAGVAVDYVFDSTSVATTFKDKLAELGIVFCSFSEAVKTHPDLIKKYLGTVIPYTDNYFATLNSAVFSDGSFVYIPPGVRCPMELSTYFRINAENTGQFERTLIIADKDSYVSYLEGCTAPMRDENQLHAACVELITLDNAEIKYSTVQNWYPGDEKGKGGVYNFVTKRGACRGNNSKISWTQVETGSAITWKYPSCILQGDNSVGEFYSVAITNNFQQADTGTKMIHLGKNTKSTIISKGISAGKGQNTYRGLVRIGPKASNGRNFTQCDSLLIGDKCGAHTVPYIEVKNKTAKIEHEATTSKISDDQMFYCRQRGLDQENAVSLIVNGFCKEVLKELPMEFAVEAQKLLGISLEGSVG;locus_tag=LOCUS_0950;gene=sufB;note=WP_010958177.1 Fe-S cluster assembly protein SufB (Coxiella burnetii RSA 493) [pid:74.1%25%2C q_cov:97.9%25%2C s_cov:97.9%25%2C Eval:2.8e-214],MGA_97
sequence03	MetaGeneAnnotator	CDS	9866	10603	.	+	0	ID=MGA_98;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011141371.1;translation=MLKIENLHANVEDKKILQGIDLTINPGEIHAIMGPNGSGKSTLANILSGRDGYKITKGKISYLKKDLMNLEPEERACEGLFLAFQYPVEIPGVSGINFLRTTLNSIRKYKKLKELDGVSFLKLLREKAKLLKMDEKLIKRSVNTGFSGGEKKRSEILQMSLLEPKLAILDETDSGLDIDALKIAASGVNNLKNKQRSFLIITHYQRLLNYIVPDKVHILSEGKIVKSGDKNLAIELEKKGYEGLI;locus_tag=LOCUS_0960;note=WP_011141371.1 ABC transporter ATP-binding protein (Gloeobacter violaceus PCC 7421) [pid:66.0%25%2C q_cov:98.4%25%2C s_cov:95.6%25%2C Eval:2.9e-87],MGA_98
sequence03	MetaGeneAnnotator	CDS	10606	11784	.	+	0	ID=MGA_99;product=Fe-S cluster assembly protein SufD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964480.1;translation=MQQKIIKNFDIPNKKIETWKFTDLKKYFEKNDFKPKTNSFKKSNVINSNIPKNIFFNPNKNFIIIENGILKKINIKSENLEIKSSKNIFKKKNIKNFLRKDSLLDINETFLNENIIITIKKNTKLNKTITIFYYNSENEKNIINNKINIFLEENAEAEISEIFFSKEKSFYWNNVHKYIDLKKNSKLNHYNIQLESKNALHSSINNVNCNSASTYDSFIFSTGANLSRIEAISSINAEDINFNIKGLYLANKNQHHDITTLMQHKKPNSKSNQHIKGILEENSSGVFQGKVIVSQDAQKTDAFQFNQNLLLSENADVNSKPELEIYADDVKCSHGSTTGDLDEEMLFYLRSRGLNKQQAKKILIEGFINELFDEIKNEEIKENLLKTSKEII;locus_tag=LOCUS_0970;gene=sufD;note=WP_011964480.1 Fe-S cluster assembly protein SufD (Flavobacterium psychrophilum JIP02/86) [pid:31.3%25%2C q_cov:98.5%25%2C s_cov:90.9%25%2C Eval:1.0e-46],MGA_99
sequence03	MetaGeneAnnotator	CDS	11787	13031	.	+	0	ID=MGA_100;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H270;translation=MLVSANKNKYIDIKKIRKDFPILKIKSNNKKLVFFDNGASAQKPQIVLNKINEVYKTKYANIHRGIYNLSQQATEEYEESRKKIKKFINANNEKEVIFVRGATEGINLIAQSFGLNNFKKGDEIILSQMEHHSNIVPWQLIRNKTGIKIKVLPINKNGDIDLNNFKKILTKKTKFVSILHVSNALGTIIPLKELISISHKKNIPVLVDGCQSAPHMKIDMKDLNADFYCFSGHKIYGPTGIGILYCKEKYHEKMLPYQGGGEMISEVTFDKTTYQESPHKYEAGTPNIVGSIALGTAIDYVNKIKIENIFRYEQNLLNYATNKMKSLNDVTIIGNAKKKAGIISFIVKNIHPNDIGVILDNQGIAVRTGHHCCQPLMNFYKIPATIRVSFGLYNTIEEIDYFIDALKNAINLLR;locus_tag=LOCUS_0980;gene=sufS;EC_number=2.8.1.7;note=A6H270 cysteine desulfurase (Flavobacterium psychrophilum JIP02/86) [pid:53.8%25%2C q_cov:97.3%25%2C s_cov:99.5%25%2C Eval:3.6e-127],MGA_100
sequence03	MetaGeneAnnotator	CDS	13057	13365	.	+	0	ID=MGA_101;product=SUF system Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964475.1;translation=MSKEVKDNIIKNLHTVYDPEIPVDIYELGLIYDLKIKAEGMVDITMTLTSPNCPVAEILPEQVKKAAKKAKGVKDVNLKLVFDPPWTPDMMSEAAKVELNMG;locus_tag=LOCUS_0990;note=WP_011964475.1 SUF system Fe-S cluster assembly protein (Flavobacterium psychrophilum JIP02/86) [pid:60.9%25%2C q_cov:90.2%25%2C s_cov:86.0%25%2C Eval:5.3e-26],MGA_101
sequence03	MetaGeneAnnotator	CDS	13369	13710	.	+	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390318.1;translation=MNKLENIITLTDAAKIRIKEIISNAKKKCVGIRIGIDNTGCSGHSYKINYAENKNKGDEEIIFDDIKVFVDPSATMFILGSKIDYVDNGMESGFIFKNPNEKGRCGCGESFSV;locus_tag=LOCUS_1000;note=WP_011390318.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:49.5%25%2C q_cov:93.8%25%2C s_cov:94.7%25%2C Eval:7.5e-25],MGA_102
sequence03	MetaGeneAnnotator	CDS	13741	14133	.	+	0	ID=MGA_103;product=protein ApaG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UI68;translation=MYEEITKKIKITVKPEFLEEHSDPDEKRFIWAYHVKIENFGDDSVKLLSRSWTISDSLGRVQEVHGAGVVGENPILKPGSSFEYTSGTPLNTPSGFMMGTYKMKKNNGSIFNAHIPAFSLDSPHEKGLQN;locus_tag=LOCUS_1010;gene=apaG;note=Q8UI68 protein ApaG (Agrobacterium fabrum str. C58) [pid:57.7%25%2C q_cov:94.6%25%2C s_cov:94.6%25%2C Eval:1.3e-37],MGA_103
sequence03	MetaGeneAnnotator	CDS	14155	14511	.	+	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIEKINNINKIKSAKPTEEEAMEAVKTLIKWTGDNPNREGLIDTPKRVVKAYRDFFSGYALDPREILSKKFQEVDGYDEIIILKNIKLESHCEHHMVPFIGNAHVGYLPKKKGCRP;locus_tag=LOCUS_1020;note=A0A0H2W9H7 GTP cyclohydrolase 1 (Burkholderia mallei ATCC 23344) [pid:62.2%25%2C q_cov:83.1%25%2C s_cov:40.5%25%2C Eval:4.8e-35%2C partial hit],frameshifted%2C insertion/deletion at around 14487,MGA_104
sequence03	MetaGeneAnnotator	CDS	14471	14776	.	+	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWDTYQKKKVVGLSKLARLVELFANRLQLQEKLTAHIANAIDEVLQRKGVGVVIEASHLCVATRGIHKPDSRMVTSRMLGSFRSDEATRKEFLSLIGINKI;locus_tag=LOCUS_1030;note=A0A0H2W9H7 GTP cyclohydrolase 1 (Burkholderia mallei ATCC 23344) [pid:65.9%25%2C q_cov:87.1%25%2C s_cov:36.4%25%2C Eval:1.5e-28%2C partial hit],frameshifted%2C insertion/deletion at around 14487,MGA_105
sequence03	MetaGeneAnnotator	CDS	14804	16246	.	+	0	ID=MGA_106;product=Trk system potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5E1Q4;translation=MVFQPVLYIIGYLLSALSLLLCIPAIVDAFYNDNQWQAFTFSSLICLFFGIILLLANKSENFTISIKQAFLLTTFSWIFISFFGSLPFIFSDLKLSFTDAFFESMSGITTTGSTVLSNLDSLSHGILIWRSLLQWLGGIGIVVIAIAFLPILKVGGMQLFHTESSDSSEKVLPRAGQIASIIGIIYFFLTLICAFLLYFFGMNFFDAIAHAMTTLATGGFSTSDMSIAKYNNLNIEIVISVFMILGSLPFVLYLQMLKGNLSSFYKDSQVKFFLSLIIIALFLVTFWTYQNTASFISNFRPVFFNTISIFTGTGYTTQNFNNWGPFIIVLFLFLMLIGGCAGSTTCGIKIFRLQILYQSAKVQIFKLLNPHGVMVAKYNKIPISESITSSVMGYFFMFIITYIFITLILSFLGNDFLTSLSGAATSLANVGPGLGNVIGPTKTFVQLSDSTKWVLIIGMLIGRLELLSVIILLTPSFWKN;locus_tag=LOCUS_1040;gene=trkH2;note=Q5E1Q4 Trk system potassium uptake protein (Vibrio fischeri ES114) [pid:43.2%25%2C q_cov:99.4%25%2C s_cov:99.2%25%2C Eval:3.7e-110],MGA_106
sequence03	MetaGeneAnnotator	CDS	16243	16836	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFKIIYNLKKYFFFKKLVILLLLFFIFFTKNLNSIDKIYLDLSTIKFENKINYKNYTTSSQLLVKTNLDKEIKEWANQNIILKGKSGEIIIKILDESIIDSFVKEHKKKFSFLPGNGIAYKINFKVKVIAENKKNNSLAEVLSIVKGEKTFLGSFSINDRSNAIDELMENMIKRLIINLQKSMDKEFKDFVTNKYN;locus_tag=LOCUS_1050;note=MGA_107
sequence03	MetaGeneAnnotator	CDS	16821	17726	.	-	0	ID=MGA_108;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RP74;translation=MKKNVKHFLDLNQIDQVELRNIIDLSKSFKQGITSAQDTYKGKTLGLIFEKPSTRTRVSFEIAMYQLGGNVTILEQEKTHLGRGETISDTAKVLSRYLDIIVYRTSSAEKLYELANYSDIPVINGLTDETHPCQLIADIMTFEENIGIINKKRVFTWCGDFNNVCRSWVQAAHIFGFHLNLACPKELIKKNEMKNINNIKNIKIYNSAELACKNVDCIMTDTWFSMGQNVSEKKRKLLKSFQVNNKLLSITKKKSIFMHCLPAHRGEEIEKNILEHPKSVILDEAENRLHTQKAILNWCLK;locus_tag=LOCUS_1060;gene=argF;EC_number=2.1.3.3;note=Q2RP74 ornithine carbamoyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:48.4%25%2C q_cov:99.0%25%2C s_cov:97.7%25%2C Eval:2.4e-76],MGA_108
sequence03	MetaGeneAnnotator	CDS	17728	18900	.	-	0	ID=MGA_109;product=acetylornithine aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U5Q7;translation=MQSSVLSTYKRSHLSFEKGKGSYLITKNGKKYLDFASGIAVNSLGHCHKELVRTLIKQSKKIWHTSNAFHIQEQEILAKKLTKLTFADKVFFCNSGAESVEAAIKIARAYFQIFQNKKKFKIITIKGSFHGRTIAAISASGQKKMVKGFEPLVDGFVSVDFADHKIFEKAIDSKTAAIMVEPILGEGGIKVIPNQCLEGLRDLCDKKKILLIFDEVQCGMGRTGKFFSYQWSKIKPDILATAKGIGGGFPIGACLLTNKISKGMNFGSHGSTFGGNPLACAVANKVIDIISNKKFLSNINKNSIFLIKELEKIKKNFNNLIEEIRGMGLLLGIKCKINNVLFIEKLRNNGLLVVGASDNVVRILPPLNISRKDLIIAIKIIKKTCGELKK;locus_tag=LOCUS_1070;gene=argD;EC_number=2.6.1.11;note=A6U5Q7 acetylornithine aminotransferase (Sinorhizobium medicae WSM419) [pid:52.5%25%2C q_cov:92.3%25%2C s_cov:90.2%25%2C Eval:1.0e-107],MGA_109
sequence03	MetaGeneAnnotator	CDS	18911	19702	.	-	0	ID=MGA_110;product=transport permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RWQ1;translation=MFNTKFNSSSTNWLGLWTLFHKETARFLKVFYQTVLAPVVTNVLFLTVFLIVIDRDDFVIGGVNYPEFLVPGLIMMQILQNAFMNTTSSIMIAKVQGNIVDLLLPPLSSLELTVALSLGGVARGLVVGLASTIVLYFFVDMEFINFFYIIFFSFSGSLCLSLLGIMGGIWSEKFDHMAGLTAFVITPLTFLSGSFYSIEKLPLILEYIAKYNPIFYFIDGFRAGFIGYSDVPIINGIIVCVVLNTILFYLVYKMFKSGYKLRT;locus_tag=LOCUS_1080;note=Q2RWQ1 transport permease protein (Rhodospirillum rubrum ATCC 11170) [pid:47.4%25%2C q_cov:96.2%25%2C s_cov:93.3%25%2C Eval:9.2e-66],MGA_110
sequence03	MetaGeneAnnotator	CDS	19746	19967	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRIPKKITLDYLEISAIKYLEKYSSSEKQLINILKRKIIKSCFFYKINPEEKFILIDNVINKLKSIGLIND;locus_tag=LOCUS_1090;note=MGA_111
sequence03	MetaGeneAnnotator	CDS	20088	20312	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNFFDYELASAIIFAKKKNFLSFKKKDQKEKEKKLIKLSQAGFNYDISKKIINIKNEKELLDLEKFANEGFS;locus_tag=LOCUS_1100;note=MGA_112
sequence03	MetaGeneAnnotator	CDS	20309	21139	.	-	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVSFFGWKGISSLIKKKLNNLEGSKNEAQTQRIDTLFRILKNFISIAILIVTIMLILAELGIEIGPLIAAAGVVGLAVGFGAQTLVKDIITGLFIILEGQITIGDIVEVAGHSGRVEAITIRTVRLRDVNGHLHVVPFSEVKTVKNITQDQDYHSFELGVSYNEDVDNVIEIIEKIGLELQKDKDFKTKINGEIEVFGLDKFEDSAIIIKGRIPTVHKQQWLVRREFNRRIKIAFDKNGIEIPFPQRTISYQKTEKKIIKKRRKIRKFTAGSEDD;locus_tag=LOCUS_1110;note=WP_011390820.1 mechanosensitive ion channel protein MscS (Rhodospirillum rubrum ATCC 11170) [pid:41.1%25%2C q_cov:91.3%25%2C s_cov:32.7%25%2C Eval:2.4e-56%2C partial hit],MGA_113
sequence03	MetaGeneAnnotator	CDS	21288	21845	.	+	0	ID=MGA_114;product=glutathione peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RT82;translation=MYFNKKIILIFLIMFFSLFKHNTINTREIPGSAYDFTFTDIDGNKFPLSQFKGKPLLIFNSASKCGFTSQYTGIQKIHEDYKKKGLVVIGIPSDNFNQEPGDEKDIKKFCMVNFNITFNLTKKNNVVGENAHPLFEWLNKNYKAKPKWNFYKFVINKEGKLEKHFSSMVSPSSENLTSTLNKVTN;locus_tag=LOCUS_1120;note=Q2RT82 glutathione peroxidase (Rhodospirillum rubrum ATCC 11170) [pid:40.9%25%2C q_cov:81.6%25%2C s_cov:79.0%25%2C Eval:5.3e-33],MGA_114
sequence03	Aragorn:1.2.38	tRNA	21869	21946	.	-	.	ID=Aragorn_1;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence03	MetaGeneAnnotator	CDS	21937	22074	.	-	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKLGIKKSFVHGKEKSIICHDMRKYVWDRYNKVEKKKKNKRP;locus_tag=LOCUS_1130;note=MGA_115
sequence03	MetaGeneAnnotator	CDS	22231	23388	.	+	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391064.1;translation=MLYKFVIFLSVFVLTNCSLLDRNGEDVETIADLEQIPEETIQEPSILIDDTELMPDADTIQDDGSLARDEQISSDPSGTFVGQKILPLREDFTAVLEAFNVHRDSYEEVKSRIYGASTQFYGTVAAVNTKLQLGTTPGNPVLVRQYDQAQTELKNIEAYMREINLLNQKVNADAGVVALLKSTINKVLRLAGAIDQDHRQLELLEDDTEKLEIDIARLINEITEEISRQAGFTKIENQNMLTIAVAIRNGEAMGTGILNRSFLAAQALAAAGPPDQQLEVPKVNISGLPLVVIRFDNPDIDYEKTLYDTIGTTIDNLPNASFGLVAVSPIGKNEGETRINSSKVKKYAERVLRSLVSFGLPSKKVALSAKTSGDVIVPEIHIYVQ;locus_tag=LOCUS_1140;note=WP_011391064.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:32.2%25%2C q_cov:80.5%25%2C s_cov:81.7%25%2C Eval:2.3e-40],MGA_116
sequence03	MetaGeneAnnotator	CDS	23391	24242	.	-	0	ID=MGA_117;product=pantothenate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57292;translation=MTKLKIINDSDTLKKNIQEYKIKKKKIGYVATLGSLHKGHLNLIRLAKKKTQIVVVSIFLNPLQFNSKKDFLNYPKSLKKDKKKIYKENIDILYTPSIKEIFFNKKIEKIKASKKANKLCGVNRKGHFNGVVSILKPLFTQIQPSIAFFGEKDFQQIMVVKDLIKKYKMNIKIVILKTIRNSHGLAYSSRNKILNIKEKKIAKYLFITIKEIFFLALKNFKKIKEFEKLGKIKLLKYGFTKVDYFKIYNENNLSKQKINKNNFRVFAAACLGKTRLIDNYKKI;locus_tag=LOCUS_1150;gene=panC;EC_number=6.3.2.1;note=P57292 pantothenate synthetase (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:41.3%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:3.9e-49],MGA_117
sequence03	MetaGeneAnnotator	CDS	24239	25108	.	-	0	ID=MGA_118;product=3-methyl-2-oxobutanoate hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MEL6;translation=MKLKNKITKFFNNPNTLVGLTAYSFNMAKLLDKYVDFILVGDSLGMTLYGMENTQKVTVDMMIKCGESVCRAAKNTIVIIDLPYNSFEKSPVQAYKTALKIIKKTGCYGVKIEGGKEISKTISFLTARGIKVMGHIGLLPQSISNFNKVKIKGFKKIEKDKLIKDSISLSKAGVFGIVIEAVAEKAARAVAIKMMQNKEKFIPTIGIGASKYCSGQILVTDDMLGLTSQVNNKKIPKFVKIYKENNIELSVKNFCSDVRNNIFPDLKYCYSDQEKSSGNITYLNFAKKK;locus_tag=LOCUS_1160;gene=panB;EC_number=2.1.2.11;note=C3MEL6 3-methyl-2-oxobutanoate hydroxymethyltransferase (Sinorhizobium fredii NGR234) [pid:40.6%25%2C q_cov:87.9%25%2C s_cov:90.1%25%2C Eval:8.7e-52],MGA_118
sequence03	MetaGeneAnnotator	CDS	25169	25393	.	-	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYNKKPPPPIPEDIGSTKFKTICVAITASIALPPFLKVSMPILDANGWEVVTKEFVSEALDILIKEKIRIKI;locus_tag=LOCUS_1170;note=MGA_119
sequence03	MetaGeneAnnotator	CDS	25299	26774	.	+	0	ID=MGA_120;product=gamma-glutamyltranspeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011262987.1;translation=MDAVIATQIVLNLVEPMSSGIGGGGFLLYFDKKKNTLNFYDGRETAPKKIKKEFFLDKNGNPYKFYENAVGGLSIGTPGLISMLELAHKNHGLLNWEDLFTPAIKLANNGFKISERLRYAIENDKYLNLFPENEKYFNIKDKNILKNIDFSETLKIISKKKSKGFYEGVIAEKIVHSVQNSKIKKGVINLDDLKNYKAKKSPPLCGQYREYKICSSSLPSAGGTGILQILGILEEFQLSKNTIKTDIHLILEASKLSYNDRYKYLGDTKYSKNKIKKLISKKYLKKQSEKINPKKIIKVTSNIKKDFLPTSTTHFSIIDNEGNVASITSSIENSFGSRLMAGGFVLNNQLSDFNFKIEKNLFKNNIIKKNKKPLSSMSPTIVFDKNDNIKMVIGSPGGKSIIMYVVKTIIGVIDWEMNINQAVNFPNFSISNNKIILEKNKFDKEIKKYLSDIGHIIIEKKLNSGLNGFEIKNERISGVADQRRNGLAISY;locus_tag=LOCUS_1180;gene=ggt;EC_number=2.3.2.2;note=WP_011262987.1 gamma-glutamyltranspeptidase (Vibrio fischeri ES114) [pid:40.7%25%2C q_cov:99.8%25%2C s_cov:87.5%25%2C Eval:1.8e-99],MGA_120
sequence03	MetaGeneAnnotator	CDS	26999	27340	.	+	0	ID=MGA_121;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y3I1;translation=MSAILLKTIKKRIDFIKISKKGKKIFTKGFILQKYKRKIDDKIENNIVRIGFTVTKKIGNAVVRNKVKRRFRAITKELLNNYLKKNYDYIIIAKKNSITMDYKELKNDLIKII;locus_tag=LOCUS_1190;gene=rnpA;EC_number=3.1.26.5;note=Q8Y3I1 ribonuclease P protein component (Listeria monocytogenes EGD-e) [pid:37.1%25%2C q_cov:92.9%25%2C s_cov:83.2%25%2C Eval:2.4e-10],MGA_121
sequence03	MetaGeneAnnotator	CDS	27351	27584	.	+	0	ID=MGA_122;product=putative membrane protein insertion efficiency factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I819;translation=MLKKLLICILKIYRFFSPFFYRGACRFTPTCSQYAVEAISKYGPIVGVYKSIVRLLKCNPFGKWGYDPIDGKNERTK;locus_tag=LOCUS_1200;note=A5I819 putative membrane protein insertion efficiency factor (Clostridium botulinum A str. ATCC 3502) [pid:56.9%25%2C q_cov:84.4%25%2C s_cov:94.2%25%2C Eval:2.9e-16],MGA_122
sequence03	MetaGeneAnnotator	CDS	27559	29286	.	+	0	ID=MGA_123;product=membrane protein insertase YidC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RP12;translation=MGKMREQSNLILAIVLSLLILLGFQYFFEAPRMKKEAEKKKNTELSENLIKNNSNNSEEEPGGYLEINEALNKDQRIEISAPRLKGSISLKGLKIDDLILINYKETLNSDSKFVTLFKPSLAKGGYFSNFGWIKASSEEKYDLPNDQTVWSANLKKLTNNNPVIFTWTNNQGIKFEQEISIDENYMFTVKQKVTNNTEQNINLSPVAKISRTDTPDTQGFFILHEGPIGVIDDVLEELDYKDLKKNIGPIEYKSKGGWFGITDKYWLATLIPDQNTTIIARYQFYTKNNKEKYQVDYKGGIIEIPSNKSITIENLLYAGAKEVKLLDKYEKEYSIPRLDFAIDFGWYYFLTKPFLYILIFFKNIFGNFGLSIILLTLLIKLIFFPLANKSYVAMQKMKELQPQLMRIKETYKNDKVKLNQEMMTLYKREKVNPAASCLPILIQIPVFFALYKILFVSLEMRQAPFYLWIEDLSLADPTSILNLFGLLPYDPNFLPKIINIGIWPIIMGATMWLQQKLNPQPTDPMQAKIFMFLPIFFTFILAPFPAGLVIYWTANNVLSMGQQILIKKKMEKDKK;locus_tag=LOCUS_1210;gene=yidC;note=Q2RP12 membrane protein insertase YidC (Rhodospirillum rubrum ATCC 11170) [pid:45.0%25%2C q_cov:97.9%25%2C s_cov:98.7%25%2C Eval:3.6e-147],MGA_123
sequence03	MetaGeneAnnotator	CDS	29315	30184	.	+	0	ID=MGA_124;product=acetylglutamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UIB7;translation=MKIFLSKNEKKYLNDVLSFSEAEKYIKKFKNKIFVVKYGGNALTNKYLANNFAKDICLIKKLGINLIIVHGGGPQISETLKKKKIKTKFINGLRITDNKTIKIVKDVLINRINKKIVKLIRDAGGKAKSLPGNKNNFIEVDEINKELGFVGKPKKIKISIIKKLLKDNYIPIVASLGSKNKNLIYNINADTVAGELAAALSATRFYFITNIKGVMDQKNKLIKEITLKKARILIKKNIIKGGMIPKVETCLNAVKKSAKAAVILDGRVPKLLLKEIFTTKGVGTLIGKK;locus_tag=LOCUS_1220;gene=argB;EC_number=2.7.2.8;note=Q8UIB7 acetylglutamate kinase (Agrobacterium fabrum str. C58) [pid:46.0%25%2C q_cov:89.6%25%2C s_cov:92.2%25%2C Eval:2.5e-59],MGA_124
sequence03	MetaGeneAnnotator	CDS	30171	30842	.	+	0	ID=MGA_125;product=hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010970854.1;translation=MEKNNNINFNHWFFDLDNTLYCANSGIFDQIHKRMGEYISKKLNISIKEAKYLQKKYFIENGTTLYGLMVNHKIKPEEFLYFVHDLNFDVVKPNHKLNSLIKKISKKKIIFTNADMPYVEKILNKLNLENVFNDIFDIKKMNYVPKPNVKTYKKLINTYKVKTDKAVLFDDIPQNLITASKLGLKTVQVYNKKLDKELNGRSEKIDYMTNNLKEFLQKWITNN;locus_tag=LOCUS_1230;note=WP_010970854.1 hydrolase (Agrobacterium fabrum str. C58) [pid:37.6%25%2C q_cov:94.6%25%2C s_cov:92.0%25%2C Eval:2.7e-38],MGA_125
sequence03	MetaGeneAnnotator	CDS	30824	31660	.	+	0	ID=MGA_126;product=2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-succinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UIC6;translation=MDNEQLKKIIESNWKKIDEINPQTKGELPSAIEEVINLLDKGEIRVAEKKNGEWIVNQWIKQAILLSFKINEMENLSGPYSSWFDKAHLLKGKTSGWTKEDHIKAGFRMVPNSPVRKGSFIGKNAVLMPCYVNIGAYIDENTMIDTFARAGSCCQIGKNCHISAGSGVGGVLEPIQANPTIIEDNVFLGAMSEVVEGVIVGEGSVLSMGMYIGQSTKIVYRNTGEIIYGKIPPYSVVVPGTLPDKNNSSAPSLYCAVIIKQVDEKTRSKTNINDLLRE;locus_tag=LOCUS_1240;gene=dapD;EC_number=2.3.1.117;note=Q8UIC6 2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-succinyltransferase (Agrobacterium fabrum str. C58) [pid:56.2%25%2C q_cov:99.6%25%2C s_cov:98.6%25%2C Eval:1.1e-85],MGA_126
sequence03	MetaGeneAnnotator	CDS	31667	32812	.	+	0	ID=MGA_127;product=succinyl-diaminopimelate desuccinylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89BP2;translation=MKNSKEINIAQKLIRCKSIAPNADNALKILEKECKSIGFKSTKLKFFEKGFDPISNLYLEIGNGKPHFSFAGHVDVVPANKKEWKVDPFAGQIKKNILTGRGAVDMKSAIACFVSAVKNYLEENKNFKGKISMLITGDEETYAVNGTKKILKWLKKKKIHINNCIVGEPTNLNVLGDQIKIGRRGGYNGIVTVFGKEGHSAWPNRTINPVSGLIKMLTKIDKKVLDKGTKHFQPSIISITSIDVGNEALNVIPAKATGSFNIRFNPKHTIKSLTKWIKKEFDKVGLKYKLDIHVSGNAFLTKPGKFSELVKNCVKKITKKKPKYATDGGTSDARFINAEGINVVEFGLIGKSMHTNDEKVSLKNLNDLTKIYKLILEEYFK;locus_tag=LOCUS_1250;gene=dapE;EC_number=3.5.1.18;note=Q89BP2 succinyl-diaminopimelate desuccinylase (Bradyrhizobium diazoefficiens USDA 110) [pid:43.8%25%2C q_cov:98.2%25%2C s_cov:98.7%25%2C Eval:8.9e-85],MGA_127
sequence03	MetaGeneAnnotator	CDS	32809	32946	.	+	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKIIKNPLAKILRTPSFRPKVVQSKKRYIRKKIKPADDLENI;locus_tag=LOCUS_1260;note=MGA_128
sequence03	MetaGeneAnnotator	CDS	32949	33554	.	-	0	ID=MGA_129;product=lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261307.1;translation=MFFLRLILIFFVLFLQGCVSAPTYAGNACSIFDEKYFWFKAAKKSSKKWNVPIATLMSIINQESAFKQYAKPPRKKLFGFIPLLRRESSSLGYSQATKGSWEHYKKDTGKRFVTRIRFKDSVDFVGFYIDQTNRELGISKKDTYSQYLAYHEGWNGYRKKTYKKKSKLLKTAGKVEKQAQTYNNQLSKCMSKLDRNKYILF;locus_tag=LOCUS_1270;note=WP_011261307.1 lipoprotein (Vibrio fischeri ES114) [pid:43.8%25%2C q_cov:91.5%25%2C s_cov:91.5%25%2C Eval:4.7e-36],MGA_129
sequence03	MetaGeneAnnotator	CDS	33491	34138	.	+	0	ID=MGA_130;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MF24;translation=MLKHSPVKIKQKILELILRKTYINKRINILNYCIMKIITIPNPILKKKCKPVNKINGEVKNILDDMLKTMYSAGIGLAAPQVGIDKRLIVLDVSPRPGLKRYQEKKNEVKNKIKPNPFQMINPEITWLSKEKDTDEEGCLSIPGIMANVTRPSSCKVKYLDKNGNKKELHADGLLSRCLQHEIDHIDGILFIDRLSKIKKNIILRKFKKLQKEKS;locus_tag=LOCUS_1280;gene=def;EC_number=3.5.1.88;note=C3MF24 peptide deformylase (Sinorhizobium fredii NGR234) [pid:46.7%25%2C q_cov:84.2%25%2C s_cov:96.0%25%2C Eval:1.6e-40],MGA_130
sequence04	MetaGeneAnnotator	CDS	682	2604	.	+	0	ID=MGA_133;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RVE6;translation=MKNIKKNFLIWLIIGFILSSFYNFFTNSNSSNRVQNIAFSDFLDEVEKDNVLDVNIKGDLINGNLADGKKFKTYTPYDPNLIEKLSNKNVKINVEPMSTTGSSFFNIILSWFPMLLLIGVWLFFMRQMQSGSGKALGFGRSKAKMLNEKTDKVTFKDVAGIDESKNELEEVVEFLKDPSKFQRLGGKIPKGVLLIGPPGCGKTLLARAVAGEAGVPFFTISGSDFVEMFVGVGASRVRDMFEQGKKNAPCIIFIDEIDAVGRHRGAGLGGGNDEREQTLNQLLVEMDGFETNEGVIIIAATDRPDVLDPALLRPGRFDRQVVVPNPDILGREKILKVHMRKVPLAPNVDPKIIARGTPGFSGADLANLVNEGALLAARRNKRFVTMEEMEDAKDKVLMGIERKSMVMKDDEKKLTAYHEAGHAIVAIHMKDSDPVHKATIIPRGRALGMVMRLPESDRISMSKIKLKADLAVAMGGRIAEELIFGHSKVTTGASSDISMATNIARKMVTEWGMSDKLGPLAYGENEQEVFLGHSVTQKKSVSENTAQEIDKEVKKIIDEAYNKARTILKKNIKQLHKLAKGLLVHETLSGSEIKDVIKGKKIFKTLPNNSNKKNKIATSVPSVEKKKKEADLSKPQLENN;locus_tag=LOCUS_1290;gene=ftsH;EC_number=3.4.24.-;note=Q2RVE6 ATP-dependent zinc metalloprotease FtsH (Rhodospirillum rubrum ATCC 11170) [pid:64.2%25%2C q_cov:96.9%25%2C s_cov:97.7%25%2C Eval:1.3e-233],MGA_133
sequence04	MetaGeneAnnotator	CDS	2617	3432	.	+	0	ID=MGA_134;product=dihydropteroate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J5C3;translation=MNLGFKTPGIMGILNITPDSFSDGGKYFSKPSIAIKEALIMSKMGADIIDIGAESTRPGALPINPEIEIKRIKPIILGLKRKKIIISIDTRNSKTMKFSLEQGVKIINDVSSLNHDSESINVVKKYKCFVILMHMQGNPQTMQKNPRYRFAPQDILNFLKKQIIKCEKNGIKKKRIIIDPGIGFGKKNKHNVQILQNLKIFKKLGCYTLIGLSRKRFISELTKNEKPINRIAGTIAANQFALDQGIDIIRVHDVKEAMQAKVVWQKLNNKI;locus_tag=LOCUS_1300;EC_number=2.5.1.15;note=Q3J5C3 dihydropteroate synthase (Rhodobacter sphaeroides 2.4.1) [pid:42.8%25%2C q_cov:98.9%25%2C s_cov:78.0%25%2C Eval:2.1e-52],MGA_134
sequence04	MetaGeneAnnotator	CDS	3437	4756	.	+	0	ID=MGA_135;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q83BY7;translation=MNNKIFGTDGIRSLSSDKIFSNQSLKILSRSLLKKKKNLKIIIARDTRISSKKIENILVKNLVNNGANVYLIGLAPTPVLSYIVKKFKYDLGIVISASHNQYKYNGLKFFNKNGEKISTTYEKKIEKDFFNPLKREIFTSKGKIFKSNKLLNHYVEKIIFLFKKKIKLNNTKVIIDCANGATFKIVKTIFRRLRINSIFINDKPNGKNINLKCGSLFPNKLKKKVLTNSADFGISFDGDGDRLICCDETGNIIDGDKILATLIKFFHKNKRINSVVGTLMSNKGLEDFVKNLNIKFYRSNVGDRFVYEIMKKKKGFIGGEQSGHIILNNFGPSGDGILICIYLIMIISLSKKKVSDIFDNYKSYHQYQKNISFKDSNKLKKTKFIKFLKFYNNKLINGNRVLIRLSGTEPVIRLLIEGRKINIINNLATSLQKKINKFL;locus_tag=LOCUS_1310;gene=glmM;EC_number=5.4.2.10;note=Q83BY7 phosphoglucosamine mutase (Coxiella burnetii RSA 493) [pid:36.8%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:5.4e-76],MGA_135
sequence04	MetaGeneAnnotator	CDS	4911	5147	.	+	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNALNVAKRWIGALTEVGLMLIAFGIVAGLLYPGAVPFIGTDVVANITSLLNQLGNNGVVGLVALAIICWLLNKRSIS;locus_tag=LOCUS_1320;note=MGA_136
sequence04	MetaGeneAnnotator	CDS	5235	6785	.	-	0	ID=MGA_137;product=cation/acetate symporter ActP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8ZJ73;translation=MTNYPAITMFLIFVFATLGITYWAAKKTISRSHFYAAGGKITSLQNGLAIAGDFMSAASFLGISGLVYLSGYDGLIYSIGFLIGWPIILFLLAERLRNLGDYTFADAASHRLDQTKIRCLAASGSLVTVALYLIAQMVGAGKLIQLLFGLPYEIAIIIVGVLMVLYVSFGGMLATTWVQIIKAVLLLFGATFIAIAVMWTTNFNFESLFQAAVNVHPNGHDILKHGGLVSDPISAISLGIALMFGTAGLPHILMRFFTVKNAKEARKSVFFATGFIGYFYILTYIIGFGAIMLISKNTEFLNTDGSLIGGNNMAAIHLAKAVGGDIFLGFISAVAFATILAVVSGLTLAGASAVSHDLYASVFKKNKVHEKDELFVSRISAISLGCIAILLGILFEKQNVAFMVGLAFAVAASANFPILFLSMYWKKLTSRGALIGGSSGLITAIILVIIGPTVWVDILGHQKPIFPYKYPALFSVSTAFIVTWFFSIIDKSKQSKHEIKKFDSQFIQSQINLKKK;locus_tag=LOCUS_1330;gene=actP;note=Q8ZJ73 cation/acetate symporter ActP (Yersinia pestis CO92) [pid:73.8%25%2C q_cov:99.0%25%2C s_cov:92.7%25%2C Eval:4.6e-215],MGA_137
sequence04	MetaGeneAnnotator	CDS	6782	7090	.	-	0	ID=MGA_138;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000999620.1;translation=MNSNLEKKIIENTNFKSLVKRKSFISWFLSIITLLIYFSFILIIAFFPEILGIKISNGSIITIGIPIGISIILLAFLATGFYVFIANKKFDKTEKIILKKFK;locus_tag=LOCUS_1340;note=WP_000999620.1 membrane protein (Salmonella enterica subsp. enterica serovar Typhi str. CT18) [pid:33.3%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:3.0e-13],MGA_138
sequence04	MetaGeneAnnotator	CDS	7111	8508	.	-	0	ID=MGA_139;product=phosphomethylpyrimidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P45740;translation=MQKKNIITPEMEYVALRENEQRKNKSNNKNFPQKITPEFVMKEIARGRAIIPANINHTELEPMIIGRNFYVKINANIGNSSITSDSSQEVEKMVWAIRWGADTIMDLSTGKNIHNIREYIIRNCPVPVGTVPIYQALEKVDKPENLTWEIYRDTLIEQAEQGVDYFTIHAGVRLKYIQLTANRTTGIVSRGGSIMAKWCLAHHKENFLYTKFKEICEIMRSYDVSFSLGDGLRPGSIADANDKAQFAELETLGELNKIAYKMNCQVMIEGPGHVPLHLIKENVTKQLKICNEAPFYTLGPLTTDIAPAYDHITSAIGAAIIGWYGTAMLCYVTPKEHLGLPDKNDVKDGVIAYKIAAHAADIAKGHPGAIIRDNALSQARFEFRWRDQFNLSLDPKKAEEFHDETLPAEGAKIAQFCSMCGPKFCSMHITHDIREYVKKGMKDMTKKYLNLNKNRITKKITINKS;locus_tag=LOCUS_1350;gene=thiC;EC_number=4.1.99.17;note=P45740 phosphomethylpyrimidine synthase (Bacillus subtilis subsp. subtilis str. 168) [pid:73.8%25%2C q_cov:95.9%25%2C s_cov:75.1%25%2C Eval:6.3e-200],frameshifted%2C insertion/deletion at around 8497,MGA_139
sequence04	MetaGeneAnnotator	CDS	8480	8890	.	-	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNITIGPFPSSEKIYLKGKIFSNLRIPIRKINLNKEAKPNEIYVYDSSGIYTEIKESKSININSGLEKIRKKWINSNKSIIKYRGRKVTSKDNGFMNKNQKILKIFKIEINIFKSKKKNSITQLYYAKKKYYYT;locus_tag=LOCUS_1360;note=Q92TI9 phosphomethylpyrimidine synthase (Sinorhizobium meliloti 1021) [pid:33.1%25%2C q_cov:93.4%25%2C s_cov:20.3%25%2C Eval:1.0e-13%2C partial hit],frameshifted%2C insertion/deletion at around 8497,MGA_140
sequence04	MetaGeneAnnotator	CDS	8986	10119	.	+	0	ID=MGA_141;product=ATP phosphoribosyltransferase regulatory subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RVD9;translation=MNQKKIFLPTGFRDILTNESNLQFENGRKLIKNFNLWGYIFIEPPIIEFESTLVDKKNKHSNNKILSFLDPLTKKKISLRSDITTQLARIAYDRLFEFPKPLRLYYLGDVFRADKPKLSSDRQFKQAGIEIIGSDNLIADVEVITLSLDSLKKINFKKISIDLNCSIILEKIFDDNKISQSKREIIRKLVERKNIKEISKYNKKLFKLLKTIIDTTGSLKKNIKKIKKLKLGKEANLILKDFLYVASFLTKKNYDEYKISVDLLDHRGFEYYSGITFSIFCLNSSKEVCRGGRYMTKKNDSAVGSTFFLNQFTELKNTKINSKKILISKDSLFNKKLLKLRKEGWITIQNFDGKNNYQLAKLHNCKFIFQNNEVKKI;locus_tag=LOCUS_1370;gene=hisZ;note=Q2RVD9 ATP phosphoribosyltransferase regulatory subunit (Rhodospirillum rubrum ATCC 11170) [pid:28.2%25%2C q_cov:91.2%25%2C s_cov:89.8%25%2C Eval:7.3e-39],MGA_141
sequence04	MetaGeneAnnotator	CDS	10119	11405	.	+	0	ID=MGA_142;product=adenylosuccinate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RVD8;translation=MKNLTIIGAQWGDEGKGKIVDYLSNNYDVVLRFQGGHNAGHTIIVDNKKFILSILPSGLIRNKLCIIGSNVVIDPIHFVNEIKLLKKKKINISNSNLKIANNASILLPFHSIIDKIREKNLSKKKIGTTGRGIGPCYEDKVARRGLKIYDLEDLENLRFRLKNLINFHNIFIKKLSKKNIISFNENFKLLKSLRKKILSYSVDVSEFVNSKNFSKKKLLFEGAQGLMLDIDHGTYPYVTSSNTLPAVAPLSLGLKPSKIGHILGIVKAYTTRVGEGPFPSEIKNNLGLKIAKIGREFGSVTGRPRRCGWFDAVQCKKAINISGIDSLALTKIDVLDNLKKIKICNKYKLKNKILDQMPTSNNDLKRVKPQYLTLDGWNEDTSKIKKLKFLPLKARRFISTIEKLLGVPITFLSNGPDRSNIIKLKKFF;locus_tag=LOCUS_1380;gene=purA;EC_number=6.3.4.4;note=Q2RVD8 adenylosuccinate synthetase (Rhodospirillum rubrum ATCC 11170) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:1.2e-112],MGA_142
sequence04	MetaGeneAnnotator	CDS	11402	12313	.	-	0	ID=MGA_143;product=RNA polymerase sigma factor RpoH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RVD4;translation=MTAIIKSLPRITSENGLNRYLQEIRKYPLLEPKYERDLAMKWAKKQDLKSAHILVTSHLRLVAKIAMGYKGYGLPINELISEGNIGMLESIKRFDYKKGFRLATYAMWWIRASIQEYILHSWSLVKMGTTAAQKKLFFNLRKVKSSLRAYEEGDMLPDNVNKIAKTLNVTKKEVTEMNRRLSGPDHSLNAPLREDGEGEWQDWLVDGTPTQEYTISNSQELTQRKSLLSKAINVLSPREKYIMIERRLKDKPKTLEDLSNHYKISRERVRQIEVRAMEKLKKSVKNLLIKQNLEKKEAVNYIN;locus_tag=LOCUS_1390;gene=rpoH;note=Q2RVD4 RNA polymerase sigma factor RpoH (Rhodospirillum rubrum ATCC 11170) [pid:66.2%25%2C q_cov:89.8%25%2C s_cov:91.0%25%2C Eval:1.7e-101],MGA_143
sequence04	MetaGeneAnnotator	CDS	12430	13167	.	-	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCYKNIKILHEDKDLIIINKPHNLTVYAGAGKEKITLVNFLKKEYKNNLSNLSGNDRPGIVHRLDKDTSGLMIIAKNNTIHKLLQEKFKKREINRLYLAVVWGLLNKTSGIINRNIGRNPKNRQKFSVFTDKGKKAITKFKVKKNFSTIASLIECKLLTGRTHQIRVHLSSCGNSIIGDKKYGKIKTKLFKNVDKTLINDVITFKRQALHAYFLSFILPIKNKKIKLMSKLPSDISNLIEKLNLI;locus_tag=LOCUS_1400;note=Q9ZCB4 pseudouridine synthase (Rickettsia prowazekii str. Madrid E) [pid:46.4%25%2C q_cov:95.5%25%2C s_cov:74.4%25%2C Eval:1.8e-52%2C partial hit],MGA_144
sequence04	MetaGeneAnnotator	CDS	13181	13465	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLKIVIIIMGLMIFFGTATIIYIVFERLYSNEKNFIFNDTTIKNLEIDKNSEIINSNISDDKLILTTRLNDNYRIIIFDLKSGKQLYFFEIK;locus_tag=LOCUS_1410;note=MGA_145
sequence04	MetaGeneAnnotator	CDS	13533	13820	.	+	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIQNIIDALNYSKTGADVLSYATTDKTTTDHTLSYMFKMDCSLARTLKLKAICQEINKKNISQIQIKNNYKIKEKKIYKKKITKKKLIVPSMAY;locus_tag=LOCUS_1420;note=MGA_146
sequence04	MetaGeneAnnotator	CDS	13842	14558	.	+	0	ID=MGA_147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIFNLTKKFDQFTAVNNLSMNVNKGEVLGFLGPNGAGKSTTMKMITGFIKPTDGIIKVKNMNVEIEPIECKKVIGYLPEGAPLYGDMTPKNMLKFVSQIRGIKKKDFKEAFDKVVVKTEISDVINQPIDTLSKGYKRRVGLAQALIHDPEILILDEPTDGLDPNQKHHVRSLINEMGKKKAIIISTHILEEVDAVCTRACIIAKGKKLVDKKPKELKKFFKNKNLDNIFRQITLNK;locus_tag=LOCUS_1430;note=WP_003113857.1 ABC transporter ATP-binding protein (Pseudomonas aeruginosa PAO1) [pid:52.0%25%2C q_cov:85.7%25%2C s_cov:66.4%25%2C Eval:1.7e-57%2C partial hit],MGA_147
sequence04	MetaGeneAnnotator	CDS	14562	15296	.	+	0	ID=MGA_148;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003113858.1;translation=MNVLLNIVKRELASYFSTPLAYVFIVIFLTLIGSFTFYLGNFFVRGQADLNAFFAFHPWVYILLIPAVTMRLWAEERKSGTIELLMTLPLTTSQSVIGKFFAAWIFIFIALFLTFPIWITVNYLGDPDNGVILAGYVGSLFMAGAYLSIGSCISSITKNQVIAFVIAATICFIFTMSGVDLVLNFFKIWAPEFLVSTISSMSFLTHFESITKGVIEIRDFFFYLSVIIFWLFLNIVIIEFKKFN;locus_tag=LOCUS_1440;note=WP_003113858.1 ABC transporter permease (Pseudomonas aeruginosa PAO1) [pid:60.7%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:2.1e-85],MGA_148
sequence04	MetaGeneAnnotator	CDS	15302	17212	.	+	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003092447.1;translation=MLKKIISNKNKLPFIFILAIISLISFNVLNKNFFKNIRFDLTKDKVYTLSEGTKSIIQSIKEPLNFKLFYTKEIGDVNPIYQNYYDRVKEILEQYVLLSGNKIKLEIYNPKPFSDEEDKAVEYGLQGAEIMSGVYGYFGLIATNSTDDEEKIIFFQPDRSSFLEYDLSKIISNLANPNRRVIGLYTDLPMLGTFNPLAKSQDAASAPPWAVYNQIKEFFEVRRIHEKTRKIPEDLNLLMLVHPKKIPERTIYMIDQFVLRGGKLLVFLDPNSEADSFQPNNQKENIVSSNLSSLLVKWGVELVNKKVVGDLLSARRVAIGQSDQPSVTDYLAWLDIKKDHMDEEHQITSKVQRLTFATAGLLKENGKNNNINFKRLVWTTTQSMQIDSSEVIAPDPTTLLRNFKPSNEEYTLVAEIKGSFESNFGDSPLITNKENEFDKEKHLSESSKPSTIIIVSDADMLYDEYWLKYEQTGNVTPIANNADFTVNALEYLNGTEDLIGLRGKGMSSLPFTKVEKIQKEAEQKFRAKEQQLLERLNNYQSKLENIQSGSDEEDNKTLLTEEENLEIEKFREEMVYVRSELRKVQNALRKDIEKLDSILKFFNIFFVPILLIIISLIISFIERKKRHEKHIVKETN;locus_tag=LOCUS_1450;note=WP_003092447.1 hypothetical protein (Pseudomonas aeruginosa PAO1) [pid:35.2%25%2C q_cov:94.2%25%2C s_cov:95.0%25%2C Eval:6.8e-102],MGA_149
sequence04	MetaGeneAnnotator	CDS	17224	18225	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNTSFIKLVIVSIILFLLAFVSFLIQPKYETSIKSGEIVFSALKDKLNNINEINIDNNQRKISIIKKNDIWLMKSKSNYKVRSEVVRKNLIQMSELRFQEIKTSEESLYSRLNLDFPNNEENNSKFISIVSDDETLIEFILGKRKKNGVYIKKKDDKQTWLTKGNLDMSSFEKDWLETNIFNLEYKLINNISISHLIKKDSFSLTKDKNNENLLINDLNKDQLPKSDLIGNFLGYFFTNLSFDDVQKRIKNVEENIISRVIFKLQNDINIEALFFNIEKNIWVNFQVDEYSLKKLFSDKLMFVKNINDWSFKLPSTKYSITETKLEDLLVED;locus_tag=LOCUS_1460;note=MGA_150
sequence04	MetaGeneAnnotator	CDS	18194	19843	.	-	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRNILLINSIFFFLFLTSCEEFYNFEANKLNEENKVIIDKSQIETDPSKKLVMYNKILNNYKKIQKKYKKTKIAKIHRKEKIIKKIENEIANLTIVALKEQNKKKRDLEINNIKKEMNLANVEFKNSNITNTINHLLKATELSISQIGDTRTKARLENQIANIRINLKDNEKAFMNLKKSEDYTKQIFSDLPKKIKHLSHIYKMLNDLGKKNEIKEIQNTIYKIINDEITNNDNKAIALVEIIHANLLLNKIDYVKKDLNDAIKYAEKSNTYLSIAKVYYELENKNKMSQFLDKAKDTAKLKDQEFWIVRELINIALFENKIQLKKNSNLTLIEAKKNMPENPDERLVLELVHAFAKINNIEQANELVKLIKTKYEKAMAFAFIGKELAKNKNFKKMDQYLNKSKEMAPDLIVGNYEFSGLPGFSTKGRIFSSLSKTYALANNFDKSYELIGAIESDRFYKEAVSDVLIIQAKKDKKGAKELATKLINHGGKIVDTKLLGKIANAQAICGDFENSLISLNKMELGFDFSQTLINIANYFSPQQASPLI;locus_tag=LOCUS_1470;note=MGA_151
sequence04	MetaGeneAnnotator	CDS	19924	20271	.	+	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPINAFSKSIPNLIGKWQGENIKSSLKKGFIRSHNIVEITEQKNRLFKGYVIHKGGKEEFVGVIKSDRKNFFWADSSDDDGKVIGTILKKNKIETCYLDSGRDAIAGCSILIRNK;locus_tag=LOCUS_1480;note=MGA_152
sequence04	MetaGeneAnnotator	CDS	20283	20609	.	-	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFINNQDKKKSVPNSPFLEWHYTKKNFFLKENEILKKANKIKNIPTIIIQGRYDLICPPKSAFLLSKKMKKCELKIVESSGHSTSEIKIKENLLKATNRILTKIREK;locus_tag=LOCUS_1490;note=Q89FG0 proline iminopeptidase (Bradyrhizobium diazoefficiens USDA 110) [pid:37.2%25%2C q_cov:87.0%25%2C s_cov:28.7%25%2C Eval:1.1e-15%2C partial hit],MGA_153
sequence04	MetaGeneAnnotator	CDS	20809	21396	.	-	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPSIKSYNSFFLKTKDKKHSLYVEESGNKNGTPIIYLHGGPGGSIDPKNRQYFDPKKFRIILFDQRGSGKSEPKGSLINNTTNKLVEDLELIRNKLKIKKWIIFGGSWGSTLGLIYAIKHRKNVLGMILRGVFLGTKQEAFWAFHYASEYFYPEIIDAINMKINKKPIKKTFLELGKMLDGKKKKKKRGAEIIW;locus_tag=LOCUS_1500;note=Q3IYM6 proline iminopeptidase (Rhodobacter sphaeroides 2.4.1) [pid:51.3%25%2C q_cov:80.0%25%2C s_cov:48.3%25%2C Eval:4.6e-41%2C partial hit],MGA_154
sequence04	MetaGeneAnnotator	CDS	21417	22442	.	-	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVNFFQKSFFLLILFSLIFLINYPKYTFAKISDKNATNTFWQVSPIMPGAAKYFIRTEKIEKKTKVKNNHPINISGDILRKMFKQLSYKYDRNEPEIPLFSNKELMLLSEFVPKALKIAKPNEDVTFVIKGPHRSARWSFSEDRLTAGRIFIANKQLNLILGSVQVGLQPTLDEQYQGNVWETARLRYDIGHRTKKAEYEGLILVYNKNKKGIYRKSNERTDWFVFTNSAYKNAKDNIDSKKLSGEQYKTLQQQIDSLQKELNNKQRPNQIKKNNKQNNIKKEQIIKNNNPNISKRKNSSNNDSSIILEQRLKTIESLFKKGILSENEYKRKRQEILKGI;locus_tag=LOCUS_1510;note=MGA_155
sequence04	MetaGeneAnnotator	CDS	22578	23807	.	-	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKKKILLGAVAGVALATAYTAPVDAKITLMADEPSGWSFSVDGNVNAFYVYSSGKDANLGTDHQVARTSTGDNSRIQTGLLPSKFGFGVQGPASNGVQLRGYFGLYPQIQNGSTKTARGAQIDMREIYAAATGDFGEILFGRTLSIFQRNAIVQDMTLFGVGATADNVGNNGTTLGRIGFGYVYPDFNASFRYTTPSYNGTTLSVGLYDPSKIASGTANASAAFTANEADFPRVEAEVNISLAGISEGSNLAISGMYQEADAATELEAKGIHVGGTLVGGPAALTAHYYNGECLGITLQLDSGATSADGVCRDHDGYYVQGTYNYGAGKVGLSYGGSFQDQAGSDASTAFDEKDSQTMWTVGIYHNLAPEWLAVAEYSHAEEEWYNTDAGDEDGESDIFSVGMFYLW;locus_tag=LOCUS_1520;note=MGA_156
sequence04	MetaGeneAnnotator	CDS	24107	24850	.	-	0	ID=MGA_157;product=nitrate ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496912.1;translation=MIDLSINIKKKEFTIESNNVKKTNLVLSNLTLDIKKNEFVSIFGPSGCGKTTLLNIISGLDKNFDGSLKINNNESNSKKNISYMFQSPRLFPWLTAIDNIKFPIKKNKNCNKIANNLIKNVGLEKFKDHFPSKLSGGMQRRISLARAFSNDPDILLLDEPFISIDKKTANQLKKLLINLWKKNKPIIIFVTHDINEAIELADRIIFLSKTPSKKILDQKIVLKRPRKPNSRQFENLKRLLSASTNQN;locus_tag=LOCUS_1530;note=WP_064496912.1 nitrate ABC transporter ATP-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:37.8%25%2C q_cov:97.2%25%2C s_cov:94.9%25%2C Eval:1.2e-40],MGA_157
sequence04	MetaGeneAnnotator	CDS	24869	25522	.	-	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPSPIQVANSIHYHLSNELILHVSITLFRVLMSFFVAMLIGSAIGILMGRKEKFDDYLDGLLILALNVPALVTIILCFIWFGLNEVAAILAVSINKIPTVTVILREGTNAIDEKLIDVGKVYKLSKFEIIKNIMLPQLFPYFISAARSGLALIWKIVLVVELLGRSNGVGFKINEFFSMFDTTSILAYTFVFVFIVMSIEWFLVKPTEKKLTAWRI;locus_tag=LOCUS_1540;note=WP_013532065.1 ABC transporter permease (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:52.0%25%2C q_cov:92.2%25%2C s_cov:73.0%25%2C Eval:3.6e-56%2C partial hit],MGA_158
sequence04	MetaGeneAnnotator	CDS	25649	26623	.	-	0	ID=MGA_159;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532064.1;translation=MQISKLFIHLLFFSIIFVSKSYGSEEINIGLLKFGSVNWEMDIIEKNNLDKKNNINIKKKFFSSKNAASIALQGNAVDIIVTDWIWVSRQRAENRNYVFYPFSMSVGGIMVKHDSEIINIEDLKDKKLGIAGSSIDKSWLLFRAYYNKKNNIDPKKYLKPIYAAPPLLNELILRNEIDAVLNYWHYNSRLKSKGFREIISVEDILKNLGINTKIPAYGWVFSEEFAKNKKTLIKNFLNASAEAKKIMLTSDSEWERIFPLTNAKDRTTLINLRDAYRNGIPLNFGNDEIEETKKIFKILAKYGGRDLVGTKNEISPGTFFLKEE;locus_tag=LOCUS_1550;note=WP_013532064.1 ABC transporter substrate-binding protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:38.8%25%2C q_cov:94.8%25%2C s_cov:93.3%25%2C Eval:2.2e-65],MGA_159
sequence04	MetaGeneAnnotator	CDS	26689	27120	.	-	0	ID=MGA_160;product=histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002121094.1;translation=MLIRDILKKKGNKTFTATKDTKIVDIAHILSKENIGAIVILDNKKVIGILSERDIVRGFTQKSSVRNTKAEELMTKNVVTCNLEDNNEDLLTLMVNKHYRHLPDVDKKDNLIGVVSIGDLVRDRTKRLKKEIDQLKNYVTKSY;locus_tag=LOCUS_1560;note=WP_002121094.1 histidine kinase (Acinetobacter pittii PHEA-2) [pid:35.5%25%2C q_cov:97.2%25%2C s_cov:97.9%25%2C Eval:1.8e-19],MGA_160
sequence04	MetaGeneAnnotator	CDS	27185	27412	.	+	0	ID=MGA_161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKILDTKGLRCPIPVLKADKIVKNLKTGDILKIFTTDPKSIKDFKAFCEVSNCLFQSSEKKKNFFIISICKSL;locus_tag=LOCUS_1570;note=YP_008920728.1 response regulator SirA (Aquifex aeolicus VF5) [pid:52.1%25%2C q_cov:64.0%25%2C s_cov:60.8%25%2C Eval:5.8e-09%2C partial hit],MGA_161
sequence04	MetaGeneAnnotator	CDS	27393	30560	.	-	0	ID=MGA_162;product=acriflavine resistance protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011705254.1;translation=MDIIKNCLKKPIIVYSLIILILFSGLLALFKIPIQLTPDVRKPVIEITTNWQGGSPSEVEREIVIKQEDVLKSVKGVERIRSNSYDKKSEIKLEFNSTKNFQTALLMVSNALDRVRGMPEEIMKPNIETSGSEDSPIAWIMLRPIKKINKSMSEFGDLADNLVKTEFEKIPGISRSNFFGGSKTEMQVIVDPQRLSLYKLTISDIAKSLMSSNISLTAGDVDEGKRKYLIRAEGQLDSPEKIKKVVIKINKDEQTQFTSKIFLEDVATVKYGVKEPVSYIRSLGKEAIAMNLIRDVGVNVLETMDEVKATIEKLNPILNKEGLELKQVYDETIYINSSINLVQQNIIVGGLLAALILLLFLNSARATLVIATTIPLTIIGTFVAMAILGKSLNVISLAGLAFAVGMVIDAAIVVLENIFRHKEMGKSDYEASLIGAKEVWQAVFLSALTTVLVFIPLLVVQVEAGQLFRDISVAICVAISLSLILAITLIPVISSKLKLLQTDNKKKIWKFNNPKILNFLALKFLFKFYKYLAWVLPSKKRALITITTIFLVAVLGIFLLKPKLEYLPEGNKNLIFGILIPPPGYNLDTTSRIAQSIESQIKPYFILEEGGDVTATEYPRINNFFYVSTSTRIFIGASTENPNNIKKIIPLMEKLAFQESGTLGFINQTSIFGRTAGGSRKIDINFSGNDLNDILDVTKKAFFISNQIFPEKMGRTQIRPKPGLELGTPELRFTPDMEKLSENGITVKEFANSMDAFNDGLWIDEIVANGKNMDLRIIGKKDQKINFTQQIANIPIVSKSGITIPLSSVSKNEITSSAVSIRHINFKRTVSLQIRPPAQIPLEVAIEVLDDAVVKGLSDEAYEKGITINLSGTADKLSQTLNSMTLTIAIALILVFLSLAILLESFILSLVIMIAVPLATAGGFIGLKILNLFTYQALDMLTLLGFLILIGIVVNNSILLVLKTIDSIKQKKISKIEAIFESAKTRVRPIFMSTLTSIFGMFPLVLFPGAGSELYRGLGSVVIGGLFFSAILILIIVPALLTITINENKIRDSYK;locus_tag=LOCUS_1580;note=WP_011705254.1 acriflavine resistance protein B (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:30.5%25%2C q_cov:98.9%25%2C s_cov:98.6%25%2C Eval:9.8e-136],MGA_162
sequence04	MetaGeneAnnotator	CDS	30562	31626	.	-	0	ID=MGA_163;product=acriflavin resistance protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016444.1;translation=MKKIILFILIIILISYNSEVIEANTTNFPQVSIKTLKKEFINETYVVTSRIAPFKSDVISAKSPGPIENVYVEVGDFVKKGDVLIKIENDELEADKNNKEGELSESLAKLEFEEKKLERLKLLMDSPSFKRADYEDQMQIVKAAEGNLIKITSQYNKAKIIFEDALLKAPYSGYVSKRFVTKGGYINVGEKVIELVNNEEFEIEANIPTDKIQLLNKKKDAEIILSEGKILKVSFRSIVPKENPNTRTVIVRYKPLFNKKKTNLIINQNINLKVFLKSKKQIKTITKDALLIKNGNTVVYVIENNIAKLKVVKTGIPYQNSIEIIEGLNEGEKVVVRGNERLIPEQKVKIEEVK;locus_tag=LOCUS_1590;note=WP_011016444.1 acriflavin resistance protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:24.6%25%2C q_cov:97.5%25%2C s_cov:96.6%25%2C Eval:2.2e-21],MGA_163
sequence04	MetaGeneAnnotator	CDS	31683	32336	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTAIITHKDCILHDTGENHPESKFRLIAINKILKKFNSEKIKWFEGSKINSKYLLNVHSKKYFKAIVQQSPKENSIKIDADTVLSKYSLDAALKATGSSCKAVDMVLSGKFNNAFCPIRPPGHHAEPEKAMGFCFFNNIAIAAYYAKLKYKIKKCAVIDFDVHHGNGTQKMFWNDPNMFYASTHQEGIFPGTGFKNEKGIKNNIVNVPLPAGTDSQ;locus_tag=LOCUS_1600;note=WP_011390366.1 acetoin utilization protein (Rhodospirillum rubrum ATCC 11170) [pid:42.8%25%2C q_cov:99.1%25%2C s_cov:69.6%25%2C Eval:5.2e-47%2C partial hit],internal stop codon at [32334:32336](+),MGA_164
sequence04	MetaGeneAnnotator	CDS	32439	32609	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADFELSKEDFFWITTKLNDFAKKNCNGKLISCLEGGYNIKALAESCLMHVKGLIL;locus_tag=LOCUS_1610;note=WP_010930109.1 deacetylase (Bordetella pertussis Tohama I) [pid:42.6%25%2C q_cov:96.4%25%2C s_cov:17.6%25%2C Eval:4.9e-08%2C partial hit],internal stop codon at [32334:32336](+),MGA_165
sequence04	MetaGeneAnnotator	CDS	32606	32731	.	+	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKNIIENLSFEDALNELENITNSFEEGEASLEDAVSLYE;locus_tag=LOCUS_1620;note=MGA_166
sequence05	MetaGeneAnnotator	CDS	32	1201	.	-	0	ID=MGA_167;product=1-deoxy-D-xylulose 5-phosphate reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8A684;translation=MGKKTITILGSTGSIGTNTVDVIKENKNYFSVYGLTTKNNINLLLKQSNDLKPKFVVIQNKDKYKDLKNNLFGKRIKILVGDEGILELTNNKVSFVVAAIVGLAGLKPTYNSIKNCKRLCLANKECLVSAGHFFMKEIKKHNCELLPIDSEHNAIFQLCNSNSLNGSIESITLTASGGPFRNSTLYQLKNATLNKALKHPNWKMGNKITIDSATLMNKAFEIVEAYYLFNLKLNQINVVVHPESIIHSMVNFIDGSTTALLSDHDMRIPIFYGLCWPAREHFNVKKLDFFKIKKFSFEKPNIHLMKSIKFAYYVLKKGGSYPLILNTVNYVSVNFFLKKRISFLDIIKIIEKMLYKSKNYRINSVNDIYDIDNEIRLLTKEYINNKWKF;locus_tag=LOCUS_1630;gene=dxr;EC_number=1.1.1.267;note=Q8A684 1-deoxy-D-xylulose 5-phosphate reductoisomerase (Bacteroides thetaiotaomicron VPI-5482) [pid:43.2%25%2C q_cov:97.9%25%2C s_cov:97.7%25%2C Eval:1.0e-83],MGA_167
sequence05	MetaGeneAnnotator	CDS	1211	2023	.	-	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLDKIKFLNKIFFKRILTLMFLFPIFIYSILENDFFSKFIILATSLFLGYEWFNMTQKRNFFNLLIFNSLIFFNIFFSFNLSFISSLVSTIFFSFFIILFFLTKRQNYERLLYIFYGYIFISIPFIIFLKIKSIVNGEYILLWLLIVISTTDISSYISGNLIKGPKILPIVSPSKTISGTIIGILIGTLFGIIFFINFLNINNNFFLIFLFSFILAISGFFGDIFMSKIKRKFNKKDSSNFLPGHGGFLDRYDSFSFALIMLFFLEFFI;locus_tag=LOCUS_1640;note=Q89KP8 phosphatidate cytidylyltransferase (Bradyrhizobium diazoefficiens USDA 110) [pid:31.6%25%2C q_cov:55.9%25%2C s_cov:53.2%25%2C Eval:4.1e-16%2C partial hit],MGA_168
sequence05	MetaGeneAnnotator	CDS	2010	2726	.	-	0	ID=MGA_169;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9X1B8;translation=MSKSISNNKLTLPNHVAIIMDGNNRWTKKHRLKGFIGHEKGIEAIQNTIESAINYNIKYLTLFIFSSENWSRPKNEVTFLMTLLRKYLDEKINELLKQNISIKMIGERRKIPKDILIKINECENLTKRKKGLNLILALNYGSRNEIVSTFNKLLNKYKKKKIKITEKDIAKNLYTKTIPDPDLLIRTSGEKRISNFLLWQLAYTEFVFLDVLWPDFKKRNFTYAINQYTKRKRRYGSR;locus_tag=LOCUS_1650;gene=uppS;EC_number=2.5.1.-;note=Q9X1B8 isoprenyl transferase (Thermotoga maritima MSB8) [pid:46.1%25%2C q_cov:95.4%25%2C s_cov:97.9%25%2C Eval:1.9e-56],MGA_169
sequence05	MetaGeneAnnotator	CDS	2726	3280	.	-	0	ID=MGA_170;product=ribosome-recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UFM0;translation=MNEIINEYKDKMENTLKIFHEELSRLRTGRATPSLLEPVFVDAYNSKMKVSELATVNAPEPKLLTVQVWDKAMVQNIEKAIRESELGLNPSTDGDLIRVPLPDLSEERRIELTKVASKFSENAKISIRNIRRDAMDKIKEQEKNNEISEDEQKNVSDNIQKLTDEKVNEIQSVYDEKKNEIMQV;locus_tag=LOCUS_1660;gene=frr;note=Q8UFM0 ribosome-recycling factor (Agrobacterium fabrum str. C58) [pid:46.7%25%2C q_cov:97.8%25%2C s_cov:97.3%25%2C Eval:9.1e-49],MGA_170
sequence05	MetaGeneAnnotator	CDS	3287	4003	.	-	0	ID=MGA_171;product=uridylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YGE1;translation=MTKKKKYKRILLKLSGEALLGKNTHGFDENIVNFLADEIKKVHKTKVQISLVIGGGNIFRGSDAGSVGIERTTADYMGMLGTLINALAIQNALEKKLIQTRVLSSIPVPAVCESYIRRRAINHLQKNRVVIFAAGTGNPYFTTDTAAALRASEISADIILKATKVDGVYSDDPIINKKAKKYESIKYSEVLAKNLKIMDGSAIALARDSNIPIIIFPINKKNAFLDAILNKGNYTIIK;locus_tag=LOCUS_1670;gene=pyrH;EC_number=2.7.4.22;note=B5YGE1 uridylate kinase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:60.0%25%2C q_cov:94.5%25%2C s_cov:90.0%25%2C Eval:1.9e-72],MGA_171
sequence05	MetaGeneAnnotator	CDS	4024	4902	.	-	0	ID=MGA_172;product=elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TA04;translation=MNKIPTSEIKKLRDITGAGFLDCKEALEKSDFNIENAIDYLRKKGISTAQKKGDRTAKEGLIGISINNSDKEASIIEINSETDFVARNSDFQSFVSNVSKLNLEQKGNIDNLLNVNYSDNEKVSAALTNTISKIGENITIKRSEYLIVEDGFIGTYIHNVEKDNMGKIGVMLSISTDCEKNIINDFLKKMCMHIAATNPLAISPSDINEDILKKEKDFQLEEINKEDKPEEIKNKILDGKMKKFFTEVCLLDQKFIIDDSIKISEYISNTSKQLNCNIKLNKFIRFKVGEDF;locus_tag=LOCUS_1680;gene=tsf;note=E8TA04 elongation factor Ts (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:40.3%25%2C q_cov:98.3%25%2C s_cov:93.1%25%2C Eval:7.3e-62],MGA_172
sequence05	MetaGeneAnnotator	CDS	4903	5676	.	-	0	ID=MGA_173;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9A703;translation=MDVNFKLRDILEAGMHIGHRTNKWNPGMDKYIYGSQDNIHIIDLRKTVTLLNDALEFINNLTKSDGSILFVGTKSQAGDIVKKYATECNQFYVNKRWLGGMLTNWSTISNSLNHLNLLNKKISDDNSVLKKKEILQINRQVEKIEKYLGGLKDMGAVPQAIFVVDVNRDAIAVTEANKLKIPVIAILDTNSSPNGINYPIPGNDDSRKSIDLICSLISNITKKNTNKVKLKNGSEKKEINLKVPSKKDVQKKINKKK;locus_tag=LOCUS_1690;gene=rpsB;note=Q9A703 30S ribosomal protein S2 (Caulobacter crescentus CB15) [pid:50.9%25%2C q_cov:82.5%25%2C s_cov:79.1%25%2C Eval:7.7e-62],MGA_173
sequence05	MetaGeneAnnotator	CDS	5737	8121	.	-	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKKNIPVGPGRGSGAGSLVAWTLSITDLDPIKYDLLFERFLNPDRVTLPDFDIDFCQERRDEVLKYVVKKYGKSKVAQIITFGKLQSRNVVRDVGRVLQLPYSQVDNIVKMIPYNPANPITLNEALDKEIKLQELKKNDDSVSKLLDISLKLEGLYRHASTHAAGIVIGDKNLNEIIPFYKDDPKTGLPVTQFSMNYIEKSGLIKFDFLGLKTLTIINKTCELINKNINNFSINNIPLDDKKTFDLLKDGNTIGCFQLESKGVREYLKKLSPDRFEDIIAMISLYRPGPMEYIENYINRKLGNEDIVYLHPKLESVLSETYGITIYQEQVMKIAQTLAGFSLSQADTLRWAIGKRKKALMSSLKKDFINGCIKNGVKGYQAENIFKQVETFAGYGFNKSHAAGYAIIAYQTAFLKANFTVEFMTASINYELNNTDKINRYLDDCKNMKINILVPDINYSNSLFNIETDKHGNKNIRYGLSALKNVGIVSIHKLVKERKTSGKFINFNNFCNRLNDENFNIRQLEYLIKSGSFDSLENNRALLFNNIDKIVQFIRNNSKNENQNNLFSDFKENDNLINFNKNFKRWNKSTSLKFEHDSLGFYLSEHPLKDFDTFLKKNKFSTFRDIENIMQKINNDEKKFFKIAALPIDMKERTSKKGNKYAYVQFSDHTSNFEAIVFSDVIETSKQIIENLDLLLINLEAVKIDNNINLRVQEVQTLKEFINNSNKKIYIKTKDNFDFNKLKNYLLKYIDDNGSEIFLDLDINNQIVKVALPGKYDFFNIINNKPDDIQFLN;locus_tag=LOCUS_1700;note=Q2RU13 DNA-directed DNA polymerase (Rhodospirillum rubrum ATCC 11170) [pid:43.9%25%2C q_cov:97.6%25%2C s_cov:65.6%25%2C Eval:4.4e-186%2C partial hit],frameshifted%2C insertion/deletion at around 8105,MGA_174
sequence05	MetaGeneAnnotator	CDS	8061	9140	.	-	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTFIHLRQFSNYSLLESSFKINEIINFCKKYHIPAIALTDKRNLFGSFEFSLEAKKNGIQPIIGINLDINIIAGVRTTSNILLLIKNLTGYRNVINLMTKFYNQSDYKINLNDLKKYREGLICLSGGVDGPIGKSYLLKNINSATNIFNELNLVYKDNFFLEISRIGQKNEKNIENFYLSLAKKYDVPVVATNNNIFSDMNMHEATDALLCIKNVEKLSTNTRDFVSKDFHFKSPEEMNKIFNDIPEAVSNTILIAKKCTFMLEERIAKPPKFLASDEEENKELIKLAYEGLEKKILKSNDTKYKINKDRYKKRLEYEISIIKKTGYSGYFLIVSDFIIWAKKKISQLDRVVDRAQVL;locus_tag=LOCUS_1710;note=O05974 DNA polymerase III subunit alpha (Rickettsia prowazekii str. Madrid E) [pid:38.2%25%2C q_cov:95.3%25%2C s_cov:29.6%25%2C Eval:5.9e-59%2C partial hit],frameshifted%2C insertion/deletion at around 8105,MGA_175
sequence05	MetaGeneAnnotator	CDS	9144	9815	.	-	0	ID=MGA_176;product=lipoprotein-releasing system ATP-binding protein LolD 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RU16;translation=MTVVLKLKNISKEFSEPRKNIIALENINFSLLTSQCVGLLGPSGSGKTTFLQIAALLDSKSKGEIFINEKRCDNLSQEEKNLIRRKNIGFVYQNFYLLDAFSALENVIIPQLINGINYKNAKKNASEILSNFGLSKRFDNKPRELSAGEKQRVAISRAIANMPKIILADEPTGNLDKKNSDIVIKIIKNLAKDYKISFVIATHNLSLTKKFDSIIKLSNGKIL;locus_tag=LOCUS_1720;gene=lolD1;EC_number=3.6.3.-;note=Q2RU16 lipoprotein-releasing system ATP-binding protein LolD 1 (Rhodospirillum rubrum ATCC 11170) [pid:43.4%25%2C q_cov:98.2%25%2C s_cov:96.9%25%2C Eval:3.5e-49],MGA_176
sequence05	MetaGeneAnnotator	CDS	9824	11065	.	-	0	ID=MGA_177;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011087643.1;translation=MFTNFPSLFIALRYLKPSKKNTMVSIISIFSFLGIVLGVGTLIIVMSVMNGFKIELLDKIIGINGHLNIYLNNNENDKKFLKILNNDNDIKSFRKIIDGQALLSVKNQSTGIILKGISEENLINLKRNKSIFEISEKFVLDDSSVLIGSKLKERMNLQTGDKLKLIIPKMSHTPFGNLPKTKTFIVGGHFDSGMYTYDNNLIFLNFDIAKKLFLSNENKYYFQIEFNNINQVDSFKKKLSLNKNINNYQLYDWRYSNEAFFNAIKTEKNVMFLILSLIILVAAFNIISSLIMLVKNKQVDIAILRTMGASQNLILKIFFLNGAIIGLLGTLIGTFIGIFFVLNINSLKNFLEKFTNTELFSSEIYFLSNLPARIDTNEIFYVVSMSILISFLASFLPAWKASKSSPIDLIRKE;locus_tag=LOCUS_1730;note=WP_011087643.1 ABC transporter permease (Bradyrhizobium diazoefficiens USDA 110) [pid:42.3%25%2C q_cov:97.8%25%2C s_cov:95.3%25%2C Eval:4.2e-83],MGA_177
sequence05	MetaGeneAnnotator	CDS	11069	12358	.	-	0	ID=MGA_178;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDE7;translation=MKLSDYFFKSRKDIPSDATLISHKLMIKSSMIKQSTAGIYTWLPLGLKVLKKIENIIRKFHNLYGCHELLMPTIQPTSIWKKSERYDDYGPEMLKFHDRNKKELLYGPTNEELITEVFRYYVTSYKDLPKNLYQIQWKFRDEIRPRYGVMRCREFLMKDNYSFDLTKEDAEKSYNNMFKCYLDIFSEIGLRVIPVIADPGAIGGDLSHEFHLISESGDTTIYYDKKITNNNSLYNSSSFNLLRNLYSVTQDKYEINKTIEKSKLVKAKGIEIAHIFYFGTKYSEKLGASVLNNKGKKVNIEMGSYGIGLSRLVAAIIESSNDENGIIWPKSIAPFDVGLINLNYNNKILKKNSDEIYKFLLKNNIDVLYDNTLESPGVKFANMDLIGLPFQIILGENSLKEKCFEFKDRKTKKIEKIKLKNISGIIKKI;locus_tag=LOCUS_1740;gene=proS;EC_number=6.1.1.15;note=Q9ZDE7 proline--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:49.8%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:1.0e-119],MGA_178
sequence05	MetaGeneAnnotator	CDS	12363	12605	.	-	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919798.1;translation=MIEFLKGFLIYMIIWWIVVFTILPIGIKRADKVEKGHAEGAPQNPLILKKFLITSIIAFILWLVVFYIIKNNIFSFQHIK;locus_tag=LOCUS_1750;note=WP_010919798.1 hypothetical protein (Caulobacter crescentus NA1000) [pid:37.9%25%2C q_cov:77.5%25%2C s_cov:76.7%25%2C Eval:9.5e-07],MGA_179
sequence05	MetaGeneAnnotator	CDS	12608	13012	.	-	0	ID=MGA_180;product=methylmalonyl-CoA epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010969152.1;translation=MLKKLNHIAIVVPDVKKAKEIYENSFNATVSEPKSYKEHGVTVVFVELENTKIELMEPYGENSPIKSFLEKNPKGGMHHICLEVSDINKSQEILNNKKVTILGTGKPVNGSHNKPILFLHPKEFCGTLIELEEE;locus_tag=LOCUS_1760;note=WP_010969152.1 methylmalonyl-CoA epimerase (Sinorhizobium meliloti 1021) [pid:60.9%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:4.0e-42],MGA_180
sequence05	MetaGeneAnnotator	CDS	13027	14709	.	-	0	ID=MGA_181;product=MBL fold hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389446.1;translation=MKNNSENFLNFYKPKNEIVFSPIGGVGQIGMNFYLYGTQGKWIVVDLGITFGNSEETPGVDIILPNPDFIIKNKKDLLGIVVTHAHEDHIGAIGHIWPQLKCPVFSTPFASAVLKRKLKELKIKPNFIKTVQLDSSFKLGPFDIDVISTTHSIPEPNALGIKTKFGNILHTGDWKYDPSPLIGKKFNEERLKAFGDKGVLAIVSDSTNSNVAGHSGSEDKLRDSLVKIVKKIPNRIAITSFSSNLARLETFAHIATKSGRVAALCGRSLWTMYKAAQDSGYLKNIKAFLDEKEIMDYPRDQVLLICTGSQGEPRAALSRIANDMHQNIFLEDNDTVIFSSKVIPGNERSITKVQNDLKERNINVVTESDDFVHVSGHPHIEELRKMYKWIKPEIVIPVHGEYHHLKGNVKIARECGVKKGLILKNGLLLKIAPDEPKIIGSLPTGKFMLDGKRIIPINEEAIINRKKMLHNGTILISMIINKKNRIVSKPRISSNGFFNEENIKDYEKKLLDNINNFLGEFKNKQFNENIFNEKIKIFSTRFFRKILDMKPIIQIHILKI;locus_tag=LOCUS_1770;note=WP_011389446.1 MBL fold hydrolase (Rhodospirillum rubrum ATCC 11170) [pid:46.0%25%2C q_cov:97.5%25%2C s_cov:97.7%25%2C Eval:6.0e-147],MGA_181
sequence05	MetaGeneAnnotator	CDS	14699	15481	.	-	0	ID=MGA_182;product=type III pantothenate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97EB4;translation=MNVNKFFFVIDVGNTELIIALIKNFKIFKTKRINIEIFRRNRKIFNYFKINNILKKEKKIKCIISSVVPSINHFLKRQCFKFLKSYPHFVSYNKTKLNIKLNLKNKNQVGADRIVNTVAVKKLYKFPAIVIDFGTATTFDVINNNGDYEGGLITPGVNLSLKNLHKKTSKLPLVKFIKINSIIGKSTKQAIQNGVYLGYIGLTSYIINKIQQKFKKKLFCISTGGLSHIISKNIKLINVINKDLTILGLIEIYKLNYYEK;locus_tag=LOCUS_1780;gene=coaX;EC_number=2.7.1.33;note=Q97EB4 type III pantothenate kinase (Clostridium acetobutylicum ATCC 824) [pid:37.5%25%2C q_cov:95.4%25%2C s_cov:96.9%25%2C Eval:6.7e-37],MGA_182
sequence05	MetaGeneAnnotator	CDS	15478	16206	.	-	0	ID=MGA_183;product=biotin--[acetyl-CoA-carboxylase] ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886314.1;translation=MNSYKLINFKKVKSTNLELKKILKKKKSINNLCISAEHQTAGYGRRNSKWFSFKGNVHLSIFVIPKCSLNRVNQLSFLTSLSIGQTLKKMKKNINFYYKWPNDIILEKKKVGGVLIETSSLKNKINWVIIGIGINIKKYPNLNQNFYQATSFKNQKIKIDKKKFIDIFLINFFKNFNNWEKKGFNFIKKKWLFNIYKENNTIKIKDKNKIIIGKFPSLTSDGSLKLNINKKIKLFSFGDQII;locus_tag=LOCUS_1790;note=WP_010886314.1 biotin--[acetyl-CoA-carboxylase] ligase (Rickettsia prowazekii str. Madrid E) [pid:27.1%25%2C q_cov:97.9%25%2C s_cov:94.4%25%2C Eval:3.0e-20],MGA_183
sequence05	MetaGeneAnnotator	CDS	16211	17668	.	-	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFYDLKLFLPELLLIFSSIIILIYGIFFNKKKESLKNVFYITLFFLFFSLYASLKIIDFDKAYFNNLLINNNFTIFFKTLILSGTIVIALISFNQLKDLKILTSEFFFLINLSLVGILILISSNNIFTMYLGLELQAICLYILAAYNKFNLKSSESGVKFFIIGALSSGILLYGLSLIYSFTNSTNFNDISLILTESVKTKENFLILNLGFIFILCGLFFKIAVVPFHMWAPDVYEGSPLSITAFFATIPKIGAIAFIIKFLYLPFLSFYSSWFQILYFVSVISLIYGSIAAINQFNFKRLLAYSSITHMGFILIGLLSLNNFGIKSIQLYTFIYLINILGIFTCLSCLKNKKNNLFLENIDDFSGLLKKNSFLSFSLAIFLFSLIGLPPLSGFFGKLYILLGAIDNEYYFISIIAILASLVSAFYYLRIIKNIFFANEEKDIIEVKIPFIFKLIILISLIITIFLIIFLSNLLDVISLTSIIK;locus_tag=LOCUS_1800;note=A6U7X8 NADH-quinone oxidoreductase subunit N (Sinorhizobium medicae WSM419) [pid:40.4%25%2C q_cov:75.1%25%2C s_cov:74.8%25%2C Eval:1.3e-78%2C partial hit],MGA_184
sequence05	MetaGeneAnnotator	CDS	17672	19126	.	-	0	ID=MGA_185;product=NADH-quinone oxidoreductase subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013531101.1;translation=MTNIPLLSLLILFPFISSLIILSINKNDKFYERKVKEIGLWSSLITFFLSLLLLYHFDVTDSNFQFTEIYKIIPDLGIYYYLGVDGISLSFILLTTFLIPICIITSWNSINKHINYFIISFLMIEFFLIGLFSSLDLFIFYIFFEGSLIPLFLIIGIWGGSNRIYAAYKFFLYTLFGSLFMLLGILVLYFYTGTSNYTQLFNFTLPFDLQIWLFLSFFISFAIKIPMWPFHTWLPDAHVEAPTSGSIILAGILLKLGGYGFLRFSLPLFPEAVIFFSSFIYFLSIIAIIYISILALAQKNIKKLIAYSSIAHMGFVTLGIFSKNLEGLQGAVFQMISHGLISSALFLYAGFLIDRVNTKEINNFGGIWKKMPFFSSFFLVFCLGAISFPGTSGFISEFLILIGVFKISFFLSFFAAFGIIFSACYILWMYNRICFGENNQIKVVDLSLKEIFVSTIFLFLILLFGFQPNILLGIYELSTNKLIF;locus_tag=LOCUS_1810;note=WP_013531101.1 NADH-quinone oxidoreductase subunit M (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:49.4%25%2C q_cov:93.0%25%2C s_cov:90.2%25%2C Eval:1.7e-131],MGA_185
sequence05	MetaGeneAnnotator	CDS	19132	21057	.	-	0	ID=MGA_186;product=NADH:ubiquinone oxidoreductase subunit L;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389441.1;translation=MPILSVFLPLFSFFLFIFFSKIINSNKLIFISIFNIFCATIFSFLVLKNIVLTPQSEQILLFNWLNSGDLDSKWLINIDFLSFVMVFIVNLISLIVQVYSIFYMKHDTSINRFFCYLNLFSFFMLLLVTSGNLLQLFLGWEGVGLCSYLLIGFWYFKNSASNAALKAFIVNRIGDMFFVLGIIFIYVIFDTIFFSEIFKKFNEINFNTYSFLSFQFTDLTIISLLLLLGAMGKSAQIGLHTWLPDAMEGPTPVSALIHAATMVTAGVFLLCKMSIFFNNSILISNLIILIGSFTAIFAASVAITENDIKKIIAYSTCSQLGFMFVAAGFSMYNLAMFHLITHAFFKALLFLSAGSVIHSLKGEQNIKKMGNLWHKIPLTYIVMIIGSLSLSGIPLLSGYYSKELIVNSGLTSNLFFSNFVYLISILVVLLTSIYSFRLIYYVFHNNINKSKFKFSLSKLNISSFFLFFPLICLAFFSIFSGYFIKDYFIEDKYVNLWVNSNVANIFLNKSFHISFYLEHLPTLLSITGILFIFYFYILNKNLLIFLTKKFRKIYNFLLNKWYFDNFYDQFVVKKIINLAENLWKKIDIDLIDKIGPNGLAFSTKKLSKFFSTFQTGYIYHYAFSFIIGLFLLITFLIFFFN;locus_tag=LOCUS_1820;EC_number=1.6.99.5;note=WP_011389441.1 NADH:ubiquinone oxidoreductase subunit L (Rhodospirillum rubrum ATCC 11170) [pid:41.5%25%2C q_cov:94.4%25%2C s_cov:94.1%25%2C Eval:3.9e-137],MGA_186
sequence05	MetaGeneAnnotator	CDS	21059	21367	.	-	0	ID=MGA_187;product=NADH-quinone oxidoreductase subunit K 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q92QP2;translation=MEVPILYYLYLSISVFTIGIMGIFLNRKNLIVILMSIELILLSANINFISASHFYNDILGQVFVFLTLTVSAAEAAVGLAIIVIFFRKTDTIQVDDINKLKG;locus_tag=LOCUS_1830;gene=nuoK1;EC_number=1.6.5.11;note=Q92QP2 NADH-quinone oxidoreductase subunit K 1 (Sinorhizobium meliloti 1021) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-29],MGA_187
sequence05	MetaGeneAnnotator	CDS	21369	21764	.	-	0	ID=MGA_188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLIVYIGAVAVLFLFVIMMLDINIAKLRKVFLNFLPIGLFIGFIIFLELIFIVSKSNLLIFNKNSNLIENSNAITNTKIIGNILYTDYFLLFQLSGLILLVAMIGAILLTLRKRQNVKKQNIYNQILKK;locus_tag=LOCUS_1840;note=WP_012707629.1 NADH:ubiquinone oxidoreductase subunit J (Sinorhizobium fredii NGR234) [pid:47.0%25%2C q_cov:99.2%25%2C s_cov:64.7%25%2C Eval:2.4e-23%2C partial hit],MGA_188
sequence05	MetaGeneAnnotator	CDS	21763	21930	.	+	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNSAFERIKRIAALKKTKIKNKTECIGFLHKTTNKEEIIITEETTKNKNIVKI;locus_tag=LOCUS_1850;note=MGA_189
sequence05	MetaGeneAnnotator	CDS	21936	22433	.	-	0	ID=MGA_190;product=NADH-quinone oxidoreductase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:F9Y3W3;translation=MFKKLLFKIFKIALFRDIFIGLITTFKYLFKKRVTINYPNEKGPLSPRFKGEHALRRYPSGEERCIGCKLCEAICPAQAISIETEPADKNGIRATTKYDIDMTKCIYCGLCEESCPTDAIVEGPNYEYSTETRAELLYNKEKLLKNGDMWEEEIKKRIDLDSNYR;locus_tag=LOCUS_1860;gene=nuoI;EC_number=1.6.5.11;note=F9Y3W3 NADH-quinone oxidoreductase subunit I (Ketogulonicigenium vulgare WSH-001) [pid:64.5%25%2C q_cov:93.9%25%2C s_cov:93.9%25%2C Eval:1.8e-57],MGA_190
sequence05	MetaGeneAnnotator	CDS	22435	23406	.	-	0	ID=MGA_191;product=NADH-quinone oxidoreductase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RU33;translation=MIEILLIIKNISFIVFPLLIFVAILTYIERKVIAAMQLRKGPNTVGPFGLFQPIADGLKLLTKEIIIPYGSDKYVFLLAPIITFVLSLIGWAVIPFDKNLVLSNINVGILYLFAISALSVYGIIMAGWASNSKYAFLGAMRSAAQMISYEVSIGLIIISILISAGSLNLSEIILAQKKLWFFIPHFPMMIIFFISTLAETNRAPFDLPEAEAELVSGYHVEYSSFPFALFFLGEYANIVLMSALTTILFFGGWLPPFNLEIFNLIPGYIWFFLKVSFFVFIFIWIRATFPRFRYDQLMRLGWKIFLPLSLFWLFITATFVVFL;locus_tag=LOCUS_1870;gene=nuoH;EC_number=1.6.5.11;note=Q2RU33 NADH-quinone oxidoreductase subunit H (Rhodospirillum rubrum ATCC 11170) [pid:63.8%25%2C q_cov:98.1%25%2C s_cov:94.4%25%2C Eval:5.6e-122],MGA_191
sequence05	MetaGeneAnnotator	CDS	23407	25413	.	-	0	ID=MGA_192;product=NADH-quinone oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RU34;translation=MTILQACQKIGIEIPIFCYHEKLSIAGNCRMCLVEVEGSPKPVASCSVPCTDGMKIKTTTKMVMNARKGVMEFLLINHPLDCPICDQGGECDLQDIAMGYGKDRSRFAYNKRAVEEKNFGPLIKTVMTRCIHCTRCIRFATEVAGTPELGAIGMGENMEVTSYLDNTLTSELSGNMIDICPVGALTSKPFSLTARPWELNKTESVDVMDAVGSNIRIDSRNNEVMRILPLINEEINEEWISDKTRFSYDGLKHNRLDTPFIKKNNNLEDCSWEVAINTIKNNIKNLNGNEIAAVIGNQVDCESIILLKDLFNLFKSDNLICSQNNASYKSVPRNAYTFNTKIKGIEDSDLCLLIGTNPRNEAAMINARIRKRFLQGNYKIFSIGPDYNLNYQHNNLGNDPSILNDILNEKNSFSKKLRKSKKPMIIFGDNIFCRKDSEQILDLINKISVKFNFIQKKGNQIIWNGLNCLHYAASRVGALDLKFYSKKKIFNINKLYSLSSAKKIKFIYLLGTDKVDVKKLNNSFVVYQGHHGDFGAEFADVILPGSTFTEKNSTFINTEGKIQNTYKACNPPGFAKEDWKIIAVLGKKLSNNFNYYNINDVRKRLIKENSKIFKNKNNYINNLYFNFGKKGKILNQGFTVAINDFYLTDPISKSSKIMNNCSREFKEK;locus_tag=LOCUS_1880;EC_number=1.6.5.11;note=Q2RU34 NADH-quinone oxidoreductase (Rhodospirillum rubrum ATCC 11170) [pid:48.2%25%2C q_cov:99.4%25%2C s_cov:95.8%25%2C Eval:4.4e-184],MGA_192
sequence05	MetaGeneAnnotator	CDS	25464	26741	.	-	0	ID=MGA_193;product=NADH-quinone oxidoreductase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE33;translation=MLKLEDHIFTNLNGYSAVSLKEAKKRGCWNNTKKIINYGPKWINEQITLSGLRGRGGAGFPTGLKWSFIPKKSNLPKYLIVNADESEPGTCKDRDIIRNEPHKLIEGCLLAGFGIGAHTCYIYIRGEFYNEAIILQTAIDEAYQNGLLGNNSCNTGWEFNIYLHRGAGAYIAGEETALLESLEGKKAQPRLKPPFPAIVGLFGCPTIVNNVETIAVVPDILKREYSWFSSLGIPNNTGTKIFCISGHVNKPCNVEEELGISLKELIEKYAGGVIGGWKNLLAIIPGGSSVSLLPKKICDDITMDFDSLSKVNSSLGTAGIIVMNRSTDLLKAISRISRFYKKESCGQCTPCREGAGWMWRVMERFTNGEGTIEEIDTLYEVSKEIEGHTICALGDAAAWPVQGLIKHFRPLIEKRIKNNKKTKVA;locus_tag=LOCUS_1890;gene=nuoF;EC_number=1.6.5.11;note=Q9ZE33 NADH-quinone oxidoreductase subunit F (Rickettsia prowazekii str. Madrid E) [pid:70.8%25%2C q_cov:98.4%25%2C s_cov:99.0%25%2C Eval:1.2e-178],MGA_193
sequence05	MetaGeneAnnotator	CDS	26749	27258	.	-	0	ID=MGA_194;product=NADH-quinone oxidoreductase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH5;translation=MKNMKKIETKFKFSSKNIIEAKKIINKYPKKFSQSAILPLLHLAQDQLNGWLNKSSLQYISNFLKIPLIRVYEVASFYHMFNLKKVGKNCINVCTTTPCWLRGSDSILSKFKKKLKISNDEVTKDNLFSVHEIECLGACIDAPVVKINNDYYENLNLNDIDKLIDNLKK;locus_tag=LOCUS_1900;gene=nuoE;EC_number=1.6.5.11;note=Q9ZDH5 NADH-quinone oxidoreductase subunit E (Rickettsia prowazekii str. Madrid E) [pid:52.1%25%2C q_cov:96.4%25%2C s_cov:92.1%25%2C Eval:2.3e-42],MGA_194
sequence05	MetaGeneAnnotator	CDS	27255	28433	.	-	0	ID=MGA_195;product=NADH-quinone oxidoreductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH4;translation=MKEIKLKPLTINFGPQHPAAHGVLRMVLEMDGEVIERVDPHIGLLHRGTEKLIENKTYLQAVPYFDRLDYVSPMCQEHAFALAVEKLLKIKVPIRASYIRVLFSEITRILNHLLALPAMAMDVGAMTPFLWSFEQRELLMEFYEKVSGARLHSAYFRPGGVSRDLPSGILEEIKSWALNFPKFIKDLEDLLTENRIFKQRTVDIGVISSKDAINFGFTGPMLRASGIKWDLRKDESYEIYDKLDFNIPIGSNGDCYDRYYVRVEEMKESLKIILQCIDQMPKGPTMIQNNKVTPPKRKIMKHSMEALIHHFKLYTEGYKVPSGETYTSVEAPKGEFGVFLISDGTNRPYKCKIRAPGFAHLQAMDFCSKGHMLADVVAILGSMDIVFGEIDR;locus_tag=LOCUS_1910;gene=nuoD;EC_number=1.6.5.11;note=Q9ZDH4 NADH-quinone oxidoreductase subunit D (Rickettsia prowazekii str. Madrid E) [pid:67.9%25%2C q_cov:98.5%25%2C s_cov:99.2%25%2C Eval:7.2e-162],MGA_195
sequence05	MetaGeneAnnotator	CDS	28445	29038	.	-	0	ID=MGA_196;product=NADH-quinone oxidoreductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U7W5;translation=MNKKLNQLATFIIDKCKTITNHEIINNELIVSTKIANIHKLIKNLKDLDNLNFDMLLDITAVDYPKRAKRFELVYILLSLKNKLRIRVKVFLSENENIPSITSIYKSAAWYEREVWDMYGISFKNNVDLRRILTDYGFEGFPLRKDFPLTGFVELRYDDSKKKVSYSKVKLTQDYRNFDFLSPWEGQVLPGDEKVKK;locus_tag=LOCUS_1920;gene=nuoC;EC_number=1.6.5.11;note=A6U7W5 NADH-quinone oxidoreductase subunit C (Sinorhizobium medicae WSM419) [pid:52.3%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:5.9e-52],MGA_196
sequence05	MetaGeneAnnotator	CDS	29044	29571	.	-	0	ID=MGA_197;product=NADH-quinone oxidoreductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZRT9;translation=MGIINLNKNKKTSSIDNLIEQQFKTKGFLTTNLNKLVNWARSNSMWPMTFGLACCAVEMMHTYMSRYDLDRFGIVTRGSPRQSDVMIVAGTLCNKMAPALRKVYDQMPDPKWVISMGSCANGGGYYHYSYSVVRGCDRIIPVDIYVPGCPPTAEALLYGIMQLQKKIKRENVFYR;locus_tag=LOCUS_1930;gene=nuoB;EC_number=1.6.5.11;note=Q5ZRT9 NADH-quinone oxidoreductase subunit B (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:80.1%25%2C q_cov:86.3%25%2C s_cov:95.6%25%2C Eval:8.2e-70],MGA_197
sequence05	MetaGeneAnnotator	CDS	29562	29918	.	-	0	ID=MGA_198;product=NADH-quinone oxidoreductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH1;translation=MLTEYLPILLFLIVSLFFSVGIMSLSFLVSPHKPSDEKLSPYECGFEPFEDARTKFDIRFYLVALLFIIFDLEVAFLFPWAVSLNEIGPFGYFSMMIFLFFLTIGFIYEWKKGALDWE;locus_tag=LOCUS_1940;gene=nuoA;EC_number=1.6.5.11;note=Q9ZDH1 NADH-quinone oxidoreductase subunit A (Rickettsia prowazekii str. Madrid E) [pid:65.8%25%2C q_cov:99.2%25%2C s_cov:95.1%25%2C Eval:1.9e-39],MGA_198
sequence05	Aragorn:1.2.38	tRNA	29996	30073	.	-	.	ID=Aragorn_2;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence05	Aragorn:1.2.38	tRNA	30083	30156	.	-	.	ID=Aragorn_3;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence06	MetaGeneAnnotator	CDS	287	1291	.	+	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKAYELKDLVNKKKYAGYLIYGQNKGLVREKSQIIIDTYKDDKTEIIKFDNDELISEPFKLNNEFNTFSLTSEKKIIHVLNTKDNLSKTIIETITDNNLNCLIIFEAEELTPRSKLRKIFEKEKHLGVIACYYDTERDIQDLVENSFKKENINLNKDIILLISKHLGNERHIIKNEIEKIILFLKDKKNFETTDILNCLSQNENFGFDDLNYSICDGDVIKLDKVINQLYLEGINPIAMLRSAGKHFQKILFVNEKIDSGMNVRESISQLKPPVFFLYINQFNNHIKNWKTTICYKVIERIIETEKMCKLNSKISKILCWRTLRNISSLKYK;locus_tag=LOCUS_1950;note=MGA_201
sequence06	MetaGeneAnnotator	CDS	1292	1735	.	-	0	ID=MGA_202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEYNYTQDQLSSIISKSRSHIANLLRLISLPNEVKKFILEGKLSLGHARFLVGYAGAVSFAKRIINEGLTVRNVEDFFKIDNKNNSLKQKKINKEKDSDTALLEKELSLKLGVKLTINNNGNKGNIKIEYRNIDQRENIIKKLTSE;locus_tag=LOCUS_1960;note=WP_011083457.1 chromosome partitioning protein ParB (Bradyrhizobium diazoefficiens USDA 110) [pid:41.8%25%2C q_cov:97.3%25%2C s_cov:48.3%25%2C Eval:7.2e-27%2C partial hit],MGA_202
sequence06	MetaGeneAnnotator	CDS	2161	2955	.	-	0	ID=MGA_203;product=chromosome partitioning protein ParA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391374.1;translation=MSKLKNPKVIAIANQKGGVGKTTTAINLATALVSVKKKVLLIDLDPQGNASTGVGFEQKKDRNDIYDVLHDSSKVFKSIYKTKISKLKLIPSTLDLSGAEVELAREEQREIRLKSAIEKIKNKFDYILIDCPPALGVLTINAFTAANSIIVPMQCEFYSLEGLSHLVHTINRVKKTYNPELQIEGLVLTMVDKRNSLTEQVSSDIKGFFGSKVYKTIIPRNVRVSEAPSFGKPVLIYDSKCKGSKAYIGLAKEFLKQEKKKSCK;locus_tag=LOCUS_1970;EC_number=2.7.10.1;note=WP_011391374.1 chromosome partitioning protein ParA (Rhodospirillum rubrum ATCC 11170) [pid:58.8%25%2C q_cov:96.6%25%2C s_cov:92.4%25%2C Eval:2.8e-86],MGA_203
sequence06	MetaGeneAnnotator	CDS	2991	5522	.	-	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNIKKSKKIIKKVSHETYNVVVVGGGHAGCEAATAAARIGCSTLLVTNNLKKIGEMSCNPSIGGLGKGHLVREIDALDGIIAKAIDNAGIQFRLLNASKGPAVRGLRAQADRKLYKKAIKNLLKEEKNLTILEDEVIDFRLNERKAIKAIVMKKKGIVSCETIVITKGTFMNGLIHIGNKKTPAGRIGEKATYGLSRTFKKLGFTLGRMKTGTPPRIEKKTINFRKLLEQKSDKKIRPFSFMNKSIKVKQVSCFITHTNQKTHEIIEKNLVKSAIYSGQIKSIGPRYCPSIEDKIVKFNDKNMHHIFLEPEGLNSKIIYPNGISTSLPENVQEEFVKSIEGLENVKILQHGYAIEYDYIDPLQLKNTLETNKINNLYLAGQINGTTGYEEAAAQGLIAGINAGLKVQNKKEFILSRSEAYIGVLIDDLVNKGVTEPYRMFTSRAEYRLLLRSDNADIRLTPKGIAIGCVKLDRKRIFDKKQKLLEKIDTKYKKLLISPNKLLKFGIKINLDGKKRNIFDLLVFKNINRKKLENIWPEIKKIPDDIFEELETNSVYKGYVERQLQDIKDLKKDEKLKIPVNMNYINIPNLTKEILDKLTYIKPRNLGEITRISGVTPVAVINILRFVHKKKNNNLKKRMNELAETNFKKKTKINNIEFLKLKNYLKLLKIWQKKHNLISNKAFATIWDRHFLDSYQILKIIGEKKKILDIGSGAGFPAIVCAICSNNFFNIVEANNKKCEFLNEVKDNLKLKNVKIYNSRIENLTSINNYDFITARAVASLAKLLKYSLKFTKKKTNCIFLKGKTVFKEIKIARNRFVFSLKCLKSVTSDEGNILVIKNLRKK;locus_tag=LOCUS_1980;note=C3MB66 tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG (Sinorhizobium fredii NGR234) [pid:49.5%25%2C q_cov:72.4%25%2C s_cov:97.1%25%2C Eval:3.6e-178%2C partial hit],MGA_204
sequence06	MetaGeneAnnotator	CDS	5492	5881	.	-	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRIFFLFFLFLFIFPLDSKSDYIFDLKGTWKGINKSYSSEKGYRTWEKKITIFEQNERLFKGYFKYADGEKNFLGVLRKNNKNFYWISPESKGYIHGEIININTIEVCYTEAYKGAAVGCSILKKVKK;locus_tag=LOCUS_1990;note=MGA_205
sequence06	MetaGeneAnnotator	CDS	5886	7289	.	-	0	ID=MGA_206;product=tRNA modification GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCI1;translation=MIVKQKKMDKSINYKINLKTIFALASGLGLSAIKTVRISGSESKKICKLLTKKKKLKPRYYNLIKLYDIKDSSIIDKAVIIWFPKPKTYTGEDMLEIHIHGGNAVLEHLVQNLLSIKNVKEAEAGEFTKRAFNNNKMDFLEAEAVNDLVNADTKIQKKLAIQQLEGNLSYVLNNWGNKIIKILAYYEGLIDFDESEVPLIIEKKILKQVTELIKEIDNYLIDSKRGEIIRSGIEIVVLGKPNVGKSSLINQMLKRDVSIVSKTSGTTRDIIESKFNLAGLPVILSDTAGLKKKTANSIEKKGIFRAKNKIKKSNLKLLVLDANKKIDNEISELICDKTIIILNKIDLVSNEKIVSIINILNKDYKNKIFSVSAKKGNGINTLLKNLENYIRLKYKDVFFGEPVLTRIRHRTYLKKCLYNLKKIKENKNPELNAEDLRLCLNALESVTGKYNVEKLLDIVFKDFCIGK;locus_tag=LOCUS_2000;gene=mnmE;EC_number=3.6.-.-;note=Q9ZCI1 tRNA modification GTPase MnmE (Rickettsia prowazekii str. Madrid E) [pid:39.1%25%2C q_cov:96.4%25%2C s_cov:100.0%25%2C Eval:4.4e-92],MGA_206
sequence06	MetaGeneAnnotator	CDS	7291	9300	.	+	0	ID=MGA_207;product=thioredoxin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948731.1;translation=MGLIKLNKLEKETSPYLLEHKRNPVEWFAWNKNSLQKAKKENKPILLSIGYSACHWCHVMARESFENKDIAKLMNKNFINIKVDREERPDLDNIYQNALQVFGEQGGWPLTMFLTPNLEPFWGGTYFPPVEKFGRPAFSTVLKTMSDVFINEKDKIKKSVELIKKGINESCIDIPSNDINENLHKQVSISLIDLIDEDNGGIKGAPKFPNVPIFENILRFCKTDISKEKKVTKLKIYNTLEKICLGGIYDHVGGGFSRYSTDEKWMVPHFEKMLYDNAQLIELFIYGYQYFKEPTFKIRIFDTINWILREMKTNEGAFASAIDADSENIEGKYYVWNKKEIDKCLGSSSENFCKVFNISKKGNWENKNILYLKKKRNINEIKKDRELLNTLLKERQKRIFPNIDNKILTDCNGLMINALAKAGWVFNVKKWITEAKKSYSFLYHNLIKNGELYHSWKNKKIKTFATIDDYANLMRCSITLYETTGEEKYLNNATEFSNKILNNFKDKIKGGYYINSKKTDDVFIKLKSIYSTSTPSGISIIIESFAKLFFLTGKDIYFNEAELALKSVSGNLIKNFFNSASLINSYDLLKNGVHFVVIKKKEKKILNNIKKKFLPNMIYQEIKDTKSLPKKNIITEKTTIKNKTTVFICRKQTCSKGITTLDELNKILK;locus_tag=LOCUS_2010;note=WP_011948731.1 thioredoxin domain-containing protein (Clostridium botulinum A str. ATCC 3502) [pid:38.1%25%2C q_cov:99.9%25%2C s_cov:99.4%25%2C Eval:4.8e-130],MGA_207
sequence06	MetaGeneAnnotator	CDS	9306	9719	.	+	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010972106.1;translation=MKHEIKTLKIKTNGQGLYEFTQQIIKWLNKKKIAVGLLTIYITHTSCSLLIQENADDDVKKDLLNFFTQIAPENSNYIHNSEGPDDMPAHIKSALTQTNLSIPIENYKLALGTWQGIYLFEHRKITHKREIKLHLIC;locus_tag=LOCUS_2020;note=WP_010972106.1 hypothetical protein (Agrobacterium fabrum str. C58) [pid:56.3%25%2C q_cov:94.9%25%2C s_cov:96.4%25%2C Eval:7.0e-39],MGA_208
sequence06	MetaGeneAnnotator	CDS	9723	10187	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKSTREILQKTMQLLISKGYKVITEFALPNKKRVDIIGINSKKKIVIIEVKSNKNNFKNDNKWKKYLKYCNYFYFSCSEEIKNIKFPRNVGFILCSYKKNIKISKYSQYKKISESVKNKLIHNYALSAASKFHRLIDPQFNKKSNNSIYVYKK;locus_tag=LOCUS_2030;note=MGA_209
sequence06	MetaGeneAnnotator	CDS	10249	10623	.	+	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGTVKWYNARKGYGFITAEGEEGDIFVHATSLKNSGLKKLFTGSEVTFEVEKDEKGKRAKSLKVTKEVKEETQKKGETKKTEKKPEKVAKKPEKVAKKPEKIAKKPEKVAKKTEKGKKTTKKK;locus_tag=LOCUS_2040;note=WP_002720759.1 cold-shock protein (Rhodobacter sphaeroides 2.4.1) [pid:50.8%25%2C q_cov:47.6%25%2C s_cov:86.8%25%2C Eval:1.2e-12%2C partial hit],MGA_210
sequence06	MetaGeneAnnotator	CDS	10818	11012	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDTEKNDLISFTGFGVYGLGYDSWFQSKIFFKINTKNGKFELVPDNKKHNKYPQSGTCLNKK;locus_tag=LOCUS_2050;note=MGA_211
sequence06	MetaGeneAnnotator	CDS	11181	12059	.	-	0	ID=MGA_212;product=RNA polymerase factor sigma-32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013529172.1;translation=MSHIDDTLTQKDNLKFVSKAMKAPLLSVEDEKKVTNLWAKRKDVKALHTLINSYEKLVISCAIRFRKFGLPFGDLLQEGNIGILKAAYKFDTSVDVRFSTYARWWIKSSMQEFVLRNWSIVRIGSTSSQKLLFFQLSRIRNKIENYSLENSSNKSITHEIAKDMNVKVSEVENISERVLKRDMLLDHSLKNSDDERTPLDFLNDTSMCPDEISLKLDMENNRKKVLKSSLIVLNDKEKHIILKRHLNQFPLTLEAIGKELHISKERVRQLETRAFTKLKKRILKKSSLQDLI;locus_tag=LOCUS_2060;note=WP_013529172.1 RNA polymerase factor sigma-32 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:41.7%25%2C q_cov:92.5%25%2C s_cov:93.7%25%2C Eval:6.8e-52],MGA_212
sequence06	MetaGeneAnnotator	CDS	12138	13049	.	-	0	ID=MGA_213;product=bile acid:sodium symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065281.1;translation=MNKIVATSTKLFPLWIILFSFWSFKEPDFWIKKDFLIIPLLSLVMFSMGLTLKFSNFIKIFKNFKIVLLGISLQFFLMPFLGFLIINILEINKIIGLGVILVGCAPGGTASNVICYLAKGDVALSITLTFCSTLLAVFIMPILFFFYTGAIIDVSIFDMMISIFKIVIIPVFFGLIINTFNIFPLKKISNYLPLISVFSIVFIISIIIALNAKNIFEYGFLIFFAVIFHNIFGFLISYFFCKKINLNNKTAKTIAIEVGMQNSGLATALAFKYFGYLAALPGALFSIWHNFSGVLIASFLKKN;locus_tag=LOCUS_2070;note=WP_048065281.1 bile acid:sodium symporter (Methanosarcina acetivorans C2A) [pid:44.6%25%2C q_cov:97.0%25%2C s_cov:92.5%25%2C Eval:3.5e-67],MGA_213
sequence06	MetaGeneAnnotator	CDS	13055	13636	.	-	0	ID=MGA_214;product=putative malonic semialdehyde reductase RutE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8XAU9;translation=MSKDFIDKLFVKARSHYNWQEKDIDEKILRDLYDLVKNCPTSANSEPMRIIFLKSKDAKERIREHLSEGNIEKTMTAPVVAIIAYDTKFFDHLPKLFPHNPGMKKVLSNPPSKAETTAFRNSTLQGGYFMLAARALGLDVGPMSGFDNKGIDNEFFSDGRFKSNFLCNLGYGDNSKLLDRLPRFEFSEVCKIL;locus_tag=LOCUS_2080;gene=rutE;EC_number=1.1.1.298;note=Q8XAU9 putative malonic semialdehyde reductase RutE (Escherichia coli O157:H7 str. Sakai) [pid:49.7%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:1.1e-52],MGA_214
sequence06	MetaGeneAnnotator	CDS	13633	13986	.	-	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFNIFKILITASIIVLAAEIAKRSSLLAGLIVSMPLITILTLIWLYWDTKDYKQVVELTNNTLLMIIPSLTFFIFFPILVKLNLNFSLSMFVAIISTGACYWIYIFFLNKFFNISL;locus_tag=LOCUS_2090;note=MGA_215
sequence06	MetaGeneAnnotator	CDS	14007	14372	.	-	0	ID=MGA_216;product=putative tautomerase YolI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O34882;translation=MPFITITLLEGKDKEYIKAVSKGINSAVIETMDFPDDDLYQVVHQVSQDCLQYQNRTEDRVMMHLVMRSGRSNKLKESFYKKVVENLSKNPGIKTENIFITITENHDIDFSFKDGIAQFNV;locus_tag=LOCUS_2100;gene=yolI;EC_number=5.3.2.-;note=O34882 putative tautomerase YolI (Bacillus subtilis subsp. subtilis str. 168) [pid:32.0%25%2C q_cov:98.3%25%2C s_cov:96.1%25%2C Eval:8.7e-13],MGA_216
sequence06	MetaGeneAnnotator	CDS	14460	15140	.	-	0	ID=MGA_217;product=DNA polymerase III subunit epsilon;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391358.1;translation=MRELVIDIETTGLDYKDGHKIIEIACIELKNLIPTGKIFQIYINPERSVGKSEEIHGIKDNFLFDKKIFKEEIPNFLKFIKNDPLIVHNGIYFDIPFLNYELKKNNLNIIKNKIIDTLVISRKKFPGSPANLDALCRRFDIDLSIRKKHGALIDTKLLAKVYLELKGGQQPNLNLNSAKEEKTVVKLKNFKKEILDKRKFNLSKEEEDLHKEFIKKIKAPIWNKFK;locus_tag=LOCUS_2110;EC_number=2.7.7.7;note=WP_011391358.1 DNA polymerase III subunit epsilon (Rhodospirillum rubrum ATCC 11170) [pid:44.7%25%2C q_cov:99.1%25%2C s_cov:97.0%25%2C Eval:2.2e-46],MGA_217
sequence06	MetaGeneAnnotator	CDS	15179	15763	.	-	0	ID=MGA_218;product=dephospho-CoA kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MB74;translation=MILVGLTGLIGSGKTFALNFFKSKKIKTFSADEEVKKILKLNYVKKKIFKKFPNVFINKKLNKEMLASQVFSRKKKLQILEKIIHPLVNKNKKNFLNKNKKNKIVILEIPIIFEKKSEKKYDFIILMNINKKIQKKRIMMRKNMTLELFNNILLNQISNKKKKNADFIVNNSNSKEETKKKLNLVLQKILNNKK;locus_tag=LOCUS_2120;gene=coaE;EC_number=2.7.1.24;note=C3MB74 dephospho-CoA kinase (Sinorhizobium fredii NGR234) [pid:30.7%25%2C q_cov:97.4%25%2C s_cov:98.5%25%2C Eval:2.3e-21],MGA_218
sequence06	MetaGeneAnnotator	CDS	15760	16593	.	-	0	ID=MGA_219;product=shikimate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870596.1;translation=MKKIGILGNPIKHSLSPTIHNFWLKELSINSKYISIKTPEKNFKKTIEKLIKLKFLGVNLTIPLKEKALKYLDRKDKIVKVIGAVNVLIFSNKGKIIGKNTDVYGFKKSLENNIKIKKNAIIIGSGGASRAVLYSLIKMNFKKIVIFNRTINNSKKMVNEILSKIKKTKIKFIYKNLKEINNYLHDTNILINTTPMGMKNFKNLDIDLNFLNKNAIVYDLIYNPIETKLIKKAKELKIKNINGIKMLIYQAEKAFLYWFKKKPKNSNIQKILENKIK;locus_tag=LOCUS_2130;note=WP_010870596.1 shikimate dehydrogenase (Methanocaldococcus jannaschii DSM 2661) [pid:36.6%25%2C q_cov:97.5%25%2C s_cov:97.2%25%2C Eval:1.3e-38],MGA_219
sequence06	MetaGeneAnnotator	CDS	16596	16901	.	-	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNLLNGKEHKIYSSLFISKNNQKIWNYNDEAILKLKKLTKKEIDIYIKKLKIKNMKTSGLYQIEDIGISLFEKIKGSYFTILGLPLIPLLNFLKKKKIKY;locus_tag=LOCUS_2140;note=MGA_220
sequence06	MetaGeneAnnotator	CDS	17553	18566	.	+	0	ID=MGA_221;product=uroporphyrinogen decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RN85;translation=MKIINTLNKIKQKKPPIWIMRQAGRYLPEFRKLKKKSKGFMNMVYTPKIASEITIQPIKRFKFDAAIIFSDILIIPDCLGQTLTYQEGKGPKLKKLTLDEMLNVFSRGIERKKLNLVYKAIKETKRKLKKETNLIGFVGAPLTLSFFMFDSERKKNYKRIFNYFKKNKIKIKRIFNILEKTIAKHAIGQINAGAEIIQIFDTWANVVKGNDLKQYSINPIKNICKIIKQKKPNVKIIVFPRNVGKNYLNYIHKNIDCISVGNDITKQIIKKIQNKKIIIQGNLSPKILFNGGKNFEKEVLKIINKFSDKPFIFNLAHGILPGTPIKNVKKLINILRK;locus_tag=LOCUS_2150;gene=hemE;EC_number=4.1.1.37;note=Q2RN85 uroporphyrinogen decarboxylase (Rhodospirillum rubrum ATCC 11170) [pid:34.4%25%2C q_cov:95.5%25%2C s_cov:92.8%25%2C Eval:5.4e-59],MGA_221
sequence06	MetaGeneAnnotator	CDS	18570	19580	.	+	0	ID=MGA_222;product=ferrochelatase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8EBZ7;translation=MKYFGEKNYKHGTKTHIGVLLTNLGTPDKPDKKNLRKYLKEFLSDPRVIEVPQIIWQIILRGIILNIRPKKVAKLYKSIWQKGGGPLLVMLNKQKNGIKNILKNKNIKIEIAMRYGNPNIETGLNKLRKQGCRKILIFPLYPQYCAATTGSTFDKVTVIFRKWRWIPELRFINNYFDNPDYIDCLIRSIKENQKKYGKYQKLIFSYHGIPKKYLLKGDPYHCFCQKTTRLIIEKMNLKEDEYLTTFQSRFGPDEWLTPYTDKTLKELPSQGIKKIHILSPGFSSDCLETLEELKVENKSNFISAGGEKYNYINCLNDNSDHLKMLSSVILNNLKGW;locus_tag=LOCUS_2160;gene=hemH2;EC_number=4.99.1.1;note=Q8EBZ7 ferrochelatase 2 (Shewanella oneidensis MR-1) [pid:49.2%25%2C q_cov:94.9%25%2C s_cov:98.2%25%2C Eval:2.3e-94],MGA_222
sequence06	MetaGeneAnnotator	CDS	19597	20052	.	+	0	ID=MGA_223;product=UPF0093 membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC85;translation=MDQFYNFLNNNYLIIKSLHVISMVAWMAAMLYLPRLFVYHTTVKNKESSELLKIMEYRLQKYIMNPAMVFTLIFGFLLLKIKGIINWNEIWIYFKLFCVLLLIIIHHLLIKYRKDFYYDKNFHSKRFFKIINEIPTILLIIIIFLVYLKPF;locus_tag=LOCUS_2170;note=Q9ZC85 UPF0093 membrane protein (Rickettsia prowazekii str. Madrid E) [pid:42.1%25%2C q_cov:95.4%25%2C s_cov:99.3%25%2C Eval:2.9e-29],MGA_223
sequence06	MetaGeneAnnotator	CDS	20140	21432	.	+	0	ID=MGA_224;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89WP3;translation=MASDKVNLHDLKIKPPEELLQYAEKIGVENPSALKKQNMLFAILKSLAEKNVIIEGGGVLETLQDGFGFLRSPESNYLPGPDDIYVSPSQVRKFNLRTGDNVEGEIRAPKDSERYFALLKVNTTNDVDPEKKRHIINFDNLTPLYPEEKINLEIEDKSIKDLTPRVIDVISPIGKGQRAMIVSPPKAGKTVMLQNIANSITKNHPEAKLIVLLIDERPEEVTDMQRSVKGEVVSSTFDEPASRHVQVADMVISKAKRLVENKQDVVILLDSITRMARAYNTVIPSSGKVLTGGVDSNALQRPKRFFGAARNIEGGGSLTIIATALVDTGSRMDEVIFEEFKGTGNSEILLDRKLFEKRTFPAMDIAKSGTRKEELLVDGPTLQKMHILRRILLPMGTSDAMDFLIDKLKATKSNAEFFQSMGSNGNGDRK;locus_tag=LOCUS_2180;gene=rho;EC_number=3.6.4.-;note=Q89WP3 transcription termination factor Rho (Bradyrhizobium diazoefficiens USDA 110) [pid:73.5%25%2C q_cov:97.4%25%2C s_cov:99.5%25%2C Eval:1.2e-178],MGA_224
sequence06	MetaGeneAnnotator	CDS	21648	22541	.	+	0	ID=MGA_225;product=polysaccharide deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011729046.1;translation=MKLKHHNRYPYSSIVSRKKFSWPKKKKLAFYIAMNIERFSFGEGKIHTPSYTTPQPDVRNYGWTAYGLRVGIWRFFDLIDKLKLPACHLVNSSVYDHGLEIIKRIRKRKDEIIGHGRTNAESQGDLSLEKEKKLIIEATEAIKKNEGKNPKGWMGPWISESHHTPDILQENGYKYLMDWPMDDQPIWMKTKKGKILSIPYPVEINDAPAMLYRHHTPEQFAKMFMDQLDVLLEESEKYPVVCGLSLHTFIVGQPFRFKYLKKMLEYVKNHKKKKNIWFTRPGEISDYVYKKKINKTN;locus_tag=LOCUS_2190;note=WP_011729046.1 polysaccharide deacetylase (Mycobacterium smegmatis str. MC2 155) [pid:35.2%25%2C q_cov:93.3%25%2C s_cov:94.4%25%2C Eval:1.4e-44],MGA_225
sequence06	MetaGeneAnnotator	CDS	22507	22959	.	+	0	ID=MGA_226;product=phosphoribosyl-AMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89IW3;translation=MFIKRKSIKQIEEGKELAPKFDKYGLIPVITTHFKNNNVLMHGYMNRLALKKTIETGEVYYWSRSRKMMWHKGATSGFIQKVKEMRIDDDQDAIWVKVETKASCHVGYKSCFYRAVPIKKKKKIKMIFKEKKKFFNPKKIYKGLTNPTKI;locus_tag=LOCUS_2200;gene=hisI;EC_number=3.5.4.19;note=Q89IW3 phosphoribosyl-AMP cyclohydrolase (Bradyrhizobium diazoefficiens USDA 110) [pid:46.3%25%2C q_cov:88.7%25%2C s_cov:95.0%25%2C Eval:8.3e-29],MGA_226
sequence06	MetaGeneAnnotator	CDS	22966	23592	.	-	0	ID=MGA_227;product=ATP-dependent protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010917998.1;translation=MNNLPKTLPIFPLENILFLPKVNLPLYIFEPRYLNMITDTINKENLIGMIQLTNSKDNNFNETFKIGCAGKIIYYEKTTDGKFLIVLKGVSRFKIQKELSLRNGYRRIVPNWTNFKNDLKEKKINTKLKEKLVQNIKNYIKTLNINFFEKQLNKIPTNEIIQIVAKEIAFSKIENQSIIECDNSSKRIELLIKFLQNLSAFDKSDSIH;locus_tag=LOCUS_2210;EC_number=3.4.21.53;note=WP_010917998.1 ATP-dependent protease (Caulobacter crescentus NA1000) [pid:32.0%25%2C q_cov:94.2%25%2C s_cov:90.2%25%2C Eval:1.2e-26],MGA_227
sequence06	MetaGeneAnnotator	CDS	23936	25225	.	+	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKFHTVVIGGGCLGVASAIALSRKLKNKGNSVCILEKSVLAGGISSRHSGIIRSANASIQAATFAEQANQMWLNIHNHWGVDIKPEKSGAIWIARNDKKDAAKTWKDLEKKLNKANIDFKCIKSKEIKSLTNNLIRIDEENELYFYEPNAMLFDPIDVRNAMYHALEINNIKLKENTRVTGFELKSGRKISKIKTNHGIILAENVINAAGGWSPQIFDSIGVKIPVSLQPVYVSNWLISKKKLPYNFPIIADYINLSYFRSWKNGELHIHQPRDRSPAAIARSFAEEPTSMKGADVFFDSSNFTASYSETNKYSEMIRDRFPHTAPYIFNGGYITFFDITPDLKFILGNDKDIGNLFHCLGAGQAFKYSPIFGEIISDLILGRKTKIKNFNLKEFSIKRFYKPEMKKFWDDVHGSKNTLRVREQAAV;locus_tag=LOCUS_2220;note=WP_013531205.1 glycine cleavage system protein T (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:24.9%25%2C q_cov:62.2%25%2C s_cov:32.7%25%2C Eval:4.5e-11%2C partial hit],MGA_228
sequence06	MetaGeneAnnotator	CDS	25222	25362	.	-	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLIVIFTLLIIVLLIYLILAKKKIKKEEKIINADYEDLDKKDKN;locus_tag=LOCUS_2230;note=MGA_229
sequence06	MetaGeneAnnotator	CDS	25366	26697	.	-	0	ID=MGA_230;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8P8J0;translation=MNLKIFNTLSKKLEPFKPLGETVKVYGCGPTVYNHPHIGNARPAIIGDILIRILRNNFKKVVYVRNITDIDDKINQKAKEEKVSIEVIALKYTKIYQENMRALNVLPPDIEPTVTQNIHSIIKMISTLLEKKNAYEAENHILFHVPSFKKYGALSKRKREEMIDGARVEVAPYKKDPMDFVLWKPSTKDQPGWDSPWGIGRPGWHIECSSMIEAYLGETIDIHLGGNDLIFPHHENEIAQSTCAHNGALLSKYWIHNGFISMDKEKMSKSIGNIILINDILKKHTGETIRLAMLSAHYKQPLNWNEKILSQANKNLEKLYNVIGDEKNFKNIQPPKKFFNALLNDLNTPEALKELYGLLKNKNQLKSAANYLGILQLTKTEWINQKKKIKNLDEKKINKLISDRDKARKEKNFNKADKIRNELALEGVILEDSPIGTKWRINN;locus_tag=LOCUS_2240;gene=cysS;EC_number=6.1.1.16;note=Q8P8J0 cysteine--tRNA ligase (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:47.5%25%2C q_cov:99.3%25%2C s_cov:99.1%25%2C Eval:2.2e-122],MGA_230
sequence07	MetaGeneAnnotator	CDS	792	1985	.	+	0	ID=MGA_232;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCZ4;translation=MKKIKSKLIKELKSRGYIHQCTNIEKLDQLAEKKKIIAYIGFDCTAESLHVGSLIQLMLIRILQKAGHQVIVLLGGGTSKIGDPSGKDKSRQLLNEKEIKKNSENIKKNIEKFTIKNNDIKKIKFLDNSQWLENINYINFLRIYGKNFSINKMLTMDSVSERLKREQPLSFLEFNYMIIQAYDFVELNNRVNCNVQFGGSDQWGNITAGVDLIRRINNKEVFGFTTPLITTSSGEKMGKTNKGAVWLSENLLSSNGYWQFWRNVEDNDVIKFLKLFTELPIETINKLKNNSSLEINKNKKILADKATNLCHGKNLADSFTIKKNDIIKGVEAYKIISLNKKIIQSNSESRRLIRGKAVKLNQKLITNELEIISEKNIKNNKIEVSIGKKNHFTVKII;locus_tag=LOCUS_2250;gene=tyrS;EC_number=6.1.1.1;note=Q9ZCZ4 tyrosine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:47.7%25%2C q_cov:97.7%25%2C s_cov:99.3%25%2C Eval:3.9e-107],MGA_232
sequence07	MetaGeneAnnotator	CDS	1982	4249	.	-	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIFKTFISLIILLIISSLIYMAWILNKGEFSSQYLENFINDRFKSEKFYTSIKNPTIKFDKTEKKIIVNGKQFSIFSIDDKKISEFDNLKLHINFLPLITERKLDTNKIEISNGFIDMPSVFSNKLKINSIKLKGNLTPNNNKIIVDKFSTSIEEDFYEGYAELNLKDLKANGSLTKLFRKKIFYDLDLEAKDLKFLVTNDYFDIEGNAILGGVDIFLKGKKNYKNKKEFASKYILTGIINESDIEKSFGFDISKYIKGTIKLDSTYFIFDEGKEKIKTSNQLIETELNIPYLDLKKEKGINATAEIDFNFVNGNLDEINILNYNEEKNEMNALIKFSKEFKPYKNLEINLKKDEKKINLKILRDKKLSKLELAGDYFDFSKIIEDSFSNKEDKESFLDKLQPININIQAKEIFFSEDKTFYNFDASLHYANKLFKSAKVKTKTKNKKNINLNFLRKKDINTLDLDGDYFDFSKTLKETFFDKDEEKESFLDKLQPVYINLNAREILVAEEKSIYDTSAILQYKKKIFNDVKLDSKLSNQKKFIISITPKIDSRELTINSDDAGLFLQTFNINKSGKGGEFVLHGNYDDTKTSHPLSANVTIRDMRLIKAPTLATILNLASIGIVSALSGEGILINKLKSEFELSEGVLDLKKYEAYGPDIGFSNQGKIYLRKKEIDLEGAIIPMVTLNKIIGSIPVLGKILTNERKGIWSFIYTITGNLDEPEVNVNPLKTITPGFIQKFFSVFKSEEKKEN;locus_tag=LOCUS_2260;note=MGA_233
sequence07	MetaGeneAnnotator	CDS	4260	4970	.	-	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVHSGAGGVEAQDWAEMIVRMYTRWCEKKKFTFNILEENSGDEAGIKSLTMEINGNYAYGWLKKESGIHRLVRISPFDSNSRRHTSFASVWVYPVVDNQIDVEIKDKDLRIDTYRASGAGGQHVNKTDSAVRITHLPTKIVVQCQNNRSQHKNKSTALSMLKARIYELELQKKEIEQHSNNENKSEIGWGRQIRSYIMHPYKMVKDLRNSTEVSNCNSVLDGNIDIFLEAALFKK;locus_tag=LOCUS_2270;note=E8TLD6 peptide chain release factor 2 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:62.8%25%2C Eval:6.0e-87%2C partial hit],MGA_234
sequence07	MetaGeneAnnotator	CDS	5353	7758	.	-	0	ID=MGA_235;product=penicillin-binding protein 1A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389996.1;translation=MINLKKLITIFSSVFISLFAFFILLLFIVWNFVLDLPDHEQLINYEPPMVTRVYASDGRLISEYAAEQRSFVPLESIPKIVIDSFLSAEDKNFYNHIGIDLTSIVRALKRNINNLGGRPEGASTITQQVAKNFFLSREVSYKRKIKEILLALRIEQILDKNRILELYLNQIYLGFRSYGVAAASLNYFNKSLNELTISEAAFLAALPKAPNNYHPIRKKNAALGRRNWVIKRLLQEKIITKDQATKAKNSELNINQRNELKPVEAQYFLEDVRKQLIDKYGEDKLYKGGLTVRTSLNPRLQKIADEKLKLGLLNYDKRHGWRGPLANVDIEKSNLKNDLSLISIPEAFPKWEAAVVIHIDNAGINIHFENDNYGRINLSDLKWARQWRRNQYLGPPIKHPSDVLTIGDIVYVEAKNSKEDFLEYGELNLFYLRQFPDINGALLALDPHTGRILAMSGGISFNKSEFNRATQAFRQPGSAFKPFVYLTALEKGHSPNAKILDAPFVIDQGADLGKWSPSNYTNKFYGLSTMRLGLEKSRNLMTIRLAQMIGIESIVNRAKELNINDNLESVLSMALGAGETTLEKLTIAYAMLVNGGKKISPSLIDRVQSRNGKTIDKHDNSICLKCNGDDVGFINNPKIVDSREEVIDSVHAYQVVSMLEGAVLRGTGKKVSVIKKPLAGKTGTTNNSNDTWFIGFSPDLVVGVYVGFDNPKSLGPRETGASVASPIFRDFMYMALKDEKGVPFRIPSKAQLVKINLKTGELAKKDDKNIIFEVFSSNKEFEKNDFGNYSNSNIQGLGGLY;locus_tag=LOCUS_2280;EC_number=2.4.1.129;note=WP_011389996.1 penicillin-binding protein 1A (Rhodospirillum rubrum ATCC 11170) [pid:50.6%25%2C q_cov:94.1%25%2C s_cov:91.0%25%2C Eval:3.7e-217],MGA_235
sequence07	MetaGeneAnnotator	CDS	7988	9763	.	+	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKRIIVDSSFNEETRVAFINGSEIEHFEVDTSSNKKQLKGNIYLAKVSRVEPSLQAAFVNYGGNRQGFLPFTEISRDYYKIPEADRTKKKNEEFVVKDYYRDTPEKQKKQVYSKYKNYKRYKIQDVIKKNQIMLVQIVKDERGNKGAALTNFLSIAGKYCVLMPNKSFGIKISKKISDFKERDKLKAIANSCDLTEEMGMIVRTASRDCDEKNLKKDFDYVLGIWKSIKEKTINSLAPTIINEDSNIVNKFIRDSFIEEYKEIIIDGQKTFEQAKKYMKTLLPEQEKKIKEYKNTKLSVMEFYELEDKINSIYDTKVRLKSGGYIIINSTEALTAIDINSGQSTKERNVEETALKTNIEAVDEICKQIRIRNIAGLIVVDFIDMEIIRNKIIVERRLKDTLRYDRAKCQIARISKFGLLELSRQRIGPSLEETTMEDEIISGIRCTIRSTTSSVAKILRKLKYLKIEKKVKEINVYLYKTLNEYILKNNKEFIKEHEKKLKIKINFIEDNNIAPPFFIIKTKELIKKKNVMNIIYDDIPKLVPEDEKIDIKLRTKEKEKIKQQDTKPKKKENKKIKIIKEKTIEDKTLVK;locus_tag=LOCUS_2290;note=Q2RSE6 ribonuclease E (Rhodospirillum rubrum ATCC 11170) [pid:43.2%25%2C q_cov:87.3%25%2C s_cov:59.3%25%2C Eval:3.9e-120%2C partial hit],MGA_236
sequence07	MetaGeneAnnotator	CDS	9772	10125	.	-	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTINWKKPTAQMLGRFQPFHDGHKTLFKEILKKTGQVIIMIRDTSGTDDSNPFDFNTVKMNIDAALKKYEGKFEVIKVPNITNICYGRGVGYKIEKISLSKEIEGISATEIRKKMKI;locus_tag=LOCUS_2300;note=MGA_237
sequence07	MetaGeneAnnotator	CDS	10115	10621	.	-	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLEKEKEFINNKLEKKIFIVKNKLILKPRKFLIMGLPGTGKTYLSKELAKNLPIIHLNADEIRKYFNDWDFSEEGRLRQADRMKRFSNFIISQKTSPLADFVCPLAETRKILDPDIIIWMDTEKSGRFKDTNKIFQKPKKYNFRIESKNAKYWANHVIERVINDDY;locus_tag=LOCUS_2310;note=MGA_238
sequence07	MetaGeneAnnotator	CDS	10626	10889	.	-	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYSVSRKRSLIKSITWRIIASLDTFVIAWFITGEISWASSIASLEILTKTFLYYFHERGWNCIFWGKYVNGYNKFKKIKKFFLKGK;locus_tag=LOCUS_2320;note=MGA_239
sequence07	MetaGeneAnnotator	CDS	10899	11225	.	-	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIINNYDAWITGRKRIHGFEREFINKIEKSNNHIKINPLADWSLIKINKYIKKNNLPQHPLVKKGFKSIGCFSCTNQASYNESIRSGRWKNFKKNECGIHTFNPSI;locus_tag=LOCUS_2330;note=Q9A973 phosphoadenylyl-sulfate reductase (Caulobacter crescentus CB15) [pid:43.1%25%2C q_cov:94.4%25%2C s_cov:40.6%25%2C Eval:5.5e-23%2C partial hit],internal stop codon at [11253:11255](-)%2C[11313:11315](-),MGA_240
sequence07	MetaGeneAnnotator	CDS	11313	11597	.	-	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNNSDFQKLSEEFSKLDSIDLLKVMIKKVFKKKIVLTSSFGSESIVILHMISKIDPYTPIIFLNTGKLFPETLDYEKRVKKLLKLKNILTLKT;locus_tag=LOCUS_2340;note=E8TCN2 phosphoadenosine phosphosulfate reductase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:44.4%25%2C q_cov:67.0%25%2C s_cov:24.8%25%2C Eval:1.0e-08%2C partial hit],internal stop codon at [11253:11255](-)%2C[11313:11315](-),MGA_241
sequence07	MetaGeneAnnotator	CDS	11587	13272	.	-	0	ID=MGA_242;product=sulfite reductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011121401.1;translation=MNSTVLSKVEQIKKNSDFLAGQIANQLNNSYSYFEEDEIQLLKFHGTYQQYNRDTATILKKKGKEKEFNFMIRTRIPGGQLTSDQYIELDNLARKFSNNSLRITTRQTFQFHGILKNNLKNIIKSVSSIFLTTYGACGDVVRNVTTIAAPIKNKIHIKLREDANKISSYFVPKSSSYGQIWINGEKYEFTKKEPIYKKNYLPRKFKIGITTYDDNSIDVLTNDIAIFLIYKNEKILGYNIAVGGGLGMTHNNPKTFPYLAKPLLFCEEKDLIKILEEIVFIHRDFGDRSDRKHARLKYLVDEKGISWFKKKIEKNLKKNFSKPNNNDLKVVDHLGWHPQGDGKWYIGIFIPSGRIVDNGNIKIKSGLLEIIKDFKPSVTLSTDQNIFLGDIDEKNKNLIELILKKNLIIKKISSINRWFLACPALPTCGLALAEAERVREELITKIDNILLKHQLENEVFSIRITGCPNGCARPYAGDIGIVGRSPKTYALFSGGDFEGSRLSSKILDKVSYNDLLKALEQIFLLFKENKKIKESLGNFCNRVGPEKQLNKIKEVLKDNVQ;locus_tag=LOCUS_2350;gene=sir;EC_number=1.8.7.1;note=WP_011121401.1 sulfite reductase subunit beta (Rhodopirellula baltica SH 1) [pid:40.5%25%2C q_cov:96.6%25%2C s_cov:89.9%25%2C Eval:6.5e-117],MGA_242
sequence07	MetaGeneAnnotator	CDS	13250	14083	.	-	0	ID=MGA_243;product=uroporphyrin-III C-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011975884.1;translation=MSLFDFNFKKGSVWLVGAGPGDPGLLTILAVKAIKIADVIFYDALLDESILSLAKKNADIIYVGKRGNKKSINQIEINKLLISEAKKRKRVLRLKGGDPFIFGRGGEEALELNLNKIPFRIVPGATAGIAGLAYAGIPATHRDFNTSITFVSAYGAGGEKPDTIDWKSFSKTSQLVVVYMGLQRIKWVCSELISSGRDKNENIAIISNATQINQKILISTLINFSKDIDLEKIGTPALLVIGKNVLLSPILNWYQKEKNKKIFLNSEKKIYEQHRII;locus_tag=LOCUS_2360;note=WP_011975884.1 uroporphyrin-III C-methyltransferase (Sinorhizobium medicae WSM419) [pid:50.2%25%2C q_cov:87.7%25%2C s_cov:87.1%25%2C Eval:3.5e-63],MGA_243
sequence07	MetaGeneAnnotator	CDS	14144	14890	.	-	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGILLCFHGTRNNEGVKDTLKLLKLFKKNYRNYTVKLGYLEINKITINKQLKIFFEKKISKLFIIPVMIFSGNHSSKDIPKIIHSVKKKYSLIPDLFITKPLIFSKSFITKIEKNLKNAIYFYKKKNIGLIVLASNTINIKAKKEIDLLTKRLANKYKINYSKRILVGLDTNNLKKQLLKFQSKKDYFILVPIFLFRGTLFHNLKLTVNKLNKNLKNNKFKILPLIKNYEYILMSIKEQLKYIKKM;locus_tag=LOCUS_2370;note=MGA_244
sequence07	MetaGeneAnnotator	CDS	14887	15297	.	-	0	ID=MGA_245;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005165969.1;translation=MVQYSFIYVALSCLILSKLSMGAIKTRVQKKISFGDNGDDEMIRRVRAQGNFVEYTPIFLLSLISIEWLSIETIPYYVFYINIVGTIFIIGRILHALSLYDKKIMHRRTGMKLTFLSLRFNGFFLLFLVPYKLYIL;locus_tag=LOCUS_2380;note=WP_005165969.1 membrane protein (Yersinia enterocolitica subsp. enterocolitica 8081) [pid:38.6%25%2C q_cov:83.8%25%2C s_cov:83.2%25%2C Eval:4.1e-15],MGA_245
sequence07	MetaGeneAnnotator	CDS	15302	16201	.	-	0	ID=MGA_246;product=cytidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597793.1;translation=MNKKFFKILKIIKEKIINFRYKKTFIFFLLLLFIIIFSNDNRFSKPHIAKIKIEDIITQDIFRYEKLIELSKNNNTKAVIVFINSPGGTVVGGETLYKSLKNISEQKPVISVMGELATSAAYMASLGSEYIYAQEGTITGSVGVLVLTSEFTELAKKIGVSTEVIKSGDLKASPSPLEKMTPETRKETQKIVKEMSKNFINLVKKERNLDQKTINLISDGRIFTGKSARKLGLIDNIGNLEEAKNYLNEKYKIIDLPVHEFNIIKEASFTEKFYSGLKSSLNLSKLLNLKGLVSIWIGN;locus_tag=LOCUS_2390;note=WP_004597793.1 cytidylate kinase (Rickettsia prowazekii str. Madrid E) [pid:40.5%25%2C q_cov:77.3%25%2C s_cov:76.1%25%2C Eval:9.8e-46],MGA_246
sequence07	MetaGeneAnnotator	CDS	16207	17169	.	-	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLICPDPKSFSSECINKVKKLYTANIKEISQSKLNKIGKNYEIILTRFTRYVGKEIFSTDTKVKFILTPTTNPEDYIDINLAKKKKIKIFSLTNENIFLNKISATAEHTWLLILALSRNLYPALKSVTEKNWSPKEFKGIELQNKTIGIIGFGRLGKKVASYAKSFQMNVIFFDHKIKSQKKYKKINTLESLLSKSDIVSIHASLNKRTFHMFNKKTLKKLKKNSLLINTSRGEIIESKSLAFFLKNKKIKGAALDLIENEVFAEKRINNPLIKYAKKNNNLLITPHLGGFTHESVKNTDLFILKKFEKYIKSNINKVK;locus_tag=LOCUS_2400;note=B8DYJ5 D-3-phosphoglycerate dehydrogenase (Dictyoglomus turgidum DSM 6724) [pid:31.2%25%2C q_cov:98.4%25%2C s_cov:58.1%25%2C Eval:9.6e-34%2C partial hit],MGA_247
sequence07	MetaGeneAnnotator	CDS	17224	17919	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINDIAIVVQARVSSKRCKKKMIRNFAGTNLLQIFFDKVKHSKVIKQENFYVSSYDKEINEITIKNGFQIFKRSKKSALSEGKNIKILYEWWNKLDYKYCVLINASLPFLSIKTIDDFIKNYKKNNSLGQFAVAEKKNYFWYKKKLINKWPKGLQCMNTKKVEPILEAAHCLYASPMDIIKKGYFMGNLKKINKVKLYIIKNSIETLDIDEEWQFKSYESIYKNIKKIL;locus_tag=LOCUS_2410;note=MGA_248
sequence07	MetaGeneAnnotator	CDS	17916	18791	.	-	0	ID=MGA_249;product=N-acetylneuraminate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003974091.1;translation=MTIKPVKIGNKYIGPGHPCFFVSEIGINHNGDLSIAKKLIDISKKAGSDAVKFQKRTIDYLYKKKELDEYRESPFGKTYYEYRKGVEFEYSEFTKIKNYCKKKNILYFASCWDIKAVDFMEKLNPPCYKIASASLTDRELLKYIKSKKKPVILSTGMSTIAEIKMAVKILGKKNLIILHCTSSYPAKKEELNLKAIYTLMRMFNVPVGYSGHETLLAPSLAAASIGASMIERHITLDRAMWGSDHAASLGPDGLWKLIANIRNIETALGDGKKKIYKSELSEIKRLRKNFF;locus_tag=LOCUS_2420;note=WP_003974091.1 N-acetylneuraminate synthase (Streptomyces coelicolor A3(2)) [pid:54.6%25%2C q_cov:96.2%25%2C s_cov:90.4%25%2C Eval:1.3e-82],MGA_249
sequence07	MetaGeneAnnotator	CDS	18797	20272	.	-	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEEIINKIKFLISENKLIEAEKLIKESNFVSDQLFYLAGLVKYKLNKNEEAIDILKKIINKVPDIYLLMSNINENLSLYSEALNLLDKAIQIQDNFWKAYFNKGILLMKIKKFKEAKESFEKVLKIDPNNDNAEYYLGFLSAGYDLKVAEKHYRRSILLNPNNENAHSELGKLLLFDGNLKDGWNEYEWRFRYLEKIYPENIINIPIWNGKNIEKNRFLIFREQGLGDEILYASCYGELIKKAEKCFFISDGRLVNIFKESFPKAEFINEEVFSKNTDLTEIKPTVRIQSPLIPKYIRKNFKDFPKQKKYLIADKKKSEMWKKRLFKDGKNKLKIGLAWSSSASEEKDKEIHTQSPIEFKINEWKHFLSIDKIFLINLMYKDEKNEINLFNKTNKNKIFTYKDLDMKDDIDNVAALISNLDIVISAQTWIGDFASALGVDVFKFHNKNSLTRLCQEKIPWNNSLIFDGRNNNWKESFELIKSLLNERMVK;locus_tag=LOCUS_2430;note=WP_010919333.1 protein FlbA (Caulobacter crescentus NA1000) [pid:24.7%25%2C q_cov:85.7%25%2C s_cov:66.8%25%2C Eval:2.2e-28%2C partial hit],MGA_250
sequence07	MetaGeneAnnotator	CDS	20333	20869	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKYAIAIGLSGKIYENLIKTWKILEKEKKIKFISSRSPKPHIALTTGSAINEYKLKAILKKINIKKFKINSIGLALFIEKEPLLYLRWEKNKKLSDLFKIINKKTDKLLKKKSKFYNSSLWVPKTTIAWKDLKYSQLNIIIKKINFLLKKKSAIVCSLDLYKLTKNREILLDEFYLN;locus_tag=LOCUS_2440;note=MGA_251
sequence07	MetaGeneAnnotator	CDS	20914	22221	.	-	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVCISIIIFIFSLFFISIKYTKSIFHEVVKEFKQPTILIKSTGPVFKLEDNDEIKIYAKKILSSKVNLKISNIKEENTEICYSTSFTDNLNEFSSSIFIKDLISNNCFGKNIFFEGEINFDNNEVLYNYLERYKSESVSSIKKIITKILYKFVNKFRNIPDTYSYKFYFNINQEIPQINDNLLVVPTTVFYNYYSNLIVINNYFNKQNKEKNYISLPNDVPITTSEVNHNAQSIIKSVRNLKKIFKKFDIIYDYDLEKGKMVNYKNIIFPYHQEYISDEMLNDIEFVLNDTNKFNNFISIGGANFWRKVEFIKENNNLKYIKFYHNKFSDFQKYNLNIFDPEIYKSCNLTENNFSTDKEKTDIDFAHVSKPGPYKDQINKFYEIKCDNLLIPLISVNKFSNGQIIHFNSDYVGLNFPKHKNLNNFFLGLFNN;locus_tag=LOCUS_2450;note=MGA_252
sequence07	MetaGeneAnnotator	CDS	22318	23607	.	-	0	ID=MGA_253;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TIZ9;translation=MLKKITFLSTLSAMLLFLLIPLEGLAEEVVTTGQVAGDNAWMLTSTCLVLLMTIPGVALFYGGLSRKQNVLSTLMHVFAGCCVVTLTWCIIGYSIAYTEGTTPYFGGLGNFMFNGFEIAEKDYSALPIGVDVVFQATFAIITTALIAGSFAERIKFSSTLIFMAIWSVVVYAPVCYWVWGGGILSEKGILDFAGGTVVHINCGIAGLIAAIVVGKRTSDSYTWAPHNLIYTLVGASLLWVGWFGFNAGSAYGANESAGMAMLVTQIATAAAALAWMLIEWFTKGKPTVIGLTGGAVAGLVAITPASGYVYPMGALIIGLVSGVACWFFSTVVKKALGYDDSYDVFGIHGVGGIVGALLTGLLCVPVLADVEPGMKQLGIQFYGILLTIGWCAIATFIILKVIDFTIGLRVSNKVEKEGLDVNLHGEVVS;locus_tag=LOCUS_2460;note=E8TIZ9 ammonium transporter (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:53.5%25%2C q_cov:91.4%25%2C s_cov:88.0%25%2C Eval:1.8e-116],MGA_253
sequence07	MetaGeneAnnotator	CDS	23819	24523	.	-	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSRQSPSKKYLELIDIYKKMHEKGDKNPNSAVSRNPKDTYKGDQTKYYIKDIKSYIESTNSKTILDYGSGKAAFYKKKDLKILNESDKKEYNTIKDFWNVNKIEFYDVGVKEYQVFPNKNFDGIICTDVLEHIPIEDIPWVVKELFSFAKKFVYIKVACSFAGSFLPTGENAHITVAGPDWWYGLIYGIANSFINKEFSLICSKRINETKEDFFRFSSKSVGNVEKINLIYD;locus_tag=LOCUS_2470;note=MGA_254
sequence07	MetaGeneAnnotator	CDS	24554	24808	.	-	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLVIIFFLFLTFTVCANEKSKNNKNTKLNEKASKECQLIEEYIPVEKGNIQSIAGTDLEIGSVKLRPEGCMWNHEKGWYKP;locus_tag=LOCUS_2480;note=MGA_255
sequence08	MetaGeneAnnotator	misc_feature	1	1654	.	+	.	ID=MGA_257;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q2RQV7:elongation factor G,Q2RQV7 elongation factor G (Rhodospirillum rubrum ATCC 11170) [pid:65.9%25%2C q_cov:91.1%25%2C s_cov:72.3%25%2C Eval:2.1e-192%2C partial hit],MGA_257;locus_tag=LOCUS_2490
sequence08	MetaGeneAnnotator	CDS	1647	1955	.	+	0	ID=MGA_258;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89J83;translation=MVKQNIRIRLKAYDHKLLDQSTVEIVNTAQKTGAKIIGPIPLPTKKNKFTVLRSPHVDKKSREQFEMRTHKRLIDIIDPTPQTVDALMNLDISSGVDVEIKT;locus_tag=LOCUS_2500;gene=rpsJ;note=Q89J83 30S ribosomal protein S10 (Bradyrhizobium diazoefficiens USDA 110) [pid:79.6%25%2C q_cov:96.1%25%2C s_cov:96.1%25%2C Eval:1.7e-40],MGA_258
sequence08	MetaGeneAnnotator	CDS	1973	2734	.	+	0	ID=MGA_259;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J5S2;translation=MRIGLIAKKIGMTRFFRDDGSNIPVTLLGIENNYITKVKENVSSNIKHVQVASGKVKIKKISKPIRNYFSKLKIEPKKKILEFKVSNDQNQNVGDKLDATFFKVGQYVDVISKSLGKGFAGPMKRHNFSGLRASHGVSISHRSHGSTGQCQDPGRTFKGKKMAGQMGASRVTVHNLEVVEINNEDGLILIKGAVPGSKGTLLTIRDAIKPKRLIAKQKEEVIEEVSAKKNKGDESKDNKEKKDKDVKKEEVKK;locus_tag=LOCUS_2510;gene=rplC;note=Q3J5S2 50S ribosomal protein L3 (Rhodobacter sphaeroides 2.4.1) [pid:55.0%25%2C q_cov:82.6%25%2C s_cov:87.1%25%2C Eval:6.8e-63],MGA_259
sequence08	MetaGeneAnnotator	CDS	2737	3357	.	+	0	ID=MGA_260;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TMC5;translation=MKHNIVNLDSKKVGTVELNKNIFSLPIRKDILQDVVNWQLSNRRQGSHKVKQRSEVTGTTAKAFKQKGTGRARRGNLKTNILRGGGVTHGPVIRDHKKKLPKKIRKLGLKTALSVKEKEKKIIIVDNLVLKNPSTKEISKKLKKLSINSALIVDNSKDLKSFKQSIANINNIHLLPVVGMNVYDILKFKNLIISKDALIEVEKKLT;locus_tag=LOCUS_2520;gene=rplD;note=E8TMC5 50S ribosomal protein L4 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:45.1%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.9e-43],MGA_260
sequence08	MetaGeneAnnotator	CDS	3354	3683	.	+	0	ID=MGA_261;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQW2;translation=MILKKKNLDKKDEPLIKFYDLIEKPVITEKATMLSNNSQVVFFVPMDTNKNVLKNTIENLFKVNVKKINIIISKGKKKRFKGKQGKRKNFKKAIISLEKGQKIDITTGI;locus_tag=LOCUS_2530;gene=rplW;note=Q2RQW2 50S ribosomal protein L23 (Rhodospirillum rubrum ATCC 11170) [pid:41.8%25%2C q_cov:83.5%25%2C s_cov:87.5%25%2C Eval:5.5e-15],MGA_261
sequence08	MetaGeneAnnotator	CDS	3688	4533	.	+	0	ID=MGA_262;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCQ8;translation=MKNFKPYTSTRRHAVLTDKANLWKGSSEKSLTKKYISKAGRNNSGRITSRHRGGGHKKKYRIIDFKRNKFDVLATVIRLEYDPIRTAYIALIEYDDKTKSYIVAPDKLKIGDKVQSGEKVDIRIGNSMPLKNIPVGTVIHNIEMKPGKGGQLARSAGSSVNLLAIDSGKAIIKLNSGEIRNLNENCFATIGTVSNLDNKNIKIGSAGRKRWLGFRPKVRGVAMNPIDHPHGGGEGRTSGGRHPSTPWGKPTKGYKTRKNKSSNKFIIRSRRNKYMSRSTWK;locus_tag=LOCUS_2540;gene=rplB;note=Q9ZCQ8 50S ribosomal protein L2 (Rickettsia prowazekii str. Madrid E) [pid:62.7%25%2C q_cov:96.4%25%2C s_cov:99.3%25%2C Eval:2.7e-95],MGA_262
sequence08	MetaGeneAnnotator	CDS	4708	4926	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGHKFGEFSPTRTFNSHTVTTKSDTKSKPIGAPTSAPTSAPTSTSGDSSSAKTEEKSSAEKPKVETKEEKK;locus_tag=LOCUS_2550;note=MGA_263
sequence08	MetaGeneAnnotator	CDS	4927	5430	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENKKNIKEETKNNKIDQKKEKKVVKKKDDNLAKVYLKSVKISPKKLNMIISPIRGLNVEKAVNYLSFSQKRIALQVKKALQSAIANAENNHQLDVDKLYIYEASVGRGLVMKRFRRRAKGRGVKFLKPFSNLTIKLKEQIIDTNLKKNEIKKTNNKEEVKDGPKS;locus_tag=LOCUS_2560;note=Q2RQW5 50S ribosomal protein L22 (Rhodospirillum rubrum ATCC 11170) [pid:55.9%25%2C q_cov:66.5%25%2C s_cov:88.1%25%2C Eval:9.2e-28%2C partial hit],MGA_264
sequence08	MetaGeneAnnotator	CDS	5414	6082	.	+	0	ID=MGA_265;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQW6;translation=MGQKVNPTGLRLGINKTWDSRWFAEAKYSIFLQNDLIIRDYIESNLKKAGLSKVIIERSSKKLIINIHASRPGIIIGKKGADIEKLKKQLSKLTKTELNLNIVETKKPELDAKVVADNIAQQLENRAATKRVIKRAVQSALKLGAKGIRVSVGGRIGGAEIARVEWFKEGRVPLHTLRAEVDYAASTAKTTYGTCGVKVWLYKGENLAKENDQNKVINNKNK;locus_tag=LOCUS_2570;gene=rpsC;note=Q2RQW6 30S ribosomal protein S3 (Rhodospirillum rubrum ATCC 11170) [pid:63.4%25%2C q_cov:92.3%25%2C s_cov:91.9%25%2C Eval:1.8e-74],MGA_265
sequence08	MetaGeneAnnotator	CDS	6101	6514	.	+	0	ID=MGA_266;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TMD1;translation=MLQPQKTKFRKQHKGRIHGKANSGAKLNFGSFGLKAKNPGRINSRQIEAARRAITREMQREGRVWIRIFPDVPVTKKPAEVRMGKGKGSVEYWVCRIHPGRILFEVEGVSEEIAKNALLLGAAKLPIKSFFIKRLAI;locus_tag=LOCUS_2580;gene=rplP;note=E8TMD1 50S ribosomal protein L16 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:68.4%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.6e-51],MGA_266
sequence08	MetaGeneAnnotator	CDS	6515	6721	.	+	0	ID=MGA_267;product=50S ribosomal protein L29;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TMD2;translation=MKYIEIKKKTKDELIDMLKNLKKENYNLRFQQKNGQLEKPGRIDQVKKDIARIKTELTVKNLGEKYAK;locus_tag=LOCUS_2590;gene=rpmC;note=E8TMD2 50S ribosomal protein L29 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:55.4%25%2C q_cov:95.6%25%2C s_cov:98.5%25%2C Eval:1.1e-12],MGA_267
sequence08	MetaGeneAnnotator	CDS	6711	6968	.	+	0	ID=MGA_268;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TMD3;translation=MPNRILDGKVIRNSNEKTIIVDVETRYMHKKYKKFLKKNKKYAVHDEDNFCKVGDKVQIIETKPISKTKKFKIYNEKKLKKKVNK;locus_tag=LOCUS_2600;gene=rpsQ;note=E8TMD3 30S ribosomal protein S17 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:53.7%25%2C q_cov:78.8%25%2C s_cov:84.8%25%2C Eval:1.0e-13],MGA_268
sequence08	MetaGeneAnnotator	CDS	6965	7333	.	+	0	ID=MGA_269;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQX0;translation=MIIVESKLNVADNSGAKLVQCIKVLGGSKRRSANIGDLIVVTVKEAIPNGKIKTGEVTRAVVVRTKKGISRNDGSSIRFDKNSAVLLTKEGEPIGTRIFGPVTRELRLRKFTKIISLAPEVL;locus_tag=LOCUS_2610;gene=rplN;note=Q2RQX0 50S ribosomal protein L14 (Rhodospirillum rubrum ATCC 11170) [pid:72.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-44],MGA_269
sequence08	MetaGeneAnnotator	CDS	7337	7663	.	+	0	ID=MGA_270;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U870;translation=MSKINIKLKKGDNVLVLTGKDKGKSGSILSIFPKKNKATVKGVNVVKKHQKPSKQGGGGIVEKELPVHISNLSFISIKDQKKTKIGYKLDDKKKIRIERRTGDVIKNG;locus_tag=LOCUS_2620;gene=rplX;note=A6U870 50S ribosomal protein L24 (Sinorhizobium medicae WSM419) [pid:49.5%25%2C q_cov:91.7%25%2C s_cov:96.1%25%2C Eval:2.8e-27],MGA_270
sequence08	MetaGeneAnnotator	CDS	7656	8192	.	+	0	ID=MGA_271;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I7J4;translation=MARLQNEYIKTIKPNLMKDLGLKNIFSVPEIKKVVINMGLGLDAADKKKLEAAVEDLKKISGQMPIITKTKKAVANFKTKKDMPIGCKVTLRKKRMYEFIDRLINIALPRTKDFMGLSEKNFDGLGNYTFGIKEHIIFPEIDYDKIDKVKGMDITIVTSTKKNNEAKSLLKAFNFPLK;locus_tag=LOCUS_2630;gene=rplE;note=A5I7J4 50S ribosomal protein L5 (Clostridium botulinum A str. ATCC 3502) [pid:58.5%25%2C q_cov:98.9%25%2C s_cov:97.8%25%2C Eval:4.1e-56],MGA_271
sequence08	MetaGeneAnnotator	CDS	8206	8511	.	+	0	ID=MGA_272;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQX3;translation=MTRLSLIQRNIKREKLVSRYSKKRILLKKIIKNKKTTPEDRIDAINKLSKLPKNSLPCRLRNRCIVTGRPRGNYRKFKLSRIAFRELASNGKLPGIIKSSW;locus_tag=LOCUS_2640;gene=rpsN;note=Q2RQX3 30S ribosomal protein S14 (Rhodospirillum rubrum ATCC 11170) [pid:46.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-22],MGA_272
sequence08	MetaGeneAnnotator	CDS	8516	8914	.	+	0	ID=MGA_273;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q92QF6;translation=MTVTDTISDMLTTIRNGLLLNKNIVSTPSSKLKANILKVLQEEGYIKSFKEIKIKKGINKIDISLSYFKGKPSIKIIKRISKPGRRVYSKLKNLPSYFKGYGVTIVSTSKGIMTDKKARVSNLSGEILCQIF;locus_tag=LOCUS_2650;gene=rpsH;note=Q92QF6 30S ribosomal protein S8 (Sinorhizobium meliloti 1021) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-30],MGA_273
sequence08	MetaGeneAnnotator	CDS	8933	9466	.	+	0	ID=MGA_274;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQX5;translation=MSRTGNIPIEIPEGIEVSLKDTNIIVKDKSGEKNFKFSKNLNISIEDKKIVITPKEINNKTNQIWGTTRSIINNIILGCVNEFKKTLKLVGTGYKASLQGKIIKISAGYSHDIEYPVPEGINIKCADPNTIEISGQNKSQVGQVAADIRSFRKPEPYKGKGIQYENEHIHRKEGKKK;locus_tag=LOCUS_2660;gene=rplF;note=Q2RQX5 50S ribosomal protein L6 (Rhodospirillum rubrum ATCC 11170) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-45],MGA_274
sequence08	MetaGeneAnnotator	CDS	9469	9792	.	+	0	ID=MGA_275;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9A8T7;translation=MKVSIKSIVRKRRIRAKLKKVSNERYRLSVFRSLKNMQAQIIDDTKGVTLFSHSTLDKEFKTKIKKTGNKEAAAEVGKLLAEKAIKKGIKKVIFDRGKYLYHEELKH;locus_tag=LOCUS_2670;gene=rplR;note=Q9A8T7 50S ribosomal protein L18 (Caulobacter crescentus CB15) [pid:55.7%25%2C q_cov:90.7%25%2C s_cov:79.3%25%2C Eval:7.0e-23],MGA_275
sequence08	MetaGeneAnnotator	CDS	9830	10390	.	+	0	ID=MGA_276;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89JA1;translation=MEIDIKKRFQKNNSDNLIEKVVFVNRVSKVVKGGRRFGTAALVVVGNGKGKAGFGNGKAKEFPESIKKATDKAKRNMKNFPLKKNRTFYYDVQGTHGSGKVLLKSAPPGTGIIAGGPIRSVFEALGVQDVVAKSIGTTNPHNMVRATFDALEQLDDVKRIAERRGKKVTDLYIKNKTNGKETTEKK;locus_tag=LOCUS_2680;gene=rpsE;note=Q89JA1 30S ribosomal protein S5 (Bradyrhizobium diazoefficiens USDA 110) [pid:53.6%25%2C q_cov:89.2%25%2C s_cov:84.3%25%2C Eval:1.1e-46],MGA_276
sequence08	MetaGeneAnnotator	CDS	10293	10559	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLKELLKDEEKKLLIYILKIKQMEKKQQKKNKEIKLTQVKSTIGKKKIQKKYLLSLGLKKIGSTRSVILNPSIKGLLKKVNHLIKID;locus_tag=LOCUS_2690;note=MGA_277
sequence08	MetaGeneAnnotator	CDS	10569	11123	.	+	0	ID=MGA_278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNTLKNIKKNKISKKRLGRGVGSGLGKTSGRGHKGQKSRSGVSIKGFEGGQMPLYRRLPKRGFNNIFKKKFNILNLTQIDALLEKKVLNIKENISNDLLFEKKLFKKKLHGLKVLGKGELKSKIIIDVQKVSKNAVKKIEKIGGKINIIKKEIKKKSKDNIDHDKKIKVEKESIKNTETKNKK;locus_tag=LOCUS_2700;note=E8TME3 50S ribosomal protein L15 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:51.6%25%2C q_cov:67.4%25%2C s_cov:78.5%25%2C Eval:6.5e-31%2C partial hit],MGA_278
sequence08	MetaGeneAnnotator	CDS	11123	12460	.	+	0	ID=MGA_279;product=protein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQY0;translation=MSSNFANTQPNIGAFSKAKELQKKILFVIFALIIYRLGTFIPIPGINSDIFQEIFAQNSGGLLGMFDMFVGGAVQRMSIFALGVMPYISASIIMSLLTHVNPSLSQLKKDGGELGRQKINQYTRYGTVLLATFQGYGLAVGLENMGGAVGSAVIDPGYFFRISTVITIIGGSIFLLWLGEQITQRGIGNGISLIIFAGIVANLPSAVAGTFELVRTGALSPFFVIALIFFVLLIFGIIVFMERALRKVFVQYPKRQVGNKMYGGEGSHMPLKLNMSGVIPAIFASSVLLLPMTLTGVTGGRGPGFLNFLSNYLSHGKPLYLILYFSLIVFFCFFYTSIVFNPQETADNLKKNGGFVPGIRPGENTAEYFDYVLTRLTLVGALYLGVVCIIPELLISKFSVPFYFGGTSLLIVVVVMMDTIGQIQSHLFSHQYKDLLKKSDFKGGF;locus_tag=LOCUS_2710;gene=secY;note=Q2RQY0 protein translocase subunit SecY (Rhodospirillum rubrum ATCC 11170) [pid:62.1%25%2C q_cov:97.3%25%2C s_cov:96.6%25%2C Eval:1.9e-158],MGA_279
sequence08	MetaGeneAnnotator	CDS	12465	13037	.	+	0	ID=MGA_280;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7V9Y1;translation=MLIILLGPPGAGKGTQAKKICKNYNLFHFSTGDILRNEIEKKSEIGKKIKSIINSGNLVSDEIIIKIVEKVVSINIKKKNGILFDGFPRNLDQANAFHFLLNKIKKKVDCVLHLSIDKDEVIKRIKKRASEETREDDNTKVLKSRINVYLKETSPLIKLYKNKNVLKKIDGMETIENVKVEIYKVLDLIN;locus_tag=LOCUS_2720;gene=adk;EC_number=2.7.4.3;note=Q7V9Y1 adenylate kinase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:40.2%25%2C q_cov:96.8%25%2C s_cov:97.3%25%2C Eval:1.8e-31],MGA_280
sequence08	MetaGeneAnnotator	CDS	13118	13495	.	+	0	ID=MGA_281;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:F9Y5B5;translation=MARISGVNLPTNKRVETALTYIYGIGPTTAKRICKDIGISDEKRVNNLTDEEILKIREYIEDKYKVEGDLRSDISLNIKRLTDLGTYRGLRHRKKLPVRGQRTHTNARTRKGKGVAIANKKKVTA;locus_tag=LOCUS_2730;gene=rpsM;note=F9Y5B5 30S ribosomal protein S13 (Ketogulonicigenium vulgare WSH-001) [pid:68.9%25%2C q_cov:97.6%25%2C s_cov:100.0%25%2C Eval:3.7e-43],MGA_281
sequence08	MetaGeneAnnotator	CDS	13503	13961	.	+	0	ID=MGA_282;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQY3;translation=MVDEKKTKEEIEVKDDKKDSKSKAKTKKRFLKKKVKKNITNGIAHVNATFNNTVINITDVNGNTLAWSSSGVKGFKGSRKSTPYAAQIAAADAGEKAKNHGVKTVEIYIKGPGAGRESALRALQNIGFTITSIKDVTPLPHNGCRPPKRRRV;locus_tag=LOCUS_2740;gene=rpsK;note=Q2RQY3 30S ribosomal protein S11 (Rhodospirillum rubrum ATCC 11170) [pid:73.0%25%2C q_cov:80.3%25%2C s_cov:94.6%25%2C Eval:3.0e-50],MGA_282
sequence08	MetaGeneAnnotator	CDS	13988	15055	.	+	0	ID=MGA_283;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQY4;translation=MKKEEETKKDLKAPDPYAYKNWTELIKPTKIDVDKKDDNNSIGSVTIEPLERGFGLTIANSLRRILLSSLQGAAVTSVQIDGVLHEFSSIPGMIEDVTEFILNIKSLAIKLNSDQPKKMTLKASGPGEVKASQIEASSEIEIINPDLVLCNLDKSAKINLELTVENGKGYVAAEQQKKDDKQIGLILVDAIHSPVKKVSYKIENSRVGQVTDYDKLTLNVETNGAILPDDAIAMSARILQEHLQYFINFEEPEIDDKSKEEEAEIKFNRNLLRKVDELELSVRSANCLRNDNIVYIGDLVQKSENDMLRTPNFGRKSLNEIREVLMQMGLNLGMDISDWPPENIEDLSKKLDDNL;locus_tag=LOCUS_2750;gene=rpoA;EC_number=2.7.7.6;note=Q2RQY4 DNA-directed RNA polymerase subunit alpha (Rhodospirillum rubrum ATCC 11170) [pid:65.6%25%2C q_cov:94.1%25%2C s_cov:97.9%25%2C Eval:3.3e-126],MGA_283
sequence08	MetaGeneAnnotator	CDS	15062	15607	.	+	0	ID=MGA_284;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQY5;translation=MRHKILKYKLNRTTSHRKALLNNMALALLKHEQISTTLIKAKNLRPFVEKIITLAKKGNLSSKKKAYSLLKDKKIIDKLFSNLSKRYESRKGGYIRILKNGFRYGDMAPLAVIELVDRDEKAKGLDSGPVQKKKEVNEPDAEINTNEKNLEQTKNTDEQVPEKELKENEEIAKKLDKKKDK;locus_tag=LOCUS_2760;gene=rplQ;note=Q2RQY5 50S ribosomal protein L17 (Rhodospirillum rubrum ATCC 11170) [pid:57.7%25%2C q_cov:78.5%25%2C s_cov:99.3%25%2C Eval:6.9e-38],MGA_284
sequence08	MetaGeneAnnotator	CDS	15607	15789	.	+	0	ID=MGA_285;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TC65;translation=MARTFEIKRLLSTAGTGYSYIVKRGTKGDKKEKLGVKKFDPVAKKHVLFKETKLPNPKKS;locus_tag=LOCUS_2770;gene=rpmG;note=E8TC65 50S ribosomal protein L33 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:52.7%25%2C q_cov:90.0%25%2C s_cov:98.2%25%2C Eval:8.6e-08],MGA_285
sequence08	MetaGeneAnnotator	CDS	15791	16714	.	+	0	ID=MGA_286;product=ribosomal large subunit pseudouridine synthase C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDR7;translation=MILKVNLSETGQRLDKFIKRKLGSLSQSLLEKLSRKGLIKVNKKKIKLFYKIQMNDIVEIPSIKICKNKEKKKNPNLKIGAKEIIKKIIYKDEKKIIINKPPGIAVHKGSKTFFSIDDIKDYLKFNYTDSPRIVHRIDKETTGIIIIARTYKSSVFLSKQFRERNIEKFYIAILYGIPNKSKGKINFKINKNEIAQTDFYILKIIKNKYSIVLLKPITGRKRQLREHCYRINCPIIGDKKFFKENKNKIKFNNLFLHAFKIKIINEDGKKEAYIASLPNHIKEFLKKHKIRTNKSFINELVESVIIK;locus_tag=LOCUS_2780;gene=rluC;EC_number=5.4.99.24;note=Q9ZDR7 ribosomal large subunit pseudouridine synthase C (Rickettsia prowazekii str. Madrid E) [pid:30.5%25%2C q_cov:88.6%25%2C s_cov:96.4%25%2C Eval:6.7e-29],MGA_286
sequence08	MetaGeneAnnotator	CDS	16787	18319	.	+	0	ID=MGA_287;product=methylmalonyl-CoA carboxyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387814.1;translation=MKDIIKILEEKRKKAKEGGGKKRIDSQHSKGKLTARERIELLLDKDSFEEWDMFVEHRSTDFGMAKNKVPGDGVVTGHGTINGRQVFVFSQDFTVFGGSLSEAHANKIVKIMEKAMQVGAPVIGLNDSGGARIQEGVDSLAAYAKVFEQNVLASGVIPQISVIMGPCAGGAVYSPAMTDFIFMVNKTSYMFVTGPDVVKTVTHETVTHEELGGASTHTTKSSVADGSFKNDIVALNEIRRLFDFIPLSFREKPPVMKKTDKVTRAEKSLNTIVPKNPNKPYDMKEVINKIIDNEDFFEIQENYAKNIITGFARMDGQPIGVVANQPLVLAGCLDIDSSRKAARFVRFCDCFNIPIITFVDVPGFLPGTKQEYGGIIKHGSKLLFAYTEATVPKITIITRKAYGGAYDVMSSKHLRGDVNYAWPTAEIAVMGPKGAVEIIFRDDLKDKKKIVQRTEEYREKFANPFIAGSRGFIDDVIRPAGTRSRICKALKMLKNKFLKNPPKKHNNIPL;locus_tag=LOCUS_2790;EC_number=6.4.1.3;note=WP_011387814.1 methylmalonyl-CoA carboxyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:72.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-215],MGA_287
sequence08	MetaGeneAnnotator	CDS	18325	20301	.	+	0	ID=MGA_288;product=acetyl/propionyl-CoA carboxylase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387813.1;translation=MIKKILIANRGEIACRVIKTAKKMGIKTVAVYSEADEYSKHVLEADESFYIGLAPAAESYLSIKKIIDAAKETNADAIHPGYGFLSENSKFVQRLSREKIKFIGPNVKAIKIMGDKIQSKNLAIEAKVNTIPGFNDVIKDYKHALNIANNIGYPLMIKASAGGGGKGMRIVKDKSEVKDAFQLASSEAKSSFGDDRVFIEKYIEKPRHIEIQILADKFGNVIHLCERECSIQRRHQKIIEEAPSSVVSKKLRNEMGEQAKALARAVDYQSAGTVEFIVDQKNNFYFLEMNTRLQVEHPVTEEITGIDLVEQMIKIADEKKLKIKQDDIKINGWAMEARIYSEDPIRNFLPSVGRVKKYIEPKLEKNIRLDSGIIDGSEVSINYDPMLAKLIVKGKNRSQCIKKIIEALNSFYLRGFNNNIKFLTSIFKSKNFNTGDIHTGLLDQEYENGYTYPQPTNKLLKKIFIPIASYIGYRYLKNERNNIINDNQNHYVLTLNNKKYNLKINEGRKNLIKINYKNFFFKLKSSWKINAGIIEIQINKKKYLLQFDKFKNYFVITYLDYSTKFVFYDKHTDKFDKYMIEEEAVDLSKFLLAPMPGKIVSINVKDGQKVKSGENLLVLEAMKMENLITASKDTKIKKINVKSNDAVEVDQILIEFDE;locus_tag=LOCUS_2800;EC_number=6.3.4.14;note=WP_011387813.1 acetyl/propionyl-CoA carboxylase subunit alpha (Rhodospirillum rubrum ATCC 11170) [pid:48.1%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.0e-169],MGA_288
sequence08	MetaGeneAnnotator	CDS	20294	20590	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKTVHIFITGRVQGVSYRWWFKKEGIKKNLNGWVRNRTSNRVEAEIYGSEKNINEMIKKCRTGPPLADVEDVIVDTIDKLTLVDKNIKDVKILETL;locus_tag=LOCUS_2810;note=B5YKB7 acylphosphatase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:46.5%25%2C q_cov:72.4%25%2C s_cov:77.2%25%2C Eval:1.5e-12%2C partial hit],MGA_289
sequence08	Aragorn:1.2.38	tRNA	20648	20734	.	+	.	ID=Aragorn_4;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_4
sequence08	MetaGeneAnnotator	CDS	20799	22208	.	+	0	ID=MGA_290;product=magnesium transporter MgtE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RSV0;translation=MFKSIKKIFNKKQDYEKIKKEITPVPSKFIHSLMDSINLGLIDKTQSLLSDISTGEIANIIEQLDSNNRKKLIFFLGSTIDPEIILELDKDIRKEIILVIGEHTFLDVVSKLDTDDLIEVLEELDEDKRGQYLKLLPRKSQRELVKKGLKFPENTAGRIMSTNVVSISASWTIGKTLKFLRNKNDLLPDDIFEVYILDSKRKPIGTLNLNTIVRSSSGTLVKDIMNTQFKTIPINTDQEEIALGFKQNNLIAAPVVDKTGKIVGQINSDDIIDIIEQETEEDLLRLSGVQSGDTYSAVLQTIKSRFGWLLINLLTAIAASFVIGIFETSLKQVVALAILMPIVASMGGNAGTQTLTVAVRSLALREITRANALRVIAKEFTVGAINGLIFALIIGTIASYWFNMPLLGFVIAAAMILNLIIACLSGILIPLILDKTGIDPAIASTVVLTTITDIFGFFTFLGLGTIYLL;locus_tag=LOCUS_2820;note=Q2RSV0 magnesium transporter MgtE (Rhodospirillum rubrum ATCC 11170) [pid:44.3%25%2C q_cov:86.1%25%2C s_cov:84.5%25%2C Eval:1.2e-97],MGA_290
sequence09	MetaGeneAnnotator	CDS	349	1320	.	+	0	ID=MGA_292;product=tRNA-dihydrouridine(20/20a) synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0KPD0;translation=MYKKKKIYVAPMMQYTDKHDRYFLRLISKNVILFTEMIPTNTIIHGDKDRYLQYNKNEHPIILQLGGSNADDMALCAEIAEKEYKYDGININVGCPSRKVVNGMFGASLMNKPDLVSKCIKKIKKKTNLPVSIKCRIGLGKIQNYNFLKNFIRIISKSGCKLFFIHARNAILDGLNPKKNRSVPPLNYSYVYKLKKDFPNLEIVLNGGIDNINSIKEHLKIVDGVMIGREIYKNPFFLKEIENEIFENKTQTTRKKILEKLVPYIENEIKTKNASIQCITRHTFGLFTGIKGSKKWKQYLNKIKFMKGNIKSIILNGIENINE;locus_tag=LOCUS_2830;gene=dusA;EC_number=1.3.1.91;note=A0KPD0 tRNA-dihydrouridine(20/20a) synthase (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:42.8%25%2C q_cov:98.8%25%2C s_cov:96.6%25%2C Eval:2.4e-77],MGA_292
sequence09	MetaGeneAnnotator	CDS	1313	1579	.	+	0	ID=MGA_293;product=glutaredoxin-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDW1;translation=MNKEYNIIVYTSNNCTFCNSAKNLLERKKLKYKEVNVSLNNSLKEKMIKETNGLMTVPQIFINKKHIGGFDELNNLEKLNKLDDLIKK;locus_tag=LOCUS_2840;gene=grxC1;note=Q9ZDW1 glutaredoxin-1 (Rickettsia prowazekii str. Madrid E) [pid:48.6%25%2C q_cov:78.4%25%2C s_cov:75.8%25%2C Eval:1.2e-11],MGA_293
sequence09	MetaGeneAnnotator	CDS	1560	2798	.	+	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLSKNNYFQLLKNFIIKNGKEITILFLIIAIYNNLSHFIRKNILSDRIDFWDFHVYWCSANKFINGINPYGGETIKDCLTQFNFDLYFSYPPIVLRSISFLGNLNFIYAKILWILIIIFSFYLIIFFLRKIYSFKYLFFTLLLLFTGGGLIWGSLLAGNISTILYAILSIGIYFLIKKKNDFYYLSVLLVSLVKFPFFIFFFMPFFLKDFKEYKKILFYFSLTIFIYLIQFYFDKQLFLSYINSTLSYKGEDFLKIHGTGIGIHGIIDLYQDIIYQKTKLIFFKPSGIYSFLLHNIISFIFFISAFFLFNKKNPNLRQKKFLISFFIAIFLCCFPRVSSYDFFLLISSFVYVVNFSRIRLINKNWEFVITILTISILAVYDTRYPAFVISTFLFLCFYHQIKGNDPFYLKK;locus_tag=LOCUS_2850;note=MGA_294
sequence09	MetaGeneAnnotator	CDS	2799	3275	.	-	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGLKKCRGQVIVIQDADLEYDPIDFNKMIGKIEIENFDVVYGNRFSLKKNKYHYLIYAIGNFFLSSFVSFIFNKKLFDVAVCYKMFKKEVIKDIKLISNDFMFDFEFTSKILKQKRWKITQLDIFYKGRTFKEGKKISWLDGFKALLVILRIKFFN;locus_tag=LOCUS_2860;note=WP_000868621.1 glycosyl transferase (Leptospira interrogans serovar Lai str. 56601) [pid:39.0%25%2C q_cov:96.8%25%2C s_cov:66.7%25%2C Eval:2.3e-27%2C partial hit],internal stop codon at [3315:3317](-),MGA_295
sequence09	MetaGeneAnnotator	CDS	3315	3527	.	-	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKLSIIIPVYNEINLLPKILKKIIVLNRKKKKLIIIFYYCLNFGTKLLVLKIKKKKNNFIKKNKEIKNL;locus_tag=LOCUS_2870;note=MGA_296
sequence09	MetaGeneAnnotator	CDS	3539	4879	.	-	0	ID=MGA_297;product=B12-binding domain-containing radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081919.1;translation=MKFLILDVYPKRPFRISKDNNGGYGSSNKYGTNLISKAINWFVKKNIDWPPLSSVHCAGILRSLGHDVNYSREIPYKNIDDIDCFIMPSSIVCSETEINVIKKLSNLKKKVLVTGPFATSNPNIYIKSGAVVIKGEPEMFFYNTKLDDKELKKISGIVEINNIVSLDDLPLPAWDIIFEQYPSMFSLLSLKQKMIPLLATRGCPYSCRFYCTYPLQQGIKVRQRDPKLILNEMKHWKSKLGVNFFIFRDPVFSINKKHTLELCDVLINSNENFQFIIETHLNNLDIDLVKKLKEAGMIMVKVGVESAVSNVKKDANRFSIDEDVTLKKIREIESLGIHVTTMFILGYPKDTIESCKETIKYAKHINSIITQFTVFTPYPGTPAFEGYKDKILAKNYEEFTMYNLIFKHTNLSFKDIEKLKNEAYTKCYLNPNWIKKYFKARRSLPH;locus_tag=LOCUS_2880;note=WP_004081919.1 B12-binding domain-containing radical SAM protein (Thermotoga maritima MSB8) [pid:26.9%25%2C q_cov:89.0%25%2C s_cov:92.3%25%2C Eval:1.2e-35],MGA_297
sequence09	Aragorn:1.2.38	tRNA	4891	4965	.	-	.	ID=Aragorn_5;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_5
sequence09	MetaGeneAnnotator	CDS	5016	6821	.	-	0	ID=MGA_298;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599075.1;translation=MNLESNTKKNFLYPEKSLLGNLWLKKSIDKRLSLNISQKYSFSLMSSNLISSRCLEIDNVEKFLNPSLEKFLPDPIIFNDMKKAVSKVYHALKKKEKIAILGDYDVDGLTSVVLLKNYLKFYDLDVFSYIPDRIKEGYGPNKKAIDIIKSKKINLLIMVDCGTNSHKTIKYAKSLNIDVIIIDHHKPDEESNEFYSLVNPNSTLDTSGYGFLCSAGLVYIFLNYLNNIIKLDSFRADKKVNIKDYLDLVALATVCDVVPLINLNRAFVFEGLKILSKRKNLGLKILSDESQLEKKPDEQDLGFFFGPRLNAGGRVGKSSIGEELLSIKDEEEAEIIAKQLNTLNYQRKLIEEKVFTEAIDQINSNNIEKKNFILVYSDIWHEGVLGIVASRIKEKFQKPVIVLTKDNNLNYKGSGRSILGVDIGNLIIQAKKKNILIKGGGHSMAAGLTLEKSKIEEFDKFCSNYVLRIMRKKNEDKVLKFDEVLSLNSINDDLYNSIKSIAPFGEGNPKPKFLFNNIKIIKPTLIGNPKKHLSFFISDNSSKSIKAILFNANDNLLGKTILSNHKKNLFSFIGFINKTYWRNKVYFEAIIEDGVLEKVII;locus_tag=LOCUS_2890;note=WP_004599075.1 single-stranded-DNA-specific exonuclease RecJ (Rickettsia prowazekii str. Madrid E) [pid:38.3%25%2C q_cov:97.2%25%2C s_cov:99.7%25%2C Eval:3.1e-112],MGA_298
sequence09	MetaGeneAnnotator	CDS	6805	7755	.	-	0	ID=MGA_299;product=fructose-1%2C6-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NEJ8;translation=MVKNLFSYNPKILKVTQLAAISVYDYIGKKDEKSADKAAVETMRSELNKINFCGKIVIGEGERDKAPMLYIGEIVGEKKNNNKFDIALDPLEGTKLTANNKKNAFTVIAMGNNKSFLHAPDIYMEKIAVGANLPKNFIDLDLPFEQTLKNLAFHKKKKVSDLVVCVLNRPRHEYIFKAIKKLKCKKFLIPDGDIFGAISTGINKFNIDIYAGIGGAPEGVLAASALKCLNGQMQCRLVFKNIFQKKRAKKMGIKNLKKKYLIKDLIKKDSIFIATGVTDGYLLNGIKKNNKKFSTHSLIITTKSKKIEFIKSEFRI;locus_tag=LOCUS_2900;gene=gplX;note=Q5NEJ8 fructose-1%2C6-bisphosphatase (Francisella tularensis subsp. tularensis SCHU S4) [pid:47.2%25%2C q_cov:95.3%25%2C s_cov:93.0%25%2C Eval:1.5e-71],MGA_299
sequence09	MetaGeneAnnotator	CDS	7778	9064	.	-	0	ID=MGA_300;product=homoserine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7DDD6;translation=MPHIHNIVIAGLGTVGTSTIKLIEKNINIFSLKSNLKIKIIGICAKNKLKKRNFVKKKYKWFNDPIKMLKEKKVDTVIELIGGLGIAKTICYEALKNNKNLITANKELLALEGETLAKLAEDNSVKIGFEASVAGGIPIVSTLKNSFSGIKINKITGILNGTSNFILTNMIEENVEFSSSLKKAQELGYAEQQPNNDLNGLDTLHKIIILSTIAFNTKFEFSKLTYQGIESINKEVLFFADKLGYAIKLLGISYLHNNKISLSVSPFLISKKKELATVNKNLNAIIIDSNNQNKTILLGEGAGGSATAMSVVSDLMNIKKKEYETMYGVTYKKRKKIKIYNNFIKKNMFFIKVKVLNKPGALAAITTILKNYNVSIKNLFQEEINKKIFNVVILTHNCLTKSIDLVMNKVNKCNYTKEQGLILQVLHV;locus_tag=LOCUS_2910;gene=metM;EC_number=1.1.1.3;note=Q7DDD6 homoserine dehydrogenase (Neisseria meningitidis MC58) [pid:37.3%25%2C q_cov:93.0%25%2C s_cov:92.9%25%2C Eval:7.5e-67],MGA_300
sequence09	MetaGeneAnnotator	CDS	9074	10279	.	-	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIFKILLLSSALLLNNCSLVNDKFFSKSDKNNKSDEDKEVVAEEDKEVVAERVYIKDDKEKKDQEIVKNDEKNTLKGDIEYENNLDYPNLANVPNRPDPAITIEEQEKLVTSLEKNNDQIEPTPSIPVIEDKVANLEQSLNVINETDKEDYSLENKNFSVRSVLDSKLNEIENFKPDLKNSSNQKPIRTEEEIELRNLARELKNIKTTEDVEKVEKKIKKNDLYYTPQDVENILGLKGLDSLDKPMVFKEEKKAPELKKNIIIEKKTESLEEKVFEKVKNIGLPVARITFNHGSSHLTKDDLQKIEKVANLFNQNQGKKIVIVGHASSRTNYDMDLTRHAIVNFNISLERANKVMSKFSDIGMKSDKIELVAMSDKEPLYTEIMPSLEAANRRAEIFIQY;locus_tag=LOCUS_2920;note=WP_011390165.1 membrane protein (Rhodospirillum rubrum ATCC 11170) [pid:39.8%25%2C q_cov:29.4%25%2C s_cov:33.4%25%2C Eval:3.0e-14%2C partial hit],MGA_301
sequence09	MetaGeneAnnotator	CDS	10289	10813	.	-	0	ID=MGA_302;product=gamma carbonic anhydrase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597783.1;translation=MILIFKNKKPNINKNVFIAPGAIITGDVKIGKNSSVWFNAVIRGDVEKVRIGMNTNIQDLTMVHCTTNGYGTKIGSNVTIGHNCVIHDCQIDDNSLIGMSSTILDGAVVKENAMLAAGSLLTQKKIINSGELWAGKPAKFLRKLKKNEIEFFRKSADNYFLLGQEYLVKLNKNN;locus_tag=LOCUS_2930;note=WP_004597783.1 gamma carbonic anhydrase family protein (Rickettsia prowazekii str. Madrid E) [pid:46.9%25%2C q_cov:93.1%25%2C s_cov:87.6%25%2C Eval:2.0e-39],MGA_302
sequence09	MetaGeneAnnotator	CDS	10873	11889	.	-	0	ID=MGA_303;product=N-acetyl-gamma-glutamyl-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9PIS0;translation=MVKFRLNVAIIGSTGYTGIELIRLLSFHKKVDIKYLISEHNYGKKIFDFYPALKYKNYPKLIKFSKINWKDIDLVFLCQPSGESKKKINKIPKNITIIDLSNDFRLNSLTKNTWIYGLADHLNDFSSKKKNEGYSNKVANPGCYATSVLSPLIPLLNNNFIESKDIIIDAKSGISGAGKKNVTENLFSEISNTLRPYKIANHKHIIEIENCLKRYNNNKNVTVSFTPHVIPINRGISSNIYLKLKKGKKIQDIRNFFEQQDYLFLKLLNKDKIPLIKDVVGTNYCFFNIFEDRIKNRIILISVIDNLIKGASGQAIHNMNLLFNFKEDEGLLFNPNSI;locus_tag=LOCUS_2940;gene=argC;EC_number=1.2.1.38;note=Q9PIS0 N-acetyl-gamma-glutamyl-phosphate reductase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:38.6%25%2C q_cov:98.2%25%2C s_cov:99.4%25%2C Eval:1.6e-58],MGA_303
sequence09	MetaGeneAnnotator	CDS	11948	12394	.	-	0	ID=MGA_304;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89KE5;translation=MTDNQSNIENITDTKINKKEKNNLYATGKRKDSIARVWLVPKGKGDVIINKKDSNKYFTRSLLNMVIKKPFNTIDNNTFNAVVSVKGGGLSGQAGAIKLAISKALVNFDSKYRIPLKKEGLLTRDSRVVERKKYGRKKARRSFQFSKR;locus_tag=LOCUS_2950;gene=rpsI;note=Q89KE5 30S ribosomal protein S9 (Bradyrhizobium diazoefficiens USDA 110) [pid:51.3%25%2C q_cov:98.6%25%2C s_cov:95.0%25%2C Eval:1.3e-34],MGA_304
sequence09	MetaGeneAnnotator	CDS	12396	12845	.	-	0	ID=MGA_305;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U7T7;translation=MINENIKNQDNTKLETSSNWYLIDAKDQILGRLSSFLALRLMGKHKPSYTDNVCIKDKIVVINAKKILLTGKKMEKKRYWHTGYPGGIKNRTFKEVLNSKNSTLVLKDAVKRMLKKGPLSRKQLKNLYVYSNEKHPHTANNPSILNFNK;locus_tag=LOCUS_2960;gene=rplM;note=A6U7T7 50S ribosomal protein L13 (Sinorhizobium medicae WSM419) [pid:50.0%25%2C q_cov:90.6%25%2C s_cov:88.3%25%2C Eval:4.4e-35],MGA_305
sequence09	MetaGeneAnnotator	CDS	12905	13219	.	-	0	ID=MGA_306;product=divalent-cation tolerance protein CutA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545706.1;translation=MTIFVVYSFFPEIKKAKKIAKEAIKKKLAACVNINKNVNSLFTWNNKFHDEKEIELSFKTHKKKLKTLISFIKMNHPYDCPAILAIQINQTNKQFKDWIFKELN;locus_tag=LOCUS_2970;note=WP_012545706.1 divalent-cation tolerance protein CutA (Thermodesulfovibrio yellowstonii DSM 11347) [pid:32.3%25%2C q_cov:95.2%25%2C s_cov:95.2%25%2C Eval:8.1e-11],MGA_306
sequence09	MetaGeneAnnotator	CDS	13223	13615	.	-	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIKKFKTINQVSKYFNIPQHVLRFWENKFVQLSPLKLSGNRRYYRDIDIKLIGYIRNLLYQDHISIKGVQKIFGNKKVNQILKTSNPILKKKNVLDNKNEKKTLINESKIKNSFKNIVIELKKIKNSL;locus_tag=LOCUS_2980;note=WP_011389359.1 MerR family transcriptional regulator (Rhodospirillum rubrum ATCC 11170) [pid:48.2%25%2C q_cov:63.8%25%2C s_cov:34.4%25%2C Eval:2.6e-17%2C partial hit],MGA_307
sequence09	MetaGeneAnnotator	CDS	13676	13966	.	-	0	ID=MGA_308;product=integration host factor subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U7Q6;translation=MANNNVTRAEIANVLSKDIGISRSESSYFVDTIINEIINSLIDNKSLKISSFGTFKIRYKNKRIGRNPKTGVEHTISARNTVSFIASKILKNKLNK;locus_tag=LOCUS_2990;gene=ihfA;note=A6U7Q6 integration host factor subunit alpha (Sinorhizobium medicae WSM419) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:85.7%25%2C Eval:1.1e-20],MGA_308
sequence09	MetaGeneAnnotator	CDS	13979	14395	.	-	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSDGRYYDLLYVDGGVAFNQKAGFVKMKGKEVFRHAVEKLVNCIKINLKKNNIKKDNVDWIIPHQANKRIMDLIAVKLGVPGNKILQTVDKYANTSSASIPLTLDYALKKKIIKRGDIIIFEAIGGGLTWGCSIVKY;locus_tag=LOCUS_3000;note=C3M9J6 3-oxoacyl-[acyl-carrier-protein] synthase 3 (Sinorhizobium fredii NGR234) [pid:46.3%25%2C q_cov:98.6%25%2C s_cov:42.1%25%2C Eval:2.8e-32%2C partial hit],frameshifted%2C insertion/deletion at around 14418,MGA_309
sequence09	MetaGeneAnnotator	CDS	14311	14937	.	-	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYSSYISGCGSYLPKKIIKNNDLPKKLNTNDNWIITRTGIKQRYIASKKQLNSDLAYEAAKNALRNSKIKVSEIDLVIVATSTPDNTFPSTATKIQGKLGIKKGFAFDIQAACSGFIYALSVADNYILNNQAKNVLVIGSEIFSRILDWNDRSTCVLFGDGAGAIILSKKKKIPVLFQLNCIQMDVIMIYYMLMEELLLIKKQDLLK;locus_tag=LOCUS_3010;note=Q5F4X5 3-oxoacyl-[acyl-carrier-protein] synthase 3 (Neisseria gonorrhoeae FA 1090) [pid:60.1%25%2C q_cov:80.3%25%2C s_cov:52.5%25%2C Eval:3.5e-53%2C partial hit],frameshifted%2C insertion/deletion at around 14412,MGA_310
sequence09	MetaGeneAnnotator	CDS	14940	15962	.	-	0	ID=MGA_311;product=phosphate acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RTS9;translation=MNNKKKITIAIDTMGSDLGPASVIEGACNVLQKNNNIKYLFFGQKKKVLPLIEEKKILKNSVFIETNQVITNNIKPTDALRKYKNSSMFKSIKSVKSLESDAIVSGGNTGALMVISSVLMKTIKGINRPAIASMFPTKKFKTVMLDLGANIECNEKNIIDFAIMGNVFCKTVLGIKKPKIGILNVGSEISKGNNIVKLSAKKLSSKKEINFCGFVEGNDIPNGKVDVVVTDGFTGNIALKIAEGTSELYSEYLKTSFKRNFYSKFAFIVSLPILNFLKKKVNPSKYNGAMFLGLNGIVVKSHGRSDANGFANAINVAYDLCKNNFNKKIIYDIKRIINKK;locus_tag=LOCUS_3020;gene=plsX;EC_number=2.3.1.n2;note=Q2RTS9 phosphate acyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:42.5%25%2C q_cov:97.1%25%2C s_cov:95.1%25%2C Eval:6.9e-78],MGA_311
sequence09	MetaGeneAnnotator	CDS	15989	16171	.	-	0	ID=MGA_312;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UJ26;translation=MAVPKKKTSKSKSKMRSSHLKKKLSNINYVEDKNSGELRRPLHIDKSTGEYKGKKIIDPN;locus_tag=LOCUS_3030;gene=rpmF;note=Q8UJ26 50S ribosomal protein L32 (Agrobacterium fabrum str. C58) [pid:49.2%25%2C q_cov:98.3%25%2C s_cov:93.4%25%2C Eval:6.5e-08],MGA_312
sequence09	MetaGeneAnnotator	CDS	16237	16776	.	-	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLKKIKKIFLIEKENKKIIKSILNYIIEISHSISLNKKYNINNTFKAKYEIIILLIFLLYLRCKGNEKLKSKIQLIYDFLFEYLDYSLREIGTGDLTVGKKIKKLARIFSLRLLEYEKSINKDFRKIKSPIKKNIYSNKVNNIKLDSFYKYIYKINQKLSITDPKRIFVNNFINNLFY;locus_tag=LOCUS_3040;note=WP_010919243.1 ubiquinol-cytochrome c reductase (Caulobacter crescentus NA1000) [pid:33.7%25%2C q_cov:50.8%25%2C s_cov:52.3%25%2C Eval:2.8e-07%2C partial hit],MGA_313
sequence09	MetaGeneAnnotator	CDS	16786	17241	.	+	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRSKIILKFIFTIVFFSITSCGLKVVDNHGQIYEKNINFDDIIIGKTTKKEINDKLGSPSTTSNFDNEQSWYYVSSEFKKFVFLDGANTDQKILLLTFNKEIVKDKELLLKEDINQIAHEETITDSRGKKISWLKEFFTNLNPDPYGQKK;locus_tag=LOCUS_3050;note=MGA_314
sequence09	MetaGeneAnnotator	CDS	17253	19346	.	-	0	ID=MGA_315;product=K(+)-insensitive pyrophosphate-energized proton pump;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O68460;translation=MNPIIFSILCGISSILYGIIISKSILSADTGNKRMQEISLAIQEGANAFLNRQYLTISYVGFAIFLLIFYFFNFKVAFGFFLGAVLSGLAGYVGMHISVRSNLRTASASSKGLSEGLKIAFRAGSVTGMLVVGLALLSISSYYFFLLYIGVNGRDLIEPLVGLSFGASLISIFARLGGGIFTKGADVGADLVGKVEAGIPEDDPRNPAVFADNVGDNVGDCAGMAADLFETYVVTVVATMVLASIFFSQSDLLFQIMSYPLAIGGVCIITSIIGTFFVKLGNSNNVMGALYKGFFATAILSILGLWFLTDLFLGLNQEFSFNDESFYGIDLFYCGVTGLVITSLLIWITEYYTGTNFKPVQSIAKSSETGHATNIIQGLAVSLEATAIPAIIICIGIIVSFKIAGLFGIAISVTSMLALAGMVVALDAYGPVTDNAGGIAEMSNLDKKVRKVTDALDAVGNTTKAITKGYAIGSAGLGALVLFATYTADLNFFIENNLINATNVNFNLSNPYVVVGLIFGGLLPYLFASMGMTAVGRAGSAVVIEVRRQFKEIKGIMKGTTKPEYGKCVDMLTKTAIREMIIPSLLPVLSPIILYFAIFFVADLGSALASVGVLFLGFIFTGLFVAISMTAGGGAGDNAKKYIEDGNLGGKGSEAHKAAVTGDTVGDPYKDTAGPAINPMIKITNIVALLLLGFLAH;locus_tag=LOCUS_3060;gene=hppA;EC_number=3.6.1.1;note=O68460 K(+)-insensitive pyrophosphate-energized proton pump (Rhodospirillum rubrum ATCC 11170) [pid:67.6%25%2C q_cov:99.4%25%2C s_cov:99.3%25%2C Eval:2.8e-269],MGA_315
sequence09	MetaGeneAnnotator	CDS	19386	20360	.	-	0	ID=MGA_316;product=thiamine-monophosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57532;translation=MDEYEVIKKIFRPLSFGNYLSFNLNDDVCYLPINKQIIVNTDSIVEGDHFEKNEKNPSFISQKLLRVNLSDLASKGATPFGYTLNLSLPKKLNNKHLIKWIKLFAKGLRHDQKKYNIKLLGGDTVIVSTNLVLSLTLYGFKNKRIIKRSTAKINDDIFVTGTIGESGIGYKIVKKKLKLDKNLNNYFLGKYKLPEPPVNFGNQLFKFANSATDISDGLLADLNNINLSSNCGAKIFLEKIPFSYKTIKVIKDKKIDIKYLITCCEDYQIIFTSKKKNYKRILNYSKKNKLKITKIGEVIKKKKLLVLGANNKQLFFKNLGFQHF;locus_tag=LOCUS_3070;gene=thiL;EC_number=2.7.4.16;note=P57532 thiamine-monophosphate kinase (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:36.4%25%2C q_cov:99.4%25%2C s_cov:98.5%25%2C Eval:4.7e-44],MGA_316
sequence09	MetaGeneAnnotator	CDS	20353	20784	.	-	0	ID=MGA_317;product=N utilization substance protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE01;translation=MKPKKKGSRLWSRILAAQALYQLSLNKSININLVKKNLLKDKEMKNSPDTRFFNRLVNETIKNKKILNSNIEKIVTKKKFLKFEILIKSILNLGACEILFFKNLSHKISISEYNKVSSSFLNKKEVGLINSILDKLSKNNNNG;locus_tag=LOCUS_3080;gene=nusB;note=Q9ZE01 N utilization substance protein B (Rickettsia prowazekii str. Madrid E) [pid:30.3%25%2C q_cov:98.6%25%2C s_cov:98.1%25%2C Eval:2.5e-13],MGA_317
sequence09	MetaGeneAnnotator	CDS	20781	21284	.	-	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIKIIYSMYYYKDVIKPMIDFLKKNKQFEFNYSEVAGSFEIPFEIARSIKEDVISNENVVSSFKGKGKENIRDNIVQMAKLSQLNLSNQCIYSGYLALGCIIKGKTVNHLAISNAIFTNLQRISIENIIPIGNGIFNANDKREALKKNIKCAEQAVNALHSLLK;locus_tag=LOCUS_3090;note=MGA_318
sequence10	MetaGeneAnnotator	CDS	718	1479	.	-	0	ID=MGA_321;product=tol-pal system protein YbgF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388851.1;translation=MYAPDDQSLVKEDKKKVSPKYQRRVNQLENNLTKMNGRFEEIFFRIDQLEEKINRINSDVDLRLSNKDNNTGGLPIGERDRSDEVDTIAYPKNTSNVDSTGGDTEILGTIKNQSKENEAIEIAKNFQSADSLYDYGKDSLRNLNYFNAEQAFKGFIKKFPNDLKMPDAYYWLGESLFVREMYPDAILAYGEVLKKYKKHNRASGSLLKIGLSFSYLDKKKESCDALQKIVKQYPDTEQDILKKTKYLINENKC;locus_tag=LOCUS_3100;note=WP_011388851.1 tol-pal system protein YbgF (Rhodospirillum rubrum ATCC 11170) [pid:27.5%25%2C q_cov:92.5%25%2C s_cov:86.0%25%2C Eval:7.1e-20],MGA_321
sequence10	MetaGeneAnnotator	CDS	1718	2194	.	-	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHRFRLFLVFIFSAFLFSCAAQKSGVEDVSTGLYEKGGMSYLDADGTVPAKIYFDYDSYLLDSIAEGTLDLQVTWMDQNPSKYILIEGHCDERGTREYNLALGERRANAVREYLASMGIAEDRLNIVSYGKERPDLEGSYDDAWTKNRRSVTTLDVDR;locus_tag=LOCUS_3110;note=WP_010932322.1 peptidoglycan-associated lipoprotein (Chlorobium tepidum TLS) [pid:51.9%25%2C q_cov:65.8%25%2C s_cov:61.2%25%2C Eval:5.2e-27%2C partial hit],MGA_322
sequence10	MetaGeneAnnotator	CDS	2268	3590	.	-	0	ID=MGA_323;product=protein TolB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RVF0;translation=MKYIYKIICLLFFFVFFYKISYAELKIDITSGYTEPTPIGINEFIGTNDEEKAVAKQISNLVIADLNNSGLFKVIDPKAYIQKITSPNVVPKFGDWRVINAQALIVGATTFAANGNIKIEFRLWDVFAEQQMAGWSFSTARSNWRQIAHRIADKVYERLTGEIGYFDTRIAYIAESGPSKKRIKRLAIMDQDGANHRFLTDGNNLVLTPRFSPSQQELTYLSYIGRIPRVYLLDIETGKQEIVGDFPGMTFAPRFSPFGEEVIMSLAAEGNSDIYTYNLKTNIRKQLTSYRGIDTSPSYSPNAKKIAFNSDRGGSPQLYVMTNKGKKIKRISFGKGHYSTPVWSPRGDYIAFTKFYNKTFYIGIMTPDGKGERVIAKGFLVEGPTWTPNGRMIAYTKKDYPVNKKEGKTRIFLIDVTGYHEKELITPLEASDPAWSPLLN;locus_tag=LOCUS_3120;gene=tolB;note=Q2RVF0 protein TolB (Rhodospirillum rubrum ATCC 11170) [pid:56.4%25%2C q_cov:94.8%25%2C s_cov:93.0%25%2C Eval:1.3e-141],MGA_323
sequence10	MetaGeneAnnotator	CDS	3612	4442	.	-	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFINNFIFVPLKKEVLEKKNYLLISVSLHLFIILLFYYGLPNLFRYRSEFLPPLPIEIVNISDKTVAPKINFKKTSDDNKNKTNYLNQENIKYDNQDLTNKQNLDAEEEVGDKVIKKKKIVKLKEIKKKPNQLQSVLKSIEQVKKDLSDKKEKNKKDVKKDEKATPTKLGLNLTISEIDAVRRHFEKCWNIPSGAREIGNLASEIKVRFNKDGNVVDARIVNISRMKRDNFYRTAAESALRAVLNPRCQNAPLPKDKFDKWKNLTLNFDPKSIIGY;locus_tag=LOCUS_3130;note=WP_011388848.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:30.7%25%2C q_cov:54.3%25%2C s_cov:47.2%25%2C Eval:6.7e-14%2C partial hit],MGA_324
sequence10	MetaGeneAnnotator	CDS	4443	4880	.	-	0	ID=MGA_325;product=protein TolR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011089889.1;translation=MQRLNNLKFSRILKRNKTISQINVTPMVDVMLVLLVIFMITAPLLTVGVPINLPKTKAKALPEDQKPLSITINKEEKIFVQDTEIDIEKLVPKLISISKNRSDKKIFIRADEVLSYGKVVEVMAVITSAGFNKIALVTDFETKKK;locus_tag=LOCUS_3140;gene=tolR;note=WP_011089889.1 protein TolR (Bradyrhizobium diazoefficiens USDA 110) [pid:51.9%25%2C q_cov:86.9%25%2C s_cov:86.6%25%2C Eval:1.9e-32],MGA_325
sequence10	MetaGeneAnnotator	CDS	4898	5590	.	-	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENQAVDAVNLVQNGTYDLSIFSLFLRADPIVKFVMIGLMTASIWSWAIIINKIKMIKKLKNVTQKFEDLFWSTSSLENLYTKTENKYDNPMISIFNKAMIEWLKLRNAKNKDKIEGRLNNVLVSSINNEISILEKNMIFLASLGSSAPFVGLFGTVWGIMNSFQAIGITKNTSLAVVAPGIAEALFATALGLIAAIPAVIAYNKISSVFDNYSIRLETFAQEFVNRVTK;locus_tag=LOCUS_3150;note=WP_011388846.1 Tol-Pal system subunit TolQ (Rhodospirillum rubrum ATCC 11170) [pid:51.7%25%2C q_cov:89.6%25%2C s_cov:68.5%25%2C Eval:1.2e-52%2C partial hit],MGA_326
sequence10	MetaGeneAnnotator	CDS	5643	6305	.	-	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011087299.1;translation=MSGFFFLILIVVYKFKQPDIKDNFNKIQFTYLGIDPGVNGAVAFYEIETKKLEIFDMPTIKIEVGKKKRKQIDSQELVKKIKNLKKIDCVIIEKVNAYPQQGVVSVFNFGYSYGLIIGILTSLSIPINYVLPKKWKEDIDLETKKISKKRPLTNKTDFKNWDKIRSKSKIKNKEFSRIRAMKEFPKYKDYFLRKKDDGRAEAALIALWGVKKNNPQENKN;locus_tag=LOCUS_3160;note=WP_011087299.1 hypothetical protein (Bradyrhizobium diazoefficiens USDA 110) [pid:34.3%25%2C q_cov:81.8%25%2C s_cov:91.1%25%2C Eval:7.3e-20],MGA_327
sequence10	MetaGeneAnnotator	CDS	6347	7093	.	-	0	ID=MGA_328;product=putative transcriptional regulatory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8U9K1;translation=MAGHSKFKNIMFRKGAQDKKRAKLFAKLGREIQIASKTGGPDFNSNHRLRTAIDAAKAANVPKDNIERAVKKGSDNEINNLEEIKYEGFGPGGTSIIVETMTDNKNRTISEIRQIFSKNGGSIAENGSVSHSFKRKGELVYKADKNLENKIFDLAIEEGADDIINDDENHVIYCKPELINKIKEKISTLSIEPLSVALTWLSSNKISIEGEEAKKLFHLIDQLEDNEDVQSISSNYDVPDDFLNEINN;locus_tag=LOCUS_3170;note=Q8U9K1 putative transcriptional regulatory protein (Agrobacterium fabrum str. C58) [pid:49.0%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:2.6e-67],MGA_328
sequence10	MetaGeneAnnotator	CDS	7109	7912	.	-	0	ID=MGA_329;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011338394.1;translation=MKLLFFGDIFGRSGRDALIKNLPSLKEKFKPDFILANGENASHGKGISQQICNDLFSAGIDIITGGNHIFDNRDVFNFIDQENRLLRPCNYPIDTPGKGFEIYEKNQKKILVINVMGRVFMQPLDDPFESIKKIINDQNIVKNISVIIIDVHCEATSEKMAVGHEFDGKVSLIVGTHTHVPTSDARILENGTAYITDLGMCGDYNSIIGMEKEKSLQRFKKKIPIKGINPATGDASLAFVFVEIDDKTGLAISIKQIITGGILQEIL;locus_tag=LOCUS_3180;note=WP_011338394.1 metallophosphoesterase (Rhodobacter sphaeroides 2.4.1) [pid:49.2%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:2.7e-73],MGA_329
sequence10	MetaGeneAnnotator	CDS	7909	8256	.	-	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVLRIKINGRYYDITCDKNKESYVLELAKFFDSKVKGLSHKLKNVDHSRLLVLTGILLSEEINNILKNKSKEDNPYGKNYKNELESLKNKQEESKNILKTKIDKLISRIQTISK;locus_tag=LOCUS_3190;note=MGA_330
sequence10	MetaGeneAnnotator	CDS	8352	10361	.	+	0	ID=MGA_331;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9CFK9;translation=MRTKKKLNIKKLKLMSNAIRALSMDAVEKANSGHPGMPLGMADVATILFKYFLNFNPENPFWHDRDRFVLSAGHGSMLLYSLLYLTGYKKITLKEIKRFRQLKSKTPGHPELDLNSGIETTTGPLGQGLANSVGMAIAEKHLSSKFGKNLINHFTYCIAGDGCLMEGITHESISLAGHLNLKKLIVLFDDNKISIDGPTNLSTSENHLDRFKACNWNVQKINGHNFQQIYNAIERAKKSNKPSLIACNTIIGYGSPNKQGKNSSHGAPLGENELNETKKNLKWNYPAFFVPQQIQNQWKKTGQRGRNLNKKWNLNFKKINSKKKNTFNNYFRKKISKKTFIDLKKLKKDFINSNDEIATRKASNLVIEILSKNIPFLFGGAADLTESNLTKSNYQKVFNKKNSDGTYIYYGIREHAMVACMTGISLHGGMIPYGGSFLIFTDYCKPSIRLASFMKKKVIYIMTHDSIGLGEDGPTHQPIEQIAGLRAIPNLNVLRPADPVETLESWEIALKEKSPTLISLTRQNVPNLRKKNSSINFTNQGAYIISETKKNLRDITILATGSELSIAVEAKKILEKKNLNVTVVSMPSWELFEKKNIEYKNKILGPIQKRIAIEAASTFGWTNYVKSNKYIIGINSFGASAPHKDLYRNFGLTANKLVNLAMKIYKKKL;locus_tag=LOCUS_3200;gene=tktA;EC_number=2.2.1.1;note=A9CFK9 transketolase (Agrobacterium fabrum str. C58) [pid:51.3%25%2C q_cov:96.3%25%2C s_cov:97.4%25%2C Eval:7.3e-195],MGA_331
sequence10	MetaGeneAnnotator	CDS	10358	11368	.	+	0	ID=MGA_332;product=type I glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011084339.1;translation=MINIAINGFGRIGRLFLRALSESKNSKNIKVKIINDLADVESNIHLFKYDSIHGQFKKKIKENKNSFNFGNGEIKFISESNPLKLPWKKNNIDIIIECTGFLTKKKEASKHLKAGAKKVIISAPSDDPDITVVYGVNHSDIKKTDKIISNASCTTNCLAPIANILNNTIGIINGHMTTIHSYTGDQKIIDTFHKSDLRRARAANSSLIPTKTGAAKAIGLVIPSLNGKLDGTAIRVPTPNVSLIDFVFNSKKNTSENEINNICITHSKKELKNILSIINEDLVSIDFNHSPFSSNFDLTQTKVINKNLCRVVSWYDNEWGVANRLIDLTNYISKYV;locus_tag=LOCUS_3210;gene=gapA;note=WP_011084339.1 type I glyceraldehyde-3-phosphate dehydrogenase (Bradyrhizobium diazoefficiens USDA 110) [pid:54.3%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:1.5e-98],MGA_332
sequence10	MetaGeneAnnotator	CDS	11368	11769	.	+	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTIIIYNFKQICDVMKAASKTKKKICIASPYSAASYMGPFFFKELVKTAEKLFPKVNYFELLNCSNDVGLALKAIECDIKNIEIECNQNISKKIKNICKKKGIGVNNIDKKELDLKNKTNVYEECLKWLNN;locus_tag=LOCUS_3220;note=MGA_333
sequence10	MetaGeneAnnotator	CDS	11773	12792	.	+	0	ID=MGA_334;product=fructose-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9CFL1;translation=MENLENIAKKIVDIGKGILAADESTNTIKKRFDTINIESNEKSRCNYRDTLFSCNGIEKYISGVILFEETFFQKDQNNKSLKEKLENINCFPGIKIDQGLEPINSDSTETFTKGIETLDKRLKPFYENGAKFTKWRAVIHIGKDMPSTECLKKNSNLLAKYSQISQKNNLVPIVEPEVIMEGTHNLEKCYEVTKNTLNEVFDSLSKEKVNLNGILLKPNMIVPGKNSDEKLDIKKSAQKTFECLKEIVPKNVPGIVFLSGGLSSVNATMMLNEINNFDNSPWKLSFSYGRALQEDALKTWAGKNENKIDAQKIFLHRAKMNSLASCGKWNEKYEKDLHD;locus_tag=LOCUS_3230;EC_number=4.1.2.13;note=A9CFL1 fructose-bisphosphate aldolase (Agrobacterium fabrum str. C58) [pid:50.6%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:7.3e-88],MGA_334
sequence10	MetaGeneAnnotator	CDS	12801	13142	.	+	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDLNINKKYLYLITPTSILANNKKFKNFLFLLNKVLKTKKIKFLQLRLKNKRNDRILKSLKKISFICKKYKVLIFINDYVNNEILNFCDGVHLGQNDITKKKIILLIKKKNF;locus_tag=LOCUS_3240;note=MGA_335
sequence10	MetaGeneAnnotator	CDS	13201	13377	.	-	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKLKSAFNNLLILFKLMPPTTAHGRLNFFLNQLIFFNDALYTFFFVLVLKKEPKEI;locus_tag=LOCUS_3250;note=MGA_336
sequence10	MetaGeneAnnotator	CDS	13455	13610	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISANEIKVGNVLEFENKLWKVLKVEHTKPGKGGAYVQVELKDINLGTKK;locus_tag=LOCUS_3260;note=Q9ZDT7 elongation factor P (Rickettsia prowazekii str. Madrid E) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:27.7%25%2C Eval:1.5e-12%2C partial hit],frameshifted%2C insertion/deletion at around 13601%2C13604,MGA_337
sequence10	MetaGeneAnnotator	CDS	13594	14019	.	+	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQKNERFRSDENINKAHLEQKPFQFLYSSDEEFFFMNKIDFEQISINKNKILENIIPYLKDGINVNIELKENEPINIILPETIILTIKEAEAVVKGQTAASGLKPAILNNGIKIMVPLHIEENTKIVVKTADNSYVEKVK;locus_tag=LOCUS_3270;note=E8TMY9 elongation factor P (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:44.4%25%2C q_cov:95.7%25%2C s_cov:71.3%25%2C Eval:4.9e-27%2C partial hit],frameshifted%2C insertion/deletion at around 13604,MGA_338
sequence10	MetaGeneAnnotator	CDS	14019	14813	.	+	0	ID=MGA_339;product=inositol monophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002719321.1;translation=MALKTPIINIMTKAAYEAGRNLIKDFREVENLQVSKKGVGDFVTSADLKSEEIIVKILKKAYPDITIISEEMTKNIDLEKDEKKWIIDPLDGTLNFLHGLPHFAISIALMIKKEIISGIVFDPIKDELFWAEKGLGSYLNDARIRVSARNNLSDALVSTGIPWKGMENTHQNYLKTLELIMKNSSGIRRYGAASLDLAYVATGRYDAFWEFNLKSWDVAAGSLLVKEAGGFVGNIKKNENYLSTGNIYACNYNLIDEFKSKFIT;locus_tag=LOCUS_3280;gene=suhB;EC_number=3.1.3.25;note=WP_002719321.1 inositol monophosphatase (Rhodobacter sphaeroides 2.4.1) [pid:50.0%25%2C q_cov:95.5%25%2C s_cov:95.4%25%2C Eval:1.3e-67],MGA_339
sequence10	MetaGeneAnnotator	CDS	14816	15457	.	+	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIIKQTNLFFFILVFSLLETNAIEIDPVEIGKPYKKDIETNLSIIENLRNPFEKNEIKINKDIRTKKTKEKEIINNKNIILKKNDKKNEIQNIKKEKEIKFARIKEENSIFEKKVQINFDTNSTNVSDIEISKIKDFVNQQKDKNNLNYKITSYSKTNKNENYSRRLSLDRAINIRTILIKEGISAKNLIVKSFGDSKKKVDKAIIEFEKK;locus_tag=LOCUS_3290;note=MGA_340
sequence10	MetaGeneAnnotator	CDS	15479	15757	.	+	0	ID=MGA_341;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89UB0;translation=MKKKIHPDYHEIEVVMTDGTKFKTKSTWGKKGDVLNLDIDPKSHPAWSGGERKIVDTQGQISKFAQKYKTYKKNTPNEVKDNNQSKSKKENK;locus_tag=LOCUS_3300;gene=rpmE;note=Q89UB0 50S ribosomal protein L31 (Bradyrhizobium diazoefficiens USDA 110) [pid:63.0%25%2C q_cov:79.3%25%2C s_cov:97.3%25%2C Eval:2.9e-24],MGA_341
sequence10	MetaGeneAnnotator	CDS	15764	16741	.	+	0	ID=MGA_342;product=NAD(P)H quinone oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971175.1;translation=MKVVEIKKYGGPEVLYIGNRPIPKIRVNEILIKVKAAGVNRPDILQREGGYPPPKDASDILGLEVSGEIVEIGKKVKNMKKGDKVCALVSGGGYSEYCVAPYTQCLPIPKNLSFEEAAGIPETFFTIWFNLFIKNKIKKKQNILIHGGSSGIGTTAIQFAKNFGLTVFTTIINYLKKKKCHKIGAHFAINSKKNDFEKFVKKKTNNKGVDFVLDIVGKDYLQKNINILKRNGTLINLGWLTGSIVKVNLLMIMLKRLIITGSTLRVGSLEEKEIIASELKKKIWPLIEKKKIKHIIFKIFPIDKVKDAHIFMDKGTHFGKIILTI;locus_tag=LOCUS_3310;gene=qor;note=WP_010971175.1 NAD(P)H quinone oxidoreductase (Agrobacterium fabrum str. C58) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:3.7e-81],MGA_342
sequence10	MetaGeneAnnotator	CDS	16784	17365	.	+	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388810.1;translation=MAKILMPKATAVWLLENTSLTFKQISEFCELHILEIESMANGEVVGKMPGINPINSKILTNEQIQKCEKNPKSRLKIHKTELPKPKKIAKGAKYTPIAKRQERPGAIKWLLKEYPSITDNEICRLIRTTKNTVYSIRNKEHWNYENIIAKDPLKLGFCNEKDMLKIIEKYKDKEEITNDSENELNDNKNTDEV;locus_tag=LOCUS_3320;note=WP_011388810.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:47.3%25%2C q_cov:86.5%25%2C s_cov:81.1%25%2C Eval:2.5e-44],MGA_343
sequence10	MetaGeneAnnotator	CDS	17374	17856	.	+	0	ID=MGA_344;product=N5-carboxyaminoimidazole ribonucleotide mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SKX9;translation=MENIKVAIIMGSESDADEMKPASDVLNELGIKNESRAISAHRTPDRLREYITDAEKNGVKIFIGGAGMAAALPGVIAAHTHLPVLGVPIESKSLKGMDSLLSIVQMPPGIPVGTLAIGSAGAKNAGLFAAAILAVSDKEIEKKLKDFRKKQSDKVRKDPL;locus_tag=LOCUS_3330;gene=purE;EC_number=5.4.99.18;note=Q5SKX9 N5-carboxyaminoimidazole ribonucleotide mutase (Thermus thermophilus HB8) [pid:55.2%25%2C q_cov:96.2%25%2C s_cov:93.9%25%2C Eval:6.6e-41],MGA_344
sequence10	MetaGeneAnnotator	CDS	17851	18093	.	-	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYKTVDYIWKLIGDKSTDYNFYTKRAILASIYSFATVVWISDKSNNLDKTFNFLEKSIMNMNIVTNIKEKLKKTLNQIL;locus_tag=LOCUS_3340;note=WP_011388800.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:37.7%25%2C q_cov:96.2%25%2C s_cov:34.4%25%2C Eval:4.9e-11%2C partial hit],frameshifted%2C insertion/deletion at around 18125,MGA_345
sequence10	MetaGeneAnnotator	CDS	18090	18449	.	-	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNVKKNRFLKEFLTISSKKGWNLDVYKETIKKLKYNPNDLDKLFPAKIDDLILYYNFIINEKLSNNFKKKKFNKKSVRLCILNAVKIRFELLNSNKESIKKSLIFFLIHQNKYYLVN;locus_tag=LOCUS_3350;note=MGA_346
sequence10	MetaGeneAnnotator	CDS	18727	20064	.	-	0	ID=MGA_347;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390042.1;translation=MTDILDKNKFSKRANRYIQLTGQVGSLLTRLGANKFLGMEIDKKKHALNLKQDLGNIKGPFMKIAQLLSMIPDALPIEYSNELMQLQTNAPSMGDSFVKRRMANELGVDWNKKFSSFNTSASFAASLGQVHKAKLKKGDTVACKLQYPDMQSAVNVDLNQFEIILNLFEKYNKAIKTKKIYLEIKDRLIEEINYKNEIRNIDIFYKIFKKTDFVNVPKTYKELSSDKLITMSWLDGSSIKDLIKSSTINKNFREKIATNIFNVWYKPFYKYCMIHGDPHFGNYSFKKNGDVNLFDFGCVRFFPTNFVKGVLDLYYALEKKDEDLAIEAYKVWGFKKINKNIIKILNLWASYIYGPLLEDKKRFIQGDKQKGYGFDIANNVYKELRKIGGIEPPKEFVFMDRAAIGMGSLFMKLDVKINWCRLFRELIKDFDQKKILVERKKLMKY;locus_tag=LOCUS_3360;note=WP_011390042.1 ABC transporter ATP-binding protein (Rhodospirillum rubrum ATCC 11170) [pid:46.3%25%2C q_cov:95.7%25%2C s_cov:94.0%25%2C Eval:1.7e-109],MGA_347
sequence10	MetaGeneAnnotator	CDS	20136	21122	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNITNFNWKTLPEMFFKESEKQLDKPLLWFKKNNEYEYYTWKNVKNKINLLSNKLIKLGLKKGDKVVIVSENNPNWFISDFSIMLAGGVTVPSYTTYTKKDYEYLFNDCKAKMIFISNKQLFLNCLPAIKKNKTIKQIISFEKISKEINEKIISLNDLWKEKLENINIKAKINENDPACIIYTSGTSGLPKGVILTHKSIKSNLIGSLDIFENINFYNEKYISFLPLSHSYEHTAGQFLPLLTSSQIYYAENLDKLFANIKEVNPTYIAAVPRLYDAIYKKIINNFSKKKLLKKLFEINLNLGKKIYLNQKKRLIFTKIIKFFFKI;locus_tag=LOCUS_3370;note=WP_010932828.1 AMP-dependent synthetase (Chlorobium tepidum TLS) [pid:31.7%25%2C q_cov:93.0%25%2C s_cov:48.1%25%2C Eval:8.9e-35%2C partial hit],internal stop codon at [21120:21122](+),MGA_348
sequence11	MetaGeneAnnotator	CDS	211	480	.	-	0	ID=MGA_351;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RMR7;translation=MLENNLTKDKIISEYQKKAKDTGSSEVQIALLTNRINLLTEHFKKNKKDNHSREGMIKLISKRRRLILYLKNKDYKRYEEIIKKLNLRK;locus_tag=LOCUS_3380;gene=rpsO;note=Q2RMR7 30S ribosomal protein S15 (Rhodospirillum rubrum ATCC 11170) [pid:57.3%25%2C q_cov:92.1%25%2C s_cov:92.1%25%2C Eval:1.0e-21],MGA_351
sequence11	MetaGeneAnnotator	CDS	467	1210	.	-	0	ID=MGA_352;product=tRNA pseudouridine synthase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:F9Y6P8;translation=MNLQKNNLDGWLIIDKDEGISSRHVVNIVKKTLKVKKIGHAGTLDPLASGVLALALGKATKSVKYIMNGTKKYNFTIRWCISTDTEDAEGKIISKSDKIPNEKEINRVIKSFVGYIMQVPPKFSAVKINGKRAYSLARKGEKFVIQPRQVILKKINIIKNNKESKNLTKFQIECGKGFYVRSLVRDICKKLGADGHVIRLKRIVSEPFELKESISIEKFLKLYKKNDWQNFFLPIYSVLNKIKYVGK;locus_tag=LOCUS_3390;gene=truB;EC_number=5.4.99.25;note=F9Y6P8 tRNA pseudouridine synthase B (Ketogulonicigenium vulgare WSH-001) [pid:41.0%25%2C q_cov:96.8%25%2C s_cov:78.2%25%2C Eval:1.2e-48],MGA_352
sequence11	MetaGeneAnnotator	CDS	1213	1575	.	-	0	ID=MGA_353;product=ribosome-binding factor A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2Y9;translation=MKKIKSQRQLKINQQLKHLISEIITMGDFRNKKIREISLTVTEVDISPNLKTANIFVISRDGKKNFLKFLNEETYLFKREIAKKLYLRFVPELFFKYDSTFEYANKIEKILKEPKVAKDL;locus_tag=LOCUS_3400;gene=rbfA;note=B8E2Y9 ribosome-binding factor A (Dictyoglomus turgidum DSM 6724) [pid:34.8%25%2C q_cov:89.2%25%2C s_cov:85.0%25%2C Eval:1.7e-08],MGA_353
sequence11	MetaGeneAnnotator	CDS	1597	3525	.	-	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIEETIEKKVNESNKPRKKLTINKKFVSNFKKKIALNKKKIVENKLSESDNKKKIIQVVKIPEIISVQELAKRMAEKSSEVIKTLMKNGIMATINQNIDADTAEIIAQEFGHNVKRVDDNELDINLGNEIDKEDDLVERAPIVTIMGHVDHGKTTLLDAFRSSSIATKEHGGITQHIGAYRIKTKSDKFITFFDTPGHEAFTAMRSRGAKVTDIVVLVVAADDGVKETTIEAINHAKAAEVPIIVCINKIDLNESNPQNVKNQLMEHEIISEEMGGKNLFVEVSAKEKKNLDKLEETILLQAEILNLKSNPSKKASGIIVESKIQQGKGSTATILIQKGSLKVGDLFVAGPSYGKVRAMNDDLGKKIIIAKPSVPVEIMGITGNPIAGDDFTVVDNEAKAKEIANNRLQRSKIRETEPLTKENLEKKLSDKSNEKIKELGLIIKSDVQGSLEAIINGINKYENDEIKIKIIHKGVGEINQSDVALAVASESEVITVGFNVKPNTLARDLAKRDKIEIKFFTVIYELLDYIKDSMSGLLVPDKKEVLNGKAKIKEIFKMSKVGKIAGCEVIEGKIDKKSNIRLLRDNKLIYDGKLNSLKKFKEEAAEVKEGSECGMVLENFQDIKQNDILESYIIEEQKRSL;locus_tag=LOCUS_3410;note=Q2RMS0 translation initiation factor IF-2 (Rhodospirillum rubrum ATCC 11170) [pid:51.0%25%2C q_cov:93.8%25%2C s_cov:69.5%25%2C Eval:7.0e-179%2C partial hit],MGA_354
sequence11	MetaGeneAnnotator	CDS	3653	5155	.	-	0	ID=MGA_355;product=transcription termination/antitermination protein NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RMS2;translation=MLLENIELVQTAENIAEEKGIEKELVFQAIEKAISKAGKVKYGNDYDIRGNIDRKTGKISLARYLEVKKDVEDNLIEISLKDAKKKQKGIKIGEFIIEKLPDIDIGRISAQIAKQVLVQNIKEAESSKNYELYKDKVGESISGLVKRMEFGNIVIDLGNAEGVIKKDEIIPRENLRRGDRVKSYLYNVSQDTKGPQIFLSRTHPQFLANLFVQEVPEIGDGIIEIKSVARDPGSRAKIAVFSSDKTIDPVGACVGMRGSRVQAVVTELQGEKIDIVTWSEDKATYIVNALAPAQISKVIFEEDSDKIKVIIPEDQLSLAIGRKGQNVRLASILTNCEIDIIDEKDEKNKRNEDIKKLSEIFMKELDVDEVIAHLLATEGFTSINDIAESNDTDFKAIEGFDENLIKDIKERAKQTLVKEKVELEKKKEELNISDDIQKIKKFSIYDLIKLGENKIKTLDDLADLSSDELLDLLDTKNIKKVDADEIIMKSRESWFKKDKK;locus_tag=LOCUS_3420;gene=nusA;note=Q2RMS2 transcription termination/antitermination protein NusA (Rhodospirillum rubrum ATCC 11170) [pid:52.4%25%2C q_cov:97.8%25%2C s_cov:94.4%25%2C Eval:7.8e-151],MGA_355
sequence11	MetaGeneAnnotator	CDS	5250	5915	.	-	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKKNLKHFFYKKKSRRKLSQKQKRLLEINLKKFIFKKRINSKKKIFLEIGFGYGDNLIFLAKKNLNKLILGCEVYEPGIANLLNKIDIEKIKNILIYPENIFSLFKKIKNSSIDKIFILFPDPWPKKRHFKRRLISPLFLNEINKILKKESIVFIATDSKSYLKQILENFLFNNSFFWLNKTVNDCYIKPNYLNKSKYEKKANLNKKKIFYLKFKKIC;locus_tag=LOCUS_3430;note=Q9ZCB3 bifunctional methyltransferase (Rickettsia prowazekii str. Madrid E) [pid:35.6%25%2C q_cov:83.3%25%2C s_cov:35.7%25%2C Eval:5.3e-26%2C partial hit],MGA_356
sequence11	MetaGeneAnnotator	CDS	5902	7071	.	-	0	ID=MGA_357;product=S-adenosylmethionine synthase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RMS5;translation=MKEYIFTSESVSEGHPDKICDIISDNIVDFFLSKDPNARVAAETMVTTDKVIISGEVSSPNVFKDNLIEDLVRKTIKEIGYEQKGFNWENVKIENNLHQQSEDIALGVDKKSEKDQGAGDQGIMFGYACQETDELMPAPIYYSHLILRSLAKARHDGKEKMLLPDSKSQVSLKYKDGKPYKTSAIVVSTQHDPSLNQKDIKEIVRPYVINSLPKNWMCDEDNFYVNPTGRFVIGGPVGDCGLTGRKIIVDTYGGAAPHGGGAFSGKDPSKVDRSGAYAARYLAKNIVAAKLANKCTIQLSYAIGVAKPISIYINTHGESKIEGFEISNKISQIMDLSPYGIKEKLDLNKPIYSKTAAYGHFGRKPGNDGSFSWEKTDLVESLIKIFGKN;locus_tag=LOCUS_3440;gene=metK2;EC_number=2.5.1.6;note=Q2RMS5 S-adenosylmethionine synthase 2 (Rhodospirillum rubrum ATCC 11170) [pid:63.9%25%2C q_cov:99.0%25%2C s_cov:98.7%25%2C Eval:5.8e-148],MGA_357
sequence11	MetaGeneAnnotator	CDS	7082	8638	.	-	0	ID=MGA_358;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDG3;translation=MENFFNLKFSFKKKYDYYFSFFFGILLVLCLPPFNFNFLLFPTLTFLFLKSYNADSNKKAFFIGLYFGLSFFLFGLYWIFNSFLIRGEIYIYYIPFFLIILSSFLSLFIGIITFLNYKFKTNLYFNIFFFSIFWTFSEIIRGYIFTGFPWNLVAHTLSNFENLIQISSVFGVYGLSFFTVLFILFISIFFVNLKDKKVIFLFSGLFIFLFVYIFGHVRLKNSDLEEYSNNIFRIIQPNISQKDKLNYNKIQNNYKKMVDLSFNNKMGSLNESENLIILWPETAILSLDHINSYPIFNKIKKNLKNNELILSGIFKNKNEEMFFNSIIAIDNNLETNFLYDKIHLVPFGEYIPFTNYLKKFNLSFNNLQQGSYLQNIVKYKNLPSFKPLICYEVIFPGKFKKNNNEIFIINFTNDAWFGNTIGPHQHVVNSIFRAIEEGKQLIRVANTGISVSVDPYGKILNKLELNTIGYFDTKIFIAKKKKIRIETIYSNYKNNLIILLLIILFFLFSILKYKNLKI;locus_tag=LOCUS_3450;gene=lnt;EC_number=2.3.1.-;note=Q9ZDG3 apolipoprotein N-acyltransferase (Rickettsia prowazekii str. Madrid E) [pid:34.1%25%2C q_cov:87.6%25%2C s_cov:89.3%25%2C Eval:2.7e-53],MGA_358
sequence11	MetaGeneAnnotator	CDS	8657	9319	.	-	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPRTDIISVDSNLNILKLVKIIGRTSHSRYPVFEKNRDNIIGMVHIKDVISCWNNKKINNIQKLVRNILFAPHSMSVLDLLLKMRTSHIHMAIIVDEHGGVDGLVTIEDLVEEIVGEIKDEHEAQKEIKGKKESILNDGSIKINARMLIKEFEDKYGKIFSSNQDLSGIDTMGGLVFHLFGRVPLKGEVIKHSNGCEFEILDVDSRKIRTILIKNHIVK;locus_tag=LOCUS_3460;note=WP_011391520.1 hemolysin C (Rhodospirillum rubrum ATCC 11170) [pid:44.2%25%2C q_cov:97.7%25%2C s_cov:66.0%25%2C Eval:1.7e-48%2C partial hit],MGA_359
sequence11	MetaGeneAnnotator	CDS	9799	9999	.	-	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISSHKINIFFDNKNWLDKKVFKSKKDLINFINKISIHTLNDHFKNDKIKINFILTNDKLLKKLNT;locus_tag=LOCUS_3470;note=MGA_360
sequence11	MetaGeneAnnotator	CDS	9996	10556	.	-	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFSIGPAGTGKTFLAVSHAVSMFVSGLVDKIIISRPAVEAGEKLGFLPGDLKEKIDPYLRPIYDALDEVLSKEKVIKLIDNQKIEIAPIAYLRGRTLNNSYIILDEAQNTSSVQMKMFLTRLGENSKMVITGDLTQIDLPLKNNSGLKDAANILKNLNDVSFVYLTDKDVVRHPIVKKIIKAYDK;locus_tag=LOCUS_3480;note=WP_011339444.1 phosphate starvation protein PhoH (Rhodobacter sphaeroides 2.4.1) [pid:62.7%25%2C q_cov:99.5%25%2C s_cov:53.5%25%2C Eval:9.7e-67%2C partial hit],MGA_361
sequence11	MetaGeneAnnotator	CDS	10564	10935	.	-	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNIEKNKIQFEDNNILRVMLGTFHKNIEIIEKKLNVNLNSRGNIILINGNKDKIILTKNTLNELYERAKISEIIEKKDIELIIDNMIKNKNNNLLKQSIKTPKKKNLAKNKWTIKTFKRNF;locus_tag=LOCUS_3490;note=MGA_362
sequence11	MetaGeneAnnotator	CDS	10952	12292	.	-	0	ID=MGA_363;product=tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE8;translation=MKFKKFNIKTFGCQMNVYDSNKIGDILLNLGLKKTLLIEDSDIDIINTCHIRDKAKQKLYSELGKLYKLKKNRLKKNKKTLIVVTGCVAQAEGKEIFKRAPFVNIVLGSQSYQKLSYLIEKEFKNNNKFIELDFDPKSKFDNLPQINFENKVSSYLTIQEGCNKFCKFCVVPYTRGPEYSRPVEEILNEAQNLVINGTKEIILLGQNVNAYHGKTIDNKEYNLGKLIYNLEKIEGLERIRYMTAHPKDMHTDLYNAHKNVKKLMPFLHLPIQSGSDKILKSMNRNYNAKDYLKIISKVKKARSDIVFSSDFIVGYPGETKKDFQKTLEIIDEVKYVQSFSFIYSPRPGTSAYKLKDLTSDKEKKERLNILQNKLKYYQEKFNKNFIRKKLSVLFNNSSLKKTNQNLGYSQYMQLVRINNEKNLHGRIEEIKIKKSFYKSLEANLII;locus_tag=LOCUS_3500;gene=miaB;EC_number=2.8.4.3;note=Q9ZCE8 tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase (Rickettsia prowazekii str. Madrid E) [pid:49.8%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:5.4e-116],MGA_363
sequence11	MetaGeneAnnotator	CDS	12289	13050	.	-	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLFFRFISFLLITLILLPFQIIIKIFIKKYSYLIPFYFHKICRRVFGIKIKVFGSISINNPKLSISNHASYLDIMILGSLFKTSFVAKKEVAYWPLIGILAKLQNTIFIDRKISSLKEQEKKIIKHLKEKKNLVIFPEGTSSDGNKILPFKSSLFNIFEENFNSKIIIQTITIVYKKVNNKLINHSEREKITWHSDMSLLKSVLNVLSKKNIEVEVFFNKEFVPKDLNRKKISLLCWQKINYNLNRSLLKK;locus_tag=LOCUS_3510;note=WP_011391516.1 1-acyl-sn-glycerol-3-phosphate acyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:35.2%25%2C q_cov:82.2%25%2C s_cov:66.5%25%2C Eval:1.1e-31%2C partial hit],MGA_364
sequence11	MetaGeneAnnotator	CDS	13060	13314	.	-	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYYQKKDLDNNEIFRSLPPLIKGYLRLGVYIGNGAFIDKQFNTIDVCIILESNILKKRYKNLLKDKETTSKVIFFKNFLKRKK;locus_tag=LOCUS_3520;note=WP_011391515.1 ornithine-acyl ACP N-acyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:41.7%25%2C q_cov:71.4%25%2C s_cov:22.6%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [13387:13389](-)%2C[13417:13419](-),MGA_365
sequence11	MetaGeneAnnotator	CDS	13417	14067	.	-	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRININLRNKYKQARKRRICLKPQNKFKKPKKKLDWFINPVGSIKNLLANSYILDRRRIKKKLKSVKYKSYEVRLAKNFKDIDAAQNLRYKVFYEELNAKPTIKNILYEKDFDELDPFCDHLLVIDHNKGKGRDSIIGTYRLIRRPMTQVHGKFYTEGEFNMEKLLKKKSEVLELGRSCVHKDYRDKPIIRLLWKAISAYMEHYKIKILFGCASFP;locus_tag=LOCUS_3530;note=WP_011391515.1 ornithine-acyl ACP N-acyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:44.1%25%2C q_cov:66.2%25%2C s_cov:53.8%25%2C Eval:4.7e-32%2C partial hit],internal stop codon at [13387:13389](-)%2C[13417:13419](-),MGA_366
sequence11	MetaGeneAnnotator	CDS	14075	14518	.	-	0	ID=MGA_367;product=transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002719651.1;translation=MEKNITHLDIINLCKNKGFKMTPQRVVIAAVINDSKDHPDVELIYKRANKKDKKISLATVYRTVKLFEDANAVIKHEFKYGDEKARYEPATKWEHNHLIDIVSGNVSEFQNPGFKKLSTKIADKMGYKLVGYKLEIFAVKEACKKIK;locus_tag=LOCUS_3540;gene=fur;note=WP_002719651.1 transcriptional repressor (Rhodobacter sphaeroides 2.4.1) [pid:51.6%25%2C q_cov:87.1%25%2C s_cov:92.0%25%2C Eval:8.3e-31],MGA_367
sequence11	MetaGeneAnnotator	CDS	14578	14796	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINLRKYNCPISFVKAKIILDELKKNEKVLLILNNEKDTNILIKTIKEEGYKIINLVTKKKFFEIEILKK;locus_tag=LOCUS_3550;note=MGA_368
sequence11	MetaGeneAnnotator	CDS	14798	15445	.	-	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILVLDTSSEKFSLLIVKNNKIILNYSKILKRTYSKNLIPIIKKYLNKNKLQINKINSIFISLGPGSFTGIRIGIAAVKGISLPHKINVYGFSNMEILVNSIRKDLKKKVVIILKSKKEDYYYQIFNSNKKPLKKISFFSLNDLPNFLFNKNFYLFGDLDKRLLSEIKKRRKMEIIEEKNLNTFLLFKQLKSKLLINKIKLLQPLYVYDHYAKK;locus_tag=LOCUS_3560;note=WP_001832485.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Staphylococcus epidermidis ATCC 12228) [pid:27.6%25%2C q_cov:59.1%25%2C s_cov:57.3%25%2C Eval:2.4e-12%2C partial hit],MGA_369
sequence11	MetaGeneAnnotator	CDS	15505	16056	.	+	0	ID=MGA_370;product=D-alanyl-D-alanine dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RMT9;translation=MNLIKITKKIYPVEIETLYATKNNFTGKKIYKRNDCYLHKDTIPFFEKSIKLAEKLNLKLKIFDAFRPAEAQWKLWQHTPDENFIAHPKKGSPHSRGVAIDLTLIKKNNTELNMGTKFDNFSTKSYHGNNLISKDAQKNRYILLGIMMSAGWDFFKNEWWHYQLFNSKKYKLLKNNILKKPLM;locus_tag=LOCUS_3570;gene=ddpX;EC_number=3.4.13.22;note=Q2RMT9 D-alanyl-D-alanine dipeptidase (Rhodospirillum rubrum ATCC 11170) [pid:51.2%25%2C q_cov:88.0%25%2C s_cov:85.3%25%2C Eval:1.7e-47],MGA_370
sequence11	MetaGeneAnnotator	CDS	16059	17075	.	+	0	ID=MGA_371;product=polysaccharide deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011074212.1;translation=MKRRIIIYLILSFNIIFCLNPKLFSKEITASIFMYHRFGENKYPSTNIKMQQFKNHINELKKNNYNVLPIPEILDALINDKILPKKTIGITIDDAFLSIYKKAYPILKKNNFPFTVFVSTDSVNSNSSIYMNWKKINEMVNSNLTVSIGNHTASHDHLVEKTDAEIMSEILKSNKNFLKNLGYEPDFFAYPYGEYDLKTKNIIKKNFKAAFGQQSGSLYKGIDLYELPRYALNEQYGNLKRFKFAANSHGLKLKDVIPENKVINDTNPPLLGFTLIENIDNSINCYPSHGIKAELIKIGNKRLEVRFDSKFPKGRTRINCTVNDNNIWRWTGFQFVNP;locus_tag=LOCUS_3580;EC_number=3.5.1.-;note=WP_011074212.1 polysaccharide deacetylase (Shewanella oneidensis MR-1) [pid:28.0%25%2C q_cov:90.8%25%2C s_cov:91.4%25%2C Eval:1.5e-32],MGA_371
sequence11	MetaGeneAnnotator	CDS	17072	17914	.	-	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFNKYHKSYIFILGFSLFFIFSLVYVESIAKKNEGKNLPEYQTKRFIQTQSYNFKKNTSLKNVKKNISITEKKTNFIKSIFPIIKESNSTILEQRKILFNIEKKIKNNNLNVLEAAILKKLFKEYKIKNNDISELKKRIDIVPISLAIAQAAIESGWGTSRFAIEGNAYYGQKIIGKNVNGIKPNEISNPKIKVRVFDNLNDSVDAYIKNLNTHFAYKNFRKSRIQSRSLGKELQGLDLVNELNKYSEKGHEYVLSVKKIIKENNLEKYDFIEYQSAKR;locus_tag=LOCUS_3590;note=WP_002851407.1 mannosyl-glycoprotein endo-beta-N-acetylglucosamidase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:38.1%25%2C q_cov:72.9%25%2C s_cov:85.2%25%2C Eval:4.0e-30%2C partial hit],MGA_372
sequence11	MetaGeneAnnotator	CDS	18040	18591	.	-	0	ID=MGA_373;product=iron transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013383663.1;translation=MNIETEITPNPETLKFLVDKQYILHTGIEIKNIKEAKKFKFSNEIFQIKGIKSLYIGENFIAITKHQNLGWSALKTKILTFLLDYISENEFFIEKQADSQKFKKKKKNKISQDIEKIIDEKVRPAVARDGGDIIFKDFEKGTVSLVLKGACAGCPSSTATLKQGIENLLKHYFPEVKEVRAVE;locus_tag=LOCUS_3600;note=WP_013383663.1 iron transporter (Ketogulonicigenium vulgare WSH-001) [pid:42.1%25%2C q_cov:99.5%25%2C s_cov:98.9%25%2C Eval:2.3e-36],MGA_373
sequence11	MetaGeneAnnotator	CDS	18618	19616	.	-	0	ID=MGA_374;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RNG6;translation=MKRIFSGVQPTGNLHLGNYLGAIKNWVSLQESFECIFCIVDLHALTVKQDPKELENNTLEVTAAYLAAGIDPKKTIIFNQSSVSTHTELTWILSCFTPIGWLNRMTQFKEKAGKKKDNAVLGLYSYPVLMASDILAYKATHVPVGEDQKQHLELSRDIAGSFNKSYNIDFFPLPEPQIFGEGTRVMSLRNGTNKMSKSDESDYSRINITDEKDLINLKIRKAKTDEYPLPSKKEELKDRPEAENLLGIYAALNEKNIEKVLNEMSGKSFSEFKNLLAELTINKIGPISEKMNEYLKNKDYLKKILSNGKERAEQISSLNLKEIKKIIGLLNV;locus_tag=LOCUS_3610;gene=trpS;EC_number=6.1.1.2;note=Q2RNG6 tryptophan--tRNA ligase (Rhodospirillum rubrum ATCC 11170) [pid:58.8%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:8.6e-110],MGA_374
sequence11	MetaGeneAnnotator	misc_feature	19660	20668	.	-	.	ID=MGA_375;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q2RNG3:putative lipid II flippase MurJ,Q2RNG3 putative lipid II flippase MurJ (Rhodospirillum rubrum ATCC 11170) [pid:43.6%25%2C q_cov:78.8%25%2C s_cov:51.5%25%2C Eval:3.4e-61%2C partial hit],MGA_375;locus_tag=LOCUS_3620
sequence12	MetaGeneAnnotator	CDS	255	593	.	-	0	ID=MGA_377;product=nitrogen regulatory protein P-II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P14179;translation=MKKIEAIIKPFKLDEVKEALSKIGVSGMTVLDSKGFGRQKGHTELYRGAEYIVDFIPKIKIEIVIDDKLLKKTLDTIQKTANTGKIGDGKIFVTNIEEAIRIRTGEKGSNAI;locus_tag=LOCUS_3630;gene=glnB;note=P14179 nitrogen regulatory protein P-II (Bradyrhizobium diazoefficiens USDA 110) [pid:74.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-43],MGA_377
sequence12	MetaGeneAnnotator	CDS	949	1179	.	-	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKENNYEVAIFGAGCFWHVEEYFSNVKGVKSTSVGYACGKTNNPTYEKVCTGKTDHVEVVQIEFDKKILSYEKL;locus_tag=LOCUS_3640;note=F9Y9I7 peptide methionine sulfoxide reductase MsrA (Ketogulonicigenium vulgare WSH-001) [pid:63.2%25%2C q_cov:89.5%25%2C s_cov:31.6%25%2C Eval:5.2e-18%2C partial hit],internal stop codon at [949:951](-),MGA_378
sequence12	MetaGeneAnnotator	CDS	1262	1939	.	-	0	ID=MGA_379;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980489.1;translation=MNNWNILNKEIINCKNCKRLVTFREKIALKKTKRFNHWNYWGKPVVGYGNKKAKLIILGLAPAAHGGNRTGRVFTGDKSAEFLIDCLYKVKLVNQNTSNERNDGLTMYNSYMTPVLKCVPPEDKPTTKELENCFFFFEREIKLLKNSKFFLALGKIAFDSCIKFFKQKKLINKKIKMIFAHGKNYKINDNFTLIASYHPSPRNVNTGILNKNKMISLLKKIKKKL;locus_tag=LOCUS_3650;note=WP_010980489.1 uracil-DNA glycosylase (Sulfolobus tokodaii str. 7) [pid:47.3%25%2C q_cov:90.2%25%2C s_cov:88.5%25%2C Eval:9.6e-47],MGA_379
sequence12	MetaGeneAnnotator	CDS	1969	2952	.	+	0	ID=MGA_380;product=LysR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388087.1;translation=MHSYLIFLYIDKIIKYDINYRNNRLIKFMFNPTFKQLKYLVSVSKHLHFGKAARDCFVSQSTLSAGILELEKLLNVKLIERTKRTVLLTPLGKEISKKAELINLEITDITDIAKASQNEIYGEIKLGVIPTIAPYTLPKVMPKLRKNYNGLNLKIVEDQTANIYQMLITGNLDLILIAKPYKTENIHIESIKKDFFYVAMPENNSLEISKKKILNREDLSNSNMLLLDEGHCLRDHVLNVCSKETIQTIDTFKATSLLTLVQMVSNDAGITLLPEIVINSDLVKNSRIKIVNFENKKNFREIALCWRSSSPRMDEFQNFSKFLKDNI;locus_tag=LOCUS_3660;note=WP_011388087.1 LysR family transcriptional regulator (Rhodospirillum rubrum ATCC 11170) [pid:40.8%25%2C q_cov:87.5%25%2C s_cov:89.1%25%2C Eval:8.2e-57],MGA_380
sequence12	MetaGeneAnnotator	CDS	3153	3452	.	-	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKNKQLCPICNESLQKKNIKSLDLNTTTVTDSRVTKNGTMIRRRRRCSCGSGYRFTTYEKIHRPELSVIKRNGQIIPFNKDRLYQSIKIALNGCTDQ;locus_tag=LOCUS_3670;note=Q89K77 transcriptional repressor NrdR (Bradyrhizobium diazoefficiens USDA 110) [pid:42.4%25%2C q_cov:85.9%25%2C s_cov:45.0%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [3153:3155](-),MGA_381
sequence12	MetaGeneAnnotator	CDS	3575	3988	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKKQIIIISSIFSLIGCSSFAPFGSETAVKYLGIAKGITDATTYSVTGKTTNDHILSAAFGKDCKLTRIIVKKPICIEFDAKTYRYSIFNKGKVVSKNNVVDIQFPSEIYDFEKTFEKDLKKKLKSKNLNLNLFK;locus_tag=LOCUS_3680;note=MGA_382
sequence12	MetaGeneAnnotator	CDS	3989	5317	.	-	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFIHKAKLSKSLPSGIPYIIANEAAERFSFYGMKSILVIYMTQYLFLTTGENNMSEETAKGYFHLFTSAVYFFPVLGALFSDIFFGKYKTIIFLSIIYVLGHFVLSIDASQIGLLLGLSLIAIGSGGIKPCVSAHLGDQFNVLNKSFISKAYSLFYIAINLGAFTSTLLIPYILFKYSANLAFLIPGIFMLLATIFFWLGRYKFVHIKPEGTKVLSELCKKKNIKIILKLFYIFLFVSFFWCLFDQTGSSWILQAEQMDRKIFGIELLSAQILSFNPIMILIFTPLFFKYLYPKLRQYINLTPANKILIGFALTFLSFVIITIAQYLINLGFKVNIIWQIIAYAILTSGEIFVSITCLEISYTYAPRKLKAVIVSFFLLSISLGNLYTSIINFYNEKKDGSLYLTDLNYFIFFSVLMFVVTIVFIPFAKKYKKNNEILQT;locus_tag=LOCUS_3690;note=WP_011123684.1 MFS transporter (Rhodopirellula baltica SH 1) [pid:46.4%25%2C q_cov:91.4%25%2C s_cov:60.1%25%2C Eval:1.6e-107%2C partial hit],MGA_383
sequence12	MetaGeneAnnotator	CDS	5310	6179	.	-	0	ID=MGA_384;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003417254.1;translation=MEFFSKNGSSVKLKDGNRIGYNIFGKKKNFPIFYFHGWPGSRFELRNIPLKKKKCFVIAIERPGYGISDPIKNFKIKDWPKIVLEIANKFKIKKFSIIGVSGGAPFALSCAYFINSKRLKSVAIVCGLAPSNVKGMNKGRVGMLMNYGYKPIVSWMLLIFLRSKILNGNIEKSFYNWKKKIPLPKKDNKLFNVERGVKLIKNFREAIKYGVTGVHRDANLYANYWGFDVKKINKKIFVWHGDKDLTVPISTLNFYKKNLKNKEIHTKKNEGHFSICYNFMNDIIQQLSE;locus_tag=LOCUS_3700;note=WP_003417254.1 alpha/beta hydrolase (Mycobacterium tuberculosis H37Rv) [pid:26.1%25%2C q_cov:91.0%25%2C s_cov:86.7%25%2C Eval:4.7e-21],MGA_384
sequence12	MetaGeneAnnotator	CDS	6191	6343	.	-	0	ID=MGA_385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKITSRKAKNVATANYNSFTKKKFAGDTATSNIFTSIKNAKDTATKNS;locus_tag=LOCUS_3710;note=MGA_385
sequence12	MetaGeneAnnotator	CDS	6430	7044	.	+	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLRKKIDEKIASKVVRYLTNTSITPNQVTTFSLLLAAFAAVFFSFGIYFFSVIGSILFIFSKFLDNLDGKLARAKNVESVFGWYYDYFADTACYILMFVGISAGISNSSPGAFEINLFNLIHLDLQNYLLFSAIIASLINTILGLFHNKPTKWPKSDDGDLEDCIYLIGPITWLGFINFFFLLSTIGSVVFVIYNLKRNFKK;locus_tag=LOCUS_3720;note=WP_010879788.1 CDP-alcohol phosphatidyltransferase (Archaeoglobus fulgidus DSM 4304) [pid:27.5%25%2C q_cov:53.4%25%2C s_cov:31.7%25%2C Eval:4.6e-10%2C partial hit],MGA_386
sequence12	MetaGeneAnnotator	CDS	7046	8146	.	-	0	ID=MGA_387;product=2-aminoethylphosphonate--pyruvate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9I434;translation=MNTKNKILFTPGPLNTSIKTKKKMLVDLGSRDIDFLKINKKLFKELLKISNANNYACVPIQGSGTFGLESTFSTLLNDKSNTLVLTNGVYGDRIIKILKKIKKRKKILKFKPNELISTNALEKIIKRNKNISHVALVHCETSTGMLNPLNEIALICKKYKKKLIVDAMSSFGGIYIDIKKNNIDALISSSNKCLEGVPGFSFSIIKKETLNKCSNNANTLALDLYDQWMGFEKNDQWRFTPPTHSIIALSEAINELKKEGGIKKRNKRYEKNYNTLINGMKQIGFKFYLDKELHSPIIVCFKMPSKINFKIFYKNLSKLGFVIYPGSVLKENTFRIGCIGNINTKEMKLLLKGIDKTLIKMKIKKL;locus_tag=LOCUS_3730;gene=phnW;EC_number=2.6.1.37;note=Q9I434 2-aminoethylphosphonate--pyruvate transaminase (Pseudomonas aeruginosa PAO1) [pid:42.4%25%2C q_cov:98.4%25%2C s_cov:97.8%25%2C Eval:1.8e-82],MGA_387
sequence12	MetaGeneAnnotator	CDS	8224	9207	.	+	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932827.1;translation=MSKFKFLYLIFGIGLLIFIFNKVDFNLFLNELNKLRFSFFVILIIYFFGFILDSYSWQLCIQNLSGKKLKIYNVFKIRIIGEAFNYLFFQVGGEPVKAFLLKNNFNVKYKFSIGSLILAKTIILFALITFCSIGIFSIFYTEKFGDNFEKSSLIGFAFFTILISLFFLVQRYKLTSRIHKIFKNKLSKKINIFFTHLKETEDKISDFYKKTKKDFFKIFFLNLCNWLVGAFELYVIFILLNEKITFMEAVAIETLVQLVRAMLFFIPSNLGMQEGVFVLVVNVLKDSTPLGLAVAVIRRLREVIWISIGLLIGYNQKIDFKKIKQKL;locus_tag=LOCUS_3740;note=WP_010932827.1 hypothetical protein (Chlorobium tepidum TLS) [pid:23.0%25%2C q_cov:96.0%25%2C s_cov:92.9%25%2C Eval:4.3e-21],MGA_388
sequence12	MetaGeneAnnotator	CDS	9202	9819	.	-	0	ID=MGA_389;product=CDP-alcohol phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004188272.1;translation=MNNFLKKFNFEIPWDQKIAFIISKPFIFFKIHPNIVTIFGVLIGVLSGFLFSTNIEINAKIASILFFIAATFDHVDGLVARKLNKTSTIGHYLDHIGVCVTYISMFIGLGILIEKNSFNGLKYGITSAICIFLIMTIRFYLERKKGGIAIKQNNFLGFEQEDILYLIIPITFLNKINEFLYFAFIGTPIFLIITIIIFFYKMKKL;locus_tag=LOCUS_3750;note=WP_004188272.1 CDP-alcohol phosphatidyltransferase (Burkholderia mallei ATCC 23344) [pid:27.4%25%2C q_cov:82.9%25%2C s_cov:76.0%25%2C Eval:4.2e-11],MGA_389
sequence12	MetaGeneAnnotator	CDS	9812	10534	.	-	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011205421.1;translation=MKALILAAGLGERLKYNKPKILIKVGNKTLLERHYENLLKYGVKKIGIVIGYKNTELKKFIKKIDKHKIIKIFVNKRYKLGSIVSLVKAHSFFKEKNEIILMDGDVLYDKKILKKLIFSRKKNCLLIDKNYEIGEEPVKVCIKNKKICDFGKKTTKKFDYCGESIGFFKFSYLDSLKFISEAKKIMKKDKNEMYEETIRKIITNKMFKIEFENILKLLWTEIDFKKDLIFAKKIINKINE;locus_tag=LOCUS_3760;note=WP_011205421.1 hypothetical protein (Burkholderia pseudomallei K96243) [pid:32.4%25%2C q_cov:96.7%25%2C s_cov:91.9%25%2C Eval:1.9e-27],MGA_390
sequence12	MetaGeneAnnotator	CDS	10581	12257	.	+	0	ID=MGA_391;product=phosphoenolpyruvate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004188554.1;translation=MKLIRPKKLHIKKLNKSQLLKKEINSKELSFLMEAHNGLTAKIVEQSGFKGIWGSGLSIATALGVRDSNEASWTQILDVLEFMSDATSIPILVDGDTGYGNFNNFRRFVSKLCQRNIAGVCIEDKQYPKTNSLVRHYQKLADIDEFCGKIKAGKDTQANEDFSIIARIEALIAGWGIGEAIKRANAYYNAGADAILIHSNKTSPNEILQFKKEWGDRCPVIIIPTTYYKTQTSKFKKAGISTIIWANHSLRATIKSVRNVTEDLFNKENLTNVEKKVAPINEIFEIAGNSELYEAEKKYLSEKRNYNAIILAASRGHQLKRLTKNKPKSMLDIQGKPLLERLTSTLKKDNTGKISVVCGYKSDVIKNSTALSNLNIIKNRIYNKSGELYSLSCSLKEIKNDCIISYGDIVFRKYILDALISTKKNIVIVVDALCSNMDKKKKDCVLCNRTFTGNYLLEQKPAKLNKISHKNEKCSDFHGQWIGLMKTNKEGSKLISKYILKYSKNKNFKSMTLPGLFEKMLENKENISVLYVAGQWINVNDAFDLAEARKVSWAKSFK;locus_tag=LOCUS_3770;gene=pepM;EC_number=5.4.2.9;note=WP_004188554.1 phosphoenolpyruvate mutase (Burkholderia mallei ATCC 23344) [pid:48.3%25%2C q_cov:95.7%25%2C s_cov:94.5%25%2C Eval:2.0e-139],MGA_391
sequence12	MetaGeneAnnotator	CDS	12323	13075	.	+	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTRDQIKKFKDDGFVLVPNLFNKKELDDLVLYTDELQNSPEVSGKEWKFFEKSKLDENQKVLARIENFCKFHNGFNYLCTKSKIIECVKDCFGEDGVLFKDKINLKMPGGSGFTPHQDSQAGWDDYTNFFLTAMVSIDKSTIKNGCLEFAPGHNKSGLIGKLWEPLSDKEMKHMKFIPIETNPGDAVFFDCFAPHRSEPNLTNKSRRILYLTYNKLADGDHKERYYKDKYKNYPPDIDRNPDKNYKFKV;locus_tag=LOCUS_3780;note=MGA_392
sequence12	MetaGeneAnnotator	CDS	13084	14226	.	-	0	ID=MGA_393;product=thiamine pyrophosphate enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004530031.1;translation=MIPANFLINQLRKNGFNFFSGVPCSYLTPIINGVINSKKIKYVGATSEGEAIGIASGAWLAGKKSVVMIQNSGLGNTINPLTSLNYPFKIPLLLITTWRGDPKIKDEPQHKLMGLITRDILKLCKIKNHIFPIDKKKLISTLIKINNSMKNNSMPHALIMKKESIENEVLKQKSINFKNEIKTINFIKKKELPNRFNILKVINNNINNEMAVIATTGKTGRELFEINDSENFFYQVGSMGCASAISLGIALNSRKKIIVIDGDGALLMKMGNISTIGRNQPRNLIHILLDNNVHDSTGQQLTNASTVNFSKIATGCGYKVSFYTNNIDDFSKIFKKVIARINNGPVFINVKIKKGSIKNLGRPTINPQDVAIRFKNFLKN;locus_tag=LOCUS_3790;note=WP_004530031.1 thiamine pyrophosphate enzyme (Burkholderia pseudomallei K96243) [pid:37.1%25%2C q_cov:98.2%25%2C s_cov:97.5%25%2C Eval:3.4e-68],MGA_393
sequence12	MetaGeneAnnotator	CDS	14276	14458	.	+	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEDEDIKNIIDNNDQDYEEYSINELVNELEILKKKINFLKTLLKKKKLEQNSANNLFKK;locus_tag=LOCUS_3800;note=MGA_394
sequence12	MetaGeneAnnotator	CDS	14552	15046	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLIALSLSIGGVGGIMTWIYTSTPLALSIPISFIAWAAFVGAGGNNKALSSTITAWLWGAVVAWASAAFLLGATSGLPAGLGVPATIFLSVFVLIYGTKVKAFSAAPAAVYGYAAFYTAFLAGTDALQSASLGNPLILTALSGIAGAVLGMVALNVSASLGK;locus_tag=LOCUS_3810;note=MGA_395
sequence12	Aragorn:1.2.38	tRNA	15138	15215	.	+	.	ID=Aragorn_6;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0060;note=Aragorn_6
sequence12	MetaGeneAnnotator	CDS	15263	16219	.	-	0	ID=MGA_396;product=biotin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7VBJ0;translation=MIRSNWTQKEILKILNLPLLELIFKAQKLHRKFFPKKDVQLASLLSIKTGSCPENCKYCPQSAHYNTDVKKETLLSVNEVLKKANKAKKNGASRFCMGAAWREIKDGPEFDKVLEMIKGVKKIGMESCVTLGMLNQKQANKLAKAGLKAYNHNIDTSPDFYKKIITTRKFSDRISTIKRVRKAGITVCCGGIIGMGETLEDRAKMLEVLSNFKPHPESVPVNALVPSKGTPLENKKKINSIELVRMCATARIIMPKSRVRLSAGRKDLSNEAQIMCFMAGANSIFYGDKLLTTGNNDTSSDVKLLKSVGLTLTEAINT;locus_tag=LOCUS_3820;gene=bioB;EC_number=2.8.1.6;note=Q7VBJ0 biotin synthase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:57.6%25%2C q_cov:97.8%25%2C s_cov:93.7%25%2C Eval:4.3e-103],MGA_396
sequence12	MetaGeneAnnotator	CDS	16249	16419	.	+	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKNNFNHAILTCKNHKELDRKTIKSFIPGYKLMENAGIEIFKIIKNKFNKKKKN;locus_tag=LOCUS_3830;note=MGA_397
sequence12	MetaGeneAnnotator	CDS	17033	17437	.	+	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAARAAARIGCGLLCLGVPKEVYNIYSIENPIALINVINNISDLKKLLKDKRINTVLIGPGLGINKKKLKLILSLIKEKKRKIILDADALKNNFNKIVSNKKTNVIITPHEGEFSHILKSLNIKKKKKFYPELN;locus_tag=LOCUS_3840;note=Q2RU48 bifunctional NAD(P)H-hydrate repair enzyme (Rhodospirillum rubrum ATCC 11170) [pid:31.6%25%2C q_cov:85.1%25%2C s_cov:22.1%25%2C Eval:2.2e-08%2C partial hit],frameshifted%2C insertion/deletion at around 17383,MGA_398
sequence12	MetaGeneAnnotator	CDS	17452	17727	.	+	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLILKGNTTLIFSEDGKIAINTNTSPFLATGGSGDVLAGMITGLISQKMTIFDAACAAVWIHGEIAKKKGPGLISEDLPDLIPNVLKKLK;locus_tag=LOCUS_3850;note=A0A0H3C9N6 bifunctional NAD(P)H-hydrate repair enzyme (Caulobacter crescentus NA1000) [pid:54.5%25%2C q_cov:96.7%25%2C s_cov:18.2%25%2C Eval:1.8e-21%2C partial hit],frameshifted%2C insertion/deletion at around 17395,MGA_399
sequence12	Aragorn:1.2.38	tRNA	17785	17870	.	+	.	ID=Aragorn_7;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0070;note=Aragorn_7
sequence12	MetaGeneAnnotator	CDS	17841	19226	.	+	0	ID=MGA_400;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RU46;translation=MGVQVPSPAPKKRHELKFFINNIFNMKITELKKKGLEKEFKIILSSKEVTDKLNQSLHEISKDVEIEGFRKGKVPFNIVKQRFGQNALSTTLDELIKSTSNEVIKKNNLKLAIKPKVDVKNFGEDKGLEYIMSIELIPNIKIGDIKKIKLTKYISKVDETDYKKTLETFSKTQQNFIKEDGKKIENGDGVLLNLKPTYNNEIVKEALIENKLTIVGNKMIIPEIEKKILGSKAGDKLNFICKFPKNFPNPDVAEKDVKVEIDILEVQVSQKKVLDDNFAKTMGAKDLSDFKNKVKEQMQNELDNLSKTVLKKDLIDQLDKSHKVELPTGLVNFEFESIWKRFQDDKAKGIIDESDKNKKDDVIKKDYKKIAERRVKVGLILAKIGEENKIEVSEDDLKKAIQEEIMRQPDAKDQIIKFYTENSQALASLKAPIFEEKVMEHILKNIKLDEKNIKRQELLNK;locus_tag=LOCUS_3860;gene=tig;EC_number=5.2.1.8;note=Q2RU46 trigger factor (Rhodospirillum rubrum ATCC 11170) [pid:31.3%25%2C q_cov:94.1%25%2C s_cov:97.5%25%2C Eval:7.9e-70],MGA_400
sequence12	MetaGeneAnnotator	CDS	19265	19885	.	+	0	ID=MGA_401;product=ATP-dependent Clp protease proteolytic subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J1G6;translation=MKKSFRNLSTLIPMVVEQTSRGERSYDIYSRLLKERIIFLTGVIEDNLSSLICAQLLFLESENPNKDISFYINSAGGSVTSGLAIYDTMQYIKPDITTVCIGQAASMGSLLLTAGTKNKRFSLPNSRIMVHQPSGGVQGQASDIQIHANEILTIRKKLNQIYVNHTGQDIKKIEEYLDRDSFMGAEEAKSFGLIDKIVKDRKEIEK;locus_tag=LOCUS_3870;gene=clpP;EC_number=3.4.21.92;note=Q3J1G6 ATP-dependent Clp protease proteolytic subunit (Rhodobacter sphaeroides 2.4.1) [pid:70.1%25%2C q_cov:94.2%25%2C s_cov:92.4%25%2C Eval:9.8e-77],MGA_401
sequence13	MetaGeneAnnotator	CDS	3	176	.	+	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEEVENLSKQYLQILKSGNKPVLLNKKEMKKNIKKIKDYNNGKLKHRIKSVLYLHL;locus_tag=LOCUS_3880;note=MGA_403
sequence13	MetaGeneAnnotator	CDS	112	1233	.	-	0	ID=MGA_404;product=ribosome-binding ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RMV3;translation=MSFSCGIVGLPNVGKSTLFNALTSTQNAKASNYAFCTIEPNKAIVEVPDARLNNISKIENSKNIIPTQLNFIDIAGLVKGASKGEGLGNKFLSHIKEVDLILHVIRCFEDPDIDHVENSLDPIRDMKIIEDELILSDLVSAEEQLKKLKKNIDKDIENKEKILILEKIIKNLTSEKSLENLILNKEEQKIINSFNLISIKPKIFICNLNEKENLEDNKYINLIKNNLSNNKAIIISISAEIESQISQLENEIEKKEFLNSLGWKNSGLDRIIKFSYDKLNLITYFTAGEKETRAWTVKKGSNAPDASSVIHTDFKKGFICAETISYKDYIEYGGSKGAKENGKTRQEGKEYLVKDGDIIHFLFYVLVFHYYNL;locus_tag=LOCUS_3890;gene=ychF;note=Q2RMV3 ribosome-binding ATPase YchF (Rhodospirillum rubrum ATCC 11170) [pid:49.3%25%2C q_cov:97.9%25%2C s_cov:100.0%25%2C Eval:1.7e-96],MGA_404
sequence13	MetaGeneAnnotator	CDS	1239	1802	.	-	0	ID=MGA_405;product=peptidyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCV4;translation=MYLIVGLGNPGEKYKNNRHNVGHLAIEMIAKKYNFLKKKNKYGNFFEGKLLNEKIYALKPKEYMNLSGISIKNFLDFYKINKKNLIVIHDDIDLPLGKIKIKIGGGNAGHNGLKNIDTLIGKNYKRIRIGIDRPKNNQKIEKFVLENFEKNEKKEIIYSINRIISFLQYFLNSDPNNISVLLNKLKK;locus_tag=LOCUS_3900;gene=pth;EC_number=3.1.1.29;note=Q9ZCV4 peptidyl-tRNA hydrolase (Rickettsia prowazekii str. Madrid E) [pid:47.3%25%2C q_cov:87.2%25%2C s_cov:89.2%25%2C Eval:5.3e-36],MGA_405
sequence13	MetaGeneAnnotator	CDS	1847	2575	.	-	0	ID=MGA_406;product=50S ribosomal protein L25;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TI50;translation=MKEINLDIITREDIGKSGSKKLRNSGKIPAVIYGDKKEPVYVALEYQNLIKEMNKTGFFSTVYNFKINKKDIKVLPREIQTNPLNDKPIHIDFLRVNDQSKINISVPIIFINDEKSPGLKGGGVLNTVRREVDLICKINNIPEKLEADLSNLEVGAVIHMSDIKLQEGVNPQISDRDFTIATIAAPTVMAVEEDKPETEGEEGAEGEEGAEGEERAEGEEGDENKSENQDNKEEKKEEDSKK;locus_tag=LOCUS_3910;gene=rplY;note=E8TI50 50S ribosomal protein L25 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:47.3%25%2C q_cov:77.7%25%2C s_cov:85.9%25%2C Eval:4.4e-48],MGA_406
sequence13	MetaGeneAnnotator	CDS	2646	3578	.	-	0	ID=MGA_407;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UDA9;translation=MKIVTCNSNNSLALDISKKLKKPLCKCIIKRFADMEIFVEILENVRGEDVFVIQSTSYPANDNLMELLITIDALKRGSAKRITAVIPYFGYARQDRKTGPRTPITAKLVSNLITNAGADRVLTLDLHAGQIQGFFDIPTDNLYSSPIFIRDIKKKYKVSNITFVSPDVGGITKAREIATQLKCDIAIIDKRRPKAGKSEVMNIIGNVKNKTCIIVDDIVDSAGTLCNAAKAIKKKGAKKIAAYITHGVFSGKAISKISKSSIEKLVVTDSIEPNQGIKSSSKIDILSVSNLLSEAIKRISTEKSVSVLFD;locus_tag=LOCUS_3920;gene=prs;EC_number=2.7.6.1;note=Q8UDA9 ribose-phosphate pyrophosphokinase (Agrobacterium fabrum str. C58) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-107],MGA_407
sequence13	MetaGeneAnnotator	CDS	3591	4346	.	-	0	ID=MGA_408;product=laccase domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RWP8;translation=MYIYKEINKYSHIKCAFFSRKNGVSKNIYNSLNCSIGSNDKKEDVFKNRLIALKKIGLEKKKLIIPSQVHSNKIKIVNMSSISKKIIADGLLTKSNKIVLGILTADCAPVFFFDIKKKIICNVHAGWKGTKDGILENSIKLMLECGSNLNNIISCIGPCIGKYSYTVKNDFFEKIMNENKENKKFFFKKNKKMSFDLKSYIIKKIKNSGVKKIISKSFDTYKDEKNLFSYRRSKKNNEKDYGRCLSIISIN;locus_tag=LOCUS_3930;note=Q2RWP8 laccase domain protein (Rhodospirillum rubrum ATCC 11170) [pid:37.2%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:4.2e-41],MGA_408
sequence13	MetaGeneAnnotator	CDS	4347	5447	.	-	0	ID=MGA_409;product=TetR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010969869.1;translation=MKNLEEILKKRIIVSGPLSISDFISETNLNKKFGYYNKNLPFGKDKDFITAPEISQMFGELIALWAIDCWNKMGKPKNFNIIELGPGSGTLMNDFLRTINSNKEFVKNCNNIFFFEASIFLKKIQKKNINKFNIKIKKKIKWINNLNKINKLPFILIANEFFDALPIKQIEFTKTGWRERMINYDKKKKSFHFSFSNNETLLEKFLPKKSKYKIGSIYEIPIKMMIFIDELFKKMKKEKSTCLIIDYVKNKTFGNSLKSIKKQKITKIFDAIGNSDISSHVNFNLFEKIAKKNKLNIFGPINQRNFLINIGILYRAKMLMNKANNKQKKMILNNLDFLINNNKMGEIFHVISISNKNLNTIEGFNK;locus_tag=LOCUS_3940;note=WP_010969869.1 TetR family transcriptional regulator (Sinorhizobium meliloti 1021) [pid:29.2%25%2C q_cov:96.2%25%2C s_cov:94.1%25%2C Eval:6.5e-37],MGA_409
sequence13	MetaGeneAnnotator	CDS	5447	5938	.	-	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFHGGLIGIIISTLILCKKKKINYLLITDLIACAAPIGIFFGRIANFINSELVGRVTNNKIGITFKNIDNLTRHPSQLYEAFLEGFLLFFILFFLKNKEVFNKKNGLLSSYFLIFYSLFRFICEFFREPDPFLGYQFLNLTIGQIYSIVFFIIGIFIFFKNK;locus_tag=LOCUS_3950;note=Q9ZE99 prolipoprotein diacylglyceryl transferase (Rickettsia prowazekii str. Madrid E) [pid:49.3%25%2C q_cov:90.8%25%2C s_cov:55.2%25%2C Eval:5.2e-33%2C partial hit],MGA_410
sequence13	MetaGeneAnnotator	CDS	6248	7210	.	-	0	ID=MGA_411;product=ADP-L-glycero-D-manno-heptose-6-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89HR2;translation=MIVITGGAGFIGSNLVAALNKLNINNLIICDSVNSNLKKKYLNKIKYKKIIIPSNLFFFLNKNKNIIKYIFHLGAISATTSNNFKKLLKNNFEFSVKILEFCTKNKINLIYASSAATYGNGKYGFKDNENIEYLKKLKPLNLYGQSKHLFDLHISNKIKNKKKLPNQWVGLKFFNVYGNNEEHKKKQMSVISYLTPQIKKKNKINLFKSHNKNYKDGEQKRDFVYIDDCINIILWFYRNQKKTGIYNVGTGQPRTFLDVANTLFKELSKKKNIHFIKTPKNILKHYQYLTKADLKKLRSIGYKKKFKKIEDGIRLFLKKI;locus_tag=LOCUS_3960;gene=rfaD;EC_number=5.1.3.20;note=Q89HR2 ADP-L-glycero-D-manno-heptose-6-epimerase (Bradyrhizobium diazoefficiens USDA 110) [pid:38.2%25%2C q_cov:99.1%25%2C s_cov:96.6%25%2C Eval:1.9e-66],MGA_411
sequence13	MetaGeneAnnotator	CDS	7318	7842	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYTIYIKMTTSLADIADSKFHPINLLEEIIISKNWVFERPIEDEIYIEVPTKYSNLIIQVSWLKKSERIEIKSFFYIKMDFSNNIEIYKLLNLINKKIDYGHFIINDLKYPTFKNSIIIKESKNIKFDFLKEILNYAIIQSEKFFPIFQLVLWGGKKAEEAILFFDFQTEGTS;locus_tag=LOCUS_3970;note=MGA_412
sequence13	MetaGeneAnnotator	CDS	7843	8667	.	+	0	ID=MGA_413;product=pyrroline-5-carboxylate reductase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P54552;translation=MKETILIIGCGEIGTALISGWLKKRKDFKKKISRIYILEKSIARKKYLKKKFKKEIFFIEKKNNLNLLNKVKYVFLSVKPNDLNSLSSYNSLINKDSVIFSILAGKQLKDIKKNFSNSKKIIRLMLNTPISINQGTIIYFSEKFIKKEKDLFLLNLIGKVFKLKSERYFDLMTAIIGSGPAYFYYILQAMQNVAIKNKMDQKLATELIKNTFYGTAKILINENKSFNELRKKVTSKGGTTEAGIKFLENKNVKKIIINSINQAIKKARVLRSLK;locus_tag=LOCUS_3980;gene=proI;EC_number=1.5.1.2;note=P54552 pyrroline-5-carboxylate reductase 2 (Bacillus subtilis subsp. subtilis str. 168) [pid:30.7%25%2C q_cov:96.4%25%2C s_cov:93.5%25%2C Eval:6.0e-23],MGA_413
sequence13	MetaGeneAnnotator	CDS	8695	9246	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIKRKIENTLLIILLKKNFNGIGIEEIQQKSKISRKNFYKFFNTKEEILISFFGNIDDLLKKKIMKKKFGSNIKDNLFEICMTRLDLFNPYKKNLKNFYFSFQNKPDLFLKFYKSFFNSMKINLELSKININTSKKNLKVFLFSFFYLSILYEWFKDDSVNNEKIMSVLDNRLGMIEKIIM;locus_tag=LOCUS_3990;note=MGA_414
sequence13	MetaGeneAnnotator	CDS	9239	10537	.	-	0	ID=MGA_415;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389881.1;translation=MIKNFLPQTLLGRSILILLIPLILLQVVIILIFYNRHWDTIIRHRSIDFVNDITLVVESFEKNQLLGNKDWILNEASTKLQLITKFHENNYKNNNFDDYKKKYSDLKKYLEKSLKPYGKEAFLKVDDKKKLITVTIKIDNGYLEFKANKKRIYSSTTYIFVLWMISASIILFIVALLFLKNQIKPIRKLAIEVDRFGKGKNTKNFKPSGAREVRRVSIAFKIMKERIENSITQRNKMFSSISHDIRTILTRMKLNLELQKLNKGGLKKDLDEMENMVEEYLNYAKGEKNEKIQKINISKLISSIINRYEKKNIIFKNKKRINLLVKSNSIKRCIDNIISNSLKFSKNIKVECEKINSYVKIIIDDDGPGIPESEREKVLQPFYRIEESRNKKTGGLGLGMTIATDIINNHGGKLDLDNSPMGGLRVIINIPT;locus_tag=LOCUS_4000;note=WP_011389881.1 ATPase (Rhodospirillum rubrum ATCC 11170) [pid:36.2%25%2C q_cov:99.5%25%2C s_cov:92.5%25%2C Eval:4.2e-73],MGA_415
sequence13	MetaGeneAnnotator	CDS	10558	11244	.	-	0	ID=MGA_416;product=DNA-binding response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389880.1;translation=MKINLPHILLVDDDKKILELINDYLNKNNFRVMTAENASIAREKIENIEFDLIILDIMMPGESGLNLTDSLKKNNFKTPILLLSALGNPEDRIKGLELGANDYLTKPFEPKELLLRINNLIQKNKFLKKINKKIKFGPFVYSLKNEILLKNGKRFILTSSENKLLNILAKKHGAPIYRENLSKILNIPINSRALDVQITRLRNKIESNKKFPTYIQTVRGRGYVLKID;locus_tag=LOCUS_4010;note=WP_011389880.1 DNA-binding response regulator (Rhodospirillum rubrum ATCC 11170) [pid:42.3%25%2C q_cov:96.9%25%2C s_cov:91.9%25%2C Eval:3.7e-46],MGA_416
sequence13	MetaGeneAnnotator	CDS	11241	11726	.	-	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNLNNIYNPLFLKKKELKTAFELLFFITKDFDKNISLLLKKYKYNKTHFAVIFLASNNYFLTIKDLLIILDIKKQSLSKVINKLINDEIIFLKQSKKDKRNKNIYLTKKGIKIEKKLIEKQIKNIALAYKDAGTESINGFKKILINLISKNSKNILKKKL;locus_tag=LOCUS_4020;note=MGA_417
sequence13	MetaGeneAnnotator	CDS	11808	12683	.	+	0	ID=MGA_418;product=branched-chain amino acid aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389878.1;translation=MKKIKTFEDRPGYIWLNGKFVVWKKAKIHILSHGLHYGSCVFEGARVYDRKIFKLKDHTKRLFYSAKVLGFKLPYNEKKINSACLKIVEKQKIINGYLRPFAWRGSEMMAISAQNTKIHLAIATWPMNTYFDKKKRFNGIKLQTAKWRRPPANTAPTDAKAAGLYMICTLSKHYAEKNGFDDALMLDYKGHVAESTGSNIFFIKNKKLYTPIADCFLNGITRKTVIKIAKKNKIKVIEKKILPKELLIADEIFLTGTAVEITPVSQIDSKKFKVGFVTKKLINLFDNFVKK;locus_tag=LOCUS_4030;EC_number=2.6.1.42,2.6.1.-;note=WP_011389878.1 branched-chain amino acid aminotransferase (Rhodospirillum rubrum ATCC 11170) [pid:53.4%25%2C q_cov:97.3%25%2C s_cov:93.4%25%2C Eval:3.7e-90],MGA_418
sequence13	MetaGeneAnnotator	CDS	12686	13126	.	-	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLQKQKINISKENKKILKKKIGAFVNFVGIARPTNNSKKIQFIEIEHYPGMTEKKIKKIEIYALKKWKLNNCIIIHRYGKITPGENIVYIATTAQHRVNAFKACEFIIDYLKVEAPFWKTEHLNNKKIFVKSKKRDERKIKFNY;locus_tag=LOCUS_4040;note=WP_011090206.1 molybdenum cofactor biosynthesis protein MoaE (Bradyrhizobium diazoefficiens USDA 110) [pid:47.0%25%2C q_cov:80.1%25%2C s_cov:73.1%25%2C Eval:1.0e-25%2C partial hit],MGA_419
sequence13	MetaGeneAnnotator	CDS	13127	13378	.	-	0	ID=MGA_420;product=molybdopterin synthase sulfur carrier subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89DG7;translation=MKIIYFSWLKENIGLSEENIKLPSNIKNIKNLIKWLSEKSNKHKKVFLKSKNIRVSINQKIVNKNSKIKKNDEIAFFPPFTGG;locus_tag=LOCUS_4050;gene=moaD;note=Q89DG7 molybdopterin synthase sulfur carrier subunit (Bradyrhizobium diazoefficiens USDA 110) [pid:41.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-13],MGA_420
sequence13	MetaGeneAnnotator	CDS	13375	14631	.	-	0	ID=MGA_421;product=molybdopterin molybdenumtransferase MoeA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389877.1;translation=MTQLSNDCFKHSKKRISLEKAVSILEKRIKCIKKTQKIKLDQSLGRILSKDIFSKLNVPPFDNTAVDGYAFKYSDLNKKKETVLKLNGRIAAGQNFNKKINKGEVVRIFTGAKVPEGTDTVIMQEDCNVNGNKIILKPGIFKGANIRKKGEDIKFGKKIITKGSKLKAQDIALIASIGIKEIEIYEKLKVGIFTTGNELFEPGTKTSKNGIYDSNRYCLKNLLKTINCSVKDYGIKKDNENLIKNTLKKISKECDLIITTGGMSVGEEDYVRRVVEKNGSLNFWNISIKPGRPVALGNIFKKPFIGLPGNPVSVMITFLKIALPAINKLSGFLSPKKNNFIVTADFNFEKKSGRKEFLRVKVSKNSNGQVKIKHFPNTGSGVFTSMVETDGLIELPEKLTFLKKGSKVKFVPYSEILI;locus_tag=LOCUS_4060;note=WP_011389877.1 molybdopterin molybdenumtransferase MoeA (Rhodospirillum rubrum ATCC 11170) [pid:40.2%25%2C q_cov:98.8%25%2C s_cov:97.0%25%2C Eval:4.5e-93],MGA_421
sequence13	MetaGeneAnnotator	CDS	14628	15212	.	-	0	ID=MGA_422;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE96;translation=MKNIPNILTVLRLLACPFLIYLFEISNHLWILIIFVLACLTDFFDGYIARKRDFKSNFGKVLDPFADKILIITMLISLLVFKDYSESNFIKIPFYIIIIREIIVSCLRFNIRDENKNIDVTIFSKYKTFIQMIPIGLIMVIYVLEEYANIIEPFISGDILLFIFSVTIFFIYLATFITVITGIQHFKTFLKLKK;locus_tag=LOCUS_4070;gene=pgsA;EC_number=2.7.8.5;note=Q9ZE96 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Rickettsia prowazekii str. Madrid E) [pid:37.0%25%2C q_cov:95.9%25%2C s_cov:94.5%25%2C Eval:1.5e-23],MGA_422
sequence13	MetaGeneAnnotator	CDS	15216	17051	.	-	0	ID=MGA_423;product=UvrABC system protein C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89DG9;translation=MNGIEIIKSKYTNITDSPGVYQYLNSKNEILYIGKAKNLKKRISSYTNISSLSNRIQRMVYQINNIETITTKTEAEAFLLESNLIKKNKPRFNIVLRDDKSLPYILISSKNKWPQISKHRGKQKKIGSYFGPYSSAGAVDKTINSLQKAFLIRSCSDSFFKARTRACLLYEIKKCSAPCVKKINKKDYSELSNQTIEFLKGKNKKIQSNLNNTMQKYSLKKLYEKAATLRDRIKALNKIQEKQSVNIASIGDADVISIKKKEARACIQVFYFRGGNNLGGRYYFPKHEENENEENILQSFLGQYYSDKIVTKLILINKKIREKKLLTNALNKKSGYQIKIEVPIKGKKKIIVCDAEKNAEKELDKKINEEKNNVLYLKKIKKIFKFKNLPKTIEIYDISHISGEFAVGAMVSFNKNGFTKNNYRKFNIKGKFKRKENLSKSDDYSSIYEVLNRRLKKDSKTMLYPDLMIIDGGKGHFNTALNVLRKLNLEKKIELMSIAKGENRNEGNETFYIKNNKKIKFNLNDKTLFFLQRLRDEAHRFAITSHRTRRSKINKSILDEIEGIGPNKKRDLLKYFGSSEQIKTAQLSEIEKVKGINKNIAKKIYNFFHEN;locus_tag=LOCUS_4080;gene=uvrC;note=Q89DG9 UvrABC system protein C (Bradyrhizobium diazoefficiens USDA 110) [pid:44.1%25%2C q_cov:99.5%25%2C s_cov:89.8%25%2C Eval:7.4e-146],MGA_423
sequence13	MetaGeneAnnotator	CDS	17360	17647	.	-	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLWTLTQTLALYLAPQIRVNAIGPGPTLKSKRQTNKQFKRQYKSVPLKKSVNPYEIADTVLYILKSKSLTGQLINIDSGQHLGWAQGNNKQIIDE;locus_tag=LOCUS_4090;note=WP_011389873.1 short chain dehydrogenase (Rhodospirillum rubrum ATCC 11170) [pid:57.6%25%2C q_cov:89.5%25%2C s_cov:31.7%25%2C Eval:7.8e-22%2C partial hit],internal stop codon at [17735:17737](-),MGA_424
sequence13	MetaGeneAnnotator	CDS	17735	18118	.	-	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTALITGGSQRIGAVISERIAQEGWNVIIHYNKSKNKAFNLNKKLNSLKINSCCIKADLSKELELKKLFINAKKEMGNITCLINNASTFELDNIENIKKKNWDYHLNTNVWASIFLIQQFIKNLP;locus_tag=LOCUS_4100;note=WP_013383369.1 short chain dehydrogenase (Ketogulonicigenium vulgare WSH-001) [pid:32.3%25%2C q_cov:96.9%25%2C s_cov:48.1%25%2C Eval:4.2e-15%2C partial hit],internal stop codon at [17735:17737](-),MGA_425
sequence13	MetaGeneAnnotator	CDS	18115	19080	.	-	0	ID=MGA_426;product=sodium:calcium antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081007.1;translation=MTYLSLLTGLFLLLIGAHYLIENIVALAKKLNISQFIIATFLIAIGTSLPEFSATIKSVISNHPGIAVGNLIGSNIANIFLVIGLSAIIYPIKAFPKTSGNILELETIAGIFIFLFPATIFFFGLKDINSILVSILAILLFFYFFKQRLHLEKINKIKKINIREKTFILILKNIFFLTILIYGCHLLINKTVELAQIYNISERIIGLSLVAIGTSLPELIICIVAAIKQKQGIALGTVLGSNMYNILVMLSLVEIYENTGEGNGAILENVKSSDILFLAISTLLLFIFYKQPTTKPKVIDRQEGSILFIFYIAYIYWIYTT;locus_tag=LOCUS_4110;note=WP_004081007.1 sodium:calcium antiporter (Thermotoga maritima MSB8) [pid:30.2%25%2C q_cov:89.7%25%2C s_cov:90.3%25%2C Eval:3.3e-34],MGA_426
sequence14	MetaGeneAnnotator	CDS	135	968	.	+	0	ID=MGA_428;product=sulfurtransferase FdhD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89SU0;translation=MIKNKKKLEKVLKPLVNNSKLTNEIIVTDENKKKIKLHSVVERPLTLFLNDQEIVTMMTICDYPKYLAIGYLLNQNMLKKNDKITGVDYDEEISTVVVRTKLKTNYEEKLKKKTLTSGCAQGTVFGDIMEEFENIKLSKTVKIKASWMIKLLKEINTTPSLYLKARAIHGCVLCKKDKAQIYMEDVGRHNAVDKIAGYMYKHSISPADKIFYTTGRLTSEMIIKTVKMKIPILISRNGFTSWGVDLAKKANLTLIGRTKGKRFIALSGFERIIYDTK;locus_tag=LOCUS_4120;gene=fdhD;note=Q89SU0 sulfurtransferase FdhD (Bradyrhizobium diazoefficiens USDA 110) [pid:61.1%25%2C q_cov:95.7%25%2C s_cov:88.6%25%2C Eval:1.5e-93],MGA_428
sequence14	MetaGeneAnnotator	CDS	955	1584	.	+	0	ID=MGA_429;product=molybdenum cofactor guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89SU1;translation=MIQNNKKILGLILAGGLSRRMGNKNKFLKKINNNIIIDLIISRAEKQVSYLILNTNDKIPYLSKFKLKEIPDLIKGYHGPLVGILSGMEWARKQKEKIDYLATFSCDAPFFPEDLIQKLLKEITDQNLDIVIPKYKNQKHPVFGLWSLNLIDSLREYILEEKMKKIDTWIFKNNYKIIDFKNKKYDPFFNINTPEDLEKANSISLKFNI;locus_tag=LOCUS_4130;gene=mobA;EC_number=2.7.7.77;note=Q89SU1 molybdenum cofactor guanylyltransferase (Bradyrhizobium diazoefficiens USDA 110) [pid:33.3%25%2C q_cov:93.3%25%2C s_cov:91.5%25%2C Eval:7.1e-30],MGA_429
sequence14	MetaGeneAnnotator	CDS	1574	2782	.	-	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFITKENILSLILFLSSINILNWFYKKYIIGDREVFWDLAVNYCAGKIYSLGNSPYGLFANNPIANCTKEAINLNEAFAYNYTIPLVKFFSLFNSLEFIDLKKIWLATVIVCTFFIYKNTKILFAKKINYFFYLAILLFSFGGIFFQSLLTGNVSILSFTLISYALVLLEKNNLKKFSFFILLASLIKPHFFFFIIVGLIYKGKEFFKIFLITCLCLISIYSIDYFLNQNIFFDFLNTMKAMKENIWFSSFGGGLGIMSINEQIPSRIFSLFNIYFPSGPSIFSNLFWFFSSSILIFCIFFLFGLKKNYIFPKKNIFLAFCVLLITISLPRIAFYELYVAIPILIYISREFFYSNNKKISNFGFILLILILGIHDINMFFLINSILVFSLLIFNFKKIKY;locus_tag=LOCUS_4140;note=MGA_430
sequence14	MetaGeneAnnotator	CDS	2832	3578	.	+	0	ID=MGA_431;product=dTDP-4-rhamnose reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010889304.1;translation=MNKNFYPILLTGGNGLFGSTFLKKNKRIKKRIISPSSLELNITNKKKVSAYLNKYKPKIIIHAAALVGIKACEDNKILCRKINIIGTKNIASYAQKNNIRFIYISTDYVFDGKKGNYSEKDKPNPQSIYAKSKFEGEKIIKKLKNYLIIRTSFFSKKKWKYKEAFVDQYTSRLEIESLVVKLNKIIFSNFKGLIHIAGKRQSLYKIAKIIDKKTKPISLENYKKLKIPKDISLNISKWKLFLNSENRR;locus_tag=LOCUS_4150;note=WP_010889304.1 dTDP-4-rhamnose reductase (Deinococcus radiodurans R1) [pid:30.7%25%2C q_cov:94.0%25%2C s_cov:93.9%25%2C Eval:4.8e-29],MGA_431
sequence14	MetaGeneAnnotator	CDS	3583	5058	.	+	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLLIFIPAYNVEHQILDVLKKIPVKKLKIYEIELLIINDFSTDATLNEIKKFKNKELKITIFTNKSNLGYGSVQKLAYFYAIKNNFDIIAMLHGDGQYDPKLLPKLIDPINKNNADAVFGARMHSSLKALKGKMPFHRFLGNKIITKIQNFLLNSKINEFHNGYRVYSIKALRSVPFHLNSSYYHFDTEIIIQLLLSNLIIKEIPINTIYGSEKSYLNVFKYGFNVLKTTLVGRLQNFGIFYERKFDIERFRKGKVEYRNKKSFNSSHSKTLKLIKQNTKILDLSLSNKFFSDELKKKKCKVYSIDIHSILSELTYENLIDSNIEKYDLPINEDVFDTVIILNELQRLNEPEAFIEILSNWLKKSPNSQIIVSTTNIGFFMIRFMLLFGFYNHGIKGVLDISHKRNYTFSSLKKLFEQSGNFKVEKMIGIPAPFPLAIKNKFLSKILLFINNLLIKMSKVFFSYEILAIIKTKKSLEDLIKSAEKKIR;locus_tag=LOCUS_4160;note=WP_010932133.1 glycosyl transferase (Chlorobium tepidum TLS) [pid:46.2%25%2C q_cov:50.9%25%2C s_cov:90.4%25%2C Eval:1.6e-60%2C partial hit],MGA_432
sequence14	MetaGeneAnnotator	CDS	5061	6062	.	+	0	ID=MGA_433;product=GDP-mannose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010901998.1;translation=MKIFISGIAGFLGSHLADKMILLGHNVSGCDNLIGGYLDNIPKKAKFYQYDCNDLNKMKQITKGIDIVFHCAATAYEGLSVFSPHVVTKNIVGSSVSLITASVSNKVKRIVYCSSMARYGTNKVPFEEKMETNPQDPYGIGKVAGEDFLKNLCTVHNVEWVIAVPHSIIGPRQKYDDPYRNVASIMINLMLQKRNPIIYGDGKQKRCFSFVNDDIDILAELAFSKKAISEIFNIGPDDEFITINELATTIANLLKFNLNPVYKKGRPQEVFLANCSANKARKIFNYKTKYSLKEGLIEMIDYIKKRGTRPFKYHMDLEIINEITPETWKKKLF;locus_tag=LOCUS_4170;note=WP_010901998.1 GDP-mannose 4%2C6-dehydratase (Halobacterium salinarum NRC-1) [pid:32.0%25%2C q_cov:90.1%25%2C s_cov:98.4%25%2C Eval:1.5e-37],MGA_433
sequence14	MetaGeneAnnotator	CDS	6087	7163	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLGIFDKYKTTLGQINHVKKVLSQTKPTAINFEIDLTNGCNHRCSFCQWGSYLESNRATLKSEIVLKTLPELIKYGTKAITWTGGGEPTVHKDFFRLLNIAYKLGLDNGLLTNGSLLKEEYDKQLLKQLVFLRISMAGGNRKAYQKVQGRDDFDKVINNLKRIGDLKKKIKSKTTLGVAFLANKENADSLEDFVETLINSNCDYLQVRRDNYIKENEKKWWDSNIGKKCEELVKYTRPKGMDILTEGYVTFQKFIKYPKKCFAHNFVMAINAEGYVTFCKNTKDNPKFYIGNLNKESFKNIWLKSKINKKLENNIKPSNCATYCKNMQINKAVEDLINKKVSLDEFKNQKIDHKNFP;locus_tag=LOCUS_4180;note=WP_010940263.1 radical SAM protein (Desulfovibrio vulgaris str. Hildenborough) [pid:27.1%25%2C q_cov:88.0%25%2C s_cov:49.5%25%2C Eval:7.3e-25%2C partial hit],MGA_434
sequence14	MetaGeneAnnotator	CDS	7167	8012	.	+	0	ID=MGA_435;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932133.1;translation=MKKEKLLIFIVAYNHEKTIKNVIDRIPKNLKNIYNLEILIIDDNSQDNTFEISKKIKEDYKKKNIFKINIFYNPINQGYGGNQKLGYHYAIKKKFKYVVLLHGDGQYAPEVLPRLLDQTFKNNIVMGSRMINKKLALKGGMPVYKFIGNIILTKIQNFLLGTNLAEFHTGYRIYLVKSLQNIPFYLNTNDFHFDTEILIQLVINKDVIKEISIPTFYGDEICHVNGIKYAFNVLRMTSIAKFQKIFSFSLTEKFDIEKKTKKYLFSYKKVDNLLNLSMKRK;locus_tag=LOCUS_4190;note=WP_010932133.1 glycosyl transferase (Chlorobium tepidum TLS) [pid:54.6%25%2C q_cov:87.9%25%2C s_cov:88.2%25%2C Eval:9.8e-69],MGA_435
sequence14	MetaGeneAnnotator	CDS	8016	8915	.	-	0	ID=MGA_436;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005771401.1;translation=MEKIEKTILLGSSGQIGSNLKKKLSLISKKVKCLSKKELNLEKLETIKKKLDKFNPNLIINAAAYTKVDDAENNKKECYKINVLSTKELVDWSYKNNCFFVHYSTVYIFDGKNNKPWKENALPNPINYYGKSKLKAEKKIIKSKCKYLILRLNWIYNKTGENFPKKIINKIKKLNKIFLVNNQIGTPNDAEFISNTTIKILKKIIINKKNPKILNLSAKGKTNYYDFAKKIYKKMKKNYKNCDLLPLNSEDYKKMVGNKNITKRPLNSVLDIKKLEKFLNFRMPNWEKIFNKKIDSILK;locus_tag=LOCUS_4200;gene=rfbD;note=WP_005771401.1 NAD(P)-dependent oxidoreductase ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:26.6%25%2C q_cov:94.3%25%2C s_cov:95.3%25%2C Eval:1.7e-29],MGA_436
sequence14	MetaGeneAnnotator	CDS	8903	9454	.	-	0	ID=MGA_437;product=dTDP-4-dehydrorhamnose 3%2C5-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011143691.1;translation=MKLKKLSLPGPYLIEPKIFYDKRGSLYESWNKKNSFKKKIINNISQVTVTHSKKNVLRGLHFQYPNLQGKLISVMNGKIFDVIVDIRKNSPNFGKWCKVILDSKKKNILWIPQGFGHGYLVLSTFADVIYKCDCKYYPKNQKEIIWNDPFIGIKWPTKKPILSKKDANGLKLNEIHKLPQWKK;locus_tag=LOCUS_4210;gene=rfbC;note=WP_011143691.1 dTDP-4-dehydrorhamnose 3%2C5-epimerase (Gloeobacter violaceus PCC 7421) [pid:44.3%25%2C q_cov:95.1%25%2C s_cov:93.5%25%2C Eval:2.0e-40],MGA_437
sequence14	MetaGeneAnnotator	CDS	9461	12235	.	-	0	ID=MGA_438;product=formate dehydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085105.1;translation=MKNITFILNGKKVIAQEDETIWQVANRLGDKIPHLCYEPKPGYRPDGNCRACMVEVEGERTLVASCIRKPTDGMKVNTKSNRAKKSRELVFELLVADQPKRSIARDKNSKFWNWASKLNVNSSRFPKKSYFPKPDLSHSAMEVNLDACIHCNLCVRACREVQVNDVIGMANRGSDAKIVFDFDDPMGDSTCVACGECVQACPTGALMPSSVMNKNHIADTKVDKKVESVCPYCGVGCQITYNIKNDKIAWVDGKDGPSNHNRLCVKGRFGYDYTTNPERLKYPMIRKDNVSKDPEKIFDPKNPLKYFKKVSWNEALNYAAQGLKKIKNNYGESSLAGFGSAKGSNEEAYLFQKLVRTGFGTNNVDHCTRLCHASSVAALLETLGSGAVSNPFYDCENSDVIIVIGANPTENHPVAATFFKNAAKNGSKLIVVDPRKSSLNKYAFENLNFRPGTDVALLNSIMNVIIKEKLYDQQYIKGYTEGFSDLIKNTNKFTPEKMEKITGINSETIKTVARTYAKAKSAIIFWGMGISQHVHGTDNARSLIALSLMCGQIGRPGTGLHPLRGQNNVQGASDAGLIPMVFPDYFPVQDDKNRKKLEKLWKSKLDSEPGQTVVEIMHGMNDGTIKGMYIMGENPAMSDPDTKHARKGFAKLEHLVVQDLFLTETATFADVLLPSSAAPEKDGSFTNTNRQVQMGRKAIPLPGDARQDLWIINELGKRLGLKWNYNHPKDVFPEMAQTMPSIKGLTWDRLEKENSVVYPVKDINQPGEEVIFSKGFDTKNKRGKIVPTDLTPPDEVPNKEYPMILMTGRLLEHWHTGSMTRRSKVLDSIEPIATAHFNPKQLKKIGINAGDKVKIETRRGKVEVKVRFDRNVPNNVIFFPFAFKEAPANVLTNPELDPIGKIPEFKYCAAKLEKLKKEESYSYK;locus_tag=LOCUS_4220;note=WP_011085105.1 formate dehydrogenase subunit alpha (Bradyrhizobium diazoefficiens USDA 110) [pid:64.8%25%2C q_cov:98.5%25%2C s_cov:98.7%25%2C Eval:0.0e+00],MGA_438
sequence14	MetaGeneAnnotator	CDS	12248	13951	.	-	0	ID=MGA_439;product=NADH-quinone oxidoreductase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085104.1;translation=MNKEIKILKNGDLGRKKEKKIFFPKGRIVDEKAEKEIILLLKNKSKARDMLIENLHLIQDKYKCLHAKHLTALATLMKMPLTEVYEVASFYAHFDIIDNDEKPANITIRVCDTVTCEMFGAKKIIQNLKKKYNKKNIRVLKAPCMGRCDTAPVLEIGHKHIDFVNEKKVENVINKKNFSPKINTYINFDDYKKNGGYDILKNCLSNKIKPNQIIKIIEDSKLKGLGGAGFPTGLKWKLTKNEPAPRLMAVNADEGEPGTFKDRYCMETDPHRFLEGTLIAAWVVDAKTCYIYLRDEYPFVNKILKDEIKKIEKAGLSINCKLVIRRGAGAYICGEESAMLESIEGKRGYPRHKPPFPVQEGLFGRPTLCNNVETLFWIRDIIEKGSKWFASFGKNGGVGFRLYSVSGRVKNPGVKKAPAGITVNELINDYCGGMENNHEFKGYLPGGASGGILPASLGNIPLDFGKELDKEGCFVGSAAIVIFSQKDSMKDITINLLKFFEDESCGQCTPCRVGTEKAVKLLKSKKWDKKLLNDLDKVMTDASICGLGQAASNPINCVLKFFQNDVS;locus_tag=LOCUS_4230;EC_number=1.6.5.3;note=WP_011085104.1 NADH-quinone oxidoreductase subunit F (Bradyrhizobium diazoefficiens USDA 110) [pid:54.9%25%2C q_cov:99.1%25%2C s_cov:97.9%25%2C Eval:7.9e-179],MGA_439
sequence14	MetaGeneAnnotator	CDS	14010	14183	.	-	0	ID=MGA_440;product=DUF3553 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002723397.1;translation=MNDLIVPGIYVTHPNKKDWGIGQVQSKIKNVITVNFENSGKKTINGEKIDLIIVKNE;locus_tag=LOCUS_4240;note=WP_002723397.1 DUF3553 domain-containing protein (Rhodobacter sphaeroides 2.4.1) [pid:51.9%25%2C q_cov:94.7%25%2C s_cov:91.5%25%2C Eval:8.0e-11],MGA_440
sequence14	MetaGeneAnnotator	CDS	14259	14678	.	+	0	ID=MGA_441;product=RNA polymerase-binding transcription factor DksA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8H0C0;translation=MVSKKKISSKYKPTAKEPFMNAKQKEYFRQKLINWKDELLKGSTETITNLKQDKEVTGDFADIASAESAKSIELRTRDRERKLINKIDQALKRIDNNTYGYCEVTGKPIGLKRLEARPIATLSIEAQQIHENQEKLNND;locus_tag=LOCUS_4250;gene=dksA;note=B8H0C0 RNA polymerase-binding transcription factor DksA (Caulobacter crescentus NA1000) [pid:57.3%25%2C q_cov:94.2%25%2C s_cov:92.3%25%2C Eval:2.6e-41],MGA_441
sequence14	MetaGeneAnnotator	CDS	14811	15938	.	+	0	ID=MGA_442;product=protein RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQH9;translation=MMKKTNLKNVSSTMEQKEKVTKIKDQSLNTAISQIEQSYGKGSIMKLGDNKQNVDVDVVSSGSIGLDIALGIGGLPRGRIIEIYGPESSGKTALAIHAISECQKTGGTCAFIDAEHALDPAYAKKLGVDIDSLLISQPDSGEQALEIAETLVRSNAVDILVIDSVAALVPKAEIEGDMGDSHMGLQARLMSQALRKVTSCISRSNCIVIFINQIRMKIGVMFGNPETTTGGNALKFYSSVRLDIRRIGAIKDKEEIIGNQTRVKVVKNKLAPPFRMVEFDIMYGKGISKLGELVDLGSEAGVIEKSGTWYSYKGDKIGQGKENAKKYLSEKKDIAAQIYRSIMEASGVVKEKMMEGKKEEKSKENNPTENSQQTE;locus_tag=LOCUS_4260;gene=recA;note=Q2RQH9 protein RecA (Rhodospirillum rubrum ATCC 11170) [pid:67.7%25%2C q_cov:88.3%25%2C s_cov:90.4%25%2C Eval:3.1e-130],MGA_442
sequence14	MetaGeneAnnotator	CDS	15986	18577	.	+	0	ID=MGA_443;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UE87;translation=MYPSNLIRKKFLDYFKKNSHNIITSSSLIPENDPTLLFTNAGMVQFKNILTGIEESKFKKVTTSQKCIRAGGKHNDLDNVGHTNRHHTFFEMLGNFSFGDYFKEEAIFYAWDLLVNVFNIDKKKLFITVFVEDDESKKIWKKISGFNDEKIISIKSNDNFWSMGDIGPCGPCTEIFYDYGNKFKGSITDNGISGDRYVEIWNLVFMEFNQLNKNKRIVLPQKCVDTGMGLERITALLQKTHDNYQTDVFSKIINQIGKLSNTQNINSNNISHRIIADHIRSSCHLISDGVLPSNEGRGYVARRIMRRGMRHAHILGCKEPIFYKLVPLIVKEMGSTFPELKRAESLMIEILKNEEHRFKETIDRGLKILNDEIEKTDKKIFSGDTAFLLYDTFGFPLDLTQDILKESNISVDLKTFNKNMNSQRKKAKSKWKGSGDTSTSKLWYEIYENEGPTEFVGYNNTKAEGSIIQIVKKNKFVNEIKIGDEAIIITNQTPFYAESGGQIGDTGIIKLNKNEFEVKDTKKILKIHLHFGKVIKGEFKKKQNVNLIIDNQKRKRIKIYHSLTHLIHSALRAILGKHVTQKGSLVSFNKLRFDFSHPRSLENNEIKKIEMIVNKIIKQDDTVNIFITSYKKAVGKGAMALFGEKYDDEVRVVSMGKNLNNSIFSIELCGGTHVNKTSEIESLKITKESSVSSGIRRIEAISGIDILKYSKEQKKNVLEKEKDSIKKKLEEKLSEKKTKITLQDKSKNLIQEGEINSIKYYFRTINDLPPNHLPNLLDEIKLKMQNTIIVLYGIYNKNISIVVGTSDSFSKKINAIDIVKKISNYLGGKGGGGRPDFARAGGGKDINKISEINKILIESFKAL;locus_tag=LOCUS_4270;gene=alaS;EC_number=6.1.1.7;note=Q8UE87 alanine--tRNA ligase (Agrobacterium fabrum str. C58) [pid:49.1%25%2C q_cov:97.1%25%2C s_cov:97.4%25%2C Eval:6.5e-239],MGA_443
sequence15	MetaGeneAnnotator	CDS	245	1009	.	-	0	ID=MGA_446;product=thiazole biosynthesis adenylyltransferase ThiF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880850.1;translation=MLKKISEKEIKRYAHQILLKNVGINGQKKLLKAKVFILGVGGLGSPVSMYLASAGIGTIGLADFDKVELSNLQRQILFDQKNINKSKVQVAKKKLLSINPNLKINIYKKKITKLNVDKIISNYDVIVDGSDNFPTKYLINDSCVKNKKTLVSGAIQGFEAQITSIKGWLKSKNNPCYRCIFPEIKKLNNNDNCRNFGVIGGVAGITGSFQSVEVLKNILNIGKPLVGKLVILDLLNNQFKKIKIEKNRNCTICN;locus_tag=LOCUS_4280;gene=moeB;note=WP_010880850.1 thiazole biosynthesis adenylyltransferase ThiF (Aquifex aeolicus VF5) [pid:50.4%25%2C q_cov:97.6%25%2C s_cov:91.1%25%2C Eval:4.6e-67],MGA_446
sequence15	MetaGeneAnnotator	CDS	1015	1956	.	-	0	ID=MGA_447;product=cysteine synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010921452.1;translation=MKTIRNKIYESILDTIGNTPLVKINRISKKYNCYGELICKLEFFNPTSSVKDRIGMAMIEDAEKKKLINKTTTIIEPTSGNTGIGLAFVCAAKGYKLILTMPESMSIERRKMLILLGAKLILTPAENGMKGAINEAIEIKRKTKNSFMPQQFENQSNPIIHEKTTAIEIFNDTKGNLDAVIMGVGTGGTISGVSKILKKKNKKIKIIAVEPEDSPVISGGDPGPHKIQGIGAGFIPKILDKSLIDEVIQIANETAFSTAKMAAKIEGLPIGISSGAALAAGIEVAKRKNMKNKKIIVVIPSFAERYLSTALFK;locus_tag=LOCUS_4290;EC_number=2.5.1.47;note=WP_010921452.1 cysteine synthase A (Caulobacter crescentus NA1000) [pid:60.4%25%2C q_cov:98.4%25%2C s_cov:93.9%25%2C Eval:1.6e-102],MGA_447
sequence15	MetaGeneAnnotator	CDS	1960	2409	.	-	0	ID=MGA_448;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391542.1;translation=MNIIFNKKFLHALEAVLDISIYSSSKPARAKEITKRQGIPTRYLEKILQELVHKNILKGTRGPNGGYTLGKEKRNIFLIDIYNAIMETEKNKNKNINTRIRTEIINPLIKNVSNEVINSFKKTNIHDLYKKIHTTKINIKKENKTDFII;locus_tag=LOCUS_4300;note=WP_011391542.1 Rrf2 family transcriptional regulator (Rhodospirillum rubrum ATCC 11170) [pid:34.0%25%2C q_cov:98.7%25%2C s_cov:99.3%25%2C Eval:1.5e-19],MGA_448
sequence15	MetaGeneAnnotator	CDS	2410	2856	.	-	0	ID=MGA_449;product=deoxyuridine 5'-triphosphate nucleotidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66592;translation=MLNIEIEKLPHAKNIPLPSYSSKNCSGLDLYAAIKKKINIKKGQIILIPTGIKISLKKNLEGQIRPRSGLALNSGITVLNTPGTIDADYRGEIKIILINHGSKKFVIERGMRIAQLIISKVEKIKWNQKKKISILTKRSNKGFGSTGL;locus_tag=LOCUS_4310;gene=dut;EC_number=3.6.1.23;note=O66592 deoxyuridine 5'-triphosphate nucleotidohydrolase (Aquifex aeolicus VF5) [pid:51.4%25%2C q_cov:97.3%25%2C s_cov:95.3%25%2C Eval:3.5e-37],MGA_449
sequence15	MetaGeneAnnotator	CDS	2857	4053	.	-	0	ID=MGA_450;product=phosphopantothenate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012710170.1;translation=MKKILFIISGSISAYKSLDLIKDLIKKDFSIEVILTKYGKKFVTPLTISSLINKKIHTNTFDENIKNDMKHINLSRKTDLILVCPASANIIAKLANGYADDLASTTLAASDKKIFVVPAMNKKMWENKANKENIAKLISRGIKIIGPISGNLACGEIGMGRIQDIKIIKKEINNFFLNRNKLKGKKILITAGPTIEMIDPIRCISNLSSGKQGYEITNVASNFGAETILISGPSSIELPNANKIIQVQTAKEMYDQSLNICKKYKKIDAAILTAAVSDWKILTSNKKFKKNQNKFKNIKFKENKDILFSISNLKKYRPKLVCGFAAETDLVIKNAREKLLKKNCDIIFANKISKRFNPINNNFNEISMIGKNKEIKWKKMEKNKLAEKIVNEISFYIN;locus_tag=LOCUS_4320;note=WP_012710170.1 phosphopantothenate synthase (Sinorhizobium fredii NGR234) [pid:39.1%25%2C q_cov:97.5%25%2C s_cov:96.5%25%2C Eval:6.4e-73],MGA_450
sequence15	MetaGeneAnnotator	CDS	4117	4809	.	-	0	ID=MGA_451;product=ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCP3;translation=MKKDYVNKIFHNIANKYDLMNDIMSFGIHRKWKKKFIKHIDLKKKDIKLLDLGCGTGDIVSEIDTSNKFSNYISYLVDPNINMIKEGQKKIKKKKNKWINAYGENLPFKNNSFDLITMSFSLRNVSNLKKTLSEINRVLKVSGQFLCLEFGKIDNLAINSIYKIYSENIIPEIGEKITGKKYAYEYLVDSIKKFPSQEELVKILKSKKFKFVNFHNLTFGVVAIYSCKKK;locus_tag=LOCUS_4330;gene=ubiE;EC_number=2.1.1.163,2.1.1.201;note=Q9ZCP3 ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE (Rickettsia prowazekii str. Madrid E) [pid:41.0%25%2C q_cov:99.1%25%2C s_cov:93.5%25%2C Eval:6.2e-41],MGA_451
sequence15	MetaGeneAnnotator	CDS	4853	5683	.	+	0	ID=MGA_452;product=formamidopyrimidine-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NGY3;translation=MPELPEVETTINELKLIIINKYIDKILVFTDSLRFPINKNNLKKVEKSKIIKVLRRGKYILIFFLNNYTLLIHLGMSGRLIFKKKIIKKNKHDHIILRFKKNLNIIFNDPRKFGIVDVIKKNSLFNSSYLKKLGIEPLSKKFSCKAFEKILINKKTNIKNILLNQSLIAGLGNIYACESLFEAGISPLKLANSLNKKNIKILKLKIKKILKKSIKSNGSSINDYKTPTGSLGNFQNNFKVYNREGKKCKNFNCKKKILRVVIGGRSTYYCRNCQKN;locus_tag=LOCUS_4340;gene=mutM;EC_number=3.2.2.23;note=Q5NGY3 formamidopyrimidine-DNA glycosylase (Francisella tularensis subsp. tularensis SCHU S4) [pid:34.8%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:2.8e-44],MGA_452
sequence15	MetaGeneAnnotator	CDS	5745	5999	.	+	0	ID=MGA_453;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97JK0;translation=MPITKSVKKRVRQANTRYERNKALSIVLKKTIKEFLDSLTKKDKKKSTDLFKSCQKIIIKAQNKGIFNKNKASRKISSLNTKLK;locus_tag=LOCUS_4350;gene=rpsT;note=Q97JK0 30S ribosomal protein S20 (Clostridium acetobutylicum ATCC 824) [pid:39.2%25%2C q_cov:94.0%25%2C s_cov:89.8%25%2C Eval:1.4e-07],MGA_453
sequence15	MetaGeneAnnotator	CDS	6181	7557	.	+	0	ID=MGA_454;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q59758;translation=MEKNSNIKKTIGPDEIIWSSIKIKLKSLYGDAEFSNWIKLLTFNKAKNDVIIFYAPTKFMCDWILSHYGKKILSLWNEQNKSIKDISIIVYDNDSKNKKLEKTVKNNKASKLIINNEEFENNLDPRFTFKDFVVGKSNELAFSAARRVADSNDVPFNPLFLYGGVGLGKTHLMHAIAWQKKKTNPKLKILYLSAEKFMYEFIKALRFKNTVLFKEQFRSVDLLMIDDVQFIIGKDSTQEEFFHTFNALADQNRQMVISADHSPSDLEGLEERLRSRLGWGLVADIHPTTYELRLSIIESKIEKYNLQLSKDVIEFLAHKITTSVRELEGALTRLAAHVTLVGRSVDLEIAEDLLQDLLRASDRRATIDQIQKKVAEHFNVKLSDMHSARRSRTIARPRQIAMYLAKNLTTRSLPEIGRKFGGRDHTTVIHAIKKIQELTKNDSNLAEDIEILTRSLQS;locus_tag=LOCUS_4360;gene=dnaA;note=Q59758 chromosomal replication initiator protein DnaA (Rickettsia prowazekii str. Madrid E) [pid:54.8%25%2C q_cov:96.3%25%2C s_cov:96.1%25%2C Eval:4.4e-137],MGA_454
sequence15	MetaGeneAnnotator	CDS	7599	8726	.	+	0	ID=MGA_455;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RYI8;translation=MKLKLTKSNFVKSLSFVQNIVESKTTIPILANVLLEAKQGRLHVSATDMDITLFDKIKLNNIESEGSTSVPAHTLYNVIKELSDDDPIELSYDKNNRKLHLLSSKSKVVFSGLAKEEFPVLATENFNINFELKSDLLKEIIDKTYFAISNEETRYYLNGLYLHIANINSKIFLRTVATDGHRLAQFQINAPQTIGKNNFGVIVPKKLIFEIRKLIDDINDNIKIDLSERKIRFSFKETVIVSKLIDGKFPDYEKVIPKNTSNSFSINRKKFLESINRISTISSEKSKAIKLNLNKDKLTVSANNLEEGGSGIEEISIKYNGPTLDIGFNAIYLKEIINQFSSEEVIILFSDSTAPTIVKDNSKSESLYVLMPMRV;locus_tag=LOCUS_4370;EC_number=2.7.7.7;note=Q2RYI8 DNA polymerase III subunit beta (Rhodospirillum rubrum ATCC 11170) [pid:42.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.0e-82],MGA_455
sequence15	MetaGeneAnnotator	CDS	8734	9894	.	+	0	ID=MGA_456;product=DNA replication and repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEB6;translation=MKIRSLYLENFRSYEKLNLKIKDNRFVILTGKNGVGKTNLLEAISFLSPGKGFKNCNIEEVVRSNLDIQKSNIFFVLSDGKEKNEIGIEFIKEKFLKEKKGKKIIFLNGKKIQKQTFLPNIISIIWLTPEMDIFFRTSSLIRRKFLDRCIFNLSPQYLEYLKLYDKNVKERNKILKDIAKKDLFYILGKYKEKDLWLKKIEEKIVEISLKIFSNRNKFINDFNSLSNNFKNFPKIRIFLKGKIEDLLITKNDEKNKKIFLDKLISCRKIDSIKRSISYGPSKSDLKVLFLQKKKLADKCSTGEQKILLISLIIQFCKLMNEKKSFPILLLDEIVAHLDEKVKESLFEELKSLKNQVWMTGAEVSFFVSIIKSQNVINLKIEDYIKQ;locus_tag=LOCUS_4380;gene=recF;note=Q9ZEB6 DNA replication and repair protein RecF (Rickettsia prowazekii str. Madrid E) [pid:33.9%25%2C q_cov:97.4%25%2C s_cov:98.6%25%2C Eval:5.7e-47],MGA_456
sequence15	MetaGeneAnnotator	CDS	9907	12378	.	+	0	ID=MGA_457;product=DNA gyrase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6UEG4;translation=MVKSKENLKKKNKNKADSIKVLKGLEAVKKRPGMYIGDTEDGSGLHHMVYEVVDNSIDEALAGHCKKIDINLNPDGSVTVKDDGRGIPVDIHPQEKISAAEVIMTQLHAGGKFDHNSYKVSGGLHGVGVSVVNALSEKLKLEINRDGNSYFMEFKNGDSLKPLKKIGKNKGESGTEITFYPSKDIFKSINFDFKKLEDRFRELAFLNSGIEIEISDDRSAEKKISKLHFKGGIESFVKFLDKSKENFLSKPITFTEKKGDLIVDVSIIWNTGYYENMLCFTNNIPQIDGGTHLAGFRSSLTRVVNKFANESKILEKNKINLTGEDCREGMTCVLSVKMPDPKFASQTKHKLVSSEIRPVVESAVNSGLEQWLEENPKDTKLILTKISESAQAREAARKAKELTRRKGILDFGSLPGKLADCQEKDPSKCELFIVEGDSAGGSAKQGRDRKHQAVLPLKGKILNVEKEARADRFLGSDEIGALISAIGTGIGNEEYNYDNIRYHKIILMTDADVDGSHIRTLLLTFFFRQFKDLIIKGNLYIAQPPLYKIKVSGQGQQYLKNEEAMTQFLINNAIKNIKLKTRNKKVYKDNELSSFIKKTIKIRDTISELGDKIGSVELVERAAANEFFHSAIRNFKLTQKNMEKVAIHIVKALNTSSNVSEWQGNFINDKDTKEKYFLFKKESRGVTDEFKITEKIIKDSPEAEVLGDKDNRIFLENLLHKGESSITIDEKSFSINTINDFLDRVREAGKKGVNVQRYKGLGEMNPEQLWETTLDPEKRTLLKVQMEDENTLDETFVKLMGEKVEPRRIYIQDNAKKVVNLDI;locus_tag=LOCUS_4390;gene=gyrB;EC_number=5.99.1.3;note=A6UEG4 DNA gyrase subunit B (Sinorhizobium medicae WSM419) [pid:52.5%25%2C q_cov:98.2%25%2C s_cov:98.0%25%2C Eval:8.5e-233],MGA_457
sequence15	MetaGeneAnnotator	CDS	12390	13007	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRIFFFIFFINFFVFSIILAEQDPNISLEDDAREKQLGFEHKYRDSENVINQKLIRYIELNQLDKIKIHIKENGKNLNFQVKGLNPFVHAATMNKISILKFFLKEAKIDVNHEDSLGNTALLKSSEKGYLEITEFLINSGSNVNHQNKQGMTAAMKAAENDHYYILKMLMEYNIDKNKSDYSGRTLQEIAENSRDKRLLKLLN;locus_tag=LOCUS_4400;note=WP_011016207.1 UNC-44 ankyrin (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:28.2%25%2C q_cov:56.1%25%2C s_cov:35.9%25%2C Eval:2.5e-08%2C partial hit],MGA_458
sequence15	MetaGeneAnnotator	CDS	13011	13409	.	-	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKKENNKKFNINDINQYFSILKKYCLKLLNLDAQTYFFIVPGILLLIGLLPVPDVYFAILRIYLFISALVLTYKFYFDEKDNIYASIFAGIAIIYNPIFFIKFGNEEINTGPIIFVLTIALFVLGHKKIK;locus_tag=LOCUS_4410;note=MGA_459
sequence15	MetaGeneAnnotator	CDS	13481	14071	.	+	0	ID=MGA_460;product=phosphoheptose isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67054;translation=MKKKIDLNTLFRSEVNNHILNANIFLKENFNDFRKFMQIVILSLKKGNKIILFGNGGSASDAQHIAAELVVKYKKKRKSIPAISLATDTSALTAIGNDFTFNEIYSRQIESIGNKGDIAIGITTSGKSENILKGLELAKKKKLKTIILTKKNYPNKSKIQKISDLIISVPGNETARIQELHILVGHLMCAVIDENF;locus_tag=LOCUS_4420;gene=gmhA;EC_number=5.3.1.28;note=O67054 phosphoheptose isomerase (Aquifex aeolicus VF5) [pid:50.6%25%2C q_cov:79.6%25%2C s_cov:80.1%25%2C Eval:7.4e-39],MGA_460
sequence15	MetaGeneAnnotator	CDS	14080	14523	.	+	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENISTNILSLLNKKIFCLGDLMLDNYILGNTERISPEGPIPVLNIKNKVEMLGGVGNVVRNLSTLATNTHLVSITGNDNIAKKVEKKLDQINCFKQIIKDKNRPTTTKSRFIANNQQILRVDHEDVSKISKNIEEKIYSYSKKKF;locus_tag=LOCUS_4430;note=WP_010880334.1 ADP-heptose synthase (Aquifex aeolicus VF5) [pid:41.5%25%2C q_cov:96.6%25%2C s_cov:44.8%25%2C Eval:3.6e-26%2C partial hit],frameshifted%2C insertion/deletion at around 14496,MGA_461
sequence15	MetaGeneAnnotator	CDS	14799	15533	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKSGMILVSSKKSIKLNAEAQEIFDVSGAGDTVVSFIAAGLASSLKIENIVKIANIAAGVVVNKTGTSVAHLSEVLLSVNKNDYHLSKVMKISEAINTINFWKKKKEIIGFTNGCFDYLHPGHISLFNQAKKRCSKLIVAINSDLSIKLNKGPTRPKQKLNKRLQVLNSIPFIDLIIVFSSKTPLEIIKKIKPKYLIKGADYKENQIIGAQEVKKDGGKIIRAKILDNFSSSVIIEEVLDTSF;locus_tag=LOCUS_4440;note=Q2RY67 bifunctional protein HldE (Rhodospirillum rubrum ATCC 11170) [pid:39.7%25%2C q_cov:95.9%25%2C s_cov:47.8%25%2C Eval:1.2e-45%2C partial hit],MGA_462
sequence15	MetaGeneAnnotator	CDS	15530	16339	.	-	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIIITHGTDTLSYTASAISQYFFNFFKPILFVSSDKPFNEKSANGRNNLDAAINFIIKIKLPGTYVAYKNPKKNFVSIFLGSRVNQINSFDNKLNSKISSFFCYFKNKKFFFNKKRNPSFQAIKNNCKKKELNKNFRFSNKILIINPFPGLNYNYFNFKKETPKVILQTLYHSGTASTKKNFKFNTSFKYFIKIYKNKLSFYMTPISSKNKNIYKTLKTLKNLGAICIEDVTVETAYAKLCLAYKTFKSKKEINLFLKKNNFFEKINF;locus_tag=LOCUS_4450;note=WP_010869512.1 glutamyl-tRNA(Gln) amidotransferase subunit D (Methanocaldococcus jannaschii DSM 2661) [pid:25.5%25%2C q_cov:96.7%25%2C s_cov:60.2%25%2C Eval:2.2e-09%2C partial hit],MGA_463
sequence15	MetaGeneAnnotator	CDS	16716	17282	.	+	0	ID=MGA_464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIDIEICELTLAGMCEPKASWTQMSKKNIILSFKDILNLRNASLKEYNVKEQNDEFNQIIKLHTQMGQEIINNEYGNFKLPTKENFNWSLGKNVKLLKKKYNSDFALFIFFRDQYSSTKRVIYNVVTAILFPGIIPIGGSQLAFASLVNLNNGEVTWFNGYYRSFGDVRDLEKAKDTINTLFEDFPG;locus_tag=LOCUS_4460;note=MGA_464
sequence16	MetaGeneAnnotator	CDS	150	2156	.	+	0	ID=MGA_466;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3CAV3;translation=MNKEKIQSKKNKDSSSGKKKVSVIDLIRKDKYIPQFKSLIEETKKIGKISFTKIKKFFDPDIINSPDFETVLNFLKIQGIILKRRNRGPNNSNSNLIKKQKKLAKKLLKGEARTSDPVRMYLKEMGSVDLLTRQGEVDLSIKIEKGKEKILRAIYEFPFVYEYFSILKKKIQDKEVFLRHIVDLEKFYTTYISKKIPITIDDASLNEEAAKAEENINENNNEDDEKLKSKDQKKNNLKEEKHIDEENFTISFMESKIENKIFNILDKLGVQYHKFKSLIIEKKDLINKNKEFTAAKFKNYESIKKKLVSYLEKLCLSEDCINFFILKINEINKLLIVPQGNILKLAQKNGIDRKDFIKAYEKNELNPYWSKKQSKESEPWKKFFKNCSKEIKQSNTELNKISNDYKLAISELKHLGNEISSGKYISETAKKQMIEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYKRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKIIRTSRIMLHEIGREPTPEELSTKLSIPLEKIRKVMKIAREPVSFETPVGDDDDSFLGDFIEDKNTVVPGEAAINTNLRETTTRVLSSLTPREERVLRMRFGIGVNTDHTLEEVGQQFTVTRERIRQIEAKALRKLKHPSRSKQLKSFLDKS;locus_tag=LOCUS_4470;gene=rpoD;note=A0A0H3CAV3 RNA polymerase sigma factor RpoD (Caulobacter crescentus NA1000) [pid:48.2%25%2C q_cov:94.3%25%2C s_cov:95.4%25%2C Eval:8.1e-162],MGA_466
sequence16	Aragorn:1.2.38	tRNA	2189	2265	.	+	.	ID=Aragorn_8;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0080;note=Aragorn_8
sequence16	MetaGeneAnnotator	CDS	2279	2887	.	-	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010921520.1;translation=MLIKKLILIIICSTFFIFSSNSSNNKLFAANDPGTFIMNMTLNAIKNLTNSSVSSEEKEEKFGELFDNNFDIPSISRFVLGKYWKSASLDQKKEFIKTFRNYIVKTYSTRFNDYSGQNLKLVKFENESNPKLFLVYTVLETPDAPLIKINWRVGKKKDKFVILDIVIEGISLAVTQRSEFVSVIEQNNGKIDSLISLLKEKI;locus_tag=LOCUS_4480;note=WP_010921520.1 hypothetical protein (Caulobacter crescentus NA1000) [pid:31.6%25%2C q_cov:84.7%25%2C s_cov:78.6%25%2C Eval:2.6e-18],MGA_467
sequence16	MetaGeneAnnotator	CDS	2890	3693	.	-	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFFKYFVTLILFLSLNYNIVVAEHHENVIVEDPIVVESDFDLNQTYGKEKDYSDVDPIENFNREVWDFNLGLDKVFFRPVTRGYVNVVPDPFRRGLGNAMENFFKTPQYFVNNTLQGKIDGAFSTIARLVINSTIGLGGFIDVASKMGIEKRPENFGDTLGVWGWKKSNYVQVPFKGPQTSRDIVGFVGDIFTDPLILIGGIPLWGNLVKTAGTAVDDRQSTLGVLEEMESTSLDFYSSIRSMFLQKRTDEIETDKVQDYRSYLNN;locus_tag=LOCUS_4490;note=WP_011039273.1 lipoprotein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:39.0%25%2C q_cov:74.9%25%2C s_cov:55.4%25%2C Eval:3.1e-32%2C partial hit],MGA_468
sequence16	MetaGeneAnnotator	CDS	3790	4671	.	+	0	ID=MGA_469;product=methylenetetrahydrofolate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RU65;translation=MRQKLKISFEFFPPKNLLMYQNLWKTLNKLKIFYPEFVSITYGAGGTTRKRTHETIKKFTYRPSIRPIPHLTCIGDTKKSIKKLARDYWDLGIRSIVVIRGDPENIKLSKKRKFVTFPNGYKYSSQLVRDLKEIKNFNIIVAAFPEKHPESKNIDEDIDNLKRKIDAGASKGITQFFFDNNKFYDYKNLLEKKNIKIPIIPGILPIINFEKLVHLAKNCSASIPLKIQKLYKNKNDLFNLSVDIATNQCLDLIKNGFNEIHFYTLNRADLTGKICSNITKRKLFDKTYDAFWS;locus_tag=LOCUS_4500;EC_number=1.5.1.20;note=Q2RU65 methylenetetrahydrofolate reductase (Rhodospirillum rubrum ATCC 11170) [pid:40.7%25%2C q_cov:92.5%25%2C s_cov:85.0%25%2C Eval:9.5e-62],MGA_469
sequence16	MetaGeneAnnotator	CDS	4674	5612	.	+	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNDFYLNKLNKKQKEAVETLKGPVLVLAGAGTGKTRVLTTRLAHLLNKKLAHPWEILAVTFTNKASNEMKERVQKLLKIDIERMWIGTFHSLGLRILRKYSELCSLKSDFTVIDTDDQIRLVKQILETNKMDIKKWTPNNVLWMIQWFKDKGILQEDSNKFRFKFGKKINISKIYSQYQERLKILNAADFGDLLLLPVKIFRNNKDVLLKYQNQFKYILVDEYQDTDTCQDIFLKFLSEKYKNICCVGDDDQAIYSWRGADVKNILSFPEVFKNSKIIRLEQNYRSTNHILSGASKLIENNKDRLGKTLWT;locus_tag=LOCUS_4510;note=Q9A836 DNA helicase (Caulobacter crescentus CB15) [pid:55.6%25%2C q_cov:98.4%25%2C s_cov:38.3%25%2C Eval:2.7e-94%2C partial hit],internal stop codon at [5610:5612](+)%2C[5616:5618](+)%2C[5664:5666](+),MGA_470
sequence16	MetaGeneAnnotator	CDS	5736	6206	.	+	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRASFQTRLFEDRLLKIGIPYRVIGGFRFYERLEIRDAIAYFRVVYKNNDDLALERIFNTPKRGLGSVTLQLIYKFARETNMSLLDASKKIIQTDELTPNARNIIKKFIEDINMWKTKIRKMNHVNLAKVILEESGYTKMWLQDKSIEAPGRLEN;locus_tag=LOCUS_4520;note=C3MEH1 DNA helicase (Sinorhizobium fredii NGR234) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:17.9%25%2C Eval:5.3e-45%2C partial hit],internal stop codon at [5610:5612](+)%2C[5616:5618](+)%2C[5664:5666](+)%2C[6204:6206](+),MGA_471
sequence16	MetaGeneAnnotator	CDS	6243	6863	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEFLEHVSLVMENERNYKFDMVNIMTMHAAKGLEFENIFLAGWDEGLFPHQKSLEEKGDAALQEERRLAYVGITRGKEKVNISFAKRRFIHGNWNFSQPSRFLSEIPKENIDTKEDIFFEEEDLIVDQETFENEINNPNRLLFKKKLQNNENIYDSDYKFEIGDEIFHEKYGYGKIKYIVDGKYEIIFDKLNETKIVLENFIKHA;locus_tag=LOCUS_4530;note=C3MEH1 DNA helicase (Sinorhizobium fredii NGR234) [pid:37.3%25%2C q_cov:99.0%25%2C s_cov:28.1%25%2C Eval:5.3e-38%2C partial hit],internal stop codon at [6204:6206](+),MGA_472
sequence16	MetaGeneAnnotator	CDS	6876	8645	.	+	0	ID=MGA_473;product=Xaa-Pro aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013530971.1;translation=MKESISYKNKIKILKTFLRKRDCDYYLLPRTDKFMNEFILEEDERVKWLTGFSGSFAFVIVSSKKNLIFTDGRYINQIKKEVNKDLFNILDINKKEPFQWLKENLKKKEKVIVDSWLFTSNKYNYLKSIINKKKGKLSLSNEILIDKIWKKKPKRTNKNFFIRDLKYAGISFKNKINKIKKNFKAEKINNFFFSSPESISWLLNMRSNQIKYTPVILSFLLLSLNKKSYFFFNKKLNFKKYLTSKFEVFDIAELKKILIKFSVINHEIYLDPNKTAYFIENFFKSIGVVVKYFKDPCDNLKLIKNSTEIKGSRNAHIRDGASVCKFLFWLDSQIKRNRKVTEILTSKKLFDFRKKNKFFKSLSFETISGFGSNGSIIHYRVSKNTNKILKKNNLFLFDSGAQYLDGTTDITRTVAIGCNPTNEQIDVFTRVLKGNIELTNFSFNKKTTGKELDKIARKYLRKKKYDYSHGTGHGVGSYLSVHEGSISISKKSNTTFREGMFVTNEPGFYKKNEYGIRIENILLIIKEKNILRFEILTYAPIDLKLIDVKLLNLKEKKWINSYHYNVFKKVNKLLNINERKWLKKNTMPI;locus_tag=LOCUS_4540;note=WP_013530971.1 Xaa-Pro aminopeptidase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:35.0%25%2C q_cov:98.5%25%2C s_cov:96.4%25%2C Eval:1.5e-95],MGA_473
sequence16	MetaGeneAnnotator	CDS	8642	10747	.	-	0	ID=MGA_474;product=DNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RVV5;translation=MNYLKNMDTKKMKQRDKKENVKKIEEKYLKLIKEINIHNKLYYDKNNPKISDAEYDALWKNIKDLELNFPFLKKEDTPTERIGYKPNKNFSKVRHNLPMLSLENALNLQDLNKYIEKILRYLNIQNQFIELIAEPKIDGLSISLRYKNGKFILGSTRGDGQIGEDVTQNLETIENIPKKIEKLKNVKIFEIRGEIYMNKKDFFNLNNIRRKENKSLFANPRNAASGSLRQLDKSIVKERNLKFFAYTYGEISNGIIFKSQSEFLKIIRSYGFPTNDQFKICKNFKDIDLFYNKIENIRDSLEYDIDGIVYKINNLNIQKRLGLVGRAPRWAIARKFPAEKAETQIKDITIQVGRTGILTPVAELNPVFIGGVKVSRVSLHNQDEIDRKDIRIGDTIKLQRAGDVIPQVISVDKKKRIKNSFKFNIPKECPCCKSKTFRNKGEVAIKCLGGLALCEDQQLGSLKYFVSRDAFNIEGLGGKNLRKFWKDKFIKYPYDIFYLDKFKNEIINKDGFGEKSYLNLINSINQKRTISLEKFIYSLGIPQVGQRTSNLLSKHFKNFSNWFSSIKKLNKNDKIIFDQFINIDGIGTDVVEDIKKFFDEEKIEIVKKLQNALDKIEEYKFLKNKNSKLSEKIIVFTGTLEKMSRNEAKSKAEELGAKVTNSVSKNTDYVIAGKDSGSKEKKAKELNIKILNETEWIKFLN;locus_tag=LOCUS_4550;gene=ligA;EC_number=6.5.1.2;note=Q2RVV5 DNA ligase (Rhodospirillum rubrum ATCC 11170) [pid:46.4%25%2C q_cov:95.1%25%2C s_cov:96.7%25%2C Eval:2.2e-165],MGA_474
sequence16	MetaGeneAnnotator	CDS	10698	11456	.	-	0	ID=MGA_475;product=outer membrane protein assembly factor BamD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9A6U9;translation=MSSLAFGCGVRERLKEKPIVTYVEKPPELLWQDANRYFSRGNYTEAANTFEEIDKQHPYSKLAKRSKIMAGYMYYLNKDYISSIFSLDRFISLHPADKNIPYVLYLKGLCYFEQIDRVTLDQEPSLESKKIFEELIKKFPNSKYSIDAKKKILIANDQLAAKEMDVGRYYQKKNRHLAAIERFKMVINNYNTTAQTPEALYRLTESYLSIGIIKEAKKTTAVLSYNYKESNWYKLSYELFKKYGYKENETKG;locus_tag=LOCUS_4560;gene=bamD;note=Q9A6U9 outer membrane protein assembly factor BamD (Caulobacter crescentus CB15) [pid:44.6%25%2C q_cov:91.7%25%2C s_cov:75.7%25%2C Eval:2.1e-56],MGA_475
sequence16	MetaGeneAnnotator	CDS	11582	12514	.	-	0	ID=MGA_476;product=UDP-3-O-acyl-N-acetylglucosamine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P45070;translation=MDSLIKQKTIKKEIVFQGIGLHSGLKSKIKLIPATSNKGIVFIRKDIKENNIISALWSNVISTKLSTTISNKFGVTVSTIEHLMSAIHALEIDNLIIEVSSSEVPILDGSAKPFFEKISNTGVINQNKNKKFIKILKNLEVKNNSSKASISPSNNKLNISYKLNYNHPLIKKEQFKINLNQISYKNDISSARTFGFMDQYKKLKKLNLAKGASLKNCIVLNGKKVLNKNGLRFKNEFIRHKVLDIIGDLYLSGHSILGKFKGEKSGHEINNKLLKKIFNDKTAYTYVNLSIAKKKETNIIAIQFPTQIAS;locus_tag=LOCUS_4570;gene=lpxC;EC_number=3.5.1.108;note=P45070 UDP-3-O-acyl-N-acetylglucosamine deacetylase (Haemophilus influenzae Rd KW20) [pid:41.3%25%2C q_cov:91.6%25%2C s_cov:93.4%25%2C Eval:1.6e-59],MGA_476
sequence16	MetaGeneAnnotator	CDS	13273	14298	.	-	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVNLGIPEKTKSKLKPRVIVLGVGGGGCNALNTMIASGLKGVEFVACNTDAQSLEFCHADQKIQLGLENTQGLGAGSEPSVGKSAAEESYNEICEYIEGAHMAFIAAGMGGGTGTGAVTTIAKACKEKGILTVAVVTKPFEFEGKLRMDNAEKGIEELREFVDTLIVIPNKNLYIITDETTTYADAFTAADQVLHAGVRSVVDLMMQPGLINLDFADVRSVMSKMGRAVFGDGEASGERKAIEAAESAISNPLLDHVSLEGTKGLLLNITGGPDMTLIEVTEAAERIKQEINDDYAKIIFGSSIKKELDGIMRVSIIATGIDNIVDINAEDNRKEEIKKK;locus_tag=LOCUS_4580;note=B8H080 cell division protein FtsZ (Caulobacter crescentus NA1000) [pid:56.3%25%2C q_cov:94.7%25%2C s_cov:63.0%25%2C Eval:4.2e-99%2C partial hit],MGA_477
sequence16	MetaGeneAnnotator	CDS	14416	15630	.	-	0	ID=MGA_478;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P0A331;translation=MKIGILDIGTDKISCFIININKDKKPIILGIGHHQSQGILSGTITDIEAACNSIRNSIQSAEKMFGDTVEEFVVNISSNTIKSHSINLVTNLGGNEVTNEDINNNFKEIDNLCGKDNQLLHKIVTSYTIDNSIGIEKPIGMKGEQLIAGFNIITIEKNILNNFLKCLSMSKVRVENIVATPYASGLGCLNNDDLYIGTTLIDIGAGCTSIATFHKNKLIFASIINIGGFHISSDIAKGLSTSISTAERLKILHGSEINPSDSDNLIDIPLTGNNENNYTHKIKKRELDIIISSRVQEILENIRQKTDKSIFEKKITNNIVLTGKTSELKGFSKLTSDFFGVKVRIGKPEKIKGLAESLSGPGSSVCCGLIKYKILKDLKNSNNYQFKNNLIIKKFGSWIKESFF;locus_tag=LOCUS_4590;gene=ftsA;note=P0A331 cell division protein FtsA (Agrobacterium fabrum str. C58) [pid:34.4%25%2C q_cov:99.3%25%2C s_cov:94.6%25%2C Eval:1.1e-67],MGA_478
sequence16	MetaGeneAnnotator	CDS	15627	16364	.	-	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISIFVFCSFLIIKNFQLNKIQNFNKKGILSNLISKYDNFFEIKKITLNGRVNTNLNSVKDIVNSSLSKDKNLIKYNTINLKNEIKNLSWINNISIRKIFPNQIIININEHKQFAILNKNENKFLVSDEGKIIYQIKNSEIYNLIELENTFALKNINEIKNFLSKYPKLGKKISKISVSKNNKWDITINKIIFKLPNKNKNEAIKEIEKFTNLKNIKIVDLRFFEKKIFLKTQKKKIAMKEGKE;locus_tag=LOCUS_4600;note=MGA_479
sequence16	MetaGeneAnnotator	CDS	16649	16954	.	+	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIANSLDDLDFFSESKNDITTSILSDSYKLPFDSEGRISLPNELLKFANINNNATFVGRGSSFQIWNPKFFKDYLQRTRNNIKKKKLSLIIKNTNNDKK;locus_tag=LOCUS_4610;note=Q2RVT5 transcriptional regulator MraZ (Rhodospirillum rubrum ATCC 11170) [pid:58.7%25%2C q_cov:45.5%25%2C s_cov:29.7%25%2C Eval:3.8e-08%2C partial hit],MGA_480
sequence16	MetaGeneAnnotator	CDS	16941	17894	.	+	0	ID=MGA_481;product=ribosomal RNA small subunit methyltransferase H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCY2;translation=MTKSNFSVLHKPVLLKELVNLLPKKTNNIFIDCTFGDGGHTRALLEKHKTCKVYAIDRDPDVLENVNFLLRKFKKRFVFISGKISDLEKISNEENLQNKVDGIFFDLGVSTRQLKDNSRGFSFQNNGPLDMRMGQDGITAEHFINNENEKKISDIIFKYGEEKYSRKIAKALIEYRKKKRIKNTLELAKIINLTKKIKKKAKINPATKTFQAIRIYINNEIEELKVGLKSAMNILKKKGRLAVISFHSIEDRIVKNFFNINSGKIYNNSRYLPQLTPSNTIRPNLKIITKKVIKPTKKEIKMNYYSRSAKLRVAERI;locus_tag=LOCUS_4620;gene=rsmH;EC_number=2.1.1.199;note=Q9ZCY2 ribosomal RNA small subunit methyltransferase H (Rickettsia prowazekii str. Madrid E) [pid:47.0%25%2C q_cov:98.1%25%2C s_cov:99.3%25%2C Eval:2.2e-67],MGA_481
sequence17	Aragorn:1.2.38	tRNA	162	235	.	+	.	ID=Aragorn_9;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0090;note=Aragorn_9
sequence17	MetaGeneAnnotator	CDS	245	1282	.	+	0	ID=MGA_484;product=GDP-mannose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67175;translation=MKKKVALIIGITGQDGAYLANLLLSKGYKVYGSYRRSSSLNLWRLNELGIASSIELVSLELLEKSNIERTIKLVKPDEIYNLAAQSFVSLSFENPIYTAEVDALGVLKILETIRMVNKKIKFYQASSSEMFGEITSKKLNEKSLFHPRSAYAISKVFGHHITINYREAYGIFAISGILFNHESPLRGTEFVTRKITSTLAEIKAGRKKVLELGNIYARRDWGFAGDFVEGIWKMMQNSKPIDFVLATGEEHSVKEFATLAAKFIGINLIWKGKKYNEYALDKNTKQIIIKKNNNYYRPSDVSFLKGDASQAKNKLGWKPKVKFKELVKIMIESDMKKSLIGKIIQ;locus_tag=LOCUS_4630;gene=rfbD;EC_number=4.2.1.47;note=O67175 GDP-mannose 4%2C6-dehydratase (Aquifex aeolicus VF5) [pid:56.7%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:6.5e-108],MGA_484
sequence17	MetaGeneAnnotator	CDS	1284	2711	.	-	0	ID=MGA_485;product=mannose-1-phosphate guanylyltransferase/mannose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125914.1;translation=MKINKIYPVILSGGSGTRLWPQSRLSFPKQFLKINSNYTLIQETLIRIKNKKLFHSPILICNDEHRFLIAEQLRALKIKPKLIILEPVGKNTTAAVTVASLIIKKIDKKAKILILSSDHKIGNTKKFHKIINDSTKICERNKIIIFGIKPNQPDKNYGYIKKGKIFDKKSNTFYVDEFKEKPSLEKAKKYLKDKNFFWNSGMFFFNAELMLNEISLYDKKTLKESNNSIIYSNKDLDFLRLSKKFFNKIISKPIDISVIEKSKNVVVKDFNINWSDVGSWPSIFNLSKKDKEKNIIKGSVQIKNVSNSFIQSENQQIVVINQKNIIIISTKDALLVMPNDKNINIKKSIENLSKKNDEKVQYHPTVYRPWGSFEVLLTKKNYQLKRLKINPKQKISYQKHRYRSEHWIVVDGIACITKNNKVYNLKKNQSIDIPKGAKHRVENKTLKPIVIIEIQSGEKLLENDIIRFEDIYNRN;locus_tag=LOCUS_4640;gene=manC;note=WP_011125914.1 mannose-1-phosphate guanylyltransferase/mannose-6-phosphate isomerase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:39.7%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:5.5e-106],MGA_485
sequence17	MetaGeneAnnotator	CDS	2724	3866	.	+	0	ID=MGA_486;product=mannosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001023682.1;translation=MSKPKLNQSKNIVISTQCFPPILGGMENLMKGLADNLYKEKFNVFVFADSKNLQNEEKYDKDLNYEVIRYGGLKIIRKRRKSADIKKFVNFKKKINSIFCDSWNSAEILIINNSEKKIKILCLAHGNDVLFRKNILKKKRIKNVFLECNFVIANSHFTKKKIIDLGISPNKIKVIYPGIEKSYFKYQASKKKKYKNFNPILLTIARLEKRKNHKKIIYAISGLLKEFKNLLYLIAGDGPEMKSISKLIKKLNLKKNIKILGSVNEKDKNFLFNISDLHIMPTIKSKRLLSIEGFGISYIEAAMHGIPSITSGIGGTKESVIDGETGIICDPNNILSIQKAIKKILNKKIYKKMSVNSKEYSKNFMWKSIIKNYLNLIKKK;locus_tag=LOCUS_4650;EC_number=2.-.-.-;note=WP_001023682.1 mannosyltransferase (Bacillus cereus ATCC 14579) [pid:29.4%25%2C q_cov:83.7%25%2C s_cov:84.0%25%2C Eval:1.7e-19],MGA_486
sequence17	MetaGeneAnnotator	CDS	3869	5050	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYKSRFLDITLIIISLYSLFFIFHKFIGGKIPFWDFHIIYCASKTYFLGNFPYGLNVHGDCLNPNITLTANFSPSTYEILKYFGSLNILTAKFLWIVFEIISVMLIFFISKKLFKINFDWRNFLLIIFSFGSVIFTSFISGNASIILYGFLILGIYSLTKNFYSFFYIAVIFVSLFKFYYLAFLILPFYILGWKSLKNIFLYLFLFFFIQYILYINNPDLTLAFLDIIQGKVEENLPTRFLTGTGLYSIIEKMPWIFFGVNNFNNSFFPLAINLVLWFFISSIFILSIFICLNNKKIKNSENHFLYCIAFGILIINLIIPRLVVYDLILTIPVMFYLLNKINFKKFKIYKIKFFFIFLFFVFFDHHFPFFIIISFLTLFIYSEFYKKNLFIY;locus_tag=LOCUS_4660;note=MGA_487
sequence17	MetaGeneAnnotator	CDS	5047	6030	.	-	0	ID=MGA_488;product=glycerol-3-phosphate dehydrogenase [NAD(P)+];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJK9;translation=MTIGILGSGAWGTALSCMLSEKNDKIIIWSNEKQTAQQINNLRINKVYLPNIRIPKNVIATNNLEDLKLCKFIFICVPSQFIKKIITKFKKFWNKDMMFINCSKGIEHSSNLIISDVIKKIFPKSKIAILSGPSFAIEVAKKKPTAITIAAKNQNYAKKLALILNSKNFRCYYTNDIIGVQFGGIIKNILAIASGIIESQKLGSSANAALITRGLAEMKRIGLAYGAKENTFYGLSGLGDLMLTCNSKLSRNFATGLLLGKGKKINEIKKLKTISEGVINSKTIFKLSKKKKIEMPVCESIYKILYKKNKIKEMIKKILSRNIKKET;locus_tag=LOCUS_4670;gene=gpsA;EC_number=1.1.1.94;note=B5YJK9 glycerol-3-phosphate dehydrogenase [NAD(P)+] (Thermodesulfovibrio yellowstonii DSM 11347) [pid:41.4%25%2C q_cov:99.1%25%2C s_cov:98.5%25%2C Eval:3.0e-67],MGA_488
sequence17	MetaGeneAnnotator	CDS	6046	6663	.	-	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILKSDTNGINEVVKEILNGKIVFIPTDTVYGIAANPFNNNAVKKIFLLKKRSLKNSLILLCANIKMAKNYATFNKIAIKLTKFFWPGPLTLILKKKSNLKISKKWVSKNNSIGIRVPNHNVLLKIIKKCKIPIFCTSANISGEKNLNSIKNIKKKFKNKNLILIEDYKVNFKKESTIIDVTNNNMNILRKGILKKKELNKIIN;locus_tag=LOCUS_4680;note=Q9ZCB2 threonylcarbamoyl-AMP synthase (Rickettsia prowazekii str. Madrid E) [pid:37.5%25%2C q_cov:88.3%25%2C s_cov:58.8%25%2C Eval:3.0e-25%2C partial hit],MGA_489
sequence17	MetaGeneAnnotator	CDS	6663	7409	.	-	0	ID=MGA_490;product=3'(2')%2C5'-bisphosphate nucleotidase CysQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57624;translation=MNKIKILQICNVIWKAGEIILKIYSKKFKIYNKKDNSPVTIADFESEKIIITGLKKIFKKPHIYSEETNYKKKNKQIKNFWLIDPLDGTKEFIKKNGEFTINIAQIINNKVEFGIIYAPYFKKTYIGTKKNTYEIINKKKFKKVIRKKNLYKTMIVSRSHSTKNEINKLANKYNVKKVIFLGSALKFCYLAEGKADIYPRTGTTYEWDTAAGQVIINGSGGNIRTKTGKILNYGKKNFKNKEFIAKIN;locus_tag=LOCUS_4690;gene=cysQ;EC_number=3.1.3.7;note=P57624 3'(2')%2C5'-bisphosphate nucleotidase CysQ (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:41.0%25%2C q_cov:96.0%25%2C s_cov:91.7%25%2C Eval:1.4e-41],MGA_490
sequence17	MetaGeneAnnotator	CDS	7416	8294	.	-	0	ID=MGA_491;product=UPF0176 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q4ZQ82;translation=MKINVIGFYKIKEIKSLTNYQYLLKKKLLKNLIRGTIILSPEGINGTISGKKKEIKDCISFIKKKLMIKKFDSINHSIINYQPFFRPKIKIKKEVVPIGLKLTKNQKQQNIYIDPKNWNKIISEKNTIVIDIRKSMEYKLGTFKNAVDPKVNNFRDFPNFFKKIKNNKKIAMFCTGGIRCEKAANYLRKKGFEEIYQLKGGILNYLKKIKKKDSLWNGECFVFDNRVTLKHKLIPGEYTICSACRMPVSKDDKKSKKYKKDISCPYCFDILTKEKEKKLLLKKKQKELLINK;locus_tag=LOCUS_4700;note=Q4ZQ82 UPF0176 protein (Pseudomonas syringae pv. syringae B728a) [pid:40.7%25%2C q_cov:92.5%25%2C s_cov:87.2%25%2C Eval:7.3e-62],MGA_491
sequence17	MetaGeneAnnotator	CDS	8291	8503	.	-	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKKKILKDLCEMPEHLRGISMEILLTKYNKKIINNLLNDKIIKIRKWYNGPGKIVIPTKKGLLLYKEK;locus_tag=LOCUS_4710;note=MGA_492
sequence17	MetaGeneAnnotator	CDS	8574	8723	.	-	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKSFFIISGSGLQVLSNKKRNKGPPDLLFIILSALTLKNDKKTKKNK;locus_tag=LOCUS_4720;note=MGA_493
sequence17	MetaGeneAnnotator	CDS	8722	8979	.	+	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTDPDFYFGLTCNKLGKSIELEPSKSVSIKEFDEFILIGKLKSPVSKVSFCYLKNKSEVNIKSLGIGGVICECVSKENCNDKLY;locus_tag=LOCUS_4730;note=MGA_494
sequence17	MetaGeneAnnotator	CDS	8989	9894	.	-	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLILKYIVFNKHFKYKRYNNKFLDYIVKFFLNKLFPEVLNISKPIVLKKKNNFNISKYGIKVYSQNEEDGIILYILQHIGIKTKKFVEIGIENGTECNTTNLLKNFNWSGLQIEGNRKLYLEAKNKLKKILGKKIKNLKLINSFINKKNINEILKKNLNNEKIDLLSIDIDGNDFWIWKKINCIQPRLVVIEYNSFYGQNVSKTIKYNSNFFWDIKNNKSYYGASLKALKKLGKKKKYSLIGVDNNGVNAFFVRNDLAKKINLNSKKISNIFKDNLREIRNKEAYMEEREKLLKKKLITI;locus_tag=LOCUS_4740;note=WP_011118889.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:31.0%25%2C q_cov:78.1%25%2C s_cov:71.1%25%2C Eval:1.1e-25%2C partial hit],MGA_495
sequence17	MetaGeneAnnotator	CDS	9986	11173	.	+	0	ID=MGA_496;product=serine--glyoxylate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013529882.1;translation=MLNGRHFLHVPGPTNIPERIIRAMASTMEDQRGANFPKFTKPLYEDMRKIFKTKDGTVIMWPSSGTGSWEASLLNTLSPGDKILTSRFGQFSMLWMDMCKRLGLDVIDIDVEWGEGVPLEKYAEHLKNDKNKEIKAVLACHNETATGVTSDIEGVRKVLDDAKHPALLFVDGVSSIASINFEFDKWGVDCAVTGSQKGLMLPAGLGILCVSKKALEASKSSKFNKCYFAFEDMLKTNTDGWFPYTPALGIMYGLRESLNMIDEEGLENVFKRHHRLAEGVRQAVKGWGLKICAKEKKWESDTVTAIYVPEEFDSANVIKTAYLKYNLALGAGLTNVAGKVFRIGHLGDLNELMCLGAISGAEMAMRDVGIDIKPGSGIAAAEEYYRETAPALPND;locus_tag=LOCUS_4750;note=WP_013529882.1 serine--glyoxylate aminotransferase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:60.6%25%2C q_cov:97.7%25%2C s_cov:96.3%25%2C Eval:1.2e-137],MGA_496
sequence17	MetaGeneAnnotator	CDS	11190	12167	.	+	0	ID=MGA_497;product=glycerate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010974587.1;translation=MKHKIVFLDRATIEKNIIVRKPTFDHEWDEFDYTDHNDNKIILERLKGATIAIINKVPMREENLKKLPDLKMIAVAATGTDVVDKEYCRDNDIIVSNIQGYAITTVPEHTFALILALRRGIVGYKEDVINGEWKKANQFCFFNHEIRELHNSTIGIIGEGAIGQGVATIARGFNMNILFAAHKGVDGLGPLYTPWDEVLETSDVITLHSPLLPQTKNMISLPEFKKMKKKPILINTARGGLVKEEDLVEAIEKGYISGAAFDVVTKEPIPDNHPFFKIVKRPNFILTPHVSWASMEAMQNLSDQLIDNIENFVAGKPSNVVSGDF;locus_tag=LOCUS_4760;note=WP_010974587.1 glycerate dehydrogenase (Agrobacterium fabrum str. C58) [pid:53.0%25%2C q_cov:98.2%25%2C s_cov:96.9%25%2C Eval:3.5e-92],MGA_497
sequence17	MetaGeneAnnotator	CDS	12168	13418	.	-	0	ID=MGA_498;product=hydroxypyruvate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390217.1;translation=MNIKKILTDSFKVGLNAVKPINIIKNKLPSPPKGRTYVIGAGKAAASMAKAIETNWPNKSPLDGSVITRYKHSLKTKKIKVYESGHPMPDTAGMKAANNFINKINSLDKDDLLLCLISGGGSSLMLVPQNGLNMNDLRNITKNLLNCGAEISEINTVRKHLSKIHGGKIPMYTNAKIVTLIISDVTGDKITDIASGPCCPDPTTFQNAIKILEKYKIQNKKIFEFLKKGIKGKILENPKKNNPIFKNVKNILLASGRDMLKNAELHLKKNKIQTVNLGDNIKGESRQVAINHAKKILKTNKKKFAIISGGETTVTVSGSGKGGRNSEYALSLFNKVKHTKNIAVISCDTDGIDGSENNAGVYFDQNTIKKSKKIFLDPEVYLKKNDSYTFFKKLNSLIYTGPTLTNVNDYRVVIKI;locus_tag=LOCUS_4770;EC_number=1.1.1.81;note=WP_011390217.1 hydroxypyruvate reductase (Rhodospirillum rubrum ATCC 11170) [pid:40.1%25%2C q_cov:97.1%25%2C s_cov:96.4%25%2C Eval:1.9e-75],MGA_498
sequence17	MetaGeneAnnotator	CDS	13451	14872	.	+	0	ID=MGA_499;product=bifunctional protein GlmU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TC55;translation=MFIVKQIQTHHIYLLINLKQFSIFFFFSKIFFYMINKSLKIIILAAGESKRILSSKSKILHTIGGKTILNHVLENVTKIVKKKDINIVISPKLTELKTIYKNINFSFQKKQLGTANAVMASRKFYSKAKEDILILYADNPFIDQKVINNMVNLKKKKNSDIVILGVKTKKENEYGRIILNDEGGVKKIIEFKDATSQQKKISLCNSGIILIKSNVLKRLILKIKPKNKKREYYLTDIIELATRENLKVDFLEENFLKTLGINTKQELVVAEAYFQNILRNKFISNGVKLLDPETVFFHYDTRIGKDVIIEPNVFFGPKVIIKDNVHIKAFSHIEGAKIFDSVTIGPFARLRPETIINKNSSIGNFVEIKKTFIKKNTKINHLTYLGDSEIGENVNIGAGVITCNYDGIKKNKTRIDNNVFVGSNVSLVAPIKLNKNSIVGAGSVITESVKEKALAVERNKQEIFSNYKKNRKR;locus_tag=LOCUS_4780;gene=glmU;note=E8TC55 bifunctional protein GlmU (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:41.3%25%2C q_cov:90.7%25%2C s_cov:95.3%25%2C Eval:1.9e-87],MGA_499
sequence17	MetaGeneAnnotator	CDS	14876	15619	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGIIGVIGHNKVSSLLIEGLKRLEYRGYDSAGIATLLNGKIDRRRSLGKIENLKKLLKKNPIKGNVGIGHTRWATHGIPSKINAHPHLSGDVAVVHNGIIENYDELRKKLEKEKIIFKSDTDTEVIAHLISYYLKKNLPPLKATIAALKKIDGAFALGIIFSGINNYLICAKRGSPLAIGKGKNCNYIGSDSIALAPLTQKLCYLNEGDIAEITSNNFKIYNQDGKRVKRSITITSLSKNKIKMSG;locus_tag=LOCUS_4790;note=E8TC54 glutamine--fructose-6-phosphate aminotransferase [isomerizing] (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:48.9%25%2C q_cov:93.5%25%2C s_cov:38.1%25%2C Eval:7.8e-64%2C partial hit],internal stop codon at [15617:15619](+),MGA_500
sequence17	MetaGeneAnnotator	CDS	15629	16699	.	+	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKEIFEQPAVIGDALKYFIDTKKKRILIPSFAKKYNNIKEINIAACGTSYHASLIGKYWLEKYSNIKTEVDIASEFRYRNIIDNKNTLNVFLSQSGETADTLAVLRYFNQKKNKTLGIINSSESSIARESNNVIETHAGPEIGVASTKAFTTQLIALGALTLFMSNFNKTISRNEIKKLSNALLEAPGHISKILKMDNNFHKIATSIKNAKNVLYIGRGTNYPVALEGALKLKEISYIHAEGYPAGEIKHGPIALVEKGVPVIVIAPSDHLIDKTISNVEEVLSRGAKVIFISDKKGIKKINNKKITNIYLPETHEIISPILYSIPVQLIAYHTAVLKGTDVDQPRNLAKSVTVE;locus_tag=LOCUS_4800;note=Q2RPX1 glutamine--fructose-6-phosphate aminotransferase [isomerizing] (Rhodospirillum rubrum ATCC 11170) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:58.6%25%2C Eval:8.7e-103%2C partial hit],internal stop codon at [15617:15619](+),MGA_501
sequence17	MetaGeneAnnotator	CDS	17149	17547	.	+	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPHLQFDINKKIKTRDKNKFCRYIRDSFGKIMKTGTDHIAISLRELRKDSLSLGRAKDNEYVCFMNLDIRVGRSVRQRRELVKCFVKAVNQFFSIKKENQYITFTLHNGRDFNLYEKSLENWIKDDDPLNKK;locus_tag=LOCUS_4810;note=MGA_502
sequence18	MetaGeneAnnotator	CDS	131	304	.	-	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMRIFGSALTTGYSLEEIINWPDDINKISLKDLELYVPKIFNKKSSVTGYLLPVKE;locus_tag=LOCUS_4820;note=MGA_505
sequence18	MetaGeneAnnotator	CDS	428	1444	.	-	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFFLFFFIIFISKFAFAGFEPKTHTLENGLKIVVIENNRVPAVANSIWYKVGSADEPEGKSGIAHFLEHLLFKGTDKLKPGEFSQIVSRNGGKENAFTSKNYTGYFQLINKSKLDLVMSLEADRMKNIKLIKKEFENEKTVVLEERYSRVDNNPSSLLTEQINASLYMNHPYRKPIIGWEHEIKDLTLEDVMSFYKKYYSPNNAIIVVCGDVSLDEVVIIAKKHFGSINPSKIKKRIWTEEPTQHAPRKIILKSKNTAIPVFKRHYLVPTYTKSKEESLTLEVFSEIFGNPSTGLLYEEFVKNKKLATSAASYYYPDGFGHTSFTISIIPKKNIKLE;locus_tag=LOCUS_4830;note=WP_011390720.1 peptidase M16 (Rhodospirillum rubrum ATCC 11170) [pid:44.6%25%2C q_cov:94.1%25%2C s_cov:70.4%25%2C Eval:5.2e-78%2C partial hit],internal stop codon at [407:409](-)%2C[428:430](-),MGA_506
sequence18	MetaGeneAnnotator	CDS	1506	2192	.	-	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFYSNFKKKVVIILSIFFLCSCGVIGGDDKNQVSENAVLSGPPLAIPPEFDIESSQNTITGQDDTNYDIPEYNDLENNTLNDEVIYEDDQLNQMSNVNNDIENQNFENLNTFNENNVSRQFENLNTFNENNVSRQIDTNVRKKRISRKPSVPSDSYNFNTTVLSEKNIYVKNKSNSFTGFGKQDVEIKNSKDLSNEEELLLNDILNQSSDLSNETLDQDFEAKGDSD;locus_tag=LOCUS_4840;note=MGA_507
sequence18	MetaGeneAnnotator	CDS	2205	2696	.	-	0	ID=MGA_508;product=lipoprotein signal peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQ33;translation=MLLIKFQKFKFLLLLSIPFFVFLDQLSKSWILKNIFLNEEILRITNFLNFVPVWNKGISFGMLSNFSDINLIMIFITILIILIIFFWFLKAKNLNLSLALIFIISGALGNLIDRFIHNAVVDFIDLHIGNYHWPAFNFADSYITIGAAIYIYIIFTSQTDNIA;locus_tag=LOCUS_4850;gene=lspA;EC_number=3.4.23.36;note=Q2RQ33 lipoprotein signal peptidase (Rhodospirillum rubrum ATCC 11170) [pid:40.9%25%2C q_cov:80.4%25%2C s_cov:82.5%25%2C Eval:5.4e-22],MGA_508
sequence18	MetaGeneAnnotator	CDS	2668	5439	.	-	0	ID=MGA_509;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQ34;translation=MDYKDTLFLPETSFSMKASLPKNEPRLIQKWLKEDLYKKLRNKLKKNKKFNILDGPHYANGHLHMGHALNKILKDIIIRSKQMQGLDAAFVPGWDCHGLPIEWEVEQELRKKGNEKKNINLKEFRNKCRKFAEDWIKIQKKEFERFGILGDWDNYYLTMSYDAEAQIVREIGKFLLDGSLYRGSRPVMWSVVEKTALADAEVEYKDRTDNAIYVLFPIKKNNLKIKKAEKINILAWTTTPWTIPGNRALAYNKNFTYSLVKENFSKNLFLISNDLIKKLTSDTELKIKKIKEFKGSELEGMICQHPLDNYGYKFEVPLYNAEFVTKDEGTGFVHIAPGHGIDDFNLAKKENIEIPKTIDESGIYYDNVPLLNGIHVFKSDEIVIEHLKKNEKLLYKKKILHSYPHSWRSKKPLIYRNTTQWFISLEKNNLRKKALDAIKNINFFPKKGKNRITAMIKDRPDWCISRQRFWGVPLPIFINKKNKEPLIDKNIINNIANIFEKKGSDSWFELDASEFLGEKYRKEDYYQIRDVIEVWFDSGSTHSYVLEKRKDLNWPADLYLEGSDQHRGWFHSSLLESCGTRNEAPFKNILSHGFVVDGNGKKMSKSEGNVISPNEIINKYGSDILRLWTVASDYFEDIKIDENIIKFQVDTYRRIRNTLRFLIGNLKNYDDKEKISYNKLPDLEKYILHRLFEINVIINNCIRENNYHKFYRELLFFCSNDLSSFYFDIRKDCLYCDGKLSEKRKSCRYTLKLIFEFLTAWIAPILCFTAEEAWLSDNFNNKDSVHLRNFPKVNDEWNNKILKEKFENIIDIRKVVTSAIEIKREKKFLGSSLEASVELLISKKTKNLDNQDLNDLFIVSSTKLVDKISKDAFFLKDFKDIKVNVCKAEGLKCERCWVIAKEVNNNKKLCNRCSSVINKISKI;locus_tag=LOCUS_4860;gene=ileS;EC_number=6.1.1.5;note=Q2RQ34 isoleucine--tRNA ligase (Rhodospirillum rubrum ATCC 11170) [pid:48.3%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:3.1e-271],MGA_509
sequence18	MetaGeneAnnotator	CDS	5448	6362	.	-	0	ID=MGA_510;product=riboflavin biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJY1;translation=MKILNGYLNLKKGTVLTIGNFDGIHKGHQKILKKNVEISKKYNLNSAVITFDPHPNEFFKKNKSPFKLTNKNTKIKEIKKMGINYLIFIKFTKDFTKLSPEKFIKKIIDLNPQFIVVGYNFRFGYKRKGNVNLLQKFSEKYSYKLEVISRVLNKNKKVINSTLIRKKIKTGHYNNVKDMLGRNWLLEGKIIKGSGRGKSLGYPTANFFIKDYILPMKGVYVTKSFFKNNKKAYYGIANIGNRPTFNEKKVFFENHFFEIKKNFYGKDIFVELLAFLRKEKKFENIELLKKQINKDILLAKRFIK;locus_tag=LOCUS_4870;gene=ribF;EC_number=2.7.7.2,2.7.1.26;note=B5YJY1 riboflavin biosynthesis protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:40.3%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:2.2e-56],MGA_510
sequence18	MetaGeneAnnotator	CDS	6369	6791	.	-	0	ID=MGA_511;product=(R)-specific enoyl-CoA hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQ36;translation=MGKLFYFENLRVNQKYSENIKVTSSNIKKFAIASGDNNPIHLNESFAKKTIFKTRIAHGMMIASFISSVIGNKFPGNGTIYVSQDLNFKRPVRINDFVEVQIIVEKKILKKKWCKLKTLCFVKKNIVLEGTAIVIPPPKN;locus_tag=LOCUS_4880;gene=phaJ;EC_number=4.2.1.119;note=Q2RQ36 (R)-specific enoyl-CoA hydratase (Rhodospirillum rubrum ATCC 11170) [pid:44.1%25%2C q_cov:97.1%25%2C s_cov:94.4%25%2C Eval:1.1e-26],MGA_511
sequence18	MetaGeneAnnotator	CDS	6936	7163	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSNFNKKNNNYKTCLNDANHNINTKVNINQDRNDMLQTDDTMVDLYNIGNEIDEIKLSNKRNEMIKDCLNKRK;locus_tag=LOCUS_4890;note=MGA_512
sequence18	MetaGeneAnnotator	CDS	7190	7837	.	+	0	ID=MGA_513;product=biopolymer transporter ExbB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017058.1;translation=MNLPEIININNLNLLAKGGPVMFILLGFSIFAFAIILFKFIQFLSTDLSKNKKINEILSKLNGSNAKKLLLEIQKIKSPIARVIEVVIATKNDRRFDKDSREAEVSRIISVEVRFLENYLGGLEVIASISPLLGLFGTVLGMIKAFLNLEKAGSQIDPALLAGGIWEALLTTAFGLAIAIPALAAYHLFENKISNARDTINDAVVRTNTLLNFKK;locus_tag=LOCUS_4900;note=WP_011017058.1 biopolymer transporter ExbB (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:30.7%25%2C q_cov:94.9%25%2C s_cov:99.5%25%2C Eval:2.9e-18],MGA_513
sequence18	MetaGeneAnnotator	CDS	7843	8253	.	+	0	ID=MGA_514;product=biopolymer transport protein ExbD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_604208.2;translation=MKTHTFYQKEEKELISINITPLIDIVFLLLVFFMLATSFIQKSTIEVNLSANEATELDKEKNTLTIIINKKGTVYFNKKIINTNEIKNLIKSNLKKNPEYKILIKTHKKIPVQKVIRLIEEVRLAGTDKIKLLNLN;locus_tag=LOCUS_4910;note=NP_604208.2 biopolymer transport protein ExbD (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:26.6%25%2C q_cov:91.2%25%2C s_cov:93.8%25%2C Eval:8.4e-08],MGA_514
sequence18	MetaGeneAnnotator	CDS	8256	8651	.	+	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKKKIKQINLIPLINIIFLMLIFFMLAGTITKIDPHKINIPESIIKSNPKTPFLTLIVKKDGEIFIDSKSKKKGLEKKNYLNIIETRKPKELALKIDAETPSEYFLNLLKTLEKYNIEKIVVETNYFKQ;locus_tag=LOCUS_4920;note=MGA_515
sequence18	MetaGeneAnnotator	CDS	8657	9316	.	+	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQKTDIWIINLAFIFSIILHIYIIFFISDFNINFKEKKNKFTITLAPLGNLDIKPKESLKKEKIIPKEVPEIKKKKKKSEIKKKKKKIDLKKTLPSEKSIKKEKTTENKKGGNLKGIEGGVSKKIINQYVTQIYKLIDSKKKYPRQSLIRKEEGVVLMEIVIRNDGMLMSVKSIKAKHQRLVDSSFDAVELAAPFPAFPNKIKRKKMNIQVPVIYKIR;locus_tag=LOCUS_4930;note=MGA_516
sequence18	MetaGeneAnnotator	CDS	9321	11132	.	-	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDLGQLALWQNITVAVLLGLIIIFSIIKIFKIIGFTESNFGKLLLKEQIVGKPGFNRWWVPVASVSIHLCIGSVYAWSIFNPALIKAIGVVTSSADDWALKEVVWIYSTAIVFLGLAAAFAGTWLEKVGPRMVGLVAAFCWGGGFLIGSLGIINHQLWLIYLGYGVIGGCGLGLGYVSPVSTLIRWFPDRRGMATGMAIMGFGGGAFFGARIKDFFIQYYYKAPQLLSNISESDLITEAGKRFAETADGLKEVVVVGVNDVANMIVPGDPGIYLVGTGSVGVAQTFFTLGAIYFVVMTIAALSYRVPADGWAPKGWKPPSDAEIEKKMITTKHVHIDEALRTPQFYLLWVILCFNVTAGIGVLGVAKTMITEIFQKKAALIVTSAFTTWYVMLISIFNMAGRFIWASASDFIGRKNTYYCFFILGIILYSSIPISAQTFDIAPVVVWLILFYGATLIIFTMYGGGFATIPAYLADMFGTKYVGGIHGRLLTAWSTAGVLGPVIITSLRSSSINNAINDLAMKVDPQIFSEKFGAGIESLDELVKAKTVTIQNLLEILPAGTPDPTSQVYNKTMIVMACLLGIALVANFLVKPVNSRHHMKD;locus_tag=LOCUS_4940;note=WP_013531269.1 MFS transporter (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:45.8%25%2C q_cov:53.2%25%2C s_cov:56.6%25%2C Eval:3.7e-73%2C partial hit],MGA_517
sequence18	MetaGeneAnnotator	CDS	11215	11559	.	-	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPANSIEVKNISYPFTAKELMFECEAWIPGETAAQQEAKREYPCVRYIQSAINTYQLIKSENNQNLPDLCLSNVLNLQRHKDIFIKYVKKNPDKENLDASKVIFESLIDSYCK;locus_tag=LOCUS_4950;note=MGA_518
sequence18	MetaGeneAnnotator	CDS	11603	12367	.	-	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSQKKDNWLPPSSFEEKIKHIIIPSKLYIRRLVLKEWIKGRTDIKFLKYLIDNKRNSLDVGAYKGVYTYFISKYSKRVYAFEPNPKSYKILKKTVSKNVKVFSYALSDRSSVDFLKIPKGKKGYSNQGGSIRNVKLDKNIGILKVVTKKIDDLKLKNIGFIKIDAEGVEMKILKGAKKLIKQNKPTLLIEIEERYISESIEITLKKILNFGYRGFALIGETLTPLKFFDGDKNHRIDYGPEFHANAFIFIAK;locus_tag=LOCUS_4960;note=MGA_519
sequence18	MetaGeneAnnotator	CDS	12480	13526	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFFQVFFSDFYLIFAGAEILNNGNNPYKEWIDIHNSPFFNPPIVFNLFKFVTNFDYTTIAKFWFFILFFSFISIPLILFKIFKINYKFSLIFFICFGGIALSVFLTGNLSILLTFLFAIGLFFLNKKKDHIFYIILSFLSIIKFPYLIFFGIPFLLKNLNKKIFINTFFYLTIICLIYLISFQLNNELFSSWIISIEYSKNIGDQGDFGRGLFRILDSYIYSNNNYKYITYFLISGFTFLFLIFLSKKSEILNKKKNKNLILAFSVISLSMLLPRLKSYDILITLPCLFFLIENIKFKFSEFVNSFIKFLLFLFLFCITSPYGPISLYLLIVIIFTSDLKFNFIQKK;locus_tag=LOCUS_4970;note=MGA_520
sequence18	Aragorn:1.2.38	tRNA	13549	13635	.	+	.	ID=Aragorn_10;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0100;note=Aragorn_10
sequence18	MetaGeneAnnotator	CDS	13650	14237	.	+	0	ID=MGA_521;product=cytochrome b561;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011084142.1;translation=MIKKIYLKILELSKKKYALTVLLIVAFLESFIFPIPPDIFLIFLILSQKSRAFYLAFYCTILSVAGGILGYFIGSFFFDSLGQGLLNYYNLNENFIAFSEGYNESGILFVIMGGFTIIPYKLITIASGFVKMDFSLFLIASIISRGARFFLLATLLYFFGKKIENLLINRFGLITAIIFIIIIIMYLIIKHLGII;locus_tag=LOCUS_4980;note=WP_011084142.1 cytochrome b561 (Bradyrhizobium diazoefficiens USDA 110) [pid:41.9%25%2C q_cov:82.1%25%2C s_cov:82.9%25%2C Eval:1.8e-29],MGA_521
sequence18	MetaGeneAnnotator	CDS	14240	14725	.	+	0	ID=MGA_522;product=disulfide bond formation protein DsbB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011084158.1;translation=MIFKNNNFLNLFFLSSSLIILSIVYYLEFFLGYIPCELCIYQRFPYFIIILLSISYLFIKNKKLKKITFLFYILIFFSSLIISTYHFGIENNFWKSLTECKVNNENITNNEDIKNYLLNKDYVSCSDVLFKVFGISLAGYNILISFFLFFISIIGFKEIKN;locus_tag=LOCUS_4990;note=WP_011084158.1 disulfide bond formation protein DsbB (Bradyrhizobium diazoefficiens USDA 110) [pid:28.7%25%2C q_cov:82.0%25%2C s_cov:75.6%25%2C Eval:3.8e-12],MGA_522
sequence18	MetaGeneAnnotator	CDS	14722	15258	.	-	0	ID=MGA_523;product=HNH endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_006315684.1;translation=MSFKTLVLNADFKPLSYFPLSICSWKESIKAVFLEKVSVVSEYDEIVRSPSIKIKIPSVIALKEYVICSRKPAFTRFNVFLRDEFECQYCNSKNNLTFDHILPKSKGGKTTWENVITACSDCNTSKGNKMLNELKLSIKKEPFQPSISFLQENIKKYPPNYLHDSWKDFLYWDTELEP;locus_tag=LOCUS_5000;note=WP_006315684.1 HNH endonuclease (Agrobacterium fabrum str. C58) [pid:55.5%25%2C q_cov:97.2%25%2C s_cov:93.5%25%2C Eval:2.8e-60],MGA_523
sequence18	MetaGeneAnnotator	CDS	15301	15954	.	-	0	ID=MGA_524;product=putative hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05958;translation=MKNLDFEEFPKENIEINSIVVLLHGIGADSSDLLPLAKHWSQKLEKTKFYSINAPNPYKQAPFGREWFGLEDRDQTRILKEIDSIKPVIISFLKNKLNEHKLNFKNLIMVGFSQGTMVSLNLAINMNTEIRGVLGYSGGIVLSKSGKIEINSKPNICLIHGKNDDVVPIKMMESSKIFLEENNVKVESNALDNLGHGINQEGLDIGENFLVKYLLKC;locus_tag=LOCUS_5010;EC_number=3.1.-.-;note=O05958 putative hydrolase (Rickettsia prowazekii str. Madrid E) [pid:31.4%25%2C q_cov:96.3%25%2C s_cov:95.8%25%2C Eval:7.8e-27],MGA_524
sequence18	MetaGeneAnnotator	CDS	15957	16883	.	-	0	ID=MGA_525;product=3-beta-hydroxy-Delta(5)-steroid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012067733.1;translation=MNHLRNLNVTVFGGSGFLGKSLIKFLCENECVITVPTRSPSKAYDLQPIGDVGQINLIKFDLSNTSKLKNLIDNSDIIINLVGILFEKEKNDFEKIHYQFVKNIVDNINSKKKFFINLSALGVEKNINSQYSKSKLLADKYIQKKCKKFSIIRPSIIFGIDDNFFNKFAKMSMFSPFLPLIMGGTTKFQPVYVDDVSKGIIEILKKNKFNKIYEFGGPNIYSFKELMKILLQIINRKRILLYLPKKIAKLMANFFKLLPNPPLTLDQIKLLENNNIISNNQFTFQDLNINPVSLELILPNYLKRFKKY;locus_tag=LOCUS_5020;note=WP_012067733.1 3-beta-hydroxy-Delta(5)-steroid dehydrogenase (Sinorhizobium medicae WSM419) [pid:40.1%25%2C q_cov:97.4%25%2C s_cov:94.2%25%2C Eval:3.1e-58],MGA_525
sequence19	MetaGeneAnnotator	CDS	235	1533	.	+	0	ID=MGA_528;product=NADP oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010887141.1;translation=MKGPSVAIIGSGPSGFYTTESITKKINSDIDIIDRLPTPFGLIRGGVAPDHQTTKKISAAYTKTAKKNNVRFFGNIEIGKDILIEELRNMYDVVILAIGSELDNKLEIKGANLKSVYGSAEFVGWYNGHPDYVNLNPNLNTKNVVVIGNGNVAIDVVRVLSKTNEEMLTSDIPKNVLDVINKSPIENLYIVGRRGPVEAKFTNVELREMGNLKNCLPIVNNSDLPDDLKGNFSERDKRLIERNLETLKSFSSINKENKEKTLNFTFFHKPIEITGGEKVESIKFEKTKIENGKLENTGEIIEIDCGLIITAIGYRSKDIPDIKISNGIVENNNGKIDTGFYTVGWAKRGPTGVIGTNKADGELVADLINNEFKIQNKNGRKSLIETIKSKNLTATTFEDWEKIDSYEKNNAKDPTPRKKILTIKEMLNLCKI;locus_tag=LOCUS_5030;note=WP_010887141.1 NADP oxidoreductase (Deinococcus radiodurans R1) [pid:36.3%25%2C q_cov:98.6%25%2C s_cov:91.9%25%2C Eval:3.5e-80],MGA_528
sequence19	MetaGeneAnnotator	CDS	1536	3098	.	+	0	ID=MGA_529;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDF8;translation=MSIDFSKVDQINSWPFQEAKLIKKKINKKPDKGYVLFQSGYGASGLPHIGTFGEVSRTQMVMNAFSKISDIPIKLITFSDDYDALRKVPENLPNQKMLNENLGKPVSSIPDPFGKYQSFADNVNNKLKSFLDNFGIKFELKSATELYKTGFFDKYLLKVLKNYKKITEIVLPTIGSERRSTYSPILPISKKTGKVLQVPIKVEDEKKGEISFIDEDGDNCKTLITKGNCKLQWKVDWAMRWDALDVDYELYGKDLVDSIRSTIEICKLLGKSPPLGFNYELFLDEKGEKISKKKGNGMSIEEWLKYAPSESLSLFMYYTPKKAKRLYYDVIPKHVDEYLRYLKQFEIQNDIEKLNNPIIHIHSNKIPKPEIDISFSLILNLVSACLSDDKNIIWKYIKLYIPNISSSDNLYTDKLVEFSIQYYKDFIEPNKKYKKPNDDEKKILKELIEVLEEFNSKATSEEIQSEIYELGKKNKYELKDWFLFLYEILLGQKNGPRLGSFILLLSIKETIKLIEDSFLR;locus_tag=LOCUS_5040;gene=lysS;EC_number=6.1.1.6;note=Q9ZDF8 lysine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:48.0%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:9.3e-147],MGA_529
sequence19	MetaGeneAnnotator	CDS	3105	3530	.	-	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011037396.1;translation=MNKKKTINEEQKDLIEEFSFFDNWQDKYEHIIDMGKKLDMLPDKYHIKKYKVEGCVSEVFLVPKINNNILDFKADSNSVITRGLIAMLLRIYSNRQPIEIINNPPKFIEKVGLGVHLTPSRTNGLHAMVKKIIEYANKYSK;locus_tag=LOCUS_5050;note=WP_011037396.1 hypothetical protein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:42.0%25%2C q_cov:92.9%25%2C s_cov:89.7%25%2C Eval:7.1e-26],MGA_530
sequence19	MetaGeneAnnotator	CDS	3591	4649	.	+	0	ID=MGA_531;product=dihydroorotate dehydrogenase (quinone);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RX27;translation=MLEKLYRKIIPLLNFVPPELAHNLAIKFIANYKKEMRKDSSILNTEVCNLKFSNPIGLAAGFDKNGEACDGLVSLGFGFIEVGTITLNPQSGNKKPRIFRLMEDKAIINRLGFNNIGSKRILDNLKKYDFRKKNGIIGANLGKNFDSKELFNDYLNLLKIFDKKTNYITLNVSSPNTPGLRELEKKDNFDKLVNKVSNLKKQKKINVPVFIKLDPDLSKKETSDIAEIILKSKIDGIIISNTSINRSNKLISKFSKESGGISGLPIKSKSNRLLKEFYSLTKGKIPLIGVGGISNGQDAYERILSGASLIQLYTSLVFNGPIVINKIKNELIYLLKKDNYKSIRHAVGKLNK;locus_tag=LOCUS_5060;gene=pyrD;EC_number=1.3.5.2;note=Q2RX27 dihydroorotate dehydrogenase (quinone) (Rhodospirillum rubrum ATCC 11170) [pid:41.8%25%2C q_cov:97.4%25%2C s_cov:93.7%25%2C Eval:4.4e-75],MGA_531
sequence19	MetaGeneAnnotator	CDS	4646	5461	.	+	0	ID=MGA_532;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011090211.1;translation=MKKLIIKQNISEIEMFYEVFFFDLYGVTHNGFNLFPGVINILKNLKKLKKKVIFISNAPRKSKKIKEFLKKLGLRNNLYFDVITSGDIAHQSYLLKLKKKKYFFIGANKDNDFCESLNITREKKLIESDFILNLGLNFGETVNNYNRILKQAAKLKLPMICVNPDIEVIRGKRKEICAGALALKYENFGGKVKYYGKPYKKIYQECFNRIKSINKKKILAIGDSIRTDILGAKNFSIDSALVLSGIDKKIKEIEKICKKTNIYPKFIFNKL;locus_tag=LOCUS_5070;note=WP_011090211.1 haloacid dehalogenase (Bradyrhizobium diazoefficiens USDA 110) [pid:33.3%25%2C q_cov:90.4%25%2C s_cov:87.1%25%2C Eval:5.7e-34],MGA_532
sequence19	MetaGeneAnnotator	CDS	5581	7617	.	+	0	ID=MGA_533;product=methylmalonyl-CoA mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010887727.1;translation=MYTFEDLKNLEHINSFPGFYPYLRGPKATMYPNRSWTIRQYAGFSTAEESNAFYKDNIKNGQTGLSVAFDLATHRGYDSDHQKVIGDVGKAGVAIDTVEDMKILFKGIPLDKMSVSMTMNGAVLPVLANFIVAGEEQGVSQNKLSGTIQNDILKEFMVRNTYIYPPVPSMRIVSDIIEYTSKNMPKFNSISISGYHMQEAGSTTAQELAFTLADGIEYVKCALSKGLKVDDFAPRLSFFFAIGMDFFMEIAKLRGARLLWSQLMKQFNPKDPRSSMLRTHCQTSGASLTEQDPYNNVVRTTVEAMASVLGGTQSLHTNSFDEALALPTPFSARIARNTQLILGEETGITKTIDPFGGSYFMEKLTNDLVNEAKKMIKEIDKMGGMIKAVEKGYPKLKIEEAATLKQAKIDKVEEVVVGVNKYHPDTNEKVDILNIDNTKVRNQQIKKLQLIRKKRNSKKVMSSLEVLKNEAKKKHTKTNLLKYAIEAAKNRATVGEISDALESVFTRHKAIIKSVSGVYSSAFQGDKGLKNIKEKIKEFVSKFGRRPRMLVVKLGQDGHDRGAKIIATAFADIGFDVDIGPLFQTPDEAAKQALESDVHIIGVSSQAAGHKTLVPELLKSLKKQGNKDILVVCGGVIPPQDYKFLKSKGVAAIYGPGTNIPKAATDIIQLIKKKNINI;locus_tag=LOCUS_5080;EC_number=5.4.99.2;note=WP_010887727.1 methylmalonyl-CoA mutase (Deinococcus radiodurans R1) [pid:65.4%25%2C q_cov:98.8%25%2C s_cov:93.8%25%2C Eval:9.5e-259],MGA_533
sequence19	MetaGeneAnnotator	CDS	7649	8626	.	+	0	ID=MGA_534;product=ATPase/protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390231.1;translation=MNTSLYKKILLSDRLALSKGITLIESTKLKDITNSEKLLKKLFKKSGKSLRIGISGPPGVGKSTFIETLGIFLTEKKYKVAVLAVDPSSKKSGGSILGDKTRMQELSIRKNAYIRPSPSGGELGGVARRTRESMILVEAAGFEIVLVETVGVGQSETEVSEMVDIFIVLLQPASGDELQGIKKGIIEIANLLVVNKEDEFSNEAIATLNEYKNALGLLKKEKNSYETKVLKCSSLKKTGIKEIWETILKYKKIGEKKGWIKRNRSKQLIKWMWDDLQKNLFNKIRNNKKLILEFDKLQKKVIKNTISPREASKKILHHYIKNNKS;locus_tag=LOCUS_5090;note=WP_011390231.1 ATPase/protein kinase (Rhodospirillum rubrum ATCC 11170) [pid:47.4%25%2C q_cov:95.7%25%2C s_cov:93.7%25%2C Eval:1.4e-75],MGA_534
sequence19	MetaGeneAnnotator	CDS	8653	8967	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKQCELTGKKVSLGNNVSHAHNKTKRNFLPNLQKKSIYSDTLNQMIRLKISTKAIKSIEISGGFDKFILSVPNNKLSGKALKIKKAIKLKIGKVSEKKEVKKN;locus_tag=LOCUS_5100;note=Q92MF4 50S ribosomal protein L28 (Sinorhizobium meliloti 1021) [pid:54.7%25%2C q_cov:72.1%25%2C s_cov:78.1%25%2C Eval:1.2e-17%2C partial hit],MGA_535
sequence19	MetaGeneAnnotator	CDS	8980	10737	.	-	0	ID=MGA_536;product=cobaltochelatase subunit CobT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010918558.1;translation=MISINKSVESTIKSISGRKKLNFTFNNENIRIDGNNIFLPNGNLLKNENDIKNFRGITDFLALKLKFHNSKLYNKYKPINQIKNELFDALEESRIVSLGYSAMIGIASNLKIRIKFFCKKNHFEKIKKRNNDNITQVIKLMSTEIFLEEKLPKNTLSFLNLWKPIITPLIIENLIELKKLKNNQEDFSKESLKLIDKINGFCKKKETERIQKNTKKNTKNEKKNEKKKNQLKKKDREKIKSFLFINNFKKKENSKQKKDSENLGNKKNIINNSINQINKDINYKIYTNKFDKIAKASSLCSKKELSQLNNLLLKESKDIFLTVKRLAKKLQNKLLVINKSFWNFDIEEGKINNSKLSRIISNKSFKKVFKNYEEKKIKDTIVTLLIDNSGSMRGKPIQTAAICSKIISNILEKCFVKVEVLGFTTKEWKGGKSREKWISDKMPYAPGRLNDLMHIIYKTPEENLKKINSNFSVMLKDGLLKENIDGESLIWSLNRILKRNEERKILMVISDGAPVDDSTISTNSSNYLERHLKNVIKFIENKTKVEIIAIGIGHNVNKYYKKAVTINDPDQLGGTMIKKFLELFD;locus_tag=LOCUS_5110;EC_number=6.6.1.2;note=WP_010918558.1 cobaltochelatase subunit CobT (Caulobacter crescentus NA1000) [pid:34.4%25%2C q_cov:99.1%25%2C s_cov:93.0%25%2C Eval:2.1e-97],MGA_536
sequence19	MetaGeneAnnotator	CDS	10750	11739	.	-	0	ID=MGA_537;product=cobaltochelatase subunit CobS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011083012.1;translation=MENILTDSISHIPDIKISSKQVFGTEEDLKIPAFSNKTDLVPKIDKNYFFDNDTTISILTGFSENKRVLIQGYHGTGKTTHIEQIAARLNWPCVRINLDSHITRGDLIGKDTIIVKNGKQITQYKDGMLPWSIKRPTTLVFDEYDAGKPEVMFVIQRILETDGKFTLLDNNEIITPHPAFRLFATSNTVGQSDNLGIYHGTNQINQGQMDRWNIVSVLNYLPPEIETKIVLNKVKITHKHMVEQIKLMISLAGLIRKGFIQGDFTNVLSPRTIINWAENYKLFNNLIFSFKVSFLNKCDEIEKPIIAEYFQRVFNIDLPESEINNIKKK;locus_tag=LOCUS_5120;gene=cobS;note=WP_011083012.1 cobaltochelatase subunit CobS (Bradyrhizobium diazoefficiens USDA 110) [pid:57.6%25%2C q_cov:96.7%25%2C s_cov:84.6%25%2C Eval:5.7e-114],MGA_537
sequence19	MetaGeneAnnotator	CDS	11766	12317	.	-	0	ID=MGA_538;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010973195.1;translation=MKKNKKKLFEKETFSQVRICNKNDCNNPGVYKAPKSKSELNNYIWFCEQHIKEYNKDWNYCKDMSQNEIEKHIQLDTIGWRPTWNFSTSNFKIKNFEKIFNNYFNFFKKNKKEYFKKNKNKKLEKSLKIFNLNNNELTIKIINEKYKKLVKKYHPDKNKGNIKYEEKLKEINQAFEEIKKVFN;locus_tag=LOCUS_5130;gene=dnaJ;note=WP_010973195.1 molecular chaperone DnaJ (Agrobacterium fabrum str. C58) [pid:24.7%25%2C q_cov:93.4%25%2C s_cov:90.0%25%2C Eval:3.4e-16],MGA_538
sequence19	MetaGeneAnnotator	CDS	12370	12633	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEDLIKEKIKKEFPDAIFSIKNTSNKHKTHKQNKVGNETHFVITIKTKKFSKLSKLQRHKLFFKILGSEIINQTHSISMNLQDKE;locus_tag=LOCUS_5140;note=MGA_539
sequence19	MetaGeneAnnotator	CDS	12648	13895	.	-	0	ID=MGA_540;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012066784.1;translation=MDWYTISIIFLILFLILLSGFFSGSETALTAVSKAKIHQLEKKKNPRAKIVNFLKLQKEKLIGTLLLGNNLVNTLATAIATSFIINYSNNSEKAIIYSTCIMTILILLFGEIIPKTIAINKAEKYSLLFSPIIRFLVKILSPFTNLIHYFTHSILKIFKFKISTDIGTTEDELRGAIDLHAKTEGSRHEKDMLQSILDLDDLQVKEIMTHRKNIEVIYVNNSINANIKKILKSQYTRLPLYDKNSDKILGILNVKDVLKIKNNKKLDLKTIAKNPWFIPETTSVLDQLQEFKKKQRHLAFVVDEYGTLMGIVTLEDVIEEIVGDIEDEHDIKIKGAKRLKDGNFTINGNVTIRDVNREFGWNLPDNKASTLAGLIFYEIKTIPEPGKIFSFYNYRFEIIKAKKNHIEIVKVTPLN;locus_tag=LOCUS_5150;note=WP_012066784.1 membrane protein (Sinorhizobium medicae WSM419) [pid:39.9%25%2C q_cov:95.4%25%2C s_cov:92.6%25%2C Eval:1.0e-84],MGA_540
sequence19	MetaGeneAnnotator	CDS	13897	15000	.	-	0	ID=MGA_541;product=3-dehydroquinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHI4;translation=MSKYHKINVPLKNNFYQVIVGSNILKKTKKIIFSKIKHAKKIFIITDTEIKRLHLKKILNLVPKKIIIKTITLNSGEKAKELQTINKILNFLLKNKVSRNDAIFGLGGGVIGDISGFVASIALRGINLVHFPTTLLAQVDSSVGGKTGVNSSYGKNLIGTFYQPKLVVCDINLLNSLPKRQLISGYAEVIKYGLINDKIFFNWLEKNIKKILNNNQSALIEVVKKSVITKKNIVLKDEKDLNNTRALLNLGHTYGHSIEKCSKYSNKLLHGEAVSIGICMASKLSNILGFLPSNELIKIENILLNFGLPINMGFLKKLKIKKKDIINNMIYDKKYLNGKLNFVLCKKIGNAFIFNNVKKKNIEDSIS;locus_tag=LOCUS_5160;gene=aroB;EC_number=4.2.3.4;note=B5YHI4 3-dehydroquinate synthase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:42.3%25%2C q_cov:93.7%25%2C s_cov:94.2%25%2C Eval:6.7e-66],MGA_541
sequence19	MetaGeneAnnotator	CDS	15031	15549	.	-	0	ID=MGA_542;product=shikimate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89XW7;translation=MKKKIVLLGMMGCGKSTIGNVLSEKLKIDFIDTDKLIEKNVGLKIKTIFEKHGEDYFRNIEKKIISKLLLKKDSCVIAIGGGSLLNKEVRKIILKKTISIWLNTKKELIFKRCKKSNERPLLTMDNKKNYKIINNLLKIRKPLYSQAKIMIRSNKSPKKTSEQILKKIKKYI;locus_tag=LOCUS_5170;gene=aroK;EC_number=2.7.1.71;note=Q89XW7 shikimate kinase (Bradyrhizobium diazoefficiens USDA 110) [pid:37.4%25%2C q_cov:98.8%25%2C s_cov:81.2%25%2C Eval:1.2e-25],MGA_542
sequence19	MetaGeneAnnotator	CDS	15626	15790	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRSRKKSFFEKKMNIFLLLIVFILIILFFFLEWFVPVPKIKVEKEIEIEQYKK;locus_tag=LOCUS_5180;note=MGA_543
sequence20	MetaGeneAnnotator	CDS	36	899	.	+	0	ID=MGA_545;product=4-hydroxybenzoate octaprenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCN7;translation=MFKYILYYLKNFFLLIRINKPTGIMLLMFPAIWSILIVLKQEIDIYLTLLIIYGSFIMRSAGCIINDLIDKKFDKYVERTKDRPLASGNLENTDAIILLIIFLSIALSILLSLNFSSILLGILVLPLIFIYPFMKRYIYIPQLFLAIVFNFSVLISWTAAKGAFEMQSLTLYLACIFWTLGYDTIYGYQDIKDDKRIGVKSLAIYLEKNIKYYSSSFFTFFLIFLFYIGIKNNLNIIFFTIIILFTLIIISKIFKEKKLKKENCYKIFQVNSWYGFFITLGLLFNYI;locus_tag=LOCUS_5190;gene=ubiA;EC_number=2.5.1.-;note=Q9ZCN7 4-hydroxybenzoate octaprenyltransferase (Rickettsia prowazekii str. Madrid E) [pid:38.1%25%2C q_cov:93.4%25%2C s_cov:95.4%25%2C Eval:3.4e-48],MGA_545
sequence20	MetaGeneAnnotator	CDS	919	2256	.	+	0	ID=MGA_546;product=modulator protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011090251.1;translation=MIKSKIYEKAEFLIKKSKKTGADNIDVVYVENINIDVGCRLKKIEKLERSESNDLGLRYIKNNKQVIISTNDLNNKSLEGLIYKASKMIDAVPKDLNCKIAKKNEIIKKIPNLKILDKKEPSIKSLKEKAIETEKAGLNVKGVTNSEGAEAGWNKSKIFLFNSNGLNVNYESSNYSVYAVLIAGKGTAMEREYDFASSVFEKDLIKTSLIGKNAGELAVKRLNPKKIKTCKIPVIFSPRVANSFLKHLSNAINGNSIARGTSFLKKKLNKRIFSNEINITDNPLKIKGLQSKPFDGEGLATKKTNIVESGMLKTWFLDLSTANQLNLSSTGHASRSVSSPPSPNPTNLYFEPGKISRKNLIGNIRKGIYLTELMGSSVNLLNGDYSRGGSGFWIDKGEITYPINEITIADNLNEMFKKIVVADDLEFKQGLNSPTMLIDNMTVAG;locus_tag=LOCUS_5200;note=WP_011090251.1 modulator protein (Bradyrhizobium diazoefficiens USDA 110) [pid:43.3%25%2C q_cov:99.6%25%2C s_cov:92.9%25%2C Eval:1.3e-106],MGA_546
sequence20	MetaGeneAnnotator	CDS	2262	2633	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKNEKSIKLIKRLVKEHVRPYFGKMLIAAICMAIVAASTATNAWLMQPVLDEVFLNKNTQLLLLVPIAVMTIAIIKGVASYGESIYMEYSSERIISDVRYRLFSHLMKADLIFSIKIHQEN;locus_tag=LOCUS_5210;note=WP_010938960.1 ABC transporter ATP-binding protein (Desulfovibrio vulgaris str. Hildenborough) [pid:34.3%25%2C q_cov:87.8%25%2C s_cov:17.8%25%2C Eval:4.5e-14%2C partial hit],frameshifted%2C insertion/deletion at around 2600,MGA_547
sequence20	MetaGeneAnnotator	CDS	2660	4069	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRASVSTALTGIAKDSMTLIFLVALMFYQDWFLAIIAFFVFPAAVLPILYIGRKIRKISTSTQTEIGSFASLLSQIFQSARYVKAYTMQNFEKKRAKKIVEDLFNLIYKSVRVRSRTRPILESLGGIAIALVIFYGGSKVISGATTPGTFFSFITALLMAYQPLKRLANFNVNIQDGLAAADRIFNLLDQKPEIIDSSNAKNYIHKKGEIEFKKVKFSYGSKMTHALKEINLKIPGGKTVALVGKTGAGKSTILNLIPRFYDIQNGQILIEKNNIKKYKIQSLREKIALVSQEVTLFDDTIRSNIAYGNPNCSEKQLIEAAKKADAHNFISNFKNNYKSLVGEHGIQLSGGQRQKIAIARAILKDAPILLLDEATSSLDSSSERDIQKSLKKLMKNKTTLVIAHRLSTILDADLIYVIDNGKVVESGNHKSLMKNKGLYSKLYKIQFASQKQDINKIVKIKDYIKKKN;locus_tag=LOCUS_5220;note=WP_011390692.1 ABC transporter permease (Rhodospirillum rubrum ATCC 11170) [pid:42.4%25%2C q_cov:94.5%25%2C s_cov:73.2%25%2C Eval:1.3e-107%2C partial hit],frameshifted%2C insertion/deletion at around 2606,MGA_548
sequence20	MetaGeneAnnotator	CDS	4080	4751	.	+	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE57;translation=MLNYKKILKTKLAYRIICWIGSRYIKFVSITNKWSFINKNFVENLWKKNEPFILCFWHGRLLMMPISWNEKKKINVLISSHSDGQLLSKTVKYFDIETITGSSSKGGSEAIRNIIKSLKSGISIGMTPDGPRGPRMKINSSIVKIASLTGYKIVPLAYSVKNKIFLNSWDKFLLALPFGKGCFIWGKPIKVQKRISYKEDLKISKKLEKNLLKLTKQADKYCN;locus_tag=LOCUS_5230;note=Q9ZE57 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:33.6%25%2C q_cov:96.9%25%2C s_cov:97.7%25%2C Eval:2.4e-26],MGA_549
sequence20	MetaGeneAnnotator	CDS	4772	5785	.	+	0	ID=MGA_550;product=tetraacyldisaccharide 4'-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RWV9;translation=MLQKFLILFKSGYPNFWKKNNNFFEQIIILILLPFSFIYFLFFKINQKIKKTNKVCVPVICIGNVNIGGAGKTPFVIYLTKILKKKKINVHIVSRGYLGKLNGPIKVNIKKHSAKDVGDEALLLAKETNTWISKNKFEGALMATLNGADIIILDDGLQNQTLYQDLKVIIIDGIFGVGNGLLIPSGPLRETLESRIDKSDLMIIFNEDKYNIKKKVQKKIPIIHANPEIKNFNYLKNKRIIAFSGIGRPEKFHSSLTKKKLNVIKFFPFPDHYFYKEKEIKKLINYAKKEKSILVTTFKDKQRINIKQRNKIFFVDLKIELKNKNNLIKILKKKKIV;locus_tag=LOCUS_5240;gene=lpxK;EC_number=2.7.1.130;note=Q2RWV9 tetraacyldisaccharide 4'-kinase (Rhodospirillum rubrum ATCC 11170) [pid:34.5%25%2C q_cov:88.7%25%2C s_cov:90.3%25%2C Eval:1.2e-50],MGA_550
sequence20	MetaGeneAnnotator	CDS	5883	6644	.	+	0	ID=MGA_551;product=lipid A biosynthesis lauroyl acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598029.1;translation=MGKISSFIGPKLGISKKAYKNIKTVMPEKSENEISKIIKNMWENLGRVFGEYPHLKKLVPENENKIKIYGKKNLSLIKKTKIPAIFFSAHLANWEISPIAAINNGVPVLSIFREPNNPIVNYLIKFLRSNLPMAPKGKEGAKELIRSLRKRISIGLVIDQKMNDGIEVPFFNKPAMTSDALAQLCLKIKTLVIPVEVERLKKTNFKITFHEPMKITKNGIKKSKLEIMTEVNLIIEKWIRKNPGQWLWLHKRW;locus_tag=LOCUS_5250;note=WP_004598029.1 lipid A biosynthesis lauroyl acyltransferase (Rickettsia prowazekii str. Madrid E) [pid:38.8%25%2C q_cov:98.8%25%2C s_cov:87.6%25%2C Eval:3.4e-46],MGA_551
sequence20	MetaGeneAnnotator	CDS	6646	7395	.	-	0	ID=MGA_552;product=periplasmic metalloprotease M23B family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011072216.1;translation=MELNGHFTQGGLLFGKTKSKNKVYFKNKNIFVTDNGDFVLPIGRDEKLENLIIIEGLDKKETHKIKISKRKYKIQRIDGLPKNKVTPNKEEMKRIKKESIKIKKSKSIFLKKTFFKSGFIWPVKGIITGKYGNQRILNGKPRRPHYGLDIAASLGTKIISPSDAKVVLILEDSFFNGKMIILNHGLGLNSIYSHLKKIYVKEGETIKKGDYIGEVGSTGRSTGPHLDWRINVYNIAVDPELLLLNQPQF;locus_tag=LOCUS_5260;note=WP_011072216.1 periplasmic metalloprotease M23B family protein (Shewanella oneidensis MR-1) [pid:36.0%25%2C q_cov:96.0%25%2C s_cov:83.9%25%2C Eval:6.2e-45],MGA_552
sequence20	MetaGeneAnnotator	CDS	7466	8701	.	-	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDNKLIDELNNDNIPIFNVSELTNEIRDLLENKYPYVKIKGEISGVTQAKSGHVYLKLKDEKNNIKGVIWAGILSNLLIQPKDGDEVICSGRITTYTGFTSEYQLNIESISYEGEGQLLKKKEEIRVKLEKEGLFKGKYKKEIPFIPKMIGVITSKSGAVLHEMEKIINERFSVNRSLYPVTVQGKAAVKEITSAIEFFNNTKIEGIKADVLIIARGGGSIEDLWCFNDEELCRSIFNSKIPIISAIGHEPDTTLVDYVADYRAATPSEAAVKVVPVRKELINKLNKNFERFQKALFNFFKEKSLNLDHSFNNLPTPNQIYFQKKKEYIQIMKRFNSIAKVFISFKEKELKNLSKLLEVVSPKNILKRGYTYVKDLKNDTYIKSINKIKDKTNIKIRSHDGIIQAITKKK;locus_tag=LOCUS_5270;note=F9Y9G2 exodeoxyribonuclease 7 large subunit (Ketogulonicigenium vulgare WSH-001) [pid:42.1%25%2C q_cov:75.2%25%2C s_cov:69.4%25%2C Eval:3.5e-66%2C partial hit],MGA_553
sequence20	MetaGeneAnnotator	CDS	9266	10036	.	+	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKKFGSSGKEIIIEDYLVGEEISFLSLVDGKKYIPLLLSQDHKKIYENDRGPNTGGMGAYCPLPYLKKNIINKINKEIIEPTIDAMNREKRNFNGILYAGLMLVKKKIYLIEYNVRFGDPECQPLLFLLKSDLLKTLINCVNKKLNKTIIKWKKEYAISIVMVNKGYPNKFEKNNIIKNLNSIKENKNLKIFHSGTSLDKKNNIIASGGRVLTITTSHKNFNNAKKKAYEIIKKIKWKNSYYRKDIGFRIKKLR;locus_tag=LOCUS_5280;note=Q92RL0 phosphoribosylamine--glycine ligase (Sinorhizobium meliloti 1021) [pid:43.1%25%2C q_cov:96.1%25%2C s_cov:57.4%25%2C Eval:6.3e-56%2C partial hit],MGA_554
sequence20	MetaGeneAnnotator	CDS	10037	10486	.	-	0	ID=MGA_555;product=tRNA-specific adenosine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCC6;translation=MLVNKKIIEELKKLALKAKKNNEVPISAIIAKDNHIISKAYNTCHKSKNPLNHAEMIVINNTIKKNNNRFLDEFDIYSSLEPCSLCASAISFCRFKRIFFCAYDTKFGAITNGVKIFNKKNSMYKPKIIGGIEEIFFSQLLKDFFTSKR;locus_tag=LOCUS_5290;gene=tadA;EC_number=3.5.4.33;note=Q9ZCC6 tRNA-specific adenosine deaminase (Rickettsia prowazekii str. Madrid E) [pid:38.9%25%2C q_cov:83.2%25%2C s_cov:85.1%25%2C Eval:1.6e-21],MGA_555
sequence20	MetaGeneAnnotator	CDS	10837	11256	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMAKMAIKKNKPILGICGGQQLLNVALKGSLIQHIEKTKIKHEQTQPRNKPSHKIKININSKLFKIVKKKEFKVNSAHHQAIKKVGNNLDINAIADDGIIEGIELKKHKFFLGIQWHPEFFISEFDKKIFKAFIKACH;locus_tag=LOCUS_5300;note=WP_011388409.1 gamma-glutamyl-gamma-aminobutyrate hydrolase (Rhodospirillum rubrum ATCC 11170) [pid:49.2%25%2C q_cov:87.1%25%2C s_cov:51.2%25%2C Eval:5.3e-26%2C partial hit],internal stop codon at [10783:10785](+),MGA_556
sequence20	MetaGeneAnnotator	CDS	11267	11980	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTFKVSKLIADAGICSRRKAELLIKEGKVKLNNKILTNIPERASLKDSIKVSNKKIKFIKKTRLWKYHKPTGKLTTNYDPLGRKTIFDELPKTLPRVISIGRLDFNSEGLLLLTNSGNFARYLELPKNSFSREYKVKIKGEINVEKLKNLKKGIKIKNVKYKKIKTTILDKKKNYFWIKMKLTEGKNREIRKIINFFGWNVLVLQRISYGPILLDKLKKNEVEEINLNKYFKKIK;locus_tag=LOCUS_5310;note=C3MGU9 pseudouridine synthase (Sinorhizobium fredii NGR234) [pid:45.9%25%2C q_cov:93.7%25%2C s_cov:36.6%25%2C Eval:1.5e-48%2C partial hit],MGA_557
sequence20	MetaGeneAnnotator	CDS	11977	12552	.	+	0	ID=MGA_558;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431108.1;translation=MRIISGKFRGRKLIKFKKESIKPTKDKTRESIFNIIISYFNFKNKNNLPLQGLNVLDIFAGTGALGIEAISRGAKNVTFIEKSRDNLRILYKNIDHLKINEKVKVIKRSIKNVKKINEKFDIIFLDPPYQMDLIFKKTLKKILDFKILKKKTLIILEHSKKKKIIIPKVFEIVKEKNYGNSSLTLIKLKNN;locus_tag=LOCUS_5320;note=WP_003431108.1 RNA methyltransferase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:35.4%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:2.2e-24],MGA_558
sequence20	MetaGeneAnnotator	CDS	12549	13730	.	-	0	ID=MGA_559;product=tetracycline resistance MFS efflux pump;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257455.1;translation=MNALFLIVFSNLLGFGIIIPLLPYYAENFGANPNEVTLLMASYSLMQLIFSPILGKVSDIFGRKKILILCLFGSAISYLILYFANSFILVLFARSIAGLFASTTAVANAYVTETTSLKDRSKGMGLIGAAFGLGFVFGPVIGGYFGGGDINNINYKLPFLIAITISIISCFLTFILLKEPIKRNNQFISINFLNSFKDLINFFKIPAILFLIIISFLVTFSFAGFETTFALWTERAMNWASKQTGYAFTFTALLAAIIQGVFIGKLTKIFGEIKLLISSIFLMFVGLFFITLSIQNLSYLIFSLAILGISIGLGNPTINSLLSKNLNKNIVGLSFGAVQSVSSLARILSPLIAGNLFYFLGINAPYILGSFLMFIALILFFYYFIFLKKKIKI;locus_tag=LOCUS_5330;note=WP_012257455.1 tetracycline resistance MFS efflux pump (Chloroflexus aurantiacus J-10-fl) [pid:31.0%25%2C q_cov:93.4%25%2C s_cov:89.0%25%2C Eval:1.3e-49],MGA_559
sequence20	MetaGeneAnnotator	CDS	13738	14991	.	-	0	ID=MGA_560;product=glucose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9WFP0;translation=MEHNFNSCFLDSKIKKELLKATLKKINFIIDKIKKDKNLQLLAFLNQFFNFKQKNLNDLAKYHQKNFKDVIVLGTGGSSKAGRTFVQIAYRTFGRHPKFPKITFLENIDFQDIKDLFKKIVLKKTGVIVISKSGETNETLVQFLIFLTKFSKIFPKNKIRKHFTIITKKGDSSLRKVANDFDINTIDIDSNLSGRFSAFSPVGLLPAAISGLNIKKILKGALFMLNQCLKKKEKIPLEGAAIHFIAQKSKINISVLLTYTERLRNFGFWHEQLVAESLGKKNIGFTPLHSMGATDQHSLLQLFLEGPKDKLITFITLKKQKDQIKINNNLLSKIKKLSFIKKKSLNKLLDFEMKKVCKLLDEYKKPYRTLILSKCEEFEIGYLMMNFMLETVFLAYLNDLNPFDQPAIDKGKSINLK;locus_tag=LOCUS_5340;gene=pgi;EC_number=5.3.1.9;note=A9WFP0 glucose-6-phosphate isomerase (Chloroflexus aurantiacus J-10-fl) [pid:30.9%25%2C q_cov:84.7%25%2C s_cov:78.4%25%2C Eval:3.4e-40],MGA_560
sequence20	MetaGeneAnnotator	misc_feature	15002	16211	.	-	.	ID=MGA_561;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011338715.1:peptidase M16,WP_011338715.1 peptidase M16 (Rhodobacter sphaeroides 2.4.1) [pid:34.4%25%2C q_cov:97.8%25%2C s_cov:89.9%25%2C Eval:2.3e-62],MGA_561;locus_tag=LOCUS_5350
sequence21	MetaGeneAnnotator	CDS	271	1029	.	+	0	ID=MGA_563;product=Sec-independent protein translocase protein TatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RTH4;translation=MISRQNKNKKLISSHLLELRNKLIYFFIFFLFSFLFSYFFIDKILNFIVEPFINSIEFKNNKRLIYTGLTEVFLSYLKISIISAFILSAPFLIYQIWSFVAPGLLNKEKRIIYPFLFLVPVMFLIGFIFVYYFIIPLAWDFFVSFDTSQSNNNYTIELEPKINEYISLSLKLAFIFGLAFQLPIIILLLTVLKLISPNDLKKKRRYIIVIIFLVSAIVTPPDIFSQVGLALPIIILYEFSLLLSQYLENKKK;locus_tag=LOCUS_5360;gene=tatC;note=Q2RTH4 Sec-independent protein translocase protein TatC (Rhodospirillum rubrum ATCC 11170) [pid:38.5%25%2C q_cov:97.2%25%2C s_cov:76.5%25%2C Eval:1.3e-50],MGA_563
sequence21	MetaGeneAnnotator	CDS	1070	2329	.	+	0	ID=MGA_564;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66647;translation=MLDIKWIINNPKKADEEFARRGLKPLSSKLIKLSKSRSSSFIEVEKLLQERNKLSDLVPKENDVVKKNLIIKKVKNLKKQINNLQNDKSSSNSDLHKILLELPNFLDEKTPSGKSEDENKEIKKVGNIKNFDFKIKDHVEIGENLDLLDFKTAAKVSASRFVYLKKNLAKLERILANFMLESNMKFGNFNEIYTPLLVNEDSLIGTGQLPKFDSDIFKTRENFWLIPTSEVTLVNLVRDKILKQEDFPIRFTCYSPCFRSEAGAAGKDTRGLKRQHQFGKVEIVSIINQEKSENEHLFLLKTAEKILTELDLPYRVCELCSSEVGFAAKRTFDIEVWIPSLNKYMEISSISNCGDFQSRRINTRYVNNNKNKEFPYTLNGSSLAIGRTLIAILENYQNSDGSVTIPKVLRKYMDDNERL;locus_tag=LOCUS_5370;gene=serS;EC_number=6.1.1.11;note=O66647 serine--tRNA ligase (Aquifex aeolicus VF5) [pid:47.4%25%2C q_cov:98.6%25%2C s_cov:98.1%25%2C Eval:1.4e-97],MGA_564
sequence21	MetaGeneAnnotator	CDS	2336	2968	.	+	0	ID=MGA_565;product=protein-L-isoaspartate O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3FJ49;translation=MLDKLKRINLILKLRKLGIIDTKVLSAIEKTPREYFIDKEISFKSYQNSALPIDCNQTISQPAVVAKMTELLEPNNSSRVLEIGTGSGYQTAILSKLFKRIYTIERFNQLFKKAKKNLSKLNFNNIVYYYGDGLNGWPAKLTFDKIIITAVSREIPKKIIKQLSDDNCILVLPIIDKNDQYILKVIKKKNKYFYRKSWKVKFVPLVSGIS;locus_tag=LOCUS_5380;gene=pcm;EC_number=2.1.1.77;note=A0A0H3FJ49 protein-L-isoaspartate O-methyltransferase (Enterobacter aerogenes KCTC 2190) [pid:46.0%25%2C q_cov:95.2%25%2C s_cov:95.2%25%2C Eval:4.3e-43],MGA_565
sequence21	MetaGeneAnnotator	CDS	3043	3327	.	+	0	ID=MGA_566;product=preprotein translocase subunit YajC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002722646.1;translation=MNEAFASFLPLILIFVVFYFLLIRPQQKKMKEHKLMIDNLKRGDEVITSGGVYCKISKVIDENKVEVEFSNNVKVVISRPTITNIVNNQSKTEN;locus_tag=LOCUS_5390;gene=YajC;note=WP_002722646.1 preprotein translocase subunit YajC (Rhodobacter sphaeroides 2.4.1) [pid:51.1%25%2C q_cov:95.7%25%2C s_cov:80.6%25%2C Eval:4.8e-19],MGA_566
sequence21	MetaGeneAnnotator	CDS	3348	4919	.	+	0	ID=MGA_567;product=protein translocase subunit SecD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCW8;translation=MVQFKKWQVLLVTIFSFFAIFFSLPNFFSKSNLENIPFIPKDQIILGLDLQGGSYLLIEVDTQSLVIERLDSYSDDLRKSLKKNKIFYSDFNVDEKNITLTIKNKEKKNELIKILNNKTQDITYELNKDKFLNVSFSMQKIKEIEDSAVKQSIEVVRRRVDEFGTKEPTIQRQGLNRILLELPGVTEPERLKKLLGQTAKLSLHIVDDDLSSYDLKSGKNKPGIIIYESDETDLSGETVLIAVKKRNSISGDLLVNAFPTLDRGSAVVSFEFNNKGGRKFARITTNNIGKKLAIILDKKVISSPNIREPITGGQGIITGNFTFQDATDLSTLLRAGALPAPLTILEERTVGPSLGADSIESGKFASILGFLLIIILMYLCYGIFGLFANLALIFNLLILLAILTSIGATLTLPGIAGIVLTIGMAVDANVLIFERIKEEIKHGFSPIATIDTGYKEAFKTILDANITTLIAAIMLFGLGSGPVKGFAVTLSIGILTSMFTAIMFTRILIIIWLKKTNPERINL;locus_tag=LOCUS_5400;gene=secD;note=Q9ZCW8 protein translocase subunit SecD (Rickettsia prowazekii str. Madrid E) [pid:45.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:4.7e-122],MGA_567
sequence21	MetaGeneAnnotator	CDS	4922	5839	.	+	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPILKLIKENLNINFMKIKRITLFFSLFLFFFSLFSIFSKGLNLGIDFTGGSLIEVRFQEKINLNNLREKFDKLNLGEIQLQTIGNENDIVIRAQNKSNTEKEKMATINIIKKSLENESVEYRRTEFVGPKVGQELVKAGIIAVLFSLIGILIYIWLRFHWNFAIGAILALIHDVILTLGFFSVLKFEFNLATVAAVLTIAGYSINDTVVIYDRIRDTMRKYKKISFDEIINISLNGTLSRTLMTSLTTLLALFALFIFGGSVISSFIVALIWGVFIGTYSSLYVASPVLIYLKADQRIIDKNGN;locus_tag=LOCUS_5410;note=WP_013531306.1 protein translocase subunit SecDF (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:43.8%25%2C q_cov:92.5%25%2C s_cov:33.2%25%2C Eval:9.4e-68%2C partial hit],frameshifted%2C insertion/deletion at around 4916,MGA_568
sequence21	MetaGeneAnnotator	CDS	5829	6188	.	+	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIDTLKFKNKIFIEGYGINKFKISGNVYKSPILILKNKVIEKKNLKLNSLKKDFLLKIISNYKLDFLILGIEKEITKKIQSYNRETKIELMKTSSACRTLNILLSDNRNIGGLLFPIT;locus_tag=LOCUS_5420;note=MGA_569
sequence21	MetaGeneAnnotator	CDS	6202	6711	.	-	0	ID=MGA_570;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919854.1;translation=MEFFEPSYLAFFSRWLHVLSGIMWIGLLWYFNFVQIPSMPNIPDNEKPAISKVIAPKALFWFRWAALATIITGIFTAYLNGYLINALSLGLIDGSQKHSAIGIGMWLGIIMAYNVWMIIWPNQKIALGIINATDDQKPLSARKAMLFSRTNTALSIPMLYAMVSAQNLY;locus_tag=LOCUS_5430;note=WP_010919854.1 membrane protein (Caulobacter crescentus NA1000) [pid:57.6%25%2C q_cov:97.6%25%2C s_cov:83.3%25%2C Eval:2.3e-50],MGA_570
sequence21	MetaGeneAnnotator	CDS	6832	9693	.	-	0	ID=MGA_571;product=UvrABC system protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TB22;translation=MDKITIIGAREHNLKDVNLEIPKDKLIVITGVSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLEVMQKPDVDSIEGLSPAISIEQKTTSKNPRSTVGTITEIYDYMRLLFARIGIPYSPKTGKPIESQSVSQIVDNILNEKNGEKFLLLAPLIKGRKGEYKKELAEMIKKGFHRFKIDEKIYTSENLPDLDKNFKHNIDIVIDRIQINKNIKNLLTDSVESALNFSGGVVYTENIKNNNINIYSTKFACPVSGFTIEEIEPRLFSFNNPFGACPDCNGLGNKSYFDQEMIIPNPNLSLAEGAIEPWNKSSNDFYQQTLKALCNAFKFNMETPFKDLKNEIKKIILYGSKKKKIKFEYSSFRGTYLIERKFEGVIPNLQRKWFKNQNEYYRDEVSKYLKYDTCETCNGHRLKKEALSIKIDKKQIGEVCNLTIEKAINWFEKLEKKLNKTHLEIAKRILKEINDRLQFLKNVGLNYLTLSRNSRTLSGGEGQRIRLASQIGSGLTGVLYVLDEPSIGLHQRDNKRLLETLNKLKKLGNTVIVVEHDEEAIRSADYIIDVGPGAGNYGGKIVAQGELSKILDSPESITSQYLNRYRYIPTPKDRRKGKKNQFLIMKGVNTNNLKNVSIKIPLGTFTSVTGVSGSGKSSLINESLLKAVGRKLNYQIPKPEKYQSLEGYEYLDKIVEINQAPIGRTPRSNPATYTGAFTPIREWFSNLPQSRERGYRPGRFSFNVKGGRCETCQGDGMIKIEMHFLPDVYVKCDLCKGKRYNRDTLEIKFKDRNIADVLDMTVEDSLNFFKAIPNIKNKLQTLKQVGLNYIKIGQAATTLSGGEAQRIKLAKELSKRSTGQTLYILDEPTTGLHFEDVKKLLEVLHSLVDKGNTIIVIEHNLEVIKTSDYVIDLGPEGGEKGGKVIAEGTPEVLIVKYKNSYTSQFLYDVLRFEDKIKRKSLQK;locus_tag=LOCUS_5440;gene=uvrA;note=E8TB22 UvrABC system protein A (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:60.5%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:0.0e+00],MGA_571
sequence21	MetaGeneAnnotator	CDS	9780	10271	.	+	0	ID=MGA_572;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89L50;translation=MAGSVNKVILLGNLGIDPDIRTMQNGKKVCNLSIATSESWKDKETGEKKDKTEWHRVVVFNEGLIGIIEQYIKKGTKLYIEGSLQTRKWTDDSGTEKYTTEVLVQGYGGRIDIVSAKGNNQEVPDDTSNNNDNNETKKVEATDDASKSDDSKSENIDEEDIPF;locus_tag=LOCUS_5450;gene=ssb;note=Q89L50 single-stranded DNA-binding protein (Bradyrhizobium diazoefficiens USDA 110) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-42],MGA_572
sequence21	MetaGeneAnnotator	CDS	10301	13060	.	+	0	ID=MGA_573;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RTK1;translation=MSDTTIGDTSDSNGKNKKNLPNNNSNNGSIKNEINLSLKKEMETSYLSYAMSVIVSRALPDVRDGLKPVHRRILYSMHQSGYHHNRPYHKSARIVGDVMGKYHPHGDSAIYESMVRMAQIFSLRLPLIDGQGNFGSMDGDPPAAMRYTEARLKKVSEKLLDDLDKETVSFNENYDGSTLEPTVLPSKIPNLLVNGASGIAVGMATNIHPHNLGEVIDGCMAYIDNNNITIEELSKYVKGPDFPTGGIIKGKTGILSAFKTGRGSIIVEAKIDIEEKKDKKKSIVITEIPFSVNKSKLVAKIAEASKEKIVEDITDIRDESNRKGVRVVIDLRKNSNPDIILANLYKHTPLRTSFGVNALALRDGTSPEVMDLKKMISLFISFREEVVRKRTIFQLERARGRVHALTGLMIAVNNLDLVIKLIRNSKSPNEAKINLLKKEWPAKDLNSFIKIVDDPKYKLKKTGKYNLSPQQADAILELRLQKLTGLEREKIFDEAKVLGTDINRYLDLLKKKELLIKKIKEELIEIKENFADPRRTLIGADSKDIEEEDLVEAEDMVITVTHRGYTKRVPLKTYRAQKRGGKGRKAMSTREEDFVNQVFVANTKSSVLFFSTKGKVYQMKVFKLPEFAPNARGKPMIGIFPLLKNENITAVLPLPSDPKSWEQLNIMFSTAKGSVRRNALTDFIKIQSSGKIAMKLSDDDKLIGVHTCKEKEDDVFLSSKEGKCLRFSINDVRKFTGRNSVGVRGIRLSKEDTVISMYILKHAKYSTDDRDEYLKVANAIRRKELRRSTPFSKLLKNVKLTEEKFVEMESSEEFILSIADNGFGKRSSAYEYRITRRGGKGIANMSVNKKTGKVVSSFPVHEKDDVMLIAGTGKLIRSPVNKIRVAGRTTQGVRLFKLETGEKVLSSASIKDLNIPTED;locus_tag=LOCUS_5460;gene=gyrA;EC_number=5.99.1.3;note=Q2RTK1 DNA gyrase subunit A (Rhodospirillum rubrum ATCC 11170) [pid:54.1%25%2C q_cov:95.6%25%2C s_cov:93.2%25%2C Eval:4.0e-271],MGA_573
sequence21	MetaGeneAnnotator	CDS	13073	13555	.	+	0	ID=MGA_574;product=phosphopantetheine adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P58103;translation=MKIAIYPGTFDPITKGHLDIIKRSIKFVDKLIIAVSESSKKKTLFDIKKRVSLIQHVIKEEKINNVNVNSFSGLLMNFAMKQNANIIIRGLRAVSDFEYEFQMTGMNYKLNSEIETIFLMSSDKYQLISSKLIKEISQLNGDISKFVPKIVKKELEKKYS;locus_tag=LOCUS_5470;gene=coaD;EC_number=2.7.7.3;note=P58103 phosphopantetheine adenylyltransferase (Caulobacter crescentus CB15) [pid:52.2%25%2C q_cov:98.8%25%2C s_cov:97.5%25%2C Eval:1.0e-41],MGA_574
sequence21	Aragorn:1.2.38	tRNA	13606	13679	.	+	.	ID=Aragorn_11;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0110;note=Aragorn_11
sequence21	MetaGeneAnnotator	CDS	13681	14538	.	-	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCFFIADRSIASLFFYLNKYSSLPHSELYSGNGLTEIMILGNSRGYRSFDENLIENKTKKKTKNYSLIGSSTIINEIIIKDYIKIYKESPKVLIFEITDLLSDNSALKDFRIYGYKSNEISKLLKKNYPKLYYSSIVSNIFIFNNSTFFNSIQKIFVKYKYKSLTGEINKINFTTEKKTFKKNEFSKQNINSLKRIIKLCEEKKIKLILVIAPFYSEKLNYEKKEFDLWKSNIKKNINNIEIIDFSLSFTNKKFFNDWKHINKKGTQEFNKIFFKNRIISDILL;locus_tag=LOCUS_5480;note=MGA_575
sequence21	MetaGeneAnnotator	CDS	14564	15970	.	-	0	ID=MGA_576;product=O-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963532.1;translation=MLFTSFPFLIFITFFFSIYFYLGKKNKIIFLILSSFFFYGWWDYRFLFLLIFSILFDFYIGKLINDEKIKRKKKIYFISSIFLNLLILSIFKYLNFFLDGFYLILKKLNITNINENLFNIILPIGISFYTFQKLSYIFDLYKNKCKVEKNLLNFTCYVSLFPQLIAGPIVRAKKLLPQINSNIKPLFIDGLRLILWGFFLKLCLADTLAIFVDACFENPNKFGSMSLLIGSIFFSFQIYGDFAGYSLIAIGLGKLMGFNFGINFNAPYFANSFRDFWKRWHISLSSWFRDYIYINLGGNKKNLLTRNRNVMFTMVLAGLWHGANITFVIWGFLHAILIIIQNTFQKYLNIKTKNKIFKIFQIIFIFSIINILWIFFRSKDINSAFFYIKKIFNSGISFEGLQTYIFFIYKGFFLIFITMIIDYFITFKKLNKNFLNNKLFNYFLFLIVLLSISIFGTFNEAPFIYFQF;locus_tag=LOCUS_5490;note=WP_011963532.1 O-acyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:37.1%25%2C q_cov:97.6%25%2C s_cov:97.1%25%2C Eval:5.6e-87],MGA_576
sequence22	MetaGeneAnnotator	misc_feature	1	564	.	+	.	ID=MGA_577;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q2RTP4:methionine--tRNA ligase,Q2RTP4 methionine--tRNA ligase (Rhodospirillum rubrum ATCC 11170) [pid:37.3%25%2C q_cov:98.9%25%2C s_cov:35.6%25%2C Eval:5.7e-30%2C partial hit],MGA_577;locus_tag=LOCUS_5500
sequence22	MetaGeneAnnotator	CDS	564	1337	.	+	0	ID=MGA_578;product=TatD-related deoxyribonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389390.1;translation=MNKIIDSHCHLDFPQFKGKLDEIVNRALDKGIYRMLTISTKLSEINKLESISKSYSEVYNSVGIHPHECKNYKDLSLNDLIKHTKNKKCIGIGETGLDFYYENSPQELQIKLFKVHINAARETNLPLIIHTRSADSQTIQILKEEMKKGKFRGLIHCFSTSKELADEAINLGLYISLSGIITFNKSTDLRNIVKGLPIEKLLVETDAPYLSPEPFRGKCNEPSYIVHTAKILADLMKVELNTIADRTTINFNKLFNL;locus_tag=LOCUS_5510;note=WP_011389390.1 TatD-related deoxyribonuclease (Rhodospirillum rubrum ATCC 11170) [pid:47.4%25%2C q_cov:98.4%25%2C s_cov:93.7%25%2C Eval:5.0e-69],MGA_578
sequence22	MetaGeneAnnotator	CDS	1455	2675	.	+	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDKKNLLTIIVSIVVSLLIIEFLLRIIGFEKYEFKGYPPYYLTNVGDYDNFDIRANVKETDFIFNDSIPHKVWGNETGCFDESISNIKGNNYILVAGDSNSWGYVPYDKNWSYLLEKKIKTKVLNCGVPAYSTIQELYKTKKILKDYKNLNKPSLIILQYTFNNDFLGDYLFPQYKVKNNILTTNKYLDNIFKGTIRYKEENKFWDNLKYNLNEKFYLFRFLHRSHSFLKKKIKQSKNKKESLSEISTPPRFVLTSFDLSYLNFEKFPWAKKAWKSHLESILEFKKISDNVGAELLFVFWGDLPDYSRNHFKQALDMQKQFKKEDHLVNLNNDKLLFKFLEENNINYLNLSKLAWDLVGYKSLTDEGEKLRDVLIWRDDNHPNIEGNKFMAEKIYNKLVNDNIIK;locus_tag=LOCUS_5520;note=MGA_579
sequence22	MetaGeneAnnotator	CDS	2688	3449	.	+	0	ID=MGA_580;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939072.1;translation=MIVLITGATSGFGMACAELFSKKGYKTILIGSRKDRLLKLSKRLGVKKNHPIQLDVRNKGNVFKEIDNLPKSFKQISILINNAGLAWGFETSQDVDIEKWETMIDTNCKGLVYMTKAVLPGLIKRNKGHIVNIGSVAGNYPYGGGNVYGGTKAFVKQFSLGLKSDLLGTKVKITNIEPGMADTEFSLVRFSGNKKKAKDVYKNMTPLTGTDIAETIFWAINRPTHVNINRIELMPLQQGFNFFAVSRTGKIKK;locus_tag=LOCUS_5530;note=WP_010939072.1 NAD(P)-dependent oxidoreductase (Desulfovibrio vulgaris str. Hildenborough) [pid:51.2%25%2C q_cov:97.2%25%2C s_cov:97.2%25%2C Eval:2.0e-67],MGA_580
sequence22	MetaGeneAnnotator	CDS	3393	4601	.	-	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRVPYLNKNNHSKTKNYNCLIINPFQTFEKKITINDEKEICNLAENIDLKVVYKENIRIRKPTPSYLFGKGQINNIKILLKKYLANLLIVNYQLTPVQQRNIELYLKCKILDRTALILEIFGERAVTKHGKLQVELASLSYQKSRLVRSWTHLERQRGGYGFMGGPGERQIESDKRQINKRINKIKIELKKIESNKLIQRRNRNKNLNPFISLVGYTNAGKSTLFNYLTNENIYAKDQLFATLDTTMRKCNLLNNKKNIIFSDTVGFITNLPTELVVSFKTTLDEINFSDYLLHVIDISNSEWEKQKSTVEKILKTILGDEYNDKKIIEIWNKSDLLNKSDLIFFKNAVSRKENAILFSSKLKVGKKELLNLINKKIKKNKKFLFFNFSSSTHSKKIKTLL;locus_tag=LOCUS_5540;note=E8TNF0 GTPase HflX (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:48.2%25%2C q_cov:75.4%25%2C s_cov:65.2%25%2C Eval:3.8e-73%2C partial hit],MGA_581
sequence22	MetaGeneAnnotator	CDS	4614	5264	.	-	0	ID=MGA_582;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389373.1;translation=MNNSLKLPKAILFDWDNTLVNNWDPIFLAYKETLKQLGLKQQSRKETLKNAKYSLRETFPKIFKKDWKKAKKIFYLTFTKIHLKKIKPMIGSEKILKKIKKFNIPIGVISNKDGVLLRKEISKLGWNKYFKVVIGANEAKKDKPSKYPLLLALKEISLKANKNIWYIGDNEIDVEFAKKNKCSSIFIENKLFKKKDLKYKPDLIIQKIKSLEMYIK;locus_tag=LOCUS_5550;EC_number=3.1.3.18;note=WP_011389373.1 haloacid dehalogenase (Rhodospirillum rubrum ATCC 11170) [pid:34.4%25%2C q_cov:83.3%25%2C s_cov:77.9%25%2C Eval:3.2e-28],MGA_582
sequence22	MetaGeneAnnotator	CDS	5261	6139	.	-	0	ID=MGA_583;product=D-amino-acid transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389372.1;translation=MKNITYLNNKFVEHKVAKISVDDRGFLFSDSVYELISVFDGKIIDLKPHLSRLGSSLKKIKINYKVNQLKFKTIIKKLINNNKIINGYIYIQITRGVAERKHEFPKKYKPSIVIFTKHLNVNKNIYKTGVKIITIPDLRWLRRDIKTTSLLANVLSKQMAVEKNAFESWLIDDGYITEGSASNAWIIKNSNTIITHPSNTKILRGITRDTIFKILKKNNFKIKERAFNLIEAKNAKEAFLTSSTLSVLPVVKIDNYNISNGKPGDITKKIMLLYNNYISKNKNLKSQELKIA;locus_tag=LOCUS_5560;EC_number=2.6.1.-;note=WP_011389372.1 D-amino-acid transaminase (Rhodospirillum rubrum ATCC 11170) [pid:39.6%25%2C q_cov:95.2%25%2C s_cov:96.2%25%2C Eval:3.0e-55],MGA_583
sequence22	MetaGeneAnnotator	CDS	6141	7520	.	-	0	ID=MGA_584;product=Trk system potassium transport protein TrkA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389371.1;translation=MKVIICGAGEVGKTLAERLSKEDNDITIIDQSEDSLKEIQEHLDVNTFVGFGSQPGILDKAGAKSAEMLIAVTQSDEVNMIACEVANSQFNVPLKVARIRDQHYLDPNYETLFSRNQISVDLIISPETEVAEAIRRRLIAPGAFEIIPFSEKKIVLLGIKIDSKCPHAGKMLSKIRDEFKNLKMNFLSIFRKENILMPNDNEKLKLGDSVYVIADTNDLHNVMTFFGHKETKANSVIIVGGGNIGVSLAKRLEESKFGATTKLIELNKERAESISVNLNDTLVINGSSLDPEILQEAKISETETIISVTNQDEVNILTSLLAKKQGCKKAISLANDTTYRSILEPLGIDDVLSPQAITVSRILSYIRKGSIRQVYSLREGEGEVIEADAVEASSIVNKKLKDLKLPNGVRIGAVLRNDEEVFMPTPNLQIEPGDRIVLFSLSKMIKKVENLLSVRFRFY;locus_tag=LOCUS_5570;gene=trkA;note=WP_011389371.1 Trk system potassium transport protein TrkA (Rhodospirillum rubrum ATCC 11170) [pid:46.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-120],MGA_584
sequence22	MetaGeneAnnotator	CDS	7517	8908	.	-	0	ID=MGA_585;product=sigma-54-dependent Fis family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389370.1;translation=MTIYKGMKNKILIVDDDHDICVTLSKILSNKGYETLIANNSKTALNEIKKVSVDLILLDVWLEGSDKDGLELLKIIKNYNPYTPVILISGHANVEMAVKAVKEGAFYFIEKPFKSEKLFLLIERAIEDAFLKNKYQLYKEEINEDDQFIGNTNLVNNLKKKIKQIALSNTRVLITGETGTGKKLVAKIIHNSSKRAPKPFITINSSLLNLKNFDKTFFGSSDQEQTSALGFIQKANQGTIYLNEICDLEYPIQGKITNFLQKETFSTHGSKVDFNANIRFISSTNKNLNEEIQNKVLRKDLLYRLNVTSLEIPPIRERREDIPLIVDHFIKKNEIKYLKKIKLSEDVYSRLQTVEWPGNVRQIKNFVEWLYITFSKLSQKNDIITSKMLPNELLSKNEEKQSSDNNYNSIMNLPIKDARKNFEKQYLINQVKRFGWNISKTANFIGMERSALHRKIKEVGIKK;locus_tag=LOCUS_5580;note=WP_011389370.1 sigma-54-dependent Fis family transcriptional regulator (Rhodospirillum rubrum ATCC 11170) [pid:39.7%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:3.9e-93],MGA_585
sequence22	MetaGeneAnnotator	CDS	8913	10721	.	-	0	ID=MGA_586;product=putative sensor histidine kinase NtrY-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCU7;translation=MNNLIEKDVSRLTKWFKEPSTNRKISILLIILSFFASILTFLTFTNSLPYIKTTPTVALIVLSIDFFLLVLLCFKVTRKILITLSERKKGKLGSKISTKFILTFALLVLIPTITLATFSSLFFNVGMKAWFNDRVLKISEQSNVIANAYLKEHQQNIKSDVKAISKEIDEKFNVIFLNLNELNSFINNQIKIRELTEAFVFKRGGVLLVKGGFTISTTPDLITEFELIEAERGEVVFTSKRKDRVRALIKLKNLQNTYLSIGKFIDPQIISQIETVQEESLIYKNLFDKRKQIEINFYMVFILISLLVLLISILIGLLFADALISPISNLIKTSNEIKQGNLSAKVPQISTKDEMSLLIKTFNEMTNKLKLQRTELQKRERNAAWSDIARRIAHEIKNPLTPIQLSAEYLLSKSTSKNSKIYANTILKKVSLIEKMVDEFTQFARLPKPNFKRNNLTKICDELFLFHKKSYNKINFSYKNPKKDIFLNIDELQITMAISNLLKNSIESINEISKQKRSKGSISLNLSKNLKTTLIKINDNGKGLPNNFSKNKILEPYITTKKAGSGLGLPIVLKIIQQHNGNFFLDNNKNGTTAIIELSNNI;locus_tag=LOCUS_5590;EC_number=2.7.13.3;note=Q9ZCU7 putative sensor histidine kinase NtrY-like protein (Rickettsia prowazekii str. Madrid E) [pid:30.3%25%2C q_cov:89.2%25%2C s_cov:89.0%25%2C Eval:2.9e-70],MGA_586
sequence22	MetaGeneAnnotator	CDS	10735	12168	.	-	0	ID=MGA_587;product=nitrogen regulation protein NR(I);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389368.1;translation=MDKKKQILIAEDDQSIRTILSTELENNYDVKLTGNCSELWKWTSEGIGDLIILDVMMPDENGLELIPKIKKIRPELKIIVISAQNTILTAMQAVEKGAYEYLSKPFELSELNKIIKTAFSDVTKPSMSKNIKDNKNTNELPIIGTSSLMQKVFKSVAKLVNTDLTIMISGESGTGKELIAKILHNHSKRKASPFVAINMAAIPKDLIENELFGHEKGSYTGAFNRKSGKFEDAEGGTLFLDEIGDMPYEAQTRLLRVLQEGEFTRVGGNEKIKTNVRIITATHRNLNKLVEDGVFREDLFYRLNVFPINLPPLRSRLSDLKELVNHFLSKSHDEGLDKKIMLDDAIEELKNYNWPGNIRELENFIRRMVVLIPSNKITKTDIEKNLNNKNNSKNNFNNKNESLGMSVEEHLKNFFKLHKGKLPSAGLYSRIIAEVEKPLISICLSATKGNQIKASKLLGLNRNTLRKKIKDLNIKIF;locus_tag=LOCUS_5600;note=WP_011389368.1 nitrogen regulation protein NR(I) (Rhodospirillum rubrum ATCC 11170) [pid:54.5%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:2.6e-148],MGA_587
sequence22	MetaGeneAnnotator	CDS	12178	13236	.	-	0	ID=MGA_588;product=PAS domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011087259.1;translation=MDTLVNSIDLNSEFILNSIQSPIIVINAAKKTIIYCNSATEDFLEKSKISILNKKIEEIFKFNEDLNLLINKTIKNNTNFYLPNIEIDLVIKKINVSISISKIENEKGLFTLFLNDNSKKFEISKKLNFIKSAQSVSSLVSMLSHEIKNPLSGIKGAIQILQKKNEIKNKDMKLYKLINDEADRINHLLNSLEGFTDDRPIKKNKINLNQILRYSKNSIETIFKNKKINFVEHYDPSLPEIYGNKDNLIQLFLNLLTNSSEAIKDKNGRIKLITKYVHENFPIKVSIEDNGSGIPDKIKDNIFDAFVTNKTNGKGLGLSICAKIVEKHNALIEFDKINNKTIFTVMFNKVGN;locus_tag=LOCUS_5610;gene=ntrB;note=WP_011087259.1 PAS domain-containing sensor histidine kinase (Bradyrhizobium diazoefficiens USDA 110) [pid:33.9%25%2C q_cov:95.5%25%2C s_cov:88.7%25%2C Eval:6.8e-52],MGA_588
sequence22	MetaGeneAnnotator	CDS	13271	14455	.	+	0	ID=MGA_589;product=bifunctional enzyme IspD/IspF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89LQ8;translation=MIKKKAIKKYNYRANIAIILACGESLRFKSSTPKQYIDLHDDIILNNTINIFLQKEEIGRILLVLNRKHKKYFKKIIKNKRILRTYGGDSRQKSVFYGLKFIKRFKPDNVLIHDANRPLTDLSLISEIISKLKKFKAVVPRIKIQDTVKRIGTKKIKPIDRSKLFSLQTPQGFKYKELFNEHIDKKHEEFTDDSSLFDNKINSVKYINGDNENIKITDKKDLKIARKIYSSKIENKSNLLGLGIDFHKFSNKKGKLILCGVKIPFNKTLLAHSDGDLGYHAISDGILGAISEGDIGIHFPDTSKKNKNLNSAKILKYTYDLMKKKIKINIKNIDLTFIGEEPKFSKYQKKMRLNIAKLLNLNIEQVNIKATTTEKMGPLGNKEGLGAFALVNII;locus_tag=LOCUS_5620;gene=ispDF;EC_number=2.7.7.60,4.6.1.12;note=Q89LQ8 bifunctional enzyme IspD/IspF (Bradyrhizobium diazoefficiens USDA 110) [pid:32.4%25%2C q_cov:95.4%25%2C s_cov:95.0%25%2C Eval:5.2e-51],MGA_589
sequence22	MetaGeneAnnotator	CDS	14458	14907	.	+	0	ID=MGA_590;product=phosphatidylglycerophosphatase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546233.1;translation=MKEKLYKSITTFFGLGYISPFPGTLTSFLTVVIIWLIQKYFGFQITLTCIIFVSLIAYISIENDVNKKSDPKEIVIDEFIGQSIVLIFLPLTLQNYILGFIFFRIFDIYKPMPINYFEKKYQNAFGIIFDDIIAAGYALLAIYIINIII;locus_tag=LOCUS_5630;note=WP_012546233.1 phosphatidylglycerophosphatase A (Thermodesulfovibrio yellowstonii DSM 11347) [pid:40.2%25%2C q_cov:84.6%25%2C s_cov:86.9%25%2C Eval:6.4e-18],MGA_590
sequence22	MetaGeneAnnotator	CDS	14910	15392	.	+	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPIKIKNKAEKVVKLCLKKRIKLAFAESCTGGLLSSLITSFPNSSKIFIGGFITYSNLSKQNMIGVKSKTLKKYGAVSQEVAKEMVKGVWKKDKLNIALSITGIAGPTGQTKKKRVGLIYIGLKSKKGTIVNEFNFKGNRQKIRYASVEKAIDLISSII;locus_tag=LOCUS_5640;note=A5HYA4 putative competence-damage inducible protein (Clostridium botulinum A str. ATCC 3502) [pid:50.0%25%2C q_cov:91.2%25%2C s_cov:35.7%25%2C Eval:1.3e-33%2C partial hit],MGA_591
sequence23	MetaGeneAnnotator	CDS	1254	2069	.	-	0	ID=MGA_593;product=methionine aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RWF8;translation=MTNLEIKSNPKKEKINIYNSANFKSMRKAGLLAAQTLDFITKYVKPGVTTEKLDQLCHNFIINNNAIPAPLNYNGFPKSICTSVNHVVCHGIPSSKILDNGDIINIDVTVILNGWYGDTSRMFIVGNKTSVKAMKLINITYESMIDSIKQIKPGSTLGDIGFVIENKAKKNNFSVVKDFCGHGIGKSFHEAPSVLHYGSKGQGVKLKKGMIFTIEPMLNAGTNEIKILNDGWTAITKDRKLSAQFEHTVGITENGCEIFTLSPKNYEKPPY;locus_tag=LOCUS_5650;gene=map;EC_number=3.4.11.18;note=Q2RWF8 methionine aminopeptidase (Rhodospirillum rubrum ATCC 11170) [pid:59.9%25%2C q_cov:96.3%25%2C s_cov:96.3%25%2C Eval:7.0e-93],MGA_593
sequence23	MetaGeneAnnotator	CDS	2099	2827	.	+	0	ID=MGA_594;product=molybdenum cofactor biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012708023.1;translation=MKKIKNPTACIIIIGNEILSGRTLDTNKNYLCKELTAIGIDVLEARVVKDDEKQIISSVNELRKKYNYVFTTGGIGPTHDDITSNSIAKAFKVKLIKNKKALNILKKFYNLNNLNQARQKMAYLPKGSELLYNPITKAAGFRIKNVYVMAGIPEIMKAMFLNIVKKLKRGLPEVSKTLLFNLPESSIAEHLSNIQNNYKEVEIGSYPFMSGKKRGVNIVLRSQNKKLIKKVEKEILKKIKKN;locus_tag=LOCUS_5660;note=WP_012708023.1 molybdenum cofactor biosynthesis protein (Sinorhizobium fredii NGR234) [pid:41.1%25%2C q_cov:89.7%25%2C s_cov:87.3%25%2C Eval:5.4e-46],MGA_594
sequence23	MetaGeneAnnotator	CDS	2814	4163	.	-	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTVDLFLLKFISFFICLIPFILIFSNSIADIIVVITATFFIYKSLKDNNWSWLNEQWIKICFLIYFWLIISSFFAYNQELALSRSISWIRFIIFAASLQFLFFSQKKFEKKLVICTFLAIIYVNIEMLIEYFTNYSLYSRFLESFFNKDLFSGGGNRISGPFKDAPKSGLYLSYFLFPTFLGLINYFYNKKKNYLFVFFLIFIILNFFLIYISGHRGSILSTIITSLLILFFLFFRKKIKIFIYSLIILFFSLCIFYNSNPFLKTKIKNSLIDKTLNEISNYSESAYGSLSSTAFKMSLSNPIFGIGLKNYRIACEKDEFLSDGHKGSGYGVSPWKGHYNIELKKYYQATCSSHPHNLYLTWLSETGIPGFLFFIFFLMIIAIKINQNKDNLLKNIIFLGILTSLIPKFLPMMPSLNFFSNWNAVTIWFLLGWLLSYLSKNKKINFF;locus_tag=LOCUS_5670;note=MGA_595
sequence23	MetaGeneAnnotator	CDS	4167	5726	.	-	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIITLIRFALVAPNGSVNNEPTPPIGLAYIASSCKSIGVKVEGIDATGKNLNNIFKIPNGNLQGIGIEIDEILKLINPQTQVFGISAMFTHEWTYIKNCLKKLKKKFPKSKIIAGGEHVTALPEYSLKDCKEIDYICLGEGEETWKEITKKLLNKENINNINGLAYLKKNKFIKNQHRERIKEVDKIPWPDWKIFPIEPYLDNAISFGAGSGRNMPFLASRGCPYECTFCSNPLMYGRRYYIRPVEDVIKEIKYYIKKYKITGLQFYDLTAIVKKDWIIEFCKSLKKNKIDIEWSLPSGTRSEALDLEAVKAMTKAKLKYLVYAPESGSPETLKLIKKKIKLNKMEESIKYAIKNNVSVRTNLIIGFPHEKRIELYKTLLQQIKFMFMGVEESPTYPFQAYPGTELFDMLVKKKEIKLNDNYFNSLATLSTGKLTPPDVSYNQYIGRYELYFYRIIGLIISYLISYLTRPKRIFRTLKSFFTDRSATVIEQRLKDNLKRSKLFLNYIKPFVTKNFIENK;locus_tag=LOCUS_5680;note=WP_010941535.1 B12-binding domain-containing radical SAM protein (Geobacter sulfurreducens PCA) [pid:26.9%25%2C q_cov:67.2%25%2C s_cov:60.1%25%2C Eval:8.2e-26%2C partial hit],MGA_596
sequence23	MetaGeneAnnotator	CDS	5769	6980	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNLIQYDRKSRIFKYLNLLLLLVFSWVVLQNTLYFFEKIIFGNHENFYDLKLIYNSLIDTLNKENTYKIYPPYFDQPTTSIPPYILILIKNLGNFTYQNFIKIFIFFEIVAIIFLFFYSYKLFSLEKIKFLYPFFYFFSFNFSLGLAGTIVGNIAVLLYSIIGISLIFLYKEKIFFFSLLIFIVSCFKFYLLIFYFLPLVLYGFKTLKYLIPFVFSIFIINYLFYIKDPILYLSWVELMQIQVSRSPDNPWVGSDITQAFAALIRTFGNYFNIYLYPSTFLSNFFWIIITSASFVSFYFIYGNKKLNSESKLNLLSFALILIFLFYPRVLIYDLFLVIPAYYYLSSKIIFSVNKKINSIIKFILFFFFLCVQDTHAWLCSLSMIFFLIIYLEFKNKNPLLIK;locus_tag=LOCUS_5690;note=MGA_597
sequence23	MetaGeneAnnotator	CDS	6981	8201	.	-	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNKNKTNHNISSFFKNQRYVFLVYFSLFISAANVILNFFEKVIYGNRIPFADFSVYRCAAITFSEKISPYFPNALSKCLNSYPHALDFFYPPITLNFFSLFSKITEINSIIIWGIIILPIFFLKIFFSHKLFLKEKNILIFILIYLFSFGGLNFTGLLTGNISILFYSILGISLYLAIFGKNTKYFFIILTLMCIFKITYLAFYFLLFFLEKKNFYKYTFLSFLTIFTTYAFSYYSDQSLFLEFFNQLSYIRSEKFFELYGGGFGMYSILNELPSIFFPNIKNYYFTQISWFIICFIFFISTFFILFFNKNNFSKIQISVIGILLITICYPVLKDYEGLLLIPCIYYLLFNLNFKDIFSKNDNFIKYLIIFLTFIIHDKYMLFLTSILIFFYINYLNFKKIKIFK;locus_tag=LOCUS_5700;note=MGA_598
sequence23	MetaGeneAnnotator	CDS	8287	9372	.	+	0	ID=MGA_599;product=UDP-N-acetyl glucosamine 2-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947987.1;translation=MIIIGTRPELIKQIPVYNECIKKIGKQNVLLINSGQHQKFLNLYIKENNVKFDLTLSNMQSTSSLKYNLKKSIDIFYNLIKKINPNIVLIQGDTTTAAGCAYAGSLHGSIIAHNEAGLRTFDNKNPFPEELNRKLITSVSDIHFAPTSLNQKNLTNEGIDKKKIYVVGNPGIDSFLNALKKPSQTAKKIINIANKENKKIVFLTAHRRESIGNNFRTLFINLEKFFKKNKEYLLVTSKHPNNFALKYIKKYIENLDNSLITKPYDYFTTCNIINNSDFVITDSGGIQEECATIGVPTVVCRRITERIEAEKIGIAKVWRNKKNFFSLLNWAKNKKINKWSKKPYGKGNSAKKISEILIKYI;locus_tag=LOCUS_5710;gene=mnaA;EC_number=5.1.3.14;note=WP_011947987.1 UDP-N-acetyl glucosamine 2-epimerase (Clostridium botulinum A str. ATCC 3502) [pid:33.3%25%2C q_cov:99.2%25%2C s_cov:94.0%25%2C Eval:1.2e-51],MGA_599
sequence23	MetaGeneAnnotator	CDS	9369	10106	.	-	0	ID=MGA_600;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965878.1;translation=MKKKEYIWIGLPAFNEEIAIKKVLQSIIEINKKINIKIIIFNDGSKDKTVHNAKKFKKSLKIFVIDNKKNQGLGTGIFALINFFNKNGKSNDKLVLMDCDNTHNPKQIFQMKKKMNGKKNIVIIASRYQKNSQVKNVPFFRKILSDIAFIVFNICYKTKGIKDFTCGFRMYDKLSIKNFFEQIKKNYNPPNGFEIQLEILLQLRKKNIQFDEIPINLNYEKKPTESKMKIFKTIINYLKLIFLKN;locus_tag=LOCUS_5720;note=WP_010965878.1 glycosyl transferase (Clostridium acetobutylicum ATCC 824) [pid:35.7%25%2C q_cov:95.5%25%2C s_cov:92.3%25%2C Eval:5.7e-35],MGA_600
sequence23	Aragorn:1.2.38	tRNA	10202	10290	.	+	.	ID=Aragorn_12;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0120;note=Aragorn_12
sequence23	MetaGeneAnnotator	CDS	10269	10904	.	-	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MICPLLISKSENIKKIITVSIIILTFYILNYLYDSILFFNWIENVYKASVAKDYYSGFGIGSLNYAISIFNYLENKNIFISDKRELYEILFTLFFLILIISFSYFFLNKIKNKNLSIKKIKLAIAILLITICIPRLEIYELIICVTPMIFLLEKFYNFDENNNFYKLMLNLFFISLFLLNGDSGITYPLIASLTILSLYILIKKDGALPRT;locus_tag=LOCUS_5730;note=MGA_601
sequence23	MetaGeneAnnotator	CDS	11491	12204	.	-	0	ID=MGA_602;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004419147.1;translation=MSKILVCSPTYNESENIKNFCEQILKIKNIDLIIIDDNSPDGTAEIIFKLQKKYKRLFIIKRNKKLGIGSAIRDGMNYALKKNYSVFITLDADLSHEPKEIPSFIKKIKKFDFVAGSRYMNGGTSNYKGYRDFVSRLANISCKFLLRIPFKEFTTSFRAYSNKSLKVLKKATLWSDGYSSQIEFIFFIYMSGLKCIEIPIQFHDRTKGNSKIPRLQAFYGALKLLELFIRRLLTKKK;locus_tag=LOCUS_5740;note=WP_004419147.1 glycosyl transferase (Pseudomonas syringae pv. syringae B728a) [pid:40.1%25%2C q_cov:94.9%25%2C s_cov:79.2%25%2C Eval:3.7e-36],MGA_602
sequence23	MetaGeneAnnotator	CDS	12256	13017	.	+	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIEKYYFIFIMSSINKKKKLSKNQDVPIGYYDKVYIKKKGIQSKWHHQKFNFVRNKFKNKYKHLDFACASGTFINTLKKRNLSIGLDLSEKQISYAKKYENNYHKFKIVTLPLPYKNSTFDIITVLELIEHCSEKQNNFIFNELYRVLKPGGKIIMTTPNYLSFWPLLEKLVNLFGSVNYDHQHINLFNKKKLYNFLSKKKFDKIYIETFIYFAPFFAALSWKLSNFIEKIEKHIKTPFGFSLCATFVKKK;locus_tag=LOCUS_5750;note=WP_012545512.1 hypothetical protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:29.8%25%2C q_cov:62.1%25%2C s_cov:67.3%25%2C Eval:1.2e-11%2C partial hit],MGA_603
sequence23	MetaGeneAnnotator	CDS	13018	13644	.	-	0	ID=MGA_604;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011204031.1;translation=MIILTNKNWLTAKNNLKKKDKILKEIINRFKSEKLISKKNAFITLAKSITGQQISVKAANSIWAKLEKKLKKINPNGILKLRKKEIAKCGFSKQKINYLINLSNFFKKNRNIEKKWEKAENEEIINDLTKIKGIGVWTAEMFLIFHLLRPNIFPCADIGLLKAISVNYNLKYPLNNNQIKKFKKRWEPWSTVAVWYLWRSLDPIPVKY;locus_tag=LOCUS_5760;EC_number=3.2.2.21;note=WP_011204031.1 DNA-3-methyladenine glycosylase (Burkholderia mallei ATCC 23344) [pid:44.4%25%2C q_cov:94.2%25%2C s_cov:88.7%25%2C Eval:2.3e-49],MGA_604
sequence23	MetaGeneAnnotator	CDS	13697	14926	.	+	0	ID=MGA_605;product=sorbosone dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085494.1;translation=MKSLIYKILFIFFFIKVGLAIPQPGEKYFIDINKLAKPYSTKSVANSYKKLDMESCKLNSQEGFEINIFAKNLKHPRNIKVSNNGDVFIVESNPGKIKVLRDTDNDGIADINQVFAEGFNYPFGIEITSDSLYIADLDYLWKIPYKNGQLKMENNPIKLTKTDALGEPTGHRTRNIILLNDKIYIAIGSYGNIGVEDYPRATIQEFNLNTNVQKIFATGLRNPVGLGIHPITKKLYTVVNERDGMGDDLVPDYFSKVEEGDFFGWPFFYLGQNEQPNLEKNYFYFKNIAQTNNKEIKKPDVLFESHSGPIDLIFYNKSQFSKEFHGNAFVALHGSWNSSKPSGYMVVRIPFKNNKPLGYYESFVTGFWVSGSKRANVCGRPAGLGITKNGSLLISDDVAGIIYNVTYIK;locus_tag=LOCUS_5770;note=WP_011085494.1 sorbosone dehydrogenase (Bradyrhizobium diazoefficiens USDA 110) [pid:37.4%25%2C q_cov:94.1%25%2C s_cov:90.8%25%2C Eval:1.2e-69],MGA_605
sequence24	MetaGeneAnnotator	misc_feature	1	1034	.	+	.	ID=MGA_607;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011390700.1:farnesyltranstransferase,WP_011390700.1 farnesyltranstransferase (Rhodospirillum rubrum ATCC 11170) [pid:46.4%25%2C q_cov:92.4%25%2C s_cov:88.6%25%2C Eval:6.1e-82],MGA_607;locus_tag=LOCUS_5780
sequence24	MetaGeneAnnotator	CDS	1031	2068	.	-	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVQAIVLPYYGIGDFLSNLTFINALLKKFPKDKFLIFTKKRTKAKELLSCEKKIKIIYIKNRYNIFSSFLNLFSFSHNIVKNKVKKIWIFHRSPRFAFISYISGVREIYGYGFGIQNFFLRNCKKLNKNLKKVIPVEKGYFFLKNNNVSLKPLNPFLKIDKKKIKIIKNNYKKYPKKWILIGFSSTDLSRTWKKEYFIELINKLDSHLKYSFFLIGAPQENKLANEIRKLIKLKNGKIINFCKPIEETMALMSLSKFYIGNDSGTAHLSLACKLKTYIIHGGSPPYNQTVYKKHYPSVFLRNLYPIIPPDGKIRNPNLKTSETVIQKEGMDLIKPSYFLEKILS;locus_tag=LOCUS_5790;note=MGA_608
sequence24	MetaGeneAnnotator	CDS	2094	2564	.	-	0	ID=MGA_609;product=peptidyl-prolyl cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89L58;translation=MAQDSSNTVYLELKDGRVVIEMKPEQAPEHVKRIKELIKEKFYDGLKFHRVIDGFMAQTGDPLGNGTGGSGQNIPAEFNSLPHIRGTVSMARAQDPDSADSQFFICFEESSFLNNQYTVWGQVTEGMEYVDKIKRGEGSNGMVDNPDKIISMKLAK;locus_tag=LOCUS_5800;gene=ppiB;EC_number=5.2.1.8;note=Q89L58 peptidyl-prolyl cis-trans isomerase (Bradyrhizobium diazoefficiens USDA 110) [pid:65.6%25%2C q_cov:96.8%25%2C s_cov:95.5%25%2C Eval:3.1e-53],MGA_609
sequence24	MetaGeneAnnotator	CDS	2708	3058	.	+	0	ID=MGA_610;product=cytochrome C protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532062.1;translation=MTSLSFVILINANSFAADAAKGKKIYTKCKACHNADAEKNKIGPHLVKIVGRKAGSVESYKKYSDDLKGAGIVWNEANLNKWLENPKGMYKGTKMLYPGLKKEQDRLDVIEYLKTK;locus_tag=LOCUS_5810;note=WP_013532062.1 cytochrome C protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:44.7%25%2C q_cov:95.7%25%2C s_cov:89.7%25%2C Eval:4.0e-21],MGA_610
sequence24	MetaGeneAnnotator	CDS	3081	3599	.	+	0	ID=MGA_611;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RWT4;translation=MINLKKHIDTHPNFPKKGILFYDISSLMANAKIWKETINQFSNLVKKYKPQVLAGIESRGFIFASAIGYKLGCDVIMIRKKGKLPGETISYNYKLEYGKDCLEIQKRKELKNKRIILIDDLLATGGTANAAIKLLIKTKTNIIAFLCLIELTNLKGRNNIEIETNSLLSFDE;locus_tag=LOCUS_5820;gene=apt;EC_number=2.4.2.7;note=Q2RWT4 adenine phosphoribosyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:48.8%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:1.7e-43],MGA_611
sequence24	MetaGeneAnnotator	CDS	3592	4071	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYLLILFFLIFFQSELKSKEIIGKPIIHDGDSIKINNEKIRFSDIDAFEKKQTCKKNEIKYKCGEEAIKNLSTIISNQKIRCVTKKKDPYKRWLATCYIGKLNINENMVLFGNAFSYMSKKYKNTENDAKKVKAGAWSGEFIFPWEWRKLKKKNFSR;locus_tag=LOCUS_5830;note=WP_013531713.1 nuclease (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:35.4%25%2C q_cov:90.6%25%2C s_cov:68.9%25%2C Eval:3.4e-18%2C partial hit],MGA_612
sequence24	MetaGeneAnnotator	CDS	4111	4638	.	-	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDKEISPTIEQSLKMIEDKLKDKKGSDKTKSSSTKIISKDQSLSNLFKKKINLKKVKKKNLDDEPLLLTNKIEDSGKTLKKKKKKNKQRNVQIKEKFNIKKEKINENMSTIKDYKNLNKTSDLAVIIKKIKNIRDKKLKIYNKNKSKKIYKEIKKLNEAIDLSEDLFKKELLDL;locus_tag=LOCUS_5840;note=MGA_613
sequence24	Aragorn:1.2.38	tRNA	4700	4772	.	-	.	ID=Aragorn_13;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0130;note=Aragorn_13
sequence24	MetaGeneAnnotator	CDS	4779	5822	.	-	0	ID=MGA_614;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886254.1;translation=MITLIGVALLYSVAGGSWEPWAFNQIIRIFIGLFFLSLISLIHIKNWYKFSNQLYLLCLFLIILTLFMGKKVSGATRWIDFYLFTFQPAEFTKIFVLLALAKYFHSIKLQSHDIKQKIFFPLFILLIPVFLIFRQPDLGTALVIFFSGVIVLFLSGVNFRTFILFGFSGLLTLPLLWTVLKDYQKSRILNFLDQHSNTLGANYHITQSKIALGSGGFFGKGYLEGTQSNLNFLPEMQTDFIFAVLGEEFGFLGILILFLLYFILIVWTIKISLNSKNYFSKIFGISFISSFFLVTFINIGMVTGLLPVVGVPLPLCSYGGSAIISNFIGFGIILSGYNYRDYKLHNI;locus_tag=LOCUS_5850;note=WP_010886254.1 rod shape-determining protein RodA (Rickettsia prowazekii str. Madrid E) [pid:38.3%25%2C q_cov:96.5%25%2C s_cov:87.5%25%2C Eval:3.2e-62],MGA_614
sequence24	MetaGeneAnnotator	CDS	5881	7725	.	-	0	ID=MGA_615;product=peptidoglycan glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011337401.1;translation=MYKYPNIDKLLSRRTFLLNLGKGVLFTSLFARLAYLQLIKTNEFKVLADKNRISLRLISPSRGKILDRNNQILASNINSYNLYIHSVKNIDEFQTILEKINKIIFISNEEIKNIFSIFLNQKKKDLPIIIKKNLKWNEVSSISVNSLKIPNIFIDQGIRRQYPYDNIGAHIIGYISPPDKKDIKKEPLLGMLDIDIGKFGIEKSFEKDLRGFPGTRHLEVNAFGREIREIRKEKSINGDDIRLTIDINMQKYINSLLKNKNGSIVVINVKNGELLAIESSPNFDPNLFTSFISKKDWDALIKDPMSPLVNKSIAGEYSPGSTFKLIVLYSALQNNVFKINDKIKCTSKLNFGDRNFYCWCHKKKIGCWAAENHRRNVSPELAIAQSCDTFFYELAKKVGIDNIAKTANLFGLGIKSDLGLESEKTGLIPNKNWKKRENKSKWQIGETMITGVGQGYITTTPLQLALMTAIIANNGKKVFPSIFKNLKEFEKRDDNDEINDQEVNNENFFSLIKKGMFSAVNKSFGTAYKSRLSNPIFAGKTGTVQVRTITEAERFEGIIPNKDLPLKQRDHALFVGFAPYKNPEIALSVVIEHGGSGSKIAAPIAKKIFKKIFV;locus_tag=LOCUS_5860;gene=pbpA;EC_number=2.4.1.129;note=WP_011337401.1 peptidoglycan glycosyltransferase (Rhodobacter sphaeroides 2.4.1) [pid:37.7%25%2C q_cov:95.8%25%2C s_cov:89.2%25%2C Eval:1.3e-118],MGA_615
sequence24	MetaGeneAnnotator	CDS	7718	8236	.	-	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHDIKYYLKIAFPTLTLIFFIFFNLFLSNKINYSGQLFVFQAIFFWLVYSPKSIPLYIIFIIGLIQDIIFLLPIGTSSLVFIFLILVFEKYNKFLLEPSFFELQISFSIFLVIGTFCFWIVNSIVNSFILPFRMEYLYEIIFNIIIFPLNYYFLYLLFKKLNLDKIYKKNV;locus_tag=LOCUS_5870;note=MGA_616
sequence24	MetaGeneAnnotator	CDS	8237	9067	.	-	0	ID=MGA_617;product=cell shape-determining protein MreC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RX69;translation=MQIGIISSKIKKSKKIFSNYSIIFFIFLSILFIVLHKQNLISSKLISSKILSSILFTKNIFFSSLPKINKIKENFKSKADLIEQNNYLKEQIEQSNLFKLKSQKLEIENNILRKELSLLPPIEDNYIFVKVIEDIQSLYSKTIIVNAGENMNIKLGDAAFTSKGLIGSVIEVYEKYSRILLISDINSKIPVRIGENNVKAIITGNNTNKIKLLYMKNNIDIFDGDIVYTSGDGGYFNPGIPIGVLIKNNLTEYVKPLNDLYQIQYVNIYINQFKNF;locus_tag=LOCUS_5880;note=Q2RX69 cell shape-determining protein MreC (Rhodospirillum rubrum ATCC 11170) [pid:28.4%25%2C q_cov:79.0%25%2C s_cov:76.5%25%2C Eval:7.6e-26],MGA_617
sequence24	MetaGeneAnnotator	CDS	9108	10157	.	-	0	ID=MGA_618;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388229.1;translation=MIKFPKINLNWSSDMAIDLGTANTLVYVKGKGILLNEPSVVAITDTNDGKKEVLAVGKEAKTMVGKTPGTIKAIRPLRDGVIADFEIAEEMIKYFVRKVHNRKSFVSPKIVICVPSGATPVEKRAIHESAEAAGARRAYLIEEPIAAAIGAGLPIQDARGSMIVDIGGGTTEVAILSLGGIVYTNSVRVGGDKIDQAIVDFIKDKYNLLLGEASAEYIKKEYGSAMATRGMNGHSFHIKGRSLHDGIPKQIKIDSLQLCEGLSKPVNTIIEAIKVALENADPELAADIVDTGICITGGGALLKNLDGAIKKSTGLPVSIADDPLNSVVLGCGRCLDNLEKVKSLLTSAY;locus_tag=LOCUS_5890;note=WP_011388229.1 rod shape-determining protein (Rhodospirillum rubrum ATCC 11170) [pid:66.0%25%2C q_cov:96.8%25%2C s_cov:98.5%25%2C Eval:5.1e-124],MGA_618
sequence24	MetaGeneAnnotator	CDS	10166	11713	.	-	0	ID=MGA_619;product=2-isopropylmalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8H607;translation=MTKDKYIKIFDTTLRDGEQSPGASMFIDDKIKIAKALDMMGVDIIEAGFPVASKGDFESIELVSKEIKNSVVCALARAKKKDIDVAGEAIAKAKKSRIHTFIATSKLHMKYKLKMSEKQVLDHIKSSVKLASKYTNDVEWSCEDASRSDRKFLYQCIDLAIKSGAKTINIPDTVGYSIPFEFSQLINDIKQNVLNIDKAIISVHCHNDLGLAVSNSLFAIDAGARQVECTINGLGERAGNASMEEIVMAIKTRNDLLPYKTGIQTKMITRTSRLVSNITGFDVQPNKAVVGANAFAHESGIHQDGMLKNSNTYEIMTPESVGLKETKLVLGKHSGKHAFNVKLQELGYKINKKNIDKIFNSFKELADKKKDLYEEDIIALVEDEIIRVNNHIKFISLDVHCGSTGSQKAELEIEIDGFIKKISSNGQGPVDAVFNCINKLVPNKAKLSLYQVNAITKGTDAQAEVTVKLEQDDKSFVGKGADIDTLVASAKAYLHSLNKIFIKNDSKFSIKVLNA;locus_tag=LOCUS_5900;gene=leuA;EC_number=2.3.3.13;note=B8H607 2-isopropylmalate synthase (Caulobacter crescentus NA1000) [pid:56.8%25%2C q_cov:98.1%25%2C s_cov:96.2%25%2C Eval:5.4e-163],MGA_619
sequence24	MetaGeneAnnotator	CDS	11779	12786	.	-	0	ID=MGA_620;product=ketol-acid reductoisomerase (NADP(+));inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89G50;translation=MKVFYDKDCDKNLIQNKKVSILGFGSQGHAHAMNLKDSGVKNIVVGLKKNSSSVSKAKKAGFKVLSPEEAIEYGEVIMILIPDELQPDLYKKIIKKKIKKNAYLGFAHGFSIHFKFIKPRNDLNIFMVAPKGPGHLVRSEFKNKRGVPCLLAIDKCVSNNTKDLGLSYASAVGGGRTGIIETTFREECETDLFGEQVVLCGGLTSLIKSGFETLVKAGYKPEMAYFECLHEIKLIVDLIYEGGIANMRYSISNTAEYGDFSRGPRIINSKVQKEMKKVLKEIQSGKFAKEWIKENKTGRKKFNKFRKEGQNHKIEAVGKKLRKMMPWIEKNKIVR;locus_tag=LOCUS_5910;gene=ilvC;EC_number=1.1.1.86;note=Q89G50 ketol-acid reductoisomerase (NADP(+)) (Bradyrhizobium diazoefficiens USDA 110) [pid:62.9%25%2C q_cov:99.7%25%2C s_cov:98.5%25%2C Eval:6.2e-124],MGA_620
sequence24	MetaGeneAnnotator	CDS	12791	13288	.	-	0	ID=MGA_621;product=acetolactate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011089241.1;translation=MSNQKKEKHTISVLVNDEPGALARVIGLFSGRGYNIDSLTVAPVNLSKKYSRIIIVTYGTKLIIEQIIHSLERLIQVKKVIDLTFNNSTDERELALVKIKIKKNKNHLLKKIIKSFKAKLIYKNSDKYIFEITNSPDIINSFIIELNKISIIDVSRTGLIAILKN;locus_tag=LOCUS_5920;gene=ilvH;EC_number=2.2.1.6;note=WP_011089241.1 acetolactate synthase small subunit (Bradyrhizobium diazoefficiens USDA 110) [pid:47.4%25%2C q_cov:94.5%25%2C s_cov:86.7%25%2C Eval:2.9e-34],MGA_621
sequence24	MetaGeneAnnotator	misc_feature	13295	14729	.	-	.	ID=MGA_622;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q2RX73:acetolactate synthase,Q2RX73 acetolactate synthase (Rhodospirillum rubrum ATCC 11170) [pid:60.1%25%2C q_cov:100.0%25%2C s_cov:81.6%25%2C Eval:1.4e-170],MGA_622;locus_tag=LOCUS_5930
sequence25	MetaGeneAnnotator	CDS	374	1969	.	-	0	ID=MGA_624;product=ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TL31;translation=MDIKSSEISNILKKQIKSLNLKQDVSEVGQVLSVGDGIARVYGLENVQAGEMIEFTGGIKGMALNLEQDNVGAVLFGDDRNIKEGDVVKRTKKILEVPIGKSLLGRVVDGLGNPIDGKGDIKSKDKSRLEVKAPGIIQRKSVHEPVQTGIKAIDTLIPVGRGQRELIIGDRQTGKTAVAIDAIINQKEINEGKDEKKKLYCIYVAVGQKKSSVAQIVKVLEDNDALKYTIVVSATASDPAPLQFLAPYTGCTMGEYFRDNGMHGLIIYDDLSKQAVAYRQMSLLLRRPPGREAYPGDVFYLHSRLLERAAKMSDKDGGGSLTALPIIETLANDVSAYIPTNVISITDGQIFLETDLFYKGIRPAINVGLSVSRVGSAAQLKSMKQVAGSIKLELAQYREMEAFAQFGSDLDVATQQLLNRGARLTQVLKQPQYKPVPVEEQVISIFAGVNGYLDKVKVEYINKFEISLIEHCRNKQKKLLETIKKDQEVKESTEKQLHEIIKSFLNLYNKEELVIEDKKEEDVKENNEEKK;locus_tag=LOCUS_5940;gene=atpA;EC_number=3.6.3.14;note=E8TL31 ATP synthase subunit alpha (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:71.7%25%2C q_cov:95.7%25%2C s_cov:99.8%25%2C Eval:2.7e-210],MGA_624
sequence25	MetaGeneAnnotator	CDS	1989	2534	.	-	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIASNEVVKRYSKALYELSLEENKKNKIINDLSKINLLINKNRELKEIINSPLIASKKHQEILLSISKILKLDEITQNFLFLLAYNKRLNLLDKISHSYNESSSNQKNIIKIDVILPNKVSKKDIITINNQLKVEIRKKTKINFIEDKNIISGFIIKIGSIMLDFSMKSKLEKIVNSLR;locus_tag=LOCUS_5950;note=MGA_625
sequence25	MetaGeneAnnotator	CDS	2613	4607	.	-	0	ID=MGA_626;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD10;translation=MKQKIINVLLPLPFNQTFKYFCSENENIQIGDFVSVPFKNKLITGCVWENKNKSKIKVSLKKIRKIEKKLYFTPLNKSNIDFIDWVSKYTMNDIGVILKLCLSVKQVFKKKKIDEINNEYLKLSFNKPNLNREQLNAKEFIFKKIKKNKFSTIVIDGIAGSGKTEVYFEAINKCLAEKKQILVLLPEISMTTQWFDRFKKRFKKNPLLWHSEVKISDKIKIWKFINDGNISVIVGARSALFLPFHNLGLIIIDEEHDQSFKQEEGTIYNARDMAVVRAKITNIPIILCSATLSVETKLNILEKKYEVVNLKERFGGAKLPSVEIIDISENPTEKGKWLSEYVHEELKKTIKSGNQALFFLNRKGFAPYVFCNSCNKKVSCPNCDVGLVFHKKINNLICHHCGYKTLFKNNKKVCNECNKDDFFLYGPGVERIYEEIKNINKNLNIEILTSDVMQKKNEGENILRKFESEEINVMIGTQILSKGHHFPRLTLVVIVDADFGFIGGDLRAAEKTFQLLTQVSGRSGRSKLSGKVLIQTTMSNNLILENIKKFDINGFFSEELNNRKESGLPPFKKLCSLMLTSKNQKKLDSFCKKMRVELEPSKDFEVLGPASPYISFVRGKYRKRFIIRCKRNKNIQEYVNNWLKKFQKPFDLKISIDIDPYNFS;locus_tag=LOCUS_5960;gene=priA;EC_number=3.6.4.-;note=Q9ZD10 primosomal protein N' (Rickettsia prowazekii str. Madrid E) [pid:38.5%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:4.0e-129],MGA_626
sequence25	MetaGeneAnnotator	CDS	4715	5770	.	+	0	ID=MGA_627;product=tyrosine recombinase XerC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE0;translation=MNENNAKKIFNYKIINPKIKNYIVNWLKNLKIEKGYSENTVLAYEKDLRKFFNFFSWHKKNPDIDLSDLSENNLKKIKLTDFNYNNLDLSEKEIIEIKYNEIRPYLFFITFLNYKKTSRKRIVASIKSFYNFLLKNNKLIDLNIVNQLKGPKLDQSLPRPLNYQSIKNIINEINITKNKNWIKKRNIALIYIIYGCGLRVNEALSIKFSDIPKNTERGYMKIIGKGNKERIIPLINNVMKKINEYITSYPNKWTEQSFLFLGNNKKRLNPGVFQRDFRKIRKKLKLNDKFTPHALRHSFATHMLEKGADVRTIQKLLGHKSLESTQIYTEVSQSQLSKLYEKFNPRKKINT;locus_tag=LOCUS_5970;gene=xerC;note=Q9ZCE0 tyrosine recombinase XerC (Rickettsia prowazekii str. Madrid E) [pid:36.7%25%2C q_cov:94.0%25%2C s_cov:98.4%25%2C Eval:3.9e-47],MGA_627
sequence25	MetaGeneAnnotator	CDS	5773	6717	.	-	0	ID=MGA_628;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TIV5;translation=MATKISLIGAGNIGGTIALLAAIKNLGYVVLVDIAKGIAKGKALDISHSLPVLQCNRKITGTTSLKQIKDSKVIVVTAGVPRKAGMSRDDLVEINLKVMKDVGKAIKKYSPKSFVIVVTNPLDVMTWALQKITGIPHSHVVGMAGVLDTSRFKFHLAEALGYSVQDVSSSVLGGHGDDMVALLRHTTISGIPLEDMIKMKKISRQKVNEIVKRIRTCGGEIITYMGTSAYYSPAASAIEMVECYLRDQKKILPCSAYLRGQYGVKSIYVGVPVVLGANGVEKIVEVNLKKDEKKEFIKSVNSVSDVLKIAKKLF;locus_tag=LOCUS_5980;gene=mdh;EC_number=1.1.1.37;note=E8TIV5 malate dehydrogenase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:57.6%25%2C q_cov:98.7%25%2C s_cov:96.6%25%2C Eval:2.4e-98],MGA_628
sequence25	MetaGeneAnnotator	CDS	6720	7556	.	-	0	ID=MGA_629;product=nicotinate-nucleotide diphosphorylase (carboxylating);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545113.1;translation=MKLTNKEIINYAQEFLNEDKTNKDITSKYFIDKTQRARAEFLSEEKIVLSGIDLVLKIFKLKCKNFKILKKNKDGKKINKNGKILVIEANAKDILSIERTTLNILQHLSGISTLTNEFCKRIKTSKAIILDTRKTTPGLRKLEKYATYVGGAKNHRLDLSERFMIKDNHILANPDIFRKIGLMSEAKKNTVIMECDTLTQVKKAVSLKIKHILLDNMKINTVKDACKLIGNKAKIEISGGVNLQNVKKISSIGVDFISVGAITQSAPAVKINLLLAKI;locus_tag=LOCUS_5990;gene=nadC;EC_number=2.4.2.19;note=WP_012545113.1 nicotinate-nucleotide diphosphorylase (carboxylating) (Thermodesulfovibrio yellowstonii DSM 11347) [pid:38.4%25%2C q_cov:93.9%25%2C s_cov:94.4%25%2C Eval:3.1e-43],MGA_629
sequence25	MetaGeneAnnotator	CDS	7572	8555	.	-	0	ID=MGA_630;product=quinolinate synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DM90;translation=MYKNILNFKEPNLKGNSSNLDFVLEIQRLKKIKKAIVLSHVYQSSDIQDLADFVGDSLDLSRKAANTDADTIVFCGVKFMAEVAKILSPNKQVLLPDMDAGCTLEQSCQPREFEEFRNKHKNHLAITYINCSAEIKALSDIVVTSSNAKKIIDQIPKSQPIIFAPDKHLGSYLNKITNRKMLLWDGTCIVHIQFSERELIDLKVQNPNASFIAHPECPETILKHADHIGSTSSLINFVSKSKRKEFIIGTEPNVMHQMKKNNPEKIFIEVPGADGNCSCNRCPYMALNTMEKIYLSLKNSKPEIHLNSDLRKNAKKPLLRMLKMSEV;locus_tag=LOCUS_6000;gene=nadA;EC_number=2.5.1.72;note=Q8DM90 quinolinate synthase A (Thermosynechococcus elongatus BP-1) [pid:55.6%25%2C q_cov:93.6%25%2C s_cov:95.9%25%2C Eval:1.9e-98],MGA_630
sequence25	MetaGeneAnnotator	CDS	8628	8834	.	+	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEEVFNLQIRKFLKNFGITSQAEIEKKVRESISNNTINKNEVLKVEANLSISKINLNHKISGIIKLR;locus_tag=LOCUS_6010;note=MGA_631
sequence25	MetaGeneAnnotator	CDS	8858	9622	.	-	0	ID=MGA_632;product=succinate dehydrogenase iron-sulfur subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEA1;translation=MVQLNLPKNSKIKKGITHNNSNLKDSRKINIYRYDPDKNQNPRMDTFYLKNDKSIQMVLDALIAIKDDIDSTLTFRRSCREGICGSCSMNINGVNTLACTKSLKEISGEINIYPLPHMPVIKDLVPDLNNAYNQYNSISPWLRNKKKTNNDKEIFQSQKDRSKLDGSIECIMCFCCSTSCPSYWWNGNKNQKEYLGPATLLAAYRWISDSRDDTQHQRLKELNDSKSLYRCHTIMNCTNSCPKGFYAGKAIAVI;locus_tag=LOCUS_6020;gene=sdhB;EC_number=1.3.5.1;note=Q9ZEA1 succinate dehydrogenase iron-sulfur subunit (Rickettsia prowazekii str. Madrid E) [pid:60.7%25%2C q_cov:98.8%25%2C s_cov:95.0%25%2C Eval:8.0e-88],MGA_632
sequence25	MetaGeneAnnotator	CDS	9649	11436	.	-	0	ID=MGA_633;product=succinate dehydrogenase flavoprotein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P31038;translation=MKKSYKIQKHKYDVIVIGAGGSGLRACMGIAAKGLKTACISKVFPTRSHTVAAQGGISAALGNVGDDDWRWHMYDTVKGSDWLGDQDAIEYMCKEAMNSVIELENYGVPFSRTEDGKIYQRAFGGMSKNFGKEQAQRTCAAADRTGHAILHTLYQQSVKHKVKFYIEYIVLDLLMTENGECSGVLAWCLEDGSLHIFESQITLLATGGWGRAYLSATSAHTCTGDGNAMVLRAGIPLQDMEFIQFHPTGIYTAGCLITEGARGEGGYLTNSENEKFMERYAPNAKDLASRDVVSRSITQEIVEGRGVGKEKDHVLLHLEHISKKVLEEKLPGISETAKTFSGVDVSKNPIPVIPTVHYNMGGIPTNINAEVIKLNSSGSEEVVPGLMAIGEAACVSVHGANRLGSNSLLDLIVFGRAAANKCKDIIKKNKIKKFNKKSLDKALSRFNFFRTSSGDISTAEIRKEMQKTMQSNCSVFRNKKVLTMGNAKLNKCLKDKLNIKIKDKSLIWNTDLVETLEFDNLLSQSIVAMASALNREESRGAHSREDFPKRNDKKWMKHTLATCSNNGKVKISYRSVKLKPLTKEVKSFPPKARVY;locus_tag=LOCUS_6030;gene=sdhA;EC_number=1.3.5.1;note=P31038 succinate dehydrogenase flavoprotein subunit (Rickettsia prowazekii str. Madrid E) [pid:65.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-233],MGA_633
sequence25	MetaGeneAnnotator	CDS	11441	11809	.	-	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNFFKNFLSLGFSQDALNHWFWQRITAIIMIFLFIWIIISFKNLIINFEENFYLWIKVPFNSILFIFLFIIIMHHSTLGILNIFEDYIDELNKKILLKKFIKLLSFFLIVVSCISILNIHF;locus_tag=LOCUS_6040;note=MGA_634
sequence25	MetaGeneAnnotator	CDS	11809	12180	.	-	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKNRPISPHLQIYKPQITSILSISHRFTGIILYLSTFLITFFLFTLAFNEEIYKFIIIFFISKFGKLILFLITLSFIYHFLNGIRHLIWDLGFGFKIINVYLTGFLIIFLSLLFNFYFWFF;locus_tag=LOCUS_6050;note=WP_012709624.1 succinate dehydrogenase membrane anchor subunit (Sinorhizobium fredii NGR234) [pid:41.1%25%2C q_cov:77.2%25%2C s_cov:73.1%25%2C Eval:9.8e-17%2C partial hit],MGA_635
sequence25	MetaGeneAnnotator	CDS	12177	13241	.	-	0	ID=MGA_636;product=beta-methylmalyl-CoA dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9WC34;translation=MENKINSGNFFEDFFVGKELKHSTPRTISSGDVSLFIGLLGSRFVLHSSKEFAKKIGFKESPIDDILTFNMVFGKTVPDISLNSPANLGYASCKFIEPVYVGDTIKTTSKVLGVKENSNKKTGIVWVNSIGKNQNDKIVLDYIRWVMVNKRDESSPAPKIVIPNLKNEVGIEEITVPKKLNMKKYNFDESGSKYLWDDYKIGEKIDHIDGMTVEEADHMTATRLYQNTAKVHFNEHTEKDGRLGRRIIYGGHIISLVRMLSFNGLSNAFKIVAINNGKHVSPSVAGNTIYAWSEVLDKKELKNNKDLGALRIKSIGVKDNSCKDFPLYLNNDKEYDKNVVLEIDYWVLMPKKNK;locus_tag=LOCUS_6060;gene=mch;EC_number=4.2.1.148;note=A9WC34 beta-methylmalyl-CoA dehydratase (Chloroflexus aurantiacus J-10-fl) [pid:57.4%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:3.1e-121],MGA_636
sequence25	MetaGeneAnnotator	CDS	13231	14253	.	-	0	ID=MGA_637;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8THV5;translation=MGIKVSIVGATGNVGREFISILNERKFPIDELFLLASSKSHGKKINFGKKELKVIDIKKFDFKKCDLVFSSAGSKVASEFANEATKANCYVIDNSSYFRMDPDVPLIVPEVNSDDLKIIKKKIIANPNCSTIQMVMVLKPLHEIVKIKRVVVSTYQSTSGAGRLPMDELFEQTKDIFSNVQIKKKFFTKQIAFNVIPHIDSFLEDGQTKEEWKMQVETKKIIDKTIEVSATCVRVPVFIGHGEAINIEFEKELSEDNLREILKKSPGVSVVDYRQDEGYVTPEECAGEDKVFVSRIRKDKTLKNGISLWVVADNLRKGAALNAIQIGEELIKRKIIKNGK;locus_tag=LOCUS_6070;gene=asd;EC_number=1.2.1.11;note=E8THV5 aspartate-semialdehyde dehydrogenase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:57.5%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.3e-110],MGA_637
sequence26	MetaGeneAnnotator	misc_feature	1	1164	.	+	.	ID=MGA_639;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q2RY28:60 kDa chaperonin 1,Q2RY28 60 kDa chaperonin 1 (Rhodospirillum rubrum ATCC 11170) [pid:69.8%25%2C q_cov:93.3%25%2C s_cov:66.5%25%2C Eval:5.6e-143%2C partial hit],MGA_639;locus_tag=LOCUS_6080
sequence26	MetaGeneAnnotator	CDS	1170	2309	.	-	0	ID=MGA_640;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015887307.1;translation=MKINKKFNICFPFVGDSLGGSHFSTLDIIKNLNKKFFNPIIILHKKGILYNYLKQNNIIFSYIPIRDFAGKKKGIFFNLKILILNFFKINSFIKNNNIKIVHSNDVSIHFNWVIPTKFSDSKFLWHLRTKFPNWKLYKFLIRYSDKIVCISKYVRKTLPKKFHNNSSVIYNPIVLNKRVISKSEKKIITRFSKIKKKKILFFSNIIESKKVDIFIKAAINISKNNDDFIFLIIGRDKFNILRKILLKINDNEFRKKLFYLKDCYNINYWFKNSNLLISPAINEGHNRVIVESMLSKLPVIASNSGGHKESIVHNKSGWLFKPNNYKNLSELIINFFKLNKLKINKIKNCAYKDSLKNFNMNQSLFKVEELYKRILIKKF;locus_tag=LOCUS_6090;gene=lpcC;EC_number=2.-.-.-;note=WP_015887307.1 glycosyl transferase (Sinorhizobium fredii NGR234) [pid:23.9%25%2C q_cov:83.4%25%2C s_cov:81.0%25%2C Eval:3.9e-24],MGA_640
sequence26	MetaGeneAnnotator	CDS	2321	3286	.	-	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNYIKKVLLIGTGYMAKEYAKVIIKLVKKDNLTVIGRGAKNNKNFYNEFGIKPKNNLNEYLINKSNNYNYAIIAVGIEELYDVCKILIKFKIKNILLEKPGALYLKQLVDLVRLQKKYKNRIHIAFNRRYYNSTIEAKKLIILDGGIKSFKFDFTERSHLISREKTSIDVKQQWFMANSIHVIDLAFYLGGLPRKIINYSYDKVSWHRNGAIFTGSGISKKNALFSYHANWKTPGRWSLDFFTSNKHLIFKPLEELSFINRKFKETKINFKDKDDFLFKPGLYKMTNVFLKGTKTSLPSLKDHTLNIKKYYRFFLKNNIL;locus_tag=LOCUS_6100;note=MGA_641
sequence26	MetaGeneAnnotator	CDS	3271	4251	.	-	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIVVVGCGNIGFRHYQSLLKIISSVNLWIIENSLTRIDEIKDLVNLKDKYKNNVIYSNKLSVLPKKIDFLIIATNSKERLNVLKKIINYSSIKFILFEKFLFPKVSHYSDANKILKKNNIRSWVHMPVQDFPFFKFIINKLRKEKEFKIFIKGPENNIGCNSIHYLSVYKEIIQNKEFKVNIAGLDKKIVNSKRKGYIEFNGNIIFSSLDKKRILYVDYPYGKKRNYFSTEIFFKNNKIIYNELSGKCRIIDLKRKKKEKTEMFKIPYVSNSTHGYVNQILKTGNCSLPRFSESTLIHKKLLINFLKHINKNSKKKYNSCLIT;locus_tag=LOCUS_6110;note=MGA_642
sequence26	MetaGeneAnnotator	CDS	4269	5360	.	-	0	ID=MGA_643;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010975614.1;translation=MNVKKNLIFIIPDLQVGGAQKVLVYLINFLVTKKFNIKLILLDKFKQTFQLSSKIKIINLNLYKKSKNIFEKVFYNFKRIRKIRKEINKEKKSIVISFLTTTNILSILANIGLKRKLIVNERNDMVKQKIPLIWKVLRIILYSFVFRIIKNIPDNKAEKYPFFKKKIIFIPNPLILSKPLKKKNKKEKIILTVARLNYQKNIILLIRSFAKSIAIKKDWKLVILGEGPDKKKLKIECEKLNITKYVFFKGFVKNTGYWYKKSGFFILSSRFEGMPNALIEAIDFRLPVIGSNIPGIKFFIKNNNSGKLFENDNENSLVKSINYYIKNKNIRNNFSISAYKKLKRISNLNIFSNGWQKILNETN;locus_tag=LOCUS_6120;note=WP_010975614.1 glycosyl transferase (Sinorhizobium meliloti 1021) [pid:27.0%25%2C q_cov:96.1%25%2C s_cov:82.0%25%2C Eval:7.6e-30],MGA_643
sequence26	MetaGeneAnnotator	CDS	5362	6306	.	-	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQKYFLNIILILKKKGLKKLLFSFFYFFLIEIYKNFYPKKFIKKKIFKFKMFLNPFDKGISRTLILFGEREIDHLIILKKILKKNMNIFDVGANIGYYILLQRQFISKSSKIIAVEPLKDNIDLLNLNLKLNNEHNTIVIHGGVSNITGKKKFYRSTHSNLGTFNPLKIKHENNSINIKTYKLTDLFNKYFYPDLIRMDVEGHEVEIFENITKNKLKKYPMICFETHLSKYQKNNKMNKNLNKLFQIGYKVKIASSSSEHGTKILEKLGYISNMPSIKTDDVKRKIFFNIKNKDAINLICTQGGLRTILLSKN;locus_tag=LOCUS_6130;note=WP_011118886.1 methyltransferase (Rhodopirellula baltica SH 1) [pid:25.0%25%2C q_cov:64.3%25%2C s_cov:68.9%25%2C Eval:7.4e-07%2C partial hit],MGA_644
sequence26	MetaGeneAnnotator	CDS	6303	8231	.	-	0	ID=MGA_645;product=asparagine synthetase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957840.1;translation=MCGIVGFWDLKKKYRSEKILSIINDMTKTLDHRGPDSKGCWINKDKNLALGHRRLSILEISNLGKQPMESKNKRYIIVFNGEIYNFIDLINDLKKDGTNIDTKSDTRVLLEAFSYWGIKKTINKISGMFAFSLWDNYKKKLYLVRDRFGIKPLYFSFKNNLFLFSSQSKSFKKHKKWNADICYKSLGSYFKYGYIPSNQSIYKNTRQVLPGHFIIFSSDGSIKEEKYWDAKKVAEKNRNKKKVINLSPTQIEKKIEDSINKSVEKHMISDVSIGAFLSGGIDSSLITALMRKNTSTVKTFNIGFEDKSLDESKFASSVAKHLKTDHHQVIFKNKDLLEFIPKVAKIYDEPFADSSQLPTILLSQITSKQVKVVLSGDGGDELFGGYNRYNWINKLRFLYNFPKVFRNVICKTMKVLSPNQWDNFFKFLPYFNKYSLPGDKIHKLADSINLDSIFKVYSYFISQWKDNEIPLNKINILDKNYTFNNNSYLDMKDQMQIIDINTYLVDDILTKVDRASMAKGLEVRVPFIEENIFKNVWHYNFLKKNRESKFFLKKMLEKYIPRNLVNRPKMGFAIPLASWLRGPLRDWAEDLLIKKKLDDGYLNSKKIIEKWNEHISSKRNWHYSIWTVLVYQSWKKNNNLLK;locus_tag=LOCUS_6140;gene=asnB-2;EC_number=6.3.5.4;note=WP_010957840.1 asparagine synthetase B (Coxiella burnetii RSA 493) [pid:43.1%25%2C q_cov:99.1%25%2C s_cov:99.7%25%2C Eval:1.5e-149],MGA_645
sequence26	MetaGeneAnnotator	CDS	8233	9117	.	-	0	ID=MGA_646;product=glucose-1-phosphate thymidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0KMA9;translation=MEKIKNKTKGIILAAGRATRLFPITISVNKQLLAIYDKPMIYYPLSVLMLSHIKDILIITKQEDLKAFKALLGNGKKIGINISYAIQKKPKGIADAFKIGKKFINNSKCALILGDNIFYGQNFREKLFSAKSKDKGATIFSYPVHDPQRYGVIELDKKNNPYRLTEKPKKPKSNLAVTGLYFYDSEVVEIVKKLKPSKRGELEITDVNKVYLNKQKLHMETFGRGFAWLDTGTPESLLIANNFIANTEQRQGLKIACLEEIAYLNKWINYSQLKQLTYSMSEGPYKNYLLKILK;locus_tag=LOCUS_6150;gene=rfbA;EC_number=2.7.7.24;note=A0KMA9 glucose-1-phosphate thymidylyltransferase (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:58.0%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:2.5e-94],MGA_646
sequence26	MetaGeneAnnotator	CDS	9098	10147	.	-	0	ID=MGA_647;product=dTDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5E8I5;translation=MKNIFVTGGGGFIGSNFIREILNKNYRIINLDLITYAASKKTLKEFQNNKNYIFIKGDIADLKKTKLIFSKYKPDCLINFAAETHVDRSIDSPSAFVNTNILGVFNLLKSTLNYLKIKNKNNKFKFIQVSTDEVYGSVSKGSSKENALLTPNSPYAASKTSADHLIFSFFKTYNFPSIITRSSNNYGPYQFPEKLIPLIILNALQEKKLPIYGHGKQIRNWLYVNDNAKAIHQIYLKGKVGNTYNIGGDDELTNNKLVLKICKILDLIVPRKNNKKYNSLITHVEDRPGHDKRYSLDSSKIKKEIGWKPVIDIESGLFKTINWYLKNKVWWEEIRKFKYKGQRLGKNKK;locus_tag=LOCUS_6160;gene=rffG;EC_number=4.2.1.46;note=Q5E8I5 dTDP-glucose 4%2C6-dehydratase (Vibrio fischeri ES114) [pid:49.3%25%2C q_cov:98.0%25%2C s_cov:95.9%25%2C Eval:1.8e-97],MGA_647
sequence26	MetaGeneAnnotator	CDS	10152	11222	.	-	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINILINNNFFNDYCSYSFIYPIIKSLKRFKDINFRFSFLHLLNKKLFDCDVVIIDSRFNEIEKNKKNILEFINKNKPKNTKLIFADNADNSGQLKKDFLRICNSYWKGQILNDKKYYANSHYGGRLFTDFYNKKFKIIDKNKQQTDIIIEKDLLKKILVSWNMGLCDHGKFSHLKQKFFSIFKSNYILFNSKNFFLPSIERKNDISCRIGIKYDRETVEYQRKKVSKILNEFTKIKKISRFKYIEELKNSKFVVSPFGWGELCPRDFEAFLHGSILIKPEMSLIKTWPRWYNKKTYLPFLWDLSNLRDQIIYALDNYKMLKELATNAQQKYLFFTSNKGSDEIFVKRFLKLLKN;locus_tag=LOCUS_6170;note=MGA_648
sequence26	MetaGeneAnnotator	CDS	11212	13005	.	-	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIPSFFLEISNKSSIPDSIEWGELKKNKRVFIKFKKNNINISFFNSNGNKLCILGNPIIDGELNNAKFAKFFFQNKNFDILKKINGEFLIFFINKSKKVLEIINSRFTSPALWYYLNKKRFLASLSFSELSINLKKNSAFKLNKNSFFEYLFFRRIFGNKSYELNTKSLGPASKLITNGFNKKIIIYWEPNFKNKINLSIDKSANLLIDLLLNSLKTRTSDNKKYGLFLSGGMDTRLLLSCLKKNNSNFCTLTFNSFINREVKIAKEAANIVNVKNIFIKNTENHYKKNFEECIFSTSSMYPPLTMFYGFSKLMKKYADIGIHGHGFDFFFQGMYLPKKRLKFLNHDLNFIIPRLIKGDLVNFFIKNVPYKTKSQNVLNFIKNRQKKKMMSSVFYELKKIEKIGKKLSNNVFELYEYLTFNNLGRHYSVSDNISINSIIETRIPAFDNELYDLYQSLPWQYRFDSKIQRLALKKINKNLANLKSANTNLPIKYSKYQKTFFQLINYFRNKFKGDKQDLEEKFQRMGLPYSYLLKNDWHNYLKDTISSNRLDKLDFLDIKKIKSYLNTVLMKKNSGHDTFTINLLCIDHFLKILDEN;locus_tag=LOCUS_6180;note=MGA_649
sequence26	MetaGeneAnnotator	misc_feature	13005	14225	.	-	.	ID=MGA_650;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000333822.1:asparagine synthetase B,WP_000333822.1 asparagine synthetase B (Bacillus cereus ATCC 14579) [pid:24.7%25%2C q_cov:96.3%25%2C s_cov:64.9%25%2C Eval:3.3e-16%2C partial hit],MGA_650;locus_tag=LOCUS_6190
sequence27	MetaGeneAnnotator	CDS	252	470	.	-	0	ID=MGA_651;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3CAM1;translation=MVKEESLEFTGIVQELLPNAMFKVKLENDHEVLAHTSGKLRKNRIRVLVGDKVDVEMTPYDLTKGRITFRWK;locus_tag=LOCUS_6200;gene=infA;note=A0A0H3CAM1 translation initiation factor IF-1 (Caulobacter crescentus NA1000) [pid:79.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-27],MGA_651
sequence27	MetaGeneAnnotator	CDS	463	1761	.	-	0	ID=MGA_652;product=histidinol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQM7;translation=MRNIIIKNNKEIKEFINHIINQNKYLNLKVEKEIEKIFSKIKTKGDKALFNYAKKFDKCNLNKSNLVINKNEINKYAKKCPKDIEKALNFSALRIKKFHLFQIPKDYKYKDNKGVQLGSRWKPINSIGIYVPGGTATYPSSILMNAIPAIVAGVKEIVMVMPQKNLNLNPIIAKAAQIVGIKKIYRVGGAHSIAALAFGTKSIDPVDKIVGPGNIYVTIAKKKIFGEVGIDMIAGPSEILVVSDKKNNPNWIAADLLSQAEHDKNSRSILLTNDVNFAKEVVKSINNILKKLPRSDIASVSWKKNGKIIILKNINNCYSIINQLAPEHLELAIDNPEKLFNKVQNAGSVFLGRFTPEAIGDYVAGPNHVLPTGRTARFSSGLGVIDFLKKITYTKCDKKSLQLLSSSAIKIAEAEGLHGHALSIDIRKNKNG;locus_tag=LOCUS_6210;gene=hisD;EC_number=1.1.1.23;note=Q2RQM7 histidinol dehydrogenase (Rhodospirillum rubrum ATCC 11170) [pid:50.0%25%2C q_cov:91.9%25%2C s_cov:91.7%25%2C Eval:1.7e-114],MGA_652
sequence27	MetaGeneAnnotator	CDS	1758	2411	.	-	0	ID=MGA_653;product=ATP phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQM6;translation=MKINSKITLAIPKGRITEEVVSLLSSLKIVPEKDFFEDESRKLLFKSNLKNFYFTKVRNFDVPTIVAFGGADLGIVGSDVLNEFDYEEIYSPVDLNLGKCSMFLAKKKNKKFDFKNINNTVKIATKYPIATQNFFESKGKQVECIKLNGSIEIAPQLGISEMIVDLVSTGKTIKENNLEIVEKICDVSSKLLVNRISLKTKSEDINKLIGSFEEKIL;locus_tag=LOCUS_6220;gene=hisG;EC_number=2.4.2.17;note=Q2RQM6 ATP phosphoribosyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:42.9%25%2C q_cov:96.3%25%2C s_cov:92.5%25%2C Eval:1.1e-44],MGA_653
sequence27	MetaGeneAnnotator	CDS	2408	3682	.	-	0	ID=MGA_654;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J077;translation=MEKISIQGGKPLFGKVEISGSKNSSLSILASCLLTDKKIIISGVPKLTDTFFFLELLSSFGVDIKELKNFKNTQKFTLIAKKITNNKAPYNLVKKMRASILVLGPLLARTGKAIVSMPGGCSIGSRPVDIHLKSLEKLGAKIFIEKGYIYAEALNGLKGNKIVFPKISVGATVNVLMAATLAKGITEIYNAAKEPEIVDLGKCLISMGAKIKGLGTNKILIEGVTKLKETNHKIMFDRIEAGTYALAVAIAGGEIELLGAKKEELKFFLNILENIGVDYIETKKSIIFKKKSNSINPIDVITEPYPGFPTDLQAQLMAVMTISNGTSIITENIFENRFMHAPELMRMGAKIKLKGNLAVIEGVKSLKGAEVMATDLRASVSLVLAGLAANGKTNIDRVYHIDRGYQDIVTKLKLCGANINRVVI;locus_tag=LOCUS_6230;gene=murA;EC_number=2.5.1.7;note=Q3J077 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Rhodobacter sphaeroides 2.4.1) [pid:50.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.4e-118],MGA_654
sequence27	MetaGeneAnnotator	CDS	3702	4256	.	-	0	ID=MGA_655;product=dCTP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE77;translation=MAIMSDKWIKRMVKEKKMIKPFENSQIRKEGISYGVSSYGYDARVSNNFKIFTNVDSAVVDPKNFSNQSFVDRKTDVCVIPPNSFALASTVEYFKIPRDIMVICLGKSTYARCGIIVNVTPLEPEWEGHVTLEFSNTTPLPAKIYANEGACQFLFLKGDTECETSYADRKGKYQRQKGVTLPKL;locus_tag=LOCUS_6240;gene=dcd;EC_number=3.5.4.13;note=Q9ZE77 dCTP deaminase (Rickettsia prowazekii str. Madrid E) [pid:74.7%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:2.2e-79],MGA_655
sequence27	MetaGeneAnnotator	CDS	4376	5287	.	-	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLHYDPRFKKKNKIKDFFRKFFLSNKIVKKIKRLEEENKSLKKYITQTKYQNLVSKKKNLKIHECKIFSQNGEDGIIMKIFDIIGVKKFNFIEIGVQDSIECNTTNLLLNLNWTGAQFEGCKESYKDGKIFLQEKRIKNNQCILLNKFIDAENVNSLIKKTGITGEIDFFSLDVDGNDYWIWKNINIIKPRLVVLEYNSSFGKYYPLTIPYNSKFIWNNKNEKRFFYGASLKALEKISVKKGYTLVCVDSRGINAFFIRKDLIKNTILKKMRSEDVFIYNKDHNGKKKDIKNIVKKYNLVKV;locus_tag=LOCUS_6250;note=WP_011118889.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:36.3%25%2C q_cov:65.3%25%2C s_cov:64.0%25%2C Eval:4.7e-35%2C partial hit],MGA_656
sequence27	Aragorn:1.2.38	tRNA	5341	5414	.	+	.	ID=Aragorn_14;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0140;note=Aragorn_14
sequence27	MetaGeneAnnotator	CDS	5618	5791	.	-	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEELSFYDVKTKKKFNTSDYRIEDKAGRKFAVTKSQEGSHECWRVVSKDFAAANGG;locus_tag=LOCUS_6260;note=MGA_657
sequence27	MetaGeneAnnotator	CDS	5919	6305	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIILYSNTVCAGFPSPATDYLEGEIDLNNYLIKNPLATFIVKSQGNCMLQAGIHSGDLLIVDRSIKPKNNSIIIASVEGDLTVKRIKISNKQFFLSSDNESYKNVKINNESDIFIWGVVTKVIHNVY;locus_tag=LOCUS_6270;note=WP_010947431.1 SOS error prone mutagenesis protein UmuD (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:49.6%25%2C q_cov:97.7%25%2C s_cov:67.9%25%2C Eval:2.7e-30%2C partial hit],MGA_658
sequence27	MetaGeneAnnotator	CDS	6295	7581	.	+	0	ID=MGA_659;product=SOS mutagenesis and repair protein UmuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202620.1;translation=MYIKNKKKTFALVDCNSFYASCEKVFNPKLNNKPVVVLSNNDGCIIARTNEAKALGIKMGEPLFKAKKIIKQNNVKVFSSNYTLYGSMSNRVMKILEQSFPNIEIYSIDEAFMEISNLKKIYNYSKYAKKIRKIILKWTGIPVSIGIGETKTLAKVANQIAKNDPKINGIFDITKIKNKEKILKKIKIGKIWGIGNKLSKFLIKNNIYNAYEFIQQDNRWIRKNMNILGLKTKMELNGISCYELENNFKQRKSCCVSRSFGKKIRSLKNMQEAVSTYITRAAEKIRNEKLVSNNINLYIKTTIFNKNPKEYYSNSISIPLDYPTNNTIKLNQLTLIGLNKIFKKGYLYQKAGVILSGLENENSDLNLFDKDNKKKNFLMNAFDLINKKHGKNSIRIASEGIEKRWLMKRSRCSSNFTTDIRDLLKVKC;locus_tag=LOCUS_6280;note=WP_011202620.1 SOS mutagenesis and repair protein UmuC (Bacteroides fragilis YCH46) [pid:42.7%25%2C q_cov:97.9%25%2C s_cov:97.0%25%2C Eval:8.2e-98],MGA_659
sequence27	MetaGeneAnnotator	CDS	7587	8528	.	-	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLFITSTRIGDAVLSTSILNHIKNKFPFSSLYIATGESASSLFKNFKNVKKIFILIKFFFKTHWLKLWLNTFYYKWDIIIDLRGSVISYILLNDQKYIYKSINKNIHRLDELAILMKVKSLPLPSIPISINDIKKVSKDFLKLDNPIAIAASANWKAKIWPAKNFIKLINLLSKEKKLGKKKNFIFFGSSNDIKHTKKIIKHIKKSRVRNLCGKLDLIEVTAYLKNCKIFIGNDSGLMHIASASGIPTLGLFGPSLENRYAPKGSKAYYIRTKKTFKQLTGKKDFNWDTKKNLMNSLSVNNVLKKIKLILK;locus_tag=LOCUS_6290;note=WP_010918274.1 ADP-heptose--LPS heptosyltransferase (Caulobacter crescentus NA1000) [pid:33.7%25%2C q_cov:88.8%25%2C s_cov:70.5%25%2C Eval:4.1e-42%2C partial hit],MGA_660
sequence27	MetaGeneAnnotator	CDS	8566	9420	.	+	0	ID=MGA_661;product=aminomethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597696.1;translation=MYYCKLKKKKIICIKGKDVTQFLQGIITNNINKLKSNHVIYSTLLSPQGKLLHDFFLIKNNLEEIYLDSPKYNYKKLKEKLNLYKLNRKIEINEKKIYSYFLIFGKFNNKIFKLTTKLGQYKKINTMMIFNDPRNVNLGLRIICNNKKDHNNLIKIIKSLKLKENFNEYEKKRILNCVPDIKKDNLYDKAYLLQYNFENLNSICWKKGCFVGQEVTVKMKNKGLLKKKIFVIKFLNKKKFLNDEIKYNKEVIGKITSKYENIALGLLKKDKIKNLKKEKKILII;locus_tag=LOCUS_6300;note=WP_004597696.1 aminomethyltransferase (Rickettsia prowazekii str. Madrid E) [pid:29.7%25%2C q_cov:89.1%25%2C s_cov:85.6%25%2C Eval:4.4e-16],MGA_661
sequence27	MetaGeneAnnotator	CDS	9417	10301	.	-	0	ID=MGA_662;product=ArgK protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390694.1;translation=MNLNKIKKGGKTELANALVEIEKNPFDKNSLSLLTQAYKSQNGNIIGITGPPGVGKSSLIKNLINYYRKKNKTIAIIAIDPSSKKTKGALLGDRIRLETNPNDNGIFIRSMAAKDKLGGLASITLSSAFLLNALFDLTIIETVGVGQSETDIANISDIVLFCVQPGSGDALQFMKAGIVEIPDIIAVTKSDLGDIAINTHNEILNSIKINNNYREQNIPIILISSQEEKNINNLIDKIEEQKKKLNFKNKKKEIRGIFWLEESIKEQFGRTGIKKLKKINVNKKSPFLDFLKFF;locus_tag=LOCUS_6310;note=WP_011390694.1 ArgK protein (Rhodospirillum rubrum ATCC 11170) [pid:43.8%25%2C q_cov:92.2%25%2C s_cov:85.9%25%2C Eval:5.4e-65],MGA_662
sequence27	MetaGeneAnnotator	CDS	10307	12385	.	-	0	ID=MGA_663;product=glycine--tRNA ligase beta subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCB1;translation=MSEVFFELLSEEVPYWLQKNALEQIKKKIIELVVENNLSLNKRVKISSEFTPLRLILKCENLIYEQKGSVQEIKGPPIDAPDEAIEGFVKKFQVSRETLIKKEINNKSYFFVKKNIQGKKTEKIFKDNLEKIILNVNWKKSMKWRHENFKWGRPIKNILFFFDNKFIPLDFLEKYSINNNSFSVTHKKIEKEIKFKSYDEYKKKLLDFKVIIEQAKREKKIKKEIINFCKRKKTLLKNNHSSLISLNAGLTEYPDILFGKINKKYMSLPQELLEVVMINDQNFIPLFNKNNILSSYFVIIVDFVEKRFQKKIISDNEKVLEARFDDASFYWHSDLKTSLNLRKKLLSDIQFHQKLGTVEDKIERMHFFSLNLVSQLNLKVDKKKLSQSIELSKSDLTTGLVREFPELQGIIGGYIAEKERNNKNVCLSLKEQYLPKGPNDLCPKNDLSILLSLSDKLDTLLGFFLIDEMPSSSKDPFALRRSALGILRIIIENNLIINLEKFFDENIINKYKLENNNKINIKDLILFFIDRFKFFLKSKTIRQDIVNAFFSEKFFNSNFLILYKKFIALNEFVINGQGKRIIELNKRALNIVTIEKKKTNIPNMINTKLLENKYEKILVEELNNINNKIDNEENDFKNVLKNISNFDKPLNNFFDNVMVNVDDIEIKNNRLSILNNVLKILKKYADFSKIHK;locus_tag=LOCUS_6320;gene=glyS;EC_number=6.1.1.14;note=Q9ZCB1 glycine--tRNA ligase beta subunit (Rickettsia prowazekii str. Madrid E) [pid:32.4%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:3.4e-94],MGA_663
sequence27	MetaGeneAnnotator	CDS	12392	13276	.	-	0	ID=MGA_664;product=glycine--tRNA ligase alpha subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQ44;translation=MVSNKINDLSFQDIIFNLQNFWSNNNCTIIQPIDLQVGAGTFHPATVLGALGKKHRNIAYVQPTRRPTDGRYGKNPNRLQHYYQFQVLLKPTPKNVQNVFLKSLKSIGIDSKKNNIEFKEDDWESPTLGASGLGWEVKCNGMEICQYTYFQQIGGIECNPVSVEITYGLERLAKFIQKVDSVFDIVWNFNKKEKKLIKYKDIYLDSEKQFSKYNFELANTKYLFKCFDFVENECKELIKNNLPLPAYENCIKASHYFNILDSRGVIGVTQRQTYILKIRTLVKSCCELYIKQES;locus_tag=LOCUS_6330;gene=glyQ;EC_number=6.1.1.14;note=Q2RQ44 glycine--tRNA ligase alpha subunit (Rhodospirillum rubrum ATCC 11170) [pid:58.9%25%2C q_cov:95.9%25%2C s_cov:93.9%25%2C Eval:9.8e-99],MGA_664
sequence27	MetaGeneAnnotator	CDS	13266	14099	.	-	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNFLKKKKIVPVVYISGIIGNIGGLRSGVTLSSVENFLEKAFKIKNSTAVAIIINSPGGSPVQSSLIYKKIKHLSKKNKTKVIFFVEDVAASGGYYIACAGNEIYVDENSIIGSIGVIYASFGFDKLIKRFGIERRIFTTGKNKSILDSFQKKKLSDIKKLKNIQMEIFRNFIDVVKKSRNKKINKENKEIFSGSFWAGKEAVKLGLVDGIGDLKTIIERKFGNNIKYIFIKPKKSFLKSIFSKSYYSKDLVDTKKIINDIMTYMESRDIWRRYGF;locus_tag=LOCUS_6340;note=WP_010886283.1 peptidase S49 (Rickettsia prowazekii str. Madrid E) [pid:47.3%25%2C q_cov:81.6%25%2C s_cov:73.4%25%2C Eval:2.3e-62%2C partial hit],MGA_665
sequence28	MetaGeneAnnotator	CDS	526	1608	.	-	0	ID=MGA_667;product=methylthioribose-1-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89VT4;translation=MRVKGKNYKSIWLDKKRSLVVVIDQRLLPHKFKLLYLKNIKDVKKAIKNMVVRGAPLIGVTAAYGIYLSMIKDPSNKNLKYSINFLKDARPTAVNLSWALEFMKKKLSNVEFLKRSEVSKKIAEKISENDIKCCKKIAENGLKIIRRIERKKKNKTINILTHCNAGWLATFDWVTALSPIFLAHRKKIKIHVWVDETRPRNQGSSLTAWELLQEKVPHTIITDNAGGHIMQHGMVDMCITGSDRTTANGDVCNKIGTYLKALSAYDNKIPFYVALPSNTIDLKSKNYLKDIPIEQRNSDELTHITGLDSKGKNAKIRITPKGSKVSNYSFDVTPAKYVTRLITEKGIYKPVKNEIKKIFS;locus_tag=LOCUS_6350;gene=mtnA;EC_number=5.3.1.23;note=Q89VT4 methylthioribose-1-phosphate isomerase (Bradyrhizobium diazoefficiens USDA 110) [pid:54.3%25%2C q_cov:99.7%25%2C s_cov:97.6%25%2C Eval:5.1e-111],MGA_667
sequence28	MetaGeneAnnotator	CDS	1605	2486	.	-	0	ID=MGA_668;product=S-methyl-5'-thioadenosine phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXH9;translation=MKKNFLLAFIGGSGLYQIENLENKKWINVSTPWGSPSDKILIGTINNNKVLFLPRHGRSHILNPSEINYRANIYALKKLGATDIISLSACGSLKENLSPGTFVLVDQFIDKTILRKKTFFEEGIVAHVPMANPTSKIIRNACVEVLKKLKIKYKNKGIYIAMEGPQFSTKAESETYRKQKIDVIGMTNMPEAKLAREAEIRYATVAMVTDYDCWHSKHDDVDINQIIETLNKNSNNAKSLVKNVINILPKYLNKEKDPTENILDKSIITQKKNWNKKTKKKLNLILKRYLEQN;locus_tag=LOCUS_6360;gene=mtnP;EC_number=2.4.2.28;note=Q2RXH9 S-methyl-5'-thioadenosine phosphorylase (Rhodospirillum rubrum ATCC 11170) [pid:50.5%25%2C q_cov:97.3%25%2C s_cov:96.9%25%2C Eval:2.0e-75],MGA_668
sequence28	MetaGeneAnnotator	CDS	2581	3336	.	-	0	ID=MGA_669;product=cytochrome c;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599373.1;translation=MKNIFYIFAIFLFINNCLAEEKIKLNKQDWTFQGIFGRYDNSSLQRGLQIYQEVCSSCHGMKRLRFRELKDLGFSYEQIEKYAETFEILDGPNELGEMFMRSGEPSDTFVSPYKNKQEAKAAFGGAYPPDLSLLTKSMKNGPDYIYSLLTGYEENLPKDFELPDGLYYNLYHDGKVIAMPPPLYDDVIEYIDGTNANLHQLAYDTVNFLNWAAEPELQKRKSLGLKVLLFLIVLTLLLYVTMKEIWSRLEK;locus_tag=LOCUS_6370;note=WP_004599373.1 cytochrome c (Rickettsia prowazekii str. Madrid E) [pid:48.1%25%2C q_cov:92.8%25%2C s_cov:91.7%25%2C Eval:3.1e-60],MGA_669
sequence28	MetaGeneAnnotator	CDS	3346	4560	.	-	0	ID=MGA_670;product=cytochrome b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXH7;translation=MVKKFQNKTLAWLDYRLPIFSVLREALVDHPTPRNLNYWWNFGSLAGITLIIMILSGLLLSMHYVAHTDLAFDSVEHIMRDVNYGWLIRYIHSVGASMFFLIVYIHISRGLYYGSYKSPREVLWWLGIIIFLLMIASAFLGYTLPWGQMSFWGATVITNLFSAIPLVGESIVTWLWGGFSVDNPTLNRFYSLHFLIPFIIVGVVFLHIIALHKFGSNNPTGIDLTLKQEKIPFHPYYTIKDLFGFSVFFTIFAIFVFFLPNILGHPDNYIPADPLVTPEHIVPEWYFLPFYAILRAIPFKLLGVIAMLSSILILFILPWLDTSKVRSCRFRPIYKQFFWIFILNFIVLGWLGSKVPEGHYLIMSRICTSYYFLHFLFILPVLGFFEKTKPLPLNIFEKTKVKRK;locus_tag=LOCUS_6380;note=Q2RXH7 cytochrome b (Rhodospirillum rubrum ATCC 11170) [pid:64.8%25%2C q_cov:97.0%25%2C s_cov:96.8%25%2C Eval:2.9e-158],MGA_670
sequence28	MetaGeneAnnotator	CDS	4567	5109	.	-	0	ID=MGA_671;product=ubiquinol-cytochrome c reductase iron-sulfur subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXH6;translation=MFNKNKILKIKKDRRSFLKLTTTSMATIGSALAIWPFIDSMNPSADVLALGTKEIDLSNIEKGSSITIKWRGKPVFIKHRTESEIEEARNVQLNNLKDPQKDEDRVLNPEWLVVIGVCTHLGCVPSGQKKTDTKGEFNGWFCPCHGSHYDSSGRVRKGPAPKNLQVPKYKFVDKNKIKIG;locus_tag=LOCUS_6390;EC_number=1.10.2.2;note=Q2RXH6 ubiquinol-cytochrome c reductase iron-sulfur subunit (Rhodospirillum rubrum ATCC 11170) [pid:60.6%25%2C q_cov:94.4%25%2C s_cov:92.9%25%2C Eval:2.0e-61],MGA_671
sequence28	MetaGeneAnnotator	CDS	5197	6042	.	+	0	ID=MGA_672;product=oxygen-dependent coproporphyrinogen-III oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U9R1;translation=MVIHKDKQKVEEWFKFLRNEICKTFEDIENKFKHSKIKNKPGKFKKKKWFRKNGGGGEMAIMKGRIFEKVGVNVSTVFGNFSKEFRNKIPGCKKSPKFWASGISLVAHLHSPYITAAHFNTRHIITSKSWFGGGTDITPTIKDTKSIKIFHNSLKNTCNNYRKNSYLKYKKWCDEYFFLKHRNETRGEGGIFFDYLNSENYEKDFEFIQNIGRCFLNTYPKIIKNNIKKEWTKNDREKLLIKRGRYAEFNLLYDRGTQFGLKTGGNVEAILMSMPPEVKWD;locus_tag=LOCUS_6400;gene=hemF;EC_number=1.3.3.3;note=A6U9R1 oxygen-dependent coproporphyrinogen-III oxidase (Sinorhizobium medicae WSM419) [pid:50.0%25%2C q_cov:98.9%25%2C s_cov:95.4%25%2C Eval:1.7e-84],MGA_672
sequence28	MetaGeneAnnotator	CDS	6039	6656	.	-	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSERIYSEFKKILIANNSYEVLNLMKITKVLKNIIFDNSDLKRLKNLEFIPSLKTEADFSIILSIIIKEKNLFKIFKKLNLSNLEKKKVKNIIFYQKKINFKEIEHNINKYIYICGKDLFIGLLIYDFAKYPIKNKIKKYINLLNLIKKSKIPKFPLAGKDVIKLGIKTGPSVGKILKLVENWWLENKTKPIRKDCLKKLKEFC;locus_tag=LOCUS_6410;note=MGA_673
sequence28	MetaGeneAnnotator	CDS	6980	7252	.	-	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINIKKWQKNKNIKYIFDILEEKNEETRFVGGCLRNLILNKDSDDIDLATTLIPNEVLNRLIKKKIKVIKSGISHGTIIAILNKKKLR;locus_tag=LOCUS_6420;note=WP_010969879.1 cytidine(C)-cytidine(C)-adenosine (A)]-adding enzyme (Sinorhizobium meliloti 1021) [pid:35.7%25%2C q_cov:93.3%25%2C s_cov:20.0%25%2C Eval:1.1e-10%2C partial hit],frameshifted%2C insertion/deletion at around 6985,MGA_674
sequence28	MetaGeneAnnotator	CDS	7260	7730	.	-	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKNLIKEFPIKINSNGDWFYNNSLIKKKTLIKLFSSVLVADNKENFYLETPAEKGKITVEDAPFVIKDFIIKGSSNNKSIIFITNIDEEVILSKKNPLFYKLKKKNYIPYIALRKNINAKITRSVYYQLINKFIEKNKKKELTITSKDFEIKLK;locus_tag=LOCUS_6430;note=WP_011388121.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:36.1%25%2C q_cov:84.0%25%2C s_cov:66.8%25%2C Eval:6.5e-19%2C partial hit],MGA_675
sequence28	MetaGeneAnnotator	CDS	7777	8202	.	+	0	ID=MGA_676;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011037322.1;translation=MLRNLDSIGEYLSYPIIRFITGLLLIPHGYGKLYKGFNGNLDGFINFLDKEYSNPVFTGFFLAYLIALTEFIGGICIALGFFTRIAALSVTIFMAFAVEQHLDQGFFWTKEGYEYPLMWGIIAFAIFLKGSGNLSLDGKFR;locus_tag=LOCUS_6440;note=WP_011037322.1 membrane protein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:37.1%25%2C q_cov:87.2%25%2C s_cov:83.4%25%2C Eval:1.9e-15],MGA_676
sequence28	MetaGeneAnnotator	CDS	8186	8671	.	+	0	ID=MGA_677;product=TspO/MBR-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011024098.1;translation=MENSDKKNILWLFFFVSLCLILGNGLGGYFTFISVEGWYQTLNKPNFNPPDWIFAPVWTTLYILMGISIWLIWKKEKSKIRTIAIIIFWLQLFFNIFWTFLFFGIQKINYSLIEIFFLIFLITINIFYFLKLNKIAGYLLIPYLLWVIYASILTYNIWILN;locus_tag=LOCUS_6450;note=WP_011024098.1 TspO/MBR-related protein (Methanosarcina acetivorans C2A) [pid:45.6%25%2C q_cov:98.1%25%2C s_cov:98.8%25%2C Eval:1.4e-35],MGA_677
sequence28	Aragorn:1.2.38	tRNA	8675	8749	.	-	.	ID=Aragorn_15;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0150;note=Aragorn_15
sequence28	MetaGeneAnnotator	CDS	8803	9663	.	-	0	ID=MGA_678;product=4-diphosphocytidyl-2-C-methyl-D-erythritol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q181G8;translation=MIIKKTFKSKAYAKINLSLNVYNKTKDNMHNLESLICFINLYDEIKIDQNKRFSIKIEGPFKNYLKNSDNIIKKTFTIYSKFLNLKTKYKIFLKKNIPVSAGLGGGSADAAAILKGLNYLNNNRIKKKNLLKLAMQIGSDVPVCLNNKNAFLSGYGDILDNAPKIPSLYILLINPKKELSTKKVFESYNKKNNFRRTKINLNKLNFFKWILKQRNDLEEYSIKILPEIKDILDFFSITKNCFFFSMTGSGPTVFGLFKNKIDAINASHILNKSYSNWWSGVYNFKS;locus_tag=LOCUS_6460;gene=ispE;EC_number=2.7.1.148;note=Q181G8 4-diphosphocytidyl-2-C-methyl-D-erythritol kinase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:34.3%25%2C q_cov:92.7%25%2C s_cov:91.2%25%2C Eval:1.5e-32],MGA_678
sequence28	MetaGeneAnnotator	CDS	9668	11353	.	-	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388017.1;translation=MKFFFILISYIFFTSCNFLIALDYGNYLAGESAYNNKHNKEAIIYFEKVLDVNNINSFHDQDVAQKLCTLYLLEGNIKDCISLGKKIEDKLNFDDLDSINILMTLIVSDIKEKKFKSALSKLKKIKKSSYERFSVPIIESWLIAEETKNLKKSNDKLNELEQDLVINGLRYLNQALLHEHFNKKNKALEYYNKALNSYEKPSYRTVKIAANAFERNSDFDKAKETYLKFIDNSEDTLLIENDLNRIKKKELPKKEVNNLDDVIAELFSGIASTFNSDFTNNFSIIYSHFSLFLKKDFEVSNLYLAELMENNKRYEYANNLYKKIKPTSNFFWHSKLKTARNLEIMGKSDKSIPMLKKMINEKEDRYDALKLLGDIYRNNNDFEKAINFYNKAVNRIEKINVNHWDLLYSRGIALERNNKWNLAEKDFLTILEFLPNQPDVLNYLSYSWIEKGINLDKAKDFIIKAVSSRPRDPYIVDSLGWAYYRLEEYENAVKELEKAVDLKPTDPIINDHLGDAYYQIGRKLEALYQWKKAIDFKPEKELEKKIKKKIENFDSNKLNFI;locus_tag=LOCUS_6470;note=WP_011388017.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:31.8%25%2C q_cov:93.9%25%2C s_cov:86.5%25%2C Eval:2.3e-69],MGA_679
sequence28	MetaGeneAnnotator	CDS	11362	12990	.	-	0	ID=MGA_680;product=electron-transferring-flavoprotein dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388018.1;translation=MTREKMNFDVLIVGAGPSGLSSGIKLAQLAKKNNKELNIGIVEKGSEVGAHILSGAVLETKALDELIPDWKSKDSPLKTEAKKDNFLLLTKNKSFQLPTPPQMKNHGNYIVSLGNFCRWLAKEAEALGVNIFPGFAASEILYNETGNKIIGIRTGDQGINKDGSQSENFQLGYDLLAKQTIFGEGCHGSLTKTLMKKFNLRENSNPQTYGIGLKELWEIKPENHKLGEVIHSIGWPLNNQTYGGSFLYYLENNQVSVGFVIGLDYKNPYLSPFDEFQRFKTHPKIRKIFEGGKRISYGARALNEGGFQSIPKLTVPGGLLVGCTAGFMNVPKIKGTHTAMKSGMIAAEEIFKNIFNGVSEISSYEDELKKSWVWDELYRVRNIRPSFQWGFWAGLIYSAIDTFVFRGKAPWTFQHHEDHKTLQEANKSKKIEYPKPDGILTFDKLSSVFISNTNHAENQPCHLKLKNNSIPIEYNLEKHDSPEQRYCPAGVYEIVGLESNSPKLQINSQNCVHCKTCDIKDPNQNINWVTPEGGGGPRYPNM;locus_tag=LOCUS_6480;EC_number=1.5.5.1;note=WP_011388018.1 electron-transferring-flavoprotein dehydrogenase (Rhodospirillum rubrum ATCC 11170) [pid:61.9%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:5.9e-208],MGA_680
sequence28	MetaGeneAnnotator	CDS	13141	13641	.	+	0	ID=MGA_681;product=molybdenum cofactor biosynthesis protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RXS2;translation=MKIKLNIAILTISDTRNTKTDKSGKILKNLINNSHHNLFEKKICKDNKNEIKKIIKNWLKKKKLNVIIATGGTGLTKRDITPEVFNSFFEKEIPGFGEIFRMISFKKIKTSTLQSRACAGISNGKYMFSLPGSPSACKDAWEKIIKYQLDSSFKPCNLVEIISKIK;locus_tag=LOCUS_6490;note=Q2RXS2 molybdenum cofactor biosynthesis protein B (Rhodospirillum rubrum ATCC 11170) [pid:46.0%25%2C q_cov:98.2%25%2C s_cov:89.6%25%2C Eval:3.5e-40],MGA_681
sequence29	MetaGeneAnnotator	CDS	291	1106	.	+	0	ID=MGA_684;product=tryptophan synthase alpha chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TBE0;translation=MSQVDLLKQKFKKLKNKKKCGFISFITAGDPDFQTSYKILKNLPNCGVDIIELGMPFSDPMADGPIIQKANDRALKNKMNLKKTFKLVEKFRKINTKTPIVLMGYYNPIHNFGIKNFIKEIKKNKIDGVIIVDLPPEEDRELCIPVMKNKIHFIKLATPTTNKERFKKIIKNSSGFIYYISITGITGASHNSNKKVKSEIKNLKKYTNLPIAVGFGIKNKNDVKKLSKSADAVVVGSSIIKRVEDAIKKKYNKERLINYVLQYVKNLTTAL;locus_tag=LOCUS_6500;gene=trpA;EC_number=4.2.1.20;note=E8TBE0 tryptophan synthase alpha chain (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:49.8%25%2C q_cov:88.9%25%2C s_cov:86.4%25%2C Eval:5.6e-66],MGA_684
sequence29	MetaGeneAnnotator	CDS	1110	1958	.	+	0	ID=MGA_685;product=acetyl-coenzyme A carboxylase carboxyl transferase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RNS1;translation=MNWLTNYIKPKLESLVKKKDVPKDLWLKCQCGTMIYYKDYEKSFGVCNECGTHMRLPSDVRIKFLVDDNKFEKIKIINGKNDPLNFKDKKNYKSRLKDAKKKTKEEDAVVVAEGKIENVPVLLVVFDFNFMGGSMGINVGNSIVKASEISVKKNLPLIIIPSSGGARMQEGILSLMQMPRTIAAIQKVKENKIPYIVVLSDPTTGGVCASFAMLGDILIAEQGATIGFAGRRVIEQTIKESIPDNFQTADYLLEHGMVDMVVHRKHLKNKIYKILKFLKKNK;locus_tag=LOCUS_6510;gene=accD;EC_number=6.4.1.2;note=Q2RNS1 acetyl-coenzyme A carboxylase carboxyl transferase subunit beta (Rhodospirillum rubrum ATCC 11170) [pid:54.4%25%2C q_cov:99.3%25%2C s_cov:75.1%25%2C Eval:3.4e-85],MGA_685
sequence29	MetaGeneAnnotator	CDS	1970	3310	.	+	0	ID=MGA_686;product=bifunctional folylpolyglutamate synthase/dihydrofolate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011338601.1;translation=MFNKSNSEINQKNFDINLEKKLQELHPKKINLSLERINKLLAKLKNPQKEINNIIHIAGTNGKGSVLAFLKSFIKNSGYSVNTYSSPHLINFNERINLNGKNISSEFLKRLLDICEKKNNKKPITFFEMTTAVAFLAFKKKPADFTILETGLGGRLDATNVIKNPLITIINEISIDHTNYLGSNIKEIAVEKAGIIKKNIPVILGNQIEDASKIIIDKANALNAKTFFYKKDWFIKLNKKKKYIIFSKNKLFKEKFPLPNLEGNHQIINAGIALKTLDIIDKKFKFKKKFLKKGLRNVEWPGRLQKININKNLFNKKINFKKWDIWFDGGHNKSASKALATTLKNWKKKNLYMIFGMLDSKNPIDFLNYFKKITDKLITVKVGGDSPYYSNKKLYEIAKLNEFHVDTAKNIKNGLKKIVKKEKPGRILICGSFYMYKELSKLIKKK;locus_tag=LOCUS_6520;gene=folC;EC_number=6.3.2.12,6.3.2.17;note=WP_011338601.1 bifunctional folylpolyglutamate synthase/dihydrofolate synthase (Rhodobacter sphaeroides 2.4.1) [pid:36.3%25%2C q_cov:93.3%25%2C s_cov:95.5%25%2C Eval:2.4e-71],MGA_686
sequence29	MetaGeneAnnotator	CDS	3314	3634	.	-	0	ID=MGA_687;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEE0;translation=MTVLSINEDSFEKEVVNSNLPVLIDFWAEWCGPCKEISPLLEEISNELGEKLKIVKINIDENPNIPNQYGVQSIPTLIIFKKGEPISTKVGSALKSDLVSWIDSSI;locus_tag=LOCUS_6530;gene=trxA;note=Q9ZEE0 thioredoxin (Rickettsia prowazekii str. Madrid E) [pid:52.9%25%2C q_cov:98.1%25%2C s_cov:99.0%25%2C Eval:8.3e-32],MGA_687
sequence29	MetaGeneAnnotator	CDS	3643	4323	.	-	0	ID=MGA_688;product=mannose-1-phosphate guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391183.1;translation=MKKIFNIMILAAGLGKRMKSYTKKTPKPLIKINNETLIEKIIKNLEKNNFKKIIINIFYLKKKIKYLLHNKFKTKIIFSDEKVLLNTGGGVKNALKLINAKEFFVINSDIILDKKKSPFMQLEKFWNKDKMDALLLLYPKGKNKGDFNLDSLNRIVVNKEKSKYIFTGIQILKSKVFLNIKQKKFPLFFLYEKLIKKKKIFGLVYVGNWHHIGTLESLKDYKKMLS;locus_tag=LOCUS_6540;EC_number=2.7.7.13;note=WP_011391183.1 mannose-1-phosphate guanylyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:33.2%25%2C q_cov:93.4%25%2C s_cov:87.0%25%2C Eval:7.2e-26],MGA_688
sequence29	MetaGeneAnnotator	CDS	4323	5306	.	-	0	ID=MGA_689;product=phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014206588.1;translation=MNVSILKKSGIKNFKLKQIKSDASFRKYFRINIKNDDRKLLFVDSPNKTENNLGYLNISNILKKMNLSVPDIIAYDISKGFFVIEDFGLNTYTYLLKKEESEIKLYNLATEVLIHINKYSKNLTSKIPLYSNKKLINEALLFLEWYWPNIYKQKPKKKIFNEYINIWKNLLQNNLKTKKVLVHRDFHIDNLFFLRDRKKVKACGLIDFQDSVIGPSTYDLVSLLEDARRDVDDRIRKKMFQKYLKNNQIKNKENYLNEYKVLSINRHLKVIGIFTRLFVRDNKKNYLKHIPRLWKLIEKNSNFIFLNQINEWLNEYFPKRKRTIPTK;locus_tag=LOCUS_6550;note=WP_014206588.1 phosphotransferase (Acinetobacter pittii PHEA-2) [pid:34.2%25%2C q_cov:92.0%25%2C s_cov:88.4%25%2C Eval:3.1e-40],MGA_689
sequence29	MetaGeneAnnotator	CDS	5303	5461	.	-	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENRISLIEWPEKISKIFNNRVDIFFLKKKTIDKIDINIKFLGKNNFVIKKI;locus_tag=LOCUS_6560;note=MGA_690
sequence29	MetaGeneAnnotator	CDS	5779	6990	.	-	0	ID=MGA_691;product=adenosylhomocysteinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZTY7;translation=MPGLMALRKEYKNKKPLKGAKILGCLHMTIQTAVLIETLISLGAEVRWSSCNIFSTQDHAAAAIAKKGIPVFAWKGMNEKEFWWCIEQTIIGKKNWKPNLILDDGGDLTKLMHQKYKHLLKSIKGLSEETTTGVHRLYEMEKKKKLLVPAINVNDSVTKSKFDNLYGCRESLVDGIRRATDVMLAGKVAIVCGYGDVGKGSAASLRNGGARVMVTEIDPICALQASMEGYEVVKIEDVLTKGDIFCTATGNVDVITLEHMRKMKDRAIVCNIGHFDSEIQIDALKNFKWDEIKPQVDEVQFPNGKKLIILSKGRLVNLGNATGHPSFVMSASFTNQVLAQLELWTKSRSYKNKVYVLPKELDEKVAALHLDKLGSKLTKLTKKQAKYIDVKANGPFKPYYYRY;locus_tag=LOCUS_6570;gene=ahcY;EC_number=3.3.1.1;note=Q5ZTY7 adenosylhomocysteinase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:70.2%25%2C q_cov:100.0%25%2C s_cov:91.4%25%2C Eval:6.3e-169],MGA_691
sequence29	MetaGeneAnnotator	CDS	7116	8705	.	-	0	ID=MGA_692;product=histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391170.1;translation=MLRKKIKISPLLLRLLTLNILALLFLLGGLFSIDRYQHTLQENEFQKLEDEGRILSQAIGRTILPKSDLKTQVILNREAQETIMFLLNKSRVRIRLFSYGGDLLADSERSVGFQTLIKSEELPSLQNKNFFRIFFEKIYNYVSLFLVKTSKLDLYRENTLQQAEDYKEVLKALYGDETRYLRRLNDGKKLLSVAMPVQSYKKISGAIMLTLDSSNIENKIKDFRFEVFKIFFIALFLTICVSIYLSANIVNPIRKLANATNNINPSKGRNLKIPQFLDRKDEIKDLAISIKQMLNSIWDRMDAIENFAADVSHEIKNPLTSLKSAVEVAVNTKDKKQLQKLWKIINQDIHRLDRLVTDISNASRLDAEISREGMKKVDVKKILIEMVNFYNRDKKKVKLNFINDHEFLITGNELRLSQVFSNIIDNALSFNNSYKKVEINIKSKKNNVSIEISDHGSGIPKNNLDKIFERFFTERLKKEEFGQHSGLGLSIVKQIIDAHSGEIKVENRFGLNKRIIGAKFTIILNKLTL;locus_tag=LOCUS_6580;note=WP_011391170.1 histidine kinase (Rhodospirillum rubrum ATCC 11170) [pid:38.8%25%2C q_cov:94.7%25%2C s_cov:91.1%25%2C Eval:1.4e-89],MGA_692
sequence29	MetaGeneAnnotator	CDS	8720	9424	.	-	0	ID=MGA_693;product=transcriptional regulatory protein ChvI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P50350;translation=MKNRVFLVDDDKNILTSLTMLLESEGFKVNTFSDGESGLNGILNENPDIAVVDIKMPRLNGIELLKKLRKKSNIPVIFLTSKDTEIDELLGLKVGADDYITKPFSQKILIERIRILIKRSLTLENKTLKKNVNQNYLKIGKIILDKEKYLCKWKNKEVNLTVTEFLLVNLLIDNLGVVKSRDQLIEAAFGNNKENIDDRSIDHHFKRIRKKFKKVDKNFNSIKTVYGGGYKFSE;locus_tag=LOCUS_6590;gene=chvI;note=P50350 transcriptional regulatory protein ChvI (Sinorhizobium meliloti 1021) [pid:49.6%25%2C q_cov:98.3%25%2C s_cov:97.9%25%2C Eval:1.3e-62],MGA_693
sequence29	MetaGeneAnnotator	CDS	9433	12141	.	-	0	ID=MGA_694;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391261.1;translation=MKNLLLIDASGYIHSAFWALPRTLKNRDGIVINAVFGYCNSIIDLYQKNKPEQIIAVFDTKAKTFREEIYKLYKANREEPDPLLIPQFPLVREATDALGIPRIEVDGYEADDIIATYAKQAEKNDVTVTIVSRDKDLMQLVNERTKMYDPIKKKIIGIEEVKKKFGVHPSEMIDLQALMGDSTDNVPGVPGIGPKTGVELIKKFKNLENLLSNTDKIKEDKRRQKLIDEKEKALISKKLVTLKDDLDLKYSSNLFKGINQKTALKFFEKQGFNSLIKRFQKKEDNGVDHQHKKKNNKKYSVIQSLDDLKILEKEIQKKKLISVDTETNSLNANFANLVGISLSLNENEAYYLPFKHKINNKDKFKNLQLSECLPILKKFLEEESVTKVGHNIKYDKIILSNVGINLNSIEDTMLLSYVLDAGKRRHNLDDLSKIYLNHENIKYKDVVGVGKKEKSFDEVIIENAYIYASEDADVTLKLYKILKKRIISEKILSVYEHIEKPLINVLVNIEKEGIKIDINEIKGLRKFFKKKLLKIEKEVFNLSGLEFNIASPKQLGEILFDKMCLEGGKKGKSGSYSTSVDVLENLSYQGHNIATCLLEWRQISKLINTYTDSLISEVNKKTSRVHTSYSMSSTSTGRLSSTDPNLQNIPIRTEEGKKIRNTFISKNGFKLISLDYSQIELRLLAHIGKVKNLKNAFDQNIDIHKKTASQIFNVKLENVTKELRRKAKTVNYGIVYGISAFGLAKQLNIKKTDADLILKEYFKSYKGILDYIDETTEFCKKNGFVTTLFGRKCHIEGINDTNPRFRNFAIRAAINAPIQGTAADIIKKAMINIDKFLKEKRTKSKMILQVHDELLFEMFESEINYLSMDIKKIMENSTLPEIKLDIPLIVDVGKGDTWAEAH;locus_tag=LOCUS_6600;EC_number=2.7.7.7;note=WP_011391261.1 DNA polymerase I (Rhodospirillum rubrum ATCC 11170) [pid:41.9%25%2C q_cov:99.9%25%2C s_cov:99.6%25%2C Eval:7.1e-204],MGA_694
sequence29	MetaGeneAnnotator	CDS	12397	12960	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCLKSSGTIKINNFNIDKERKQASCQIGIVPQEINFDPFFTPREILEVQSGLYGIIKKNRKTKEILKDLDLTDKADSYTRSLSGGMKRRLMIAKALVHDPSILVLDEPTAGVDVNLRRQLWNYINKLKKKGKTILLTTHYIEEAEVLCDRICIVDKGKIILSEKKNLIIKKFKKKKLEDIFIKLTRS;locus_tag=LOCUS_6610;note=WP_011387830.1 multidrug ABC transporter ATP-binding protein (Rhodospirillum rubrum ATCC 11170) [pid:58.0%25%2C q_cov:93.0%25%2C s_cov:51.8%25%2C Eval:7.8e-56%2C partial hit],MGA_695
sequence29	MetaGeneAnnotator	CDS	12947	13543	.	-	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFKKILLISFLLFLSSCQTDKTYILVEPGQVELNKIYSVNTNKKWSQFQEDEYNFLFWTIDGYTLQRIVFFKPIEEGRSLFDHDSFFTQENKKRPTFNLKMNKFEIKDFFENCIIWSREFSSFKTTNLKNYKLNDQDAISFDIEAQNELGLNYKGFAVSIVKDKKLYVIYFLATNIEFFDKYEKEAKKIISSIKIL;locus_tag=LOCUS_6620;note=MGA_696
sequence30	MetaGeneAnnotator	misc_feature	1	608	.	+	.	ID=MGA_698;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to C7MDV3:RNA polymerase sigma factor,C7MDV3 RNA polymerase sigma factor (Brachybacterium faecium DSM 4810) [pid:26.9%25%2C q_cov:90.5%25%2C s_cov:69.5%25%2C Eval:2.9e-09%2C partial hit],MGA_698;locus_tag=LOCUS_6630
sequence30	MetaGeneAnnotator	CDS	613	1035	.	+	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINDSILIKFINNDLSLSDKKEIQLLINNNKNIKSRLNGLKNFKTILKKEYEINKKIKMPENLYKKISLNKKGNNKNNIEKQFNNFYKIAASFLGFISLSWIFLAPNTTVLSQDTSNYLNLLIILLLIFIIFLLINKKK;locus_tag=LOCUS_6640;note=MGA_699
sequence30	MetaGeneAnnotator	CDS	1075	1344	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKLIYPLYAIVLIFLLCIAKLAISKENSETPFPGTRWLETDNFIGASRNTGSEPLNNVEIEQINFSENISLPELPILPDIPLTEEDK;locus_tag=LOCUS_6650;note=MGA_700
sequence30	MetaGeneAnnotator	CDS	1399	2505	.	+	0	ID=MGA_701;product=glycosyl transferase family 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073061.1;translation=MKKVIYFVSEDWVFLNHRIDLVRKIQKNGFKVVLITKTNHHKKVIEKKNIKVIPIKIERGSLNIRKTIKNIFQLNKILKNENSNIIHNFGLKQIILGTCASAFSKIKVINSVIGLGSIFISKNFFLKFIITNILRLTLILKKSIILVQNEDDFSFFNKKIFINKKNLFLNTTSGIDLKKITLKKESKGKIIFLFASRLIKDKGLIELIEASKKLYKLNKNFLLYIAGRIDSNNPSSIDINYIKSLNAFNYIKYLGHIKDMDKLYQNIHVAILPSYREGLPKGLLEAAAFSKPIITTNVTGCKEIVRDNVNGYIVNPKNIDELTIAMKKILLNKKKRILMGKESRKIIKKKFLLDNTANDLIKIYNNLF;locus_tag=LOCUS_6660;note=WP_011073061.1 glycosyl transferase family 1 (Shewanella oneidensis MR-1) [pid:29.5%25%2C q_cov:99.5%25%2C s_cov:96.6%25%2C Eval:2.0e-46],MGA_701
sequence30	MetaGeneAnnotator	CDS	2502	3137	.	-	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADNNQIDEKKLKFDNLFSVPIIQYQSENTDEMNKELREIILKKEKEIPTTNKSNQGGWQSEGDFFRWGGNSIENVYNLFLNLIEASTKKLDFLQTIPMDFHIYGWANVNRKGHSNIAHIHPMSTWSGTYYVDAGDNLDDNECGLFEAFNPNLSHLTSFFPGLLAGEHFIKPKTGLMNLFPSYIRHGVRTYYGEKPRICIAINASMRIKSD;locus_tag=LOCUS_6670;note=MGA_702
sequence30	MetaGeneAnnotator	CDS	3138	4829	.	-	0	ID=MGA_703;product=formate--tetrahydrofolate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TI03;translation=MAENNKYKSDIEIAREAKLENIVDISEKKLNISEKFLEQYGHHKAKISFDYINSLNKNKNGKLILVTAITPTPAGEGKTTTTLGIGDALRKIGKNSSVCIREPSLGPCFGMKGGAAGGGKAQAVPMEDLNLHFTGDFHAISTAHNLLSAAIDNHINWRKEPIIDARRVNWKRTMDMNDRALRQIICSIGGPGNGFPREDGFNITPASEIMAIFTLADDLKDLERRLGNILVGYTSDKEPVLAKDLNVIGSMLVLLKDAIKPNIIQSLENNPVFVHGGPFGNIAHGCNTIIATKTALKISDYVVTEAGFGADLGAEKFLDIKCRKANLKPDATVLVATIRALKMHGGVEKDNLNKENVEAVKKGSGNLLKHIENLKKYGIPIVVGINAFVSDTEKEMEAVKNICEKVGIKAVTSKHWEFGGEGAIDLANEVVDVLNKTKSNFKTLYDDNLSIEDKIRKVSSEIYGSKEIEISTTAKKQLKDLEGSKYEKFPVCIAKTQYSFTADPENGGLPQDHNLPVKEIRVSAGAEFVVVICGDIMLMPGLPKVPAAESIFIDKNGLIQGLF;locus_tag=LOCUS_6680;gene=fhs;EC_number=6.3.4.3;note=E8TI03 formate--tetrahydrofolate ligase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:60.3%25%2C q_cov:98.8%25%2C s_cov:99.3%25%2C Eval:1.5e-193],MGA_703
sequence30	MetaGeneAnnotator	CDS	4863	5459	.	+	0	ID=MGA_704;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q63PY1;translation=MNLNYFKNKTAKILLDIKAVNIQPKKPFKLTSGKLSPVYVDCRKIISHLKERRLIIKMGCKLLKKKINLKKIDFIAGGETAGIPYASWISEELNKPMIYIRKKPKGFGKLSQIEGEIKKGSKILLIEDLSTDGQSKINFCNAIKKAGGLIKNIFVIFNYDIYSDDIFKKNNLKLYFLTNWKYIIKNLKKKILLQKKKY;locus_tag=LOCUS_6690;gene=pyrE;EC_number=2.4.2.10;note=Q63PY1 orotate phosphoribosyltransferase (Burkholderia pseudomallei K96243) [pid:48.0%25%2C q_cov:86.4%25%2C s_cov:75.9%25%2C Eval:5.3e-45],MGA_704
sequence30	MetaGeneAnnotator	CDS	5488	6267	.	-	0	ID=MGA_705;product=thiazole synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S371;translation=MKDIFKIANKEFNSRLFMGSSRYPNHQVMLEALKVSNTEVVTVAIRRISLKSYNENIIDILKKKYFILPNTAGCYTIKEAILTAELARESLKTNFVKLEVIGNDEDLLPDVENLIPAAKELVKKKFIVLPYCTDDPIICKKLEDIGCAAVMPLAAPIGSGLGIQNKNNIQQIVEKANIPVIIDAGVGTASDVAIAMELGCDAVLLNTAVAEAQNPKLMAEAMSKAIDAGRNAFLAGRMPIRTFAQNSTTHKGKINLKKN;locus_tag=LOCUS_6700;gene=thiG;EC_number=2.8.1.10;note=Q2S371 thiazole synthase (Salinibacter ruber DSM 13855) [pid:55.7%25%2C q_cov:97.3%25%2C s_cov:93.4%25%2C Eval:1.2e-73],MGA_705
sequence30	MetaGeneAnnotator	CDS	6270	6476	.	-	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKELIINGKKTFVTSQTLSMILKEINIIENNNIAIAVNEKVIEKIDWSNYKIKSGDIIEIVQPLKGG;locus_tag=LOCUS_6710;note=MGA_706
sequence30	MetaGeneAnnotator	CDS	6481	7593	.	-	0	ID=MGA_707;product=glycine oxidase ThiO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403986.1;translation=MVLIIGGGIIGLSIAWRLTDIGKKVLVIDKNSLGKEASWAAAGMLSGKLDLKPCEKKLLPIFKKSNMIWPKFAKELETKSGKSIGYRKEGTLMLACDLNEENKLKINYNFLKKNKINISWLSGDQIRKKEPYVSNNVLSGFYSPGDHHVNNRYILDALITILKKEKNCKFKENTKVKKIITNKNKVIGVKTQNEIIKTKEIILCSGAWTNQIKNIEIDEVPIRPVKGQMVCLKIPKNNFFLKHILWRENVYMVPRNNLDLIIGATEEEMGFDKSLTAGGVFNLLKIAREILPIVEDLPIVESWSGLRPTSRDDAPIIGPSKKIKGLVYATGHHRNGVLLAPLTSSAIKNYYLEGKINNYFNKFKPERFLI;locus_tag=LOCUS_6720;gene=thiO;note=WP_011403986.1 glycine oxidase ThiO (Salinibacter ruber DSM 13855) [pid:35.8%25%2C q_cov:99.2%25%2C s_cov:86.3%25%2C Eval:2.6e-65],MGA_707
sequence30	MetaGeneAnnotator	CDS	7661	8872	.	+	0	ID=MGA_708;product=5-aminolevulinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TKP5;translation=MNYKKFFTDSIYNLKQSGEYRVFRNIGRLAGSFPIAEHDNLLKKENITVWCSNDYLGMGQHPFVFEAIERAMKKTGAGSGGTRNISGTNRYHIALENEISEMHNKEASLLFTSGYVANDSALSILGSKLENCAIFSDEKNHASIINGIRNSKAEKFIFKHNNINHLETLIKNIDINRPKLIVFESVYSMDGDFTPIKSFIKIAKKYNSLTYLDEVHAVGLYGSTGGGVAQDQNVMENIDIINGTLAKAFGLIGGYVSSSKMVIDFIRSFSPGFIFTTSIPPALAAGAIASIRYVKDNQQLRDKLKEKCLLIKEKLLAANIPFLKTKSHIIPIIIGDSKLCKKAADELLENHKVYLQPINYPTVPRGEERLRITPSPLHTDQMIEDLINALEITWKKLKLKRAA;locus_tag=LOCUS_6730;EC_number=2.3.1.37;note=E8TKP5 5-aminolevulinate synthase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:53.1%25%2C q_cov:98.5%25%2C s_cov:93.4%25%2C Eval:2.8e-124],MGA_708
sequence30	MetaGeneAnnotator	CDS	8919	9731	.	+	0	ID=MGA_709;product=enoyl-[acyl-carrier-protein] reductase [NADH];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6U6T8;translation=MSDMSLMKNKKGLVMGVANERSIAWSIAKKLNEHGAKIALTYQGEALKKRIDPLAKKINSKILLECNVENEKDISETFKKIKKEWENIDFVVHAIAFSNKDELKGKYLNTTKENFKKTIDISCYSFTSVAREASKLMKNGGSLLTLSYFGSEKYMPHYNVMGIAKAALESSVKYLANDLGKKKIRVNVLSPGPIKTLAASAIGDFNYILKWNENNSPLKRNITAEEISGSALYLLSDLSNGVTGEMHHVDSGYNIIGMKDIHSPDIFEKN;locus_tag=LOCUS_6740;EC_number=1.3.1.9;note=A6U6T8 enoyl-[acyl-carrier-protein] reductase [NADH] (Sinorhizobium medicae WSM419) [pid:63.2%25%2C q_cov:96.7%25%2C s_cov:96.0%25%2C Eval:1.2e-95],MGA_709
sequence30	MetaGeneAnnotator	CDS	9734	10816	.	+	0	ID=MGA_710;product=chorismate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7D0R6;translation=MPGNSFGKIFKFNTWGESHGPAIGCTIDGVPSKIKINEKEIQTYLNQRRPGTSKFVTQRKERDKVKILSGIFKNYTTGAPISFIIYNEDQRSKDYEKIKEKFRPGHADFTYEKKYGIRDYRGGGRSSARETAMRVVAGAIARKLLSSKLGKKFLIRGALIQMGSLHINRENWDWNYVKKNPFWCPDSKITKIWENYLQQIRKNGSSVGAVIELEASGIPVGLGEPVYDKLDADIAKALMSINAVKGVEIGSGFASAFIPGEESSDEIIMKNKKIKFLSNHAGGILGGISSGQKIVARFVVKPTSSILKIKKTITKSLKKTTVSVGGRHDPCVGIRAVPIGEAMLACVLADHFLRNKVFQN;locus_tag=LOCUS_6750;gene=aroC;EC_number=4.2.3.5;note=Q7D0R6 chorismate synthase (Agrobacterium fabrum str. C58) [pid:57.0%25%2C q_cov:98.9%25%2C s_cov:98.1%25%2C Eval:8.7e-119],MGA_710
sequence30	MetaGeneAnnotator	CDS	10813	12741	.	-	0	ID=MGA_711;product=1-deoxy-D-xylulose-5-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89RW1;translation=MNNSNSKTPNLDKVTFPSDLRKLPKNKLSELADELRKETIDAVSVTGGHLGASLGVIELTVALHYVFKTPKDRIVWDVGHQAYPHKILTGRRNKIRTLRQKNGLYGFTKRSESEYDPFGAAHASTAMSSGLGMAIGRDLLKRKNHIICVVGDGAMSGGMAYEAMNNAGSEKSRLVVILNDNDMSIAPPVGALSNYLSRIISSGTYQSFKNLSGKIVSKTFPERIGKAAKKAEEFARGIVTGGTLFEELGFFYVGPIDGHNLNNLILVLENAKKYNKGPILIHCVTKKGKGYEPAEKSDDKYHGVNKFNVATGVQQKSESSAPSYTKVYANSLINEAEKDKKIVAITAAMPGGTGIDLFGKRFPNRTFDVGIAEQHAVTFAAGLATEGFKPFATIYSTFLQRAYDQVVHDVAIQKLPVRFAMDRAGQVGADGATHAGSFDITYLGCLPNFILMAPSDEAELVHMVATASQINDCPSAFRYPRGDGIGVQIPNEGIPLEIGKGRIIEEGSKIAILSYGARLYEAIKAAEILKAKGLSTTIVDARFCKPLDTKLIKQLALEHETLITIEEGSIGGFASHVTKYLTDASLLDRGLKFRSLFFPDIFLPHGKPEDQYEEANLLSKDIVHCALQTLGNNYSKKEIDLI;locus_tag=LOCUS_6760;gene=dxs;EC_number=2.2.1.7;note=Q89RW1 1-deoxy-D-xylulose-5-phosphate synthase (Bradyrhizobium diazoefficiens USDA 110) [pid:65.1%25%2C q_cov:99.5%25%2C s_cov:96.8%25%2C Eval:3.6e-244],MGA_711
sequence30	MetaGeneAnnotator	CDS	12761	13648	.	-	0	ID=MGA_712;product=farnesyl-diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390368.1;translation=MSNLQKDLMKIQNDVDKMIKILLPNGRGIEKKLFEAMNYSILSNGKRLRPFLLIQSSKLFDVDEKYALRTASSIEMIHAYSLIHDDLPSMDNDDLRRGAPTTHKKYNEATAILSGDALLTLSFQILSDPLTHSDPNIRCELILELAKAAGALGMVGGQVMDLEAEKKKLSIGIITRIQRLKTGALIAFSCNAGAILGRASDKDKFALQGYAHDIGLAYQIRDDLLDVISTTKKLGKKTNKDKNAGKKNFVSILGKERAEKQLEFLSNQAIKHLEIFGKKAESLRDIARFIVERNK;locus_tag=LOCUS_6770;EC_number=2.5.1.10;note=WP_011390368.1 farnesyl-diphosphate synthase (Rhodospirillum rubrum ATCC 11170) [pid:56.2%25%2C q_cov:92.2%25%2C s_cov:90.5%25%2C Eval:6.4e-82],MGA_712
sequence31	MetaGeneAnnotator	CDS	36	1430	.	+	0	ID=MGA_714;product=NAD(P) transhydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RSB4;translation=MENYSILAYLISGIFFILALRGLSSPETARRGNIYGISGMVIAIITTLLLPGIESYGLIALGILIGGIIGASIALKIEMTALPQLIAAFHSLVGLAAVMVAGAAFHNPSAYGIGDTGNIPIASLIEMSLGSSIGAITFSGSIIAFGKLQGIMSGNPITFKFQHFLNAILGITLIFVITLFCLEQTQNFFWGLTILAFIIGFLIIIPIGAADMPVVVSMLNSYSGWAACGIGFTLSNNLLIITGALVGSSGAILSYVMCKGMNRSFISVILGGFGGDDVSANEKKEVEQRPVKSGDSNDAAFMMQNAESVIIVPGYGMAVAQAQHALKEMCDILKKKEVKVRYAIHPVAGRMPGHMNVLLAEANVSYDEVLELDEINRDFASTDVVFVIGANDITNPAAKTDPQSPIYGMPILEVENAKSVLFSKRSLGAGYAGVENELFFRDNTMMLFGDAKEMCESIINALGK;locus_tag=LOCUS_6780;gene=pntB;EC_number=1.6.1.2;note=Q2RSB4 NAD(P) transhydrogenase subunit beta (Rhodospirillum rubrum ATCC 11170) [pid:65.1%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.7e-168],MGA_714
sequence31	MetaGeneAnnotator	CDS	1419	2414	.	-	0	ID=MGA_715;product=glutathione synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TFM6;translation=MILEEKNIKENSKKKMNKLQIAIQMDPLNKLHHKSDSSLILAKEAQDRGHKIFIYEPKNLHLENNQLFTNAISLKIIKKKKYLFKKGKEKKIKLSKINVLLIRQDPPFNMNYITATYLLEHLNSKTLIINNPKSIRDAPEKLYVTFFKNLTPATLISQDENEIKKYIKKNKNLIIKPLYEKGGKGIFKISLNDKNINKKIKNILKKEKLPIVVQKYVPEVTKGDKRVILLNGNPVGAMKRVPAKNEVRANLSRGGTAEKTTLTDRDKFICKKIKPWLKKEKIFFAGIDIIGNYLTEINITSPTGIIEINNLENIKIEKKFWDLVEKKNLFT;locus_tag=LOCUS_6790;gene=gshB;EC_number=6.3.2.3;note=E8TFM6 glutathione synthetase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:41.0%25%2C q_cov:93.7%25%2C s_cov:99.0%25%2C Eval:2.2e-65],MGA_715
sequence31	MetaGeneAnnotator	CDS	2362	2970	.	-	0	ID=MGA_716;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391438.1;translation=MKVIFKNIFFIISIIITMNSCTAINVTTSSVKEKGIKEAISDGMIDAGINKEFINHDVNMFINIEIEVVEGRVLLTGSVKKTKHRLDAIKLAWKVLGVREVINEIDVTDKGGIKNYIIDVKIKTQMRYKVISDKEIASINYNFECVNGNLFIIGISKDKNELKKVIKHANEIKGVIKVTSHAILKNDPRRKKYQRKFQKKDE;locus_tag=LOCUS_6800;note=WP_011391438.1 transporter (Rhodospirillum rubrum ATCC 11170) [pid:34.1%25%2C q_cov:80.7%25%2C s_cov:77.3%25%2C Eval:1.1e-21],MGA_716
sequence31	MetaGeneAnnotator	CDS	2986	3834	.	-	0	ID=MGA_717;product=ribosomal RNA small subunit methyltransferase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8R641;translation=MLTIDNILLPPGLYIVSTPIGNLKDITIRALTILKNSNYIACEDTRITKKLLSAYEIKSKNLISMHDHTSQKKIIAIIKKIKDGSSVSLVSDAGTPIISDPGYEIVNLAIKNNITISPIPGASALTSSIPVSGLASNKFFFIGFLPNKTNKRKNLLNKLKENDSLLIFYENSNRIKETISEIYSIFGNRECFIAREITKYYETFYRGDLLKFKNMKKKLKGEITVLIAPKKKINVELFTNEIEKIISLTKEKLSTKDLSELLSIIYKKPKKFFYSKLIKSIR;locus_tag=LOCUS_6810;gene=rsmI;EC_number=2.1.1.198;note=Q8R641 ribosomal RNA small subunit methyltransferase I (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:46.4%25%2C q_cov:78.0%25%2C s_cov:94.0%25%2C Eval:8.7e-49],MGA_717
sequence31	MetaGeneAnnotator	CDS	3854	5215	.	+	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLIKNFFKLYLTLTSFYLIFFFNIQFIATAAVLTEEDIKYIESMDDKDDKDLYIKYEDIEKKKKLNPFNFFNKSNKKKLKKKEIVKKENKIISEKLKIGVLLPLTGEFSYIGQSFLDTLQMVIYENKNIDSELIIKDTKANSSITKKVTKELVNEQVDVILGPFFSKSFKEAAQIAKHQNIPLISFSNDFKIRKKGTYIMGFEPEKQIKDVTNYTVKKNYKRYAALLPNNKYGKRALSVYRQVLNNNKILLSKVELYNSNNSELEKNIQNLVGLDKNPQIEKDEESGENPIENFDPGFDVLLLVETGNTLREVVALLTYYGVDFSKVKLIGTGEWFVENIGAEPGLLGAWFVAPNPKLWNNFKKKFNKIYGYNPIRLSSLAHDSLTAIISIVRKNDNFYELNYDDFDNIIGFTGIDGDFKFLSNGTVDRKLSILEIKEKSFKIEKIANKTNF;locus_tag=LOCUS_6820;note=Q87SH4 penicillin-binding protein activator LpoA (Vibrio parahaemolyticus RIMD 2210633) [pid:24.7%25%2C q_cov:39.7%25%2C s_cov:30.5%25%2C Eval:4.5e-09%2C partial hit],MGA_718
sequence31	MetaGeneAnnotator	CDS	5212	5841	.	-	0	ID=MGA_719;product=non-canonical purine NTP pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RN61;translation=MYVRKLSKSSISMKKNIRIKSIIIASHNDGKIKEMKPFIKKLKTKIFTAKDFNLKEPKEDGLTFIENALKKSRYVNNKTKKVSIADDSGLVIPILKGKPGIYSARWAGKEKNFNLAMTKINNLLPKTKKTNAYYISVLAITWNKNKEKIFTGKIFGSLTWPPRGNFGFGYDPIFIPSGYNKTFAELSEKIKNKISHRAIAFKKMLKFFN;locus_tag=LOCUS_6830;EC_number=3.6.1.9;note=Q2RN61 non-canonical purine NTP pyrophosphatase (Rhodospirillum rubrum ATCC 11170) [pid:42.4%25%2C q_cov:91.4%25%2C s_cov:95.0%25%2C Eval:9.0e-41],MGA_719
sequence31	MetaGeneAnnotator	CDS	5866	6429	.	+	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLKKNNQQSNENNKKINIKNKINLKNNKQDSKNELKKVKEENLRLLAEIDNLRKRFDKEREDTFKYAVTEFANEIILVADNFGRVIDSINLVSKNDDNNIKSFTEGVDLIYKDFIKTLEKFGIKKIDCLGKKFDPNFHQAVSEEETNAKNNGEIIKIIQSGYLINDRLLRPASVIIAKKVENKKK;locus_tag=LOCUS_6840;note=Q2RN58 protein GrpE (Rhodospirillum rubrum ATCC 11170) [pid:40.6%25%2C q_cov:76.5%25%2C s_cov:64.7%25%2C Eval:6.9e-28%2C partial hit],MGA_720
sequence31	MetaGeneAnnotator	CDS	6517	8466	.	+	0	ID=MGA_721;product=chaperone protein DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RNE6;translation=MSKIIGIDLGTTNSCVAIMDGKTTKVIENTEGSRTTPSMVAFSKDGKETLVGQAAKRQSVTNPENTLFAVKRLIGRRIDDKEVEKDKDLVPYKIVSGDNGDAWVEANGKKYAPSQISAFILQKMKETAEKHLGQEVKEAVITVPAYFNDSQRQATKNAGKIAGLDVKRIINEPTAAALAYGLDKKNAGTIAVYDLGGGTFDISILELSDGVFEVKSTSGDTFLGGEDFDNRIIDYLADEFKKENGVDLRDDPLAKQRLKEGAEKAKIELSNSSQTEINLPFITADKSGPKHLNVTLSRSKLESLVEDLIEKTVQPCETALKDAKMSPSDIKSVILVGGMTRMPKVIETVKNIFGKEPNKGVNPDEVVATGAAIQAGVLQGDVKDVLLLDVTPLTLGIETLGGVFTKLIDKNTTIPTKKSQVFSTAEDNQSAVTIRVFQGEREMAGDNKILGQFNLESIPPAPRGLPQIEVTFDIDANSILNVSAKDKGTNKEQKITIKDSGGLSEEEIEKMVKDAEKHAETDKKKKEVVELKNQADSLIHATEKSLKEHGSKISSEEKKKIENSLEALKKIKDSDNKEELKAKIDALTQASMKLGEIIYKEAQQEAQKQQQQKSTKPQRNDKASSGKKDEKVVDAEFEEVKKKDNKKSA;locus_tag=LOCUS_6850;gene=dnaK;note=Q2RNE6 chaperone protein DnaK (Rhodospirillum rubrum ATCC 11170) [pid:68.9%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:3.7e-252],MGA_721
sequence31	MetaGeneAnnotator	CDS	8506	9663	.	+	0	ID=MGA_722;product=chaperone protein DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TER3;translation=MSKEDYYEILGVTNSSSEDDIKQAYRKKAMKYHPDRNKGDKTAEKKFKKINEAYYVLKDQEKKAQYDQFGHKAFENGGPGSQGFNFSEGGFSDIFEEMFGGFDDDIGNIFGGGQKRSRNRTNTQEYGSDLRYDMEVSLEEIFSGKKIVIHVPNKIKCKNCEGKGYEAGSKPETCPTCEGHGAVRASQGFFTIQQTCPDCRGAGQIIKNPCNDCSGTGRVDKKKSLSVEIPAGIEDGTRIRLSGEGEAGYRGGPAGDLYIFIKEKIHSIFKRDSENLYCKAPIPMTIATLGGNIEVPTLDGSLVKVKIPSGTQSGDNFRLSNKGMPIVKQNNSGDLFLEAFVETPVNLSLNQKDLLKKFESDKNKKGVSPQSENFFTRLKDLWNKK;locus_tag=LOCUS_6860;gene=dnaJ;note=E8TER3 chaperone protein DnaJ (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:54.7%25%2C q_cov:98.7%25%2C s_cov:98.1%25%2C Eval:1.1e-119],MGA_722
sequence31	MetaGeneAnnotator	CDS	9678	9944	.	+	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQIKLAIVGGAGRMGQQIIEETKNFKNINLVSIIENKNSIFLNKKINNIKIEHNKEKYLNVANTIIDFSSPKSTLETLKYAEKLKKK;locus_tag=LOCUS_6870;note=MGA_723
sequence31	MetaGeneAnnotator	CDS	10032	10463	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIGVNLLIELVKQASNILFNKETSIEILDIHHKHKKDAPSGTALALGDAVSKVKNLNLLKKSNLKPNKIRKKQSGKINFYCERKGNIVGDHSVIFNNKKEEIELKHRGLDRSIYAIGAIKAAIWLFKKNKGLFKMSDVLGIS;locus_tag=LOCUS_6880;note=Q8UIV8 4-hydroxy-tetrahydrodipicolinate reductase (Agrobacterium fabrum str. C58) [pid:46.5%25%2C q_cov:100.0%25%2C s_cov:52.4%25%2C Eval:5.5e-29%2C partial hit],internal stop codon at [9942:9944](+)%2C[9960:9962](+),MGA_724
sequence31	MetaGeneAnnotator	CDS	10449	11327	.	-	0	ID=MGA_725;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263863.1;translation=MSQINKNTLSFLLLFFLGLIWGSSFLFIKFTVLSMKPLTAVLLRMSVASFCLFLFFKIKKLNLPIKKDFFNYFVIAIFGNVFPFFLVSWAEISINTNVTGIIMGLMPITTVFLAYFFVKEEKINLNTFLGIFLGFGGLYFLLGISKGTNTNLESQFAVIIGSISFAIATIYTRRIPKFNPLFILTGSTYLAFFILIPLVLIFDDPSNITATHEGVFFGIVLGILNTAIGGLIFFKLIKISGAAFTSTVNFITPFVAIIWGYIFLNETLSSNQILSFLLILTGIYLVKKSTNT;locus_tag=LOCUS_6890;note=WP_011263863.1 membrane protein (Vibrio fischeri ES114) [pid:24.8%25%2C q_cov:92.5%25%2C s_cov:92.4%25%2C Eval:2.7e-24],MGA_725
sequence31	MetaGeneAnnotator	CDS	11314	11691	.	-	0	ID=MGA_726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFISIGAWPVFGFFGLDVLLIYIFFKINFNSGKKKEIIILKKNELIIKIYNSKIIKKIYKFNPNWLKINLIKLKNKNSTLQISSKNKSIIIGSFLIHQEKINVVKSLSKALKKNNFNYTKINVTN;locus_tag=LOCUS_6900;note=WP_013529603.1 membrane protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:27.9%25%2C q_cov:88.0%25%2C s_cov:67.7%25%2C Eval:7.2e-07%2C partial hit],MGA_726
sequence31	MetaGeneAnnotator	CDS	11888	12541	.	+	0	ID=MGA_727;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89WJ8;translation=MKQKNINTFFQRLSKKIPDPKSDLKYTNNFTLLLAVVLSAQSTDKGVNKATKKLFLLVNNPKDVIDLGLSKLKSLIKTIGLYNSKAKNIINLSKILLKEYKGKIPATREQLVSLPGVGRKTANVVLNIAFNKSTIAVDTHIFRVSNRTKLAQGKKPIDVELGLEKIVPKKYKKNAHHLLILHGRYVCKARNPECNNCVVNDLCLFNNKLLRRKNATI;locus_tag=LOCUS_6910;gene=nth;EC_number=4.2.99.18;note=Q89WJ8 endonuclease III (Bradyrhizobium diazoefficiens USDA 110) [pid:57.6%25%2C q_cov:93.5%25%2C s_cov:78.1%25%2C Eval:1.6e-64],MGA_727
sequence31	MetaGeneAnnotator	CDS	12528	13514	.	+	0	ID=MGA_728;product=adenosine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387910.1;translation=MQQFDLLGIGNSVVDVLYKVDESFIKKNNLEKGVMTLIDENKAQEIYTSLKKGLEIAGGSVANSTVGFALLSGKPAFIGKIKNDNLGKSFSKSLSINNVFYDTQPISEGPGTARCFIFVTPDAQRTMNTYIGACSLLNPEDINEKLVQNSKIIYLEGYCWEEQLAKESLIKAAEIAHKSGNKVSLTLSDPFCVERHRSEFKELIKKHIDILFANEEEIKKLYEIDNFDESAKEISSITEIAALTRGKKGAKIYNNKEVIEIKPKIFGKVTDTTGAGDLFAAGFLYGISKKFSILESGNIASIVAGEIISHFGAKPETDLKNLISKELK;locus_tag=LOCUS_6920;EC_number=2.7.1.20;note=WP_011387910.1 adenosine kinase (Rhodospirillum rubrum ATCC 11170) [pid:45.1%25%2C q_cov:99.1%25%2C s_cov:80.1%25%2C Eval:5.2e-83],MGA_728
sequence32	MetaGeneAnnotator	CDS	408	1445	.	+	0	ID=MGA_731;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011104034.1;translation=MQFKKLGNTNIDVSLICLGTMTWGEQNTKEDAFEQMNYAVENGINFFDTAELYAVPPKEETYGRTESYIGEWFEQKKNRDKIILASKVTGRSGMKWMRGEETRLDKKNITKALEESLKRLKTDYLDLYQLHWPDRKTNFFGQLGYEHDEDDESIPLEETLEILNEIVKKGMVKYIGISNETPWGAMQLIKIAEDKKLAKIVSIQNPYNLLNRTYEVGLAEVSVREKCGLLAYSPLGFGVLSGKYLNNQWPEKARLTLFKEFTRYLNPIATKCTEKYVKIAKENNLNPSQMSLAYINAKPFVTSNIIGATTLDQLKENIESINIKLDKKVIEQIEDVHKLNPNPSP;locus_tag=LOCUS_6930;note=WP_011104034.1 aldo/keto reductase ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-122],MGA_731
sequence32	MetaGeneAnnotator	CDS	1470	2114	.	+	0	ID=MGA_732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIKILFLVLFYLSIFFHIKAANLSLPKVTAEYVCNTKFLIGVSVLETRTFQGKNKKRIDTIVDNIPQSIIINYDNQTVTWIWPRTFAYLIVPLNKENQETLKKSTNISKLEKKKTDYTGGFEVNIYDVKLSLPDGTIEESERWITIKNGITLKEKGVIIGQEGKVYFYSEFSNVKVFKQDEKLFEVPEGYNIAPIEDLDDVNELLKTMVKRV;locus_tag=LOCUS_6940;note=MGA_732
sequence32	MetaGeneAnnotator	CDS	2127	2672	.	+	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTFFLILVIFSFFFFKNVKSANTELVLECPGLKLFNKWCAGLHNKNKDKLCIMVSIPSSKKGEPPYKSRGEVYVTIYQQSSENSDGTIYVTTGYNYKNDSIVKIKIDNNKEYDFNVLEADTAFSDDENTDKRLILEMKKGNNMKVVGYSTRGTKTTDIYSLAGFSAAYSHMTTLCKVKK;locus_tag=LOCUS_6950;note=MGA_733
sequence32	MetaGeneAnnotator	CDS	2711	3886	.	+	0	ID=MGA_734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIVLAYSGGLDTSVILKWLQNNYNCEIITYTSNLGQEINTKEIINNAKNLGVKKIIIEDLQDIFVKDYVYPMIRGNALYEGYYLLGTAIARPLIAKRQIEIAKKFNAYAVAHGATGKGNDQIRFELGYYYFNPKIKIISPWREWSFKSRSDLIKYAKKNNIKVPKDKKGEAPFSVDDNLFHTSTEGKLLEDLKKPAPEYIFQRTNSPEKAPNKFEKCHLSFLKGNLIAINKKKDSPKNLLKKLNDMGKKHGIGRVDLVENRFLGIKSRGVYETPGGTILLFAHRAIESITLNHNQQHLKEELMPKFAELIYNGFWFSKERKKIQKIIDQTQKNVEGTVKLKLYKGNITILERFSKKSIYSKDIASFEKTKGFNSKNAEKFIKRKRYKF;locus_tag=LOCUS_6960;note=C3MAJ3 argininosuccinate synthase (Sinorhizobium fredii NGR234) [pid:59.9%25%2C q_cov:98.0%25%2C s_cov:73.1%25%2C Eval:3.8e-131%2C partial hit],MGA_734
sequence32	MetaGeneAnnotator	CDS	3883	4761	.	-	0	ID=MGA_735;product=bifunctional protein FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J049;translation=MSKLIDGKKFADDLCLKIASEVSKLKDKKIVPGLAVVRIGEDPASTVYVNMKAKKTEEVGMHSVTKILDENTSQEDLLKIIDELNKDETINGILVQLPLPQQINEDSVINAINPDKDVDGFHAINTGRLWSNINSLVPCTPLGCKMLLLNELKDLSGKKAIIVGRSNIVGKPMAALLIGESCTVTVAHSKTKNLEEEVKKSDIVVAAVGVAQMVKGSWIKPGATVIDVGINRIEKDGKKKLVGDVEFNEAEKIAGAITPVPGGVGPMTIACLLHNTLIATCRKNRIEIPKFF;locus_tag=LOCUS_6970;gene=folD;EC_number=1.5.1.5,3.5.4.9;note=Q3J049 bifunctional protein FolD (Rhodobacter sphaeroides 2.4.1) [pid:61.4%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:2.9e-95],MGA_735
sequence32	MetaGeneAnnotator	CDS	4771	5067	.	-	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAALNLFNTVVDLLIWAIILAALLSWLIGFNIVNINNKLVYTIADFLNRLTEPLLSPIRRLMPNLGGIDLSPIILILLLIFLKDLINNNYYDFITKF;locus_tag=LOCUS_6980;note=WP_011391274.1 YggT family protein (Rhodospirillum rubrum ATCC 11170) [pid:45.6%25%2C q_cov:69.4%25%2C s_cov:68.7%25%2C Eval:5.6e-12%2C partial hit],MGA_736
sequence32	MetaGeneAnnotator	CDS	5170	6075	.	-	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGIKMKKILKYSTILGVAAILSAPISNVANADTGGYVRVKGAESHWHKLGFRSVGCQKSGRSSSLGATECRFASETKDIRGATSSADVIARRNTLTWAEDDSTGLVVGADYGFFRLEVEGNYSDGNAKSWRGHTATNGKVHQARIFANIVVEPFDLLELLGEFGGVDPLVRYNPAHYGISPYAMYGYGVMGGIVENLDYTHVGSDTYNTGGSEATTVGAFGGGATAAVNVGAGVNIGLDTLARKFSEASGSTLPEYFKLPIEFSVGYHWQVGLDELLFDSVDEDLGIQDGGITYSVGLKW;locus_tag=LOCUS_6990;note=MGA_737
sequence32	MetaGeneAnnotator	CDS	6221	6802	.	+	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKFLLYITILSISFIYSKSFAFEDKTAKNFFNIYEIKQGVLAHDRGWFGTNREGFGPDYNFEVMFNDSRFLKFLGSPKPILGLTQTSTGGSSLYYGGITWDKNISKNWFVTGTTGIAYTNGLSKLPQGQEPSGDKKIQFGSKWLHRGAVELGWNFYGNDTISLMFSHVSHGSMLDNKNQGMDEFGIRYGYRF;locus_tag=LOCUS_7000;note=MGA_738
sequence32	MetaGeneAnnotator	CDS	6812	8185	.	+	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011036222.1;translation=MKYNNSQNQNLIIKKINFFGDILAFHRLNSERYPYLLQSSAKGNILCRYDILFAFPQKRIDLLFKDIKKKNFLKKFDKEWKKEKQKKNENTFPFIGGWFVYLGYELISQIETKIISHEHRYNFPVAFATRIPAAIIKDNFNNETFIICEKKYSKLLNKIEDDIKILAEKKNFLLKEINLKKKFLINSLLEESPNKHIKNVTKILKYIKAGDVFQVNLSREWSGKINKKFSASDIFSKLKKTNPSPFSGLVTYKNKAIISSSPERLIMVKNGYIETRPIAGTRARGGSGIYDVALSQDLLNNKKERAEHIMLVDLERNDLSKVTVKGSVKVNELMIVESYTHVHHIVSNVTGKIKKDITPGKIIEAVFPGGTITGCPKIRCMEILSEIEKTGRGPYTGSMGYINNDGSMDLNILIRTIVKNNNNISLRAGGGIVADSIPKRELEEARAKAKGMINALI;locus_tag=LOCUS_7010;gene=trpE;note=WP_011036222.1 hypothetical protein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:43.0%25%2C q_cov:95.4%25%2C s_cov:96.9%25%2C Eval:2.1e-99],MGA_739
sequence32	MetaGeneAnnotator	CDS	8190	9002	.	+	0	ID=MGA_740;product=aminodeoxychorismate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003113994.1;translation=MFQINGKLTNKINVKNRAVQYGDGVFETMAVKENLIKFWKEHYKRLNKGCKVLKIKCPSEIFLRKEINKFLKKIKTKKFILKIIISRGEGGRGYNFPKKIQPTRILGIYDWPEYPKENFIYGINMGICNTKISTQPILSKIKHLNRLEQIIARSEWKTKKISESIMLDIDGNVIEGTMSNIFGVKNNIFYTPILKYGGIEGVMRKVILELLKKKGEKHKIKKIKLKEFLNFDEIFICNSIFGVWSVKKVLKKKFIFGNNTKKIIGFLANK;locus_tag=LOCUS_7020;gene=pabC;EC_number=4.1.3.38;note=WP_003113994.1 aminodeoxychorismate lyase (Pseudomonas aeruginosa PAO1) [pid:32.7%25%2C q_cov:96.3%25%2C s_cov:94.8%25%2C Eval:3.7e-41],MGA_740
sequence32	MetaGeneAnnotator	CDS	9004	9363	.	-	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLTLIIIIFFTQNIFADENLEKKAREINKKIRCVVCQTQSIDDSDSILARDLRELIKKKLKEGKSEKEITNYLVDRYGEFILLKPKLKFNTYFLWFAPIFIIIFGIFLIKNIFKKK;locus_tag=LOCUS_7030;note=WP_010971301.1 cytochrome c-type biogenesis protein CcmH (Agrobacterium fabrum str. C58) [pid:48.9%25%2C q_cov:77.3%25%2C s_cov:46.5%25%2C Eval:3.9e-21%2C partial hit],MGA_741
sequence32	MetaGeneAnnotator	CDS	9360	9872	.	-	0	ID=MGA_742;product=cytochrome c biogenesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946598.1;translation=MKYKSLLIITIFIFICFFFGLKKEKKPLLSPLINSPIPEINLNSLKNKKLNKNDFKNEIILVNFFASWCIPCIVEHDYLLKLKKLKSIKIYGINYKDNIENLEVWLEKLGNPYSKIGIDKSGLTGINWGINGVPESFLIDKNGIIKYKVNGVIDDKQIEIILTKIKNLEK;locus_tag=LOCUS_7040;gene=dsbE;note=WP_010946598.1 cytochrome c biogenesis protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:34.1%25%2C q_cov:93.5%25%2C s_cov:92.1%25%2C Eval:7.1e-23],MGA_742
sequence32	MetaGeneAnnotator	CDS	9869	10072	.	-	0	ID=MGA_743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEFPTTEAAIFSKGFSDIYIAMSEPVDDSWIFRFHYSPLTPWIWIGSIMAFIGGIISFSKRMFRKK;locus_tag=LOCUS_7050;note=WP_011037369.1 c-type cytochrome biogenesis protein CcmF (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:39.3%25%2C q_cov:89.6%25%2C s_cov:9.5%25%2C Eval:3.4e-09%2C partial hit],internal stop codon at [10163:10165](-),MGA_743
sequence32	MetaGeneAnnotator	CDS	10163	11767	.	-	0	ID=MGA_744;product=c-type cytochrome biogenesis protein CcmF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971300.1;translation=MIALIGNISLILAAIISCYQFLNVRNIDKIRFLNPDRAITLQFFFVLLAFFSLMFAYIVSDFSIINVYKNSHSAKPLLYKITGVWGNHEGSMLLWILVLVFFGFLISKFDKRLNSKYKALTLSFQSLITFIFLLFVLLTSNPFLIISPTPINGQDLNPLLQDPGLAFHPPNLYIGYVGLSIVFSFTAARFFEGNFDSSWAKLIKPWVLLSWSFLTLGISLGSWWAYYELGWGGFWFWDPVENASLMPWLCATALLHSTLVLEKRNTLKKWTVLLAFLSFSFSLIGTFLVRSGIITSVHALATDPTRGVFILIICAFFIFSSLILLIKKAEIIKEEKLISPISKEGAIIFNNLLMIALLLTIFIGTIYPIFLEIFTGEQISVGPPYFNLTSILIMGPAIIIMSFAPMIKWKKDDFIGLLTRLKTILFSSLIITLIFFYINFKGPIIALVGIFLASWLFFGTLVNFLERTNYLKKLKYLNKEYLGMTFAHIGFAIFIAGITGSTLWKVEKIETLKIGEKILLKNYSLNFDKIKKIK;locus_tag=LOCUS_7060;gene=cycK;note=WP_010971300.1 c-type cytochrome biogenesis protein CcmF (Agrobacterium fabrum str. C58) [pid:47.9%25%2C q_cov:99.4%25%2C s_cov:81.9%25%2C Eval:3.8e-143],internal stop codon at [10163:10165](-),MGA_744
sequence32	MetaGeneAnnotator	CDS	11779	12186	.	-	0	ID=MGA_745;product=cytochrome c-type biogenesis protein CcmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RYF4;translation=MTPKRKRFYIIFLIFSVFSFLIGTVLIVLQDNILFFYTPSELTEKNINISKKIRLGGLVQENSIKRNDTKVNFIITDFKKKIKVSYIGILPDLFREGQGVIVKGYLKNNIFEATEVLAKHDENYMPPEIKKKLNY;locus_tag=LOCUS_7070;gene=ccmE;note=Q2RYF4 cytochrome c-type biogenesis protein CcmE (Rhodospirillum rubrum ATCC 11170) [pid:45.5%25%2C q_cov:98.5%25%2C s_cov:87.6%25%2C Eval:8.6e-29],MGA_745
sequence32	MetaGeneAnnotator	CDS	12321	13040	.	-	0	ID=MGA_746;product=cytochrome C biogenesis protein CcmC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387799.1;translation=MFNFKIFKYANPANFLYFCKKIFNYLVFITVILLLYGLYQGLFISPEDYQQGNLVRIMYVHVPSAWMALMIYTSIAIASCIYLINKHLLANIFCKSASLIGASFTLIAIVTGSIWGKPTWGTWWVWDARITSMLVLFFLYLGHMTIFNFSENIEKSGQTASLLAILGFVNIPIIKFSVDWWNTLHQPASVMKISGPTIHSSMLIPLLITALGFFCYFLIVLIIRMKLEITNQKINNINF;locus_tag=LOCUS_7080;note=WP_011387799.1 cytochrome C biogenesis protein CcmC (Rhodospirillum rubrum ATCC 11170) [pid:53.3%25%2C q_cov:95.0%25%2C s_cov:95.0%25%2C Eval:4.4e-69],MGA_746
sequence33	MetaGeneAnnotator	CDS	483	950	.	-	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTRIRLARAGSKNRPFFKIVVSDKRSPRDGKFIEKLGTYNPLLSKEDENRIIFDEERVKYWLSKGATPSYKMAIFLSKSNLVDKPLVPKQTKKHLPKIKKKEGDSKESATKAEAPKTEAKPEEKPQAEAPKTEAKPEEKLQTETASNNEGEKKV;locus_tag=LOCUS_7090;note=Q2RV59 30S ribosomal protein S16 (Rhodospirillum rubrum ATCC 11170) [pid:57.3%25%2C q_cov:66.5%25%2C s_cov:83.1%25%2C Eval:8.9e-29%2C partial hit],MGA_749
sequence33	MetaGeneAnnotator	CDS	994	2352	.	-	0	ID=MGA_750;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RV60;translation=MFKNLSERLTGIFDKLKSRGSLNESDVDTALREVRIALLEADVSLETVKEFLDKAKKKAIGSKIVKSVSPGQMVIKIVNDVLKELLGTKEEPINLKATPPVIILMVGLQGSGKTTTSAKIAKKMKDKDNKKVIMSSLDVQRPAAQEQLATLGKQINVDTVEIIKGQNPVQIAERSLDKAKKEGFDVLILDTAGRLQIDDVLMNEVSKVSKSVKPNEILLVSDAMIGQESVNVAKEFNSRLKLTGIILTRLDGDARGGAALSMRSVTGCPIKLIGVGEKMEAIEVFHPDRIANRILGMGDVVTLVEEASESIKKEDAEKLDKKIKDGQFSLDDLSKQLGQMKKLGGIKGILSKLPGASKIQDQMNKANIDDKVIVRQQAIISSMTVEERNNHKILHASRKKRIASGSGTSIQEVNKLIKQYHTMLKMMKKYGNMDKKTLMRQGFGNMLPPGLQ;locus_tag=LOCUS_7100;gene=ffh;note=Q2RV60 signal recognition particle protein (Rhodospirillum rubrum ATCC 11170) [pid:55.6%25%2C q_cov:97.1%25%2C s_cov:89.3%25%2C Eval:1.4e-135],MGA_750
sequence33	MetaGeneAnnotator	CDS	2397	3224	.	+	0	ID=MGA_751;product=diaminopimelate epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9A280;translation=MILNYIKMHGLKNDFIIIDNRIKKISLNKNKLKKIANRKKGLGCDQIVFLEKSKNNKTSAFIKFFNSDGSKTKACGNAVRCVAYILMKEERKKKITMQTDASFLYAYLNKNNHITVDLGKALFNWNKIPLKKKINPEKLHFNLNIISKPFLVNIGNPHIVFFVNNLKKINLKKTGPKIEKNSLFPEKINVNFAKILNNNQIELKVWERGAGITKACGTGASATTIAAIKNKLINKKFCNILMPGGKLKIEYKKNGHVLMTGPVKMLKKGTIKNLI;locus_tag=LOCUS_7110;gene=dapF;EC_number=5.1.1.7;note=Q9A280 diaminopimelate epimerase (Caulobacter crescentus CB15) [pid:35.5%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:9.2e-48],MGA_751
sequence33	MetaGeneAnnotator	CDS	3231	4481	.	+	0	ID=MGA_752;product=threonylcarbamoyladenosine tRNA methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB6;translation=MKNQNIITFGCRLNSFESQIIKEKISDNKITNTYFINTCAVTKEAEKQAKKKIRKIRRENPKANIIVTGCSAQINPETYKNMNEVDLILGNQEKLNFEKYLNSLNKKKKIIVNDIMSVKETANHFIKGFDKKARAFVQIQNGCDHRCTFCIIPYGRGNSRSVPIENICKQIKILLKNNFKEIVLTGVDLTSYGNDLYGKPKLGKLIKDIFKNIKNLERLRLSSLDAIEIDKDLLEIINYEERLMPHLHLSIQSGDNLILKRMKRRHSREDVIDLCNKLVKKRKNMVFGADLIAGFPTETNEMFLNSKKIINDCNLTYLHVFPYSNRPNTPASKMPQVNREIIKERSKVLRIEGKKNLNNFLINQIKYKHKVLFESKNKGHSENFIPIETKKNYKIGKIFSIKCSSVKNGKLISLEK;locus_tag=LOCUS_7120;gene=mtaB;EC_number=2.8.4.5;note=Q9ZDB6 threonylcarbamoyladenosine tRNA methylthiotransferase MtaB (Rickettsia prowazekii str. Madrid E) [pid:53.4%25%2C q_cov:97.6%25%2C s_cov:95.7%25%2C Eval:1.9e-123],MGA_752
sequence33	MetaGeneAnnotator	CDS	4481	5683	.	+	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGWLNRIKDSLLNKIKKKLPKKDIESVEKKRKENALSEKKIIKKKIHKTKELPNNNITKTDNSIIEKEKKSFFGLFKKKDVSKEVKKTEKDPEQKKGWFQKLKSGLFKSSEKITQGVKKIFINKKLDIETLNNLEELLIMSDLGPITAEKLTAELANEKFDKNVKQEEVRKFLAKKIEDSLVDIAKPIIFDNLQNPSIILVVGVNGTGKTTTIGKLANQYSKEGKKVMIAACDTFRAAAVEQLNIWAERSNAEFIKGNEGCDAAGLAYEAIEKAKSKKIDILFIDTAGRVQNKTELMEELAKIIRVMKKLEPEAPHHCLLTLDATTGQNAINQVEIFKEMAEVTGLIITKLDGSAKGGILLSLAEKFNLPVHAIGVGEKIEDLQSFEAQEFAKGLMGLEN;locus_tag=LOCUS_7130;note=A9CHH2 signal recognition particle receptor FtsY (Agrobacterium fabrum str. C58) [pid:54.7%25%2C q_cov:76.8%25%2C s_cov:64.2%25%2C Eval:4.4e-90%2C partial hit],MGA_753
sequence33	MetaGeneAnnotator	CDS	5689	6234	.	+	0	ID=MGA_754;product=putative intracellular septation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P30961;translation=MNEEKKTLIKTLVEIIPLILFFIFNAKYEIILATKVFVISTIISFIISYFYLKKISYPLIITTFLVLIFGSLTIFFNDSTFIKLKPTIVYLLFSFFLIIGLNFNKNFLQIYLSELLKLNNVGWNILTKRWIVFFIIMAILNEIIWRNFSTDFWVSFKVFGFLPITIVFTLFQQNLIRKYSQ;locus_tag=LOCUS_7140;note=P30961 putative intracellular septation protein A (Bradyrhizobium diazoefficiens USDA 110) [pid:44.8%25%2C q_cov:95.0%25%2C s_cov:86.0%25%2C Eval:3.7e-39],MGA_754
sequence33	MetaGeneAnnotator	CDS	6243	6818	.	-	0	ID=MGA_755;product=deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010920940.1;translation=MFNRAKLTFVFLFFFTFLSNANAFDKEGNSSFISEIKTGVVQHDAGVFGRTKEEGIDSTFEFLFRKIDYNLFWLGKPRPHIGATINMGGDTSQAYAGVTWDWKLPKRMFFNFSWGLSYHNGDKIHSATNVVTDKKELGSSILFREAVEIGWNFYGNDSISIRLDHISNANLWGEDTNEGLDTLGIVYGYRF;locus_tag=LOCUS_7150;note=WP_010920940.1 deacylase (Caulobacter crescentus NA1000) [pid:25.9%25%2C q_cov:84.8%25%2C s_cov:88.5%25%2C Eval:1.1e-10],MGA_755
sequence33	MetaGeneAnnotator	CDS	6838	7506	.	-	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLVKFLIFFYFLSFPLNVFGFYYKPVHEFEIHRNNKKIGFHKLSFQNIEDKIIVNTEIKMVVKIGFVPVFNYIHKANETWKDEKFIKAKTSTIKNNRNFELEAYRKDNKLEIKSNKKVFSVNENSLITSYWHQHWFKKKVLIDSQHGKKRLINIEKKNFEKISTANGFIYAQNYKVTGTQDKPNGKKIDYNIWYDEKGRWVKISFFIKKSFIEFYLVTQY;locus_tag=LOCUS_7160;note=MGA_756
sequence33	MetaGeneAnnotator	CDS	7541	8170	.	+	0	ID=MGA_757;product=D-glycero-alpha-D-manno-heptose-1%2C7-bisphosphate 7-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97EQ5;translation=MKYKQINKQNIWAEKLTNKFFSNSPCLFLDRDGVLIDWKDYTMKAKDAKLIPGSEKIIKQCNKKKIPVILITNQGGIGLGIHVWKDFIRIKKKIINQLIKKGAKIDGVIACPHHPLAKGVYKHKNHPCRKPNGGMFLIAKKLFKVNLNKSWMVGDKINDLIAANSKNLEKGFLVLTGYGEEEKKKLKFLPKNFLITKVLSSLKDLKISF;locus_tag=LOCUS_7170;gene=gmhB;EC_number=3.1.3.83;note=Q97EQ5 D-glycero-alpha-D-manno-heptose-1%2C7-bisphosphate 7-phosphatase (Clostridium acetobutylicum ATCC 824) [pid:39.8%25%2C q_cov:83.7%25%2C s_cov:94.5%25%2C Eval:2.0e-24],MGA_757
sequence33	MetaGeneAnnotator	CDS	8167	8394	.	-	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAYKNEVQKINIKLTPLNKKEKYDTIILAVAHDGYKKLSYSFFNKKLNKNGKVFDLKAIWKNNKFPKTVEYLIL;locus_tag=LOCUS_7180;note=MGA_758
sequence33	MetaGeneAnnotator	CDS	8570	9430	.	-	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKLNISIFGLGYVGLPLAIKLSKYFNVIGFDKNKKRIQELKNYFDRNNEVQFKELKNSNLKYSLNLKDLKDTNIFIVTVPTPVNKSNKPDLQPLISACNDIGKIISKGATVVFESTVYPGVTEEICGPKIKKSSNLIPSVDFFLGYSPERMNPGDKIHSVDKITKVISGDSNKTINILKKVYGKINKNKIFVSKSIKTAEAAKVIENTQRDINVAFINEITKLFKKIDINVYDVLKTAQTKWNFLNFQPGFVGGHCIGVDPYYLAYLANKKKNRFKFNFIRKES;locus_tag=LOCUS_7190;note=WP_012545193.1 UDP-N-acetyl-D-galactosamine dehydrogenase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:52.3%25%2C q_cov:92.3%25%2C s_cov:60.4%25%2C Eval:7.0e-78%2C partial hit],frameshifted%2C insertion/deletion at around 8620,MGA_759
sequence33	MetaGeneAnnotator	CDS	9513	10781	.	+	0	ID=MGA_760;product=3-deoxy-D-manno-octulosonic acid transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971077.1;translation=MAKLILLIYKILTIIFLPIILSIVIIRILQKKEINNRIQERFAFSSKKRPQGELIWINASSIGEYLATISLIKNIKKLRSNIKILLTTNTKTSAQLAEKIKDKNIIHQFTPQDNPLIIKKFLNYWKPSLVLWMESEFWPIILDETKRKKIKIILLNGRMSDKSFKNWSYFKFFFKEIISNFSLILTMSKIDKNNFKKLGAKKIDFIGNLKFCNEKNIYNKKKEKKIKKLIKNRFVWLAASTHKGEEILVSKIHSDLKKNFNSNNLLTVIVPRNVKRSLKIKKEIKSVIPNTKLFKSNSITKKTEIIIDDSIGQLEIWYKNINTVFLGKSFPSKGGQNPIEPAKNGCAIISGKMSNFREIEKEMIYKKCLLSINSYSQFYSKINDCLKKKNYIKKIRLNCKQYVKSKSYILDKTTTKIEKYLP;locus_tag=LOCUS_7200;gene=kdtA;note=WP_010971077.1 3-deoxy-D-manno-octulosonic acid transferase (Agrobacterium fabrum str. C58) [pid:35.6%25%2C q_cov:80.1%25%2C s_cov:76.1%25%2C Eval:2.4e-57],MGA_760
sequence33	MetaGeneAnnotator	CDS	10778	12070	.	-	0	ID=MGA_761;product=UDP-glucose 6-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545232.1;translation=MNITIIGAGYVGLVQAVSLADFGFKVTCIEKDTEKLRQLKFGRIPFYEPGLDDLFKKNLKSKRLNFTNDYLQYISKSDVIFICVGTPPKKNGESNLNFVDQVTNEISNKIKGYTVIVSKSTVPVGTSKRIENILKKKNSIKTFDVISNPEFLREGSALEDFNRPDKIIIGCRSIKAEKILKKIYKPLNRPYVVTNNETAEIIKYANNSFLATKITFINEIADLCENIDAEVEIVAKAIGLDGRIGSKFLHPGPGYGGSCFPKDVKSLIYQGNKNLTDLKIVKAVDKANELRIKSLFKRIKKILKNNFSNIQIGLLGISFKPNTDDVRESPGIKLAKDLSRTKAKIKIFDPQGMENAKKELSKSIDFCKDEYEVVNNSSLLVIVTEWNQFKNLDLKKIKKLMKKPVILDLRNIYSKEIINNGFQYYSIGNN;locus_tag=LOCUS_7210;EC_number=1.1.1.22;note=WP_012545232.1 UDP-glucose 6-dehydrogenase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:50.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.2e-119],MGA_761
sequence33	MetaGeneAnnotator	CDS	12074	12562	.	-	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIFLFLFLFLLFDTSHGAERNDKNLLTFGAGIWDWNDTKTSGLFNVEYRHGTRYGLFKPMIGGQVNTDHGFHIYSGVRIDLYLTDKIVLTPSFAPGLYEKGDGKELGHIVEFRSGLDLAYRRKNGGRIGLEVHHLSNASLDENNPGTETFLFTYSIPIN;locus_tag=LOCUS_7220;note=WP_011390225.1 acyloxyacyl hydrolase (Rhodospirillum rubrum ATCC 11170) [pid:34.9%25%2C q_cov:90.1%25%2C s_cov:72.4%25%2C Eval:3.3e-19%2C partial hit],MGA_762
sequence34	MetaGeneAnnotator	CDS	1285	2241	.	+	0	ID=MGA_765;product=heme A synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TGG2;translation=MIIIGGLTRLTESGLSIVEWRLYGYLPPINDDDWIELFNKYKKFPEFQLINKNLNINEFKFIFWMEYIHRIWGRLIFLIFFIPLIIFLKKKYIPDHLKKHFFIISILIIVQGIIGWYMVKSGLVDQPDVSHYRLSIHLTMAFVIYGYILYLALTINRKKIKINKKNILFQLNIFLIFLILLTVFSGGMVAGLDAGLVYNTFPLMGETFIPSDFWNLDPKFKNFFENPAAVQFDHRILGITTFFTIFLMWIFTKKKKINSDIKNKINLLLLFVIIQVCLGIATLLSFVTIPIAIIHQSGAVILYSISIWTFKSLPFMTK;locus_tag=LOCUS_7230;gene=ctaA;EC_number=1.3.-.-;note=E8TGG2 heme A synthase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:38.6%25%2C q_cov:95.0%25%2C s_cov:83.2%25%2C Eval:1.4e-56],MGA_765
sequence34	MetaGeneAnnotator	CDS	2221	3003	.	-	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGINVMNKYKKILSTACFFGFISSVSAMEINRESVEEATGLSIGYNTSWSSHYVWRGESQSAKDMSPAIGVDIGHSSGLYLGAWTGSITNGTHGAEFDVYAGYAFDLGPLSFDIGDLYYLYPGESNEVQFNEYYFSVGTEIPLGMVAEDFSVSPYAYFAYAPKWFGANTPDVFYTELGIEAPIRGTQFSLSYTWGDINVDDLDGDAEKANTVDSWNYYYITLGLGEVLGLDASMTYHNAPGYSGDGGQDGFFVSLGHEW;locus_tag=LOCUS_7240;note=WP_010930529.1 hypothetical protein (Bordetella pertussis Tohama I) [pid:31.6%25%2C q_cov:66.9%25%2C s_cov:69.6%25%2C Eval:1.7e-11%2C partial hit],MGA_766
sequence34	MetaGeneAnnotator	CDS	3069	3773	.	-	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINLKYFIYIFLFLFLILFSFKVQANSSKIYNKEYANPLTVLESFLWNNKKGSNIGITSKININNRNLNATTHPTSLDPKNIRIALSKLRYFNEEKEIMDFIFSIDDIDVLSKNVSRGLLVANNNQDIIFQFIKKKKNNKTKGIFFVQNKSLNVVFFQINYCDLKTNLNKKKKKEFHKNHPSFSFFKKNNCKIRSNNKISVTSKNGIYKRKTNDRFSWIIFTPSSWETNSIN;locus_tag=LOCUS_7250;note=MGA_767
sequence34	MetaGeneAnnotator	CDS	3779	4366	.	-	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVNSCSGKRYESSPGYTTSKTLHSTYVWKKGKQYVAIVKTIPVNNRNINKTLHPIDISEQTIINSFTKIKYTIKKKKGGIIRPKRVFNDRNIDILSKKIPEALKLAKKNQDILFEVFQLRKKFWILPSTIDTTAGYLFIEPGRINIIFEKINEDYEGYDYDEPRRIVGDSSQGIYGGKAKVSKGWIILTSKSWQ;locus_tag=LOCUS_7260;note=MGA_768
sequence34	MetaGeneAnnotator	CDS	4478	5293	.	+	0	ID=MGA_769;product=squalene synthase HpnC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085785.1;translation=MNLIEIKKTKNSKEENFPVGSRLISKKFRSQILIFYDFARAADDIADSPNLTSKEKIKRLNLFKKNLEKEKPNLTKIIKLKQVCQKNKISLNHAFNLLKAFKQDALKNRYKNWSELIGYCKYSAVPVGRFVVDLHGEKKEAYKFSDPLCIALQILNHIQDIKKDYKEINRIYLPHTFIKKYKINLHQIKKNYLDKNMRDALNEILFHTEKLIIKANKYKRIMKNNKLSKETNLILEIAKKLLILLKKNDPLKNKVVLNKFDYLKCFVKSFL;locus_tag=LOCUS_7270;note=WP_011085785.1 squalene synthase HpnC (Bradyrhizobium diazoefficiens USDA 110) [pid:33.6%25%2C q_cov:95.6%25%2C s_cov:80.4%25%2C Eval:4.8e-41],MGA_769
sequence34	MetaGeneAnnotator	CDS	5407	6144	.	+	0	ID=MGA_770;product=squalene synthase HpnD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085786.1;translation=MFTVYAFCKKVDTIADSKLSSNIKVKKINNLKLEINKIFNNKPKNNFGIALKQNINKYKLKKKYFFDIIKGVEMDIKNIMVCPTNRIFNLYCYRVAGAVGLISLSIFGEYNKNGKSFALYLAKALQITNILRDINEDKQMGRIYIPKEILKKNNIKKERISLIIKNKMFPKACWDLSKIADLNFKMAKKKLKYCSKSNLKSALLMMETYEILLKKLKKNKWENLEKKIRLTKFEKIFLFIKGIIF;locus_tag=LOCUS_7280;note=WP_011085786.1 squalene synthase HpnD (Bradyrhizobium diazoefficiens USDA 110) [pid:26.6%25%2C q_cov:98.4%25%2C s_cov:86.0%25%2C Eval:2.7e-24],MGA_770
sequence34	MetaGeneAnnotator	CDS	6145	7404	.	+	0	ID=MGA_771;product=amine oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387824.1;translation=MNKNVYIIGGGLSGLSSAISLINNNKVNIHEASGIFGGRCRSYKEKKLNCVLDNGNHLIINAYKNTFKYLNDINSLNELTSNQTTFYPFIDLKELKKWNVKPYSFILPWWIFFKSYRPLNISCFDFIKSLKILFAKKNQTVTDLIKKNELIYDRFWKPFTIAVLNTSPNKASAKLLSKIILKTLFFQNNPLKPFMAKNSLDKTFIEPAIKKIKKKGGKLHINSRLKKIVINKNKADKIIFNDKIIDLKKNDIVVLAVTPNITSKLLPYIKAPKKTNSIFNIHFKLNSKTKSIKMPNNSFFIGVTGGVIDWVFKKGNIISITISDANNLNNINDEEISKIIWCEIEKIFNLKKTNTPNYKIIKEKMATFVQSPKEIYKKPKIITKYKNIFLAGDWVDTGLPATIEGAITSGYNVANIINK;locus_tag=LOCUS_7290;note=WP_011387824.1 amine oxidase (Rhodospirillum rubrum ATCC 11170) [pid:33.2%25%2C q_cov:95.0%25%2C s_cov:92.4%25%2C Eval:2.6e-64],MGA_771
sequence34	MetaGeneAnnotator	CDS	7407	9293	.	+	0	ID=MGA_772;product=squalene-hopene cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004529547.1;translation=MNIKNIINICQKKLLKEQKKDGHWAYELEADTTIPSEYILMNHTLGIKEPNLEKKLCKYIKKEQNPDGGWPLFWKGKSNISTSVKAYYALKLSGEKISSQIMVKAKKKILDLGGIDNCNVFTKISLALFNQISWKQIPSMPIEIMSFPNWFPFHINKIAYWSRTVVVPLLIILNKKPKAKNPKNININELFTDKKKKISNYGKNSLFYYFLFKFIDKSLKNTENYFPKKLRKKSINKAKNFIIKRLNGINGLGAIFPAMTNCTIALKLLNLNKEYKISLNSVKNLITHKKNYSYCQPCFSPVWDTGLMGLSLLETNLSAENNSIKKACNWLEKKQILNIKGDWIHNNKKLNPGGWAFQYKNDYYPDVDDTAVVAMFLDKANYKKKEKIEKACQWIIKMQSKNGGWGAFDKDNTYHYLNNIPFADHGALLDPPTADVSARCVSMLSQIDKQKYTETIKKGINFLKQEQEINGSWYGRWGTNYIYGTWSVLNALKAAGENMNSEYIKKALLWMKKKQNKDGGWGEDCSTYWEKNKNYQLKKSVPSQTAWAIMSLLITEKYNNNSVKNGINFLINNFNKNKLWEDNYFNAVGFPKVFYITYHGYAKYFPVWAISKYYNLKKGKRSNRINGL;locus_tag=LOCUS_7300;gene=shc;EC_number=5.4.99.17;note=WP_004529547.1 squalene-hopene cyclase (Burkholderia pseudomallei K96243) [pid:44.7%25%2C q_cov:97.9%25%2C s_cov:95.6%25%2C Eval:3.5e-167],MGA_772
sequence34	MetaGeneAnnotator	CDS	9299	9463	.	+	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKCICGEKIINCDPLGDCWCKDLPFKLKKEELNKKFKECVCKNCLINEYKTY;locus_tag=LOCUS_7310;note=MGA_773
sequence34	MetaGeneAnnotator	CDS	9563	9820	.	+	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLTFISLTLVSLLISSHAGALEARIPTTSMSKALEIVQSKDNFSTLKNVKFNVKEKLYNITYINKSGVANTIKISQLNGKEVK;locus_tag=LOCUS_7320;note=MGA_774
sequence34	MetaGeneAnnotator	CDS	9869	11053	.	-	0	ID=MGA_775;product=hopanoid biosynthesis associated radical SAM protein HpnH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004187762.1;translation=MGIPLIQKIKVAKYIFEQKIKGNKKYPLVLMLEPLFRCNLACAGCGKIDYADDILNKRMSVKDCLDAVDECGAPIVSIPGGEPLVHKEIGQIVEGIINKGKFVYLCTNALLLEKKLDLFKPSQYLTFSIHLDGLEKEHDHSVCREGVYTKVINAIKVAKQKGFRCNVNCTLFHQMTPKRTAKFFDFVTKLGVDGITVSPGYAYERAADQKNFLKRKKTKTFFRNIFKLGKGKKWAFSQSSLFLDFLAGNQNYKCTPWGNPTRNIFGWQKPCYLIGEGYVKTFKELMETTEWDQYGTGNYEKCADCMVHCGYEPTAAEDSIKNPLKTLKVALFGPKTDGKMVPDIPLNNQRPAKYMFEELVKKSTKKIEEEEIKEQNIPVPTVKEQKNEEEIAVK;locus_tag=LOCUS_7330;note=WP_004187762.1 hopanoid biosynthesis associated radical SAM protein HpnH (Burkholderia mallei ATCC 23344) [pid:64.4%25%2C q_cov:96.4%25%2C s_cov:99.0%25%2C Eval:3.7e-150],MGA_775
sequence34	MetaGeneAnnotator	CDS	11057	12007	.	-	0	ID=MGA_776;product=4-hydroxy-3-methylbut-2-enyl diphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RYD1;translation=MKIILAQPRGFCAGVDRAIDIVEEALKIYGPPVYVRHEIVHNKRVVNDLKEKGAVFVEDIKEIPDNAVTVFSAHGVSRKVEDDAKDRKLPVLDATCPLVLKVHNQGIKYAKKGYEIILIGHEGHPEVEGTQGRIPGGVHLVSTKEDVRRLKVKNEKKLAYVTQTTLGVDDTKDVIKELESRFPSIVGPGVEDICYATTNRQEAVRDLAKHVDLLLVVGSQNSSNSKRLEEIGREMNIPSFLIDGSKDIKKKWLKKVKTIGITAGASAPEAVVMEVVNKLKKIESSQVKVMDGIKEKVEFKLPSGIRYKKDKKELIV;locus_tag=LOCUS_7340;gene=ispH;EC_number=1.17.7.4;note=Q2RYD1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Rhodospirillum rubrum ATCC 11170) [pid:59.7%25%2C q_cov:98.4%25%2C s_cov:93.8%25%2C Eval:1.3e-104],MGA_776
sequence34	MetaGeneAnnotator	misc_feature	12021	12874	.	-	.	ID=MGA_777;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_004198871.1:NAD-dependent dehydratase,WP_004198871.1 NAD-dependent dehydratase (Burkholderia mallei ATCC 23344) [pid:49.3%25%2C q_cov:98.2%25%2C s_cov:82.7%25%2C Eval:6.0e-74],MGA_777;locus_tag=LOCUS_7350
sequence35	MetaGeneAnnotator	CDS	406	918	.	-	0	ID=MGA_779;product=UPF0301 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RPU1;translation=MTDPRFYKAVIYMVSHKNEGAMGIIINQPIIETKINTIIENEDLKNNVNMDNIPITFGGPVDTKKGFILHTSEFKDKTTLKVDKNIFLTSNINILKSIVKGEGPKKSLFALGYAGWYAGQLEKELSNNGWLIAPGNSNLIFECDIKNKWNEAMKSIGINPNFLNSKSGSC;locus_tag=LOCUS_7360;note=Q2RPU1 UPF0301 protein (Rhodospirillum rubrum ATCC 11170) [pid:42.9%25%2C q_cov:98.8%25%2C s_cov:87.5%25%2C Eval:2.1e-38],MGA_779
sequence35	MetaGeneAnnotator	CDS	1055	2710	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLNFLKKYFIFIILFFTIFINNSFAEKEVKKNYIKHKNLSIELISSVNSVSYDKVLYLGLFFKLEPGWKIYWKYPGKAGYPPTIDWSKSETIKNLELIWPKPEKFEILGMKSIGYSKEVVLPMKIDLKENNDKELILDFNIDYLTCNKICVPFNDNLILAIPYGIEEKSKYNQLIKKYIEKSNYNSYSNLLAPDSLFFFIFIAFLGGIILNFMPCVFPVLSLKVYDILYQRKNKINLKETKRNFFATIIGILFSFFILSILVIFLKKIGHGLGWGFQFQSPIFLFFMTLILVLFSLNLIDFVKIDIPSFLKKNINKFINLNKKNSDFYQNFFLGSFITILSTPCSAPFIGTALGFAFISSNQIIFLIFLFIGLGLSCPYIVLAIHPKLLFFLPKPGVWMNKLKYFLSFLLMMTAVWLFTVFLIQTNLVNSNKSKNNEWIQFNSSKLSNLVNQNNIVFVDVTADWCITCFYNKKTVIDRKKVRKIFEKYDVKKMRGDLTTPNEEISKYISSFNRFGIPVNIIYSPSSPQGILLSEVLTVKELLSTFESIKK;locus_tag=LOCUS_7370;note=WP_000972986.1 protein-disulfide reductase (Salmonella enterica subsp. enterica serovar Typhi str. CT18) [pid:34.9%25%2C q_cov:63.2%25%2C s_cov:54.5%25%2C Eval:1.2e-59%2C partial hit],MGA_780
sequence35	MetaGeneAnnotator	CDS	2707	3186	.	+	0	ID=MGA_781;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011084135.1;translation=MIKEGDIFPNNKVTIVGNDSKEVETDKLFSGKKIVLFAVPGAFTPTCNNSHLPSFIEKYDEIRNKGYDNIICLSVNDQFVVNEWRKSKSLQNEFLFISDGNAEITESLGMVLDCSGFGMGKRSNRYVMIIEDKIIKKIFLEENPGTCDLTNANKILELI;locus_tag=LOCUS_7380;note=WP_011084135.1 peroxiredoxin (Bradyrhizobium diazoefficiens USDA 110) [pid:42.9%25%2C q_cov:97.5%25%2C s_cov:96.9%25%2C Eval:1.0e-33],MGA_781
sequence35	MetaGeneAnnotator	CDS	3183	3614	.	-	0	ID=MGA_782;product=ribonuclease H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8T805;translation=MEKVDIYTDGSCIGNPGPGGWSFIIKYKNKKIKEFSGFENYTTNNRMEIIAAINAIKYFKKETIINIYTDSKYLKNGITLWIKKWKLNNWTTSNKKDVKNSDLWKTLEKKTLNHKINWIWIKAHNENILNERADYLARKAIKN;locus_tag=LOCUS_7390;gene=rnhA;EC_number=3.1.26.4;note=E8T805 ribonuclease H (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:49.3%25%2C q_cov:97.9%25%2C s_cov:79.0%25%2C Eval:3.5e-39],MGA_782
sequence35	MetaGeneAnnotator	CDS	3619	4113	.	-	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDWENLIKKIKLSKSQSFFLKNEIKYLKKEWPKNLPKGIIHGDLFPDNVFFKKNKIVGIIDLSNACYDFFIYDIAICINAWCYEKKLNYNKMQNLIKGYNLIRKIKIEEKNYLNFFLRASSLRFYLSRLMDSQNKKIPNKYKKNPKEYLIKLKFFQKNLINYS;locus_tag=LOCUS_7400;note=C3MHK2 homoserine kinase (Sinorhizobium fredii NGR234) [pid:48.9%25%2C q_cov:80.5%25%2C s_cov:41.4%25%2C Eval:1.0e-31%2C partial hit],internal stop codon at [4371:4373](-),frameshifted%2C insertion/deletion at around 4385,MGA_783
sequence35	MetaGeneAnnotator	CDS	4347	4556	.	-	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYYTKINKEEFKKYLNNYKLDNLYNFKGIDEGIENTNYFFKTKIKKYVLTIYENKITERIKKKTYHFL;locus_tag=LOCUS_7410;note=B8H4W6 homoserine kinase (Caulobacter crescentus NA1000) [pid:40.4%25%2C q_cov:82.6%25%2C s_cov:18.0%25%2C Eval:7.3e-07%2C partial hit],frameshifted%2C insertion/deletion at around 4370,MGA_784
sequence35	MetaGeneAnnotator	CDS	4635	4874	.	+	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKKELHLKPFCVNIKEGKKYAWCTCNLSSKQPFCDGSHSKTKFKPLIFTAEVSDNVYLCGCKNTKKKPYCDGSHNIS;locus_tag=LOCUS_7420;note=WP_011106349.1 glutamate synthase (Vibrio parahaemolyticus RIMD 2210633) [pid:53.7%25%2C q_cov:84.8%25%2C s_cov:13.1%25%2C Eval:5.2e-18%2C partial hit],MGA_785
sequence35	MetaGeneAnnotator	CDS	4883	5404	.	-	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMVNPDSHNFINILQSESFWVAVAFFIFIGLSFSKFKELLIKSLDNRIANVKKKIEEIKKIKEDAENNLLQSKNNLENIIKEKEKKINLSKEESIILKKKLLKEEINYKERLKKKIKDKIEQSKKQTIEEVQKIILKISVKSIMEFLKSQKNINENNLIAKSIEELIKKKNKI;locus_tag=LOCUS_7430;note=MGA_786
sequence35	MetaGeneAnnotator	CDS	5388	5894	.	-	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPQLEISTFPSQIFWLVVSFLLLYLILSKIIVPRIASVLKDRENEIKNNFELSEKLYKKTESINQEIEEIKKQTELESKKIINDVKQITEKKINENTEILKKNLDKKLENNDKEIKKNKIKVFKQIDKISFDISKEIIQKLSLKEKINKNSLKNLIKRNLKGINDGKS;locus_tag=LOCUS_7440;note=MGA_787
sequence35	MetaGeneAnnotator	CDS	5915	6139	.	-	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVEAAKLIGAGLAVIGLGGVGAGIGHIFASLISAIARNPSARPQVFPMGMLGFALVEAVALYALLIAFLVLFL;locus_tag=LOCUS_7450;note=Q9ZEC2 ATP synthase subunit c (Rickettsia prowazekii str. Madrid E) [pid:44.4%25%2C q_cov:73.0%25%2C s_cov:73.0%25%2C Eval:4.2e-07%2C partial hit],MGA_788
sequence35	MetaGeneAnnotator	CDS	6155	6877	.	-	0	ID=MGA_789;product=ATP synthase subunit a;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q92RM8;translation=MADPIHQFEIKKLYPLQLNNVDISFTNSSLFMILTVLFVSLLLILSIKNKRIVPTRLQSISEIFYEFISNMINDNIGNKGQKFFSLIFTLFTFILFGNLFGLLPYSFTFTSHIIVTFVLAMFIFLFVTLIGIFTHGFKFFGLFVPKGVPMAMLPLMVPIEIISYLSRPISLSIRLFANMMAGHTMLKVFAGFIFSLGVFGIAPLIVDVALTAFEVLVAFLQAYVFTVLTCLYLNDAINLH;locus_tag=LOCUS_7460;gene=atpB;note=Q92RM8 ATP synthase subunit a (Sinorhizobium meliloti 1021) [pid:54.7%25%2C q_cov:98.3%25%2C s_cov:97.2%25%2C Eval:2.6e-69],MGA_789
sequence35	MetaGeneAnnotator	CDS	6911	7210	.	-	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRLQDFNKRLKNFEKKNLKKNEKIKKSNDLGLFLKAGVEVISPIIVGIVIGIFLDNYFNSKPLFLIVFLILGFGGGISNIYKTVKRLGFEVGFKKKK;locus_tag=LOCUS_7470;note=MGA_790
sequence35	MetaGeneAnnotator	CDS	7216	9669	.	-	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNKIKITGFKSFVDKTELSIDKGLTGIVGPNGCGKSNIVDGLKWIMGETSAKEMRGKGMEDVIFNGTAIRPQNNLAEIEIIIDNKDNKAPEIFKDQEIIEVKRKIEREKGSTYYINNKIARAKDVHLLFADASSGPDTTSIVAQGQIHKLISSKPEERRILLEEAAGITGLHARRHEAELKLKSSEVNLSRLDDIIKTHKDQYKILEKQVTEAEKYKNIKNKINELEITILKIRCINDLKKISSKNENLTKINSEINKIDVLLEDYKNEKNKFLNSNNEKSNNLNNLKIEKQNYIIEKQKNSDEINRISIQKENLKNRLDQLTDDLNRENKFLEDANFSLSKLQKNIFNETKELNIKISNNEKNSSKESFINLKKDIENEIKKIEFIISKSNELQSKINEIDRKNNELISPIKNTFNIISDKIKNIFSSFTDIKNNFSKLTNLDKIFDFEEEHLKWSKRIEDSKKHLNSLSEREKIIKKELENLKIKPDQIIKKNEDIEQKINSLNEKINVLSKEIIIDPSQTKEIDEKIKYNSEKKIKSHEEKTRLETDLEYLKNDLNNAFIESERNFSLKLDENIIKKEKIDIKDLPAINILQNNLNQEKRKFDKIGPINFTAETEAKETNQKIEKMVNDKIDVEKAIFKLRETISNINKEGREKINNCFDGINQSFKKLFEEFFDGGKSFLKMIGSSDPLLSGLEVFASPPGKKMSTLSLLSGGEKTMTATALILAVFLQNPSPICVLDEVDAPLDDINIDKYCKLIKKINTETSTKFIIITHNPITMAYMDRLYGVTMAETGVSKLISVKLEEAQKLREVS;locus_tag=LOCUS_7480;note=C3MHM8 chromosome partition protein Smc (Sinorhizobium fredii NGR234) [pid:37.5%25%2C q_cov:52.4%25%2C s_cov:36.9%25%2C Eval:2.3e-76%2C partial hit],MGA_791
sequence35	MetaGeneAnnotator	CDS	9673	10263	.	-	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNIMKLLFYVFFVFFSLFQVKNIKANEEIFLGDKDSKITVIEYASMTCIHCANFHINVYPKIKKEYIDTNKIKFIFRDFPLDKQALYGSLLAKCAPKEKYFDYVKLVLTNQKKWISNNDEFIKKLINIGKLAGLNEKKIENCFKNEKLVDEIIKIRSIGEKEYNIDSTPSFIINGKKYTTLNYESFKKIIDDLI;locus_tag=LOCUS_7490;note=WP_006309853.1 disulfide bond formation protein DsbD (Agrobacterium fabrum str. C58) [pid:40.5%25%2C q_cov:85.2%25%2C s_cov:73.9%25%2C Eval:1.0e-35%2C partial hit],MGA_792
sequence35	MetaGeneAnnotator	CDS	10330	10791	.	-	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKQNYFKKIGKSLPKIITQDIKKKNYIQFSLLNNWKNIIGEEISKFCKPEKIIFSHTKNINGTIFLKTIRGRSLEIEFKSEEIIEKLNQYFGYKAVNKISIIQDFNIKKSETIKKKINKEMKKNQIKTINKIKKKDLKDALKNLNKTLFE;locus_tag=LOCUS_7500;note=MGA_793
sequence35	MetaGeneAnnotator	CDS	10837	11853	.	+	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNLTNNLMFWYKQNKRKFPWREKKNLKNPYFVMVSEIMLQQTNTNTVIDYFKKFILKWPNIYSLSNARLNEILFFWQGLGFYKRAHNLLDTSKILIKKYNGKIPTNYKDLINLPGIGEYTANAILTLAYKKKRIGLDVNINRDASRLFNLNIKDKKKIYQKLSYHLPNKKTDDFMQALMDVGATLCKKKITKCHYCPINNFCIFFKENKQIESNIIYKKKKKFLFIYLIKFKNEIILREKKEGKLLNNLMEIPNYLFNKKVSLEVAKRKAPLKLNWKKVKGKLNTKISNFDLETIFFETELKKKFFLKDSVWVNKNKLKKIPISSLMRNFLVYLNCF;locus_tag=LOCUS_7510;note=WP_010946634.1 A/G-specific adenine glycosylase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:44.3%25%2C q_cov:60.4%25%2C s_cov:58.3%25%2C Eval:6.0e-42%2C partial hit],MGA_794
sequence35	MetaGeneAnnotator	misc_feature	11830	12740	.	-	.	ID=MGA_795;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q2RPE0:methyltransferase,Q2RPE0 methyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:53.0%25%2C q_cov:98.3%25%2C s_cov:82.3%25%2C Eval:1.3e-98],MGA_795;locus_tag=LOCUS_7520
sequence36	MetaGeneAnnotator	CDS	105	332	.	-	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGGNSKENAKIIKGILNGEICGPKKDIVLLNTAAALYINKKTKDIKSGIEIVNKIILSGKASKKLDELIEFSNS;locus_tag=LOCUS_7530;note=Q6HLU7 anthranilate phosphoribosyltransferase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:51.4%25%2C q_cov:96.0%25%2C s_cov:20.8%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [441:443](-)%2C[450:452](-)%2C[474:476](-)%2C[480:482](-),MGA_796
sequence36	MetaGeneAnnotator	CDS	480	1121	.	-	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFTDYIKSINEGTNLSENESEDAFDQILLQKVNDNEIIDFLTSLSKKGESVNEIFGAVLSIKKKANIIKGFSNTFDTCGTGGDESGTFNISTITAIITAACGVCVAKHGNKAVSSITGSADVLSELGININLDQNKIINCLNKINLCFLFAPNFHPILKNVAEIRKKIGKRTIFNILGPLLSPVECKKQIIGVYNVKILMHVAEVLKKLQT;locus_tag=LOCUS_7540;note=WP_011022929.1 anthranilate phosphoribosyltransferase (Methanosarcina acetivorans C2A) [pid:45.6%25%2C q_cov:100.0%25%2C s_cov:57.8%25%2C Eval:3.6e-45%2C partial hit],internal stop codon at [441:443](-)%2C[450:452](-)%2C[474:476](-)%2C[480:482](-),MGA_797
sequence36	MetaGeneAnnotator	CDS	1118	1696	.	-	0	ID=MGA_798;product=aminodeoxychorismate/anthranilate synthase component II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389648.1;translation=MYLLIDNYDSFTYNLYHYFLELGAKIEVYRNDKITPKDILKKKYEGIILSPGPCTPNEAGICLNLIKEISNTKIPILGVCLGHQVIGQAFGGKIIKNKPMHGKVSSIHHFKSDIFKNLSNPFKATRYHSLSIERKTLPNCLKITAELKKNGIIMGIRHKKLPIYGVQFHPESIASQHGHDLIKNFLQLSKKK;locus_tag=LOCUS_7550;EC_number=4.1.3.27;note=WP_011389648.1 aminodeoxychorismate/anthranilate synthase component II (Rhodospirillum rubrum ATCC 11170) [pid:57.8%25%2C q_cov:99.5%25%2C s_cov:97.4%25%2C Eval:1.7e-61],MGA_798
sequence36	MetaGeneAnnotator	CDS	1706	2815	.	-	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLDITKIYQKKKEDTLKIPYALFMRTSLVAVFDNLKNTISIVNTITKPKKNNDVKFISKLYKDGKRKILSVVNNLKKSLKIKKISQRKQTKEKISCNMTKKKYFKVINTIKKYINNGDVIQTVPSLRFKKKFKHNPFSLYRSLRKLNPSPFLFILNFKDFSIVGSSPEILVRLKDDNITIRPIAGTRKRGKDEIEDKKLANDLLSDPKEIAEHLMLLDLGRNDVGRVSVKNSVKVTEKMIIENYSHVMHIVSNVTGKLNKKYHPLDVLAAGFPAGTVTGAPKIRAMEIINEVENISRSFYAGGVGYFAHDGSLDTCISLRTGLIKNNVLYVQSGGGIVADSNQRNEYDEIINKAKAVLNASEDAINF;locus_tag=LOCUS_7560;note=WP_011389644.1 anthranilate synthase component I (Rhodospirillum rubrum ATCC 11170) [pid:49.7%25%2C q_cov:98.9%25%2C s_cov:73.0%25%2C Eval:1.5e-94%2C partial hit],frameshifted%2C insertion/deletion at around 2771,MGA_799
sequence36	MetaGeneAnnotator	CDS	2712	3188	.	-	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDFNIKKLEIIPNIKKFNKAFLSKKYNRLCLWTEISADLETPITAYLKLIKKNNNNNFLLESVEGGSSRGRYSIIGIESDKLIKCTNIDKKTLIDLKKEISSLKTCTFGKLPSMVSSYVGFMGYDFIRYYENLPKKKRGYIKNSICIIYENLISSSF;locus_tag=LOCUS_7570;note=WP_012546555.1 anthranilate synthase component I (Thermodesulfovibrio yellowstonii DSM 11347) [pid:35.5%25%2C q_cov:77.2%25%2C s_cov:26.4%25%2C Eval:1.4e-11%2C partial hit],frameshifted%2C insertion/deletion at around 2771,MGA_800
sequence36	MetaGeneAnnotator	CDS	3169	4914	.	-	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGKTKILPQRFVNEFSNNIKIQNRNQENLNRTDLESIAYETVKNISNRQLILNASKKLNIDISDKELKKEIYKNDLFQDKVDKKFDVNLYQSFVKRNFNTEENYLIYLKNQMIVELIADYFEKKIDYPNNLLKQIHNQLEEKKSFKIAFIDKEIEAKKLKIENNDLLMNYYNTNKEKYFFDERRSISYFFITTDLLKEKIEVNENELRKSYNDQKENFIIPEKRNVEQLFFNNEQEGLKALNLIKDDENFEKFSKEKDIQDMTYINLGKVEKAQLFEEFAEDVFQLKKNNFTNLIKSSIGFHILKVTEIKDEEVKKFKDVKDIIKKNLLEIKSFDELDVLINALDEELLNESSLEDIADKLEINLKQQKLIERKNLSKIDLNEFKNKKFYNEIFKKEKESNLFIEEIENGFFVIRIDEILDNELMSYEEAFNFLLKDKKKELINEQIKERVNNFKKEINEGNDFFNVSDSYEMSSRETKKINREEMVKQGIPLELVKKLYYSEKNSLHDFDTTNKFYIVKVLSESEIKYDGANFSNVKVNINKIYGIDNFNQLMVKLNKEFPTKINKEKINELIDRFQY;locus_tag=LOCUS_7580;note=Q8Z8U9 peptidylprolyl isomerase (Salmonella enterica subsp. enterica serovar Typhi str. CT18) [pid:22.1%25%2C q_cov:57.8%25%2C s_cov:54.4%25%2C Eval:5.5e-18%2C partial hit],MGA_801
sequence36	MetaGeneAnnotator	CDS	5077	5808	.	+	0	ID=MGA_802;product=triosephosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q181T6;translation=MNNNDKLIIANWKMNLFYNNAFIFCKKIILNMKNIKNNFIICPPSILLSQLNITFKNINFGAQDCHYKNSGAFTGDISPLMLKKIKCKYVIIGHSERREYHHEDNKIIKEKIFAALKNNLIPIICIGENLNVKKRNATKGFISKQLNSVLPKNNKKKIIIAYEPIWAIGSGKTPSLEEISDLHIYIKKVIVNLNSSYKNTKILYGGSVNKKNSINFLKNINIDGLLVGGASLNFNSFYSILKI;locus_tag=LOCUS_7590;gene=tpi;EC_number=5.3.1.1;note=Q181T6 triosephosphate isomerase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:40.9%25%2C q_cov:96.7%25%2C s_cov:97.6%25%2C Eval:2.7e-45],MGA_802
sequence36	MetaGeneAnnotator	CDS	5863	6159	.	+	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASILLTIHIIVAISLVISVLLQRSEGGLGGLGGGMSNVMSSQTGNSFITKLTLYLATGFIITSISLAVISKDNNKTIVNENEINSKENNVPTVPLAD;locus_tag=LOCUS_7600;note=MGA_803
sequence36	MetaGeneAnnotator	CDS	6222	7847	.	+	0	ID=MGA_804;product=CTP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MBJ6;translation=MTKYIFITGGVASALGKGLAAASLAALLQSRNIKVHLKKLDPYLNIDPGTMSPYQHGEVFVTDDGAETDLDLGHYERFTGVPTKKNDNITSGKIFSNVLMKERRGDYLGATVQIIPHVTNEIKDFIVDNTKNDDVVLCEIGGTVGDIEGLPFLEAIRQLRNEMGKENTLFIHLTLVPYLESSKEFKTKPTQHSVKEVLGLGIQPDILLCRCERALPEDSIKKIAQFCNVNSKSVIPAQNVSNIYEVPRNLHNFGLDNQVCKFLNLKTKKPDLKKWELIEKRISSPEGEVTIGLVGKYNMLEDSYKSLVEALIHGSISNNVKLNIEWLDSEIFSKKTKMDTLNRINGILIPGGFGIRGTKGKINAANYARLNNVPYFGICLGMQIAVIEAARNLLGLKKADSTEFNKTKDPVIGIMTEWIKKNKKIKRSTNGDMGGTMRLGAYDCILKKKTKIFDIYKKNKISERHRHRYEVNLNYLKKLENCGMVFSGLSPDGNLPEILELNNHPWFIGVQFHPELKSKPFEPHPLFVSFIKAALNRSRLV;locus_tag=LOCUS_7610;gene=pyrG;EC_number=6.3.4.2;note=C3MBJ6 CTP synthase (Sinorhizobium fredii NGR234) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:2.0e-200],MGA_804
sequence36	MetaGeneAnnotator	CDS	7852	8673	.	+	0	ID=MGA_805;product=2-dehydro-3-deoxyphosphooctonate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE84;translation=MKNISVKIGKNNIGNHLPLTLISGPCVVESKQHALDTAGKINEICSLLGINFIYKSSFDKANRSSIKSSRGVGLNKSLTIFSEIKKKYKCSITTDVHEPNQCNKISKFVDLIQIPAFLCRQTDLLTAAAKTKKPINIKKGQFLSPSEITNVINKIKNNNKILLTERGYSFGYNNLVSDMRSLAIMKKTNYPVIFDATHSVQQPGGLLKSSGGEREFVSVLAKAAVSVGIAGILIETHHNPNKAPSDGPCMVPLKNLQVLLEKLIELDFVTKNN;locus_tag=LOCUS_7620;gene=kdsA;EC_number=2.5.1.55;note=Q9ZE84 2-dehydro-3-deoxyphosphooctonate aldolase (Rickettsia prowazekii str. Madrid E) [pid:58.2%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:3.9e-83],MGA_805
sequence36	MetaGeneAnnotator	CDS	8686	9930	.	+	0	ID=MGA_806;product=enolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66778;translation=MPNIKKIIGREIIDSRGFPTVEATVFLENDNSATASVPSGASTGKFEAYELRDDDNKRFLGKGVLKAVENINNVISDNLIGKDANNQEDIDNLLIKLDGTVNKKKLGANAILAVSIANFKAVGIKHNSCIMPVPMVNILNGGVHADNGLDIQEFMIMPVKAHNFKHAVQISTEIFHTLKKILSDNSLSTNLGDEGGYAPQLKNHSEALEYLMKSISKAGYKPGDDVYIALDAASSEFYKNNKYELSGENKIISSDELIKYYENIISTYPIISIEDPLSEDDHEGWKNITKNLGHRIQLVGDDLFVTNEKKLKEGINNKIGNSILIKLNQIGTVSETLNTITLAKANKYSTIISHRSGETEENFIADLACITNAGQIKTGSMARSERLSKYNQLIRIEEMVESKYAGKNVFSFLK;locus_tag=LOCUS_7630;gene=eno;EC_number=4.2.1.11;note=O66778 enolase (Aquifex aeolicus VF5) [pid:58.4%25%2C q_cov:96.1%25%2C s_cov:95.5%25%2C Eval:2.4e-131],MGA_806
sequence36	MetaGeneAnnotator	CDS	9927	10205	.	+	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYLIGLFALLIIIIIYLITFGEEKNFFTLNKLKKEVSENKEILNNYEKEKEKLKTSIEKLEASDLEYIEEIARDKLNMSEPDEIIIFNKE;locus_tag=LOCUS_7640;note=MGA_807
sequence36	MetaGeneAnnotator	CDS	10210	10635	.	+	0	ID=MGA_808;product=ribosome association toxin RatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDZ7;translation=MVSFVKNKILPYSLTQIYNTVSNVKEYPDFLPWCTDIKIKKKTKKYLITEVKVGFQNINESYICKVLLYPKKRILLDYISGPFEYLEIDWKFKKISKNKTDVSFFCNFKFKSVFLRLCTSFFLEGAVEKMVDAFEKRLNTN;locus_tag=LOCUS_7650;gene=ratA;note=Q9ZDZ7 ribosome association toxin RatA (Rickettsia prowazekii str. Madrid E) [pid:37.6%25%2C q_cov:97.2%25%2C s_cov:95.9%25%2C Eval:3.8e-19],MGA_808
sequence36	MetaGeneAnnotator	CDS	10632	11147	.	-	0	ID=MGA_809;product=competence damage-inducible protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919605.1;translation=MFPIKIKNKAEKVFKLCLKKRIKLAFAESCTGGMLSSLITSFPNSSKIFSCGYVTYSNLSKEKMLGISRNKIKKYGAVSIEIARAMAHSVVIKANANIGIGITGIAGPVGATKYKKVGEVYVALYHYKNKKFQQSMDSGLSPHKGTRESIRLASIDCALDCLLEICSSKYS;locus_tag=LOCUS_7660;note=WP_010919605.1 competence damage-inducible protein A (Caulobacter crescentus NA1000) [pid:35.8%25%2C q_cov:95.9%25%2C s_cov:98.2%25%2C Eval:8.0e-22],MGA_809
sequence36	MetaGeneAnnotator	CDS	11150	11599	.	-	0	ID=MGA_810;product=phosphatidylglycerophosphatase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546233.1;translation=MKEKLYKSVTTFFGLGYISPFPGTLTSFLTVVIIWLTQKYFGFQITLLCIIFVSLIAYISIENDANKKSDPKEIVIDEFIGQSIVLIFLPLTLQNYILGFVFFRIFDIYKPMPINYFEKKYPNAFGIIFDDIIAAGYALLAIYIINIII;locus_tag=LOCUS_7670;note=WP_012546233.1 phosphatidylglycerophosphatase A (Thermodesulfovibrio yellowstonii DSM 11347) [pid:39.4%25%2C q_cov:84.6%25%2C s_cov:86.9%25%2C Eval:3.8e-18],MGA_810
sequence37	MetaGeneAnnotator	misc_feature	1	1091	.	+	.	ID=MGA_811;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010946485.1:LPS biosynthesis protein PseA,WP_010946485.1 LPS biosynthesis protein PseA (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:40.1%25%2C q_cov:99.4%25%2C s_cov:86.5%25%2C Eval:1.7e-77],MGA_811;locus_tag=LOCUS_7680
sequence37	MetaGeneAnnotator	CDS	1112	1450	.	+	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLRKLHLTESGIKDIYWPIKYSDYEKISNKIKKIFLDSENFFFKNKIQDFEIFSCLQIYITQKLFILYHEKKIKNLINKYDNKTQKLLFSLETKGSFEHLHLQKVIKKKNK;locus_tag=LOCUS_7690;note=MGA_812
sequence37	MetaGeneAnnotator	CDS	1562	2659	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEYLNNQKKTFYLVPLYEWFYKKTEKEFNSNKKKKLNLNLINFFLNKVEKEFIKLECRLTKKELNDFKKWILEYFFWVNLYLTRLDKVKDKLPKLLLTGSLGIIWCRILAAAVKKNGGKVFNFDHSVGDFSINTSTSLFAESNSSDIFFTFNKKHINYYFKFMKYSKSSHSKLKLKSLLLSKKKNTIKKIEKKREGKKILFVSPPFLLNQGLCITFFPPPILIDWHIRILGALKKLGYQVIYKPHPDCNKEIVKRILSLVKIEIENEPFEAICYKYDYLFFDYRSTNTWSHAIKTDLPIILNDVDFYKLTEKDTLILKKRVSLLKINIDKKNKPNFSEKNLKNAIINSYKLRKDKTFHKLIFS;locus_tag=LOCUS_7700;note=MGA_813
sequence37	MetaGeneAnnotator	CDS	2661	3713	.	+	0	ID=MGA_814;product=alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002864264.1;translation=MIYNIKKNQLNPENTIQDALKILEFSIYKIIIIKNKNNKILGTVTDGDIRRSLIKNFNTNLQLSKIMNKNPILVNENRSNAEISQIMKSNIIKQVIIIDKDRKLKDIKSIDEVWTTKEKKNTVVIMAGGLGKRLRPITYNKPKTMVEIGGKPLLMNILENCTSQGFKNFYISINYKKNKIKHFLKSNESSGIKINYLEEKKPLGTIGSLSLIKEKVNYPILIINGDILTTLDFNSFFEFHTKHNPFLSIAVKYHEMKNDFGVVSVKKTRVTNIVEKPTYKSLINTGIYILSKEAVKLVKEKKILDFPELVELGFEKKKKINAFLFSDYWIDIGKISDLDKAKIDNLKIKK;locus_tag=LOCUS_7710;note=WP_002864264.1 alcohol dehydrogenase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:36.7%25%2C q_cov:97.4%25%2C s_cov:99.1%25%2C Eval:1.6e-64],MGA_814
sequence37	MetaGeneAnnotator	CDS	3751	4467	.	+	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000132016.1;translation=MIKKDLKILAIIPARGSSKTIKDKNIKLLNKKPLIFYSINEALKLKKLFYKIVVSTDSKKIAKLSKKLGAEVPFIRPKIISKDTTPTLPVIKHCIDFIEKKDKVHIDWIIILQPTSPLRNALDIKKVINIMKNNICDSVVSVKKVIKSHPVFLRILKKNYLKPYLLNNKFFRRQDVKSNIYKTNGSIYLTKRNVIFKNKNNLVYGKKVIPYFMNAKNSVDIDNEIDFKYCEFILNEKK;locus_tag=LOCUS_7720;gene=neuA;note=WP_000132016.1 hypothetical protein (Leptospira interrogans serovar Lai str. 56601) [pid:35.2%25%2C q_cov:97.9%25%2C s_cov:98.7%25%2C Eval:2.0e-29],MGA_815
sequence37	MetaGeneAnnotator	CDS	4439	5437	.	+	0	ID=MGA_816;product=N%2CN'-diacetyllegionaminic acid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q0P8T1;translation=MSLFLMKKNKISIIAEFCQNHNGNSAILSEMIDKAVEHGATHLKIQNIFANELTFRPKFESGIKINKKVHSIKRPYKDEYKRLKKLELNIKQIENFKKKCESYNVVPLITCFTRSQIRLLKELNFKLIKVASIDCASFQLLRDLVNNFNNIIVSTGGTYDNEIKKAASILKKKKFSFLHCVSIYPTPIKDVNLNRLNFLKKFTKSFGYSDHTAALDKNLIAIKYAIYLGAKIIEKHFTILESEETRDGIVSMNPQQLNEISKFSNLSRSDQKIILSKLSTNFKNKILGKKNRKLTNIEILNRDYYRGRFASVLYKNKVKRYIYNWDEVNNFD;locus_tag=LOCUS_7730;gene=legI;EC_number=2.5.1.101;note=Q0P8T1 N%2CN'-diacetyllegionaminic acid synthase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:29.5%25%2C q_cov:92.2%25%2C s_cov:97.3%25%2C Eval:7.7e-26],MGA_816
sequence37	MetaGeneAnnotator	CDS	5442	6629	.	+	0	ID=MGA_817;product=LPS biosynthesis protein PseA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946485.1;translation=MEKKIIICKKCVMANTRPVSTPEFLKKKSYHESTRFDNDGVCFACKYAEYKRKINWKKREKKLISILKKYKKKDGGYDVIVPGSGGKDSFAVAHKLKYKYSMNPLTVTWAPIVYTDIGKINHQEWINSGLDNIVVNPNPKVKKILTRLSFKNLCNPFQPFVIGQKNIGPKFAKMYNVKLVMYGESPLEVHPSNLDSFDNFEMPPEHYAFNGKKKDIKLAGLTLNELKKEKINIKDLFLYMPMNLKDVKKNKIKTFFFSNFENWSPQQNYFYSKKFSNFNSNPLGRSEGTYTKFSSLDDKIDGQYYFTMLIKFGQGRTMNDACRDIRDGYITRDEAIQLIKKYDEEFPKKNFKFFLDYIGLTEKNYWKIIDTNRPKNIWYKNNKNKWINKVKENLN;locus_tag=LOCUS_7740;note=WP_010946485.1 LPS biosynthesis protein PseA (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:41.4%25%2C q_cov:91.6%25%2C s_cov:78.7%25%2C Eval:1.1e-80],MGA_817
sequence37	MetaGeneAnnotator	CDS	6629	7462	.	+	0	ID=MGA_818;product=imidazole glycerol phosphate synthase subunit HisF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O31139;translation=MRNIRIIPKLEVKNDNLVKGINHEGLRILGPASKFIKNYSEKNFDEIIVIDCVSSLFGTPSAFKLIDDTAKNLRIPLAYGGGLKDIKSSTTALNQGADRIIINSAIFKNKNILKDLINKIGSANIIISVYTKILDDEYRCFTESSRNLANENLKQWLDYLQTIFDGEILINSIEHDGRCNGIDLDLIKILSKRKNQTFLYSGGVSSEKDLKNIINLSENISGIVIASSLHYQFLKQNKGKQNYLDFRTIENIENNMNISTKFNPKKILKKFPRISTR;locus_tag=LOCUS_7750;gene=hisF;EC_number=4.1.3.-;note=O31139 imidazole glycerol phosphate synthase subunit HisF (Corynebacterium glutamicum ATCC 13032) [pid:27.1%25%2C q_cov:82.7%25%2C s_cov:90.7%25%2C Eval:1.4e-22],MGA_818
sequence37	MetaGeneAnnotator	CDS	7459	8046	.	+	0	ID=MGA_819;product=imidazole glycerol phosphate synthase subunit HisH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496519.1;translation=MKIVILKSQVGNFKSIFTFFEEQKYNVELTNDKKKIITCDLLVIPGAASFSGFMNSFDKDIIKTIKERNDKKKLIFGICAGFQVLFDQSEESKNVRGLSLIKGKIIKLKKGKERRPHLGWYQTIFNKKKDLNNSYYYVNNYGLKKNLNITNLSYYYFNNEAYIGAFRKENIIASQFHPEKSSIAGVKFLKKFVLS;locus_tag=LOCUS_7760;note=WP_064496519.1 imidazole glycerol phosphate synthase subunit HisH (Methanocaldococcus jannaschii DSM 2661) [pid:31.3%25%2C q_cov:97.9%25%2C s_cov:98.0%25%2C Eval:1.3e-19],MGA_819
sequence37	MetaGeneAnnotator	CDS	8046	9482	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFKFIYKFLQTKNKSQLKKKLINFLRIFVRQRIFLPFLVYWFGRQLKIINNMKKKKNIRILFQHSNRYKNDLNELSKHKNIQLLDFNPNIQPLINMLWIAPVTKINWENYNKGVGYKVSFASSEKVLKERKLKENEIKLILKLRKKLQSFLEIFLKKLIKNQKIDALITCAFFYPHDQDWSIASSKIKLPFIALHKECLHDPDTSEVTKKRYIGLDYKFRGTKLIVHGGNAKKLFLSSNITSKEKIVVSGALRTDQYYRNKYISKIQKKQITLFSFTHCTGLIVSGINYNRYFFCDNPNEGFYKYFDLVHYTMAKFAYENPDIEVWIKPKFMQHWSERIYTAIKRGGLDAKKIPNLHISIDKSSEELIKESAVIVGINSTSLIESKLMNKNVIVPIFAEAKNKYFKEHVNFKKYFNKAFYIAKSTDKLIKAMNDGIKGKLPKQICPKELIYDVYGFFDGKTKDRIYKEINKTIKYND;locus_tag=LOCUS_7770;note=MGA_820
sequence37	MetaGeneAnnotator	CDS	9510	10673	.	+	0	ID=MGA_821;product=UDP-N-acetyl glucosamine 2-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289362.1;translation=MKKKTRRKICIVISARPSYARVKSVLKEIKKNKKLELILILTASSLLDRYGNLIDVINKDGFKVNYKVHMLVEGGNLLTSAKSTGLSIIELSSLFDRINPDIVLTVADRYETIATAISASYTNIPVGHIQGGEITGSIDEKVRHAVTKLSDLHFASNKIAAKRLLKLGEDPKKVFISGCPSIDLVQEIIKSKKDVNENFINKGVGKNIDISSDFLVVMQHPVTYEWKNTAKQIRVTLNAIKKINIPVFWFWPNVDAGVDEASKAIRSFRENNNNLKIKFLKNMPPEDFLALIKKSLCLIGNSSVGIRESSYLGVPVVNIGTRQTGRDRGKNVIDCDYNSVEIEKAIERQIKHGKYKKNTLYGNGDSGKSISKILTYCDLPTAKKSFL;locus_tag=LOCUS_7780;gene=neuC;EC_number=5.1.3.14;note=WP_002289362.1 UDP-N-acetyl glucosamine 2-epimerase (Enterococcus faecium DO) [pid:34.0%25%2C q_cov:95.1%25%2C s_cov:94.8%25%2C Eval:8.9e-56],MGA_821
sequence38	MetaGeneAnnotator	CDS	987	1448	.	-	0	ID=MGA_824;product=aspartyl-tRNA amidotransferase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948065.1;translation=MIKKQILEDLNIAVKNKNKESINAIRLILSAIKDKEILIRSDEKIKEITDEMIFNILKNMIKQRNESIEMYKKGNRPELVDKENHEINVIQKYLPAQLSNNDMEKLCNNLIKELNANEMSDMGKVMNALKNHKLSSQIDIAKASSYVKVILNN;locus_tag=LOCUS_7790;note=WP_010948065.1 aspartyl-tRNA amidotransferase subunit B (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:44.4%25%2C q_cov:98.7%25%2C s_cov:98.6%25%2C Eval:7.0e-26],MGA_824
sequence38	MetaGeneAnnotator	CDS	2030	2806	.	+	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLREKGSLNAVIIYNKNGNFDLKRIKKKLKDWEGIKGCDLTKDVSVNKNYSWNKTIWSKSTGYGFNNKKKYHIIAIDYGAKENILRNLATLKCKVTVVPPNIKSEKIFQLKPDGIFLSNGPGDPKATGKITIPTIKAILKKKIPMFGICLGHQILALALGGKTKKMHHGHRGANHPVLEAATGKVIITVQNHGFEVLKNSLPKNVKISYTSLFDGSIEGLELINKPVFSVQYHPEASPGPHDHLNIFKKFYNLVKKNA;locus_tag=LOCUS_7800;note=Q89DR8 carbamoyl-phosphate synthase small chain (Bradyrhizobium diazoefficiens USDA 110) [pid:52.7%25%2C q_cov:99.2%25%2C s_cov:64.6%25%2C Eval:5.9e-78%2C partial hit],MGA_825
sequence38	MetaGeneAnnotator	CDS	2799	6041	.	+	0	ID=MGA_826;product=carbamoyl-phosphate synthase (glutamine-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQB2;translation=MPKRKDLKSIFIIGAGPIIIGQACEFDYSGTQACKALKEEGYRVILLNSNPATIKTDPDIADSSYIEPINSEIIEKILKKEKPDAILPTMGGQTALNAVLEIEKKGLLKKYNIELIGANLDSIKKAEDRKLFKKTMNKLGLKTPKSFVVKNIKEAEKVLKKLSLPIIIRPSFTLGGQGGGTAKNIKDFIKICSEGLNYSPINEVLIEESVLGWKEYELEVVRDKNDNCIVICSIENLDPMGVHTGDSITVAPALTLTDKEYQIMRNASFSILREIGVDTGGSNVQFAINPKNGDMVVIEMNPRVSRSSALASKATGFPIAKVAAKLAIGLTLDEIKNDITKTTPCSFEPTIDYVVTKIPRFTFEKFPGTKSILGTSMKSVGEVMAIGRNFCESLQKAIRSLDKGYDGLFYKKLTKQNIELPSPMRIFQIAELLRRKEKINFIYKKTKIDKWFLREIKKIIDYENIIKKKGIPKNKDLLLHLKSLGFSDKRLAFLTNKNEKQIKNLRKKLNVKPVYKRVDTCAAEFLSLTPYMYSTYEKIPNKLNNCESNPTNKKKVIIIGGGPNRIGQGIEFDYCCVHASYALKKKKIETIMINCNPETVSTDYDTSDRLYFEPLTPEDVIEIIEIEKKRGKLLGLILQFGGQTPLNLAKYLVNEKIKILGTSLDSIDIAEDRKRFKKIIKDIKIKQPSNLTANNINEAKKCLNTIGLPLIIRPSYVLGGKAMEIINEKKEFFKYIGQALKITKKSPLLIDSYLKSAIEIDVDAISDGNEVFVAGVMEHIEEAGIHSGDSACVIPPYTLSEEIIKKIEEQTKKLALALKVKGLINIQFAVQDNNIYIIEANPRASRTVPFVAKATGIPIAKIAALIMIGKKIKNFKLKKNKFNHIAVKESVFPFSKFDGSDIILGPEMKSTGEAMGIDFTFGKAFAKSQLSANVDLPLEGNLFVSVKNTDKKFIIEHIKNLKKIGFKILATKGTAIFLKKKNIDCVSIKKVKEGKPNIVNLINEKKINLIFNTTEGTQAIKDSFTLRRAAINNKIPYYTTMAGAKAAVEAIKALSKKNLEISSLQKYFLKTKINRIIKSV;locus_tag=LOCUS_7810;EC_number=6.3.5.5;note=Q2RQB2 carbamoyl-phosphate synthase (glutamine-hydrolyzing) (Rhodospirillum rubrum ATCC 11170) [pid:57.6%25%2C q_cov:98.9%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_826
sequence38	MetaGeneAnnotator	CDS	6034	6963	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389733.1;translation=MSKKNCWIISDGLLGHEKQSISLAEKLNIKYKIIKIEKLNFFQRNLSFVPNFKKRYLKESSPKFLISCGKHTAYYSKLIKKKFEKKIFSIFIQKPPIKFNNFDLIIAPKHDNCSGTNVIRTNGALTKINLKYIKHINKKKKPSILKKKFITVLFGGNSRHHKITKKILDKIIKKLNIIEKKTKFNIFLIFSRRTNKNDYLYLKKKILSTKFFFILPSSKKLSYINAISFAEAIIVTSDSVSMVSEACSTDKPTYIIDIPSKSKKFSLFIKNLIDLKLACYLKKSISLKKKTKTLNDIDEVIKKIKYEKI;locus_tag=LOCUS_7820;note=WP_011389733.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:25.3%25%2C q_cov:84.8%25%2C s_cov:81.4%25%2C Eval:7.7e-17],MGA_827
sequence38	MetaGeneAnnotator	CDS	6950	7885	.	+	0	ID=MGA_828;product=thioredoxin reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD97;translation=MKKYKSDVIIIGSGAAGYTAAIYTARANMKPILVNGQQPGGQMTITTDVENYPGFKDVIQGPWLMEQMKGQAESVGTKIINDTILECNFKSEPFELIGDSKSVYHGKSIIIATGATARWLGLESEEKFKGYGVSACATCDGFFFKNKIVAVAGGGNTAVEEALYLTLHAKKVYLIHRRNELRAEKILQERLFKNKKIEIIWDSNIKKIQGDSNPKKVKSILIENTKTNKEKIINLNGVFIAIGHDPATKIFKNKINLDNDGYIVTENGNTNTNIPGIFAAGDVTDKIYRQAVTAAGMGCMAALDAEKYLAN;locus_tag=LOCUS_7830;gene=trxB;EC_number=1.8.1.9;note=Q9ZD97 thioredoxin reductase (Rickettsia prowazekii str. Madrid E) [pid:60.1%25%2C q_cov:94.2%25%2C s_cov:94.5%25%2C Eval:1.1e-103],MGA_828
sequence38	MetaGeneAnnotator	CDS	7882	9084	.	-	0	ID=MGA_829;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RVA9;translation=MSFFSKRVSRIQPSPTIAITSKAKKLKQEGKKIIDFSAGEPDFDTPDNIKNKAIEAIKNGLTKYTPVNGTKELNEAILRKFKRENDLIFESDEITVGCGGKQVIFNALLATIEKDDEIIIPSPFWVSYPDIALLIDGNPVVLDCSLENNFKINPQDLENKITNKTKWLILNSPSNPTGAFYSELELQNLAKILLKHPHVWILCDDLYEHIIFDNLKFKNILQVEKKLKSRTFIVNGVSKAYAMTGWRLGYGAGPKELIKEITKIQSQSTTHTSSISQAAAIEALDNSEEFIDRNKKIFQERRDLIISNFKEFSELKVFRPEGSFYVYVCCDKIIGKKKEDGDIINNDLDLSDYFLDEGVAVVPGEAFGFSNFFRISFATSNEDIVEGCKKIISACKKLKS;locus_tag=LOCUS_7840;EC_number=2.6.1.-;note=Q2RVA9 aminotransferase (Rhodospirillum rubrum ATCC 11170) [pid:53.8%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:4.1e-120],MGA_829
sequence39	MetaGeneAnnotator	CDS	315	1010	.	-	0	ID=MGA_832;product=DNA-binding response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012067263.1;translation=MVSEIKKINIINIMKILIVENNFLLKENFFSQLDLKSDFNLLFSSSILKSKNIIKKQKIDFIIISSLGLKLNSFSVINEIFEHKPKKKIIQILDKFNDNKHEYSSYYLKKPIIFNKLLSFIIKPKKKTYQKKNLKLKNGLIFKRYQRKLFYKKNKMEIILTEKESDILGYLIKEKKFVKKIDLLHNIWGFNNKVKTRTLGTHIYRLRKKINKNFCIKKFISVQNISYKIVK;locus_tag=LOCUS_7850;note=WP_012067263.1 DNA-binding response regulator (Sinorhizobium medicae WSM419) [pid:26.7%25%2C q_cov:93.1%25%2C s_cov:87.4%25%2C Eval:1.3e-14],MGA_832
sequence39	MetaGeneAnnotator	CDS	1034	1525	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009561673.1;translation=MIILVNKLGMLKFGKLFFKCGLGENGITNNKKEGDLKTPKGIFKIKNIMYRKDRIKNIKTKLTKIVIQKNHVCCDVSSNTNYNKIYRTNNITLSEKLWRKDSLYDILIVLDYNMDPVKKNKGSAIFLHLFDKNKKIETKGCVSIEKKNMLTLLKNNPNKIKIY;locus_tag=LOCUS_7860;note=WP_009561673.1 hypothetical protein (Rhodobacter sphaeroides 2.4.1) [pid:31.9%25%2C q_cov:88.3%25%2C s_cov:87.2%25%2C Eval:6.2e-18],MGA_833
sequence39	MetaGeneAnnotator	CDS	1532	2020	.	-	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIIRFLIFSMFFLNLNCGYEPIYQKNTEISQNLLSVSVKNIKDRPGQILRNLLINKLNPEGQRVIKKYNLIVELSESKTELGMRQDMSATRTDLQISVKYTLRDLTNSKIVLEGNKKSVSSYDVVESVYATLVAEKEARKKGIEVLSDDIFLDLAVFFRK;locus_tag=LOCUS_7870;note=MGA_834
sequence39	MetaGeneAnnotator	CDS	2021	4426	.	-	0	ID=MGA_835;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB1;translation=MFPYPSGKLHMGHVRNYTLGDVISRFKQINGFNVLHPMGWDSFGLPAENAAKENNIHPKTWTKKNINTMKNQLKKMGFSYDWEREISTADKDYFHQEQKIFLEFYKKGLVYKKSTYVNWDPIEKSVLANEQVIEGKGWRSGALIEKKLMSQWFLKITEYAEDLEKSLNELKYWPEQVKTMQKNWIGKSSGLKINFSISKTKDKIEVFTTRPDTLFGASFIAIASEHPLSKKLSKKNSEVKQFVNNCQKNLNLQEEEFEKLEKTGFKLPFEAINPITNEKIPIYIANFIIMGYGTGAVFGCPAHDQRDFDFAKKYNLKIKQVIESDNKYDSKKAYTGDGKLINSDFLNGLDTVKAKKKISEDLIKKKIAKKETIYRLKDWSISRQRYWGCPIPIIYLEDGKPVPLTNKDLPVTLPDDIDFSKTQNPLSDHPKWKYTKCSKTGKKAIRETETFDTFFESSWYFARFCSPNSKNIVDKEQARYWLPVDQYIGGIEHAILHLLYSRFFTRALKDCGIINIKEPFKNLLTQGMVCHKTFKNKKGNWIFPEEYDAQKSKNEIFIGKSEKMSKSKKNVVDPDMILEKYGSDTARLFMLSDSPPEKDLEWTETGIKGAYKYLNKLWNLVFENKNIFLNLKDKNQEINQNNNIILEMNKTIFNVTEDYEHFRFNRAIARIREFTNLIFDNEKKLKEEKILFKFIIENVIKLISPMTPHIAEEIWQFLGNKKCIVQTDWPVVNKMFQKKEVVIIAVQINGKLKGTIEISEEMNSKEVEKKAFSLLKVSKIIEKNKPKKVIVIKNKVVNIVI;locus_tag=LOCUS_7880;gene=leuS;EC_number=6.1.1.4;note=Q9ZDB1 leucine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:48.7%25%2C q_cov:96.6%25%2C s_cov:92.8%25%2C Eval:1.5e-226],MGA_835
sequence39	MetaGeneAnnotator	CDS	4538	4951	.	-	0	ID=MGA_836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKILIILVIPLLIFSCSSIGSFGFGKKKNQFEKLKINEFLWKASNNLLINYPNVTTNLKDGLISTDWIILKKNSNNRFKISIYILGSNLIEENIEIFVTKETLINDSWQKSQISSTFADSLRKNIISKAKKLKSE;locus_tag=LOCUS_7890;note=WP_011391379.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:27.3%25%2C q_cov:71.5%25%2C s_cov:49.3%25%2C Eval:3.7e-08%2C partial hit],MGA_836
sequence39	MetaGeneAnnotator	CDS	4948	5580	.	-	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSLNSYTKINQLLEFSKRIKSKNKKMPKIIIIFNDKIFNEKKFINLKIPMNSAFILRSYEIENRKKIAKDLLKFCKMKKLKLLIGSDIKLAKNIDADGVHFPEYMVKNNKIDWKLIEKIKLKKNLLITTAAHNLESLKKAEFFDIDAALLSPIFKSKSHPGKKNLGIYNFKKIINETNIPIYALGGINIKNVKFLVETDIIGYAFQRGI;locus_tag=LOCUS_7900;note=O67378 putative thiamine-phosphate synthase 2 (Aquifex aeolicus VF5) [pid:33.8%25%2C q_cov:71.0%25%2C s_cov:77.4%25%2C Eval:3.5e-16%2C partial hit],MGA_837
sequence39	MetaGeneAnnotator	CDS	5529	6290	.	+	0	ID=MGA_838;product=YggS family pyridoxal phosphate enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391381.1;translation=MKIQEVDLFLYMNLKIAFIIIVIKKMENQKVFKNINLIKEKINNKTDESVNKEKKIKIIAISKRQPIERIINALDNGHKIFGENQVQESIKKWPDLKKKYKNIELHLVGSLQSNKAKEAISLFDVIQTVDREKIAKTLKKEEENLQKKISYMIQINTGEESQKSGILPNDADNFFKYCKEDLKLNIIGLMCIPPFNEDSTIHFAFLKKKNLEYKLPYLSMGMSDDYEKAVTFGATHIRIGTAIFGKRPDKKLK;locus_tag=LOCUS_7910;note=WP_011391381.1 YggS family pyridoxal phosphate enzyme (Rhodospirillum rubrum ATCC 11170) [pid:51.0%25%2C q_cov:75.9%25%2C s_cov:79.3%25%2C Eval:1.3e-53],MGA_838
sequence39	MetaGeneAnnotator	CDS	6282	6629	.	-	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDEYQGTFYGAYVFNDWMSFSGRLNGKWRRKISGAHANHINMLMSPVFSKDQGHRKINFLAGINFIIPKGDLKGQRLALEYSTPIYQYYDGLQMKSDQMVIFGWQYAFDFKELF;locus_tag=LOCUS_7920;note=MGA_839
sequence39	MetaGeneAnnotator	CDS	6678	7322	.	-	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKLLFLYFLLFPFIVLSEGIGGSPDGHAPIGLMGDHVHKKGELMFSYRYMRMEMSDLRDASHDISRTNAVSSTGSYKFMNAPVKMHSNMHMFGGMYGVSNRFTGMIMVPYLNKKMKVRQRAGDMNRFTVASRGLGDIKITGLYSLKDNDNAKWLLNFGLSLPTGETNVKDVMVMMSGMPMHSTLGYGMQLGSGTYDPILKLGYMKKWNKISIG;locus_tag=LOCUS_7930;note=WP_011117866.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:35.5%25%2C q_cov:86.9%25%2C s_cov:54.2%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [6678:6680](-),MGA_840
sequence39	MetaGeneAnnotator	CDS	7369	7710	.	-	0	ID=MGA_841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTIFIRFLLLLFIIGINTPFNSLLIDNLNKKSVTYAYLCEFDDSSNSKKNTVSKNCFSCILKNGDNDKKIVLQSFGNFCKNFYAFINFSNKKSLYSYSKIIFQSPRSPPLIS;locus_tag=LOCUS_7940;note=MGA_841
sequence39	MetaGeneAnnotator	CDS	7765	10155	.	+	0	ID=MGA_842;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005787020.1;translation=MRMIIILNINDENGSHLYINFFEFLEMMNKKKLLASTFITLLALTNFTNAADVYAPAVTVTGGQDESDSLSGSGTFIDSETIKSNNYDNIDQVLKTIPGVYSREENGYGIFPNISLRGVDPGRSQKITIMEDGVLSQPAPYTDFSAYFNPTTANKSGIEVLMGSSQVLYGPRTTGGVLNYLTTPIPTKRKFHLKTTYGSYLGVLGSRGFSGTDNMQYGDVRTHAFYGDTFDTNIGNVGVLLEMYGRGDGGFRNWKEVEKGQSGFHKYEPMIKLSYNPNFDPFGADLKHSFELKAQHVRMVGDLGYAGVSKYDINHKDPWKAYGYTQEDRIWTHRSGGHFKYNVEIPNFYDTTITTTAYASKFHRDWAKAAEYHSDVDQTDGGTKFYKADTVAELELIDTGGGDGITVEVKHNNRDYRTRGIEQRFNSAFTTDVGGKNLDHTLTYGWRWHYDSYYDMSFYDYYNLKNTRMTLTSSTLKEAASSKEYKTWGRALYIQDSIEFNNLTVTPGFRYEKVDAKRVRSGTSGLLTQDVEGYSGGVGFNYKQSSNLSFFGSVHQGSSFPKGQDIFATADGDTENMDPETSFAKELGFRYKNPAKSFNSKVALFHTDFEDLIVSSNTGAGSAVTQNAGEVELYGAEVSAAYDVGHARGWSFNNPWKLAYTYTSAEFGNDSKNSGGDTIYGDAKKGNDLPFISEHMISLGTDVINGPASFGVIGNWRSSQWSSGENVSAKADDTRIGKIPARFIWDFKGSYKLNNNMRYDFGVHNVLNAKYITTYLPLGPRPGAPLQAYFGLTLDY;locus_tag=LOCUS_7950;note=WP_005787020.1 TonB-dependent receptor (Bacteroides fragilis YCH46) [pid:28.1%25%2C q_cov:93.6%25%2C s_cov:95.3%25%2C Eval:2.2e-68],MGA_842
sequence40	MetaGeneAnnotator	CDS	952	1872	.	-	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870326.1;translation=MKKIFICEYVTGGGYINNKVPKELFLQARMIVKSLLMDFNKIDNLKIIYAWDYRFKKKIKKIKNTECIIIKEKPFSLWKKIINSVNFYLPIAPETNSQLINLIKLNTKKKKTLSNSIDAIKKTSSKFKTYNFFKKNSIPTIKTFNNLKKLNFKKNNQWIIKPDDGAGSEKNLIIDNKNFKKFTNYKKKYIVQPFIKAENYSVNILPSYNEKIINFNKQRIFCKNKKIIFAGTKFIKKIPFEKEIKKNIDIIIKNLPGLKSFFGIDLIITKKKFFFIEINPRITTSYKNMEKNLKINIAKKILKNYN;locus_tag=LOCUS_7960;note=WP_010870326.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:25.6%25%2C q_cov:92.2%25%2C s_cov:82.8%25%2C Eval:5.3e-10],MGA_845
sequence40	MetaGeneAnnotator	CDS	1874	2557	.	+	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870208.1;translation=MELIPAIDVLNNIVVKAVAGKRKKYKPIISEITHSFYLNDIILSLLKEYNFKSIYIADLNAIMGNGDNYKIINKAIEQFPNISFWVDYGIKSLNDYKKFDDKKFKIIIGSETINSVNELKLINKKKRNEFILSLDFKDSLFLGPNNLLKKKELWPKNIIYMFLDKVGKKNILNKFDIGIFNFDKKNNFYLAGGISNNKDIDFLENLGFKGILIASAIHERLINYKKL;locus_tag=LOCUS_7970;note=WP_010870208.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:33.6%25%2C q_cov:100.0%25%2C s_cov:97.3%25%2C Eval:4.9e-22],MGA_846
sequence40	MetaGeneAnnotator	CDS	2613	3164	.	-	0	ID=MGA_847;product=formaldehyde-activating enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532036.1;translation=MFFKNLFKLGGIMAKINKVLVGESLVGDGNEVAHIDLIIGPRGSAAESAFCNTLTNNKDGFTSLLAVVAPNLPCKPNTVMFNKVTIKGAKQAVQMFGPAQAAVARAVADSVEDGTIPSGEADDVFVSVGVFIHWDAKSDQKIYDYNYQAVKESLERAIKGEPKAKEVVSQKSSAEHPFGNVKV;locus_tag=LOCUS_7980;note=WP_013532036.1 formaldehyde-activating enzyme (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:74.1%25%2C q_cov:90.7%25%2C s_cov:98.8%25%2C Eval:2.7e-69],MGA_847
sequence40	MetaGeneAnnotator	CDS	3223	4083	.	-	0	ID=MGA_848;product=triphosphoribosyl-dephospho-CoA synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532035.1;translation=MNNLEIKKLLKKQIKFACDIEMKSLKPGNVHKFSKSFDMNTKDFLKSSLIISRSLTKKKFNLGKKIFFSAKEVKNKIKKNTNLGIILMLAPIITVIEKEGLISKKKIITKIKSLIKKQDINNSIDIYRAISLIAPGGLGHSKKYDVNELPKIKLYKAMKFAKNKDLISKQYYNGYKDIINTGIPTYKKFYKKWGKIEWALTAVYLNFLKKYNDSHIIRKNGIKTAKKVRNEAKNYYNLLKSNNKLTKIKKKLLFFDKKLKSKHINPGTMADLSVATLFLELVTKKQ;locus_tag=LOCUS_7990;note=WP_013532035.1 triphosphoribosyl-dephospho-CoA synthase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:33.3%25%2C q_cov:94.4%25%2C s_cov:92.7%25%2C Eval:8.3e-39],MGA_848
sequence40	MetaGeneAnnotator	CDS	4080	4973	.	-	0	ID=MGA_849;product=lysine biosynthesis protein LysX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532034.1;translation=MKKNKHVVIFSDSHDWHSNQLKKELKKLKCKVSCLSLNDCFIDTKYKNNIFIPGFKNYLPHGCFIRTIGKGTFQQITRRLTILHILKKLKVVLFNDINCIEKSTDKSMTTFLLSNKKINTPDTWVPENLKIAKKILKNLIKKKKKIFWKHLFGSQGKDLEIIKNKSLSAKKEQVYYLQKYEDIKIKSKKEWQDYRILVCNNKIIASMIRKNKKSITNIGQGGKPFNLKIDKDIKEISIKASKIVSANYAGIDLIRNKNKKLKVLEINSIPAWRALQKVTKKNIAYILAKAFISKINK;locus_tag=LOCUS_8000;note=WP_013532034.1 lysine biosynthesis protein LysX (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:33.0%25%2C q_cov:96.3%25%2C s_cov:91.1%25%2C Eval:6.3e-37],MGA_849
sequence40	MetaGeneAnnotator	CDS	4960	5925	.	-	0	ID=MGA_850;product=methenyltetrahydromethanopterin cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TE77;translation=MNSNLSVSNLVKELVNKLINNSKEFNVLIKKGPSNCTIIDAGIEIKGSKEAGKLIAEICMGGLGNINLEKTKTFSKWPLETKVSTSHPVISCLASQYAGWNLSYKDFYALASGPGRAIARREDLFKELNYKDQCEFIYLVMEVDKIPPKEIIEKISNDCKTNAKNIILILTPTTSISGIIQIVSRVSEVGLHKLHTLKFPLENVIEVCGSAPIPPISKDFITSMGRTNDAILYGGNVELKVKGTDEQIQNLAKNLPSTSSKDYGKPFAEIFKNYKGDFYAIDPNLFSPGKIIITSIDTGKIFEEGKLNNDLINKSFSYEKK;locus_tag=LOCUS_8010;gene=mch;EC_number=3.5.4.27;note=E8TE77 methenyltetrahydromethanopterin cyclohydrolase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:45.7%25%2C q_cov:94.7%25%2C s_cov:95.6%25%2C Eval:6.8e-80],MGA_850
sequence40	MetaGeneAnnotator	CDS	5941	6849	.	-	0	ID=MGA_851;product=methylenetetrahydromethanopterin dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532031.1;translation=MKKEKTFILHALSPTKIVSPFDINMAYDAGFDNVATYTNITIEDISDLVQDIVFSRHPNDCKKTGLFIAGEDAEEAIEMLETAKKAMVPPFEISVFADPAGSFTTAAAMIASVKNALLNEFKTDLKNKKIQIVGAKGIVGGACAVIAAQEGAKVGMIIHRDGAVDPINKRVNEYKKKYNVNLEAIMGITDEEKIKMSEDADIILCAAAAGKEALLLKHFKNAKNLKVVSDVNAVPPSGIEGLEVNSNGDKIKNTNVLGIGALAVGQIKAQVQHKLLKLMCSTDKPVFLDFREAYKIAQEIKK;locus_tag=LOCUS_8020;note=WP_013532031.1 methylenetetrahydromethanopterin dehydrogenase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:44.7%25%2C q_cov:97.7%25%2C s_cov:98.3%25%2C Eval:2.5e-65],MGA_851
sequence40	MetaGeneAnnotator	CDS	6849	7796	.	-	0	ID=MGA_852;product=beta-ribofuranosylaminobenzene 5'-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532030.1;translation=MIKEKKSLQIISFARLHFGFLDLNKKNKESFGGLGLTINKFKTVIDIKNYHKLHIKGYETKRASIFIKKFCKKVKIKPNFYINIKQVTPQHIGLGSGTQLALAIGTGISKLKNLKINTLEIARKMGRGNRSLIGIKSFIKGGFIIDKKQDTKKKFLYQNIKFPKEWKILLIQYKGRGLFGIKEKKSFQKLLKSNQKKTINNKIISNIYNSLEKKKFNIFSKSITKVQNYMSNFFYSEQGGEYSNKIISKILFSLKKEKILGYGQTSWGPTGFAFFCNYENAKKIKYKFEKKFDDCNDIKFIICSGRNIGANTLLK;locus_tag=LOCUS_8030;note=WP_013532030.1 beta-ribofuranosylaminobenzene 5'-phosphate synthase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:31.7%25%2C q_cov:94.3%25%2C s_cov:93.2%25%2C Eval:1.8e-37],MGA_852
sequence40	MetaGeneAnnotator	CDS	7888	8265	.	+	0	ID=MGA_853;product=4a-hydroxytetrahydrobiopterin dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TE73;translation=MSKNDKVYSQVEIKDRLKKELPLWILENNWIKRKYKTQNWKSTLMVINTVGHLAEAAWHHPDITASYAWVEVRLTNHAAKGVTDKDFELAKKIENTIQWDPSKEKGSLEGTPKEDQRFSYIKYDK;locus_tag=LOCUS_8040;EC_number=4.2.1.96;note=E8TE73 4a-hydroxytetrahydrobiopterin dehydratase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:80.0%25%2C q_cov:96.0%25%2C s_cov:95.2%25%2C Eval:1.9e-55],MGA_853
sequence40	MetaGeneAnnotator	CDS	8282	9520	.	+	0	ID=MGA_854;product=formylmethanofuran dehydrogenase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020878.1;translation=MKNINFTCPFCSLLCDDVQLEIKKNNFKPINSGCSLLINSLKKKISDQFSRVYGKKTNISEAITELSLLIKKSKSTLFAGMGTDIKGTKAALTIIDKYKCIVDHFSGDSYSKNLKSMQETGGFFLTLSELKNRADTVIIFQSSGEELPRLFEKYIFPKKTINNLKKRKVIFIGTKAPQFFYKNKKRINFEFIKLDSINLLNFISTIRKSINFETKDEKDKRILYLLDILKKTNYGSILWNASELQNDISDVIINEINLLIQDLNKFTRFSGLSLSASDHILTVNEVLLWQTGFPIRTSFANGFPVHDIDQFSTKKLIDNKEIDLVVWINSFNEKNIIINKKIKNVLIGIPSHPQKNNVDIFIPVGTPGLDHNSHLLRVDKVVSMPLKKIRNISLPSVDQILDKVKEGVTDDN;locus_tag=LOCUS_8050;note=WP_011020878.1 formylmethanofuran dehydrogenase subunit B (Methanosarcina acetivorans C2A) [pid:20.6%25%2C q_cov:95.6%25%2C s_cov:94.9%25%2C Eval:1.1e-16],MGA_854
sequence41	MetaGeneAnnotator	misc_feature	1	514	.	+	.	ID=MGA_856;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to P55474:nodulation protein NolNO,P55474 nodulation protein NolNO (Sinorhizobium fredii NGR234) [pid:55.0%25%2C q_cov:98.8%25%2C s_cov:25.1%25%2C Eval:6.0e-46%2C partial hit],MGA_856;locus_tag=LOCUS_8060
sequence41	MetaGeneAnnotator	CDS	511	1329	.	+	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFLKNILYSRSNYKFFIKNYTAISDLKNISYSSKSMRHFQFITPIEWKKSINDNVIIFSPHADDEIIGMGGSIIKLFKDKSKIHCIYFSSSGVRSRECQLISKKLNFKKTELKFKENNFYITKNNLNKIAEIINNHKTKKIFIPFLFDDHDDHRKVNEILMELIKKKLIKNNLEIWAYQIYSFFPSNVYIDITNNIKEKIFYLRKYKSQLKKKNFDHLTLAMNAFNSRILNTNKKKYLENFFVIPSKDYFALCKKYFKNPKDCYYNKNYI;locus_tag=LOCUS_8070;note=P42981 N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1 (Bacillus subtilis subsp. subtilis str. 168) [pid:26.4%25%2C q_cov:58.1%25%2C s_cov:75.4%25%2C Eval:5.4e-08%2C partial hit],MGA_857
sequence41	MetaGeneAnnotator	CDS	1385	2095	.	+	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIYLQNRYNDPKDVFKMIYKIINNYNKDKNLKIIDFGGAEGAFAYFVLNKQPNYEITNLEYDKKLLALSKKNVPLCNSVIGDINSCPKIKNNSFDIVTCIGVISIFDDFRPSLNEMLRVVKKGGLIIINNMWNSYPIDLLIKVRHAKNGSQIKFNNWESGWNMISIKTISEFLKNKKKVKNFTFKKVIMKKNLLKNKNNLLRSWTNKYKNGERYHFNGIGRLLDKRLLIIQINK;locus_tag=LOCUS_8080;note=MGA_858
sequence41	MetaGeneAnnotator	CDS	2100	2915	.	+	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNLITNYKRDGYIELKNVFTKEDAHNFAVSIIHLINAQKCKGFSIPKNVERKSLSFLKSKINEGLVLLENKDHIFIKKVYDSIRNAPIIDNLTLKPKLIKTIKTLMNLNNTSPLYVTQKACRIDIPNNETFSLDWHQEAPYTIKETELVQLWAPILDDVKKINGALKVLHKSHSAGVVETDDRIPSVGHAQYVPKQKYISKFSEITVEMDYGNVLLFPKTLIHKSGENISDSPRLTLIAHYHNPLAKNFFKNFSNDVEPQAKNSYKNAS;locus_tag=LOCUS_8090;note=MGA_859
sequence41	MetaGeneAnnotator	CDS	2919	3641	.	+	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIEENKALQCSYNFWQVHNTEKGYPEHYPDEEVVRFLMRLKGNAKKNKKKLKSIKILDLASGCGKNSIPIAELGFNLFCLDYSKPGLNYTKKRLKKINLNANFSCTDFIKNKLPFADNFFDAIISIQVFDHIFLNSTSKLLEETSRVLKKKGKMITSLMSKKTTKISRIGIPVKNNKDSYIVSAGNSAGEIHSFFNEKKMNLFLKKEYTIDNSFLSKKVFDKSKEVEECKYFSLSKKS;locus_tag=LOCUS_8100;note=MGA_860
sequence41	MetaGeneAnnotator	CDS	3709	4689	.	+	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFYISFLFLIFVFSKSIASEFLDLEDNFFPEGIAVSKNGDLYIGSLKENKIVKFKNKEKTSEVFVSSNSNNLNSVIGIIVDDRNKILWACSSNPGVSNYPSDKIVSLKAFDLNSGDHLQTYEFPNGGFCNDITLDSNGNVYATDSFNPRILRLNKSQGRLETWFENDLFKGEGFNLNGITYIDNKIYTVKMNSGELFSIEIEKNGKPTNFKKINLPRSLNAPDGIEVIDKNNLLVVENRAEGTWNGSLTKITLSTPIQMEVLKDNLDTPTTAAIKGKTAWVLEAQFAHLFGDEKDVQPGEFRIIGIEYKPSILTSIKNLLNFLK;locus_tag=LOCUS_8110;note=MGA_861
sequence41	MetaGeneAnnotator	CDS	4841	6262	.	-	0	ID=MGA_862;product=pyruvate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RRI0;translation=MKRIRKAKIIATLGPSSSDFKTIKKFYNAGADVFRLNFSHDVASTHVERFKQIRNLEKKINRPIGILMDLQGPKLRVGKFDNGPIFLKQGRKFVFDLDPKPGNKYRAYLPHKDIFKKIKKGNRILVDDGKLTLIVTYKNSHHIETKVKFSGFISSNKGFNIPNVLSNTGKLTIKDKEDLKLALKLGVDWIALSFVESAKDVLNFKKIIKNKASVLTKLEKPSALKNLHEIINVSDAIMIARGDLGIEAPLEALPSEQKRIINACRQAGKPVVVATQMLDSMVNYPTPTRAEASDVATAIYDGTDAVMLSAETAIGLYPCESIKMMDKIIDKVEKDPIYVNINEVSHVKAESTAEDAITESAKYVARIMSAKAIVSYTTSGSTALRAARERPGVPIVGISPNLDTARKLALVWGVHCIHTEDARSFKDMVLKAGRLAKKEKFAKRGDRVVITAGVPFGQSGATNVLRIASVDRY;locus_tag=LOCUS_8120;EC_number=2.7.1.40;note=Q2RRI0 pyruvate kinase (Rhodospirillum rubrum ATCC 11170) [pid:53.1%25%2C q_cov:99.6%25%2C s_cov:98.5%25%2C Eval:2.8e-134],MGA_862
sequence41	MetaGeneAnnotator	CDS	6447	7574	.	+	0	ID=MGA_863;product=putative glutamate--cysteine ligase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RRI3;translation=MNNNFFSVGLEEEYLVVNKYNGELIVEPPKGLLRDCKKKLGNQVKPEFLKSQIEVGTKVCKSIKDLKDNLIFLRKNVAKILDKYDLSFIAVSTHPFSGWEQQKHTEKRRYFNLADKFQIIGRRLVISGMHIHVGIPDNELRIDLMNQISYFLPHLLALSTSSPFWKGELTGLKSYRVSIFDELPRTGLPEYFDSYDEYKRHIKILLNSGLLDDSSTIWWDLRPNVKFPTLEMRICDTCTSLNDAISIAALYLSIIHMACRLRRENKKWRVYSKMLISENRWRAQRYGIEKGLVDFGKSKLVSYDKLIDELIELVKEDAKELNCENELKKIKGICKSGTSADKQVKIFKEEMKKTNNKRISLDKVTKFLMKETMNF;locus_tag=LOCUS_8130;EC_number=6.3.2.2;note=Q2RRI3 putative glutamate--cysteine ligase 2 (Rhodospirillum rubrum ATCC 11170) [pid:49.1%25%2C q_cov:99.5%25%2C s_cov:96.9%25%2C Eval:1.7e-104],MGA_863
sequence41	MetaGeneAnnotator	CDS	7581	7841	.	+	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKEKIEIESAVYRKLIRHLRKKTNVQNIDLMNLADFCRNCLSKWYMESAKKKNIKIDYEEAKKIIYGMPYDVWKKKYQKPLQKK;locus_tag=LOCUS_8140;note=WP_012709340.1 hypothetical protein (Sinorhizobium fredii NGR234) [pid:53.3%25%2C q_cov:87.2%25%2C s_cov:74.3%25%2C Eval:3.9e-21%2C partial hit],MGA_864
sequence41	MetaGeneAnnotator	CDS	7857	8825	.	+	0	ID=MGA_865;product=NAD-dependent epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957843.1;translation=MKILITGAAGFIGFHLCKKLLSRNYQVFGIDNLNNYYDIKLKKDRLNLLLKNKKFKFKKIDISNENFVKKIYPFVNKYKIIIHLAAQAGVRYSITHPYKYIESNVKSQISILELAKKIKNFQHLVYASSSSVYGFNKKTPFSIVDRVDDPASLYGATKRSGELISQSYSKMFKIKCTGLRFFSVYGPWGRPDMAAYIFTKNLFEKKTLDLFNHGRMERDFTFIDDIIDGIIPVINLKNNKLHSVYNLGNNKPEPLTKLVNFLELYSGKKAKIKKSRMQLGDVRHTYANIKESKKDLKFKPKINLKDGLKKFVDWYREYHKIN;locus_tag=LOCUS_8150;EC_number=5.1.3.7;note=WP_010957843.1 NAD-dependent epimerase (Coxiella burnetii RSA 493) [pid:42.5%25%2C q_cov:98.8%25%2C s_cov:97.9%25%2C Eval:7.1e-77],MGA_865
sequence41	MetaGeneAnnotator	misc_feature	8822	9766	.	-	.	ID=MGA_866;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010932828.1:AMP-dependent synthetase,WP_010932828.1 AMP-dependent synthetase (Chlorobium tepidum TLS) [pid:38.2%25%2C q_cov:99.7%25%2C s_cov:50.8%25%2C Eval:4.1e-58%2C partial hit],MGA_866;locus_tag=LOCUS_8160
sequence42	MetaGeneAnnotator	CDS	428	1051	.	-	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFILLITNLPLVFLIIYLTSFLLIKKKKLLHKILILNTIGLIFFSLPISSIILETVFYPKKNIYENNEKKYSIILVPTAGILFNEEKKIIEPTINSINRIKKTIKYTEKLNLPIVISGGKTIKGYKSEARIVYENLNLKYLVNKKIILEENSINSYETSKNIKKFLNQNNLNKNVILITDLYHFKRMSKSLKKNNINTFIPENIF;locus_tag=LOCUS_8170;note=MGA_868
sequence42	MetaGeneAnnotator	CDS	1063	1431	.	-	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFLTLIYIYLILIFNLNADTIAVKCYVDEDKSYSFILDQNEKSVSWVEENNKNLSVIVFPDVNKGGYLLIMGGANSKNEKFTFIIDVVKSTFSATTNLGNSDKGNSGNKAIIEPLDPYAE;locus_tag=LOCUS_8180;note=MGA_869
sequence42	MetaGeneAnnotator	CDS	1497	2141	.	+	0	ID=MGA_870;product=pyridoxine/pyridoxamine 5'-phosphate oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F6Y3;translation=MVKKTHISQIRFKYKSDPLDIKNININPFKQFEIWLNQAIKNKVFEPTAMAISTIKNNKLSNRIVLLKGIEKNHFVFYTNLNSRKSNDLKRNNNIAAVFWWPQIGKQVRIEGKVTFVNTEDASNYFATRSRKSQIGAWASSQSKLLKNRNILIKRFKIIEKRFANKDVPRPSFWSGYKIKPYLIEFWQGRENRLHDRIVYKNIKKKWKIYRLNP;locus_tag=LOCUS_8190;gene=pdxH;EC_number=1.4.3.5;note=Q8F6Y3 pyridoxine/pyridoxamine 5'-phosphate oxidase (Leptospira interrogans serovar Lai str. 56601) [pid:44.3%25%2C q_cov:97.2%25%2C s_cov:98.1%25%2C Eval:1.9e-46],MGA_870
sequence42	MetaGeneAnnotator	CDS	2114	2560	.	+	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLQIKSLIILLIISFFISNCSTQIRTSEYNSPKVENKDFDEKSNVISEFTDIPIPSNSIVDLEKSFILGKGNNWMGRLALINKKNIDELYDFFINEMKKFSYKEKSSIRSNENILIFENKIKTVFIKISELKFKKSYIEITSTPVN;locus_tag=LOCUS_8200;note=MGA_871
sequence42	MetaGeneAnnotator	CDS	2565	3143	.	+	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKYIFLLLFFLIFIQFNAFSLDEKLKNKKTFDKSEMVDKAKIYFADLSEGIGIIIERSFNDFGQPTAYIEGEEFSGAFFGGLRYGGGKIYFKDGTNKDIYWNGPSIGFDLGANASKVFTLIYNLDLANINNIFVRFPDIEGSFFLAAGLAINYQKKDDIIITPVRSGIGLRAGVNLGYTKYSKKRSIIPF;locus_tag=LOCUS_8210;note=WP_024265661.1 hypothetical protein (Caulobacter crescentus NA1000) [pid:45.7%25%2C q_cov:84.4%25%2C s_cov:67.2%25%2C Eval:3.9e-37%2C partial hit],MGA_872
sequence42	MetaGeneAnnotator	CDS	3145	3786	.	+	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMISNIFKKLSNNFFKGILISAPVIITLYIAWALIKFFDNKASPLLGKFPYEIPGFGLITVFIFFAFIGFLTTGLFGRLFSSFSEKILSKMPILRNIYSGLKQLFEAILSKKSNSFQEVILIEYPRKGIWAMGFLTGNTRGEVNRRTSSSMVNVFLPTTPNPTSGFLLFLPKKDIIRLSMSVEDGIKMIISAGMLTPKEKQKKIKSLKKLEK;locus_tag=LOCUS_8220;note=WP_011389482.1 membrane protein (Rhodospirillum rubrum ATCC 11170) [pid:48.4%25%2C q_cov:88.7%25%2C s_cov:74.4%25%2C Eval:4.7e-53%2C partial hit],MGA_873
sequence42	MetaGeneAnnotator	CDS	3790	5871	.	-	0	ID=MGA_874;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MCG1;translation=MSEISKTQLFEPMDNLKGIGPKTLNLFQKICGDKIIDLLLTMPKSFKKREHIKELTNKDLDKEIAIEVNIVKHLPRFNPKMPYKILCKNTLNEIEIIFFRGYLKYLQKILPVGENKIICGKINKNGKKFQIIHPENISNLEELPYLHGMLSVYSLTGGLTMTMYRKSIKQALEKIIDIPEWIDKKKLQENNWLSWRESVEQIHRPNNLNNEKITKLRDRLAYDEALSHYIKLLVTKEKLKKNICNKIEKNDEIKNKIIKKLPFQLTTSQLNVINEIEKDLNNINPMLRLLQGDVGSGKTIVALISLINLSKKNMQGALMVPTEILAIQHYNYFAKLLINTDIKIKLLTSKIKKKEKEKIYREIQNGKINIIIGTHAIFQKNVNFKNLTYVIIDEQHRFGVHQKFQLSAKGCNPHILVMTATPIPRTLALTMYGNMNLSKINEMPSNRKKIETIAISSSETSKIYKTLNVNIKKNLNAFWICPLIDESEKNDLMAATKRFEKLKKKFDGKVGLIHGKMSIEEKEKIIKKFKSKEILILVSTTIVEVGIDIPNATIMIIEESNRFGLSQLHQLRGRVGRSDKDSLCILIYNKKKLNELSQKRIKTLIKNSNGFKIAEEDLKLRGFGEILGTKQSGNQLFKILDPMSDTELMENALESAKSIFLNRKKFNKFEREKINNYLRIYNQSSSLKYISIA;locus_tag=LOCUS_8230;gene=recG;EC_number=3.6.4.12;note=C3MCG1 ATP-dependent DNA helicase RecG (Sinorhizobium fredii NGR234) [pid:37.5%25%2C q_cov:98.4%25%2C s_cov:90.3%25%2C Eval:3.6e-136],MGA_874
sequence42	MetaGeneAnnotator	CDS	5921	6208	.	+	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKEKKLELSIKRREVLFKCTHRGTKELDLLLGNYVKKYINLMKLKDLNDLDTILNFPDLYLFNVLTEKSKVNKKMNVKLVKKIIKFNKNFNNYN;locus_tag=LOCUS_8240;note=MGA_875
sequence42	MetaGeneAnnotator	CDS	6310	7437	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLKNIFNPDHIIKKKNNSLKKKDQSINEITNTLKPILKGNINLQNDLIDIIDIPFVVLNHKDEVVYVNYSAKKRFKLFSSQKITHFFRRPEFSEKIRLFKKKNVKSSEFQIELFSLPFSVMYNVKLYKISNKRIFLSFQDITELNKLENLRSDFIGNVSHELKTPLSVLLSVIELLLNQKKISVNERKQFLSILNNESLKMKSIIEDLLNLTKIESQIKKKVNEEVNLNEIIKSSIKSLGTKAKKNKIRIKFVSRKIFIIKGVIDQLNQLVQNILDNSIKYAFKNSLINIVLKTDKKYIFLIFQDQGKGIPQHIIPRLTERFYRTTEVKSKKIEGSGLGLAIVKYIVIRHQAKLKISSELNLGTKIEIKFSKK;locus_tag=LOCUS_8250;note=WP_011986853.1 PAS domain-containing sensor histidine kinase (Clostridium botulinum A str. ATCC 3502) [pid:38.2%25%2C q_cov:61.6%25%2C s_cov:40.2%25%2C Eval:1.9e-39%2C partial hit],MGA_876
sequence42	MetaGeneAnnotator	misc_feature	7442	9514	.	-	.	ID=MGA_877;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to A6U7M1:polyphosphate kinase,A6U7M1 polyphosphate kinase (Sinorhizobium medicae WSM419) [pid:44.0%25%2C q_cov:98.8%25%2C s_cov:93.9%25%2C Eval:5.9e-163],MGA_877;locus_tag=LOCUS_8260
sequence43	MetaGeneAnnotator	misc_feature	1	1049	.	+	.	ID=MGA_878;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to E8T9J2:histidinol-phosphate aminotransferase,E8T9J2 histidinol-phosphate aminotransferase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:45.1%25%2C q_cov:97.4%25%2C s_cov:91.6%25%2C Eval:6.2e-82],MGA_878;locus_tag=LOCUS_8270
sequence43	MetaGeneAnnotator	CDS	1069	1374	.	+	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFKQTTLIGIGLIGSSIARALKKKKLSKKINIFTRSIKTLNQAKKLKLGDFYTNKIEESVKNSDLIIICTPLSTYKNILNKILKYIDKDAILTDVGSVK;locus_tag=LOCUS_8280;note=WP_013529388.1 prephenate dehydrogenase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:38.4%25%2C q_cov:98.0%25%2C s_cov:32.2%25%2C Eval:7.9e-14%2C partial hit],internal stop codon at [1372:1374](+),MGA_879
sequence43	MetaGeneAnnotator	CDS	1591	1947	.	+	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVNDHDKILSLTSHMPHLISYSIVSSVLNVSTKEKSQIVKFSAGGFRDFTRIAASDATMWKDIFLDNKTNLLKITKQFEKSLNLIKKYIKENNSKKLYEIFLETKKIRKLIEKEKQD;locus_tag=LOCUS_8290;note=WP_010973185.1 cyclohexadienyl dehydrogenase (Agrobacterium fabrum str. C58) [pid:42.4%25%2C q_cov:100.0%25%2C s_cov:38.2%25%2C Eval:2.6e-25%2C partial hit],internal stop codon at [1372:1374](+),MGA_880
sequence43	MetaGeneAnnotator	CDS	1951	2634	.	-	0	ID=MGA_881;product=1-acyl-sn-glycerol-3-phosphate acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011084210.1;translation=MIIFFRSLIFNILFYIWTFFFGFFSFPVFFINRKYDVKIWFLWIKGSKYLLKKIIKLEYEIKGEKNICINKNAIYASQHQSAWDTIILPYLIGDCIILHKRSLLFIPVFGWHLFKLGMVIISRKKGANSLKKIINKTKFAMKDKRSVLIFPHGTRVKPQSKIKIQSGIITLYKHLDVKVIPIKVNSGYFWGKNKFIKYPGKIKIEFLKPIEPGLNPGFFRKKIQKLM;locus_tag=LOCUS_8300;gene=plsC;EC_number=2.3.1.51;note=WP_011084210.1 1-acyl-sn-glycerol-3-phosphate acyltransferase (Bradyrhizobium diazoefficiens USDA 110) [pid:33.6%25%2C q_cov:98.2%25%2C s_cov:86.4%25%2C Eval:9.5e-34],MGA_881
sequence43	MetaGeneAnnotator	CDS	2701	3351	.	+	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINCPKCKTKYSINQNILNKKVKCSECGYIWIEKKEKKILKEKKVNSTDRIINENFDYKENIFKKEKKKKNLTFYFILFLILILLIFFNFNFLKEKFDKYLSKFTIGQIFKEDNNQILQDLIFNQIEKEISVLNNNNKVVKISGKIINKSNTENYKLPLLKASLLDSKNNLLSSWEFTTKYKTIAPEETINFNTSYIENSENISDIKIEFLNYDN;locus_tag=LOCUS_8310;note=MGA_882
sequence43	MetaGeneAnnotator	CDS	3341	4396	.	+	0	ID=MGA_883;product=heptosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010921139.1;translation=MTINKLGKTAVISIYPGIGDIVWHLPFLRAIANNSYKKKIYLFTRKTTLAKEILKYDKNISKVFYLNDSRQFFNTVYYFPKIVSFLKKMDFKTIWIFHRSPRYAIAARLAKIKNIYGFGLGAQRIWLTTKKNIGINSKKKNNIFKAKKLLDIHNINSESNFKLKIPEPVIKKNLSKFKNLIKPWITIGFSCNKTAFLKNNLPYSFYRTWRPEYFSKLIDLIINKNKKKTIFLIGAKNEKNLAKKIVSKCKIKKNIIISCKPIIVNLSILSKTKCFIGNDSGPLNLAGAMGINSFGLFGASPPLKNVNNINAIVPPGGPVDPHKFGFNPISLEEGMDLIKPDYVYEKIKKFI;locus_tag=LOCUS_8320;note=WP_010921139.1 heptosyltransferase (Caulobacter crescentus NA1000) [pid:25.9%25%2C q_cov:81.2%25%2C s_cov:81.7%25%2C Eval:1.1e-20],MGA_883
sequence43	MetaGeneAnnotator	CDS	4389	5654	.	-	0	ID=MGA_884;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YL42;translation=MNSFKFKKNDLFIENISIKKLLNKFSTPFYCYSTNKLIENYKNFEKYFKNLDPIICYAVKANPNIALLKILSKCGCGAEVVSEGELKRSIKANINPKKIIFSGVGKTYKELEFAINKNILQINVESFEEINLIEKISKKLKKKVQIGIRVNPNIDAKTHKKITTGRDEDKFGIDIKTTEKIIKKYQNNNNIKLFGLSIHIGSQITSLTPYKKAFLIIKNLIKKINKKKKIIKYLDLGGGIGINYNNEKVINFNKYSKIITEIIKDIDCKLILEPGRIIVADTGILVSKVLYIKENKKNTFIIIDAGMNDFMRPALYNANHNVQCTTKKKGPKKLYTIAGPICETADTFQKKKLLNKINNNDFLFFNNVGAYGASMSSSYNTRPIIMELIVNKKKYSIIRKKEIVENQISKEKIPSWIKNIK;locus_tag=LOCUS_8330;gene=lysA;EC_number=4.1.1.20;note=B5YL42 diaminopimelate decarboxylase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:42.0%25%2C q_cov:98.3%25%2C s_cov:99.0%25%2C Eval:1.0e-92],MGA_884
sequence43	MetaGeneAnnotator	CDS	5782	7179	.	-	0	ID=MGA_885;product=argininosuccinate lyase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8U9X6;translation=MKKNKKKSNPIWGTNFNKQSDPLLEEINSSIDFDKRLAMQDIKSSKVHCLMLKKQKIITTSDYKSIIKGLEKIKKMIEKNKFIFKKKYEDIHMNIEMELHKIIGNVAGKLHTARSRNDQVVTDFKLWIIEAIKKINVEIKNLQKILIKKASLNVKTIMPGFTHLQSAQIISFAHYLMAYYEMLKRDKDRFTKSIDRINECPLGSAALAGTSFNIDRNFTSKLLGFKKPTMNSMDSVSDRDFALEFLSNATICASHLSRLAEDIVIWSSDNFNFINLSDDFSTGSSIMPQKKNPDSAELIRGKMGKFSANFLNLITTLKALPLTYSKDLQEDKEPVFDSFDNLNLIIKVTSGIMKNMKINKNIMLNACKKGNLMATDLADWLVMNHNISFREAYKIIAKIVGLANKKNCQINDLTINELNLINKNSGEKIKKFLNIENSIFYKKSMGSTSPNEIKKAIKIAKKEIY;locus_tag=LOCUS_8340;gene=argH1;EC_number=4.3.2.1;note=Q8U9X6 argininosuccinate lyase 1 (Agrobacterium fabrum str. C58) [pid:50.0%25%2C q_cov:96.3%25%2C s_cov:96.1%25%2C Eval:2.2e-123],MGA_885
sequence44	MetaGeneAnnotator	CDS	214	1005	.	+	0	ID=MGA_888;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011087529.1;translation=MSKVRIASWNVNSIRARFDVLSKWLKKKQYEIIFIQETKVQDHEFPIDDIKNIGYEVIFSGQKSYNGVAILSKEKIKLIDKTLPGEKSDEQARFITSKINGIELICIYLPNGNPIDTDKFPYKLKWMERLTNYIKKNLDENKKFILAGDFNVIPKEIDVHNPESWTNDALFHEDTLKRFWSMMNLGLTDAYRAINGEKVEYTFFDYKRKTNFENNKGLRIDHFLLPPSMVDKLDKCYIDSKLRGLEKPSDHVPIVCEFNYNIK;locus_tag=LOCUS_8350;note=WP_011087529.1 exodeoxyribonuclease III (Bradyrhizobium diazoefficiens USDA 110) [pid:50.2%25%2C q_cov:95.4%25%2C s_cov:93.0%25%2C Eval:9.8e-68],MGA_888
sequence44	MetaGeneAnnotator	CDS	1208	2929	.	-	0	ID=MGA_889;product=dihydroxy-acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TKA4;translation=MKTKYKKNNLVSRLVSKGPERAPHRSYYYAMGLKEKEINRPFVGVVSTWNEAAPCNISLMGQTKFVKKGVTEAGGTPREFTTITVTDGIAMGHPGMKSSLVSREVIADSVELTVRGHCYDAIVGVAGCDKSLPGLMMVMARLNLPSIFMYGGSILPGKFRGKQVTVQDIFEAVGEYASGKIKKSDLYALEKVACPSAGSCGGQFTANTMACVAEAIGLALPGTSAIPATFKEREITAKLAGKTIMQLIKNGPKPRDIITRKSLENATRIVAASGGSTNAALHLPAIAHEAGIKFDLFDVMKVFKTTPYIASMKPSGKYVAKDLYDIGGVPILMKALLDGGYLHKNCITVTGKTIAQNLKGVKFPKNQDVVMETKNPISESSGVVVLKGSLASQGAVVKIAGMDNLEFIGNARCFDCEEDAFKAVQKKKYKAGDVIVIRYEGPRGGPGMREMLSTTAAIYGQGMGDKVALITDGRFSGATRGFCVGHVGPEAAVGGTIALIKNGDKIHLDAKKGIINLLVNKKELAKRKKRWKARKNYFQSGSLWRYTKNVGDAYKGAVTHPGAKTETHTFSEI;locus_tag=LOCUS_8360;gene=ilvD;EC_number=4.2.1.9;note=E8TKA4 dihydroxy-acid dehydratase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:66.0%25%2C q_cov:99.0%25%2C s_cov:98.8%25%2C Eval:6.9e-223],MGA_889
sequence44	MetaGeneAnnotator	CDS	2930	5560	.	-	0	ID=MGA_890;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RTE9;translation=MLDKTFDPKKIDNKNYNLEEKMGIFSPDINSTKKNFCIMMPPPNVTGVLHMGHALNFTLQDVIVRYKRLNNFSVLWQPGTDHAGIATQIVVEKELEKKNKNRFSIGKENFIKKVWEWKNKSGNQIVSQMRQLGVSADWTRERFTMDEGLSNVVKKVFIDLFEKKMIFKEKRLINWDIKLQTAVSDLEVENKDIDGFLYFLKYPLKKNKNCFITIATTRPETMLGDTAVAVHPEDKRFNKFHGDKIILPILNKEIPLILDEHADPEKGSGAVKITPAHDFNDFEVGLRHKLKSINIFTKEGNLNDSVPKDYQGLNRLKAREKIIEDFKKFGLYEKKEKHKYTIPFGDRSGEILEPFLTDQWFVDAKKLSKDAIKVVKEKKISFLPKSWEKTYFDWLENIQPWCISRQIWWGHKIPVWYGPDKHAFAAMDENDALTKAKKFYKKKVKLIQDQDVLDTWFSSSLWPFSTLGWPNETKEFNNFYPTNLLITGFDIIFFWVARMIMMGLFFTNKPPFKEVYIHALIRDEKGQKMSKSKGNVIDPLDLTNKYGTDALRFTLSSLASPGRDIKLSEQKVQSSRNFATKIWNASRYILLNECKINKSFKPEKVNNVVNKWIINSLIKLKNNISIEIEQYKFNEASNNIYKFIWGTFCDWYLEFTKPILNSDDKKLIDETKNTIIWTLDNILILIYPFMPFLSRELRSQIYNNEKLDYKWPEFNNISSSNEAKKEIDWIVELISQIRTVRTSVRIPAKAILILSFKDLKKDKELILNKYSSFLLRMARVEIKELKSKNILQFICDKTTFFLDVSDIIDLKDEEKRILEQIEKIKMEINKINKMLENNDFIKNAPSNVVKKQKDIFLNYKKTLTKLEEAKKNISTN;locus_tag=LOCUS_8370;gene=valS;EC_number=6.1.1.9;note=Q2RTE9 valine--tRNA ligase (Rhodospirillum rubrum ATCC 11170) [pid:49.0%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:3.1e-257],MGA_890
sequence44	MetaGeneAnnotator	CDS	5595	7235	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLFFFIFLFSLIPFKKDNFLSFLKNNDVAKYGYIRLNLNNIPTKRNFTIKEIDLAKLNIRYRPIKQPVLISVINDSKIKKINEKEQIVSNKEQIAFNKDNNFQKKNLILKSEKKEFKKDYDDFINVNSDPENDLINDEINIFEVIGKALNYNPKIKMQISAVEASKEDLKQIYASIYPTIDLSLSKGYVKDDSSGSTTNSNSERSPQDFSINLEQELYTGGKLSAELLKAKKKLNLEEENLRLVKYDIMLQAAFAYLEVLQNKKLIELNNLKENKLTNDLKSVELLVNVGSASQSDLVFAQSKLVETTAQKVASLNLYNVSKINYKEIVGDPLPNVVFTEPNIDNLIFPKSFNDAMGIALQKNPDLNIINLKEQIAIADVKSNFSEVMPNVKLDAEYQMSDDKTSKGSSSDKAEITATVNIPIFKGGKNLSKIKQAKIIAKQVRYELESKKNEVTQNISKSWSDFKTNETLLKSANINIEARKLILDGVQQEYKIGLKSLIDVLQSKENLIDAEFNRINITKDYIFSALKLKADIGELSLKDLYI;locus_tag=LOCUS_8380;note=WP_014208186.1 RND transporter (Acinetobacter pittii PHEA-2) [pid:21.5%25%2C q_cov:56.4%25%2C s_cov:70.2%25%2C Eval:2.7e-19%2C partial hit],MGA_891
sequence45	MetaGeneAnnotator	CDS	195	782	.	+	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKEINIVIAMKSEAKPLINYWKLKKINNTSGIYTDKKKKINLIISGIGKKKVKEATNVLAKKNSNSFFLNIGIGGHRDLKLGEIILASKITDNKTNYNWYPSLLWKTKIKKSSLITVRFPKIIYKPNIVYDMEASSFLKTARSFVGPEKVQVIKIISDNKDNSILTISSKKIEYWIEKKIVIINKLVNEFLKI;locus_tag=LOCUS_8390;note=WP_010966184.1 membrane protein (Clostridium acetobutylicum ATCC 824) [pid:32.1%25%2C q_cov:97.4%25%2C s_cov:71.3%25%2C Eval:2.6e-20%2C partial hit],MGA_892
sequence45	MetaGeneAnnotator	CDS	786	1778	.	+	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIETIYIENQIKSHFRTKLILAKFRKKIDIIYCDHYGEIFNIKSQNFRLQKRKPALILAKKIGTKLHSIPKNFTIGGKKNYYFSHMLNCIYDCEYCFLQGKHMSAHYLLFVNYEDFALEIKKEIKKNNEKIYFFSGYDCDSLALDEITGFVDFFFPIFKEKKNSFLELRTKSTQINKILKHEPIDNCIIAFSFTPENISNLIENKVPSVKKRINAMKKLADKGWKIGLRFDPIIPACDFTIIYEKLIKEISLVIPKENIHSITFGMMRFPIKMFKKIKKESINNRIKTIPMENKNGIYSYPQNLEKKLSKFLFKIFKKYLDGIPIYNCSI;locus_tag=LOCUS_8400;note=WP_011016733.1 spore photoproduct lyase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:35.1%25%2C q_cov:97.6%25%2C s_cov:51.5%25%2C Eval:2.6e-50%2C partial hit],MGA_893
sequence45	MetaGeneAnnotator	CDS	1775	2251	.	-	0	ID=MGA_894;product=protein-export protein SecB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89WN7;translation=MAKKIEKKAGSVPENAPPGLFINAQYLKDLSFENPNPLDAYKNNDKPDIAVNVNTAVKKLPENAFEVTLDLKTEAKKKGKVAFIAEVSYAGIFTLNQVPEEHQKPLLLIEAPRMLFPFARNVLAETTRDGGYPPLMLNPIDFAALYQKNVEAEKNKKN;locus_tag=LOCUS_8410;gene=secB;note=Q89WN7 protein-export protein SecB (Bradyrhizobium diazoefficiens USDA 110) [pid:49.3%25%2C q_cov:91.1%25%2C s_cov:90.7%25%2C Eval:1.4e-35],MGA_894
sequence45	MetaGeneAnnotator	CDS	2294	2749	.	-	0	ID=MGA_895;product=membrane protein FxsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005460455.1;translation=MFFLIFIGIPLIEVMLFITIGKHIGLWNTIFIIILTGIIGAFLVKKQGISTLNNALLEIKSNKIPIFSIFEGIAILIAGAFLLTPGFLTDILGCVLLIPKTRNIIINYYVTYLKKKTSYKENFDIYKNQNKEEKIVEGDFEEIKESDKKKK;locus_tag=LOCUS_8420;gene=fxsA;note=WP_005460455.1 membrane protein FxsA (Vibrio parahaemolyticus RIMD 2210633) [pid:34.1%25%2C q_cov:99.3%25%2C s_cov:97.1%25%2C Eval:6.3e-24],MGA_895
sequence45	MetaGeneAnnotator	CDS	2825	3502	.	+	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391355.1;translation=MNTFFTPDLIFFVVIAAFLIIRLRSVLGRRTGNEKRPKDVFMYQDTTFDDVKSKNVDDKKTSNLKTFKNETSKKSLSGNKAVEKIRLYDSTFSLNKFLSGAKKAYEIIIKSYASGEINKIKKLLESQVFLAFSKKVNLRKKNKQTLDHTFVSIKSADIKKIDLKENIVDIVVKFVSEQVNLLKNNKGKIIEGNNDYIENHTDYWTFTKDLKSSNPNWKLVVTKSE;locus_tag=LOCUS_8430;note=WP_011391355.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:37.5%25%2C q_cov:96.0%25%2C s_cov:94.5%25%2C Eval:4.6e-33],MGA_896
sequence45	MetaGeneAnnotator	CDS	3621	3992	.	+	0	ID=MGA_897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINNKFKESKKLKLGEGVALSKKNLRNFNKGNVEIEDKLDLHGYTEIEAKKKLKKFIFKCINKKKRLVLVITGKGFRGEGVIKNNIINWLNENELRNMILAINYASMKHGGEGAIYIFLKKN;locus_tag=LOCUS_8440;note=WP_010921566.1 DNA mismatch repair protein MutS (Caulobacter crescentus NA1000) [pid:40.5%25%2C q_cov:68.3%25%2C s_cov:44.4%25%2C Eval:3.9e-13%2C partial hit],MGA_897
sequence45	MetaGeneAnnotator	misc_feature	4006	4748	.	-	.	ID=MGA_898;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q2RNA1:ATP-dependent protease ATPase subunit HslU,Q2RNA1 ATP-dependent protease ATPase subunit HslU (Rhodospirillum rubrum ATCC 11170) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:56.6%25%2C Eval:4.5e-80%2C partial hit],MGA_898;locus_tag=LOCUS_8450
##FASTA
>sequence01
AAAGTAAAAATTTCTCTATCTTCTTGAGATAGTATATTGTCCATTATTTTTAAAATGTCTTTAGCATCCATATTTGATGCAAATGGATCTGTTAAATTATATTCAGTATTGTTAAGCTTTTGAGATTTATATTCATCAAAACTAATTACTTCTTTATTATCAATAAGTTTATTTTCAGAAATTATTTCTGGAGATCTTTTTTTTTTTATATATTTATCTCTATTTATATTTGTAACGATTAATTTTAAATATCCCAAAATATTAGTTCCTACTTTATAATTGCTTCTTCCTTTATCATAAGAATTAAAGAATCTTACATATGTTTGAGAAACTAAATCTTCTGCATCGTGATGATTTGAAGTTAATTTAAATTTAGTATAACTTAACAGTTCTCCGTAGCATTTCTTTGCTTCCTCTCTTATTTTATTTTCTTTTTTCAAATCTCCCTTAATTATAAATTTATCCCTACATCAATTAAACGATTTTATTTTATTTTTATTCCAATAATAATTTCAATCACATTTTAGAGGAATAGTATATCTTTCTGCTTCTAAAATAATTTGCTCTTTAGTTTTTTTTTTATTTATATCTTTAGTGATATATTCAATTTTATGTTCATCAAGAAAACTTTTTATTACGTATATAGAATTAACTTTATATAGACCTTCAGAAGAAGTACTGTATCTTAATAAATCAAGAATTTTTTTTTTAATTGAATCTTTACCATAAACTGTTCCAATCATTAAACCTTTTTCATTAATAACAGGACTACCACTTGAACCTGAATATAAATCATTTATTGGTTGTATAATTATTCTTGCTCTATTATTTTTTCTTGTTTTTAGTGATTTGACAACCCCCTCAGTTTCTTCATTTTTACCCAATATCGTTTGTCTTGGATATCCATAAATATAAATTTTCTCATTTTCAAATATTCTTGATGATAACGTAACGGGAATAAATTTTTTATCTGTAACATCATCAGTTTCTAATAAAGCTAGGTCGTTTTCTTTATCTATTTCATAAATTCTTAAACTTAAATCATTTTTATATTTATTAGATCTTATTTTTTTACAATTATTTACAAAATGAGCAGCAGTTAAAACGTATAAATTTTTATCTTTTCCTATCCATATTCCTGTTCCGTATTTTGAATATTTTCCTATTTCTATATTTTGATTATTATTTTTGTTTGCTATAGCATTGGTTAATAAATCATTTAATTTCAACCATTCCTCAGGCTCAGTTGGTAATTTAACTGTAAGGTTTTCTTTTTCTTGAAATTGTTTTATTGCAGCAAAAGTTTCTTTACCAGGGATATCATCTCTTTTAATTGGGTATCCTAAATCAAATAATTTTTCTTGTATATTTTTTACAATAAACTGTGTTTTTGGTTCAAGTGTAGAACTTTTTTGAGCACAAATTTCGGATCCTTTATCAGAACAATATTTATACCAAAATTTTGCTTTTTTTAATCTTTGTTTTTTTGTTAAATTTTTTTCAGCCAAACCTTGTTCTAACATTCTACCAATTTCAAGCATACATGAAAAATGTTCAGAAGAACAATTTCCATTTTCTAAACAATCAGCAGTACATTTATTAAAGCCGTCATAAGCCTTTTTATAGTTTTTGTTATCTAAATCTTTTTTTGCTGTTTCAAAATTTATACTAAAAACATTATTTATAGATAAAGTAATAAAAAAAATAAGAATAAAAAAATTTTTAAAGAATTTCACAATTAATAATTAAAATATATTTTATATATATTAGATAATAATTTTTTTTATAAATTGGAATAGAATTTTACCTTTTTCGTTAAATATATTATAGATTTCTATAAATTATGTAAGGAGCCAATTATTCTCCCTTTATTCTCTTTGGCTTCTTACAATCTTATAAACTATCTCCATTTATTTTTGGATGCTATTAAAATTGACTTTTCTAGGTTTTTTCCTATTAAATGAATTATATTATCGTTTGCTATAAATTCCCCAAAGTTTGTTAGAATTTCAGATATTTTTACATCATTTCTTATTGAGTATTCATTAATCTTTTCTGTATATATTCCTTGAGCCTCTTTGGTAGTTAAAAATTCTAAGAAAGATATCGCGTTATTTAAATTTTTTGCTCCTTTTATTATTCCAGCACCACTTATATTAATGTGTGTTCCATGGCTTTGTTGATTTGGCCAAAAAATTGATACTTTTTCTGCAGCAGTTTTATCTTTTTTATTTTTTCCATTTAACATATTTGCCAAATAATAAGTATTTGCAATAGTTACATCACATTCTCCATATGCAATTGATCTAATTTGATCTCTATCACCACCATGAGGTTTTTTTTTAAAATTCTTTACTAACCCATCAATCCAATTTTCTGTTCTTTTTTTACCTAAATTTATGATCATATATGATATTAAAGATTGATTGTAAACATTATTAGAAGATCTCATACATATTCTATTTTTCCATTTTTTATTTTTAAGATCTTCATATGTTGATAATTCTTCTATTTTAACTCTTTCTTTTGAAAAAATAATGGGCCTGGCTCTTACTGATAATCCAAACCAATAATTTTCTTTATCTCTAAATTTACTTGGTATATTTTTTTTTAAAATTTTTGAATCTATTTTTGTAAAAATATTATTTTTTTTTGCTCTATGAAGTCTTGCTACATCTGTAGTGATTAACAAATCACCTTCAGGATTATTTCTTTCAAGTTTAATCCTTTCTATAAATTGATCTGATTTTCCTGTAACTATATTTACTTTGATTCCTGTTTTTTTTTTAAATATTTCTATTAAAGGTTCTATTAAATGTAATTTTCTTCCTGAGTATATATTTAATTCATTTTTTGTTTTAGATTCAATAGGGTAAAGGTCTAAAAGTATTACAATTAAAGATATTATTAATAAACTTAATAATGAATATTTTTTGTTTAACATAAAAATAAGCAAGTAAAAATGTATTAGTTGATAATGATTATCATTATCAATAATATAAAGATATTATTTGGTTTATATTTTTTTTCAATTACTTTTATTATTTTTAAAAAAAAATTAGATGTTTAATCAAAAAAAAATCCAAAAAATGGCTTTCATTGATCCCAATGGAACTAATGCAAAATATGTTAAAAAAATTATTTCAAAAGTTGTTGATAATTTAATAAATAAAGTTTCAAATGCAGAAAGTTATCCTCCTCTTTTAAAAAAAAAAAAATATTTAGATAATTTTAATTTTAATGATTTACCAATTTCAGAAAGAGAATTATTAAAAAAAACAAAATTAATTATTAATCAATCTATGAATGCATCAAATCCTTATTATTTAGGACATATGGATTCATTACCAACAACTATGTCAATAATTGGAGATATTATTTGTTCTACTATAAATAATAATATGCTTAGTAAAGAAACCGCTCCTGTCTTTACTGAAATAGAAGAAAAAGTTACTGGCATGTTGTCAGAAAAATTTAAACTTGGAGAAGATTCAGGTGGAATTATGTTAGGAGGTGGTTCTTTATCTAATATTCAAGCTATCGCAATAGCTAGAAATAGAATTTTAGGTTCATTTGATAAAGGATTAATGAATTTAAGAAGAAAACCATATATTTTCGCTTCTAAAGAAGCACATACATCTATAAAAAAAGCTGCGATGATTTTAGGTTTAGGAACGCAATCGGTTATTTCAATTCCTACTGATAGTACTGGTAAAATGGACATTATTTTTTTAAATAAATGTATAAAAAAAAAGATTAAGGAAAATGGTATTCCTCTTTGTATAGTAGCAACCGCAGGCACAACTATAAGTGGGAGTGTTGATAATTTAAATGAAATTTCAAAAATAGCTGAAAAGTACAAAATTTGGATGCATACAGATGCTGTTTATGCAGGTGCATTAATTTTTTCTGATAAATATAAAAATTTATTAAATGGAATTGAAAAATCAGATTCAATTTCATTTAATCCTCAAAAATGGCTGTATATTACCAAGACATGCTCTGTTTTGTTATTAAAAAATAAAAAATATTTATATTCAGATTTTTTTACCCCTTTACCATATGTTGCAAAGGATAAAAATGAATATCATCCAGGTGAATTAACGATTCAAGGAACAAGATATCCCGATATACTTAAATTATGGCTTTCTCTTCAGCATTTAGGTAATTTTACTTATTCTAAAATTATAGAAAATTCTTATAGAAATACTTTTCTTTTAAAAAAGAATTTAGAAAAAATAAATAATATAAAATTTCTATGTAATCCAGAAACAAATATTTTATGTTTTAGATATGTACCTTCAAATATAAATCCTATCAAACATGATAAAATAAATCTTGATTTACAGAAATTTTTATTAAATAAAAATAATATTTTTTTTTCATATGTTAGTTGTAATGGGTTTAAATGGTTAAGAGCTGTAATTTTAAATCCATTTTTTAATTCGAGACATATTAATAAAATTTGCAATGTTATTGAGTCATATTTTAAAAAAGAAAAAAAACTTATTAAGAAAGTAAAATGATAAAATTAATATTAATATTTTTTTCAATTTTCTTATTAATTTTTTTTTTAAGTAAAAAAAATTTTAAAATTAGAAATTTTCTTATTATTTTATTTGTTTTATTAATTATTTATTTAATTTATTCAGGTAAAGTCAATTTTTTATTGCCAATATTAAAAAGTTTAATTCCAAATTTAATGAAATTGTTAAATTTTTTATAATTTAAAAAATTATAATGGAAAAACATAAATTCAATGAAACAATTTTACGTGAATATGATATTCGCGGCATAGTTGGTAAAGATCTCAAATTATTAGATGCTTTATTTTTAGGTAAATCATTTGCAACTTTTTTAAAAAAAAACAAATTAAAAAATGTAATTATTGGATATGATGGGAGAAATAGTTCAAAAGAAATCGAAAGAGAATTAGTTAAAGGTCTATTTCAAAAAGGGATAAAAATTTTAAGGATTGGTTTAGTTCCTACCCCTTTACTTTATTTTTCTATGTATATAAAAAAAATTGATAGTGCGATAATGGTAACTGGTTCACATAATCCATCAAATTATAATGGATTCAAAATGTTATTAAAAAATAAAAGTTTAGTAGGAAAAGATATATTAGAAATTGCTAAAATAGCATCAACAGGAAATTTTTTAAAAAATAAAAAAGGGTATAATAAAAAAATATCTTTATTAAAAAAATATTTGGATTTTTTAAGTAAGACTGCAAAAATTAAAAAAAATATTAGAATCGCATGGGATCCAGGAAATGGCTCCGGTGGTAATGTTATTAATTTACTAACAAAAAAAATTAAAGGAACTCACTATCTTATAAATGATAAAATTGATGGAAATTTTCCTGCTCATCACCCTGATCCAACTGTTCCAAAAAATTTAAAACAATTAAAAGTTTTAGTGAAAAAAAAAAAATGTGATTTAGGTTTTGCTTTCGATGGAGATGGAGATAGATTGGGTGTTGTTGATAATAAAGGCAATATTATTTATGCTGATAGAGTTGTTGCATTTTTATCTAAAGATGTTTTAAAAAATAAACCCAAATCAAAAATTATTTTAGATATTAAATCTAGTCAAACAGTTTTTAATGAGATTAAAAAATTAAATGGAAAACCTTTTTTTTGGAAAACAGGACACTCATTGATAAAAAAGAAAATGAAGGAAACAAAAGCAGTGTTTGCTGGTGAAATGAGTGGGCATATTTTTTTTGGAGATAAATATTTTGGTTTTGATGATGCAATTTATGCTTCTATAAGATTTTTAAATTTATTTTGTAAAATGAATAAACCCCTATCAGATATTTTTGATTGTATGGAAAATTCCTTTAATACTCCTGAATTACGATATAAGAGTACAGAAAAAGAAAAATTTTTAATAGTTGAAAAATTAAAAAGAATTTTAAAAAAGGAAAAAAAAAAATTTATTAGCATTGATGGAGTGAGATACTCTAATAAAAACGGTTGGTGGCTTGTAAGAGCGTCAAATACTCAGGATATTTTGGTAGCTAGATGCGAATCAAATACAGAAAAAAATTTAAAAAAAATAAAATTAGATTTAAAATTAATGCTAAAAAAATGTAACTTTAAAATTTAATTTTATTATTGTATTTCTTTTTTTAAATTTTATTTTATTAAATGTAATATAAATAAAATGAGTAAAATAAATTATAATCATAAATTAAATGAAGAAACTTTAATAAAAAAGCGTACAAAAAAAAAATTAAAGAAACCTTCATTATTTAAAGTTATAATGATTAATGATGATTATACTCCTATGCAGTTTGTAGTTTATTTATTAAAGAATTATTTTAATAAAAATGATCCTGAGGCAAATAAAATTATGCTAGAAGTTCATAATCATGGTTCTGGTATGTGTGGAATATTTACTTTAGAGATAGCTGAGAGTAAAATTTTAAAAGTTATTAATTATTCAAGAAATAATGGATATCCTTTATTATGTATTATGAAAAAAATTTAAAATGTTATCAAATAAATTAGAAAAAACAATTAAGAGAGCTATATCATATGCCACTGATAGACAGCATCAATATGTAACTTTAGAACATTTACTTTTGGCTTTGATTGAAGATGATGACGCTTCTGCTGTTTTAAATGCTTGTAATGTAAATGTCGAAAATTTGAAAATAAGTTTAATAAAATTTATAGATGAAGAATTGAAAAGTATAGTTTCTTCATCAGTACAAGAAGCTGAAGCATCTGCAAGTTTTCAAAGAGTTTTACAAAGAACCGCAACACATGTTTATTCATCTGAAACAAAAAAAATTAATGGAGCAAATGTTTTAGTTTCAATTTTTTCTGAACGCGAATCTCATGCAGTTTATTTTTTGCAAAAACAAGATATGTCAAGATTAGATGCTTTAAATTTTATATCTCATGGTATTGAAAAAAATGAGAATGATGAATTGGAAGAAGAAGATATGAATGAAAATAGTGAAAATAATTTTATTTATCCAAATACATATCAACCAAAAGAAACTAAAAATAGTGATGGTTACACAATTAATTTAATGAATAAAGCAAAAAATAAGATGATAGATAAATTAATTGGTAGAAATAATGAAATAGATAGAACTATTCAAATTCTATCAAGAAGATTAAAAAATAATCCACTTTTAGTAGGCGAACCTGGAGTTGGGAAAACAGCTATTGCTGAAGGTTTAGCATTTAGAATTTTTAAAAAAGAGGTCCCTAATTTTTTGTACGATGCTGTAATTTATCAATTAGATTTAGGAACTTTAATTGCTGGTACAAAATATAGAGGTGATTTTGAAGAAAGATTAAAAAAAGTTATTAAGAATATAACAAGTTCAAAAAAAAATATTTTATTTATTGATGAAATACATACAATTGTGGGCGCTGGTGCCACAACAAGTGGTTCAATAGATGCATCAAATATATTAAAACCATTTTTATCTAATGGTCAAATAAGATGTATCGGTTCTACAACTTATAAAGAATATAGAAATTATTTTGATAAAGATAAAGCTTTCTCAAGAAGATTTCAAAAAATAGATATTGATGAACCTTCATTAACAGAATGTTTTGAAATATTAAAAGGTATTAAGAATTATTATGAAAAATTTCATGGTTTTAAATATACTGATGAGGCTTTAAAATCTTCTATTGATTTATCAAATAGATATATTTCTCAAAAAAAATTACCAGATAAGGCTATTGATATAATAGATGAAGCTGGCGCGTATAAAAAAGTTTTTTTTAAAGATAATAAAGAAATAAACACTGAAGATATTATTAATACAGTCTCAAGAATTGTAAAAATTCCTATAAGCAATATTAACGATCAAAATAATTCTTTAACTAAAAGTTTAGACAAAAATATTAAAAAAGTTATTTTTGGCCAAGATAAAGCGGTTGATAATTTAATTAGATCTGTAAAAATTTCTAAAGCTGGCCTTTCAGACTTTGATAAACCTATCGGATGTTTTTTGTTTACAGGTCCAACAGGAGTCGGTAAAACTGAACTTGCAAAACAATTGTCCAAATCTCTTAATTCTAAATTTATAAGATTAGATATGTCTGAGTATTCTGAGAAACATAGTGTAGCTAGATTAATTGGTTCACCACCTGGATATGTTGGTTTTGATCAAGGAGGTTTATTAACTGAATCTGTTGACCAAAATCCATATTCAGTTGTTTTATTTGATGAAATTGAGAAAGCTCATTATGATCTTTTTAATATACTTCTTCAAGTTATGGATTATGGAAAATTAACCGATAATAATGGAAAATCTGTGAATTTTAGAAATGTTATTTTAATTTTAACTACAAACATTGGAGGAGATAATTTATTAAAAAAAAAATTAGGATTTAATGCATTTACAGAAAATAAAAATAATGAAGAAGAAATTAAGTTTTTTTTTAAACCAGAATTTAGAAATAGATTAGATTCAATTATTTCTTTTAATTCTTTATCACGAAAAGTTATTTTGAAAATAGTTAACAAGTTTTTGCTTCAACTAAAAAAGAAATTATTAGATAAAAATATTTCAGTTTCATTTTCTGATGAAGTAAAAAATTATTTAGTATTAAATGGTTTTAGCGAAACGTTTGGAGCTAGACCTCTTGCTAGATTAATACAGTCAAAAATTAAAGAACCAATAGCTGATTATTTGTTATCAAAATCAGATAAATTAAAAATTTTTCTGAATATTTCTCTTTCTAATAAAAAAGAATTAAAATTTGATTTTAAATCTAAGAAAGTAAAAGAAAAAATTATTTAGTTAAAAATATAGCATCGATTTCTACACTTGCATTTAAAGGTAAATTATAAACACCAATAGCAGTTCTTGTATGAACACCATTTTGTTTAAAAATATTTTTAATTATATTTGATGCACCATTTATCACGAACGGAATATCAGAAAAATTATTATCTGTATTAACAAAACCATTTAATCTTATACATTTTTTAATTTTTTTTATATTACCTTTAATTGCTATATTAACTAATGCTAAAATATTAAGCGCACATAATTCTGAAGCTTTATAACCATATTTTTTATTTTTATTATTAATTTTACCAGTATATATAACTTTATTATTTTTTATTGGTAATTGACCTGAAATATATAAAAAATTATTTTCTAGAATATATGGCGTGTAAGTTCCTGCAGTTTTAATAATTTTAGGTAAAGAAAAACCTATTGAATTTAGGTGTTGTTCTATTATGTTTGGCATTGTTTTTTTTAACTACAACCTGTTGTTGAACCACAGGTATTACATTTAAGACAAGTACCATTTCTAACTAAAGTAAAATTACCACAATCACCACAGGCATCTCCTTCATAGCCTCTTAATTTAGCTTTTTTTATTAAATCATTAATATTTTTTTTTTTAGATTTAATCTTTAAATCAACAGATTTATTTTCATTATTTTCTAAATTTTCCATGCCACCTGAAAGAACATAAAAATTATTTCTTAAATATCCTGTACTTGCATATCTAGAAATAGTTTCATTTGCATTTGCAGCTTTTAATTCATTTATTTTATGTTCATTATCATCTGTTGGAGAAATTTTTTTGTCAGGATCAAAATGTGCTAGATCTTTTTTATTTAAATAAGATATAGCTAATTCTCTAAAAACATAATCTAAAATTGAACTAGCCATTCTGATTGAATCATTTCCTTGAACTGTTCCTGATGGTTCAAATTTAGTTCCAACATAAGCTTCTACAAATTCTTCTAGCGGAACTCCGTATTGTAATCCGATTGATATGGCTATAGCAAAATTATTCATTAAACTTCTAAATGCTGCTCCCTCTTTATGCATATCAAGAAAAATCTCACCTATAGATCCATCGTCATATTCTCCAGTTCTTAAATAAACTTTATGGCCAGCAACAATTGCTTTTTGTGTATATCCTTTTCTCCTATCAGGCATTTTATTTCTTTGTGTTCTAATAATTTCTTTTACATAATTTGTTGCTATTTTTTCTGCTACATTGATAGTTTTATCTTTAATTGAATCATTTTCATTTACAATATCATCTTCTTCAACTATTGCTGAAGCTAAAGGCTGTGATAATTTCGAACCATCTCTATATAGAGCATTTGCTTTTAGTCCTAATTTCCAGGATTGGATATAAGATTTTTTACACTCTTCGATAGTAGCTTTATTTGGCATGTTAATTGTTTTTGATATTGCTCCAGAAATAAAAGGTTGAGCTGCAGCCATCATCTTAATATGACTTTCAGTTGATAAAAAACGTTTACCGATTTTTCCACAAGGATTAGCGCAATCAAATATAGATAAATGTTCCTCTTTTAAATGAGGAGCATTTTCTAAAGTCATAGAACCACAACAATGGGTATTTGCATTATCAATTTCTTTTTCATTAAAACCTAAATGTTCAAGCATATTGAAAGAAGTGTCATTTAAATTCTCTTTTTTTAATTTAAGAATTTTTGTACAAAATTCTTCGCCTATTATAAATTTATTAAAAGAAAATTTTATATCAAATGCATTTTTCAAATTTTCTTCAATTTTATCTATAATTTCTTTTGTGAAACCTTTTTCTATAAGTATTTGATGATTAATAGATTTACAGTTTTTTAATGTTGCATTTCCAATAACATATTTAGTAATTTCTTCAATTTGAAATTGACTATAACCAAGGTTTTTTAAAGAAATAGGTATTAGCCTATTTATAATTTTAAAATATCCTCCGCCTGCAAGTTTTTTAAATTTTACAGTTGAAAAATCAGGTTCAATTCCAGTTGTATCACAATCCATAACAAGCCCTATTGTTCCTGTCGGTGCAATAACAGTGGTTTGCGCGTTTCTATATCCATATTTTTTTCCACTTTCTAAAGCATTTTCCCAGGATTTTTTTGCTGAATTAACTAATTCTATATCAGGGCAATGTTTTCCTTTTATAGGGACAGGAAAAATAGATAAATCTATGTAATTATTTTTTTCTCCATAAGCTGCTTTTTTATGATTGGTAATAACTTTAATCATATCATCTTTGTTTTTTATAAATCCATTAAAAACGCCCAACTCTTTTGCTATTTGTGAAGAAACATAATAGGATTCACCTGTCATCAAAGCTGTGATAGATGCGCAAATTGATCTGCCTTCATCACTATCGTAACTAAATCCTTGTTGCATTAGCAAGCCTCCAATATTTGCATAACCTAATCCAAGTGTTCTAAATTCATAAGAAAGCTCGGCAATTTCTTTAGAAGGAAATTGAGCCATCATTACTGAAATTTCAAGGACAAGTGTAAAAAGTTTTACAGTATGTTTAAAATTTTCTATTTCAAACTTTCCATTTTTATTTAAAAATTCTATTAAATTTATAGAGGCTATAGTACAAGCTGTATTATCAAGAAACATATATTCTGAACATGGATTTGATGCATTGATTCTTCCACTTTTCGGACAAGTATGCCACTCATTTATCGTTGTATCATATTGAATGCCTGGATCAGCACATGACCAAGCAGCGAAACCAATTTTTTCCCAAAGATCTTTTGCATTAACTGTTTTATGAATTTTTTGATCTGTTCTTCTTATTAGTTTCCATTCTTTATCATTCAATACAGATTCTAAAAAGTCATTTGTTACTCTTACTGAATTATTAGAATTCTGACCTGAAACAGTTAAATAAGCTTCTGAATCCCAATCTGTATCGTAAGTAGAGAATTCTAAAGACTTATAACCTTGTTTGGCAAATTCTAAAACTCTTTGAATATAATTTTCAGGAATTAAAGATTTTTTTGCATCAAGAATTTTTCCTTTAAGAATTATATTCTTTTTTAAATTAAATCTTTCTTTATCATTATCTATTTCGTTATTCCAACAAGCCTCCATTATTTCTTTGAGATGCTTTTCACATATCTTTGATCCTACAACTAAAGATGCTACTTTTTGTTCTTCTTTAACTTTCCAATCAATAAAATCTTCAATATCCGGATGATCTATATCAATAACTACCATTTTTGCCGCTCTTCGAGTTGTACCACCAGATTTTATTGCTCCAGCAGATCTATCTCCAATTCTTAAAAAACTCATTAAACCAGATGATTTGCCTCCGCCAGATAAATTTTCTCCATCTCCACGAACATGAGAAAAATTACTACCTGTTCCAGAACCATATTTAAATAATCTCGCTTCTTTTGTCCATAAATCCATAATTCCACCTTCATTAACCAAATCATCACTTACACTTTGAATAAAACATGCATGAGGTTGTGGATGTTCGTATGCAGTTTCTGATAAGCTAAGTTTTCCAGAATTATGATTAACATAAAAATGTCCTTGCGGAGGACCATTAATACCATATGCCCAATTAAGACCAGTGTTAAACCATTGAGGCGAGTTAGGGGCAGCCATTTGTTCACATAAAATAAATCTTAATTCATCATAAAAAGATTTTGCATCTTCTTCACTATCAAAATACTTTCCTTTCCAACCCCAATAAGTCCAAGTCCCAGCAAGCCTATCAAATACTTGTTTTGAGGATATTTCTCCAGAATATTTATTTTTTAGAGGTAATTGATCTAATTTTGTATGATCAGGGATAGATTTAGATAGCCACTTAGGAACATTTTTTTCTGTTTTTTTTTTTAATATTGTTGGGACACCTTTTTTTCTAAAATATTTTTGCGCGATAATATCAGTGGCTACTTGCGACCATTTGACAGGAACTTCAACATTTTCTAATTTAAATATTAAAGAACCATCTGGATTTCTAATTTCAGATTTAACCTTTTTGAAGGCAATTTTTTTGTAGGGACTTTCCCCCTTTACTGTAAACTTTCTTTCAATTTTCATAAATTTATTTTAAATAAACGGTAACTACTATATATAGTATAGTAAAATACACTTATACAACTATATCTTGATACTTATAACATATTTTTCAAGAAAAAAAAATTTTTTTTTTAAAAAAAAAGAATTTTTTTCTTTTTTTCTTTTTTTTTAGTAAGTTATGAATGTAATGAAAAATATTTCTTTGTTAATTTATACTCTTTTTAAAGGAAATTTTGTTGGAAAAGATGAAAATGGTAATAAATTTTATAAATCTAATGTTTCACATGGGACAAAAAAAGATAAAAGATGGGTTTTATTTAAAGAAGAAAAAGATACTAATATACAACCAGATTGGCATGCTTGGCTGCATCATTTAGTTAATAAAGTGCCAAGTAAGAAATTTAAAAAGAGATTTTACTGGCAAAAAAAGAAAACATCAAATTTTACAGGTACAACTAAAGCTTATTTACCTAAGGGACATATTTTAAATAAAGATAAGAAAGGGGAGGAAAATAAAAATTATATTTCATGGAAACCGAATAAAAAATAAATTTAAAATATTTATTTTTTCTATAATAATTCTTTTTTTTTCTTTCAATGTTTCAGAAAGTTTAACAATCTTAGGTGCTCTAAATAAGGTTAGCGGAAAAATTTCAAAAATTAAAGTTGAAGATAATGAAGAATTTTTTTTTGGTACTTTAAAAATAATTGTAAATACTTGCAAAAAATCGCTACCTGAGGATCCCCCAGAAAATTTAGCTTTTGTTCAAATTTGGGATACGAAAATTGATTCTGATCAAACAAAAATATTTAACGGATGGATGTTTTCATCAAGCCCATCTATTTCAGCTGTGGATCATGCAGTTTATGATGTTTGGGTCATTGAATGTATGGTTTCATATATTGATGAATGATTTATTTTTTTATTGAAATTTGCTTTCTTTGATAATGAATCTTCTAATATTTCTAAATATTTTTTTCTAGTTACTTCTACTGCACCTAAATTTTTTAAGTGAGGATTAATAAATTGAGTATCTAAAAGTGAAAAATTTTTAATTTTTAAATTAGCTATTAAATATATTAAACATATTTTACTTGCATTAGAAATATTACTAAACATGCTTTCACCAAAAAAAGCAGATCCTAACGTTACTCCATATAAACCTCCAACTAATTTTTTATCATGCCATGCTTCTATAGAATGAGCATGATTTATTTTATGAAGATTAGAATATAATCTAATTATTTCTTTATTAATCCATGTAGACGGTCTATTTTTTGTTTTTTTTGCACAATTATAAATCACTTCTTTGAATTTTTTATTAATTGTAATTTTAAATTTTTTTTTTTTAATCAATTTTTTTAAACTTTTTGAAATTTTAAAATTATTTATAGGAATAATTCCTCTTTTTTTAGGATTTATCCAATAAATATTTGGATCATCAAAACTTTCAGACATAGGAAATATACCTTGCGAATAACCTTTTAAAATTGTTTCTTCATTAACTTGCATTCAATAATTAATTGATAAAAATTTATCAAGCCAATTTATATGATATTTTCCTTTATTATAATCCTTACTATTTAAAATTTTTAAATGTAAAGGTATGTTTGTTTTTACTCCATTTATTACATATTCAATTAAACATCTTCTTAATCTTAGAATAGCTTCATTTCTATTTCTTGAATAAATAATAATTTTTGAAATTAAATTATCATAATGGTGCGGAACAATGCAACCTGCATAAAGCGCAGAGTCAATTCTAACACCAGGACCACCAGGTGAATGATATTCCTCTATTCTTCCTGGAGAAGGAATAAAACTTAGAGGATCTTCAGCATTAATTCTACATTGTATTGAATGACCAGAAAATTGAACATCTTTTTGATTTATATTAATTTTTTGTCCAGCTGCAATTTTTATTTGTTGTTTAATTAAATCTATTCCGGTAACTCTTTCAGTAATAGTATGTTCTATTTGCACTCTTGTATTCATTTCCATAAAATAAAATTTTTTATTTTTGTATAACAATTCAACCGTACCTAAACTTTCATACCCAATTTTTTTTATTGTTTTAACGACTAAATTACAAATCTTTTTTCTTTCTATATTTGATAAAGTAGGTGAGGGTGTTTCTTCAATAATCTTTTGTTTATTTCTTTGAATTGAGCAATCTCTTTCACCTAAATGTAAAACCTTATTTTTTTTATCAGCAATAATTTGAATTTCGATATGTCTTGGGTTATCAAAAAATTTTTCTAAATAAACATTTTCATTACCAAAAGAATTTTTCACTTCTTGTTTTACTAAAGAATAATTTGAAATTAATTCTTTTTGATTTTTAATTACTCTAATTCCTTTTCAACCACCACCAGAACCTGCTTTTAAAATTACAGGATATCCTATTTTTTTTGCAATTTTTTTTGCTTCTTCAATATTTTTAATATAATTATCAGAACCAGGTATCACAGGGAAACCATTTTTTTTCATTAAATTTTTAGCTGTTATTTTATCTCCAAACATTTTTATTTGTTGACTTGTTGGACCAATAAAAGTCATTTTGTGTTTTTTTACCATCGATGCAAAATCATAATTTTCAGAAAAAAAACCTGCACCTGGATGTACAGCATCTGAATTAGTTATTTCAGCAGCTGCTAAGATAGCAAAAGAATTTAAATAACTATTTTTTATAGAAGATTCACCAATACAAACTGCTTCATCTGCAAGTCTTACATGCATGGCATCTTTATCAATAATAGAATGAACAGCAACAGTTTTAATGCCTAGGTCTCTACAGGTTCTAACAATTCTTAATGCAATTTCTCCTCTGTTTGCTATTAGTATTTTTTTAAACATTAAATTATTATTTTAGAACTATTAATGGTTGTCCAAATTCTACTGGTTCTGCATCATTAACTAGAATTTTTTCAACTTTTCCATTTTTTTCTGCTTTTATTGGATTAAAAGTTTTCATTGCTTCAATTATTAATAAAGTATCTCCTTTTTTTACCGTTTGACCTTGTTTGATAAAATTTTTCGCTTTTGGTTCAGGAGATAGATATACAGTTCCAACCATCGGTGAGGTTAGAGCATTTTCATGCTCAATTTTAATTCTTTTATTATCTGTTTTTTCATTGTTTTCATTATTTTTAAGGTTAGAAACTGAAACTCCACTTTTCTTTAAAACTTCTGTAAGTTCCTTTATAGCTTTTGTTAAATTTTTGATTAAATTTTCATTCATATTAAAAATTATAATTTATTTAATTAAATTTTTCATTGCCATTATTGCTAAAATGTAACTATATGATCCAAAGCCAAAAATAACACCATGCGCAACTTCTGAAATAAAAGATTTTTTTCTGAATTCCTCTCTTTTATGAATATTTGATAAATGAATTTCTATAATTGGTATTTTTAAAGCTTTTAATGCATCAAAAATAGCAACAGATGTATGTGTATATGCTCCAGCATTAATTAGAAGACCTTTATATTCATCACTCATACAAGATTGTATCCAATTTATAATTTCAGCCTCTTCATTACTTTGTTTAAATACAAGCTCTAAATTATTGTTTTTAGCTATTTTATTTGAAGCATCCTCAATTTCGCTTAAAGATGTTTTTCCATATATTTCAGTTTCTCTTTCTCCTAATAAATTTAAATTTGGACCATTTATAACTAAAATTTTTTTCATAGTAAATTATTTTATTATTTTTTTTTTGAATTAATTTTATTTTCTAAATTTTCTAATTCATTCCATTCTTTGGTATTTTTTTTTGTTATTTTTTTTGCTCTTGTTATAAAATTCAAAGCCATAGTGTCATCACCTTTTAAATAAGATGAGTAGGCCGATGAATATTTTGATTTTCCCATTTCATTATTTCTTCCATAAGCAATTGATAATAAATACCATAACTTATCATTTTCAATTTCTTTTTTTTTTGCTTGATTTAAAAACTTAATTGCTTTGTTAATAGCTTTTTTATTATCAATATTTATTAAAGTATGAGCTAATTCAATTTGTATTAAGGGATCATTCGGTAATAATTTATTAACAATTATATAGTTTTTTAATGATTTATTTAAAAAACCATTTTCTCTATACATCTGAGCTTTTATTTCATAAAAATAAGGATTTTCTGGATATTTTTTTATTAAATTATCTATTAGTTTATTTGCTAAATTAAAATTAAATAATTTATAATTTGCAATTGATAAAGCATAATTTTTATGATCTTCATTAAATTTTTTATTATGTTTTATTGAATTAATTACTACTGCTGGATCAGTAAACCCTAGTATTTTAGCTTGCATAAATTTGTATCTTTCTTCAATTGATAAATTTAATTTAGAAATAGATATGTCATCACAATTTTCATTTCTTGCTGCATTTCTAGCATCACTTATTCTTTCACGTGTAAGAGGGTGGGACTGTGTATAAGCATTCCTTTGAAAATTTGATTGATATTTTTGTAAAACTTCAAAGAAACTAATCATTCCACAAAGAGATTTATTAGATTCATTTAAAAATTTATAGGCTGCTCTATCTGCCGACCCTTCTTGTACTCTAGAAAAACTTAAAAAAGAAGATTGACCAGCTGATACCGCACCACCTGAAATTGCAGCAAAAGCATCAGCATTGCCTGTTAAAGCTGCAGCTGCACCACCAAGTAGAAATCCTATTAATGTTATATTTCTGCTTTTTGCAATTTGTTCATAAATTTTAAAATGATGCTTACCAGTTATATGGCCAATTTCGTGAGCTATAACAGCCTCTAGTTCATTTGAGTTTTTTGTTTCAGTTATAAGGCCCGAAAATATAAAAATTTTTTGACCAGGTGTTACAAATGCATTCAATTTATTGTCATTTAAAATATAAATATGTAACTTATTACTATCTTGTTTGGCTGCTTTAGCAATTGGTTGAACAATATCTTTAATAAGATTTTCAATTTCTGAATCTCTAATAATAAAACTTAATGCATTATTAGATATAAATGTCAAAAAAATAAATAATATTAAGATTTTTTTCATATACATTATCTAATAATATATATTTTTTTTTATTTTTTTAATTTATTTATGAGCAAATTTATTTCTAAAAGAGGACAAGTTTCAAATTTTATTGTTATGGATCTTTTTGAACAAGCTCAAAATTTGTCAAGTAGAGGAAAAAAAATCATACATTTTGAAGCAGGCCAACCAACAGCAAAACTTCCTCAAAATGCATTTAAAAACGCGTTAAATAAGATTAAAACAACAAACGTTGCTTATACAAATCCTCTTGGTTTAGATATACTTAGAAAAAAAATATCAAATTATTATTTGAAGAAATATAAACTAAAAATTAATTATAAAAAAATAATTATTACCTTTGGTTCGTCTGGCGCATTCATATTATCTTTTTTAAGTTCTTTTGATAAAGGAAGTAAGATAGGCGTTACTGTTCCAAATTATCCAGCTTATAAAAATATAATTAAATCGCTTGATTTAAAAATTAAACCTATTTTTTGTAATTCTAAAAATAACTTTGAATATAATTTCAAAACTATTTGTAAATATAAAGATATTGATGGATTATTAATTTCAAATCCACTGAATCCAACAGGTTCTTTATTAAAAAAAGAAGAAATTAAAAAAATTTCATTATTTTGTTTAAAGAATAAAATAAGAATAATTGCTGATGAAATATATCATGGAGTTAATTATCAAAAAAATATAACTACATTTCTCAGGTATAATAAAAAGGCTATTATTATAAATAGCTTTTCTAAATATTTTCTTTTAACAGGCTGGAGAGTTGGTTGGCTTATTTGTCCTAATGATTTATATTCTTCTATAAAGAATCTTGCGCCAAATTTATTTGTTGCCCCGCCAACAATTTCACAATATGTAGCTTTATCAGCTTTAAATTATAAAAAATATTTGAATGATATTGTTAAAGATTATAAAAAAAATTTAGATATGTTATATGATTTCTTGCCAACAATTAATATTTTTCCTGTTATAAAACCTAAAGGAAGTTTTTATTTGTATGCTGATATTAGTAAAATTTCCAACGATAGTGAAAAATTATGTAAAAAATTATTAAATGAACACGGTATAGTTTTAACGCCTGGAGTTGATTTTGATGAATACGAAGGAAAAAAATATGTTCGTTTTTGTTATTCATATCCAAAACAAAATATAATTGATGGTATTAAAAAATTAAATATCGTATTTGGTAGAAAAAATACTTAATTTTTTATTATCTTGATTTTTTTGCCTATAAATCTGCATATTTGATAATACAAATTTTACATATAATCTTGTTTCTTTAATTGGAATTTTTTCTATCCAACTTACCGTATCAACATTATTTTTTCTAGGATCACCATTTTTTTTTATCCATCTGTTAATTCTTCTTGGTCCTGCGTTATATCCTATAAGTGCTAACAAATAAGAGTCATATTCTTTTACTAAATTGTATAAGTAATAAGATCCTAAAGTAATATTATATTGAGGATCACTTCTTAATCTTTTTTTTGAATAGCTTAAATTTAATTTTTTAGATATTTTTTTTCCTGTAGCAGGCATTATTTGCATTATACCTCTAGCACCAACTCTACTTATTGCTTTTGTATCAAATACACTTTCTTGTCTTATAACTCCAAAAACTAATTCTTTTTCAATTTTATTATAAATTTGATAATTTTTTATTGATGGATAAGCATAATGATATAAATTAAAACCTTTTTTTTTTGCAAACTTAGATGCTTTAATTGATAGATCTAATCTTCCAAGATCTTTTGATAATTTTGCTATTATTTGTAATTGACCGGGAGTTGAACTAGTATTTATTAAATGTGTGATAAATTTTTTGGCATTTTTTCTAGTTCCATTTGCTAAAATAAGCTCACTTGCTTTATACAAATCTGTTTTAGTAAAAGCAATATCATCTTTTGTAAGTATGTTATTTCCATAAAGTTCTTCATTGGTTACTAAAGATTTTTTTTTGTTAATTTTTTCAAAACTTAATTGTCCATAAAATTCAGTTACATAATTAGCCGAATTTTTATACCATAATTCACTAAGTTCTTTATTTCTATTTTTTTCATAAGATTTTCCAGCCCAATATGCTGATTTTGCTTTTTCTCCTACATGGTTTGTATTTTCAAAAGAATTTAAAAAATGATTAATATATATTTCAGGGGAAAGGTTTAAATATTCGTAAGCAATCCATCCAGCATACCATTCAGATTCTGAAAGTAGTTCATTAGATTTTGAGCTAAAATCTTTTACTAATTTATATGCTTTTTTATATTCTTTTCTTTCTAATAATTTTCTTACAATTATTGAAACTTCATACCACCATTTTTTTTCATATTTAAGATTTTCAGGCAAAGGATTTATTAAATCAAATGCAGTTTCGTATAATCGACTTTTCCTTCTCCATCTTAATCTTTCATAAACTAAACCTTGATCATTTAAAAAATTTTGATTAATTCTTGATATGGCTTGATCAGCATTTCCACCTCTTCTTCGTAAAATAATTCTTGCATTGTACAAAGCTTGTTTATTTTTACTAATTATAGGCAACATCCTTCGTGCTTCATAAGATCTACCAGCCCATGTAAGATTTTCAATTCTTTTTAAATGATCTTCATTTGTTAATATTTTTTTATATTTTTTATAAAAATCTTTACTTTGTTTCTTAGTAAATTTTTTATTAATCCAAATAGTTTTTGCTTCTTTTTTTACATTTTGAATACCTCGTTCTTTTCTTAATGAATCTAAATAATTTACATTTCCTTTTGTTGTTAAAGGCTTATTTTCTTCAAAATATTTAATTATTTCTTTATTATTAAAATTTCTTTCAATAACAAGTTCCATTTTTTTCTTAAAAAAATTTTCGTTTGGCCAATTAATGTTTTTTTCTATAAATTTTTTTGTTCTAAAAAAATTATTATTATTGTTTTGGCTCAAATAATGCCATTCTATAATTTTTTTTAATACAATATTGTTTTTCGCTGCTTTCGTAGCTTTATCCCATTTTTTTTCTTTAATTAAATCAAATATAATTTTAGATTCTTGAAATTTTTTAGATTTTATTTTATTTTTTTCAGTTCTAACTTTTGAGATTAGAATATTTGTAACTATTACTTTTTGTTTAATAATTGATACTTGTTTAGACGTCAATCCTTTTGATTCATTTTGAAACGATAGAAAAAAAAAAATTATTGAAAAAAAAATTAAAACATTTTTAAACATATTTTTTAAATTGTTTTTATACTAATAGCAACTAAATAAAAATCTATATTGTAAATATATTTTATTAATTTTTTTAAATGTTTAAAGGTTCAATAACTGCTTTAATTACCCCATTGAAAAATGGTAAAATTGATGAAAAATCTTTCCAAGATTTTGTTGAATGGCAAATTAAAGAGGGATCTCATGGACTTGTTCCTTGTGGGACAACAGGAGAGTCGCCAACTTTAACTCATAATGAGCATGAAAGAGTTGTTGATTTGTGTATTGAAGCATCTTCCGGTAAAGTGCCTGTTATAGCAGGAACAGGTTCTAATTCAACTGACGAAGCTATAAGTTTAACTAGATATGCTGAAGGTGCGGGTGCTGATGCAGTTTTAGTTGTTACTCCTTATTATAACAAGCCAACACAAGATGGATTGTACAATCATTTTAAATCAATTAATGATAATTGTAATTTACCGATTATAATTTATAACATTCCTGGAAGAAGTATTGTCGATATTGACATTAATACAATGCAAAAATTATCTAAATTAAAAAATATAATTGGAGTTAAAGATTCTTCTAATGATTTATCTAGACCTTTGCAAACAATTGATAAAATAGGAAATAAATTTTGTCAAATTTCTGGTGAAGATGCAACTGTTGTTCCTTTTTTATCACAAGGTGGGCATGGTTGTATTTCTGTTACTGCTAATATTGCGCCTAGACTTTGTTCAGACTTACATAATGCATGGCAGAAAGGGAATTTTAAAAAAGTAAAAAATATTAATACTTTTTTGTATCCATTACATAACGCTCTTTTTTTAGAAACTAGCCCTGGGCCAGTTAAATATGCTGCTTCAATTTTAAAAATATGTTCTGAAGAATTAAGATTGCCTTTAGTTAAGGTTTCTTCTAATACAAAAAAACAAATCAGATTAATTCTTAAAAAATTAAAAATTAAATCAATAAAAACTAAATAAATGTTAAAAAAAAAAAAAAACGCTATCGCTATAAATAGGCGTGCTACATATGACTATAAAATTGGTGATAAGTTTGAAGCAGGTATTGTTTTAAAAGGAAGCGAAGTTAAATCTCTAAGAAAAAATAGAGCTGATATTTCTCATGCTTTTATTAGTCAAGAAAAGGGAGAGATTTTTTTAAAAAATTCAAATATACCTAAATATTTAGCTTCTGGAATTTTAAATCATGAAACTAATAGATCAAGAAAATTATTATTAAAAAAAAAAGAAATAAATAAAATGTTAGGTAATTTAAATAACAAAGGTGCTACTTTAGTACCGTTAAGAATCTTTTTTTCCTCTAAAGGATTTGCTAAATTATTAATGGCCATCGCAGAAGGAAAAAAACAATATGACAAAAGGCAAACAAAAAAAGAAAAAGAATGGAAAAGACAAAAAAAATTAATTTAATTTAAAAGAGTAATCATTTGATATACATAGCTATAGGATCTAATTTAATTAGAGACAAAAACAAAACACCATTAGATAATTGTAAAAAAGCAATAAAGATTCTTGAAAACTATATAATTATCAAAAAAATTTCATTTTGGTATAAATCTAAACCCATACCTTCTTCAAACCAACCTTGGTTTGTTAATGGAGTTATTGAGGTTAAAACCGAAAAATCTTCTATTGATTTATTAGACTTATTATTAAAAGTGGAAAAAGATCTTGGTCGTATCAGAAATAAAAAAAATGAAGCAATTATTTTTGATTTGGATATTATTGATTATAATAAAAAAATTTTTTATAAAAAAAACAGATTAATCACTCCTCACCCTAGAATGCATGAAAGAGCTTTTGTACTATTGCCATTAAAAGATTTAAATCCAAAATGGTACCATCCTATAAAAAAGAAAAGTATAAATGAATTAATTGAAAAAATTAAAAATAAGCAAAAAATATATAAAATACTTAAAAATTAGTTGATCATTTCAAATTTTTTATTAAATTAAACTTACATATGGCAAGAGTTACTATAGAAGATTGTATTAAAAAAATTTCAAATCCCTTTGAATTAGTTTTATTTGCCGCTCAAAGAGCAAAAGAACTTAATCAAGGTGAAATTAGTGATTTAGATAAAGAAAATGATAAAAATACTGTAATTTCTTTAAGAGAAATTGCACAAGAAAAAGTTACCCCAAATTATTTAAAATTAGAATTAATAAAATCTTTCCAAAAAAATGTTTCTTTACTCGAAGAATTTGAAGAAAAAAAGAAATAATTAAATAGCTTTATTTAAAATTTAATTAAATTTATATTTATAAATATTATTATATTAGTAATAAAAATAATATTATGAATGAACAATTAAAGCTTGTTGAAAAAGTAAAAAATTATTTTCCGAAATTAAATGTAGATAATATAAACAAAGCATATAATTTTGGAAAAAAAGCACATGGTTCACAAATCAGAGCTTCAGGTGATCCATTCTTTTCTCACCCTCTCCAAGTTGCAAATATACTTGCTCAAATGAAATTAGATGAAAATTCGATTATTACTGGTTTATTGCATGATGTAATAGAAGATACATTGGCTACAAAAGATGAAATAAAAAAAAATTTTGGAATTGAGATAGCAAATTTAGTAGATGGTGTAACAAAATTATCAAAGATCACTTTAAAGCAAACAAATAAAAATACTCAAATTGAAAATTTAAGAAAATTTATTTTAGCAATTTCAGAAGATATAAGGGTTTTGTTTGTTAAATTAGCAGACAGATTGCATAATATGAGAACAATAAGCTTTTTATCAGATAATGATAAAAGAAAAAGAATCTCAAATGAAACATTAGAAATTTTTGCACCTTTAGCAGATAGAATAGGTATAAGACAAATTAAAGATGAATTAGAAGATTTAGCTTTTGATGTTTTAAACCCTGAAGTTAAATCTACTATAATAAAAAGGATAAATTTCTTAAAATCAGAGGGGAAAAATAACATTAAGTTAATTATTCGCCAATTAAATAAAGTTTTAATTAATTCTAAAATATCTGCAGAAATAAGCGGAAGAGAAAAAACTCCTTATTCAATATGGAAGAAAATGCAAAAAAAAAATATTAATTTTGAACAATTATCAGATGTTATGGCTTTTAAAATTATCGTAGATAGTGTTGATGAATGTTATACTTGTTTGAAAGAAATTCATACAAATTACCCTACTGTCCCAGGTAGATTTAAAGATTATATTAGTCTTCCAAAACAAAACGGATATAAATCAATACATACTTCAATATTTGGCCCAGCTAAACAAAAAATAGAAGTTCAAATTAGAACTAAAAAAATGGATAGAATTGCTGAATTAGGCGTTGCTGCTCATTGGCAATATAAAAACGATTTAAATTTAAATGAAGGAAAAAAATATAAATGGATAAGAGAATTAGTTGAGATAGTTGAAACATCATCAGAACCTGATGATTTTATCGAAAATACAAAATTGGAAATGTTTAAAGATCAAGTTTTTTGCTTTACACCAAAAGGAGATTTAATTGCATTGCCAAATAAATCAACACCTGTTGATTTTGCATATGCCGTTCACACTAAATTAGGCGATGTTTGTGTGGGAGCAAAAGTTAATGGTAAAATTACTCCTTTAAAGGACTTCTTAAAAAATGGTGATCAAGTAGAAATTATTAAATCAAAACATCAGAATCCTTCACCAACATGGGTAAATTTTGTAAAAACACCAAAAGCAAAAAGTAGAATAAATAAATTTATAAGAATCAAAGAATTTAAAGAACATTCAATTTTAGGAAGAAAAATTTTGAAGCATTTTTTTTCAAAGAATAGAAAAAAAATAGACGAGTCAAATCTAAAACAAACTTTGGATTTGTTTAATCAAGAAACGACTGAAGATTTATATTTTAACATCGGTAAAGGCAACTTAGATCCATTTAAAGTTTTATATGCTATATATCCATCTTTAAAAAAAGTTAAAAAAATAAATAATATTCAAAAAATCGATAAAGATAATAAATCTCTACCAATTATAGGATTACTTCCCGGTCTTGCATTAAATTATGCAAAATGCTGCCATCCTATGCCTGGAGATAAAATAGCTGGGGTAATAATAAAAGGTAAGGGATTTAATGTTCATACAACTGATTGCAATGAACTTGGAAAATATTTAAAAAAAAACATTATTTCATTATCATGGGATAATAAAAAAACTAAATTAGAAGATTATGTGGGTAGAATAATGATAATCGTTTTAAATGAGCCAGGAAGTCTAGGTGAAATTGCATCTGCTATTGGAAATAATAAAGGAAATATTATTAATCTTAAGTTAACTTCAAGAAAAAAAACTTTTTTTGAAATGCTTGTGGATGTAAAAGTAAAAAATTTAAAACATTTTACAAATATAATAGCTTCTATTAGATCATTAGAAATAGTATCTTCAGCTAGCAGAATTAAAGGAAAAGATGTATTCTAAATTGAAATTAGGAATTAATATTGATCACGTTGCAACCATTAGAAATGCAAGAGGATTGTTACATCCTGACCCAATAAAAGCAGCTTTAATTGCTCAGGATGCAGGAGCTAACAATATTACAGCTCATTTACGTGAAGATAGAAGGCATATTTCTGATTTAGATATTAAAAATCTTATTAAAAAATTGCGTATTCCTTTAAATTTAGAAATGGCACCAACAAATAAAATGGTAAAGATTGCACTTGATTCAAAAGTTAAAAGAGTTTGTCTGGTTCCAGAAAAAAGAAAAGAAATAACAACTGAAGGAGGATTAAATGTGATAAAAAATAAAAGAAAAATTTTCAATATTGTGAAAGAATTGCAGAATTATAATATAAAAGTAAGTATTTTTATTGATCCATGTTTGAAACAAATTAGTACTTGCAAAGAATTAGAAGTTTCTTCAGTTGAATTACACACTGGTGAATTTTGTGAAAATAAAAAGAATAAAAAAAGAGAATTCTTGCAAATTAAAAAATCTGCTGAATTTGCTATAGAAAATAATTTAGAATGCCATGCTGGACATGGTTTAAAATACGACGATGTAAAAGAAATAGCAAAAATTAATCAAATTTCTGAATTAAACATTGGCCATTTTATAATAGGGGAATCCATTTTTAATGGTTTAAAAAAATCTATTTTAAAAATGAAAAAAATAATAGATGATTCTAGAAAAAAAAGGTTTTATCTTAAATCGGCATAAAATTATGATTTTAGGAATAGGTATTGATTTATTAAAAGTTTCTAGAATTAAAAAAATTCTAGATAAATATGGTGAACTATTTGTAGATAAAATTTTTTCTAATGAAGAGATAAAAAAAAATAAAATTAATGTAAATATTGTTGATAAATTAGCTAAATCTTTTTCTGTAAAAGAAGCATTTGTAAAAGCTTTAGGCACAGGATTTATAAAAGGAATTTCATTAAAGGATATCACATTAAAAAATGAGAAGAATGGAAAACCTATAATTCATTTAAGTGATAGAGTTAATAAATATTTAAAAAAAATAACACCAAAAGGTTACAATTCTAAGGTTTATGTTTCAATATCTGATGAAAAGGATTATGTTATTTCGAATGTTATAATTAGTTTGCAAGATAAATAGTTTTTATGCAGCTATCAATAATTTTACTTTTTTTATTAGTTATATACATAATATTTTCAAGTGAAAGTAAATGGGAAGCTTTTAAAATTATTGTATCTGCAGGAACAATTGCATTAGTTATTAGAACTCTTTTATTTCAACCATTTACAATACCTTCAGGTTCTATGATACCTACATTACTTATCGGGGATTTTATTTTTGTTTCACAATATAAATACGGTTATAGTAAGCACTCATTACCATTTTCACTTCCAATTATTAGTAAAAGAATATTTAAAAAAGAACCTAAAAGAGGTGATGTTGTTGTTTTTAAAACACCAAGTGATAATAGAACTGATTATGTAAAAACTTTAATAGGCCTACCAGGAGATAAAATACAAGTTAAACAAGGAATTCTTTATATAAATAATCAAAAAATAGAAAGAGAAAGTATTGATAGCGCATATGTTGAGCTGAAATATACAAATGAATTTGATTATATAGAGACCTTCCCTAATGGCAAAAAGCATATTATTAGAGAATTAAGTGGAGATAATGGAGCAAATGACAATACAATTGTTTTTACTGTTCCAGAAAATAATTTTTTTTTAATGGGGGATAATAGAGATAATTCAATAGATAGTAGAATTTTAAATTATGTAGGTTTTGTACCATTTGAAAATATAGTTGGTAAAGCAGAAATAATTTTTTTTTCAATTGATAAAAATAATTACGGTTTAGGTAATTTTTGGAAATGGAATATCAGATTTGACAGAATTGGAAAAATACTTAATAAAAAAGTAAATATAGTTTATGAAGATTAATGAATTTGAAAAAAAAATTAATTATACATTTAAAAATAAAGATTTTTTTTATTTAGCTATTACACATTCAAGTTTTAAAAGAAAAGAAAATTATGAAAGATTAGAATTTTTAGGAGATAGAGTTTTATCTTTAATAATTTCAGAATTATTATTTGAAAATTATCCAAATGAAAATGAAGGGGCACTTTCTAAAAGATTATCAGACCTAGTGTCTAAGCAAAAACTAATTGAGGATGCAAATGAAATTAATATTAAAGATGTAATAAAAATTGATAATGCAGAAAAAAGAAATTTAAAATTAAAAAAAAATATCTCTATTCTTAGCGATGTTTGCGAAGCTTTGATAGGTGCAATTTATTTAGATTCTAATTTAACAAATGCAAAAAATTTTATTTATAAATTTTGGAAAAAAAAAATTGAAAAAAATATTTTACCGCCACAAGATTCTAAATCTTTTTTACAAGAAATTGCACAAAAAAAAAATTTGAATCTTCCTTTATATAAGTTAATAAAAAAAGATGGACCATCTCACAGTCCAAATTTTAAAATAGAAGTTTTTTTAAAAGGCATAAAAAAATTTTCTGCTTCAGGCAAAACAATAAAAATTGCTGAAACAAATGCAGCGAAAAAAATGATAGATTATATGATTTTGAATAAATTAATTAAATGATATGCAAGTTAGTGATGAAGGGTTTATTTTGAAAAGAAAAAAATTTAGAGAAAGTTCTTTAATAATTACATTTTTTTCTTTAAAGCACGGTATTAATACAGGATTATTAAAAGGTGTTTTAAAAAAAGATTTTGGAACATATGAAATTGGAAATAAAGTGTATATTAAATCTAGTTTTAGATTAGAAAATCAACTTTGGAATTGCAGTTTTGAATTAATTAAAAATAATAGCATTAATTATTTTGAAAATGAAAATAAATTAAATACTTTGTTATCAATTTGTTATTTAATTGATTTAACACTTCCATCAAATATAAAACAAACAAAAATTTTTAATAAAACAGAAACTATGATTGATAATCTTTCTAAGAATAATTTTATAAAAGAATATGTACTTTGGGAATTATTTTTGTTATCTGAATTAGGTTATGGTCTTGATTTACATAAATGCACTGTATCAGGAAAAAAAAAAGATCTGAAATATGTTTCTCCTAAATCTGGCAAAGCCGTATCTGAATTAGTAGGGGAAAAATATAAAAATAAATTACTTTTACTTCCAAAGTTTTTAGTTGATAAAAAAAATAATCCTTCTAAAGAAGAATTAAAAAAAGGAATATTATTAACTGGTTTTTTTTTAAAAAAGATTCTTAAACAAAATGGAAAAAGCATACCCTTTTGTAGACAGAATATATTATCTTGAACAACTTATGTTATTTTTAAAAAAAATTATTTCTTATTTTGACAAAATTAATAAACAAATTGGTATTTATACTTCTTGGCTAGTACTTTTTATGACATTAATTGCATTTTCTGTTTCTGTACTTCGTTATTTTTTTAATATTGGTTTTGTTTGGATGCAAGAATCTTATATATGGTTACATGGAATAGTTTTTTTGTTTGGTGCAGCTTATACATTACAAAAGGACCAACATGTAAGAGTTGATATCTTTTATAGAAATTTTAATGAAAAATCTAAAGCATTAGTAAATATTATTTTTTCAATTTTTTTTATTTTACCATTTATTTTTATTATTACTAAATATTCATTTCCTTATGTTTTAAAATCTTGGATTAGTTTAGAAAAATCTAGAGAGGCTGGGGGATTACCATTATTATTTTTATATAAAACTTCAATTCTTTTTTTTTGTTTTTTTTTATTTCTTCAAACAATTAGTTTAATACTAAGATGTTTTTTAGTAATCAAAAATATAGAAAAAAAAATCTATTTTAAAATTTAAAATTAAATCATGACAATTGAAATTTTAAGTATAAGCATGTTTTTAACAACTTTTTTGTTTTTACTTTTCGGATTTCCAGTTGCGTTTACTTTAGCTGGCAGTTCTATTTTGTTTGCTTTATTTGGTTCATATTTAAATTTTTTAAGTACTGATTTTTTGGCATTAATACCATCTAAAATATTTGGAACAATGACTAATGAATTATTAGTTGCAGTACCATTATTTGTATTGATGGGTTTAATACTAGAAAAATCAAAAATTGCAGAAGAATTATTGGAAACAATTGCAAGTTTGTTTGGAAAAATTAAAGGAGGATTAGGATTCACAGTTATTATTGTTGGAACTTTACTTGCTGCTTCAACAGGGATAGTTGGAGCAACTGTTGTTACAATGAGTTTATTAACTTTACCAACGATGCTTAAATGGGGTTATGATAAAAAATTTGCTTCTGGATTAATCTGTGCATCAGGAACTTTAGGACAGATAATACCACCATCTATTGTCTTAATTTTATTAAGCGATGTTCTTCAAGGAGCATATAGTCAATCACAATTATTAAAAGGTAATATTCCATCTAATCCTATTTCAACAATTGATTTATTTGCTGGAGCAATATTTCCTGGCATTATTTTGGTAGCGATGTATTGTGTATGGCAAATAATATTAAATTATATTAATCCACAAAATATTATTATTCCTTTTAATAATCAAAAAAAAATTAATTTCTTTAATGCAATAAAAATTATTTTTTTTCCAATTTTTTTAATAATTCTAGTTTTAGGTTCCATTTTATTAGGAATTGCAACGCCCACTGAGGCAGCATCTTTAGGTGCAATTGGTTCTATTTTAATAGGCTTGATAAAAAGAAATTTTAATTTAATAAAACTAAAGGAAGCAATACTTCATACAACAAAAATAAGTTCTATGATTTTTTTAATATTAATTAGTGCAAAAATTTTTTCTTTAGTTTTTATAGGTTTAGAGGGAAGAGAACTTTTAAGTTCTTTTATTGAAAAAATACCTGGAGGATCTTTTGGTGCAATGGTTTTTATTATGTTTTTAATTTTTTTTTTAGGTTTTTTTTTAGATTTTATACAAATAATTTTTACTATTATTCCAATAATAGGTCCAATAATTCTACAAATGGACATTAACCCTCTGTGGTTTGGTATTATGATAGCAATAAATCTTCAAACAAGTTTTTTAACTCCACCATTTGGATTTGCATTATTTTATTTTAGAGGTGTCGCACCAAATTCAATTAAAACTATAGATATTTATAAAGGAGTAATACCATTTGTTACGATACAATTACTTGTTTTATTATTAATTGCTAAATTTCCGCAAATCGCTTTGTGGCTTCCTGATAAACTTTATTAGTTAATTAATTAAAATTAATATTTATAAATCCTGAATAAATTAAAATAACAATTATTAGATTTAAAATAACTATAAATCTTGAAATATGACCCCATATTTTTTTTTCTACATTATAGGCGCAATTCCATATCGAAACCCATATCCAAATTGTATATGCATTTGATAACAAAAAAATTATTATTTTTATTGACCATGTTAAACCAATAGATGTGCCGAGATATAATAAAAAAAGAAGTATGTAAGCTACTAAAAATTGTAAAAAAAAACCCATAATCCAAAAAGCTTTCCAAAGTTTTTCTTTACCATTCCAATAACTAAACAAAATGCTTTCTAATTTATTTTTTTTTTTGTTATTATTCATTTTTTACAAATTTTGCTCTAGTTTCTAGGAATTTTTTTTGATTTTCGGATCTTTTTATTGAAGCATTTCTAAATTTAATAATACTTTTATAAACTTTTTTACTTAAATCATCAGATGATGATAGTTTGTTTAAAACTTTTTCAGATAATAAAGCCAATTTTTTTAATACATTATCTGGATAAGGCCTTACATCCACTTTGTGTTTTTTTATAAGTGTTTGTAATGCTATATTATTACCAGCTATCATTTCATTTGTCATTTGCTGTGTTGCTGCTTTTGCTGATAAGGAAATTATTTTTTTTAAATAATTTGGCAATGAATTCCATTTATCTAAATTTATAAAACAATCTAAAATGGCCGCTGGTTCATGCCATCCTGGATAATAATAATATTTTGCTGCTTTATAAATACCAAAAGCAAGATCATTATATGGTCCAACCCATTCTAGTGCATCTATGGCGCCTGATTGAATAGATGTAAGTAATTCACCGCCATGTAAATTTACAACTGTACCTCCAGCAGCTTTTATTACTTCACCACCTAAACCAGGGGCCCTCATTTTCAAACCTTGATAATCTTCAATTTTTTTTATCTCTTTATTATACCATCCACCCATTTGTGGACCGGTGTTACCACAAACAAAAAATTTACAACCCATTTTTTTATAAATTTCATCAGCAATTTCTTGTCCACCACCTTTTTCAAACCAAGAATTTTGTTCTTGAGGTGTTAAGCCAAATGGTATTGCCGATAGATATTGTGCCGCTGTAACTTTCCCTTTCCAGTAATATGGTCCGCCATGACCCATTTCGATTGCACCACTTGAAACAGCATCCATTGCTTCAAAAGCCGGCACAATTTCACCTGCTCCAAAAACTTTAATATTCATTTTACCACCAGAACTTTCATTAATCATTTTTGCAAAAATTTCTGCCCCAGTTCCTAGACCAGGAAAATTTTTCGGCCATGTTGTGACCATTTTCCAGTTATATTTTTTTTTTGAGTAAGTATTTTTGGGAATAAAAGTAGATAAAGTAGCTGCACCTGTTAAAATTGCAGTCTTCTTTAAAAAACTTCTTCTATTATTTTTTTTTTTCAAAAATATTTTCCCATTTTTTATTTTTAAGAATTTCAATAGGTTGAAAATTTATCTTGTATGACATTTTTTTACTTTCTTTTATATAATAACCTAGGTATAAATACTTTTTTTTTTGTTTTTTTGCTTCATCAATTAATTTTAGAATTAAAAAAGAACCTAAGCTTCTATTTTTAAATTTTGGATTATAAAATGAATAATTTGCAGAAAAAGAATTTTTATACATATCATATAAAATTGATCCTATAAAAATATTATTTTTGTAAATGTTTAGCATTTTAGTTTTTATAGGAGAAATTTCGATCATAGTTTTAAAATCTAAATATGACATATCTTTCATTTCTCCTTCAGAATGCCTTAATTTTAAATAATTTTTAAATAATTTATATTGATTATAGTTTGTTTTTGGTTTGATTATTTGTATTTTTATGTCTTCATTCTTTTTTTTTATTCTTTTGAATTTTTTTGTGAAAATAAAATTATTAATAATTATACGAGTTGAGATGCATTCGTTACATGACTTACAATTTGGCTTATAAAAGGTATTTTCACTTCTTCTAAATCCATCTGTAGTTAATTGTTCTAATATATTAGGATTTATAATATTTGTTAAATCTGTAAATAATAAATATTCATTTTTTCCTGCAATATATGGGCAGGGCCGTGGTAAAGATTTATGAAAATTTAAATTTCTATATATTTTTATTGGTTTATTCATTTTATAAAAATTTAGCAATATCTATTGCACCATAACAAAATATCGCTGATGCACCTGATCTCTTAATTGAAATTAAGCTTTCGTATAGACATTTTTCGTAGTTAATAATTTTATTTTTTTCACCAAATTTAAGTAAAGAGAATTCTCCACTTACTTGATATGCAAGAACAGGAATATTAAATTTTTTTTTAATTTCATTAATAATATCTAAATAAGGTAATGCTGGTTTAACCATGACCATATCAGCTCCTTCTTTTATATCCATAGCCACTTCTCTCAAAGATTCTTTAGAATTTTTATAATCCATTTGATATGTTTTTTTATCAGCTTTTTTTAGATTTTTATTTGATCCAATAGCATCCCTAAAAGGTCCGTAAAAATTTGATGCAAATTTAGCTGAATATGACAGGATAATTGTTTTATTAAAACCTTCTGCTTCTAGCCTATCCCTTATAATGCCAATTCTACCATCCATCATATCGGAAGGAGCAATAATATCTGCTCCTGCTTCTGCTTGAATTATTGCTTGTTCTGATAAAATTTCTATAGTTTCATCATTTAGAACATCATTATTTTTTAATATTCCATCATGTCCATGAATTGTGTATGGATCCAGCGCAACATCACAAATTAATCCAATATCAGGGAAATTTTTCTTAATTTCTTTAATTGCCCTACAAATTAAATTATTCTTATTTAATGCTTCTTTACCATCAGTAGTTTTTAATTTTTTATTTATATAAGGGAAAAGAGCTATAGCAGGTATGCTGTATTTTGCTGCTTCTTCGACTTTTTTAAGAATTTGATCAATACTATATCTGTTAATTGATGGAATAGAGGCGATATTTTCATTTATTTTTTTTCCTTCGATTACAAATAAGGGTAATATAAGATCATTAGATGTTAGATTATTTTCTGAAATTAAATCTCTAGTCCATTTTTTATACCTATTTCTTCGTAATCTAGTACGAGGATACTTACCAATAGTAAATCTTTTATTCATTTCCCAAATTGATCCCAATTAAAATTTTTTTTATAATTAAAATAAAGTATAAAAAAAATTACACATTAATAGAATATATATTGTAAAAAATCTTAAAATTTAAATGAAAAAAATAAATTTTAATAATCTTTTTTTTAAGTCTGTTTTAGAATTAAAAAAAAAAAATCTTAATAGAGATCTTCGATCTTTAAAAAGAATAAATTCAATAAAAATAAGATATAAGAATAAAACCTTATTAAATTTTTCTTCAAATGATTACCTTGGTTTATCTCAAAATATTTTTATTAAAAATAATACAATAAAAATAATAAAAAAATATGGAATAGGAAGTGGATCATCTAGATTAGTTTCAGGAAATTTTGATTTACATGAAACTATTGAAAAAGATCTCGCCAAGAAAAAAAAAACTGAGTCGTCTTTAATTTTTAGTACTGGTTATTTAGTAAATTATTCAGTTTTATCTACAATTTTAAACTCAAATTTATTTAAGAATCCAATAGTATTTTCAGATAAATTAAACCATCAATGTATTTATGAAGGTTGTAATAATAAAAAAATTAATTTTATTCGTTATCGTCATAATGATATGGATCATTTATAATAAATGTTAAAAAATAATAAAAATAAAAATAATGCAAAATTTATTTTATCTGAAACTATTTTTAGTATGGATGGTGATTTTGCGGATATAAAAAATCTTATTTTTTTAAAAAAAAAATATAATTCTTTTTTATTTTTAGATGAGGCGCATGCAACGGGCATTTATGGTAAAAATGGATTTGGATTATCTAGTGAATTTAGTAGTTCTATAGATTGTGTTACTGGAACTTTCAGTAAAGCTTTAGGTAGCTTTGGTGCATATATTGCATGTAGTAATAAACTTAAATCATTTTTAATTAACAAATGTCCTAGTTTTATTTATTCAACTTCTTTGCCATTTAGTTTATTAGCCTCAATTCATTCTGCTATAAAAATTATTCCTAAATTAAATAATGAAAGAAAGAAATTAATTAAAAATTCTTTTTATTTTAGAAAAATATTAAAGAATAATAATTTTAATATTGGTTCTTCTCAAACACATATAATTCCAATAATTATTGGCGATCCATTGCAAACAATAAAAATATCTCAAAAATTAGAAAATGATGGGTTTTATATTGTATCAATAAGGCCACCTACTGTAACTTTAAACAGTTCTAGATTAAGATTATCTTTATCTAGTTTACATACTAAAAAGAATATAAAAGATTTATTTAATTCATTAAAATTAATTAAAGAAAGTTTTTAATTATGACTAATAATAAAGGTTTTTTTATAACTGGAACTGATACAGGAGTTGGAAAAACTTTTTTTACTTCAATTTTATTACAAAAATTTAATTATGATTATTGGAAACCAATCCAAACAGGTAATTTTATTGATAATGACACATTAAATTTAAAAAAAATATTAAATTCAAATCATATTAAATTTCATAAATGTTCTTATTCATTAAAAAAACCATTATCCCCTCATTTAGCATCAAAATATCAAAATATTATAATTAATATCAATAAAATTAGAAAACCTAAAACTTTTAAACCATTAATAGTTGAAGGAGCAGGAGGCATTCTTGTACCTTTAAATAAAAAAAAATTAATTATTGATTTAATAAAAAAATTTAGATTACCAGTTATAATTGTTTCTAAATCAATTCTTGGGACAATTAATCATACTTTAATGACTATAGAAATATTAAAAAAAAATAAGATAAATATATTTGGCGTTGTGCTTAATAATATAAAGAAAAAGAAAGAAGGTGATGAAAATGCAAAATCAATTGAATATTTTGGAAAAACAAAAGTTTTAGTTAAAATTCCATCAATAAAAAATATAAGTAAAAAAAAAATTTTAAACTTATCAAATAAAAAATCTTTCAATAAATTTAAATTATGAAAAATTCACAATCAATTAAATTGGATCAAGAACATATTTGGCATCCATTCACACAACATAAAATTTCTCCAATACCAATTAAAATAGTATCTGGCAAAATGACAAAAATCCGGGATGAAAATGGAAAATCATATATTGATTTAATATCTTCATGGTGGGTTAATGTTCACGGACATTCTAATCCAGATATAGCTAAAGCGATTTACAAACAATCTAAAAAATTAGAACAAGTTATTTTTGGTGGTTTTACACATGACCCTGCAATAAATCTAGCAAAAAAGATTACAGATATATTACCTAAAAATTTAAAAAAAGTCTTTTTTTCTGATAATGGTTCAACGGCTGTTGAAGTAGCTTTAAAAATTGCTTATCAATATTGGTTCAATCAAAATAAAAAAAAGAAAACCTTTATCGCATTCAAGAATGCATATCATGGTGATACAGTTGGCGCAATGAGCTTGGCTTCGGGCTCTGATTTATTTTCAGTTTTTAAAGATTTATTTTTTAAAATAAAATTATTTGATTACCCATCTACTTGGCATGGAGATAAAGAAATAGAAAAAAAAGAAAATTTAATATTAAAAAAAATAGATAATGAATTAGAAAAAAATAATGATATTGCTGGTTTAATAATAGAACCATTAATACAAGGTTCGGGAGGTATGAATATTTGTAGAAATATTTTTATACAAAAATTATCAAGATTATTAAAGAAACATAATAATCTTTTAATTTATGATGAAGTAATGACAGGTTTTGGAAGGACAGGTGATTTTTTTGCTTGTTTAAAAACAAAAACAAAACCAGATATTATTTGTCTTTCAAAAGGTCTGACAGGCGGATTTCTTCCTTTATCTTTAACAATAACGACTAATAAAATATTTAATAATTTTTTAGGTGATAATTTTGATAAAGCATTACCTCATGGACATTCTTTTACAGCTAATCCAATTGGTTGTGCTGCTTCAATTGCTTCATTAAATTTATTTAAATCAAAAAAAATTTTCAAAAAAATTAAAAATATTGAGAAAAATCATTACAGTTTTAAAAAAAAATTATTGAAGTTAGAGAAAATCGAGAAAATTAGAATATGTGGAACAATTATTGCTTTTGATATTAAAGGTTTTGGTTCTGGTTACAAAGCTATTATTCCAAAAAAATTAAAAGATTATTTTTTAAAAAAAGGATTATTATTAAGACCATTAGGAAATGTACTTTATATTATGCCACCTTATTGTATTTTAAAAAAAGAATTAAAATATGCTTATAAAATAATTTACGAAGGTTTAAAAAAAATTTAAATGAGATTAGATCATATAATTAATGAAAAATTTGAACCTATTTCAAATTCAATTTCTAATATTATTTTTTATAGTATCGATTATGGCGAAGCTCAAATAAAATTAATAGTTGTTTGGCTTTTTATTGCAGCATTATTTTTTAGTTTTTATTTAAAATTTGTAAATATTTGGGGATTTAAACATTCTATAGATCTTATCTCTGGTAAATTTAGAAATAGATTTGATAAAGCTCGAGGTGAAGTGACACATTTTCAAGCATTAACAGCTGCATTATCTGGAACTGTTGGTTTGGGTAATATTGCAGGAGTAGCTGTTGCAGTGTCTTTGGGTGGGCCAGGAGCAACCTTATGGATGATTTTTGCTGGCTTTCTTGCAATGGCTGCAAAGTTTGTTGAATGCTCTTTAGGATTGAAGTATAGAATTTTTAATAAAAATGGAACTGTATCAGGAGGACCAATGTATTATTTAAGCAGAGGTCTTGGAAATATTGGATATATTAAATTAGGAAAGATTCTAGCTATTTCATTTGCCATTTTTACAGTTTTTGGTTCTTTTGGAGGTGGAAACATGTTCCAATCTAACCAAGCTTTTAAACAATTAATTACAGCAACTGGTGGAGATGCGAGTGTATTTAATGGCTATGGTTGGTTATTTGGATTTATTCTTTCAATTATTGTTGGTGTTGTAATAATTGGTGGCATAAAAGGTATTGCTAGAGTTACTGAAAAAGTTGTCCCATTAATGGGTGGTATTTATTCTTTAGCAGCATTAGTAATAATTTTTATAAATTATGAAATGTTACCTAGTGCTCTGCATAGTATATTTACAAAAGCTTTTTCTCCTGAAGCAGGAATGGGTGGAATATTAGGAGTTCTTATTGTTGGTTTTCAAAGAGCAACGTTTTCAAATGAAGCTGGAATTGGTTCAGCTCCAATAGCTTATTCAGCTGTAAAAAGTAATGATCATATGTCTGTTGGTTTTGTTTCACTTTTTGAACCTTTTTTTGATACAGTAGTAATATGTACTATGACAGCATTAGTCATAATTATTTCTGGTGTTTACGATTCAAACACTGGAATTTCAGGTGTTGAATTAACATCTCAAGCATTTAAAAAAGATATAAGTTGGTTTCCATATATATTGTCTTTAGCTGTTATTTTATTTGCTTTTTCTACAATTATTACCTGGTCATATTATGGAATGAAAGCATGGACTTATTTAGTAGGCAATAATATTTTTACTGAAAATTTTTATAAAATTATTTTTTGTTTATTTATAATAGTTGGGGCGGCATCAGATTTAGGTAGCGTAATTCATTTTTCTGATGCAATGATTTTTGCAATGGCATTTCCTAATGTAATAGGAATGTATTTTTTAGCATCTGGACTTAAAAAAGATTTAAAAAATTATAAAAAAAAGTTTATATAATTTTATATCAAAGATATAAGATTAATAATGGAAAAAAAAATAATAACAATTGCTTCTGATCATGCAGGTTATGAATTAAAAAATTCATTAAAAAAAGAAATTGCTGATATTGGTTTTAAAATTTTAGATTGTGGAACAAAATCTGATGAATCTGTTGATTATCCCGATTTTGCAAAACTAGCAGTTGAAAATATTTTAAAAAAAAAAAGTGATCTTGCAATCTTAATATGTGGTTCTGGTATAGGAATGTCGATGACAGCCAATAGATTTAAGGGTATCAGAGCAGCTTTGTGTCATAATACTAATGAGGTTAAAATGGCAAGACAACATAACAATGCAAATGTTTTGGTACTTGCAGGCAGACAAATAGATGTAGACGAAGCTAAAAATTGTTTTAAAATATTTGTTAACACCTCTTTTGAAGGTGGACGACACAAAAAACGTATAGATAAAATTGATTAACTATATATATTATTTTTAAATTATGACATTAAACACAGATACAAAATCAAATTTATTTCAGGATCAATTAACGTCTACAGATCCTGAAATAACAGAAGCTTTACAAAAAGAACAGATAAGACAATCTGATCAAATTGAATTAATTGCCTCTGAAAATATTGCTTCTTTAGCAGTTATTCAAGCTCAAGGTTCAGTAATGACAAATAAATATGCTGAAGGTTATCCAGGTAAAAGATATTATGGAGGATGTGAGTATTACGATATTGTTGAAAATATTGCTATAGAAAGAGCTAAGAAAATTTTTAATTGTTCTTATGCCAATGTACAACCAAATTCTGGTTCCCAAGCTAACCAAGCAGTAATGCTTGCCTTGATAAACCCGCATGATACAGTCGTTGGAATGTCTTTAGATGCTGGTGGTCATTTAACACATGGTGCAGCACCAAATGTTTCTGGTAAATGGTTTAATGCTGTTCAATATGGTGTTAAAAAAGAAGATGCACTTTTAGATTATGATCAAATAAAAAAACTTGCATTAGATAATAAAACAAAATTAATAATTGCTGGAGGCTCAGCCTATCCTAGAATTATAGATTTTAAAAAAATTAGAGAAATTGCTGATGAAGCTGGTGCTTATTTTTTAGTTGATATGGCACATTTTGCTGGGCTAGTTGCCGGTGGAGAATATCCAAGTCCATTTCCGCATGCTCATGTTGTAACAACAACAACACATAAAACATTAAGAGGCCCACGTGGTGGAATGATTTTATCAAATGATGAAGAATTAGGAAAAAAATTTAATTCTGCTGTTTTTCCTGGAATGCAAGGAGGCCCTTTAATGCATGTTATAGCTGCTAAAGCAGTTGCTTATGGTGAAGCATTACAGCCAAGTTTTAAAGAATATATTATTGATGTAGTTAAAAATGCTAAAATTTTATCATCTACTTTAATAAATAGAGGTGTTGATATTGTATCTGGTGGAACAGATACTCATCTTACGCTTGTTGATTTAAGACCTAAGAAATTGACAGGTAAAGATGCAGAGGCAAGTTTAGAAAGAGCTGGACTAACTTGTAATAAGAATGGAGTTCCTTTTGATCCAGAAAAACCTTGGATAACATCAGGTGTTAGATTAGGAAGCCCTGCAGGAACAACTAGAGGATTTAAAGAAAATGAATTTGAAATTATAGGAAATTTAATAGGTGATGTCTTAGACGGCTTACAAAAAAATTTACAGGATAATACAGAAACTGAAAAAAAAGTTCGTCACGAAGTATTATCTTTATGCAAAAAATTTCCAATTTATTCTAAATTACTTTAATTAAATTTAAAAAATGGAACGCTCAAGTTCTGAAAAAGATAGGTATTTCATGAAAAATGCTCTTAATTTATCTTTAAGGGGTATAGGTAATACATATCCCAACCCTTCCGTAGGTGCTATTGTTGTTAAAAAAAATAAAATTTTAAGTAGGGGTTGGACACAGCGAGGAGGTGTGCCTCATGCTGAAATTATTGCTTTGAAAAAAAAGAATTTTTCCGGAGCGACTTTGTATACTACTTTAGAGCCATGTTGTCATTATGGAAAAACTCCTCCGTGTATTAAACAAATTATAAATTCAAAAATTAAAAGAGTAGTAATTGGTGTAAAAGATCCAAATCCAAAAATTAATGGTAAGGGTATTGATGAGTTAAAAAAAAACAAAATTAATGTAACATTAGGTGTTTTAAAAAAAGAAATAAAAAAAATACATTTAGGTTTTTTTTCTAATTTAATAAATAATAAACCCTTTGTTTCAAGTAAAATTGCTATAAGTAAAAATGGTAAAATGATTAATTCAAATAGCCGATGGATTACTTCAAAAAGTTCAAGAAATTATGGAAATTTTATCAGATCAAAACACGATGCTATTTTAACAGGAATAAATACAGTTTTAAAAGATAACCCATTACTAAATTGTAGGCAAAATGGTATGGATTCTTTATCACCTGTAAGATTTATTTTAGATACTAAATTAAGAATAAAGACAAATTTAAAAATTATTAAATCATCAAGAAAAATTAAAACTTTTATTTTTACTAATACAAATAATAAAAAAAAAATTTTAAAATTGAGAAAGTTTGGAATTAAAATTTTAATTTTAAATGAAAATTCAAAAAGAATTAATTTAGAAAGAATACTTTTTGAAGTTGCAAAACTTGGGTTTAATAATATTTTATTAGAAAGTGGACCAAATCTTAATTATGCTTTTTTAAAAAAGAAATTAATAAATAAAATTTATTATTTTCAAACTAAAAAAAATATAGATTTAGATTTGATACCAGCAGAAAAAAAAATAAATATAAAACATATTGAAAAGTTAAAGTTTAGAAAAATAGCAACCAATTTTATTGATAATGATATTTTAAAAATTTTTGAAAAATAATGTTTACAGGAATAATTCAAGATATAGGAGAAATTGTAAAAATTAAAAAAGAAGAAGATAAAAAGTTTTTTGTTTTAACTAACATTGATTATAAAAAATTAAAAGTTGGATCATCAATATGTTGTAATGGTATTTGCTTAACTATTATTAAAAGAGAAAAAAAAAAAAAAAAAAAAAATTGTTAAGTTTTTAATAAAAAAAAAAAAAAATTAAATAAAAATAAATTAAAT
>sequence02
AGCAAAGTAATTCTTTTTACTTTTTTAAAAAACCTCGTAATTTATTTACGAGGTTTTTTTTTATATGAAATTTAAAAAAGGTAACTCTAGAATTAGGTGGTAAATCACCTAATGTTGTTTATAAAGATGTTGCTGATATCAAAGCTACTGCTGCAGGTGCAGCAAGTGCTATATTTTTTAATCATGGACAATGTTGTTGTGCAGGTTCAAGACTATATATTGAAAAACCAATTTTTGATGATGTAGTTTCAGAAGTATCTAATATTGCTAAAGGAATGAAAGTGGCCCCTGGTCTTACAAGCCCAGATATGGGTCCGTTAGTATCTAAAGAACAATTTGAAAAAGTCCAAGGCTATATTAAGTCTGGATTGAAGGAAGGTGCTAAATGTACTGTTGGAGGAGGGACTGTTGGTGATAGAGGTTATTTTGTTGAACCAACTGTTCTAACAAATGCATCTGACTAAATGCAGGTAATCAAAGAAGAAATTTTTGGGCCTGTAGTTGCTGCAGAACCTTTTGATGATCATGAGGAAATTATGTCTCGTTCAAACAATTCAAATTATGGTTTAGCCGCAGCAGTTTGGACAACAGATGTACAAAAAGCTATTAGAACCGCAGAAGCTTTTCGAGCGGGTACTGTATGGGTAAATTGTTATAATATTTTCGATGCTGCTCTTCCATTTGGTGGTTATAAACAATCAGGATGGGGCAGAGAAATGGGATCAGAAATATTAGAAGCTTATACTCAAGTTAAATCTGTAGTTATAGCAAAGTAATTCTTTTTACTTTTTTAAAAAACCTCGTAATTTATTTACGAGGTTTTTTTTTATATGAAATTTAAAAAAAAAATAAAAACTAAATGGCACCAGAAAAGATTAAAAGATAAATACTTTTCAGAAGCAAAAAAATTGGGTTATAGATCGCGCTCAGCATTTAAACTGCTAGAAATTAATAAAAAATTTCGAATATTGAAGAAAGGTCAAAATGCTCTTGATATAGGTGCAGCTCCAGGAGGCTGGTCTCAAATTTTAGTACAAAAAGTTTTTTCAAAACAAAAAAAAAATACAATTATATCTGTTGATTTAAAAGAATTTAAAGAGATACAAAATCTATATTTTATAAAAAAGAATATTTTTGATGAAAATTTTATTTTATTTATAAAAAAATATTTTTTAAACGGTGTTGATATTATTATTTCTGATGCATCTCCATCAACAAGTGGTAATAAATTTGTAGATCATATTAAAATCATTGAATTAGCAGAAAAATCTTTAGAGATAGCAATAAATTTATTAAATAAAGGAGGCGTATTAGTTATAAAAATTTTTGATGGAAAAGAAACTAAAAGAATTATTAATATAATTAAAAAAAAATTTTTAAAATTAAATTTATATAAACCTAAATCTAGTAAAACTAAATCAAAAGAAATTTATATTATAGCTAAATTTTTTAAATAAAAAAAAACTTGAACCTATAGTTAGTAATCCTTATTATTGTATATGGGTAGAAAAATATACGACTCACTTACTTTTGATGATGTCTTACTCAAGCCATCTTCCTCTTCAATCTTGCCTAAAAATGTTAATACTAAATCTTTTTTAACTAAAACTGTTGGACTAGAAATTCCTATTATTTCTGCTGCAATGGATACAGTAACAGAATCTGAAATGGCAATAGTAATGGCTCAATCCGGTGGTATAGGTTCAATTCATAAAAATATGTCAATTGAAGAACAAATGAATGAAGTTAAAAAAGTCAAAAAATTTGAATCTGGAATAGTTGTTAATCCTGTTACTATTTCAAAAGATAAAAAACTAAAAGATGCATTAGATGTAATGAAGAAAAATAAAATTTCAGGTATCCCGGTTGTTGAAAAAAATAATAAATTAGTTGGAATTTTAACAAATAGAGATGTTAGATTTGTTTCTAATTTAGAGATTAAAGTTAAAGATCTTATGACAAAAAAAAATTTACAAACTGTAAGAGAAGATGTGAATATGGAAAAAGCAAAACAAATCTTGCATAAATTTAGAATAGAAAAATTAATTGTTGTAGATAAAGATTATAAGTGCGTTGGGCTTATAACAGTTAAAGATATTGAAAAAGCAAGAAAATATCCGAATGCTTGCAAAGATAATAAAGGACGACTTCGTGTTGCAGCTGCAGTTGATGCTGGTGAAAAAGGTATTGAAAGAGCGTCTGGTTTAATGGATGTAGATACAGATGTTTTGATTTTAGATACAGCACATGGACATTCTAAGAATGTTATAAATACAGTAAGAAAAATAAAAAAAAAATCTAATTATACTCAAGTTATAGCTGGAAACATTGCAACAAAGGAAGGAGCACAGGCTTTAATAGATGTTGGTGCTGATGCGGTAAAAGTAGGAATAGGACCTGGTTCAATTTGCACAACAAGAATGGTAGCAGGAGTAGGTGTTCCACAATTATCTGCTATTATGGAAGTATCAGAAGTTACTAAAAAGAAAAAAGTCCCTCTTATAGCTGATGGTGGAATTAAATATTCTGGAGATATTGCAAAAGCAATAGCAGCAGGAGCGGACACTATTATGATTGGCTCTCTTTTAGCTGGTACTGATGAATCTCCAGGCGAAGTTTATTTATATCAAGGAAGATCTTATAAATCATATAGAGGAATGGGCTCTATATCTGCAATGTTAAAAGGTTCTGCAGAAAGATATTTTCAAGACAGTAATTCAGAAGTTCAAAAGCTTGTTCCGGAAGGAGTTGAAGGACAAGTTCCTTATAAAGGACCAGCAAATATAATTTTAAATCAATTAATTGGTGGTTTAAGATCTTCTATGGGATATACGGGTAATGAAAATATAAAAAAAATGAAAAAAAACTGTCAATTTATTAAGATTACAAGTTCCGGACTTAAAGAAAGTCATGTGCATGATGTAACTATTACTAAAGAAAGCCCAAATTATAAACCTGAAGGAACAAGTTAAATTTTATTAATGGATAAAATTTTAATACTTGATTTTGGATCCCAAGTTACTCAATTAATAGCTAGAAGGATTAGAAAAAAAAAAATATATTGTGAAATACATCCTTACAATATTTCAAAAGAAAAAATAAAGAGTTTTTCACCTAAAGCGTTAATATTATCAGGAGGACCTGCTTCTACTACTTTAAAAAAATCATTAAAACCTAACAATTTTATTTATTCCTTAAATATACCAATATTAGGAATTTGTTATGGCCATCAATTATTATGTAAAAGCTTTGGCGGGAAAGTTGTTAATTCAAAAAAGAGAGAATTTGGAAAAGCTTTTATAAAAATTAAAAATAATTCTGAATTATTTAAAGGAATTTATAAAAAAAATAGCGAGTATCAAGTTTGGATGAGTCACGGTGATAAAGTTTCTAAATTACCAAATTCATTTTCTATAATCGCATCAACATTTAATGCAAAATTTGCTGCAATAGCAAATGAAAATAAAAAAATTTATGGGTTACAGTTTCACCCAGAAGTTATCCATACTTTTAATGGAGAAAAAATTTTGGAAAATTTTGTAAAAAAAATTTCCTTATGTAAACCTGGTTGGAAAATTTCAGATTTTATAAAGAATTCTATAAGAAAAATAAAAGAAGAAGTTAAAGATGATGGGGTAATTTGTGCTTTATCTGGTGGAGTAGATTCATCTGTAACTGCAGCTCTATTAAATAAAAGTATAGGAAAACAATTAAAATGTATATTTGTTGATACAGGCTTACTTAGAAAAAATGAGGGAAATGAGATTGAAAAAGTTTTTAAAAAAAAATTAGGAAATAATTTTAAAAGAATAAACGCTAGAAATCTTTTTTTAAATAAATTAAAAAATATAATTGATCCAGAAATAAAAAGAAAAATAATAGGAAAATTATTTATTGATATTTTTAAGAAAGAGTCAAAAAAGTTTAAATCTATAAAATATCTGGCTCAAGGTACTTTATATCCGGATGTAATTGAGTCGAAATCAGTAAGAGGTGCACCATCTGTAAAAATAAAGTCTCATCATAATGTTGGTGGATTACCAAAAAAATTAAATTTTAAATTAATTGAACCATTAAAAGAATTATTTAAAGATGAAGTAAGAATACTTGGAAAAAAATTGAACGTTCCTGATCTTATATTAAAGCGACATCCTTTTCCTGGACCTGGTTTAGCTGTAAGAATACCTGGAAATATTACTTTAGAAAAAATTGAAATTTTACAACAGGCAGATTTTATTTTTATTCAAGAGTTAAAAAAAAAAAAACTTTATGATAAAATTTGGCAAGCATTTTCTGTTTTATTACCAGTTATAACAATTGGAGTTATGGGAGATCAAAGATCTTACGAATATACTTGTGCATTAAGAGCAGTAACATCAGTTGATGGTATGACTGCTGAACCATATTATTTTAATTCGAACGATTTAGCTCAAATAAGTACTAAAATTGTAAATGAAGTTAAGGGTGTTAATAGAGTTGTATATGATTATACAAGTAAACCTCCTGGAACTATTGAATGGGAATAGAAATTTTATTATAGTAAGGATTTAAATTATAATTTATAAAAGATAAAAATGGGCGTTGTCATTGATCAAAATAAAAATTATGGAGGCATATTCGGAAGCGTATATAGATCTTCAGCAATTTTTTATAAACCTCCAAAAATAAGCTGTACTGTATCAGTTTCTAACTATTGGGATTTTAAAAATAGTATTGAAGTTGGTGTTGTTGTAACACTACGTAAAATGTCAGGAAAATTAATTGATAGAAAAGAATATAGGTTTGATGATGCTAATGTTTTGAATATAAAAACTGATAATTTGGAAGAAGGTTCAATTGAAGTTGAATCTTTTTCAAATAGAAATGTTAGAATTCCCTATGCTGCAGTGATGGCAGTTTATGAAACTGATGTTAGCGTCTCAATGGTACATTCATATGGTAGAAATCATTCTTTAATTGAATTAGAAGATAAAAATAGTTTAACTGAAGGACGTGAAAGTTGTTGGACTGTTAGATCTTCAGAAAGTGTTTTAAATTCTGCTTTTTTTCATAATGGACATTTAAAAGTTGAATCTCAAATAGTAAAGATAATTTTAACTGATACAAATGGCGTTGATAAAGTTTATGATTTTAAAATTCCTGATATAAAACCATTTGAAACGATTAAATTTTCATTAGATAAAATTTGTCCTGATTATAAAAATTTTTTAAATGGATTAGATGGATGGGCTTCTATCCATTTTAATAATCATTCATCTTTTACTCGATTATTAGTAACATGGGAAGATAAAGATACAGGTCATTTTCAAGTAACTCATAGTAATTTTGATTACTCGGAGCATCAAACTAATTTAATAAGTGCAACAAAACCCGCATATATGAAATTGCCTAAAATTGATGGATTGAATACTTTATCAGCTACTGTATATCCTAAATTTACACCAGGAAAATACACAGCAAAAACTGGTGATTCAACTTTTAATTTTGAAACAGGAATTATTATTAAGAGTGAAAATGATTCAATTGAATTTGAAAGAGATGATGGAGATTTACCTGCTAGAATAGTGACTGGGATAATCGGTAACTTAGATTCTAATCATGTCCCTTTTGAATGTTCACTTGGAATTGTTCATGAAAATAGACCACCGAAACGTTTTCATTGGGCAGTAATATCAAAGCGTTTAAGTTCTAAGATTTATATAACAAATTATAAAGAAATTTATGGTATTCCTAAAAAAGATATTATTATTGCAGTATCTCTTTATAATGCAAAAAATAAAAAAATTTCAAAATCTGAATTAAAATATAAAAATCTTGATGCTATTCCAAGTTATATTGATCCTAAAAAAATATTTTCTAAAAATATTAATGAATTGGGTAATGATTTTGGCTATGTGTCGGTTTTTTGTGAGTATGGTGGTTTATTTCTCTTTTCAACAATCACAAAAGGATCATCAATGTCATTAGAGCATTCTTTCTAATTAAATTAGATAATATAACTTTAAAAATCTTTTTTTTTCTACTTTTTTTAAGATATTTAAAATATCTTTAATATATTTTGATTTTTTTAATTCTATATTTTTTGAATATATGAAGAAAACTTTTTTATTATTCTTGATAATTGAAAATTCAGGATATGCTAATGTATGTTTATATATAGAAAATTCAGCATAATTATTTTCAAAATTTATTGAATAATCTTTCCAAATTCCATTAGATACTTTTTGACTATATACGCTAATTATTGAATTAAGATCGCATTTAGTAAATGTAACCTTTTCTTTTGCTTTCATATATTTAGAAAAATGGTAAATTTTTGACATATATTAATTAAATAAAAAAATATTTATTATTATATATTAATTATGCCTGAAGTAACTCCTATATGTCAATTTGGTACTAAAGCAATTTCTTTTAGTTTAAAAGGAATAGATAATAGAATTTATAATTTAGATGAAATACAAGGAAACAATGGAACTTTGATAATGTTTATTTGCAACCATTGTCCTTATGTTAAAGGAGTAATTGATAGATTAGTTTCTGATGTTATGTATTTACAAAAGAAAGGAATAGGTTGTGTCGCTATTATGTCTAATGATGTAGTTAAATATCCTGAAGATTCTTTTGAGAATATGAAATTTTTTTCTCAAAAAAATAATTTCACCTTTCCTTATTTATATGATGAAAAACAAGAAATTGCTAAATTATATGGCGCTGTATGTACGCCTGATTTTTTTGGTTATAATAAAAATTTAGAACTCCAGTATAGAGGTAGATTAGACAACTCAGGTATTTCTGGTGAAAAAGTAAAGGATAAAGAATTGTTAAATGCTTTTAATAAAATAATTAAAACTGGTAATGGCCCTCAGAAACAAATATCTAGTATGGGATGTTCAATTAAATGGAAATAAAATGAGTGATCAGAAAAATTTTATTAGAGAAATAGATGAAGAGGTTAGACAAGATAATTTAAAAGATGCATGGAAAAAATATAGAAAGTTTATAATTAGTTTCATTTTTTCAATTATCTTTTTAGTGAGTGTAATTAATTTTTTAGATTTTTTAAATGAAAAAAAGGTAAAAAAACAAAGTGAATTATTTTTTCGAGCTATTGAATATGTAGAACAGGAAGATTATGAAAATGCTCAAAATTTATTTAAAGAAATTAATAATTCAAAAATTAAAGGATTTAGTGATTTATCTTATTTATATTTAATTGATCTTATAAATAAAAAAAAAATATCTTTAGATTTAAAAAATTTTAAAGCTGATAAAAAAAGTTTATTTTATGATTTAATTATTTTACAAAAATTTAATAGCGATCTTAATATAGAAAATAATGATCAATTAAATATTGAAGAAATTATTAGAATTTCAAAACCATCTTCAAATTGGAGTTTTATTGCAAATGAATTATTAGCTTCGTATTATCTAAAAAAAAATGATTTAGATAGTGCTAAACAATCATTAAATTACATAATGGAAAGTAAAGATTCTTCTGATTTTATTAAAGAAAGAGCTAGAACAATTCTTGAAATGATAGAAAGAAAAGAATGAAAAATTCAAATATTTTATTAATAACTATATTTTTTATAATTATTTTTTTGAATGGATGCTCATTTAAAAAAAATAAAAATAAAAATGTAGGGAAAATATATGTAGAAACAGTCGCAAAGCCAGATTTGAGTTTAAGAGGTTTAAAAGTATCTTTACCAAAACCATTAGAAAATAATACGTGGAATCAATCGACAAATAATGAAGCTCATCAAATATCACATCCCTTAGTAGGGAACGAAATTAAATTATTTTGGAAAAAATCAATTGGTAAAGGGCAAAATAAAAAAAAACCTTTTTCTTCTGAACCTGTTATAGATTTGCAATATATTTATACAATAGATACAGAATTAACAATTAAAGTTTTTAATAAAAAGAATGGAAAAATTAAATGGACAAAAAAATTAAAAAAAAAAATTAATGAACGTAAAATAGGAATAATAAGTGGAGGATTAGCAGTTAATGATAATTTTTTAGTAGTTACAACTGGTACTGGAAAAATTTTTACACTTAATAAAGAAAATGGAAAAATTATTTGGGAAAAAAAAGTTCTTGCACCAATAAGAGCTGCTCCAATTATATCGGGAAATTTTGTTTTAGTTCTTGCCAAAGATAACAGATTATATACTTATAATCTATCTAAAGGTGATTTATCATGGACACACGAAGGTCTTGAGGAAGTATCGACATTTATGGGGTCTTCCTCTCCAGTTGTTTCAAAAGGAATTGCAGTTGTTACTTATTCATCAGGTGAAATTTATGGTATCAATTTATCTAACGGTCAAGTTATTTGGAATGATAATTTGAGTATGCTTGTAAGTAAAAAAACATTAGAAAATCTTTCTGATATTCGTGGAAATGCAGTTATCCAGAATAATAAAGTTTTTGTTATAAGTCATAATGGAAAAATGTTAGCGATGAATTTAAATAATGGAAAAAGAATTTGGGAGTCAAGTATAGGTGGCATACAAACACCTTGGGTAGTATCAAAATTTATTTATGTTTTATCTAAAGATAATGAATTGATTTGCCTTACATCTGATTCAGGGAAGATTGTTTGGGTTAGTAAATTAAAAGATTTTATCGATTTAGAAAAAAAAAATAAAGTAATTACATGGACAGGCCCTTTGCTTGCTGGCAGAATGCTTATTGTTACAGGTTCACATGGAGTTATAGCATCTATTTCTCCTTATTCAGGTAAATTTTTAGGAGCTATTAATATTAAATCAGCTGTTGATATACAAGCAATTGTATCAAATAAAATTGTTTTTTTTCTAACAAAAAAAGGTGATTTAATAGCTTATAAATAAAATGACTGAAGATAATAAAATAAAACTTTGTTTTATTGGTAACCCAAATGTAGGTAAGTCTACTTTAATAAATAGACTCTTAAATTCAAATGAATTAAAAACAAGTGAAATTCCAGGAACAACAGTTAAAACAATAGAAAAAAGATTTTTATGGAAAAAAAAAGAATTTATTTTTTTTGATACTGCAGGTGTTTATAAAAAGAAAGATTTTAATTTTAATCTTTTGATTAAAGCCACTAAAACATCACAAATTATTATTTTAATTTTAGATTCTTCCATTGAAAAACTTGATAGATTGCATAAAAAATTAGCTTCACATGCACTTAAAATAGGAAAAGGTTTATTAATTATTTATAATAAATGGGATTTAATTACAAATAAAAAAAATAAAAGAATTGAATTGGAAAAATTTGTAAAGTTTTCCTTACCACAAATTGATTATAAGAAAATATTATTTATTTCAGCATTAAGAGATACTAATTTTACAAAAATTCTTAGTTTATCATTAGAAATTAAAGCTTTTTTAAATAAAAAAGTTTCTACTTCTAATTTAAACAAATGGCTTAGAGAAACAATTAAAATAAATCCACCAATAAGAATAAAGGGTAAAGAAATTAAGTTTAAATATGTGACTCAAGTCGATGTTAATCCTCCAACGTTTAAAATATTTTCTAATTATCCAAAAAAAATACAATCATCTTATAAAAGATTTTTAGAAAATAAGCTGAAAATTAATTATAATTTAAATAATATTTCCGTGATTTTAAAATTTCCTGAAATTAAAAATCCTTATAATCGTTTAAAAAAATAATTCTTTTAAATATTTACATTAGTTAAGAAAGAAAGTTGATCATATTTAGATTTATCTAATTTTTTATCTATTGGAACAATTGGATAATCACCACTAAAACAATGATCTGTGAATTGTGGATTAGAATTATTTCTTTTTTTGCAATCCATTGATTTATATAATCCATCTATAGATAAAAAACTTAATGAATTTACACCTATAAATTTTGCCATTTCTTTAATATTCTTTTTCTTCGCTGCTAGTAATTCGTTTTCTTCCGGTGTATCAACTCCATAACAATCAGGATGAATAATTGGAGGGCTTGCAACTTTCATATGTATTTCCTTTGCTCCTGCAAGTCTTAGCATTTGTACAATTTTTAAACAAGTAGTTCCTCTAACTATTGAATCATCAATAAGAATAATTTTTTTACCTTTTATACAACTTGTATTAGCATTATGTTTTAATCTTACACCGAATTGCCTTACTTGTTGCCCAGGTTCAATAAATGTTCTGCCAACATAATGATTTCTAATTAATCCTAATTCGAAAGGAATCTTAGATTCTTCAGCATATCCTATTGCTGCTGGCATACCCGAATCCGGTACAGCTGTAACAATATCAGCTTTAGTTTTAGATTCTTTTGCAAGCTGAATTCCAAAGTTTTTTCTGCATTGATAAATATTTTTTCCACCTAATGTACTATCAGGTCTTGAAAAGTATATATATTCAAATATATCAGGCCTACAATTAACTTTAGGAAAAGGCTTAATACTTTTGATTTTACCATCTGTAATTATAATAATTTCACCATTTTCTATTTCTCTAATAAATTTTGCACCAATAATATCCAAAGAACATGTTTCGGAAGTTAATAAAGGAGAACCATTTAATTCACCTAATACTAATGGTCTAATCCCATAAGGATCTCTAACACCTATTAATTTTTTTCCTGTCATTAAAATTAAAGAAAAACCACCCTGAATTTGAAATAATGTATCAATTAATTTATTAATAAAAATAGTTCTTTTAGATCTAGCTATTAATTGAATTATAATTTCGGTATCTGAAGTACTTTGAAATATTGCCCCATCATCAACTAATTTTTTTCTTAATGATAAGCTATTAGTTAAATTACCATTATGTGCTATAGATAATGCTCCACTAGATAAATCTGCAAAAAAAGGTTGAACATTTCTTAAAAAAGTTTTGCCAGAAGTCGCATATCTATTATGTCCTATTGCATGTTTTCCAGGTAATTTATTAATAACATCTTTTTTAGTAAAATTATCTCCAACTAAACCAAGTCTTCTTTCTAAATAAAAATTATTTTTATTATGTGTTGCGATACCGCATGCTTCTTGACCTCTATGTTGAAGAGAGTGCAAACCTAAAGCAGTGATTGTTGCAGCATCATCATGATTGAATATACCAAATATTCCACACATAGTTTAAATTAGTCTCATATTATAATTTGTATGATAAATCTCAACTTTCAAGTAATGATATCATCTTTTAAGCTCAAATTTAAAAAATTTTTTTTTATATAAATTGATACTTTTTCAATATATTTTATTGAATAAGAATCATCTAACCAATAAGGATTTTTTGAATTATAAAAAACATCAGAGTAAATAATAAAAATTAATGAAAATATTAATATCATTCTTAAAAATCCAAAGAAACATCCTAAAGTTTTATCGATTATTGATAAACTTTTTATGGAAAATAATTTAGATAAGAAATTAAATATAATAGATAAAATTATATAAAAAAAAGAAAAAACAATTATCCCTGATATTAAATCAATTAGAGCAGTTTCTTTTAAAAAATTAGATAAAAATAATTTAGTTTTATCCAGGGTTATAAAAGCTAAATATAAAGATATTATCCATTTAGCCAAAGATAAGAATTCTTTAACCAAACCTCTTGATAATCCTAACAAAGATGAAATTATTGTTAGTGATAAAAATATAAAGTCAAAAATTGGCATTATATTTAATTAAAGGGCTTTATAATTAAAATTAATTTTGGCAAAAGTGTCAATACAGCTAACATTGCAATTAACATTGCTAATCCTGTAAATAATCCAAAATATATTGTTGGTATAAAATTTGATAAAACTAAAATTGAAAAACCAAAAATTATAGTAACTGAGGTATTAAAAATTGCTCTTCCAACACTCATATGGCAAATATCAATTGTATTTTTATAATCATTATTTTTTTTGAATTCTTCTTTAAATCGATAAATATAGTGAATGCTATTATCCACTGCAATTCCAATAGTTATAGATGCAATAGTAATCGTCATCATATCAAGTGGTAATTTTAATAAGCCCATAATTCCTAAGATAGATATTGCAGCAATGAAATTTGGAATTATACCTATTAGTGACAAAGTAAAGGATCTAAATAAAATTATAAACATTATTGCTATTCCTAACATTACAAAAACAAGCGTTTTAATTTGTGAGTCAAAAAGACTTTGTAACATATTATTATATAAAACTAAAACTCCTGAAATTTGGAATTGATCTTTTTTTAATTCTAATTTATTTATAAAATCATTATTTATTCTATCAATTAATTCTTTTCTTCTTAAATCTTTCAAAGAGTCTAAAACTCTTAAATTTATCCTAGCTTCATCATTTTCTATAGATATATAAGGATCAACAACATTTGTTTTCAATTTTTCTGGAAGTTTTTTATAAATAACATTTAATTCAAAAGGATCAAATTTTTTTCCTTCATTAAGATCTTCAGCTACTCTAATTATTGAAGTTAGTGAAATAACTTTTCCAATTTCAGGGAGATTTTCTAAATAGTCATGAATTTTTTCAATTTGTTGAATTTTTGTTGAAGTAAACCAATAATCTTCGATATTTATATCATTTGTTGCTCCTAGATCAAAAAAATCTTCGTCTAACCCTAATTCTTCATCGCTTGAGTCTGAAATATTTTCTTCTTTTTCTACAACTGAACTTTTAAATTTTATAATTATATCTAAAGGTGTTGTTCCACCTAATTTTTCATCAATTAGTTTCATTCCTTTATATATTTCTGTTTTTTCCTTAAAGTAATTAATAAAGCTATTTTCTACTTTTAATTTTGTAATACCAATAACGGTAACAATTACAAGTAAAGTTGATATAAATAAAACTTTATTACCATGGTTTTTGGCTAAAAATGCTAAAGTACTAGTAAATTTTGATTTTTCCGCATCATTAATTAATTCTTTTTTTTTTTCTAATAATAAGAGTATTGATGGAAATAAAATAAAAGAAGTAAGAAATGTTACGCTTAATCCAATTGTCATCATCCAACCGAAATCAATAACTGGCTTTATTCCACTAAAAACTAAAGATGTAAAAGCACAAATGGTTGTTAAAGCAGTATATAAACAAGGCCATACCATTTTTTCTGTTGTTAAAAGAACGACCTCATCTTGTTTTGATTCTGGCATTTCACTAGAAAGTTGTTTATATCTTACGGCTAAGTGAACATTCATCGCTATTGTTAGAATTAACATTAAAGAAATAAAGTTAGATGATATAACTGTTACATCCCAATTAACGAAACCTAGCACACCAATCATAATTATGACTGCATAAAAACAATTTAATAATGGAATTGTTACCCACCTTATTTCTTTAAAAACAATGATAAGTGTAATGATTATAAATATAAAAACTCCAATGCCAAAATTTATCAAATCATTTTTTATAAATTCAATCATATCATCAGCAATCATTGGGACACCTCCAAGATGTATTTCTCCTGTATCAGAGAATTCTTTAATTATTTCTCTAATTGAAGCAATATTTTGATGATTTATTTTTTTTAGGTATTTTTTTTTCTTATCATAATCAATTAAAATTTTTTTAAGCTCATTTTCTTCTTCAACTTTTAATTTTTCTTTTGCTCTTAAGTCATTTCTTTTTTTTAATAATTCAATGAATTGTTCATCTCTTTTTAAATTAACAATTAAAGATGTTATTTCTCCATCTTCACTAACTATAAGATTTTTATAAATAGGGCTATTAAGGATTTCTTTTTTTGCAATATCAATGTTTATATCTTTATCGGTAATTTTTTTAATTTTTTCTTCACTGAGTTCTTTTAATGGTACATTAGCCGATTTAAGCAATGGAAGATCAATTAATGTAATTACCCCATCTACATTATCTAAAATTTCAAGTTTATTTTTTAATTTTTTTAAATTATTAAAAGTATTTTTAGAAAATAAATCTGAATTAGGTTTATATGTAATAATTACAAAATCTTTTGAATCGTATCTATTGTTAATTTCCCTAAATATTTTAAGATCTTTATCATCTTCAAGAATTAATGAATCAGCAGATGCATCTAATTCAAAATTTTTAATATGAAAAGCAAAAAAACCAAGAATTAACAATAAAAATATAATTATTTTTATTGGATTTTTAATTAGTATATTCTTATAAATTTTATTAATTACTGAAGACATTTTTTTATTTTAAAAAATTCAATAATAAGTTATTTAATTATTTTTTACTAACTATTTTCTGAAGATTGACTTTTTGATAAATTGCTAAATTTAGTTGTAGCCCCTTCAAAATGCAAATTAACTTTACCAATAGGACCATGTCTTTGTTTCGCAACTAAGACTTCAGCTACATTGTGAATTTTTGACATTTTATCTTGCCATTTTTGATACTCGTCAGTTCCTGGTGATGGTTCTTTTCTTTCAATATAATATTCTTCTCGATAAATAAACATTACTACATCAGCATCTTGTTCAATAGCTCCTGACTCTCTTAGATCAGATAGTTGTGGTCTTTTATCATCTCTCTGTTCTACTTGTCTTGATAATTGTGATAAACAAACGACAGGAATATTTAATTCTTTAGCCAAAGCTTTTAGATTTCTTGTCATTTCAGCTATTTCTAAAACTCTATTATCAGGTCTAGATAATGTTGGTCTAAGTAATTGAAGATAATCTATCATAATTATATCTAAACCATGTTGTCTTTTTAACCTTCTAGCTCTTGTTCTCAATGCAGAAATTGATAAATTTGGACTATCATCAATATATAATGTTAATTCACTTAATGATTGACTAGATTTAATAATTTTTTGAAAATTATTAGAATTTAATTGTCCTCTACGTATTCTTTCAGATGATATATTTGTATCTTCAGCTAAAATTCTTGTAGCTAATTGTTCTGATTACATTCCAAGTGAAAAAAAACCTACAACATTTTTTTTTTTTTCATCATCCATTGAATTAGAATTAACCATTTTAAAAGCTATATTTGTTGCTAGCGCTGTTTTTCCCATAGATGGTCTTCCGGCTAAAATAATTAAATCAGTTTTATGTAAACCACCAAGAAGTTGATCTAAATCCGCAAATCCTGTTGGAATACCAGATAATTGCCCATCTCTTTTGAAGGCTGATTCAGCGCTATTAATCGCATCAACAAGAGATGTTGAAAATTTTTTAAAATCATTTGATGTTTCACCAGTAGAAGAAAGATTAAACAATTTACTTTCAGCTTTTTCTATAATTTCAGATGCATCAGTATCTATGTCAAATGAATTAGCATCGTTAGAAATTTCATCAGATATTGTTAAAATTTCTCTTCTTTGATATAAGTCATAAATTAATTTTCCATATTGATGGGTATTAGATAAAATAGTTGAATTTTTTGCTAACTCAATTAAATATCTATCACCACCAATTAAAGCAATTTCATCTTTATGTAAAAAATAGTTTTTTAATGTCAGTGGATCAGCTAATTGATTATTTTCAACTAGTTTAGCAATTGCCTCAAATATTCTTCCATTAATGTCATCATAGAAATGATCAGGACGTAAAAAATCTGAAATTTTTTCATAAACATTATTATTAGTCAACAAAGCAGCAAGAAGCGCCTGTTCAGCCTCAACATTTTGAGGAACAATTCTTAAATCCTTCTCATTATTTTTGTTTTCAAAATTTTTAATTTCAGATGACATTAATTTCTATAGAAAATAAGAATACTAACATATTTAATGATAAATATCTCTATGGATGCCTGTGGAAAGTAGGGATAAATACAAATAGTTGTGGATAAAAATTACTTTTTTGTTTTTTTCTTTATTTTTTTAGCTTTTACTTCTTTTTTTTGAATTTTTTTAGTTATTTTTTTTTTTTGTAACAGGTGTTTTTTCTTTTTTTTCAATATCATCGACTAAATCTTTAGTATCAATTTTTTTATTTTTTTCTTTTTATATATTCTCTATTATTTTTTTATCTTTTTTTTCTATTTTTTTGTCCTTTTTTGGATTTTTAAATTCTTTAATTTGTTCTAATCCGAGTTCTTTAGTTTTAGCAACAGATACTAAAATTTGTACATTGATATCTGTATAAACAGATATTTCAATTTCATAAACGCCAATAGATTTTAAAATTTTTTTAATTTTTATTTGTTCATTTAAAAGCTCAATTTGTTTTGACAAAATTAATTCTTTTACAATATCTTTAGAAGTTACAGAACCATACAATTGTCCATTTTCAGCTGCGTTTCTTAATATGACAATTTCAGTATCTTTAATTTTTTTTGAGATCTCTTCTGCTTTAATTTTTCTTTTTTTTTCCTCTGCTTCAATTTTAGATTTTTCTTTTTCAAAAATTTTAAGATTTTCTTTACTAGCTCTTAATACTTTTTTTTTTGGTATTAAATAATTTCTAGCAAAACCATCTTTTACATTTACAACGTCACCAATTTTGCCAAGTTTTTCTATATTTTCTATTAAGATAACTTCCATGTTAATTATTTATATATGGTAATAGTGCAAGAAATCTTGCTCTTTTTACTGCTCTTGATAATTCACGTTGTTTCTTTGTTGAAACTGATGTTATTCTACTTGGTAGTATTTTTCCTTTTTCTGAAATAAATTTTTTTAAAAGTTTTACATTTTTATAGTCAACTTTTGGAGCGCCTTTGTAAGATAATGGGCAAGATCTTTGTTTGAAATTATATGGTCTTTTATCTGTTTTTAAATCTTTTTTTTGTAAATCACTCATTACTTATTATCTTCCATTTCTTTCATCATTTCACTAGGGTTTTTATCAAAATCTTTTTTTTTAATTTTTAAAAACATATGTCTGATAATATCTTGTGTTAATTTAATTTGTGAGCCAAGATCAAGAATTGCTTTTTCTGGCGCTTCAAGTATAAAAAAAAGATAATGACCTTTTCTGCTTTTTTTTATTTGATATGAGAGATTTTTAAATCCCCAATACTCCTCTTTTTTGATTTGACCTTTTTTACTTTTTATAAAATCATTAACTTTTTTTGCTAATTCTTTAGCGCGTACCGGTGATACCTCTTGTCTTGCAATAAAAACTAATTCATATAATGACATAAATTTTTAATAATATAATTTATTTAAGCTTTATTTTACTCTAAAATAGTTTAAACATCAACATAAACTATTTTTTTTTTTTTATAATAAAAAAAGTATATGAAATCAATAATATTTCCAGGACAAGGTTCGCAATATGTAGGAATGTGTAAAAATTGGTATGATAATTTTAGAGAAGCAAAAAAAGTTTTCGAAGAAGCAGATAAAATTTTAAAAGAACCATTATCAGAGATAATTTTTAAAGGACCGGAAGAACTTTTGACTAAAACAAATAATGCTCAACCAGCAATTTTAATTGCTAGTATTGCTATGTTAGAAACTATTAAGATTCAAAAAAAAATAGACTTACAAAATTTTTGTAAATTTGTTGCAGGGCATTCTTTAGGTGAATATACAGCTTTATATGCATCTGGCGTTTTAGATTTTATTTCTGTAGTTAAATTAGTTAAAGTTAGAGGTGATTTAATGAACATATCAGATAAAAGTGGAAAAGGTAAAATGGCAGCAATTATAGGATTAAAAATTAACGATATTCATAAAATGTTAAAGGATTTTAAAAATGATGAAATATGTGAAATAGCAAATGATAATTCAGAAGGCCAGGTTGTTGTTAGTGGTAATAAAAATGCTGTAGATTCTTTTAAGTTAATTGCTAAAGAAAATGGAGCAAAATTGGTTGTTGATTTAAAAGTAAGTGCTCCTTTTCATTGTGGATTAATGAATGATGCAGCTTTAAAAATGTCTACAGAAATAGATAAAACATCATTTAATAAATGTCAAATTCCTGTTATTTCAAATGTAGATGCAATCTCTACGGATAATAGTTCAGATTTTAAATCTTTATTATCAAAACAAATAACAATGACTGTTAAATGGAGAGAAACAATTTTGTTTATGGAAAATAAAGGAATAAAAAAAATTTATGAAGTAGGCCCTGGAAATGTATTATCTGGATTAGTAAAAAGAATAACTAATAATATTGAATGTTTTTCTATACAAAACCCAGATGATATGGATAATCTAAATTAAATGAATCAAATATTAAAAAATAAAACTGCTTTAATTACTGGAGCTTCTGGAGCAATTGGAGGGTCTATAGCTAAAAAACTTTCATCTTTAGGAGCAAATATTATTGCAACTGGAACAAATAAAAAAAAAGTTGATAGTTTAACTAAAGATTTAAAAACAAAGTCTGAGAGTATAATTGCTGACTTATCTAAAGATGATGAAATTAATAATTTATATAATAAATCAATCGATAAATTTAAATCTATTGATATTTTAGTAAATAATGCCGGAATAAATCAAGATTCGTTAACTATTAGAATGACAAAAGAACAATGGGATAAAGTTATAAATTTAAATCTTTCAGCGACTTTTAAACTATCACAATTAGTTGTTAAATCCATGATGAAAAATAAATGGGGAAGACTTATTGGGATAAGTTCAATTATTGGAATAGGAGGTAATGCTGGCCAAGCTAATTATGCAGCATCAAAAGCTGGAATGATTTCTTTGCATAAATCTTTTGCTTTGGAATTTGCATCCAGAGGGATAACTTCAAATTGTATTGCTCCAGGATTTATTGAAAGCCCAATGACTGACGAATTATCAACTGAACAAAAAGAAAATATGCTTAAAAGAATACCTGTGGGATATATAGGAAAACCTGATGATGTAGCTAATTGTGTAGCATTCTTGACAGATGAAAACTCATCTTTTATAACAGGATCAACCATTAATATTAATGGTGGAATGTTAATGATTTAACTATTATAGTTTATTAAATTTATTATTAGGAGTTAAAATTTATGTCTGAAGAAATTGTAAGTAGAGTCAAAAAAGTTATTACTAATCATTTAGGAGTTAAAGAAGATAAAGTTATTGATAATGCTAAATTCATCGAAGATCTAGGCGCTGATAGTTTGGATCAAGTTGAACTCGTAATGGCTTTTGAAGAAGAATTCAAATGTGAGATTCCAGATGAAGCAGCTGAAAAGATTGTTACTGTAAAAGATGCTGTAGACCTTATCAAATCTAAAACTTCTTAATTTATTTATATATGCGAAGAGTTGTCATAACTGGCATGGGAGTAATCACTGCACTAGGTAATGGCGTAGAAGAAAATTGGAAAAAATTAATTTCAAGTACTTCAGGAATAAAAATAATCGATTCTTTTAAAATAGATGATATGCCATCAAAAATTGCAGGTGTAATAGAAGAAGATATTATTAATAAATCATTTGAAGAAAAGGAAAAAAGAAAAATGGATAAATTTATACTTTATTCATTAATTGCAGCAGAAGAGGCAATAAAAAATTCAGGTTGGATTATTAAAAATGAAAATCAATCTTCAAGGACTGGGGTTATTATTGGTTCTGGTATTGGAGGTTTATCAACTATATACGATAATTCAATTATTCTAGAAAAAAATAGCCCGAGAAAAATAAGTCCTTTTTTTATTCCTTCAAGTTTAATAAATTTAGCGTCAGGCCAAGTCTCAATAAAATATAATTTTAAAGGGCCTAATCATTCTACTGTAACTGCTTGTGCTTCGGGAGCTCATGCTATCGGGGATTCTTTTCGATTAATTCAATCTAATAAGGCAGATGTAATGGTTGCGGGTGGTTCAGAAGCAGCTATTTGTAGATTAGGGATGGCTGGATTTTGCGCTTTAAGAGCTTTATCAACAAATTTTAATAATGAACCGCAAAAAGCCTCAAGACCATTTGACGATGCTCGAGATGGTTTTGTTATGGGAGATGGAGCAGGTGTTTTAATATTAGAAGATTTTGAGCATGCTAAAAAAAGAAATGCAAATATAATTTGTGAAATAGTTGGATATGGGTCAAGTGGCGATGCTCATCATGTTACCTCACCACCTGAGGATGGTAATGGAGCTGAAAGATGTATCAATTCAGCTTTGAATGATGCGAAAAAAAATTCAGAAGATATTGATTATATAAATGCTCATGGAACATCAACTCCAGTTGGAGATAAAATAGAAGCGAAGTGCATACAAAAAGTTTTTTTGAAAAATTTAAATAAGATTAAAATGTCTTCGACAAAATCAGCGATTGGCCATTTGCTTGGTGCTTCGGGAAGTGTTGAATCTATATATTCTATTTTATCTATTACAAATAAAAAAATACCACCAACATTAAATTTAAATACCCCTATAGAAGAAACTAAAAAAATTAATTTAGTTCCTCTAAATTCAATTGATCATGATGTAAAATGTGTTTTATCAAATTCATTTGGTTTTGGTGGCACTAATGCATCTCTAGTATTTAATTCAATATGAAATGAAAATTTTATTTTTAATTAAAATTTATAATAAAATATTTTTATCTTATTTTTTTTTAATTTTTTTATTTTTTTTTGAATTTTTTTTTTCAAAATATGAATATAAACATACATTTTTTATTACACCAAATGAATCATTAAATACAATCACCGAAAATTTATACAAACAAAGAATAATTGATAATAAATTTTTTTTTAAATTATTTATATTTTTATCTTTATCAGAAAAAAAAATAAAAGCTGGTGAATATCAATTTCATAAAAAAAATATTTTTCAGCAAATAAACAAGATTAGAAATGGAGATGTTTATTATAGAAAATTTACAATACCAGAGGGATTAAAAACAACAGAAATTATAAATATTTTAAAAAAAACTGAGGGTATCATTTTAAATAAAGATTTAAATTTTAAAAAAAATGCTGAAGGCTCCCTATTTCCAAGCACTTATATTTATACATATGGTACAAATTTTAATATAATTATAAATAAAATGAGAAAAGAAATGTTGTCAGTTTTAGAAAATGCTTGGATCAATAGAGATAAAAATTTATTTTTAAAAGATATTAATGAGGTTTTAATTCTTGCTTCTTTAATAGAAAAAGAAACATCTTTAAATGCCGAAAAGCCAATAATTGCCAGAGTTTTTTTAAATAGATTAAAATTAAATATGAAATTGCAATCTGACCCAACAGTAATTTATGCAATAGAAAATGACGCAGATATAAAAATAGATAAATTAAGGAAAAAGGATCTTAATTATGATTCAAATTTTAATACTTATGTATATAAAGGTTTACCAAAAGGACCAATATGCAATCCAGGCAAAGAAGCAATTTTAGCAGTTACTAAGCCTGATGATAATGATTATTTATATTTTGTTGCAAATGGTTTAGGAGGTCATAATTTTTCTAATAATTTAAAAAAACATAATGAAAATGTTAAAATATATAAAAATTTAAAAAATAATTAATATGATTAAAAATAATGGTTTATATATAATTTTGTCTTCACCTTCTGGAGCAGGAAAAACAACATTAGCAAAAAAGTTAATAAAAAATAATAAAAAATTAAAATTATCCATTTCTTATACAACAAGAAAGAAAAGGCCAGTCGAACGAAATAATAAAGATTATATTTTTATTAATGAAAATAAATTTAATGAATTAAAAAAAAGGAAATATTTTATTGAATGGGCAAAAGTTTTTGGAAATTATTATGGGACTTCTTTGATTAAATTAAAAAAACATATTACTAAAGGAAATGATGTTTTATTCGATATAGATTGGCAAGGTTCAAGACAAATAAAAAAGAAATTAGGCAAGGATGTTGTTAGTATTTTTATTTTACCTCCTTCAAAAAGAGAATTAATTAAAAGATTAAAAAAAAGAGCTCAAGATAGTGATAATGAAGTAAAAAAACGTTTATCTTTTTTTGAAAAAGAATTAAGTCATTGGAAAGAGTATAAATATGTTTTAATAAACGATAAAATTAATGAAACTTTAAATCAAATTAAATCTATTATCAAAGTTGAAAAAATTATTAATCAAAAAAGTTTTTTTTTAAAAAAAAAAATTAAATTTTTAAAATAATTTTTTTTTCATAAATATAATTAGTGACATTAATATAATTATTATAATTTAATTCCTCAGGTCTTTTTTTTGGATTAATTTTATTTAATAATAAAATTTGTTCAATATCAGGAATTAATTTTTTTAAATTATTTTTTATTGTTTTTCTTCTTTGATTAAAACATTTTTTAATTAATTCTTTTAATAAGTTTTCGTCTCTAACATTTTTTATATTTTTTTTAAATTTGAATTTTAATAATGAGGAATTTATTTTTGGTTTCGGAAAAAAATAATTTGGTGATAAATTCATAACTTTATTAATCTCACATAACCAATTTGATAAAACAGTAATCCTTCCATAATTTTTTGTATTTTTGTTTGCAATTATTCTATTTGCTTGTTCAGTTTGAAACATTAGCAATAATTCATTAAAAAATTCTCTATTTTTATAAATATTTGAAAGTATAGGAATTGCAGTCTTATAAGGTAAATTAGAAACCATTAATGTTTTTTTTTTATATTTATATAATTTTTTAAAAGTTTTATTAAAAATATTTTTTTCTAGAAAATCACCTTCAATTACATCTAATTTTTTAGAAAAAATTTTTTTTTGATAGTTCAATATTTTTATACAATTTGAATCTTTTTCAACAGCAATTATTTTTTTTGCACCAGCTTTTATTAAAGATCTAGTTAAACAACCTGGACCGGGACCAATTTCTAATATTACTTTATTTTTTACGTTTGTATTTCTTATAATTTTATCTGTAATGTTTTCATCTAAAATAAAATTTTGTCCTAAAGATTTTTTTGATACGAGATTATATTTATTTATAATTTGTTTTATTGTATCCAAAACTTTTTCTTCTTTGCTATTTTTTGAGATAATTTTATTGCTGAATATAAACTTTTTTCAGAAGCTTTATTTTTTCCAGATATATTTAATGCTGTCCCATGGTCTGGAGAAGTTCTTATAATTGGCAACCCTAGTGTAATATTAACACCATTATCAAAATCAATTATTTTTAGTGGCATAGTTGCTTGATCATGATACATACAAATAATTACATTAAATTTTTTTGAAAAATTTTGATTAAATATTGTGTCAGCAGGATAGGGGCCACTTATATTTATTTTTTGTTTTTTTATTTTTTTAATAGCTGGAATTATAATTTTTTGTTCTTCATTACCAAAATTACCATTTTCTCCAATATGAGGATTTAATCCTGCAATTGCAATCTTAGGTTTTTTAATAGCAAAATAAGTTTTAAAGTATTTATTAACAATTTTTGTTGTTGAAATTATTATTTCTTTATTAATAGCTTTAATAGCTTTTTTAAGAGATATGTGTTGTGTAATTGGAACTACACTAATTTTAGGAGAAGTTAATAACATAATAGGTTTTTTTACTGATAATAAATTTGCTATATAAAAAGTATGACCACTAAATTTTTTATTTATTTTATTAATAATATTTTTTTCCACGGGATTTGTTACAACACTTGATATTTTTTTTTTAAACGCAAGATTTACAGTTTTTTTAATTGAATATAAAACTTTATTACTATTACTAATTGATGGTTTGCCAAAAGAAATTTTTTTTTTAAGACTAATTTTGTAAATAGGTAAATAATTCTTAAAAATATTTACACTTTCTTTTATATTTTTAATAATTTTTATTGGAATTTTATAATTTAATTTTGAAGCCGTTTTAATAATATGATCAGGATCGCCAAAAAAAATAAATGGTTCCAATTTATTTTTGTAATTTTTCCATACTTTTAAAGTAATTTCTGTAGATATACCTGCTGGTTCTCCCATTGTTATTCCAGTAATAATTTTTTTATTCATTATTTAAATTCTAACATCTATTACAGCTTTTGATCTCAATTCTGACATGAATTGTCTTGCGATTGTATCAAGTTTTTTATTAACTAATATTTCTTGTATTTTGAACTTACTAGGTATTATTGGTTTAAATTTGTTTATTTCACAAAGCATAATTTGATAATTTTCTTCTCCAAATTTAATATTTTGACTTATTTCATTTTTTTTTAATTTTTTAATTTCTTCTTTTAAATAATCAGATAATTCATTATATTTTAAATTTCCTAAAGATCCTGAATCACTAGTACCATATTTATTAGTAAACTCTTCTAATTCTTTACAATTCTTAACATTTTTTAACTGGGAATTAATTTCATTATTATTTTTTATAAGTTGTAGTCGAAATAGAGATACATTATTAATAATCTCCTCACCAATTATTCTTTTATTTTTAATTTTAATTATAAAGTAACCTTCTTCTCCTAATAATGGTTTTGAGATTTCATTTATATTAATTAGCTTAATGTCATTTAAAATTTTTTGATCTAATTGCGTTTCAGGTATCCAACCAATTAATCCAATTTTACCCCCGTAACTTTCTGAGAACTGTTTTGATATTGATGTAAAATCTCCACCATTTTGAATTTGTTTATAGATGTTATTAATTTTATTTAAAACTTCTGTTTTTTTTTTATTTTCTAACGATAAAAATATTTGTTCTATAAGAAATTCATCTTTTCCTACATTGGATTTTAAATTATTATGCAGTAAATCTATTTCCGAATCCTGAATTATAACTTGTTTTCTAAATTTATTTGCAACAAGTTGTTTCCATCCAATATTTGAACTTATTTGTTTTTTAAGAATTTTAATATCAGTTTTATTTTCTTTTAAAAAATCTTTTAATTTTCCTTTTTTAAAACCATTTTCTTTTTCAATTGAATCAATCATTTGATTAATTTGATCTTCAGATACTATAATATTTGCTTTTTGTATTTCCTGAATTTGAATTATTTCATCTATATAACCTGATATTAAATCTGGTAGTATTTTAGTTTCAAAATTATCATCAATAGGAATTCTTGCTGAAACACTAAATAAATTTGATCTTTGAATTAAATCAAAGATAGAAATTGGTTCACCGTTTACCGTAGCAAAAATACTTGTAGGTAATCTTTTAAGAATAGAAAGATTATTATTTTCACTATTTGAAATAATATTTTTAGTAAAAAGTAATAAAAATAAATTAATTAAAAAAAAATTTTTAAATATTTTTTTTATAATTTTCATTAATTTTTTAACCTTCTTTTCTTTAGTTTGAAATATTTCTTCCAGTTGAGAATGAACCAAGGGTTTTAAACGTAAAAGTAATCATAAAGGTATCATTAGGTTTAATTTCTCTGTCTAAATAATAAGATCTATTTAAACCGATATCAGTAGTAAAGCATTCATTATCAAATCTTAAAGATAAGCTTTGACCTAATAATCCACCTGAATTTGTCATATCATCTTTTAATGTATAACGTAATGAATAATTATCGTTAAAATAATGAGTTAAAGATAAATTCAATTCTTCTCTTTCATCCGAAATACCCGATGTAGGTTCTAAAAAAATATAATTTACATTCAAATCATTATTATATATTTTTGTGGAAATCCTAAACTGATCTCTTCTTGTAGAAAAAAAAGAATCTTTATTGAGTAAAAATCTATAAGATAGATTAATATTTTTTCCAAAACCAAATCCAATTTTTCCAACAATATCTGATAAATTATCATTCAAACCAGAAGTTTTGCTAAAATTATTATTTTTTCTGAATCTGTAACTTTGACCTATAAAAAAATCTGAATTTATTCCAGTTTTTGTTGATTGAATTTTAAAGTTTAAACCATAATCAATTCTTTGATTAGATTTTTCTATTTTATCATTTCCAGGATAAAGGCTTGAATTAAATAAATGTGTTTCACCAAACTCAAAACTATCACTGTCTTCATTTGGAATTTCATTATCACTTCCTCTATTTGGAGCTAAAATTAAAGCAGCTTGTGGCTTAATTATAAAATTTTTACCATTTTGTTTTTTTTGTAAAGGTAAATCCCAACCAAATAATAATTCTGGATGTATTCTAGATTTGTATCCTTTGTAATCTGCTTTTCCAGTTCTTTGAACATGACTAAGCATATAACTTGAAATTGTTGTTTTAGCTTGAAATTTATATCTATTACCAAAATTATCTGTAAATGGATATGTTAATATTGGTTGTAAAGATATTTTTCTTGTGTCCGCACCCTCTCTTCTAGTTAAAGATAAAAAACTTGCATTTAAATCGATAAAACCAAATTTAGTTTTTTCACTTTGAAAATTATAATTAATTGATGGTAAAACCAGAGGTGTTTTATTACTTTGATAAGCACTTGATTGAACTTGAGTAGCTATACCAGAAGCAATAAAATAATTTTTATCATCAAAGCCCTCAATATAAAAATCAGAATGAAGCCTATCAGTAGCACCTTCAAATAAATATCTTGATAAATAAGTATCGTCAGTTGAACGTTTTATATTAAATCCATATCTCCAGAATTCATTATGATCAAATTTACCATTAATGAATAAATGTCCTCTAAATTTATTTGAATATGTTTTTACTCTGGTTCTTCTTTCAGCATTAGTAAAACTAGTATCTACATTAATTTCTCCATTTAGAAATTTTTGTCTGTATTGAGTATAAATTAATGGTCTTTGATTACCAATATACATTGGTTCAACCGTCAAGTCTTTATGAGGTGATAAAGAAAAATAATATGGTGTTCCAATTATTGTCCCTAATTCTGAATTAGATGTATATCTAGGAAATAAAAAACCACTTTGTCTTTTGACACTTGGATCAGGATGAGAATAAAAAGGAGTATATGCTACTGGAAAACCTAAAAATTCAAGAAATGCATTTTTATATGTTATTTTTTTTCTTTTTGAATCATGAACAACCTCTGATGCTTTTATTTGCCAAGTAGGACTTTTGTCAGGATCATCACAATTACATGCTGAATATAAAGCTTTTTTTAATCTAGATATTTGGCCTTTAAATCTTTTACCATTACTTGCGGCAATTTTAGAATTATCTGGAAAAAGTATAGAAATGTTTTTTGTTAAACCATTTTTGAAACCTTTGTCTATCTCTGCGTAATCCGCAAAATAGACAACACCGTCTTTATCTAAAATACTCACATTTCCTTTTGCAAAAGCTTTGTTTTTTTCTTTGTCAAATTCTAAATAATCAGCTCTTAGAACCTCTTTTCCTTGTATTACCTCTACTTCACCTTTTGCAATTATTAGTATTTTATCATTATTTATAATTTTATTTGCATTTAAGATAAATGGTAAATCTTCTTCTGATAAAAGATTCTTATTTATCAAAACAAGTAAAAATATAGTTAATACAATAATATTTTGTATATATTTAATTTGTTCTCTCAAAGTGTAATATAAAAAAAATTCCCATCATAATAGTTATAATAGATGGGGATATAGATGCAAGTAGGGTAGGTAATTTATTAGCAATACCAAGTGAATATATATATTCAGAAATTACATGAATTAAAAAACAAAAGACAGAACATGATAAAATCATAAAGAAATTTTTTACATTGGTTTTTGTATATTTAATTGTAAAGGAACCAGCTACTAATATTAATCCAATAAGATATAAAGGTAAAAATATACTTTTAAATAAATACATTTTATGTTTAGTTGCTGAAAATCCAGATTCTTGTAATAAATTTATAAATTCTGGCATTTTTCTTATCGATAGACTTTCTGGGTCTAAAAAACTATTTTCTATTTTATCAATGGATAGATTGGTTTTTAATGTGTATTCATCAATTTTTACAACTTTTTTATTTGGTCTATTAATGATGACGTTTTTCATGATCCAATTATTTTGACCAAGTTTTACATTTTGCGCATCAATTCTTTCAATAAAATTATTCTTTTTTGTAAAAATATAAAAAGTTGAATCTTTAAATAAGCTTTCTTCAGGAATAAAATTTGATGCTCTTATTACAATTTTATTATTATCTGAACCTTGTCTTAACCATATACCAGATTTACTAATTGAAGCTTTACTTAGTTTTCCTCTAAACATTTCTTGTTCTACTTTTTGATATAAATTTGTTGTATAGGAAAAAAAAGGGTTAAGAAATGAGATATACAAAATACTGAAAATAATAGAAAATACGATAAAAGGATAAAGTATTTTAAATGAATTTAATCCAGCATTTTGAATTATTATCATTTCTCTATTTTTATTAAAATGTTTGCAAGTAATCATAGTAGTTACAATAAAACTAATAGGTATTATAAAACTCACACTTTCGGTTATTTTCAATATAGCTAGATACAATATAAAAAATATTGATGATACATTGGGATTTTCTGATGTTCTTCTTAATAATTCTACAAATTCAATTAAAAAAACTATAAATAAAGCAATGAAAAAAAAGAAAATAAAATTTCTTATAAATTTGTTAAGAATATAAATTTCTAATTTTTTATTAAAAATATTTAAATTTGATATTTTCATTTTTTAAAATAATTTTTTTGTATATTGGTGATTAATAAAAAAAATAGTAAAAAAATTGGAAAAATATAGATTCCAGGTAATAAATAAATCTTTTTTACAATTAGATTAGGAATTGAAAGATAAATAACTTCAATTAAAAAAATTAATAATATAATCATAGATGTTTTTTTGAGTGTAGATTGTAGAATCAAATTATCTTTTAATAAAAAAGTTAAACTGATTAATGTAAAAATTATACAATATATAGGGTCAATAATTCTTTTGTGTCCTTCAATTATCATACTTTTTATTTGATTTTGATCATATCTTCCACTTGTTAAATGTTTTTTATCCCATAATTCATTTACAAACATTTCTTCAGGTTCTTTAATTCTTTCTTTATTATCATCTTTAATTAAATTATCTAAATTTACTTCATATTCTTCAAATTTAATTATGCTTAGTTGTGAATTTTTTTTATTAATAATTTGTCTATTCCCGTTTCTTAAAATAACTTTATTTTGAAGATCATTTTGAATTAATTCTGCTTTTTTTGCTATATAAGTAGCGGGGTCTTTTTTATTTCTATTATCATAAACAAATATGTGTTTAAAATTATTTTCATCTTCTACTTTTTCTATATATATAGTTATATCTTGAAATAAGTTTGAAAATCTTCCTTCTTTAAAAGCAACTCTAGCAATATCTTCTCTTAATTCTTTTTGATTTTCTTTAAATGTATTTTTACTAAGAGGACTTAAATAAAGATTTAACATTAAATTTATTAAAGCTACAAATATTGAAAGTAACAAAGCTGGCTTAAGTATTTGAACTTTACTAAAACCAGATGATTTTATGATTATTAATTCATTATCATTTGATAATTTATGATAGACAATTATACAAGCAAGACTTAGTGTGATTGGTGTTAAAGACGGAATTAAAGTAGGTATTAATAATGAAGTTAGTTTAAAAAAATTTTTAATATCCAATCCATTTGTTGTAACATATTCTATAAATTTCAATGCTATTATAAGCCACATAACAATTATAAAAAAAGATGTTAAAGATATAAAAAAATACCCAATTTGCTTAAAAATATATTTGGAAATTATTGACATAATAACTATATTAATTTGTGTTCTATGAATGTAAATTTTATCAATAAAAAAGTTTTACCAAACTTTAAAATATTTTTTGTTAATAAAGACAAAAAAAATATTACTGATTATAGTATTTCTTCAGATAAAGAAATAGAAAATAATATTTTAAATCTTTTATCAAAAAGAAATTTTAACGGTTTATTAAATCAAATATCTAATATTGAGATTTTTGATAAAAAAATTAATCATAATTTCTTATTTATAGGTATTGGGGAAACTTCTGAAATTAAAGAGTTTAATTTTCAATATTTTGGCGGACTTTTATTTTCTTTTATTGAAAATTTAAAATATAAAAAAATATCTGTTTCTATTGAAAATGTAAAAAAAATTAGCGTAAGTAAAGAAAGTATTATTTTAAATTTAGCTGCTGGAATTAAATTAAAATCATATTCTTTTACTAAATATAAAAATATTAAAAAAGATAAAAAATTTAAAATTGAAGAAATAAATTTTGTTACATCACAATCTGCTAAATATAAAAAAATGTTTATATCTCATAATGCTGTTACAGAAGGCGTTTTTTTTTCTCGAGATCTTTTACATGAACCACCTAATGTCTTAAATCCTGTTCATTTAGCTTCTAGAGCTAAAGAACTAACTAAATTTGGATTAAAAGTAAATATTTTAGATGAAAAAAAAATGAAAAAGCTTGGTATGAACGCTCTTTTAGGTGTAGGTATGGGGAGCGCTAATCCATCAAGACTCATTACTTTAGAATGGAATGGCAACCCAAGATCAAAAAAAGCATATTTAGGTTTAGTTGGCAAAGGTGTAACATTCGATACGGGCGGCTATTCACTTAAACCATCTTCAGGTATGGAAGAAATGAAAATGGATATGGGAGGTTCAGCATTAGTTCTTGGAGTAATGAAAACACTTGCTTTAAGAAAATCAAAATCTAACGTTGTTGCTGTTATAGGTACAGTTGAAAATATGGTTAGTTCTAACGCTCAAAGACCAAGTGATATAGTTAAATCTATGTCAGGGCAAACAATAGAGGTATTAAATACAGATGCTGAAGGCAGATTAGTTTTAGCAGATGCATTATGGTATTGCCAAGAAAAATTTAAAGTGAAAAAAATGATAAATTTTGCAACATTGACTGGTGCTATTATTGTAGCTTTAGGTAATTTATATGCTGGTTTGTTTTCAAATTCTGACAAATTATCAGATGATTTAGTTACTTCAGCAAATAAAACAGATGAAAAAATTTGGAGATTTCCATTAAATAAAGAATATGACGAATTATTAAATTGTGATATTGCAGATGTTAAGAATATTACTGGTACAGGTGGGGCAGGTAGTATTACAGCTGCACAATTTTTACAAAGATTTGTAAAAAAAGAGGTTGAATGGGCACATTTGGATATAGCTGGAGTTACTTGGATTAATAAAGATTTACCTTTATCTAAAAAAGGCGGAACTGCATTTGGAGTAAGATTAATAAATGATTTTATTCTTAATAATTTTGAAAAATAAATGCCTAATCAAAAAACATTATCAATAATTAAACCGGATGCTATTAAAGCTGGTGTTGAAAATGAAATAAATACAATAATAAAAAATTCTGGTTTAAATATTTTAAATTCAAAAAAAATAACATTAACCGAAACAGAAGCTAAAGGATTTTATTCAGTTCATTCAGACAAACCTTTTTTTGAAGAATTATGCCAATTTATGGTTTCAGGACCCATAATTGTTCAGGTGTTAGAGGGCGAAAATGCTGTTGAAAATTATAGAAAAATTATGGGTGCAACTAACCCAGATGAAGCTATTGATGGAACTATTAGAAAATTATACGCTAATTCAATTCAAGAAAATGCAGTTCACGGATCTGATAGTGAAGAGAATGCAAAAAAAGAAATAAGCTTTTTTTTTAACGATGAAGCTTAAAGTAGAAATAAAGCCATAAAGGCTAATATTACAATTACACCTGCAACTAATAAAACAGTACCTTTAAGAAAAACAATCCAGTTGTTATAAGCTCTTTTTAAATTCTTATCCATATATTAAATTTACAAAAAAAAATTTTTTAATCAAATTATTTATACATTTTTAATAAATTTATTTATTTCTTTATTTTCACTTTTAATTAATACTTTGTTTTGTTTTATTAAAATTTTTTTTTTAGAAAATAAATTTATGACTTGAGGGTAAATCACATGTTCAAGTTCTAAAATTTTTTTTTGTAATTCTAATTCTTTCATTTTCTTTTTAACAGTTAAAGCTGCTTGAGCAATAATCGGTCCACCATCTAAACTTTCATCAACAAAATGAATAGTACATCCTGAAATTTTTACACCTTTTTCTAATACTCTTTTATGTGTATTTAAACCTTTAAACGAAGGTAATAGGGATGGATGAACATTGATAATTTTATTTCTCCATTTTCTTATTATAAATGGTGATAATATTTTCATAAAACCAGCTAAACAAATTAAATCAGGTTTTAGTCTATTTAAATTCTTTTGTAATTTTTTTTCGAAATCTTTTTTTTTTTCTTTAATAAAAATTTTTTCAAATTTTCCTTTAATTTTTAAACCAGAAGCAAATTGATTATTAGAAATTATTGCAATTATTTTCGCAGGTGTTCTTTTCTTTTTACATTCTTGAGCTATCGCTTTAAGATTACTTCCTCTACCTGAAATAAGAACAACAATTTTCAAATTTTCCATTTTTGTTCTAATAATTTAAAATCAATTTTTTTTTTACTTTTAATAATATTTCCTAAATAAAAAAAAGGTTCTTTGTTTTTATTTAATTGTGAAATTATATTTTTGGCCTTATTTTTTTTACATATTAAAATCATACCTACACCACAATTAAAAATTTTTAACATTTCTTTAAATGATAAATCACCTTGTTTTCTAAACCAATTATAAATATTTGGTAATTTCCAATTATGATTATTAAAATCAATTCCCAAACCGTTTGGAATAATTCTTGGTATATTTTCTATAATACCACCTCCTGTAATATGACACATTCCATTAATTCCATTTGTATTAAGAAGTTTTAATATTATTTTTGAATAAATTTTTGTAGGTTTTATTAGAAAATTTCCAATACTATTTTTATTTATTATTTTTTTATAACTTATTTTCTTTTTTTCTAATATATACCTTATCATAGAATATCCATTAGAATGAAAACCTGAAGATTTAAGTCCTATTACTACATCATCTTTTTTAATTGCTTTACCTGTAATTAATTTTTTTTTTTCTACTACTCCAACTGCAAAACCAGCTAAATCAAAATCATTTTTTTGATAAATACCGGGCATTTCAGCAGTTTCACCACCCAATAAAGAGCATCCGGCAATTTTACACCCTTTACAAATTCCATCTATTATTTCTATACCTATTTTTTTATTTAATTTTTCTACAGCTATATAATCTAGAAAAAAGATTGGTTTACCACCGTGAACAAGAATATCATTTACAGACATTGCAACTAAGTCAATTCCTAAAGTATTATATTTTTTTAAATTTTGAGCTATTTTAATTTTTGTTCCTACACCGTCAGTAGCACTTATTAGCAAAGGTTCTTTATAATTTAAAGATGATAAATTAAAAAAACCTCCAAAAGAGTTTAAATCTTTGAAAGAACCTTTTATATGTGTTTTAAAAACTTTTTTTTTTATTAATTTAACAAATTGGTTTCCAGAATTAATATCTACACCTGCTTTTTTGTATTTATTTACTTTTGACACCATTGATTTATTATTTATTTAAAAATATAGTAAAGAGATATCATAATACTATGAAATATAATTTTATTAAAATATTCATTATCTTTTTTTTAATAAGTATAATTTTTTCAAAATATTTATTAAGCGGTACTGAAAAGAAAGGCACAATTTTTACAATAAATGATGTTTTTATTGATATAACTTCAACTTCAACATCTAAAGCTAAAGAAATTGCCTTATTAACAGCACAAGAAAAAGGTTTTAATAATTTAATGAAAAAAATGCTTTTGGAGACTGAATATCAGAAAATTAAAGATATTGAGGCTGAAAGAATACAAGAATTTGTAGAAGCAATTGAAATTCAGAATGAAAAGACTGCTCCAGAAAGATATATTGGTAATTTAACAATAATATTTAATGAGAATAAAATATTAAATTTTTTTAATAAAAATAATATTAAATTCACCAGTGTTAAAAGTAAGCCATTATTAATTTTACCTATTTATAAATTTGCCGGTGTAACATACCTATGGGAAAAAAAAAATATTTGGCGAAATATTTGGATTAAAAATGCTAACTATCAGGGTTTAATACCTATAAAATCTTCAGAAGGAAAATTTACTGATTTTATTTTATTTAATCAAGATCAAGCAGTTAAAAAGAATTTAGAAAATCTTGAATTATTAGCTAAATCTCATGATACTACTGGAGTTTTAATTGCTATTTTAAAAAAAAAATATAATAGAGATAAATCAAAAATATTATTTAATTTAGATCTCTCTATTTACAGATTTGATGGTGGTGATAAAGATACTTATCAGGATACAATAGAAATATATACTAATGAATTTTCAGATGATGTTTTAAAAGAAGCAAGAACAAAAGTCGAGGATTTTGTTAATAAACAATGGAAAACTGCAAATGTTTTAAGTTCTCAAAAAAAATTAACTAGAATTACTGTTTTATTTAAAAGTTTAAACGATTGGATCAATATTAAAAAAAGTATTAATAGCATGTCAATTATTGATAAATATAATGTGACTAATTTTTCTAAAAATGAAGCTAATATTATCGTATCATTTTCAGGAAACTTAAATCAATTAAAATTAGCTTTTAGTCAATCGGATCTAGATTTTAATATTGAAGATAAAAATTTAAATCTTAAAAAATAATTTTTAAATTATGATAAAAAATTTAAAAAATACTCAACTTCCTTTAAATTTAAAAAAAAAAAATAAAATATATGAAAAGAACGATTTTTTAATATCTTCATCTAATAAAGAAGCATTCAATTTAATAAATAAATGGCCAAATTGGATAGGTAGAAAATTGATTTTATATGGGGATAAAGGTATTGGTAAAACACATTTATCAAATATATGGAAAACAAAAACATCTGCTTTAAATTTAAGTCTAAAAAAATTCAAGAATTTAAGGTTAGAAAATATTTTTCAAAATAAAAATACCTTCGTTATTGAAAATATTACAAAATTTTTTAATGAAAAAGATAAAAATATAAAAAAAAAATTAGAAAAAAAATTATTACATTTTTATAATTTAGTAGATGAAAAAGAATCTTACGTATTAATTACTTCATTGGTTTCACCAAAATCTTTAAATATTGTTTTACCGGATCTAAGATCTAGAATTATGTCATCAATTTCTATTAAAATAAAAAAACCTGACGATAAATTATTATCTTTAGTATTAATAAAATTGTTTTCAGATAAACAAATTTTAATAGACAAAAAAATAATTAAATTTATTGTGTATAGATCTGAAAGATCTTTTACAAATTTACGGATGATAGTAAATAAATTAGATAAAAAATCTTTAATAACAAAAAAAAAAATAAACTTATCTTTTGTTAAGGAATTAATTTAATATAAAAAAATGCACCAATTTAGAACTCATAACTGTAATGAACTAAAATTAAAAGATAAAAATAAAATAGTTAAATTATCAGGCTGGGTTCATAGAAAAAGAGATCATGGAAATTTACTTTTTATTGATTTAAGAGATCATTATGGCATAACACAAATAGTAATTGATAAAAAAAATAAGTTTTTTCCTATTGCTGAAAAAACAACAACTGAAAGTGTTATTATTGTTATTGGAAAAGTTGTACCTAGATCGAATGAAACTTTAAACAAAAAGATCCCAACTGGTGAAATTGAAGTTAGTGTTGATGAATATATAAATGAATCACCTGCTATGCCATTACCTCTAGAAGTTAATTCTGATAAAGATTATGGAGAAGATACTAGATTGAAATTTAGATATTTAGATTTGAGAAGATCTAAAATGCAGAAGAATATTTTGTTAAGAAATAAAGTTATTTCTTTAATTAGAGAAGGTATGGTTAATCAGAATTTTATAGAAATACAAACACCAATATTAACAGCAAGCTCTCCTGAAGGTGCTAGAGATTATTTAGTTCCTAGTAGAATTAATCCTGGTAAATTCTACGCATTACCGCAAGCACCTCAACAATTTAAACAATTGTTAATGACCGCTGGTTTTGATAAATATTTTCAAATTGCTCCATGTTTTAGAGATGAAGATAGTCGAGCAGACAGATCTCCAGGTGAATTTTATCAATTAGATTATGAAATGTCATTTGTAACTCAAGAGGATGTTTTTAATGCTTTGGAGCCAGTGTTATTTAATGTGTTTACTAAGCTAAAAAAAGATTTTTCTATTTCAAAACCACCTTTTAAAAGAATTACATATAATGAAAGTTTAGAAAAATATGGTGATGATAAACCTGATTTACGAAATCCATTATTATTATCAGACGTAACAGAGATTTTTAAAGGATCAAGTTTTAAACTTTTTGCTGAGAATGTTAATAAAGGTTCGATTGTAATTGCAATTCCCGCTCCTAACACAAAAGATAAACCAAGAACTTTTTTTGATAAACTTAATACATGGGCAAAAAATGAAGGTCAGGGAGGTATGGGATATATACAATTTATAAATAATGATGGTAAAGGCCCTATTGCTAATAATTTAGATAAAGAAAGAATTAATAAATTGCTTGAAATCGACGGTGTTGATAAAAATAGTTCTATATTTTTTTTATGCGGTAAAGAAGAAGAAATTAGAGAATTTGCATCAGCTGCACGAACAAAAATAGGGAATGAATTAAATTTAATTAATGAAAAAGAATTTTGTTTTTGTTGGATAGTTGATTATCCAATGTATCAAAAAAATCCTGAAACAGGAGAGGTTGAATTTAGTCATAATCCATTTTCAATGCCACAGGGAGGTTTAGATTCTTTAATAAAAGAAGATCCTATGAAAATAAAAGCTTTTCAATATGATAATGTTTGTAATGGAATTGAATTATCTAGCGGAGCAATAAGAAATCATAAACCTGAAATTATGGTTAAAGCATTTGAACTAGCAGGATATAGTAAAAAAGATTTAGAGGAAAAATTTAGCGGGCTTTTACAGGCTTTTAATTATGGAGCTCCTCCACATGGTGGTTGTGCTCCAGGGATTGATAGAATAGTAATGCTAATAGCAGGCGAACCTAATATAAGAGAGATAATTCCATTTCCTTTTAATCAAAAAGCAGAAGATTTGATGATGAATGCGCCTGCTGAAATTTCTGTTGAAAGATTAAAAGAATTATCTTTAAAAATATTAGATCTTAAAAAAAAAGATTAGATATCAGACTTAATTTTTTCTTTTTTACTTTTTCTTTTTTTTTTAGTTTTTTTCTTCTTTTCAGTATCTTTAGTTTTTTTTATTTCTATTAATTCAATAGCTTTTTCTAAAGATATTGTTTTTGCATCAATTTCATTTGGAACTCTAATACTTGTAGTCCCATTTTTTAAAAAATAACCAATTCTCCCTCTTTTGCTAACACTTAATTCTTTATTATCGTGAGTTCCTATAGTTTGTTTTTCTATTTTTTTGAAGTGTTCTTCAATTAAATCAATTGCTCTATTTTGCCCAACTGTATAGACATCATCTTCTTTTAATGAAACAAAATAATCACCAATTTTTAAATATGGCCCAAATCTTCCATTATTCGCAATAATTATTTCATTAGTTTTTGAATATTTACCAACTTCCCTTGGTAAAGATAATAATTGTGAGGCCTTTTCAATACTTAATTGTTCTAAAGGTATATTTTTTGGTACAGAGGCTCGTCTTGGTTTTTCACCATCCTTATCTTCCATTTCAATATATATTCCGTATGGACCTTGTTTTATTGTCATAGGTTTGTTTGTTTTTGGATCTAAACCAATTTCTTTTGGCAATGCCATACCACCACCATTTTGTTCATCACCATTAATATTTGATGTTAATTGAGTAGCATATTTACAATCAGGATAATTTGAACATCCAATAAATGGACCTGTTCTTCCTAATTTCAAACCCAATCTTCCATTATCACAAGTAGGACACTTTCTTGGTTCTGAATTTTTTTCATTTGGTTGAAAGAAATGATCTTCTAATTGACTATCTAATTTATCAATAACATCCCTTATTCTGATTTCTTTAGTTTGCTCAATTAAATTATAAAAATTTTTCCAAAAATCATCTAATACACTTATGTAATTTAATCTACCACCAGAAATATCATCTAATTTATTTTCTAAATTTGCAGTAAAATCATAATCTATATATTTTTCAAAAAAATTAGATAGAAATACAGTAACTATTCGGCCTCTATCTTGAGGAAATATTCTTCGTGATTCTATATTTATATATCCTCTTGTTTTTAAAACCTGAATAATAGGAGCGTAAGTAGATGGTCTTCCAATTCCTAATTCTTCTAATTTTTTAACTAAACTTGCTTCTGTATAACGAGCAGGTGGTTGTGTAAAATGTTGTTCATCTAATATTTTATCAATACTTACATCATCACCAGAATTTAAGTTAGGTATTATATTTTCTTCATTTTCTTTACTATTAGATTTCTTTTCATAATTATAAACTTTTAACATGCCATCAAAAACAGGGGTAGAGCCTGAAGAGTTTAAAAAAATCTGTCCATCATGTGATTTGATGATTAAAGTAATTTGTTTAAATATTGCACTGTTCATTTGTGATGCAACAGTTCTATTCCAAATAAGTTTATAAAGTTCAAATTCATCAGAACTAATGTCATTTTTTATTTTTTCAGGTGAATTATTAATGTTAGTAGGTCTTATTGCTTCATGTGCTTCCTGCGCATTTTTTGCTTTTGATTTATAAATTCTAGGCTCGTTTGGAAGATAATTTTCACCAAAATTTTCTTAGATATAATTTCTAGATTGTTGTATTGCATCATTTGATAAAACTATACTGTCAGTACGCATATAAGTAATAAAACCATCTTGATATAATTTTTGTGCTTTCCCCATTGTTGATGCGGCAGAATAACCAAATTTATTTCCAGCATCTTGTTGTAATGTTGAAGTTGTAAAAGGTGCATAAGGATTTCTTTTAACTTCTTTTGATTTTATTTCATCAACTTTATAAGTTTTTGAATTTATTATTTCAACATATTCTTTAGCTGTAAGTTCTTTATCTATATCTAATTTTTTTAATTTTTTATCATTAATTTGTTTTAAAGATGATTTAAAAATTTGATTGTCTTTCGATTTTAATAAAACATCTATAGACCAATATTCTTTTGGTTGAAAATGTTCAATTTCATTTTCTCTTTCACATATAATCTTTAAAGCTACAGATTGAACTCTTCCTGCTGACTTACTTCCTGGAAGTTTTCTCCAAAGTATAGGAGATAAATTAAATCCAACTAAATAATCTAAAGCTCTTCTTGCTAAGTATGCATTAATTAAATCATTATCTAATTCTCTAGGTTTTTCGATTGCATTATTAACCGCTTCTTTTGTAATTTCATTAAATGTAATTCTTTTTACATTTACATTGTCCAATTTATTCTTTTGTTTGAGTACCTCTTCAACATGCCATGAGATAGCCTCACCTTCTCTATCTGGATCAGTCGCTAAATATAAATTA
>sequence03
CCAGTAATTCTTGCTTTTCTTTCTATTTTTTCAAATTCAAATTTTGCACCATATTTGAAATTATTTGGCATACCAAAAAAATTTGTATCTTTATAAAATCTAGTTTCTATACCTCCTGTATGATATCTTCTAGGAGTATTTTTATAACCACAGGTTCCTCTAGTTGCTGCAGCCAGTTGAACCATTTGGCCTTCAGCAGCATCTGCACATTCTATATCTTCTCTCACAACTAATCCTGCAGATTCATTATCAGTTTGAGACCAACGTTGTCTATAAACAAAATTATAATATATCATTGTATCAATTTTTAAACTTTCACTAGCATAATAACTATGAGCTAGACTTGTTCTAAACAGATCCATTTCAAAAGTATCGTCAAATTTTCTTTCATTTCCCATGTAAGCATTATCATTATATTGGTATAAACCCAAACCACCTTCAGCATATTCTGAATCCTCTTTACTATAATTTAAATTAACTGAAATTTTTTGATTTGTTGCTAAATCAACATCACCGTTTACAAAAAAATCATTAAATCTAATAATATCACCTTCTACAGGCCCCCTATTATCATGTCTTGTAAACATTCCTTGCCATGTTCCAATTTTACCAAAATCTCTTCCATATCTAACATGATACTGTGTTCTTGGTCCGATATTTGACTCTCCGATTGATGTTATAAATTTACCTGCCCCTTGCTTTGGAGGACGATGATTTAAAAAATTAATTATACCATGCATTGTTTGAGGTCCATGTGTTAATTGACCTGAACCTTTTATAACTTCTATACCACCAATTCTTTCATCAGGTGGGATATAGTGTGTGCTTGGATCTGTATATGGTGCAAAATTTAATGGATTATAATCTTCATAAACACTTATTTTTCTTGATCTTCTTGAATGCGCTCCACGAACACCAAAATTAGCCTTACGTGTATCACCATCATCTATTTCAGAAATTACTCCTGGTATTTCTTCTAATACCTCACCTACTGTCAAGCCTCTTGATTTATCCATTGAATCTCTTCCAACATAATTAGTAGATCCTGGAGTTAATTTAGTTCTATCTCCAATCGATGATTGAATTTCTATATCAGGTAAAACTATTACTTGGTCATCTTCTTCTGCAGAGAGACTAAGAGAGAAATTAAAAAAAACAAAAAAAACAATTAAAAAATGCATAAAAAAAAATACCAAATTTTTTTTATAAATTATAATAATTATTTAATATAAGCATTCATCATTATTATTAATAACCCTATTTTTAATTAAATTTTTCTAAAATTAAATTGCCATAAACGCCCAATCTTTTTTCATAAAATCTTGGTTGTTCACATAAACTATCTGAAATATTTCTTCTATCTTCAAATCTTCTGATATCCCAAAATTGTTCTTGTTCTAGTTTTTCAATTTCATTCTTATTTTTTTCATAATCTTTAGACAATTCTTTAATTGTTTCTAATTTCTTTGCTACTTTTTCCGAAGTTAATCTTTGTCTTTTTCCAAAATTCATTAACTTTTGAGTTCTATTTCTCCAAATATCATTCGTTGTATCAAATAAAGCGTGAAATAATTTTGTTAATTCAGGAGGAGAACTATTTTTATTAATATATTTATTTAATTCAATAATACCCTGTTCTTCTTTTGTTTTTCTATTCATTAATTTTTTTGAAAGAGAAACTAATTTTTCATCATTTTTCCAAGTTAGTGATTTATCATCAAGAGGAGGTCCTGTCCATAAAGAGCCCCAGCTTAATTCTTCAATGAATACTTGTATACATGGCCAATTAGGATCTATTTCTTTACCTGGGGGTGGCGCATATGCATTACTTGAAATAAAAAATGAAATCAATATAAATATTATTTTTTTCATAATAAAATTAAACTTTCTTCTTTGTCATTAAACCTTTGCTAGGATCATAACCATAAATAGCCATAGTTAAAAAAATTATTAAAAAAACAAATACAAATAAAAGTGATTTTTCATTAAGTTGTCCATAAAGGGCAAATCGAATTAATTCTACAGCATGAGTAAACGGATTATATGAACAAAAATAAAATAAAATTTCACTAGATTCTCTAATTTTCCATAATGGATACAAAGCAGAAGAAGCAAAAAACATTGGAAATATTACAAAATTCATAACTCCTGCAAAATTTTCTAATTGCTTAATCGCAGAAGATAAAAACATGCCTAATGCACCTAACATCATACCGGATAAAAAAAGAGCGGGCAAAATCGTTAAATATCCTATTATTGGTGGTTCTATGTCCCAATAAAGTGCTATAACTAAAAATGTAAAAACTTGAAGTATACTGACTGAAACTCCTGCAATTAATTTAGAAATTAATAAAAAAGATCTTGGAAATGGACTGACAAGAAGTGTACGCATACTCCCCATTTCTCTATCATAAACCATTGAAAGAGAGCTTTGCATACCATTAAACAATTGTATCATAGCTATCAATCCAGCAGCTATATAAAGTTCATAAGGAACTAATGATATAGGATAAGGCCAATTTTCTGGCTGGCCCAAAGGTCTACTTACACCTAAAAAAGAACGAAATCCTACTGCAAAAATTGCTAACCAAACAAGTGGACGGACCAAAGCAGAAAGAAATCTTTCTCTTTGATAAAAAAATCTTAAGGACTCTCTATAAACAATTCCTTTAAAACACAAATAATATTGAAAAATATTCATAACTATTTTTTTGTATAATAATCAAAAGCGTTTGAAATATTTTTTACTTTTGTTTCTTTTAAAATATTTTTTACATTATCATTAGCTAATACTTTTCCTTTATGTAAAACAATAAGTTTACCCTTTTCATCAACTTCATCAATTAAGTGTGTTGCCCAAAGAACAGCAAGTTTTTTTTCAACACATAAAGTTTTTACATGTTTAACTATAAGTTTTCTGCTTTCTATATCTACCCCTACTGTTGGTTCATCTAATAAAAGTAATTTCGGGTTGTGCATTAGTGCTCTAACAATTTCAACTCTTCTTTTTTGTCCTCCACTTAACTCACGTACTTTTTTTTTTAGAATATTTTCCATATTTTGTCTTTCTAATTCTGATATAGCATTTTCCAAAGCCAGACTTTTTTTCATTCCATGCAAAGATGCATGATATTGTAAATTCTGTTCAACAGTTAAATCTAAATCTACAGTTGGCTGTTGGAAAACAACTCCTATATTTGCTAATGCTTTACTAGGATTTGTTTTTATATTTTGTGAAAAAATTTCAATTGAGCCTGTTTGATTATCGTACAATCTTGTAATTAAAGAAAAAAGAGTTGTTTTACCAGCTCCGTTTAAACCAAGTAATATGGAATAGTCACCTTTATTTAAAAAAAGATTTACATTATCTAAAACTTTTAATTCTCCAAAACTATGGTCTAATTTTGTTATGCTTAAAGCTGAAGAGTCCATATTTATAATTTATAGAAAAAAACTTAACCTTGAATAAAAAAATATTATTCTTTTACTGCAACCCCCCATGGATATCTGCCAACTGGAATTGATTTAATTACTTTTCTTTTATCAATATCCACAACTGAAATATCATTACTGACTCCATTAGTAGTATATAATTTTGTTCCATCAGTATTAATCATTAAATTCCAGACACGTTGTCCAGTTAAAATATATTTTTCAACTTCATATGTTTCCATATTTATAATTGCTATTCTATTTGCAGGACCAAGAGCAACATATGCCAATTTTCTCTTATCATCTAATATAACTCCAACTGGCTGAATTGACTCTTTAGATAATCCCGGAATATTAAATCCAATTTTTTTAATTATCTCAAGTTTAGATGAATCAATAATACTAATGGTTCCTCCTATTTCAGATGACACCCAAACAAATTTTCCATCTGCAGTAAATTGTGCGACTCGTGGTCTTGCATCAACTAAAACATTAGCTTTAATTTCTAAAGTACTTGTATCTATAAAATGAGCCATATTTGTAGTTTCAGAAGTATTCACTAAAGTTTTACCATCAGGACTTAAACCCATACCTTCAGGCTCAACTCCAACTGGAATTTCCTTAACAACTTTTTTTTCCACATAATCAACTACTGTTACCATGTTATCATCTTCATTAGCAACATAAATGAATTTACCGGCATCATCCATTACCATTAATTCAGGGTCTGGACCGGATGGTAAATAATACTCAACTTCTAAACTATCAACATCAACAACTGTTATTCTATTATCATCACTAGTACAAATTATTATTTTTTTTTTATCTTTACTAAGAATTATCCCTCTTGGTCTATGACCAACTTTAACAGTTTTAATTACTTCTAAAGAATTACCATCAATTACAGTTATGTTATGATCTTTTTCATTTGATACATATATAATTTCAGACAATACAGTCTTTTGTATTAAAATTAAAAAAATAACTAATAAAATTTTTTTTATCATTTTTTATTACCTACAATAAGATATATTTTTCATAAATTAATTCAACTTACACTTAGAATCTGGTTCATCAATTCCTAAAGTATCTAATTCTGTTCTTGGATGAACAAACCCTGATTGAGGTGAAACAGAAACTAAGGCTCTAGGCGTTACTAATAAGATAGGCTGTCTAAGTTGTCCATTCCATTTTCTAAAACTGAGTGGTTTTCCTTTGTAGGCAGCCAAATTAAACTTATCATCAACAATTTTTTCTAATAATATTTCAACATCTAAAGATTTAGTTCTAGTAATTGCTTCTCCAAGAGTTCTAACTCCAACCCATGAATTAAAATCTATATTTGTCATAAGTCTTTTAGAATCTTTCAAAAATCTACTTTGCATTTGATTTCCTCCCCATTGCTCATGTGCAAAATGCCATGATGTTGGTTTTAAAACCTCACCTCCAACAACTATTGTTGGTTTCCAAGTTCTATAGGGAATATAATCACCAAAACTATTCCCCGAATCTCCAAAGGAGTTCCCCTCATCTGCCAATACCAAAACTTGATATTTTTCACCTTGAGTAAATTTAGTAATTTCGAGATCAGCAGTTCTTCTAAAATCATGAGTTAAATCCCATATTTTTTCATTTACTATTTTTAAACCGAATCTTTTTGCTGAAATTTTAATAGAGTCAGCAAATTGTTTATCTCTTTCATTTGCGCCAGATATTAATAATAATTTAGTCCAATTCTTTTTTTTTAAAAATTGAATTAACGCATCAGCAACCATTCTATAGCTTGGAGCTGTATGTAAAACATTTTTATTACAATTTTCATTTCTTAAATCGTTATCTTTTAAAGAAGCATTAATTATTATCGAGTCTTTAATTAAGTTTGATGTTAATATTTTTGCGAAATCATCTTTAGAAACATTTAAAACAAAAAAATTATATTTATTTTTTCTGAATTCTTCAAAAATTTCTTTTGCGGATTCTTTAGACATTATATTCTTTTCAATTAACTCAAAGTTTTGATTAGTAAACTTTCCAGTTGTATTGTTATCTTTTATACCCATTCTGCTACCTAAAATTCCATTATTTACTATTTCTGGATTGATTGAATAGATAGTAGGTTCTCTTTCAATAATTCTATTTAAATGTACTATTTTTATTTGTTGTATATCAGCTGATAATCCAATTGATATAAAATTAAAAAATAAAAAAATTATATAAATTAGTTTCTTCATATTCAAAAAATAATGTTTTTTGTAAGATTAAGTCATTTATATTTATAATATAGAATTATTCATACGATAAATATCTATGAGTTGAATTAATTAAAAAAAAAATTAATATCCTTATTATGAAACCTTTATTAAGATGGTGGCTATTTATAAGTCTAACAGTTGTACTAACATTTGCCTTCTATTATTTTGGATTGTTTGCTGAAGTTTGGGATAAAGATAGAACTAAATTATCTTTTTTAATTATGGTAATGTTTGCAGTTACATCAATTCATTGTGGTAGAGAAACAATAAAAATATCAAAAGCATTAGAAGGAGATATCTCCTCAAATAAAATAAAAGAAACGGATTGGCGTGGAAATCAAGAAATTGGATGGTTCATATCTGATTTAGTATTAACTGTAGGTATGATTGGTACAGTGTCAGGTTTTTTACTTATGTTAACTGGTGCATTTGCAGGCGTTGATTTAGGAGATGAGGTTGCAATGAAAGAGGTTTTGGAAAAAATGTCAAAAGGAATGTCAACTGCACTGTATACAACTTTGTTTGGTTTAATTTGTGGTGGTTTATTAAAAATACAGTATTTTAGTCTTGCACGAGCAACAGATTTTTTAATTGGTCCTTACGATAATTCAAAAATAGAATAAATAAATAAAAAAAAATGCAAAGAAAATATCATACTAATCTTCCATTCTTAGATTTACTTTTTAATGTCCTTATTGGTTTTGTTTTTTTATTTATTGTTTCTTTTTTATTAATTAATCCGGTTGCAAAAAGAGCCGATATTGAAGTTAAAGCAGAATTTTTAATTACAGTTTTTTGGCCTGACAATCTTGAGGATGATATAGATATTTATGTTGAAGATCCTGCAGGAAATTTAGTTTGGTTTAAATCCCGCGAACCCGGATTAATGCATTTAGATAGAGATGATTTAGGAAAACGTAATGACGAAGTTATTACAGCGGCAGGAACTATTCTATTTCCAGAAAATAGAGAAATTGTGACTTTAAGAGGCATTGTACCTGGCGAATACGTTGTTAATGTACATTGTTATTTTAAAATAGGATCAGATCCTGTTCCTGTTACTATACAAATTGACAAAATCAATCCTTATTCAGTAGTTTTACGAGAAACTGTCGATTTAAAAAATAAAGGTGAAGAAATTACAGTCACAAGATTTAGTGTAAATTCTAAAGGCGATGTTACTAATGTTAATAAACTTCCTAAAAAATTGGTGCAAGAATGGCAGAAGGGATAATTGGTTTAAGCGCAACTTTTTTGGTTTTAGTTGCATTGATACTTTGGTTAATAATTCTTAGTAAAGGAAAATTTTGGGTAATTAAAAGTATAATTATTTTTTTTGCAACTTTATTTTCAATCATACTTCTAATTTCATTAAAGAGTTTTATAGGATGGCCAAGTGGCTCAAAATTACCCCAAGAATTTCAACTACATTGGGCAATAATTGATGAGCCTAATAAAATTAAAAATACAGATGGTTCAATTTATATGTGGGTTAGTGCTTTAGATGAAGATAATAAAAGCAAAGGTCTTCCACGAGCTTATAAAATTAATTATACAAGAAAGAACCATGAAGAAATAATAAAAGGATTGGTTAGTTTAGGAGATGGAATTCAACAAAAGGGAGAAAAACTAAAAGCAAAAGAAGATATAGATATTGATGAAGATTTAAGCAACATGCAAGAGATTGTTATTTATGAATTACCTAAGCCACTTTTACCAGAAAAAAATCAAAGAAGAACTGAACAAGGAGACACAACATCAAGTGGATTTAATGCACTTGAGATTGACCCTGAAACAGGAAGACCAATTATTGAAAAAAAAGATAAAGAATAACTTAAAAGGCTGTTAAAAAATTACTATTTTTTTTAGAAAGACTTAAAATAATTGACATTGCGGTTAATCTAGAAGTCTTAGGATTACTACTTGGATTATTTTGCAGTATTATTTTTAATTTTCCAAATTTTCCTGAAGCTTCAACTTCTGCAATATTTTTTTTAATTTTAGGATCAGCTATTACAACGACTTTTGTTTTATTAAAACCTAAGCCACAAATTGACAAAGTTGCTGCAATATTGGAGTTTTTTGGAAATTTTTTACAAACTTTACTTGCTGTAGAATTTAATAAAATTTTTTCTTTTTTTATTTTTTTTGATTCTAAATTTGATAACAAAGCCTTAGGGGGTTTTCTTTGTATTAATTTTACAAGATTTAATTCTTTATTAAGCGATGCTGAAGAAATTGCATCTAATCCTGCTATAGCTCCTGTAGGTATATAAACTTTACTATTTATTTTTTTAGTTAAAAAAATAATTTTTTTGAAAAATGAATTATTTACAAATGAACAAACTGATAAACAAACAAAATCTATTTTTTTTTTTAATATTCTTTCAGCATATTGAAAACAGGCCTCCACGCTTGCAACTTCTACAATCAAACTTGGTTTTTTTTTTAATAATTCATTAAAAGACAGGCATTTAATCTTATTAGGAATTTTTTTTGAAGCTATATCTTCAGAAAATATTCCTACGACTTCATAGCCATTAATAAATTTCTCTGAAATTTTTTTATAAATTTCTTGTCCAATTGCCCCAAAACCTAATATACCAATTTTTTTTTTTTTCATATTTTCACAAAAAATCTAATTTAGAACTATTCTAAATTGGATTGACAATATTATGAACATTTTTATATTCTATTTATAACATTAATTAAATATAAATTATGTCAATAAATGTAGAAACAAAAAAAACAGTTAAAACTATAACAGAAAAATATAAATATGGTTTTTCAACAAAAATAGAATCTGATACTGCTCCCAAAGGACTTAATGAAAATATTGTCAGATTAATTTCAAAAAAAAAGAATGAGCCTAAATGGCTTTTAGATTGGAGACTTAAAGCTTTTAAAACTTGGTTAAAAATGAAAGAACCAAATTGGAGCATGGTGAAGTTTCCTAAAATTAATTATCAGGATTCATATTACTATTCTGCACCTAAACCCAAAAAAAAACTTAAAAATTTAAATGAAGTTGATCCGGCAATTTTAAGTACTTATGAAAAATTAGGTATCCCTCTTGAAGAACAAAAAAGATTAGCTGGTGTAGCTGTTGATTATGTTTTTGATAGTACTTCAGTAGCAACTACATTTAAAGATAAGCTTGCTGAATTAGGAATAGTTTTTTGTTCTTTTTCAGAAGCTGTTAAAACACACCCTGATTTAATAAAAAAATATTTAGGAACCGTTATACCTTATACTGACAATTATTTTGCGACATTAAATTCAGCAGTTTTTAGTGATGGATCATTTGTTTATATTCCGCCCGGTGTGAGATGTCCAATGGAATTATCAACATATTTTAGAATAAATGCAGAAAATACTGGCCAATTTGAAAGAACTCTTATAATTGCTGATAAAGACAGTTATGTAAGTTATCTTGAAGGTTGTACTGCACCAATGAGAGATGAAAATCAATTACATGCTGCATGTGTTGAATTAATCACTTTAGATAATGCTGAAATTAAATATTCAACTGTACAAAATTGGTACCCAGGAGATGAAAAAGGTAAAGGAGGAGTTTATAATTTCGTTACTAAAAGAGGAGCGTGTAGAGGAAATAATTCAAAAATATCATGGACACAGGTAGAAACAGGATCAGCGATAACTTGGAAATATCCCAGTTGTATATTACAGGGTGATAATTCTGTTGGTGAATTTTATTCTGTAGCAATTACAAATAATTTTCAACAAGCTGATACTGGTACAAAAATGATTCATCTTGGAAAAAATACTAAAAGTACAATTATTTCAAAAGGAATATCAGCTGGAAAAGGGCAGAATACATACAGAGGTCTTGTCCGTATCGGCCCTAAAGCTAGCAACGGAAGAAATTTTACTCAGTGTGACTCTCTTTTAATTGGTGACAAATGTGGAGCTCATACCGTTCCATATATTGAAGTAAAAAATAAAACTGCAAAAATTGAACATGAGGCAACCACATCAAAAATAAGTGATGATCAAATGTTTTATTGTAGACAAAGAGGTTTAGATCAAGAAAATGCCGTTTCATTAATTGTAAATGGCTTTTGTAAAGAAGTTCTTAAAGAACTTCCAATGGAGTTTGCTGTAGAAGCCCAAAAACTTTTAGGAATAAGTCTAGAAGGAAGTGTAGGTTAATTTTATTTATGCTTAAAATTGAAAATCTTCACGCAAATGTTGAAGATAAAAAAATACTTCAAGGAATAGACTTAACAATAAATCCCGGTGAGATTCATGCCATAATGGGGCCTAATGGTTCGGGTAAAAGCACTTTAGCTAATATTTTGTCTGGTAGAGATGGTTATAAAATAACTAAAGGAAAAATAAGTTATCTAAAAAAGGATTTAATGAATCTTGAACCAGAAGAAAGAGCATGTGAAGGTCTTTTTCTTGCTTTTCAATACCCTGTGGAAATACCAGGAGTTTCAGGTATTAATTTTTTAAGAACTACACTTAATAGTATAAGAAAATATAAAAAATTAAAAGAACTAGACGGTGTAAGTTTTTTAAAATTATTAAGAGAAAAAGCAAAACTTCTCAAAATGGATGAAAAATTAATTAAAAGATCAGTAAATACCGGTTTTTCAGGAGGTGAAAAAAAAAGAAGTGAAATTTTACAAATGAGTTTATTAGAACCAAAACTTGCAATATTAGATGAGACTGATTCAGGACTTGATATTGATGCTCTAAAAATTGCAGCAAGTGGGGTTAATAACTTAAAAAATAAACAAAGATCTTTTTTAATAATTACTCACTATCAAAGATTATTAAATTATATTGTCCCTGACAAAGTTCATATTTTATCAGAAGGAAAAATTGTTAAAAGTGGAGATAAAAACTTAGCTATTGAACTTGAAAAAAAAGGTTATGAGGGATTAATTTAACTATGCAGCAAAAAATTATTAAAAACTTTGATATACCAAATAAAAAAATTGAAACTTGGAAATTTACAGATTTAAAAAAATATTTTGAGAAAAATGATTTTAAACCTAAAACAAATTCTTTTAAAAAATCTAATGTTATAAATTCAAATATTCCAAAAAATATTTTTTTTAATCCTAATAAAAATTTTATCATAATAGAAAACGGAATTTTAAAAAAAATTAATATAAAATCTGAAAATTTAGAAATAAAATCATCTAAAAATATTTTTAAAAAAAAAAATATTAAAAATTTTTTAAGAAAAGATTCTTTGTTAGATATTAATGAAACTTTTTTAAATGAAAATATAATTATTACTATAAAAAAAAATACTAAATTAAATAAAACAATAACAATTTTTTATTATAATTCAGAGAATGAAAAAAATATTATTAATAATAAAATTAATATTTTCCTTGAAGAAAATGCAGAAGCTGAAATAAGTGAAATTTTTTTTTCAAAAGAAAAATCTTTTTATTGGAACAATGTCCATAAATATATTGATTTAAAAAAAAATTCAAAACTTAATCATTATAATATTCAGTTAGAAAGTAAAAATGCCTTACATTCATCAATCAATAACGTAAATTGTAATAGCGCATCTACCTATGATAGTTTTATTTTTTCTACTGGAGCAAATTTATCTAGAATAGAAGCTATAAGTTCAATTAATGCAGAAGATATAAATTTTAATATTAAAGGTTTATATTTAGCAAATAAAAACCAACATCACGATATAACAACATTAATGCAACATAAAAAACCAAATAGTAAAAGTAACCAACATATTAAAGGAATATTAGAAGAAAATTCTTCAGGTGTATTTCAAGGAAAAGTAATTGTATCTCAAGATGCACAAAAAACTGATGCGTTCCAATTTAATCAAAATTTATTATTATCTGAAAATGCAGATGTTAATTCAAAACCTGAATTAGAAATATATGCTGATGATGTTAAATGTAGTCATGGATCAACAACAGGTGATTTAGATGAAGAAATGTTATTTTATTTGCGATCAAGAGGATTAAATAAACAACAAGCGAAAAAAATTTTAATAGAAGGTTTTATAAACGAATTATTTGATGAAATTAAAAATGAAGAAATAAAAGAAAATTTATTAAAAACATCAAAAGAAATAATTTAATTATGTTAGTCAGTGCCAATAAAAATAAATATATAGATATAAAAAAAATTAGAAAAGATTTTCCTATTTTAAAAATAAAATCAAACAATAAAAAATTAGTTTTTTTTGATAATGGCGCAAGTGCTCAAAAACCTCAGATTGTTTTAAACAAAATAAATGAGGTTTACAAAACAAAATATGCAAACATTCACAGAGGTATTTATAATTTAAGTCAGCAAGCAACAGAGGAATATGAAGAATCAAGAAAAAAAATTAAAAAATTTATAAATGCTAACAATGAGAAAGAGGTAATATTTGTTAGAGGTGCAACAGAAGGAATAAATTTAATTGCTCAATCATTTGGATTAAATAATTTTAAAAAAGGAGATGAAATTATATTATCGCAAATGGAGCATCACTCAAATATTGTTCCTTGGCAATTAATTAGAAACAAAACTGGTATTAAAATAAAAGTTCTTCCTATAAATAAGAATGGTGACATTGATTTAAATAATTTTAAAAAAATATTAACAAAAAAAACAAAATTTGTTTCAATTCTTCATGTATCAAATGCTTTAGGAACGATAATCCCGTTAAAAGAATTAATATCAATTTCACATAAAAAAAATATTCCTGTGTTAGTAGACGGTTGTCAATCTGCGCCACATATGAAAATAGATATGAAAGATTTGAATGCAGATTTTTATTGTTTTTCAGGTCATAAAATTTATGGACCAACTGGTATAGGAATTTTATATTGTAAAGAAAAATATCATGAAAAAATGCTACCGTATCAAGGAGGTGGCGAAATGATTTCCGAAGTAACTTTTGATAAAACAACCTATCAAGAATCTCCTCATAAATATGAAGCAGGGACTCCAAATATTGTTGGTTCAATAGCTCTAGGAACGGCAATTGATTACGTAAATAAAATTAAAATTGAAAATATTTTTAGATATGAACAAAATCTATTAAATTATGCAACAAATAAAATGAAATCATTGAATGATGTAACTATTATAGGTAATGCAAAAAAAAAAGCAGGAATAATTTCTTTTATTGTTAAGAATATTCACCCTAATGACATTGGGGTTATTTTAGATAATCAAGGAATTGCTGTTAGAACTGGACATCATTGCTGTCAACCTTTAATGAATTTTTATAAAATCCCTGCGACAATAAGAGTTTCTTTTGGATTATATAATACTATAGAAGAAATCGATTATTTTATTGATGCTTTAAAAAATGCAATTAACCTTTTAAGATAATTTATTATTATTATATAATTAAGATATGAGTAAAGAAGTTAAAGATAACATTATAAAAAATCTACATACAGTGTATGACCCTGAAATACCGGTGGATATTTATGAACTTGGATTAATTTATGATTTAAAAATAAAAGCAGAAGGTATGGTCGATATTACAATGACTTTAACTTCGCCAAATTGTCCTGTTGCTGAAATTTTACCTGAACAAGTTAAAAAAGCTGCTAAAAAAGCAAAAGGTGTAAAAGACGTAAATTTAAAATTAGTCTTTGACCCTCCATGGACACCAGATATGATGTCTGAAGCCGCAAAAGTAGAATTAAATATGGGATAAAAAATGAATAAATTAGAAAATATTATTACATTAACAGATGCAGCTAAAATTAGAATTAAAGAAATAATTTCAAATGCTAAAAAAAAATGTGTTGGTATTAGAATAGGTATAGATAATACTGGCTGTTCTGGTCACTCGTATAAAATTAATTATGCAGAAAATAAAAATAAAGGAGATGAAGAAATAATTTTTGATGATATTAAAGTTTTTGTTGACCCATCAGCTACAATGTTTATTTTAGGATCTAAAATTGATTATGTTGATAATGGTATGGAATCTGGATTTATTTTTAAAAATCCAAATGAAAAAGGAAGATGTGGCTGTGGTGAATCTTTTAGTGTTTAATATTTAAAATTATTTTGTCGGGATTAATAATTGTACGAAGAAATAACCAAAAAAATAAAAATTACTGTCAAACCAGAATTTCTTGAGGAACATTCTGATCCTGATGAAAAAAGATTCATATGGGCATATCATGTTAAAATAGAAAACTTTGGTGATGATTCTGTAAAATTACTTAGTAGATCATGGACGATATCAGATTCTTTAGGTCGAGTGCAAGAAGTTCACGGTGCTGGAGTTGTGGGAGAAAATCCTATATTAAAACCTGGAAGCTCATTTGAATATACATCAGGAACACCGTTAAACACACCTTCAGGATTTATGATGGGTACATATAAAATGAAAAAAAATAATGGATCAATTTTTAATGCCCATATACCGGCTTTTTCTTTAGATAGCCCCCATGAAAAAGGTTTACAAAATTAAAAAAAAAAATAGTTTGTAAGAATGACAAAAATTGAAAAAATAAATAATATTAATAAAATAAAGTCTGCTAAGCCAACAGAAGAGGAGGCTATGGAAGCTGTAAAGACTTTAATAAAATGGACAGGAGATAATCCAAATAGAGAAGGTTTAATAGATACGCCAAAAAGAGTTGTTAAAGCATACCGAGACTTTTTTTCCGGATACGCTCTTGATCCAAGAGAAATTCTTTCTAAAAAATTTCAAGAAGTTGATGGATATGACGAAATAATAATTTTAAAAAATATTAAATTAGAATCTCATTGTGAACATCATATGGTTCCTTTTATAGGTAATGCTCATGTGGGATACTTACCAAAAAAAAAAGGTTGTAGGCCTTAGTAAACTTGCAAGATTAGTTGAATTATTTGCCAATCGTCTTCAATTACAAGAAAAGCTTACCGCACATATTGCTAATGCAATTGATGAAGTATTACAACGAAAAGGTGTTGGCGTTGTTATAGAAGCATCTCATCTTTGTGTAGCAACTAGAGGTATTCATAAGCCGGACTCTAGAATGGTTACTAGTAGAATGTTAGGATCTTTCAGAAGTGATGAGGCTACAAGAAAAGAATTCCTTTCATTAATAGGAATTAATAAAATTTAAAAGCTAATTTAAAAAAGTTTATAAACTATGGTTTTTCAACCAGTATTATATATTATAGGCTATTTATTATCTGCTCTTTCATTATTATTATGTATTCCGGCTATTGTTGATGCATTTTATAATGATAATCAATGGCAGGCTTTTACATTCTCATCATTAATTTGTTTATTTTTTGGGATAATTTTATTATTAGCAAATAAATCTGAAAATTTTACTATTTCTATAAAACAAGCCTTTTTATTAACTACTTTTAGTTGGATTTTTATTTCATTTTTTGGCTCCTTACCTTTTATATTTTCTGATTTAAAATTATCTTTTACAGATGCATTTTTTGAATCTATGTCAGGAATAACTACAACTGGATCTACGGTATTATCAAATCTTGATTCATTATCCCATGGAATTTTAATATGGCGTTCACTATTACAATGGCTTGGTGGAATTGGAATAGTAGTTATAGCTATTGCTTTTTTACCAATTTTAAAAGTAGGAGGAATGCAATTATTTCATACAGAATCTTCAGATTCATCAGAAAAAGTATTACCTAGAGCAGGGCAAATAGCAAGTATCATTGGAATTATATATTTTTTTCTAACTTTAATTTGCGCCTTTCTACTATATTTTTTTGGAATGAATTTTTTCGATGCAATTGCACATGCAATGACTACTTTGGCGACTGGAGGTTTTTCAACATCAGATATGTCAATTGCAAAATATAATAATTTAAATATTGAAATTGTAATTAGTGTTTTTATGATTCTAGGTTCGCTTCCATTTGTTTTATATCTTCAAATGTTGAAAGGAAATTTATCTTCTTTTTATAAAGATAGTCAGGTGAAATTTTTTTTATCGCTTATTATAATAGCGTTATTTCTTGTTACTTTTTGGACATATCAAAATACAGCAAGTTTTATAAGTAATTTTAGACCTGTATTTTTTAATACAATATCAATTTTTACCGGTACAGGATATACAACTCAAAATTTTAATAATTGGGGGCCTTTTATCATAGTATTATTTTTATTTTTAATGCTTATTGGAGGCTGTGCAGGATCAACAACATGTGGAATAAAAATATTTAGATTACAAATATTGTACCAATCAGCTAAAGTTCAAATTTTTAAATTATTAAATCCACACGGAGTGATGGTAGCCAAATATAATAAAATCCCTATTTCTGAATCAATAACTTCTTCAGTTATGGGATATTTTTTTATGTTTATAATTACGTACATTTTTATAACTTTAATATTATCATTTTTGGGAAATGATTTTTTAACATCTCTTTCTGGTGCTGCAACATCTTTAGCAAATGTTGGACCTGGTTTAGGTAATGTGATAGGTCCAACTAAAACTTTTGTACAATTATCAGATAGTACAAAATGGGTTTTAATAATAGGTATGTTAATTGGAAGATTAGAACTTCTTTCTGTAATTATATTACTAACGCCATCTTTTTGGAAAAATTAATTATATTTATTAGTCACAAAATCTTTAAATTCTTTATCCATACTTTTTTGTAAATTAATTATTAGTCTTTTAATCATATTTTCCATTAATTCATCAATAGCATTTGATCGATCATTAATAGAAAATGAACCTAAAAATGTTTTTTCTCCTTTAACAATTGATAATACTTCTGCAAGTGAATTATTTTTTTTATTTTCAGCTATAACTTTAACTTTGAAATTAATTTTATAAGCTATTCCATTACCAGGCAAAAAAGAAAATTTTTTTTTATGTTCTTTAACAAAACTATCAATTATAGATTCATCTAATATTTTAATTATGATTTCTCCACTTTTTCCCTTTAAAATTATATTTTGATTTGCCCATTCTTTAATTTCTTTATCAAGATTAGTTTTGACTAACAGTTGAGAACTTGTTGTGTAATTTTTATAATTAATTTTATTTTCAAATTTTATTGTAGATAAATCTAAATATATTTTATCAATTGAATTTAAATTTTTTGTAAAAAATATAAAAAATAAAAGTAAAAGAATTACTAATTTTTTAAAAAAAAAATATTTTTTTAAGTTATAAATTATTTTAAACACCAATTTAAAATAGCTTTTTGAGTATGTAATCTATTCTCAGCTTCATCCAAAATAACTGATTTTGGATGTTCGAGTATATTTTTTTCAATTTCTTCGCCTCTATGTGCAGGAAGACAATGCATAAATATAGATTTTTTTTTTGTAATTGATAATAATTTATTATTAACTTGAAATGATTTAAGTAGCTTTCTTTTTTTTTCTGAAACATTCTGACCCATAGAAAACCACGTATCTGTCATAATACAATCTACATTTTTACATGCTAATTCTGCAGAATTATAAATTTTTATATTTTTAATATTATTTATATTTTTCATTTCATTTTTTTTAATTAATTCTTTTGGACAAGCTAAATTTAAATGAAAACCAAAAATATGAGCAGCTTGAACCCAGCTTCTACAAACATTATTAAAATCACCACACCAAGTAAAAACTCTTTTTTTGTTAATTATACCTATATTTTCTTCAAAAGTCATAATATCAGCAATTAATTGACAAGGGTGTGTTTCATCAGTAAGACCATTTATAACAGGTATATCGGAATAATTAGCTAATTCATATAATTTTTCAGCTGAAGACGTTCTATATACTATAATATCCAAATATCTTGATAAAACTTTTGCTGTATCAGATATTGTTTCTCCTCTCCCTAAATGAGTCTTTTCTTGTTCAAGTATAGTAACGTTACCTCCTAACTGATACATTGCTATTTCAAAAGAAACTCTTGTTCTTGTTGATGGTTTCTCAAAAATTAAACCAAGCGTTTTCCCTTTATAGGTATCCTGTGCTGAGGTAATACCTTGTTTAAAAGATTTTGATAAATCTATAATATTTCTTAATTCAACTTGATCTATTTGATTTAAATCAAGAAAATGTTTTACATTTTTTTTCATATTATTTTTTTAATTCACCACAAGTTTTTTTTATTATTTTAATAGCAATTATAAGATCTTTTCTAGAAATATTTAATGGAGGTAAGATTCTTACAACATTATCACTAGCTCCTACTACTAACAAACCATTATTTCTTAATTTTTCTATAAACAAAACATTATTAATTTTACATTTAATACCTAACAAAAGACCCATACCTCTAATTTCTTCAATTAAATTATTAAAATTTTTTTTTATTTTTTCTAATTCTTTAATAAGAAAAATAGAATTTTTATTTATATTACTTAAAAATTTTTTATTTGAAATGATATCAATAACTTTATTTGCTACTGCACAAGCAAGAGGATTTCCTCCAAAAGTAGAACCATGGCTACCAAAATTCATACCTTTAGATATTTTATTTGTTAACAAACAAGCGCCTATTGGAAAACCTCCACCTATTCCTTTAGCTGTTGCAAGTATATCCGGCTTAATTTTTGACCATTGATATGAAAAAAATTTTCCTGTTCTTCCCATTCCACATTGGACCTCATCAAAAATTAATAATATTTTTTTTTTATCACATAAATCTCTCAAACCTTCCAAGCATTGATTTGGAATTACTTTGATTCCTCCTTCTCCTAAAATAGGCTCAACCATAATTGCAGCTGTTTTACTATCAATAGCTTTTTCAAAAATTTTATGATCTGCAAAATCAACTGAAACAAAACCATCAACCAAAGGCTCGAAGCCTTTTACCATTTTTTTTTGCCCAGATGCAGAAATAGCTGCAATAGTTCTGCCATGGAAACTTCCTTTAATTGTTATAATTTTAAATTTTTTTTTATTTTGAAAAATTTGAAAATATGCTCTAGCTATTTTAATTGCTGCTTCAACTGATTCAGCTCCGGAATTACAAAAAAAAACTTTATCTGCAAAAGTAAGTTTTGTTAATTTTTTTGCTAAAATTTCTTGCTCTTGTATATGAAATGCATTTGAAGTATGCCAAATTTTTTTTGATTGTTTAATTAATGTTCTAACTAATTCTTTATGACAATGTCCAAGAGAATTAACTGCTATACCACTGGCAAAATCTAAATATTTCTTACCATTCTTTGTAATTAGATAAGAACCTTTTCCTTTTTCAAAAGAAAGATGAGATCTTTTATATGTAGATAAAACTGATGATTGCATTATTCATATTTTAAGTTCTTAACTTATATCCTGATTTAAACATTTTATAAACTAAGTAGAATAATATGGTATTTAAAACAACACATACAATGATTCCATTGATAATAGGAACATCAGAATATCCAATAAATCCTGCTCTAAAACCATCAATAAAATAAAATATTGGATTATATTTAGCTATATATTCTAAAATTAAAGGTAGTTTTTCAATAGAATAAAATGAACCAGATAAAAAAGTTAATGGCGTTATAACAAATGCAGTCAATCCCGCCATATGATCAAATTTTTCACTCCATATCCCACCCATTATACCAAGTAAACTTAAACACAAGGATCCTGAAAAAGAAAAGAAAATAATATAAAAAAAATTTATGAATTCCATATCTACAAAAAAATATAGAACTATAGTGCTTGCAAGACCAACTACCAATCCTCTGGCAACACCTCCAAGACTAAGGGCAACTGTAAGTTCTAGACTGGAAAGAGGAGGTAAAAGTAAATCAACTATATTTCCCTGAACTTTAGCAATCATAATTGAAGAGGTTGTATTCATAAATGCATTCTGCAAAATTTGCATCATAATTAATCCTGGAACAAGGAATTCAGGATAATTTACACCACCTATAACAAAATCATCTCTATCAATAACAATTAGAAAAACAGTTAGAAACAAAACATTAGTAACAACTGGTGCTAAAACTGTTTGATAAAAAACTTTAAGAAATCTTGCAGTTTCTTTATGAAATAAAGTCCATAAACCTAACCAATTTGTAGAAGAACTATTAAATTTAGTATTAAACATTTTTTTTTATTTTTTTATATATCAAATATAATTAGTTTTTTATATGAAAAAAAGAATACCAAAAAAAATTACATTAGATTATTTAGAAATATCAGCAATAAAATATTTAGAAAAATATTCATCATCCGAAAAACAGTTAATTAATATTCTAAAAAGAAAAATAATTAAATCCTGTTTCTTTTATAAAATTAATCCAGAGGAAAAATTTATACTTATTGATAATGTAATAAATAAATTAAAAAGTATTGGATTAATTAATGACTAAAAATTTTCTGAAAATAAAGTTCTCAATTATGTATATAAGGGTTATTCAAGAAAAAAAATATTTTTCAAATTAAAACAAAAAAATATATCTGATGAAAACATTAATAATGCTATTAAAAATTTGAATAAAAATTTTTTTGATTATGAATTGGCATCTGCAATAATTTTTGCAAAAAAAAAAAATTTTTTATCTTTTAAAAAAAAAGATCAGAAAGAAAAGGAAAAAAAATTAATAAAATTATCTCAAGCTGGTTTTAATTATGACATTTCAAAAAAAATAATAAATATTAAAAACGAAAAAGAACTTCTAGATTTAGAAAAATTTGCAAATGAAGGGTTTAGCTAATCATCTTCAGAACCAGCTGTAAATTTTCTTATTTTTCTTCTTTTTTTAATTATTTTTTTTTCTGTTTTTTGATAAGAAATAGTTCTTTGTGGAAAAGGTATTTCAATTCCATTTTTATCAAAAGCTATTTTTATTCTTCTATTAAATTCTCTCCTAACTAACCATTGTTGTTTATGAACTGTTGGTATTCTCCCTTTAATAATAATTGCTGAATCTTCAAATTTATCTAAGCCAAATACTTCAATTTCTCCATTAATTTTTGTTTTAAAATCTTTATCTTTTTGTAATTCTAAACCAATTTTTTCTATTATTTCAATAACATTATCAACATCTTCATTGTAAGAAACTCCTAATTCAAAACTATGATAATCTTGATCTTGAGTTATATTTTTTACTGTTTTTACTTCACTAAAGGGTACAACATGTAAGTGCCCATTAACATCTCTTAATCTAACAGTTCTTATTGTTATGGCTTCAACTCTACCAGAATGGCCCGCTACTTCTACAATGTCACCAATTGTGATCTGACCCTCTAAAATAATAAATAAACCAGTTATAATATCCTTAACTAAAGTTTGAGCTCCGAAACCTACGGCTAAACCAACAACTCCTGCTGCTGCTATTAAAGGACCAATTTCAATACCTAGTTCAGCCAAAATAAGCATTATAGTGACTATTAAAATTGCTATAGAAATGAAATTTTTTAATATTCTAAAAAGAGTATCTATTCTTTGAGTTTGCGCTTCATTTTTTGAACCTTCTAAATTATTTAATTTTTTTTTTATTAATGAAGAAATGCCTTTCCATCCAAAAAAACTAACAATCAATATTACAAATATATTTATAAAATTTTGATACGAATCTTTAAATATATATAAAAAAGACAGGTCCATTTATTTAAAAAAATAATACAAAAAAGTATTTCCAATATATTATAATGAACTATATAAATTCAATGATGTTTTTGTTTTTAAAATGTATTTTAATAAAAAAATAATATTAATTTTTTTGATTATGTTTTTTAGTTTATTTAAACATAATACAATTAACACTCGTGAAATTCCTGGGTCAGCCTATGATTTTACCTTTACTGATATCGATGGTAATAAATTTCCTTTATCGCAGTTTAAAGGCAAACCACTATTAATTTTTAATTCAGCATCAAAATGCGGATTTACATCCCAATATACAGGTATTCAAAAAATACATGAAGATTATAAAAAAAAAGGTTTAGTAGTTATTGGAATACCATCAGATAACTTTAATCAGGAGCCTGGTGATGAAAAAGATATAAAAAAATTTTGTATGGTAAATTTTAATATTACTTTTAATTTAACAAAAAAAAATAATGTCGTTGGAGAAAATGCTCATCCTCTTTTTGAATGGTTAAATAAAAATTACAAAGCTAAACCTAAATGGAATTTTTATAAATTCGTTATCAATAAAGAAGGGAAACTTGAAAAACATTTTTCATCTATGGTCTCACCTTCATCTGAAAATTTAACATCTACGTTAAATAAAGTTACAAATTAATTTTTATTAAAACACAGTAATTTTGGTGCGCCCGTGAGGTGTCGAACCCCTAGCCTCCTTATCCGTAGTCAAGCGCTCTAATCCAATTGAGCTACGGGCGCTTATTTTTTTTTTTTTTTTCAACTTTATTATATCTGTCCCAAACATATTTTCTCATATCGTGGCATATAATACTTTTTTCTTTACCATGGACAAAAGATTTTTTGATGCCTAATTTTTTTTTTTTCATAAAATTTAAGAAAAAAACAGTTAACTAATTAAGTTTAATGTTGTAAAATTGCAACAATTAATATTATTTTCTTTTTATTTAAAAACAATAAATAAAAAATAATAGTATAATATTAATAGTAATATATAATTATATTAAATTTTTTTGTAGTCGGGCATGCTTTATAAATTTGTAATTTTTTTATCGGTATTCGTATTAACTAATTGTTCACTCTTAGATAGAAATGGCGAAGATGTTGAAACTATCGCTGATCTAGAACAAATTCCTGAAGAAACAATTCAAGAACCTTCAATATTAATTGATGACACTGAACTGATGCCTGATGCTGATACAATTCAAGATGATGGCAGTTTAGCAAGAGACGAACAAATTTCATCTGATCCAAGTGGAACTTTTGTAGGTCAAAAAATTCTACCTTTAAGAGAAGATTTTACAGCGGTTTTAGAAGCATTTAATGTTCATAGAGATAGTTATGAAGAAGTTAAATCAAGGATCTATGGTGCTTCAACACAATTTTATGGAACAGTTGCTGCGGTTAACACTAAACTACAGCTTGGTACAACCCCTGGAAATCCAGTTTTGGTCAGACAATATGATCAAGCTCAAACAGAATTAAAAAATATTGAAGCATATATGCGTGAAATCAATCTTTTAAATCAAAAAGTAAACGCAGATGCTGGCGTAGTTGCACTGTTAAAAAGTACAATTAATAAAGTTCTCCGTTTAGCAGGTGCTATCGACCAAGATCACAGACAATTAGAACTTCTTGAAGATGATACAGAAAAATTAGAAATAGATATTGCAAGACTTATTAACGAAATAACAGAAGAAATTTCAAGACAAGCAGGTTTCACTAAAATTGAAAATCAAAATATGTTGACGATTGCTGTTGCTATTCGTAACGGAGAAGCAATGGGAACCGGGATTTTAAACAGAAGTTTTTTAGCCGCACAAGCTTTAGCAGCTGCAGGACCACCTGATCAACAATTGGAAGTCCCAAAAGTTAATATTTCCGGATTACCACTTGTAGTAATTAGATTTGATAATCCTGATATAGATTATGAAAAAACTCTATATGATACAATTGGAACAACAATTGATAATTTACCAAATGCTTCATTTGGCTTGGTTGCTGTATCACCAATTGGTAAAAATGAAGGAGAAACTCGTATCAATAGTAGTAAAGTTAAAAAATATGCTGAAAGAGTTTTAAGAAGCTTAGTAAGTTTTGGTCTGCCATCAAAAAAAGTGGCTTTATCTGCTAAAACTAGCGGAGATGTTATAGTTCCAGAAATTCATATTTACGTTCAATAAAATTATATTTTCTTATAATTATCTATAAGTCTCGTTTTACCAAGGCAAGCTGCGGCAAAAACTCTAAAATTATTTTTATTTATTTTTTGCTTTGATAAATTATTTTCATTATATATCTTAAAATAATCTACTTTAGTAAATCCATATTTTAGAAGTTTTATTTTTCCTAATTTCTCGAATTCTTTTATTTTCTTAAAATTTTTTAAAGCCAAAAAAAAAATTTCCTTAATTGTAATAAATAAATATTTAGCAATCTTTTTTTCTTTTATATTTAAAATCTTATTTCTTGAAGAATACGCGAGTCCATGAGAGTTTCTTATTGTTTTTAAAATCACAATTTTGATATTCATTTTATATTTTTTTATTAAATCTTTAACTACCATTATCTGTTGAAAGTCTTTTTCACCAAAAAAAGCAATTGATGGTTGGATTTGAGTAAATAAAGGTTTTAAAATACTTACCACGCCATTAAAATGTCCTTTTCTATTAACTCCACACAACTTATTTGCTTTTTTTGAGGCTTTAATTTTTTCTATTTTTTTATTAAAAAAAATTTCTTTTATTGATGGTGTGTACAATATATCTATGTTTTCTTTATAAATTTTTTTTTTATCTTTTTTTAAACTTTTTGGATAATTTAAAAAATCTTTTTTCGAATTAAATTGTAATGGATTTAAAAAGATACTGACAACAACTATTTGAGTTTTTTTTTTAGCTAATCTAATTAAATTTAAATGTCCTTTATGTAAAGAACCAAGCGTTGCAACATATCCAATTTTTTTTTTTTTAATTTTATATTCTTGAATATTTTTTTTTAAAGTATCTGAATCATTAATTATTTTTAGTTTTGTCACTTTTTTTTAGCAAAATTTAAATAAGTAATATTACCAGAAGATTTTTCCTGATCACTATAACAATATTTTAAATCAGGAAAAATATTATTTCTAACATCAGAACAAAAATTTTTTACAGATAATTCAATATTATTTTCTTTATAAATTTTTACAAACTTTGGTATTTTTTTATTATTAACTTGAGAAGTTAATCCTAGCATATCATCTGTAACTAATATTTGACCGCTACAATATTTACTAGCTCCTATACCAATTGTTGGAATAAATTTTTCTTTATTTTGCATCATTTTTATTGCTACAGCTCTAGCTGCTTTTTCTGCTACAGCTTCAATTACTATTCCAAAAACACCAGCTTTAGATAATGAAATCGAATCTTTAATTAACTTATCCTTTTCTATTTTTTTAAAACCTTTAATTTTTACTTTATTGAAATTACTTATTGATTGAGGCAATAATCCAATATGCCCCATAACTTTTATTCCTCTTGCAGTTAAAAAAGAAATTGTTTTTGATATTTCTTTGCCACCTTCAATTTTTACACCATAGCATCCAGTTTTTTTTATAATTTTTAATGCAGTTTTATAAGCCTGAACAGGTGATTTTTCAAAACTATTATAAGGTAAATCAATAATAACAATGGTATTTTTAGCGGCTCTACAAACACTTTCTCCACATTTAATCATCATATCAACTGTTACTTTTTGAGTATTTTCCATACCATATAAAGTCATTCCTAAACTGTCTCCAACAAGTATAAAATCAACATATTTATCTAATAATTTAGCCATATTAAAAGAATATGCTGTTAACCCCACTAGAGTATTGGGATTATTAAAAAATTTTGTAATTTTATTTTTCAATTTCATTTTAATATAATTATAACTATTTTAGGTTTAATAAAAATTGTTTAAATTAATAAATAAAATTTATATTTTAATTCTTATTTTTTCTTTAATTAAAATATCTAATGCTTCAGAAACAAATTCTTTAGTAACTACCTCCCATCCATTAGCGTCTAAAATAGGCATTGAAACTTTAAGAAAAGGAGGAAGTGCAATGGATGCTGTAATTGCTACACAAATAGTTTTAAACTTAGTTGAGCCTATGTCTTCAGGTATAGGTGGCGGTGGTTTCTTATTATATTTTGACAAAAAAAAAAATACTTTAAATTTTTATGATGGGAGAGAAACAGCACCTAAAAAAATAAAAAAAGAATTTTTTTTAGATAAAAATGGTAATCCTTATAAATTTTATGAAAATGCTGTCGGTGGTTTATCAATAGGTACTCCAGGTTTGATTTCAATGTTAGAATTAGCCCATAAAAATCATGGATTGTTAAATTGGGAAGATCTATTTACGCCGGCAATAAAACTAGCAAATAATGGGTTTAAAATTTCGGAAAGATTGAGATATGCCATAGAAAATGATAAATATTTAAATCTTTTCCCTGAAAATGAAAAATATTTTAATATAAAAGATAAAAATATATTAAAAAATATAGATTTCAGTGAAACTTTAAAAATAATTTCTAAAAAAAAATCAAAAGGTTTTTATGAAGGTGTAATTGCTGAAAAAATAGTCCATTCAGTTCAGAATTCTAAAATAAAAAAAGGTGTGATAAATCTAGATGATTTAAAAAATTACAAAGCAAAAAAAAGTCCGCCTTTATGTGGTCAATATAGAGAATATAAAATATGCAGTTCATCACTGCCTAGTGCAGGTGGAACTGGTATTTTACAAATTTTAGGAATACTTGAAGAATTTCAACTATCTAAAAATACAATAAAAACAGATATTCATTTAATTTTAGAAGCTAGTAAATTATCTTATAATGATAGATATAAATATTTAGGAGACACTAAATATTCAAAAAACAAAATAAAAAAATTAATATCAAAAAAATATTTAAAGAAACAATCGGAAAAAATAAATCCTAAGAAAATAATAAAAGTTACATCAAATATAAAAAAAGATTTTTTACCTACTTCTACCACACATTTTTCTATAATTGATAATGAAGGAAATGTAGCATCCATAACATCAAGTATTGAAAATTCTTTTGGATCAAGATTAATGGCAGGAGGTTTTGTATTAAATAATCAGTTGAGTGATTTTAATTTTAAAATCGAAAAAAATCTTTTTAAAAATAATATTATTAAAAAAAATAAAAAACCTTTAAGTTCAATGTCACCAACAATTGTATTTGATAAAAATGATAATATTAAAATGGTTATAGGTTCCCCAGGAGGGAAATCTATAATAATGTATGTTGTTAAAACAATAATTGGAGTCATAGATTGGGAAATGAATATTAATCAGGCTGTAAACTTTCCAAACTTTAGTATTTCGAATAATAAAATTATATTAGAAAAAAATAAATTTGATAAAGAAATTAAGAAATATTTATCAGATATAGGTCATATAATTATTGAAAAAAAACTAAATAGTGGCTTAAATGGCTTTGAAATAAAGAATGAAAGAATCTCAGGAGTTGCTGATCAACGTAGAAATGGTTTAGCTATTTCCTATTAGGAAATTTTTTTGTATATTTAATTTCAAATTAATTTATAAATATTAATAATTAATTAACTAATATATTTTAAAACTTTTAAAATTGAAAAGAACATATCAACCTAGTAAAAGAAAAAGAAAGAATAAACACGGATTTAGAACAAGAATGGCTTCTAAAGATGGTAGATTAGTTTTATCTAGAAGAAGAAATAAAGGGAGAAAAAAACTTTCTGCTTAATAAATTAATGTCAGCAATTCTTCTTAAAACAATAAAAAAAAGAATTGATTTTATAAAGATTTCAAAGAAAGGTAAAAAAATTTTTACAAAGGGTTTTATTTTGCAAAAATATAAGAGAAAGATAGATGACAAAATAGAAAATAATATTGTCAGAATTGGTTTTACTGTTACAAAAAAAATTGGAAATGCAGTTGTAAGAAATAAAGTTAAAAGACGTTTTAGGGCAATTACTAAAGAATTATTAAATAATTATTTAAAAAAAAATTACGATTATATAATAATAGCCAAGAAAAACAGTATTACTATGGATTATAAAGAATTAAAGAATGATTTAATTAAAATTATATAATAAAAAAATTATGCTGAAAAAATTACTAATTTGTATTTTAAAAATTTATCGGTTTTTTTCTCCTTTTTTTTATAGAGGGGCGTGTAGATTTACTCCAACATGTAGTCAATATGCCGTGGAAGCTATCTCAAAATATGGGCCAATTGTTGGTGTTTATAAAAGTATTGTTAGATTATTAAAATGTAATCCATTTGGAAAATGGGGTTACGATCCAATAGATGGGAAAAATGAGAGAACAAAGTAATTTAATATTAGCTATTGTCTTATCACTTCTAATTTTATTGGGGTTCCAATATTTCTTTGAAGCTCCAAGAATGAAAAAAGAAGCTGAAAAAAAGAAAAATACAGAACTTTCCGAAAATTTAATAAAAAATAATTCTAATAATTCAGAAGAAGAGCCTGGAGGTTATTTAGAAATAAATGAAGCGTTAAATAAAGATCAAAGAATTGAAATTAGCGCACCTAGATTAAAAGGGTCTATTTCATTAAAAGGTTTAAAAATTGACGATCTTATTTTAATTAATTACAAAGAAACATTAAATAGTGACAGTAAATTTGTAACTCTGTTTAAACCTAGTTTGGCTAAGGGCGGATATTTTTCTAATTTTGGTTGGATAAAAGCATCTTCTGAAGAAAAATATGACTTACCTAATGACCAAACTGTCTGGAGTGCAAATTTAAAAAAATTGACAAATAATAATCCTGTTATATTTACTTGGACAAATAATCAAGGAATTAAATTTGAACAGGAAATTTCTATTGATGAAAACTATATGTTTACTGTTAAACAAAAAGTTACAAATAATACAGAGCAAAATATTAACTTAAGTCCAGTGGCAAAAATCAGTAGAACTGATACTCCAGATACACAAGGTTTCTTTATTTTACATGAAGGACCAATTGGAGTTATAGACGATGTATTAGAAGAATTAGATTATAAAGATCTAAAAAAAAATATAGGGCCTATTGAATATAAATCAAAAGGTGGCTGGTTTGGTATCACTGATAAATATTGGCTAGCAACATTAATACCTGATCAAAATACAACTATTATTGCGAGATACCAATTTTATACTAAAAATAATAAAGAAAAATATCAGGTGGATTATAAAGGAGGTATAATTGAAATTCCTTCAAATAAATCCATAACTATAGAAAATTTATTATATGCTGGTGCAAAAGAGGTTAAACTCTTAGATAAATATGAAAAGGAATATTCTATTCCAAGACTAGATTTCGCAATTGATTTTGGCTGGTATTATTTCTTAACAAAGCCTTTTTTATATATTTTAATTTTTTTTAAAAATATTTTTGGAAATTTTGGTCTTTCTATAATATTACTTACTCTTTTGATTAAATTAATATTCTTTCCTTTAGCAAATAAATCCTATGTTGCAATGCAAAAAATGAAAGAATTACAGCCGCAGTTGATGAGAATTAAAGAAACTTATAAGAATGATAAGGTCAAACTCAATCAGGAAATGATGACATTATATAAAAGAGAGAAAGTAAACCCTGCAGCATCTTGTCTGCCAATATTAATCCAAATTCCTGTTTTTTTTGCTCTTTATAAAATTCTTTTTGTCAGTTTAGAAATGAGGCAAGCTCCATTTTATTTATGGATTGAAGATTTATCTCTTGCTGATCCAACCTCTATATTAAATCTTTTTGGACTTCTACCTTACGATCCCAATTTCTTACCAAAAATTATTAATATTGGTATTTGGCCAATAATTATGGGAGCCACTATGTGGCTACAGCAAAAATTAAATCCTCAGCCAACAGATCCTATGCAAGCAAAAATTTTTATGTTTTTACCAATCTTTTTTACATTTATACTTGCTCCCTTTCCTGCTGGATTAGTAATTTACTGGACTGCAAATAATGTATTAAGTATGGGACAGCAAATATTAATAAAAAAAAAGATGGAAAAAGATAAAAAATAATAAAAACATATTTATATAATTATTAAAATTGAAAATATTTCTTTCCAAAAATGAAAAAAAATATTTAAATGATGTTTTATCATTTTCTGAAGCAGAAAAGTATATAAAAAAATTTAAAAATAAAATATTTGTTGTTAAATATGGCGGAAATGCCTTAACTAATAAATATTTAGCAAATAATTTTGCAAAAGATATATGTCTTATAAAAAAATTAGGTATTAATTTAATTATTGTTCATGGGGGAGGTCCTCAAATATCAGAAACTTTGAAAAAAAAAAAAATAAAAACTAAATTTATAAATGGTTTACGTATTACAGATAATAAAACAATAAAAATTGTTAAAGATGTTTTAATTAACAGAATAAATAAAAAAATTGTTAAACTAATAAGAGACGCTGGTGGCAAAGCAAAAAGTTTGCCAGGAAATAAAAATAATTTTATTGAAGTAGATGAAATAAATAAAGAATTGGGTTTTGTAGGTAAACCAAAAAAAATTAAAATAAGTATAATTAAAAAACTTTTAAAAGATAATTATATACCAATAGTAGCAAGTCTTGGTTCAAAAAATAAAAATTTAATTTATAACATAAATGCTGATACTGTTGCTGGAGAACTGGCAGCAGCACTATCGGCCACAAGATTTTATTTTATAACTAATATTAAAGGTGTAATGGATCAAAAAAACAAATTGATAAAAGAAATAACATTGAAAAAAGCAAGAATTTTAATAAAAAAAAATATTATTAAAGGTGGTATGATACCCAAAGTTGAAACTTGTTTGAATGCAGTAAAAAAATCTGCTAAAGCTGCGGTTATTTTAGATGGCAGAGTACCAAAATTATTGTTAAAAGAAATCTTTACTACTAAAGGCGTTGGCACATTAATTGGAAAAAAATAATAATATAAATTTTAACCACTGGTTTTTTGACCTCGATAATACTCTATACTGCGCAAATTCTGGGATTTTTGATCAAATTCATAAAAGAATGGGTGAATATATATCAAAAAAATTAAATATAAGTATTAAAGAAGCAAAATATTTGCAAAAAAAATATTTTATTGAAAACGGTACAACGCTTTATGGATTAATGGTAAATCATAAAATTAAACCAGAAGAATTTCTTTATTTTGTTCATGATTTAAATTTTGATGTTGTTAAACCAAATCACAAGTTAAATAGTTTAATAAAAAAAATATCAAAAAAAAAAATTATTTTTACAAATGCAGATATGCCCTATGTTGAAAAAATATTAAATAAATTAAATCTCGAAAATGTTTTTAATGATATTTTCGATATTAAAAAAATGAATTATGTGCCCAAACCTAATGTAAAAACTTATAAAAAACTTATAAATACTTATAAAGTAAAAACTGATAAAGCTGTTTTGTTTGATGATATTCCACAAAATTTAATCACTGCTTCAAAACTTGGACTTAAAACAGTGCAAGTGTATAATAAAAAATTAGATAAAGAATTAAATGGAAGATCTGAAAAAATTGATTATATGACTAACAACCTTAAAGAATTTTTACAAAAATGGATAACGAACAATTAAAAAAAATTATTGAAAGTAATTGGAAAAAAATTGATGAAATTAATCCTCAAACTAAAGGAGAATTACCAAGTGCAATAGAAGAGGTTATAAATCTTCTAGATAAAGGAGAAATTAGAGTTGCCGAAAAAAAAAATGGGGAATGGATTGTCAATCAATGGATTAAACAGGCAATATTGTTAAGTTTTAAAATAAATGAAATGGAAAATCTAAGCGGACCTTACAGCAGTTGGTTCGACAAAGCTCATTTATTAAAAGGAAAAACATCCGGTTGGACAAAGGAAGATCATATCAAAGCAGGTTTTCGAATGGTTCCTAATTCTCCAGTAAGAAAAGGTTCTTTTATCGGAAAAAATGCAGTATTAATGCCATGCTATGTAAACATAGGCGCGTACATAGATGAAAATACGATGATTGACACTTTTGCAAGAGCCGGGAGTTGTTGTCAAATTGGAAAAAATTGTCATATTTCTGCAGGTTCAGGAGTTGGCGGTGTGTTAGAACCTATTCAGGCAAATCCTACTATTATTGAGGACAATGTTTTCTTAGGAGCAATGTCAGAAGTTGTTGAGGGAGTAATTGTCGGTGAAGGTTCCGTATTGAGCATGGGAATGTATATAGGACAATCTACAAAAATAGTATATCGTAATACTGGAGAAATAATTTATGGAAAAATTCCTCCTTATTCAGTAGTAGTACCTGGTACGCTGCCTGACAAAAATAATTCATCTGCACCATCTCTATACTGTGCGGTAATAATTAAACAAGTTGATGAAAAAACTAGGTCAAAAACAAATATTAATGACTTACTACGTGAATAAAAACATATGAAAAATTCTAAAGAAATTAACATTGCTCAAAAATTAATTCGATGTAAATCTATAGCTCCTAATGCTGATAACGCTTTAAAAATTTTAGAAAAAGAATGCAAATCTATAGGTTTTAAATCTACAAAATTAAAATTTTTCGAAAAGGGTTTTGATCCAATAAGCAACTTATATCTAGAAATCGGTAATGGAAAGCCACATTTTTCTTTTGCAGGTCATGTCGATGTTGTTCCTGCAAATAAAAAAGAATGGAAAGTTGATCCTTTTGCAGGACAAATAAAAAAAAATATTCTAACAGGCAGAGGAGCTGTAGATATGAAATCTGCAATTGCATGTTTTGTTTCAGCTGTAAAAAACTATTTAGAAGAAAACAAAAATTTCAAAGGTAAAATTTCTATGTTAATTACAGGAGATGAAGAAACTTACGCGGTAAACGGTACAAAAAAAATATTAAAATGGTTAAAAAAAAAAAAAATTCATATAAATAATTGTATAGTTGGCGAACCAACCAATTTAAATGTTTTAGGAGATCAAATAAAAATTGGGAGACGAGGTGGATATAATGGCATTGTTACAGTATTTGGCAAAGAAGGGCATTCTGCTTGGCCAAATAGAACTATAAATCCTGTATCCGGATTAATAAAAATGCTTACTAAAATTGATAAAAAAGTTTTAGATAAAGGAACAAAACATTTTCAACCATCCATAATTTCTATTACTTCTATTGATGTTGGGAATGAAGCTTTAAATGTAATTCCAGCAAAAGCAACAGGGAGTTTTAATATTCGATTTAATCCTAAACATACAATTAAATCATTAACAAAATGGATAAAAAAAGAATTTGATAAAGTTGGATTAAAATACAAATTAGATATTCATGTTTCAGGTAATGCATTTTTAACAAAACCAGGAAAATTTTCAGAACTTGTTAAGAATTGTGTAAAAAAAATTACTAAAAAAAAACCTAAATACGCAACAGATGGCGGAACTTCTGATGCAAGATTTATAAATGCTGAAGGAATAAATGTAGTTGAATTTGGACTTATAGGAAAATCAATGCACACAAATGATGAAAAGGTTTCTTTAAAAAATTTAAATGATTTAACTAAAATTTATAAATTAATCTTAGAAGAATATTTTAAATGAAAAAAAAAAAAATTATAAAGAATCCATTAGCTAAAATTTTAAGAACACCATCATTCAGACCTAAAGTTGTACAATCTAAAAAAAGATACATTAGGAAGAAAATCAAACCAGCGGATGATCTAGAAAATATTTAAATTTAAAATAATATATACTTATTTCTATCTAATTTACTCATACATTTAGAAAGCTGATTATTGTAAGTTTGTGCCTGTTTTTCGACTTTCCCTGCAGTTTTCAAAAGTTTAGATTTTTTTTTATATGTTTTTTTTCTATACCCATTCCAACCTTCATGATATGCAAGGTACTGACTATAAGTATCTTTTTTTGATATTCCCAATTCCCTATTGGTTTGATCAATATAAAAACCAACAAAATCAACTGAATCTTTAAATCTTATACGAGTCACAAATCTTTTTCCCGTGTCTTTTTTATAATGTTCCCAACTTCCTTTGGTAGCTTGAGAATAGCCTAAACTTGAACTTTCTCTTCTAAGAAGCGGTATAAAACCAAATAATTTTTTTCTTGGAGGTTTAGCGTATTGCTTAAAAGCACTTTCCTGATTTATAATACTCATCAAAGTTGCAATAGGTACATTCCATTTTTTTGAACTTTTTTTTGCAGCTTTAAACCAAAAATATTTTTCATCAAAAATACTACAAGCATTACCAGCATATGTAGGTGCTGAAACACAGCCCTGTAAAAATAAAACAAAAAATATTAGAATTAATCTTAAGAAAAACATATATTAATAAACGAATAAATATTTTAAATTATTGCATTATGAAGATTATAACAATACCAAATCCAATTTTAAAAAAAAAATGTAAGCCAGTAAATAAGATTAATGGAGAAGTAAAAAATATTCTAGATGATATGTTAAAAACAATGTATAGCGCTGGGATTGGTCTGGCTGCACCTCAAGTAGGAATCGATAAAAGATTAATTGTTTTAGATGTTTCACCCAGACCAGGGCTTAAACGTTATCAAGAAAAAAAAAATGAGGTAAAAAATAAAATAAAACCTAATCCTTTTCAAATGATAAACCCTGAAATAACATGGCTTTCTAAAGAAAAAGATACAGACGAAGAGGGATGTCTAAGCATACCAGGTATAATGGCAAATGTAACTAGACCTTCTTCATGTAAAGTTAAATATTTGGATAAAAATGGAAATAAAAAAGAACTGCATGCTGATGGACTTTTATCAAGATGTCTACAACATGAAATTGATCATATAGATGGAATATTATTTATTGATAGATTATCAAAAATAAAAAAAAATATTATTTTACGTAAATTTAAAAAACTACAAAAGGAAAAAAGCTAAACTACATAATTATGAAATCTCTTAAAGTTGTTTTTATGGGCACTCCCGAATTTGCTTTGCCTGCAATAGATGCTATTGAAAAAAATTTTAATTTAATAGCTTGTTATACACAACCATCAAGACCAGCAGGGCGTGGGCAAAAGGTTTCACATTCTTATATTAAAAAATTTTGTATAAAAAAAAATATTAAAGTTTTTACACCAGAAAATTTTAAAAAAAAAGAGGAAATAGAAAATCTAAAAGAAATTAACTGTGATATTCTTGTTGTAGCAGCCTATGG
>sequence04
GTTACTAAGTGGCTCATAAAAAATGTAGAAATTGATAATTTGGGCTATGCTTTATTAAATTTTTATAATTTAAAAAAATTAAATAAAAATAATTTTATATTTGTTATTAGTAGAATTACAAATATTATTTCTGGTTCAAAATATCCTGCAAAATCAAAATATATTTTAAATTTTTATAAAAAATTAATATCAAAAAAATTTTTTAAACCATTTAATTTTGGTGGATGTCATTTTTTTTTATTAAAAAATAAATTGGTTATTTGCAGAGAAATTATAAAAAAAAACAAGATAAATTTTAATTTACAATTTGATAGCCTTTTTTGGGATAATAGATATGAAATTAATTCTACAAAAAAGAAAATGATGTTAATTAGGAAAGAAATCGGTAAAACTTTTTTTATTAAACAATTACAATTAAAAGGTTGGGAAGAAATTATTTCTAAAAGAAAAGATATTAAAAAAAAAATAAATACGCCAAATAAAATAATTTTATCATTACCAACAATAAAAAACAAAAAAAATGAAATTTTATCAGTTCCTCATTTAAAGTATTTTTTAGATATTAAAAATAAAAAGAGATTCTCAAATATACATTTTATTTTTAAACCAACTATGGCATTATCAAATAAATAATTTACAATTGACATTGTTCTTGTAAAAAAAAATATTAAATATATTAATATGAAAAATATTAAAAAAAACTTTTTAATTTGGTTGATTATAGGATTTATATTATCTTCTTTTTATAATTTTTTCACTAATTCAAATTCATCAAATAGAGTTCAAAATATTGCTTTTTCAGATTTCTTAGATGAAGTAGAAAAAGATAATGTTCTTGATGTTAACATAAAAGGGGATTTAATTAATGGTAATTTAGCTGACGGTAAAAAATTTAAGACATATACTCCTTATGACCCCAATTTAATAGAAAAATTATCTAACAAAAATGTTAAAATTAATGTTGAACCAATGAGTACTACGGGTTCTTCTTTTTTTAATATAATTTTATCATGGTTTCCTATGCTTTTATTGATTGGAGTTTGGCTATTTTTTATGCGTCAAATGCAGTCAGGAAGTGGAAAAGCACTAGGTTTTGGTAGATCTAAAGCAAAAATGTTAAATGAAAAAACTGACAAAGTTACTTTTAAAGATGTTGCTGGTATAGATGAATCTAAGAATGAATTAGAAGAAGTAGTTGAGTTTTTAAAGGATCCTTCAAAATTTCAACGTCTTGGTGGTAAAATTCCTAAAGGTGTATTACTTATTGGCCCTCCAGGTTGTGGAAAAACACTTTTAGCAAGAGCTGTTGCAGGAGAAGCTGGAGTTCCTTTTTTTACTATTTCAGGGTCTGATTTTGTTGAAATGTTTGTTGGGGTAGGTGCGTCTAGAGTAAGAGATATGTTTGAACAGGGAAAAAAAAATGCACCCTGTATTATTTTTATAGATGAAATTGATGCTGTTGGGAGACATAGAGGTGCCGGATTAGGTGGAGGTAATGATGAAAGAGAACAAACTTTAAATCAACTTTTGGTAGAGATGGACGGCTTTGAGACTAATGAAGGTGTAATAATAATAGCAGCCACAGACAGACCAGATGTTTTAGATCCAGCATTATTAAGACCTGGTAGGTTTGATAGACAAGTTGTGGTTCCAAATCCTGATATATTAGGAAGAGAAAAAATTCTTAAAGTTCATATGAGAAAAGTTCCTTTAGCTCCAAACGTTGATCCTAAAATTATAGCAAGAGGTACACCAGGTTTTTCAGGTGCAGATTTGGCAAATCTAGTTAATGAAGGAGCTTTATTAGCAGCTAGACGAAATAAAAGATTTGTTACTATGGAAGAAATGGAAGATGCTAAAGATAAAGTTTTAATGGGAATAGAAAGAAAATCTATGGTTATGAAAGATGATGAAAAAAAATTAACTGCTTACCATGAAGCCGGTCATGCAATAGTAGCTATTCATATGAAAGATTCTGATCCTGTCCATAAAGCAACGATAATTCCAAGAGGAAGAGCTTTAGGTATGGTTATGCGATTACCTGAAAGTGATAGAATATCAATGTCTAAAATAAAACTTAAAGCGGATCTTGCTGTTGCAATGGGAGGAAGAATTGCAGAAGAATTAATATTTGGTCATTCAAAAGTTACTACAGGTGCGTCGTCTGATATAAGTATGGCAACAAATATTGCTAGAAAAATGGTAACTGAATGGGGCATGAGTGATAAATTGGGACCTTTGGCTTATGGAGAAAATGAGCAGGAAGTTTTTCTTGGTCATTCAGTAACACAAAAAAAAAGTGTATCAGAAAATACAGCACAAGAAATTGATAAAGAAGTAAAAAAAATAATTGATGAAGCTTATAATAAAGCACGTACAATTTTAAAAAAAAATATAAAACAACTTCATAAACTTGCTAAAGGTTTATTAGTTCATGAAACGTTATCTGGCTCTGAAATTAAAGATGTTATTAAGGGTAAAAAAATATTTAAAACATTGCCTAATAATTCAAATAAAAAAAATAAAATCGCCACCTCTGTTCCTTCTGTTGAAAAGAAAAAAAAAGAAGCAGATTTATCTAAACCACAATTAGAAAATAATTAATAAAAAAAAAAAATGAATCTAGGATTTAAAACGCCAGGTATTATGGGTATTTTAAATATAACACCAGATAGTTTTTCTGATGGAGGAAAATATTTTTCTAAACCAAGTATAGCTATAAAAGAAGCATTAATAATGAGTAAAATGGGCGCAGATATTATAGATATTGGCGCTGAATCAACTAGACCAGGTGCATTACCTATAAATCCTGAAATAGAAATTAAAAGAATAAAACCTATTATTTTGGGTTTAAAAAGAAAAAAAATAATTATTTCTATCGATACGAGAAATTCTAAAACAATGAAATTTTCTTTAGAACAAGGAGTTAAAATAATTAATGATGTTTCATCACTTAATCATGATTCAGAAAGTATAAATGTTGTTAAAAAATATAAATGTTTTGTAATTTTAATGCATATGCAAGGCAATCCTCAAACAATGCAAAAAAATCCTAGATATAGATTTGCACCTCAAGATATATTAAATTTTTTAAAAAAACAAATTATTAAATGTGAAAAAAATGGTATAAAAAAAAAAAGAATAATAATTGATCCTGGCATTGGTTTTGGAAAAAAAAACAAACATAATGTTCAAATACTTCAAAATTTAAAAATTTTTAAAAAATTAGGATGTTATACTTTAATTGGTTTATCAAGAAAACGATTTATTTCAGAATTAACTAAGAATGAAAAGCCAATTAATAGAATTGCTGGGACTATAGCTGCTAATCAGTTTGCTCTAGATCAGGGAATTGATATTATTAGAGTTCATGATGTAAAGGAAGCGATGCAAGCTAAAGTTGTTTGGCAAAAATTAAACAATAAAATATAAATAAATGAATAATAAAATTTTCGGTACAGATGGAATAAGAAGTCTTTCCTCAGATAAAATTTTTAGTAATCAATCTTTAAAAATTTTATCTAGATCTTTATTGAAAAAAAAAAAAAATCTAAAAATTATAATTGCTAGAGATACAAGGATATCAAGTAAAAAAATTGAAAATATTTTAGTAAAAAATTTAGTGAATAATGGAGCTAATGTTTATTTAATTGGTTTAGCACCAACGCCTGTTTTATCATATATAGTAAAAAAATTTAAATATGATTTGGGTATAGTAATTTCAGCTTCTCATAATCAATATAAATATAATGGATTGAAATTTTTTAATAAGAATGGTGAAAAGATTTCTACTACATATGAAAAAAAAATAGAAAAAGATTTTTTCAATCCATTGAAAAGAGAAATTTTTACTTCTAAAGGAAAAATTTTTAAATCAAATAAATTATTAAACCATTATGTTGAAAAAATAATTTTTTTATTTAAAAAAAAAATTAAATTAAATAATACAAAAGTTATAATTGATTGTGCTAATGGAGCAACTTTTAAAATTGTAAAAACAATCTTTAGAAGATTAAGAATTAATTCTATATTTATAAATGATAAACCTAATGGTAAAAATATAAATTTAAAATGTGGCTCTTTATTCCCAAACAAGCTAAAAAAAAAAGTATTAACTAATTCTGCAGATTTTGGCATATCATTTGATGGCGATGGAGATAGATTAATCTGTTGTGATGAAACTGGAAATATTATTGATGGTGATAAAATCTTAGCAACTTTAATTAAATTTTTTCATAAAAATAAAAGAATTAATTCAGTAGTTGGAACTTTAATGTCAAATAAAGGTTTAGAAGATTTTGTAAAAAATTTGAATATAAAATTCTATAGATCAAATGTAGGCGATAGATTTGTATATGAAATTATGAAGAAAAAAAAGGGATTTATTGGGGGAGAACAATCAGGACATATTATTTTAAATAATTTTGGACCCTCAGGCGATGGAATATTAATCTGTATATATTTAATAATGATTATTTCTTTAAGTAAAAAAAAAGTAAGTGATATATTTGATAATTATAAAAGTTATCATCAATATCAAAAGAACATATCTTTTAAGGATTCTAATAAATTAAAAAAAACAAAATTTATTAAATTTTTAAAATTTTATAATAATAAATTGATTAATGGTAATAGGGTGCTTATCAGATTATCTGGCACTGAGCCTGTTATAAGGTTATTAATAGAAGGAAGAAAAATCAATATTATCAATAATTTAGCTACATCATTACAAAAAAAAATTAATAAATTTTTATAATAAATTTTTTGTATATTTATATGTTGCATAATTACAACATATAGTATTTTATTTAGTTTTTTTACTTTTAAAATACTATATTCAGTGTATATTAATACGATACTACTATATGTAGTAATTATGTATAATTACTAACTTTTTTATAGGGGGCACTATGAATGCCTTAAATGTAGCGAAAAGATGGATAGGAGCATTAACTGAAGTAGGTCTAATGCTTATAGCTTTTGGAATAGTTGCTGGGCTGCTTTATCCAGGTGCTGTACCTTTTATTGGCACAGATGTAGTTGCTAACATTACGTCATTATTAAACCAACTTGGTAATAATGGTGTAGTAGGTTTAGTTGCATTAGCTATTATTTGCTGGTTACTTAATAAAAGATCAATCAGCTAATTTGAAAAGTTTCACCCTCCCGAATTGATCCCGACACGGTGAAGGTGTAGAGAAAAGAGCTCTTAACAGAGCTCTTTTTTTTTGTTTCTATTTTTTTTTTAAATTTATTTGTGATTGAATAAATTGACTATCAAATTTTTTTATTTCATGTTTTGATTGTTTACTTTTATCAATTATAGAAAAAAACCATGTTACAATAAATGCTGTAGATACAGAAAATAATGCAGGATATTTGTAAGGAAATATAGGTTTTTGATGACCTAAAATATCAACCCAAACTGTTGGACCAATAATTACCAAAATTATTGCTGTAATAAGACCACTAGATCCTCCTATTAACGCGCCTCTAGACGTTAATTTTTTCCAATACATTGAAAGAAATAGAATTGGAAAATTAGCACTAGCCGCCACTGCAAATGCAAGACCAACCATAAATGCAACATTTTGTTTTTCAAAAAGAATTCCAAGAAGAATAGCAATACATCCTAAAGAAATTGCTGATATCCTAGAAACAAATAATTCATCTTTTTCATGCACTTTATTTTTTTTAAATACTGATGCATATAAATCGTGACTTACTGCTGAAGCTCCTGCAAGAGTGAGCCCTGAAACTACAGCAAGTATTGTTGCAAAAGCTACGGCTGATATAAATCCTAAAAAAATATCTCCACCAACAGCTTTTGCTAGATGAATTGCTGCCATATTATTTCCTCCAATCAAACTACCATCGGTATTTAAAAACTCAGTATTTTTGGAAATTAACATAATTGCTCCAAAACCTATTATATAAGTTAAGATATAAAAATAACCTATAAAACCTGTAGCAAAAAAAACAGATTTGCGAGCTTCTTTTGCATTTTTTACAGTAAAAAATCTCATTAAAATATGAGGGAGTCCTGCAGTACCAAACATTAGAGCTATACCGAGAGATATCGCTGAAATAGGGTCAGATACTAATCCTCCATGCTTTAATATATCATGACCATTAGGATGAACATTTACTGCTGCTTGAAAAAGTGATTCAAAGTTAAAATTTGTTGTCCACATAACTGCAATTGCAATAAAAGTAGCACCAAATAAAAGTAATACAGCTTTGATAATTTGAACCCAAGTTGTCGCTAACATTCCACCAAAACTTACATAAAGAACCATTAAAACTCCAACAATTATTATTGCTATTTCATAGGGAAGTCCAAAAAGTAGTTGAATTAATTTACCCGCTCCAACCATTTGAGCAATTAAATATAAAGCTACAGTTACTAAGGAACCACTTGCAGCTAGACATCTTATTTTTGTTTGATCAAGTCGATGTGAAGCAGCATCAGCAAACGTATAATCTCCTAAATTTCTTAATCTTTCAGCAAGTAAAAATAGTATAATTGGCCATCCAATAAGAAATCCAATTGAATAAATAAGACCGTCATATCCTGAAAGATAAACAAGCCCAGAAATACCTAAAAAAGATGCCGCAGACATAAAATCACCTGCGATAGCTAAACCATTTTGTAAGCTAGTAATTTTACCCCCAGCAGCATAAAAATGTGAACGAGATATTGTTTTTTTTGCGGCCCAGTAAGTTATACCAAGAGTTGCAAAAACAAATATTAAGAACATTGTTATTGCGGGATAATTTGTCATTTAAATTTTTTTAGAATTATTTTTTCTGTTTTATCAAATTTTTTGTTAGCTATAAAAACATAAAAACCTGTTGCTAAAAAAGCTAGTAATATAATTGAAATTCCAATTGGAATTCCAATAGTAATAATTGATCCATTAGATATTTTAATTCCTAATATTTCAGGAAAAAAAGCAATAATTAAAATAAAAGAAAAATAAATTAGAAGAGTTATTATTGATAAAAACCAACTAATAAAAGATTTTCTTTTGACAAGACTTTTAAAATTTGTATTTTCTATAATTTTTTTTTCTAAATTAGAATTCATTAAAATTAAACCAATTAAATCTAACTTTTGTTTATTGTAATTTTTTTAGTTATTCTATTTTTATTAAGATTTAAGTATTTTTTAGTCATATCCTTCATTCCTTTTTTTACATATTCTCTTATATCATGAGTTATATGCATTGAGCAAAATTTTGGACCACACATAGAACAGAATTGAGCTATTTTTGCACCTTCGGCAGGAAGAGTTTCATCATGAAATTCTTCTGCTTTTTTTGGATCTAGTGAAAGATTAAATTGATCGCGCCATCTAAATTCAAATCTTGCTTGACTTAAAGCGTTATCTCTAATTATTGCTCCTGGGTGTCCTTTTGCAATGTCTGCAGCATGAGCAGCAATTTTATATGCTATAACTCCATCTTTCACATCATTTTTATCAGGTAACCCCAAATGTTCTTTAGGGGTTACATAACAAAGCATAGCAGTACCATACCAACCAATTATTGCTGCACCAATTGCACTGGTTATATGATCATATGCTGGTGCTATATCAGTTGTTAGTGGTCCCAAAGTATAAAACGGCGCTTCATTACATATTTTTAATTGTTTTGTGACATTTTCTTTAATCAAATGTAGCGGAACATGCCCCGGACCTTCAATCATAACTTGGCAATTCATTTTATAAGCAATTTTGTTTAATTCACCTAAGGTTTCAAGTTCAGCAAATTGAGCTTTATCATTTGCATCTGCAATTGAACCTGGTCTTAAACCATCACCTAATGAAAATGAAACATCATAACTTCTCATTATTTCACAAATTTCTTTAAATTTTGTATATAAAAAATTTTCTTTATGATGTGCTAAACACCATTTAGCCATTATAGACCCACCTCTAGAAACAATCCCAGTAGTTCTATTTGCAGTTAATTGGATATATTTTAATCTTACTCCGGCGTGAATTGTAAAATAATCTACACCTTGTTCAGCTTGCTCAATTAAAGTATCTCTATAAATTTCCCAAGTTAAATTTTCAGGCTTGTCTACTTTTTCTAATGCTTGATATATCGGAACAGTTCCAACTGGTACCGGACAATTTCTAATTATATATTCACGAATATTATGTATATTTTTTCCAGTAGAAAGATCCATAATAGTATCAGCTCCCCATCTAATAGCCCAAACCATTTTTTCAACTTCTTGACTAGAATCTGATGTGATAGAAGAATTACCAATATTTGCATTTATTTTTACATAAAAGTTTCTTCCAATAATCATAGGTTCTAGTTCAGTGTGATTAATATTTGCTGGAATAATAGCCCTACCTCTTGCAATTTCTTTCATAACAAATTCAGGAGTTATTTTTTGTGGAAAATTTTTATTATTACTTTTATTTTTTCTTTGTTCATTTTCACGTAATGCAACATATTCCATTTCAGGTGTAATAATATTTTTTTTTTGCATAATAAAGTTGAGTAATTGAATTTTTTTTTTTTGATTTAAAAATATTTATTTCTATTTTAAAAATTTTTAGAATTTTTTGATTTTTATTCATAAACCCATTGTCTTTTGACGTTACTTTTCTTCCTCTGTATTTAATGATTGATTTATTACTATTAATCCATTTCTTTCGAATTTTTTCTAGTCCAGAATTAATATTGATTGATTTACTTTCTTTGATTTCAGTATAAATTCCAGAACTATCGTACACGTAAATTTCATTGGGTTTAGCTTCTTTATTTAAATTTATTTTTCTTATAGGTATTCTTAAATTTGAAAAAATTTTTCCTTTAAGATAAATTTTTTCAGATGATGGAAATGGTCCTATTGTAATATTTTTTTTCATTTAAAATTTATTACTTTATATTTACATATTTAAGTAAAGATTTTAGAAATTAATTAAGTAGTAATAATTTATAATGTTATTATAACATATAAAATATGAATCAAAAAAAAATTTTTCTTCCAACAGGTTTTAGAGATATATTAACAAATGAATCAAATTTACAATTTGAAAATGGAAGAAAATTAATTAAAAATTTTAATTTATGGGGTTATATTTTTATTGAACCGCCTATTATTGAGTTTGAATCAACACTTGTAGATAAAAAAAATAAACATTCAAATAATAAAATCTTATCTTTTTTAGATCCACTTACAAAGAAAAAGATATCCTTAAGGTCTGATATAACTACACAATTAGCTAGAATAGCTTATGATAGACTATTTGAATTTCCAAAACCTCTTAGACTATATTATCTTGGCGATGTTTTTAGAGCAGATAAACCAAAATTATCATCTGATAGGCAATTTAAACAAGCTGGAATTGAAATTATTGGTTCAGATAATTTAATTGCTGATGTTGAAGTAATTACTTTAAGTTTAGATTCTTTAAAAAAAATTAATTTTAAAAAAATAAGTATAGATTTAAATTGTTCAATAATTTTAGAAAAGATATTTGATGATAATAAAATTTCACAAAGTAAAAGAGAAATTATAAGAAAATTAGTTGAACGAAAAAATATTAAAGAAATTTCTAAATATAATAAAAAATTATTCAAACTATTAAAAACAATTATAGATACAACGGGATCTTTAAAAAAGAATATAAAAAAAATAAAAAAATTAAAATTAGGAAAAGAAGCAAATTTAATTTTAAAAGATTTTTTATATGTTGCTTCATTTTTAACAAAAAAAAATTATGATGAATATAAAATTTCTGTCGATTTATTGGATCATCGAGGATTTGAATATTACTCTGGAATTACTTTTAGTATATTTTGTTTAAATTCTAGTAAAGAGGTTTGCAGAGGAGGTAGGTATATGACTAAAAAAAATGATTCTGCTGTGGGCTCAACTTTTTTTCTTAATCAGTTTACTGAATTAAAAAATACTAAAATTAATAGTAAAAAAATTTTAATTTCTAAAGATAGTCTTTTTAATAAAAAATTATTAAAATTAAGAAAAGAAGGTTGGATAACAATTCAAAATTTTGATGGTAAAAATAATTATCAATTAGCAAAATTGCATAATTGTAAATTTATTTTTCAAAATAATGAAGTTAAAAAAATATAATGAAAAATCTTACAATAATTGGCGCTCAATGGGGTGATGAAGGAAAAGGTAAGATTGTTGATTATTTATCTAATAATTATGATGTTGTGTTAAGATTCCAAGGCGGACATAACGCAGGCCATACAATTATTGTTGATAATAAGAAGTTTATTTTAAGTATTTTACCTTCTGGTTTAATTAGAAATAAATTGTGTATTATTGGAAGTAATGTTGTAATTGATCCAATACATTTTGTAAATGAAATAAAATTATTAAAAAAGAAAAAAATTAATATATCAAATTCTAATTTAAAAATTGCTAATAATGCATCAATTCTTTTACCATTTCATTCAATTATAGATAAAATTAGAGAAAAAAATCTATCTAAAAAAAAAATTGGAACAACCGGTAGAGGTATAGGCCCCTGTTATGAAGATAAAGTGGCTAGAAGAGGTTTAAAAATTTATGATTTAGAAGATTTAGAAAATTTAAGATTTAGATTAAAAAATTTAATAAATTTTCATAATATCTTTATTAAGAAATTATCCAAAAAAAATATAATTTCATTTAACGAAAACTTCAAATTGTTAAAGTCATTACGAAAAAAAATATTATCTTATTCTGTTGATGTTAGTGAATTTGTTAATAGCAAAAACTTTTCAAAAAAAAAATTATTGTTTGAAGGTGCTCAGGGATTAATGTTAGATATTGACCATGGAACTTATCCATATGTAACCTCTAGCAATACATTGCCCGCCGTTGCTCCTTTGAGTTTGGGTTTAAAACCGTCAAAAATTGGACATATTCTTGGTATTGTTAAAGCTTATACCACAAGAGTTGGTGAGGGACCATTTCCAAGTGAAATTAAAAATAATTTAGGGTTAAAAATAGCAAAAATAGGGCGTGAATTTGGTAGTGTTACAGGAAGACCTAGAAGATGTGGATGGTTTGATGCTGTTCAATGTAAAAAAGCAATAAATATTTCAGGAATTGATTCCTTAGCTTTAACAAAAATTGATGTTCTAGATAATTTAAAAAAAATTAAAATTTGTAATAAATATAAATTAAAAAATAAAATCTTAGATCAAATGCCAACTTCAAATAATGATTTAAAAAGAGTTAAACCTCAGTATTTAACTTTGGATGGTTGGAATGAAGATACCTCTAAAATAAAAAAATTGAAATTTCTTCCTTTAAAAGCTAGAAGATTTATTAGTACTATAGAAAAATTACTTGGAGTTCCAATAACTTTTCTTTCTAATGGCCCAGATAGATCTAATATTATTAAATTAAAAAAGTTTTTTTAGTTTATATAATTTACCGCTTCTTTTTTTTCTAAATTTTGTTTAATTAATAAATTTTTAACGGATTTTTTTAGCTTTTCCATTGCTCTGACTTCTATTTGCCTGACTCTTTCTCTTGAGATTTTGTAATGATTACTTAAATCTTCTAAAGTTTTAGGTTTATCTTTTAATCTTCTTTCAATCATAATATATTTTTCTCTAGGACTTAAAACATTTATAGCCTTAGAAAGTAAACTCTTCCTCTGAGTCAATTCTTGCGAATTTGATATTGTATATTCTTGGGTTGGTGTTCCATCAACTAACCAATCTTGCCATTCTCCTTCACCATCTTCTCTTAGTGGTGCGTTTAAAGAATGATCAGGCCCAGATAATCTTCTATTCATTTCAGTTACCTCTTTTTTAGTTACATTTAAAGTTTTTGCTATTTTATTTACATTATCTGGCAACATATCACCTTCTTCATAAGCTCTTAAACTTGATTTTACTTTTCTTAAATTGAAAAATAATTTTTTTTGAGCTGCAGTTGTACCCATTTTTACAAGTGACCAACTATGCAAAATATATTCTTGTATTGAAGCTCTAATCCACCACATAGCATATGTTGCTAATCTAAAACCTTTTTTATAATCAAATCTTTTTATTGATTCTAGCATTCCAATATTTCCTTCAGAAATCAATTCATTGATAGGTAAACCATATCCTTTATAACCCATTGCTATTTTTGCAACTAATCTTAAGTGACTAGTAACTAATATATGTGCTGATTTTAAATCTTGTTTTTTAGCCCATTTCATAGCCAAATCTCTTTCATATTTAGGTTCTAGCAAGGGATATTTCCTAATTTCTTGCAAATATCTATTTAGACCGTTTTCTGAAGTGATTCTTGGAAGACTTTTTATTATTGCTGTCATTTTATATATCTAAAAAAACATAATAGAATCTGTTATTTAATACATGATTCTAATTAATAATATTTATTTTTTCACTTATCCACAGTTTCGCATAATTATATACGTAATGCAAGTATTTATATTAAATTTAATTTTTCAATTAAATTGCTGATATCACTAGGTAATTTAGACATTAGTTTAATTTTTTTATTTTTTATGGGAAGAATGAAGCTTAAAAAATAGGCATGTAAAGCCTGTCTTTTAAATGTAATTACATCGTTTATCAAGGTTTTATCCACATTTTTAAATAATTTTGTTTTAATTTTTCCATATTTTTTATCACCAATAATCGAGTTTCCACAACTAGATAAATGAACTCTAATTTGATGTGTTCTTCCAGTTAATAATTTACATTCAATTAATGATGCAATAGTAGAAAAGTTTTTTTTAACTTTGAATTTTGTTATTGCTTTTTTACCTTTATCAGTGAAAACAGAGAATTTTTGTCTATTTTTTGGGTTTCTTCCTATATTTCTATTTATAATTCCTGAAGTTTTATTGAGCAATCCCCATACAACAGCCAAATATAGTCTATTTATTTCTCTTTTTTTAAATTTTTCTTGCAAAAGTTTATGAATTGTATTGTTTTTTGCAATTATCATTAGCCCACTCGTATCTTTATCTAACCTATGAACAATGCCAGGTCTATCATTTCCTGATAAATTCGATAAATTATTTTTATATTCTTTCTTTAAAAAATTTACTAAGGTTATTTTTTCTTTACCTGCACCTGCATAAACAGTTAAATTGTGTGGTTTATTTATAATAATTAAGTCTTTATCTTCATGCAAAATTTTTATATTTTTATAACACATTATAAAAAATTATATGAAATATTTAAAAATAGTAATAATTATTATGGGTTTAATGATTTTTTTTGGTACAGCCACTATTATTTATATTGTATTTGAAAGATTATACTCAAATGAAAAAAATTTCATTTTTAATGATACAACTATAAAAAATTTAGAAATAGATAAAAACAGTGAAATAATAAATTCTAATATTTCGGATGACAAATTAATATTAACTACTAGATTAAACGATAATTATAGAATAATAATTTTTGATTTAAAAAGCGGTAAACAATTATATTTTTTTGAAATTAAATAGTAAAAAAATGAAATATTTAAATATTTTTCTCTTTTCTTTTTTTATTTTTATTTTAAATGGTTGTTCCATGTCTATACAGAATATAATTGATGCCTTAAATTATTCAAAAACAGGTGCTGATGTATTATCCTATGCAACTACTGACAAAACTACAACTGATCATACATTATCATATATGTTTAAAATGGATTGTTCTCTTGCAAGAACATTAAAACTTAAAGCTATTTGTCAAGAAATTAATAAAAAAAATATTTCACAGATTCAAATTAAAAATAATTATAAAATTAAAGAAAAAAAAATTTATAAAAAAAAAATAACAAAGAAAAAATTAATTGTTCCCTCAATGGCTTATTGATAATAATTTTTATTTAAAAAAATGATTTCTATATTTAATTTAACAAAAAAATTTGATCAATTTACAGCTGTAAATAATTTATCTATGAATGTTAATAAAGGAGAAGTTCTTGGCTTTTTAGGACCAAATGGCGCAGGAAAATCTACTACAATGAAAATGATTACAGGTTTTATTAAACCAACGGATGGCATTATTAAAGTTAAAAATATGAATGTAGAAATTGAACCAATAGAATGTAAAAAGGTTATAGGTTATTTACCAGAAGGAGCCCCACTTTATGGAGATATGACTCCAAAGAATATGTTAAAATTTGTTTCTCAGATTAGAGGAATAAAGAAAAAAGATTTTAAAGAAGCTTTTGATAAAGTTGTTGTTAAAACCGAAATTTCTGATGTTATTAATCAACCTATAGATACATTATCAAAAGGTTATAAAAGAAGAGTTGGTTTAGCTCAGGCGTTAATTCATGATCCTGAAATTCTAATATTAGATGAACCAACTGATGGGCTTGATCCAAATCAGAAGCATCATGTTAGAAGTTTAATTAATGAAATGGGTAAAAAAAAAGCGATAATTATTTCAACACATATTTTAGAAGAGGTAGATGCGGTTTGTACAAGAGCATGCATAATTGCAAAAGGAAAAAAATTAGTAGACAAAAAACCTAAAGAACTTAAAAAATTTTTTAAAAATAAAAATTTAGATAATATTTTTAGACAAATTACTTTAAATAAATAACTAATGAATGTTTTATTAAATATTGTTAAAAGAGAATTGGCAAGTTATTTTTCAACTCCACTCGCATATGTTTTTATTGTAATTTTTTTAACTCTTATTGGTTCTTTTACTTTTTATCTGGGAAATTTTTTTGTTAGAGGCCAAGCAGATTTAAACGCTTTTTTTGCTTTTCATCCTTGGGTTTATATATTATTAATTCCTGCTGTTACTATGAGACTTTGGGCAGAGGAAAGAAAGTCGGGAACGATTGAATTATTAATGACACTTCCTTTAACAACAAGCCAATCTGTAATTGGTAAATTTTTTGCTGCTTGGATTTTTATTTTCATTGCTTTATTTTTAACTTTTCCAATTTGGATAACTGTAAATTATTTAGGTGATCCAGATAACGGTGTAATTTTGGCTGGATATGTAGGAAGTCTTTTTATGGCTGGCGCATATCTATCTATAGGTTCATGTATTTCTTCAATTACAAAAAATCAGGTTATAGCCTTTGTAATTGCAGCTACGATTTGTTTTATTTTTACAATGAGTGGTGTTGATCTTGTTTTAAATTTTTTTAAAATTTGGGCTCCTGAATTTTTAGTTTCTACTATTTCTTCAATGAGTTTTCTTACTCATTTTGAATCTATAACTAAAGGTGTTATTGAAATAAGGGATTTCTTCTTTTATTTAAGTGTAATTATTTTTTGGTTATTTTTAAATATTGTTATTATTGAATTTAAAAAATTTAATTAAAAAAAATGTTAAAAAAAATTATTTCAAATAAAAACAAACTTCCTTTTATTTTTATACTTGCAATTATTTCATTAATTTCTTTTAACGTTTTAAATAAAAATTTTTTTAAGAATATCAGGTTTGATTTAACAAAAGATAAAGTTTATACATTATCTGAAGGAACTAAATCTATTATTCAATCTATTAAAGAACCATTAAATTTTAAATTATTTTATACAAAGGAGATAGGAGATGTTAATCCTATTTATCAAAATTATTATGATAGGGTCAAAGAGATACTTGAACAATATGTTTTATTATCTGGAAATAAAATTAAATTAGAAATTTATAATCCTAAACCATTTTCCGATGAAGAGGATAAAGCAGTGGAATATGGTTTACAAGGGGCAGAAATTATGTCCGGAGTTTATGGATATTTTGGTTTAATTGCTACTAATAGTACTGACGATGAAGAAAAAATTATTTTTTTTCAACCTGATAGAAGTTCATTTTTAGAATATGATTTAAGTAAGATTATATCTAATTTAGCTAATCCAAATAGAAGGGTAATTGGTTTGTATACTGATTTACCAATGTTAGGAACTTTTAATCCTTTAGCTAAATCTCAAGATGCTGCATCTGCTCCACCGTGGGCAGTTTATAATCAAATTAAAGAATTTTTTGAAGTTAGAAGAATACATGAAAAAACTAGAAAAATACCTGAAGATCTTAATTTATTGATGTTAGTACATCCAAAAAAAATTCCTGAAAGAACTATATATATGATTGATCAATTTGTTTTAAGAGGTGGAAAGCTTCTTGTTTTTCTTGATCCAAATTCAGAGGCTGATAGTTTTCAACCAAATAATCAAAAAGAAAATATTGTAAGTTCAAATTTAAGTTCTTTATTAGTGAAATGGGGGGTTGAATTAGTTAATAAAAAAGTTGTAGGTGATTTATTATCTGCAAGAAGAGTAGCTATTGGTCAATCTGATCAACCATCAGTGACTGATTATTTAGCATGGTTAGATATAAAAAAAGATCATATGGATGAAGAACATCAAATTACATCAAAAGTTCAAAGATTAACTTTTGCTACTGCAGGACTTCTTAAAGAAAATGGTAAAAATAATAATATTAATTTTAAGAGATTAGTTTGGACTACTACTCAATCAATGCAAATTGACTCATCAGAAGTTATTGCTCCAGATCCAACAACTTTATTAAGAAATTTTAAACCTTCAAACGAGGAGTATACACTTGTTGCCGAAATAAAAGGGAGTTTTGAATCAAATTTTGGTGATAGTCCTTTAATTACTAATAAAGAAAATGAGTTTGATAAAGAAAAACATTTATCGGAATCATCAAAACCTTCTACTATTATTATTGTGTCCGATGCTGATATGTTATATGACGAGTATTGGTTAAAATATGAACAAACTGGTAATGTAACTCCTATTGCTAACAATGCTGATTTTACTGTAAATGCATTAGAATATCTTAATGGAACTGAAGATTTAATAGGATTAAGAGGAAAGGGGATGTCATCTTTACCTTTTACAAAAGTTGAAAAAATTCAAAAAGAAGCAGAACAAAAATTTAGAGCTAAAGAACAACAACTTTTAGAAAGATTAAACAATTATCAAAGTAAATTAGAGAATATTCAAAGTGGATCTGATGAAGAAGACAATAAAACCTTATTAACTGAAGAAGAAAATTTAGAAATAGAAAAATTTAGAGAAGAAATGGTTTATGTTAGATCTGAATTAAGAAAAGTACAAAACGCCTTAAGAAAAGATATAGAAAAATTAGATAGTATTTTAAAGTTTTTTAATATATTTTTTGTACCAATTTTGTTAATTATAATTTCTTTGATTATTAGTTTTATTGAAAGAAAAAAAAGACATGAAAAACACATAGTTAAAGAAACTAATTAAAAAATAGTAATATGAATAACACATCATTTATAAAATTAGTCATTGTATCAATAATTTTGTTTCTTTTAGCTTTTGTATCATTTCTTATACAACCAAAATATGAAACATCTATAAAAAGTGGGGAAATAGTTTTTTCAGCACTTAAAGATAAATTAAATAATATTAATGAGATTAATATTGATAATAATCAAAGAAAAATTTCAATTATTAAAAAAAATGATATTTGGTTAATGAAATCTAAATCAAATTACAAAGTAAGAAGTGAAGTAGTAAGAAAAAATTTAATACAAATGTCTGAATTGAGATTTCAAGAAATTAAAACTAGTGAAGAATCATTGTATTCAAGATTAAATTTAGACTTTCCTAATAATGAGGAAAATAATTCTAAATTTATTTCTATTGTTTCTGATGATGAAACATTGATTGAATTTATTTTAGGCAAAAGAAAAAAAAATGGCGTTTATATAAAAAAAAAAGATGATAAACAAACATGGTTAACAAAAGGAAATTTAGATATGTCATCTTTTGAAAAAGATTGGCTAGAAACTAATATTTTTAATTTAGAATATAAATTAATTAATAATATTTCTATAAGTCATTTAATTAAAAAAGATTCTTTTAGTTTAACTAAAGATAAAAATAATGAAAATTTATTAATTAATGATCTTAATAAAGATCAATTACCAAAAAGTGATTTAATAGGTAATTTTTTAGGTTATTTTTTTACAAATTTATCATTCGATGATGTTCAAAAAAGAATAAAAAATGTTGAAGAAAATATAATTTCAAGAGTTATTTTTAAATTGCAGAATGATATTAATATTGAAGCTTTGTTTTTTAATATTGAAAAAAATATATGGGTGAATTTTCAAGTAGATGAATATTCATTAAAAAAATTATTTAGTGATAAATTAATGTTTGTTAAAAATATAAATGATTGGTCATTTAAATTACCTTCAACTAAATACAGCATAACTGAAACTAAATTAGAGGACTTGCTTGTTGAGGACTAAAATAATTTGCTATATTTATTAATGTTTGAGAAAAATCAAAACCAAGTTCCATTTTATTTAAACTAATTAATGAATTTTCAAAATCACCACATATTGCTTGAGCATTAGCAATTTTACCAAGTAGCTTTGTATCAACAATTTTACCGCCGTGATTAATTAATTTTGTAGCTAATTCTTTTGCACCTTTTTTATCTTTTTTGGCCTGTATAATTAATACGTCAGATACTGCTTCTTTATAAAATCTATCACTTTCAATAGCTCCAATTAACTCATAAGATTTATCAAAATTATTTGCCAGAGCATATGTCTTTGATAATGAAGAAAATATCCTTCCTTTTGTTGAGAAACCTGGTAATCCCGAAAATTCATAATTTCCAACTATTAAATCAGGAGCCATTTCTTTTGATTTATTTAAATATTGATCCATTTTTTTAAAATTTTTATTTTTAGCTAATTCTTTTCCTATAAATGCAAATGCCATTGCTTTTTCATATTTAGTTTTGATTAATTTGACTAATTCATTTGCTTGCTCAATATTATTTATTTTTGCAAAAGCATGAACTAATTCTAGGACTAATCTTTCATCTGGGTTTTCAGGCATATTTTTTTTTGCTTCTATAAGTGTCAAATTACTATTTTTTTTTAGTTGAATCTTATTTTCAAATAAAGCAATATTTATTAATTCTCTTACAATCCAAAATTCTTGATCTTTCAATTTTGCAGTATCTTTAGCTTTGTCTAAAAATTGGCTCATTTTATTTTTGTTTTCTAGCTCATAGTATACTTTAGCTATTGATAAATAAGTATTTGATTTTTCTGCATATTTTATAGCATCATTTAAATCTTTTTTAACATAATCAATTTTATTTAATAACAAATTAGCATGTATAATTTCAACAAGAGCAATTGCTTTATTATCATTATTTGTTATTTCATCATTTATTATTTTGTAAATAGTATTTTGTATTTCTTTTATTTCATTTTTTTTTCCTAAATCGTTAAGCATTTTATAAATATGTGAAAGATGTTTAATTTTTTTTGGTAAATCAGAGAAAATTTGTTTTGTATAGTCTTCTGATTTTTTTAAATTCATAAAAGCTTTTTCATTATCCTTTAAATTAATTCTTATATTAGCAATTTGGTTTTCTAGTCTAGCTTTTGTTCTTGTATCTCCAATTTGTGATATTGATAATTCTGTAGCTTTTAGTAAATGATTAATTGTATTAGTAATATTTGAATTTTTGAATTCAACATTAGCTAAATTCATTTCTTTTTTAATATTATTTATTTCCAGATCTCTCTTTTTTTTATTTTGTTCTTTCAATGCAACGATAGTTAAATTTGCTATTTCATTTTCAATTTTTTTTATTATTTTTTCTTTTCTATGAATTTTTGCAATTTTAGTTTTTTTATACTTTTTTTGAATTTTTTTGTAATTATTAAGTATTTTATTATACATAACTAATTTTTTTGATGGATCTGTTTCGATTTGTGATTTATCGATTATAACTTTATTTTCTTCATTTAATTTATTAGCCTCAAAATTATAAAATTCTTCACATGATGTGAGAAAAAGAAAAAAAAATATTGAATTAATTAATAGTATATTTCTTAACATTTAATTATAATAATAATGTAGTTTTTTAGTTTATGAAAAAAATAATTTATTTAAATATCTTTTTTTTAATCGTATTATTAATGCCTATTAATGCTTTTTCTAAGAGTATTCCTAATTTAATTGGTAAATGGCAGGGTGAAAATATTAAATCCTCTTTAAAAAAAGGTTTTATAAGAAGTCATAATATCGTTGAAATTACAGAGCAAAAAAATCGTTTATTCAAAGGATATGTAATTCATAAAGGAGGAAAAGAAGAATTTGTTGGAGTTATTAAGTCAGATCGTAAAAACTTTTTTTGGGCAGATAGCAGTGATGATGATGGTAAAGTTATAGGAACAATTCTTAAAAAAAATAAAATAGAAACTTGTTATTTAGATAGTGGTAGGGATGCTATTGCAGGATGTTCAATTTTAATAAGAAATAAATAATATTAAAGAATCTATTTTTCTCTTATTTTAGTTAAAATTCGATTAGTTGCTTTAAGAAGGTTTTCCTTTATTTTTATTTCAGATGTAGAATGGCCACTTGATTCAACTATTTTTAATTCACATTTCTTCATTTTTTTTGATAATAAAAATGCTGATTTAGGGGGACATATAAGATCATATCTTCCCTGGATAATAATCGTTGGGATATTTTTTATTTTGTTAGCTTTCTTTAATATTTCGTTTTCCTTTAAGAAAAAATTTTTTTTTGTGTAATGCCATTCTAAAAAAGGACTATTTGGCACACTTTTTTTTTTGTCTTGATTATTAATAAAATTCAAATTAATTTTTTTAGGATTTAAAATAGATAAAGTTCTTTCATATTTTTCCCATATTATCGCCGCCTCTCTCTTTTTTTTTTTTTTTTTAAAAAAAAGAATTTACACAAGTAAAAAAAAGTTTTTTTTTTTTGTTTTTTTTATAAATAAAATTAAAATTTATTTTTTTATGTTTTAAAAATTTTAAATTTCTTTTATTTTTTTACCATATTATCTCTGCCCCTCTCTTTTTTTTTTTTTTTTTACCATCAAGCATTTTCCCAAGTTCAAGAAAGGTTTTTTTTATTGGTTTTTTGTTTATTTTCATATTTATTGCATCTATTATTTCAGGATAAAAGTATTCTGAGGCATAATGAAAAGCCCAAAAAGCCTCTTGTTTGGTGCCAAGAAAAACACCTCTTAGGATCATACCAAGCACATTTTTTCTATGTTTTATAGCGTATATCAAACCTAAAGTTGAACCCCAAGAGCCACCAAAAATTATCCATTTTTTTATTTTTAATTTATTTCTTATAAGTTCTAAATCCTCAACTAATTTGTTAGTTGTATTATTTATCAATGATCCTTTAGGCTCACTTTTTCCAGATCCTCTTTGATCAAAAAGTATTATTCTAAATTTTTTTGGATCAAAGTATTGTCTATTTTTCGGATCTATCGAGCCTCCAGGACCTCCATGAAGATAAATAATTGGGGTTCCGTTCTTATTACCACTTTCCTCAACATAAAGAGAATGTTTTTTATCTTTTGTTTTTAAAAAAAATGAATTGTAAGATTTAATACTTGGGTACATTTAAAAAAAAATATTAATATTTATATTCCTTTTAAAATTTCTTGTCTTTTTCTTTTATATTCGTTTTCTGATAAAATTCCTTTTTTAAATAAACTTTCAATTGTTTTTAGTCTTTGTTCCAAAATAATAGATGAATCATTATTTGAAGAATTTTTTCTTTTTGAAATATTAGGATTATTATTTTTAATAATTTGTTCTTTTTTAATATTATTTTGTTTATTATTTTTTTTTATTTGATTAGGTCTTTGTTTATTATTTAATTCTTTTTGTAAGCTATCAATTTGTTGTTGTAGAGTTTTGTATTGTTCTCCTGATAATTTTTTACTATCTATGTTATCTTTAGCGTTTTTATATGCTGAATTAGTAAATACAAACCAATCAGTTCTTTCATTAGATTTTCTGTAAATACCTTTCTTATTTTTATTATATACAAGTATTAGTCCTTCATATTCTGCCTTTTTTGTTCTATGTCCAATATCATATCTTAATCTAGCAGTTTCCCAAACATTACCCTGGTATTGTTCATCTAAAGTCGGTTGTAAGCCAACTTGTACTGACCCTAGTATTAAATTTAATTGTTTATTGGCAATGAATATTCTGCCAGCAGTTAATCTATCTTCAGAAAAACTCCATCTAGCACTTCTATGAGGACCTTTAATAACAAAAGTAACATCTTCATTAGGTTTGGCTATTTTTAAAGCTTTTGGCACAAATTCAGATAATAACATTAGTTCTTTATTTGAAAATAAAGGTATTTCAGGTTCATTTCTATCATATTTGTATGAAAGCTGTTTAAACATTTTTCTTAAAATGTCACCAGATATATTTATAGGATGATTATTTTTGACTTTTGTTTTTTTTTCAATTTTTTCAGTTCTTATAAAATATTTAGCAGCACCTGGCATAATAGGAGAAACTTGCCAAAATGTATTAGTTGCATTTTTATCAGAAATTTTTGCAAATGTATATTTTGGATAATTTATTAAAAATATTAATGAGAATAATATTAATAAAAAAAAACTTTTTTGAAAAAAATTCACAAACATTTTTTAAATATCAAAGTATATGGAATTTCAATTATAAGGATTTTGTAATAATTTGTATATAAAAAAGGCGGACCTAATAAATTAGATCCACCTTTCAATTATCTTTTTAGTGAGAGGCTTAAAAGAGATATCGACTTACCAGAGGTAAAACATACCAACTGAGAAAATATCACTTTCGCCATCTTCATCGCCTGCATCAGTGTTATACCATTCTTCTTCAGCATGTGAATACTCAGCAACAGCTAACCATTCAGGAGCTAAATTATGATATATTCCAACAGTCCACATTGTTTGACTATCTTTTTCGTCAAACGCTGTAGATGCGTCACTTCCGGCTTGATCTTGAAAAGATCCACCGTAAGAGAGCCCAACTTTACCAGCACCGTAGTTATATGTACCTTGTACATAATAACCATCATGGTCACGGCAAACACCATCAGCTGAAGTAGCACCAGAATCCAATTGTAGAGTGATACCTAAACATTCACCATTATAATAGTGAGCAGTTAAGGCAGCAGGTCCACCAACTAAAGTACCACCAACGTGGATACCTTTAGCTTCAAGTTCTGTTGCAGCGTCAGCTTCTTGGTACATTCCACTTATCGCAAGATTTGAACCTTCACTAATACCAGCTAAACTAATATTAACTTCAGCTTCAACTCTTGGAAAGTCAGCTTCATTAGCTGTGAATGCTGCAGAAGCATTGGCAGTTCCACTAGCAATTTTAGATGGATCATAAAGACCAACGCTTAAAGTTGTACCATTGTAACTTGGAGTAGTATATCTAAAGGATGCATTAAAATCCGGATACACATATCCAAAACCGATACGGCCTAGTGTAGTACCATTATTACCTACGTTATCCGCAGTAGCACCAACACCAAATAATGTCATATCTTGCACAATTGCATTTCTTTGAAAGATACTCAAAGTTCTACCAAAAAGTATTTCACCAAAATCACCAGTAGCAGCAGCATAGATTTCTCTCATATCTATTTGCGCACCACGAGCAGTTTTAGTAGATCCATTTTGGATTTGAGGATATAAACCAAAGTATCCTCTTAATTGTACTCCGTTTGAAGCTGGACCTTGAACACCAAAACCAAATTTTGATGGTAAAAGACCAGTTTGAATACGAGAGTTGTCACCTGTTGAAGTTCTAGCTACTTGGTGATCAGTACCAAGATTAGCATCTTTACCAGATGAATAAACATAGAATGCATTAACATTACCATCAACAGAAAATGACCAACCTGATGGTTCGTCTGCCATTAATGTAATCTTAGCATCTACCGGAGCAGTATAAGCTGTTGCTAATGCAACACCTGCAACCGCACCTAAAAGTATTTTTTTCTTTTCTAACATTTAATAAGCCTCCCTAAAAAGAAAAAAGTTAATAAAATATTTTTTATATAATATGAAATTTTTATGACAAAACGCAATATATTTTATAAATGTCAATTATATAGGGATATATAAGAATTAGATAAAAATAGGTAATATCGCATATTATATAGTTAATTCAGTAATTTAGTTAATAATAACGTTTTTTTATCATATAAAGTAAAAGATAAAAAACTGGTATATTGTTGTATTTTTACAACAACTTTTTTTATACAAAATATATAAATGAATCAGAGATAATAATTTTAGCGAAAAATAGTTTAATTTTGGTTAGTTGAAGCACTTAATAATCTTTTAAGATTTTCAAATTGTCTACTATTAGGTTTTCTAGGTCTTTTTAAAACAATTTTTTGATCCAATATTTTTTTTGAAGGTGTTTTAGATAAAAAAATAATTCTATCAGCCAATTCGATTGCTTCATTTATATCATGAGTTACAAAAATAATTATTGGCTTATTTTTTTTCCATAAATTAATTAAAAGTTTTTTTAATTGATTAGCAGTTTTTTTATCAATTGAAATAAAAGGTTCATCTAATAACAATATATCAGGATCATTAGAGAATGCTCTTGCTAAAGAAATTCTTCTCTGCATACCACCTGAAAGTTTGCTTGGAAAATGATCTTTGAATTTTTCCAAACCAACATTTTTAATTAAATTATTCGCAATTTTATTACAATTCTTATTTTTTTTTATTGGGAATTTAATATTATCTATAGCGGTTAACCAAGGAAATAGCCTTGGAGATTGAAACATATAACTTATATTTTTTTTAGAATTTGATTCATTATTATTAATTTTTAGTGAACCATCAAAATTTTTATCAAGTCCAGAAATAATATTTAATAATGTTGTTTTACCGCATCCAGATGGCCCAAAAATTGATACAAATTCATTCTTTTTGATATCTAAAGTTAAATTTGAAAGAACAAGATTTGTTTTTTTAACATTGTTAGATTCTATAGTAAATTCTTTTTTTTTTATATTAATTGAAAGATCTATCATTTTTAATCAAAATATAATTTATATTCTCCATGCAGTTAATTTTTTTTCAGTTGGTTTTACTAAAAACCATTCAATTGACATTACTATAAAAACAAATACAAAAGTATAAGCTAAAATAGAAGTAGTATCGAACATTGAAAAAAATTCATTTATTTTAAAACCAACACCATTAGATCTTCCTAGTAGTTCGACAACTAGAACTATTTTCCATATTAGTGCTAAACCAGAGCGAGCCGCTGATATAAAGTATGGGAATAATTGAGGTAACATTATATTTTTAATTATTTCAAATTTCGATAATTTATAAACTTTTCCGACATCAATTAATTTTTCATCAATTGCATTAGTTCCTTCTCTTAAAATTACAGTCACAGTAGGAATTTTGTTAATACTAACGGCTAAAATTGCAGCAACTTCGTTTAAACCAAACCATATAAAGCATAAAATAATTGTAACTAATGCAGGAACATTTAAAGCAAGTATTAATAAACCATCTAAATAATCATCAAATTTTTCTTTTCTTCCCATTAAAATTCCAATTGCAGACCCAATTAACATTGCAACAAAAAAAGACATTAAAACTCTAAATAAAGTAATACTTACATGAAGAATTAATTCATTACTTAAATGATAATGAATTGAATTTGCAACTTGAATTGGTGAAGGGAGCAATACCTTGTCATTTAGCAATGAAGAAACAAATCCCCAAAATACAATTAAGATAAATACGGAAAGTAATCTTCTAAATAAACTATTTTGTAATAAAAAATTATTCAAAACTAAAACTCAAAAAAATATTTATTCTTCTTTAAGAAAAAATGTCCCAGGAGAAATTTCATTTTTTGTTCCAACTAAATCACGACCACCATATTTAGCAAGAATTTTAAATATTTTCTTCGTTTCTTCTATTTCATCGTTTCCAAAATTTAATGGTATTCCGTTTCTATAAGCATCTCTTAGATTAATTAAAGTCGTTCTATCTTTTGCATTAGTTAAAGGAAAAATTCTTTCCCATTCACTATCAGATGTTAACATAATTTTTTTTGCTTCCGCAGAAGCATTTAAAAAATTTTTAATTAATGTTTTTTTATTTTTAGCAAATTCTTCAGAAAATACCCAACCATATGCTGGTATTTTTGTATTAATACCTAAATTTTTAAGTATATCTTCAACTGAAATAATTTCTCTGAAACCTTTTGATTTAAGTCTTGAATTGTAATGCCAATAATTTAAAACTGCGTCAATTTCATTTCTAAGAATTAATTCATTTAATAAAGGTGGAGCAGCATAAATAGGTTTTAAATATTTTTTTGGATCAATATTATTTTTTTTATTGTAATACGCTCTAAATAATAACCAACTTTTATCAATTGAACTTCCAGCTATCCCCAATTTTTTATCTTTTAAATCCTCAATATTGATTATTTCTGAGTCATGTTTTACCATTATTCCTCCGACTGACATTGAAAAAGGGTAAAAAACATAATTTCTATTTTCAGCTCTTTGTCGAGAAACCCATATCCAATCAGTAACAATTATGTCTACAGCATTTCCTTGCAAAGCTATACTTGCTGCATTTTTACTAGAAAAAAATTTTTTTTTTATATTAATATTATTTTTTTTATCAAGATTATTTTTTTCAATAATATCCATTTCCCAATTAACACTTCCAAATTTTAATAATCCAATATTTATTTCTTCTGATCCATAGGATTTAGAGACAAAGATAATTGAAAAAAATAATAAATGAATAAATAGTTTAGAAATTTGCATCACAATAAAAAAAATATTTGTTTAATATTTAAAATCAAGCATTTATAGAATATAAATTAATTGAATTAATATGATTTTGTAACATAATTTTTTAATTGATCTATTTCTTTTTTTAATCTTTTAGTTCTATCTCTTACTAAATCGCCTATGCTTACTACACCAATTAGATTATCTTTTTTATCAACATCAGGTAAATGTCTATAATGCTTATTAACCATTAAAGTTAAAAGATCTTCATTATTATCTTCTAAATTACAAGTAACAACATTTTTTGTCATCAATTCTTCAGCTTTTGTATTTCTTACTGAACTTTTTTGAGTAAATCCACGAACAATATCTCTTTCTGACAAAATACCAATAACTTTTTTGTTATCTAAAATTACTATTGCACCTATGTTTTCTTTAGACAAAATATGAGCAATATCTACTATTTTTGTATCTTTAGTAGCTGTAAATGTTTTATTACCTTTTTTTTTTAAAATATCTCTTATTAACATTTTTAATATTTCCTATATGATTCTTATAAAAAAATAAATAAATACAAGATTTATTTGAATTTTAATGACTATAAAAATTTTAGATACTAAAGGTTTAAGATGCCCGATTCCTGTTTTAAAAGCAGATAAAATAGTTAAAAATTTAAAAACTGGTGATATTTTAAAAATTTTTACAACTGACCCAAAATCAATTAAAGATTTTAAAGCGTTTTGTGAAGTTTCAAATTGTTTGTTTCAAAGCTCAGAAAAGAAAAAAAATTTTTTTATAATTTCTATTTGTAAGAGTCTCTGATCTTATTTTCATTAATTGTTATAGTTAGAAGAGCTGGAACTATAATTAATATTAAGATTGCTGAAAAAAATAACCCTCCAATTACAACTGAGCCAAGCCCTCTATATAATTCGGAACCTGCACCAGGAAATAAAACCAAAGGGAACATGCCAAAAATACTAGTTAATGTAGACATGAAAATAGGTCGTACTCTTGTTTTTGCCGACTCAAAAATTGCTTCAATTTTTGATATTTTTTTTTGTTTAATTGAGTCTATTGTTTTAAGTACAAGTAAAATAGAGTTATTTACTACGATTCCTATTAAAATTAAAAAACCTAAAAGAGTTAACATATCTAAAGCTTGATATGTAAATAAATTTAGAATTTTTAGCCCAATAAATCCACCAGCGGTGGCAAGTGGAACTGCAATCATGATAACTAGTGATAAAATAAAACTTTCCAAAAGAATTGCTAAACTTAAAAAAACTAAAATTAAAGCTATTGCAATTGTTAATGTCATTGAGTTTAATGTTTGAGATAATTTATCTGCTGTTCCAGAAAGATTTATTGTAATTCCTTTTTCGTATGCTTCGTCGCTTAAACCTTTAACAACAGCATCATCAAGCACTTCTATTGCTACTTCTAAAGGTATTTGAGCCGGAGGTCTTATTTGTAGACTAACAGTTCTTTTGAAATTAATGTGTCTAATTGAAACAGCACTTGATGTAATTTCATTTTTAGAAACTGATGAAAGTGGTATAGTAATACCTGATTTTGAAACAATAGGAATATTAGCTATTTGCTGAGTAAAATTAATTTTTTGATCTTTTTTTCCAATTATTCTTAAATCCATATTTTTACCATTTGCAACAATTTCATCAATCCATAAGCCATCATTAAATGCATCCATACTATTAGCAAATTCTTTAACTGTAATACCGTTTTCAGATAATTTTTCCATATCAGGAGTAAATCTAAGTTCTGGGGTTCCAAGTTCCAGACCAGGTTTTGGTCTAATTTGTGTACGACCCATTTTTTCTGGAAATATTTGATTACTAATAAAAAAAGCTTTTTTTGTTACATCTAAAATATCATTTAGATCATTACCACTAAAATTTATATCAATTTTTCTACTACCACCAGCAGTTCTGCCAAAAATAGATGTTTGATTAATAAATCCTAAAGTCCCTGACTCTTGAAATGCAAGTTTTTCCATTAGTGGAATAATTTTTTTAATATTATTAGGATTTTCAGTTGAAGCACCAATAAAAATTCTTGTTGATGTAGATACATAGAAAAAGTTGTTTATTCTTGGATATTCAGTAGCAGTCACATCTCCACCTTCTTCTAAAATAAAATAAGGTTTTATTTGGCTTTCAATACTTTGTGCAATTCTACTAGTAGTATCTAAATTATATCCAGGAGGAGGAATTAATATTCCAAAAATTAAATTTTTATTTCCTTCAGGCAGATATTCTAATTTAGGTTTAAGGAGAAAAATACCTAAAACAGCAACTAAGAAAATTGTTGTAATAGTAATTAATGCTCTTTTTTTAGAAGGTAAAACCCATGCTAAATATTTGTAGAATTTAAATAAGAATTTTAAAGCTAAAAAATTTAATATTTTTGGATTATTAAATTTCCAAATTTTTTTTTTGTTGTCAGTTTGTAATAATTTAAGCTTACTTGAAATTACTGGAATTAAAGTTATAGCTAAAATTAATGATAAACTTATAGCAACACAAATTGCAACTGATATATCTCTAAATAATTGACCTGCTTCTACTTGCACAACAAGAAGAGGAATGAAAACTAAAACTGTTGTTAATGCAGATAGAAATACTGCTTGCCATACTTCTTTTGCACCAATTAATGAAGCTTCATAATCACTTTTCCCCATTTCTTTATGTCTGAAAATGTTTTCTAATACAACGATTGCTGCATCTATAACCATTCCAACTGCAAAAGCTAAACCAGCTAGACTTATTACATTTAATGATTTTCCTAGTATAGCCATTGCTACAAATGTTCCGATTATTGTTAAGGGTATAGTGGTTGCAATAACTAAAGTGGCTCTTGCTGAATTTAAAAATAATAATAATATTAAGGCTGCTAATAAACCTCCAACGATTATATTTTGCTGTACTAAATTTATTGAAGAATTAATGTAAATAGTTTCATCGTAAACTTGTTTTAATTCTAAGCCTTCTTTATTTAGGATTGGATTTAATTTTTCTATAGTTGCTTTTACTTCGTCCATAGTTTCTAAAACATTTACACCTACATCTCTTATTAGATTCATGGCAATCGCTTCTTTACCTAATGATCTTATATATGAAACGGGTTCTTTAACTCCGTATTTAACAGTCGCAACATCTTCTAAAAAAATTTTTGATGTAAATTGAGTTTGTTCATCTTTATTAATTTTAATAACAACTTTTTTAATTTTTTCGGGGCTATCTAGTTGTCCTTCGGCTCTTATTAAATATTTTCTTTTTCCTTCATCTACATCTCCAGCTGTTAAAGAAATGTTAGAAGACATTAGACTTTTAGCGATATCAGAAATTGTTAATTTATATAGAGACAATCTTTGAGGATCTACAATAACTTGCATTTCAGTTTTACTTCCACCAAAAAAATTAGATCTTGAAATACCTGGTATTTTTTCAAATTCTGTTTTTACTAAGTTATCTGCTAAATCTCCAAATTCAGACATTGATTTATTTATTTTTTTTATAGGTCTTAACATTATCCATGCAATTGGAGAATCTTCGCTACCAGAAGTTTCTATATTTGGTTTCATAATTTCTTCTGGCATACCTCTAACTCTATCTAATGCATTTGATACCATGAGTAATGCTGTTTGAAAATTTTTCGTGGAATTAAATTCTAGTTTAATTTCAGATTTTTTGTCATATGAATTACTTCTTATTCTTTCCACTCCTTTTACTGATTTTAAAACATCTTCTTGTTTGATAACAATTTCTCTTTCAACTTCACTCGGAGAACCGCCCTGCCAATTTGTTGTAATTTCGATTACAGGTTTTCTTACATCAGGTGTTAATTGTATAGGTATTTTAAATAAAGCTAAAAGTCCTGAAAAAAGAATAAGAATTATAAGTGAGTAAACTATAATTGGTTTTTTTAAGCAGTTTTTTATAATATCCAATTTATTTAACTTCCTCTATTTTTACTTTTTGTTCAGGTATCAATCTTTCATTTCCTCTAACTACAACTTTTTCACCTTCATTTAATCCTTCTATTATTTCTATTGAATTTTGATATGGTATTCCAGTTTTTACTACTTTAAGTTTTGCGATATTATTTTCTATTACATAAACAACAGTGTTACCATTCTTTATAAGCAAAGCATCTTTAGTAATTGTTTTTATTTGTTTTTTTGATTTTAAAAAGACTTTTAAATTAATATTTTGATTTATTATTAAATTTGTTTTTTTTTTATTAAAAAGAGGTTTATATCTTACTATAACTGTTCTTGTGTTAGGATTTTCTTTTGGAACTATAGATCTAAATGATACTTTTAAAATTTTGCCTTCAGATAAAATAATCTCAGCATCTTTTTTTTTATTTAATAATTGAATTTTATCAGTTGGAATATTTGCTTCAATTTCAAATTCTTCATTATTGACTAATTCTATAACTTTTTCTCCAACGTTTATATAACCACCTTTTGTCACAAATCTTTTTGAAACATAACCGGAATATGGTGCTTTTAACAATGCATCTTCAAAAATAATTTTAGCTTTATTGTATTGTGATGTTATTTTAATTAAATTTCCTTCAGCGGCTTTGACAATTTGCATTTGATCTTCGTAATCCGCTCTTTTAAAAGAAGGAGAATCCATAAGCAATTTAAGTCTTTCTAATTTTTTTTCTTCAAATTCAAGTTTTGCTAAACTTTCAGACAATTCTCCTTCTTTATTATTTTTATCAGCTTCTAATTCATCATTTTCAATTTTAATAAGAACATCTCCTTTCTTGACAAAATCACCAACTTCAACATAAACATTTTCAATAGGGCCAGGACTTTTTGCGGATATTACATCACTTTTAAAAGGAGCAATTCTAGATGTGACGACATAAGTTTCATTAATAAATTCTTTTTTTAATGTTTTAATTGAAACTTGAGGAAAATTTGTTGTATTTGCCTCTATAACTTCACTATTATAACTTATAAGTATTATAATAAGGATGAATAAAATAATTTTTTTCATAATTATATTTACAGTAAATATTTTATTAAAAGGATTTACAAGATAAATAAAATATTATGTCGACAGCTATAATAACACATAAAGATTGTATTCTTCATGATACAGGTGAAAATCATCCAGAAAGTAAATTTAGACTTATAGCAATAAATAAGATACTTAAAAAATTTAATTCAGAAAAAATAAAATGGTTTGAAGGATCAAAAATAAATTCTAAATATTTACTCAATGTCCACTCAAAAAAATATTTTAAAGCTATAGTTCAACAATCTCCAAAAGAAAATTCAATTAAAATTGATGCCGATACTGTTTTAAGCAAGTATAGTTTAGATGCTGCCTTAAAAGCCACCGGGTCTTCATGTAAAGCAGTTGACATGGTTTTAAGTGGAAAATTTAATAATGCTTTTTGTCCTATAAGACCCCCAGGGCATCATGCAGAACCAGAAAAAGCAATGGGTTTTTGTTTTTTTAATAATATTGCAATTGCAGCTTATTACGCAAAATTAAAATATAAGATAAAAAAATGTGCAGTTATAGATTTTGATGTCCATCATGGAAATGGAACCCAAAAAATGTTCTGGAATGATCCAAATATGTTTTATGCTTCAACTCATCAAGAAGGAATTTTTCCAGGCACAGGTTTTAAAAATGAAAAAGGCATAAAAAATAATATTGTAAATGTACCATTACCCGCAGGAACAGATAGTCAGTAGTTTAGAAAATCTTATGAAGATATAATTATTCCTGAATTAAAAAAGTTTTCTCCTGAAGTTATTTTTATTTCTGCAGGATTTGATGCACATAAAGATGACCCTTTGGCTGATTTTGAGCTTTCAAAAGAAGATTTTTTTTGGATTACAACAAAACTTAATGATTTTGCTAAAAAAAATTGTAATGGAAAATTAATTTCATGTTTAGAAGGAGGCTATAATATTAAAGCTTTAGCTGAAAGTTGTTTAATGCATGTTAAAGGATTAATTTTGTGAAAAAAAAAAATATAATTGAAAATCTTTCTTTCGAAGATGCTTTAAATGAATTAGAAAATATAACAAATTCATTTGAAGAAGGTGAGGCGTCTTTGGAAGATGCAGTTTCTTTGTATGAATGAGGTATTATTTTAAAATAATATTGTGAAAAA
>sequence05
ATAAAAGAAAAAAAATAAAAAATTATATTGCTTAAAATTTCCATTTATTATTAATATATTCTTTTGTTAATAATCTAATTTCATTGTCAATATCATATATATCATTAACTGAATTTATTCTATAATTTTTAGATTTATATAACATTTTTTCTATAATTTTAATAATATCTAAGAAACTAATCCTTTTTTTTAAAAAAAAATTAACTGAAACATAATTAACTGTGTTTAATATTAAAGGATATGATCCACCTTTTTTTAAAACATAATAAGCAAATTTTATAGATTTCATTAAATGAATGTTTGGTTTTTCAAAAGAAAATTTCTTTATTTTAAAAAAATCTAATTTTTTAACATTAAAATGTTCTCTTGCAGGCCAGCAAAGCCCATAAAAAATGGGTATTCTCATATCATGGTCGCTTAAAAGTGCTGTAGTTGAACCGTCAATAAAATTAACCATACTATGAATTATTGATTCAGGATGTACAACAACGTTAATTTGATTCAACTTTAAATTAAATAAATAATAAGCTTCTACTATTTCAAAAGCTTTATTCATAAGAGTCGCAGAGTCTATAGTAATTTTATTACCCATTTTCCAATTTGGATGTTTTAAAGCTTTATTTAATGTTGCATTCTTTAATTGATATAAAGTGGAATTTCTAAATGGGCCACCTGAAGCTGTTAAAGTTATAGATTCAATAGAACCATTTAAACTATTAGAATTACATAATTGAAAAATAGCGTTATGTTCAGAATCTATAGGTAATAGTTCACAATTATGTTTTTTAATTTCTTTCATAAAAAAATGACCAGCAGAAACTAGGCATTCTTTATTTGCTAAACATAACCTTTTACAATTTTTTATTGAATTATATGTAGGTTTTAAACCAGCTAAACCAACTATCGCAGCAACAACAAAAGAAACTTTATTATTAGTTAATTCTAAGATTCCTTCATCGCCTACTAAAATCTTAATTCTTTTTCCAAACAAATTATTTTTTAAATCTTTATATTTGTCTTTATTTTGTATTACTACAAACTTAGGCTTTAAGTCATTTGATTGTTTCAAAAGTAAATTTATATTATTTTTAGTGGTTAAACCATAAACAGAAAAATAATTCTTATTTTCTTTAATTACATCTACAGTATTAGTGCCAATTGAACCTGTAGAACCAAGAATTGTTATTGTTTTTTTTCCCACAACATTATCTTATATAAAAAATTCTAAAAAAAATAACATTATAAGTGCAAAACTAAATGAATCGTATCTATCTAAAAAACCTCCATGTCCTGGTAAAAAATTACTTGAGTCTTTTTTGTTAAATTTTCTTTTAATTTTTGACATAAAAATATCACCAAAAAAACCAGATATAGCTAAAATAAATGAAAATAAAAAAATTAAAAAAAAATTATTATTTATATTTAAAAAATTTATAAAAAAAATTATACCGAATAAAGTTCCAATTAGGATACCAATAATAGTTCCAGATATAGTTTTTGAAGGACTTACTATAGGTAAAATTTTAGGTCCTTTTATCAAATTTCCTGAAATATAAGATGATATATCAGTAGTTGAAATAACTATTAATAACCAAAGTAAAATATATTCTCCATTAACTATAGATTTAATCTTAAGAAAAATAATAAATGGAATTGAAATAAATATATAACCATAAAAAATATACAATAATCTTTCATAATTTTGTCTTTTAGTTAAAAAAAATAAAATTATAAAAAAAGAAAAAAAAATAGTAGAGACTAATGAAGATATAAAACTTAAATTAAAAGAAAAAAATATATTAAAAAATATTAACGAATTAAAAATTAATAAATTAAAAAAATTTCTTTTTTGTGTCATATTAAACCATTCATAACCCAAAAATAAAGATGTTGCTAAAATTATAAATTTTGAAAAAAAATCGTTTTCTAAAATAGAATAAATAAATATTGGGAATAAAAACATTAATGTTAATATTCTTTTAAAAAAAATCTTATTTAAAAATTTTATTTTATCTAGAACCATACCTACGTTTTCTTTTTGTATATTGATTTATTGCATAAGTAAAATTTCTTTTCTTAAAATCTGGCCATAAAACATCAAGAAATACAAACTCTGTATAAGCCAATTGCCATAATAAAAAGTTACTAATTCTCTTTTCACCACTTGTTCTAATTAACAAATCAGGATCTGGTATAGTTTTTGTATATAAATTTTTGGCAATATCTTTTTCAGTAATTTTAATTTTTTTTTTTTTATATTTATTTAATAATTTATTAAAAGTTGAAACAATTTCATTCCTACTACCATAATTTAAGGCAAGTATTAAATTCAATCCTTTTTTTCTTTTTGTAAGATTTTCACATTCATTTATTTTAATTAATATATCTTTTGGTATCTTTCTTCTTTCACCTATCATTTTTATAGAGATATTTTGTTTAAGTAATTCATTTATTTTTTCATCTAAATATTTTCTTAAAAGAGTCATTAAAAAAGTAACTTCATTTTTTGGTCTTGACCAATTTTCGGAAGAAAAAATAAACAATGTAAGATATTTAATATTATAATTAATTGCTGACTCGATAGTGTTTTGAATAGCTTCAATACCCTTTTCATGCCCAATAAAACCTTTTAATCGATGTTTTTTTGTCCATCTATTATTACCATCCATAATGATCGCTACATGATTAGGTAAAGTTAATTTATTATTACTTATTGATTTGGACATCAAACCTGCATAATTTCATTTTTTTTTTCATCATACACACTTTGAATTTCATTAACTTTTTCATCTGTTAATTTTTGAATATTATCTGATACATTTTTTTGTTCATCTTCAGAAATTTCATTATTTTTTTCTTGTTCTTTTATTTTATCCATAGCATCTCTTCTTATATTTCTAATAGATATTTTGGCATTTTCAGAAAATTTAGAAGCAACTTTGGTTAGTTCAATTCTTCGTTCTTCAGAAAGATCTGGCAAGGGAACTCTAATTAAATCACCGTCAGTACTTGGGTTAAGTCCTAACTCAGATTCTCTTATAGCTTTCTCAATATTTTGCACCATAGCTTTATCCCAAACTTGAACTGTTAATAATTTAGGCTCTGGTGCATTAACAGTTGCTAATTCAGAAACTTTCATTTTTGAATTATATGCATCAACAAACACAGGCTCCAATAAAGAAGGCGTCGCTCGTCCAGTTCTTAATCTTGATAGTTCTTCATGAAAAATTTTTAAAGTATTTTCCATTTTATCTTTATATTCATTAATTATTTCATTCATATATTATTATTTAATAATTGTGTAATTACCTTTATTTAATATAGCATCTAAAAAAGCATTCTTTTTATTAATTGGAAAAATAATTATTGGAATATTACTATCTCTTGCTAAAGCAATAGCGGAACCATCCATAATTTTAAGATTTTTTGCAAGAACTTCAGAATATTTTATACTTTCATATTTTTTAGCTTTCTTATTTATTATTGGATCATCTGAATAAACTCCATCAACTTTAGTTGCTTTTAAAATTATATCAGCACTAATTTCTGATGCTCTTAAAGCTGCAGCTGTATCCGTTGTAAAATAAGGATTTCCAGTACCAGCAGCAAAAATTACAACTCTATTTTTTTGCAAATGATTTATAGCCCTTCTTCTAATATAAGATTCACATACAGCAGGAACAGGTATTGAAGATAAAACTCTTGTTTGAATTAACTTTTTTTCTAAAGCGTTTTGTATTGCAAGAGCATTTATTAAAGTTCCTAACATACCCATATAATCTGCTGTAGTTCTTTCAATTCCAACTGAACCTGCATCAGAACCTCTGAAAATATTTCCTCCACCTATAACTAAACTTATTTGTACTTTTGTTTTATGAACTTTTTTTATTTCATCAGCTAAGAAATTAACTATATTCTCATCAAAACCATGAGTATTTTTACCTAATAGTGCTTCTCCTGATAATTTAAGTAATATTCTTTTATATTTTTTTTTTTTAGTCATTAATATTAAAAAAAATATAATTAAAAATCTTCACCTACTTTAAAACGTATAAATTTATTAAGTTTAATATTACAATTTAATTGTTTTGAAGTATTAGATATATATTCACTAATTTTAATACTATCATCAATAATAAATTTTTGATCAAGTAAACAAACTTCAGTAAAAAATTTTTTCATTTTTCCATCAAGGATTTTATTTTTTATTTCTTCAGGTTTATCTTCTTTATTAATTTCTTCTAGTTGAAAATCTTTTTCTTTTTTCAATATATCTTCATTTATATCTGATGGAGATATTGCTAAAGGATTGGTAGCTGCAATATGCATACACATTTTTTTTAAAAAATCGTTAATTATATTTTTTTCACAATCTGTACTAATAGATAACATAACTCCAATTTTGCCCATATTATCCTTTTCGACATTATGAATGTATGTACCAATAAATCCATCTTCTACAATTAAATATTCAGATCTCTTAATAGTAATATTTTCTCCAATTTTAGAAATTGTGTTTGTTAGTGCTGCAGATACTTTTTCATTATCACTGTAATTAACATTTAATAAATTATCAATATTACCTTTTTGTTCTAAATTTAATTTTGAAACATTCGAAACAAAAGATTGAAAATCAGAATTTCTAGCAACAAAGTCTGTTTCTGAATTAATTTCAATTATAGAGGCTTCTTTATCCGAATTATTTATTGAAATACCAATTAAACCTTCTTTTGCAGTTCTGTCTCCTTTTTTTTGAGCCGTTGAAATACCTTTTTTTCTTAAATAATCTATAGCATTTTCTATATTAAAATCAGATTTCTCTAAAGCCTCTTTACAATCTAAAAAACCTGCTCCTGTAATATCTCTTAATTTTTTAATTTCACTTGTTGGAATTTTATTCATTTATTTTTTTTTGTTTATTTTTTTTTGAACGTCTTTTTTCGACGGAACTTTTAAATTAATCTCTTTTTTTTCACTTCCATTCTTTAATTTAACTTTATTTGTATTTTTTTTTGTAATATTTGAAATCAATGAACAAATTAAATCTATTGATTTTCTTGAATCATCATTTCCAGGAATTGGGTAATTAATACCATTTGGAGATGAATTTGTATCTAAAATAGCGATTACAGGAATTTTCAATTTATTAGCTTCGGTTACTGCAATAGCATCTCTATTAACATCAACAACAAATATAGCTTGAGGAACAGCCCCCATATCTTTTAATCCACCTAAATATTTCTCAATTTTTTCGACTTGTCTATTAATCTGTAAAATTTCTTTTTTTTTAAGAACTGAATTGTCGTCAGATATTTTTTTATTTAATAAATTAAGATGATTTAAAGAATTAGAAATAGTAGACCAATTTGTTAACATTCCACCTAACCATCTTTTATTAACATAAAATTGATTACATTCTGTTGCATATTTTTTAACAATATCTCCTGCTTGAGACTTTGTACCTACAAATAATATTGAGCCGTCTGATTTTGTTAAATTATTTATAAATTCTAAAGCATCGTTCAATAATGTTACAGTTTTTCTTAAATCTATAATATGTATGTTATCTTGAGAACCATAAATATATTTATCCATTCCTGGGTTCCATTTATTGGTTCTATGGCCAATGTGCATTCCTGCTTCTAAAATATCTCTTAATTTAAAATTTACATCCATAAAAAAAAAAAGTTATTAATTCGAATTTTATAGTAATAAAAGCTAATAATTACAAGAAAATTAATTTAAAAACTGGATATCATCAGGTTTATTATTAATGATATTAAAAAAATCATATTTTCCAGGTAATGCAACTTTTACTATTTGATTGTTAATATCAAGATCTAAAAATATTTCCGAACCGTTATCATCTATATATTTTAATAAATAATTTTTTAGTTTATTAAAATCAAAATTATCTTTTGTTTTAATATAAATTTTTTTATTACTATTATTTATAAATTCTTTTAAAGTTTGAACTTCCTGAACCCTTAAATTAATATTATTATCAATTTTGACAGCTTCTAAGTTTATTAATAATAAATCAAGATTTTCTATAATTTGTTTTGATGTTTCTATTACATCAGAAAAAACTATTGCTTCAAAATTGGAAGTATGATCAGAAAATTGTACATATGCATATTTATTACCTTTTTTAGAAGTTCTTTCTTTCATATCTATAGGTAACGCTGCAATTTTAAAAAACTTTTTTTCATCATTATTTATTTTTTGCATTATATTTTCAATATCTCTAAATGTTGAAAATTTATTTTTTTTTAAAAAAGTATCAAAATCTTTAAGGGGATGTTCAGATAAATAAAAACCTAATGAATCATGTTCAAATTTTAAACTTGTGGATTTATTCCATCTTTTAAAATTTTTATTAAAATTAATTAAGTTGTCATTTTCTTTAAAATCTGAAAATAAATTATTTTGATTTTCATTTTTTGAATTGTTTCTAATAAATTGAACAATCTTATCAATATTATTAAATAATAAAGCTCTATTATTTTCTAATGAATCAAAAGAACCTGATTTAATCAAATATTCAAGCTGTCTAATATTAAAATTTTCATCATTTAATCTATTGCAGAAATTATTAAAGTTTATAAACTTCCCGCTCGTTTTTCTTTCTTTGACTAATTTATGTATTGAAACAATCCCAACATTTTTTAATGCTGATAATCCATATCTAATATTTTTATTTCCATGCTTATCAGTTTCTATGTTAAATAGACTATTAGAATAATTAATATCAGGAACTAAAATATTAATTTTCATATTTTTACAATCATCTAAATATCGATTTATTTTATCTGTATTATTTAATTCATAATTTATTGATGCAGTCATAAATTCAACAGTAAAATTTGCTTTTAAAAATGCTGTTTGATATGCAATTATGGCATATCCTGCAGCATGGGATTTATTAAAACCATAACCAGCAAATGTTTCAACTTGTTTAAAAATATTTTCTGCTTGATATCCTTTTACTCCATTTTTAATACAACCATTTATAAAATCTTTTTTTAAAGATGACATTAATGCTTTTTTTCTTTTACCAATTGCCCATCTTAATGTATCTGCTTGAGACAAGCTGAAACCAGCCAAAGTTTGAGCAATCTTCATTACTTGTTCTTGATAAATAGTAATACCATATGTTTCTGAAAGGACACTTTCAAGTTTAGGATGTAAATAAACTATGTCTTCATTGCCAAGTTTTCTATTAATATAATTTTCTATATATTCCATTGGTCCTGGTCTATATAAAGAAATCATTGCAATTATATCTTCAAATCTATCTGGAGATAATTTTTTCAAGTATTCTCTGACACCTTTACTTTCAAGTTGAAAACAGCCTATCGTGTTTCCGTCTTTTAATAAATCAAATGTTTTTTTATCATCTAAAGGAATATTATTTATAGAAAAATTATTAATATTTTTATTAATCAATTCGCAAGTTTTATTAATAATTGTAAGAGTTTTTAAACCAAGAAAATCAAATTTAATTAATCCCGATTTTTCAATGTAGTTCATTGAAAATTGTGTAACAGGAAGTCCTGTCTTTGGATCATCTTTATAAAATGGAATTATTTCATTTAAATTTTTATCTCCAATAACAATTCCGGCTGCATGAGTTGAAGCGTGTCTATATAAACCTTCTAATTTTAAGCTAATATCTAAAAGTTTTGATACTGAATCGTCATTTTTTTTTAATTCTTGTAATTTAATTTCCTTATCAAGAGCTTCGTTTAATGTAATTGGATTAGCGGGATTATAAGGAATCATTTTTACAATATTATCAACTTGACTATATGGTAATTGTAAAACTCTTCCTACATCGCGGACAACATTTCTAGATTGTAACTTTCCAAAAGTTATGATCTGAGCTACTTTACTTTTTCCATATTTTTTAACTACATATTTTAAAACTTCATCTCTTCTTTCTTGACAAAAATCAATATCAAAATCAGGCAATGTAACTCTGTCAGGATTTAAGAATCTCTCAAAAAGAAGGTCGTATTTAATAGGATCTAGGTCAGTTATTGACAATGTCCATGCTACTAAAGAACCTGCGCCCGATCCACGACCCGGTCCAACTGGGATATTTTTTTTTTTGCCCATATAATAAAATCAGAAACTATTAAAAAATATCCTGAATAACCAGTTTTTTTAATGATAGAAATTTCATATTCTAATCTTTTTTTATATCTATCTTTATTTATTTTATATTTTGTATCATTTGATTTTAGAATTTTTTTTTCTAAACCTTCGTATGCAAGTTTAATTAATTCTTTATTTTCTTCTTCATCCGAGGCTAAAAATTTTGGAGGCTTAGCAATTCTTTCTTCCAGCATAAAGGTACATTTTTTTGCTATTAAAATCGTATTTGATACAGCTTCAGGAATATCATTAAAAATTTTATTCATTTCTTCAGGAGATTTAAAATGAAAATCTTTTGAAACAAAATCTCTTGTATTTGTTGATAATTTTTCAACATTTTTGATACATAATAATGCATCTGTGGCTTCATGCATGTTCATGTCAGAAAAAATATTATTATTTGTCGCAACTACAGGTACATCATATTTTTTTGCCAAACTTAGATAAAAATTCTCAATATTTTTTTCATTTTTTTGTCCTATTCTTGAAATTTCAAGAAAAAAATTATCTTTATAGACTAAATTTAATTCATTAAAAATATTTGTTGCAGAATTTATATTTTTTAATAGATAAGATTTTCCTATAGGGCCATCAACTCCTCCAGATAAACAAATTAAACCTTCTCTATATTTTTTTAAATCGTTTAAATTTATTTTATAATCTGATTGATTATAAAATTTAGTCATTAAATTAATTACATTTCTATATCCAGTTAAATTTTTTATTAATAAAAGAATATTAGATGTTGTTCTGACACCAGCTATAATATTTATATCTAAATTTATACCTATAATTGGCTGTATTCCATTTTTTTTTGCCTCTAAAGAAAATTCAAAAGAACCAAATAAATTTCGTTTATCTGTTAATGCAATTGCTGGAATATGATATTTTTTACAAAAATTAATTATTTCATTTATTTTAAATGAACTTTCTAATAAAGAATAATTTGAAAATTGTCTAAGATGAATAAAAGTATTCATAATTTATAATATTTTTCCATTGGATAATTTAATAATACTATCAAATTTTTTTGTTAAGGATAAATTATGTGTAGCTATAACAAAAGAAATTTTATAGTCTTTTGCTAAATTTTTTATTATTTTAATTACAATATCACTATTTTTTTTGTCTAAATTACCTGTTGGCTCATCAGCTAAAATAATTTTTGGCATATTTGCTATAGCTCGAGATATAGCAACTCTTTGTTTTTCACCAGCTGATAACTCCCTAGGTTTATTGTCAAATCTTTTAGATAAACCAAAATTTGATAGTATTTCAGATGCATTTTTTTTCGCATTTTTATAATTAATACCATTAATTAATTGTGGTATTATTACATTTTCTAAAGCAGAAAAAGCATCCAGTAAATAAAAATTTTGATATACAAATCCTATATTTTTTCTTCTTATCAAATTTTTTTCTTCCTGAGATAAATTATCGCATCTTTTTTCATTAATAAAAATTTCACCTTTTGATTTACTATCTAATAAAGCAGCAATCTGTAAGAATGTTGTTTTACCAGATCCGGAAGGGCCTAATAGTCCAACACATTGACTTGTTAATAAACTAAAATTGATATTCTCCAAAGCTATGATATTTTTTCTTGGTTCAGAAAACTCCTTACTTATATTTTTTAATTTTAAAACTACAGTCATTTTTTATTTTACTCTTTTCTTATTAAATCAATAGGACTACTTTTAGATGCTTTCCATGCAGGTAAAAAACTTGCAAGAAACGATATTAAAATACTCATAGATACAACATAAAAAATTTCATTGGTATCAATTCTTGCTGGTAAGTTAGATAAAAAATAAATTTCAGATGAAAATAATTCTGTATTAGTAAATTTCTCTAGAAAATTTTTTAATGAATTTATATTCAATACAAAAAAAATACCTATAAATGTTCCAATTAAAGTTCCTAATAATCCAATAATTGCGCCATTTAAGAAAAAAATTTTTAAAATCAAATTTTGACTTGCTCCCATTGTTCGTAAAATTGCTATGTCTACTTGTTTATTTTTAACTAACATTATTAAACTTGAAATTATATTAAAAGCTGCGACTAGAATTATTAAACTTAAAATCAGAAACATTACATTTTTTTCAGTTTTTATAGCATTAAAAAAAGCTTCATTTGAATAACGCCAATCATAAAGTTGATAATTATTAATGTTTTTATTCAAACTTAACTTCTTTTTAAAGCTATCGACTTGATTAATATTATTAAATTCAATTTGAAAATAATATTTATTTTCATTAGATAAAAATAATTTTTTAGCTATATCAAAATTTAAAAAAATTAAATTATTATCATATGTATACATACCAGAATCAAAATGGCCCCCAACGATAAATGTTTTTGTTTTTGGAAGATTACCAAAAGGAGTATGAGACATTTTTGGAATAATTAATTTTAATTTATCACCAGTTTGTAAATTCATTCTTTCTTTTAATTTTGAACCTATAAGAACTGAACTATCATCTAGTACAAATTTTTCGCTAATTTCAAAAATACTCTTATTTCGTTTTAAATTTATTAAGTTTTCTTCACTAATACCTTTTAAAATTATTCCAGTTGATTGATTTTTTACTGACAAGAGAGCTTGCCCATCTATAATTTTCCTAAAAGATTTAATATCATTATCATTATTTAAAATTTTTAAAAATTTCTTATCATTTTCGTTATTATTTAAGTAAATATTTAAATGACCATTTATACCTATTATTTTGTCTAATAATTCAATTTTAAAACCATTCATTACAGACATAACAATAATCAACGTTCCAACACCTAATACAATTCCTAAAAAAGAGAAAATAGATATAATAGAAACCATAGTATTTTTTTTACTCGGTTTTAAATATCTAAGAGCGATAAATAATGATGGAAAATTTGTAAACATAAATTATATCTTTTTAATTATTCCACTTATATTTTTTAATTTAATTTTTTCAATTTTTTTTGTTTTTCTATCTTTAAATTCAAAACATTTTTCTTTTAAAGAATTTTCTCCTAAAATAATTTGAAATGGTAATCCGATTAAATCCATATTTGCAAATTTAACTCCAGGACTTTCTAAAGTATTGTCATACAAAACATCAATATTATTTTTTAAGAGAAATTTATAAATTTCATCAGAATTTTTTTTTAATATTTTATTATTATAATTTAAATTAATCAAACCTACATCAAATGGTGCTATTGATTTTGGCCAAATAATACCATTTTCATCATTAGATGACTCGATAATAGCAGCAACTAATCTAGATAAGCCAATACCATATGAACCCATTTCAATATTAACTTTTTTTCCTTTATTATTCAAAACACTAGCGCCAAGCTTTTCTGAATATTTTGTTCCAAAATAAAAAATGTGAGCTATCTCTATACCTTTAGCTTTTACAAGTTTACTTTTTTCTATAGTTTTATTGATTTCATATTTATCTTGAGTGACAGAATATAAGTTTCTTAATAAATTAAATGAGGAACTATTATATAAACTATTGTTATTAGTAATTTTTTTATCATAATAAATAGTTGTATCACCAGATTCACTAATTAAATGAAATTCATGACTTAAATCTCCCCCTATTGCACCTGGATCTGCAATAACAGGAATTACTCTTAATCCAATTTCTGAAAAAATATCTAAATAACATTTAAACATATTATTATAAGATTTTTCAGCATCTTCTTTGGTTAAATCAAATGAATAATTGTCTTTCATTAAAAATTCTCTGCATCTCATTACTCCATAACGAGGTCTTATTTCGTCTCTAAATTTCCATTGTATTTGATATAGATTTTTTGGTAAGTCTTTATAACTAGTGACGTAATATCTAAAAACTTCAGTTATTAATTCTTCATTTGTTGGTCCATACAATAATTCTTTTTTATTTCTATCATGAAATTTTAACATCTCTGGACCATAATCATCGTATCTCTCACTTTTTTTCCATATACTTGTTGGTTGTATTGTGGGCATAAGTAATTCATGACATCCATATAAATTATGAAATTTTCTTATAATATTTTCTATTTTCTTTAAAACTTTTAAACCTAAAGGAAGCCAAGTGTATATGCCAGCAGTAGATTGTTTAATCATTGAAGATTTAATCATTAATTTATGCGAAATTAAAGTTGCATCTGAGGGTATGTCTTTACGTGATTTGAAAAAATAATCAGATAATTTCATTTAATTATTTAATATGCTGAAAACTAAAAATATTATTTTTAATTATATAAAAAACAACTAACCATAAAATAAAAGCTATAATTGAAGTTATTAAAAATTTTTTTAATATTAATGGGTTTTGAGGAGCTCCTTCAGCATGTCCCTTTTCAACTTTATCAGCTCTTTTTATTCCAATTGGTAATATAGTAAACACAACTATCCACCATATTATCATATAAATTAAAAAACCTTTTAGAAATTCAATCACTATTATTCTTCTTCTAATTCAATTAAAGTTCCACAAAATTCCTTTGGATGTAAAAATAAAATTGGTTTATTATGAGAACCATTAACAGGTTTACCAGTTCCTAATATTGTTACTTTTTTATTATTTAGAATTTCTTGAGATTTATTAATATCTGATACTTCTAAACATATATGATGCATACCACCTTTTGGGTTTTTCTCTAAAAAACTTTTAATTGGCGAATTTTCACCATATGGTTCCATTAATTCAATTTTTGTATTTTCTAATTCAACGAAAACTACAGTAACCCCATGTTCTTTATAACTTTTAGGCTCAGAGACGGTTGCATTAAAACTATTTTCATAAATTTCTTTAGCTTTTTTTACATCTGGAACAACAATTGCAATATGATTTAATTTTTTTAACATATCTACTATTTTAACTAAATTTTTAAAATATGTATTTGTATAATTGGTTTCATATCTAATATTTTTCTAAAAAATCTTGTAGAAAAAATTTTAATTTTTTCATTAAAAATATTTTCATTAAATTGTTTATTTTTAAATTCTCCTAAAAAATTATTTATATTATCTAATAATTTTTTTTCATAATCTTTTATATTTTCTTCATTAAAAAAACCATTACTAGAAATTCTTGGTTTTGAAACTATTCTATTTTTTTTATTAATTATCATCGATATTAATATTGTTCCATTATGAAGCATTTTCTTTCTATTTATTATAGCTTCTTCATTAATTGGTATAATTCTTTTTCCATCCAACATAAATTTACCAGTTGGTAGTGATCCGATAATTTTAGGTTCGTCTGGTGCTATTTTTAATAATAAACCATTTTTTAAAATTAACCCTTTTTTAACACCGCATTCTCGAGCAATTTTAACATTACCTTTTAAATGATGATATTCACCATGAACAGGTATAACAATTTCTGGCTTTATCCATTTATACATTTTTCTTAACTCTTCAATATGAGGATGCCCTGAAACATGAACGAAGTCATCTGATTCAGTTACAACATTTATATTTCTTTCTTTTAAATCATTTTGTACTTTAGTTATAGATCTTTCGTTTCCAGGTATAACTTTTGATGAAAATATTACTGTATCATTATCTTCTAAAAAAATATTTTGATGCATATCGTTAGCAATTCTTGATAAAGCAGCTCTTGGCTCTCCTTGAGAACCAGTGCAGATTAATAAAACTTGATCCCGTGGATAATCCATTATTTCCTTTTCATCTAAAAAAGCTTTTATATTTTTTAAATATCCTGAATCTTGAGCGGCTTTATACATTGTCCATAAAGATCTACCACATAACGCAGCAACTCTTCCAGATTTAGTAGCAATATGCGCAAAAGTTTCTAATCTAGCTAAATTGCTAGAAAAACTTGTAATTGCTATTCTGTTAGGAATTTTTTTTACAATTTTAACTAAACTGTCTCTCAATTTATCTTCAGAACCTGAATGTCCTGCTACATTTGAATTTGTAGAATCACTAACAATAGCTAAAACACCCTTGTCTCCAAAAGCTTTTAATCTTTCTTCATTAAATTTTTTTCCAATTAATGGACTAGGATCATATTTCCAATCGCCTGTATGTAAAATATTACCAAATTTAGTTTTTATACCTAAAGCATTAGGTTCTGGTATAGAATGTGTAGTTGATATAACATCTATATCAAATGGTCCTAATTTAAAACTACTATCTAACTGAACAGTCTTAATAAAATTCGGTTTAATTTTTAATTCTTTTAATTTTCTTTTTAAAACTGCTGATGCAAATGGAGTTGAAAAAACAGGACATTTTAATTGGGGCCATATATGACCAATAGCACCTATATGATCCTCATGAGCATGGGTAACAACTATTCCCAATAAATCTTTTTTATTTTTAATTATAAAGTCAGGATTTGGAAGTATTATATCAACACCAGGTGTTTCTTCTGAATTACCGAAAGTAATACCTAAGTCAACAACAATCCATTTTCCCTGTGTACCATAGAGATAAAAATTCATTCCAATTTGTCCAACTCCACCAATAGGAGAAAAAACAATTTCATTTTTTGGTTTATAAAAATTTAAAAAATTTTCAGAATTATTTTTCATAATAATTTAATTTATATATTTCGATTAAACCTAAAATAGTAAGGTCTTTATTTATAACATTTATTAATTTAATATTCTTTGAAATAATATGAGATAGACCGCCAGTTGAAATACAAAATAATTTTTTTTTAAATTTTTGTTGTATTTTATTTATTATATAAGATGTTAATCCAATATAACCCAAATAGACTCCATTCTGTATTGCTTGCTTAGTACTTTTACCAATAATACTATTGATTTTTATAAATTTAACTAATGGTAATTTAGATGTTTTTTTATGTAAATTTTTTAAAGATAAATTAACACCTGGAGTTATTAATCCACCTTCATAATCTCCATTATTATTAATAACATCAAAAGTTGTAGCAGTTCCAAAGTCAATTACTATTGCAGGAAATTTATATAACTTTTTCACTGCTACAGTATTAACAATTCTATCAGCACCTACTTGATTTTTATTTTTTAAATTAAGTTTAATATTTAATTTAGTTTTATTATAAGAAACGAAATGAGGATAAGATTTCAAAAATTTAAAACATTGACGTTTTAAAAAATGATTAATACTAGGTACAACAGAAGAAATTATACATTTAATTTTTTTTTCTTTTTTTAAAATATTATTAATTTTAAAATAGTTAAATATTTTTCTATTTCTTCTAAAAATTTCAATATTAATTCGCTTAGTTTTAAAAATCTTAAAATTTTTAATTAAAGCAATAATTAACTCTGTGTTACCAACATCTATAACGAAAAAAAATTTATTTACATTCATATTATTTGATCACCAAAAGAAAAAAGTTTAATTTTTTTATTAATATTTAATTTTAAACTACCATCTGATGTAAGAGATGGGAATTTACCTATAATAATTTTATTTTTATCTTTAATTTTAATAGTGTTGTTTTCCTTATAAATATTAAATAACCATTTCTTTTTAATAAAATTAAAACCCTTTTTTTCCCAATTATTAAAATTTTTAAAAAAATTAATTAAAAAAATATCAATAAATTTTTTTTTATCTATTTTTATTTTTTGATTTTTAAATGATGTTGCTTGGTAAAAATTTTGATTTAAATTAGGATATTTTTTAATATTGATACCTATTCCTATAATTACCCAATTTATTTTATTTTTCAAAGATGAAGTTTCAATTAAAACGCCTCCAACTTTCTTTTTTTCTAAAATTATATCATTTGGCCATTTATAATAAAAATTAATATTTTTTTTCATTTTTTTTAATGTTTGTCCAATCGATAGAGATGTTAAAAAGGATAATTGATTAACTCTATTGAGTGAACATTTTGGTATAACAAAAATTGAAAGATGTACATTGCCTTTGAAAGAAAACCATTTGGAATTTCTTCTTCCATATCCAGCTGTTTGATGTTCTGCACTAATACATAAATTATTAATAGACTTTTTCTTTTTTAAGATTTTTTTTAATTCTAAATTGGTACTTTTAACTTTTTTAAAATTAATTAATTTATAAGAATTCATAATATTATTTAATAATTGATGTTAGACTTATCACATCTAATAAATTTGACAAAAATATAATTAAAAAAATAGTTATTATTAAAGAAATTAAAATTATTAGTTTAAAAATAAAGGGTATTTTTACCTCAATTATATCTTTTTCTTCATTGGCAAAAAAAATATTTTTTATTATTCTTAAATAATAAAATGCTGAAACTAAAGAAGCTAAAATTGCAATAATGGATATAAAATAATATTCATTATCTATAGCTCCTAATAATATATATAATTTTCCAAAAAAACCTGATAATGGTGGCAAACCAATAAGTGAAAATAGAAAAATTGCTAAACTAAAGGATAAAAAAGAATTTTTTTTTAATAATCCAGAAAAATCATCAATGTTTTCTAAAAATAAATTATTTTTTTTATTTTTAAGACATGATAAACATGTAAAAATTCCTAAAATATTTATTAAATAAATAAAAGTATATAATTGGATACTTTTAATTCCAAAATTATTTAACGATAAAAGACCTATTAAAATAAAACCCATATGAGTAATCGAACTATATGCTAAGAGCCTTTTAAAATTAAATTGATTAATTGCAGCAATAGAACCGTAAATTAGAGAAATTACTGAAACAAAATATAAAATTTGAAACCATGATGAATAAAAAGATAAAAAAGGTAAATATAAAAATTTTATAATAAAAGCAATAGCTCCAATTTTGGGAATAGTTGCAAAAAAAGCAGTTATAGATAATGGGCTACCTTCGTAAACATCAGGTGCCCACATATGAAAAGGAACAACAGCAATCTTAAAAAATAAACCACAAAGAATAAATATAAAACCTAAATTTAAAATCAAAAAGTTTTCTTTGGTTTTTACTGACTCTGTTAAAATTAACGATATATCATTAAAATTTGTAGAATTAGTAAATGAATAAATTAATGAAAGTCCATACAATAAAATTCCCGATGATAAAGCTCCAATAATAAAAAATTTAACACCTGACTCGGATGATTTTAAATTAAATTTATTATAAGCGGCTAAAATATATAAACATATGGCTTGAAGTTCCAAACCTAAATACATTGTAAAAATATTATTAGAAGAAATTAATATTAAAATTCCAACTAAAGATAAGTTGATTAAGAAGAAAAATTCTGATGTTAATATTTTTAAATCTTTTAATTGATTAAATGAAATTAAAGCTATTACAATTGTCCCTGATAAAATTAATGTTTTGAAAAAAATAGTAAAATTGTTATTAATAAGAAGATTATTAAAATAAGCCTTATCAAAATCAATAATTTTCAATGATGCGTATAAAGAAAAAAATAAAAAAAATAATGTTATATAAAAAACATTTTTTAGTGACTCTTTTTTTTTATTAAAAAAAATTCCATAAATTAAAATAATTATAGAACTAAAAATTAATAAGAGTTCAGGTAAAAATAATTTTAAATCATAAAATTCCATATATTAAAAAATTAATTTATTTGTTGATAATTCATAAATACCTAAAAGTATATTTGGTTGAAAACCAAATAATAAAATTAAAAATAAAAAGATTGTAGAAACAAATATTTCTTTTAATGATAAATCTACTACTTTAATTTGATTATTTTCACCAAAACAAATTCTATTATACATCCATAATATATAACAAGCTGAAAATATTATTCCAAAGGCGGCAAAAAAGGATAAAAAGAAACTGATTTTAAAAACACCAATTAAAATTAAAAATTCACTTATAAAACCGCTTGTTCCAGGAAAAGAAATGGCTCCTAAACAAAAAACTAAAAAAAAAGAAGAAAAAAAAGGCATTTTTTTCCATATTCCTCCAAAATTGTTTATTTCTTTAGTATTAACACGGTCAATTAGAAAACCTGCATATAAAAATAGCGCCGATGATATTAAACCATGACTAATCATTTGAAAAACAGCACCTTGTAATCCTTCCAAATTTTTAGAAAATATCCCGAGTGTAACAAAACCCATATGAGCTATAGAGGAATAAGCAATTAATTTTTTGATATTTTTTTGAGCTAATGCAAGAATTGAAATATAAATAATAGCAATAATACTTAAGAAGTATATAAATGAACTAAAAAATATCACAGCTTCAGGAAATAAAGGTAAGCTAAATCTTAAGAAACCATATCCACCTAATTTTAATAAAATTCCAGCTAATATAATTGATCCTGAAGTTGGAGCTTCAACATGTGCATCAGGTAACCAAGTATGAAATGGCCACATTGGAATTTTTATTGCAAAGGAAATAAAAAATGATAAAAAAAGCCATATTTGTAAATCAAAAGGTAAAGTAAAATTAAATAATTGAGTATAATTACTTGTACCTGTATAAAAATATAAAACTAAAATGCCTAATAACATAAAAAGAGAACCAAAAAGAGTATATAAAAAGAATTTATAAGCAGCATAAATTCTGTTACTACCTCCCCAAATTCCTATAATTAAAAATAAAGGTATTAAAGAACCTTCGAAAAAAATATAAAAAATAAATAAATCTAAAGAGGAAAATAATCCAATTAAAAAAAACTCAATCATTAAGAAAGAAATAATAAAATAATTAATATGTTTGTTAATGGAATTCCAACTAGTAATAATGCAGATAGGTATTAAAAAAGTGGTTAAAAGAATAAAAGATAAAGAGATGCCATCCACTCCTAAATAATAATATATTCCTAGATCTGGAATAATTTTATATATTTCTGTAAATTGAAAATTACTATCTGTAACATCAAAATGATAAAGTAATAGTAAAGATAAAAAAAAAGTTATCAAAGATGACCATAAGCCTATTTCTTTAACTTTTCTTTCATAAAATTTATCATTTTTATTTATCGATAAGATTATTAATGATGAAATGAAAGGAAAAAGAATTAATAATGATAATAGAGGTATATTTGTCAATTTAATTAATTAAAAAAGAATATTAAAAATGTAATTAATAAAAATAAACCTATAATAAATGAAAACGCGTAATGATAAATATAACCTGTTTGAAAAGTACTAAAAAATTTCGATAATTTTTTTGTAGAAAAAGCTAAACCATTAGGGCCAATTTTATCAATTAAATCTATATCAATTTTTTTCCATAAATTTTCTGCTAAATTAATAATCTTTTTTACTACAAATTGATCATAAAAATTATCAAAATACCATTTATTTAATAAAAAATTATAAATTTTTCTAAATTTTTTTGTTAAAAAAATAAGTAAATTCTTATTAAGAATATAGAAATAAAAAATAAATAAAATTCCTGTAATTGATAATAAAGTTGGAAGATGTTCTAAATAAAATGAGATATGAAAAGATTTATTTAAAAAAATATTTGCAACATTAGAATTAACCCATAAATTTACATATTTATCTTCAATAAAATAATCTTTAATAAAATAGCCTGAAAATATTGAAAAAAAAGCTAAGCAAATAAGTGGAAAAAATAAGAAAAAAGATGAAATGTTTAATTTTGACAAACTGAATTTAAATTTACTTTTATTAATATTATTATGAAAAACATAATAAATTAGTCTAAAAGAATAAATTGATGTTAATAAAACTACCAAAATTGAAATTAAATAAACAAAATTTGAAAAAAATAAATTAGAAGTTAGTCCGGAATTTACTATAAGTTCTTTTGAGTAATATCCTGATAATAATGGTATCCCAGACAAAGATAGGCTTCCAATAATCATAACTATGTAAGTTAAAGGAATTTTGTGCCATAGATTTCCCATTTTTTTAATATTTTGTTCACCTTTTAAAGAATGTATTACTGAACCAGCTGATAAAAAAAGTAAAGCTTTAAAAAAAGCGTGTGTAATTAAATGAAACATTGCCAGGTTATACATAGAAAAACCCGCAGCAACAAACATAAAACCCAATTGGCTACAAGTTGAATATGCAATAATTTTTTTTATATCATTTTCTGTTATAGCAACTGATGCAGCAAAAATTGCAGTAAATGATCCGATTAATATAATTAAATTTGATATTAAAATAGAATTATTAAAAAAAATTGACATTTTACATAATAAAAAAACTCCAGCAGTTACCATAGTTGCTGCATGAATTAAAGCAGATACAGGTGTTGGCCCCTCCATTGCATCTGGCAACCAAGTATGGAGACCAATCTGAGCAGATTTTCCCATGGCACCTAATAATAATAGTAAAGATATAATTGTTAGATCAGTAAATTGAAAAGATAAAAAACTATATGTATTAAAATTTATTTCATTAAATTTTTTAAATATTTCTGAAAAAAATATTGTATCAAAAATTACATAAATAAAAATAATTCCAAGTACAAAAAACATATCTCCAATACGATTAACTATAAAAGCTTTAAGAGCAGCATTAGATGCAGAATTTTTAAAATACCAAAAACCAATCAATAAATAAGAACATAAACCAACGCCTTCCCATCCAAGGAATAATTGTAAAAGATTACCTGAAGTGACAAGAAGTAACATAAAAAATGAAAATAAATTTAAATAACAAAAAAACCGATTAATAGAGGTATCATGTTTCATATAAAAAATAGAATAAACTTGTACGATTAAAGAAATTAAATTTACTATAAAAACCATAACAAAACTTAAAAAATCGATATTAATAAGCCATTTTGAATCAAGATCGCCAGAATTTAGCCAATTAAATAATAAAATCTGTTCACTTTGAGGAGTTAAAACAATATTTTTTAATACTAAAAAAGAAAAAATTGTTGCACAAAATATATTAAAAATAGAAATAAAAATTAATTTATTACTATTAATTATTTTAGAAAAAAAAATAAATAGGAAAAAACTAAATAATGGTAAAAAAACTGATAATATTGGCATCTTATCCTTTTAATTTATTGATGTCATCAACTTGTATTGTGTCTGTTTTTCTAAAAAATATTACAATAATAGCTAAACCAACAGCCGCTTCAGCAGCAGATACAGTTAGAGTAAGAAAAACAAAAACTTGTCCAAGAATATCATTATAAAAATGCGATGCAGAGATAAAATTAATATTTGCTGATAATAAAATTAATTCGATAGACATTAAAATAACTATTAAATTTTTTCTATTCAAGAAAATTCCCATAATTCCAATAGTAAATACGGAAATAGAAAGATATAAATAATAAAGGATAGGTACTTCCATTCTATTTTTTTAAAATTTGATTATATATATTTTGTTTTTTAACATTTTGTCTTTTTCTTAATGTTAAAAGAATTGCACCAATCATTGCTACTAATAAAATTAAACCAGATAATTGAAATAATAAAAAATAATCAGTATATAAAATATTTCCTATAATTTTTGTATTAGTTATTGCATTAGAATTTTCAATTAAATTAGAATTTTTATTAAAAATTAATAAATTAGATTTACTTACAATAAAAATTAATTCTAAAAAAATAATAAACCCAATAAATAATCCTATAGGTAAAAAATTTAAAAAAACTTTTCTTAATTTAGCAATATTTATATCAAGCATCATAATAACAAATAAAAAAAGTACAGCTACAGCACCGATATATACAATTAAAAGAATCATGGCTAAAAATTCTGCATTTGAAAGAATAAAAAGAATTGCTGCATTAAAAAAAACTAAAATTAAAAATAAAACAGAGTGTATAGGATTTTTACATAAAACAACTAACAAAGAAGAAATTATTATTACTGAAGAAACAACAAAAAATAAAAATATAGTCAAAATTTAATTTAATTACCTGTAATTAGAATCTAAATCTATACGTTTTTTAATTTCTTCTTCCCACATATCACCATTTTTTAATAACTTTTCTTTATTGTATAAAAGTTCCGCTCTCGTTTCAGTAGAATATTCATAATTTGGTCCTTCAACTATCGCGTCCGTTGGACAAGATTCTTCACAAAGACCACAATATATGCACTTAGTCATATCTATATCATATTTTGTAGTTGCTCGTATGCCATTTTTATCTGCTGGTTCTGTTTCAATTGATATTGCTTGAGCTGGACATATAGCTTCACAAAGTTTACATCCAATACACCTTTCCTCACCTGAAGGATATCTTCTTAAAGCGTGCTCACCTTTAAAACGTGGACTAAGTGGACCTTTTTCATTTGGATAATTAATAGTAACTCTTTTCTTAAAAAGATATTTAAAAGTTGTTATTAATCCAATAAAAATATCTCTAAAAAGAGCTATTTTAAATATTTTAAATAATAATTTTTTAAACATATTACAAAAATACAACAAATGTAGCAGTTATAAAAAGCCAAAATAAAGATAAAGGTAAAAATATTTTCCACCCTAATCTCATTAATTGATCATATCTAAATCTTGGAAAAGTTGCTCTTATCCAAATAAAAATAAAAACAAAGAATGACACTTTAAGAAAAAACCAAATATATCCTGGAATTAAATTAAATATTTCTAAATTAAAAGGAGGAAGCCAACCGCCAAAAAAAAGTATTGTTGTTAACGCACTCATTAAAACTATATTTGCATATTCACCTAAAAAAAATAAAGCAAAAGGAAAAGAAGAATATTCGACATGATAACCAGAAACTAACTCAGCCTCTGCTTCTGGTAAATCAAATGGAGCTCTATTTGTTTCAGCTAATGTTGAAATAAAAAAAATAATCATCATTGGAAAATGAGGTATAAAAAACCACAATTTTTTTTGAGCTAATATAATTTCGGATAAATTTAAAGAACCAGCTGAAATTAAAATACTAATAATAATCAATCCTATTGATACTTCATATGATATCATTTGTGCTGCTGAACGCATTGCTCCTAAAAAAGCATATTTAGAATTACTTGCCCATCCAGCCATAATTATTCCATAAACACTAAGAGCAGAAATAGCAAATAAATACAATATACCAACATTAATATTTGAAAGTACCAAATTTTTATCAAATGGAATTACAGCCCAACCAATTAAACTTAAAACAAATGTTATAATTGGTGCTAATAGAAATACATATTTATCAGATCCATACGGAATAATAATTTCTTTAGTTAATAATTTTAATCCATCAGCTATAGGTTGAAATAATCCAAAAGGTCCGACAGTATTAGGGCCTTTTCTTAATTGCATTGCAGCAATAACTTTTCTTTCAATATAAGTTAAAATGGCAACAAATATTAAAAGAGGAAAAACAATAAAACTTATATTTTTAATTATTAAAAGAATTTCTATCATTTATTTTTCCTTGAACTCTCTTGAACAATTATTCATAATTTTCGATGATTTTGAAATTGGGTCGGTTAAATAGAAATCATTAATAGCTACCGTAAATCCTTGGTTTAAAATTTTTCCTTTTTTTCCAAAGTTGAAATACAAATTATTAATATAATTATTTTTGTTTTTAAAAATTTTCGAATTTTCTTTTATTAATCTCTTTCTTACATCATTAATATTGTAATAATTAAAATTATTTGATAATTTTTTTCCTAAAACAGCAATGATTTTCCAATCTTCTTTTGCAAATCCAGGAGGATTGCAAGCTTTATAAGTATTTTGAATTTTACCTTCAGTATTTATAAAAGTAGAGTTTTTTTCAGTAAATGTTGAACCAGGTAATATCACATCAGCAAATTCAGCACCAAAATCACCATGATGACCCTGGTAAACAACAAAGGAATTATTTAATTTTTTTACATCGACTTTATCTGTTCCCAAAAGATAAATAAATTTAATCTTTTTTGCTGAAGATAAAGAATATAATTTATTAATATTAAAAATTTTTTTTTTAGAATAGAATTTTAAATCTAAAGCGCCAACTCGTGATGCTGCATAATGTAAACAATTTAAACCATTCCATATAATTTGATTACCTTTTTTTTGAATAAAATTAAATTTCACAGATATTTTATTTATCAAATCTAGAATTTGTTCAGAATCTTTTCTACAAAAAATATTATCACCAAAAATTATCATTGGTTTCTTAGATTTTCTTAGTTTTTTAGAAAAAGAATTTTTCTCATTGAGTATATCATTTAATATTGATGGATCATTGCCTAAATTATTATGTTGATAATTTAAATTATAATCAGGTCCTATTGAAAAAATTTTATAATTGCCTTGAAGAAATCTTTTTCTAATTCTAGCATTAATCATAGCAGCCTCATTTCTAGGGTTTGTTCCAATTAACAAGCAAAGATCCGAATCCTCAATTCCTTTAATTTTAGTATTAAATGTATACGCGTTTCTTGGAACTGATTTATAAGAAGCATTATTTTGAGAACAAATTAAATTATCAGATTTAAACAAATTAAATAAATCCTTTAATAAGATAATACTTTCACAATCAACTTGATTACCAATTACTGCTGCAATTTCATTACCATTTAAATTCTTGATGTTATTTTTAATAGTATTAATAGCAACTTCCCATGAGCAATCTTCTAAATTATTATTTTTTTTTATAAATGGAGTATCTAATCTGTTATGTTTTAAACCATCATAAGAAAAACGAGTTTTATCAGAAATCCATTCCTCATTAATTTCTTCATTAATTAATGGGAGAATTCTCATAACTTCATTATTTCGTGAATCAATTCTTATATTTGAACCAACAGCATCCATGACATCTACAGATTCGGTTTTATTTAATTCCCACGGTCTGGCAGTTAATGAAAAAGGTTTTGAAGTAAGAGCTCCAACAGGACATATGTCAATCATATTACCTGAAAGTTCTGATGTTAAAGTATTATCTAAATAAGAAGTAACTTCCATATTTTCACCCATTCCAATTGCACCTAATTCAGGTGTTCCCGCAACTTCAGTAGCAAATCTAATACACCTAGTACAATGTATACATCTTGTCATAACTGTTTTAATTAATGGACCAAAATTTTTTTCTTCAACAGCACGTTTATTATAAGCAAATCTACTCCTATCTTTTCCATATCCCATAGCAATATCTTGTAAATCACACTCACCACCTTGATCACAAATTGGACAATCTAATGGATGATTTATTAAAAGAAATTCCATTACACCTTTTCTTGCATTCATTACCATTTTCGTTGTTGTTTTAATTTTCATACCATCAGTACATGGTACGCTACAGGAAGCAACAGGTTTTGGACTTCCTTCAACTTCAACTAAACACATTCTACAATTTCCAGCTATCGACAATTTTTCGTGATAACAAAAAATTGGTATTTCTATTCCAATTTTTTGACAAGCTTGCAAAATAGTCATTCCTTGCTCAACTTATATTTTTTCATTATCAATTGTTACTTCAATCATAATTAAGCTACTTTAGTTTTTTTATTATTTTTTATTCTTTTTTCTATTAAAGGTCTAAAATGTTTAATTAATCCTTGTACCGGCCAAGCTGCTGCATCACCTAAAGCGCAAATAGTATGTCCCTCAATTTCTTTAGAAACTTCATATAAAGTATCAATTTCTTCAATTGTTCCTTCACCGTTAGTAAATCTTTCCATAACTCTCCACATCCATCCGGCTCCTTCCCTACAAGGAGTGCATTGACCACAGCTTTCTTTTTTATAAAACCTAGAGATTCTTGAAATTGCTTTTAATAAATCAGTTGATCTATTCATTACAATTATTCCAGCAGTTCCTAAACTTGAATTAACTTTTGATAAACTATCAAAATCCATGGTTATATCATCACATATCTTTTTTGGTAGTAAAGAAACTGATGATCCACCAGGAATTATCGCCAGTAAATTTTTCCAGCCTCCAATTACACCACCAGCATACTTCTCAATTAATTCTTTTAAAGAAATCCCTAATTCCTCTTCTACATTGCAAGGTTTATTAACATGTCCAGAAATGCAAAAAATTTTTGTTCCTGTATTATTAGGAATTCCCAATGAAGAAAACCAACTGTATTCTCTTTTTAAAATATCTGGTACAACAGCAATAGTTTCAACATTATTTACTATTGTTGGACATCCAAATAAACCGACAATTGCTGGAAATGGAGGTTTTAATCTTGGCTGAGCCTTTTTACCTTCTAAACTTTCTAGCAAAGCAGTTTCTTCTCCTGCAATATATGCACCAGCTCCTCTATGTAAATAAATATTAAATTCCCATCCAGTATTACAACTATTATTTCCAAGTAATCCATTTTGATATGCTTCATCGATAGCAGTTTGTAGTATTATAGCTTCGTTATAAAATTCACCTCTTATATAAATGTAACAAGTATGAGCACCAATACCAAAACCAGCTAATAAACAACCTTCAATAAGCTTATGTGGTTCATTTCTTATAATGTCTCTATCCTTACATGTTCCTGGTTCACTTTCATCAGCATTTACTATTAAATATTTTGGTAGATTACTTTTCTTTGGTATAAAAGACCACTTTAAACCAGTAGGAAAGCCAGCGCCGCCTCTTCCTCTTAATCCAGATAATGTTATTTGTTCATTTATCCATTTCGGGCCATAATTAATTATTTTTTTTGTATTGTTCCAACAACCTCTTTTTTTTGCCTCTTTTAAACTAACAGCACTATATCCATTCAAATTAGTAAATATATGATCTTCTAATTTTAACATTCTGTTTTTATTTCTTTAAATTATCAATCAATTTATCAATATCATTTAGATTCAAATTTTCGTAATAATCATTATTAATTTTTACAACAGGAGCATCAATACAAGCACCGAGGCATTCAATTTCATGAACTGAAAATAAATTATCTTTTGTAACTTCATCATTACTTATTTTTAATTTTTTTTTAAATTTACTAAGAATTGAGTCAGAGCCTCTAAGCCAACATGGTGTTGTAGTACAAACATTTATACAATTTTTACCTACTTTTTTTAAATTAAACATATGATAGAAAGATGCAACTTCATAAACTCTAATTAATGGAATTTTTAAAAAATTGGATATGTATTGTAATGAAGATTTATTAAGCCACCCGTTTAATTGATCTTGAGCAAGATGAAGTAATGGTAAAATAGCGCTTTGTGAAAATTTTTTTGGATATTTATTAATTATTTTCTTAGCTTCAATAATATTTTTAGAACTAAATTTAAATTTAGTTTCTATTTTTTTCATATTTTTCATCTATCAATTTCACCAAAAACAATATCCATAGAACCAAGAATTGCAACAACATCAGCTAACATATGACCTTTAGAACAAAAATCCATTGCTTGTAAATGTGCAAATCCTGGAGCTCTAATTTTACATTTATATGGTCTGTTAGTTCCATCGGAAATTAAAAAAACACCAAATTCACCTTTAGGTGCTTCAACAGATGTATATGTTTCTCCTGAAGGAACTTTATATCCCTCTGTATACAATTTAAAATGATGTATTAAAGCTTCCATGGAATGTTTCATTATTTTTCTTTTTGGTGGTGTAACCTTATTGTTTTGTATCATCGTTGGTCCTTTAGGCATTTGATCAATACATTGAAGAATAATTTTTAAAGATTCTTTCATTTCTTCAACTCTAACATAATATCTATCATAACAGTCTCCGTTTGATCCAATTGGGATATTAAAATCTAATTTGTCATATATTTCATAACTTTCATCTTTTCTTAGATCCCATTTTATACCAGATGCTCTTAACATTGGGCCCGTAAAACCAAAATTTATTGCATCTTTAGATGAAATAACCCCAATATCAACTGTTCTTTGTTTAAAAATTCTATTTTCAGTTAATAAATCTTCTAAATCCTTAATAAATTTTGGAAAATTTAATGCCCAACTTTTAATTTCCTCTAATATTCCACTAGGTAAATCTCTTGAAACACCTCCAGGTCTAAAATATGCAGAATGCAATCTCGCACCACTAACTTTTTCATAAAATTCCATTAAAAGTTCTCTTTGTTCAAATGACCATAAAAAAGGCGTCATCGCTCCTACATCCATCGCCATTGCTGGTAAAGCTAATAAATGATTTAAAATCCTTGTAATTTCAGAAAATAAAACTCTAATGTAACTAGCTCTAATAGGAACTTTAATTTTTAATAATTTTTCTACAGCTAATGCAAATGCATGCTCCTGGCACATAGGTGAAACATAATCTAATCGATCAAAATACGGAACGGCTTGTAAATAAGTTTTATTTTCAATCAATTTTTCTGTTCCTCTATGTAATAATCCAATGTGTGGATCAACTCGTTCTATTACTTCGCCATCCATTTCTAAAACCATTCGTAAGACACCGTGTGCTGCAGGATGTTGAGGGCCAAAATTAATCGTTAGAGGTTTTAATTTTATTTCTTTCATATATTTTATAATTATTTTTTTACTTTTTCATCACCAGGCAAAACTTGTCCTTCCCAAGGACTTAAAAAATCAAAATTTCTATAATCTTGTGTTAGTTTAACTTTTGAATAACTTACTTTTTTTTTAGAATCATCATATCTTAATTCAACAAAACCGGTTAATGGGAAATCTTTTCTTAAGGGAAAACCTTCAAATCCATAATCTGTTAAAATTCTTCGTAGATCAACGTTATTTTTAAAAGATATTCCATACATATCCCACACTTCTCTTTCATACCAAGCAGCTGATTTATAAATAGAAGTAATTGATGGTATATTTTCATTCTCGGATAAAAAAACTTTTACTCTTATTCTTAATTTATTTTTTAAACTTAATAAAATATAAACTAACTCGAATCTTTTAGCTCTTTTCGGATAATCTACAGCAGTAATATCTAATAACATATCGAAATTTAAATTATCTAAATCTTTAAGATTTTTTATAAGTTTATGAATATTAGCAATTTTTGTTGATACAATTAATTCGTTATTGATAATTTCATGATTTGTAATAGTTTTACATTTATCAATAATAAATGTCGCTAATTGGTTTAATTTTTTATTCATAAATATTACCTATAGAAAACATTTTCTCTTTTAATCTTTTTTTGCAATTGCATAATTCCATATAAAAGGGCTTCAGCTGTTGGTGGGCAACCTGGAACATAAATATCAACAGGAATAATTCTATCACATCCTCTTACAACAGAATATGAATAATGGTAGTAACCACCACCATTAGCACAAGAACCCATAGATATAACCCACTTTGGATCTGGCATTTGGTCATAAACTTTCCTTAATGCTGGGGCCATTTTATTACATAAAGTTCCTGCAACAATCATCACATCAGATTGTCTTGGACTACCTCTGGTTACAATTCCGAATCTATCTAAATCATACCTACTCATATATGTATGCATCATTTCAACCGCACAACATGCTAAACCGAAAGTCATAGGCCACATAGAATTAGACCTTGCCCAATTAACTAATTTATTTAAGTTGGTAGTAAGAAATCCTTTAGTTTTAAATTGTTGTTCAATTAAATTATCTATCGAAGAAGTTTTTTTATTTTTGTTTAAATTAATTATTCCCAATCTAGTGCTCCTTTTTTCCATTCATAGATAAATCCAATAGTTAAGAAAAATAAAAAAATCATCATAGAAAAGTAACCAAAAGGCCCTATTTCATTGAGTGATACTGCCCAAGGAAATAAAAAAGCAACTTCTAAATCAAAAATAATAAAAAGTAAAGCAACTAAATAAAACCGAATATCAAATTTTGTTCTAGCATCTTCAAAAGGTTCAAAACCACATTCATAAGGAGATAACTTTTCATCACTTGGTTTATGCGGTGAAACTAAAAAAGATAAAGACATGATTCCAACTGAAAAAAATAATGAAACTATTAAAAATAATAAAATTGGTAAATATTCAGTTAACATTTTAAAAAAAAAAGAAGGCTATCTATAATTTAATATAAATAATTAAACAATCTAGTGCATATTTTCATTGAAAAAAGTGGCGGGAGTGACGAGACTCGAACTCGCGACTTCCTGCGTGACAGGCAGGCGCTCTAAACCAACTGAGCTACACCCCCACTATGATTGTGTGTGATGACGGGATCGAACCGCCGACCTCCTCGGTGTAAACGAGATTCTCTACCAGCTGAGCTAATCACCCTCATCGGTTTTTATATAGAAATATAGTATATATTCAAGAAAATTTCTCAAGAAAATTACTAGAATATAAAAAAAAAAAACCGAATTTATCAAATATAAATACGGTTTTTTTTCTAAATTAATTTACTGTATCTTTTATAGCTTTACCTGCGCTATATTTTGGTACTTTTTTTGCGGGTTTCTGTATGGATTCTCCAGGTCTAGTATTTCTTCCAGTTGTAGCAGCTCTATTTGCAACTAAAAAAGTTCCAAAACCATCTAGCCTTACCTCATTACCTTTTTTTAATGTATTTGTTATCGAAGATAGGATTGCATCTAAGGATTTAGAAGCATCAGATTTAGAAATTTCGAGATCACCGGATACCTTATTAATTAAATCATCTTTGTTCATTGATCCTCCTAAAAAAAAATCTAAAAAAC
>sequence06
GCAGAAGGAAGTACTTCTTTTAAGATATCATATCTTTCTATGTTCAAAAAACCAATTTATAAAGGAATACAAATAGGTTTTGGTGGCGTACACAATCTAGGGCAATTAGATAATTTTGATTCACCAGGAAGACAAAAACACCAAATTGGTATTGGGTTTAAAAAATCATTTCCTATAAATGAAGAAATGGAATATGATTTCTTTATTGGACCACTTATAGGTTTAACTAATGCATCTGCAGATAGTACCTTGCTTTGGAATATGACATTAGAATTTTAAATTAATCATGAAAATAAAAGCGTATGAATTAAAAGATTTAGTTAATAAAAAAAAATATGCAGGATATTTAATCTATGGCCAGAATAAAGGTTTAGTTAGAGAAAAAAGTCAAATAATTATAGATACTTATAAAGATGACAAAACAGAAATCATAAAATTTGATAATGACGAATTAATTTCTGAACCATTTAAATTAAATAACGAATTTAATACATTTTCACTTACATCTGAAAAAAAAATTATTCATGTATTAAATACAAAAGATAATTTATCAAAAACAATAATTGAAACTATAACTGATAATAATTTAAATTGTTTAATAATTTTTGAAGCTGAAGAGCTAACGCCTAGATCTAAATTAAGAAAAATATTCGAAAAAGAAAAGCATCTCGGTGTTATTGCTTGTTATTATGATACTGAAAGAGATATCCAGGATTTAGTTGAAAATAGTTTTAAAAAAGAAAATATAAATTTAAATAAAGACATAATCTTATTAATTTCTAAACATCTAGGAAATGAACGTCATATTATTAAAAATGAAATCGAAAAAATTATTTTATTTCTAAAAGATAAAAAAAATTTCGAAACTACAGATATCTTAAACTGTTTAAGCCAAAATGAAAATTTTGGATTTGATGATCTAAATTACAGTATTTGTGATGGAGATGTTATAAAACTTGATAAAGTCATAAATCAATTATATTTAGAAGGAATAAATCCTATAGCAATGCTTAGATCAGCAGGAAAACATTTTCAAAAAATACTATTTGTTAACGAAAAAATAGATTCCGGTATGAACGTTCGTGAATCAATTAGTCAATTAAAACCTCCTGTTTTTTTTCTTTATATTAATCAATTTAATAATCATATAAAAAATTGGAAAACAACTATTTGTTATAAAGTAATTGAAAGAATTATCGAAACCGAAAAAATGTGTAAGTTAAATTCTAAAATTTCAAAGATATTATGTTGGAGAACATTAAGAAATATATCTTCACTTAAATATAAATAATTATTCGCTTGTAAGCTTTTTTATTATATTTTCTCTCTGATCAATATTTCTGTATTCAATTTTTATATTTCCTTTATTGCCATTATTATTAATAGTTAATTTAACTCCAAGTTTTAAACTTAATTCTTTTTCAAGTAATGCTGTATCACTATCTTTTTCTTTATTAATTTTTTTTTGCTTTAATGAATTATTTTTATTATCAATTTTAAAAAAATCTTCAACATTTCTGACTGTTAAACCTTCATTAATGATACGTTTGGCAAAACTAACGGCGCCTGCATAACCAACTAAAAATCTGGCGTGACCAAGAGATAATTTTCCTTCCAAAATAAATTTTTTTACTTCATTTGGTAATGAAATTAATCTAAGCAAATTTGCAATATGACTTCTACTTTTTGAAATAATAGAAGATAACTGGTCTTGAGTATAATTATATTCATTCATTAATCTATGATATCCTTCTGCTTCCTCTATTGCTGTTAGATCTTCTCTTTGTAAATTTTCGATTAGTCCAGATTCAAATGCTTTACGGTCATCAAAATCTGATACTATTACAGATATTTCTTTAATATTTGCTAATTTACAAGCTCTTAATCTTCTTTCCCCTGCAATCAGCTCATACTTATCTTTTTTCTTTCTAACTATAATTGGTTGAATTAAGCCATTTTTTTTTATAGATTCAGATAATTCATTAAGTTTTTCCTCATCAAATTTTCTTCTAGCTTGAAATTTACTTAATTCTATCTCTTTTACTAAAACTAAATTATTTTGATTTGATTCATTCTTAAATTCGGGATCATCATAATTTGTATCTAAGAGAGCAGAAAGCCCTTTTCCTAATCTTTTTTTTTTTCAATCATTTATATTATTCATTTACAGCTTTTTTTTTTTTCCTGTTTTAAAAATTCCTTAGCTAATCCAATATAAGCTTTTGAACCTTTACATTTTGAATCATATATTAAAACAGGTTTACCAAAACTTGGTGCCTCAGAAACTCTAACATTTCTTGGTATGATTGTTTTATAAACTTTACTTCCAAAAAAACCTTTAATATCAGAACTTACTTGTTCAGTTAATGAATTTCTTTTATCAACCATTGTAAGTACTAGACCTTCGATTTGTAATTCAGGATTATATGTTTTTTTAACCCTATTTATTGTATGAACTAAATGACTTAATCCTTCCAAGGAATAAAATTCGCATTGCATTGGAACTATAATAGAATTTGCTGCCGTAAAAGCATTAATAGTCAAAACTCCCAATGCTGGAGGGCAATCTATTAAAATATAATCAAATTTATTTTTTATTTTTTCAATTGCACTTTTTAATCTAATTTCTCTCTGTTCTTCTCTTGCCAATTCAACTTCAGCTCCGGATAAATCTAATGTAGAAGGAATTAACTTTAATTTCGAAATTTTTGTTTTATATATGGATTTAAATACTTTAGACGAATCATGTAATACATCATAAATATCATTTCTATCTTTTTTTTGCTCAAAACCAACACCAGTTGATGCATTTCCTTGTGGATCTAAATCAATTAACAGAACTTTTTTTTTTACTGAAACTAAAGCTGTTGCTAAGTTTATGGCAGTTGTAGTTTTTCCAACTCCACCTTTCTGATTTGCAATAGCTATAACTTTAGGATTTTTTAATTTTGACATTAATATAATTATAAATGTTTAAAATAAATAAAAAATTATTTTTTTCTTAAATTTTTAATTACTAAAATATTACCTTCATCACTTGTAACACTTTTTAAACATTTCAAACTGAAAACAAACCTATTTCTTGCAATTTTAATTTCTTTAAAAACTGTTTTTCCTTTTAAAAAAATACAATTTGTTTTTTTTTTTGTGAATTTAAGACTGTATTTAAGTAATTTAGCAAGTGAAGCTACAGCTCTTGCAGTAATAAAATCATAATTATTAATCGATGTTAAATTTTCTATTCTTGAATTATATATTTTAACATTTTTTAATTTTAAATTATCCTTAACTTCATTTAAAAATTCACATTTTTTATTATTTGCTTCAACAATATTAAAAAAATTATTTGAGCAAATAGCACAAACAATTGCGGGAAATCCTGCTCCACTTCCTATATCAAGAATTTTTTTCTTTTCCCCAATTATTTTTAATATTTGATATGAATCTAAAAAATGTCTATCCCAAATTGTTGCAAAAGCCTTATTACTTATAAGATTATGTTTTTTTTGCCATATTTTAAGTAATTTTAAATAATTTTTTAATTTTAAAAATTCAATGTTATTTATCTTAGTTTTTTTTTTAAAATTTGTTTCAGCTAATTCGTTCATTCTTTTTTTCAAATTATTATTTTTTTTTTTATGAACAAATCTTAAAATATTAATAACAGCAACGGGAGTAACACCTGAAATTCGGGTTATTTCACCTAAATTTCTTGGTTTTATATATGTTAATTTATCTAAAATTTCTTTCGTCAAATTTGGAATATTTATATAATTCATATTCACAGGAATTTTTAATTTTTCATCCTTTTTTAAATCTTTAATATCTTGAAGTTGCCTTTCAACATAGCCTTTGTAAACAGAATTTGTTTCTAATTCCTCAAAAATATCGTCTGGTATTTTTTTTATTTCCGGCCATATATTTTCCAATTTTTTTCTATTAATATTTTTAAAAACTAATAAATCAAAAATATTTCTTTTTTTGCCATCTAAATTAATTTTTATGCCAAATTTTAGTAATTTATTAGGTGAAATAAGTAATTTTTTGTATTTTGTGTCAATTTTCTCTAATAATTTCTGTTTTTTATCAAAAATACGTTTTCTATCTAATTTAACACATCCAATAGCAATTCCTTTTGGGGTTAATCTTATATCAGCATTATCTGACCTTAATAATAGTCTGTACTCTGCTCTACTAGTAAACATTCTATATGGTTCCGTTACACCTTTATTAACTAAATCATCAATTAAAACTCCTATGTAAGCTTCTGATCTTGATAAAATAAATTCTTTTTTATTTTGAACTTTTAATCCAGCATTTATACCAGCTATTAATCCCTGTGCAGCAGCTTCTTCATATCCTGTTGTTCCATTTATTTGTCCAGCCAAGTATAAATTATTGATTTTATTGGTTTCTAAAGTATTTTTTAATTGTAAAGGATCAATGTAATCATATTCAATTGCGTATCCATGTTGTAAAATTTTCACATTTTCTAATCCTTCGATTGATTTAACAAATTCTTCCTGAACATTTTCTGGTAGTGAAGTTGATATTCCATTTGGATATATAATTTTTGAATTTAAACCTTCAGGTTCTAAAAATATGTGGTGCATATTTTTATCATTAAATTTAACAATTTTATCTTCTATCGATGGGCAATACCTAGGACCTATACTTTTGATTTGTCCTGAATAAATAGCTGATTTTACTAAATTTTTTTCAATTATTTCATGTGTCTTTTGATTAGTGTGAGTAATAAAACACGAAACTTGTTTAACTTTGATTGATTTATTCATAAATGAAAATGGTCTTATTTTTTTATCACTTTTCTGCTCTAACAATTTTCTGAAATTTATTGTTTTTTTTTCAATTCTAGGAGGAGTTCCTGTTTTCATTCTCCCCAAAGTAAAACCTAATTTCTTAAATGTTCTTGAAAGACCATAAGTTGCTTTTTCCCCTATTCTTCCCGCAGGTGTCTTTTTATTTCCTATGTGAATTAAACCATTCATAAATGTTCCTTTAGTTATAACAATTGTTTCACATGAAACAATGCCTTTTTTTTTCATAACAATAGCTTTAATAGCTTTTCTTTCATTTAATCTAAAATCAATGACTTCATCTTCTAAAATGGTTAAATTTTTTTCTTCTTTCAAAAGATTTTTGATTGCTTTTTTATATAATTTCCTGTCTGCTTGTGCTCTTAATCCTCTTACAGCTGGCCCTTTTGAAGCATTAAGAAGTCTGAATTGAATTCCCGCATTATCTATAGCTTTAGCTATAATCCCATCTAAAGCATCTATTTCTCTTACTAAATGACCCTTTCCAAGACCGCCTATTGATGGATTACATGACATTTCACCAATTTTTTTTAAATTATTAGTAACTAATAACGTTGAGCAACCGATTCGCGCTGCAGCCGTTGCAGCTTCACATCCAGCGTGACCTCCACCAACTACAACTACATTATAAGTTTCATGTGAAACTTTTTTTATTATTTTTTTACTTTTTTTAATATTGAACATCCTACAGCAGCTCCTTTATAGGCCTCTGTATAGCAAACTTCTATCGTATTAATATTTATAATTTCACCATGTATATATCCCTTACTTTCAGGGGAAATCCAATAAAAATTTTTATTATTCTTTCTTAAAACTCCTAAAAAATTTTTCTCCCCGTCTGCATATTTAAAATATCCTTTAAATAATCTTTCATTTTGTTCAAAAATAGTAATTTTTTTTTCCCAAGTTCTATATCCTTTTTCACTCGAATAACTTTTATTAATTCCCTTCCAAGTACCTTTTAAATCAAAAATGTAGTCTGATTTAGAATCTAGTGGAAAAATAAATAAAAATAAAAAAAATAAAAAAAAAATTCTTAACATTAAATTATTTACCTATACAAAAATCTTTAAATACTATATCCAATAATTTTTCAACGTTATATTTTCCAGTTACACTTTCAAGGGCATTAAGGCATAATCTCAAATCTTCTGCATTTAACTCCGGATTTTTATTTTCTTTAATTTTTTTCAAATTATAAAGACATTTTTTCAAATAAGTTCTATGTCTTATTCTAGTTAAAACTGGTTCACCAAAAAAAACATCTTTATATTTTAGTCTAATATAGTTTTCTAAATTTTTTAATAAAGTATTAATTCCATTTCCTTTTTTTGCAGATACAGAGAAAATTTTATTCTTATAATCTTTATTTAAAATATTGATTATACTAACTATTTTTTCATTACTTACCAAATCTATTTTATTTAAAATTATTATTGTTTTATCACAAATTAATTCTGATATTTCATTATCAATTTTTTTATTAGCATCTAAAACCAACAATTTTAAATTACTTTTTTTTATTTTATTTTTGGCTCTAAATATTCCTTTTTTTTCAATTGAATTTGCAGTTTTTTTTTTTAAACCTGCCGTATCAGATAGAATTACTGGTAACCCGGCTAAATTAAATTTTGACTCAATTATATCTCTTGTTGTACCTGATGTTTTACTTACGATTGAAACGTCTCTTTTTAACATTTGATTAATTAATGAAGATTTACCTACGTTAGGTTTTCCAAGCACAACTATTTCTATGCCACTTCTAATTATTTCACCTCTTTTACTATCTATTAAATAATTATCTATTTCTTTAATTAATTCAGTAACTTGCTTTAATATTTTTTTTTCAATAATTAGAGGAACTTCACTTTCATCAAAATCAATTAAGCCCTCATAATATGCTAAAATTTTAATAATTTTATTACCCCAATTATTAAGTACATAACTTAAATTTCCTTCTAATTGCTGAATAGCTAATTTTTTTTGAATTTTAGTATCAGCATTTACCAGATCATTTACAGCTTCAGCTTCTAAAAAATCCATTTTATTATTATTAAAAGCTCTTTTAGTAAATTCTCCCGCTTCTGCTTCTTTTACATTTTTTATTGATAGCAAATTTTGTACTAAATGTTCTAAAACAGCATTTCCACCATGTATGTGAATTTCTAGCATATCTTCACCTGTATAAGTTTTAGGTTTGGGAAACCAAATAATGACTGCTTTATCAATAATAGAAGAATCCTTAATATCATATAATTTGATTAAATTATAATAACGTGGTTTTAATTTTTTTTTTTTTGTAAGTAATTTACAAATTTTTTTTGATTCCGATCCTGAAATTCTTACCGTTTTTATTGCAGATAATCCTAAACCGCTTGCTAAAGCAAATATAGTTTTTAAATTAATTTTATAATTTATACTTTTATCCATTTTCTTTTGTTTTACTATCATATTGGGATTAATCAAGTTGAACAAATTAGAAAAAGAAACAAGTCCTTATCTTTTAGAGCATAAAAGAAATCCTGTAGAATGGTTTGCGTGGAATAAAAATTCTTTACAAAAAGCAAAAAAAGAAAACAAGCCAATTTTATTATCTATAGGATATTCTGCATGCCACTGGTGTCATGTAATGGCAAGAGAATCTTTTGAAAATAAAGATATTGCAAAGTTAATGAATAAAAATTTTATAAATATTAAAGTTGATAGAGAAGAAAGACCTGATTTAGATAATATTTACCAAAATGCTTTACAAGTTTTTGGCGAACAAGGGGGATGGCCCCTTACTATGTTTTTAACACCTAATCTAGAACCTTTTTGGGGAGGAACATATTTTCCTCCAGTTGAAAAATTTGGGAGACCTGCTTTTTCAACAGTTTTAAAAACTATGTCTGATGTCTTTATAAATGAAAAAGATAAAATTAAAAAAAGTGTAGAATTAATCAAAAAGGGTATTAATGAAAGCTGTATCGATATTCCAAGTAATGACATTAATGAGAATTTACATAAACAAGTTTCAATTTCATTAATTGACTTAATTGATGAAGATAATGGAGGAATAAAAGGTGCGCCTAAATTTCCTAATGTTCCAATTTTTGAAAATATTTTAAGATTTTGCAAGACTGATATTTCAAAAGAAAAGAAAGTTACAAAATTAAAAATTTATAACACATTAGAAAAAATTTGTCTTGGTGGTATATATGATCATGTCGGAGGTGGTTTTTCTAGATACTCAACTGATGAAAAATGGATGGTACCTCATTTTGAAAAAATGTTATATGACAATGCCCAATTAATAGAACTTTTTATTTATGGATATCAATATTTTAAAGAACCTACATTTAAAATTAGAATATTTGACACAATTAATTGGATTTTAAGAGAAATGAAAACAAATGAAGGAGCTTTTGCAAGCGCAATAGATGCTGATAGCGAAAATATAGAAGGAAAATATTATGTCTGGAATAAAAAAGAAATTGATAAATGTCTTGGAAGTTCCTCAGAAAATTTTTGTAAAGTATTTAATATCAGTAAAAAAGGAAATTGGGAAAATAAAAATATTTTATATTTAAAAAAAAAAAGAAATATTAATGAAATAAAAAAAGACAGAGAATTATTAAATACTCTTTTAAAAGAAAGACAAAAAAGAATTTTTCCAAATATAGATAATAAAATATTAACAGACTGTAATGGATTGATGATTAATGCTTTAGCTAAAGCTGGATGGGTGTTTAATGTAAAAAAATGGATAACTGAAGCAAAAAAAAGTTATTCCTTTTTGTATCATAATTTAATTAAAAATGGAGAACTATACCATTCCTGGAAAAACAAAAAAATTAAAACTTTTGCTACAATAGATGATTATGCGAATTTAATGCGCTGTTCAATTACTTTATACGAAACTACTGGTGAAGAAAAATATTTAAATAATGCTACAGAATTTTCAAATAAAATTTTGAATAATTTTAAAGATAAAATAAAAGGTGGATATTATATTAATTCGAAAAAAACTGATGACGTTTTTATAAAATTGAAATCAATTTACAGTACATCAACTCCCTCAGGAATTAGCATAATAATAGAATCTTTTGCCAAATTATTTTTTTTAACAGGAAAAGATATATATTTTAATGAAGCTGAACTCGCATTAAAGTCAGTTTCAGGAAATTTAATTAAAAATTTTTTTAATTCTGCTTCTTTGATTAATTCATATGATTTATTAAAAAATGGAGTACACTTTGTAGTTATAAAAAAAAAAGAAAAAAAAATATTAAATAATATAAAAAAGAAATTTTTACCAAATATGATTTACCAAGAAATAAAAGATACTAAAAGCTTACCTAAAAAAAATATAATTACTGAAAAAACAACTATAAAAAATAAAACTACAGTTTTTATTTGTCGTAAACAAACCTGCTCAAAAGGAATAACAACATTAGATGAATTAAACAAAATTTTAAAATAAAAAAAATGAAACATGAAATTAAAACATTAAAAATAAAAACAAATGGTCAGGGATTATATGAATTTACGCAACAAATAATTAAATGGCTAAATAAAAAAAAAATTGCAGTTGGATTACTTACTATTTATATAACACATACAAGTTGTTCATTATTGATACAAGAAAATGCTGATGATGATGTTAAAAAAGATTTACTAAATTTTTTCACACAAATTGCACCAGAAAATTCAAATTATATTCATAATTCCGAAGGCCCAGATGATATGCCTGCACATATAAAAAGTGCCTTAACTCAAACTAATTTATCTATTCCTATAGAAAATTATAAACTAGCTCTAGGTACATGGCAGGGCATTTATTTATTTGAACATAGAAAAATTACCCATAAACGTGAAATTAAATTACATTTAATATGTTAAAAAATGGATAAATCTACGAGAGAAATTTTACAAAAAACAATGCAATTACTTATATCAAAAGGATATAAAGTAATTACTGAATTTGCTTTACCTAATAAAAAAAGAGTAGATATTATTGGTATAAATTCAAAAAAAAAAATTGTAATAATTGAAGTTAAATCAAATAAAAATAATTTTAAAAATGATAATAAATGGAAAAAATATTTAAAATACTGTAATTATTTTTATTTTTCATGCAGCGAGGAAATAAAAAATATAAAATTTCCTCGAAATGTAGGTTTTATTTTATGCAGTTATAAAAAAAATATAAAAATTTCTAAATACTCACAATATAAAAAAATATCTGAATCAGTAAAAAATAAATTAATTCATAATTATGCTTTATCTGCAGCGTCAAAATTTCATAGATTAATCGATCCCCAATTTAATAAAAAGAGTAATAATTCTATTTATGTTTATAAAAAATGAATAGTAATAAAAGGGTATTTCTCTATAATATTATAAAATTATACATTTTTGTGGGGGATCAATGAAAGGCACTGTTAAATGGTATAATGCGAGAAAAGGCTATGGATTCATTACCGCAGAAGGTGAAGAAGGCGATATATTTGTTCACGCAACCTCATTAAAAAATTCAGGTTTAAAAAAACTTTTTACAGGATCAGAAGTAACATTCGAAGTTGAAAAAGATGAAAAAGGAAAAAGAGCTAAATCTTTAAAGGTTACTAAAGAAGTTAAAGAAGAAACTCAAAAAAAGGGGGAAACAAAAAAAACAGAAAAAAAACCGGAAAAAGTAGCAAAAAAGCCGGAAAAAGTAGCAAAAAAACCGGAAAAAATAGCAAAAAAGCCGGAAAAGGTAGCAAAAAAGACGGAAAAAGGAAAGAAAACAACTAAAAAAAAGTAAATTAAAGGAAAATAAACATAAAAAAAATATTATTAATTATTCTTTCACTTATTTTTATATTAAATACCGTAAAAGTTATAGCTGAAGAAAAAAATATTCAATTTATCTGTAAAACAGAAAATATTTCAAAAAAATACACTTTTTTATATATACCTTCAAGAAAAAGAATTATTTGGGTACAAAAAGGCAGAGAAATGAAAATAGACACAGAAAAAAATGATTTAATATCTTTTACTGGGTTTGGCGTATACGGTTTAGGATATGATTCATGGTTTCAATCTAAAATTTTTTTTAAAATCAATACAAAAAATGGTAAATTTGAACTCGTACCTGATAATAAAAAACATAACAAATATCCTCAATCAGGCACATGTCTTAACAAAAAATAACAATGAATATCTGTAATTAGAAAGACTATTTCTTTTTATTTCTTCTTTTGTTTCTTCTCCAAGTACTTCCGCGTTTTCTTCTACCTCTGTGTTTTTTTGGATATCCCATAATTTAGTTTAATATTGTGGGATTATAATGATATGAAATTGATAATTAAAGAAAAAATTTTAAATTAAATCTTGTAAAGAAGATTTTTTTAAAATCCTTTTTTTTAACTTTGTAAACGCTCTAGTTTCTAATTGCCTAACTCTTTCTTTACTTATATGCAATTCTTTTCCAATTGCTTCTAAAGTCAATGGAAATTGATTTAAATGTCTTTTCAAAATAATGTGTTTTTCTTTATCATTAAGAACTATTAAAGAACTTTTTAAAACTTTTTTTCTATTATTTTCCATGTCCAATTTCAAACTAATTTCATCAGGACACATAGATGTATCATTTAAAAAATCTAAGGGAGTTCTTTCATCATCACTATTTTTTAATGAATGATCTAAAAGCATATCTCTTTTTAAAACTCTTTCTGAAATATTTTCAACTTCTGAAACTTTAACATTCATATCTTTTGCAATTTCATGGGTTATAGATTTATTACTACTATTTTCTAGTGAATAATTTTCAATTTTATTTCTAATTCGGCTTAATTGAAAAAATAATAATTTTTGACTAGAAGTTGAACCAATTCTTACAATTGACCAATTTCTTAATACAAATTCTTGCATAGAAGATTTTATCCACCAACGTGCATAAGTAGAAAATCTAACATCAACACTTGTATCGAATTTATAAGCTGCTTTTAATATACCAATATTACCTTCTTGTAATAAATCGCCAAAAGGTAAACCAAATTTTCTAAATCTTATAGCGCAACTTATAACTAATTTTTCATATGAATTTATTAATGTATGTAAAGCTTTAACATCTTTTCTTTTTGCCCATAAATTAGTAACTTTTTTTTCATCCTCAACAGATAATAGTGGTGCTTTCATTGCCTTAGAAACAAATTTCAAATTATCTTTTTGAGTCAAAGTATCATCAATATGTGACATAACTTTCAATACCACAATTAGATGTTAAGAAAATCGATTAATTTCGATAAAAGTAATTAATTTTTTAGATTACTAATTTTAATTTTTTTTTAAAAATGATGCTATTAATACTCCAGAAAAATTATGCCAAATACTAAAAAGCGCGCCAGGAAGAGCTGCTAAATAACCAAAATATTTAAATGCAAGAGCAGTTGCAAGTCCAGAATTCTGCATTCCTACCTCAATTGCAATTGTTTTTGCCGTTTTATTATTTAAATTTATTTTCTTACAAAAAAAATAACTAATTAAAAAACCAAAAATATTATGAAAAATTACAGCAAAAAAAATTAAAAAACCATATTCAAAAATATTTTTAGCATTTAATGCAATAATTATTGAAATAATAAAAACAATTGAAAAAACTGATATCAGAGGTAAATAATTACTAATTTTTTTTAAAGGAAAAATATTAAAAGTATTTATAATTAAACCAAAAAAAACAGGAATTATAACTATTTTAAAAATACTAATCATCATATCAAAAATTGAGACATCAATAATAGCTCCTGTATAAAAAAAAAATAAGATTGGCATTATAAAAACTGCCAACAAAGTTGAACAAAAAGTTAATGTAATTGATAATGCAACATCCCCTTTTGCTAGATAACAAATAACATTAGAAGCGGTCCCGCCTGGAGCGCATCCAACCAAAATTACTCCTAAACCAATAATTTTATTTATTTCTAAAATATTTATTATTAAAAAACCTAAAAAAGGCATTAAAAAAAATTGTAAAGAGATTCCTAATAGAACAATTTTAAAATTTTTAAAAATTTTAATAAAATTTGAAAATTTTAAAGTTAATCCCATTGAAAACATTACAAGACTTAATAATGGAATTATTAAAAAATCTTTTTTTATCCAAAAATCAGGTTCTTTAAAAGACCAAAAAGAGAATAAAATTATCCATAAAGGAAATAATTTTGTTGACGTTGCAACAATCTTATTCATAGGATTTATAAAATTTTACAAACTTCAGAAAATTCAAATCTAGGCAATCTATCAAGCAATTTACTATTATCCCCGTAACCTAAATTACATAGAAAATTTGATTTAAAACGACCATCAGAAAAAAATTCATTATCTATCCCTTTATTATCAAACCCAGACATAGGTCCAACATCTAAACCAAGTGCTCTTGCTGCTAACATAAAATAACCTCCTTGAAGAGTTGAATTTCTAAATGCAGTTGTTTCAGCCTTTGAAGGAGGATTTGATAAAACTTTTTTCATACCAGGATTATGTGGAAATAATTTTGGAAGATGATCAAAAAATTTAGTATCATAGGCTATAATAGCAACAACAGGTGCTGTCATTGTTTTTTCAATATTTCCTTCACTTAAATGTTCTCTAATTCTTTCTTTTGCATCTTTAGATTTTAGAAAAATAATTCTCATAGGCTCTGAATTTGCACTAGTCGGACAATTTTTAACTAGATCATATAAATCTCTTAAAATTTTTTCATCTATATCTTTTTCTTGCCAATTATAATGACTTCTTGCTTTAACAAATAATTTATCTATAAAATCTTTACTCATAATGAAATATTGAAAAATTTATTTAAAAAAAATATATATATCCAATAACAAGCGCCTGTAGATATTATTGCTACAAACATAGATAAAGAAAAATTGAGATTTAATTTAACTAAAATAGGAAAAAAAATAAAAAAAGTTAACGACGGTATTATCATAAGCAAAGTATTATTTGTTAATTCTACAACCTGTTTATAGTCTTTTGTATCCCAATAAAGCCATATTAAAGTTAAAATTGTAATTAATGGCATAGATACTATTAAACCTGCTAATAAAGATGACCTTTTAGCAATTTCAGCTGCTAAAACAATAATTGAAGCTGTAATAAGAATTTTAAAAATATTAAATATCATCTTTATAATTAAAATTTTTTTTAAACATTAAATTGAGCAATTCCATCTTTAAAAGAAAAATCTATATCGTGATTTTCAGTTATTGTTATAAAAATATTTTCAGTTTTAATTCCTGGATTTTTAGATAAATTTTCAACTACTTTTTTATAAAAAGACTCTTTTAACTTATTTGAACGTCCTGAACGCATAACTAAATGCATCATAACTCTATCCTCTGTTCTATTTTGATATTGAAGACAATCTTGACTTACTTGATGAACAACTTGATATAAGTCATCATCAGGAAAATCCATAGTTTCAATAACAGCAGAATTAATCCCTTTTGAAACTGCTTTAATATATTCTTTATCTTTACCTTCAAGTAAAGTAATAGTTATAAACGGCATTAATTACTCCTTAAAAAAATAATTATAAATAATTAATTTCTAACATCAATAGTAGAGCTAAATTTAACGAAACTTTAATAAAAAATATTATTTAAATTTATTCCAAATAGGTGCTTTAATTTTTTTGATAAATTCTTTATGTAAATCTTCTTCTTCTTTAGAAAGATTAAATTTTCTTTTATCTAAAATTTCTTTTTTAAAATTTTTTAATTTAACGACAGTTTTTTCTTCTTTAGCAGAATTTAAATTTAAATTTGGTTGTTGGCCTCCTTTTAATTCTAAATAAACCTTAGCTAATAATTTTGTATCTATTAACGCACCATGTTTTTTTCTAATTGATAAATCAATATCAAATCTTCTGCATAATGCATCTAAATTAGCAGGTGAACCAGGGAATTTTTTTCTAGAAATAACTAACGTATCAATAATTTTGTTTTTAATAATATTTAAATTATTTTTTTTTAATTCATAATTTAAAAAAGGAATATCAAAATAAATTCCATTATGAACAATTAATGGATCATTCTTAATAAATTTTAAAAAATTCGGTATCTCTTCTTTAAAAATTTTTTTATCAAATAAAAAATTATCTTTTATACCATGAATTTCTTCACTTTTACCAACACTTCTTTCTGGGTTTATATAAATTTGAAAAATTTTTCCTGTAGGTATTAAATTTTTTAATTCTATACAAGCAATTTCGATAATTTTATGACCATCTTTATAATCTAATCCTGTAGTTTCTATATCAATAACTAATTCTCTCATTAAGGTTTAATTATAAAATAATTATTAAATAATAAAAATTATTTTTTATTGTTTAAAATTTTTTGTAAAACTAAATTTAATTTTTTTTTTGTTTCTTCTTTTGAATTCGAATTATTAACTATAAAATCTGCATTTTTTTTTTTTTTATTAGAAATTTGATTTAATAAAATATTATTAAATAATTCTAATGTCATATTTTTTCTCATCATTATTCTTTTTTTTTGTATTTTTTTATTTATATTCATCAAAATAATAAAATCATATTTTTTTTCACTTTTTTTTTCAAAAATTATAGGTATTTCTAAAATTACAATTTTATTTTTTTTATTTTTATTTAAAAAATTTTTTTTATTTTTATTTACCAAAGGATGGATAATTTTTTCTAAAATTTGTAATTTTTTTTTTCGACTAAAAACCTGAGATGCTAACATTTCTTTATTTAATTTTTTATTTATGAATACGTTTGGAAATTTTTTAAAAATTTTTTTTTTTACATAATTTAATTTTAAAATTTTTTTTACTTCTTCATCAGCAGAAAAAGTTTTAATTTTTTTTGATTTAAAAAAATTTAAAGCAAAAGTTTTACCACTACCAATTAAACCTGTTAATCCAACAAGAATCATTTTATTTTATTTTCTAAAATTTTTTGGATGTTACTATTTTTTGGTTTTTTTTTAAACCAATATAAAAATGCTTTTTCAGCTTGGTATATTAACATTTTTATCCCATTAATATTTTTAATTTTTAATTCTTTTGCTTTTTTAATTAATTTTGTTTCAATGGGATTATAAATTAAGTCATATACTATCGCATTTTTATTTAAAAAATTTAAATCAATATCTAAATTTTTAAAATTTTTCATACCCATAGGTGTAGTATTAATTAAAATATTTGTATCATGTAAATAATTATTTATTTCTTTTAAATTTTTATAAATAAATTTAATCTTTGTTTTTTTAATTTTACTTAAAATTTCATTTACCATTTTTTTTGAATTATTAATTGTTCTATTAAAAATAACTATTTTTTTAAAGTTCATTTTTATTAAAGAATATAATACAGCTCTACTTGCACCACCACTTCCAATAATGATTGCATTTTTTTTAATTTTAATATTATTTTCTAATGATTTTTTAAAGCCGTATACGTCAGTATTTTTTCCAATTATTTTACCTTTATTTGAAAATATCAAAACATTTACAGCCCCTATAACTTTTACAATTTTATCTTTTCTATCTAAATATTTTAATGCTTTTTCTTTTAAAGGTATTGTTAAATTCACTCCTAAAAATTTTAATTTAATAAGTTTTTCAATAGTTTTCTTAAAATTTTTTTCTGGTGTTTTAATAGATATATATTTTGAATTAATACTTAATTCTTTTAACCAAAAATTATGTATAGTCGGGGATAAACTATGCTTTATAGGATTTCCTAATATACCTATTTTTTTCATTTTTAATATTTAATCTTTTTTTTTTTTAAAAAATTTAATAATGGAATTAATGGTAGTCCTAATATCGTAAAATAACTTCCTTTAATTTTTTCAAATAATGATATTCCTATATCTTCTATTTGATATAAGCCTGATGTTTTCATATTTTTAATTTTTAATTTTTTAATATAAATATCAATTTCTTTTTTAGTTAATTTTTTTAATTTTAAAATCGCTTCATCATTATAATTCCATATTTTCTGGTTATTTTTTGAAATAAACAAACTAGAATATATTTTATGTTCTTTACCATTTAATAAATTCAACATTTTTTTTGCTTCTTCTTTTGTTTTAGGTTTTGATAGAAATTTTTTTTTAAAAATTAAACATGTATCTACACCTATTACATAATCAAATTTATATTTTAAAGAAGTATATAAAGATTTTTTTTTAGCTAATAATTGACAAATAATTTCTGGTTTTTTTTTTTTTATTTTTTTTTTTTATTTTTATTAATTATTTAATGTTTTTATTTTTAAAAATTTTAAATTGATTTCTTTTAAAATTTTTTTTCTGGTGTGACTTGTTGATGCGAGTAATAAATTATTCATTATTGTTAATATATATGTTAATAACCTTGTTATTAAAAAATGATTTTTATACTTTTATCAACAGTTATTATAAATTTTTTTCTTTTATTTTATAAACCAAAAGTTATAAACATAAATTAAACATGTGGATAAAAAATTTTTGTCTGTTTTTTATTGTTGATAATAATACTTATATACATTATTTTAAATTCTTTTTTTATACTAACATGATTGTTTTATATATAAAAAATAGAAGTTATTTAAGTTATTAACAAATTATTAACATAATTTTTATTTATATAATTAAATCTTAATAGTTTTTTATCCTTTATATTAACTGTACAACAACAACAACAACCTTAAGTATATTAGTAGTAGTAAATAATAAAAATGAAAATTATAAACACTTTAAATAAAATTAAACAAAAGAAACCACCAATATGGATAATGAGACAAGCAGGTAGATATTTACCAGAATTTAGAAAATTAAAGAAGAAATCTAAAGGATTTATGAATATGGTATATACACCAAAAATTGCTTCTGAAATTACTATTCAACCAATTAAGAGATTTAAATTTGACGCAGCAATAATTTTTTCTGACATACTTATTATTCCGGATTGTTTAGGACAAACACTTACATATCAAGAAGGCAAAGGACCAAAATTAAAAAAATTAACTTTAGATGAAATGTTAAATGTTTTTTCTAGAGGAATAGAAAGAAAGAAACTAAATTTAGTTTATAAAGCAATAAAGGAAACAAAAAGGAAATTAAAGAAAGAAACAAATCTAATTGGTTTTGTTGGAGCACCCCTAACACTTAGTTTTTTTATGTTTGATAGTGAAAGAAAGAAGAATTATAAAAGAATTTTTAATTATTTTAAAAAAAATAAAATTAAAATAAAAAGAATTTTTAATATTTTAGAAAAAACAATAGCAAAACATGCAATTGGACAAATAAACGCAGGTGCAGAAATAATTCAAATTTTTGATACTTGGGCTAATGTAGTAAAAGGTAACGATTTAAAGCAATATTCAATAAATCCAATTAAAAATATATGTAAAATTATTAAACAAAAAAAACCAAACGTAAAAATTATTGTGTTTCCAAGAAATGTTGGTAAAAATTATTTAAATTATATTCATAAAAATATAGACTGTATTAGTGTTGGAAATGATATTACAAAACAAATAATAAAAAAAATTCAAAACAAAAAAATTATTATTCAAGGAAACCTATCTCCTAAAATATTATTTAATGGTGGAAAAAATTTTGAAAAAGAAGTTTTAAAAATAATAAATAAATTTTCAGATAAACCTTTTATTTTTAATTTAGCTCATGGTATTTTACCCGGCACGCCTATAAAAAATGTTAAAAAACTTATTAATATTTTAAGAAAATAAATTATGAAATATTTCGGAGAAAAAAATTACAAACATGGAACAAAAACACACATAGGTGTTTTATTAACTAATTTAGGTACGCCAGATAAACCTGATAAAAAAAATTTACGAAAATATTTAAAAGAATTTTTATCTGATCCAAGAGTGATTGAAGTTCCACAAATTATTTGGCAAATAATTTTAAGGGGAATTATTTTAAATATTAGGCCAAAAAAAGTAGCTAAACTTTATAAAAGTATATGGCAAAAAGGAGGTGGACCTCTTTTGGTAATGTTGAATAAACAAAAAAATGGAATTAAAAATATTTTAAAAAATAAAAATATAAAAATTGAAATAGCTATGAGATACGGAAATCCAAATATAGAAACAGGTTTAAATAAATTAAGAAAACAGGGTTGTAGAAAAATTTTAATTTTTCCTCTATATCCGCAATATTGTGCGGCAACAACTGGAAGTACTTTTGATAAAGTAACTGTAATATTTAGAAAATGGCGTTGGATACCTGAATTAAGATTTATAAATAATTATTTTGATAATCCCGACTATATCGATTGTTTAATTAGAAGTATAAAAGAAAATCAAAAAAAATATGGAAAATATCAAAAATTAATTTTTAGTTATCATGGAATACCAAAAAAATATTTACTAAAGGGAGATCCTTATCATTGTTTTTGTCAAAAAACTACAAGACTAATTATAGAAAAAATGAATTTAAAAGAAGATGAATATTTAACAACTTTCCAATCTCGTTTTGGTCCAGATGAATGGTTAACACCTTACACAGATAAAACATTAAAAGAACTTCCTTCTCAAGGTATAAAAAAAATTCATATTTTATCACCAGGATTTAGTTCGGATTGTTTAGAAACTTTAGAGGAATTAAAAGTTGAAAATAAAAGTAATTTTATATCTGCAGGTGGTGAAAAATATAATTATATCAATTGTTTAAATGATAATTCAGATCATTTAAAAATGCTTTCATCAGTTATACTAAATAATTTAAAAGGATGGTAAAAAAAAGAATTAAATAATGGACCAATTTTATAATTTTTTAAATAATAATTATTTAATAATAAAATCATTGCATGTTATTTCTATGGTTGCTTGGATGGCGGCTATGTTATATTTGCCTAGACTTTTTGTTTATCATACAACAGTAAAAAATAAAGAATCTTCTGAATTATTGAAAATAATGGAATATAGGCTTCAAAAATATATTATGAACCCGGCAATGGTTTTTACATTAATCTTTGGTTTTTTATTATTAAAAATTAAAGGGATAATAAATTGGAATGAAATTTGGATATATTTTAAATTATTTTGTGTTTTATTATTAATAATAATTCATCATTTATTAATAAAATATAGAAAAGATTTTTATTATGATAAAAATTTTCATTCAAAAAGATTTTTTAAAATAATAAATGAAATTCCAACTATATTATTAATTATTATTATTTTTTTAGTTTATTTAAAACCCTTTTAACTATTGACATGCTATAAATAAGTTACTATATAGTAATTTCTACTTATCAAATCATATTAACAATCACAAATTAAATTTAAACAAACATTGGCATCTGATAAAGTAAATTTACACGACTTGAAAATTAAACCACCTGAAGAACTTTTGCAATATGCGGAGAAAATAGGTGTGGAGAATCCTAGCGCTTTAAAAAAGCAAAACATGCTATTTGCTATTTTAAAATCATTAGCTGAAAAAAATGTTATTATAGAGGGCGGAGGGGTTTTAGAAACACTTCAGGATGGATTTGGTTTTTTAAGATCTCCTGAGTCAAATTATTTACCTGGACCAGATGATATTTATGTTAGTCCTAGTCAGGTTAGAAAATTTAATTTAAGGACAGGAGATAATGTTGAAGGGGAAATAAGAGCTCCTAAAGATTCTGAAAGATATTTTGCTCTTTTAAAAGTAAATACTACTAATGATGTCGATCCTGAAAAAAAAAGACATATTATAAATTTTGATAATTTAACGCCTTTATACCCAGAAGAAAAAATTAATTTAGAAATAGAAGATAAATCAATTAAAGATTTAACCCCAAGAGTTATTGATGTTATATCACCTATAGGTAAAGGACAAAGAGCGATGATTGTTTCTCCTCCAAAAGCTGGAAAAACAGTAATGCTTCAAAATATAGCAAACTCTATTACAAAAAATCATCCAGAAGCAAAATTAATAGTTTTACTAATAGATGAAAGACCAGAAGAAGTTACCGATATGCAAAGAAGTGTTAAAGGAGAGGTTGTAAGCTCCACTTTTGATGAACCTGCTTCTAGGCATGTTCAGGTTGCAGATATGGTTATTTCAAAAGCAAAAAGATTAGTTGAAAACAAACAGGACGTTGTAATTTTATTAGATTCTATTACACGTATGGCCCGAGCATATAACACGGTTATTCCGAGTTCAGGAAAAGTTTTAACAGGAGGGGTAGATTCTAATGCTTTACAGAGACCAAAAAGATTTTTTGGTGCCGCAAGAAATATTGAAGGGGGAGGTTCTCTTACAATAATAGCTACGGCTTTAGTTGATACAGGCTCTAGAATGGATGAAGTTATTTTTGAAGAATTTAAAGGAACCGGAAATTCTGAAATTTTATTAGATAGAAAATTATTTGAAAAAAGAACTTTTCCAGCAATGGATATAGCCAAATCAGGTACCAGAAAAGAAGAATTATTAGTAGATGGACCAACTCTACAAAAAATGCATATTTTAAGAAGAATTCTTTTGCCAATGGGAACTAGCGATGCTATGGATTTTTTAATTGATAAATTGAAAGCAACAAAGTCTAATGCAGAATTTTTTCAATCTATGGGATCTAATGGTAACGGAGATAGAAAATAACTAAATTAATTATAAAAAAAATTAAAAAAGATCAAGATGTTATCTCATGTAAAGGTGGGGAAAAACATGATGGACATCCAGCAGTATATTATAATTTTGGAAATAAAAAAAAAATTATATGTCAATATTGTGGAATGGTTTATTTGAAATCAGACTAGAAAAATAAATTTGTTTTGTTAAATTAACAGTTATAGATTTTTCTAATTAAAAAAAAATTGAAATTAAAACATCATAATAGATACCCATATTCCTCGATTGTAAGTAGAAAAAAATTTTCTTGGCCAAAAAAAAAAAAATTAGCTTTTTATATAGCTATGAATATTGAAAGATTTTCTTTTGGTGAAGGAAAAATACACACACCGTCATATACCACACCACAGCCAGATGTTAGAAATTATGGTTGGACAGCATATGGTTTAAGAGTTGGTATTTGGAGGTTTTTTGATTTGATAGATAAACTCAAACTTCCTGCTTGTCATTTGGTTAATTCTTCTGTATACGATCATGGGCTGGAAATAATTAAAAGAATTAGAAAAAGAAAAGATGAAATAATAGGTCATGGGAGAACTAATGCTGAAAGCCAAGGTGATTTATCTTTAGAAAAAGAAAAAAAATTAATAATTGAAGCTACAGAGGCTATAAAAAAAAATGAGGGAAAAAACCCTAAAGGATGGATGGGACCATGGATTTCAGAAAGTCATCATACACCAGATATTCTTCAAGAAAATGGTTACAAGTATTTGATGGATTGGCCAATGGATGACCAGCCTATTTGGATGAAAACAAAAAAAGGAAAAATTTTATCAATACCTTATCCTGTTGAAATAAATGATGCTCCAGCAATGCTTTATCGTCATCATACACCAGAACAGTTTGCTAAAATGTTTATGGATCAATTAGATGTATTATTAGAAGAATCAGAAAAATATCCTGTAGTTTGTGGTTTGTCTTTACATACTTTTATAGTCGGCCAACCATTTAGATTTAAATATTTAAAAAAAATGCTTGAATATGTAAAAAATCATAAAAAAAAAAAAAATATATGGTTTACTAGACCAGGAGAAATTTCAGATTATGTTTATAAAAAGAAAATCAATAAAACAAATTGAAGAAGGTAAGGAACTAGCACCTAAATTTGATAAATATGGTTTAATTCCTGTTATAACTACTCACTTTAAAAATAATAATGTTTTAATGCATGGATATATGAATCGTTTAGCATTAAAAAAAACAATAGAAACAGGAGAAGTGTATTATTGGAGTAGATCTAGAAAAATGATGTGGCACAAAGGAGCAACTAGTGGATTTATTCAAAAAGTAAAAGAAATGAGAATTGATGATGACCAAGATGCTATATGGGTTAAAGTTGAAACTAAAGCAAGCTGTCATGTTGGTTATAAATCATGTTTTTATAGAGCTGTTCCTATTAAAAAGAAAAAAAAAATAAAAATGATATTTAAGGAAAAAAAGAAATTTTTTAATCCGAAAAAAATATATAAGGGATTAACAAATCCTACAAAAATTTAATATTTTTTAATGAATAGAATCGCTTTTATCGAATGCTGATAAATTTTGTAAAAATTTTATTAATAGTTCGATTCTTTTAGATGAATTATCACATTCTATAATACTTTGATTTTCAATTTTAGAAAAAGCAATTTCTTTAGCAACTATTTGAATTATTTCATTGGTTGGTATTTTGTTTAATTGTTTTTCAAAAAAATTTATATTTAATGTTTTTATGTAATTTTTAATATTTTGAACAAGTTTTTCTTTTAATTTAGTGTTAATTTTTTTTTCTTTTAAATCGTTTTTAAAATTAGTCCAGTTAGGAACAATTCTTCTATATCCATTTCTTAATGACAGTTCTTTTTGTATTTTAAATCTTGATACTCCCTTTAATACAATTAAAAATTTTCCATCAGTAGTTTTTTCGTAATAAATAATTTTTCCAGCACAACCAATTTTAAAAGTTTCATTAAAATTATTATCTTTTGAATTTGTGAGTTGTATCATCCCAATAAGATTTTCTTTATTAATAGTATCAGTTATCATATTTAAATATCTTGGTTCAAAAATGTAAAGAGGCAGATTTACTTTAGGTAGGAAAAGAATATTTTCTAATGGAAATATCGGTAATGTTTTAGGTAAGTTATTCATAATCAATTAATTATAGTTTTTGATTTTATAATCAACTGAGAAAAAAAAATAGCCCTAAAAAGTAGGGCTATTTTTATTTTTTAGACTTCAGCGCAAGCATAGCTATTGATTTCAAGACCAACAGCCACTTCTGCGACTTTAGGTGTATACCAAGTCATAATTACCTCCACTGATAATTATTTCTAATTTAATTTATAAATATGGCAAAAAACTGGTTAATTGATTGATATTTTCGATTACTCTTAAAGGAAGAATTCATTACAAATAAAAATTTTTTTTTGTAAAGTAACCATATTTTAATGAGTCTTAGTACGTATTTGCTATTTTTCTTTAAATTTAAATTATGATAAATAAATTTCACACGGTAGTTATCGGAGGAGGTTGTTTAGGAGTTGCAAGTGCAATTGCTTTATCGCGTAAACTTAAAAATAAAGGAAATTCTGTATGTATATTAGAAAAAAGTGTTTTAGCAGGTGGGATAAGTTCTAGACATAGTGGAATTATAAGATCAGCAAATGCTTCTATTCAAGCTGCTACTTTTGCTGAACAAGCTAACCAAATGTGGCTAAATATACATAATCATTGGGGTGTTGATATTAAACCAGAAAAATCTGGAGCAATATGGATTGCTAGAAATGATAAAAAGGATGCGGCCAAAACTTGGAAAGATTTAGAAAAAAAACTTAATAAAGCCAATATTGATTTTAAGTGTATTAAATCTAAAGAGATTAAATCCTTAACTAATAATTTAATAAGAATAGATGAAGAAAATGAATTATATTTTTATGAACCAAATGCGATGCTTTTTGATCCAATTGATGTTAGAAATGCAATGTATCACGCGTTAGAAATCAATAATATAAAATTAAAGGAAAATACCCGAGTAACTGGCTTTGAATTAAAATCAGGAAGAAAAATTTCAAAAATAAAAACTAATCATGGAATAATTTTAGCTGAAAATGTAATTAATGCTGCAGGAGGATGGTCACCACAAATTTTTGATAGTATAGGAGTTAAAATACCTGTAAGTTTACAACCTGTTTATGTTTCTAATTGGTTAATTAGTAAAAAAAAATTACCTTATAATTTTCCTATTATTGCTGATTATATTAATTTATCCTATTTTAGATCATGGAAAAATGGTGAATTACATATTCATCAACCAAGAGATAGATCTCCTGCTGCAATTGCTAGAAGTTTTGCTGAAGAACCTACATCGATGAAAGGTGCAGATGTTTTTTTTGATTCTTCAAATTTTACAGCATCTTATTCTGAAACTAATAAATATTCTGAAATGATTAGAGATAGATTTCCGCATACCGCTCCGTATATTTTTAATGGTGGATATATTACTTTTTTTGATATTACTCCAGACTTAAAATTTATTTTAGGCAATGATAAAGATATAGGTAATTTGTTTCATTGTTTAGGTGCTGGACAAGCTTTTAAATATTCGCCTATATTTGGGGAAATAATTTCTGATTTAATTCTTGGGAGAAAAACAAAAATTAAAAATTTTAATTTAAAAGAATTTTCAATAAAAAGATTTTACAAACCTGAAATGAAGAAATTTTGGGATGATGTTCATGGATCTAAAAATACTTTAAGAGTTAGAGAACAGGCTGCAGTTTAATTTTTATCCTTTTTATCTAAATCTTCGTAATCAGCATTTATAATTTTTTCTTCTTTTTTTATCTTCTTTTTTGCGAGTATTAAATAAATAAGCAAAACGATGATTAATAAAGTGAATATAACTATCAATGATTTCATATTTTAATTATTAATCCTCCATTTAGTTCCAATCGGAGAATCTTCTAAAATTACTCCTTCTAATGCAAGTTCATTTCTTATTTTATCAGCTTTATTAAAATTTTTTTCTTTTCTTGCTTTATCTCTATCAGAAATTAATTTATTTATTTTTTTTTCATCTAGATTTTTAATTTTTTTCTTTTGATTAATCCATTCAGTTTTTGTTAACTGTAATATTCCTAAATAATTTGCAGCAGATTTTAATTGATTTTTATTTTTTAATAATCCATATAATTCTTTAAGTGCTTCCGGTGTATTTAAATCATTTAAAAGCGCATTAAAGAATTTTTTTGGTGGTTGGATATTTTTAAAATTTTTTTCATCACCAATTACGTTATAAAGTTTTTCTAAATTTTTATTTGCTTGAGATAATATTTTTTCATTCCAATTTAAAGGTTGTTTATAATGAGCTGAAAGCATTGCAAGTCGAATAGTTTCACCTGTGTGTTTTTTTAATATATCGTTAATTAAAATAATATTACCTATTGATTTAGACATTTTTTCTTTATCCATAGAAATAAATCCATTATGGATCCAATATTTACTTAGCAATGCTCCATTGTGAGCACAAGTGCTTTGAGCAATTTCATTTTCATGATGAGGAAAAATTAAATCATTACCTCCTAAATGTATATCAATCGTTTCCCCTAAATAAGCTTCTATCATACTAGAACACTCAATATGCCAACCAGGCCTTCCTATTCCCCAAGGACTGTCCCATCCCGGTTGATCTTTTGTAGAGGGTTTCCATAAAACAAAATCCATAGGGTCTTTTTTGTATGGAGCAACCTCAACTCTTGCTCCGTCTATCATTTCTTCCCTTTTTCTTTTTGATAGTGCTCCATATTTTTTAAATGAAGGTACATGAAATAAAATATGATTTTCTGCTTCATAAGCATTTTTTTTTTCTAAAAGAGTGGAAATCATTTTTATAATAGAATGTATATTTTGAGTAACAGTTGGTTCTATATCAGGAGGTAATACATTTAAAGCGCGCATATTTTCTTGGTAAATTTTTGTATATTTTAATGCAATTACTTCTATTGAAACCTTTTCTTCTTTTGCTTTTTGATTAATTTTATCATCAATATCTGTAATATTTCTTACATAAACAACCTTTTTAAAATTATTTCTTAAAATTCTGATTAATATATCCCCAATGATTGCTGGCCTTGCATTTCCAATATGTGGATGATTATAAACTGTTGGTCCACAACCATATACTTTTACTGTTTCACCTAAAGGTTTAAAAGGTTCTAATTTTTTTGATAAAGTATTAAATATTTTTAAATTCATATTATTGTAATGTTATATCTTATAATAAATTATGAA
>sequence07
TTAATATTACATTCTCCTTTTTTTGCAACTAAACCTTTATTATCATATTTTTTTTTTAATTTTAATGAAATCCAATCATCAATTAAAGAACAGCATGGACCAACATCAAAAGCAATTATCTTATTTAAACTTTTTTTTAATTTATGATTAAAATTTGTTAAGTTTGATATACCTCCAAGATTTATAAAGCATATATTCTTCTTTATTTTTTTAGTTAAATAAAAATGAAAAATAGGTGTTAAAGGGGCTCCTTGTCCTCCTTTACTAATATCATTACTTCGAAAATTACCAACTACTTTTTTATTAAGAAGATTTGATAGTTTTTGCACATTTCCAATTTGTAAACTATATCCATTGTCAGGATTATGAGAGATAGTCTGTCCATGAAAACCTATAACATCTATTTTATTAATATTAACTTTTTTTTTTTTAAGAAACTTTTTAATTATTGAATAATTCATTAAAGTAAATTCGTCTTCTATTTCAATGATTCTTTTTTTTCTTTTATATTCATTAAAATTTATTTTTTTTTTAAAAATACTTTTAATTTTTTTACTAAAGGAATTAGTAAATGGATAATAATCTGATGTTTCCATTTTTATTTGTTCTTTACCATTTGTTTTGATTAATGCAATATCAACACCATCAGCAGAAGTACCGCTCATTAATCCGATAGCATTAAATTTCTTTGTATTTATCATGTATTAATTTTAAATTATAAATAATAAAATATTTTTAAAGATAGGATATTATATTGATTATAAAGTTTCTTTTAAAAATTATAAAAAAAAATGAAAAAAATAAAATCTAAACTAATTAAAGAATTAAAATCAAGGGGATATATACATCAATGTACAAATATTGAAAAATTAGATCAATTAGCTGAAAAGAAAAAAATAATAGCATATATAGGTTTTGATTGTACTGCTGAAAGTCTTCATGTGGGAAGTTTAATTCAATTAATGTTAATAAGAATTTTACAAAAAGCTGGACACCAAGTAATAGTTTTACTTGGTGGAGGAACCTCAAAAATAGGTGATCCTTCTGGTAAAGATAAATCAAGACAATTATTAAATGAAAAAGAAATTAAAAAAAATTCTGAAAATATTAAAAAAAATATAGAAAAATTTACTATAAAAAATAACGATATAAAAAAAATTAAATTTCTCGATAATTCTCAATGGTTAGAAAATATAAATTACATAAATTTTCTAAGAATTTACGGAAAAAACTTTTCAATCAATAAAATGTTAACAATGGATAGTGTTAGTGAAAGATTAAAAAGAGAACAACCTTTATCATTTTTAGAATTCAATTACATGATAATTCAAGCTTATGATTTTGTAGAATTAAATAATCGTGTAAATTGCAATGTACAATTTGGTGGATCAGATCAATGGGGTAATATAACCGCAGGTGTTGATTTGATTAGAAGGATAAATAATAAAGAAGTATTTGGTTTTACAACACCTTTAATTACAACTTCTTCAGGAGAAAAAATGGGTAAAACAAATAAAGGGGCTGTATGGTTGAGTGAAAATTTATTATCTTCTAATGGATACTGGCAATTTTGGAGAAATGTTGAAGATAATGATGTTATAAAATTTTTAAAATTGTTTACAGAATTACCAATTGAAACTATTAATAAATTAAAGAATAATTCTAGCTTAGAAATTAATAAAAATAAAAAAATTTTAGCTGATAAAGCAACTAATTTATGTCATGGAAAAAATTTAGCTGATAGTTTTACAATAAAAAAAAACGATATAATTAAAGGAGTAGAAGCTTACAAAATAATTAGTTTAAACAAAAAAATTATTCAGAGTAATAGTGAATCAAGAAGATTAATTAGAGGCAAGGCAGTTAAATTAAATCAAAAACTAATTACAAATGAACTTGAAATTATTTCAGAAAAAAATATTAAAAATAATAAAATTGAAGTATCAATTGGTAAAAAAAATCATTTTACAGTTAAAATAATTTAATTTTCTTTTTTTTCCTCAGATTTAAAAACACTAAAAAACTTTTGAATAAAACCCGGAGTAATAGTTTTTAATGGATTAACATTAACTTCTGGTTCATCTAAATTTCCAGTAATAGTATAAATAAAGGACCAAATACCTTTTCTTTCATTTGTTAAAATTTTTCCTAAAACTGGGATTGAACCAATTATTTTATTAAGAGTTACCATAGGTATAATAGCGCCTTCTAAATCAATTTCTTTTTTTCTTAAATAAATTTTACCTTGATTAGAAAATCCTATATCAGGTCCATAAGCTTCATATTTTTTTAAATCTAAAACACCCTCACTTAATTCAAATTCAGATTTTAATTTATTTATTAAAATTCCTTCTCCTGATAAAGCTGAAACTATTCCTATAGATGCTAAATTTAAAATAGTTGCAAGTGTAGGAGCTTTAATTAATCTCATATCTCTTATAGTTACATTTGCTGATAGAGGATGACTAGTTTTAGTATCATCATAATTACCATGCAAAACAAATTCCCCTCCTTTTCCACTTTTATTTATATTAAAAGTTTGTAAAAATAATCCTGCATCATCTGAATTAATAGTTAATTCCCTTGAGTCAATTTTCGGAGTAATAGATATTATAAATTTTTTTTGATTACTCAGTTTTGAATCTAATTTTACATCATTAAATATTTTTTTTTTATATTGTAAAATTGCACTAGTATCATAAATACTTTTTTCTTCTGCAACTAAAATTTCTCTAGCATTTAAATTAATATACACTGGCTGTAATTTATCTAAAAAACTTTCTTTTTCTTCATCTTTATCAAAAAATGTTTCTTTTAATGTTTTAGAAAAATCAAAATAATCTCCATCTAAATCTAACGTATTAATATCTTTCTTACGTAAAAAATTAAGGTTAATATTTTTTTTATTTTTTGTTTTTGTTTTTACTTTAGCACTTTTAAAAAGTTTATTTGCATAATGTAATGATGCATCAAAATTATAAAAAGTTTTATCTTCTGAAAAAAATATTTCTTTTGCTTGAATATTAATATTTATCGGCTGTAATTTATCTAAAAAACTTTCTTTATCTTCTTTGTTTGAAAAACTATCTTCTATAATTTTTGAAAAATCAAAATAATCTCCTGCTAGCTCTAATTTACTTAATTTTTTATCTCTTAATATTTTTAAATTTATTTTTTTTTCATCCTTTTTTAAATTTATTTCTAAATTTTTATAAGGTTTAAATTCTTTTGAAAATTTTATCAATGCATTCATTTCATTTTTTTCCTCATTATAATTTAAAATATTTATTTCATCTAAATTTCCATTTACAAAATTAAAATCTATTTCAGCAGTTGCATTTATACCTTTTTCTTTTTTTAAATCTAAATATGGTATATTTAATTCCGTTTCTATTAATTGATTAGAAGTTTTTATTTTTTCTTTACCTTCATCAAAAATAAAATACGTTGAATCTAATTTAATAGTACCTTTAATATATTTTGATATATCAAAACCAAAAGATTTTTCTATATCACTTTCATTTATAATTCCAGTTAAAATATATTTACTTGCAAATTCTTTTTTATTTTTATAATTTTTTTTTCCCTTTAAAAATATATCTACTCCGCCTAAAATAGCATTACCTTCTATATCAAAGTAATCGTTAGTAACAAGAAACTTTAAATCTTTAGCTTCTAAATCTAAATCATAAAAAATTTTTTTTCTAAATAACTTCGTTAAACTTCCATTCGCTTTCAAATCTTTTAAATTTAATTCAGCATAACCTTCGTAAAAGTCTTCTTCAATACTTGTTGAAAATTTATCAACAATTATTTTATTATTGTTTGGAGTTAAATTACCTTTTAATTTAATAGAATTTATTTTTAGTTTATTACTAAAAACTGATGGCATATCTATAAAGCCATTTGAAATCTCAATTTTATTTGTATCCAATTTTCTTTCCGTAATTAATGGCAGAAAATTAATATGGAGTTTTAAATTATCGAATTCAGAAATTTTTTTATCATCAATTGAAAAAATACTAAATTGTTTACCGTTAACAATAATTTTTTTTTCTGTTTTATCAAATTTAATTGTTGGATTTTTTATTGATGTATAAAATTTTTCAGACTTAAATCTATCATTAATAAAATTTTCTAAATATTGACTTGAAAATTCCCCTTTATTCAAGATCCATGCCATATAAATCAAACTGGAAATTATTAATAAAATTATTAAAGAAATAAATGTTTTAAAGATTTCTTTCATTTTTTTATAATTATTTTTTAAATAAAGCTGCTTCTAAAAAAATATCAATATTACCATCTAAAACAGAATTACAATTAGATACTTCTGTACTATTTCTAAGGTCTTTAACCATTTTATAAGGATGCATTATATATGATCTTATCTGTCTTCCCCAACCAATTTCAGATTTATTTTCATTATTTGAATGTTGTTCAATCTCCTTTTTTTGTAACTCAAGTTCATAAATTCTTGCTTTTAACATTGATAAAGCAGTTGATTTATTTTTGTGTTGTGATCGATTGTTTTGACATTGAACAACAATTTTAGTTGGTAAATGCGTAATTCTTACTGCGCTATCAGTTTTATTAACATGTTGCCCTCCAGCTCCGGATGCTCTATAAGTATCAATTCTTAAATCTTTATCTTTAATTTCAACATCTATTTGATTATCAACTACAGGATATACCCATACTGAAGCAAAACTTGTATGTCTTCGAGAATTAGAATCGAATGGTGAAATTCTAACTAATCTATGTATGCCAGATTCCTTTTTTAACCAACCATAAGCATAATTACCATTTATTTCCATAGTCAATGATTTTATACCAGCCTCATCTCCAGAATTTTCTTCTAAAATATTAAAAGTAAATTTTTTTTTTTCACACCATCTGGTATACATTCTTACTATCATTTCAGCCCAATCTTGCGCCTCTACACCTCCAGCACCAGAATGTACTTCCAAAAAACAATTATTGGGATCAGCCTCTCCAGATAAAAAGTTTTCAAATTCTTTTTTTTTTATTCTTTTAGATAAAATTTGAATATTTTTTTTTATATCAAGAATTAATTTTTCATCATTTTCATTTGTTATTTTTATTAACTCATTTAGTTCTTCATATTCTTTTTCTAAATCTAAAAAAGAATTAGCTTTATTTTCTAAAAAATTTTTTTCCTTTATTATAGATTGGGCTTTTATCTGATCGTCCCAAAAATTTTCTTTTTGAATTTCAAGTTCTAATAACTTAACTTTCTTTAAAATATTATTTAAATCAAAGACCCCCCCTAAGATTTTTCAATGATATTTCCAATTTTTTTAAAATATTTATTATTTCTTTTTTAATCATTTAATAAAGACCTCCAAGTCCTTGTATGTTTGAATTTGAATAATTTCCAAAATCGTTCTTTTCAAATTCTTTATTTGAACTAAAAACTTCAAAAATAATATTTTTATCATCTTTTTTGGCAAGTTCACCAGTTTTTAAATTTATTTTTACTAATTGAGCCTTTGAAGGTATTCTAAAAGGAACACCCTTCTCATCTTTCAATGCCATATACATAAAATCTCTAAAAATTGGTGAAGCTACACTTGCTCCAGTTTCTCTAGGACCAAGTGATTTTGGATTATCAAAACCCACATAAACACCAACAACTAAATCAGGTGAAAAACCTATAAACCATGTATCATTACTATTATTTGTTGTTCCTGTTTTTCCAGCAAGTGGTTTTTTAATAACTGAAACTTTTTTTCCAGTGCCTCTTAACACAGCACCTTCTAACATTGATACCACTTGATAAGCATGGACAGAATCTATTACTTCTTCACGACTATCAACAATTTTTGGATTATTTATAAAACCTACATCATCTCCATTACATTTCAAACAAATACTATTATCATGTTTATCAATTGTTTTTCCATTTCTACTTTGAACTCTATCGATTAATGATGGGGAAATTTTTTTACCTCCATTTACTAACATTGCGTAGGCTATAGTCAATTTTTCAAGTGTTGTTTCGCCAGCACCTAGTGCCATTGATAATACAGATTCCAAATTATCATTAATATTTAATTCTTTAGCTCTATTCACTATAGATTCTATTCCAATCATTTGAGCTAAACGTATAGTCATCAAATTTCTTGATTTTTCTAAACCTAATCTCATTGTACTAAGACCATAAAATTTATTTGTATAATTTGATGGACTCCATTTTCCTAAATCTGCCCCTTGATCAATTACAAATGGAGCATCTAATATTTTTGCATTTGGGCTATGTCCTTTTTCAAGTGCAGTTAAATATACAAAAGGTTTAAAAGCAGAACCAGGTTGTCTAAATGCCTGTGTAGCACGATTAAATTCACTTTTATTAAAACTTATACCTCCTGACATTGCTAAAATTCTTCCGGTATGAGGATCTAAAGCTAATAAAGCACCATTTATATCAGGGAATTGTCTTAAATAAAAAAGATTAAGTTCTCCATATTCAAGAAAATCTTCTTTACTATTTTTTGCTTCTACATAAACAATATCCCCGATTGTAAGAACATCACTAGGATGCTTTATAGGAGGTCCAAGATATTGATTTCTCCTCCATTGTCTTGCCCATTTTAAATCACTTAAATTTATTCTTCCATAATTATCATTTTCAAAATGAATATTTATACCTGCATTATCTATGTGTATAACAACTGCTGCTTCCCATTTTGGAAAAGCTTCTGGTATCGATATTAAAGATAAATCATTTTTTAAATTTGATTTTTCTATATCAACATTTGCTAAAGGGCCTCTCCATCCATGTCGTTTATCATAATTTAACAAACCTAATTTAAGTTTTTCATCTGCAATTTTTTGTAATCTCGGATTAAGAGAAGTTCTGACTGTAAGACCACCTTTATATAATTTATCTTCACCATACTTATCAATTAATTGTTTTCTTACATCTTCTAAAAAATACTGAGCTTCAACAGGCTTTAATTCATTTCTTTGATTAATATTTAATTCAGAATTTTTTGCTTTAGTAGCTTGATCTTTAGTTATTATCTTTTCTTGCAATAATCTTTTAATAACCCAGTTTCTTCTACCTAACGCAGCATTTTTTTTTCTTATTGGGTGATAATTATTTGGTGCCTTAGGAAGAGCCGCCAAAAATGCTGCTTCTGATATAGTTAATTCATTAAGTGATTTATTGAAATAATTTAAACTAGCTGCAGCAACTCCATATGACCTAAATCCAAGATAAATTTGATTTAAATATAATTCTAGAATCCTATTTTTATCTAAAATTTGCTCAATTCTAAGAGCTAAAAGAATCTCTTTTATTTTTCTTTTATAAGAAACCTCTCTTGATAAAAAAAAATTTTTTGCGACTTGTTGAGTTATAGTAGATGCACCTTCTGGTCTACCACCTAAATTATTTATATTTCTTTTTAATGCTCGGACAATGCTTGTTAAATCTATGCCAATATGATTATAAAAATTCTTATCTTCAGCAGATAAAAAAGAATCTATAACTATTTTTGGAATTGACTCTAAAGGTACAAAAGATCTTTGTTCAGCGGCATATTCTGAAATTAATCTACCATCTGAAGCGTATACTCTTGTTACCATAGGAGGTTCGTAATTAATTAATTGTTCATGATCTGGAAGATCGAGAACAAAATTCCAAACAATAAAAAGAAGTAAAATGAAAAAAGCAAATAAAGATATAAAAACAGAAGAAAAAATAGTTATTAACTTTTTTAAATTTATCATTTTTTCAATATTCTATTAAATTAGAAATTATTATATTATTATTTAATTTTATAAAAAAGTTATTATATCTATGCTATAATAATACATTATTATAACGAATATATTTATTATTTATTCATGAAAAAAAAATGCAAAGATTTCAATATAATTTAATAGCTAGTAATTTTAAGTTAATTAATTTAAAAGATATTTTTATTTTTTCAAAAATTTTTAAAAGGTTTGTACAAAAATGGACAAAAGAATTATTGTTGATTCTTCATTTAATGAAGAAACAAGAGTTGCTTTTATTAATGGTTCAGAAATTGAACATTTCGAAGTTGATACTTCTTCAAATAAAAAACAATTAAAAGGCAATATATATTTAGCAAAAGTAAGTAGAGTTGAACCATCATTACAAGCAGCTTTTGTAAATTATGGTGGAAACAGACAAGGCTTTCTTCCTTTCACTGAAATAAGTAGAGATTATTATAAAATTCCTGAAGCAGATAGAACTAAAAAAAAAAATGAAGAGTTTGTTGTAAAAGACTATTATAGAGACACACCTGAAAAACAAAAAAAACAAGTTTATTCAAAATATAAAAATTATAAAAGATATAAAATTCAAGATGTAATAAAAAAAAACCAAATCATGCTGGTGCAAATTGTTAAAGATGAAAGAGGTAATAAAGGGGCTGCATTAACTAATTTTTTAAGTATAGCGGGAAAATACTGTGTATTAATGCCTAACAAATCATTTGGAATAAAAATTTCAAAAAAAATCAGTGATTTTAAAGAAAGAGATAAACTAAAAGCAATTGCAAATAGTTGTGATTTAACTGAGGAAATGGGAATGATTGTTAGAACTGCTAGTAGAGATTGTGATGAAAAGAATCTAAAAAAAGATTTTGATTATGTATTAGGAATTTGGAAATCAATTAAAGAAAAAACAATTAATTCATTAGCACCGACAATAATTAATGAAGATTCTAATATTGTTAATAAATTTATAAGAGATAGTTTTATTGAAGAATATAAAGAAATTATTATTGATGGTCAAAAAACGTTTGAACAAGCAAAAAAATATATGAAAACATTATTACCTGAACAAGAAAAAAAAATAAAAGAATATAAAAATACAAAACTGTCTGTTATGGAATTTTATGAATTAGAAGATAAAATAAATTCTATATATGATACTAAAGTAAGATTAAAATCCGGTGGGTACATTATAATTAATTCTACTGAAGCATTAACAGCAATTGATATAAATTCAGGTCAATCAACTAAAGAAAGGAATGTCGAGGAAACTGCTTTAAAAACAAACATTGAAGCTGTAGATGAAATCTGTAAACAAATAAGAATTAGAAATATTGCAGGTTTAATCGTTGTTGATTTTATTGATATGGAAATAATTAGAAATAAAATCATTGTTGAAAGAAGATTAAAAGATACTCTCAGATATGATAGAGCAAAATGTCAAATAGCAAGAATTAGTAAATTTGGATTATTAGAATTATCTAGACAAAGAATTGGGCCAAGTTTAGAAGAAACAACTATGGAAGATGAAATAATATCCGGAATAAGATGCACAATAAGATCAACAACTTCTTCAGTGGCAAAAATATTAAGAAAATTAAAATATTTAAAAATTGAAAAGAAAGTTAAAGAAATAAATGTTTATTTATATAAAACGCTAAATGAATATATTTTAAAAAATAATAAAGAATTTATAAAAGAACATGAAAAAAAATTAAAAATTAAAATTAATTTTATTGAAGATAATAATATTGCACCTCCATTTTTTATTATTAAAACAAAAGAATTAATAAAAAAAAAGAATGTCATGAATATAATTTATGATGATATTCCAAAACTAGTTCCAGAAGATGAAAAAATAGATATTAAATTAAGAACAAAAGAAAAAGAAAAAATTAAACAACAAGATACAAAACCTAAAAAAAAAGAAAATAAAAAAATTAAAATAATTAAAGAAAAAACAATTGAAGATAAAACTTTGGTAAAATAACTAATAACCTAGATTTTCATTTTTTTTCTTATTTCAGTCGCTGATATTCCTTCTATTTCTTTGGATAAAGAAATTTTTTCTATTTTATAACCCACTCCTCTTCCATAACAAATATTTGTAATATTTGGTACTTTAATAACTTCAAATTTACCTTCATACTTTTTCAAAGCGGCATCAATATTCATTTTAACTGTATTAAAATCAAAGGGATTTGAGTCATCAGTTCCACTTGTATCTCTTATCATTATTATTACTTGCCCTGTTTTTTTTAAAATTTCTTTAAACAAAGTTTTGTGCCCATCATGAAAAGGTTGAAATCTTCCTAACATTTGTGCAGTAGGTTTTTTCCAATTAATAGTCATCGTTAATTACTCTTTCTATTACATGATTAGCCCAATATTTTGCATTTTTAGATTCAATTCTAAAATTATATTTTTTTGGTTTTTGAAATATTTTATTCGTATCTTTAAATCTTCCACTTTTTTCTGTATCCATCCAAATTATTATATCTGGATCTAAAATTTTTCTAGTTTCTGCTAAAGGACAAACAAAGTCAGCTAGAGGACTAGTTTTTTGTGATATAATAAAATTTGAAAATCTTTTCATTCTATCAGCTTGTCTTAAACGACCTTCTTCAGAAAAATCCCAGTCATTAAAATATTTTCTTATTTCATCAGCATTCAAATGTATAATTGGTAGATTTTTTGCTAATTCTTTCGATAAATATGTTTTGCCAGTTCCTGGTAACCCCATAATTAAAAATTTTCTTGGTTTTAAAATTAATTTATTTTTAACAATAAATATTTTCTTTTCTAATTTATTATTAATAAATTCTTTTTCTTTTTCTAAAAAAAGCATATTTTTATTTACCTTTTAAAAAAAACTTCTTAATTTTTTTAAATTTATTATAACCATTGACATATTTTCCCCAAAAAATACAATTCCAACCTCTTTCATGAAAATAATATAAAAATGTTTTGGTTAATATTTCTAAACTTGCAATCGAACTAGCCCATGAAATTTCCCCAGTTATAAACCAAGCTATCACAAAAGTATCTAAGCTGGCAATTATCCTCCAGGTAATAGATTTTATTAGAGACCTTTTTCTTGATACTGAATAAATCATATTATTTAATTAAATAGAAGGATTAAAAGTATGAATTCCACATTCATTCTTTTTAAAATTCTTCCACCTCCCTGATCTTATACTTTCATTATAACTTGCTTGATTTGTACATGAAAAACACCCTATTGATTTAAAACCTTTTTTTACCAAAGGATGTTGTGGCAAATTATTCTTTTTAATATATTTATTAATTTTTATTAAAGACCAATCCGCTAAAGGATTAATTTTTATATGATTATTTGATTTTTCAATTTTATTAATAAATTCTCTTTCAAATCCATGAATACGCTTTCGACCGGTGATCCAAGCATCGTAATTATTTATTATTTTTTCCAAAGGAAGTACTATTCGAATTTCACAACATTAATCAGGATCTTTTTTAATCAATTTCTCGTTTGGATCTTTTTTTTTTAAATCTTTATTTTAAGTTTTTAAAGTAAGAATATTTTTTAATTTAAGTAATTTTTTGACTCTTTTTTCATAATCAAGTGTTTCAGGAAAAAGTTTACCTGTATTAAGAAAAATTATTGGAGTATATGGATCAATTTTTGAAATCATATGAAGAATTACAATACTTTCACTTCCAAAAGAGCTTGTTAAAACTATTTTTTTTTTAAAAACTTTTTTAATCATTACTTTTAAAAGATCTATTGAATCTAATTTAGAAAATTCTTCTGAAAGTTTTTGAAAATCACTATTATTGAACATTATCTTTAAGAACCTCTTTAATTTTATTTAATTGTTTTTCCGGGCCTACTCTATTACAAAAATTTCCTAAACTTTCTTTTATCTTTTTATTTTCTTTAAATAACAAAAAAATTTGTTCTAGTGCTTTTAATAAATCATTATATGAAACTTTGTCTAAAATTTTTGAACTGAGCCTAGACCCTTCAAAATCACCTCCTGAAAATAGTGCGTATGTTTTTGGTGATCTACCAACAATTCCTATATCACCGGCATATGGTCTTGCACAGCCATTAGGGCACCCAGTAATCCTAATACTAAAAACTTCATTTTCTAATTGATGTTTAAGCAAAATATTATCTATTTTAGTAATTAGTTCTTCCCTTACTCTTTCTGCTTCTGCAAGAGCTAAACCGCATGTAGGCAATGCCGGACATGCAAGAAACCAACGATTAATTGAAGAAATTTTTTTAATAATCAAATTTTTTTTTAAAATTAATTCTATTAAATTCTTATTTTTTTCATCTATGTCCCCTAGAAAAATATTTTGATCTGTAGATAATGTAACTGAGGGTTTAAAATCTTTTATTATTTCTAAAAGTCCGGATTTAATTTTTATATTTCCATTATCAACAATTCTGCCAGAAGGGATAAATATACCTATATACCATTTACCATCTCCTTGAGGATGCCATCCTAAATGATCAACAACTTTTAAATCATTATTATTTGGTTTAGAAAAATTCTTTTTTAAATTTTTCTCAATTTTTTTTTTAAACCAACTGATACCTTTTTCATCAACTAAATATTTTAATCTGGCATGTTTTCTATCTGATCTATCTCCAAAATCTCTATGTATAAATACAATTTCTTCTAATATTTTAATTAAATCTTTTTCTTCACAAAATAATAAAGGTTTTGCTAAATATGGAAAAGTTTTAGGATTGTTGTGTGTCATTCCTAACCCACCTCCTACAGCAATGTTATATCCTAAAATTTTTTCATTTTTATAAATTAAAAAAATAGCAATATCGTTGGTTAAAACATCTATAGAATTATCATCATACGTTGTAATGCCGATTTTAAACTTTCTAGGCAAATAATTTTTTTTATAAATCGGTTCTTTTTTAGTAAATTCATATTTTTCACCATTAATCCATATCTGACCGTAGCTTGAACTTTTAGGAACAAAATATGAAGATATTTTATTAGCATCTTCTCTTAATTTTATATGAATTTTATTTTTAATAGGAGCAGCTATAGTAGTTACATTTCTAACAACATCTCCGCATGCTCCATATGTTGTCAAAAAAATTGAACTAACACTTTTAATAATATTTTTTAAATTATTTTTTAAGATACCGTGAAATTGGAATGTTTGTCTTGTAGTAATTCTTAAAGAATTATTTGAAAACTTTCTTGCTAAATTATCTAATTCTATATATTGATCTGATGTAAGCTGGCCACCAGGAATTCTAGTTCTAATCATAAAATTAAATTCTTTTTCTTTACCTTTTTTTTTTAAAATTGTTGCTGTATCTCTATTGTATTGTTGATAAGTGCCATGAAATTTAAGTAATTGTATTTCATCTTCTTCAAAATACGAATATGAATTATTTAGTTGGTTAGCAATCTGTCCAGCCAAAAAATCACTATTTTTTTTTATTTGTTCAACTTTAGATAATACGGTGCTGTTCATAAATTTTTTTCTCACTATTTAAAAATATTTTTTTATTTTTTTCCTTTTGATACCAATTTAAAATAGGACTTAATAAAACATTCTTACCAATAACCAATAATGCTGGTGTGCCTATTTTTTCTAAATCTATATCTTTAGAAAAATTAATTAATGTACTAATTAAAATTTTTTGATTTATTTGAGTTGCGTTTGAAATAATGGCAATATTTTCATTTTTATCTCTTCCGCTACTTATTAGTTCAGAACAAACCCATTTAATTCTTTGTAAACCCATATAAACAACTACTAATTGAGAGGTTTTAGAAAAACTTTTCCAATCTATAGTATCTGGCTTTTCACCGCCGGCACCATAGGCTGAAACAAAAGTTATTGAAGTATTAAAATCTCTATGAGTAGCTGGTATTCCAGCATATGCCAAACCAGCAATGCCGGCTGTAGCACCAGGTACAATTCTAAATGGAATTTTATTTAAATTTAGTTCTAATGCCTCTTCTCCACCACGCCCAAATATAAAAGGGTCGCCTCCCTTAAGTCTTAATACTCTTTTTCTTTTTTTTGCCTCACTGATTAATAATTTATTTATTTCAATTTGATTTATTGATTTTTTATTTCCTCTTTTTCCAACATAAATAATATCTGCGTTTTTTTTTGCTAAACTTAAAATACTTTCATCCAATAAGGCATCATAAAATATAACATCTGCTATTTTTATTGCTTTAACAGCTAATATAGTTAATAAACCAGGGTCACCTGGGCCAGCTCCTACCAGCCATACACTCCCTTTTTTAAAATTAAAGTCAAATAGTGACATGTGAGAATATATAGCATATTCTATAAATAAAACAACATTTTTTTTGTAAATTTATTTAATTTACATTTTTTTTATGTATTTTAATTGCTCTTTTATAGACATTAAAATATATTCATAATTCTTAATAAGAGGTAAAATCTTAAATTTATTATTTTTTAAATTTTTATTTAATTTATTAACAGTTAATTTTAAATTGTGAAACAAAGTACCTCTAAAAAGAAAAATTGGCACTAATATAAAATAGTCTTTCTTGCTTTGAAATTTTAACAACTGTTTTTTTAAGTTATTAGTATCCAGGCCAACTAAAATTCTTTTAGAATAGTTAATTTTATATTTATTTGCTAATCTTTTAGTTAATAAATCTATTTCTTTTTTAGCTTTTATATTAATTGTGTTACTTGCTAAAACTATTAATCCAATATTTTTTTTTTTATAAAAATAAATTGCATTTTTTAGATTTTTTTCAATTTTAGTAATAAAGCTTTTTGAAAAAATTAATGGTTTAGTTATAAATAAATCTGGAATTAAAGAATATTTTTTTTTAACAGAATGGATAATTTTAGGAATATCTTTAGAAGAATGATTGCCTGAAAAAATCATCACAGGAATAATAAATAATTTAGAGATTTTTTTTTCAAAGAAAATTTTTAATTGTTTATTAATAGTTATTTTATTTATTTCTAAATAACCCAATTTAACTGTATAGTTTCTGTAATTTTTTTTAAAAAGTTTTAATAATTTTAGAGTATCCTTAACTCCTTCATTATTTCTCGTACCATGAAAACAAAGAAGAATTCCTTTTTTCATAAAATATATAATTTATAGGGAACTAAAAACAAAAGAAAAAATCCATTAAATCTAAGAGAAAGAAAAGTAAGTTTCATTCCTGTTCTTCTATGCATTATTTTCTTATCATAAAGACTCAGTGCGTGTAATATTCTTCCGATGATAAAGATTGTGCCAACGATATTAATATAAAAAACATAATAAGGTATAGTTTCAATAGATAACCATTCAATTGAAATTAGTGACAATAAAAAAATTGGAGTATACTCGACAAAATTTCCCTGGGCCCTTACCCTTCTAATCATTTCATCATCACCATTATCACCAAAAGATATTTTTTTCTGCACTCTTGTTTTAATAGCGCCCATAGATAATTTAGATAAAATTAAACAACTCAAGGCAACATATATAAATGAATATTGAACCATAAATTTAATTTCCAATCCAAATTGACACAAGTCCTTTTAAATTTAATAACTTACTTAAATTTAAAGAACTTTTTAAACCAGAATAAAATTTTTCTGTAAATGACGCTTCTTTAATTATATTAAATTCATGTACTGGCAGATCTATTATTTTATATTTTTCATTTAAATAATTTTTTGCTTCTTCTAAATTTCCGATGTTATCAATTAGCCCTAATTTACGCGCTGATTTTCCTGTAAAAATCCGGCCATCAGAAATTAAGTTTATAGTTTTCTGATCTAAATTTCGCTCTTTCTTAACCAAATTAATAAAATTTTTTGACATTTCTTTTACTATTTTTTGTGTTTCTTTGCGGGTTTCAGGAGTCATTTTTTCTAAAGGTGAAGGAGAAGCTTTTAAATCTCCGCTTTTAATTACTTCTGTAGAAACTCCAATTTTTTTTGCTAATTCTGTAAACTCTGAAGTTAAAACAAGAACTCCAACAGAACCAGTTATTGTACCTTCTTGCGCATAAATATATTCAGATCCTAAAGATGCCATATAAGCTGCTGATGTGGCTAATTCTCCCATTACCGAAATAACAGGTTTTTGTTCTGAAATATTTTTTAAACTTTTATATAAAGTTTCTCCTCCTACAACTGTTCCTCCTGGACTATTTATAAAAACTATAACTGCTTTTGTATTATTATTCTTTGATAATTCTATTAATTTTTCATATCTAAATATATCTTGAGTAATTATATCTTCTATTTTGATCTTAGCTATATGTGGCTTTGAAAATCTATTATCATTAGAAAAAATTATTATAAAAAGAAGTAATAAAAAAAAAATAAAAGTTTTTTTATAACGAAAATTAATTATTTTTTCTTTTATAATTTTTAATATTTTGAAAAATTTTTTATTCATTTTGATTATTTTACCTTATTTATATTAGATTTAATATATTTCTCAAATTTTTTTAAAATAAAAAGGTCTGTATTTTTTACAGATTCATGAGTAAAACCTCCTAAATGTGGTGTAATTAATAAATTATTATTTTTTTTAGCATATTTAATTAAAGGATTATTAATTCTTTTCTCTGCAAAAACTTCATTTTCAATTAAATCTAATGCAGCTCCTTTAATTTTTTTATTTTTCAAAAAAAACGCTAAAGATTTTGATTCAATTATTTCACCTCGACTTGTATTTATTAATAAAGAATTTTTTTTTAATTTCTTTAAGGTTTTTTTATTAAACATATGAAAAGTTCTTTTATTTAATGAAGCATGGATTGAAACTATATCTGATTTTGATAAAAGTGATTCAAGGGTGTTAATTTTTTTGTATTTTTTTTGTGATTTAATTTTATGATCAAAAAAAATTACATTCATTTGAAAAGATTTAGCATATGAAGCAACTTTTTTTCCTAATCTTCCAAATCCTATAATACCGATTGTTTTATTCTGTAATTCAATACCTTTAAATTCTTTTGGAGACCAGTTTTTTTCTGTAACACTTTTTAAAGCTGGATATAAATTCCTTGATAATGCTAATATTAAAAGCCACGTATGTTCAGCAGTTGCAGAAATTTTATTTAAAAAAATATTTTCATTTGTTAATGAAAAAATTTTTATTTTTTTTTTTTTTGCAAGATTTATATCAATATAATCTTCAGGATTGGTAGTTGGGGTAAGAATAAATTTAACTTTAGTATCAGTACTAAAAATTTCTTTGCCAACATATCTAGTGAATCTTGTTAAAATAATTTCATAATTTTTTCCTATTTTGTTAAGTTTACTTTGACTTATTTCTTTAATGTTAGCAGTATATAATTTTTTAACTTTATTAATACATTCAGAACTAAAAGATTTAGGATCTGGGCAAATAAGTTTCATTTAGTTTTTAAATATAAAAAAATAATTATAGAATATTATAATTGTAAACAAATTATGAAAAAAATAAACGATATTGCAATTGTTGTTCAAGCAAGAGTTTCATCTAAAAGATGTAAAAAAAAAATGATTAGAAATTTTGCTGGAACAAATCTTTTACAAATTTTCTTTGATAAGGTTAAACACTCAAAAGTTATAAAACAAGAAAATTTCTATGTTTCTTCTTATGATAAAGAAATAAATGAAATAACAATTAAAAATGGTTTTCAAATTTTTAAAAGATCTAAAAAATCAGCATTATCTGAAGGTAAAAATATTAAAATACTATATGAATGGTGGAATAAATTAGATTATAAATATTGCGTACTTATAAATGCATCATTACCATTTTTATCAATTAAAACTATAGATGATTTTATAAAAAATTATAAAAAAAATAATTCATTAGGACAATTTGCTGTAGCAGAAAAAAAAAATTATTTTTGGTATAAAAAAAAATTAATAAATAAATGGCCTAAAGGATTACAATGTATGAATACAAAAAAAGTAGAGCCAATTCTTGAAGCGGCGCATTGTTTATATGCAAGCCCTATGGATATAATCAAAAAAGGTTATTTTATGGGTAATTTAAAAAAAATAAATAAGGTAAAATTATATATAATAAAAAATTCTATAGAAACACTAGATATAGATGAAGAATGGCAGTTTAAAAGTTACGAAAGTATTTACAAAAATATAAAAAAAATACTTTAAAAAAAATTTTTTCTTAACCTTTTTATCTCACTTAATTCACTTTTATAAATTTTTTTTTTACCATCGCCTAAAGCTGTTTCTATATTTCTAATGTTTGCAATTAATTTCCAAAGACCATCAGGGCCTAAGGAGGCAGCATGATCACTTCCCCACATCGCTCTATCTAATGTAATATGTCTTTCTATCATGGATGCGCCTATTGATGCTGCCGCGAGAGATGGCGCTAAAAGTGTTTCATGGCCTGAATATCCAACCGGAACATTAAACATTCTCATCAAAGTATAAATTGCTTTAAGATTTAACTCTTCTTTTTTTGCAGGATATGAACTAGTGCAGTGTAATATTATTAAATTTTTTTTTCCTAATATTTTTACAGCCATTTTAATTTCCGCAATTGTACTCATTCCTGTTGATAAAATTACAGGTTTTTTTTTACTCTTAATATATTTTAATAATTCTCTGTCAGTTAAAGATGCTGAGGCAATTTTATAACAAGGTGGATTTAATTTTTCCATAAAATCAACAGCTTTTATATCCCAGCAAGATGCAAAATATAAAATATTTTTTTTTTTACAATAATTTTTTATTTTAGTAAATTCTGAATATTCAAACTCGACACCTTTTCTGTATTCATAGTAAGTTTTTCCAAATGGACTTTCTCTATATTCATCTAGTTCTTTTTTTTTATAAAGATAATCAATGGTTCTTTTTTGGAACTTAACTGCATCAGAACCAGCTTTTTTTGAAATATCAATTAATTTTTTCGCTATAGATAAATCTCCATTATGATTAATTCCTATTTCAGAAACAAAAAAACAGGGATGGCCCGGACCAATATATTTATTACCAATTTTTACTGGTTTAATAGTCATAAATTTTATTTTACCATTCTTTCATTTAATAACGATTTAATTAATTCAAAACTTTCTTTCCAATTATTATTTCGACCATCAAAAATTAATGAATTATTCCAAGGAATTTTTTCTTGACAAAGTCTGGTTAAGGAATTTTTATTATGAAATTTAAAAACGTCAACTCCTAGTGCTGATGCAAAATCTCCTATCCATGTTTGTGCACTAATAACAATATCTAAATTTGAAATTAAAGCAGCAACATTATCAATATCATCTTTCATATCTAAATCTTTGTATGTAAAAATTTTATTTTTGTTAGTTTTATTAAATAAATTAATTTCATTTTTTTCATCTTTATACATTAAGTTTATTAAAAAAATTTTATCTATTGATAAAAAATGTTTCCATTCATTTATTTTAAATTCGATAGGTGACTGAGTGTGAATTTCTTTATCTTTTTCTTCACTTGCACTAGAACTCCATGCTAGACCTATTTTTAATTTATTTTTTCCATCTTTAAATAATCTTTTTTTCCACATTTCAGATTTTTTTTTATCTGCTATAAGATATTTTTTTTGTTTTGGGAAATCTTTAAAATTTTTTCTTATATATTTGGGAATTAATGGGCTTTGTATCCTTACAGTAGGTTTTATTTCTGTTAAATCAGTATTTTTTGAAAAAACTTCTTCATTTATAAATTCGGCTTTAGGAAAAGACTCTTTAAAAATATTTACTAAACGTCCATCAGAAATAAAAAAACATTTCTCTGCTTTTTTTATAAGTTCCCCATAACATGATGCGTATAAAATCTCATCACCTAATCCTTGTTCTCTAAAAATTAAAAATCTATTTTTTTCTATATTTTTTCCATTCCAAATAGGAATATTAATAATATTCTCAGGATATATTTTTTCTAAATATCTAAACCTCCATTCATATTCATTCCATCCGTCTTTTAAATTTCCATCAAATAATAACAATTTACCTAGTTCAGAATGTGCATTTTCGTTATTAGGGTTAAGCAATATAGATCTTCTATAATGTTTCTCTGCAACCTTTAAATCATAACCTGCTGATAAAAAACCAAGATAATATTCTGCATTATCATTATTTGGATCTATTTTTAATACTTTTTCAAAAGATTCCTTTGCTTCTTTGAATTTTTTTATTTTCATTAATAAAATACCTTTATTAAAGTAAGCTTTCCAAAAATTATCTTGAATTTGTATTGCTTTATCTAATAAATTTAATGCTTCACTGTATAATGATAAATTTTCATTGATATTAGACATTAATAAATAAATATCTGGAACTTTATTTATAATTTTTTTTAAAATATCTATAGCTTCTTCATTTTTGTTTAATTTATATTTTACTAAACCTGCTAAATAAAATAATTGATCACTAACGAAATTAGATTCTTTAATTAATTTTTCAGCTTCTATTAATTTATTTTCGGATATTAAAAACTTTATTTTATTTATTATTTCTTCTGTCATAATTTATAATTATTTATAAAGATACATATAATATTTAATATGAATTTTTAACTATTTACTATGACAAAATATGCTATTGCAATAGGATTAAGCGGTAAAATTTATGAAAATTTAATAAAAACATGGAAAATTCTGGAAAAAGAAAAAAAAATAAAATTTATTTCCTCAAGATCTCCAAAGCCACATATTGCTTTAACAACAGGAAGTGCAATTAATGAATATAAATTAAAAGCAATATTAAAAAAAATAAATATAAAAAAATTTAAAATTAATTCAATCGGGTTAGCTTTATTTATTGAAAAAGAACCTCTCTTATATTTAAGATGGGAAAAAAATAAAAAGTTATCGGATCTTTTCAAAATAATAAATAAAAAAACTGATAAATTACTAAAAAAAAAATCAAAATTTTATAATTCATCATTATGGGTGCCTAAAACAACTATTGCTTGGAAAGATTTAAAATATTCACAATTAAATATAATTATAAAAAAAATAAATTTCTTATTAAAAAAAAAATCAGCAATTGTTTGTTCTTTAGATTTATATAAGCTCACAAAAAATAGAGAAATTTTACTGGATGAATTTTATTTAAATTAATTTAAATAAAAAAAAAAAATATTTTATTTTTTATTTATATTTTTTTAATTATTAAATAAACCTAAAAAAAAATTATTTAAATTTTTATGTTTTGGGAAATTTAAACCTACATAATCAGAATTAAAGTGAATGATTTGCCCATTTGAAAATTTATTTACTGAAATAAGAGGAATTAACAAATTATCACATTTTATTTCATAAAATTTATTAATTTGATCTTTGTACGGCCCAGGTTTAGAAACATGAGCAAAATCGATATCTGTTTTTTCTTTATCCGTTGAAAAATTATTTTCAGTTAAATTACAACTTTTGTAAATTTCTGGATCAAAAATATTTAGATTATATTTCTGGAAATCAGAAAATTTATTATGATAAAATTTTATATATTTTAAATTATTATTCTCCTTAATAAATTCAACTTTTCTCCAAAAGTTCGCTCCACCAATTGATATAAAATTATTAAATTTATTAGTATCATTTAAAACAAATTCAATATCATTTAACATTTCATCAGAAATATATTCTTGATGATAAGGAAAAATAATATTTTTATAATTTACCATTTTTCCTTTTTCTAAATCATAATCATAAATAATATCAAATTTTTTAAAAATTTTTTTTAAATTTCTTACAGATTTAATTATTGATTGAGCATTATGATTTACTTCACTAGTTGTAATTGGTACATCATTTGGCAGTGATATATAATTCTTCTCTTTATTCTGTTTGTTAAAATAATTATTGATAACAATTAAATTTGAATAATAATTATAAAAAACTGTGGTAGGTACCACTAATAAATTATCATTTATCTGAGGTATTTCTTGATTAATATTAAAATAAAACTTGTATGAGTAAGTATCAGGAATATTTCTAAATTTATTGACAAATTTATATAAAATTTTAGTAATAATTTTTTTTATTGATGAAACCGATTCACTTTTATATCTTTCAAGATAATTATATAAAACTTCATTATTATCAAAATTAATTTCACCTTCAAAAAAAATATTTTTACCAAAACAATTATTTGAAATTAAATCTTTAATGAAAATTGAAGAACTAAATTCATTTAAGTTATCAGTAAATGAAGTACTGTAACAAATTTCTGTATTTTCTTCTTTTATATTAGATATTTTTAAATTTACCTTACTAGATAAGATTTTCTTTGCATATATTTTAATTTCATCATTATCCTCTAATTTAAATACTGGTCCTGTAGATTTTATTAAAATTGTGGGTTGTTTAAATTCTTTAACTACTTCGTGAAAAATAGATTTTGTGTATTTTATACTTATGAAAAATAAGCTAAAAATAAATATTATTATTGATATACAAACTATCTTTTTCATTAAACTATTTTAAATCATTATTATTTTAGTTCAAAAAAAAAGCTAGAGTTTTTTTAATTCTCTAGCTCTTTTTTTTTTATAGGGAACGCTTATTTTTTAAGACACAACTTCGCCATGAAGATTAACGTCTAAACCTTCTTTCTCAACTTTATTACTTACTCTTAATCCGATAGTAAAATCTATTACTTTTAAAATTATAAATGTTGCAATAGCACACCATCCGATAGTTAAAAGTATTCCATAAAATTGAATACCTAATTGTTTCATCCCAGGTTCAACATCTGCTAAAACTGGAACACAAAGAAGACCTGTTAATAAAGCTCCGACTATACCGCCAACGCCATGTATGCCGAATACATCGTATGAGTCATCATAACCAAGTGCTTTTTTAACAACTGTTGAAAAGAACCAGCAAGCTACTCCGGAAACTAATCCGATTATTAAAGCGCCCATTGGATAGACGTAACCAGATGCAGGTGTTATCGCAACAAGCCCTGCAACAGCTCCACCTGTTAAACCAATTACCGTAGGTTTTCCTTTGGTAAACCACTCAATAAGCATCCAAGCTAATGCTGCAGCAGCAGTTGCTATTTGAGTAACAAGCATTGCCATACCAGCACTTTCATTAGCGCCGTAGGCAGAACCTGCATTAAAACCAAACCAACCTACCCAAAGTAGTGAGGCTCCTACTAATGTGTAAATAAGATTATGAGGTGCCCAAGTATAAGAATCGCTTGTTCTTTTTCCAACTACTATAGCTGCTATTAGTCCAGCGATTCCACAATTTATATGAACAACAGTTCCACCAGCAAAGTCTAATATTCCTTTTTCTGATAAAATTCCGCCACCCCATACCCAATAACATACGGGTGCATATACAACAACAGACCATATTGCCATGAATATCAGTGTTGATGAAAATTTGATTCTTTCGGCAAACGATCCTGCAATTAGTGCTGTAGTAATAATTGCAAATGTAGCTTGAAAAACTACATCAACTCCAATTGGAAGAGCACTATAATCTTTTTCAGCAATTTCAAAACCATTAAACATAAAATTGCCCAATCCTCCAAAATAAGGAGTTGTGCCTTCTGTATAAGCGATACTGTATCCAATGATACACCATGTGAGAGTTACAACACAGCAACCTGCAAACACATGCATCAAAGTAGACAAGACATTTTGTTTACGGCTTAACCCTCCATAAAATAAAGCAACACCGGGTATTGTCATTAATAAAACTAAACAAGTAGATGTTAACATCCAGGCATTATCACCAGCAACTTGTCCAGTGGTTACTACTTCTTCTGCTAAGCCTTCTAAAGGAATCAACAAAAACAGTAGCATTGCGGATAAAGTTGATAAAAATGTTATTTTTTTTAACATACTTTTTTCTCTCCTTTATATAGAACCTACATAATTTTCGAGATAAAAAAGAGGGGGACAAATATGTAATAATTTAAATATTTGTTTATTACATAGGTTCTATAAAAAAAAATATTTATCTCATCCATCTAATAGCAATATTCATGCCAAAATAAAAAAATTAAAAAAAAGTTATTGTTAAATTTTTGTTAAAAGATCTTTTTATTTATATTTAATCATAAATAAGATTTATTTTCTCTACATTACCCACGCTTTTGCTAGAAAATCTAAAAAAATCTTCTTTAGTTTCATTAATTCTTTTAGAACAAATTAAAGAGAATTCTTTATTTATAAAAGAGTTTGCAATTCCATAAATAAGTCCATACCACCAGTCTGGTCCAGCAACTGTAATATGAGCATTTTCTCCAGTAGGTAAAAAACTTCCTGCAAAACTACATGCAACTTTTATGTATACAAATTTTTTTGCAAAACTAAATAATTCTTTTACTACCCATGGAATATCTTCAATAGGTATATGTTCCAGTACATCTGTACAAATAATTCCGTCAAAATTTTTATTTGGGAAAACTTGATATTCTTTAACTCCAACGTCATAAAATTCAATTTTATTTACATTCCAGAAATCTTTAATAGTGTTATATTCTTTTTTGTCACTTTCATTAAGAATTTTTAAATCTTTTTTTTTATAAAAAGCAGCTTTACCAGAACCATAATCAAGTATTGTTTTGGAATTTGTAGATTCTATATAACTTTTAATATCTTTTATATAATATTTAGTTTGATCTCCTTTATAAGTGTCTTTGGGATTTCTGCTCACTGCGCTATTAGGATTTTTATCTCCCTTTTCATGCATTTTTTTATATATATCGATTAATTCCAGATATTTTTTGCTTGGTGATTGTCTAGAAAAATTCATAAAAATATTATAACATCATGATCCGTATTTTCATGGTTTATACCAGCCTTTTTCATGATTCCACATACATCCTTCAGGTCTAAGTTTTACTGATCCGATCTCTAAATCTGTACCGGCAATACTTTGAATATTGCCTTTTTCAACAGGAATATATTCTTCTATTAATTGGCATTCCTTACTAGCTTTTTCATTTAATTTAGTATTTTTATTATTTTTACTTTTTTCATTTGCACATACAGTAAACGTTAAAAAAAGAAAAAAAATAATAACTAAATATTTTTTCATTAACGTACTGCTTTAGTTGTAATTATAAAAATTATAGTTGTAAGAACATAACTTGTAACAATTACCGGACCGGCAGGAGCATCAAAAAAAATTGCTAAAGAAATACCTGCTATAACTGAAATAATTCCGCAGAACCATCCTAACTTATATGGATTAGGAATATTTATTACTGCTAACGCAGGTAAAATAAGACTAGCGAATACCACATATATTCCTACTAGCTGCACTGATGAGGTAACTGCTAGTGCAAAGAGCAAGTAGAAACCAATATTATTTCGATATTCCTTTTTGAAAAACCATACTGAAAGAATTAAAATATAAATCGGAGTATGTTTTACTACATCTTGCCATGTAACAAATAAAATCTGACCTGAAAGTAAATGTCGAATTTCCTCTCCTCCGCTAGGATGATTAGCTAATAGTAAAATAGCTATAGATGCTGCAA
>sequence08
TCCAGTTATTGAAGTTGCCGTAGAGCCAAAGACTAAAGTTGATCAAGATAAAATGGGTGAAGCTTTAGTTAAATTGGCAGCTGAAGATCCTTCTTTTAGAGTATCTCAAGATGAAGAATTGGGAGCTGAATTTAATGAAGTTGACGTGCCAGATGATATGAAAGAAAAAGTAGAAAAAGCAAGAAATGAATTAATTGAATTAGTTGTTGAACAAGATAACGAAATTATGGAAAAATATTTAAATGGTGATATTCCATCAGAAGATGAATTAAAAAAATGTATTAGAAAAGGAACTGTATCATTTAGTTTTGTCCCAGTTTTATGTGGAAGTGCTTTTAAAAATAAAGGCGTTCAACCATTACTTGACGCTGTTGTTGATTATTTACCAGCTCCCAATGAAGTTATTCCAGCTAAAGGTATAAATCCAAATGATGAGGAAGAAGAAATATCTAGAGAATCAAATGATGATGAGCCATTTTCAGCAATTGCTTTTAAAATAGCAAATGATGAGTTTGTGGGAACATTAACATTTTGTAGAATCTATTCAGGAAAAATTAATCAAGGAGATAATATATTACTTTCAGTTAAAGGTAAAACTCAGAGATTAGGTAGAATGATGCTAATGCATAGTAATGATAGAGAAGATATTAAAGAAGCTTTTGCCGGAGATATTGTTGCAATAGCTGGATTAAAAGATGTTACTACAGGTGAAACTATTTGTGATCCTAATAATCCAATTATTTTAGAGAAGATGGATTTTCCTGATCCAGTTATTGAAGTTGCTGTTGAACCAAAAACTAAAGCAGATCAAGATAAAATGGGAGAAGCACTTATTAAATTAGCAGCAGAAGATCCATCATTTAGAGTAACTCAAGATGAGGAAAGCAGCCAAACAATTATTAAAGGTATGGGTGAACTTCATTTAGATATTATTGTTGATCGAATGAAAAGAGAATTTAAAGTTGAAGCAAATGTTGGCGCCCCTCAAGTTGCATATAGGGAAACTATAAATCAAGCGGCTGAAGTTGATTATACACATAAAAAACAATCGGGTGGAGCAGGACAATATGCAAGAGTAAAGATTTTATTTGAGAATCAAGAACCTGGTTCAGGTTTTATTTTTGATGATACTATTAAAGGAGGATCTGTTCCAAAAGAATATATTCCCGGTGTAGAAAAAGGATTAGAAATGGCAAATGATAGTGGAATAATTGCTGGATATCCAGTGATCGATTATAAAGCAACATTGATTGATGGTGATTTTCATGACGTCGATTCAAATGTTATGTGTTTTGAATTAGCTGCGAAAGCTGCTTTTAAAGAAGGTATGGCAAAAGCGAATCCTGTTCTTTTAGAACCTGTAATGGATGTTGAAGTTGTTACACCAGAAGATTATATGGGAGATATAATTGGCGATCTAAATTCTAGAAGAGGGCAAGTTGGCCAAATGGAGCAAAGAGGAAATGCAAGAGTTTTTAAGGCAAAAGTTCCTTTAGCTAATATGTTTGGTTATGTAAATAATTTACGTTCTATGAGTCAAGGAAGAGCTCAATTTACTATGCAATTCGATCATTATGCTCAAGTACCTCAAAATGTTGCTGAAGATATTAAATCTGGAAAAATAAATTCAACTGATGGTGAAAAAAATGGTTAAGCAAAATATTAGAATTAGATTAAAAGCATATGACCATAAATTATTGGATCAATCAACTGTAGAAATTGTAAATACTGCTCAAAAAACTGGAGCAAAAATTATTGGACCAATTCCATTACCAACAAAAAAAAATAAATTTACAGTTTTAAGATCACCCCATGTAGATAAAAAATCTAGAGAGCAGTTTGAAATGAGAACTCATAAACGTTTGATTGATATTATTGATCCAACACCTCAAACTGTTGATGCTTTAATGAATTTAGATATTTCATCTGGGGTTGATGTTGAAATTAAAACTTAAAAAAAAAGGATAATAAAATGAGAATAGGATTAATTGCAAAAAAAATAGGAATGACAAGATTTTTTAGAGATGATGGATCAAATATACCGGTAACTCTTTTAGGTATTGAAAATAATTATATTACTAAAGTGAAAGAAAATGTCTCTAGTAATATAAAACATGTTCAGGTCGCCTCTGGTAAAGTAAAAATTAAAAAAATAAGTAAACCTATTAGAAATTATTTTTCTAAATTAAAAATCGAACCAAAAAAAAAGATTTTAGAATTTAAAGTTAGTAATGATCAAAATCAAAATGTTGGTGATAAACTAGATGCTACATTTTTTAAAGTGGGACAATATGTTGATGTAATAAGTAAATCATTAGGCAAAGGTTTTGCAGGGCCAATGAAAAGACATAATTTTAGTGGATTAAGAGCTTCACATGGTGTATCTATTTCACATAGAAGTCACGGTTCTACTGGTCAATGTCAAGATCCAGGACGTACGTTTAAAGGAAAAAAAATGGCTGGTCAAATGGGAGCTTCAAGGGTTACAGTTCATAATCTTGAAGTTGTAGAAATTAATAATGAAGATGGTTTAATATTGATTAAAGGAGCAGTTCCTGGATCAAAAGGTACATTACTAACTATTAGAGACGCTATAAAACCAAAAAGATTGATTGCTAAACAAAAAGAAGAGGTTATAGAGGAAGTTTCAGCAAAAAAAAATAAAGGCGATGAAAGCAAGGATAATAAAGAAAAAAAAGATAAAGATGTAAAAAAAGAGGAGGTTAAAAAATAATTATGAAGCATAATATTGTAAATTTAGATTCTAAAAAAGTTGGTACTGTTGAATTGAATAAAAATATTTTTTCACTCCCAATTAGGAAGGATATTCTTCAAGATGTTGTAAATTGGCAATTATCAAATCGAAGACAGGGTTCTCATAAGGTTAAACAGCGTTCAGAAGTTACAGGTACTACAGCAAAAGCATTTAAACAAAAAGGTACTGGCAGAGCTCGAAGAGGTAATCTTAAAACTAATATTTTAAGAGGTGGTGGAGTTACACATGGACCAGTAATAAGAGATCATAAGAAGAAACTTCCAAAAAAAATAAGAAAACTTGGTTTAAAGACAGCATTATCAGTTAAAGAAAAAGAAAAAAAGATTATTATTGTTGATAATTTAGTTTTAAAGAATCCTTCAACTAAGGAAATTTCAAAAAAATTAAAGAAACTGAGTATAAACTCAGCTTTAATTGTTGATAATAGTAAAGATTTAAAAAGCTTTAAACAATCAATTGCAAATATAAATAATATTCATTTATTACCAGTAGTAGGAATGAATGTTTATGATATTTTAAAATTCAAAAATCTTATAATTTCAAAAGATGCATTAATAGAGGTTGAAAAAAAATTAACATGATTTTAAAAAAGAAAAATTTAGATAAAAAAGACGAACCATTAATTAAATTTTACGATTTAATTGAAAAACCAGTAATAACTGAGAAAGCAACAATGCTATCTAATAATTCTCAAGTAGTTTTTTTTGTACCAATGGATACTAATAAAAATGTTTTAAAAAATACAATTGAAAATCTTTTTAAAGTTAATGTGAAAAAAATAAATATTATTATATCGAAAGGAAAAAAAAAAAGGTTTAAAGGAAAGCAAGGGAAAAGAAAAAATTTTAAAAAAGCAATTATTTCATTAGAAAAAGGGCAAAAAATTGATATAACGACTGGAATTTAAAAGAATGAAAAATTTTAAACCATATACATCGACAAGAAGACATGCTGTTTTGACAGATAAAGCAAATTTATGGAAAGGTTCTTCTGAAAAATCATTAACAAAAAAATACATTTCAAAAGCTGGAAGAAATAATTCAGGCAGAATAACTTCAAGACATAGAGGAGGCGGTCATAAAAAAAAGTATAGAATTATAGATTTTAAAAGAAATAAATTTGATGTTTTAGCAACAGTTATTAGATTAGAATACGATCCTATTCGAACTGCTTATATTGCTTTAATTGAATATGATGATAAAACAAAATCATATATTGTTGCTCCTGATAAACTAAAGATTGGTGACAAAGTTCAATCTGGAGAAAAAGTGGATATAAGAATTGGGAATTCAATGCCTTTAAAAAATATTCCTGTTGGTACTGTTATACATAATATTGAAATGAAACCTGGTAAAGGTGGTCAATTAGCTAGATCAGCTGGATCATCAGTAAATTTACTTGCAATTGACTCAGGGAAAGCAATTATAAAACTTAATTCAGGTGAAATTAGAAATCTTAATGAAAATTGTTTTGCAACAATCGGAACAGTTTCTAATCTTGATAATAAAAATATTAAAATTGGAAGCGCAGGAAGAAAAAGATGGTTAGGTTTCAGGCCAAAGGTTAGAGGGGTTGCAATGAATCCTATAGATCATCCGCATGGGGGTGGTGAAGGAAGAACTTCAGGTGGCAGACATCCATCTACACCATGGGGTAAACCTACTAAAGGTTATAAAACTAGAAAAAATAAAAGTAGTAATAAATTTATAATTAGATCAAGGAGAAATAAATATATGTCAAGATCAACATGGAAATGACCATTTTATGAAGACTACCTTTTAAAAAAGGCTGAGGATGTAAGAAAATCTGGAAAAACCAGTCAAGTCATAAAAATATGGACAAGAAGATCAACAATACTTCCTGAATTTGTTGGTTTAACTTTTGGTGTTTATAACGGAAACAAATTTATTCCTGTCAGTGTTAATGAGAATATGATTGGACATAAATTTGGAGAATTTTCTCCAACTAGAACCTTTAATTCTCATACTGTAACTACCAAAAGCGATACTAAATCAAAACCAATTGGCGCACCTACTTCTGCACCTACTTCTGCACCTACATCAACGTCAGGTGATAGTTCTAGTGCAAAAACTGAAGAAAAATCATCAGCAGAAAAACCTAAAGTTGAAACTAAGGAGGAAAAAAAATAAATGATTGAAAATAAAAAAAATATTAAAGAAGAAACAAAAAATAATAAAATTGATCAAAAAAAAGAAAAGAAAGTTGTTAAAAAGAAAGATGATAATTTAGCAAAAGTTTATTTAAAATCTGTAAAGATAAGCCCTAAAAAATTAAATATGATTATTTCCCCAATAAGAGGTTTAAATGTTGAAAAAGCTGTTAATTATTTATCTTTTTCACAGAAACGTATAGCCTTACAGGTTAAAAAAGCTTTACAATCTGCTATAGCAAATGCAGAAAATAATCATCAATTAGATGTAGATAAATTATATATTTATGAAGCGTCTGTTGGACGAGGATTAGTGATGAAAAGATTTAGACGAAGAGCAAAAGGAAGAGGAGTTAAATTTTTAAAACCTTTTAGTAATCTAACTATTAAATTAAAAGAACAAATTATTGATACAAATTTAAAAAAAAATGAAATAAAAAAAACAAATAACAAAGAGGAGGTAAAAGATGGGCCAAAAAGTTAATCCAACAGGTTTAAGATTAGGAATAAATAAAACCTGGGATTCTAGATGGTTTGCTGAAGCTAAATATAGTATTTTTTTGCAAAACGATCTAATAATAAGGGATTATATTGAATCTAATTTAAAAAAAGCAGGACTATCTAAAGTTATTATTGAAAGATCATCAAAAAAATTAATTATAAATATACATGCATCAAGACCAGGTATAATAATTGGAAAAAAAGGTGCAGATATAGAAAAGTTAAAAAAACAATTATCAAAACTTACTAAAACTGAATTAAATTTAAATATAGTAGAAACAAAAAAACCAGAATTAGATGCAAAAGTAGTTGCGGATAACATTGCACAGCAATTAGAAAATCGAGCAGCTACTAAAAGAGTTATAAAAAGAGCTGTTCAATCTGCATTAAAGCTTGGTGCCAAAGGTATTAGAGTTAGTGTTGGTGGAAGAATAGGTGGTGCTGAAATTGCTCGTGTTGAATGGTTTAAAGAAGGACGGGTTCCTTTACATACGTTGAGAGCTGAAGTTGATTATGCAGCATCTACTGCTAAAACAACATATGGTACTTGTGGTGTTAAAGTTTGGTTATATAAAGGGGAAAATTTAGCTAAAGAAAATGATCAAAATAAAGTTATTAATAATAAAAATAAATAATGTATAAATAAAAAAAAAATGTTACAACCTCAAAAAACAAAATTTAGAAAACAACATAAAGGAAGAATCCATGGTAAAGCAAATTCAGGAGCTAAATTGAATTTTGGAAGTTTTGGTTTAAAAGCAAAGAATCCAGGAAGAATAAATTCTAGACAAATTGAGGCGGCAAGAAGAGCAATAACTCGAGAGATGCAAAGAGAAGGAAGAGTCTGGATAAGAATATTTCCTGATGTACCTGTAACCAAAAAACCAGCGGAAGTTAGGATGGGTAAAGGTAAAGGAAGTGTTGAATATTGGGTTTGTAGAATTCATCCCGGAAGAATTTTATTTGAAGTTGAAGGTGTTAGTGAAGAAATTGCAAAAAATGCTTTATTATTAGGAGCAGCTAAACTTCCTATAAAATCATTTTTTATTAAAAGATTGGCGATATAAATGAAATATATAGAAATTAAAAAAAAAACTAAAGATGAATTAATTGATATGTTAAAAAATTTGAAAAAAGAAAATTATAATCTTAGATTTCAGCAAAAAAATGGCCAATTAGAAAAACCTGGTAGAATTGATCAGGTAAAAAAAGATATTGCAAGAATTAAAACCGAATTAACTGTAAAAAATTTAGGAGAAAAATATGCCAAATAGAATTTTAGATGGAAAAGTAATTAGAAATTCAAATGAAAAAACTATTATTGTTGATGTTGAAACTAGATATATGCATAAAAAATATAAAAAATTTTTAAAAAAAAATAAAAAGTATGCAGTACATGATGAAGATAATTTTTGTAAAGTTGGTGATAAAGTTCAAATTATTGAAACTAAACCAATTTCTAAAACAAAAAAATTTAAAATTTATAATGAAAAAAAATTAAAAAAGAAGGTTAATAAATGATTATAGTAGAAAGCAAATTAAATGTTGCGGATAATTCAGGAGCTAAGTTAGTTCAGTGTATTAAAGTATTGGGCGGATCTAAAAGAAGGAGCGCTAATATTGGAGATTTAATTGTTGTTACAGTAAAGGAAGCTATTCCTAATGGAAAAATAAAAACTGGTGAAGTTACAAGAGCAGTTGTTGTAAGAACAAAAAAAGGTATTTCTAGAAATGATGGGTCTAGTATTCGTTTTGATAAAAATTCAGCAGTATTATTAACCAAAGAAGGTGAACCAATTGGAACAAGGATTTTTGGTCCAGTGACTAGAGAATTAAGATTAAGAAAATTTACTAAAATTATTTCACTAGCTCCAGAGGTATTATAATAAATGTCAAAAATAAATATAAAATTAAAGAAAGGTGATAATGTTTTAGTATTAACTGGTAAGGATAAAGGTAAATCAGGTTCGATTTTATCTATTTTTCCAAAAAAAAATAAAGCGACAGTTAAAGGAGTAAATGTTGTAAAAAAACATCAAAAACCATCAAAGCAAGGTGGAGGAGGAATTGTTGAAAAAGAATTACCTGTTCATATTTCAAATTTATCATTTATATCTATTAAAGATCAAAAAAAAACAAAAATAGGTTATAAGTTAGATGATAAAAAAAAAATACGAATTGAAAGAAGAACAGGAGATGTTATAAAAAATGGCTAGATTACAAAATGAATATATTAAAACTATAAAACCCAATCTTATGAAAGATCTTGGTTTAAAAAATATTTTTTCTGTACCTGAAATAAAAAAAGTTGTAATAAATATGGGGCTAGGACTTGATGCTGCAGATAAAAAAAAATTAGAAGCGGCAGTTGAAGATTTAAAAAAAATTTCTGGTCAAATGCCTATTATTACAAAAACAAAAAAAGCAGTTGCAAATTTTAAAACGAAAAAAGATATGCCAATCGGTTGTAAAGTAACTTTAAGAAAAAAAAGAATGTATGAATTTATTGATCGATTGATAAATATTGCATTACCTAGAACAAAAGATTTTATGGGATTATCTGAGAAAAATTTTGACGGATTAGGTAATTATACTTTTGGTATAAAAGAACATATAATCTTTCCAGAAATTGATTACGATAAAATAGATAAAGTAAAAGGTATGGATATTACTATTGTTACATCTACAAAAAAAAACAATGAAGCAAAATCATTATTAAAAGCTTTTAATTTTCCTTTAAAATAAATAAATAAATAAAATGACAAGACTTAGTTTAATACAAAGAAATATCAAAAGAGAAAAATTAGTGAGTAGATATAGTAAAAAAAGAATACTTTTAAAGAAAATTATTAAAAACAAAAAAACAACACCAGAGGATCGCATAGACGCAATTAATAAATTATCAAAATTACCAAAAAATAGTCTTCCTTGTAGATTAAGAAATAGATGTATTGTTACAGGTCGACCAAGAGGTAATTATAGAAAATTTAAATTATCTAGAATTGCATTTAGAGAACTTGCTAGTAATGGAAAATTACCAGGAATAATTAAATCAAGTTGGTAAAAATATGACAGTAACAGACACAATATCAGATATGCTTACAACAATAAGAAATGGATTGTTATTGAATAAAAATATTGTTAGCACCCCTTCATCTAAGTTAAAAGCTAATATATTAAAAGTATTACAAGAAGAAGGTTATATAAAATCATTTAAAGAAATAAAAATTAAGAAAGGAATTAATAAAATAGATATATCACTTTCTTATTTTAAAGGAAAACCATCTATTAAAATTATTAAAAGAATTTCTAAACCTGGAAGACGTGTTTATTCAAAATTAAAAAATTTACCTTCATATTTTAAAGGTTATGGAGTAACTATAGTTTCAACATCAAAAGGAATTATGACAGATAAAAAAGCAAGAGTTTCAAACCTTAGTGGTGAAATTTTATGTCAGATCTTTTAAAAAAATTTATTAATTATAATGTCTAGAACAGGAAATATACCAATAGAAATACCAGAGGGAATAGAAGTTTCTTTAAAAGATACAAATATTATTGTAAAAGATAAATCAGGTGAAAAAAATTTTAAGTTTTCTAAGAATTTAAATATTTCTATTGAAGATAAAAAAATTGTAATTACTCCTAAAGAAATCAATAATAAAACAAATCAAATTTGGGGAACAACTAGAAGTATAATAAATAATATTATTCTTGGATGTGTTAATGAATTTAAAAAAACATTAAAACTCGTAGGAACAGGTTATAAAGCGTCTTTACAAGGAAAAATTATAAAAATTAGTGCAGGCTATAGTCATGATATTGAATACCCAGTTCCTGAAGGAATTAATATTAAATGTGCTGACCCTAATACAATAGAAATATCGGGACAAAATAAGTCTCAAGTTGGACAAGTTGCTGCTGATATAAGATCATTCAGAAAACCAGAACCTTATAAAGGAAAAGGTATACAATATGAAAATGAACATATACATAGAAAAGAAGGAAAGAAGAAATAATTATGAAAGTTAGTATAAAAAGTATAGTACGTAAAAGAAGAATAAGAGCAAAATTAAAAAAAGTTTCAAATGAACGTTATAGATTATCTGTTTTTAGATCATTAAAAAATATGCAAGCACAAATAATTGATGATACTAAAGGCGTAACGTTATTTTCACATTCAACTTTAGATAAAGAATTTAAAACAAAAATTAAAAAAACAGGTAATAAAGAAGCAGCAGCTGAAGTTGGAAAGTTGTTAGCTGAGAAAGCTATTAAAAAAGGTATAAAAAAAGTTATTTTTGACAGAGGTAAATATCTTTATCATGAAGAATTAAAGCATTAGCAGATGGTGCTAGGAAGGCAGGTTTAGAATTTTAATTATGGAAATTGATATTAAAAAAAGATTTCAAAAAAATAATTCAGATAATTTAATTGAAAAAGTTGTATTTGTTAATCGTGTTTCTAAAGTTGTTAAGGGAGGGCGTAGATTTGGAACTGCTGCATTAGTCGTTGTTGGGAATGGTAAGGGAAAAGCTGGTTTTGGCAATGGAAAAGCAAAAGAATTTCCAGAATCTATAAAAAAAGCTACAGATAAAGCAAAAAGAAATATGAAGAATTTTCCTTTAAAAAAAAATAGAACTTTTTATTACGATGTTCAGGGTACTCATGGATCTGGTAAAGTATTATTGAAATCTGCCCCACCAGGAACAGGAATAATTGCTGGTGGTCCTATTAGATCTGTTTTCGAAGCATTAGGTGTTCAAGATGTTGTTGCTAAATCTATCGGAACTACTAATCCACATAATATGGTTCGTGCAACTTTTGATGCTTTAGAACAATTAGATGATGTTAAAAGAATTGCTGAAAGACGAGGAAAAAAAGTTACTGATTTATATATTAAAAATAAAACAAATGGAAAAGAAACAACAGAAAAAAAATAAGGAAATAAAATTAACTCAAGTAAAGAGTACTATTGGTAAAAAAAAGATTCAAAAAAAGTATTTATTATCTTTAGGTTTAAAAAAGATTGGATCTACAAGATCTGTTATTTTAAATCCTTCGATAAAAGGGTTGTTGAAAAAAGTTAATCATCTGATAAAAATTGATTAGAATTTAAAAATGCTGAATACATTAAAAAATATAAAAAAAAATAAAATTTCAAAAAAAAGATTAGGAAGAGGTGTAGGTTCTGGTTTAGGAAAAACTTCGGGTAGAGGACATAAAGGTCAAAAATCTAGATCCGGTGTATCAATTAAGGGATTTGAAGGTGGACAGATGCCTTTATATAGAAGATTACCTAAAAGAGGTTTTAATAATATTTTTAAAAAAAAATTCAATATTTTGAATTTAACACAAATAGATGCTTTGTTAGAAAAGAAAGTTTTAAATATAAAAGAAAATATATCTAATGATTTATTATTTGAAAAAAAATTATTTAAAAAGAAGTTGCATGGTTTAAAAGTTTTAGGAAAAGGGGAATTAAAAAGTAAAATTATTATAGATGTACAAAAAGTAAGTAAAAATGCTGTAAAAAAGATAGAAAAAATTGGAGGAAAGATTAATATTATTAAAAAGGAAATAAAAAAAAAATCAAAAGATAATATAGATCATGATAAAAAGATTAAAGTAGAGAAAGAAAGTATTAAGAATACAGAAACTAAAAATAAAAAATAATGTCTTCTAATTTTGCTAATACACAACCAAACATTGGAGCTTTTAGTAAAGCAAAAGAACTACAAAAAAAAATACTTTTTGTAATTTTTGCATTAATTATTTATAGACTTGGGACTTTTATTCCTATACCAGGGATTAATTCAGATATATTTCAGGAAATTTTTGCACAAAATTCTGGTGGATTACTTGGTATGTTTGATATGTTTGTTGGAGGTGCTGTCCAAAGAATGAGTATATTTGCTCTAGGTGTAATGCCATATATATCAGCTTCTATAATCATGTCATTATTAACTCATGTTAATCCATCTCTCTCTCAATTAAAAAAAGATGGTGGAGAACTAGGAAGACAAAAAATTAATCAATATACAAGATATGGAACAGTCTTATTAGCAACATTTCAAGGATATGGATTAGCTGTTGGTTTAGAAAATATGGGTGGTGCTGTAGGTTCAGCAGTTATCGACCCAGGATACTTTTTTAGAATTAGTACTGTTATAACAATTATAGGTGGATCTATTTTTTTACTTTGGTTAGGAGAACAAATTACTCAAAGAGGAATTGGTAATGGAATATCTCTTATAATATTTGCTGGTATTGTTGCTAATTTACCCTCTGCTGTTGCAGGTACATTCGAATTAGTAAGAACAGGTGCTCTTTCACCATTTTTTGTTATTGCTCTAATCTTTTTTGTACTATTAATATTTGGCATTATAGTTTTTATGGAAAGAGCTCTTAGAAAAGTTTTTGTTCAATATCCTAAAAGACAAGTAGGTAATAAAATGTATGGTGGAGAAGGAAGTCATATGCCATTAAAACTAAACATGTCAGGTGTTATACCAGCTATTTTTGCATCATCAGTTTTGCTTTTACCTATGACTTTAACTGGAGTTACTGGAGGTAGAGGCCCAGGTTTTTTAAATTTTTTAAGTAATTATCTTTCACATGGAAAACCTTTATATTTAATTCTTTATTTTTCTTTAATTGTTTTCTTCTGTTTTTTTTATACTTCTATTGTTTTCAATCCACAAGAAACAGCAGATAATTTGAAAAAGAATGGAGGTTTTGTTCCTGGAATAAGGCCTGGAGAAAATACGGCTGAATATTTTGATTATGTTTTAACTAGATTAACTTTAGTTGGTGCATTATATTTAGGTGTTGTTTGTATTATACCAGAATTATTAATTTCAAAATTTTCTGTACCATTTTATTTTGGTGGTACTAGTTTACTAATAGTTGTTGTTGTAATGATGGACACAATTGGACAAATTCAATCTCATTTATTTTCACATCAATATAAAGATTTATTAAAAAAATCAGATTTCAAAGGCGGTTTTTAAAAAAATGTTAATTATTTTATTAGGACCACCTGGAGCCGGAAAAGGCACACAGGCAAAGAAAATATGTAAAAATTATAATTTATTTCATTTCTCAACTGGCGATATTTTAAGAAACGAAATTGAAAAAAAAAGTGAAATAGGAAAAAAAATTAAATCAATTATAAACTCAGGTAATTTAGTAAGTGATGAAATAATAATCAAAATTGTTGAAAAAGTTGTATCAATTAATATAAAAAAAAAAAATGGTATTTTGTTTGATGGTTTTCCAAGAAATTTAGATCAAGCTAATGCTTTTCATTTTTTATTAAATAAAATTAAAAAAAAAGTTGATTGTGTTTTACATTTATCGATTGATAAAGATGAGGTTATTAAAAGAATAAAAAAAAGAGCATCTGAAGAAACTAGAGAAGACGATAATACTAAAGTTTTGAAATCACGCATAAATGTTTATTTAAAAGAAACAAGTCCATTGATAAAATTATACAAAAATAAGAATGTTTTAAAGAAAATAGATGGTATGGAAACAATTGAAAATGTTAAAGTTGAAATATACAAAGTCCTAGATTTAATAAATTGATTTTTTTTGTTAAAATGTTACTTTTTATTGACTTAAAACTATTACTTAGTATAATTCGTTTTATTTTTTAGGTTATTGATTTGGCTCGTATTTCTGGTGTAAATTTACCGACAAACAAACGTGTAGAAACGGCACTTACCTATATTTATGGTATTGGTCCAACTACAGCTAAGAGAATTTGTAAAGATATTGGTATTTCAGATGAAAAAAGAGTAAATAATTTAACTGATGAAGAAATATTGAAAATTAGAGAATATATAGAAGATAAATATAAAGTTGAAGGTGATTTAAGAAGTGATATTTCACTTAATATTAAAAGATTAACAGATTTAGGTACCTATAGAGGTTTAAGGCACAGAAAAAAACTTCCAGTTAGAGGCCAAAGAACTCATACAAATGCACGAACTCGTAAAGGAAAAGGAGTAGCAATTGCTAATAAAAAGAAAGTAACTGCTTAATTATTTTATGGTTGATGAAAAAAAAACTAAAGAAGAAATTGAAGTAAAGGATGATAAAAAAGATAGCAAATCAAAAGCTAAAACTAAAAAAAGATTTTTAAAGAAAAAAGTTAAAAAAAATATTACTAATGGTATTGCTCACGTAAACGCAACTTTTAATAATACAGTTATTAATATTACAGATGTAAATGGAAATACATTGGCTTGGTCTTCATCAGGAGTTAAAGGTTTTAAAGGTTCAAGAAAATCAACGCCATATGCTGCACAAATCGCAGCTGCAGATGCTGGTGAAAAAGCTAAAAATCACGGTGTAAAGACTGTGGAAATTTATATAAAAGGCCCAGGAGCTGGAAGAGAATCTGCTTTAAGGGCATTGCAAAATATTGGTTTTACAATTACTTCGATTAAAGATGTAACTCCATTACCACATAATGGTTGCAGACCGCCTAAAAGAAGAAGAGTTTAATTATTATTAATGAAAGGATATTTATTATGAAAAAAGAAGAAGAGACAAAAAAAGATTTAAAAGCGCCGGACCCATACGCATACAAAAATTGGACAGAACTAATAAAACCAACAAAGATCGATGTTGATAAAAAAGATGATAATAATTCTATAGGGTCAGTAACAATTGAACCTTTAGAAAGAGGTTTTGGTTTAACTATTGCTAATTCTTTAAGACGAATATTGTTATCGTCTCTTCAAGGCGCTGCAGTTACCTCAGTCCAAATTGATGGAGTTCTTCATGAATTTTCATCTATTCCTGGTATGATTGAAGATGTTACTGAATTTATTCTTAATATTAAATCTTTAGCAATTAAACTTAATAGTGATCAACCTAAAAAAATGACTTTAAAAGCATCTGGCCCAGGCGAAGTTAAAGCTTCACAAATAGAAGCAAGTAGTGAAATTGAAATTATAAATCCTGATTTAGTTTTATGTAATTTGGACAAATCTGCAAAAATTAATTTAGAATTAACTGTTGAGAATGGTAAGGGATACGTTGCAGCTGAACAGCAAAAAAAAGATGATAAACAAATCGGACTTATATTAGTTGACGCAATCCACTCACCGGTAAAAAAAGTATCATATAAGATTGAAAATTCTAGAGTAGGACAAGTAACAGACTATGATAAACTCACTTTGAACGTTGAAACAAATGGCGCTATCCTTCCTGATGATGCTATTGCGATGTCAGCTAGAATACTTCAAGAACATTTACAATATTTTATTAATTTTGAAGAACCTGAAATTGATGATAAATCTAAAGAAGAAGAAGCAGAAATAAAATTTAACAGAAATTTACTTCGCAAAGTTGATGAATTGGAACTTTCTGTAAGATCTGCTAACTGTTTAAGAAATGACAATATTGTTTATATCGGCGATCTTGTCCAAAAATCTGAAAATGACATGTTAAGAACTCCTAATTTTGGTAGAAAATCTCTAAATGAAATAAGAGAAGTTTTGATGCAAATGGGTTTAAATCTTGGAATGGATATAAGCGATTGGCCACCTGAAAATATAGAAGATTTGTCAAAAAAATTAGATGATAATTTATAAAAAATTATGAGACATAAAATTTTAAAATATAAATTAAATAGAACTACATCACATAGAAAGGCATTACTTAATAATATGGCACTTGCTTTATTAAAACATGAACAAATTAGCACTACTTTAATAAAAGCAAAGAATTTGAGACCATTTGTTGAAAAAATTATAACTTTAGCAAAAAAAGGTAATTTATCATCTAAAAAAAAAGCATATTCACTTTTAAAAGATAAAAAAATTATTGATAAGCTTTTTTCTAATCTTTCAAAAAGATATGAATCAAGAAAGGGAGGTTATATAAGAATTTTAAAAAATGGTTTTAGATATGGTGATATGGCTCCATTGGCTGTTATTGAGTTAGTTGATAGAGATGAAAAAGCAAAAGGATTAGATTCAGGTCCTGTGCAAAAAAAAAAGGAAGTAAATGAACCTGATGCAGAAATAAATACAAATGAAAAAAACTTAGAGCAAACAAAAAACACAGATGAGCAAGTTCCTGAAAAAGAATTAAAAGAAAATGAAGAAATTGCAAAAAAATTAGATAAAAAAAAAGATAAATAATGGCAAGAACCTTTGAAATTAAAAGATTATTAAGTACTGCAGGTACTGGTTATTCATATATTGTAAAAAGAGGAACTAAAGGTGATAAAAAAGAAAAATTAGGAGTTAAGAAATTTGATCCAGTTGCAAAGAAACACGTTTTATTTAAAGAAACGAAACTTCCAAATCCCAAAAAGAGCTAAATTGATCCTTAAAGTTAATTTATCTGAAACTGGACAAAGATTAGATAAATTTATTAAAAGAAAATTAGGCTCTTTATCACAAAGTTTATTAGAAAAATTATCTCGCAAAGGCCTAATTAAAGTTAACAAAAAAAAAATTAAACTGTTTTATAAAATTCAAATGAATGACATTGTTGAAATACCTTCTATAAAAATATGTAAAAATAAAGAAAAAAAAAAAAATCCTAATTTAAAAATTGGAGCCAAGGAAATAATAAAAAAAATAATTTATAAAGATGAAAAAAAAATTATTATTAATAAACCACCTGGCATAGCGGTTCATAAAGGGTCAAAAACTTTTTTTAGTATTGATGATATTAAAGATTATCTTAAATTTAATTATACTGATTCACCAAGAATAGTTCACAGAATTGATAAAGAAACAACCGGAATAATAATTATTGCTAGAACTTATAAGTCTAGTGTTTTTTTATCAAAACAATTTAGAGAGAGAAATATCGAAAAATTTTATATTGCTATTCTTTATGGTATCCCAAACAAATCAAAAGGGAAAATTAATTTTAAAATAAATAAAAATGAAATAGCTCAAACAGATTTTTATATATTAAAGATAATTAAAAATAAATATTCTATAGTTCTTTTAAAACCAATTACAGGAAGAAAAAGACAATTGAGAGAACATTGTTATAGGATTAATTGCCCGATAATAGGTGATAAAAAATTTTTTAAAGAAAATAAAAATAAAATTAAATTTAATAATTTATTTTTACATGCTTTTAAAATAAAAATTATAAATGAAGATGGAAAAAAAGAAGCATATATAGCTTCATTGCCTAATCATATAAAGGAATTTCTTAAAAAACACAAAATACGAACAAATAAATCTTTTATTAATGAATTAGTTGAATCTGTTATTATTAAATAGTTTAAAATAATTAAAAAATTAGTAGAATTAAAAAAAAATATACTTAAGTAAAATCTTTAATTTAAAAATCAAATGAAAGATATTATCAAAATTTTAGAAGAGAAAAGAAAAAAAGCTAAAGAAGGCGGTGGTAAAAAGAGAATAGATTCTCAACACAGCAAAGGCAAATTAACAGCTAGAGAAAGAATAGAACTATTATTAGATAAAGATTCTTTTGAAGAATGGGATATGTTTGTTGAACATAGATCAACTGATTTTGGCATGGCTAAGAATAAAGTTCCTGGGGATGGTGTTGTAACAGGGCATGGAACTATTAACGGGAGACAGGTTTTTGTATTTAGCCAAGATTTTACTGTTTTTGGTGGCTCTTTATCAGAAGCACATGCTAATAAAATTGTAAAAATTATGGAAAAAGCAATGCAAGTAGGAGCTCCCGTAATAGGTTTAAATGATTCAGGTGGGGCGAGAATACAAGAAGGAGTAGATTCATTAGCTGCATATGCAAAAGTATTTGAACAAAATGTTTTAGCATCTGGTGTAATACCTCAAATTTCAGTAATTATGGGCCCCTGCGCTGGAGGCGCCGTTTATTCTCCTGCAATGACAGATTTTATTTTTATGGTTAATAAAACATCATATATGTTTGTTACAGGCCCAGATGTTGTTAAAACTGTTACACATGAAACTGTAACTCATGAAGAATTAGGTGGAGCTTCAACACATACTACAAAATCAAGCGTTGCTGACGGTTCTTTTAAAAATGATATTGTTGCATTAAATGAAATCAGAAGATTATTTGATTTTATTCCTTTATCTTTTAGAGAAAAGCCACCTGTAATGAAAAAAACTGATAAAGTTACCCGTGCTGAAAAATCTTTAAATACTATAGTGCCAAAGAATCCAAATAAACCCTATGACATGAAAGAGGTGATTAATAAAATTATTGATAATGAAGATTTTTTTGAAATTCAGGAAAATTATGCAAAAAATATTATTACTGGTTTTGCTAGAATGGACGGACAACCTATAGGGGTTGTTGCTAATCAACCTTTGGTACTTGCCGGTTGTTTAGATATTGATTCATCTAGAAAAGCAGCAAGATTTGTAAGATTTTGTGATTGTTTTAATATTCCAATAATTACATTTGTTGATGTTCCAGGTTTTCTTCCAGGAACAAAACAAGAGTATGGAGGAATTATAAAACACGGTTCTAAATTATTATTTGCTTATACCGAGGCTACAGTTCCAAAAATTACAATTATAACTAGGAAGGCTTATGGAGGAGCCTATGATGTTATGAGTTCGAAACATTTAAGAGGTGATGTTAATTACGCTTGGCCAACAGCTGAAATAGCGGTTATGGGACCTAAAGGAGCAGTTGAAATTATATTTCGTGATGATTTAAAAGATAAAAAAAAAATTGTTCAAAGAACTGAAGAATATAGAGAAAAATTTGCTAATCCTTTTATTGCTGGTTCTAGAGGTTTTATAGATGATGTTATACGTCCTGCAGGAACAAGATCTAGAATATGCAAAGCACTTAAAATGTTAAAAAATAAATTTTTAAAAAATCCTCCAAAAAAACATAATAATATTCCTCTTTAATAAAAATGATTAAAAAAATACTCATTGCAAATAGGGGAGAGATTGCATGTAGAGTAATCAAAACAGCAAAAAAAATGGGAATTAAAACTGTAGCTGTTTATTCAGAAGCAGACGAATATTCCAAACATGTCTTAGAAGCAGATGAATCCTTTTATATCGGGCTTGCACCTGCTGCTGAAAGTTATTTATCAATAAAAAAGATTATAGATGCAGCAAAAGAAACTAATGCTGATGCAATACACCCTGGATATGGTTTTTTATCTGAAAATTCAAAATTTGTTCAAAGGTTATCAAGAGAAAAAATTAAATTTATTGGACCTAATGTTAAAGCTATAAAAATAATGGGTGATAAAATTCAGTCTAAAAATTTAGCAATTGAAGCGAAGGTAAATACAATACCTGGATTTAATGATGTAATCAAAGATTATAAACACGCATTAAATATTGCTAATAATATCGGATATCCTTTAATGATAAAAGCATCTGCCGGGGGTGGTGGAAAAGGAATGAGGATAGTTAAAGATAAGAGTGAAGTTAAAGATGCTTTTCAATTAGCATCAAGTGAGGCTAAATCAAGTTTTGGAGATGATAGAGTTTTTATTGAAAAATATATTGAAAAACCAAGGCATATAGAAATACAAATATTAGCTGATAAATTTGGTAATGTTATACATTTATGTGAAAGAGAATGTTCAATACAAAGAAGACACCAAAAAATAATTGAAGAAGCACCTAGTTCTGTTGTTTCAAAAAAATTACGTAACGAAATGGGTGAACAAGCAAAAGCTTTAGCAAGGGCAGTTGATTATCAATCAGCAGGTACAGTTGAATTTATAGTAGATCAAAAAAATAATTTTTATTTTCTTGAAATGAACACAAGATTACAAGTTGAACATCCTGTAACAGAAGAAATTACAGGAATTGATTTAGTTGAACAAATGATAAAAATTGCTGATGAAAAAAAATTAAAAATTAAACAAGACGATATTAAAATAAATGGATGGGCTATGGAGGCTAGAATATATTCTGAGGATCCAATCAGAAATTTTTTACCGTCAGTTGGAAGAGTTAAAAAATATATCGAGCCTAAATTAGAAAAAAATATTCGATTAGATTCAGGTATAATTGATGGTTCTGAAGTAAGCATTAATTATGATCCCATGCTTGCTAAATTGATAGTTAAGGGAAAAAATAGAAGTCAATGTATAAAAAAAATTATAGAGGCTTTAAATTCTTTTTACTTAAGAGGTTTTAATAATAATATAAAGTTTTTAACATCAATTTTTAAATCAAAAAATTTCAATACTGGTGACATACATACTGGTCTTTTAGATCAGGAATATGAAAATGGTTATACCTATCCTCAACCAACTAACAAGCTTTTAAAAAAAATATTTATTCCAATTGCTTCATACATAGGTTACAGGTATTTAAAAAATGAAAGAAATAATATTATTAATGATAATCAAAATCACTATGTTTTAACTTTAAATAATAAAAAATATAATCTTAAGATTAATGAAGGAAGAAAAAATCTGATTAAGATTAATTATAAAAATTTTTTTTTTAAATTAAAAAGTTCATGGAAAATCAATGCTGGTATTATTGAAATTCAGATAAATAAAAAAAAATATCTTTTACAATTTGATAAATTTAAAAATTATTTTGTAATAACATATTTAGATTATTCAACAAAATTTGTTTTTTATGATAAACATACTGATAAGTTTGACAAATATATGATTGAGGAAGAAGCTGTTGATTTGTCAAAATTTTTATTAGCACCTATGCCTGGAAAAATTGTTTCCATAAATGTTAAAGATGGTCAAAAAGTTAAATCAGGAGAGAACTTATTAGTTCTTGAAGCTATGAAAATGGAAAATTTAATAACTGCTTCGAAAGACACAAAAATAAAAAAAATTAATGTTAAATCAAATGATGCAGTTGAAGTTGATCAAATACTAATAGAATTTGATGAATAATAAAACTGTACATATTTTTATTACAGGACGAGTACAGGGAGTATCATACCGCTGGTGGTTTAAAAAAGAAGGTATAAAGAAAAATCTCAACGGATGGGTAAGGAATAGAACAAGTAATAGAGTTGAAGCAGAAATTTACGGTTCCGAAAAAAATATTAATGAAATGATTAAAAAATGCAGAACAGGTCCACCATTAGCCGATGTTGAAGATGTTATTGTAGATACTATTGATAAATTAACATTAGTAGATAAAAATATAAAAGATGTAAAAATTCTTGAAACACTATAATTTTCCTATTATCTTCGAAATAATTTTAAAAATTTTGTTATTTTTATAATAAAAAATGCGGTCGTGGCGGAATTGGTAGACGCGCAGCGTTGAGGGCGCTGTGGGAGCAATCCTGTGGAAGTTCAAGTCTTCTCGACCGCACCATTTTTTTTTGTTGAAATGATGTGTTTTAAAACAATATTTAGGGATAATTTTAAAATTATTTATAATGTTTAAATCTATAAAAAAAATATTTAATAAAAAACAAGATTATGAAAAAATAAAGAAAGAAATTACACCTGTTCCTTCTAAATTTATTCATTCTTTAATGGATTCTATTAATTTAGGTCTAATAGATAAAACTCAAAGTTTATTATCTGATATTAGTACTGGAGAAATTGCAAATATAATTGAACAATTAGATTCTAATAATAGAAAAAAGTTAATTTTTTTCTTAGGTTCTACCATTGATCCGGAAATAATCTTAGAATTAGATAAAGATATAAGAAAAGAAATTATTTTAGTAATCGGAGAACATACATTTTTAGATGTAGTTTCTAAATTAGATACTGATGATTTAATTGAAGTGTTAGAAGAATTAGATGAAGATAAAAGAGGGCAATATTTAAAACTCTTACCAAGAAAAAGTCAAAGAGAGCTGGTTAAAAAAGGATTAAAGTTTCCAGAAAATACAGCTGGTCGTATTATGTCAACAAACGTTGTTTCAATTTCAGCATCATGGACAATTGGAAAAACTCTAAAATTTTTAAGAAATAAAAATGATTTATTGCCTGATGATATTTTTGAAGTTTATATTTTAGATAGTAAAAGAAAACCTATTGGTACTTTAAATCTTAATACAATAGTTAGATCTAGTAGTGGTACTTTAGTTAAAGATATTATGAATACACAATTTAAAACTATTCCTATTAATACTGATCAAGAAGAAATTGCACTTGGTTTTAAACAAAATAATTTAATAGCAGCACCAGTTGTAGACAAAACAGGTAAAATAGTTGGTCAGATTAATTCAGATGATATTATTGATATCATAGAGCAAGAAACTGAAGAAGATTTATTAAGATTGAGTGGAGTTCAATCCGGAGATACTTATAGTGCGGTTCTTCAAACAATCAAATCCAGATTTGGTTGGCTATTAATAAATTTATTAACTGCTATTGCAGCATCATTTGTAATTGGTATTTTTGAAACTTCATTAAAACAAGTTGTAGCTTTAGCTATATTAATGCCAATTGTTGCATCAATGGGAGGAAACGCTGGCACTCAAACTCTTACTGTCGCAGTTAGATCTTTAGCATTGAGAGAAATAACAAGGGCAAATGCATTGCGAGTTATTGCAAAAGAATTTACAGTCGGTGCAATTAATGGACTTATTTTTGCTTTAATTATAGGAACCATTGCATCATATTGGTTTAATATGCCTTTATTAGGATTTGTAATTGCAGCTGCAATGATATTGAATTTAATAATTGCATGTTTATCAGGAATTTTAATACCATTAATTTTAGATAAAACTGGAATTGATCCAGCAATCGCTTCTACAGTTGTACTTACAACAATAACTGATATATTTGGTTTTTTTACCTTTTTAGGTTTAGGAACAATATATCTTTTATAAATTTTTTATATGTTACTAAGTTCA
>sequence09
TGCCCCCAATTAATTTCTTCACCTGCAAAATAAATTAAACCTAATAAAAATAATACAAAAAAATAAAATAATTTTTTAATTATTATTTTTTTTTGAATCAATAATTTAACGTTAAAAATAACAGCTATAAATAAAACAAAAAAAGTACCATTTTCAATAATTCCTTTTTCACTTTGAAAGTATTTAACAAATAAATTAATATTTATTAATTTTATTGAAAATAAAACTAATAAAAAAAGGATTGGTAAAAAAAACCAAAAAAAAGAATTTAAATTGTCATTATTATTTTTATTTATAAATTGAAACATATTTAATTATAAATATTATAAATATTTCATAGAAATATAAATGTATAAAAAAAAAAAAATTTATGTTGCTCCTATGATGCAATATACAGATAAACATGATAGATATTTTTTAAGATTAATATCTAAAAATGTAATTTTATTTACTGAAATGATACCTACTAATACTATTATTCACGGTGATAAAGATAGATATCTGCAATATAATAAAAATGAGCATCCAATTATTCTACAATTAGGTGGTAGTAATGCTGATGATATGGCTTTATGTGCTGAAATAGCAGAAAAAGAATATAAATATGATGGTATAAATATTAATGTCGGTTGCCCTAGTAGAAAAGTTGTAAATGGTATGTTTGGTGCGAGCTTAATGAACAAACCAGATTTAGTATCAAAATGCATTAAAAAAATTAAAAAAAAAACAAATTTACCAGTTTCAATAAAATGCAGAATTGGTTTAGGCAAAATACAAAATTATAATTTTTTAAAAAATTTTATTAGAATTATATCAAAAAGTGGTTGTAAACTTTTTTTTATTCACGCTAGAAATGCTATTTTAGATGGTTTAAATCCAAAAAAAAATAGATCAGTACCTCCTCTTAATTACTCTTATGTATATAAATTAAAAAAAGATTTTCCTAATCTGGAAATAGTACTAAATGGTGGCATTGATAATATTAATTCGATAAAAGAACATTTAAAAATAGTTGATGGTGTTATGATTGGAAGAGAAATTTATAAAAATCCTTTTTTTTTAAAAGAAATAGAAAATGAAATATTTGAAAATAAAACTCAAACAACTAGAAAAAAAATTTTAGAAAAATTAGTGCCATATATAGAAAATGAAATAAAAACAAAAAATGCTTCTATTCAATGTATAACAAGACATACTTTTGGTTTATTTACCGGTATAAAAGGATCAAAAAAATGGAAACAATATTTAAATAAAATAAAATTTATGAAAGGTAATATCAAAAGCATAATTTTAAATGGTATTGAAAATATAAATGAATAAAGAATATAATATAATTGTTTATACATCAAACAATTGTACTTTTTGTAATTCAGCAAAAAATTTGTTAGAAAGAAAAAAACTAAAATATAAAGAAGTTAATGTTTCATTAAATAATTCATTAAAAGAAAAAATGATTAAAGAAACTAATGGATTAATGACAGTTCCTCAAATATTTATTAATAAAAAACATATTGGTGGGTTTGATGAATTAAATAATTTGGAAAAATTAAATAAGTTAGATGACCTTATCAAAAAATAATTATTTCCAATTATTAAAAAATTTTATCATAAAAAATGGTAAAGAAATTACCATTCTTTTTCTAATTATTGCTATTTATAATAATTTATCTCATTTTATTAGAAAAAATATACTAAGTGATAGAATTGATTTTTGGGATTTTCATGTTTACTGGTGTTCAGCAAATAAATTTATTAATGGCATAAATCCATATGGTGGTGAAACTATTAAAGATTGTTTAACACAATTTAATTTTGATTTATATTTTTCATATCCACCAATTGTACTTAGGTCTATAAGTTTTCTAGGAAATTTAAATTTTATTTATGCAAAAATTCTTTGGATTTTAATAATTATTTTTTCTTTTTATTTAATTATTTTTTTTCTTAGGAAAATATATTCATTCAAATATTTGTTTTTTACTTTATTACTTTTATTTACTGGTGGGGGACTTATTTGGGGATCATTGCTAGCCGGAAATATTTCAACAATATTATATGCTATACTATCAATTGGAATTTATTTTTTAATTAAAAAAAAGAATGATTTTTATTATTTATCAGTATTACTAGTTTCATTGGTAAAGTTTCCTTTCTTTATTTTCTTTTTTATGCCTTTTTTTTTAAAAGATTTTAAAGAATATAAAAAAATTTTGTTTTATTTTTCTTTAACAATATTTATATATTTAATTCAATTCTATTTTGATAAACAACTTTTTTTAAGTTATATAAATTCAACATTATCATATAAGGGAGAAGATTTTCTTAAAATACATGGAACTGGAATTGGTATACATGGAATTATTGATTTATACCAAGATATAATTTATCAAAAAACAAAATTAATTTTTTTTAAACCTTCAGGTATCTATTCATTTCTATTACATAATATAATATCTTTTATCTTTTTTATATCAGCATTTTTTTTATTTAACAAAAAAAACCCAAATTTAAGACAAAAAAAATTTTTAATTTCATTTTTTATTGCTATTTTTTTATGCTGCTTTCCAAGAGTTTCATCATACGATTTCTTTTTACTAATATCATCTTTTGTATATGTAGTAAATTTTTCAAGAATAAGATTAATTAATAAGAATTGGGAATTTGTAATAACAATATTAACAATATCAATATTGGCTGTATATGACACAAGATATCCAGCATTTGTAATTTCAACTTTTTTATTTTTGTGTTTCTACCATCAGATAAAAGGTAATGATCCGTTTTATTTAAAAAAATAATTAATTAAAAAATTTAATTCTCAATATTACTAGTAATGCTTTAAAACCATCAAGCCAGGAGATTTTCTTACCTTCTTTAAACGTTCTTCCCTTATAAAAAATATCAAGTTGAGTTATCTTCCATCTTTTTTGTTTTAAAATTTTTGAAGTAAACTCAAAATCAAACATAAAATCATTTGAAATTAATTTTATGTCTTTAATAACTTCTTTCTTAAACATTTTATAGCAAACTGCTACATCAAATAATTTTTTATTAAAAATAAAACTAACAAAAGAAGAGAGAAAAAAATTACCAATTGCATAAATTAAATAATGATATTTATTTTTTTTTAAAGAAAATCTATTACCATAAACTACATCAAAATTTTCTATTTCAATTTTTCCAATCATTTTATTAAAATCAATAGGATCATATTCCAGATCAGCATCTTGAATAACAATTACTTGACCTCGGCATTTTTTTAATCCTATTTTCACAGCTGATCCCTTACCTTCGTTTTTTTTTTTTAAAATTATTTATAAATTTTTAATTTCCTTATTTTTTTTAATAAAATTATTTTTTTTTTTTTTTATTTTTAACACCAATAATTTTGTACCAAAATTTAAACAGTAATAAAATATTATTATTAATTTTTTTTTTTTTCTATTAAGTACAATTATTTTTTTTAAAATTTTAGGTAATAAATTTATTTCGTTATATACAGGAATTATTATTGATAATTTCATCATTCAACTTTTTATTAATGAGGCAATGATCTTCGAGCTTTAAAATATTTTTTTATCCAGTTTGGATTTAAATAACATTTTGTATAAGCTTCATTTTTTAACTTTTCTATATCTTTAAATGATAAATTCGTATGTTTAAAAATTAGATTGTACATAGTAAATTCTTCATAGTTTTTAGCTAAAATTTTGTCTTTATAGCCCTCAAATGCAGGAGTTCCAGGATAAGGAGTAAAAACAGTAAATTGTGTAATAATAGAATTTATATGTTTTGCATATTTAATTGTTTCTTTACACGATTCAATTGTATCTTTGGGATAACCTAAAATAAACATTGTTGTAACATGTATTCCAAGAGATTCTATTTCTCTAATTTTTTTTAATGTTACATCTTCATCTATTGAAAATCTATTTGCATCTTTTTTAACATTTGAAACTGCAGATTCAACTCCTACTTTAACCATTATCATTCCCGCTTCCTTCAATTTTTTAACTAGATCAATATCCAAATTATTTAAATGAGTTTCAATAATAAATTGAAAATTTTCATTAGAATTAATTAAAACGTCACATAATTCTAAAGTATGTTTTTTATTTATTGAAAAAACAGGATCACGAAATATAAAAAAATTGACTCCTAGTTTAGATTTCCAATGTTTCATTTCATTCAAAATTAATTTTGGATCCCTTTGTCTCACCTTGATACCTTGTTGTAAAGGATATGTACAATAAAATCTACATGAATATGGGCATCCTCTTGTAGCAAGTAATGGTATCATTTTCTGTTTTAAACTTAATAACGAAAACATTGATGGATATTGTTCAAAAATAATATCCCATGCTGGCAAAGGCAAGTCATCTAAACTTACAATATTATTAATTTCAACAATTCCACTTATTTTTTTTAATTCTTTATCATCTAATTTTGTATTATAAAAAAACATTTCAGGCTCTCCTTTAATTACTACTGCACCTGATTTGATATAAATATTTGGATTTGATGTCGCAAATGGTCCTGTTACTAAAACTTTTTTTTTTAAATTAGAAAGTTTTTTAATTACATTAATTTCAGTTTCTGAACAAACAATAGATGATGGCATAATAAAACAATCAATATCATCAATGTTTTTATAAGGAATTTCCCTGGAATAATTAACATCATGTCCCAATGAACGCAATATTCCTGCACAATGGACAGATGATAATGGAGGCCAATCTATATTTTTCTTTACAAACCAATTTATTGCTTTTGAAATTAAATTAGTCCCATATTTATTACTTGATCCATAACCACCATTATTATCTTTAGAAATTCTAAAAGGTCTCTTGGGATAAACATCTAAAATTAAAAATTTCATAACAAAAAATTTGGTGACCCCTACGGGACTCGAACCCGTGTTGCAAGAATGAAAATCTTGAGTCCTAACCGCTAGACGAAGGGGTCAAAAATTCTAAAAATAGTTTTTATTTATTCTATTTTATAAAATATATCAACTATATAATAACTTTTTCTAAAACTCCATCCTCAATAATAGCTTCAAAATAAACCTTATTTCTCCAATATGTTTTATTTATAAAACCAATAAAAGAAAAAAGATTTTTTTTATGATTACTTAAAATAGTTTTACCTAATAAATTATCATTTGCATTAAAAAGTATTGCTTTGATAGATTTAGATGAATTATCAGATATAAAAAATGACAAATGTTTCTTTGGGTTACCTATTAAAGTTGGTTTTATAATTTTTATATTATTAAATAAAAATTTAGGTTTTGGATTCCCTTCACCAAAAGGAGCTATGGATTTAATTGAATTATAAAGGTCATCATTAATTGAATTTAATGACAGAACTTCATCAAACTTTAATACTTTATCCTCGTTTTTTTTTCTCATAATTCTTAAAACATAATTACTACAAAATTTATCAAATTCTTCTATTTTACTTTTTTCTAAAGTTAACCCAGCAGCCATACTGTGCCCACCACCTTTTATAAGAATATTCTTTTTTTTTGCTTGAATAATTAAATTGCCAATATCAACTCCTAGAATTGATCTACCTGAACCTTTGTAATTTAAATTATTATCTTTGGTTAGAACTATTACTGGTTTTTGAAATTTTTCTTTTATTCTACTTGCCACAATACCTAAAACACCCTCATGCCAAATATCACTGTAAACTAATATAAAGTTTTTTTTTTCTATATTATTAGAATTAATCTGATCTATAGCTTCAGTAAAAACTTTTTCTTCAATTAACTTTCTTTGATAATTAAGTGTATTTAATTGCTTAGCAATTATTTCAGCTTCTTCTTCATCTTTAATACTTAAAAGTTCTTCTCCAATAGAAGATTTACCTACTCTACCTCCAGCATTTAATCTTGGACCAAAAAAAAATCCTAAATCCTGCTCATCAGGTTTTTTTTCTAACTGACTTTCATCAGATAAAATTTTTAATCCTAAATTTTTTCTCTTAGAAAGAATTTTTAATCCTTCAAAAACAAATGCTCTATTAAGATTAATCAAAGGAACAACATCGCAAACAGTCGCAAGTGCAACAAGATCTAAATAATCTTTAATGTTAACTTTTTTATCAGCTCTAAAAGAATCTAACTTAATAATATTATTTAAATAATTTAAAAAAATATAAACTAATCCTGCAGAACAAAGAAATCCATAACCTGAAGTATCTAAAGTACTATTAGGATTAACTAATGAATAAAATTCATTTGATTCTTCATCAGGTTTATGGTGATCGATAATTATTACATCTATATTTAAACTTTTTGCATATTTTATTGTTTTATGTGAATTAGTTCCACAATCAACCATTATTAATAAATTAATTTTTTTTGATTTTATAATATCTATTGCTTTTTTATTTGGACCATAACCTTCTTTAATTCTATCTGGAATATAAGAAAAAACATCTAAATCATAAAATTTTAAATAATTTTTTAACAACACAACAGATGTTAAACCATCAACATCATAATCTCCTAAAATTGCAATTTTTTCTTTTTTTTTTAAAGCATGATACACTTTACTAACTGCTTTTTTCATATCATTAAATATAATAGGATCTGGAAGAAATTTTTCTAAAGATGGATTAAGAAATTTTTCAACATTATCAATTTCTAAACATCTTGATGAAATTAAATTAGATGACATTAATGAAAAGGAATATTTTTGGGAAATATTTAAAGAAAGCCTTTTGTCTATACTTTTTTTTAACCATAAATTTCCTAAAAGTGATTTTTCAGGATATAAAAAATTCTTTTTTGTATTAGATTCTAAATTCACTTTTTATAAATTCAATTTTTTTTGATTTTGTTGTAATTATTAATGAATGTGTACTAAATTTTTTATTATTTTTCTTAATTCCATTTAATAAATATCCATCGGTTACTCCTGTTGCTATAAAAATAGAATCTTTTTTAATCAAATCTTTGATTAAGTATTTTTTTTTTAAATTTTTAATTCCCATTTTTTTTGCTCTTTTCTTTTGAAAAATATTTTTGAAAACTAATCTGCATTGCATCTGACCATTAAGACATTTTAAAGCAGATGCAGCTAATACTCCTTCGGGCGCTCCTCCGATACCAGCATAAATATCAATATTAAATTTATTAATTCCAGTTGAAATAGCACCAAAAATATCGCCATCTGGTATTAAAAATTTTTTACATTTTAATTTTTTAATTGCTTTAAAGATATATTCGTGTCTTGGTCTGTTTAAAACACAAACAACAAGATCAGAGACTTTTTTTTTTTTATGAAAAGCTAAATTTTTAAGTGTTTGTTCAAATGGTAAGTCTAAATCTATAAAATTTTTTGGTAAATTAGCTCCAACGGCAATTTTTTCCATATAAATATCTGGAGCATGTAAAAAACTTTTATTATTACCCATTGCAATTACAGTAAAAGCATTTTTTTTATTATTTGCAGTAAGTTTGGTTCCTTCTAATGGATCTAATGCTATATCAAATTTATTATTATTTTTTTTTTCCCCCACTATCTCTCCAATATAAAGCATAGGAGCTTTGTCTCTTTCACCTTCTCCAATTACAATTTTCCCACAAAAATTTATTTTATTTAATTCACTTCTCATTGTTTCAACAGCTGCCTTATCAGCAGATTTTTCATCTTTTTTACCAATATAATCATAAACTGATATAGCAGCTAATTGAGTTACTTTTAGTATTTTAGGATTATAAGAAAATAAGTTTTTTACCACATAAAAATTCTACATAATTATTTTAGACATGTAAAACCTGTAAAATCAAACCTTGTTCTTTTGTGTAATTGCATTTATTAACTTTATTCATTACTAAATCAATAGATTTTGTTAAACAATTATGAGTCAAAATAACAACATTAAATATTTTCTTATTAATTTCTTCCTGAAATAAATTTTTAATAGATACATTATAATTTTTTAAAATTGTTGTTATAGCAGCTAAAGCTCCAGGTTTATTCAAAACTTTAACTTTAATAAAGAACATATTTTTCTTAATAAAGTTATTATAAATTTTTATTTTTTTTCTTTTTTTGTAAGTCACCCCATACATAGTTTCATACTCTTTTTTTTTAATATTCATTAAATCAGAAACTACTGACATTGCTGTAGCACTACCTCCTGCTCCTTCTCCTAAAAGTATAGTTTTATTTTGATTATTAGAATCAATTATAATGGCGTTAAGATTTTTATTAACAGTTGCTAATTCCTTTTTTTTTGAAATTAAAAAAGGAGAAACAGATAAACTTATTTTATTATTATGTAAATATGAAATACCAAGAAGTTTAATTGCATAACCTAATTTATCAGCAAAAAAAAGAACTTCTTTATTTATACTTTCAATTCCTTGATAAGTTAATTTAGAAAATTCAAATTTTGTATTAAAAGCTATAGTAGATAGAATTATAATTTTGTGTAATGTATCTAACCCATTTAAATCATTATTCGGCTGTTGTTCAGCGTAACCTAATTCTTGTGCTTTTTTTAAAGATGAAGAAAATTCTACATTTTCTTCTATCATATTTGTTAAAATAAAATTTGATGTACCATTTAATATACCTGTTATTTTATTAATTTTTATTCCAGAAAAACTATTTTTTAAAGTTGAAACTATAGGGATGCCTCCTGCGACTGATGCTTCGAAACCAATCTTTACACTATTATCTTCAGCTAATTTAGCTAAAGTTTCACCCTCTAAAGCAAGCAGTTCTTTATTTGCTGTAATTAAATTTTTATTATTTTTTAATGCTTCATAACATATTGTCTTTGCAATACCTAATCCACCTATTAATTCAATAACAGTATCAACTTTTTTTTCTTTTAACATTTTTATAGGATCATTAAACCATTTATATTTTTTTTTAACAAAGTTCCTTTTTTTTAATTTATTTTTTGCACAAATACCAATAATCTTAATTTTTAAATTAGATTTTAAAGAAAAAATATTAATATTTTTTTCTATTAATTTAATAGTTGACGTACCAACAGTTCCAAGCCCTGCAATAACAATATTATGAATATGAGGCATTGAGAAAGTTTAATATTGAATAAAAATTTCAGCTCTTCTATTTGCTGCTTCTAAACTTGGCATAATTTCAGTGTAAAGTGGTTCTTTATCTGACATTGCAACTAATTCAATTTTATCAGATTTCATACCAATATCTGAAAATTTAGACATTACTTTATTTGCTCTTTCAAGAGAAATATTAAAATTAACAATAGCATGTCTTGTCAAATCCATATCATAATTAGTTCTGCTACTTGCATGTCCAACTATTACAATTTTTTTTCCCTGATTTTGATTAAATAAGTTTGCTACTTTCTCTATTTTTTGTAAATCATCTTTAGTTAAATGGCTTGATCCATGATTAAAAGTAATTCTTGCAACTGGCAACCCTATATTTTTAACCTTTTCAAAAACTTTTTCTTCTAAAGACTCGGTCTTTTTCTCAATAATAATATTCTTTTTTAATTCAGGGGCTTTTTTTTCTTCTTTGAAAACCATAGGTTTATCTAAACTATCTAAACCTTTAAGGCCTAGAATATTCTCAACATCTTGTGGTGTATAATATAAATCATTCTTTTTTATTTTTTTTTCAACTTTTTCTACATCTTCTGTAGTTTTAATGTTTTTTAGTTCACGAGCTAAATTACGAAGTTCTATTTCTTCTTCAGTTCTAATTGGTTTTTGATTTGAAGAGTTTTTTAAGTCTGGTTTAAAATTTTCAATTTCATTTAATTTTGAGTCTAAAACACTTCTAACAGAAAAATTTTTATTTTCTAAACTATAATCTTCTTTATCTGTTTCATTAATAACATTCAAGGATTGTTCTAAATTTGCAACTTTATCTTCAATAACAGGAATGCTTGGAGTTGGTTCAATTTGATCATTATTCTTTTCTAAAGAAGTTACAAGCTTTTCCTGTTCCTCAATAGTGATTGCTGGATCTGGTCTATTAGGAACATTAGCTAAATTTGGATAATCTAAATTATTTTCATATTCAATATCACCTTTTAAAGTGTTCTTCTCATCATTTTTAACAATTTCTTGATCTTTTTTTTCTTTATCATCTTTTATATAAACTCTTTCTGCTACTACTTCCTTATCTTCTTCTGCTACTACTTCCTTATCTTCATCTGATTTATTATTTTTATCAGATTTTGAAAAAAATTTATCATTAACTAATGAACAATTATTTAATAATAAAGCTGAAGATAATAATAATATTTTAAAAATTTGCATATAAGTTAGTTAATTATTTTTATTTAATTTTACAAGATATTCTTGCCCTAATAGAAAATAATTATCTGCTGATTTTCTAAAAAATTCTATTTCATTCTTTTTTAATTTTCTCAAAAATTTTGCTGGTTTACCAGCCCAAAGTTCTCCTGAATTTATTATTTTTTTTTGTGTCAATAAAGATCCAGCTGCTAACATAGCATTTTCTTTTACTACAGCACCATCTAATATTGTAGATGACATACCAATTAATGAATTATCATCTATTTGACAATCATGTATGACACAATTATGTCCAATAGTAACATTTGATCCTATTTTTGTTCCATATCCATTGGTTGTACAATGAACCATTGTTAAATCTTGGATATTTGTATTCATCCCTATTCTAACTTTTTCTACATCTCCTCTAATAACTGCATTAAACCAAACACTTGAATTTTTTCCAATTTTTACATCACCAGTAATAATTGCTCCTGGAGCAATAAATACATTTTTATTTATATTAGGTTTTTTATTTTTAAAAATTAAAATCATAGAAATATTTAATAAATAGAGTTAAAAATGGTATCTATAATATTGATTATACTGTTTTATTATATAGAATTAGGATTAAATAATAAACCTTCATCTTCTTTAAAATTAAACAATAAATTCATATTATGTATAGCCTGTCCACTTGCACCTTTAATTAAATTATCAATTACAGAAATTAAAATTATTCTATTTTTAATTCTATCTTCAAATATATTAAAAAAACAATAATTCGTACCTACAACATCCTTAATTAAAGGAATCTTATCTTTATTTAGTAATTTTAAAAATAAATAATCTTGTTGCTCAAAAAAATTTCTTATATCTTGAATTTTTTTACCTTTTTTTAATTTAAGATAAATATTTGATGAAATACCTCTATTAATAGGTATTACATGAGGAGTAAAACTTACTGTGACATTTTTATTATTATTATATCTTTTTAAACAATTTTCTATTTCAATAATATGTTTATGATTTGCAATTTTATATGGTCTTAATGTATTACTTATTTCACTAAATAAATTTTCTGTAACATTTTTTTTTCCAGCCCCAGATATTCCAGATTTTGCATCAATAATTATATCTTTAGATTCAATAAAATTATTATTTAATAATGGAATTAATGGAGATAACACAGATGTAGCATAACATCCAGGGTTAGCTACTTTATTACTATAGCCCTCATTTTTTTTCTTTGATGAAAAATCATTCAAATGATCGGCTAAACCATAAATCCATGTGTTTTTTGTTAATGAATTTAATCTAAAATCATTTGATAAATCAATAATCGTAATATTTTTAGGTATTTTATTTATCTTTTTTTTACTTTCACCACTTGGCTGGCACAAAAAGACTAAATCTATATCTTTCCAATTTATTTTAGAAAATTTTATTAGTTTAGGATAATTTTTATATTTTAGCGCTGGATAAAAATCAAAAATTTTCTTTCCATAATTATGTTCTGAAATTAAATATTTAATATCAACTTTTTTATGAAAAGATAATAGTCTTATGAGTTCAATTCCTGTATAACCAGTAGAACCTATTATTGCTACATTTAATCTAAATTTTACCATATAAATATTAAAATTTATTCAGATATAATGATTATTTAAAAAAATATAAGAAATATTTTTATCGTTTAGAAAATTGAAAACTTCTTCTTGCTTTTTTTCTTCCGTATTTTTTTCTTTCAACAACTCTACTATCTCTTGTTAATAAGCCCTCTTTTTTTAAAGGAATTCTATACTTTGAATCAAAATTTACTAAAGCTTTAGATATTGCTAATTTAATTGCTCCAGCTTGACCTGATAAACCACCTCCTTTTACTGATACTACGGCATTAAAAGTATTATTATCAATAGTATTAAAAGGTTTTTTTATAACCATATTCAACAATGATCTTGTAAAATATTTATTTGAATCTTTTTTATTTATAATAACATCTCCTTTTCCTTTAGGTACTAGCCAAACCCTAGCGATAGAATCTTTTCTTTTACCTGTGGCATATAAATTATTTTTTTCTTTTTTATTAATTTTAGTATCAGTTATATTTTCGATATTTGATTGATTATCTGTCATATTATTTATTAAAATTTAGAATTGATGGATTATTTGCAGTATGAGGATGTTTTTCATTTGAATAAACATACAAATTTTTTAATTGTTTTCTTGATAAAGGTCCCTTTTTCAACATTCTTTTTACAGCATCTTTTAAAACTAAAGTTGAATTTTTACTATTCAAAACTTCTTTAAAAGTTCTGTTTTTTATACCCCCTGGATAGCCTGTATGCCAATACCTTTTTTTTTCCATTTTTTTACCTGTAAGTAAAATTTTTTTTGCATTTATAACTACAATTTTATCTTTTATACATACATTATCTGTATAACTTGGTTTATGCTTTCCCATTAATCTTAATGCAAGAAAAGAGGATAATCTTCCAAGAATTTGATCTTTTGCATCAATTAAATACCAATTAGATGAAGTTTCTAATTTGGTATTATCTTGATTTTTTATATTTTCATTAATCATTTTTTGTGAAGTATGCCATAATAAATTTTACTGTCAATTAGCTATTCTAATTGTAAAAATTAATTTAATTCTTTAAATATCCAGTCTTTAAATTGTTTATTTGTTTGATTTATTTGAATTGCTAAAATAGCGGGACAATCATAAGGATGATTCATTTTTATAAAGGAAATTAATGTTTTTAGTTTTTTTTTATGCGTTTTAAAACTTAATTCAATTTCCTTTTCATCATGAAACTTATTATTCCAAGTGAATAGTGAATTAACATTTTTATTTATATTAACGCAAGCAGCCAACTTTTTTTTAATTGCCTCCTTTGCTATTTTCTTTGCTTTTTTAATTTCAGGGAAAAAAGAATAAACAACAAAAATAGTCATAATCTATAAAGAATTTTTAATTTTTTTTAATTCAATCACTATATTTTTAAAAGAGTTTTTAATTTTACTTTCATTTATAAGTGTTTTTTTTTCATTTTTATTATCTAATACATTCTTTTTTTTCAATATTGGATTACTTGTTTTTAAAATTTGATTTACTTTTTTATTTCCAAAAATCTTTTGGACACCTTTAATACTTATATGGTCTTGATAAAGTAAATTCCTTATATATCCAATCAATTTAATATCTATATCTCTATAATAACGTCTATTACCAGATAATTTTAAAGGGGACAATTGAACAAATTTGTTTTCCCAAAAACGTAGAACATGTTGTGGAATATTGAAATACTTAGAAACCTGATTAATTGTTTTAAATTTTTTAATAGTTTTCATGATATCAAGTTAAATATCAATTAATATTAATTAAGTATATGATAATAGCAGATTTTATTATTATTTGTTAAGTTTATTTTTTAATATTTTTGAAGCGATAAAAGAAACTGTATTTCTTGCAGAAATTGTGTGCTCTACCCCTGTTTTTGGGTTTCTACCAATTCTTTTATTTTTATACCTTATTTTAAAAGTGCCAAAAGAAGATATTTTTAATGATTTATTATCAATTAATGAATTAATAATTTCATTTATAATTGTATCAACAAAATATGAAGATTCAGATCGTGATATGCCAATATCTTTACTTAAAACATTAGCTATCTCAGCTCTTGTCACATTGTTATTTGCCATAAATATATAATACTAATATTTTACAATAGAACAACCCCAAGTTAATCCTCCTCCTATTGCTTCAAAAATAATTATATCTCCCCTTTTTATAATTTTTTTCTTTAATGCGTAATCTAAAGTCAAAGGTATAGAAGCTGATGAAGTATTTGCATATTTATCAACGGTTTGCAGAATTTTATTACCTGGTACTCCTAGTTTTACTGCAATCAAATCCATAATTCTTTTATTTGCCTGATGAGGTATAATCCAATCTACATTATCTTTTTTTATATTATTTTTTTTTAAATTAATTTTTATACAATTAACTAGCTTTTCCACTGCATGTCGAAACACCTCTTTACCTTTCATTTTAACAAATCCTGCTTTTTGATTAAAAGCAACTCCTCCATCAACATATAATAAATCATAATAACGTCCATCTGAATACAATTCAGTTGAAATAATACCGGAATTTTTTTTTTTTTACTTAATATTATAGCTCCTGCACCATCGCCGAATAAAACACAAGTAGATCTGTCATTCCAATCTAAAATTCTAGAAAATATTTCAGAACCAATAACAAGAACATTTTTTGCTTGATTATTCAATATATAATTATCTGCTACTGATAATGCATAAATAAAACCAGAGCAAGCTGCTTGTATATCGAATGCAAAACCTTTTTTTATACCTAGTTTACCTTGTATTTTCGTTGCAGTAGATGGAAAAGTATTATCTGGAGTTGAAGTGGCTACTATAACTAAATCTATTTCAGAAACCTTTATTTTAGAATTTCTTAAAGCATTTTTTGCTGCTTCATAAGCCAAATCTGAATTTAATTGTTTTTTACTAGCTATATATCTTTGCTTTATTCCAGTTCTTGTGATTATCCAATTATCATTAGTATTTAATTTTTTTGGAAGATCATTATTTTTAATTATTTTTTTTGGTAAATAACTTCCACAGCCTGAAATATAACTTGAATATAACATTTTTATTTTTTATTTATTATTCTTTTTATATCGTAAATTATTTTTTTATTAAAATTATTCTTACACAAATCATATGCAACATTAATAGCATTAGCAAAGCCATTTGCATCAGATCTTCCATGACTTTTAACTACAATACCATTTAAACCTAAAAACATTGCACCATTATATTTTGAAGGATTAACTTTTTTTTTTAAAAAATTTAATATCGGTAATGATACAATAAATGCAAATTTGGAATAAAAATTTCTTTTAAAAGAAGTTTTTAAATATTCACTATATAACTCTGAAGTTCCTTCTGCTATTTTTAAAGCAATATTGCCAGTAAAACCATCAGTTACAACAACATCCACTTTTCCATTTGGAATATCATTTCCTTCAACAAAACCACAAAAATTAATTTCTTTTTTTGATGATAATTTTTTTGCAGATAATTTTACAATATTATTACCTTTTGAAATTTCTGAACCAACATTAAGTATGCCAATTTTTGGTTTTTTTATTCCTAATACAGTTTTACAAAAAACATTGCCCATAATTGCAAAATCAATAATATTTTTTTCATTACATTCAATATTAGCGCCAAGATCTAACATAACAGTTTTAAATTTTTTTGTAGGAAACATACTTGCAATTGCAGGTCTGTTAATTCCTTTAATTGTTTTCATTAAAACTGACGAAATAACCATTAATGCACCAGTATTACCTCCACTTACTATCGCATCAGATTCTAAAGATTTTACTGATTTGATGGATTTAAACATACTTGAATTTTTATATTTTCTTAATGCATCAGTAGGCTTAATATTATTAGTTATGACTTGATTTGTTTCAATAAATACAGAATTTTTAAGAATTTTTTTTTCCTCTATGAGAGGTAAAACTTTTTTTTTTTGTCCAAAAAATAAGTATTTAATATTATTATTTTTTTGAAGAACATTACAAGCACCTTCTATTACAGATGCTGGCCCTAGATCACTACCCATTGTATCTATAGCGATTGTAATTTTTTTTTTATTATTCACAAAATAAGGTTTAAAAAAATAATAAATTAGTTTGGATCAATAATTTTTTTACCTTTATACTCGCCTGTAGATTTATCAATATGGAGTGGTCGTCTTAATTCTCCAGAATTTTTATCTTCAACATAATTAATATTAGATAATTTCTTTTTTAAATGCGATGAACGCATTTTTGATTTAGATTTAGAAGTTTTTTTTTTTGGAACAGCCATTTATCCTATATTTAATAAATTTAACAATTAATATCATTTAAAATTAAAAAAACAAATATTTTTTTTTAATAAAAAAGATTATTAATAAAATTATTAACAAAAATTCTTTTTGGATCGGTAATACTAAGTTTTTGATTTATTTTATAAATATATTTATAAAAAGAATCCAATTTTATATTATTAACTTTATTACTATAAATATTTTTTTTAATAGGTGATTTAATTTTTCTAAAATCCTTATTTATTGATTTTTCGTATTCTAATAATCTTAAAGAAAAAATCCTTGCTAATTTTTTTATTTTTTTACCCACAGTTAGATCACCTGTTCCGATTTCTCTAAGTGAATAATCTAAATATTCAAACAAAAAATCATAAATTAATTGTATTTTTGATTTAAGTTTTTCATTTCCTTTACATCTTAAATATAATAAAAAAATTAAAAGAATAATTATTTCATATTTAGCTTTAAAAGTATTATTTATGTTATATTTTTTATTTAAAGAAATTGAATGTGAAATTTCTATAATATAGTTTAAAATACTTTTTATTATTTTTTTATTTTCTTTTTCTATTAAAAAGATTTTTTTTATTTTTTTTAATAACATTGTAAAAATATGAATAGATCTAAAATAATTTTAAAATTTATATTTACCATAGTTTTTTTTAGTATTACTTCCTGTGGATTAAAAGTTGTTGATAATCATGGTCAAATTTACGAAAAAAATATAAATTTTGATGATATCATAATAGGAAAAACAACAAAAAAAGAAATTAATGATAAACTTGGATCCCCTTCTACAACAAGCAATTTTGACAATGAACAAAGCTGGTATTATGTGAGTTCTGAATTTAAAAAATTTGTGTTTTTAGATGGAGCAAATACTGATCAAAAAATTTTGTTATTAACATTTAATAAAGAAATAGTAAAAGATAAAGAATTATTATTAAAAGAAGATATTAATCAAATAGCACATGAAGAAACTATTACAGATAGCAGAGGAAAAAAAATAAGTTGGTTAAAGGAATTTTTTACTAATTTGAATCCTGATCCTTATGGTCAAAAAAAATAAATTTATTTATATTAATGAGCTAAAAAACCTAAAAGTAGTAAAGCAACTATATTAGTAATTTTTATCATTGGATTAATAGCAGGGCCTGCAGTATCTTTATATGGGTCTCCAACAGTATCTCCAGTAACAGCAGCTTTATGTGCTTCAGAACCTTTACCGCCTAAATTTCCATCTTCAATATATTTTTTAGCATTATCCCCCGCACCTCCACCTGCTGTCATTGAAATAGCGACAAATAATCCAGTAAAAATAAAACCTAAAAACAATACCCCAACTGAAGCAAGAGCTGAACCTAAATCAGCAACAAAAAAAATAGCAAAATATAAAATTATTGGTGATAATACTGGAAGAAGTGATGGAATTATCATTTCTCTAATTGCTGTTTTAGTTAACATATCAACACATTTACCATATTCTGGTTTTGTTGTACCCTTCATAATTCCTTTTATTTCTTTGAATTGTCTTCTAACTTCAATAACTACTGCAGAACCTGCTCTACCAACCGCAGTCATACCCATAGAAGCAAATAAATAAGGTAATAAACCACCAAAAATTAAACCTACAACCACATAAGGATTTGATAAATTAAAATTAACATTAGTTGCGTTAATTAAATTATTTTCTATAAAAAAATTTAAATCTGCAGTATATGTTGCAAACAAAACTAAAGCTCCTAAACCAGCTGAACCTATAGCATATCCTTTAGTAATTGCTTTGGTTGTATTCCCTACAGCATCTAATGCATCTGTGACTTTTCTAACTTTTTTATCTAGATTTGACATTTCAGCTATTCCACCGGCATTATCTGTTACTGGACCATAAGCATCTAAAGCGACTACCATACCGGCTAAAGCCAGCATAGATGTGACAGATATTGCAATTCCAAATAAACCTGCAATTTTAAAAGATACAATAATTCCTATACAAATTATTATTGCCGGTATAGCAGTTGCTTCTAAACTAACTGCTAAACCTTGTATTATATTTGTTGCATGTCCAGTTTCTGACGATTTAGCAATACTTTGTACAGGTTTAAAATTTGTTCCTGTGTAATATTCTGTAATCCAAATTAATAAACTTGTTATTACTAAACCAGTAACACCACAATAAAATAAATCAATTCCATAAAAACTTTCATCATTGAATGAAAATTCTTGATTTAATCCTAAAAATAAATCTGTTAAAAACCATAAACCTAATATTGATAATATTGCTGTAGCAAAAAACCCTTTATATAACGCCCCCATAACATTATTTGAATTACCTAATTTAACAAAAAAAGTTCCAATAATACTTGTTATTATACAAACTCCTCCAATTGCAAGAGGATAAGACATTATTTGAAACAACAAATCACTTTGACTAAAAAAAATTGAAGCTAAAACCATAGTTGCAACAACTGTTACAACATAAGTTTCAAATAAATCCGCAGCCATTCCAGCGCAATCGCCTACATTATCTCCTACATTATCTGCAAAAACAGCAGGATTTCTAGGGTCATCCTCTGGTATTCCTGCCTCAACTTTACCAACTAAATCAGCACCAACATCAGCGCCTTTAGTAAAAATACCACCACCTAGTCTAGCGAAAATAGAAATTAAAGATGCACCAAAACTTAAACCTACTAATGGCTCTATTAAATCTCTACCGTTAACTCCAATATATAACAAAAAAAAATAATATGAACTTATAGACAAAAGAGCTAAGCCAACAACTAACATTCCTGTAACTGATCCTGCTCTAAAAGCAATTTTTAAACCTTCGGATAATCCTTTTGAAGAGGCAGATGCAGTTCTTAAATTTGAACGAACAGAAATATGCATGCCAACATAACCAGCTAGTCCTGATAAAACAGCTCCTAAAAAAAAACCAAATGCAACTTTAAAATTAAAAAAATAAAATATTAATAAAAATATCGCAAAACCAACATAGGAAATAGTTAAATACTGCCTATTTAAAAATGCATTAGCACCTTCTTGAATAGCAAGTGAAATTTCTTGCATTCTTTTGTTTCCAGTGTCTGCTGATAAAATACTTTTTGAAATAATAATGCCATAAAGTATAGAACTTATCCCACACAAAATTGAAAATATAATTGGATTCATGTTAACTATGTTTTAAATAGTTTTTTTTAAAAAATCAAACTAAAAATGTTGAAAACCTAAATTTTTAAAAAATAATTGTTTATTATTAGCACCTAACACTAATAATTTTTTCTTCTTTATTACCTCGCCTATTTTTGTGATTTTTAATTTATTTTTTTTTGAATAATTTAAAATTCTTTTATAATTTTTTTTTTTTGATGTAAAAATGATTTGATAATCTTCACAACATGTAATTAAATATTTAATATCTATTTTTTTATCTTTTATTACCTTAATTGTTTTATAAGAAAATGGAATTTTTTCTAAAAAAATTTTTGCTCCACAATTTGAAGATAAATTAATGTTATTTAAATCCGCTAAAAGACCATCAGATATATCCGTTGCTGAATTTGCAAATTTAAATAATTGATTTCCAAAATTTACAGGCGGTTCGGGTAATTTATATTTACCTAAAAAATAATTATTCAAATTTTTATCAAGTTTTAATTTTTTTTTTACTATTTTGTAACCAATACCGCTCTCTCCAATAGTGCCAGTAACAAATATATCATCATTAATTTTAGCAGTTGATCTTTTAATAATTCTCTTATTTTTAAAACCATATAAAGTTAATGATAAAACAAGATTGGTGCTGACAATTACTGTATCACCACCTAATAATTTTATATTATATTTTTTTTGATCATGTCTAAGTCCTTTGGCAAATAATTTAATCCATTTTATTAAATGTTTATTGTTTAATTTTTTAGGTAATGACAAATTCAAAGTATAACCAAAGGGGGTGGCGCCTTTAGAAGCTAAATCACTTAAATTAACTCTAAGTAATTTTTGAGAAATGAAACTAGGATTCTTTTCATTTTTTTCAAAATGATCTCCTTCAACAATTGAATCAGTATTTACAATTATTTGTTTATTAATTGGTAAGTAACACACATCATCATTTAAATTAAATGATAGATAATTTCCAAAAGATAAAGGTCGAAAAATTTTTTTAATTACTTCATATTCATCCATTATTATTATTTTTTGATAATTTATCTAAAATAGAATTTATTAAACCAACTTCTTTTTTATTTAAAAAAGAACTACTAACTTTATTATATTCAGAAATAGATATTTTATGAGATAAGTTCTTAAAAAATAAAATTTCACAAGCGCCCAAATTTAAAATAGATTTAATTAATATTTCAAATTTTAAAAATTTCTTTTTTGTAACTATTTTTTCAATATTTGAGTTTAATATTTTCTTATTTTTTATTGTTTCATTTACCAATCTATTAAAAAATCTTGTATCAGGCGAATTTTTCATTTCTTTATCTTTAAGCAGATTCTTTTTTACTAAATTAATATTAATACTTTTATTTAAAGATAATTGATATAAAGCTTGAGCTGCTAAAATTCTTGACCAAAGCCTTGATCCTTTTTTTTTTGGTTTCATTTAAGTAAACTATGTAAAGCATTAACCGCTTGTTCCGCACATTTAATATTTTTTTTCAATGCTTCTCTTTTATCATTAGCATTGAATATTCCATTACCTATTGGAATAATATTTTCAATGCTTATTCTTTGTAAATTTGTAAAAATTGCGTTAGAAATAGCAAGATGATTCACTGTTTTACCTTTAATAATACATCCTAAAGCTAAATAACCTGAATAAATACATTGATTACTCAAATTCAATTGACTTAATTTTGCCATTTGAACAATATTATCTCTAATATTTTCTTTACCTTTTCCTTTAAAGGAACTGACAACATTTTCATTACTAATCACATCTTCTTTTATACTTCTAGCTATTTCAAAAGGTATTTCAAAGGATCCTGCAACTTCTGAATAATTAAATTCAAATTGTTTATTTTTTTTCAAAAAATCAATCATAGGTTTAATTACATCTTTGTAATAGTACATTGAATATATAATTTTTATTTTTTTTTTCATTTTATTGGTATTGTTTTAATTATCTTTAATCCATATCCTTCGAGTCCTACTATAGTTTTTTTACTATTTGATATTAAAATCATATTTTTAATACCTAAATCAATTAAAATTTGTGCTCCAACCCCATAATCTCTTAATTGTAATATTTTTTTTTTATCATCAA
>sequence10
TTGTAACATTTTCTTCAACTTGTTTTCTTTTTTTTTTAGCTCTATCAAGAATTTTTTCTAAGACTTTATCAGATAAACCATTTTCTATTAATTTAGGTAAGATTTTTCTATAATTATTTCTTAAATACTTAGGATTGTTATTTGAAGAATCTTCAAACCAATTAATTTTTTTTTCTTTTAAATATTTTAAAATATCTTCTTTTTTGAAATTAAGCATTGGTCTTAAAATTTTTATTTTTTTTTTAAATAAAACTTTTGACATACAAGCTAAGCCATAACTATTGCTATTTTTATTTAATCTTATTAAAAAAGTTTCTTTTTGATCATCAAAATGATGTCCTACAAGTAAATAAAAAACATTATTTTTATAACACCAATTTTCAAATTTTTTATATCTAAAATTTCTTGCTCTTTCTTGAATAGCAATTTTTTTATTATTATTTTCTGACCAATCAAAAAAAAAATTTTCAATATTATTTTTTTTAAAAAATTTTTTTAATTCAACACATTCATTTTCATTTTCTGATCTTAATTGATGATTAGCGACAAGTGCAGTTATTTTACCATTATTTTTTTTTACCCATTTTTTTGCTAACATTAATAAGCATAAACTATCACTTCCTCCTGATACAGCGACAGCAATATGAGGTTTATTTTCATATGGCCCCAACAGTTCCATTTCTTTAAAAAAAAATTCTTTAATTCTAAAATTTTTTTTTAACATTTATTCTCATTTATTAAATATTTAGTTTTCTTTAAGATATCTTGTTCAGTATCAGGATATTGTTTTACAATTTTTTGTAAAGCATCACACGACTCTTTTTTTTTGTCTAAATATGAAAATGATAAACCAATTTTTAACAAACTACCTGATGCTCTATTATGTTTTTTATATTTTTTTAAAACTTCTCCATAAGCTAATATTGCATCTGGGTACATTTCTCTAACAAATAAAGATTCTCCTAGCCAGTAATATGCATCTGGCATTTTTAAATCATTAGGAAATTTCTTTATAAAACCTTTAAATGCTTGTTCTGCATTAAAATAATTTAAATTTCTCAAAGAATCTTTTCCATAATCGTAAAGACTATCAGCAGATTGAAAATTTTTAGCTATTTCAATTGCCTCATTTTCTTTAGATTGATTTTTAATAGTTCCTAATATTTCGGTATCTCCCCCAGTTGAATCTACATTAGATGTATTTTTTGGATACGCAATAGTATCAACTTCATCTGACCTATCTCTTTCACCTATTGGAAGACCACCGGTGTTATTATCTTTATTAGATAATCTAAGATCTACATCAGAATTAATTCTATTAATTTTTTCTTCTAATTGATCAATTCTAAAAAATATTTCTTCAAATCTCCCATTCATTTTAGTTAAATTATTTTCTAATTGATTTACACGTCTTTGATATTTAGGAGAAACTTTTTTTTTATCCTCTTTAACTAAAGATTGATCATCTGGAGCATACAAATTTTTTTGTAAATCAGAAATCTCTTCTTCCTATCTATTTATTTTTTCTGTAAGCAAATTAATATCAAATTCATCTACTGAATATAAGTTAGAAGTAAAAAAAAATAAGATTAATAAAATTTTTGAAAAAATAAGTTTTATATTCATCATCGTTTTTTATTTTTTGATTGATAATACAAAGTATATCTACTTATAAATATAATCAGATTACTATAAATTTAAAGAAATGAATAAAATATTATCTATCGACGTCTAGAGTAGTAACAGATCTTCTATTTTTTGTCCAAGCATCATCATAAGACCCTTCAAGATCAGGTCTTTCTTTTCCATAAGAAACAATATTTAACCTATCTTCAGCTATTCCCATTGATGCCAAATATTCTCTTACAGCATTTGCTCTTCGTTCACCCAATGCTAAATTATATTCACGAGTACCTCTTTCATCACAATGCCCTTCAATAAGAATATATTTTGATGGGTTTTGATCCATCCAAGTTACTTGTAAATCTAACGTGCCTTCTGCAATTGAATCTAATAAATATGAGTCATAATCAAAATAAATTTTTGCTGGAACAGTACCATCTGCATCTAAGTAAGACATACCACCTTTTTCATATAAACCTGTAGATACGTCCTCAACACCAGACTTTTGAGCTGCGCAGCTAAATAGAAAAGCAGAAAATATAAAAACTAAAAATAATCTAAATCTATGCATAATTTAATATTTGTTATTTTTTTAAATTATAATGTTGAGACAAAATGTTACAAGTTATTTTTTTACTTTTTTTTTAATTTAATAAAGGCGACCAAGCAGGGTCAGATGCCTCTAAAGGGGTAATAAGTTCTTTTTCATGATAACCTGTAACATCAATTAAAAAAATTCTAGTTTTACCCTCTTTTTTATTAACCGGATAATCTTTTTTTGTATATGCAATCATTCTCCCGTTTGGTGTCCAAGTAGGGCCCTCAACTAAAAAACCTTTAGCAATTACTCTTTCTCCTTTACCATCGGGTGTCATAATTCCAATATAAAATGTTTTATTATAAAATTTAGTAAAAGCAATGTAATCACCTCTTGGGGACCACACAGGTGTTGAATAGTGTCCTTTTCCAAAACTAATTCGTTTAATTTTTTTTCCTTTATTAGTCATTACATATAATTGAGGAGAACCGCCTCTATCTGAATTAAAAGCGATCTTTTTAGCATTAGGAGAATATGAAGGTGAAGTATCAATCCCTCGATAACTAGTTAATTGTTTTCTTATATTTGTTTTAAGATTATAGGTATATATATCAGAATTACCTTCAGCAGCTAAAGACATGATTACTTCTTCACCAAATGGCGAAAATCTAGGAGCAAAAGTCATGCCTGGAAAATCACCCACTATTTCCTGTTTGCCAGTTTCAATATCTAATAAATAAACCCTAGGTATTCTTCCAATATAAGACAGATAAGTTAATTCCTGTTGTGAAGGAGAAAATCTTGGTGTTAAAACTAAATTATTTCCATCAGTTAAAAAACGATGATTTGCTCCATCTTGATCCATGATAGCTAATCTTTTAATTCTTTTTTTAGAAGGTCCACTTTCAGCTATATATGCTATTCTAGTATCAAAATAACCTATTTCTCCTGTTAATCTTTCATATACTTTATCAGCTATTCTATGAGCAATTTGCCTCCAATTACTCCTTGCAGTACTGAATGACCAACCGGCCATTTGCTGTTCCGCAAAAACATCCCAAAGTCTAAATTCAATTTTAATATTACCATTAGCTGCAAATGTTGTTGCACCAACAATTAAAGCTTGAGCATTTATTACTCTCCAATCTCCAAATTTTGGAACAACATTAGGACTAGTAATTTTTTGTATATAAGCTTTTGGATCAATAACTTTAAAAAGTCCACTATTATTCAAATCTGCAATAACTAAATTTGATATTTGTTTTGCTACTGCTTTTTCTTCATCATTAGTACCAATAAATTCATTAATACCAATAGGAGTGGGTTCTGTATATCCAGAAGTTATATCAATTTTAAGTTCTGCATAAGAAATTTTGTAAAAGAATACAAAGAAAAATAGCAAACAAATTATTTTATATATATATTTCAATTAATTTAAAAAAAAAAATTACTAATAACCAATTATACTTTTTGGATCAAAATTTAAAGTTAAATTTTTCCATTTGTCAAATTTATCTTTTGGTAATGGTGCATTTTGACATCTAGGATTTAATACTGCTCTTAAAGCACTTTCTGCAGCAGTTCTATAAAAATTATCTCTTTTCATACGCGAAATATTAACTATTCTTGCATCAACAACATTACCATCTTTATTGAATCTTACTTTAATTTCAGAGGCTAAATTACCTATTTCTCTTGCACCTGAAGGGATATTCCAACATTTCTCAAAATGTCTTCTTACAGCATCTATCTCGCTTATTGTTAAATTCAATCCTAATTTTGTTGGCGTTGCTTTTTCATCTTTTTTAACATCTTTTTTATTTTTTTCTTTTTTATCGCTTAAATCTTTTTTTACCTGTTCGATAGATTTAAGAACACTTTGAAGCTGATTAGGTTTCTTTTTGATTTCTTTTAATTTAACTATTTTTTTTTTCTTTATTACTTTATCACCAACCTCTTCTTCTGCATCTAAATTTTGTTTATTTGTTAAATCTTGATTATCATATTTAATATTTTCTTGATTAAGATAATTAGTTTTATTTTTATTATCATCAGATGTTTTTTTAAAATTTATTTTTGGAGCAACAGTTTTATCAGAAATATTTACGATCTCTATTGGCAGAGGAGGTAAAAACTCTGATCTATATCTAAATAAATTAGGTAATCCATAATAAAAAAGTAAAATTATAAACAAATGAAGACTTACAGATATTAAAAGATAATTCTTTTTTTCTAAAACTTCTTTTTTTAAAGGGACAAAAATAAAATTATTTATGAACATTTATTTTTTTTTTGTTTCAAAATCTGTAACAAGGGCAATTTTATTAAATCCAGCAGATGTAATCACTGCCATTACTTCAACAACTTTTCCATATGATAAAACTTCATCTGCTCTTATAAAAATTTTTTTATCACTTCTATTTTTTGATATTGAAATTAATTTTGGTACTAATTTTTCTATATCAATTTCTGTATCTTGAACAAATATTTTTTCTTCTTTATTAATAGTTATAGATAAAGGTTTTTGATCTTCGGGTAAAGCTTTTGCTTTAGTTTTAGGTAAATTAATTGGAACACCAACTGTTAATAATGGAGCAGTAATCATAAATATTACTAACAAAACTAACATAACATCAACCATTGGAGTGACATTAATTTGACTAATAGTTTTATTTCTTTTTAAAATTCTTGAAAATTTTAAATTATTTAATCTTTGCATAATTTTATTTTACTTTTTTATTTTGTTACTCGGTTTACAAATTCTTGAGCAAAAGTTTCTAATCTAATAGAATAATTATCAAATACGCTCGATATTTTATTATAAGCAATAACAGCAGGTATTGCTGCAATTAATCCTAAAGCAGTAGCAAATAAAGCTTCTGCTATTCCTGGTGCTACAACCGCTAAACTTGTATTCTTAGTTATTCCAATAGCTTGAAAACTATTCATTATTCCCCAAACAGTTCCAAATAATCCAACAAATGGCGCAGAGGAACCTAAAGAGGCTAAAAAAATCATATTTTTCTCAAGAATTGAAATTTCATTATTAATTGATGAAACCAAAACATTATTTAATCTACCCTCAATTTTATCTTTATTTTTTGCGTTCCTTAGCTTTAGCCATTCAATCATAGCTTTATTAAAAATTGATATCATAGGATTATCATATTTATTTTCTGTTTTTGTGTATAAATTTTCTAAAGAAGATGTGGACCAGAAAAGATCTTCAAATTTTTGGGTCACATTTTTTAATTTTTTTATCATTTTAATTTTGTTAATTATAATTGCCCAACTCCAAATAGAAGCTGTCATAAGGCCAATCATAACAAATTTTACTATTGGATCTGCTCTTAGAAACAATGAAAAAATAGATAAATCATATGTCCCGTTTTGAACTAAATTAACAGCATCTACAGCTTGGTTTTCCATAATTTTATTTATATTCTAATTTTATAACGATAAAAAAAAAGTATTATTTCCTTTAATTTTTATTTTCTTGTGGATTATTTTTTTTTACCCCCCACAAAGCTATCAAAGCAGCTTCAGCTCTACCATCATCTTTTTTTCTTAAAAAATAATCTTTGTATTTTGGAAATTCTTTCATTGCTCTAATTCTTGAAAATTCTTTATTTTTTATTTTACTTTTAGATCTTATTTTATCCCAATTTTTAAAATCTGTTTTATTTGTTAAAGGCCTTTTTTTCGAAATTTTTTTAGTTTCTAAATCAATATCTTCTTTCCATTTTTTAGGTAAAACGTAATTTATTGGAATAGATAAAGATGTTAAAATTCCAATAATTAAACCATAACTATATCCAAAATTGAAAACACTAACAACCCCTTGTTGAGGATAAGCATTTACTTTTTCAATAATAACACAGTCAATTTTTTTTAAATTTTTAATTTTTTTTACTAATTCCTGAGAGTCAATCTGTTTTCTTTTTTTTTTACCAACTTCAATTTTTATTGTTGGCATATCAAAAATTTCTAATTTTTTAGTTTCTATTTCATAAAAAGCTACAGCTCCATTAACTCCAGGATCAATACCTAAATATGTGAATTGGATTTTATTAAAATTATCTTTGATATCGGGTTGTTTAAATTTATAAACCACAATTAAAATTAAAAAAAAAAATCCCGACATTTATAGACTTACATCTCTTTTATTATAAAACAATAAATATTTTAATTATTTATTTCATTTAAAAAATCATCGGGTACATCATAATTTGATGAAATTGATTGCACGTCTTCATTATCTTCTAATTGATCAATTAAATGAAATAATTTTTTTGCTTCTTCCCCTTCAATTGAAATTTTATTAGATGAAAGCCAAGTTAACGCAACAGATAAAGGTTCTATTGATAAAGTTGAAATTTTTTCTTTAATTTTATTAATTAGTTCGGGCTTACAATATATAACATGATTTTCATCATCATTAATTATATCATCTGCTCCTTCTTCAATAGCTAAATCAAAAATTTTATTTTCTAAATTTTTATCTGCTTTATAAACCAACTCTCCTTTTCTTTTAAAACTATGGGAAACGCTACCATTTTCAGCTATTGATCCACCATTTTTTGAAAATATTTGTCTTATCTCAGATATTGTTCTATTTTTATTATCTGTCATTGTTTCAACAATTATGGAGGTTCCACCAGGTCCGAACCCCTCGTATTTTATTTCTTCAAGATTATTTATTTCATTATCAGATCCTTTTTTTACGGCTCTTTCAATATTATCTTTTGGAACATTTGCAGCTTTTGCAGCGTCTATTGCGGTACGTAATCTATGATTAGAATTAAAATCTGGGCCACCGGTCTTTGATGCTATTTGAATTTCTCTACCTAATTTGGCAAAAAGTTTAGCTCTTTTTTTATCTTGAGCTCCTTTTCGAAACATTATATTTTTAAATTTAGAATGCCCAGCCATATAAATAAAAAAAAATTATAAAATTTCTTGTAAAATACCACCAGTGATGATTTGTTTTATAGATATAGCTAATCCTGTTTTATCATCAATTTCAACAAAAACGAATGCTAAAGATGCATCGCCTGTTGCAGGATTTATGCCTTTGATTGGTATTTTTTTTTTAAATCTTTGAAGAGATTTCTCTTTTTCCATTCCAATTATAGAATTATAATCTCCACACATTCCTAAATCTGTTATATATGCAGTTCCATTTTCAAGAATTCTTGCATCAGATGTAGGTACATGAGTATGTGTACCTACTATCAAACTTACTTTTCCATCAAATTCATGGCCAACAGCCATTTTTTCACTTGTAGCCTCACAATGAACATCAATAATTATTACAGAAATATTTTTTACTATATTTTGATCATTAATTATTTTTTTTATTGATTCAAATGGATCATCTAATGGTTGCATAAAAACCCTCCCCATAACATTAATAACTAATATTTTTTTTTGATTTTTTTCATAAATTTCAAATCCTTTACCTGGGGTATCAATTGGATAATTGCATGGTCTTAAAAGTCTGTTTTCTTGATCTATAAAATTAAAAACGTCTCTATTATCAAAAATATGGTTTCCACCTGTAATTATGTCTATGCCAGCCGAAAATAAATCATTACATATTTGCTGAGATATACCTTTGCCATGAGATGCATTTTCTCCATTTGCTAAAATGAAATCCGGTTTAAATTTTTCTTTTAAGGACGGTAAGTTCTTAATCAAAGCATCTCTTCCTGATCTGCCAAAAATATCGCCAAAAAATAGGAGTTTCATTTACTTATAGTTTGAATACGTGAAATCAATTTATCAATCTTAGTTTTTAATATATTTTTTGATTCTTCTTGTTTATTTTTTAAACTTTCTAATTCATTTTTATAATTTTTTCCATATGGATTGTCTTCTTTACTTTTATTTTTCAAAATATTATTAATTTCTTCACTTAACAATATTCCTGTTAATACAAGCAATCTTGAATGATCAACATTTTTCAATTTATGTGATAATCCTTTAACTTTACTATCAAAAAATTTAGCAAGTTCTAATACGTAACTTTCTTTATTTTTATCACAAGTTATATCGTAATATCGCCCATTTATTTTTATTCTTAAAACTGGCATTCAGTCTAAAATTAATTATATATTATTCTAAAGTATATTTTTTTATTCTATAATTAATAGCTAAAATTAGGATTAAAAAAATTATATATCTTAACGTGAGAACCAAAAAAAAATTAAATATAAAAAAATTAAAATTAATGTCTAATGCTATTAGAGCTCTATCTATGGATGCAGTAGAAAAAGCTAATTCGGGACATCCTGGGATGCCATTAGGTATGGCTGATGTTGCAACAATCCTATTTAAATATTTTCTTAATTTTAATCCCGAAAATCCTTTTTGGCATGATAGAGATAGATTTGTTTTATCAGCTGGCCATGGATCAATGCTTTTATATTCCTTATTATATTTAACAGGATATAAAAAAATTACACTTAAAGAAATTAAAAGATTTAGACAATTAAAAAGTAAAACTCCAGGTCATCCCGAATTAGATTTAAATTCTGGAATTGAAACAACAACGGGGCCTTTAGGTCAAGGACTCGCTAATTCTGTAGGAATGGCGATAGCTGAAAAACATTTATCATCAAAATTTGGAAAAAATCTTATTAATCATTTTACATATTGTATAGCTGGAGATGGTTGTTTAATGGAAGGCATTACACATGAATCTATATCTTTAGCTGGGCATTTAAATCTAAAAAAACTAATTGTATTATTCGATGATAATAAAATTTCAATTGATGGCCCAACTAATTTATCTACATCAGAAAATCACTTAGATAGATTTAAGGCTTGTAATTGGAACGTTCAGAAAATTAATGGTCATAATTTTCAACAAATTTATAATGCGATAGAAAGAGCAAAAAAAAGTAATAAGCCATCTTTAATAGCATGTAATACAATTATTGGCTATGGATCACCAAACAAACAGGGGAAAAATTCAAGTCACGGCGCACCACTAGGTGAAAATGAATTAAATGAAACAAAAAAAAATTTAAAATGGAATTACCCTGCTTTCTTTGTACCACAACAAATTCAAAATCAATGGAAAAAAACTGGGCAAAGAGGTAGGAATTTAAATAAAAAATGGAATTTAAATTTTAAAAAAATTAATTCAAAAAAAAAAAATACTTTTAATAATTATTTTAGAAAAAAAATATCGAAAAAAACATTTATAGATTTAAAAAAACTAAAAAAAGATTTTATAAATTCAAATGATGAAATTGCTACAAGAAAAGCTTCAAACTTAGTTATTGAAATATTATCAAAAAATATTCCTTTTTTATTTGGTGGAGCTGCAGATTTAACAGAATCAAATTTAACTAAATCTAATTATCAAAAAGTTTTTAACAAAAAAAATTCTGATGGAACTTACATTTATTATGGAATTAGGGAACATGCAATGGTTGCATGTATGACTGGTATTTCATTACATGGTGGAATGATACCTTATGGCGGTTCATTTTTAATTTTTACTGATTACTGTAAACCTTCAATTCGTTTAGCATCTTTTATGAAAAAAAAAGTTATATATATAATGACACATGATTCTATAGGTTTAGGAGAGGATGGGCCAACTCATCAACCAATTGAACAAATCGCTGGCTTAAGAGCTATTCCCAATCTAAATGTTTTGAGACCTGCTGATCCAGTTGAAACATTAGAATCTTGGGAAATTGCATTAAAGGAAAAAAGTCCAACTCTTATTTCTTTAACTAGACAAAATGTACCAAATTTAAGAAAAAAAAATTCATCTATAAATTTTACTAACCAAGGAGCATATATAATTTCTGAAACAAAAAAAAATTTAAGAGATATAACAATTTTAGCAACAGGTTCAGAGCTATCAATTGCTGTAGAGGCAAAGAAAATTCTTGAAAAAAAAAACTTAAATGTCACAGTTGTATCAATGCCTTCTTGGGAACTTTTTGAAAAAAAAAATATAGAATATAAAAATAAAATTTTAGGGCCAATTCAAAAAAGAATTGCTATAGAAGCTGCTTCAACATTTGGTTGGACTAATTATGTTAAAAGTAATAAATATATTATAGGAATAAATAGTTTTGGAGCATCAGCCCCGCATAAAGATTTGTATAGAAACTTTGGTTTAACTGCTAATAAACTAGTAAATTTAGCAATGAAAATTTATAAAAAAAAATTATGATTAATATTGCAATTAATGGCTTTGGAAGGATTGGAAGACTTTTTTTAAGAGCTTTATCAGAAAGTAAAAATTCAAAAAATATTAAAGTAAAAATAATAAATGATTTAGCAGATGTAGAGTCCAATATACATTTATTTAAATATGACTCAATTCATGGTCAATTTAAAAAAAAAATAAAAGAAAATAAAAACTCGTTTAATTTTGGAAACGGTGAAATAAAATTTATATCAGAAAGCAATCCTTTAAAACTGCCATGGAAAAAAAATAATATTGATATTATAATTGAATGCACTGGTTTTTTAACAAAAAAAAAAGAAGCATCAAAACATTTAAAAGCAGGAGCAAAAAAAGTTATAATTTCAGCTCCATCAGATGATCCTGATATTACAGTTGTTTATGGAGTAAATCATTCTGATATAAAAAAAACTGATAAAATTATTTCTAATGCATCATGTACAACTAATTGTTTAGCACCAATTGCAAATATTTTAAATAATACAATTGGTATAATAAATGGGCATATGACAACTATTCATTCATATACAGGAGATCAAAAAATTATTGATACATTCCATAAAAGTGATTTAAGAAGAGCAAGAGCTGCTAATTCTTCATTGATACCAACCAAAACAGGCGCTGCTAAAGCAATTGGTTTGGTAATTCCCTCATTAAATGGTAAATTAGATGGAACTGCCATTCGAGTACCTACCCCAAATGTCAGTTTGATAGATTTTGTTTTTAATTCAAAAAAAAATACAAGTGAAAATGAAATTAATAATATTTGTATTACTCATTCAAAAAAAGAATTAAAAAATATTTTATCAATTATTAATGAAGATCTTGTTTCTATTGATTTTAATCATTCACCATTTAGTTCTAATTTTGATTTAACTCAAACTAAAGTAATTAATAAAAATCTCTGTAGAGTTGTTTCTTGGTATGATAATGAATGGGGTGTTGCAAATAGACTAATTGATTTAACTAATTATATTTCAAAATATGTCTGATGACTAAAACTATAATTATTTATAATTTTAAACAAATTTGTGATGTAATGAAAGCTGCTTCAAAAACAAAAAAAAAAATTTGTATTGCAAGTCCATACAGTGCTGCGTCTTACATGGGGCCATTTTTTTTTAAAGAATTAGTAAAAACAGCAGAAAAATTGTTTCCAAAAGTAAATTATTTTGAACTTTTAAATTGTAGTAATGATGTAGGTTTAGCTTTAAAAGCAATTGAATGTGATATTAAAAATATTGAAATTGAATGTAATCAAAATATTTCAAAAAAAATAAAAAATATTTGTAAAAAAAAAGGCATTGGTGTAAATAATATCGATAAAAAGGAATTAGATTTAAAAAATAAAACTAATGTTTACGAAGAATGTTTAAAATGGCTGAATAACTAATTTATGGAAAATTTAGAAAATATAGCAAAAAAAATAGTTGATATAGGAAAAGGAATATTAGCTGCAGATGAAAGTACAAATACTATAAAAAAAAGATTCGATACTATAAATATTGAGTCAAATGAAAAATCTCGTTGTAATTATAGAGATACTTTATTTTCATGTAATGGAATAGAAAAATATATATCTGGTGTTATTTTATTTGAAGAAACTTTTTTTCAAAAAGATCAAAATAATAAATCCTTAAAAGAAAAATTAGAAAATATAAATTGTTTTCCTGGAATCAAAATAGATCAAGGATTAGAACCTATAAATTCAGACTCAACTGAAACATTTACAAAAGGAATTGAAACTTTAGATAAACGTTTAAAACCATTTTATGAAAATGGAGCAAAATTTACAAAATGGAGAGCAGTAATACATATTGGAAAAGATATGCCATCAACGGAATGTTTAAAAAAAAATTCTAATTTATTGGCAAAATATTCTCAAATAAGCCAAAAAAATAATTTAGTTCCTATTGTTGAACCAGAAGTAATAATGGAAGGAACTCATAATTTAGAAAAATGCTATGAAGTAACTAAAAATACTTTAAATGAGGTATTTGATTCACTTTCAAAAGAAAAGGTAAATTTAAATGGAATTCTTTTAAAACCCAATATGATTGTTCCAGGTAAAAATAGTGATGAAAAATTAGATATAAAAAAATCAGCTCAAAAAACGTTTGAATGTCTCAAAGAAATTGTTCCAAAAAATGTTCCTGGAATTGTTTTTCTATCAGGAGGGCTTTCTAGTGTTAATGCAACTATGATGCTAAATGAAATAAATAATTTTGATAATTCTCCATGGAAATTATCATTCTCATATGGAAGAGCATTACAAGAAGATGCTCTTAAAACTTGGGCAGGAAAAAATGAAAATAAAATTGATGCTCAAAAAATTTTTTTACACAGAGCAAAAATGAATTCTCTTGCCTCATGTGGAAAATGGAATGAAAAATACGAAAAAGATTTACATGATTAAAAAAAAAAATGAAAGATTTAAATATAAATAAAAAATATTTATATCTTATTACCCCTACATCAATCCTAGCTAATAATAAAAAATTCAAAAATTTTCTATTTTTATTAAATAAAGTTTTAAAAACTAAAAAAATAAAATTTTTACAATTAAGATTAAAAAATAAAAGAAATGATAGAATTTTAAAAAGTTTAAAAAAAATAAGTTTTATTTGTAAAAAATATAAAGTACTAATTTTCATTAATGACTATGTAAATAACGAAATTTTAAATTTTTGTGATGGAGTTCATTTAGGACAAAATGATATAACAAAAAAAAAAATTATTTTATTAATAAAAAAAAAAAATTTTTAGGAATTAGTTGTAATAATTCAAAAAAATTTGTAAATCAATCAGTAATTTATAAACCTAGTTATATTTCTTTTGGCTCTTTTTTTAAAACTAAAACAAAAAAAAAAGTATACAATGCATCATTAAAAAATATTAACTGGTTTAAAAAAAAATTTAATCTACCATGCGCTGTTGTAGGTGGCATTAACTTAAACAATATTAATAAATTATTAAAAGCAGATTTTAATTTATTAGCCATTTGTTCCGGAGTTTGGGATTATAAAGATGGCCCAATTGAAGCAGTTAATTTAATTTATAAATTATTAAATAAAAAAAATGAAAATATCAGCAAATGAAATTAAAGTTGGAAATGTTTTAGAATTTGAAAATAAACTTTGGAAAGTTTTAAAAGTTGAACACACAAAACCAGGAAAGGGGGGAGCTTATGTTCAAGTTGAATTAAAAGATATAAACCTTGGTACAAAAAAATGAAAGATTTAGATCAGATGAAAATATAAATAAAGCACATCTCGAACAAAAGCCTTTTCAATTTTTATATTCAAGTGATGAGGAATTTTTTTTTATGAATAAAATTGATTTTGAACAAATTAGTATCAACAAAAATAAAATATTAGAAAATATTATTCCTTATTTAAAGGATGGTATTAATGTAAATATTGAATTAAAAGAAAATGAGCCAATTAATATTATCTTACCAGAAACAATTATATTAACAATTAAAGAGGCAGAGGCCGTTGTAAAAGGCCAAACAGCTGCTTCAGGACTTAAACCGGCAATATTAAATAATGGAATAAAAATAATGGTTCCTTTACATATAGAAGAAAATACTAAAATAGTAGTAAAAACAGCTGATAATTCTTATGTTGAGAAAGTAAAATAATGGCTTTAAAAACACCAATTATAAACATTATGACTAAAGCTGCATACGAAGCTGGAAGAAATTTAATAAAAGATTTTAGAGAAGTAGAAAATTTGCAAGTTTCAAAAAAAGGTGTTGGAGACTTTGTTACATCAGCTGATTTAAAATCTGAAGAAATTATAGTAAAAATTCTAAAAAAAGCATATCCAGATATAACAATAATCTCTGAAGAAATGACAAAAAATATTGATTTAGAAAAAGATGAAAAAAAATGGATTATTGATCCATTAGATGGAACCTTAAATTTTTTACACGGCCTTCCTCATTTCGCAATTTCTATAGCGCTAATGATTAAAAAAGAAATTATATCAGGCATTGTATTTGATCCTATTAAAGATGAATTATTTTGGGCAGAAAAAGGTTTAGGTTCATATCTAAATGATGCTAGAATTAGAGTTTCTGCAAGAAATAATTTATCAGATGCTCTTGTATCCACAGGTATTCCATGGAAAGGGATGGAAAATACACATCAAAATTACCTAAAAACTCTAGAATTAATAATGAAAAATTCATCTGGAATTCGAAGATATGGCGCTGCTTCATTAGATTTAGCTTACGTGGCTACAGGTAGATATGACGCTTTTTGGGAATTTAATTTAAAATCATGGGATGTGGCAGCTGGATCTTTATTAGTAAAAGAAGCAGGTGGATTTGTGGGGAATATAAAAAAAAATGAAAATTATTTATCTACTGGAAATATATATGCATGTAATTATAATCTAATTGATGAATTTAAAAGTAAATTTATAACTTAAAAATGTTAAAAATAATAAAACAAACTAATCTATTTTTTTTTATACTTGTTTTTTCTTTGTTAGAAACAAATGCTATTGAAATAGATCCAGTAGAAATTGGAAAACCTTATAAAAAAGATATTGAAACAAATTTATCAATAATTGAAAATTTAAGAAATCCTTTTGAAAAAAATGAGATTAAAATAAATAAAGATATAAGAACAAAAAAAACAAAAGAAAAAGAAATAATTAATAATAAAAATATTATTTTAAAAAAAAATGATAAAAAAAATGAAATACAAAATATAAAAAAAGAAAAAGAAATTAAATTTGCTAGAATTAAAGAAGAAAATAGTATTTTTGAAAAAAAAGTACAAATAAATTTTGATACAAATTCAACAAATGTTAGTGATATAGAAATAAGTAAAATTAAAGATTTTGTTAATCAACAAAAAGATAAAAATAATTTAAATTATAAAATTACTTCATATTCTAAAACTAATAAAAATGAAAATTATTCTAGAAGATTATCCTTAGATAGAGCAATAAATATAAGAACAATTTTAATAAAAGAAGGAATATCAGCTAAAAATTTAATTGTTAAATCATTCGGAGATAGTAAAAAAAAAGTGGATAAAGCAATAATTGAATTTGAAAAAAAATAAAAAAAAAATATATTAAACATTATGAAAAAAAAAATACATCCTGATTATCATGAAATAGAAGTTGTCATGACTGATGGTACTAAATTTAAAACAAAATCAACTTGGGGTAAAAAAGGTGATGTATTAAATTTAGATATAGATCCAAAATCACATCCAGCTTGGAGTGGCGGTGAAAGAAAAATAGTTGATACTCAAGGGCAAATATCTAAATTTGCGCAAAAATATAAAACTTATAAAAAAAATACTCCAAATGAAGTAAAAGACAATAATCAATCAAAATCAAAAAAAGAAAATAAATAAAATTTAGTGAAAGTAGTTGAAATAAAAAAATACGGTGGCCCCGAAGTTTTATATATTGGTAACAGGCCTATACCCAAAATAAGAGTTAACGAAATTTTAATTAAAGTAAAAGCTGCGGGTGTAAATAGACCTGATATTTTACAAAGAGAGGGTGGTTACCCGCCTCCAAAAGATGCTAGTGATATTTTAGGATTAGAAGTATCAGGAGAAATTGTTGAAATCGGAAAAAAAGTCAAAAATATGAAAAAAGGTGATAAAGTTTGTGCATTAGTTTCTGGAGGTGGTTATTCAGAATATTGTGTTGCTCCTTATACACAGTGCTTGCCAATTCCAAAAAATTTAAGTTTCGAAGAAGCAGCGGGGATCCCTGAAACTTTTTTTACTATTTGGTTTAATTTATTTATAAAAAATAAAATTAAAAAAAAACAAAATATACTAATTCATGGCGGTTCAAGCGGAATTGGTACCACTGCGATTCAATTTGCAAAAAATTTTGGTTTAACTGTATTTACAACTATTATAAATTATTTAAAAAAAAAAAAATGTCATAAAATTGGTGCTCATTTTGCAATAAATTCAAAAAAAAATGATTTTGAGAAATTTGTAAAAAAAAAAACAAATAATAAAGGTGTTGATTTTGTTTTAGATATAGTTGGAAAAGATTATTTACAAAAAAATATAAATATTTTAAAAAGAAATGGAACTTTGATAAATTTAGGATGGTTAACAGGTTCAATTGTAAAAGTGAATTTATTAATGATAATGTTAAAAAGACTAATTATAACTGGCTCAACATTAAGAGTTGGAAGTTTAGAAGAAAAAGAAATAATAGCCAGTGAATTAAAAAAAAAAATTTGGCCTTTGATTGAAAAAAAAAAAATTAAACATATTATATTTAAAATATTTCCAATTGATAAAGTGAAAGATGCGCATATTTTTATGGATAAAGGGACACATTTTGGTAAAATTATATTAACTATTTAATTATTTTGAAATCAATACTCATTAAACTTTAAATTAAAAAATATGGCAAAAATTTTAATGCCCAAAGCAACAGCAGTTTGGTTATTAGAAAATACTTCTCTTACATTTAAACAAATTTCTGAATTTTGTGAACTTCATATTTTAGAAATTGAATCAATGGCTAATGGCGAAGTTGTTGGAAAAATGCCTGGAATTAATCCAATAAATAGTAAAATTTTAACAAATGAACAAATTCAAAAATGCGAAAAAAATCCCAAATCAAGACTTAAGATACATAAAACTGAATTACCAAAACCAAAAAAAATTGCAAAAGGTGCTAAATATACTCCTATAGCTAAGAGGCAAGAAAGGCCCGGAGCTATTAAATGGTTATTAAAAGAATATCCTAGTATTACAGATAATGAAATTTGTAGACTTATAAGAACTACTAAAAATACTGTATACTCAATTAGAAATAAAGAGCATTGGAATTATGAAAATATAATTGCAAAAGATCCTTTAAAATTAGGTTTCTGTAATGAAAAAGATATGTTAAAAATAATAGAAAAATATAAAGATAAAGAAGAAATAACTAATGATAGTGAGAATGAGTTAAATGATAATAAAAATACAGATGAAGTATAATTTTTAAAATGGAAAATATAAAAGTAGCTATAATAATGGGAAGTGAATCTGATGCAGATGAAATGAAACCAGCATCAGATGTTCTTAATGAACTAGGAATAAAAAATGAATCAAGAGCAATTTCCGCACATAGAACTCCAGATAGACTCAGAGAATATATAACAGATGCAGAAAAAAATGGAGTTAAAATATTTATTGGAGGAGCTGGTATGGCGGCTGCATTACCGGGTGTTATAGCAGCACATACTCATCTTCCAGTTTTAGGCGTGCCTATAGAAAGCAAAAGTTTAAAAGGAATGGATAGTTTGTTATCAATTGTTCAAATGCCACCTGGTATTCCTGTAGGAACTTTAGCAATTGGTTCAGCAGGTGCAAAAAATGCCGGTTTATTTGCTGCTGCAATTTTAGCTGTTAGTGACAAAGAAATAGAAAAGAAATTAAAAGATTTTAGAAAAAAACAAAGTGATAAAGTAAGAAAAGATCCTTTATAAGATTTGATTTAAAGTTTTTTTTAATTTTTCCTTAATATTTGTAACTATATTCATATTCATTATAGATTTTTCTAAAAAATTAAAAGTTTTATCTAAATTATTTGATTTATCACTAATCCAGACAACCGTAGCAAAACTATAAATTGAGGCTAATATTGCTCTTTTAGTGTAAAAATTATAATCAGTTGATTTATCTCCTATCAATTTCCAGATATAATCAACCGTTTTATATATCAATTTACTAGATAATATTTGTTTTGATGGATTAGAAAAAAAATTAAACTTTTTTTAATTGATTCTTTATTAGAATTAAGTAATTCAAATCTAATTTTAACTGCATTTAAAATACACAATCTGACGCTTTTTTTATTAAATTTTTTCTTTTTAAAATTATTAGATAATTTTTCATTAATAATAAAATTATAATACAAAATTAAATCATCTATTTTTGCAGGAAATAATTTATCCAAATCATTTGGATTATACTTAAGTTTTTTAATAGTTTCTTTATACACATCCAAATTCCATCCTTTTTTAGAAGAAATAGTTAAGAATTCTTTTAAAAATCTATTTTTTTTTACATTTTTATTCATTTTTTTATAAAAACTATTTGTAATTTAAAAATTTAACCATATTCTTATCAAATTAATTATTAATTTAAATAAAAAAATAGAGGGCAAATAAAATAGTACAAATATTTATAAGAGATAATAATTTAGAAATTGCATTAAAGATACTTAAAAAAAAAATGCAGCAAGAAGGTCTTTTTAAAGAAATGAAATTAAGAAGACACTACGAAAAACCTTCAGTTAAAAAAAAAAGAATTGCTTCAGAAGCTTCAAGAAGAAAAAGAAAATTTCAAAGAAGATATTAATATTTCATCAATTTTTTTCTTTCTACTAAAATTTTTTTTTGATCAAAATCTTTAATTAATTCCCTAAATAATCTACACCAATTAATTTTAACATCTAATTTCATAAATAATGATCCCATTCCAATAGCTGCCCTATCCATAAAAACAAACTCCTTAGGTGGTTCAATTCCCCCTATTTTTCTTAACTCCTTATAAACATTATTTGCAATATCAAATCCATATCCTTTTTGTTTATCACCCTGAATAAATCTTTTTTTATCTTCAAGTAAAGGTCCGTAAATATAAGAAGCCCATAAGTTTAAAATTTTTATAATATTTTTATTAATCTTTTTGAATCCCCATACTTTATAAGCTTCAATTGCTAAATCTTCGTCTTTTTTTTCTAGAGCATAATACAAATCTAGAACGCCTTTTACAAAATTTGTTGGAAAAAAGCGAACACAGCCAAAATCAAAAAGGTTAACATCGCCATTCTTTTTAAATGAATAATTTCCAAAATGAGGATCGCCATGAATCATACAATATTTATAAAATGGTTTATACCAAACATTAAAAATATTAGTGGCTATTTTTTCTCTAAAATTTTTATTAATAGTTGAGGATTTTATTAAATCTTTAATTGAAGAACCATCTAACCAACTCATAGTTATTAGTTTATCTGATGATAATTCTTTATAGGTTTTAGGAACGTTAACAAAATCAGTTTTTTTAAAAATTTTATAAAAAATATCTATATTTCTTATTTCATTTTTGTAATTTATTTCTTCAATTAATCTATCTTTTATTTCTAAATAAATTTTCTTAGTTTTTATCGCTTTATTATATTTTTCAAACAAATTTAAAATTATTTCAAATTGATTTAAATCTACATTAACTGCTGATTGCATATCAGGATATTGTAATTTACAAGCAACTGTATCTCCTTTTTTTAGTTTTGCTTTATGAACTTGACCAAGTGATGCAGCAAACGAAGCAGAGGTGTTAAATGATGAAAATTTTTTATTCCAATCAACTCCTAATTCATTAGCCATTCTTCTTTTTACAAAGGAATCTCCCATTGATGGAGCATTGGTTTGTAATTGCATTAATTCATTTGAGTATTCAATTGGTAAAGCATCTGGAATCATTGATAAAAGTTGCGCAATTTTCATGAACGGACCTTTAATATTTCCTAAATCCTGTTTTAAATTTAAAGCATGTTTTTTTTTATCAATTTCCATTCCAAGAAACTTATTTGCTCCAAGTCGTGTTAAAAGACTTCCTACTTGTCCAGTTAATTGGATATACCTATTAGCTCTTTTTGAAAATTTATTTTTATCTAAAATGTCAGTCAATTTATTTAATAAAAAAATTTATATAATTGTTATAAAATATATATAGAACGATTTAATTATCAATTGGTGATATGAAAAATAATATTACAAATTTTAATTGGAAAACTCTACCTGAAATGTTTTTCAAAGAATCTGAAAAGCAACTTGATAAACCTCTTTTATGGTTTAAAAAAAACAATGAATATGAATATTACACATGGAAAAATGTAAAGAATAAAATTAATTTACTATCAAATAAGCTTATTAAATTAGGTCTTAAAAAAGGAGATAAAGTAGTAATTGTTTCAGAAAATAATCCAAATTGGTTTATTAGTGACTTCTCTATAATGCTTGCTGGGGGAGTAACTGTCCCATCTTACACAACTTATACAAAAAAAGATTACGAGTATTTATTTAATGACTGTAAAGCAAAAATGATATTTATATCAAATAAACAATTATTCTTAAATTGTTTGCCAGCAATAAAAAAAAATAAAACAATTAAACAAATAATTTCTTTTGAAAAAATTAGTAAAGAAATAAATGAAAAAATAATTTCTTTAAATGATTTATGGAAAGAAAAATTAGAAAATATAAATATAAAAGCTAAAATAAATGAAAATGATCCTGCATGTATAATTTATACCTCAGGAACAAGTGGTTTACCAAAGGGAGTAATTTTAACTCATAAATCTATAAAATCTAATTTAATTGGTTCCTTAGATATTTTTGAAAATATAAATTTTTATAATGAAAAATATATTTCTTTTTTACCTTTATCTCACTCTTACGAACATACGGCAGGACAGTTCTTACCTTTATTAACTTCTAGTCAAATTTATTATGCTGAAAATCTTGATAAATTATTTGCAAATATTAAAGAGGTCAACCCAACTTACATAGCAGCAGTTCCTAGACTTTATGATGCAATTTATAAAAAAATAATAAATAATTTTTCTAAAAAAAAGTTACTAAAAAAATTATTTGAAATAAATTTAAATTTAGGAAAAAAAATTTATTTAAATCAAAAAAAAAGACTAATTTTCACTAAAATAATAAAATTTTTTTTTAAAATATAAATTGATAACAAAATAAAAAAAATATTTGGTAATAATTTAAAATTCTTTGTGTCTGGAGGTGGGGCATTAAGTTATGATATAAATATTTTTTTTGAATCCATAGGAATCAAAATTTTACAAGGCTATGGATTAACAGAAACATCCCCTACTGTTAGTTGTAATAGACCGGAATTTAATAAAATTGGTACAGTTGGACCGCCTATAAAAGGTGTTGATGTCAAAATAGCAAGCGATGGAGAAATATTGATAAGAGGTGATATTTTAATGAAAGGCTATTTAGGAAAAGAAAAAGAAACTAAAGAAAA
>sequence11
CAAATGTTTTTTCTTGATAACTAACAGTTAAAGGTAAAAAATCTACACCTTCTTTTGGTTCTTTTGAAGCAACAACAGTACATAAAACTGTAGTATCACCATAAGTTGCTAGTACCGCTCCATCGGCCTGTCTAGCAATTCTGCCAGATTCTAGGGTCAATTTTTTTCCACCCCAATTAATTTCTTTTTTTATGATCTTAAACACTAATATTATTTACGTAAGTTCAGTTTTTTTATTATTTCCTCATACCTCTTATAATCTTTATTTTTTAAATATAAGATTAATCTTCTTCTTTTACTAATTAATTTAATCATACCTTCTCTAGAATGATTATCTTTTTTGTTCTTTTTAAAATGTTCAGTTAATAAATTTATTCTATTCGTTAATAATGCAATCTGAACTTCTGAAGAACCTGTATCTTTAGCTTTTTTTTGATATTCACTAATAATCTTATCTTTTGTTAAATTATTTTCCAACATATTTAATTTTATTTAAAACAGAATATATAGGTAAAAAAAAATTTTGCCAATCATTCTTTTTATATAATTTTAAAAATTTTTCTATAGAAATAGACTCTTTTAATTCAAAAGGCTCAGATACTATTCTCTTTAATCTAATTACATGCCCATCAGCACCTAATTTTTTACAAATATCTCTAACTAAACTTCTTACATAAAAACCTTTACCGCATTCAATTTGAAATTTAGTTAAATTTTTACTTTCTTTGTTATTTTTAATAATATTTATTTTTTTTAAAATTACTTGTCTTGGTTGAATAACAAATTTTTCTCCTTTTCTTGCTAAAGAATAAGCTCTTTTACCATTTATTTTTACCGCAGAAAATTTGGGTGGAACTTGCATTATATATCCAACAAAACTTTTAATAACACGATTTATTTCTTTTTCATTAGGTATCTTATCAGATTTTGAAATAATTTTACCTTCAGCATCCTCAGTATCAGTTGAAATACACCATCTGATTGTAAAATTATATTTTTTAGTACCATTCATAATATATTTTACTGATTTGGTAGCCTTACCCAAAGCTAAAGCTAATACTCCAGATGCAAGAGGATCTAATGTTCCTGCATGACCTATTTTTTTTACTTTTAATGTTTTTTTAACTATATTTACAACGTGTCTCGAGGATATTCCTTCATCTTTATCAATTATTAGCCAACCATCTAAATTATTTTTTTGTAAATTCATGATTATAAATCTTTAGCTACTTTTGGTTCCTTTAAAATCTTTTCAATTTTGTTTGCATATTCAAAAGTACTATCGTATTTAAAAAATAATTCAGGTACAAATCTTAAATATAATTTTTTTGCAATTTCTCTTTTAAACAGATAAGTTTCTTCATTTAAAAATTTTAAAAAATTTTTTTTTCCATCTCTTGATATTACAAAAATATTAGCTGTTTTAAGATTAGGACTTATATCAACTTCTGTTACAGTTAAAGATATTTCACGTATTTTTTTATTTCTAAAATCTCCCATAGTAATAATTTCAGAAATTAAATGCTTTAATTGTTGATTAATTTTTAATTGTCTCTGTGACTTTATTTTCTTCATTTTTATTTTTTGAAAAAAAAATTATAAACTTCTTTTTTGTTCTTCAATTATATAAGATTCCAAAATATCATTTTGCTTAATATCTTGAAAATTTTCTAATACCATTCCACATTCACTACCTTCTTTCACTTCTGCTGCTTCTTCTTTGAATTTTTTTAAACTATTTAATTTTCCATCATATATTAATTTATTATCTCTTAATAATCTAATATTTGATTTTTTATCAATTTTTCCTTCTATAACCTCACAACCAGCTATTTTTCCAACCTTTGACATTTTAAAAATTTCTTTAATTTTTGCTTTACCATTTAATACTTCTTTTTTATCAGGAACAAGTAACCCACTCATTGAATCTTTTATATAATCAAGTAATTCATAAATAACTGTAAAAAATTTTATTTCTATTTTATCTCTTTTTGCTAAATCTCGAGCTAAAGTATTAGGTTTAACATTAAAACCAACTGTAATTACTTCACTTTCTGATGCTACTGCCAATGCCACATCTGATTGATTAATTTCTCCTACTCCTTTATGAATAATTTTAATTTTAATTTCATCATTTTCATATTTATTAATTCCATTAATAATTGCTTCTAATGATCCCTGAACATCGGATTTTATAATTAAACCCAATTCTTTAATTTTTTCATTGCTTTTATCACTAAGCTTTTTTTCTAAATTTTCTTTAGTAAGTGGTTCTGTTTCTCTAATTTTTGATCTTTGTAATCTGTTATTAGCAATCTCCTTTGCTTTAGCTTCATTATCTACTACTGTAAAATCGTCCCCTGCAATTGGATTTCCAGTAATACCCATAATTTCAACTGGAACAGAAGGTTTAGCAATAATTATTTTTTTTCCTAAATCATCATTCATTGCTCTTACTTTTCCGTAAGATGGACCTGCAACAAACAAATCTCCAACTTTTAATGAACCTTTTTGAATTAAAATTGTTGCTGTTGATCCTTTACCCTGTTGAATTTTTGACTCAACAATAATACCACTAGCTTTTTTCGATGGATTTGATTTTAAATTTAAAATTTCTGCTTGTAAAAGTATAGTTTCTTCTAATTTATCAAGATTCTTTTTTTCTTTTGCAGAAACCTCAACAAACAAATTTTTTCCGCCCATTTCTTCTGAAATAATTTCATGTTCCATTAACTGATTTTTTACATTTTGAGGATTCGATTCATTTAAATCTATTTTATTAATACAAACTATAATTGGAACTTCTGCGGCTTTCGCATGATTTATAGCCTCTATGGTTGTTTCTTTAACCCCATCATCTGCAGCAACAACTAAAACTACTATGTCTGTTACTTTTGCTCCCCTTGATCGCATAGCTGTAAATGCTTCGTGACCAGGTGTATCAAAAAAAGTAATAAATTTATCTGACTTAGTTTTAATTCTATATGCACCAATATGTTGAGTAATTCCACCATGTTCTTTTGTTGCAATGCTACTAGATCTAAATGCATCTAACAAAGTTGTTTTGCCATGATCAACATGACCCATTATTGTAACTATTGGGGCTCTTTCAACAAGGTCATCTTCTTTATCAATTTCATTTCCCAAATTAATATCTAATTCATTGTCATCAACTCGTTTAACATTATGACCAAATTCTTGAGCAATAATTTCTGCTGTATCTGCATCTATATTTTGATTAATTGTTGCCATAATTCCATTTTTCATCAAAGTCTTAATAACTTCTGAGGATTTTTCAGCCATACGTTTTGCTAATTCTTGAACTGATATAATTTCCGGTATTTTTACTACTTGAATAATTTTTTTTTTGTTATCTGATTCACTTAATTTATTTTCAACTATTTTTTTTTTATTAAGTGCAATTTTTTTTTTAAAATTTGATACAAATTTTTTATTAATTGTTAATTTTTTTCTAGGTTTGTTACTCTCATTTACTTTTTTTTCAATTGTTTCTTCAATAGGCAATTCTTTTTTAGTTCCACCTTTTTTTTACAACTTCAACAGTAACGGTTTTGGATTTACCATAGGAAAAAGTTTGTTTAATTGTTGTAGTTTCTCTATTTTTATCTTTCATAAAATAATCTCCAAAATTTTATTTTTTATCTTTTTTAAACCAACTTTCTCTTGATTTCATTATAATTTCATCTGCGTCAACCTTTTTAATATTTTTAGTATCTAATAAATCTAGTAACTCATCACTAGAAAGATCTGCTAAATCATCTAAAGTTTTAATTTTATTTTCTCCTAATTTAATTAAATCATAAATACTAAATTTTTTTATTTTTTGAATATCATCCGAAATATTTAATTCTTCTTTTTTCTTCTCTAACTCAACTTTTTCTTTAACAAGAGTTTGTTTTGCTCTTTCTTTAATATCTTTAATTAAATTTTCATCAAAACCCTCTATTGCTTTAAAATCTGTATCATTAGATTCTGCTATATCATTAATTGAAGTAAATCCTTCAGTTGCAAGTAAATGAGCTATTACCTCATCAACATCTAATTCCTTCATAAAAATTTCAGAAAGTTTTTTAATATCTTCATTTCTTTTATTTTTTTCATCTTTTTCATCTATAATATCTATTTCACAGTTTGTTAAAATAGAAGCCAATCTAACATTTTGACCTTTTCTACCAATTGCCAAACTCAATTGATCTTCTGGTATTATTACTTTAATTTTATCACTATCCTCTTCAAAAATAACTTTACTTATTTGTGCAGGTGCTAAAGCATTAACTATATAAGTTGCTTTATCTTCAGACCAAGTGACTATATCAATTTTTTCACCTTGCAATTCAGTAACTACTGCTTGTACTCTTGATCCTCTCATTCCAACACAAGCCCCAACAGGATCTATTGTTTTATCAGATGAAAAAACAGCTATTTTTGCTCTTGAACCTGGGTCTCTAGCAACAGATTTTATTTCTATTATACCATCACCAATTTCAGGAACTTCTTGTACAAATAAGTTTGCCAAAAATTGAGGATGAGTTCTAGATAAAAAAATTTGAGGTCCCTTTGTATCTTGACTCACATTATATAAATATGATTTAACTCTATCGCCTCTTCTTAAATTTTCACGAGGAATTATTTCATCTTTTTTTATAACTCCCTCTGCATTTCCAAGATCAATAACAATATTACCAAATTCCATTCTTTTTACTAAACCACTAATACTTTCTCCAACTTTATCTTTATATAATTCATAATTTTTACTAGATTCTGCTTCTTTTATATTTTGAACTAATACTTGTTTAGCAATTTGTGCTGATATTCTGCCTATATCAATATCTGGAAGTTTTTCTATAATAAATTCTCCAATTTTAATTCCTTTTTGTTTTTTTTTTGCATCCTTAAGACTGATTTCAATCAGATTATCTTCCACATCTTTTTTAACTTCTAAATATCTAGCCAAACTAATTTTACCAGTTTTTCTATCAATATTCCCTCTAATATCATAATCATTTCCATATTTAACTTTACCAGCTTTAGAAATTGCTTTTTCTATCGCTTGAAAAACTAATTCTTTTTCAATTCCTTTTTCTTCAGCAATATTCTCTGCGGTTTGAACTAATTCTATATTTTCTAATAACATTTTGTTTATGTAAAAAAAAATGGGCTTTAGGCCCATTTAAAATAAAAAAATAATATATAAATTAACTATAATTTAATCTTTTGATAAAGATAGTTCAACATATTTTTTTAAATTTTAAATAAAAAATTTTTTTTTTATTAAGATTTGCCTTTTTTTCATATTTACTTTTATTTAAATAATTAGGTTTTATGTAACAATCATTAACTGTTTTATTTAACCAAAAAAAACTATTATTAAATAAGAAATTTTCTAAAATTTGTTTTAAATAAGATTTTGAATCAGTTGCTATAAAAACAATACTTTCTTTTTTTAAAATTTTATTTATTTCATTTAAAAATAATGGTGAAATTAATCTTCTTTTAAAATGACGTTTTTTAGGCCAGGGATCTGGGAATAAAATAAAAATTTTATCAATTGAACTATTCTTTATTTTTTTAAATAAAGAAAAAATATTTTCGGGATAAATTAAAATATTCTTTATTTTTTCTATATCTATTTTATTTAATAAATTGGCTATTCCTGGTTCGTAAACTTCACAACCTAAAATTAATTTATTTAAATTTTTTTTTGCTAAAAATATTAAATTATCTCCATATCCAAAACCTATTTCTAAAAAAATTTTTTTTTTACTATTTATTCTTTTTTTAAAAATAAATTTTTTTAAATTTATTTCTAAAAGTCTTTTTTGTTTTTGACTTAATTTTCTTCTAGATTTTTTTTTATAAAAAAAATGTTTTAAATTTTTCTTAATTTTTTCCAAAAATTTTTATTAATGATTCTACTAAATCTGTTTTTTCCCAAGAAAAACTTCCATCATTACCGGGTTTTCTACCAAAGTGTCCATAAGCAGCAGTTTTACTATAAATTGGTTTATTCAAATCTAATTTTTCTTTTATACCGTATGGAGATAAATCCATTATTTGAGAAATTTTATTTGAAATTTCAAAACCTTCAATTTTACTTTCACCGTGAGTATTAATATAAATCGAAATTGGTTTTGCAACACCAATAGCATAAGAAAGCTGTATTGTACATTTATTAGCAAGTTTTGCGGCAACAATATTTTTAGCTAAATATCTTGCTGCATAAGCTCCTGATCTATCAACTTTACTAGGATCTTTACCTGAAAAAGCACCTCCGCCATGTGGTGCTGCCCCTCCATAAGTATCTACTATAATTTTTCTACCTGTTAAACCACAATCACCTACAGGACCTCCTATAACAAATCTTCCTGTTGGATTTACATAAAAATTATCTTCATCGCACATCCAATTTTTAGGTAAAGAATTTATTACATAAGGTCTTACAATTTCTTTAATATCTTTTTGATTTAAACTTGGATCATGTTGCGTTGAAACTACAATCGCACTTGTTTTATAAGGTTTTCCATCTTTATATTTTAAACTTACTTGACTTTTTGAATCAGGGAGAAGCATTTTTTCTTTACCATCATGTCTAGCTTTTGCGAGAGATCTTAAAATTAAATGAGAATAATAAATTGGTGCAGGCATTAATTCATCTGTTTCTTGACATGCATAACCAAACATTATTCCCTGGTCTCCCGCACCTTGATCTTTTTCACTTTTTTTATCAACTCCTAAAGCAATATCTTCAGATTGTTGATGTAAATTATTTTCAATTTTCACATTCTCCCAATTAAACCCTTTTTGTTCATAACCTATTTCTTTAATAGTTTTTCTTACCAAATCTTCTATTAAATTATCTTTAAAAACATTTGGTGAACTAACTTCACCACTAATAATGACTTTGTCGGTAGTAACCATTGTTTCAGCAGCAACTCTTGCGTTTGGGTCTTTAGATAAAAAAAAATCAACTATATTATCTGAAATGATATCACAGATTTTATCTGGATGACCTTCGGAAACTGACTCACTTGTAAAAATGTATTCTTTCAAATTTTTATTTTTAAATTTTTAAATTTTTGTATTTTAAAATAGAAAATAGAAAAAACAAAATTATTAATAACAAAATTATTAAATTATTTTTATAATTACTATAAATTGTTTCTATTCTAATTTTTTTCTTTTTTGCTATAAAAATTTTTGTATCGAAATATCCTATAGTATTTAATTCTAACTTATTTAAAATTTTTCCATATGGATCAACTGAAACTGAAATTCCTGTATTTGCAACTCTTATTAATTGTTTTCCTTCCTCAATAGCTCTAAATATAGAATTCACAACATGTTGATGAGGACCTATAGTATTTCCAAACCAAGCATCATTGGTAAAATTTATTATAAAAATTTCATTATTATTTTTTTTAAATTTACCTGGAAATATCACTTCATAACAAATTAATGGTTTAAAACTTGGTAAATTTTTATATTTTACAATATTTTGTAAATAAGACCCTTGTTGTAGATTATTAAAACTTAAATTAAATTTTTTTAAATAATTTGTAAAAGGAATATATTCACCAAATGGTACTAAATGAATTTTATCATATAAAAAATTTGTTTCTAAATTATTATCAATTGCAATTATACTATTAAAAAACATTTCCTCGTTTTTATTTTTAAAGATACCTGACAAAATTAATTCATTATTTTTTAAATTCTTTTTAATTTTATTAAAAATAGGATATGAATTTATATGATCTAGACTTAAAATTGCAGTTTCAGGCCATAAAATAATTAAATTTTCTGATTCATTTAATGATCCCATTTTATTATTAAAACTTAAATCAACCATTTTTTTATAATTATTTTGAATTTTATTATAATTTAATTTATCTTTTTGACTAATATTAGGTTGAATAATTCTAAAAATATTATTTGAATATTCTTCTAAATCAGAATTTTTCAAACGGACATGGCCAAAAATATAAACAAATAAAAATATGAAAAGACCACTAAATAAAAAAATAACCTTTTTATCTTTTAAGTTAACAAAAAAAATACTTATAAATAAAATAAACAGAACTGTAAAAAAAGACAAACCATAAACACCAAAAACAGAACTAATTTGTATCAAATTTTCAAAATTAGATAATGTATGTGCTACTAAATTCCATGGAAATCCTGTAAAAATATATCCCCTTATTATTTCACTAAATGTCCAAAAAATAGAAAAGAAAAAAATATTAAAATATAAATTTGTTTTAAATTTATAATTTAAAAATGTTATTATTCCAATAAAAAGAGAAAGAAAAGATGATAAAATAATTAAAAAAAAGGGAATATAATATATATATATTTCACCTCTTATTAAAAAAGAATTAAAAATCCAATATAATCCGAATAAAAAAAAGGATAATCCAAAATATAATCCTATAAAAAAAGCTTTTTTATTAGAATCTGCATTGTAACTTTTTAAAAATAAAAACGTTAAGGTTGGAAATAATAGAAAATTAAAATTAAAAGGTGGTAAACATAAAACTAATAATATTCCAAAAAAAAATGAAAAATAATAATCATATTTTTTTTTAAAACTAAATTTTAAATTAAAAAAATTTTCCACTTATACACATAAAAAAATTTATTTAACTATATGATTTTTAATTAAAATCGTTCTTATTTTTCTAGAATCTACATCTAAAATTTCAAATTCACATCCATTACTATGTTTAATTACTTCACCTTTCAATGGCACTCTTCCAAATAAATGAAAAACTAACCCTCCCATAGTATCAATTCCGCTTAGATCTTGATTACTAGAAAAAATTTTCCCATATTTATCTTCAAATTCTTTAATTAACATTCTTGCATTTATTTTAATACTTCCATCATTTAAAATAGATTCTTTTTTTCCTTTTATTTCTTTTTGTGCTTCATGTTCATCTTTTATTTCACCAACAATTTCTTCTACTAAATCCTCTATCGTAACTAATCCGTCAACTCCTCCATGTTCATCTACAATTATAGCCATATGTATATGTGAAGTTCTCATTTTTAATAACAAATCTAATACACTCATTGAATGGGGTGCAAATAAAATATTTCTGACTAATTTCTGTATATTATTAATTTTTTTATTATTCCAGCAGGATATTACGTCTTTTATATGAACCATTCCTATAATATTATCTCTATTCTTTTCAAAAACAGGATATCTTGAATGACTTGTTCTGCCAATAATTTTTACTAATTTTAAAATATTTAAATTTGAATCTACCGAAATTATATCTGTTCTAGGTATCATAATATCTTCAACTAATTTTTCAGGTAATTCAAATATATTAGAAATAATTTTTTCTTCACTTATCTTTAATGGCTTTTCTTTTTTTAATCTTTCATTTAATAAATTTTCAAAATTTTCAAAACCTCTTTTTGCAGTATTGTTATTACTAAAGAAAGATTTAAATTTATTTATAATATTAATTTTAAAATTACCAAAAAAAATTAATAATAATTAATACTTAAATCTTTAAGAATTTTTGACTCAATATATTCCATTTTTTTTTCATCTTTCTTAGATTTATGATCATATCCTAACAAATGCAAAATTCCATGCACAACTAGATGACCAATTCTATTTTTCTTACTTATTTTTAATTTTTCAGCTTCTTTTTTACATTTTTCATATGATAAAAAAATTTCACCTAAAAAATAATCATTTTTCTTTAAAAAATTGTCATTTGAAAATGATAATATATTTGTAGTTTTTTTTTTTTTTAAAATTTATGTATTTAATTTTTTTAAAAGTTTATCATTTGTCAAAATAAAATTAATTTTAATTTTATCATTTTTAAAATGATCATTTAAAGTATGAATTGAAATTTTATTTATAAAATTTATAAGATCTTTTTTTGATTTAAAAACTTTTTTATCTAACCAATTTTTATTATCAAAAAAAATATTTATTTTGTGACTTGAAATCATTTATCATATGCTTTAATAATTTTTTTAACAATAGGATGTCTTACTACATCTTTATCGGTTAAATAAACAAAAGAAACATCATTTAAATTTTTTAAAATATTAGCCGCATCTTTTAAACCACTATTATTTTTTAATGGTAAATCAATTTGTGTTAAATCACCAGTTATTACCATTTTTGAATTTTCACCTAATCTTGTCAAAAACATTTTCATTTGTACTGAAGAGGTATTTTGTGCTTCATCAAGAATTATATAAGAATTATTTAAAGTTCTACCTCTCAAATATGCTATCGGTGCAATTTCAATTTTTTGATTATCTATTAATTTAATAACTTTTTCTTTAGATAAAACTTCATCCAAAGCATCATAAATTGGTCTTAAATATGGATCAATTTTTTCTTTCAAATCACCGGGCAAAAAACCAAGTTTTTCTCCAGCCTCAACTGCTGGCCGAGAAATAATAATTTTATCTACTAAACCGCTAACAAACATTGAAACTGCATGGCTTACAGCCAAAAAAGTTTTTCCCGTACCAGCAGGACCAATAGAGAAAACCACATCTTTATTAAAAATTTCTTTTAAAAGTTTTAATTGTCCATTTGTTCTTGGCCAAATTTTTTTTTTTTGGGGTTTTGATTGATTGTTTTAATAAATTGTTATTTTTATTCTTTATCATATTGTCAATTATTAATTCTATATCTTTTTTTTCAATAATTTCTGATATTTTTGCTCTTTCATATAATTCGTTTAAAGTATTTTTTGTTAAAATTATTTTATCTTTATTACCATTTATTAAAATAATGTTTCCTCTTGAATTTAAATTAACATTTAATTTTTTTTCTATTATTTCAATATTTTTATGAAAAGTACCTAACATAACCCTTAAAATGTTATTATCTTCAAATTGAATTTTATTTTTTTCTATATTTTTGGTCAAATATTTAAAACAATTATTAAATGATTAAATTTGCTTCAAGACTTTTATAAAAACTTTTTTTAATTTTTATTTCTTCTATTCTTCCATGTAAATTTTTTTCATTATTTATTCTAACTAGTTGCATATATTGAGAATAACCTAAATTTTGATTTGTTTTTTTCAATGAAGAATTATTAAACAACACACTCAATTTTTTTCGTATAAAATTTTTATTAAATTTTTCCTGATAATATTTTAATTTATTTTGTAAAATATTTAATCTCTCTTTTTTCTCTTTATCAGAAGTTAAATCTTTTAATTTATATGCTGATGTACCAGGTCTTGGGCTATAAATAAAAGAAAATGATTGAACATATTTAACTTCATCAATAATTTCTAAAGTTTTTTGAAAATCTTTTTTTGTTTCGCCTGGATATCCTACTATAAAATCAGAAGAAAAAACTATATCACTCCTAGCTTTTTTTACTTTACTAATAATTTTTAAATAATCCTTTGCATTATAGTTTCTATTCATTGATTTTAAAATTTTGTCAGATCCTGATTGAATAGGAAGATGTAAAAAAGGCATCAATTTTTTTACATTTTTATGCGCATTGTACAAATCTGTATGCATATCCTTGGGATGAGCAGTCATATATCTTATTCGTTCTAAACCTTCAATTTTTTCCAAATTATAAATTAATTTGCCTAAATTATATTCCTTATTATCTATAGTTTTCCCATGATATGCATTAACATTTTGTCCTAACAATATTATTTCTTTTGTGCCGTTGATCACTAAATTTTGTGCTTCATTCAAAATTTCCTCGACAGGTCTTGAATACTCAGGACCTCTTGTATAGGGCACTACACAAAATTTACAAAATTTATTACAACCCTCTTGAATTGTTAAATAGCTTGAAACTTTATTTTCAAAATTTATTTGAGGTAAATTATCAAATTTAGATTTAGGGTCAAAATCCAATTCAATAAACTTATTATTATTTTTAAATTCTTTTTCAATTAAATATGAAAGTTTTTGATAAGACTGGCTTCCTAAAACTATGTTTACAAAAGGAGCGCGTTTAAATATTTCTTTTCCTTCAGCCTGAGCAACACACCCAGTAACAACAATTAAAGTTTTTTTATTTTTTTTTAATCTATTTTTTTTTAATTTATAAAGTTTTCCTAGTTCAGAATATAATTTTTGCTTAGCTTTATCTCTTATATGACAAGTATTAATAATATCTATATCCGAATCTTCAATTAATAATGTTTTTTTTAATCCAAGATTTAAAAGTATATCTCCAATTTTGTTACTATCATATACATTCATCTGACAACCAAATGTTTTAATATTAAATTTTTTAAATTTCATTTTTTTAATAAACTCCTATTTAAATTATAATTTATTTTTTGCCAACAAAGTAATGAAATTTTTTTCCTATTTAAATCTTTAGGCACAAATTCTTTATTAAAAAATACTTCTACTTCTATATTTTTTTTACTTAAAACATTTAAAACACTTTTTAACAAACTCATATCTGAATGCCATGTTATTTTTTCTCTTTCAGAATGATTAATTAATTTATTATTAACTTTCTTATAAACTATTGTTATTGTTTGTATTATTATTTTTGAATTAAAATTTTCTTCAAAAATATTAAATAATGAACTTTTAAAAGGTAAAATCTTATTTCCATCACTGCTTGTTCCTTCTGGAAAAATAACTAAATTTTTTTTTTCTTTTAAATGCTTAATTATTTTTTTTTCTTGTTCTTTTAATGAAGATATTTTTCTATCAATAAAAATAGTGTTTTGTAATTTTGCCAAAATTCCTATTAATGGCCAATACGCTACTTCTTTTTTTGCTACAAATGAAGTTTTAAATAAACTTCCCAAAATCATTATATCTAAATAACTAGCATGATTTGATATTGAAAGTTTCGGATTATTTATTGATATTGAACCAAAAACTTTTATTTTAATTCCAAAAACTCTTCGACAAATTTTATGAAAATAAAATGGTATTAAATAAGAATATTTTTTTATAAATATTTTTATAATTATTTGAAATGGTAATAAAATTAAAGTTATTAATAAAAAAGATATAAATCTGAAAAATAACAATAACACTTATTAAAACTATTTCTTTCTTTTTAAAAAATTTTTAAAAAATATTACTTTTGAAGTAGTTTCTTTATCTTTTAAAAGATTTTTATATCTTTTTTTTAAAATATTAGATTCTAAAATTATACAAACATCTATTGTATTAAATTGTTTATCAATAAAAGCTCCATTTCCGATATAAACACCTAGTCTTAAATATCCTTTTATTAACGGAGGTAAACTTCTAAAAATTTCATTATTATCTAAATCTTTTTTTTGATAATAATTCAATTGAATATTATTAGGTGGAATTGCTTCTGGTCTAATAGATTGAGGAGCTAAATAATTATGATATAAAAAAGATTATTGTTTTTTATATTTCGAATAATTTGTTCACGGAAAACTAGCACATCCAAATAAAATCTTTATTTTATAATGTTCCATATATGCTGATATTGCTTTCCATAACAAACGAATTATAGGTTTATCTCGATAATCTTTATGAACACATGATCTTCCGAGTTCTAAAACTTCACTCTTCTTTTTTAATAATTTTTCCATATTAAATTCACCTTCTGTATAAAATTTTCCGTGTACTTGTGTCATAGGTCTTCTTATTAATCTATAAGTTCCAATAATAGAATCTCTACCTTTACCTTTATTATGATCTATAACTAATAAATGATCACAAAAAGGATCTAATTCATCAAAATCTTTTTCATACAAAATATTTTTAATAGTTGGTTTCGCATTTAATTCTTCATAAAAAACTTTGTATCTTAAATTTTGAGCTGCATCTATATCTTTGAAATTTTTTGCTAAACGAACTTCATAGCTTTTATATTTAACTGATTTAAGTTTTTTCTTTATTCTTCTTCTATCTAAAATATATGAATTTGCTAATAAATTTTTTATTGATCCTACAGGATTAATAAACCAATCTAATTTTTTCTTAGGTTTTTTAAATTTATTTTGAGGCTTTAAGCAAATACGTCTCTTTCTTGCCTGTTTATATTTATTTCTTAAATTTATATTAATCCTCAATAATTAATTATTTAATTTTTTTACAAGCTTCTTTTACTGCAAATATTTCTAATTTATAACCAACTAATTTATATCCCATTTTATCTGCAATTTTAGTTGATAATTTTTTAAATCCTGGATTTTGAAATTCACTAACATTTCCACTGACAATATCAATTAAATGATTATGCTCCCATTTAGTAGCTGGTTCATATCTCGCTTTTTCATCTCCATATTTAAATTCATGTTTAATTACTGCATTTGCATCTTCAAATAATTTTACAGTTCTATAAACAGTAGCAAGACTAATTTTTTTATCTTTTTTATTAGCCCTTTTATAAATAAGTTCAACATCTGGGTGATCTTTAGAATCATTAATTACTGCAGCTATAACAACTCTTTGAGGTGTCATTTTAAAACCTTTATTTTTGCATAAATTAATTATATCTAAATGTGTTATATTTTTTTCCATTATTTAATAATAATATTACAGTATGAATAAAAAATTAAAATAATTAAAAAAAATTTCTAATGAAAAAAATTAATTTAAGAAAATATAACTGCCCCATTTCTTTTGTAAAAGCAAAAATTATTTTAGATGAATTAAAAAAAAATGAAAAAGTACTTTTAATACTAAATAATGAAAAAGATACAAATATTCTTATAAAAACTATTAAAGAAGAAGGTTATAAAATAATTAATTTAGTAACTAAAAAAAAATTTTTTGAAATAGAAATTTTAAAAAAATAATTTATTTCTTAGCATAATGATCATAAACATATAATGGTTGTAATAATTTTATTTTATTAATTAATAATTTACTTTTTAATTGTTTAAATAACAAAAAAGTATTTAAATTTTTCTCTTCTATTATTTCCATTTTTCTTCTTTTTTTAATTTCACTTAATAATCTTTTATCTAAATCACCAAACAAATAAAAATTTTTATTAAACAAAAAATTAGGTAAGTCATTTAATGAAAAAAAAGAGATTTTTTTAAGGGGTTTTTTATTTGAATTAAAAATTTGATAATAATAATCTTCTTTTTTACTCTTTAAAATTATAACTACTTTTTTTTTTAAATCTTTTCTTATAGAATTAACCAATATTTCCATATTACTAAATCCATAAACATTTATTTTGTGCGGTAAGGATATTCCTTTAACAGCCGCAATTCCTATTCTAATACCTGTAAAAGATCCTGGACCTAAAGATATAAAAATAGAATTTATTTTATTTATTTGTAATTTATTTTTATTTAAATATTTTTTTATTATTGGAATTAAATTTTTTGAATAAGTTCTTTTTAAAATTTTAGAATAATTTAATATAATTTTATTATTTTTTACTATTAATAAGGAAAATTTTTCTGAACTTGTATCTAAAACTAATATATTCATATATGTATTTAAAATTTATTTAATTTAATATTAATATTTTTATTTAAGAATCCATTCTCATGAATTTAATTAAAATTACAAAAAAAATATATCCTGTTGAAATTGAAACTCTTTATGCGACAAAAAATAATTTTACAGGAAAAAAAATTTATAAAAGAAATGATTGTTATTTACATAAAGATACTATTCCTTTTTTTGAAAAAAGCATAAAATTAGCTGAAAAATTAAATTTGAAACTGAAGATTTTTGATGCTTTTCGACCAGCAGAGGCGCAATGGAAATTGTGGCAACATACGCCAGATGAAAACTTTATAGCCCATCCTAAAAAAGGATCCCCTCATTCTAGAGGAGTGGCAATTGATTTAACTTTAATAAAAAAAAATAATACTGAATTGAATATGGGAACAAAATTTGATAATTTTTCTACTAAATCATATCATGGAAATAATTTAATTTCAAAAGATGCACAAAAAAATAGATATATTTTACTTGGAATAATGATGTCTGCTGGTTGGGATTTTTTTAAGAATGAATGGTGGCATTATCAATTATTTAATTCTAAAAAATATAAATTATTAAAAAATAATATTTTAAAAAAACCATTAATGTAAAAATGAAAAGAAGAATAATAATATATTTAATCCTAAGTTTTAATATAATTTTTTGTTTAAATCCAAAGCTTTTTAGTAAAGAAATAACAGCATCTATTTTTATGTATCATAGATTTGGTGAAAATAAATATCCTTCAACTAATATTAAAATGCAACAATTTAAAAATCATATTAATGAATTAAAAAAAAATAATTATAACGTTTTACCAATTCCAGAAATTTTAGATGCATTAATAAATGATAAAATTCTACCAAAAAAAACCATAGGGATAACTATTGACGATGCTTTTTTAAGTATTTATAAAAAAGCTTATCCAATATTAAAAAAAAATAATTTTCCTTTTACTGTTTTTGTTTCCACAGATTCGGTTAATTCAAATTCTAGTATTTATATGAATTGGAAAAAAATAAATGAAATGGTAAATTCAAACTTGACAGTATCAATTGGAAATCATACAGCAAGTCATGACCACTTAGTAGAAAAAACAGATGCTGAAATTATGAGTGAAATATTAAAATCAAATAAGAATTTTTTAAAAAACTTAGGTTATGAACCAGATTTTTTTGCTTATCCATACGGAGAATATGATCTTAAAACAAAAAATATTATAAAAAAAAATTTTAAAGCAGCTTTTGGTCAACAATCAGGATCCTTATATAAAGGCATTGATTTATATGAATTACCTAGATATGCCTTAAATGAACAATATGGAAATTTAAAACGTTTTAAATTTGCCGCAAATTCACACGGTTTAAAATTAAAAGATGTAATTCCCGAAAATAAAGTAATTAATGACACCAATCCGCCTTTATTGGGTTTCACATTAATAGAAAATATTGATAATTCTATAAATTGTTACCCTTCACACGGAATAAAAGCTGAATTAATTAAAATTGGTAATAAAAGACTAGAAGTTAGATTTGATAGTAAATTTCCCAAAGGTAGAACTAGAATTAATTGTACTGTAAATGATAATAATATTTGGCGTTGGACCGGATTTCAATTTGTAAATCCTTAACGTTTTGCACTTTGATATTCAATAAAATCGTATTTTTCTAAATTATTTTCTTTAATAATCTTTTTCACACTTAAAACATATTCATGACCTTTTTCTGAATATTTATTTAATTCATTAACTAAATCTAATCCTTGAAGTTCTTTACCTAAAGATCTTGATTGAATTCTTGATTTTCTAAAATTTTTATATGCAAAATGTGTATTCAAATTTTTAATATAGGCATCTACAGAATCATTTAAATTATCAAAAACTCTTACTTTTATTTTAGGGTTTGATATTTCATTTGGTTTTATACCATTAACATTTTTTCCAATAATTTTTTGACCATAATATGCATTACCTTCTATTGCAAATCTTGATGTTCCCCATCCACTTTCAATAGCAGCTTGAGCTATTGCTAAAGATATTGGTACAATATCAATCCTTTTCTTTAACTCAGAAATGTCATTATTTTTTATTTTATATTCTTTAAAAAGTTTTTTTAAAATAGCTGCTTCTAAAACATTCAAATTATTATTTTTTATTTTTTTTTCTATATTAAACAAAATTTTTCTTTGTTCTAAAATTGTACTATTAGACTCTTTAATTATTGGAAATATAGATTTAATAAAATTTGTTTTTTTTTCAGTTATTGAAATATTTTTTTTAACATTTTTTAAAGAAGTATTTTTTTTAAAATTATAACTTTGTGTTTGAATAAACCTTTTTGTTTGATATTCAGGTAAATTTTTACCTTCATTTTTTTTTGCGATACTTTCTACATAGACTAATGAAAAAATAAAAAAAAGAGAAAAGCCTAAAATAAAAATATACGATTTATGATATTTATTAAAATTCATATAAATATTTTAAATTTACTACTATATATGGTATTATTAAAAATAAATACTACTATTAATTGATACTAGTATATATATGCATAAAAATAAGTATTTTTCAATATTTTTTCTACAAAAAATAGTGTTTATTCAACAGCCCTTACTTCTTTAACTTCAGGAAAATAATGTTTCAACAAATTCTCAATTCCCTGTTTTAATGTTGCAGTAGAGCTTGGACACCCAGCACAAGCTCCTTTAAGAACAAGAGAAACAGTTCCTTTTTCAAAATCTTTAAATATTATATCTCCTCCATCTCTTGCTACTGCTGGTCTAACTTTTTCATCAATTATTTTTTCAATATCTTGTGATATTTTGTTTTTCTTCTTTTTTTTAAATTTTTGAGAATCGGCTTGTTTTTCAATAAAAAATTCGTTTTCCGAAATATAATCAAGTAAGAAAGTTAAAATTTTTGTTTTTAAAGCAGACCAACCTAAATTTTGATGTTTTGTAATAGCAATAAAATTTTCTCCGATATACAAACTTTTTATTCCTTTAATTTGAAAAATTTCATTCGAAAATTTAAATTTTTTAGCCTCTTTAATGTTTTTAATTTCTATTCCTGTGTGAAGAATATACTGCTTATCGACTAAAAATTTAAGCGTCTCAGGATTTGGTGTTATTTCTGTTTCAATATTCATTTATTATGAGATATAATAATTATAAATCAAACATTCAATAATCCTATAATTTTTTTTATTTCTTTTAAATTTAACGAGGATATTTGCTCGGCTCTTTCTTTACCATTGCTTAATATTTTTTTTAAATAATCCTTATTTTTCAAATATTCATTCATTTTTTCTGAAATTGGGCCTATTTTATTAATTGTTAATTCAGCTAGTAAGTTTTTAAATTCAGAAAAACTTTTCCCTGACATTTCGTTTAAAACTTTTTCTATATTTTTTTCATTTAAAGCTGCGTATATACCCAATAAATTTTCAGCTTCTGGGCGATCTTTTAATTCCTCTTTTTTAGATGGTAAAGGATATTCATCTGTTTTTGCTTTTCTTATTTTTAAATTAATTAAATCTTTTTCATCTGTAATATTTATTCTTGAATAGTCCGATTCATCAGATTTACTCATTTTATTTGTTCCATTTCTTAAACTCATTACTCTTGTTCCTTCTCCAAATATTTGTGGTTCTGGTAATGGAAAAAAGTCTATATTATAAGATTTATTAAATGATCCAGCTATATCTCTAGATAATTCCAAATGTTGTTTTTGATCTTCTCCAACCGGCACATGTGTTGCTTTATAAGCTAAAATATCAGAAGCCATTAATACAGGGTAACTATAAAGGCCTAAAACAGCATTATCTTTTTTCTTTCCAGCTTTTTCTTTAAATTGAGTCATTCTATTTAACCACCCAATTGGAGTAAAACAACTAAGTATCCAAGTTAATTCAGTATGTGTAGATACAGAACTTTGATTAAAAATAATAGTTTTTTTTGGATCTATTCCGGCTGCCAAATATGCAGCAGTTACTTCTAAAGTATTATTTTCCAGTTCTTTTGGATCTTGTTTAACAGTTAGTGCATGTAAATCAACTATACAAAAAATGCACTCAAAACTTTCCTGTAAAGAAACCCAATTTTTTATAGCACCTAGATAATTTCCTAAATGTAAGTTTCCAGTTGGTTGAACCCCAGAAAAAATTCTTTTCATAGTTATAAGTTAATAAATTTTTTAAATGTGTTATACATTTTTTTTAATTTAATTTTAAAGATTTGAAATTAGAAAATAAAAAAACTTTAAAAATATATATTAAAAAAATATAAAAAAAAATACAAATTAAAACAAAAATTGATAAGTTTAAAAGTTCAAAATTTGAAAAAATTTTTATAAAATTTTTAAAATAAAAAACAGTAAATATAAAAATAATATTAATTATCAAAATTTTTCTAAATCTTTGATTAAACAAATTATCAAATTTAATTTGATTTCTTTGCACTAAAAAATAAAAAAGTAAGTAACAATTTATCCATGATGAAATAGCTGTTGCAATTGCAATACCTACATGTTGAAAAAATTGCATTAAAATAATATTTAATAAAAAATTAATTAATACACAAAATATTGCAATTTTAACTGGGGTAGATGTATTTTGCCTAGAAAAATATATTGGAGATAAAATTTTAACTAAAACATATGCAGGAATTCCAATAGCAAAGGCCTGCAATGCTCTAGCTGAAAGCATTGTATCTTTTGTTAAAAATTCTCCTCTTTCAAAAAAAGCACCGATTATTATCTCAGCTAAAATAAATATTGCTAAAGATGCAGGTAGTGCTAGTAAAATAGAAAACTCAATAGCACGATTTTGAGTTCTAAAAGCTTTTAAATTTTGGTTAGTACTTATTTGTTTTGATAAAGTAGGTAAAAGAGCAGTTCCTAATGCAACGCCTATAAGTGCAATAGGCAGTTGATTAATTCTTTCAGCATAATATAAATAAGAAATTGATCCTGTTGGTAAAAAAGAAGCTAAAACTATATCAATTAATAAATTAATTTGAATAACGCCTGCTCCAATTGCACCAGGAATTATTAATTTAAATAATTTTCTTATATTTTTTGATAATTTTGGTTTTTTAAAAAAAATTTGTAAATTATTTTTATATATACGAAATATTAAAAAAATTAATTGAAATACACCCGCAAAATAAACAGCCCAAGATAGCATATGACCTTTTGTAATAAAAAGATCTTCAAAAGAAAAAATA
>sequence12
AATATCCTGATACCCCCTTATAGATGATCCATCAAATCCGTAGCCATCAGTAAATGAATCTAACTGAAGCTCATGTAGTGGGACAGTGAAATGTTGCCACATACCTGGCATATCCACGAATTTAACATCGACCATTTTTACTTTATGATCATTTGCTGCTTTTAACACTTCAGCTGGTGTTTTACATTTTAAATCCATGACAATTACCTCCAAAAAAAATATCCTGAATTTTAATTAAATAAAAATAAATAATTTTAAATTGCATTACTACCTTTCTCTCCAGTTCTGATTCTTATTGCCTCTTCTATGTTTGTTACGAATATTTTTCCATCACCTATTTTTCCTGTATTTGCGGTTTTTTGAATCGTATCTAAAGTCTTTTTTAGTAATTTATCATCAATAACAATTTCAATTTTAATTTTAGGAATAAAATCTACTATATATTCTGCCCCTCTGTAAAGTTCAGTGTGACCCTTTTGTCTTCCAAACCCTTTACTATCTAAAACAGTCATACCACTAACCCCAATTTTACTTAATGCTTCTTTGACTTCATCAAGTTTAAAAGGTTTAATTATTGCCTCAATTTTTTTCATAATACTATGATTACAGCACAATTCGTGCCAAAAAGGCTTAAATAACTTAATTATTAGCTTTTTTTTTATTAAATTTGTTTTTTTAGATTAATTATGTAATTTTACAAGTTTTCAGATATCCAGGATTTTTTTTTAAATATTTTTGATGATAACTTTCTCCTTTATAAAATTTTTTACATTTACAAATTAAAGTTACAATTTTATTTCTAAATTTTTTTTGAATCTTATTTTGACTTTTTTTAGCAATATCTTCCTGATTTTTATTAATTACACATAAAACAGATTTATATTGCGTTCCTATATCAGGACCTTGTTTATCTAGTGAAGTAGGATCATGAATACGCCAAAAATGATATTATAGTTTTTCATAGGAAAGAATTTTTTTATCAAATTCAATTTGAACAACTTCAACATGGTCGGTTTTACCAGTACAAACCTTTTCATATGTTGGATTATTTGTTTTTCCACACGCATAACCAACACTAGTTGATTTTACTCCTTTAACATTTGAGAAATATTCTTCAACATGCCAAAAACAGCCAGCACCAAATATAGCAACTTCATAGTTATTTTCTTTTTTTTTCAAAAAAATTTACTTAAAATATAAAAAAAACAAAAAAATAGTATTAAAATTATACTTAAGTATTTAATTAATTTAAAGATTTCAATCATAATTTTTTTTTAATTTTTTTTAATAAACTAATCATTTTATTTTTGTTTAGTATCCCAGTATTAACATTTCTTGGACTTGGATGGTATGATGCAATTAATGTAAAATTATCATTTATTTTATAATTTTTTCCATGAGCAAATATCATTTTTATTTTTTTATTAATTAATTTTTTTTGTTTAAAAAATTTTATACAACTATCGAAAGCTATTTTTCCAAGAGCTAAAAAAAATTTACTATTTTTTAACAGTTTGATTTCTCTTTCAAAAAAAAAGAAACAATTTTCCAATTCTTTTGTTGTAGGTTTATCTTCTGGAGGTACACATTTAAGCACAGGTGTCATATATGAATTGTACATTGTTAAACCATCATTTCTTTCATTTGATGTATTTTGATTTACTAATTTAACTTTATATAAACAATCAATTAGGAATTCAGCTGATTTATCTCCTGTAAATACTCTTCCAGTTCTATTTCCTCCGTGCGCAGCAGGCGCCAGCCCTAAAATAATTAATTTTGCTTTTTTATTTCCGTATCCAACGACCGGCTTTCCCCAATAGTTCCAATGATTAAATCTTTTTGTTTTTTTTAGCGCTATTTTTTCTCTAAAAGTTACTAATCTTTTACAATTTTTACAATTAATTATTTCTTTATTTAAAATATTCCAATTATTCATATAGATTAAATTACATTAGACTTCATCACATGCATAGTTATTTAATATTTTTGTATATTGATAAAATAATTAAGTATGATATAAATTATCGGAATAATCGATTAATTAAATTTATGTTTAACCCTACTTTTAAACAGTTAAAGTATTTGGTATCAGTTTCCAAACATTTACATTTCGGTAAAGCTGCACGGGATTGTTTTGTAAGTCAATCAACTTTAAGTGCTGGTATTCTTGAATTAGAAAAATTATTAAATGTTAAATTAATTGAGAGAACAAAAAGAACAGTTTTATTAACCCCATTAGGAAAAGAAATTTCTAAAAAAGCGGAACTAATAAATTTAGAAATTACTGATATTACAGATATTGCTAAAGCTTCACAAAATGAAATTTATGGTGAAATTAAATTAGGTGTAATTCCAACAATCGCACCATATACACTTCCTAAAGTCATGCCTAAATTAAGAAAGAATTATAATGGTTTAAATTTAAAAATTGTTGAGGATCAAACAGCAAATATTTATCAAATGTTAATTACAGGAAATTTAGATTTAATTTTAATTGCTAAACCATATAAAACAGAAAATATTCATATTGAATCAATTAAAAAAGATTTTTTCTATGTTGCTATGCCAGAAAATAATTCTCTAGAAATATCTAAAAAAAAAATATTGAATCGTGAAGATCTTAGTAATTCAAATATGCTTTTACTTGATGAGGGGCATTGTTTACGTGATCATGTTCTTAATGTTTGCAGTAAAGAAACTATTCAAACAATTGATACTTTTAAAGCTACAAGTTTATTAACATTAGTTCAAATGGTATCAAATGATGCAGGTATAACTTTGCTTCCTGAAATAGTAATTAATTCTGATTTGGTAAAAAACAGTCGAATAAAAATTGTTAATTTTGAAAATAAAAAGAATTTTAGAGAAATTGCTTTATGTTGGAGATCTTCATCACCTAGAATGGATGAATTTCAAAATTTTAGTAAATTTTTAAAAGATAATATTTAGTGTAGAGTATCAACAATTTTTTTATATTCTTTAGGGTCAGTTACTTTTTTAAAAACACCGTAAAATCTTACATAGCCCATTTTATCGGTATCTTTTAGTGCTTTAAGAATAAACTCACCAATTCTTTTTGTAGGTACGCTTTCTTTACCTATATCTTGTATTTTTTCATTAACTTCATTTGAAACTTGTTCTACTTTTTTTTATTGATCAGTACATCCATTAAGTGCAATTTTTATTGATTGATAAAGTCTATCTTTATTAAATGGTATTATTTGCCCATTTCTTTTAATAACGCTTAATTCTGGTCTGTGAATTTTTTCATAAGTTGTAAATCTATAACCACTTCCACATGAACAACGTCTTCTTCTACGTATCATAGTACCGTTTTTTGTAACTCGAGAATCTGTAACAGTAGTGGTATTAAGGTCCAAACTCTTAATATTCTTTTTTTGAAGAGATTCGTTACATATGGGACATAATTGCTTGTTTTTTTTTAACATATTTACTTGTAATAATAATCAATAATACAATATATAGTATATATGAAATATTATCTACAATGCAAGTATTTAATTTGTCAAGTAGTAATAATATTGTTAATGTTATTTTAGATTAAAATAAAATGAATATAAAAAAACAAATTATAATTATCTCATCAATCTTTTCTTTAATCGGCTGTAGTTCTTTTGCTCCTTTTGGTTCTGAAACTGCAGTGAAGTATTTAGGTATAGCTAAAGGAATAACTGATGCAACAACTTACTCAGTAACAGGTAAAACTACTAACGATCATATTCTTTCAGCAGCATTTGGGAAGGATTGTAAACTCACAAGAATAATTGTAAAAAAACCTATATGTATAGAATTTGATGCTAAAACCTATAGATATAGCATATTTAATAAAGGCAAAGTTGTTAGTAAAAATAACGTTGTCGATATTCAATTCCCTTCAGAAATATACGACTTTGAAAAAACTTTTGAAAAAGATTTGAAAAAAAAATTAAAATCAAAGAATCTAAACCTCAATTTATTTAAATAATTAAGTTTGTAATATTTCATTATTCTTTTTATATTTTTTCGCAAAAGGTATAAAAACAATGGTAACTACAAACATAAGTACAGAAAAGAATATAAAATAATTCAAATCAGTTAAGTAAAGTGATCCATCCTTTTTCTCATTATAAAAATTAATAATACTTGTGTAGAGATTTCCTAATGAAATACTTAATAAAAAGAAAGATACAATAACAGCCTTTAATTTTCTAGGAGCATATGTATAAGATATTTCTAAACATGTTATAGAAACAAATATTTCTCCACTTGTTAGAATTGCATATGCAATTATTTGCCAAATTATATTAACTTTGAAACCTAAATTTATTAAATATTGAGCAATAGTTATTATTACAAATGATAAAAAAGTTAATGCGAAACCAATTAAAATTTTATTTGCTGGAGTAAGATTTATATATTGTCTTAATTTTGGATATAAATATTTAAAAAATAATGGAGTAAAAATTAATATCATTATTGGATTAAACGATAATATTTGCGCACTTAATAATTCAATACCAAATATTTTTCGATCCATTTGTTCTGCCTGTAAAATCCATGAGGAACCTGTTTGATCAAACAAACACCAGAAGAAAGAAACAAATAAAAAAATATAAAAAAGTTTTAAAATGATCTTTATATTTTTCTTTTTACATAATTCACTTAAAACTTTTGTTCCTTCAGGTTTTATATGTACAAATTTATATCTACCTAGCCAAAAAAATATTGTTGCAAGCAACATAAATATACCGGGAATTAAAAAAGCCAAATTTGCTGAGTATTTAAATAAAATATAAGGAATTAATAACGTAGAAGTAAAGGCTCCTAAATTTATAGCAATATAAAACAAACTATATGCTTTACTGATAAAAGATTTATTTAAAACATTAAATTGATCTCCTAAATGTGCCGAAACACAAGGTTTAATTCCTCCAGAACCAATTGCAATAAGACTGAGCCCCAACAATAAACCAATTTGAGAAGCATCTATTGATAAAACAAAATGTCCTAAAACATAAATTATAGATAAAAATATTATTGTTTTATATTTACCAAAAAAAATATCTGAAAATAACGCTCCTAAGACAGGAAAAAAATATACAGCAGAAGTGAATAAATGAAAATAGCCTTTAGCAGTTTCTTCAGACATGTTATTTTCACCAGTAGTTAAGAACAAATATTGAGTCATGTAAATAACAAGAATTGATTTCATTCCATAGAAACTAAATCTTTCAGCAGCTTCATTAGCTATAATGTATGGAATACCACTAGGTAAACTTTTTGATAATTTTGCTTTATGAATAAATTTATTCACTTAACTGTTGAATAATATCATTCATAAAATTATAACAAATTGAAAAATGACCCTCATTTTTTTTGGTATGAATTTCTTTATTTTTTAAATTTTTTTTATAAAAATTTAATGTAGAAATAGGTACAGTTAAATCTTTATCACCGTGCCATACAAATATTTTTTTATTTATTTTTTTTACATCGAAGCCCCAATAATTAGCATATAAATTTGCGTCTCTGTGAACTCCAGTTACACCATATTTAATAGCTTCGCGAAAATTTTTTATTAATTTCACACCTCTTTCAACATTGAATAATTTATTGTCTTTTTTGGGTAAAGGAATTTTTTTTTTCCAATTATAAAAACTTTTTTCTATATTACCGTTTAAAATTTTCGATCTTAAAAATATTAGTAACATCCAAGATACAATTGGTTTATATCCATAGTTCATAAGCATTCCCACTCTTCCTTTATTCATACCTTTTACATTACTAGGGGCTAAACCACAAACAATAGCAACTGATTTTAATCTTTTAGAATTTATAAAATATGCACAACTTAAAGCAAAAGGAGCTCCTCCTGATACACCTATTATAGAAAATTTTTTTATTTTAAATTTATTTGCTATTTCTAAAACTATTTTTGGCCAGTCTTTAATTTTAAAATTTTTAATTGGATCAGAAATACCATAACCCGGTCTTTCAATAGCAATAACAAAACATTTTTTTTTTTTTAAAGGTATATTTCTTAATTCAAACCTTGAACCAGGCCATCCATGAAAGTAAAAAATTGGAAAATTTTTTTTTTTTCCAAATATATTATATCCTATTCTATTTCCGTCCTTTAATTTTACTGAAGAACCGTTTTTAGAAAAGAATTCCATACTAAAAAATTCTAGGAATTTTTAGTAGCAGTGTCCTTAGCGTTTTTTATTGATGTAAAAATATTAGATGTTGCTGTATCTCCAGCAAATTTTTTTTTGGTAAATGAATTATAATTTGCAGTAGCAACATTTTTTGCTTTTCTTGATGTAATTTTATTGTTCATAATTAAATAAAAAAGTTTATAAAAAAAGATATAAATCATTATAATCAATTTGCAAGGATTGAATATTTTTTTTTTTGAATTTTTTTATGTTTAAATTAAGAAAGAAAATTGATGAAAAGATTGCTTCAAAAGTTGTTAGATATTTAACAAACACTAGCATTACACCTAATCAAGTAACAACATTTAGCCTATTATTAGCTGCTTTTGCAGCAGTTTTTTTTAGTTTTGGTATATATTTTTTTTCTGTTATAGGTTCAATATTATTTATCTTTTCTAAGTTTCTTGATAATTTAGATGGTAAATTAGCTAGAGCAAAGAATGTTGAATCTGTTTTTGGATGGTATTATGATTATTTTGCTGATACTGCATGTTATATATTAATGTTTGTTGGTATTTCTGCTGGAATTTCTAATTCAAGTCCAGGTGCGTTTGAAATAAACCTTTTCAACTTAATACATTTAGATTTACAAAATTATTTATTATTTTCCGCAATCATCGCATCATTAATTAATACTATTTTAGGATTATTTCATAATAAGCCTACAAAGTGGCCTAAATCAGATGATGGAGATTTGGAAGACTGTATATACTTAATAGGGCCTATAACTTGGTTAGGTTTTATTAATTTTTTCTTTTTACTATCGACTATTGGTTCCGTTGTTTTTGTTATATATAACTTAAAAAGAAATTTTAAGAAATAATTTAAAGTTTTTTTATTTTCATTTTAATTAATGTTTTATCAATTCCTTTTAAAAGTAGTTTCATTTCTTTTGTATTAATATTTCCTATACAACCAATTCTAAATGTATTTTCTTTTAAAACAGATCCTGGGTATATAACAAAGCCTAATTTGCTAAGATTTTTATAAAATATCTTAAAATTTATTTTACTTGGCATTTTGAAACACACTATGATTGGCGAATGTAATTCTTTATCTAAATAGAATTTAAAACCAATTTGTTTCATACCATTAATAAGAGTATTATAATTTTTCTCATATCTTTTATTTCTTTTTTTTATTCCTCCTTCTTTTTTTAACTCATTTATAGCCTCTGAAAGCGCTATTATTGAATGTGTCGGAGGAGTAAATCGCCATTGGTCATTTTTTTCAAATCCCATCCACTGATCATAAAGATCTAATGCAAGTGTATTTGCATTATTTGAACATTTGTTTAATGTTTCTTTTTTAATAATTGAAAATGAAAATCCTGGAACACCTTCTAAACATTTGTTTGATGAACTAATTAAAGCATCTATATTATTTTTCTTTATATCAATATAAATTCCGCCAAATGAACTCATAGCATCAACAATTAATTTTTTTTTATATTTTTTACATATTAATGCTATTTCATTTAAAGGATTTAGCATGCCTGTGCTTGTTTCGCAGTGAACAAGTGCAACATGTGAAATATTTTTATTTCTCTTAATAATTTTTTCTAAGGCGTTGGTTGAAATTAATTCATTTGGTTTAAATTTTAATATTTTTTTTCTTTTTTTAATTTTTTTAAGTATTTTAATAATTCTATCTCCATAGACTCCATTTGTTAGAACTAATGTATTTGACTTATCATTTAAAAGAGTTGAAAAAGTTGATTCTAATCCAAAAGTACCACTTCCTTGAATTGGAACACATGCATAATTATTTGCGTTACTAATTTTTAATAATTCTTTAAATAATTTCTTATTAATTTTTAAAAAATCTATATCTCTTGAACCTAAATCTACAAGCATTTTTTTTTTAGTTTTTATTGATGTATTTAATGGGCCAGGAGTAAAAAGAATTTTATTTTTTGTATTCATTATATTATTTATTTATATAGATGTTCTATCATCTATAGATATGATTAATAATAAATAAAAAAAGGAAAAACTATAAGTTGTCTAAATTCAAATTTTTATATTTAATTTTTGGCATAGGCCTCCTGATTTTTATTTTCAACAAAGTAGATTTTAACTTATTTTTAAACGAATTAAATAAGCTTAGATTTAGTTTTTTTGTAATTTTAATTATATATTTTTTTGGTTTTATTTTAGATAGTTATTCTTGGCAATTATGTATACAAAATTTAAGTGGAAAAAAATTAAAAATATATAATGTTTTTAAAATCAGAATTATAGGAGAAGCGTTTAATTACTTATTTTTTCAAGTAGGCGGAGAACCTGTTAAAGCTTTTTTATTAAAAAATAATTTTAATGTAAAATATAAATTTTCAATTGGATCTTTAATATTAGCAAAAACTATTATTCTTTTTGCTTTAATTACATTTTGTTCAATTGGAATATTTAGTATTTTTTATACTGAAAAATTTGGCGATAATTTTGAAAAATCATCTTTAATTGGCTTTGCCTTTTTTACTATTTTAATATCTTTATTTTTTCTTGTTCAAAGATATAAATTAACTTCAAGAATCCATAAAATTTTTAAAAATAAACTATCAAAGAAAATAAATATTTTTTTTACCCATTTAAAAGAAACTGAGGATAAAATTTCTGATTTTTATAAAAAAACAAAAAAAGATTTTTTTAAAATTTTTTTTTTAAATTTGTGCAATTGGCTTGTAGGAGCATTTGAACTATATGTGATATTTATTTTATTAAATGAAAAAATTACTTTTATGGAAGCAGTTGCAATAGAAACTTTGGTTCAATTAGTAAGAGCTATGTTATTTTTTATTCCATCTAATCTTGGTATGCAAGAAGGTGTATTTGTTTTGGTTGTTAATGTTCTAAAGGATTCTACTCCATTGGGTCTAGCTGTCGCTGTTATAAGAAGACTAAGAGAGGTTATTTGGATAAGTATTGGATTGCTAATAGGTTATAATCAAAAAATTGATTTTAAGAAGATTAAACAAAAATTATAATTTTTTCATTTTATAAAAAAAAATAATTATAGTAATAATTAAGAAAATAGGTGTTCCAATAAATGCAAAATATAAAAATTCATTAATTTTGTTTAGAAAAGTTATTGGTATTATTAAATATAAAATATCTTCTTGTTCAAATCCTAAAAAATTATTTTGCTTTATAGCAATACCTCCTTTTTTTCTTTCAAGATAAAATCTAATTGTCATTATTAAAAAAATACAAATAGCAGACGTTATTCCATATTTTAATCCGTTAAATGAATTTTTTTCTATTAATATTCCTAAACCTATAAACATTGATATATAAGTTACGCAAACACCAATATGATCTAGGTAATGACCAATGGTACTAGTTTTATTTAATTTTCTAGCAACTAATCCATCTACATGATCAAAAGTTGCTGCGATAAAAAAAAGAATAGAAGCAATTTTTGCATTTATTTCAATATTGGTTGAGAAAAGAAATCCTGATAAAACTCCAATTAAAACTCCAAATATAGTTACTATATTGGGGTGAATCTTAAAAAATATAAATGGTTTTGAAATTATAAAAGCAATTTTTTGATCCCAAGGAATTTCAAAATTAAATTTTTTTAAAAAATTATTCATTTATTTTATTAATAATTTTTTTTGCAAAAATTAAATCTTTTTTAAAATCTATTTCAGTCCATAGTAATTTTAAAATGTTTTCAAATTCTATTTTAAACATTTTATTTGTAATAATTTTTCTTATTGTTTCTTCATACATTTCATTTTTATCTTTTTTCATTATTTTTTTTGCTTCTGAAATAAATTTTAAAGAGTCTAGATATGAGAATTTAAAAAAACCAATAGATTCTCCACAATAATCAAATTTTTTTGTAGTTTTTTTTCCAAAATCACATATTTTTTTATTTTTTATACATACTTTTACTGGTTCTTCGCCTATTTCATAATTCTTATCAATTAAAAGACAATTTTTTTTTCTTGAAAAAATTAGTTTTTTAAGAATTTTTTTATCATAAAGAACATCCCCATCCATTAAGATAATTTCATTTTTTTCTTTAAAGAAAGAATGTGCTTTTACAAGAGAAACAATACTTCCTAATTTATATCGTTTATTTACAAATATTTTAATAATTTTATGTTTATCTATTTTTTTTATAAATTTTTTTAGTTCTGTATTTTTGTATCCAATAACAATTCCTATTTTTTTCACCCCATATTTTAATAAATTCTCATAATGACGTTCTAAAAGAGTTTTATTACCAACTTTTATTAAAATTTTAGGTTTGTTATATTTTAATCTTTCCCCCAAACCTGCTGCTAAAATTAATGCTTTCATTTATACCTTTAATTAAAATTTTATATACCTATTATTATATGTAGCAATGAAATTAATTAGACCAAAAAAACTACATATAAAAAAATTAAATAAATCTCAATTATTAAAAAAAGAAATAAATAGTAAAGAACTCTCTTTTTTAATGGAAGCTCATAATGGTTTAACTGCTAAAATTGTTGAACAAAGTGGTTTCAAAGGAATATGGGGATCCGGATTATCTATAGCGACCGCCTTAGGAGTAAGGGATAGTAACGAGGCTTCATGGACGCAAATTCTTGATGTTTTAGAGTTTATGTCTGATGCTACTTCTATACCGATTTTAGTAGATGGTGATACGGGTTATGGAAATTTTAATAATTTTAGAAGATTTGTTTCTAAATTATGTCAAAGAAATATTGCAGGTGTGTGTATTGAAGATAAGCAATATCCAAAGACAAATTCATTAGTAAGACATTATCAAAAACTTGCTGATATAGATGAATTTTGCGGAAAAATAAAAGCTGGTAAAGACACTCAAGCAAATGAAGATTTCTCAATTATAGCAAGAATTGAAGCTTTAATTGCTGGTTGGGGAATAGGTGAGGCAATAAAAAGAGCTAATGCATATTATAATGCAGGTGCTGATGCTATTTTAATTCATTCAAATAAAACTTCTCCTAATGAAATTTTACAATTTAAAAAAGAATGGGGAGATAGATGCCCAGTTATTATTATTCCAACTACTTATTACAAAACGCAGACAAGTAAATTTAAGAAAGCTGGTATATCAACTATTATTTGGGCAAATCATTCATTAAGAGCAACAATAAAATCTGTTAGAAATGTTACTGAAGATCTTTTTAATAAAGAAAATTTGACTAATGTAGAAAAAAAGGTAGCTCCAATAAATGAAATTTTTGAAATTGCTGGTAATAGTGAATTATATGAGGCTGAAAAAAAATATTTATCAGAAAAAAGAAATTATAATGCAATAATTTTGGCAGCATCACGTGGACATCAATTAAAACGCCTTACAAAAAATAAACCAAAAAGTATGTTAGATATTCAAGGGAAACCACTTTTAGAAAGATTAACTTCAACTTTAAAAAAAGATAATACTGGAAAAATTTCTGTTGTTTGTGGTTATAAAAGTGATGTGATAAAAAATTCTACAGCATTATCAAACTTAAATATCATTAAGAATAGAATTTATAATAAATCAGGCGAATTATATTCTTTATCTTGTTCTTTAAAGGAAATTAAAAATGATTGTATTATAAGTTATGGCGATATTGTTTTTAGAAAATATATTTTAGACGCATTAATCTCTACTAAAAAAAATATTGTTATAGTAGTTGATGCTTTATGTTCAAATATGGATAAGAAAAAAAAAGATTGTGTTTTATGTAATAGAACCTTCACAGGGAATTATTTATTAGAACAAAAACCTGCAAAATTAAATAAAATTTCTCACAAAAACGAAAAATGTTCTGATTTTCATGGTCAATGGATTGGTTTAATGAAAACAAACAAAGAAGGCTCTAAACTAATTTCTAAATATATTTTGAAATATTCTAAAAATAAAAATTTTAAATCAATGACTTTACCCGGTTTGTTTGAAAAAATGTTAGAAAATAAAGAAAATATTTCAGTTTTATATGTTGCCGGTCAATGGATTAATGTGAATGATGCATTTGATTTAGCTGAAGCAAGAAAAGTCTCATGGGCTAAAAGTTTCAAATAAATTTTCTTTAAATTTAAAATATTATAGATATATTACAAATGGTTTCATTTTTATGAAGTAATTAGATGTTAACAAGGGATCAAATAAAAAAATTTAAAGATGATGGTTTCGTTTTAGTTCCTAATTTATTTAACAAAAAGGAACTTGATGACCTAGTATTATATACTGATGAACTTCAAAATTCTCCAGAAGTTTCTGGAAAAGAATGGAAATTTTTTGAAAAAAGTAAACTAGATGAAAATCAAAAAGTTTTAGCAAGGATTGAAAATTTCTGTAAATTTCATAATGGTTTTAACTATTTATGTACAAAAAGTAAAATTATAGAATGTGTAAAAGATTGCTTTGGTGAAGATGGAGTTTTATTTAAAGATAAAATAAATTTAAAAATGCCTGGTGGATCAGGTTTCACACCTCATCAAGATTCGCAAGCGGGATGGGATGATTATACGAATTTTTTTTTAACTGCAATGGTAAGTATTGATAAATCAACAATTAAAAATGGTTGTTTAGAATTTGCTCCAGGGCACAATAAATCTGGTTTAATTGGAAAATTATGGGAGCCTCTTTCTGATAAAGAAATGAAACATATGAAATTTATCCCTATAGAAACTAATCCTGGGGATGCAGTTTTTTTTGATTGTTTTGCCCCACATAGGTCTGAACCAAATTTAACAAATAAATCTAGAAGAATTTTATATTTAACTTATAACAAACTAGCTGATGGCGATCACAAAGAAAGATATTATAAAGATAAATATAAAAATTACCCACCAGATATTGATAGAAATCCTGATAAAAATTATAAATTTAAAGTGTAATTTTAATTTTAATTTTTTAAGAAATTTTTAAATCTAATTGCCACATCTTGTGGATTAATTGTTGGCCTACCTAAATTTTTTATTGATCCTTTCTTTATTTTGACATTAATAAATACAGGCCCGTTATTAATTCTAGCTATTACTTTTTTAAATATTTTTGAAAAATCATCTATGTTATTAGTATAAAAAGATACTTTATAACCACATCCTGTTGCTATTTTAGAAAAATTAACTGTAGAAGCATTTGTTAATTGTTGACCAGTGGAATCATGAACATTGTTATCGAGTAATATATGTATTAAATTTCTTGGTTGATTTCTACCTATCGTAGAAATATTCCCCATTTTCATTAACAGAGCACCATCACCATCAATTACAATAATTTTTTTTCTCGAGTTCAGAGCAATTCCTAGAGAAATTGCGCTAGCACAACCCATAGAACCAACCTGATAAAAAAAATTTTCAGAATCATTAATTTCAAATAATTCTCTTCCAGTTTTACCAGTAGTAGCAATAACTGCCATTTCATTATTAATATTATTATTAATTACTTTTAAAATATTAAATCTATTTGGGAGTTCTTTTTTTTTAATAAAATTAATTGTTTTTATTTCGTTTTTAAAATTTATACTTTTTTGTTTTAGCACTTCATTCTCAATTGATTCTTTTTTCATTATCAACGCGTGCGGCATAGAATTATTTTTCATTGAATTATTTATTTTAATAAGTGTCGAAATTAATTTCTTTTTATCAATTGGGAATATATGATTTTTAATTTTGCATAATTTTAAAATATCTCTTGTTATAAGCCCCATTAATTTATGTTGAGGCTCATCTTTAATTTTTGGATCACCTCTCCAAGTAGTAATTAATAATAGAGGAATTTTAAAGGGATAATTTAATGATGTTAAAGGATTTATTGTGTTACCAAGTCCAGAATTTTGTATCATAACAACACTTTTTTTTCCTGCTAACCAAGCCCCGGATGCAATTCCTATCGCCTCACCCTCACTTGTCGCTCCAACATATTTTATTTTTTTTGAATTTATTACACCATTAATTATGGGTGTTAAATAAGAACAGGGAACACCTGAAAAAAAATTAAAACCATTTTTTCTTAGTTGATTAATTAAAAAATTTGCTGGTATCATAAGTTAATTTATTATTACATTTTAAAATTTTTTTGAATATTTTTATTTTATGGAAGAAGATGAAGATATAAAGAATATTATTGATAATAATGACCAAGATTATGAAGAATATAGTATTAATGAATTGGTCAACGAATTAGAAATTTTAAAAAAGAAAATAAATTTTCTCAAAACTTTATTAAAAAAAAAGAAATTAGAACAAAATAGTGCCAATAATTTATTCAAAAAATAAAGTTTTTTTTCTGTTTATCCACAAAAAAAAAAGTTTTTATCCTGAATATCTCAAGTATAATAGATTGACCTTTTTATAAAGAGGGAGGGTATTATGAATAAACTAATCGCGTTATCGCTAAGTATTGGTGGAGTTGGTGGTATTATGACTTGGATATATACTTCAACACCTTTAGCTCTTTCAATACCTATTTCTTTTATTGCTTGGGCTGCTTTTGTTGGCGCAGGTGGTAACAATAAAGCTTTAAGTTCTACTATAACTGCATGGTTATGGGGTGCTGTAGTAGCATGGGCTTCCGCTGCTTTTTTATTAGGAGCAACCTCTGGTCTTCCAGCTGGTTTAGGAGTTCCTGCAACTATATTTCTTAGTGTTTTTGTACTTATTTATGGTACAAAAGTTAAAGCTTTTTCAGCAGCGCCTGCCGCTGTATATGGATATGCTGCGTTTTACACAGCTTTCCTAGCTGGAACTGATGCTTTACAATCAGCTAGTCTTGGAAATCCATTAATTTTAACAGCTCTATCTGGAATTGCCGGTGCAGTTCTTGGTATGGTTGCACTTAATGTTTCCGCTTCGTTAGGAAAATAAATCTTATAATTATAAGTTTTAAATGAAAAATCGGTTATTTTGTTTGTAAAATAACCGATTTTTTCATATATCATATATATTAATTTATTTGGCGGGTGTAGCTCAGTTGGTTTAGAGCGTCGGCTTGTGGTGCCGAATGTCGTGGGTTCGAATCCCATCACTCGCCCCAATATTTAACTAAATCAGTAACTTAATGATAATTGTTAATCTTATATATTAAGTATTAATAGCCTCTGTTAGTGTAAGCCCAACACTTTTTAATAATTTTACATCTGAAGATGTATCATTATTTCCTGTTGTCAAAAGCTTATCGCCATAAAAAATTGAGTTTGCTCCGGCCATAAAACACATTATTTGCGCTTCATTTGACAAATCTTTCCTTCCTGCACTTAATCTTACTCGTGATTTTGGCATTATAATTCTGGCTGTAGCACACATTCTTACAAGTTCAATTGAATTTATTTTTTTTTTATTTTCTAAAGGTGTTCCTTTTGATGGTACTAGAGCATTAACTGGAACACTTTCAGGGTGGGGTTTAAAGTTAGACAAAACTTCAAGCATTTTTGCTCTATCTTCTAACGTTTCACCCATTCCAATAATACCTCCACAACAAACAGTAATTCCAGCTTTTCTAACTCTTTTTATTGTGCTAATTCTATCTGAGAATTTTCTAGTAGTTATTATTTTTTTATAAAAATCAGGACTAGTGTCGATATTGTGGTTATAGGCTTTTAATCCTGCTTTTGCTAGTTTGTTTGCTTGTTTTTGATTTAACATACCTAAAGTAACACAAGATTCCATGCCAATTTTTTTAACACCTTTTATCATTTCTAATACTTTATCAAATTCAGGACCATCTTTTATTTCTCTCCATGCAGCTCCCATACAAAATCTTGAAGCACCATTTTTTTTCGCTTTATTTGCTTTTTTTAACACTTCATTTACGCTTAAAAGAGTTTCTTTTTTTACATCTGTATTATAATGAGCTGATTGTGGACAATATTTACAATTTTCAGGGCAGGAGCCTGTTTTTATACTTAATAAGCTAGCTAGCTGAACATCCTTTTTTGGAAAAAATTTTCTGTGTAATTTTTGTGCTTTGAATATTAATTCAAGTAAAGGTAAATTTAAAATTTTTAGTATTTCCTTTTGCGTCCAATTTGATCTAATCATATTTATATATTAAATATTATTTTAAAAAAATGTTAAAAAAAAATAATTTTAATCACGCAATTTTAACTTGTAAGAATCATAAAGAATTAGATAGAAAAACAATAAAAAGTTTTATACCAGGTTATAAATTAATGGAGAATGCGGGTATTGAGATTTTTAAAATAATAAAAAATAAATTTAATAAAAAAAAAAAAAATTAAAATACTTTGTGGCCCTGGAAATAATGGAGGAGATGGTTATGTAGTTGCAAGATTATTAAAAAATAATGGATTTTTAAATATTGAAGTATATTCATTAATAAATGAAAAAAAAATTAAAGGTGATGCTAATAAAGCATTTAAAAATTTTAAAGGAAAATTATGTTCTTTTTCTAATTTTGAATTAAATAAAAATGATTTAATTATCGATGCTCTTTTTGGTTCAGGATTAAAAAGAAAAATTACTGGAAAATTAAAAAAAATTATTGAATTAATTAATAAGAAGGAAGTTTATTGTATTTCAATAGATATTCCATCAGGTATAAATGGAGATACAGGAGAGATTCATGGCACTGCGATTAAATCTAAAGAGACAATTACATTTACAAAAAAAAAACCGGGCCATTTATTATCCGATGGGAAGGAATATTCAGGGGATATTATTGTTAAAAATATAGGAATAGATTTTAAAAAATTATCTTTTAAACCACATCTCTTTGAGAATCATCCTGATAATTGGAAAGATAAGATTCCATGGCCAAACTATAAATCACACAAATATACTAGGGGATATACTTTAATTATTTGTGGAGATAAAATTACTGGCGCAACTCGATTGGCTGCAAGAGCAGCTGCCAGAATAGGGTGTGGTTTATTATGTCTTGGAGTTCCAAAAGAAGTTTATAATATTTATTCAATAGAAAATCCTATAGCCTTAATTAATGTTATTAATAATATTTCAGATTTAAAGAAATTATTAAAAGATAAAAGGATTAATACAGTTCTAATTGGACCAGGATTAGGAATTAATAAAAAGAAATTAAAATTAATTTTAAGTTTAATTAAAGAAAAAAAAAGAAAAATTATTTTAGATGCTGATGCTCTTAAAAATAACTTTAATAAAATTGTTTCAAATAAAAAAACAAACGTAATTATTACTCCTCATGAAGGAGAATTTTCACATATTTTAAAATCATTAAATATAAAAAAAAAGAAAAAATTTTATCCGGAATTGAATTAGTAAAGAAAACTAAAATGAATTTAATTTTAAAAGGAAATACTACATTAATTTTTTCAGAGGATGGTAAAATTGCAATAAATACTAATACTTCGCCATTTTTAGCTACCGGTGGATCAGGAGATGTTTTAGCTGGAATGATCACAGGCTTGATCTCTCAAAAAATGACTATTTTTGATGCCGCTTGTGCTGCTGTTTGGATTCACGGTGAAATTGCTAAAAAAAAAGGACCAGGCTTAATATCAGAGGATTTACCAGATTTAATTCCAAATGTGTTAAAAAAATTAAAATAAAGATTTTATTGAATTTTTTATATCATTGAGTATTTTCGTAGAAAGAAGCTTTAAGTAGCGGGTGTGGCGGAATTGGTAGACGCGCTAGTCTTAGGAACTAGTGGATTTTATCCTTGGGGGTTCAAGTCCCTTCACCCGCACCAAAAAAAAGACATGAATTAAAATTTTTTATAAATAATATATTTAATATGAAAATTACAGAATTAAAAAAGAAGGGTTTAGAAAAAGAATTTAAAATTATACTTTCTTCTAAAGAAGTAACGGATAAATTAAATCAAAGTTTACATGAAATTTCTAAGGATGTTGAAATTGAAGGTTTCAGAAAAGGTAAAGTTCCATTTAATATTGTAAAACAGAGATTTGGGCAAAATGCTTTAAGTACAACACTAGATGAATTGATTAAATCAACAAGTAATGAAGTAATTAAAAAAAATAATTTAAAATTAGCTATAAAACCTAAAGTAGATGTAAAAAATTTTGGCGAGGATAAAGGACTTGAATATATTATGTCAATTGAATTGATTCCAAATATTAAAATCGGAGATATAAAAAAAATAAAATTAACAAAATATATTTCTAAAGTAGATGAGACAGATTACAAAAAAACATTAGAAACATTTTCTAAAACTCAACAAAATTTTATTAAAGAAGATGGTAAAAAAATTGAAAATGGCGATGGTGTTCTTTTGAATTTGAAACCTACTTATAATAACGAAATAGTAAAAGAAGCATTAATTGAGAATAAATTAACAATAGTTGGTAATAAAATGATAATTCCTGAGATAGAAAAAAAAATATTAGGATCTAAGGCAGGTGATAAATTAAATTTTATATGTAAATTTCCAAAAAATTTTCCAAATCCTGATGTTGCTGAAAAAGATGTAAAAGTTGAAATTGATATATTAGAAGTTCAAGTTTCCCAAAAAAAAGTTTTAGATGATAATTTTGCAAAAACTATGGGCGCTAAAGATTTAAGTGATTTTAAAAATAAAGTTAAAGAACAGATGCAAAATGAATTAGATAATTTATCAAAGACAGTATTAAAGAAAGATTTAATTGATCAATTAGATAAAAGTCATAAAGTTGAGTTACCTACAGGATTAGTTAATTTTGAATTTGAAAGTATTTGGAAACGTTTTCAAGATGATAAAGCTAAAGGTATCATTGATGAAAGTGATAAAAATAAAAAAGATGATGTTATAAAAAAAGATTATAAAAAAATTGCTGAAAGAAGAGTGAAGGTTGGTTTAATATTAGCTAAAATAGGAGAAGAAAATAAAATAGAAGTTAGTGAAGATGATTTAAAAAAAGCGATACAAGAAGAAATTATGAGACAACCAGATGCAAAAGATCAAATTATAAAATTTTATACTGAAAATTCACAAGCTCTTGCATCTTTAAAAGCACCTATATTTGAAGAAAAAGTTATGGAACATATTCTTAAGAATATAAAACTTGATGAAAAAAATATTAAAAGACAAGAATTATTAAATAAATAAAACATTTAAATTAAAAAAATAGTTAATATCTAATAATAATGAAAAAATCTTTTAGAAATTTAAGTACTTTAATTCCTATGGTTGTTGAACAAACTTCTAGAGGTGAAAGATCTTATGATATTTATTCTAGATTACTCAAAGAAAGAATTATTTTTTTAACAGGCGTAATTGAAGATAATTTATCTTCATTAATTTGTGCCCAATTACTTTTTTTAGAATCTGAGAATCCTAATAAAGATATTTCTTTTTATATTAATTCAGCAGGCGGTTCAGTAACATCCGGTTTAGCTATATATGATACAATGCAATATATTAAACCTGATATAACTACAGTTTGTATCGGCCAAGCAGCATCTATGGGCTCATTATTATTGACGGCTGGAACAAAAAACAAAAGATTTTCACTTCCAAATTCTAGAATAATGGTACATCAACCATCTGGTGGTGTGCAAGGTCAAGCATCAGATATTCAAATTCATGCAAATGAAATTTTAACAATTAGAAAAAAACTAAATCAAATTTATGTTAACCATACTGGTCAAGATATTAAAAAGATTGAAGAATATTTAGATAGAGATAGTTTTATGGGGGCAGAAGAAGCAAAAAGCTTTGGCTTAATTGATAAAATTGTTAAAGATAGAAAAGAAATTGAGAAATAATTTTTTTTTTATTGTATTTAGTTAAATAACATTCATATAATTTATTAGAATTACTATGATTAAATCAACAAACGATAACCAAAAAAATACTTTATATTGTTCCTTTTGTGGGAAAAGTCAGCATGAAGTAAAAAAACTTATAGCAGGGCCAACTGTATTTATTTGTGATGAATGTGTCGAGCTATGCATGGACATTATTAAAGAAGAAAACAAGTCGAATGTTTTAAAATCAACTAGCGGCGTCCCTTCACCTGTTGATATTGAAAAAACATTAAATGATTATGTAATTGGTCAATCGAAAGCAAAGAGAATATTATCTGTTGCTGTACATAATCATTATAAAAGATTAGAACATTTTTCAAAATCAAACGACGTAGAACTTTCAAAATCTAATATTTTATTAATAGGTCCAACTGGTTGTGGTAAAACTTTATTAGCCCAAACTTTAGCTAGAATTCTAGATGTTCCATTTACTATGGCTGATGCTACAACTTTAACTGAAGCTGGTTATGTTGGTGAAGATGTTGAAAATATCTTAGTTAGATTATATCAGGCTGCTGATTATGATGTAAAGAGAACTGAAATGGGAATAATATATGTTGATGAAATAGAT
>sequence13
AATTGACAGAAGAAGTTGAAAATCTTTCAAAGCAATATTTACAAATTTTAAAATCAGGAAATAAACCAGTATTATTAAATAAAAAAGAAATGAAAAAAAATATAAAAAAAATTAAAGATTATAATAATGGAAAACTAAAACATAGAATAAAAAGTGTATTATATCTCCATCTTTAACTAAATATTCTTTTCCTTCCTGTCTTGTCTTACCATTTTCTTTAGCACCTTTTGATCCTCCATATTCAATATAATCTTTATATGAAATAGTTTCAGCACAAATAAATCCCTTTTTAAAATCTGTATGAATTACACTTGAAGCATCTGGTGCATTTGAACCTTTTTTTACAGTCCAAGCTCTAGTTTCTTTTTCACCTGCTGTAAAATATGTAATTAAATTTAATTTATCATATGAGAATTTAATAATTCTATCTAATCCAGAATTTTTCCAACCTAAAGAATTTAAAAATTCTTTTTTTTCAATTTCATTTTCTAATTGTGAAATTTGAGATTCTATTTCAGCAGAAATTGAAATAATGATAGCTTTATTATTACTTAAATTATTTTTAATAAGATTTATATATTTATTATCTTCTAAATTTTCTTTTTCATTTAAATTACAAATAAAAATTTTTGGTTTTATAGAAATTAAATTAAAAGAATTTATAATTTTTTGCTCTTCTTTATTTAAAATTAAGTTTTCTAATGATTTTTCTGAGGTTAAATTTTTTATTATTTTTTCTAATATTAAAATTTTTTCTTTATTTTCTATATCTTTATCGATATTTTTTTTTAATTTTTTCAGTTGTTCTTCAGCACTGACTAAATCTGATAAAATAAGTTCATCTTCTATTATTTTCATATCTCTTATTGGATCTAAAGAATTTTCTACATGATCTATATCTGGATCTTCAAAACATCTTATTACATGTAAAATTAAATCAACTTCTTTTATATGAGATAAAAATTTGTTTCCTAAACCCTCACCTTTAGAAGCACCTTTTACTAATCCAGCAATATCAATAAAATTTAATTGAGTAGGTATAATATTTTTTGAATTTTCTATTTTACTAATATTATTAAGTCTTGCATCTGGAACTTCTACAATCGCTTTATTTGGTTCTATAGTACAAAATGCGTAATTGGATGCTTTTGCATTTTGAGTACTAGTTAAAGCATTAAATAATGTTGATTTCCCAACATTTGGTAACCCCACTATCCCACAAGAAAAACTCATTTATTTTATTTTTTTAATTTATTTAATAAAACGGAAATATTATTTGGATCAGAATTTAAAAAATATTGTAAAAAAGAAATAATTCTATTTATTGAATAAATAATTTCTTTCTTTTCATTCTTTTCAAAATTTTCTAAAACAAATTTTTCTATTTTTTGATTATTTTTTGGTCTATCAATACCAATTCTTATTCTTTTATAGTTCTTTCCGATTAATGTATCAATATTTTTTAAACCATTATGTCCTGCATTCCCACCACCAATTTTAATTTTTATTTTACCAAGAGGAAGATCAATATCATCATGTATTACAATTAAATTTTTTTTATTTATTTTATAAAAATCTAAAAAATTTTTTATACTTATCCCAGATAAATTCATATATTCTTTTGGTTTTAAAGCATAAATTTTTTCATTTAATAATTTACCTTCGAAAAAATTTCCATATTTATTTTTCTTTTTTAAAAAATTATATTTTTTTGCAATCATTTCTATAGCTAAATGACCTACGTTATGTCTATTATTTTTATATTTTTCTCCTGGATTACCTAATCCAACTATTAAGTACATTTCTATTTTTTTTTAATTTAAAAATCTTATTAATAATAATAAGCTTATTTTTTTGAATCTTCTTCTTTTTTTTCTTCCTTGTTATCTTGATTTTCTGATTTATTTTCATCGCCTTCTTCTCCTTCAGCTCTTTCTTCTCCTTCAGCTCCTTCTTCTCCCTCAGCCCCTTCTTCTCCCTCAGTTTCAGGCTTGTCCTCTTCTACTGCCATAACAGTAGGAGCAGCAATTGTAGCAATAGTAAAATCTCTATCAGAAATTTGTGGATTAACACCTTCTTGAAGTTTAATGTCACTCATATGAATAACAGCTCCAACTTCTAAATTACTTAAATCAGCCTCAAGTTTTTCTGGAATATTATTAATCTTACAAATTAAATCAACCTCTCTCCTTACCGTGTTAAGAACTCCTCCACCTTTTAGACCAGGAGATTTTTCATCATTAATAAATATAATTGGAACAGATATATTTATTTTAGATTGATCATTAACTCTTAAAAAATCAATATGAATAGGTTTATCGTTTAATGGATTAGTTTGAATTTCTCTTGGTAAAACTTTGATATCTTTTTTATTGATTTTAAAATTATAAACAGTTGAAAAAAAACCAGTTTTATTCATTTCTTTAATTAAATTTTGATATTCTAAAGCAACGTAGACAGGCTCTTTTTTATCACCATATATAACTGCAGGTATTTTACCTGAATTTCTTAATTTTTTAGAACCGCTTTTACCAATATCTTCTCTAGTAATTATATCAAGATTAATTTCTTTCATTTTATTATATAAAAAGACTAATTAATTTATAATTAAAAACGTGATAATTTCAACATTTTATTCCATGTTTTTAGTCAAATAAAACTGAAACTGATTTTTCCGTACTTATTCTTTTGATTGCTTCACTTAGTAAATTAGATACTGATAAAATATCAATTTTTGATGAACTTTTTATTCCTTGATTAGGTTCGATACTGTCTGTAACAACAAGTTTTTCAATTGAAGATTTTGAAATTTTGCTAATTGCTTTTCCAGAAAAAACACCATGTGTTATATATGCAGCAATTTTTTTTGCACCTTTTTTTTTAATTGCTTTTGCAGCATTGCATAATGTTCCTGCTGAATCTACAATATCATCAACAATAATACATGTTTTATTTTTTACGTTTCCAATTATATTCATAACTTCTGATTTTCCGGCTTTAGGTCTTCTTTTATCAATTATTGCAATATCACATTTTAATTGTGTTGCTATTTCTCTAGCTTTTGTAATTCCTCCGACATCTGGGGAAACAAAAGTGATATTACTAACTTTATATTTCTTTTTTATATCTCTAATAAATATTGGAGAACTGTAAAGATTATCAGTAGGAATATCAAAAAAACCTTGAATTTGTCCTGCGTGTAAATCTAACGTTAAAACTCTATCAGCTCCAGCATTTGTTATTAAATTTGATACAAGTTTTGCAGTAATAGGTGTTCTTGGGCCTGTTTTTCTATCTTGTCTAGCATATCCAAAATAAGGTATTACAGCAGTTATTCTTTTAGCAGATCCTCTTTTTAATGCATCAATTGTAATTAATAGTTCCATTAAGTTATCATTGGCAGGATAAGAAGTAGATTGTATGACAAAAACATCTTCGCCTCTTACATTTTCTAGTATTTCTACAAATATTTCCATATCTGCAAATCGTTTTATAATACATTTACAAAGAGGTTTTTTTAATTTTTTTGATATATCTAAAGCTAAAGAATTATTACTGTTACAAGTTACTATTTTCATTTTTATATATTATTAATTTATTGATATAATTGAAAGACATCTCCCATAATCTTTTTCATTATTTTTTTTAGATCTTCTATAACTAAATAAGTTTTTTTCATCTTTATATGTATCAAATGATTTTGAAATAATTTTTTTAACTCCACTATTTTTAATTTTTTTTATGATATAAGATTTTAAATCAAAACTCATTTTTTTATTTTTTTTAAAAAAAAATTTTTTATTTTCTTTATTCTCATTCATTATTTTTTCAAAAAAATCATTTTTTACAGTATATGAGTATTTACCAATACATGGTCCTATACATGATATAATGTTGTTCAAATTAGACCCACATTCAAGCATTAATTTTATACTATTTTCAAGTATGCCATCTTTGGTTCCTTTCCATCCTGCATGAACATTACAAATAATTTTTTTTTTTATATCAAAAAAAAAAACTGGAGCACAATCAGCAGTTAAAATTCCTAATACTATTTTATTTGATTTTGTTAATAATCCATCAGCAATAATTTTTTTACTAATTGAAGACATGTTAACAATTTTTATTTTATTACTATGAACTTGGCTGGGTATAATAAGCTTTTTTTTTTCTAAACCTATTTTTTTTAAAGCTATTAATCTGTTTTTAAACACATCCTCTTTTTTATCATTTGAGCCAATACTGCAATTTAGTGAATTATATATATTTTTACTTACACCATTTTTTCTTGAAAAAAATGCACATTTTATATGGGAATATTTATTAATTTCTTTGTAAATATACATTTATTTATTAAAACCCTCTATGGTATTTAAGTTTTTATTACTTATTGAAATAACATGAAAAATTTCACCCATTTTATTATTGTTGATTAAAAAATCTAGGTTATTTAGTATCATTTTTTTTTGCTTATTATTTGCTTTATTCATTAACATTTTAGCTCTATATAAAATACCAATATTAATTAAAAAATTTCTTTGATTTATTGGTCCAAAAATATTTAATTTATTTTTTTTTGCTATTTTTTCAAATAAATTAAAATTAACATGTGAACTTATATCTGAATTACCTATAGCGTCAAAAATTTTAGTAATTTTTTGTTTTTTTATACTTTTTAAAGAATTACCAAAAGTTTTATTTTTAACATAATCTATAATTAAACATGTGCTTTTTTCTTTTTTCATTTTTTTAAATAATTCATCTATAAAAATCATCATTTTTATTGGAATTTCATAGATAGATCCAATTTTATATTTACTTTTTTTAGGTAAGAATTTTTCAAGTAATGTTTCGTTATTTGAGAATGAAAAATGAAAAGATTTTTTTTTTTTATCATAATTTATCATTCTTTCTCTCCATCCCGTTTTTGTAAATTCAATTTGTTTTATTGGTAACGCATCAAAAAATTCATTTGCAATTAAAATAAAAGGAAGTTTATTTATTTTATTCAAATTATTTATCCATTTAATTTTTTTTTTAATTTTAATATTAAATTTATTTATATTTTTTTTTTGTATTTTTTTTAAAAAAATACTAGCTTCAAAAAAAAATATATTATTACAATTCTTTACAAATTCTTTATTAGAATTTATTGTTCTTAAAAAATCATTCATTAAAGTTCCACTACCAGGACCTAATTCAATTATGTTAAAATTTTTTGGTTTACCCATTTTATTCCAACAATCTATTGCCCATAAGGCAATTAGTTCTCCAAACATTTGGCTTATTTCAGGAGCAGTAATGAAATCTTTGTCTTTTCCAAAAGGTAGATTTTTATTGTAGTAACCAAATTTTTTATTTAAGTTTGTTTCTGATATAAAATCAGAAATACTTAACGGACCAGAAACAATAATTCTTTTTTTTAAAATTTCTTCTAAATTTTTCATTATTTATTTTTAAAAAAAATGAATATACCAATAATAAAGAAAACTATAGAATAAATTTGACCTATTGTTAAATTTAAGAATTGATATCCTAAAAACGGATCTGGTTCTCTAAAAAATTCACAAATAAATCTAAATAAACTATAAAAAATTAAGAAATAAGATGATAGTAGACCATTTTTTTTGTTAAAAACTTCTTTATTTTTTAAAAAAAATAAAATGAAAAATAAAAGGAAACCCTCTAAAAAAGCTTCATATAATTGACTAGGATGTCTTGTAAGATTATCAATATTTTTAAAAGTTATACCTATTTTATTATTTGTAACTCTTCCAACTAATTCACTATTAATGAAATTTGCAATCCTGCCAAAAAAAATACCTATTGGGGCAGCACAAGCAATCAAATCGGTTATTAGTAAGTAATTAATTTTCTTTTTTTTACATAAAATTAATGTACTGATAATTATTCCTATTAAACCTCCATGAAATGCCATTCCACCTTTCCAGATTTTAAATATTTCAGTTAAATTAGAAAAATAATAAGAAGGATTGTAAAGTAAAATATATCCAATTCTTCCACCAATTATTACACCTAAAATTGAAAAAAAGAAAAGATCATTAATAAAATTATTATCTAAATTTAGTTCATATTTAGTACTAATACTTTTTATATATTGTATGCCTAAGATAAATCCAAGCAGATATGATACTGAATACCATCTAATTTCAAGAGGACCTATTGAAAAAATTACAGGATCTATATCTAATAAAAAAATTTTAAAACTCCTTTGGTTAAATAATTATTAAATTTTTTTTAAAAATAATCTAATTCCATCTTCAATTTTTTTAAATTTCTTTTTATACCCAATACTCCTTAATTTTTTTAAATCAGCTTTTGTTAAATATTGATAATGCTTAAGTATATTTTTTGGAGTTTTAATAAAATGAATATTTTTTTTTTTGGATAATTCTTTAAATAGGGTATTAGCTACATCTAAAAAAGTTCTTGGTTGCCCTGTACCTACATTATAAATTCCAGTTTTTTTTTGATTTCTATAAAACCATAAAATTATATTTATGCAATCATCGATATAAACAAAATCTCTTTTTTGCTCACCATCTTTATAATTTTTATTATGAGATTTAAATAAATTTATTTTATTTTTTTTTTTAATTTGTGGGGTCAAATATGATATAACACTCATTTGTTTTTTTTTGTGTTCTTCATTATTTCCATAAACATTAAAAAATTTTAACCCAACCCATTGATTTGGTAATTTTTTTTTATTTTTTATTTTATTTGAAATATGTAAATCAAAAAGATGTTTACTTTGTCCATATAAATTTAGCGGTTTTAATTTTTTAAGATATTCAATATTTTCATTATCTTTAAAACCATATTTTCCATTTCCATATGTTGCTGCACTGGAAGCATAAATTAAATTAATTTTATTTTTTGTACAAAATTCTAGAATTTTTACTGAAAATTCAAAATTATTTTTTAACAATTTTTTAAAATTGTTAGAAGTTGTGGCTGAAATTGCACCTAGATGAAAAATATATTTAATAATATTTTTATTTTTATTTAAAAAAAAAAACAAATTAGAAGGAATAATAATTTTTTTATATTTAATTTTATTTAAATATTTTTTTTTTAAATTTGAATTAACTGAGTCACATATTATTAAATTATTTATATTTAATTTGTTTAACGCAGCGACTAGATTTGAACCTATAAAACCTGCACCACCAGTGATAACAATCATTTTTTTAATTTTTTTTTATTGATATTAATAAATTATAGAAATTGTTAGTTATTAAAAGTTAAAAAAAAAAAAGTATTTATATTCCTCAATATATAGTATAATTACTATTGTTATATACAATATATATTAAAATGACAACATCACTTGCAGATATTGCTGATTCTAAATTTCACCCAATTAATTTATTAGAAGAAATAATAATTTCAAAAAATTGGGTTTTTGAAAGACCTATTGAAGATGAAATTTATATTGAAGTTCCAACTAAATATTCAAATTTAATAATTCAGGTATCTTGGCTAAAAAAATCAGAAAGAATAGAAATAAAATCTTTTTTTTATATTAAAATGGATTTTTCAAATAATATTGAGATATATAAATTATTAAATTTAATTAATAAAAAAATTGATTATGGGCATTTTATTATTAATGATTTGAAATATCCAACTTTTAAAAATTCTATAATAATTAAAGAGTCAAAAAATATTAAATTTGATTTTTTAAAAGAAATTTTAAATTATGCTATTATACAGAGTGAGAAATTCTTTCCTATTTTTCAGTTAGTTCTTTGGGGAGGAAAAAAAGCTGAAGAAGCAATTTTATTTTTTGATTTTCAAACTGAAGGAACATCCTAATTGAAAGAAACAATTTTAATTATAGGTTGTGGTGAAATTGGAACCGCATTGATATCAGGTTGGTTAAAAAAAAGAAAAGATTTTAAAAAAAAAATTTCTAGAATTTATATTTTAGAAAAAAGCATAGCAAGAAAAAAATATTTAAAGAAAAAATTTAAAAAAGAAATATTCTTTATTGAAAAAAAAAACAATTTAAATTTACTCAATAAAGTAAAGTATGTTTTTTTGTCTGTTAAACCAAATGATTTAAATTCATTATCTAGTTATAATTCTTTAATTAATAAAGATTCTGTTATTTTTTCAATTTTAGCCGGTAAACAACTTAAAGATATAAAAAAAAATTTTTCGAATTCTAAAAAAATTATTCGTTTGATGTTAAATACTCCAATCTCAATTAATCAAGGAACAATAATTTATTTTTCAGAAAAATTTATAAAAAAAGAAAAAGATTTATTTCTATTAAATTTAATAGGGAAAGTATTTAAATTAAAAAGTGAAAGATATTTTGATCTAATGACAGCAATAATAGGTAGTGGACCAGCATATTTTTATTATATTTTACAGGCAATGCAAAATGTGGCTATAAAAAATAAAATGGATCAAAAACTTGCAACAGAATTAATAAAAAATACATTTTATGGAACAGCAAAGATTTTAATTAATGAAAATAAAAGTTTTAATGAATTAAGAAAGAAAGTTACAAGTAAAGGTGGTACAACGGAGGCTGGTATTAAATTTCTTGAAAACAAGAATGTAAAAAAAATAATAATTAATTCAATTAATCAAGCAATTAAGAAAGCTAGAGTTTTACGATCTTTAAAGTAGTATAAAAATCAATTTAAAATTTTAAATATGAATAAAATAAAGCGTAAAATCGAGAATACTTTATTAATAATTCTTTTAAAAAAGAATTTTAATGGAATAGGTATAGAAGAAATACAACAGAAATCTAAAATTTCAAGAAAAAATTTTTATAAATTTTTTAATACAAAGGAAGAAATATTAATATCTTTTTTTGGAAATATTGATGATTTATTAAAAAAAAAAATTATGAAAAAGAAATTTGGATCAAATATTAAAGATAATTTATTTGAAATATGTATGACCAGATTAGATTTATTTAATCCTTATAAGAAGAATTTGAAAAATTTTTATTTTTCTTTTCAGAATAAACCTGATCTTTTTTTAAAATTTTATAAAAGTTTTTTCAATAGTATGAAAATTAATTTAGAATTGAGTAAAATTAATATAAATACGTCAAAAAAAAATTTAAAAGTTTTTTTATTTTCTTTTTTTTATCTATCTATTCTTTATGAATGGTTTAAAGATGATTCTGTTAATAATGAAAAAATAATGTCTGTACTAGATAATAGATTAGGAATGATTGAAAAAATAATTATGTAGGAATATTAATTATTACTCTTAAGCCGCCCATAGGAGAATTATCTAAATCTAATTTACCACCATGATTATTTATTATATCTGTTGCTATTGTCATACCTAAACCTAATCCCCCAGTTTTTTTATTTCGCGATTCCTCTATTCTATAAAAAGGCTGTAAAACTTTTTCTCTTTCACTTTCAGGAATTCCAGGCCCATCATCATCAATAATAATTTTTACATAACTATTTATTTTTTCACACTCAACTTTTATATTCTTACTAAATTTAAGACTATTAGATATAATGTTATCTATACATCTTTTTATTGAATTTGATTTTACTAGTAAATTTATTCTTTTTTTATTTTTGAAAATTATATTTTTTTTTTCATATCTATTAATGATTGAACTAATTAATTTTGAAATGTTAATTTTTTGAATTTTTTCATTTTTTTCACCTTTAGCGTAATTTAGATATTCTTCAACCATGTTTTCCATTTCATCTAAGTCTTTTTTTAATCCCCCTTTATTTAATTTTTGTAATTCTAAATTTAATTTCATTCTAGTTAAAATAGTTCTGATATCATGCGAAATTGAAGAAAACATTTTATTTCTTTGTGTTATAGAATTTTCAATTCTTTCTTTCATTATTTTAAAAGCAATTGATACTCTTCTAACCTCTCTTGCCCCACTTGGTTTAAAATTTTTGGTATTTTTTCCTTTTCCAAATCTATCAACTTCAATAGCTAGTTTACGAATAGGTTTTATTTGATTTTTAAGAAATAATAAGGCAACTATAAATAAAATTATTGATGCACTTATCATCCATAATACAAAAATGTATGTAGTGGAACTATATATTCTTTTTTTATTAGCTTTAAATTCTAAATATCCGTTGTCAATTTTAATAGTTACAGTTATTAGTTTTTTTTTGTCATCAACTTTTAAAAAAGCTTCTTTTCCGTAAGGTTTCAAACTTTTTTCTAAATATTTTTTTAAATCACTATATTTTTTTTTATAATCATCAAAATTATTATTTTTATAATTGTTTTCATGAAATTTTGTAATCAATTGTAATTTTGTAGAAGCTTCATTAAGTATCCAATCTTTATTTCCTAATAATTGATTTTTTTCGAAAGATTCTACTACTAAAGTTATATCATTAACAAAATCTATTGATCTATGTCTAATGATAGTATCCCAATGTCGATTATAAAAAATAAGAATAATAACAACTTGAAGAAGTATTAAAGGTATTAATAAAATTAATATTGATCTGCCTAAAAGAGTTTGTGGTAAAAAATTTTTAATCATTTTTATTTATAGAAGATTATTTAATCTATTTTTAAAACATAACCTCTTCCTCTTACAGTTTGTATATATGTTGGAAATTTTTTATTACTTTCTATTTTATTTCTTAATCTTGTTATTTGAACATCTAAAGCTCTACTATTAATTGGAATATTTAGAATTTTTGATAAATTTTCTCTATATATTGGCGCTCCATGTTTTTTGGCTAAAATATTCAGTAATTTATTTTCACTTGATGTAAGAATAAATCTTTTACCATTTTTTAATAAAATTTCATTTTTTAATGAATATACAAAAGGTCCAAATTTTATTTTTTTATTTATTTTTTTTAAAAATTTATTTTTTTGTATAAGGTTATTAATTCTTAAAAGTAATTCTTTAGGCTCAAATGGTTTTGTTAAATAATCATTAGCACCTAATTCTAAACCTTTTATTCTATCTTCAGGATTTCCTAATGCACTTAAAAGTAATATAGGAGTTTTAAAATTATTTTTTTTTAAAGAATCAGTTAAATTTAAACCAGATTCCCCAGGCATCATAATATCTAGAATTATTAAATCGAATTCTATATTTTCTATTTTTTCTCTTGCAATTGATGCATTTTCAGCAGTCATCACTCTAAAATTATTTTTATTTAGATAATCATTAATTAGTTCTAAAATTTTTTTATCATCATCAACGAGCAAAATATGTGGCAAATTTATTTTCATAATTTTTTTTTAAGAATGTTTTTTGAATTTTTACTAATTAAGTTTATTAAAATTTTTTTAAAACCATTTATAGATTCAGTACCCGCATCTTTATATGCAAGAGCAATGTTTTTTATTTGTTTCTCTATCAACTTTTTTTCTATTTTAATACCTTTTTTTGTAAGATAAATATTTTTGTTTCTTTTATCTTTTTTTGATTGTTTTAAAAAAATAATTTCATCATTAATTAATTTATTAATTACTTTTGAAAGACTTTGTTTTTTTATATCTAGAATTATAAGTAAATCTTTAATTGTTAAAAAATAATTATTTGAAGCCAAAAAAATTACGGCAAAATGAGTTTTGTTGTATTTATACTTTTTTAATAATAAACTAATATTTTTATCAAAATCTTTTGTTATAAAGAATAGTAATTCGAAAGCTGTTTTTAATTCTTTTTTTTTTAAAAATAATGGGTTGTAAATATTATTTAAGTTTGTCATTTTTTATTTTAATATGTTTATATTTAGATATTATTTTAACAAAAAAAAATTTTTATTTATTTTTTAAATAAGTATATAGGTATGAAAAAAATAAAAACTTTTGAAGATAGACCAGGGTATATTTGGTTAAATGGTAAATTTGTTGTTTGGAAAAAAGCTAAAATACATATTTTAAGTCACGGATTACATTATGGAAGCTGTGTTTTTGAAGGAGCTAGAGTTTATGATAGAAAAATTTTCAAACTTAAAGATCATACAAAAAGATTATTTTATTCTGCGAAAGTTCTTGGTTTTAAACTACCTTATAATGAAAAAAAAATAAATAGTGCCTGTTTAAAAATAGTTGAAAAACAAAAAATAATTAATGGTTATTTAAGACCTTTTGCTTGGAGAGGAAGTGAAATGATGGCTATTTCTGCCCAAAATACAAAAATTCATTTAGCAATAGCTACTTGGCCAATGAATACTTATTTTGATAAAAAAAAGAGATTTAATGGAATAAAACTTCAAACAGCAAAATGGAGAAGACCTCCTGCAAATACCGCTCCTACAGATGCAAAAGCAGCCGGTTTATATATGATTTGTACACTAAGCAAGCATTATGCTGAAAAAAATGGTTTTGATGATGCGTTGATGTTAGATTATAAAGGACATGTAGCTGAATCTACAGGATCAAATATTTTTTTTATAAAAAATAAAAAATTATACACTCCAATTGCAGACTGTTTTTTAAATGGAATTACTAGAAAAACCGTTATAAAAATAGCAAAAAAAAATAAAATTAAAGTTATAGAAAAAAAAATATTACCTAAAGAATTATTGATAGCAGATGAAATTTTTTTAACTGGAACAGCAGTTGAAATTACTCCAGTTTCTCAAATAGATAGTAAAAAATTTAAAGTTGGTTTCGTTACAAAGAAACTTATTAATCTTTTTGATAATTTTGTAAAAAAATAAAATCAATAATTAAATTTTATTTTTCTTTCATCTCTTTTTTTAGATTTAACAAAGATTTTTTTATTATTTAAATGTTCTGTTTTCCAAAATGGAGCTTCAACTTTTAGATAATCAATAATAAATTCACATGCTTTAAATGCATTTACACGATGTTGTGCAGTTGTAGCTATATAAACAATATTTTCACCAGGTGTAATCTTTCCGTATCTATGAATTATAATACAATTATTTAATTTCCATTTTTTTAAAGCATAAATCTCAATTTTTTTAATTTTTTTTTCTGTCATACCTGGGTAATGCTCAATTTCTATAAATTGAATTTTTTTTGAATTATTTGTAGGTCTGGCAATTCCAACAAAATTTACGAATGCACCAATTTTTTTTTTTAAAATTTTTTTATTTTCTTTTGAAATATTTATCTTTTGTTTTTGTAGTTTTATCATTTAACCTCCAGTAAAAGGTGGAAAAAAAGCTATTTCATCATTTTTTTTAATTTTGCTATTTTTATTAACAATCTTTTGATTAATTGAAACACGGATATTTTTTGATTTTAAAAAAACTTTTTTATGTTTGTTACTTTTTTCACTTAACCATTTAATTAAATTTTTAATATTTTTTATGTTAGAAGGAAGCTTAATATTTTCTTCTGAGAGACCTATATTTTCTTTTAACCAGGAAAAATAAATTATTTTCATATTAATATTTCACTATAAGGAACAAATTTTACTTTTGATCCTTTTTTTAAAAAAGTTAATTTTTCTGGGAGTTCAATCAAACCATCAGTTTCCACCATTGAAGTAAAAACTCCTGAGCCAGTATTAGGGAAATGTTTAATTTTTACTTGCCCATTTGAATTTTTTGATACTTTTACTCTTAAAAATTCTTTTCTTCCACTTTTTTTTTCAAAGTTAAAATCTGCTGTAACAATAAAATTGTTTTTTTTTGGCGATAAAAAACCGGATAATTTATTTATAGCAGGTAAGGCTATTTTTAAAAAAGTAATCATTACAGAAACGGGGTTTCCTGGTAGCCCAATAAATGGTTTTTTAAAAATATTACCAAGTGCAACAGGTCTTCCGGGCTTAATCGAAATATTCCAAAAATTTAATGAACCATTTTTTTCTACAACTCTTCTAACATAATCTTCTTCACCAACTGACATACCACCGGTAGTTATAATTAAATCACATTCTTTAGAAATTTTTTTTAAAGTATTTTTAATTAAATTTTCATTATCTTTTTTTATTCCGTAATCTTTAACGGAGCAATTAATTGTTTTCAGTAAATTTTTTAGACAATATCTGTTTGAATCATAAATACCGTTTTTTGATGTTTTAGTTCCAGGTTCAAATAATTCGTTGCCAGTAGTAAAAATTCCAACTTTTAATTTTTCATATATTTCTATTTCTTTAATTCCAATTGATGCTATTAAAGCAATGTCTTGTGCTTTTAGCTTAGACCCTTTTGTTATAATTTTTTTTCCAAACTTAATATCTTCACCTTTTTTTCTAATATTGGCACCTTTAAAAATTCCTGGTTTTAAAATAATTTTATTTCCATTTACATTGCAATCTTCTTGCATGATAACAGTATCTGTTCCTTCTGGTACTTTGGCACCAGTAAAAATTCTTACAACTTCTCCTTTGTTAATTTTTTTATTAAAATTTTGACCAGCTGCAATTCTTCCATTTAATTTTAATACAGTTTCTTTTTTTTTGTTTAAATCTGAATATTTAAATGCATATCCATCTACAGCAGTATTATCAAAAGGGGGTACATTTAATTTTGAGAAGATATCTTTTGATAAAATTCTTCCCAATGACTGATCTAATTTAATTTTTTGTGTTTTTTTTATACACTTTATTCTTTTTTCTAAAATAGAAACTGCTTTTTCCAAAGATATTCTTTTTTTACTATGTTTAAAACAGTCGTTTGATAATTGTGTCATTTTTTTAATTTTAAAAAAGTTTTAAAATGCTGTATTCCAGTGATGACAGTAATAAAAGTTGCTAAATATATAAAAAAAATCGTAACAGAAAAAATAAACAATAAAATATCACCTGATATAAACGGTTCAATAATATTTGCATACTCTTCTAAAACATATATAACCATAATGAGGCCAATAGGTATCATTTGTATAAAAGTTTTGTATTTTGAAAATATAGTTACATCTATATTTTTATTTTCATCTCTTATATTAAATCTTAAACAGGAAACTATAATTTCTCTTATTATTATTATATAAAATGGTATTTTAATAAAATTCGATTCACTATAATCTTTAAAAACTAGTAATGAAATAAGCATTGTTATAATTAAGATTTTATCAGCAAACGGGTCTAAAACTTTTCCAAAATTTGATTTAAAATCTCTTTTTCTTGCTATATAACCATCAAAAAAATCAGTGAGGCATGCTAAAACAAATATTATTAAAATCCATAAGTGATTTGATATTTCAAATAAGTAAATCAAAAATGGACAAGCTAACAACCTTAAGACAGTAAGTATATTTGGTATATTTTTCATAATTTAATTCTCATGAAAGAAATTATATATCTTTTTTGCAATATTTTTATTAATTCCTTTAACTTTTTCAATTTCACTAAGTTGTGCTGTTTTAATTTGTTCAGAAGAACCAAAATATTTTAATAAATCTCTTTTTTTGTTTGGCCCTATTCCTTCAATTTCATCTAATATAGATTTGTTAATTTTTGATCTTCTCGTTCTATGGGACGTAATTGCAAATCTATGCGCCTCATCTCTTAATCTTTGTAGAAAGAAAAGAGTTTTGTCATTTAAATTAAATTTTATTTTTTTATTGTTTTTTATATAAAAAGTTTCATTTCCTTCATTCCTATTTTCACCTTTTGCAATAGACATAAGCTCAATTTTTTTTTCTAAATTTAATTTTCTTAAAACATTTAAAGCAGTATTAAAATGACCCTTACCTCCATCAATAATCATTAAATCTGGATATAGCATTGTTTTTGAATCTTTTTTTAATCTTCTATTGAGCACTTCATAAATAGATGAATAATCATCACTTTTAGATAAATTTTCTTTTCTTTTAAATTTACCTTTTATATTAAATTTTCTGTAATTATTTTTGGTAAAACCATTTTTATTAAAAGAAACCATAGCACCTACAGCAAACTCTCCTGAAATATGACTAATGTCATAAATTTCTATAGTTTTTGGTAGGTTTTTAAATTTAAAAATCTTTTTTATTTTTTTTAAATATAAAACATTATTTTTTTCTTCATTAATTTTTTTATCCAATTCTTTTTCTGCATTTTTTTCTGCATCACAAACTATAATTTTTTTTTTACCTTTAATAGGGACTTCAATCTTTATTTGATAACCAGATTTTTTATTTAAAGCATTAGTTAAAAGTTTTTTTTCTCTTATTTTTTTGTTTATAAGTATTAATTTTGTAACAATTTTATCTGAATAATATTGACCTAAAAAAGATTGAAGAATATTTTCTTCATTTTCATTTTCTTCATGCTTTGGAAAATAGTATCTCCCGCCCAAATTATTTCCTCCTCTAAAATAAAAAACTTGTATACAGGCTCTTGCCTCTTTCTTTTTTATAGATATAACATCAGCATCACCGATAGAAGCAATATTTACCGATTGTTTTTCTTGTATTTTATTTAACGCTTTAATTCTATCTCTTAAGGTTGCAGCTTTTTCATAAAGTTTTTTTAAACTATATTTTTGCATTGTGTTATTTAAATTAGATTGAATTTTTTTATTTTTACCTTTTAGAAATTCAATTGTTTGATTTGATAATTCTGAATAATCTTTTTTATTTATTTTTTTTACGCATGGAGCGGAACATTTTTTAATTTCATATAAAAGACAGGCTCTTGTTCTTGCTTTAAAAAAAGAGTCTGAACAAGATCTAATTAAAAAAGCTTTTTGTAATGAATTAATAGTTTTATCTACAGCCCCAGCTGAAGAATAGGGACCAAAATAACTACCTATCTTTTTTTGTTTCCCTCTATGTTTTGATATTTGGGGCCATTTATTTTTGGAACTAATTAGAATATAAGGCAGTGATTTGTCATCTCTTAAAACTATATTAAATCTTGGTTTATTCTTTTTTATTAAATTACTTTCAAGTAAAAAAGCTTCTGCTTCAGTTTTAGTTGTGATCGTCTCAATATTGTTAATTTGGTAAACCATTCTTTGTATTCTATTAGATAAAGAGGAAATATTTGTATAGCTAGATATTCTTTTTTTTAAATTCTTAGCTTTACCAATATATAAAATTTCATTCTTAGAATTTAAATACTGATAAACTCCAGGGCTATCAGTTATATTTGTATATTTACTTTTTATTATTTCTATACCGTTCATTTCACTTAATTTTTATATTCATTTAATATTATTGTAATTAATATCCACCATATCTGTGGATAAACTTGTGTAAAAATTAAACATTAATATTATTTTTGGCTTATTTCCTTGCATTTTAATGATATGATTAAAAAATAGGCATTTATTAATAAATAATTGATTATACTACATAATTACAAAGTCAAGATAATTTTATTTTTTTATATATCTAAATTCTTATTTTTTTTTACTTTTACAAAAATGATGTGTAAAACTATTTATATGTGTAAAATTAAAATTTTTTAGATAAATTATATATTTAGATTACATTATTCATCTATAATTTGCTTATTATTACCCTGAGCCCATCCTAAATGTTGACCAGAATCAATATTAATTAATTGGCCAGTTAAAGATTTTGATTTCAATATATATAAAACTGTATCAGCTATTTCGTAGGGATTTACTGATTTTTTTAAAGGAACAGATTTATATTGTCTTTTAAATTGTTTATTAGTTTGTCTTTTACTTTTAAGGGTAGGGCCTGGACCAATAGCATTAACTCTTATTTGAGGTGCTAAATACAAAGCCAAAGTTTGAGTTAAAGTCCATAGCATTGATTTTGTTAATGTGTAAGTTGTAAAAAAAGGAGTTAGGTTTATTACTCTTTGATCAAGAATATTAATTATATTACCAGTACTTATTTATGGTAAATTTTTTATAAATTGTTGTATTAGGAAAATAGAAGCCCAAACATTTGTATTTAAATGATAATCCCAATTTTTTTTTTTAATATTTTCTATATTATCTAATTCAAAAGTAGAGGCGTTGTTTATTAAACAAGTAATATTGCCCATTTCTTTTTTTGCATTTATAAATAGTTTTTTTAATTCTAATTCTTTTGATAAATCTGCTTTTATACAACATGAATTTATTTTCAATGAATTAAGTTTTTTATTTAAATTAAAAGCTTTGTTTTTTGATTTGTTATAATGAATTATGACGTTCCATCCTTCTTGAGCAATACGTTCAGAAATAACCGCGCCTATTCTTTGAGATCCTCCTGTTATTAATGCTGTATTTTTCATGTTGTATAAATCCAATAAATGTAAGCTATATAAAATATAAAAAGTATAGACCCTTCTTGTCTATCAATAACTTTAGGTTTAGTGGTTGGTTGTTTATAAAAAATAAATAGTAATAATGTTGAAATAGCTAAAAAAAGTATATCACTAGATTTAACATTTTCTAAAATAGCTCCATTACCTTCACCCGTATTTTCATAAATTTCAACAAGGCTGAGCATTACAAGAATATTATACATATTAGAACCTAGTACAGTTCCTAGGGCAATTCCTTGTTTTTGTTTAATAGCAGCAACTATACAAATTATCAATTCTGGTAAAGAGGTTCCAATTGCAACTAAAGATAAACCTATAATTCTTTCCGAAATATTATAAATTTGTGCTAATTCAACTGTTTTATTTATAAGAAGGTGACATCCATAAATTAGTATTGTTAGAAAAAAGATATTTTTTAAAATTAAAATAAAAGTTTTTTCTCTGATATTTATTTTTTTTATTTTATTTATTTTTTCTAAATGCAGTCTTTGTTTAAAAAAATAAAAGAAGAGAAGAATGGCTAGTATAGATACTAAAATAGAATTAATATCTTTTAATCCAAAAAAGAATATTGTTGCAGGAAATAGGAAAATAAATATGCCTGCAATTGTTTCTAGTTCTAAAATATTTCCTGATGTTTTTGGAAAAGCTTTTATAGGGTAAATTATTGCAGACAAACCAATTACTAAAAATATATTAGCAATATTACTTCCTATTAAATTACCCACAGCAATTCCGGGATGATTTGAAATTACAGATTTTATAGTAGCACTAAATTCGGGTAAAGATGTTCCTATCGCAATTAAAAAGGTAGCTATTATGAATTGAGAAATATTTAATTTTTTAGCTAAAGCAACAATATTTTCAATTAAATAATGTGCACCGATTAAGAGTAAAAATAGACCAGTTAATAAACTTAAATAAGTCATTTTGCAATTTTTTTAGTAGTGATTAATTCTAAATCTCTAAGTTTCATTTTTTTAATCTTATCTCTATTTTTTGCAGCTTCCTCAAATTCTAGGTTTGAAGCGTGTTCTAGCATTTCTTTTTCTAAACTAGAAATATATGATTTTACATCTATTTTCTTAGTTTCAAATCCTTGTTTATCTACTTTAACAGTATATGAATCTTTTTCATAAACAGATTCTAAAATATTATTTATATCTTTTTTTATACTTTGAGGTGTTATCCCATTTTTTTTATTATAAAATATTTGTTTATTTCTTCTTCTATCAGTTTCATCTATTGCTTCAATAATACTTTTAGTTTTTTTATCTGCATAAAGGATTACTTTTCCATTAATATTTCTTGCTGCTCTACCAATAGTTTGAATTAAAGACGTTTTTGAACGTAAAAAACCTTCTTTATCTGCATCTAAAATTGCAACTAAACCGCATTCAGGAATATCTAAAACTTCTCTTAATAAATTAATTCCTATTTAAATATCAAATTTTCCTATTCTTAAATCTCTTAAAATTTCAATTCTTTCTAAAGTATTAATATCTGAATGTAGATATCTAACTTTTAAATTTGATTCTTCAAAATATTCAGTTAAATCTTCAGCCATTTTTTTTGTTAA
>sequence14
AACCATACTTAGTTACTTTTTTGAGCATTAATTATGATATTTTTTTTATTATGCTATTGCAACTTTATTACTCTTTTTAATGAGAACGGTTCTCATCTTTATTAAATTTTATTTACTATTATTATGTTTTGTTAATGATTAAAAACAAAAAAAAATTAGAAAAGGTTTTAAAACCTTTAGTAAATAATTCTAAATTAACAAATGAAATTATAGTTACAGACGAAAATAAAAAAAAAATTAAATTACATTCCGTTGTAGAGCGACCTCTTACTTTATTTTTAAATGATCAAGAGATAGTTACAATGATGACAATTTGTGATTATCCAAAATATCTAGCCATAGGTTATTTGTTAAATCAAAACATGCTTAAAAAGAATGATAAAATCACCGGCGTTGATTATGATGAAGAAATTAGCACAGTTGTAGTTAGAACAAAATTAAAAACAAATTACGAAGAAAAATTAAAAAAAAAAACTCTTACATCTGGATGTGCACAAGGAACAGTTTTTGGAGATATTATGGAAGAATTTGAAAATATTAAACTATCTAAGACTGTAAAAATTAAAGCTTCATGGATGATAAAATTACTTAAGGAAATTAACACAACACCAAGTTTATATTTAAAAGCAAGAGCAATTCATGGCTGTGTTTTATGTAAAAAGGACAAAGCGCAGATTTACATGGAAGATGTTGGAAGACATAACGCAGTTGATAAAATTGCTGGCTATATGTATAAGCATTCAATCTCTCCAGCAGATAAAATATTTTATACAACTGGGAGACTTACTAGTGAAATGATTATTAAAACTGTAAAAATGAAAATACCAATTTTAATATCAAGAAATGGATTTACCTCTTGGGGTGTTGATTTAGCAAAAAAAGCAAATTTAACTCTTATAGGAAGAACCAAAGGAAAAAGATTTATTGCATTGTCAGGATTTGAAAGAATTATTTATGATACAAAATAATAAAAAAATTCTTGGTTTAATATTAGCCGGTGGTTTATCAAGAAGAATGGGAAATAAAAACAAATTTTTAAAAAAAATAAATAACAATATTATTATTGATTTGATTATTAGTAGGGCAGAAAAACAGGTATCTTACCTAATATTAAATACTAATGATAAAATACCTTATTTATCAAAATTTAAATTAAAAGAAATACCAGATTTAATTAAAGGTTATCATGGACCATTAGTTGGTATTTTATCTGGAATGGAATGGGCTAGAAAACAAAAAGAAAAAATAGACTATCTAGCAACCTTTTCTTGTGATGCACCTTTTTTTCCTGAAGATTTAATACAAAAATTGTTAAAAGAAATAACAGATCAAAATTTAGATATTGTTATTCCTAAATATAAAAATCAAAAACATCCAGTTTTTGGTTTATGGTCTTTAAATCTAATAGATTCATTAAGAGAATACATTTTAGAAGAAAAAATGAAAAAAATTGATACTTGGATTTTTAAAAATAATTATAAAATTATCGATTTTAAAAATAAGAAATACGACCCTTTTTTCAACATAAATACTCCTGAAGATCTTGAAAAAGCAAATTCTATTTCATTAAAATTTAATATTTAATTTTTTTAAAATTAAAAATTAATAGAGAAAAAACTAGTATTGAATTTATTAAAAAAAACATGTTTATGTCATGAATGCCTAAAATTAGAATTAATAAAATAAATCCAAAATTAGAAATTTTTTTATTATTACTATAGAAAAATTCCCTAGATATATAAATTAAAATAGGTATTGCAACATAAAGTTCATAAAAAGCTATCCTTGGTAAAGAAATTGTTATTAAGAGAACACAAAAAGCTAAAAAAATATTTTTTTTTGGAAAAATATAATTTTTTTTTAAACCAAATAAAAAAAATATACAAAAAATTAATATTGAACTAGAAAAAAACCAAAATAAGTTTGAAAATATTGATGGTCCAGATGGAAAATAAATATTAAATAAAGAAAATATTCTTGATGGTATTTGTTCGTTAATCGACATAATTCCAAGACCTCCGCCAAAAGAAGAAAACCAAATATTTTCTTTCATCGCTTTCATTGTATTTAAAAAATCAAAAAAAATATTTTGATTTAAAAAATAATCGATGGAGTAAATAGAAATTAAACAAAGACATGTAATTAAAAATATTTTAAAAAATTCTTTTCCTTTATAAATTAAACCTACAATTATAAAAAAAAAGAAATGTGGCTTTATTAAAGATGCTAATAAAATAAAAAAGGAAAACTTTTTTAAATTATTTTTTTCAAGCAGTACTAATGCATATGATATTAAAGTAAAACTTAAAATAGATACATTTCCAGTTAAAAGACTTTGAAAAAAAATTCCACCAAAAGAGAATAATAAAATTGCTAAATAAAAAAAATAATTTATTTTTTTAGCAAATAAAATCTTAGTATTTTTATATATGAAAAAAGTACAAACAATTACAGTTGCTAGCCAAATTTTTTTTAAATCAATAAATTCTAATGAATTAAATAATGAAAAAAATTTTACTAATGGAATAGTGTAATTATATGCAAAAGCTTCGTTTAAATTAATAGCTTCTTTAGTACAATTTGCTATAGGATTGTTTGCAAATAATCCATAAGGAGAATTACCTAATGAATAAATTTTACCAGCACAGTAGTTAACTGCTAAATCCCAAAAAACTTCCCTATCTCCTATTATATATTTTTTGTAGAACCAGTTTAAAATATTTATTGAAGATAAAAAAAGAATTAAACTTAATATATTTTCCTTTGTAATAAATTTTTTCATAAATATTTAGTATTATTATAAGTTATAAAGAAAATTAGATAATTTATCTATGAATAAAAACTTTTATCCTATTTTATTGACTGGTGGGAACGGTCTTTTTGGCAGTACTTTTTTAAAAAAAAATAAAAGAATAAAAAAAAGAATAATTTCACCCAGTAGTTTAGAATTAAATATCACAAATAAGAAAAAAGTTTCCGCTTATTTAAATAAGTATAAGCCTAAAATAATAATTCATGCTGCAGCTTTAGTAGGTATAAAAGCTTGTGAAGATAATAAAATTTTATGTAGAAAAATAAATATTATTGGGACAAAAAATATTGCTTCTTATGCACAAAAAAATAATATTAGATTTATTTATATTTCAACAGATTATGTTTTCGATGGCAAAAAAGGTAATTATTCTGAGAAAGATAAACCTAACCCACAATCAATATATGCAAAATCAAAGTTTGAAGGGGAAAAAATTATTAAAAAATTAAAAAATTATTTAATTATAAGAACATCTTTTTTTTCTAAAAAAAAATGGAAATACAAAGAGGCTTTTGTTGATCAGTATACTTCTAGATTAGAAATAGAAAGTTTAGTTGTAAAATTAAATAAAATAATTTTTTCAAATTTTAAAGGCTTAATACATATTGCTGGTAAAAGACAAAGTTTATATAAAATAGCAAAAATAATTGATAAAAAGACAAAACCTATTAGTTTAGAAAATTATAAAAAGCTTAAGATTCCAAAGGATATTAGTTTAAATATATCAAAATGGAAATTATTTTTAAATTCAGAAAATAGACGTTAATTTTATGAAAAAAAAATTATTAATTTTTATTCCAGCTTACAATGTAGAACATCAAATTTTAGATGTTTTAAAAAAGATTCCTGTTAAAAAATTAAAAATTTATGAAATTGAATTATTAATAATTAATGATTTTTCAACTGACGCAACTTTAAACGAAATAAAAAAATTTAAAAATAAAGAATTAAAAATTACTATTTTTACAAATAAATCAAATTTAGGATACGGTTCAGTGCAAAAATTAGCGTATTTTTATGCTATTAAAAATAATTTTGATATCATCGCTATGCTTCATGGCGATGGACAATATGATCCTAAATTATTACCAAAATTAATAGATCCTATAAATAAAAATAATGCTGATGCAGTTTTTGGCGCTAGAATGCATTCTTCTTTAAAAGCTCTAAAAGGTAAAATGCCATTTCACAGATTTTTAGGAAATAAAATAATTACTAAAATTCAAAATTTTTTATTAAATTCAAAAATAAATGAATTTCATAATGGATATAGGGTTTATTCTATTAAAGCTTTGAGGTCTGTTCCATTTCATCTTAATTCTTCATATTATCATTTTGATACAGAAATAATTATTCAATTATTATTATCTAATTTAATAATAAAAGAAATTCCAATTAATACTATTTATGGATCAGAAAAATCTTATTTAAATGTTTTTAAATATGGCTTTAATGTTTTAAAAACAACTTTAGTTGGTAGATTACAAAATTTTGGAATTTTTTATGAAAGAAAATTCGATATAGAAAGATTTAGAAAAGGAAAAGTGGAATACAGAAATAAAAAAAGTTTTAATAGTTCACACAGTAAAACTTTAAAATTAATAAAACAAAATACTAAAATTCTAGATTTAAGTCTTAGCAATAAATTTTTTAGCGATGAATTAAAAAAAAAAAAATGTAAGGTTTATTCTATTGATATTCATTCAATATTAAGTGAATTGACATATGAAAACTTAATAGATTCTAATATAGAAAAATATGATTTACCAATTAATGAAGATGTATTTGATACAGTTATTATTTTAAATGAATTACAAAGATTAAACGAACCAGAAGCATTTATTGAAATATTATCTAATTGGTTAAAAAAATCTCCAAATAGTCAAATTATTGTATCAACTACTAACATTGGATTTTTCATGATTAGATTTATGCTTCTTTTTGGTTTTTATAATCATGGAATTAAGGGTGTTTTAGATATAAGCCATAAAAGAAATTATACATTTTCTTCTTTAAAAAAATTATTTGAACAAAGTGGAAATTTTAAAGTTGAGAAGATGATTGGTATTCCAGCTCCTTTTCCTTTAGCAATAAAAAATAAATTTTTAAGTAAAATTTTATTATTTATAAATAATTTACTTATAAAAATGTCTAAAGTTTTTTTTTCTTATGAAATTCTAGCAATTATTAAAACAAAAAAAAGTTTAGAAGATTTAATCAAATCTGCAGAAAAAAAAATAAGGTAATTATGAAAATTTTTATATCAGGAATTGCTGGTTTTTTAGGTAGTCATTTGGCTGATAAAATGATTTTACTTGGTCATAATGTTTCTGGCTGTGATAATCTTATAGGAGGTTATTTAGATAACATTCCTAAAAAAGCAAAATTTTATCAATACGATTGTAATGATTTAAATAAAATGAAACAAATAACGAAAGGTATTGATATTGTATTTCATTGCGCGGCGACGGCATATGAGGGTTTAAGTGTTTTTAGCCCGCATGTTGTTACAAAAAATATTGTAGGATCTTCAGTATCTTTAATAACTGCATCTGTATCAAACAAAGTTAAAAGAATTGTTTATTGTTCTTCTATGGCAAGATATGGAACAAATAAAGTCCCATTCGAAGAAAAAATGGAAACAAACCCTCAAGATCCTTACGGAATTGGTAAAGTTGCCGGGGAAGACTTTTTAAAAAATTTATGTACAGTTCATAATGTTGAGTGGGTTATTGCTGTACCTCATAGTATTATAGGACCAAGACAAAAATACGATGATCCATATAGAAATGTAGCAAGTATAATGATTAATTTGATGTTACAAAAAAGAAATCCGATTATTTATGGAGATGGAAAACAAAAAAGGTGCTTTTCTTTTGTAAATGATGATATAGATATTTTGGCTGAACTTGCATTTAGTAAAAAAGCAATAAGTGAAATATTTAATATTGGCCCAGATGATGAATTTATAACAATTAATGAATTAGCTACTACCATTGCTAATTTATTAAAATTTAATTTAAATCCTGTTTATAAAAAAGGAAGACCACAAGAAGTTTTTTTAGCTAATTGCTCAGCAAATAAAGCTAGAAAAATTTTTAATTATAAAACAAAATATTCATTAAAAGAGGGATTAATTGAAATGATTGATTATATAAAGAAAAGAGGAACCAGGCCTTTTAAATATCATATGGATTTAGAAATAATTAATGAAATTACACCTGAAACATGGAAAAAAAAACTTTTTTAATTAAAAATTTAGTAAGATAAAAGAATGAAATTAGGTATTTTTGATAAATATAAAACAACTCTTGGTCAAATTAATCATGTTAAAAAAGTTTTAAGTCAAACCAAACCAACGGCAATTAATTTTGAAATAGATTTAACTAATGGATGTAATCATAGGTGTTCTTTTTGTCAGTGGGGAAGTTATTTAGAATCTAACAGAGCAACATTAAAAAGTGAAATAGTATTAAAAACTTTACCAGAATTAATTAAATATGGAACTAAAGCAATTACTTGGACAGGCGGAGGTGAGCCAACAGTTCATAAAGATTTTTTTAGATTATTAAATATAGCTTATAAATTAGGATTAGATAATGGTTTATTAACAAATGGTTCTCTTTTAAAAGAAGAATATGACAAACAATTATTAAAACAATTAGTTTTTTTAAGAATTTCTATGGCTGGAGGTAATCGGAAAGCTTATCAAAAAGTGCAGGGCAGGGATGATTTTGACAAAGTTATTAATAATTTAAAAAGAATTGGAGATTTAAAAAAAAAAATAAAATCTAAAACAACATTAGGAGTGGCTTTTTTAGCAAATAAAGAAAATGCTGATAGCTTGGAGGATTTTGTTGAAACATTAATAAATTCAAATTGTGATTATTTACAAGTGAGAAGAGATAATTATATCAAAGAAAATGAGAAAAAATGGTGGGACAGTAATATAGGTAAAAAGTGTGAAGAATTAGTAAAATATACTAGACCAAAGGGTATGGATATATTAACAGAAGGATATGTTACTTTTCAAAAATTTATTAAATACCCAAAAAAATGTTTTGCTCATAATTTTGTAATGGCAATTAATGCTGAAGGCTATGTAACTTTTTGTAAAAATACTAAAGATAATCCTAAATTTTATATTGGAAATTTAAATAAAGAAAGTTTTAAAAATATTTGGTTAAAATCTAAGATAAATAAAAAATTAGAAAATAATATAAAACCTTCAAATTGCGCCACATACTGTAAAAATATGCAAATTAATAAGGCAGTTGAAGATTTAATTAATAAAAAAGTTTCTTTAGATGAATTCAAAAATCAAAAAATAGATCATAAAAACTTTCCTTAAAAAATGAAAAAAGAAAAATTATTAATTTTTATAGTTGCTTATAATCATGAAAAAACTATTAAAAATGTAATTGATAGAATTCCTAAAAATTTAAAAAATATTTATAATTTAGAAATATTAATTATTGATGATAATTCTCAAGATAATACTTTTGAGATAAGTAAAAAAATAAAGGAAGACTATAAAAAAAAAAATATTTTTAAAATAAATATTTTTTATAATCCAATTAATCAGGGATACGGTGGAAATCAAAAATTAGGCTATCATTATGCCATAAAGAAAAAATTTAAGTATGTTGTTTTGCTTCATGGTGACGGACAATACGCGCCAGAAGTCCTACCTAGACTTTTAGATCAAACTTTTAAAAATAATATTGTAATGGGATCTAGAATGATAAATAAAAAGCTTGCTTTAAAGGGAGGCATGCCAGTTTATAAATTTATTGGAAATATAATCTTAACTAAGATACAAAATTTCTTACTTGGTACAAATTTAGCAGAGTTTCATACTGGGTATAGAATTTATTTAGTAAAATCACTTCAAAATATCCCGTTTTATTTGAATACTAATGATTTTCATTTTGATACAGAAATATTAATACAATTAGTAATTAATAAAGATGTGATAAAAGAAATTTCAATTCCAACTTTTTATGGGGATGAAATTTGTCATGTTAATGGAATTAAATATGCATTTAATGTTTTAAGAATGACTTCAATAGCAAAATTTCAAAAAATATTTAGTTTTTCTTTAACAGAAAAATTTGATATTGAAAAAAAAACAAAAAAATATTTATTTTCATATAAAAAAGTTGATAATCTGTTAAATCTTTCGATGAAAAGAAAATAAATATTATTTTAGTATACTATCAATTTTTTTATTAAAAATTTTTTCCCAATTAGGCATTCGAAAATTAAGAAATTTTTCTAATTTTTTTATATCTAGAACTGAATTTAAAGGCCTTTTTGTTATATTTTTATTGCCTACCATTTTTTTATAATCTTCAGAATTCAAAGGTAATAAATCACAATTTTTATAATTTTTTTTCATTTTTTTATAAATTTTTTTGGCAAAATCATAATAATTAGTTTTTCCTTTTGCAGATAAGTTTAATATTTTTGGATTTTTTTTATTTATTATAATTTTTTTTAGAATTTTAATAGTAGTATTGCTTATAAATTCTGCATCATTAGGTGTTCCAATTTGATTATTTACTAAAAAAATTTTATTTAATTTTTTTATTTTATTTATTATTTTTTTTGGAAAATTTTCACCTGTTTTGTTATATATCCAATTTAATCTAAGAATTAAATATTTACATTTAGATTTTATAATTTTTTTTTCAGCTTTAAGTTTTGATTTTCCATAATAATTTATAGGATTTGGTAGAGCATTTTCTTTCCAAGGTTTATTATTTTTACCATCAAATATATAAACAGTAGAATAATGGACAAAAAAACAATTATTTTTATATGACCAATCAACAAGTTCTTTAGTTGAAAGTACATTTATTTTATAACATTCTTTTTTATTATTCTCAGCATCATCAACTTTTGTATAAGCAGCCGCATTAATAATTAAATTTGGATTAAATTTATCTAATTTTTTTTTTATTGTTTCTAATTTCTCTAAATTTAATTCTTTTTTAGATAAACATTTTACTTTTTTACTTATGAGAGATAATTTTTTTTTTAAATTAGATCCAATTTGTCCAGATGATCCTAATAAAATAGTTTTTTCTATTTTTTCCATTGCGGTAATTTATGAATTTCATTTAGCTTTAAACCATTAGCATCTTTTTTTGATAAAATTGGTTTTTTTGTTGGCCATTTGATTCCAATAAATGGATCATTCCAAATAATTTCTTTTTGGTTTTTAGGATAATACTTGCAATCACATTTATAAATTACATCTGCAAAAGTACTTAATACAAGATAACCATGTCCAAATCCCTGAGGTATCCATAAGATATTTTTTTTTTTTGAATCCAGAATTACTTTACACCATTTTCCAAAATTCGGACTATTCTTTCTTATATCAACAATTACATCAAAAATTTTTCCATTCATTACAGATATCAATTTTCCTTGTAAATTTGGATATTGAAAATGTAATCCTCTTAAAACATTTTTTTTTGAGTGAGTGACTGTTACTTGAGAAATATTATTTATAATTTTTTTTTTAAAAGAATTTTTTTTATTCCATGATTCATACAGTGATCCTCTTTTATCATAAAAAATTTTTGGTTCTATTAAATAGGGGCCAGGTAGGCTTAATTTTTTTAATTTCATTAGAATTTATTTGTAAGAGTAACTTTCTTCTTTTTTCAATTTTTCTAATTTTGCTGCACAATATTTAAATTCAGGTATTTTTCCTATAGGATCTAGTTCAGGGTTTGTTAAAACATTTGCTGGTGCTTCTTTAAAAGCAAATGGGAAAAATATAACATTATTTGGAACATTTCTATCAAATCTTACTTTAACCTCAACTTTACCTCTTCTAGTTTCTATTTTAACTTTATCACCAGCGTTAATTCCTATTTTTTTTAATTGTTTAGGATTAAAATGAGCCGTAGCAATAGGTTCAATGCTATCTAAAACTTTTGATCTTCTAGTCATAGAACCAGTGTGCCAATGTTCTAGTAATCTACCGGTCATTAAAATCATAGGATATTCTTTATTAGGAACTTCATCTGGAGGTGTAAGATCAGTAGGAACAATTTTACCTCTTTTATTTTTTGTATCAAAACCTTTAGAAAAAATTACTTCCTCTCCAGGTTGATTTATATCTTTAACGGGATATACAACTGAATTTTCTTTCTCTAATCTATCCCACGTTAAACCTTTAATAGAAGGCATAGTTTGTGCCATTTCAGGAAAAACATCTTTTGGATGATTATAATTCCATTTCAAACCAAGTCTTTTTCCTAATTCGTTAATTATCCATAGATCTTGTCTAGCATCTCCTGGAAGAGGAATTGCTTTTCTACCCATTTGAACTTGTCTATTAGTATTAGTGAAACTACCGTCTTTTTCTGGAGCGGCAGAACTTGGTAATAAAACATCTGCAAAGGTTGCGGTTTCAGTTAAAAATAAATCCTGAACAACCAAATGTTCTAATTTAGCAAATCCTTTTCTAGCATGTTTTGTATCTGGATCTGACATTGCTGGATTTTCTCCCATTATATACATTCCTTTTATAGTTCCATCATTCATACCATGCATTATTTCAACTACTGTTTGTCCAGGTTCTGAATCTAATTTTGATTTCCATAGTTTCTCTAATTTTTTTCTATTTTTATCATCTTGAACTGGAAAATAATCAGGAAATACCATTGGTATTAAACCTGCATCAGAAGCACCTTGAACATTATTTTGACCTCTTAAAGGATGAAGCCCCGTTCCTGGCCTGCCGATTTGCCCACACATTAAAGATAATGCTATTAATGATCTAGCATTGTCAGTTCCATGAACATGTTGTGATATTCCCATTCCCCAAAAAATTATAGCAGATTTAGCTTTTGCATAAGTTCTCGCAACTGTTTTAATAGTTTCAGAATTTATACCAGTAATTTTTTCCATTTTTTCTGGTGTAAATTTGTTTGTATTTTTTATAAGATCAGAAAAGCCTTCAGTGTAACCTTTGATATATTGTTGATCATAAAGTTTTTCTTTTATTATTACATTCATAATCGAATTTAAAAGAGCGACATCAGTACCAGGTCTAAAATTTAAATTTTCAAATGCATATTTATTTAGCGAACTTTTTCTTGGGTCTACTACAATTAATTTAGAACCATTTTTTGCAGCATTTTTAAAAAAAGTAGCAGCAACTGGATGATTTTCAGTTGGATTAGCTCCAATAACAATAATTACATCTGAATTTTCGCAATCATAGAAAGGATTACTTACTGCTCCGGAGCCAAGCGTTTCTAAAAGCGCAGCGACAGATGAGGCATGGCATAATCTAGTACAATGATCTACATTATTTGTTCCAAAACCAGTTCTTACTAATTTTTGAAATAAATATGCTTCTTCATTAGATCCTTTGGCTGATCCAAATCCTGCTAATGAACTTTCACCGTAATTATTTTTTATTTTTTTTAATCCTTGAGCAGCATAATTTAATGCTTCATTCCAAGATACTTTTTTAAAATATTTAAGCGGGTTTTTAGGATCAAAAATTTTTTCAGGATCCTTAGAAACGTTATCTTTTCTTATCATTGGATATTTTAATCTTTCAGGATTGGTAGTGTAATCATAACCAAATCTTCCTTTTACACAAAGTCTGTTATGATTTGATGGTCCATCTTTTCCATCAACCCAAGCTATTTTATCATTTTTTATATTATAAGTAATTTGGCATCCAACACCACAATAAGGGCAAACTGATTCAACTTTTTTATCAACTTTTGTATCAGCAATATGATTTTTATTCATTACAGAAGATGGCATAAGTGCACCTGTCGGACAGGCTTGCACACACTCTCCGCAAGCAACACATGTACTATCACCCATTGGATCATCAAAATCAAAAACGATTTTTGCGTCAGAACCTCTGTTTGCCATTCCTATTACATCATTAACTTGAACTTCTCTACATGCTCTTACACAAAGGTTGCAATGAATACATGCATCTAAATTTACCTCCATTGCACTATGACTTAAATCTGGTTTTGGAAAATATGATTTTTTCGGAAATCTACTGGAATTTACATTTAATTTGGATGCCCAATTCCAAAATTTTGAATTTTTATCTCTAGCAATACTTCTTTTTGGTTGGTCAGCAACAAGTAGTTCAAAAACTAATTCACGAGATTTTTTTGCTCTGTTTGATTTTGTATTAACTTTCATACCATCAGTTGGTTTTCTAATACATGAAGCAACCAAAGTTCTTTCACCTTCTACTTCAACCATACAAGCTCTACAATTTCCGTCAGGTCTATATCCTGGCTTGGGCTCGTAACACAGATGGGGAATTTTATCACCAAGACGATTTGCTACTTGCCATATAGTTTCATCTTCTTGTGCAATTACTTTTTTTCCATTTAATATAAAAGTTATATTTTTCATTTTTTTTTTCAATTAGCTTACATCATTTTGAAAAAATTTTAACACACAATTTATTGGATTTGACGCTGCCTGTCCTAAACCGCAAATAGAAGCATCAGTCATAACTTTATCTAAATCATTTAAAAGTTTTTTATCCCATTTTTTTGATTTTAATAGCTTAACTGCTTTTTCAGTTCCAACTCTGCAAGGAGTACATTGACCACAACTCTCATCCTCAAAAAATTTTAATAAATTAATAGTAATATCTTTCATACTATCTTTTTGAGAAAAAATTACTATTGCAGCCGAACCAACAAAACACCCTTCTTTATCTAGTTCTTTTCCAAAATCTAAAGGAATATTTCCAAGTGAAGCTGGTAAAATTCCACCAGATGCACCACCGGGCAAATATCCTTTAAATTCATGATTATTTTCCATTCCACCACAATAATCATTAATTAATTCATTAACAGTTATTCCTGCAGGGGCTTTTTTAACTCCTGGATTTTTTACTCTGCCGGAGACAGAATATAAACGAAAACCAACACCACCATTTTTCCCAAAACTTGCAAACCATTTACTTCCTTTTTCAATTATGTCTCTAATCCAAAAAAGAGTTTCAACATTATTACATAAAGTTGGTCGTCCAAATAAACCTTCTTGGACAGGGAAAGGAGGTTTGTGTCTTGGATAGCCTCTTTTTCCTTCAATACTTTCTAACATGGCAGATTCTTCACCACATATGTATGCACCAGCCCCTCTTCTTATTACTAATTTGCAGTTTATACTAAGACCAGCTTTTTCAATTTTTTTTATTTCATCTTTTAAAATTTTATTAACAAATGGATACTCATCTCTTAAATAAATATAACAAGTTTTTGCATCAACTACCCATGCAGCGATTAAAGTACCTTCAAGAAAACGATGTGGATCTGTTTCCATACAATATCTGTCTTTAAAAGTACCTGGTTCTCCCTCATCTGCGTTGACAGCCATTAATCTTGGCGCAGGTTCATTTTTTGTTAATTTCCATTTTAAACCAGTAGGAAATCCTGCCCCGCCAAGTCCTTTAAGTTTTGAATCTTCAATTATTTTTATAATTTGATTTGGTTTAATTTTATTTGATAAACAATTTTTTAAAATATCATAACCGCCATTTTTTTTGTAATCGTCAAAATTAATATATGTATTTATTTTAGGTGAGAAATTTTTTTTATTTATTACATTTTCAACTTTTTTTTCATTTACAAAATCAATATGTTTATGTCCAATTTCTAAAACTGGAGCAGTATCACATCTGCCCATACAAGGAGCTTTTAAAACTCTAATATTTTTTTTGTTATATTTTTTTTTTAAATTTTGAATAATTTTTTTTGCACCAAACATTTCACAAGTAACTGTATCACAAACACGAATAGTTATGTTCGCAGGTTTTTCATCATTATCTATAATATCAAAATGAGCGTAAAACGATGCAACTTCATAAACTTCAGTTAAAGGCATTTTCATTAAAGTTGCTAGAGCCGTTAAGTGTTTCGCATGAAGACATTTATATTTATCTTGAATTAAATGGAGATTTTCTATAAGCATATCTCTTGCTTTTGATTTATTTTTAAGTAAAAGAATTATTTCTTTTTCTGCTTTTTCATCAACTATTCTACCTTTTGGAAAAAAAATTTTTTTTTCCTTTTTTCTTCCCAGGTCTCCATTTTTTAATATTTTAATTTCTTTATTCATTGATATATAAATCTAAGCATATATTAATTACATAGGGCTTTTAAAACAAAAACAATTATTATTCATTTTTTACAATTATCAAATCTATTTTTTCCCCGTTTATTGTTTTTTTTCCACTATTTTCAAAATTTACAGTTATGACATTCTTTATTTTTGATTGTACTTGCCCAATACCCCAATCTTTTTTATTTGGGTGAGTTACATAAATGCCTGGAACTATTAAATCATTCATATTTTTAAATTTTTTTGTTGTGTTTTTAATTATTAATAATATATTTTTCTTTTGAAATATTATCTATAAATATCTATGGTTTCTAAAAAAAAAATATCATCAAAATACAAACCAACAGCAAAAGAGCCGTTTATGAATGCAAAACAAAAGGAGTATTTTAGACAAAAATTAATTAATTGGAAAGATGAACTTTTAAAAGGATCAACAGAAACAATAACTAATTTGAAACAAGATAAAGAAGTTACAGGAGATTTTGCTGATATAGCATCTGCTGAAAGCGCAAAATCAATTGAATTACGTACTAGGGACAGAGAAAGAAAATTAATTAATAAGATAGATCAAGCTTTAAAACGTATTGATAATAATACTTATGGCTATTGTGAAGTAACTGGTAAGCCAATAGGTCTTAAAAGACTTGAAGCGCGCCCAATTGCGACTTTAAGCATTGAAGCGCAGCAAATTCACGAAAATCAAGAAAAGCTTAATAATGATTAAATTTTGATTTACTGTTTCGTTAATTTTTTTTTTTTTTAATTTATTCAGTAATAACCGTTTTTTTTTACTTGAAAAAAAGAACAAAAGTAGTACATTTATAATTATATATTATTTACTATTTTAAAGGATATTATGATGAAAAAAACTAATTTAAAAAACGTAAGTTCAACAATGGAACAAAAAGAAAAGGTAACAAAAATTAAAGATCAGTCTCTTAATACTGCCATATCTCAAATTGAACAAAGTTATGGTAAAGGTTCAATTATGAAGTTGGGAGATAATAAGCAAAATGTTGATGTAGACGTTGTTTCTTCTGGCTCCATAGGTCTTGATATAGCCCTGGGTATAGGAGGATTACCACGAGGCAGAATAATTGAAATATATGGGCCTGAAAGTTCAGGTAAAACAGCTTTAGCGATTCATGCTATTTCAGAGTGTCAAAAAACCGGAGGCACTTGTGCATTTATTGATGCTGAACATGCTTTAGATCCCGCATATGCAAAAAAATTAGGTGTGGATATTGATAGCTTACTTATTTCACAACCTGATTCAGGCGAACAGGCTTTAGAAATTGCAGAAACATTAGTTAGATCAAATGCTGTAGATATTTTAGTAATTGATAGTGTTGCTGCCCTTGTACCAAAGGCTGAAATTGAAGGAGATATGGGAGATTCACACATGGGATTACAAGCAAGGCTAATGAGTCAAGCATTAAGAAAAGTTACTTCATGCATTTCTCGTTCAAATTGTATAGTAATTTTCATTAATCAAATAAGAATGAAAATAGGTGTAATGTTTGGTAATCCAGAAACAACAACTGGTGGAAATGCTCTTAAGTTCTATTCTTCTGTAAGATTAGATATTAGAAGAATTGGGGCAATTAAAGATAAAGAAGAAATAATTGGAAATCAAACTAGGGTTAAAGTAGTTAAAAATAAACTTGCTCCCCCATTCAGAATGGTTGAATTTGATATTATGTATGGAAAAGGCATATCTAAACTTGGCGAATTAGTTGATTTAGGTTCTGAAGCAGGTGTTATCGAGAAATCTGGCACATGGTATTCGTATAAAGGTGATAAAATTGGTCAAGGAAAAGAGAATGCTAAAAAATATCTTTCTGAAAAAAAAGATATAGCTGCTCAAATTTATAGATCAATAATGGAAGCAAGTGGTGTTGTAAAAGAAAAAATGATGGAAGGTAAAAAAGAAGAAAAAAGTAAAGAAAATAACCCTACAGAAAACTCACAACAAACTGAATAATTTTTTATTGCTAATTAATATTGCTTGGTACATTCTAACTATAAGTTATGTATCCAAGCAATTTAATTAGAAAAAAATTCTTAGATTATTTTAAAAAAAATAGCCATAATATAATTACATCAAGCTCGTTAATTCCAGAAAATGATCCAACATTATTATTTACCAATGCTGGAATGGTTCAATTTAAAAATATTTTAACTGGAATTGAAGAAAGTAAATTTAAAAAAGTTACAACATCACAAAAATGTATTAGAGCTGGTGGTAAACATAATGATCTTGATAATGTAGGTCACACTAATCGTCATCATACTTTTTTTGAAATGTTAGGTAATTTTTCATTCGGTGATTATTTTAAAGAAGAAGCGATTTTTTATGCATGGGATCTTTTAGTTAATGTTTTTAATATTGATAAAAAAAAATTATTTATAACAGTATTTGTTGAAGATGATGAGAGTAAAAAAATATGGAAAAAAATATCAGGCTTTAATGATGAAAAAATTATAAGTATTAAATCTAATGATAATTTTTGGTCTATGGGGGATATAGGACCATGCGGACCTTGTACTGAAATTTTTTATGATTATGGAAACAAATTTAAAGGATCAATTACTGATAATGGAATTTCTGGAGATAGATACGTTGAAATTTGGAATTTGGTTTTTATGGAATTCAACCAATTAAATAAAAATAAAAGAATTGTTTTACCGCAAAAATGTGTTGATACAGGAATGGGATTAGAAAGAATTACTGCTTTATTACAAAAAACACATGATAATTATCAAACAGATGTTTTTAGTAAAATTATAAATCAGATTGGGAAATTATCTAATACTCAAAATATAAATAGTAATAACATAAGTCATAGAATTATAGCTGATCATATTAGATCATCGTGCCACCTAATTTCTGATGGAGTACTTCCATCAAATGAAGGTAGAGGCTATGTAGCTAGAAGAATAATGAGGAGAGGTATGAGACATGCTCATATATTAGGTTGTAAAGAACCAATTTTTTATAAATTAGTTCCTTTAATTGTAAAAGAAATGGGAAGCACATTCCCAGAATTAAAAAGAGCTGAGTCGTTAATGATAGAAATATTAAAAAATGAAGAACACAGATTTAAAGAAACAATAGACAGAGGTTTGAAGATATTAAATGATGAAATTGAAAAAACTGATAAAAAAATTTTTTCCGGAGATACAGCATTCCTTTTGTATGATACCTTCGGGTTTCCATTAGATTTAACTCAAGATATTTTAAAGGAATCTAATATTTCAGTTGATTTGAAAACTTTCAATAAAAATATGAATAGTCAAAGAAAAAAAGCAAAATCAAAATGGAAAGGCTCAGGCGACACATCAACAAGCAAATTATGGTATGAAATTTATGAAAATGAAGGTCCAACTGAATTTGTGGGTTATAATAATACAAAAGCAGAAGGATCTATAATTCAAATTGTAAAAAAAAATAAATTTGTAAATGAAATTAAAATAGGTGATGAAGCAATTATTATCACAAATCAAACACCATTTTATGCTGAGTCCGGAGGTCAAATTGGCGATACTGGGATTATAAAATTAAATAAAAATGAATTTGAAGTAAAAGACACAAAAAAAATTTTAAAAATTCATTTACATTTCGGCAAAGTAATAAAAGGAGAATTTAAAAAAAAACAAAATGTAAATTTAATTATTGATAATCAAAAAAGAAAAAGAATAAAAATATATCATTCGTTAACTCATTTAATTCATTCTGCTTTAAGAGCTATTTTAGGTAAGCATGTCACACAAAAAGGATCGTTAGTTAGTTTTAATAAACTTCGTTTTGATTTTAGTCATCCAAGATCACTAGAAAATAATGAAATTAAAAAAATTGAAATGATAGTTAATAAAATTATAAAACAAGATGATACAGTAAATATATTTATAACTTCATATAAAAAAGCTGTTGGAAAAGGAGCAATGGCTTTGTTTGGTGAAAAATATGATGATGAAGTTAGAGTAGTAAGTATGGGTAAAAATTTAAATAATTCAATTTTTTCAATTGAATTATGTGGAGGTACACATGTTAATAAAACAAGTGAAATAGAAAGTTTAAAAATAACTAAAGAATCATCAGTATCGTCTGGAATTAGAAGAATTGAGGCTATTTCAGGAATAGATATATTAAAATATTCAAAGGAACAAAAAAAAAATGTATTAGAAAAAGAAAAAGATAGTATTAAAAAAAAATTAGAGGAAAAATTAAGTGAAAAGAAAACAAAAATTACATTACAAGATAAATCTAAAAATCTAATTCAAGAAGGTGAAATAAATTCTATAAAATATTATTTTAGAACTATTAATGATTTGCCTCCAAATCATTTACCGAATCTTTTAGATGAAATTAAATTAAAAATGCAAAACACAATTATTGTTTTGTATGGAATTTATAACAAAAATATTTCAATTGTTGTCGGAACCTCTGATAGTTTTAGTAAAAAAATAAATGCAATAGATATAGTAAAAAAAATCTCTAATTATTTAGGAGGTAAGGGCGGAGGAGGTAGACCTGATTTTGCTCGAGCAGGTGGTGGTAAAGATATTAATAAAATTTCTGAAATTAATAAAATTTTAATAGAGTCGTTTAAAGCATTGTAAATACTTATTTTATAAATCTACTTTTTAATTAATTTTTTCTTTAACTTTTTTTATATATTCTTTTGTATTAAGCCATTTAGCATTATTACCAATAAGTAATGCTAAATCCTTTGTCATAAATCCAGATACAACTGTATCAACACATGCCTTTTCAACTTTTTTGCTAAAATTCTGTAATTTAATATTATTATCAAACTTACCTCTATAATATAGCCCTTTTGTCCAAGCGAAAATAGAAGCAATAGGATTAGTTGATGTTTCTTTACCATCTTGAAATTGACGAAAATGTCTTGTTACAGTCC
>sequence15
ATGTACCCATCCCCATTTATTATCAATATCTACAATTTTTTTCCAATTATCTTTTTCATCTATTATCAAAATTGGTAAATTTTTTTTTTTGTAAATAAATTTTATACCAGCATCAAAACTTGCATTATATCGAATATTTGTCTTTTCTTTTTTAATTGAAGCATATTTTGGTGTAATTGGATAAATAAGTGCTTTAGTAGTAAAAGAGAATATTAATATAAAAAATATAAGAAAATATTTCATATTAGTTACATATAGTACAGTTACGATTCTTTTCTATTTTTATTTTTTTAAATTGATTATTTAATAAATCTAAAATAACTAATTTTCCGACTAAAGGTTTTCCAATATTAAGAATATTTTTTAAGACTTCAACAGATTGAAATGAACCAGTTATTCCTGCAACTCCACCAATAACACCAAAATTTCTACAATTGTCATTATTATTTAATTTCTTTATTTCAGGAAAAATACATCTATAACAAGGATTATTTTTTGATTTTAACCATCCTTTAATACTTGTTATTTGTGCTTCGAATCCCTGAATAGCACCTGAAACTAAAGTTTTTTTATTTTTAACACAACTATCATTTATTAAATACTTAGTAGGAAAATTATCGCTACCATCAACGATCACATCATAATTTGAAATTATTTTATCAACATTTAATTTTGTAATTTTTTTTTTGTAGATATTAATTTTTAAATTTGGATTTATAGATAATAATTTTTTTTTTGCAACTTGTACTTTTGATTTATTAATATTTTTTTGATCAAATAATATTTGTCTCTGTAAATTTGAAAGTTCAACTTTATCAAAATCTGCTAAACCAATAGTTCCAATGCCAGCAGATGCTAAGTACATTGAAACAGGAGACCCTAAACCTCCAACTCCTAAAATAAATACTTTTGCTTTTAATAGTTTTTTTTGACCATTAATGCCAACATTTTTTAAAAGAATTTGATGGGCATATCTTTTTATTTCTTTTTCTGAAATTTTTTTTAACATTTTTATTATTTAAATAAAGCTGTTGATAAATAACGTTCTGCAAATGATGGTATAACTACAATAATTTTTTTATTTTTCATATTTTTTCTTTTGGCCACCTCTATTCCTGCGGCTAAGGCAGCACCTGACGAAATACCAATTGGTAACCCTTCTATTTTTGCAGCCATTTTAGCAGTTGAAAATGCGGTTTCATTTGCAATTTGTATTACTTCATCAATTAATGATTTATCTAATATTTTTGGTATAAACCCTGCTCCAATCCCTTGTATTTTATGAGGACCTGGATCTCCCCCAGATATAACAGGACTATCTTCAGGTTCAACAGCAATAATTTTTATTTTTTTATTTTTTTTTTTTAAAATTTTACTTACTCCAGAAATTGTTCCTCCTGTACCTACACCCATAATTACTGCGTCTAAATTTCCTTTTGTGTCGTTAAAAATTTCTATAGCAGTTGTTTTTTCATGTATTATAGGATTAGATTGATTTTCAAATTGTTGTGGCATAAATGAATTTTTAGTTTTTCTTTTTATTTCAATAGCCTCGTTTATTGCTCCTTTCATGCCATTTTCTGCTGGAGTTAAAATTAATTTAGCCCCAAGTAATATTAACATTTTTCTTCTTTCAATAGACATAGACTCTGGCATAGTTAAAATAAGTTTATAACCTTTTGCAGCACAAACAAAAGCTAAGCCAATTCCTGTATTTCCTGATGTTGGTTCAATAATAGTTGTAGTTTTATTAATTAGTTTTTTTTTTTCAGCATCTTCAATCATTGCCATTCCAATTCTATCTTTTACTGAAGAAGTAGGGTTAAAAAATTCTAATTTGCATATCAATTCTCCGTAGCAATTATACTTTTTAGATATTCTATTTATTTTTACTAATGGCGTATTGCCTATTGTATCTAAAATACTTTCATAAATTTTATTTCTTATAGTTTTCATTATTTATATTATGAAATCTGTTTTATTTTCTTTTTTAATATTAATTTTAGTGGTATGTATTTTTTTATATAAATCATGTATATTTGTTTTTTTAAAAGAATTTATCACTTCATTTGATACATTTTTTATTAATGGGTTTATAATTTCTGTTCTAATTCGAGTATTTATATTTTTATTTTTATTTTTTTCTGTTTCCATTATTGCATTGTATATATCTATAAGAAATATATTTCTTTTTTCTTTACCTAAAGTATAACCTCCATTCGGGCCTCTTGTACCTTTTAAAATATTTTTATGTACTAATTCTTGTAATATTTTTTCTAAATATCTTGTTGGTATGCCTTGTCTTTTAGTAATTTCTTTTGCCCTTGCAGGTTTACTTGATGAATAAATTGATATATCTAATACTGCTTCAAGTGCATGTAAAAATTTTTTATTAAAAATAATGTTCATTTATAATCCTGTTGATCCAAATCCTTTGTTACTTCTTTTTGTTAAAATACTAATTTTTTTTTTTTGGTTCCATTTTATTTTTTCAACTTTAGAAATAATAAGTTGGGCAATACGCATACCTCTTTCTATGACAAATTTTTTTGATCCATGGTTTATTAAAATTATTTTTATTTCACCACGATAATCCGCATCTATTGTTCCTGGTGTGTTTAGTACAGTTATTCCTGAATTTAATGCTAAACCAGATCTAGGTCTAATTTGTCCTTCTAAGTTTTTTTTTAAAGAAATTTTGATACCTGTAGGAATTAAAATAATTTGTCCTTTTTTAATATTAATTTTTTTTTTAATAGCAGCATATAAATCCAAGCCTGAACAATTTTTTGAACTATAACTTGGCAATGGTATATTTTTTGCATGTGGTAATTTTTCTATTTCAATATTAAGCATTTAATTTATATAAAATGATATTTCATTAACAATTTTTTCTGCTAATTTATTTTTTTCCATTTTTTTCCATTTTATTTCTTTGTTTTTACCTATCATTGATATTTCATTAAAATTATTATTTATAGGATTGAATCTTTTTGAAATTTTATTTGCAAAAATTATATCACAATTTTTTTTCAATAGTTTTTCTCTGGCATTTTTAATTACTAAATCTGTTTCAGCGGCAAAACCACAAACTAATTTAGGTCTATACTTTTTTAAGTTTGAAATTGAAAATAAAATATCTTTATTTTCTTTAAATTTTATATTTTTAAACTTATTTTGATTTTTTTTAAATTTTTTATTTGATGTTAATATTTTCCAATCTGAAACCGCAGCTGTTAAAATAGCGGCATCTATTTTTTTATATTTCTTACAAATATTTAAACTTTGATCATACATTTCTTTTGCTGTTTGAACTTGAATTATTTTATTAGCGTTTGGTAATTCTATTGAAGATGGACCTGATATTAATATAGTTTCAGCTCCAAAATTACTAGCAACATTAGTAATTTCGTATCCTTGTTTTCCTGAGGATAAATTAGATATACATCTAATAGGATCAATCATTTCTATTGTTGGGCCGGCTGTTATTAATATTTTTTTGCCTTTTAATTTATTTCTGTTTAAAAAAAAATTATTTATTTCTTTTTTAATAATTTTTATATCTTGTATTCTTCCCATACCTATTTCACCACATGCTAAGTTACCACTTATAGGACCTATAATTTTTATTCCTCTAGAAATTAATTTTGCTATATTTTCTTTATTTGCTTTATTTTCCCACATTTTTTTATTCATAGCAGGTACTACAAAAATTTTTTTATCAGATGCTGCTAAAGTTGTAGATGCTAAGTCATCAGCGTAGCCATTAGCTAATTTTGCTATAATATTGGCACTTGCTGGACAAACTAAAATTAAATCAGTTTTTCTTGATAAATTTATATGTTTCATATCATTTTTAATATTTTCATCAAATGTATTTGTATGTATTTTTTTATTTATTAATGAGGAAATAGTTAAAGGAGTTACAAATTTTTTTCCATATTTTGTTAAAATTACTTCTATAGAAAAATCTTTTTTAATTAAATCTTTTATTAGATCTAAAGATTTGTATGCGGAAATACTTCCAGATATTATAAATAATATTTTTTTCAAAATTATAATTTACTAAATAAAAATGTAAATTATATCATTAAATTAAAAAAACTAAAGATGCCTTTATTTTTTTTTACAGGAATAGATAGCTACTACCCCAAATGTTAAATTATGAAAATTAACAAATTTAAATTTTTTTGATTTTAATATTTTAACTAATTCTTCTTGTGAAGGAAATTTTTTTATGCTATCAACTAAATATTCGTAGGCATATTTTTTTCCAGTAATTTTTTCACCAATTTCTGGGATAATATTTTCAGAGTATATTTTGTAAATTGAATTGATTGCTAAATTATCTATTTTGCCAAATTCTAGACATAAAAATTGACCACTAACTTTCAAAACTCTATTAATTTCACTTAAAGTTTTTTTTAAATTTGATACATTTCTTAAACTAAAAGACATTGTAATTAAATCAAAACTATTATTTTTAAATGGAAGATTTTCACCATAAGCATTAATCCATTTATTTTTTTTTTTTTTAATTTTTTTTTGACCTTCTTTTATCATATTTATGTTTGGGTCAACTAAATATGAAATATAATTTGAAAATTTATTTGAAGTATCTATTTCTGAAACTATATCTCCTGTGCCACAACCTAAATCTAGTAATTTAATATCCTTCTTTTTTAAATCTATATGTTTGATAAATTTTTTTTTCCATTTTCTATGAATCCCAAAACTCATTATATCATTCATTAAATCGTATTTATTTGCTATGTTATGGAAAATTTTATTTACATAATCTTTTTTCATTTTTTTAATTTAAAATTTTAATTTTTAATTTTAAAACAAATTTATGCCAGAATTACCGGAAGTAGAAACAACAATAAACGAATTAAAATTAATTATTATTAATAAATATATAGATAAAATATTAGTTTTTACAGATTCTTTAAGATTTCCAATAAATAAAAATAATTTAAAAAAAGTTGAAAAAAGTAAAATTATTAAAGTTTTGAGAAGAGGAAAATACATTTTAATTTTTTTTCTTAATAATTATACATTATTAATACATTTAGGCATGTCTGGAAGATTAATTTTTAAAAAAAAAATTATTAAAAAAAATAAACATGATCATATAATTCTCAGATTTAAAAAGAATTTAAATATTATTTTTAATGATCCAAGAAAATTTGGAATCGTAGATGTAATTAAAAAAAATTCATTATTTAATTCTAGTTATTTAAAAAAACTTGGAATAGAACCTTTATCAAAAAAATTTTCCTGTAAAGCTTTTGAAAAAATATTAATTAACAAAAAAACAAATATAAAAAATATTCTTTTAAACCAATCACTTATTGCTGGTTTAGGAAATATTTATGCTTGTGAAAGTTTATTTGAGGCCGGAATTTCACCATTAAAATTGGCAAATTCATTAAATAAGAAAAATATTAAAATTTTAAAATTAAAAATAAAAAAAATTTTAAAAAAAAGTATTAAATCAAATGGTTCTTCTATAAATGATTATAAAACTCCAACAGGTTCTTTAGGAAATTTTCAAAATAATTTTAAAGTTTATAATCGAGAAGGAAAAAAATGTAAAAATTTTAATTGCAAAAAAAAAATATTAAGAGTAGTTATAGGTGGAAGATCTACTTATTATTGTAGAAATTGTCAAAAAAATTAAAAAATATTGAACTATTTATTTTTTTTTATTATAACTTTAGTTATTTTTATATATTTATAATATGCCAATTACAAAATCAGTAAAAAAAAGAGTTAGACAGGCCAATACTAGATATGAAAGAAATAAAGCTTTATCAATTGTTCTAAAAAAAACTATAAAAGAATTTTTAGATTCTTTAACTAAAAAAGATAAAAAGAAATCTACAGATCTTTTTAAATCATGCCAAAAAATCATAATTAAAGCTCAAAACAAGGGGATTTTTAATAAAAACAAAGCATCCAGAAAAATTTCTTCATTAAATACTAAATTAAAGTAAAAAAGGTTCATTTTAATGGCTGTTGCTATTTGGCAACACTAATATTTTAATTCAATTTTTTCTTAATTATAATTTTAGAAATAAAATTAATAAAATATAATTGTACATGAGTAATTGTGTCGGGGGACATCTTATTATCTAAGAATAATTTATATTAAATTCTTTTAATAAAGAATAATATATGGAAAAAAATAGTAATATTAAAAAAACTATAGGTCCGGATGAGATAATTTGGTCTAGTATAAAAATAAAACTAAAATCATTGTATGGAGATGCTGAATTTTCTAATTGGATTAAGTTATTAACATTTAATAAAGCAAAAAATGATGTAATAATTTTTTATGCACCCACAAAGTTTATGTGTGATTGGATACTTTCACATTATGGAAAAAAAATTTTATCTTTGTGGAATGAACAAAATAAATCAATAAAAGATATTTCTATAATAGTCTACGATAATGATTCTAAAAATAAAAAATTAGAAAAAACTGTAAAAAATAATAAAGCATCTAAGCTTATAATAAATAATGAAGAATTCGAAAATAATTTAGATCCAAGATTTACATTTAAAGATTTTGTTGTAGGAAAATCTAATGAACTTGCTTTTTCAGCTGCAAGAAGAGTTGCGGATTCTAACGATGTTCCATTTAATCCTTTATTTTTATATGGTGGTGTAGGTTTAGGAAAAACACATTTAATGCACGCAATTGCATGGCAAAAGAAAAAAACAAATCCAAAATTAAAAATTTTATATCTATCTGCTGAAAAATTTATGTATGAATTTATTAAAGCACTTAGATTTAAAAATACAGTTTTGTTTAAAGAGCAATTTAGGTCTGTTGATTTATTAATGATTGATGATGTACAATTTATTATTGGTAAAGATTCTACGCAGGAAGAATTTTTTCATACTTTTAATGCTCTAGCTGATCAAAATAGACAAATGGTAATTTCAGCTGATCATTCCCCATCAGATTTAGAAGGTTTAGAAGAAAGATTAAGATCAAGATTAGGCTGGGGGCTAGTCGCTGATATTCATCCAACAACATATGAATTAAGATTAAGTATCATAGAATCGAAAATCGAAAAATATAATTTACAATTATCAAAAGATGTTATTGAATTTTTAGCTCATAAAATAACAACAAGTGTTCGTGAACTTGAAGGAGCTCTTACAAGATTAGCTGCCCATGTTACGTTAGTGGGTAGATCTGTTGATTTAGAAATTGCTGAAGATTTATTACAAGATTTATTAAGAGCCAGTGATAGACGGGCAACTATAGATCAAATACAAAAAAAAGTAGCAGAACATTTTAATGTTAAATTGTCAGATATGCATTCTGCAAGGAGATCTAGAACTATTGCAAGACCAAGACAAATTGCAATGTATTTAGCTAAAAATTTAACTACTAGATCTTTGCCAGAAATTGGAAGAAAATTTGGTGGAAGAGATCATACAACAGTAATTCATGCAATAAAAAAAATACAAGAATTAACAAAAAATGATTCTAATTTAGCTGAAGATATTGAAATTTTAACTAGATCATTACAAAGTTAATTTTTTTTAAAAAAAAATTGTTATATAATTAGGTTTTATTAATGAAATTAAAATTAACAAAATCAAATTTTGTCAAATCATTATCTTTTGTTCAAAATATTGTTGAAAGTAAAACTACAATTCCAATTTTAGCTAATGTTTTACTTGAAGCAAAACAGGGACGATTACATGTTTCTGCAACTGATATGGATATTACATTGTTTGATAAAATAAAATTAAACAATATAGAATCTGAAGGATCAACTAGCGTACCTGCACATACTTTATATAATGTTATTAAAGAATTATCAGATGATGATCCTATTGAATTAAGTTATGATAAAAATAATAGAAAATTACATTTACTTTCTTCAAAGTCGAAAGTTGTTTTTTCTGGTTTGGCTAAAGAAGAATTTCCAGTTTTAGCAACTGAAAATTTTAATATTAATTTTGAATTAAAATCTGATCTTTTAAAAGAAATAATTGATAAAACATATTTTGCTATTTCAAATGAAGAGACAAGGTACTATTTAAATGGACTTTATTTACATATAGCAAATATCAATAGTAAAATTTTTTTAAGAACAGTTGCTACAGATGGTCATCGTTTAGCACAGTTTCAAATTAATGCACCTCAAACAATTGGTAAAAATAATTTTGGTGTAATTGTTCCAAAAAAATTGATTTTTGAAATAAGAAAATTAATAGATGATATAAATGATAATATCAAAATTGATTTGTCTGAAAGAAAGATAAGATTTTCTTTTAAAGAGACTGTGATTGTATCAAAATTAATTGATGGGAAATTTCCGGATTATGAAAAAGTTATACCTAAAAATACAAGTAATAGTTTTTCGATTAACCGAAAAAAATTTTTAGAATCAATAAATAGGATATCTACAATTTCTTCTGAAAAATCTAAAGCTATTAAATTAAATTTAAATAAAGATAAATTAACAGTCTCAGCAAATAATTTAGAAGAAGGAGGAAGCGGTATTGAAGAAATATCTATAAAATATAATGGTCCTACATTAGATATAGGGTTTAATGCTATATATTTAAAAGAAATTATAAATCAATTTTCTTCTGAGGAAGTTATAATATTATTTTCAGATTCAACTGCTCCTACAATTGTTAAAGATAATTCAAAGTCAGAAAGCCTCTATGTTTTGATGCCTATGCGAGTATAATTCTTTTATGAAAATAAGATCTCTTTATTTAGAAAATTTCAGATCTTATGAAAAATTAAATCTAAAAATAAAAGATAATAGATTTGTTATTTTAACTGGTAAGAATGGAGTTGGAAAAACAAATTTACTAGAAGCAATATCATTTTTATCGCCTGGAAAAGGTTTTAAAAATTGTAATATTGAAGAAGTAGTAAGAAGTAATTTAGATATACAAAAAAGTAATATTTTTTTTGTTTTAAGCGATGGTAAAGAAAAAAATGAAATTGGAATAGAATTTATAAAAGAAAAATTTCTTAAAGAAAAAAAAGGAAAAAAAATAATTTTTTTAAATGGTAAAAAAATACAAAAACAAACTTTTTTACCAAATATAATTTCAATAATATGGTTAACACCAGAAATGGATATTTTTTTTAGAACAAGCTCTTTAATTAGGAGAAAATTCTTAGATAGATGTATTTTTAATTTATCACCTCAATATTTAGAATATTTAAAACTTTATGATAAAAATGTTAAAGAAAGAAATAAAATTCTTAAAGACATAGCAAAAAAAGATTTATTTTATATTTTAGGAAAGTATAAAGAAAAAGATTTATGGCTAAAAAAAATCGAAGAAAAAATAGTTGAAATAAGTTTAAAGATTTTTTCGAATAGAAATAAATTTATAAATGATTTTAATTCTTTATCAAATAATTTTAAAAATTTTCCAAAAATAAGAATTTTTTTAAAAGGAAAAATAGAAGATTTATTAATTACAAAAAATGATGAAAAAAATAAAAAAATTTTTTTAGATAAATTAATAAGTTGTAGAAAAATTGATTCTATAAAAAGAAGTATTTCTTATGGTCCAAGTAAAAGTGATTTAAAAGTCTTATTTTTGCAAAAAAAAAAATTAGCTGATAAATGTTCAACTGGAGAGCAAAAAATTTTATTAATATCTTTAATAATACAATTTTGTAAATTAATGAATGAAAAAAAAAGTTTTCCTATATTATTACTAGATGAAATTGTCGCTCATTTAGACGAAAAAGTTAAAGAAAGTCTTTTTGAAGAATTAAAAAGTTTAAAAAACCAAGTTTGGATGACGGGTGCAGAAGTAAGTTTTTTTGTATCAATAATAAAAAGTCAAAATGTCATAAATTTAAAAATTGAAGATTATATAAAACAATAATAGAATATAAATATGGTTAAATCTAAAGAGAATTTAAAAAAAAAAAACAAAAATAAAGCAGATTCAATTAAAGTTTTAAAAGGATTAGAAGCAGTAAAAAAAAGACCAGGAATGTATATCGGAGATACAGAAGATGGTTCCGGTTTACACCATATGGTTTATGAAGTTGTTGATAATTCAATAGATGAAGCTTTAGCAGGTCATTGTAAAAAAATTGATATAAATTTAAATCCCGATGGTTCTGTTACAGTTAAAGATGATGGAAGAGGGATTCCTGTTGATATTCATCCACAAGAAAAAATTTCTGCAGCAGAAGTAATTATGACACAATTGCATGCGGGGGGTAAATTTGATCATAATTCTTATAAAGTTTCAGGAGGATTACACGGAGTTGGTGTATCAGTAGTAAATGCATTATCTGAAAAATTGAAATTAGAAATTAATCGTGATGGAAATTCATATTTTATGGAATTTAAAAATGGTGATTCTTTAAAACCATTAAAAAAAATTGGTAAAAACAAGGGTGAATCAGGAACAGAAATAACTTTTTATCCATCAAAAGATATTTTTAAATCAATTAATTTTGATTTTAAAAAATTAGAAGATAGATTTAGAGAATTAGCATTTCTTAATTCTGGAATTGAAATAGAAATTTCTGACGATAGATCTGCTGAAAAAAAAATATCAAAATTACATTTTAAAGGTGGTATCGAGTCTTTTGTAAAATTTTTAGATAAATCAAAAGAAAATTTTCTTTCTAAACCAATTACTTTCACAGAAAAAAAAGGAGATTTGATTGTTGATGTTTCTATTATTTGGAATACAGGTTATTACGAAAATATGCTTTGTTTTACTAATAATATTCCACAAATAGATGGAGGAACGCACTTAGCGGGATTCAGATCTTCATTAACTAGGGTAGTAAATAAATTTGCAAATGAGTCTAAAATTTTAGAAAAAAATAAAATTAATTTAACAGGAGAAGATTGTAGGGAAGGTATGACCTGTGTATTATCCGTCAAGATGCCAGACCCTAAATTTGCTAGTCAAACTAAACATAAATTAGTATCTTCTGAAATTAGACCTGTTGTTGAATCAGCAGTTAATTCTGGTTTAGAGCAATGGTTAGAAGAAAATCCAAAAGATACTAAATTAATATTAACAAAAATTTCTGAGTCAGCACAAGCAAGAGAAGCAGCAAGAAAAGCTAAAGAATTAACTAGACGAAAAGGAATTTTAGATTTTGGTAGTTTGCCTGGTAAATTAGCTGATTGCCAAGAAAAAGATCCATCAAAATGTGAACTTTTTATTGTTGAGGGAGATTCTGCTGGAGGCTCGGCCAAGCAAGGAAGAGATAGAAAACATCAAGCGGTACTTCCTTTAAAGGGAAAGATTTTAAATGTAGAAAAGGAAGCAAGAGCTGATCGTTTTTTAGGATCAGATGAAATTGGAGCTTTAATAAGCGCTATAGGAACTGGTATTGGAAATGAAGAATATAATTATGATAATATTAGATATCATAAAATTATTTTAATGACTGATGCAGATGTTGATGGAAGTCATATAAGAACTTTATTACTAACATTTTTTTTTAGACAATTTAAAGATTTAATTATAAAAGGAAATTTGTATATAGCTCAACCTCCTTTGTATAAAATAAAAGTTTCTGGACAGGGACAACAGTATTTAAAAAATGAAGAAGCTATGACGCAATTTTTGATAAATAATGCAATTAAAAATATAAAATTAAAAACAAGAAACAAAAAAGTATATAAAGATAATGAATTAAGCTCTTTTATTAAAAAAACTATTAAAATTAGAGATACAATTTCAGAGCTTGGAGACAAAATAGGATCCGTTGAACTTGTTGAACGAGCAGCTGCAAATGAGTTTTTTCATAGCGCTATAAGAAATTTTAAATTAACGCAAAAAAATATGGAAAAAGTGGCTATACATATAGTAAAAGCTCTTAATACATCTTCAAATGTTTCAGAGTGGCAAGGTAATTTTATTAATGATAAAGATACTAAAGAAAAATATTTTTTATTTAAAAAAGAATCTAGAGGTGTGACAGATGAATTTAAAATTACAGAAAAAATTATAAAAGATTCGCCAGAAGCAGAAGTACTTGGTGATAAGGATAATAGAATATTTTTAGAAAATCTTTTACATAAAGGTGAATCTTCAATCACTATTGATGAAAAATCTTTTTCTATAAATACGATTAATGATTTTTTAGATAGGGTTAGAGAAGCAGGAAAAAAAGGTGTTAATGTTCAAAGATATAAAGGTTTGGGAGAAATGAATCCTGAACAATTGTGGGAAACGACTTTAGATCCTGAAAAAAGGACTTTATTAAAAGTACAAATGGAAGATGAAAATACTCTTGATGAAACTTTTGTGAAATTAATGGGTGAAAAAGTTGAACCAAGAAGAATTTATATTCAAGATAATGCAAAAAAAGTTGTTAATTTAGATATTTAATAATAATTAAAATGTTAAAAAGAATATTTTTCTTTATTTTTTTCATTAATTTTTTTGTATTTTCTATTATTTTGGCTGAACAAGATCCTAATATTTCACTAGAAGATGATGCGAGAGAAAAGCAACTTGGTTTTGAACATAAATATAGAGATTCTGAAAATGTTATTAATCAAAAATTAATTAGATATATTGAACTTAATCAATTAGATAAAATAAAAATTCATATAAAAGAAAATGGAAAAAATTTAAATTTTCAAGTTAAAGGACTTAACCCTTTTGTTCATGCTGCAACTATGAACAAAATTTCTATATTAAAATTTTTTTTAAAAGAAGCAAAGATTGATGTGAATCATGAAGATTCATTAGGTAATACTGCATTATTAAAATCAAGTGAGAAAGGATATTTAGAAATCACTGAATTTTTAATTAATTCTGGTTCTAATGTTAATCATCAAAATAAACAAGGTATGACAGCTGCTATGAAAGCAGCAGAAAATGATCATTATTATATATTGAAGATGTTAATGGAATATAATATAGATAAAAATAAATCTGATTATTCAGGAAGAACACTTCAAGAAATTGCAGAAAATAGTAGAGATAAAAGATTATTAAAATTATTAAATTAAAGATTATTTAATTTTTTTATGGCCTAAAACAAATAATGCTATTGTTAATACAAAAATAATAGGACCTGTGTTTATTTCTTCGTTACCGAATTTAATAAAAAAAATTGGATTATAAATAATAGCAATACCTGCAAAAATTGAAGCATAAATATTATCTTTTTCATCAAAATAAAATTTGTAAGTCAAAACTAAAGCACTAATAAATAGATATATTCTAAGTATCGCAAAATATACATCTGGTACCGGGAGAAGACCAATTAAAAGTAAAATTCCAGGTACAATAAAAAAATAAGTTTGCGCATCTAGATTTAAAAGTTTTAAACAGTATTTTTTTAATATTGAAAAATATTGATTAATATCATTAATATTGAATTTTTTATTATTTTCTTTTTTTTCACTCATAGAAATATATAGTTTTATTTTTTATACTACCTAACTAATAATACTTATATTATATAATATTTTTAATCTTTATGAAAAAAAAAATAGATTTAAATACATTATTTCGATCAGAAGTAAATAATCATATTTTGAATGCTAATATTTTTTTAAAGGAAAACTTTAATGATTTTAGAAAATTTATGCAAATTGTAATTTTAAGTTTAAAAAAAGGAAATAAAATTATATTATTTGGTAATGGAGGGAGTGCATCTGATGCTCAACATATTGCAGCAGAATTAGTTGTAAAATATAAAAAAAAAAGAAAATCAATACCTGCTATATCATTGGCCACTGATACTTCTGCATTAACTGCAATTGGTAATGATTTTACATTTAATGAAATATATTCAAGGCAAATTGAATCTATTGGAAATAAAGGAGATATTGCAATTGGTATAACAACTTCAGGTAAAAGTGAAAATATATTAAAAGGATTAGAATTAGCAAAAAAGAAAAAATTAAAAACGATAATTTTAACTAAAAAAAATTATCCAAATAAAAGTAAAATACAAAAAATATCTGATTTAATTATAAGTGTACCAGGTAATGAAACAGCGAGAATTCAAGAATTACATATCTTAGTTGGACATTTAATGTGTGCAGTAATAGATGAAAATTTTTAGCTAATAAAATGTCTGAAAATATATCAACAAATATTTTATCTCTACTAAATAAAAAAATTTTTTGTTTAGGAGATTTAATGTTAGACAATTATATTTTAGGTAATACTGAACGTATATCTCCTGAAGGCCCTATTCCTGTTTTAAATATTAAAAATAAAGTTGAAATGTTAGGTGGCGTTGGAAACGTTGTTAGAAATTTGAGTACATTAGCTACAAATACTCATTTAGTAAGTATTACTGGAAATGATAATATAGCTAAGAAAGTTGAAAAAAAATTAGATCAAATAAATTGTTTTAAACAAATTATTAAAGATAAAAATCGACCTACTACTACTAAATCTCGGTTTATTGCGAATAATCAACAAATTTTGAGAGTTGATCATGAGGATGTTAGTAAAATTAGTAAAAATATAGAAGAAAAAATATATTCATATTCAAAAAAAAAATTTTAAAAACTGATGCCATAATAATTTCAGATTATAAAAAAGGATTAATTACAAGTGATTTATTAAGAAAAATAATAAGTTTTTCAAAAAAAAATAATAAACCAATTGTCTTAGATCCAAAAAGTTCAAATTATGAGAAATATAAAGGAGTAACCATAATCACACCAAATATTAATGAATTAGAATTAGTTTTAAAAAGAAAATTTCTTAATAATAATGATATAATTTCTGCTTCCAAAAATTTAATTTCAAAATTTAAATTTAAATATGTTTTAGTCACTATGGGAAAATCAGGAATGATTTTAGTTTCTAGTAAAAAAAGTATTAAATTGAATGCAGAAGCACAAGAGATCTTCGATGTTTCTGGTGCCGGAGATACTGTAGTTTCTTTTATAGCCGCAGGTTTAGCAAGTTCATTAAAAATTGAAAATATAGTAAAAATAGCAAATATTGCTGCTGGAGTTGTTGTTAATAAGACTGGTACATCAGTAGCCCATTTATCAGAAGTTTTATTATCAGTTAATAAAAATGATTATCATTTATCAAAGGTAATGAAAATTAGTGAAGCTATAAATACTATTAATTTTTGGAAAAAAAAAAAAGAAATTATAGGTTTTACTAATGGTTGTTTTGATTATCTTCATCCAGGTCATATTTCTTTATTCAACCAAGCAAAAAAGAGGTGTTCTAAATTAATTGTTGCTATTAATTCAGATTTATCGATTAAACTTAATAAAGGCCCAACAAGGCCAAAACAAAAATTAAATAAAAGATTGCAAGTATTAAATTCAATACCTTTTATTGATTTAATTATTGTTTTTTCTAGCAAAACTCCTTTGGAAATTATAAAAAAAATAAAGCCAAAATATTTAATTAAGGGTGCAGATTACAAAGAGAATCAAATTATTGGTGCACAAGAAGTAAAAAAAGATGGTGGAAAAATTATAAGAGCAAAAATCTTAGATAATTTTAGCTCATCGGTAATTATTGAAGAGGTATTAGATACAAGTTTTTAAAAATTAATTTTTTCAAAAAAATTATTTTTTTTTAAAAATAAATTAATTTCTTTTTTTGATTTAAAAGTTTTATAAGCTAAACATAATTTAGCATAGGCAGTTTCAACAGTTACATCTTCTATACATATAGCACCTAAATTTTTTAATGTTTTTAAAGTTTTGTAAATATTTTTATTTTTGCTTGAAATTGGCGTCATATAAAAAGATAATTTATTTTTATATATTTTGATAAAATATTTAAATGAAGTATTAAATTTAAAGTTCTTTTTAGTACTTGCAGTTCCTGAATGATATAAAGTTTGTAAAATTACTTTTGGCGTTTCTTTTTTAAAATTAAAATAATTATAATTCAATCCTGGAAATGGATTTATAATTAATATTTTATTTGAAAATCTAAAATTTTTGTTAAGTTCTTTTTTTTTACAATTATTTTTTATAGCTTGAAATGATGGGTTTCGTTTCTTATTAAAAAAAAATTTTTTATTTTTAAAATAGCAAAAGAAACTACTTATTTTTGAATTTAATTTATTATCAAAACTATTGATTTGATTTACTCTACTACCTAAAAAAATTGAAACAAAATTTTTCTTTGGATTTTTATATGCAACATATGTACCTGGTAATTTAATCTTTATGATAAAATTTATAGCTGCATCTAAATTATTTCTCCCATTTGCCGACTTTTCATTGAATGGTTTGTCACTGCTTACAAATAAAATTGGTTTAAAAAAATTGAAAAAATATTGAGATATAGCAGAAGCAGTATAAGAAAGTGTATCTGTCCCATGTGTTATAATAATTCCCAAAAAATCATTTTCCCAATTTTTTTCAATACATTTTATTATTTCATTCCAATTTTCAGGAACAGCATTTTCGCTAAGAATATTAATAGGTTGAACAATTTTATAATTTATACCATTATTATTATCTTTAAGAAATTTTTTTAGATAATTATTTTTCGAAACATTAATTATATTTTTTTTTTTTACTTCCTATTGTTCCACCAGTTAATATTATTAATATTTTATTCATAAAAGTATTATAGAATATTTAATTATGAAAAAAATATATCGATTATATATAATTTTTTTTCTTTTTTTTGTTTGTAGCTGTTCTTCATTTAATACAGAACCTAAATATACTATAAGAACGTTTAATGAGGAAAAACCAAGAATATTGTTAATGCCGATAGATATAGAAATTTGCGAATTAACTTTAGCAGGTATGTGTGAACCTAAAGCCTCTTGGACACAAATGTCAAAAAAAAATATTATTTTAAGTTTTAAGGATATTTTAAATTTAAGAAATGCTTCTTTAAAAGAATATAATGTAAAAGAGCAAAATGATGAGTTTAATCAAATAATTAAACTTCATACTCAAATGGGTCAAGAAATAATTAATAATGAATATGGTAATTTTAAACTTCCGACAAAAGAAAATTTCAATTGGTCTCTAGGTAAGAATGTAAAACTTTTGAAAAAAAAATATAATAGTGATTTTGCGCTTTTTATTTTTTTTAGAGATCAATATTCAAGCACAAAAAGGGTTATATATAATGTTGTTACCGCAATATTATTTCCAGGAATTATACCAATTGGTGGATCCCAATTAGCATTTGCAAGTTTAGTTAATTTAAATAATGGAGAAGTTACTTGGTTTAATGGATATTACAGGTCTTTTGGTGATGTTAGAGATTTAGAAAAAGCAAAGGATACTATAAATACACTTTTTGAGGATTTTCCAGGATGAATAAAATATTTATTATTATATTTTTTATCTTAAGTAATTGCGCCTCACCTATTGGCGGGGTAAAAGATATCGAAGATATAAAACCTCAGGAAAAACCATCATTAGAATCAATAGAAGCTGGATTGTGGATGCAAATGAACAACTATGAAAAAAAATTAAAAACTTCTGGTTCAAGATTTAATGATAAAAATTTGGAAAAATATTTAAAAAATATTTTGTGTAAATTAACCGAAGACTATTGTAAGGATATTAGAGTTTATATTCAAGATATCCCATATTTTAATGCTTTTATGGCACCTAATGGTATGATGGTTGTATGGACTGGTTTACTTTTAAGAGCACAAAACGAAGCCCAACTTGCTGCAGTTATAGGTCACGAAGCTGGCCATTACATAAAAAGACATTCTCTTAAAACTTGGTTAGACGCTAAAACTAGAACAGATTTAATGGTAATGCTTTCCATAGGTCTTGCACTAGGAGGAATTCCAGCTAGTGGTGATATTTTTAATTTAACTCAATTATTCCAAGCCGGATTTATGGCTAAACATAGTCGTGATAATGAAAGAGAAGCAGATAAAATTGGTTTAGATTTATTGATTAAAGCTGGATATGATCCTCAAGAAGTTCCAAAGATATGGGAAAATGTTATTAGAGAAATGGAACTAGGTGAAGGAATTAGACCTTTGTCTTTTTTAGCTTCTCATCCAGCTCCAAGTGAAAGAATTGAAAATTTAAAAGAACAAACAAAAGAATATAAAGATAAAAAAAATATAAAAAATAAAGATAAATTATTAAAAAAAATTGAACCTCACATAAATAATTGGATAAAAAATG
>sequence16
AAAATAATAAAAATTTAAAAAAAAAAATGCTGATATTGTACTTAACAAATTAAATAAGGAAAATTATGAGAAATTTAAGAAAATTAGTAATTTATCAAAAAAAAAATAGTTTAATTTTTTAAATTTTAATATAGTGTATATGAGTTTTTATGAATAAAGAAAAAATACAATCAAAAAAAAATAAAGATTCCTCTAGTGGAAAAAAAAAAGTTTCTGTTATAGATTTAATAAGAAAAGATAAGTATATTCCGCAATTTAAAAGCCTTATTGAAGAAACAAAAAAAATTGGAAAAATTTCATTTACAAAAATAAAAAAATTTTTTGATCCAGATATTATTAATTCTCCTGATTTTGAGACAGTATTAAATTTCTTGAAAATACAAGGTATTATCTTAAAAAGAAGAAATAGAGGCCCTAATAATTCGAATTCTAATTTAATTAAAAAACAAAAAAAATTAGCCAAAAAGCTTCTAAAAGGAGAAGCAAGAACAAGTGATCCTGTAAGAATGTATCTAAAGGAAATGGGATCTGTTGATTTACTTACAAGACAAGGAGAAGTTGATTTATCTATAAAAATTGAAAAAGGGAAAGAAAAAATTCTAAGAGCAATTTATGAATTTCCATTTGTATATGAATATTTTTCAATTTTAAAAAAAAAAATACAGGACAAAGAAGTTTTTTTAAGACACATAGTTGATTTAGAAAAGTTTTATACAACGTATATTAGTAAAAAGATACCAATTACCATTGACGATGCTTCGTTAAATGAAGAAGCAGCAAAAGCAGAGGAAAATATTAATGAAAATAATAATGAAGATGATGAAAAATTAAAATCAAAAGATCAAAAAAAAAATAATTTAAAAGAAGAAAAACACATAGATGAAGAAAATTTTACTATTTCATTTATGGAATCTAAAATTGAAAACAAAATTTTTAATATTTTAGATAAATTAGGAGTACAATACCATAAATTTAAATCATTAATAATAGAAAAAAAAGATTTAATAAATAAAAATAAAGAATTTACAGCAGCTAAATTTAAAAATTATGAGTCTATTAAAAAAAAGTTAGTTTCTTATTTAGAAAAATTGTGTTTGAGTGAAGATTGTATAAATTTTTTTATTTTAAAAATTAATGAAATAAATAAATTATTAATTGTACCACAGGGAAATATATTAAAATTAGCTCAAAAAAATGGAATAGATAGAAAAGATTTTATAAAAGCATATGAAAAAAACGAATTAAATCCATACTGGTCAAAGAAACAATCAAAGGAAAGTGAACCATGGAAAAAATTTTTTAAAAATTGTTCAAAAGAAATAAAACAATCAAATACTGAATTAAATAAAATTTCAAATGATTATAAGCTCGCGATTTCTGAATTAAAACATTTGGGTAACGAAATAAGTTCAGGAAAATATATATCTGAAACAGCAAAAAAACAAATGATTGAAGCAAATTTACGTTTGGTTATTTCTATTGCAAAAAAATATACAAATAGAGGTTTACAATTTTTAGATCTAATACAAGAAGGTAATATCGGATTAATGAAAGCTGTAGATAAATTTGAATATAAAAGGGGTTATAAATTTTCAACTTATGCAACATGGTGGATTAGACAAGCAATTACTCGGTCAATAGCAGATCAAGCTAGAACTATAAGAATTCCTGTTCATATGATAGAAACTATTAATAAAATTATTAGAACTTCAAGAATAATGCTTCATGAAATTGGTAGAGAGCCTACACCTGAAGAATTATCAACTAAATTATCAATTCCTCTAGAAAAAATAAGAAAAGTAATGAAAATTGCTAGAGAACCAGTAAGTTTTGAAACGCCTGTTGGTGATGATGATGATAGTTTTTTAGGTGATTTTATTGAAGATAAAAATACTGTAGTTCCAGGTGAGGCTGCAATTAATACTAATTTAAGAGAAACAACAACAAGAGTTTTATCAAGTTTAACACCTAGAGAAGAAAGAGTTTTAAGAATGAGATTCGGAATTGGAGTTAATACGGATCATACTTTAGAAGAAGTAGGTCAACAATTTACTGTTACTAGAGAACGTATAAGACAAATTGAAGCCAAAGCTTTAAGAAAACTTAAGCATCCAAGCAGATCAAAACAATTAAAAAGTTTTCTTGATAAGAGTTAATAAACCTTGTTAAATAAATAAATGTTTGAATTGGGCCTGTAGTTCAGTTGGTTAGAACACGCCGCTCATAACGGTGATGTCGCAGGTTCGAATCCTGCCGGGCCCACCAAAAAAAAAGAAAATTATATTTTTTCTTTTAATAAAGAAATAAGACTATCAATTTTTCCATTATTTTGTTCAATAACAGAAACAAATTCAGACCTTTGAGTTACTGCTAAACTGATTCCTTCAATAACTATATCTAGAATTACAAACTTATCCTTTTTTTTTCCAACTCTCCAATTTATTTTAATTAAAGGAGCATCAGGTGTCTCTAAAACAGTATAAACTAAGAAAAGTTTAGGATTTGATTCATTTTCAAATTTTACTAATTTTAAATTTTGACCTGAATAATCGTTAAATCTTGTTGAATATGTTTTTACAATATAATTCCTAAAAGTTTTTATAAATTCTTTTTTTTGATCTAAAGAAGCACTTTTCCAATATTTTCCTAAGACAAATCTAGAAATTGATGGAATATCAAAATTGTTATCAAATAATTCTCCAAATTTTTCTTCTTTTTCTTCCGATGATACAGAAGAATTTGTTAAATTTTTGATAGCATTGAGAGTCATATTCATTATGAAAGTACCAGGGTCATTAGCAGCAAATAATTTATTATTAGAAGAATTACTAGAAAAAATAAAAAAAGTTGAGCAAATTATTATTAAAATAAGTTTTTTAATCAACATTTTTAATTATTTAAATAGGATCTGTAGTCTTGAACTTTGTCAGTTTCAATTTCATCGGTTCTTTTTTGTAAAAACATTGAACGAATTGATGAATAAAAATCTAATGATGTGCTTTCCATTTCTTCTAAAACACCAAGAGTTGATTGTCTATCATCTACAGCTGTTCCTGCAGTTTTAACTAAATTACCCCAAAGTGGTATTCCACCAATTAAAATTAAAGGATCTGTAAATATATCACCTACAAATCCAACAATATCTCTTGAGGTTTGAGGACCTTTAAATGGTACTTGAACATAATTACTTTTTTTCCATCCCCACACTCCTAATGTATCGCCAAAATTTTCTGGTCTTTTTTCTATACCCATTTTACTAGCAACATCTATAAATCCACCTAAACCAATGGTAGAATTTATAACCAATCTTGCAATTGTTGAAAATGCACCATCAATTTTTCCTTGTAAAGTATTGTTGACAAAATATTGAGGTGTTTTAAAAAAATTTTCCATTGCATTTCCTAGACCTCTTCTGAATGGATCAGGAACAACATTAACATACCCTCTTGTTACCGGTCTAAAAAAAACTTTATCTAAACCTAAGTTAAAATCCCAAACTTCTCTATTGAAATTTTCTATAGGATCAACATCGCTATAATCTTTTTCTTTACCATAAGTTTGATTTAAATCGAAATCAGATTCAACAACAATAGGATCTTCAACTATTACGTTTTCATGATGTTCTGCAACAACAATATTGTAATTTAATGATAAAAATAATATTAAAGTTACAAAATATTTAAAAAAATACATTTAATTAGGTCCTAATAATTAAAATATACTATACTAGTTTTAAAAATATAAGGAATAAAAAAAAAAAGTTATTCACAGTTTAACTGTTAAAAAAAAATGAGACAAAAATTAAAAATTTCATTTGAATTTTTCCCTCCAAAAAATCTTTTAATGTATCAAAATCTATGGAAAACATTGAATAAATTAAAGATTTTTTATCCAGAATTTGTTTCAATTACTTATGGAGCTGGAGGAACAACAAGAAAAAGAACTCATGAAACAATAAAAAAATTTACTTACAGACCTTCTATAAGACCCATTCCTCATTTAACTTGTATAGGAGATACCAAAAAATCTATAAAAAAACTAGCAAGAGATTATTGGGATTTAGGAATTAGATCTATAGTTGTTATTAGAGGCGATCCTGAGAATATTAAATTATCTAAAAAAAGAAAATTTGTCACTTTTCCTAATGGTTATAAATATTCGAGTCAACTTGTTAGGGACTTAAAGGAAATAAAAAACTTTAATATTATAGTTGCAGCTTTTCCAGAAAAACATCCAGAATCAAAAAATATCGATGAAGATATTGATAATTTAAAGAGAAAAATTGATGCCGGAGCTAGTAAAGGGATTACACAATTTTTTTTTGATAATAATAAATTTTATGATTATAAAAATTTACTTGAAAAAAAAAATATAAAAATACCTATAATTCCAGGGATACTTCCTATAATAAATTTTGAAAAATTAGTGCATCTTGCTAAAAATTGCTCAGCTTCCATACCATTAAAAATACAGAAATTATATAAAAATAAAAATGATTTGTTTAATTTATCTGTAGATATTGCAACTAATCAATGTTTAGATTTAATAAAGAATGGGTTTAATGAAATTCATTTTTATACTTTAAATCGTGCAGATTTAACAGGTAAAATATGTTCTAATATAACTAAACGTAAATTATTTGATAAAACTTATGATGCTTTTTGGAGTTAGATATGAGTAATGATTTTTATTTGAATAAGTTAAATAAAAAACAAAAAGAAGCTGTTGAAACTTTAAAAGGACCCGTTCTTGTTTTAGCTGGAGCTGGAACAGGGAAAACTAGAGTTTTAACAACTAGATTAGCTCATTTATTAAATAAAAAATTAGCTCATCCTTGGGAAATACTAGCTGTTACTTTTACAAATAAAGCATCAAATGAAATGAAAGAAAGAGTCCAAAAGTTACTAAAAATTGATATTGAAAGAATGTGGATAGGGACTTTTCACTCACTAGGATTAAGGATTCTTAGAAAATATTCAGAATTATGCTCTCTGAAAAGTGATTTTACAGTGATTGATACTGATGATCAAATTAGATTAGTAAAGCAAATTTTAGAAACTAATAAAATGGATATTAAGAAATGGACACCTAATAATGTTCTTTGGATGATTCAGTGGTTTAAGGATAAAGGAATTTTACAAGAAGATTCAAATAAATTTAGATTTAAATTTGGAAAAAAAATTAATATATCAAAAATATATTCTCAATATCAAGAAAGATTAAAAATTTTAAATGCAGCTGATTTTGGTGATTTATTACTATTACCCGTAAAAATATTTCGTAACAATAAAGACGTTTTATTAAAATATCAAAATCAATTTAAGTATATATTAGTTGATGAATATCAAGACACTGATACTTGTCAGGATATATTTTTGAAATTTCTTTCAGAAAAATATAAAAATATTTGTTGCGTTGGTGATGATGACCAAGCTATTTATAGTTGGAGAGGTGCTGATGTAAAAAATATATTAAGCTTTCCTGAGGTTTTTAAAAATTCAAAAATTATAAGATTAGAACAAAATTATAGATCAACTAATCACATTTTATCTGGTGCTAGTAAGTTAATAGAAAATAATAAAGATAGATTAGGTAAAACTTTATGGACATAAAAATAAAATGGTGAAAAAATTCAAATTTCTTTTTTTGAAGATTGTAAGGATTAATCAAAAAATATATCAAATCAAATTGAAAAATTAAAATTAAAAAAAAAAAAATTAGATGAAATTGCTATTTTGGTAAGGGCTAGTTTTCAAACTAGATTATTCGAAGACAGATTATTGAAAATTGGAATTCCATATAGAGTAATTGGTGGTTTTCGATTTTATGAAAGGTTAGAAATTAGAGATGCTATAGCGTATTTTAGAGTTGTTTATAAAAATAATGATGATTTAGCGCTAGAAAGAATATTTAACACACCAAAAAGAGGATTAGGGTCTGTTACATTACAATTAATTTATAAATTTGCTAGAGAAACTAATATGTCATTATTAGATGCTTCTAAAAAAATTATACAAACTGACGAATTAACTCCGAATGCAAGAAATATTATTAAAAAATTTATTGAAGATATTAATATGTGGAAAACAAAAATAAGAAAAATGAACCACGTTAACTTGGCAAAAGTTATATTAGAAGAATCTGGATATACAAAAATGTGGCTACAGGATAAATCAATAGAAGCGCCAGGAAGATTAGAAAATTAAAAGGAATTAATTGGAGCTTTAGGTGATTTTGCTAATATGAATGAATTTTTAGAACATGTGTCTTTGGTAATGGAAAATGAACGTAATTATAAATTTGATATGGTTAATATTATGACTATGCACGCAGCAAAAGGTTTAGAATTTGAAAATATTTTTTTGGCTGGATGGGATGAAGGATTATTTCCTCATCAAAAATCATTGGAAGAAAAAGGAGATGCAGCTTTACAAGAAGAGCGAAGACTTGCATATGTTGGAATAACTAGAGGTAAAGAAAAAGTTAATATTTCATTTGCAAAAAGAAGATTTATTCATGGTAATTGGAACTTTAGTCAACCATCAAGATTTCTATCCGAAATACCAAAAGAGAATATAGATACTAAAGAAGATATTTTTTTTGAAGAAGAAGATTTAATAGTTGATCAAGAGACTTTTGAAAATGAAATTAATAATCCAAATCGCTTATTGTTTAAAAAAAAATTACAAAATAATGAAAATATATATGATTCTGATTATAAGTTTGAAATAGGAGACGAAATCTTTCATGAAAAATATGGATATGGGAAAATTAAATATATTGTTGATGGAAAATATGAAATAATTTTTGATAAATTAAATGAAACAAAAATTGTTTTAGAGAATTTTATTAAACACGCATAAAAGCCAAATAAATTGAAAGAAAGTATATCTTATAAAAATAAAATAAAAATTTTAAAAACTTTTTTAAGAAAAAGAGATTGTGATTATTATTTATTACCTAGAACTGATAAATTTATGAATGAATTTATTTTAGAGGAAGATGAAAGAGTTAAATGGTTAACTGGCTTTTCCGGATCTTTTGCTTTTGTAATAGTTTCATCAAAGAAAAATTTAATTTTTACTGATGGTAGATATATTAATCAAATTAAAAAAGAAGTTAATAAAGATCTTTTTAATATATTAGATATAAATAAAAAAGAACCATTTCAATGGTTAAAAGAAAACTTAAAAAAAAAAGAAAAAGTTATCGTAGATAGTTGGTTGTTTACTTCAAATAAATATAATTATTTAAAATCCATAATAAATAAAAAAAAGGGAAAACTTTCATTAAGTAATGAAATTTTAATAGATAAAATTTGGAAAAAAAAACCAAAAAGAACTAATAAAAATTTTTTTATACGAGATTTAAAATATGCTGGTATTTCATTTAAAAATAAAATAAATAAAATTAAAAAAAATTTTAAGGCAGAAAAAATTAATAATTTTTTTTTCTCTTCACCTGAGTCTATATCTTGGTTATTAAATATGAGAAGTAATCAAATAAAATATACTCCTGTAATTTTATCATTTTTATTATTAAGTCTTAATAAAAAAAGTTATTTTTTTTTTAATAAAAAATTAAATTTTAAAAAATATTTAACTTCAAAATTTGAAGTTTTCGATATAGCTGAATTAAAGAAAATTTTAATTAAATTTTCTGTTATTAATCATGAAATTTATTTAGATCCAAATAAAACTGCATACTTTATTGAAAATTTTTTTAAATCAATTGGAGTAGTTGTTAAATATTTCAAAGATCCCTGTGATAATCTTAAATTAATAAAAAATTCGACAGAAATAAAAGGATCAAGGAATGCTCATATAAGAGACGGAGCGTCAGTTTGTAAATTTTTATTTTGGCTTGATTCACAGATTAAAAGAAATAGAAAAGTTACAGAAATTTTAACATCAAAAAAATTATTTGATTTTAGAAAAAAAAATAAATTTTTTAAAAGTCTTAGTTTTGAAACAATTTCTGGTTTTGGATCAAATGGATCAATTATTCATTATAGAGTTTCAAAAAATACAAATAAAATTTTAAAAAAAAATAATTTATTTTTATTTGATTCTGGAGCTCAGTATTTAGACGGAACAACTGATATTACAAGAACTGTTGCTATTGGTTGTAACCCAACTAATGAACAGATAGATGTATTTACAAGAGTTTTAAAGGGAAATATAGAATTAACTAATTTTTCTTTTAATAAAAAAACTACAGGTAAAGAACTTGATAAAATTGCTAGAAAGTATTTAAGAAAAAAAAAATATGATTATTCTCATGGAACCGGTCATGGTGTAGGTAGCTATTTATCTGTTCATGAAGGATCAATTTCAATATCAAAAAAATCAAATACAACTTTTAGGGAAGGTATGTTTGTTACAAATGAACCAGGATTTTATAAAAAAAATGAGTACGGTATACGTATTGAAAATATTTTGTTGATTATAAAAGAAAAAAATATTTTAAGATTTGAGATTTTAACATATGCGCCTATAGATCTAAAGTTAATTGATGTTAAGTTATTGAATTTAAAAGAAAAAAAATGGATTAATTCATATCATTATAATGTTTTTAAAAAAGTTAATAAACTTTTAAATATAAATGAGAGAAAATGGTTAAAAAAAAATACTATGCCAATTTAATTTAAAAATTTTATCCATTCAGTTTCATTTAAAATTTTAATATTTAATTCTTTTGCTTTTTTTTCTTTTGATCCTGAGTCTTTTCCAGCAATAACATAATCTGTATTTTTTGAAACTGAGTTTGTTACTTTAGCACCCAATTCTTCAGCTTTAGATTTTGCTTCATTTCTACTCATTTTTTCCAACGTACCAGTAAAAACAATTATTTTTTCAGATAATTTTGAATTTTTATTTTTTAAAAATTTATATTCTTCTATTTTATCAAGAGCATTTTGTAATTTTTTTACAATTTCAATTTTTTCCTCGTCAAAGAATTTTTTTATATCTTCAACAACATCTGTACCAATGCCATCTATATTAATAAATTGGTCAAAAATTATTTTATCATTTTTATTTAATTTTTTTATAGAACTGAACCAATTTGAAAAATTTTTAAAATGTTTTGATAATAGATTTGATGTTCTTTGACCCACTTGCGGAATTCCTAGCGAATATATAAATTTTTCTAAAGATATAGTTCTTTTTTGGTTAATAGAATTTATCAAATTTAAATATGATTTTTCTCCAAATCCATCTTTATTAATAATTTCATTTTTAAATTTATCTAAATAAAAAATATCATAAGGATATTTTATAAATTTATCTTTCCAGAATTTTCTTAAATTTTTTCCACCAAGCCCTTCAATATTGAAAGCATCTCTGGATACAAAGTATTTTAATGATCCTAATTGTTGATCTTCACACAATGCTAATCCGCCTAAACATTTAATAGCAACTTCTCCTTTATTTCTAAATGTTTTTGATTTACAACAGGGACATTCTTTTGGAATATTAAATTTAAATGAGTTTTTAATTCTTTTTTTTTTATCTACTGAAATAACTTGAGGTATTACGTCACCAGCTCTTTGTAATTTTATTGTGTCTCCTATTCTAATGTCTTTTCTATCAATTTCATCTTGATTATGAAGAGAAACTCTAGAAACTTTTACACCACCAATAAAAACAGGATTTAATTCGGCAACTGGGGTAAGTATACCCGTTCTACCTACTTGAATGGTTATATCTTTTATTTGTGTTTCTGCTTTTTCAGCAGGAAATTTTCTGGCAATTGCCCATCTTGGAGCTCTTCCAACTAATCCTAATCTTTTTTGAATATTAAGATTATTTATTTTATATACAATTCCATCAATGTCGTATTCAAGACTATCTCTGATATTTTCAATTTTATTATAAAATAAATCTATATCTTTAAAATTTTTACATATTTTAAATTGATCATTTGTAGGAAAACCATAACTTCTTATTATTTTTAAGAATTCACTCTGACTTTTGAAAATTATACCGTTTGAAATTTCACCATATGTATAAGCAAAAAATTTAAGATTTCTTTCTTTTACGATACTTTTATCTAATTGTCTTAAAGATCCAGATGCAGCATTTCTAGGATTTGCAAATAGGCTTTTGTTTTCTTTTCTTCTAATGTTATTTAAATTAAAAAAATCTTTTTTATTCATATATATTTCTCCTCTTATTTCAAAAATTTTAACATTTTTTAATTTTTCTATTTTTTTAGGAATATTTTCTATAGTTTCTAAATTTTGAGTTACATCTTCACCAATTTGACCATCTCCCCTTGTTGAACCTAAAATAAATTTTCCATTTTTATATCTTAAAGAAATTGATAATCCATCGATTTTAGGTTCAGCTATTAATTCAATAAATTGATTTTGTATATTTAAATATCTTAATATTTTTTCAATATATTTATTCAAATCTTGAAGATTTAAAGCATTTTCTAAAGATAGCATTGGAAGATTATGTCTAACTTTTGAAAAATTTTTATTTGGTTTATAACCAATTCTTTCAGTTGGCGTATCTTCCTTTTTTAAGAATGGAAAATTTAATTCTAAATCTTTAATATTTTTCCATAGGGCATCATATTCTGCATCACTTATTTTAGGATTATTTTTATCATAATATAATTTATTATGTATATTTATTTCTTTTATAAGTTTTAAATATTTCTCTTCAATTTTTTTAACATTTTCTTTTTTATCCCTTTGTTTCATTTTCTTTGTATCCATATTTTTTAAATAATTCATAGCTAAGTTTATACCAATTACTTTCTTTATAATTATAACTTAAAACTGCAGTTGTCTTTTTTGCTTCTTTAATTATTCCAATTGATAAATATGATTCTGTTAGTCTATAAAGAGCCTCAGGTGTTTGCGCAGTAGTATTATAATTATTTATTACCATTTTAAATCTTTCTATAGCAGCTAAATGTCTATTTTTTTTTTGATAATATCTACCAACATCCATTTCTTTTGCTGCAAGCTGATCATTTGCAATTAAAATTTTTTTTTTAGCATCAATAGAATATTTACTATTTGGAAATTTTTTTATTAATTCTTCAAAAATTTTTTTTGATTCAAGTGATGGTTCTTGATCTAAGGTTACTCTATCAATTTGTTCAAAATAACATAATCCCTTCAAATACAAAACATAAGGAATATTTTTATCAGCTGGATGAAGACTTATAAACCTATCTAAACTAAAAATACTACTAATATAATCTTTGTTAAGATAATACATATACCCAGCCATTATTTTACTTCTTTTAGCTAATTTTGAATAAGGATGTTGTTTATCTATTTCTTCAAAAGTATTTGCCGCTTCAGTATAGTTTCCCCTAGAAAAATACCTATTAGCATCTTGCCACAGTAATTCAGGAGGTTTTTCTACATAAGTGACAATTGGTTTTTCTTTTAATCTTTCTCTTACACCACACCCAAATGCTAAAGATGACAATATTATAAATATAAATATATTTTTAAATTTCAAAATAAACTTTTTTTTAATTATTATTAAGTAATAAAAATAACAGAAATTAGAGAAAAAAAAATAGTATTAAGAATTCTTATTTAAAAAAAATATTATGATGCTATTTGAGTAGGGAATTGAATTGCTATTATATTTGTTTCCTTTTTTTTAGCGATAGAAAGATTCACATAAGTGTATGCGGTTTTGTCATTAAAAATTTTTTTTAATAATTTGTTATTAATTTCATGACCAGATTTTTCACCTTTAAATTTCCCTAAAATTGAATGTCCTGATAGATATAGATCTCCTATAATATCTAAGACTTTATGTCTAATAAATTCATTTTTAAATCTTAATCCATTTTTGTTTAGAACTTTTTTACCATTTAAAACAATACAATTTTTTAAAGAAGCTCCTTTAGCTAAATTTAATTTTTTTAATTTTTTATATTGATCCATAAATCCAAAGGTTCTAGCAGAAGAAATGTCATTTTTATAACTAATTTGATTTAAATTAATTTTAAATTGCTCTTTTTTTATTAGTGGATGATTATAATTTAATTTATATGAAATATTTAATTTATTATTAGAAGGAGAAATACTAGCTTTAGATGAATTATTTTTTACTTCTAGATTTTTAAGAATTTTAATGAATTTTTTATTTTTATTTTGATTAATAACGCCAGTATTAGAAATTTTTTCAAAAAAAGGTTTTGCACTTCCATCAAGTATAGGCACTTCTGAAGATGAAACCTCAATAATTAAATTATCTATTTCTAGTGCATGTATAGCAGACATTAAATGTTCAATTGTAGAAACAGTTACTCCAAATTTATTTGAGATAGTAGTTGATAATTTTGTACTAATAACATTACTCCACAATGCAGATATAATGTTATTTTCTTTTATATCTTTTCTAATAAATACTATTCCTTTATTTGAAGTTGCTGGAATTAATTTAATTTTAGATTTTAAACCAGAATGTAGACCAATACCTTGGAATACAATTTCTTTTTTTATTGTTTTTTGTTTAATTAATGAATCCATTGCTTAACAATTAGAAATTAATAGTAATATTTCTTAAAGCAATTAACTGATTGTTACAGATTGTAACTCTTTAATTAGATTGGTTTCTTAAGAAAGAAGGAATTTCTAAATCTTCTTTTTCCTCAGTTTCTTTATCATTTTTTGGGGATGAAGTATCTTTTTCTTTATTAACATCATCTAATCCTGTTAAATCTCCTTGTATTTCAACCTTTTTTTGTTTTTTGTCAATTTCTTCAGTAAGATTTTTTTTTTCTGTAATTAATGGCTTAATTTCAGGTTCTTTTTTATTAACAATTTCTTTATCAATTTTTTGTTTTTCTATATTTGGTTCATTTTCAGGAATATTTAAATTAATTTCTTCTTTATTTTCTTCTATTTTAATATCTTCCTCCTTTTTTTCATCTATTTTAAAATCTCCTTTTGTTTCTTCTTCTATTTTAAGATCTTCCTCTTTTTTATTTTCTATTATTGGTTCATTTGATTTTTTTTCTTCATTATCAAAAATATTTTCTTCTTCAGTGACACCCTCATCTTTTTTATTTTGACCAAAAATCTTCAGTGGAGATAATTTTTTAATAAAATCTAAAACTATATTACTTGGTTTTACTTGATTATTTTTTTGATCATCAAAATTATTCTCTTTGGAAATATTATTATCTTTATTATTTCTTTTAATTTCGACAATTTGATTTGTAAAATCTTCTAAGTCTGTTTGTTCAGCAATTTTTGTTTTTGGTTTGTTATTTAAAACATTTTCATTATTTTTTTTTTATTTCTTCTTTTCTATTATCTTCAGCGTTAATGTCTACAATATTATCTATACCTGTAGCAATTATTGAAACTCTCATTATCCCATCTAATTCTTTTTTAATTGAAGAACCAAATATTATTTTTGCATAATCATCATTTATTTCTTGTTTTATTCTTTCAGCTGCTTCTGTAACCTCTATTAAAGTCATATCTGGACCGCCAGTAATGTTTAAAAGGAGTCCTTTTGTACCTTCTAAAGATACATGGTCTAATAATGGGTTGGAAATTGCAGATTCAGCTGCTTCGATAGCTTTTCTTTCTCCAGAAGCCTCTCCATCTCCGAATACCGCTCTTCCCATTTTAGACATTACAGATCTTACATCGGCAAAATCAAGATTAATTAATCCTGGTTGCATCATTAAATCAACAACTGATCTAACACCAGCATGAAGCACTTGATCTGCTGCGGTAAAAGCATCTGCATATGTTGTGGTTTCATCAGTTATAATATATAAATTTTTATTTGGTATAACTATTAAGGTATCAACAAATTCTCTAAGCTCTTCAATTCCTTTTTCTGCATTATCCATTCTAAGTTTTCCTTCGAATTCAAATGGCTTAGTAACAACAGCAACAGTTAGAATACCCTTTTCTTTACATGCTTTTGCTATTGTTGTAACAGCTCCAGTTCCGGTTCCTCCACCCATTCCAGCAGCTATAAATGCCATATGTGCACCTTCAATATATTCACAAATTTCATTATAAGATTCTTCAGCAGCCGATTTACCTACAGAAGGTTCTGAACCAGCTCCTAAACCTTGTGTGTTTTCAAGTCCTAATTGTATTTTTTGATCAGCATGACAAAATTCTAATGATTGAGCGTCAGTATTACATGCAACAAATTCAACTCCTTTTAATCCACTCGCTATCATAGTATTTAAGGCATTACATCCTCCGCCCCCAACGCCTAATACAATAACTCTTGGTTTAAGTTTAGATTTTGTTTTTTCTGGTATTCCTAAATTAACTGACATAATATTTATTCCATATAAAAATAAAACTTGACTTTCTTACTATATAAAGTGGTATATTAAAAAAAACCACTATATATAGTATAATATAACGATTCGCTAACAAAACGCAATCTTTTTTTAAAAGAAACTTTCTTTTATCCATGATCCAAATTTTTTAATAATTAAGTTGTTTTTAAATTGATAATTATTTGAATTTTTGAGATCTTTTAAAATTTTATATTTAATTAAACCACAACATACAGATGATCCGGGACCCGACAAACTCTCCGCAAGTCCTTTAATTTTTTCTGGTTTTCCTATTCTAACTTTTACTCCAAAAAAATCAGAAGTTAATTTGGAAAAACCTTTTAATTCTGAAGTTTTGCCTGTTAGAACAATATTGTTTGTAATTTTTTTCTCAAATATAGATTTATCTGTTTTTTGTCTTATATTTTCTAAGATTTCCTGAACTCTTGAAGAAATGATAATATCTAATTCTCTTTTTTTAATTTTATGAGTGTAATTATTTTCATTATTTCCAGTTAATGGTATATCAATCAAATTATCGCTATCACTTGGATTTATTTCACTACCATGTAAAATTTTTAATCTTTCAGCAGTAGATATTGAAGTTGATAACCCTTTAGCAATATCTGATGATATATGAAACCCCCCAATGTTTATTATGCTTGCAAAAATAAGTTTATTTTTATGAAATGTTGCTATTGAAGTACAACCGGCTCCAATATCAATTAATGTGGTGCCTATATATAAATCATCGTTATTTAAGCATCCTAATCCAGATGCATAAGGAGTAGCCACTATATTCTCTACTCTGACTTTCGACATTGATAAACATTTTAAAAAATTATTTAAAATATTTTTTTCAATTGTTATTATATTAAAGCCAGCAATTAATTGCTCTCCTTTCATGCCTATAGGTTTTTCTATTCCAATCGAATTGTCAATTGTGTAAGAAGTTACAATTTTGTGTAGTAATTGGTTATCTTTTCCACATAAATTATCAATTTCTTTAAAATTATTGTTTATATCTTCATTTGTAACTTCATTTCCGCCTAAATTAGTAACTAAATTTATAGAATGTGATTTAATAGTATTTGAAGAAATATTTACTACAAATTCTTCAACTGTATCACCAAACATTTTTTCAGCTGATTGAATTGAATTTCTTATAGAATTACAAGCAGCTTCTATATCTGTAATTGTTCCTGATAAGATTCCTTGAGATTGATGATGCCCGATGCCTAAGATAATTGGTTTTTTATCTTTGTTTATATTAATAATAAAACACGAGATTTTATCTGTTCCTATATCTAAAATTCCAATTTTCATTCCTTTCCTTCTTTCATTGCTATTTTTTTTTTCTGTGTCTTCAAAAAAATTTTTTTTTCAAAAAATCTTAAATCAACTATTTTGATATTTTTTAAGTTGGTGAATTTTTCAATTTCTTTTATTGCTTCGTTTTTGTTTTTATTAGGCAATTTGAATATAATTTTATTGATTGTTATATCCCATTTATTATTTTTAGAGACGGAAATTTTAGAAATTTTTTTTCCTAATTTTGGGTATTTTGATAAAAAATTTTTTATTTCATTTATATTTTTTAAAGCAAAAGTATTTTCAAGTTCAATTAAATTATATATTTCTGAATTTTTGATTTGATAAATTATCTTACCTTCATCACTAACAAGAAATTTATTTTCATTTTTATTAAGTATTGCAAATTGTTTATGTTCATTAATATTTATAATAATTTGATTAGGAAAAATTTTTCTAATAGAAATATTATTTATCCAACTGAGATTTTTAATTTCGTTTTTTAAATTAATTGTATTGTATTTGATTAAATTTTTATCTTTTGATAAAGAAGAATTAACGATATCTTTAACAGAGTTTAGATTTGTATTTACTCTTCCGTTTAAAGTTATTTTTTTTATCTCAAAAAAATTGTCATATTTTGAAATAAGATTAGATAAAATTCCTTTTTTATTAAAATTCTGAATTTTATTAAGCTGGAAATTTTTGATAATTAGAAAGCTACAAAACACAAAAATAGATATTCCCATTAGAATAGAGAATTTGACAAAATTTTTATTTTTAAAAAAATTAAACATTTTACTTGATTTCACATACTATACCATGATATCCCATATAATACCAAACACTTTTTTATAATTTTATAGAGGAAAATAAGCTGTTTTTATCGCAATATACATATAAAATTGACTCTAAAGGACGTATTTCTGTACCAGCTGATTTCCGTGTAAGTATAAATACTAAATTTTTTAATGGAATTATTGCATTTAGATCATATAAATTTAAAGCTATAGAAGCCTTAGATTTTGAAAAAATGAGAAAAATTGCAAATAGTCTAGATGATTTAGATTTTTTTTCAGAAAGTAAGAATGATATTACAACTTCAATTTTATCAGATTCATATAAATTACCCTTTGATAGTGAAGGAAGAATTAGCCTCCCAAATGAATTATTAAAGTTTGCTAATATAAATAATAATGCAACTTTTGTAGGAAGAGGTTCAAGTTTTCAAATTTGGAATCCTAAATTTTTTAAAGATTATTTACAAAGAACCAGAAATAATATCAAAAAAAAAAAATTATCTTTAATAATAAAGAATACAAATAATGACAAAAAGTAATTTTAGCGTTTTACATAAACCTGTATTATTAAAAGAATTAGTAAATTTATTACCTAAAAAAACAAATAATATTTTCATAGATTGCACGTTTGGTGATGGTGGACACACTAGAGCTTTACTTGAAAAACATAAAACATGTAAAGTATATGCAATAGATAGAGATCCTGATGTTTTAGAAAATGTTAATTTTCTTTTAAGAAAATTTAAAAAAAGATTTGTATTCATATCTGGAAAAATTAGTGATTTAGAAAAAATCTCAAATGAAGAAAATTTGCAAAATAAAGTAGATGGTATTTTTTTTGATTTAGGCGTTTCAACAAGACAATTAAAAGATAATAGTAGAGGTTTTTCTTTTCAAAATAATGGACCTTTAGATATGAGGATGGGTCAAGATGGTATCACTGCTGAACATTTTATAAATAATGAAAATGAGAAAAAAATCTCAGATATTATTTTTAAATATGGGGAAGAAAAATATTCAAGAAAAATTGCAAAAGCATTAATTGAATATAGAAAGAAAAAAAGAATTAAAAATACATTAGAGTTAGCAAAAATAATTAATTTAACAAAAAAAATAAAAAAAAAAGCTAAAATTAATCCAGCAACAAAGACTTTCCAAGCGATTAGAATTTATATAAATAATGAAATTGAAGAACTTAAAGTGGGATTAAAATCAGCTATGAACATTTTAAAAAAAAAGGGGAGATTAGCTGTTATATCTTTTCATTCAATAGAAGATAGAATTGTAAAGAATTTTTTTAATATAAATTCTGGTAAAATTTATAATAATTCTAGATATTTACCTCAATTAACACCAAGTAATACTATAAGACCAAATTTAAAAATTATTACAAAGAAAGTGATAAAACCAACAAAGAAAGAAATTAAAATGAATTATTATTCAAGATCTGCAAAATTAAGGGTTGCTGAAAGAATATGATTTAAAAAATAAAAAAACACAAATACTTTGTTTGTTTATATGTTTAATCTTTTTTTTTCTAATAATTTTACTAAATTTAAG
>sequence17
GGTTGGAGATAAAGTTGATGTTGAAATGACTCCTTATGATTTAACTAAAGGAAGAATTGTTTATAGACATAAAGATTAATTTTATTTTATTAATTATTTCTAAATATTGTATTTTGATTTCTACAAAAAATAAGACTATATTAGGTTTTTTAAATATTTATGCCCAGGTAGCTCAGTTGGTAGAGCAAAGGACTGAAAATCCTTGTGTCGGTGGTTCAAATCCGCCCCTGGGCACATTATAAAGATGAAAAAAAAAGTAGCATTAATAATTGGGATAACTGGTCAGGATGGTGCTTATTTAGCAAATTTACTTCTAAGCAAAGGTTATAAAGTATATGGATCATATAGACGCAGCTCTTCTTTAAATCTATGGCGTCTTAATGAATTAGGTATTGCTAGTTCAATAGAATTAGTTTCTCTTGAGTTACTTGAAAAATCAAATATTGAAAGAACAATTAAATTAGTAAAGCCAGATGAAATTTATAATTTAGCAGCACAAAGCTTTGTAAGTTTATCTTTTGAAAATCCAATTTATACGGCTGAAGTTGATGCGTTAGGAGTTTTAAAAATTTTAGAGACTATTAGAATGGTTAATAAAAAAATTAAATTTTATCAGGCATCTTCATCAGAAATGTTTGGTGAGATAACTTCAAAAAAATTGAATGAAAAATCATTATTTCACCCAAGAAGTGCTTATGCAATTTCTAAAGTTTTTGGTCATCATATTACAATTAATTATCGAGAAGCTTATGGAATTTTTGCAATTTCAGGTATTTTGTTTAATCATGAGTCTCCCTTAAGAGGAACTGAATTTGTAACAAGAAAAATAACATCGACACTTGCTGAAATAAAAGCAGGAAGAAAAAAAGTTTTAGAGTTAGGGAATATTTACGCAAGAAGAGATTGGGGCTTTGCGGGTGATTTTGTTGAAGGTATATGGAAAATGATGCAAAATAGTAAGCCAATTGATTTTGTTTTAGCAACAGGTGAGGAACATTCAGTTAAAGAATTTGCAACACTCGCAGCGAAATTTATTGGAATTAATTTAATTTGGAAAGGTAAAAAATATAATGAATATGCTTTAGATAAAAATACTAAACAGATAATAATAAAAAAAAATAATAATTATTATAGACCATCTGATGTTTCTTTTTTAAAAGGAGATGCGAGTCAAGCCAAGAACAAATTAGGCTGGAAACCTAAAGTTAAATTTAAAGAATTAGTAAAAATTATGATTGAAAGTGATATGAAAAAATCACTTATTGGAAAAATTATTCAATAAATTAGTTTCGATTATAAATATCTTCAAAACGTATAATATCATTTTCTAATAATTTTTCTCCACTTTGTATTTCAATAATTACAATAGGCTTTAATGTTTTATTCTCAACTCTATGTTTTGCTCCTTTGGGAATATCTATAGATTGATTTTTTTTTAAATTATATACTTTATTATTTTTTGTAATACATGCTATACCATCGACAACTATCCAATGTTCAGATCTATAACGATGTTTCTGATAAGATATTTTTTGTTTAGGATTTATTTTCAATCTTTTTAATTGATAATTCTTTTTTGTTAAAAGTACTTCAAATGAGCCCCAAGGTCTATATACAGTAGGATGATATTGAACCTTCTCATCATTTTTTTTTGATAAATTTTCAATACTTTTTTTTATATTTATGTTTTTATCATTTGGCATTACTAACAAAGCATCTTTTGTTGATATTATTATTATATTTTTTTGATTAATTACTACTATCTGTTGATTTTCAGATTGTATAAAACTATTACTTACATTTTTTATTTGTACAGAACCTTTGATAATATTTTTTTCTTTGTCTTTTTTTGATAAATTAAATATAGAAGGCCAAGAGCCAACATCACTCCAATTTATATTAAAATCTTTTACAACTACATTTTTCGATTTTTCAATTACAGATATATCAATTGGTTTTGAGATAATTTTATTAAAAAATTTTTTCGATAATCTTAAAAAATCAAGATCTTTATTTGAATATATAATTGAATTATTAGATTCTTTTAAAGTTTTTTTATCATATAAAGAAATTTCATTTAACATTAATTCAGCATTAAAAAAAAACATGCCTGAATTCCAAAAAAAATTTTTATCTTTCAAATATTTTTTTGCTTTTTCAAGTGATGGTTTTTCTTTAAATTCATCAACATAAAAAGTATTACTTTTTTTATCAAAAATTTTTCCTTTTTTGATATAACCATAATTTTTATCTGGCTGATTGGGCTTAATTCCAAATATAATTATTTTATTTCTCTCACAAATTTTAGTTGAATCATTTATTATTTTATGAAATTTTTTCGTATTTCCAATTTTATGATCAGATGAAAGTATTAGTATTTTAGCTTTTTTATCTATTTTTTTTATTATTAAAGATGCTACAGTTACAGCAGCAGTAGTATTTTTACCAACTGGTTCTAAAATTATTAATTTAGGTTTAATTTTTAAGGCTCTTAATTGTTCAGCTATTAAAAATCTATGTTCGTCATTACAAATTAATATAGGTGAATGAAATAATTTTTTATTTTTTATTCTAATTAAAGTTTCTTGAATTAATGTATAATTAGAATTGATTTTTAAAAATTGTTTTGGAAAGGATAAGCGTGACTGAGGCCATAAACGAGTACCAGAGCCTCCTGATAAAATAACTGGATATATTTTATTAATTTTCACTATATATGATTTATGAGCAAGCCTAAACTAAATCAATCAAAAAATATAGTTATTTCTACTCAATGTTTTCCTCCTATTTTAGGGGGTATGGAAAATTTAATGAAAGGATTAGCTGATAATTTATACAAAGAAAAATTTAATGTTTTTGTATTTGCTGATAGCAAAAATTTACAAAATGAAGAAAAATATGATAAGGATTTAAATTATGAGGTAATAAGATATGGAGGATTAAAAATTATAAGAAAAAGAAGAAAAAGCGCAGATATAAAAAAATTCGTTAATTTTAAAAAAAAAATAAACTCTATTTTTTGTGACTCATGGAATAGTGCTGAAATTTTAATTATAAATAACAGTGAAAAAAAAATAAAAATATTATGTCTTGCTCATGGCAATGATGTTTTATTTAGAAAAAATATTTTAAAAAAAAAAAGAATTAAGAATGTTTTTTTAGAATGTAATTTTGTTATTGCTAATTCTCATTTTACTAAAAAAAAAATTATCGATTTAGGAATAAGTCCTAATAAAATTAAAGTAATTTATCCAGGTATAGAGAAATCGTATTTTAAATATCAAGCAAGTAAAAAAAAAAAATATAAAAATTTCAATCCAATTTTACTAACAATAGCTAGATTAGAAAAAAGAAAAAATCATAAAAAGATTATCTATGCTATTAGTGGTTTATTAAAAGAATTTAAAAATTTACTTTATTTAATTGCTGGAGATGGCCCAGAAATGAAAAGTATTAGTAAATTAATTAAGAAATTAAATTTAAAAAAAAATATAAAAATTTTAGGTAGTGTTAATGAGAAAGATAAAAATTTTTTATTCAATATTTCTGATTTACATATAATGCCAACTATTAAAAGTAAAAGATTATTATCAATTGAAGGTTTTGGTATTTCTTATATAGAAGCTGCAATGCATGGTATACCGTCGATAACTAGTGGTATAGGTGGAACTAAAGAGTCAGTTATTGATGGTGAAACAGGAATTATTTGTGATCCAAATAATATTTTATCTATACAGAAAGCAATTAAAAAAATTCTTAATAAAAAAATATATAAAAAAATGTCAGTGAATTCTAAGGAATATTCAAAAAATTTTATGTGGAAAAGTATTATTAAAAATTATTTAAATTTAATAAAAAAAAAATAAAAATGATTTATAAATCACGTTTTTTAGATATTACTTTAATTATAATTTCTTTATATTCATTATTCTTTATTTTTCATAAATTTATCGGTGGAAAAATTCCTTTTTGGGATTTTCATATTATTTATTGTGCATCTAAAACTTATTTTTTAGGTAATTTTCCATATGGTTTAAATGTGCATGGAGATTGTTTAAATCCCAATATTACGTTAACTGCAAATTTCTCACCTAGCACATATGAAATATTAAAATATTTTGGTTCATTAAATATTTTAACAGCAAAATTTTTATGGATTGTTTTTGAAATAATATCGGTAATGTTAATTTTTTTTATATCAAAAAAACTATTTAAAATTAATTTTGATTGGAGAAATTTTTTATTAATTATTTTTTCTTTTGGAAGTGTTATTTTTACTAGTTTTATTTCTGGGAATGCTTCAATAATATTATATGGTTTTTTAATTTTAGGAATTTATTCATTAACTAAAAATTTTTATAGTTTTTTTTATATTGCCGTTATTTTTGTTTCTTTATTTAAATTTTATTATTTAGCTTTTTTAATATTACCTTTTTATATATTAGGTTGGAAATCTTTAAAAAATATTTTTCTTTATTTATTTTTATTTTTTTTTATTCAATATATTTTATATATAAATAACCCAGATCTGACACTTGCTTTTCTTGACATAATACAAGGTAAAGTTGAAGAAAATTTACCTACAAGATTTTTAACAGGAACAGGTTTGTATTCTATAATTGAAAAAATGCCATGGATCTTTTTTGGTGTAAATAATTTTAATAATAGTTTTTTTCCATTAGCAATTAATTTAGTTTTATGGTTTTTTATTAGTTCAATATTTATTTTATCTATTTTTATTTGTTTAAATAATAAAAAAATTAAAAATAGCGAAAATCATTTTTTATATTGTATTGCTTTTGGGATTTTAATAATAAATTTAATAATTCCTAGATTAGTAGTATACGATTTAATTTTGACAATTCCTGTTATGTTTTATCTTTTAAATAAAATAAATTTTAAAAAATTTAAAATTTATAAAATAAAATTTTTTTTTATATTTCTTTTTTTTGTTTTTTTTGATCATCATTTTCCATTTTTTATAATAATTTCTTTTTTAACACTTTTTATTTATTCTGAGTTTTATAAGAAAAATTTATTTATTTATTAAGTTTCTTTTTTTATATTTCTAGACAATATTTTCTTTATCATTTCTTTTATTTTATTTTTTTTATAAAGTATTTTATAAATTGATTCACATACCGGCATTTCAATTTTTTTTTTTTTAGATAATTTGAAAATAGTTTTTGAGTTTATAACACCTTCAGAAATTGTTTTTAATTTTTTTATTTCATTAATTTTCTTGCCTTTGCCTAACAATAATCCGGTAGCAAAATTTCTTGATAATTTACTATTACATGTAAGCATTAGATCACCTAAACCTGATAAACCATAAAAAGTGTTTTCTTTTGCTCCATAAGCTAATCCAATTCTTTTCATTTCAGCTAATCCTCTTGTTATTAATGCAGCATTTGCACTTGAACCTAATTTTTGACTTTCAATTATTCCTGAAGCAATAGCTAAAATATTTTTTATAATACCTCCAAATTGAACTCCAATGATATCGTTAGTATAGTAGCATCTAAAATTTTTAGAATTTAAAATAAGAGCTAATTTTTTTGCATAATTTTGATTTTTTGCTGCAATAGTGATGGCAGTTGGTTTTTTTTTTGCAACTTCAATTGCAAAACTTGGTCCTGATAAAATTGCTATTTTAGATTTTGGAAATATTTTTTTAATAACATCACTTATTATTAAATTTGAACTATGCTCTATTCCTTTTGAACAATTTATAAACATCATATCTTTATTCCAAAACTTTTTAAATTTAGTAATTATTTTTTTAATAAATTGAGATGGCACACAAATAAAAATAAATTTACATAATTTAAGATCTTCTAAATTATTTGTAGCAATTACATTTTTTGGGATTCTAATATTAGGTAAGTAAACTTTATTTATTCTGAGATTATTAATTTGCTGCGCTGTTTGTTTCTCATTTGACCAAATAATGATTTTATCATTTTTTTCACTTAACATACATGATAAAGCTGTTCCCCATGCTCCTGAACCTAAAATACCAATTGTCATTTATTTTTTCATAATTTAATTAATAATTTTATTTAATTCTTTTTTTTTTAAAATTCCTTTTCTCAGTATATTCATATTGTTGTTAGTTACATCAATAATAGTCGATTCTTTTTTAAAATTAACTTTATAGTCTTCTATTAAAATTAAGTTTTTATTTTTAAATTTTTTTTTAATATTTTTTATAGAATTAAGATTTTTTTCACCAGATATATTTGCACTTGTACAAAAAATTGGGATTTTGCATTTTTTTATGATTTTTAATAATACGTTATGATTAGGAACTCTTATACCAATTGAATTATTTTTAGAAACCCATTTTTTCGAAATCTTTAAATTAGATTTTTTTTTTAAAATTAATGTTAAAGGACCTGGCCAAAAAAATTTAGTTAACTTTATCGCAATTTTATTAAAAGTAGCATAATTTTTTGCCATTTTTATATTTGCACATAATAAAATTAAAGAATTTTTTAATGATCTTTTTTTTAATAAAAAAATTTTTTTTACCGCATTATTATTAAAAGGATTAGCTGCTATTCCATAAACTGTATCAGTGGGAATAAAAACAATTTTCCCATTCAAGATTTCTTTAACTACTTCGTTTATACCGTTTGTATCAGATTTTAAAATTTTCATTAATTAATTTTTGCAATAAATTCTTTATTTTTAAAATTTTTTTTTCCGTAATTTAATATTTTACCAGTTTTAGTTCTAATATTTCCACCAGATCCATTTATTATCACTTGGCCTGCCGCTGTATCCCACTCATATGTAGTTCCAGTTCTTGGATATATATCAGCTTTACCTTCAGCTAAATAACAAAATTTAAGAGCACTTCCTAAAAATATTACTTTTTTAACATTATACTTATTAGCTAACTTATTTATTTCGTTTTTTGTTGAATGTGATCGACTAACAATCATTGTCTTATATAAATTTTTTTTACGAATTACTTTTTTAAACTTTTTTTTATTAATTATTTCATATGTATTTTTTTTCGTTCCTATATAAGTTTTTTTAAAATAGGGTGCATAAATTATTCCAAATTCAACTTTATTATTAATAATTTGAGCTATATTTATCGTAAATTCGCCATTTTTTTTTATAAATTCTTTTGTTCCATCTAATGGGTCAATGAGCCAAAAATTTTTTATTTGTTTGTTTTTTTTCTTATAATTAGTTTCTTCTGAATATATGTGTGGTTTTTTAAATATTTTTTTTAAACCAGTAATTATTATTTTTTCTGATTCAAAATCTGCAATTGTAACTGGTGAATTATCTTTTTTATTATAAATTTTAAACTTTTTAGAATATATTTTTAATATTATTTCTCCAGCTTTCCAAATAACATTACATATTTGAAGTATTTTTATTTTATTCATTTGTATTTATTTGTTAATTAATAATTCTTTTTGTTTTTTTTTTAATAAAAGCTTTTTTTCTTTTTCTTTTGTTAATATATCAAAGCAATATGGGCAGGAGATATCTTTTTTATATTTTTTTGATTTTTTATCATCTTTAGATACAGGCATTCTACATGCACTACAGATTGTATATTCTCCTGGGATTAATTTATGTTTAAGAGTAACTCTGTTATCAAACACGAAACATTCTCCATTCCACAGACTATCTTTTTTTTTAATTTTTTTTAAATAATTTAAAATTCCTCCTTTTAATTGGTAAATCTCTTCGAACCCTTTTTTTCTTAAATAATTAGCTGCTTTTTCACATCTTATACCTCCGGTACAAAACATAGCTATTTTTTTATTATTTTTAATTTTTTTAAAAAAATTTGGAAAATCTCTGAAATTATTTACTTTCGGATCTACAGCATTTTTGAAGGTTCCTAATTTATATTCCATTGATTTTCTTATATCTATTACAATTGTATTTTTTTCTGAAATTATCTTATTCCAATTTTTAGGATCAATATAAATATTTTGTTGTTTTTGATTTTTTGTTAATTTTAATCCTATAGGTACAACTTCTTTTTTTATTTTTATTTTTGGTCTAAAAAAAGGCTGGTAATTAATTATTGAATGATTAATTGAATCAAATTTTTTAATCATTAATTTTTTTTTGATAAAAGAAATACAATCTTTTATTTCTTTTTTTTTTCCTGAAATAGTTCCATTTATTCCTTCAGGAGATAATATGATCGTACCTCTTATTAAATTCTTTAATAATTTTTTTTTTAAAAGATATTGATAATTAGTTAAACTTTTAATTTCTTTTATTTTGTAAAAACCTATAACATTTATTTTCATTTTTCTTTATATAATAATAAACCTTTTTTTGTTGGTATCACAATCTTACCTGGACCATTATACCATTTTCTTATTTTTATGATTTTATCATTTAATAAATTATTAATTATTTTTTTATTATATTTTGTTAATAAAATTTCCATTGAAATTCCTCTTAGATGTTCAGGCATTTCACATAAATCTTTTAAAATTTTTTTTTTTAATGTCATTTTTTTTTTTTTTTCTAAAATAATCTTAATATAAATTAATTTTAGTTCTTAATAAATTGAAATTTTTTCTTTATTTATTTTTTTTTGTTTTTTTATCATTTTTTAATGTTAAAGCAGATAGTATTATAAATAATAAATCTGGAGGTCCCTTATTTCTTTTTTTATTAGATAAAACTTGTAAACCAGAACCAGAAATGATGAAAAAACTTTTATTTAGCATGCCAACTGATCCTGATTTTTATTTTGGTTTAACATGTAATAAACTTGGAAAATCCATAGAATTGGAACCTAGTAAAAGTGTATCAATTAAAGAATTTGATGAATTTATTTTAATAGGAAAGCTCAAAAGCCCTGTATCTAAAGTTTCTTTTTGTTATTTAAAAAATAAATCTGAAGTAAATATTAAATCTTTGGGTATAGGTGGTGTAATTTGTGAATGCGTAAGTAAAGAAAATTGTAATGATAAATTATATTAATCTATATCTTTAAATCGTAATTAATTTTTTTTTCAAAAGTTTTTCTCTTTCTTCCATATAAGCTTCTTTATTTCTTATTTCTCTTAAATTATCTTTGAAAATATTTGATATTTTTTTTGAATTTAAATTAATTTTTTTTGCAAGATCGTTTCTAACAAAAAAAGCATTTACTCCATTATTATCAACTCCAATTAGTGAGTATTTTTTTTTCTTACCAAGTTTTTTTAAAGCTTTTAATGACGCTCCATAATAAGATTTATTATTTTTAATATCCCAAAAAAAATTAGAATTATATTTAATTGTTTTTGATACATTTTGACCATAAAAAGAATTATATTCAATAACGACTAATCTGGGTTGGATACAATTTATTTTTTTCCAAATCCAGAAATCATTTCCATCAATATCAATAGATAATAAATCTATTTTTTCATTATTAAGATTCTTTTTGAGGATTTCATTAATATTTTTTTTATTAATAAAAGAATTTATTAATTTTAAATTTTTTATTTTTTTTCCTAAAATTTTTTTTAATTTATTTTTTGCTTCTAAATAAAGTTTACGATTCCCTTCAATTTGCAGACCTGACCAATTAAAATTTTTTAATAAGTTTGTAGTATTGCACTCTGTTCCATTTTCAATGCCTATTTCAACAAATTTTTTAGTTTTTATTCCAATATGTTGAAGTATATATAAAATTATTCCATCCTCTTCATTTTGTGAATAAACCTTAATTCCATACTTTGATATATTAAAATTATTTTTTTTCTTTAAAACAATAGGTTTTGATATATTTAAAACTTCAGGAAATAACTTATTTAAGAAGAATTTTACAATATAATCTAAAAATTTATTGTTATATCTTTTGTATTTAAAATGTTTATTGAATACAATATATTTTAAAATAAGTTTCATAAATTAATTTTTTTTTTAATAACTTTATTTGCTATTTTATTTATTATTTTTTATATTTTATTTTTATTAATTTTTTTTTAAAGGATAACTTATGTTAAATGGTAGACACTTTCTTCACGTTCCAGGACCAACAAATATACCAGAAAGAATTATTCGTGCTATGGCTAGTACTATGGAAGATCAAAGAGGAGCTAATTTTCCAAAATTTACAAAACCTCTTTATGAAGATATGAGAAAAATTTTTAAAACTAAAGATGGAACTGTTATTATGTGGCCATCAAGCGGAACAGGTTCTTGGGAAGCAAGTTTACTTAATACTTTATCACCAGGTGATAAAATCCTTACTTCAAGATTCGGACAATTTAGTATGTTGTGGATGGATATGTGTAAGAGATTAGGCTTAGATGTAATTGATATTGATGTTGAATGGGGGGAAGGAGTCCCATTAGAAAAATATGCAGAGCATTTGAAAAATGATAAAAATAAAGAAATTAAAGCAGTGCTTGCTTGTCACAATGAAACTGCAACAGGTGTTACAAGCGATATTGAAGGGGTTAGAAAAGTTTTAGATGATGCAAAACATCCTGCATTATTGTTTGTAGATGGTGTAAGTTCAATTGCTAGTATAAATTTTGAATTCGATAAATGGGGCGTAGATTGTGCTGTTACAGGTTCACAAAAAGGATTAATGTTGCCAGCAGGCCTTGGAATTTTATGTGTTAGTAAAAAAGCGCTAGAAGCTTCTAAATCTTCAAAATTTAATAAATGCTATTTTGCTTTTGAAGATATGTTGAAAACAAATACTGATGGTTGGTTTCCTTATACCCCAGCATTAGGCATAATGTATGGTTTGAGAGAATCATTAAACATGATTGATGAAGAAGGTTTAGAAAATGTTTTTAAAAGACATCATCGTTTAGCAGAAGGAGTTAGACAGGCAGTAAAAGGTTGGGGTTTAAAAATCTGTGCAAAAGAAAAGAAGTGGGAGTCAGATACTGTAACAGCTATTTATGTTCCTGAAGAATTTGATTCAGCTAATGTTATTAAAACTGCATATTTAAAATACAATTTAGCATTAGGTGCAGGTTTAACTAATGTTGCAGGAAAAGTATTTAGAATTGGCCACTTAGGTGATTTAAATGAATTAATGTGTCTAGGTGCAATTTCAGGGGCTGAAATGGCAATGAGAGATGTTGGAATTGATATAAAACCAGGTAGTGGAATTGCTGCAGCTGAGGAATATTATAGAGAAACAGCGCCTGCATTACCTAATGATTAAATTTTTTTATCTTTAAATGAAACATAAAATAGTCTTTTTAGATAGAGCAACAATCGAAAAGAATATAATAGTTCGTAAGCCAACTTTTGATCATGAATGGGATGAATTTGATTATACCGATCATAACGATAATAAAATTATTTTAGAAAGACTTAAAGGTGCAACAATTGCTATAATTAATAAAGTTCCTATGAGAGAGGAAAATCTAAAAAAATTGCCAGATTTAAAAATGATAGCAGTCGCTGCAACCGGAACAGATGTAGTTGATAAAGAATATTGCAGAGATAATGATATTATAGTTTCAAATATACAAGGTTATGCAATTACTACTGTGCCAGAACATACTTTTGCTTTAATCTTAGCTTTAAGGAGAGGTATCGTCGGTTATAAGGAAGATGTTATTAATGGTGAATGGAAAAAAGCTAATCAATTTTGTTTTTTTAATCATGAAATAAGAGAGTTGCATAATAGCACAATTGGAATAATTGGAGAGGGGGCTATAGGGCAAGGTGTAGCAACTATCGCAAGAGGTTTTAATATGAATATTTTATTTGCAGCTCACAAAGGGGTTGATGGTTTAGGCCCTTTATATACACCTTGGGATGAAGTTTTAGAAACTAGCGATGTAATTACATTACATTCACCTTTATTGCCACAAACTAAAAATATGATTTCATTACCTGAATTTAAAAAAATGAAGAAAAAACCAATTTTAATAAATACTGCTAGAGGAGGACTTGTTAAAGAAGAAGACTTGGTAGAAGCTATTGAAAAAGGTTATATATCTGGAGCAGCATTTGATGTTGTAACTAAAGAGCCTATTCCAGATAATCATCCTTTTTTTAAAATTGTCAAAAGACCAAATTTTATACTTACTCCTCATGTTTCTTGGGCTAGTATGGAAGCAATGCAAAATTTATCTGATCAATTAATTGATAATATAGAAAATTTTGTAGCTGGGAAACCTAGTAATGTTGTTTCAGGTGATTTTTAATTATATTTTTATTACCACTCTATAATCATTAACATTTGTTAAAGTCGGGCCTGTGTATATCAGAGAATTAAGTTTTTTAAAAAAAGTATAAGAATCATTTTTTTTTAAATAAACCTCAGGATCTAAAAATATTTTTTTTGATTTTTTTATTGTATTTTGATCAAAATAAACACCCGCGTTATTTTCTGAACCATCTATACCATCAGTATCGCAAGAAATTACAGCAATATTTTTAGTATGCTTAACTTTATTGAATAATGATAATGCATATTCAGAATTCCTACCGCCTTTACCTGAACCACTTACTGTGACTGTAGTTTCACCTCCTGAAATTATTGCAAATTTTTTTTTGTTAGTTTTTAATATTTTTTTTGCGTGATTTATAGCAACTTGACGAGATTCTCCTTTAATATTATCACCTAAATTTACAGTTTGAATTTTATTTTTTTTTAAATGCAATTCGGCGTTTTTTAACATATCTCTACCTGATGCAAGTAAAATATTTTTAACATTTTTGAAAATAGGATTATTTTTTTTTGGATTTTCAAGAATTTTCCCTTTTATTCCCTTTTTTAAAAATTCAAAAATTTTCTTATTTTGAATTTTATATTTTTCTAATATTTTAATCGCATTTTGAAAAGTAGTTGGATCTGGGCAACAAGGTCCTGATGCAATATCTGTTATTTTATCACCAGTAACATCTGAAATTATTAATGTTACAATTTTTGCGTTTGTATACATAGGAATTTTGCCGCCATGAATTTTAGATAAATGTTTTCTTACCGTATTTATTTCACTTATTTCTGCTCCACAATTTAACAAATTTTTTGTTATATTTCTTAAATCATTCATATTTAAACCATTTTGAGGCACTAACATTAAGCTAGATCCTCCACCACTTATTAAACATAAAAGTAAGTCATCTTTATCTAAACTATTGATTTTATTGATAAAATTATTTGCAGCTTTCATACCGGCTGTATCAGGCATGGGATGTCCAGATTCATATACTTTAATTTTTTTTGTTTTTAGTGAATGTTTATATCTAGTAATTACACTACCATCTAAAGGTGATTTGTTTGGCCAATTAGTTTCTATTGCTTTTGCCATTGAAGCAGCAGCTTTACCAGCTCCAATTACGTAAGTACGTCCTTTAGGAGGAGAGGGTAATTTATTTTTAATTATATTTATAGGTTTAACAGCATTTAATCCTACTTTAAATGAATCAGTTAATATTTTTTTTATATTCATAATTAAAATTATATGAAACTTTGAGTTACAAAATGTTTATTGTAAAACAAATACAAACACATCATATTTATTTATTAATTAATTTAAAACAATTTTCTATTTTTTTTTTTTTTTCAAAAATTTTTTTTTATATGATTAATAAATCTCTTAAAATAATTATTTTAGCAGCTGGTGAAAGTAAAAGAATATTATCTTCAAAATCTAAAATATTACATACAATTGGAGGGAAAACAATTCTTAATCATGTTTTAGAAAATGTAACTAAAATAGTTAAAAAAAAAGATATTAATATTGTGATAAGTCCGAAATTGACTGAATTAAAAACTATTTATAAAAATATTAATTTTTCTTTCCAAAAAAAACAGCTAGGAACTGCAAACGCTGTAATGGCTAGTAGAAAATTTTATTCTAAAGCAAAAGAAGATATTTTAATACTTTATGCTGATAATCCATTTATTGATCAAAAAGTTATTAATAATATGGTAAATTTAAAAAAAAAAAAAAATTCAGATATTGTTATATTAGGCGTTAAAACAAAAAAAGAAAATGAGTATGGTAGAATTATTTTAAATGATGAAGGTGGCGTAAAAAAAATTATTGAATTTAAAGATGCAACAAGTCAGCAAAAAAAAATCTCTTTGTGCAATTCTGGAATTATCTTAATAAAAAGTAACGTTTTAAAAAGATTAATTTTAAAAATTAAACCTAAAAATAAAAAAAGAGAATATTACTTAACTGATATAATAGAATTAGCAACTCGAGAAAATTTAAAAGTAGATTTCTTAGAAGAAAATTTTTTAAAAACATTAGGGATAAATACAAAACAAGAATTAGTAGTAGCTGAAGCATATTTTCAAAATATTTTAAGAAATAAATTTATATCTAATGGAGTTAAATTATTAGATCCTGAGACTGTTTTTTTTCATTATGATACTAGGATAGGTAAGGATGTTATTATAGAACCAAATGTTTTTTTTGGCCCGAAAGTAATAATTAAAGATAATGTCCATATAAAAGCTTTTTCGCATATAGAAGGTGCAAAAATATTTGATAGTGTAACTATAGGCCCATTTGCAAGATTAAGACCTGAAACAATAATTAATAAAAATAGTAGTATCGGAAATTTTGTAGAAATAAAAAAAACTTTTATTAAAAAAAATACAAAAATTAATCACTTAACTTATTTAGGTGATAGTGAAATTGGTGAAAATGTAAATATTGGAGCAGGCGTTATAACTTGTAATTATGATGGGATAAAAAAAAATAAAACTAGAATTGATAACAATGTTTTTGTCGGTTCCAATGTCTCTCTAGTGGCACCAATTAAATTAAATAAAAATAGTATAGTTGGAGCGGGTAGTGTTATAACTGAGTCAGTAAAAGAGAAAGCATTAGCTGTAGAGAGAAATAAACAAGAAATATTTTCAAATTATAAAAAAAATAGGAAAAGATAATTTATGTGCGGAATAATTGGTGTTATAGGACATAACAAAGTTTCTTCATTATTAATAGAAGGATTGAAAAGATTAGAGTATAGAGGATATGATTCTGCCGGCATTGCTACATTATTAAATGGAAAAATTGATAGAAGGAGATCTTTAGGTAAAATTGAAAATTTAAAAAAATTATTAAAAAAAAATCCTATTAAAGGTAATGTTGGAATAGGACATACTAGATGGGCAACACACGGTATTCCAAGTAAAATTAATGCTCATCCACATTTAAGTGGAGATGTAGCGGTAGTTCATAATGGAATTATAGAAAATTATGATGAATTAAGAAAAAAATTGGAAAAAGAAAAAATTATTTTTAAGTCTGATACAGATACTGAAGTTATTGCGCATTTAATCAGTTATTATTTAAAAAAAAATTTGCCTCCATTAAAAGCAACAATTGCTGCATTAAAAAAAATTGACGGAGCATTTGCATTAGGAATAATATTTTCTGGAATCAATAATTATTTAATCTGTGCTAAAAGAGGAAGCCCTCTTGCTATTGGAAAAGGAAAGAATTGTAATTATATTGGATCTGACAGTATTGCTTTAGCTCCATTAACACAAAAATTATGCTATTTGAATGAAGGAGATATTGCAGAAATTACTTCAAACAATTTTAAAATTTATAATCAAGACGGTAAAAGAGTTAAAAGAAGTATAACGATCACATCTCTTTCAAAAAATAAAATTAAAATGAGCGGTTAAAACCATTACATGCAGAAAGAAATTTTTGAACAACCTGCTGTTATTGGTGATGCACTTAAATATTTTATAGATACTAAAAAAAAAAGAATATTAATTCCTTCTTTTGCAAAAAAATATAATAACATTAAAGAAATTAATATTGCAGCCTGTGGTACTTCATATCATGCATCATTAATTGGTAAATATTGGCTTGAAAAATATTCCAATATTAAAACTGAAGTAGATATAGCTTCAGAATTTAGATACAGAAATATAATTGATAATAAAAATACTTTAAATGTTTTTTTATCTCAATCTGGAGAGACCGCTGATACTTTAGCAGTACTTAGATATTTTAATCAAAAGAAAAATAAAACTTTAGGAATTATAAACAGTTCAGAAAGCAGTATTGCAAGAGAGTCTAATAATGTTATTGAAACACATGCTGGGCCTGAAATTGGCGTTGCTTCTACAAAAGCGTTTACAACGCAATTAATAGCTTTAGGAGCATTAACGCTATTCATGTCCAATTTTAATAAAACAATCAGTAGAAATGAAATTAAAAAATTATCTAATGCTTTATTGGAAGCACCAGGTCATATTAGTAAAATTCTTAAAATGGATAATAATTTTCATAAAATAGCAACTAGCATAAAGAACGCAAAGAATGTTTTGTATATTGGAAGAGGTACAAATTATCCAGTAGCTCTTGAAGGTGCATTGAAATTAAAAGAAATTTCATATATACATGCAGAAGGATATCCTGCAGGTGAAATAAAACATGGCCCAATTGCTTTAGTTGAAAAGGGAGTACCTGTTATAGTTATTGCTCCATCAGATCATTTAATTGACAAAACAATTAGTAATGTAGAAGAGGTTTTATCAAGAGGAGCGAAAGTAATTTTTATAAGTGATAAAAAAGGAATTAAAAAAATAAATAATAAAAAAATAACAAATATATATTTGCCAGAAACTCATGAAATAATTTCTCCAATACTTTATTCTATACCAGTTCAATTAATTGCTTATCATACAGCGGTTCTTAAAGGAACAGATGTGGATCAACCAAGAAATCTTGCTAAATCAGTCACCGTGGAATAGTTTTCTTATAGTTTTTCCAAGAAAAAAACTAAAGCGTTAAAAGAAAAAATAATTGTAGATAAAATCAAATTGAATCTTACTAATCTTTTTTTATTGTCACAAGGCGGATGATCACAATGGCCATTTTTAGCACAATTTAATTTTCTGCTATTTACTTCTGATATAGCAAACAATGATAAAATTATTAATGTAAAAATAAGAGAATATGTTTCAAATTTTTCAAACCACTCTAAATTAATAAAAAATAATGATGTAAATCCTATAGAACTACTAAGTGAAGTTATGCTTAAAAAAAAAGGAATAACGCAACAAAATAAATGCATTGATGAAGTTAATAGTAAAAAATATGAAGATATATATCTTATCATAAAGAAAATTTGTTAAAGTTAATTTATATTAATGAAAAGCAATTTGTAAAGAAATTTTTTTTAAATAGAAAGAAAAATAAAATGCCCCATTTACAATTTGACATAAATAAAAAAATAAAAACTAGAGATAAAAATAAATTCTGTAGATATATAAGAGATAGTTTCGGTAAAATAATGAAGACTGGAACAGATCACATTGCTATTAGTTTAAGAGAACTTAGAAAAGACTCATTAAGTTTAGGAAGAGCTAAAGACAACGAATATGTGTGTTTTATGAATTTAGATATAAGAGTAGGAAGATCTGTGAGGCAGAGAAGAGAATTAGTTAAATGTTTTGTAAAAGCAGTAAATCAATTTTTTAGTATAAAAAAGGAAAATCAGTATATTACCTTTACTTTACATAATGGCAGAGATTTTAATTTATATGAAAAATCCCTTGAAAATTGGATAAAAGATGATGATCCACTTAATAAAAAATAAAATAAATTGAATAATTAACTTATATTATTAATTATATCACTAGTAAATTATAGAATTTTAATATGACTAATAAATGGAAACCAACTGATTGGAGAAAAAAGCCTATAGTTCAGGTGCCTGAATACCCTGATAAAAAAGCTTTAGAAAGCACCGAAAAAACTTTAAAGAATTTACCACCTTTAGTTTCTGCAGGTGAATCTAGAAAATTACAAAAATATTTAGCTGATGCAGCTGA
>sequence18
AATTTTTATCATTAACTAACCATGCATTTTTATCTTCGTAATAATTTATTTTTTTTACATTTAAAGCATTTAAATCAGAAAGATTAAAAAATATTAAAAAAAATAAAAAAAAATAAAATTTTTTCATAATTTATTCCTTTACTGGTAATAAATAACCAGTTACTGAACTTTTTTTATTAAAAATTTTTGGAACATAAAGCTCTAAATCTTTTAAAGATATTTTATTAATATCATCAGGCCAATTAATTATTTCTTCCAAAGAATATCCTGTTGTTAGGGCAGAACCAAATATTCTCATTCCCATATATAAGCTATCTTGAGCAAAGATTGTATCATTAACAAATCTTTTTTTTATTTTATTTAATTTTTTACTATCAAATTTTTTTTTTTTTATTTTTTTTAAAAATTAATATAAATGCTTTTCAATTTATTCTAATTTAATATTTTTTTTTGGTATTATACTAATAGTAAAACTAGTATGACCAAAACCATCTGGATAATAATAAGATGCTGCACTCGTTGCCAATTTTTTATTTTTAACAAATTCTTCATATAATAAACCTGTTGATGGGTTACCAAAAATTTCTGAAAAAACTTCTAAAGTTAAAGATTCTTCTTTAGATTTTGTATATGTTGGAACTAAATAATGCCTTTTAAAAACAGGTATCGCAGTATTTTTTGATTTTAAAATAATTTTTCTTGGTGCATGTTGAGTTGGTTCTTCGGTCCAAATTCTTTTTTTAATTTTTGAAGGATTTATAGAACCAAAATGTTTCTTTGCTATGATAACAACTTCATCTAAACTTACATCACCGCATACGACAATAATAGCATTATTTGGTGAATAATATTTTTTATAAAAACTCATAACATCCTCTAAAGTAAGATCTTTTATTTCATGTTCCCATCCTATAATTGGTTTTCTATAAGGATGATTCATATATAACGAAGCATTAATTTGTTCAGTCAATAATGAAGATGGATTATTATCAACTCTTGAATATCTTTCTTCAAGAACTACTGTTTTCTCATTTTCAAATTCTTTTTTTATTAATTTTATATTTTTCATTCTATCAGCTTCGAGAGACATAACTAAATCAAGCTTTGATTTATTAATTAATTGAAAATAGCCAGTATAGTTTTTACTAGTAAAAGCATTTTCTTTTCCTCCATTTCTTGAAACTATTTGTGAAAACTCACCAGGTTTTAATTTATCCGTTCCTTTAAATAATAAATGTTCTAAAAAATGAGCTATACCTGATTTACCTTCAGGTTCATCAGCCGAACCTACTTTATACCAAATTGAATTAGCTACTGCAGGAACACGGTTATTTTCAATAACAACTATTTTTAATCCGTTTTCTAAAGTATGAGTTTTCGGTTCAAAACCAGCAAAAGCAAATTTAGAAATAAATATAATAAAAAAGAATAAAAAAAATCTCATTTTTAATAATTAAAAAATATAAAAGTATAAATTAGTTTTTTTTAAAATAAAAAAAAGATTTTTAATCTGAATCGCCTTTAGCTTCAAAATCTTGATCTAATGTTTCATTAGATAGATCACTAGACTGATTTAAAATATCATTTAATAATAATTCTTCTTCATTTGATAAATCTTTAGAATTTTTAATTTCAACATCCTGTTTACCAAATCCAGTAAAACTATTTGATTTATTTTTAACATAAATATTTTTTTCACTCAAAACTGTAGTATTAAAATTATAAGAATCGGATGGTACAGATGGTTTTCTTGAAATTCTTTTTTTTCTAACATTAGTATCAATTTGTCTAGAAACATTATTTTCATTAAAGGTATTTAAATTTTCAAATTGTCTAGAAACATTATTTTCATTAAAGGTATTTAAATTTTCAAAATTCTGATTTTCTATATCATTATTTACATTAGACATTTGATTTAATTGATCATCCTCGTAAATAACCTCATCATTTAAAGTATTATTTTCTAAATCATTATATTCTGGTATATCGTAATTTGTATCATCTTGACCTGTTATAGTGTTTTGCGAGGACTCAATATCAAATTCAGGTGGAATTGCCAAAGGTGGCCCAGATAAAACTGCGTTTTCACTAACTTGATTTTTATCATCTCCTCCTATTACACCACAAGAACATAAAAAAAAGATAGATAAAATAATTACAACTTTTTTTTTAAAATTTGAATAAAAAAACATTTAATATTAAATTTAAGCAATATTATCAGTTTGGCTAGTAAAAATAATATAAATATAAATAGCCGCGCCTATTGTTATATAAGAATCAGCAAAATTAAAAGCTGGCCAGTGATAGTTTCCTATATGTAAATCGATAAAGTCAACTACGGCATTATGAATAAATCTATCAATCAAATTTCCCAGTGCTCCTGAAATTATAAAAATTAATGCAAGACTTAAATTTAAATTTTTCGCTTTTAAAAACCAAAAAAAAATTATTAAGATAATTAATATTGTAATAAATATCATTATTAGATTAATATCAGAAAAATTTGATAACATACCAAAACTAATACCTTTATTCCAAACCGGAACAAAATTTAAAAAATTTGTAATTCTTAAAATCTCTTCATTTAAAAAAATATTTTTTAAAATCCAACTTTTAGATAATTGATCAAGAAAAACAAAAAAAGGTATAGATAATAGTAGTAAAAATTTAAATTTTTGAAATTTTATTAATAACACTTGAACACCTATTGCATAATTTTTTATTATTATTAACTTCTTTTGCTATTACCCAACATCTTTCACATTTTAAACCTTCTGCTTTACAAACATTAACTTTAATATCTTTAAAATCCTTTAAAAAAAATGCATCTTTAGAGATTTTATCAACTAATTTTGTTGATGATACTATAAATAAATCATTTAAATCTTGATTATCTAAATTTTTTGTTTTTTTTGAGATTAATAATTCAACAGAAGCTTCTAAACTAGATCCTAAAAATTTTTTTTCCCTTTTAATTTCAATAGCGCTTGTAACTACTTTTCTAATATCTATGATATTTTCAAATTTTTCTTTTAAAATTTTATTATTCCATTCATCATTAACTTTAGGAAAGTTTCGTAAATGAACACTGTCTTTATTATTAAAATTATCAGATAACCAAGCTTCTTCTGCAGTAAAACATAAAATTGGAGCTATCCATGCAGTTAAAAATTCAAAAATTAGTTTCAAAGTATATCTGCATGATTTTCTTTTTTCGCTTAATTTACCATCACAATACAAACAATCTTTTCTAATATCAAAATAAAATGATGATAAATCATTTGAACAAAAAAATAATAATTCTCTATAAAATTTATGATAGTTATTTTCTCTAATACAATTATTAATAATTACATTTATTTCAAACAATCTATGTAAAATATATTTTTCCAAGTCGGGTAGTTTATTGTAAGAAATTTTTTCTTTATCATCGTAATTTTTAAGATTACCAATTAAAAATCTTAAAGTATTTCTAATTCGTCTATATGTATCAACCTGAAATTTGATGATATTTTCATCAATTTTAATATCTTCAAAATAATCTGATGCTACTGTCCATAATCTTAAAATATCACTGCCGTATTTATTTATGATTTCATTTGGTGAAATAACATTTCCTTCAGATTTAGACATTTTTTTTCCATTTCCATCCACCACAAATCCATGCGATAAAATATTTTTAAAAGGGGCTTCGTTTCTTGTTCCACAGGATTCTAATAATGACGAATGAAACCAACCACGATGCTGATCAGAACCTTCTAAATACAAATCAGCAGGCCAGTTTAAATCTTTTCTTTTTTCTAAAACATATGAATGAGTTGATCCGCTATCAAACCATACTTCTATAACATCTCTTATTTGATAATAATCTTCTTTTCTGTATTTTTCTCCAAGAAACTCAGAGGCATCTAATTCAAACCATGAATCACTTCCTTTTTTTTCAAAAATATTAGCGATATTATTTATTATATTTTTATCAATTAATGGTTCTTTATTTTTTTTATTAATAAATATTGGCAATGGAACACCCCAAAATCTTTGTCTAGATATACACCAATCAGGTCTATCTTTAATCATAGCAGTTATTCTGTTCTTTCCTTTTTTGGGAAAGAAATTTATATTTTTAATTGCATCAAGTGCTTTCTTTCTTAAATTATTTTTTTCCAAAGATATAAACCATTGTGTAGTATTTCTATAAATTAATGGTTTTTTTGATCGCCATGAATGAGGATAGCTATGTAAAATTTTTTTTTTATAAAGAAGTTTTTCATTTTTCTTTAAATGCTCAATTACTATTTCATCAGATTTAAATACATGTATTCCATTTAATAAAGGAACATTATCATAATAGATACCGCTTTCATCAATTGTTTTAGGGATTTCTATATTTTCTTTTTTTGCAAGATTAAAATCATCTATACCATGACCAGGAGCAATATGAACAAATCCTGTTCCTTCATCTTTGGTTACAAATTCTGCATTATATAAAGGAACTTCAAATTTATATCCATAATTATCTAATGGATGTTGACAAATCATACCTTCAAGTTCACTTCCTTTAAATTCTTTTATTTTTTTTATTTTAAGTTCTGTATCTGAAGTTAATTTTTTAATTAAATCATTTGATATTAGAAATAAATTTTTAGAAAAATTTTCCTTAACTAAAGAATATGTAAAATTTTTATTATAAGCTAATGCTCTATTACCTGGAATTGTCCATGGAGTAGTTGTCCATGCTAAAATATTTATTTTTTCTGCTTTTTTTATTTTTAAATTATTTTTTTTTATAGGAAATAAAACATAAATTGCATTATCAGTACGATCTTTATATTCAACTTCTGCATCAGCAAGTGCTGTTTTTTCAACAACTGACCACATAACAGGCCTTGAACCTCTATAAAGTGAACCATCTAACAAAAATTTTCCAATTTCTCTTACTATTTGCGCTTCAGCATCATAAGACATTGTTAAATAATAATTATCCCAATCACCCAGTATGCCAAATCTTTCAAATTCCTTTTTTTGAATTTTGATCCAATCTTCAGCGAATTTTCTGCATTTATTACGAAATTCCTTTAAATTAATATTTTTCTTTTCATTACCTTTTTTTCTTAATTCTTGTTCTACTTCCCATTCAATTGGTAATCCATGACAATCCCAGCCTGGAACAAATGCCGCGTCTAATCCTTGCATTTGTTTCGATCTTATAATTATATCTTTTAAAATTTTATTTAAAGCATGGCCCATATGTAAATGACCATTTGCATAATGCGGTCCATCAAGTATATTAAATTTTTTATTTTTTTTTAGTTTATTTCTTAATTTTTTATAAAGATCTTCTTTTAACCATTTTTGTATTAATCTAGGTTCATTTTTAGGTAAGCTTGCTTTCATGCTAAAGCTTGTTTCGGGTAAAAAAAGTGTATCTTTATAGTCCATTTTTTTTATTATTTAATAAATCTTTTAGCCAACAAAATATCTTTATTTATTTGTTTTTTTAAAAGTTCAATATTCTCAAATTTTTTTTCTTTCCGTAAAAAAGCTAATAATTCAACAAATATATCTTTTCCGTAAAAATTTTTTTTAATTTCAAAAAAATGATTTTCAAAAAAAACTTTCTTTTCATTAAAAGTTGGTCTATTTCCTATATTAGCAATACCATAATATGCTTTTTTATTATTTTTAAAAAAACTTTTTGTAACGTACACACCTTTCATTGGCAAAATATAATCCTTTATAAAAAAATTTGCTGTCGGATATCCCAAAGATTTGCCTCTTCCACTACCCTTAATTATTTTTCCTTCTAATAGCCAATTTCTACCTAACATATCTTTTACATTATTGTAATGTCCTGTTTTAATTTTTTTTCTTATTAATGTAGAATTAATTACTTTTTTATTTTTATTCAAAACACGACTTATGACTTCTAATTTATAAGAATACTTTTCAGAAAACTTTTGTAAAAGATTTACATTTCCTTTTCTTTTATAACCAAAACGAAAATTATATCCAACAACAATAAATTGTGGGTTTAAATCAATTATTTTTTTAATAAATTTCTCAGGAGATAATTTTGTAAAATCCTTAGTAAATTTTATAAATATTAAATAATTAATACCCATTTTTTTTATTTCTTTAATTTTTGTATTTTTATTTGTTAATTTAAAAGGTGATTTATTTTTTTTAAAAAATTCGTTTGGATGTGGATCAAAAGTTATAACAGCTGAATTTAAATTATATTTTTTGGAAATCTCTACATTTTTTTTTAAAATTTTTTGATGTCCTTTATGAATTCCATCAAAATTTCCAATTGTTAAAACTGTTCCTTTTTTTAAATTTAAGTATCCATTTAGGATTTTCATATTAATCTAATTTTTTGGAGGAGGAATAACTATTGCTGTTCCTTCTAAAACAATATTTTTTTTTACAAAACATAAAGTTTTAAGTTTACACCATTTTTTTTTTAAAATTTTTTTTTCAACTATTATTTGAACTTCAACAAAATCATTTATTCTAACAGGTCTCTTAAAGTTTAAATCTTGAGACACATATATAGTTCCATTACCAGGAAATTTATTCCCGATTACTGATGAAATAAATGAGGCAATCATCATACCATGGGCTATTCTTGTCTTAAAAATTGTTTTTTTTGCAAAACTTTCATTTAAGTGAATAGGGTTATTATCACCTGAAGCAATAGCAAATTTTTTAATATTTGAACTTGTAACTTTAATATTTTCACTATATTTTTGATTTACCCTAAGATTCTCAAAATAAAATAATTTACCCATTTATTAAAAATAAAAAAAATTATTAAAACAATTTTATAAAATTACTGTAATATTATATTTAATTAATATATAAACAATAGGTCATCAATGATAAAGATTTATATAATTTTACCTTTACTAATTTTAGCTGCATGCTCAAATGACATGAAATTTTCTAATTTTAATAAAAAAAATAATAATTATAAAACATGTTTAAATGATGCAAATCATAATATAAATACTAAAGTAAATATAAATCAAGACAGAAACGATATGCTACAAACAGATGATACTATGGTGGACTTATATAATATCGGTAATGAAATCGATGAAATTAAACTATCAAACAAAAGAAATGAAATGATAAAAGATTGTTTGAATAAAAGAAAATAATAACATAATATTTATTTGTTTTTTTAATGAATTTACCAGAAATCATAAATATAAATAATCTTAATTTGTTGGCAAAAGGCGGCCCTGTAATGTTTATTTTATTAGGATTTTCTATTTTTGCTTTTGCAATTATTTTATTTAAATTTATTCAATTCTTATCTACTGATCTATCTAAAAATAAAAAAATAAATGAAATTCTTTCTAAATTAAATGGTTCAAATGCAAAAAAACTTCTTTTAGAAATCCAAAAAATAAAAAGTCCCATTGCAAGAGTTATAGAAGTAGTAATAGCTACTAAGAACGATCGAAGGTTCGATAAAGACTCAAGAGAAGCTGAGGTATCACGAATTATATCTGTAGAAGTTAGATTTTTAGAAAATTATCTTGGTGGTTTAGAAGTTATTGCCAGCATCAGTCCTTTACTTGGACTTTTTGGTACTGTTCTCGGAATGATTAAAGCTTTTTTAAATTTAGAAAAGGCTGGTTCACAAATTGATCCAGCTCTATTAGCTGGTGGAATATGGGAAGCCCTTTTAACTACTGCATTTGGTCTTGCAATAGCTATACCAGCATTAGCGGCATATCACCTTTTTGAAAATAAAATAAGTAATGCTAGAGATACTATTAATGATGCTGTTGTAAGAACAAATACCCTGTTAAATTTTAAAAAATAATAAATTTGAAAACCCACACTTTTTATCAAAAAGAAGAAAAAGAATTAATTTCTATTAATATCACACCTTTAATAGATATTGTTTTTTTATTACTTGTTTTTTTTATGTTAGCTACATCATTTATTCAAAAAAGTACAATTGAAGTTAATTTAAGTGCAAATGAGGCCACTGAATTAGACAAGGAAAAAAATACATTAACAATTATTATTAATAAAAAAGGCACTGTGTATTTCAACAAAAAAATAATAAATACTAACGAAATTAAAAATTTAATTAAATCTAACTTAAAAAAAAATCCAGAATATAAAATATTAATTAAAACTCATAAAAAGATTCCAGTACAAAAGGTAATAAGATTAATTGAAGAAGTTAGATTAGCTGGAACTGACAAAATAAAATTATTAAATTTAAACTAAAAATGGCTTTAAAAAAAAAAATAAAACAAATAAATTTAATACCATTAATTAATATTATCTTTTTAATGTTAATTTTTTTTATGCTGGCAGGAACCATAACTAAAATTGACCCTCATAAAATAAATATTCCAGAATCTATTATTAAAAGTAATCCAAAGACTCCTTTTCTAACATTAATTGTTAAAAAAGATGGGGAAATTTTTATAGATAGTAAAAGTAAAAAAAAAGGATTAGAAAAAAAAAATTATCTCAACATAATAGAAACTAGAAAACCAAAAGAATTAGCACTAAAAATAGATGCTGAAACACCCTCAGAATATTTTCTTAACTTATTAAAAACACTTGAAAAATATAATATAGAAAAAATAGTTGTTGAAACTAATTATTTTAAACAATAATTAATATGAAACAAAAAACTGATATATGGATAATAAATTTAGCTTTTATATTTTCGATTATTTTGCATATTTATATAATTTTTTTTATTAGCGACTTTAATATTAATTTTAAAGAAAAAAAAAATAAATTTACTATCACATTAGCTCCATTAGGAAATCTTGATATAAAACCTAAAGAGTCATTAAAAAAAGAAAAGATAATTCCTAAAGAAGTCCCTGAAATAAAAAAGAAAAAAAAAAAAAGTGAAATAAAAAAGAAAAAAAAAAAAATTGATTTAAAAAAAACCTTACCTTCTGAAAAATCAATTAAAAAAGAGAAAACTACTGAAAATAAAAAAGGGGGAAATTTAAAAGGAATAGAAGGAGGAGTATCTAAAAAAATTATTAATCAATATGTTACTCAAATTTATAAACTAATTGATTCAAAAAAAAAATACCCTAGACAATCTTTAATAAGAAAAGAGGAAGGAGTTGTTTTAATGGAAATAGTTATTCGAAATGATGGAATGTTAATGAGTGTAAAATCAATTAAAGCTAAACATCAACGTTTAGTTGATTCAAGTTTTGACGCTGTAGAATTAGCAGCTCCATTTCCAGCTTTCCCGAATAAAATTAAAAGAAAAAAAATGAATATTCAGGTTCCTGTAATTTACAAAATAAGATAAAAAACTAATCTTTCATATGATGTCTTGAATTAACTGGCTTAACAAGAAAATTTGCAACTAAAGCTATGCCTAATAAACAAGCCATAACTATCATAGTTTTGTTATAAACTTGACTTGTTGGATCTGGTGTACCAGCAGGTAAAATTTCTAATAAATTCTGAATTGTAACAGTTTTTGCTTTTACAAGTTCATCAAGACTTTCTATACCAGCACCAAATTTTTCTGAAAAAATTTGAGGGTCTACTTTCATAGCTAAATCATTTATAGCATTATTAATAGAACTACTTCTTAAAGATGTAATAATTACAGGTCCTAAAACTCCTGCTGTGCTCCAAGCAGTCAATAATCTTCCATGAATACCGCCAACATACTTTGTTCCAAACATATCTGCCAAATAAGCAGGTATAGTAGCAAATCCACCACCATACATTGTAAATATAATTAAAGTAGCTCCATAAAATAAAATTAACCAGACGACAACTGGAGCTATATCAAATGTTTGAGCAGAAATAGGAATTGAAGAATAAAGAATTATACCAAGAATAAAAAAACAATAATAAGTATTTTTTCTACCTATAAAATCCGATGCACTAGCCCATATAAAACGTCCAGCCATATTAAAAATACTTATGAGCATTACATACCACGTTGTAAAAGCACTTGTAACAATTAAAGCTGCTTTCTTTTGAAATATTTCAGTAATCATGGTTTTGGCTACACCCAAAACCCCTATACCCGCTGTAACATTAAAACATAAAATTACCCATAAAAGATAAAATTGTGGCGTTCTTAAGGCTTCATCAATATGAACATGTTTCGTAGTTATCATTTTTTTTTCAATCTCAGCATCACTTGGTGGTTTCCATCCTTTAGGTGCCCATCCATCTGCTGGAACTCTATAAGATAATGCAGCAATAGTCATAACTACAAAATATATAGCACCAAGCGTAAAAAATGTTTGAGCAACTCCTACAGATCCTGTTCCAACTAAATAAATCCCCGGATCGCCTGGAACTATCATATTTGCAACATCATTTACACCTACAACAACTACTTCTTTTAATCCATCAGCTGTTTCAGCAAATCTTTTACCAGCTTCTGTGATTAGATCTGATTCTGAAATATTTGATAACAATTGTGGTGCTTTGTAATAGTATTGAATAAAAAAATCTTTAATACGCGCTCCAAAAAAAGCTCCTCCTCCAAACCCCATAATAGCCATACCAGTAGCCATTCCTCTTCTATCAGGAAACCATCTAATTAAAGTTGAAACGGGAGACACATACCCTAATCCGAGTCCGCAACCACCAATAACTCCATAACCTAAATAAATTAACCAAAGTTGATGATTAATAATTCCTAAACTTCCAATTAAAAAACCTCCACCCCAACAAAAGGCTGCAACTAAACCAACCATTCTAGGTCCAACTTTTTCTAACCATGTTCCAGCAAAAGCTGCTGCTAAACCTAAAAAAACAATTGCTGTTGAATAAATCCATACAACTTCTTTTAAAGCCCAATCATCGGCTGAACTTGTTACAACTCCTATGGCTTTTATTAATGCTGGATTAAAAATACTCCATGCATAAACAGATCCGATGCATAAATGAATTGAAACCGAGGCAACAGGAACCCACCATCTATTAAATCCAGGTTTACCAACAATTTGTTCTTTTAGTAAAAGTTTACCAAAATTACTTTCTGTAAATCCTATAATCTTAAAAATTTTTATAATTGAAAATATGATAATTAAGCCAAGTAGAACAGCTACGGTAATATTCTGCCACAAGGCAAGTTGACCCAAATCTAAAATCATTTTAAATAGTTAAATAAACATCCCTAAAAAGAAACTTAAATATAGCAAAGATTCATGACAAATAAATTAAAAAAAATATTTTTTATTTACAATATGAATCTATAAGAGACTCAAAAATAACTTTTGATGCATCTAAATTTTCTTTATCAGGATTTTTTTTTACATATTTAATAAATATATCTTTGTGTCTTTGTAAATTTAATACATTGGACAAACATAAATCAGGTAAATTTTGATTATTTTCTGATTTTATTAATTGATATGTATTAATAGCTGATTGAATATATCTAACACATGGATATTCCCTTTTTGCTTCTTGTTGCGCAGCGGTTTCCCCAGGTATCCATGCCTCACATTCAAACATTAATTCTTTTGCAGTAAAAGGATAAGAAATATTTTTGACTTCAATTGAATTTGCTGGATACAAAAATAAAAGAAAAATATAAAAAAGTATTAAAATTTTCATAAAATTATTTTGCAATAAAAATAAATGCATTTGCATGAAATTCAGGGCCATAATCTATTCTATGATTTTTATCACCATCAAAAAACTTTAAGGGAGTTAATGTTTCCCCAATTAAAGCAAAGCCTCTATAACCAAAATTTAAAATTTTCTTAAGTGTAATTTCTATAGATTCTGATATGTATCTTTCTTCTATTTCAATTAATAAAGTAGGCTTATTCTGTTTAATTAATTTTTTTGCTCCTTTTAATATTTTCATTTCAACTCCTTCAGCATCAATTTTAATAAAACCTATATTTTTTAATTTAAGATCATCAATTTTTTTTGTTACAACTTTTAATATACCGATATTTTTATCCAACTTTACATTTCTAATTGATCCTCCTTGATTCGAATAACCTTTTTTGCCTTTTGGAATTTTTAAAAAATCTACTGATGATCTATCTGAAAGAGCATAAGAAAAAACTTTAACATTTTTACTTACAGTCTTTTTTAAAATTTTGTAAGATTTTGGATTTGGTTCAAAAGCATAAACTCTTTTAGAATATTTTGAAATAAAATAAGTATAAACTCCTTTATATGCTCCAACATCCAAGGAATTACGCTTATTATCTATCAAATATTTTAAAAATTTAATATCAGTTCTACCTTTTATCCATTCTTTTAAAACTAATCTTCTGATGTATAATTTACTTGGAATAATTATATGTTTTATTTTTTCTTCAAAACTACTTGGAGGTAGCCAATTATCTTTTTTTTGCGATAGTTTCATTTTGTTTAATAAAAATATAAATACCTTTTTTACAGTAATCTTAATTATTTTAACCTTTACAGTTTTTTCTAAAAATTTCTATAACGAAATAATAGTGAAGTATTTAGATAATATGCATTTTTTTCAAGTCTTTTTTTCTGATTTTTATTTAATTTTTGCTGGTGCAGAAATTTTAAATAATGGAAATAATCCTTATAAAGAATGGATAGATATCCATAATTCACCATTTTTTAATCCGCCAATAGTATTTAATTTATTTAAATTTGTAACTAATTTTGATTACACAACTATTGCTAAATTTTGGTTTTTTATTTTATTTTTTTCTTTCATTTCCATTCCTTTAATACTTTTCAAAATTTTTAAAATAAATTATAAATTTTCGCTAATTTTTTTTATATGTTTTGGAGGAATTGCTTTATCAGTATTTTTAACTGGAAATTTATCTATTTTACTAACTTTTTTATTTGCAATAGGCTTATTTTTTTTAAATAAAAAAAAAGATCATATTTTCTATATAATCTTATCATTTCTTTCAATTATTAAATTTCCATATTTAATTTTTTTTGGCATACCCTTTTTATTAAAAAATTTAAATAAAAAAATTTTTATAAATACGTTTTTTTATTTAACTATTATTTGTTTAATTTACTTAATTTCTTTCCAATTAAATAATGAATTATTTTCTAGTTGGATAATTTCAATCGAATATTCCAAAAATATTGGAGATCAAGGTGATTTTGGTAGAGGATTATTTCGAATATTAGATAGTTATATTTATTCAAATAATAATTATAAATATATAACATATTTTTTAATTTCTGGATTTACATTTCTTTTTTTAATTTTTTTATCAAAAAAATCAGAAATTTTAAATAAGAAAAAAAATAAAAATTTAATTTTAGCTTTTAGTGTTATTTCTCTTTCTATGCTTCTTCCAAGATTAAAAAGTTATGATATATTAATTACATTACCATGTTTGTTTTTTTTAATTGAGAATATAAAATTTAAATTTTCTGAATTTGTAAATTCATTTATAAAATTTTTATTATTTTTATTTTTATTTTGTATAACAAGTCCATATGGGCCTATATCATTATATTTATTAATAGTTATTATTTTTACTTCAGACCTAAAATTTAACTTTATACAAAAGAAATAAAAAATTATAATCTATATAGCTTGGGCGTGTGCTGGAATTGGTAGACAGGGTGGTCTCAAAAACCACTGGTGGTAACACCGTGACGGTTCAAGTCCGTCCACGCCTACCATATTAAAAAAAAAAATGATAAAAAAAATTTATTTAAAAATATTAGAACTGTCGAAAAAAAAATATGCTTTAACTGTTTTATTAATAGTAGCTTTCTTAGAAAGTTTTATTTTTCCAATACCGCCTGATATTTTTTTAATTTTTTTAATTTTATCGCAAAAAAGTAGAGCGTTTTATTTAGCTTTCTACTGTACTATACTTTCTGTTGCTGGTGGAATTTTAGGTTATTTTATTGGTAGTTTTTTCTTTGATAGCTTAGGGCAAGGCCTTTTAAATTATTATAATTTAAACGAAAATTTTATAGCTTTTTCAGAAGGATATAATGAAAGTGGTATTTTATTTGTAATCATGGGTGGTTTTACAATAATTCCATATAAATTAATAACTATCGCAAGCGGATTTGTTAAAATGGATTTTTCTTTATTTTTAATTGCCTCAATTATTTCTCGAGGTGCAAGATTTTTTCTATTAGCAACTTTATTATATTTCTTTGGTAAAAAAATTGAAAATCTATTAATTAATAGATTTGGTTTAATTACAGCAATAATTTTTATAATTATAATAATAATGTATTTAATAATTAAACATTTAGGTATTATTTAAAAATGATTTTTAAAAACAATAATTTCTTAAATTTATTTTTTTTGTCCTCAAGTTTAATTATTTTATCAATTGTTTATTATTTAGAATTTTTTTTAGGTTATATACCTTGTGAATTATGTATTTATCAAAGATTTCCCTATTTTATAATTATCTTATTATCTATTTCATATTTATTTATAAAAAATAAAAAATTAAAAAAAATTACTTTTTTATTTTATATTTTAATTTTTTTTTCAAGCCTAATAATTTCTACTTATCATTTTGGAATTGAAAATAATTTTTGGAAATCACTAACAGAATGTAAAGTTAACAATGAAAATATAACAAATAATGAAGATATTAAAAATTATTTATTAAATAAAGATTATGTATCTTGCAGTGATGTTTTATTTAAAGTATTTGGAATTTCTTTGGCTGGATATAATATTTTAATTTCCTTTTTTTTATTCTTTATTTCTATAATTGGATTTAAAGAAATAAAAAACTAAGGTTCTAACTCTGTATCCCAATATAAAAAATCTTTCCAACTATCATGTAAATAATTTGGTGGATATTTTTTTATATTTTCTTGCAAAAATGAAATTGATGGTTGAAAAGGTTCTTTTTTAATTGATAATTTTAATTCATTCAACATTTTATTTCCTTTAGAAGTATTACAATCTGAACATGCAGTAATAACATTTTCCCATGTAGTTTTACCACCTTTAGATTTCGGCAAAATATGATCAAAAGTTAAATTATTTTTTGAATTACAATATTGGCATTCAAACTCATCTCTAAGAAAAACATTAAATCTAGTAAAAGCAGGTTTACGAGAACATATTACATATTCTTTTAAAGCAATAACACTTGGTATTTTTATTTTTATCGATGGTGAACGGACAATCTCATCATATTCAGATACAACTGATACTTTTTCTAGAAAAACAGCTTTTATACTTTCTTTCCAAGAACATATCGATAATGGGAAATAGCTTAGTGGTTTAAAATCTGCGTTTAGTACAAGTGTTTTAAAGCTCATATTTTAAAAATAATAAACATTGTTTAAAAAGACAAATTATTATTAACATTTTAACAAATATTTAACAAGAAAGTTTTCTCCTATATCTAATCCTTCTTGATTAATACCATGCCCTAAATTATCTAATGCATTTGATTCAACTTTTACATTATTTTCTTCTAAAAAGATTTTTGAACTCTCCATCATTTTTATTGGAACTACATCATCATTTTTACCATGAATTAAACAAATATTAGGTTTTGAATTAATTTCTATTTTTCCACTCTTTGATAAAACAATACCACCGGAATATCCTAATACTCCTCTAATTTCTGTATTCATATTTATAGCTAAATTCAATGAAACCATAGTTCCTTGACTAAAACCTACCATTATCAAATTTTTAAAATTTAACTTATGTTCATTTAATTTATTTTTTAAAAAAGAGATGATAACAGGTTTTATACTATCAATTTCTTTTAAAATTCTTGTTTGATCTCTATCTTCTAGACCAAACCATTCTCTACCAAAAGGTGCTTGTTTATAGGGATTGGGTGCATTAATAGAGTAAAATTTTGTTTTTTCTAGTTTTTGTGACCAATGTTTTGCAAGCGGAAGTAAATCAGATGAATCTGCACCTATACCATGCAACAAAACAACTATTGAATTAATTTCAATATTTTCTTTTGGAAATTCTTCAAAATCTAAATTTTTCATTCTTAATATTTTTTAAATCTTTTTAAATAATTTGGAAGTATCAACTCTAAAGAAACAGGATTAATATTTAAATCTTGAAAAGTAAATTGATTATTAGAAATAATATTATTATTTTCTAAAAGTTTTATTTGATCTAATGTTAAAGGTGGATTAGGTAATAATTTAAAAAAATTTGCCATTAATTTTGCAATTTTTTTTGGAAGATATAATAAAATTCTCTTACGATTAATAATTTGTAACAATATTTTCATTAATTCTTTAAAAGAATAAATATTTGGGCCACCAAATTCATATATTTTATTAAATTTATTTTTTTTCAAAATCTCTATTATTCCTTTAGAAACATCATCAACATATACTGGTTGAAACTTAGTTGTTCCACCCATTATCAATGGCAAAAATGGACTAAACATAGACATTTTTGCAAATTTATTAAAAAAATTATCATCGATCCCAAAAATAATACTTGGTCTAATAATTGAAAATTTTTTACATTTCTTTTGAATATATTTATCTGCTAATAATTTACTTTTTGAATATTGGGAATTTATATTTTTTTCAACACCTAAAGCTGAAAGATTTATAAAAAATTTTTTTTTTGAATTTATATTATCTACTATATTTTTTACAAACTGATAATGAATTTTTTCAAAATCATTTTTTTCTTTTTCAAACAATATACCTACTAAATTTATAATTATATCTGAATTATCTATTAAATTTTTTAATTTTGAAGTGTTTGATAAATCAAATTTTATAAGATTAATTTGTCCAACATCTCCAATTGGTTGTAAATCATAGGCTTTCGAGGGACTTCTTGTTGGAACTGTTATTACACACTCATTCTCACATAAAAATTTAATTAAACTTTTTCCCAAAAATCCAGATCCTCCGAATACTGTTACGTTCAAATTTCTTAAATGATTCATTATTTAATAAAGTAGTTTAAAAAAAAAAAAAAAATATTGATTTTTTTTATAAAAATGCCACATCTTAGCATGGCCCAAAAAGTTAAAAATATCAAATTTTATAAAAATGATATTCCATTGAATATCAAATTTAAGCATTCTATAGCAATCGATACTGAAACTATGGGATTAAATATTAATAATGATAGATTATGTTTAGTTCAAATTTCTGATGAACATGGAAACTGTCATATAATTCAATTCCAAAAAGATTCCTACAATGCCCCTAATCTAAAAAAAATTCTTAATGATAAAAGAATTTTAAAAATTTTTCACTATGCTAGATTTGATATTGCTGTAATAAAAAAAAATT
>sequence19
AATTTAAAATTGTTTTATCATTTAGCAAATATTGGAGATTCAAGAAGTCTTGCTATCCATCCATCTAGCACAACTCATTCTCAATTAACTTCTGAAGAACAAGCTGCTACCGGCGTAACACCAGGTTACGTAAGACTATCTGTAGGAATAGAGCATATCGATGACATTCTAGAAGATCTTGAACAAGCTTTGAAAAAAAGTTAAATATTTGTAATAATCTAAAGTATTAAAATTATGAAAGGTCCTAGCGTAGCAATTATAGGTTCAGGTCCAAGTGGATTTTATACTACCGAATCTATTACAAAAAAAATTAATTCTGATATTGATATTATAGATCGTCTACCAACGCCTTTTGGTTTAATAAGAGGAGGGGTCGCGCCAGATCATCAAACTACAAAGAAGATTTCAGCAGCTTATACAAAAACTGCTAAAAAAAATAATGTAAGATTTTTTGGTAATATTGAAATTGGCAAAGATATTTTAATTGAAGAATTAAGAAATATGTATGATGTTGTTATTTTAGCAATAGGATCTGAGTTAGATAATAAATTAGAAATAAAAGGAGCAAATTTAAAAAGTGTTTATGGGTCTGCTGAATTTGTCGGTTGGTATAATGGCCACCCTGATTATGTAAATTTAAATCCTAATTTAAATACTAAAAATGTTGTTGTTATTGGAAATGGTAATGTAGCCATTGATGTTGTAAGAGTTTTATCAAAAACTAATGAAGAAATGTTAACATCTGACATACCAAAAAATGTTTTAGATGTTATAAACAAATCACCTATTGAAAATTTATATATAGTTGGAAGAAGAGGGCCTGTAGAAGCAAAATTTACAAATGTTGAACTTAGAGAAATGGGTAATTTAAAAAATTGTTTACCCATTGTAAATAATTCAGATTTACCTGATGATTTAAAAGGTAATTTTTCTGAAAGAGATAAAAGATTAATAGAAAGAAACTTAGAAACATTAAAAAGTTTTTCATCTATAAATAAAGAAAATAAAGAAAAAACTCTAAATTTCACTTTTTTTCACAAACCAATTGAGATCACTGGGGGTGAAAAAGTTGAGTCAATTAAATTTGAAAAAACAAAAATAGAAAATGGAAAATTAGAGAATACAGGCGAAATAATAGAAATTGATTGTGGATTAATAATTACAGCAATTGGTTATAGATCTAAAGATATCCCTGATATAAAAATATCTAATGGTATAGTTGAAAATAATAATGGAAAAATTGATACAGGATTTTATACAGTAGGATGGGCAAAAAGAGGGCCTACGGGTGTAATAGGAACTAATAAAGCTGACGGAGAATTAGTAGCAGATTTAATTAACAATGAATTTAAAATTCAAAATAAAAATGGAAGGAAATCATTAATCGAAACAATAAAATCAAAAAATTTAACAGCAACAACTTTCGAAGATTGGGAAAAAATTGATTCTTATGAAAAAAATAATGCGAAAGATCCAACACCTAGAAAGAAAATTCTAACTATAAAAGAAATGTTAAATTTATGTAAAATATAATTATGAGTATTGATTTCTCAAAAGTAGATCAAATTAATTCTTGGCCATTTCAGGAAGCAAAATTAATTAAAAAAAAGATTAATAAAAAACCAGATAAAGGATATGTTTTGTTTCAATCTGGGTATGGAGCTTCAGGATTACCACATATTGGCACATTTGGTGAAGTTTCGCGAACCCAAATGGTAATGAATGCATTTAGCAAGATTTCAGATATTCCTATTAAACTAATTACTTTTTCTGACGATTATGATGCTTTAAGAAAAGTTCCAGAAAATCTTCCTAATCAAAAAATGTTAAATGAAAATTTAGGAAAACCTGTATCATCAATACCAGACCCATTTGGAAAATATCAATCTTTTGCAGATAATGTTAATAATAAATTAAAAAGTTTTTTAGATAATTTTGGAATTAAATTTGAACTTAAAAGTGCAACAGAATTATATAAAACAGGTTTTTTTGATAAGTACCTTTTAAAAGTTCTTAAGAATTATAAAAAAATAACTGAAATAGTTTTGCCAACAATTGGATCAGAAAGAAGATCTACTTATAGTCCAATTTTACCAATAAGTAAAAAAACAGGAAAAGTTCTTCAGGTTCCTATTAAAGTAGAAGATGAAAAAAAAGGAGAAATAAGTTTTATAGATGAAGATGGTGATAATTGTAAAACTTTAATTACAAAAGGAAATTGTAAGTTGCAATGGAAAGTTGATTGGGCAATGAGATGGGATGCGCTTGATGTAGATTATGAACTTTACGGTAAAGATCTTGTAGATTCAATAAGAAGTACAATAGAAATTTGCAAATTATTAGGGAAATCTCCACCTTTAGGATTCAATTATGAACTTTTTTTAGATGAAAAAGGTGAAAAAATTTCAAAAAAAAAAGGAAATGGAATGTCAATAGAAGAATGGTTAAAATATGCTCCTTCTGAAAGTTTATCGCTATTTATGTATTATACTCCAAAGAAAGCAAAAAGATTATATTATGATGTTATACCAAAACATGTTGATGAATATCTTAGATATTTAAAGCAATTTGAAATTCAAAATGATATTGAAAAATTAAATAATCCTATAATACATATTCATAGTAATAAAATACCAAAACCAGAGATTGATATAAGTTTTTCGTTAATTCTAAACTTAGTTAGTGCTTGTCTAAGTGATGATAAGAATATTATTTGGAAATATATTAAACTATATATACCTAATATTAGTTCATCAGATAATCTTTATACAGATAAGTTAGTAGAATTTTCTATTCAATATTATAAAGATTTTATTGAACCAAATAAAAAATATAAAAAACCTAATGATGATGAAAAAAAGATTCTTAAAGAACTTATAGAAGTTTTAGAAGAATTTAATTCAAAAGCAACTTCAGAAGAAATACAAAGTGAAATTTATGAACTTGGAAAAAAAAATAAGTATGAATTAAAAGATTGGTTTTTATTTCTTTATGAAATTTTGCTAGGACAAAAGAATGGACCTAGATTAGGATCTTTTATTTTACTTTTAAGTATTAAAGAAACTATAAAATTAATTGAAGATAGTTTTTTAAGATAAATAAATTTATTTTGAATATTTATTGGCATATTCTATTATTTTTTTAACCATTGCGTGAAGACCATTTGTTCTACTAGGAGTTAAATGAACACCCAACCCAACTTTTTCTATAAATTTAGGTGGATTATTAATTATCTCTATTGGCTGTCTATTAGAATATATTCTTAATAGCATTGCTATTAAGCCTCTTGTAATAACTGAATTACTATCAGCTTTAAAATCTAAAATATTATTATTTATTTTTGGTACTAAAAAAACTTCAGAAACACAACCTTCAACTTTATATTTTTTAATATGATATTTATCAGGAAGCATATCTAATTTTTTTCCCATATCAATTATATGCTCATATTTATCTTGCCAATTATCAAAAAAAGAAAATTCTTCAATAAGATCTTTTTGTTCTTCATTAATTGTTTTTTTTTTGTTCATAAAAAAATAAGTGAATATTATATATATAAGTAAATAAAAATTGTTTTATAGTTAATAAAATTGTTAGAAAAATTATATAGAAAAATCATTCCTTTATTAAATTTTGTTCCACCTGAATTAGCACATAATTTGGCAATAAAATTTATAGCTAATTATAAGAAAGAAATGCGAAAAGACAGTTCTATTCTTAATACAGAAGTATGTAATTTAAAATTTTCAAATCCAATTGGCTTAGCCGCTGGCTTTGATAAAAATGGTGAAGCATGCGATGGTCTTGTAAGTTTAGGATTTGGTTTTATCGAAGTTGGTACAATTACACTTAATCCACAATCTGGAAATAAAAAACCAAGAATTTTCAGACTTATGGAAGATAAAGCAATTATTAATAGACTTGGATTTAATAATATTGGATCTAAAAGAATTTTAGATAATTTAAAAAAATATGATTTTAGAAAAAAGAATGGAATAATTGGAGCAAATTTAGGTAAAAACTTTGATAGTAAAGAACTATTTAATGATTATTTAAATTTATTAAAAATTTTTGATAAAAAAACTAATTATATAACTTTAAATGTTTCCTCTCCAAACACACCTGGTTTAAGAGAATTAGAAAAAAAAGATAATTTTGATAAGTTAGTAAATAAAGTTTCTAATTTGAAAAAACAAAAAAAAATTAATGTTCCAGTTTTTATAAAATTAGATCCTGATTTATCAAAAAAAGAAACTTCTGATATAGCAGAAATTATTTTAAAATCTAAAATTGATGGAATAATTATTTCTAATACTTCAATTAATAGATCAAATAAATTAATAAGTAAATTTTCTAAAGAAAGCGGTGGAATTAGCGGGCTACCTATTAAAAGTAAATCTAATAGATTATTGAAAGAATTTTATTCTTTAACAAAGGGTAAAATTCCATTAATAGGAGTTGGGGGAATATCAAATGGTCAAGATGCTTATGAAAGAATATTAAGTGGAGCATCTTTGATACAGCTTTATACTTCTTTAGTATTTAATGGACCGATAGTAATAAATAAAATTAAAAATGAATTAATTTATTTACTAAAAAAAGATAATTATAAATCTATTAGGCACGCAGTTGGCAAATTAAATAAATGAAAAAATTAATTATAAAGCAAAATATTTCTGAGATAGAAATGTTTTATGAAGTATTTTTTTTTGATCTTTATGGGGTTACTCATAATGGATTTAATTTGTTTCCAGGTGTGATTAATATATTAAAAAATTTAAAAAAACTAAAAAAAAAAGTTATTTTTATTTCAAATGCTCCAAGAAAATCAAAAAAAATTAAAGAATTTTTAAAAAAATTGGGTTTGAGAAATAATTTATATTTTGATGTTATTACATCTGGTGACATTGCACATCAAAGTTATTTACTAAAATTAAAAAAAAAAAAATATTTTTTTATAGGAGCAAATAAAGATAATGATTTTTGTGAGTCTTTAAATATTACTAGGGAAAAAAAATTAATTGAATCTGATTTTATTTTAAATTTAGGTTTAAATTTTGGGGAAACAGTAAATAATTATAATAGAATTTTAAAACAAGCTGCTAAATTAAAATTGCCAATGATTTGTGTAAATCCAGATATAGAGGTAATAAGAGGAAAAAGAAAAGAAATATGTGCAGGAGCATTGGCATTAAAATATGAGAATTTTGGAGGAAAAGTTAAATATTATGGTAAACCTTATAAAAAAATTTATCAGGAATGTTTCAATAGAATAAAATCTATTAATAAAAAAAAAATTTTAGCAATAGGGGATTCTATTAGAACTGATATATTAGGTGCAAAGAATTTTAGTATTGATTCTGCTTTAGTTTTAAGTGGAATAGATAAAAAAATAAAAGAAATTGAAAAAATTTGTAAAAAAACAAATATATATCCAAAGTTTATATTTAATAAATTATAAAGGTAAAAAAAATAAAAAAAAAATATTTAGATTGGAAAAGATTAGCTGAAAAAGAATTAAACAAAAAAAAAATATCTAATCTGAGCTCAAAAACTCCAGATGGGATAGAAATTAAACCTTTGTACACTTTTGAAGATTTAAAGAATTTAGAACACATTAATAGTTTTCCAGGTTTTTATCCATATTTGAGAGGGCCAAAAGCAACAATGTATCCAAATAGATCATGGACTATAAGACAATACGCTGGATTTTCAACTGCAGAAGAATCTAATGCATTTTATAAAGATAATATTAAAAATGGACAAACAGGATTATCTGTTGCTTTTGATTTAGCAACACACAGAGGTTATGATTCTGACCATCAAAAAGTGATAGGAGATGTTGGTAAAGCTGGAGTTGCTATAGATACAGTTGAAGATATGAAGATTCTTTTCAAAGGTATACCTTTAGATAAAATGAGTGTATCAATGACTATGAATGGAGCTGTTTTACCAGTACTTGCTAATTTTATAGTTGCTGGTGAAGAACAAGGAGTTTCACAAAACAAATTATCAGGAACTATTCAAAATGACATTTTAAAAGAATTTATGGTGAGAAACACCTATATTTATCCTCCAGTTCCAAGTATGAGAATTGTTTCTGATATTATTGAATATACTTCTAAAAATATGCCAAAATTTAATTCTATTTCAATATCTGGATATCATATGCAAGAAGCTGGTTCCACAACAGCTCAAGAATTAGCTTTTACTCTTGCAGATGGAATTGAATATGTTAAATGTGCTTTATCAAAAGGTTTAAAAGTTGATGATTTTGCACCACGCTTATCATTTTTTTTTGCTATTGGAATGGACTTTTTTATGGAAATAGCAAAATTAAGAGGCGCTAGATTACTTTGGTCTCAATTAATGAAACAATTCAATCCAAAAGACCCAAGGAGCTCAATGTTGAGAACTCATTGTCAAACATCTGGTGCTAGTTTAACAGAACAAGACCCTTATAATAATGTTGTAAGAACAACAGTTGAAGCAATGGCTTCTGTTTTAGGTGGAACACAATCACTTCACACAAATTCATTTGATGAGGCTTTGGCATTACCAACACCATTTTCAGCAAGAATTGCTAGAAATACACAATTAATTTTAGGTGAAGAAACAGGTATAACAAAAACAATTGATCCGTTTGGAGGTAGTTATTTTATGGAAAAATTAACTAATGATTTGGTTAATGAAGCAAAAAAAATGATTAAAGAAATTGATAAAATGGGAGGAATGATAAAAGCCGTTGAAAAAGGTTATCCAAAGTTAAAAATAGAAGAGGCGGCGACGTTAAAACAAGCTAAAATAGATAAAGTTGAAGAGGTTGTTGTTGGTGTAAATAAATATCATCCAGATACTAATGAAAAAGTTGATATATTAAATATTGATAATACTAAAGTAAGAAATCAACAAATAAAAAAACTACAATTAATTAGAAAAAAAAGAAATTCAAAAAAAGTAATGAGTTCTTTAGAGGTTTTGAAAAATGAAGCAAAAAAGAAGCATACAAAAACGAACTTGTTAAAATATGCTATTGAGGCTGCTAAAAATAGAGCTACAGTTGGTGAAATTTCTGATGCCTTAGAAAGTGTATTTACAAGACATAAAGCTATAATAAAAAGTGTGTCAGGTGTTTATAGTTCTGCTTTTCAAGGAGATAAAGGATTGAAAAATATTAAAGAAAAAATAAAAGAATTTGTTTCAAAATTTGGGAGAAGACCAAGAATGTTGGTGGTTAAATTAGGACAAGATGGACATGATAGAGGTGCAAAAATAATTGCAACAGCGTTCGCTGATATTGGTTTTGATGTTGATATAGGACCATTATTTCAAACTCCAGATGAAGCAGCAAAACAAGCTTTAGAAAGCGATGTTCATATAATAGGCGTTTCAAGTCAGGCAGCGGGACATAAAACTTTAGTACCTGAATTATTAAAAAGTTTAAAAAAACAAGGTAATAAAGATATTTTAGTAGTTTGTGGTGGTGTTATTCCTCCTCAAGATTATAAATTTTTAAAATCTAAAGGTGTTGCAGCTATTTACGGACCTGGAACAAATATACCTAAAGCTGCTACAGATATAATTCAATTAATTAAAAAGAAAAATATCAATATTTAATATAATTTAATTTTTTTTTGTAATTGTAATAATGAATACTAGTTTATATAAAAAAATATTATTGTCTGATCGCTTAGCTTTATCTAAAGGAATTACATTAATTGAATCAACAAAATTAAAAGATATAACTAATTCTGAAAAATTACTAAAAAAATTATTTAAAAAATCTGGAAAATCTTTAAGAATTGGAATATCAGGTCCACCAGGCGTTGGTAAATCAACTTTTATAGAAACATTAGGTATTTTTTTAACAGAAAAAAAATATAAAGTGGCAGTTTTAGCAGTTGATCCCTCATCAAAAAAAAGTGGAGGTTCTATACTTGGTGATAAAACTAGAATGCAAGAATTATCAATTAGAAAGAATGCATATATAAGACCTTCCCCAAGTGGAGGTGAACTTGGAGGTGTCGCAAGAAGGACAAGAGAAAGCATGATACTTGTTGAAGCAGCAGGTTTCGAAATAGTTTTAGTTGAAACAGTTGGTGTTGGGCAGTCAGAAACTGAAGTTTCTGAGATGGTAGATATTTTTATAGTTTTACTTCAGCCAGCATCTGGTGATGAATTGCAAGGTATTAAAAAAGGAATTATTGAGATTGCTAATTTATTGGTTGTAAATAAAGAAGATGAATTTTCAAATGAAGCTATTGCTACTCTTAACGAGTATAAAAATGCTTTGGGATTATTAAAAAAAGAAAAAAATTCTTATGAAACAAAAGTTCTTAAATGTTCCTCTTTAAAGAAAACAGGCATTAAAGAAATATGGGAAACAATATTAAAATATAAAAAGATTGGTGAAAAAAAAGGGTGGATTAAAAGAAATAGATCAAAACAATTAATAAAGTGGATGTGGGATGATTTACAAAAGAATCTTTTTAATAAAATTAGAAATAATAAAAAATTAATTTTAGAATTTGATAAACTACAAAAAAAGGTAATTAAAAATACTATTTCTCCAAGAGAAGCATCTAAAAAAATCTTGCATCATTACATAAAAAATAATAAAAGTTAACTAATTAATTTTTAATTTATAAAAAAATGACAAAACAATGTGAATTGACAGGAAAAAAGGTTTCTTTAGGAAATAACGTTAGTCACGCTCATAATAAAACTAAAAGAAATTTTTTACCCAACCTACAAAAAAAAAGTATTTATTCTGATACATTAAATCAAATGATAAGATTAAAAATATCTACAAAGGCAATAAAATCAATAGAAATTTCAGGTGGATTTGATAAATTTATTCTTTCTGTTCCAAATAATAAATTATCAGGTAAAGCTCTAAAAATTAAAAAAGCAATAAAATTAAAAATAGGAAAAGTTTCAGAAAAAAAAGAAGTAAAAAAAAATTAATTTTCTTTTTTTTTAATCAAATAATTCTAAGAATTTTTTAATCATAGTACCACCTAATTGATCAGGATCGTTAATTGTTACAGCTTTTTTATAGTATTTATTAACATTATGACCAATTCCTATTGCAATAATTTCTACTTTAGTTTTATTTTCAATAAATTTAATTACATTCTTTAGATGTCTTTCAAGATAATTCGAGCTATTTGTAGAAATAGTTGAATCATCAACTGGTGCTCCATCGGAAATAACCATTAAAATTTTTCTTTCCTCATTTCTTTTTAAAATTCTATTTAAAGACCAAATTAGCGACTCTCCATCAATATTTTCTTTTAACAAACCATCTTTTAACATTACAGAAAAATTAGAATTAATTTTTTTTAAATTTTCTTCAGGAGTTTTATATATTATATGCATTAAGTCATTTAATCTTCCAGGAGCATAAGGCATTTTATCAGATATCCATTTTTCTCTAGATTTTCCACCCTTCCATTCTTTGGTCGTAAAACCAAGAACTTCAACTTTTACAAAACATTTTTCCAGAATATTACTTATAATTTTAGAACATATAGCTGCAGTTTGTATAGGCTTTCCTCGCATTGAACCAGAATTATCAATAAGTAAGGTTACAATAGTATCCTTAATTTTTTTTTCTTCATAATTTTTAAAAACTTTTTTGAAACTTTTATTAGATATAATTCTTGATAATTTTGAATTATTAATTTTTCCTTCTTCAATATCAAAATTCCAAAAACTTTTATTAATAACTAATAATTTATTTTGTAATTTTTTAGCTAGTCGCTTAACCGTTAAAAAAATATCTTTAGATTCCTTAAGCAAAAGATTGTTTAATTGGGATAATTCTTTTTTAGAACATAAAGAACTTGCTTTAGCAATTTTATCAAATTTATTTGTGTAAATTTTATAATTTATATCTTTGTTAATTTGGTTAATTGAATTATTTATTATATTTTTTTTATTTCCGAGATTTTCAGAATCCTTTTTTTGTTTACTATTTTCTTTTTTTTTAAAATTATTAATAAATAAAAAACTCTTTATTTTTTCTCTATCTTTTTTTTTTAATTGATTTTTTTTTTTTTCATTTTTTTTTTCATTTTTTGTATTTTTTTTTGTATTTTTTTGTATTCTCTCAGTTTCTTTTTTTTTACAGAATCCATTAATTTTATCTATTAATTTTAAAGATTCTTTAGAAAAATCTTCTTGGTTGTTTTTTAATTTTTTTAGTTCAATTAAATTTTCAATTATTAGAGGGGTAATAATAGGTTTCCATAAATTTAAAAAAGATAGTGTATTTTTTGGAAGTTTTTCTTCTAAGAATATTTCTGTACTCATCAATTTAATTACTTGAGTAATATTATCATTATTTCTTTTTTTTATTTTTTCAAAATGATTTTTTTTGCAAAAAAACTTTATTCGTATTTTTAGATTTGATGCTATTCCTATCATTGCTGAATAACCTAAAGATACAATTCTTGATTCTTCCAAGGCATCAAATAATTCATTCTTAATTTGATTTATAGGTTTGTATTTATTATATAATTTAGAATTATGAAATTTTAACTTTAAGGCTAGAAAATCAGTTATACCCCTAAAGTTTTTTATATCATTTTCATTTTTTAATAAATTTCCATTTGGTAAAAAAATATTATTTCCATCAATCCTGATATTTTCATTGTTAAATGTAAAATTTAATTTTTTTCTCCCAGATATTGATTTGATTGTAGATTCTACTGATTTATTAATGCTGATCATTTAAAACAAAAATTATTTTTTTTTAATATTATTAATTTCACTTTCCGGTAAATCAATATTAAACACTCTTTGAAAATACTCAGCTATGATAGGTTTTTCTATTTCATCGCATTTATTTAAAAAAGAAACTTTAAAAGAAAATATTAAATTATTAAATAATTTATAATTTTCTGCCCAATTAATTATTGTTCTTGGTGAGAGTACATTTGTGAAATCTCCTTGAATAAATCCTTTTCTAATTAAACCAGCTAAACTTATCATTAATTTAATTTGTTCAACCATGTGTTTATGAGTAATTTTTACTTTATTTAATACTATCTTCGTTTCAATTTCTGGTGGTAAATAATTTAGAACAGAAACAATGTTCCATCTGTCCATTTGCCCTTGATTTATTTGATTAGTACCGTGATAAATACCTAAATTGTCTGATTGTCCAACTGTATTTGATGTAGCAAATAATCTAAAAGCAGGGTGAGGAGTAATAATTTCATTATTATCTAATAAAGTAAATTTTCCATCCGTTTCTAATATTCTTTGTATAACAAACATTACTTCTGGTTTGCCAGCATCATATTCATCAAAAACAAGAGTGGTAGGTCTTTTAATAGACCATGGTAACATCCCATCTTTATACTGGGTAATTTGTTTACCATTTTTTACAATAATTGTATCTTTTCCTATTAAATCTCCACGAGTTATATGACTATCAAGATTAATCCTTACACATGGCCAATTTAATCTAGCTGCTATTTGTTCAATATGAGTTGTCTTACCTGTTCCATGATATCCTTGAATTAACACTCTCTTGTTTTCAGAGAATCCTGTTAAAATTGATATTGTAGTGTCATTATCAAAAAAATAATTTTTGTCAATTTTTGGAACTAAATCTGTTTTATTACTGAAAGCAGGTATTTTTAAATCTTCTTCTGTTCCAAAAACTTGTTTAGATGATATTTTTATATCAGGTATATGTGAAATTGAATCAGTTAAAATATTTTCCATGATTTGTTATATAATTTTATTTAATTTTAATTAAATACTTTTTTAATTTCTTCAAAAGCCTGATTTATTTCTTTTAATTTTTCTTCATATTTTATATTTCCCTTATTCTTATCTGGATGATATTTTTTAACTAATTTTTTATATTTTTCATTAATAATTTTAATTGTTAATTCATTATTATTTAAATTAAAAATTTTAAGAGATTTTTCTAATTTCTTATTTTTGTTTTTTTTAAAATATTCTTTTTTATTTTTTTTAAAGAAATTAAAATAATTATTAAAAATTTTTTCAAAATTTTTTATTTTAAAATTACTTGTTGAAAAATTCCACGTTGGTCTCCAACCTATAGTATCTAGCTGAATATGTTTTTCAATTTCATTTTGAGACATATCTTTACAGTAATTCCAATCTTTATTGTATTCTTTAATATGTTGTTCACAGAACCATATGTAATTATTTAATTCACTTTTAGATTTAGGTGCTTTATATACTCCTGGATTATTACAATCATTTTTATTACAGATTCTAACTTGAGAAAAAGTTTCTTTTTCAAATAATTTTTTCTTATTTTTTTTCATTATAGTATTATGTACATAAAAAAAAGAAATTAAAAGGCTTTGATAATTAATTATGAAAATTGAAGATTTAATAAAGGAAAAAATAAAAAAAGAATTTCCTGATGCTATTTTTTCAATAAAAAATACATCGAATAAACATAAAACTCATAAACAAAATAAAGTTGGCAATGAAACACATTTTGTTATTACTATTAAAACAAAAAAATTTTCTAAATTATCTAAACTACAAAGACATAAATTATTTTTTAAAATTCTAGGATCTGAAATAATAAATCAAACTCATTCAATTTCGATGAATTTGCAAGATAAAGAATAGTATTTTTTAATTAATTAGTTTAAAGGTGTAACCTTTACAATTTCAATATGATTTTTTTTTGCTTTTATTATTTCAAATCTATAATTATAAAAACTAAATATTTTTCCTGGTTCTGGTATTGTTTTAATTTCATAAAATATTAAACCAGCTAAGGTAGATGCTTTATTATCTGGCAGATTCCAACCGAATTCTCTATTTACATCTCTAATAGTTACATTTCCGTTTATAGTAAAATTACCATCTTTTAAACGTTTAGCGCCTTTAATTTTTATATCATGTTCATCTTCAATATCTCCAACAATTTCTTCAATTACATCTTCTAAAGTAACAATCCCCATTAAAGTACCATATTCATCTACAACAAAAGCCAAATGTCTTTGTTTTTTTTTAAACTCTTGTAATTGATCTAATACAGATGTTGTTTCAGGAATAAACCAAGGATTCTTTGCAATTGTTTTTAAGTCTAATTTTTTATTATTTTTTATTTTTAAAACATCTTTAACATTTAAAATACCTAAAATTTTATCAGAATTTTTATCGTATAAAGGCAATCTAGTATATTGGCTCTTTAATATTTTTTTGATATTTGCATTAATCGAGTTATTCACATAAATTACTTCAATGTTTTTTCTATGAGTCATTATTTCTTTTACTTGTAAATCATCTAAATCGAGTATGCTTTGTAACATATCTTTTTCATGCCTAGATCCTTCAGTTTTAGCATGTAAATCTATAGCACCTCTTAATTCATCTTCAGTAGTTCCAATATCAGTGCTTATTTTAAATTTAAATATTTTTAGGATACTATGGGTAAAATAATGAATTAAATTAGTAAAAGGAGATAAAATTTTTACTAAAAATCTAATTATTGGGGAAAATAATAAAGAATATTTTTCAGCTTTATTAATTGCAATAGTTTTTGGAATTATTTCGCCAAATAGTAAGATGAGTATTGTCATAATACATGTTGAATAAATAATAGCTTTTTCACTATTGTTAGAATAATTTATTATAAAGCTTGTAGCAATTGCCGTTGCTAATGTATTTACTAAATTATTGCCTAAAAGTAATGTTCCGATTAATTTCTCTTTTTGTAATTTTAAAAAATTAACTATTTTTGCCCTTGGATTTTTTTTTTTTTCTAATTGATGAATTTTAGCTTTAGATACTGCTGTTAAAGCTGTTTCAGAACCAGAAAAAAAACCGGATAATAAAATTAAAAAAAGTATTAAAAATATAATTGAAATTGTATACCAGTCCATTTTAAGAAATAGAATCTTCTATATTTTTTTTTTTAACATTATTAAAAATAAAAGCATTTCCAATTTTTTTACATAAAACAAAATTTAATTTGCCATTTAGATATTTTTTATCATAAATCATATTATTAATTATATCTTTTTTTTTAATTTTAAGTTTTTTTAAAAATCCCATATTTATTGGTAATCCAAAATTTAAAAGAATATTTTCAATTTTTATTAATTCATTTGAAGGTAAAAAACCAAGAATATTCGATAATTTACTTGCCATACAAATTCCAATAGATACTGCTTCACCATGTAATAATTTATTAGAATATTTTGAACATTTTTCTATAGAATGTCCATAAGTATGACCTAAATTTAATAAGGCCCTAGTATTATTTAAATCTTTTTCATCTTTAAGAACAATATTTTTTTTTGTAATAACGCTCTTTTTTACCACTTCGATTAATGCAGATTGATTATTATTAAGTATTTTTTTTATATTTTTTTCAAGCCAATTAAAAAAAATTTTATCATTTATTAATCCATATTTAATAACTTCAGCATATCCTGATATTAACTGTCTTTTTGGTAATGAGTTAAGTAAATTTATATCACATACTACTAGTTTAGGCTGATAAAACGTTCCTATAAGATTTTTTCCATAGGAACTATTTACTCCAGTTTTACCACCTACTGAACTATCAACTTGAGCTAATAAAGTAGTGGGGAAATGTACTAAATTTATCCCTCTTAATGCTATACTTGCAACAAAGCCTGATATATCACCTATTACTCCACCACCTAAACCAAAAATTGCATCATTTCTAGAAACTTTATTTTTAAGCAAAAAATTTAATATTTTATTTATAGTTTGTAATTCTTTAGCTTTTTCTCCTGAATTCAAAGTAATAGTTTTAATTATTATTTTTTTAGGGACAAGATTTAATATTTTTTTTAAATGTAATCTTTTAATTTCAGTATCTGTAATTATAAATATTTTTTTTGCATGTTTTATTTTAGAAAAAATAATTTTTTTTGTTTTTTTTAATATATTAGATCCAACAATTACTTGATAGAAATTATTTTTTAACGGGACATTTATTTTATGATATTTACTCAATTTATTAATTTAGATATTATTTTAATATAATTAAATATATTTTTTAATTTTTTTTAAAATTTGCTCACTAGTTTTTTTTGGGCTTTTATTTGATCGTATCATTATCTTTGCTTGAGAGTATAGTGGTTTTCTAATTTTTAGTAAATTATTAATAATTTTGTAATTCTTTTTATTATCCATTGTTAACAAGGGTCTTTCATTTGATTTTTTACATCTTTTAAATATTAATTCTTTTTTAGTATTCAACCAAATTGATATTGTTTTTTTTAAAATTATTTTTCTTACTTCTTTATTTAATAAAGACCCACCACCTATAGCAATAACACAAGAATCTTTTTTTAATAATAATTTTGAAATTATTTTTTTTTCTATATTTCTAAAATAATCTTCTCCATGTTTTTCAAAGATAGTTTTTATTTTTAAACCAACATTTTTTTCTATTAGTTTATCTGTATCTATAAAATCAATTTTTAATTTTTCAGATAAAACATTTCCTATTGTAGATTTGCCACAACCCATCATTCCTAATAATACAATCTTTTTTTTCATATAATTAATTAACCTATTTTTTTTTGTATTGATAGAATATATTTTAAGTTAATACTAATATAAATAAATAATAATTATGTTTAGAAGTCGTAAAAAAAGCTTTTTTGAAAAAAAAATGAATATTTTTCTATTATTAATCGTTTTTATTCTAATAATTTTATTTTTTTTTTTAGAATGGTTTGTTCCGGTTCCTAAAATTAAAGTTGAAAAAGAAATTGAAATAGAACAATACAAAAAATAATTTTTTTATAATTTTATGAAAATATTAAAGAAATTTTTTTTAATTTTAATTATCATTTTAATTAATAATAATGTTTTAGCAGGTTTAGGCAATACTACTGTAGGTCCAGGAGGTTTTAAACGAGATATAGAAGTCAATGAGGTAGAAGATATAACCATTCCTGAAAAAAAAAATGAAGTAAAAGATGAACAACAAATAGAAACAATAGAATTAAAAAATATTGATGCTAACACAGTAGGTACTTTAGTTGAAAATGATGGAGGATTAAGTTATGAAATGTGGAAAGGTTCAGAAAAAGATTTAATAAAAAAATATTTAAAAGATTTGCCAATTAATTTAGAATCTAATTTAGCAATAAATTTAATAAAAAAAGTTCTTTTATCTAGCGCTGCTTCTCCTGGCTCAGATAAAGAATTAGATTTAATTTTAATTAGAATTAATAAACTTATTGAATTAGGTGATTTTGATAATGCAAAATCATTAATTGATTTAGTAAATGTTCAAGATAATGAAGAGATTTTGATTAAACATACAGAAATTAATCTATCTTTAAATAATTTTGATTTAGTTTGTTCAGATATAGAAGATAAAAGAAATAATTTTAAAGAAAATTTTTTTTGGCGAAAAGTTGAAATTTTTTGTCAAATATTAAACAATCAATTAAATAAAGCAAATTTATCATTATCTTTATTAAAAGAAGATAAAAATTTTACAGATAAAAAATTTTTAAAAATTATAGATAGTTTAGTTTATAAAGAAGAAATAGATAATAATGATTTAGATAATTTAAATCTTTTAAATTTGGCAATGACAAGAGTAGCTAATATTACTTTAAAAGATGATTATGCTTTAAATAATAATCCTTTATTACTTAGTATGATATATAGAATGTCTAATGCTCCTATAACTTTAAGAATAGAAGCGATAGAAAGGTCAAAAAAACTTTTTAACCTACCTATAGAAACTATTGAAGAAATTTATAATAGTTATGAATTTGATAATAGAGATATAAAAATTTCTTTAAAAGAAGAGATTTTACTTGGTTATGAATCTCAGGCAATTTTATATCAAATGGCTATAGCAGAAGAAAATGATGAAAAAAAAGCTAAAATTTTAAAAAAATCTTTTGATTTAGCAATTATTAATGGAAATTTTAATTTAATTTCTAATTTAAATTTAAAAACATTAATGGAAATAAAGCCATCAAAAAAATTATCATGGTTTGCAAATATTGCATGTAAATCTTTTTTAGCTTCTAATCAAATTAATGAAGCTTTAGAATGGTTTGAGATTTTAGAAA
>sequence20
AATCTTTTTAATGGCAGAATATCTTTCAAATTTTTATGTTTAAATATATTTTATATTACTTAAAAAATTTTTTCTTACTAATAAGAATTAATAAACCTACTGGAATAATGTTATTAATGTTTCCAGCTATTTGGTCAATTTTAATTGTTTTAAAACAAGAAATCGATATTTATCTAACTTTATTAATTATTTATGGTTCTTTTATAATGAGATCTGCAGGTTGTATTATAAATGACTTGATAGATAAAAAATTTGATAAATATGTTGAAAGAACAAAAGATCGTCCTTTAGCTTCAGGAAATTTGGAAAATACCGATGCAATAATTTTACTTATTATTTTTTTATCGATAGCACTTTCAATATTATTAAGTTTAAATTTTTCATCAATCCTTCTGGGAATATTAGTTTTGCCTTTAATTTTTATTTATCCTTTTATGAAAAGATATATTTATATTCCACAATTATTTTTAGCAATTGTTTTTAATTTTAGTGTCTTAATATCTTGGACAGCTGCAAAAGGAGCATTTGAGATGCAAAGTTTAACATTATATCTTGCATGTATTTTTTGGACTTTAGGATATGATACAATATATGGATATCAGGATATTAAGGATGATAAAAGAATTGGTGTAAAATCCTTAGCTATATATTTAGAAAAAAATATCAAATATTATTCAAGTTCATTTTTTACATTTTTTCTTATATTTCTTTTTTATATTGGAATAAAAAATAACTTAAATATAATTTTTTTTACTATAATAATTTTATTTACACTTATAATTATTTCAAAAATATTTAAAGAAAAAAAATTAAAAAAAGAAAATTGTTATAAAATTTTTCAAGTAAATTCTTGGTATGGTTTTTTTATAACACTTGGTTTACTTTTTAACTATATTTAATAATTAATTATTTATAAAAATGATCAAATCGAAGATATACGAAAAAGCTGAATTTTTAATTAAAAAATCAAAAAAAACTGGAGCTGATAATATAGATGTTGTTTATGTTGAGAATATTAATATTGATGTAGGATGCAGATTAAAAAAAATTGAAAAATTAGAAAGATCTGAAAGTAATGATTTAGGATTAAGATATATAAAAAATAATAAACAAGTAATAATATCTACAAATGATTTAAATAATAAAAGTCTTGAAGGACTTATTTATAAAGCTTCAAAAATGATTGATGCTGTTCCAAAAGATCTAAATTGTAAAATTGCAAAAAAAAATGAGATAATTAAAAAAATTCCAAACTTAAAAATTCTTGATAAAAAAGAGCCATCAATAAAATCTCTAAAAGAAAAAGCTATTGAAACAGAAAAAGCTGGTCTTAATGTAAAAGGAGTAACTAATTCAGAAGGTGCAGAGGCAGGATGGAATAAATCAAAAATTTTTTTATTTAATAGCAATGGATTAAATGTAAATTATGAATCATCTAACTATAGTGTATATGCAGTTTTAATTGCTGGTAAAGGAACAGCAATGGAAAGAGAGTATGATTTTGCTAGTAGTGTTTTTGAAAAAGATTTAATAAAAACAAGCTTAATTGGAAAAAATGCCGGCGAGCTTGCCGTAAAAAGATTAAATCCAAAAAAAATTAAAACATGTAAAATTCCTGTTATTTTTTCACCAAGAGTTGCAAATAGTTTTTTAAAGCATCTTTCTAATGCAATAAATGGAAATTCAATAGCAAGAGGAACTAGTTTTTTAAAAAAAAAATTAAATAAAAGAATTTTTTCAAATGAAATAAATATCACTGATAATCCTTTAAAAATAAAAGGTTTACAATCTAAACCATTTGATGGAGAAGGATTAGCAACAAAAAAAACAAATATTGTCGAAAGTGGCATGCTTAAAACATGGTTTTTAGATTTAAGTACTGCTAATCAGCTTAATCTTTCTTCTACAGGACATGCATCTAGAAGTGTTTCAAGTCCTCCTTCTCCTAATCCAACTAATCTTTACTTTGAACCAGGAAAAATTAGCCGCAAAAATTTAATTGGTAATATTAGAAAAGGTATCTATTTAACAGAATTAATGGGTTCAAGTGTAAATTTATTAAATGGGGATTATAGTCGAGGCGGTTCAGGATTTTGGATAGATAAAGGTGAAATAACATATCCTATTAATGAAATTACTATTGCAGATAATTTAAATGAAATGTTTAAAAAAATTGTAGTAGCGGATGACCTTGAATTTAAACAAGGATTAAATTCTCCAACAATGTTAATAGATAATATGACAGTTGCTGGATAATATTTATGGAAAATAAAAACGAAAAAAGTATTAAACTTATAAAAAGATTAGTAAAAGAACATGTAAGGCCATATTTTGGTAAAATGCTTATTGCAGCAATTTGCATGGCAATTGTAGCAGCTTCAACTGCAACAAATGCATGGTTAATGCAGCCTGTTTTAGATGAAGTTTTTTTAAATAAAAATACTCAATTATTACTTTTAGTTCCAATCGCAGTTATGACAATTGCAATTATTAAAGGTGTAGCGTCTTATGGAGAATCAATTTACATGGAATATTCTAGTGAAAGAATTATTTCAGATGTTAGATATCGATTATTCTCTCATTTAATGAAAGCTGATTTAATTTTTTCCATAAAAATTCATCAGGAAAATTAATATCACGTTTTACTTATGATGTTGGATTGCTTAGAGCATCAGTGTCTACTGCATTAACTGGAATTGCTAAAGATTCAATGACATTAATTTTTCTAGTTGCTTTAATGTTTTATCAAGATTGGTTTTTAGCAATAATTGCTTTTTTTGTTTTTCCAGCTGCTGTTCTTCCAATACTTTATATTGGAAGAAAAATAAGAAAAATATCAACTTCAACACAAACTGAAATAGGTTCATTTGCAAGTTTATTAAGTCAAATCTTTCAAAGTGCAAGATATGTTAAAGCATACACAATGCAAAATTTTGAAAAAAAAAGAGCAAAAAAAATTGTGGAAGATTTATTTAATTTAATTTATAAATCTGTAAGAGTTAGATCAAGAACAAGACCGATTCTTGAATCTTTAGGTGGAATTGCGATAGCTTTAGTTATTTTTTATGGAGGATCAAAAGTAATAAGTGGTGCTACAACTCCTGGTACTTTTTTTTCATTCATAACGGCTTTATTAATGGCATATCAACCATTAAAAAGACTAGCAAATTTTAATGTAAATATTCAAGATGGACTAGCTGCTGCTGATAGAATATTTAATTTACTCGATCAAAAACCTGAAATTATAGATAGTTCAAATGCAAAAAATTATATTCATAAAAAAGGTGAAATAGAATTTAAAAAAGTAAAATTTTCATATGGGTCAAAAATGACTCATGCTTTAAAAGAAATAAATTTAAAAATTCCTGGCGGCAAAACAGTAGCTTTAGTTGGAAAAACCGGAGCAGGAAAATCTACCATTTTAAACCTAATACCAAGATTTTATGATATACAAAACGGTCAAATTTTAATTGAAAAGAATAATATTAAAAAATATAAAATTCAATCTTTAAGAGAAAAGATTGCCTTAGTTAGTCAAGAAGTTACTTTATTTGATGATACAATTAGATCTAACATTGCATATGGAAATCCAAATTGTTCAGAAAAACAATTAATAGAAGCTGCAAAAAAAGCTGACGCACATAATTTTATTTCAAATTTTAAAAATAATTATAAATCACTGGTTGGAGAGCATGGAATACAATTATCTGGAGGACAAAGACAAAAAATAGCAATAGCAAGAGCTATTTTAAAAGATGCACCAATTTTATTATTAGATGAAGCAACATCATCATTGGATTCTAGTTCTGAAAGAGATATTCAAAAAAGTCTAAAAAAATTAATGAAAAACAAAACAACACTAGTAATTGCCCATAGATTATCAACAATTCTAGACGCTGATTTAATTTATGTTATTGATAATGGAAAAGTTGTAGAAAGTGGAAATCATAAAAGTCTAATGAAAAATAAAGGTTTATATTCAAAATTATATAAAATACAATTTGCAAGCCAAAAACAAGATATTAATAAAATTGTAAAAATAAAAGACTATATTAAAAAAAAAAATTAATCTAAATTAAGTGCTAAATTATAAGAAAATTCTAAAAACAAAATTAGCATATAGAATTATATGTTGGATTGGTTCAAGATATATAAAATTTGTTTCTATAACTAACAAATGGTCATTTATAAATAAAAATTTTGTAGAGAATTTGTGGAAAAAAAACGAACCATTTATTCTTTGTTTTTGGCATGGAAGACTATTAATGATGCCTATTAGTTGGAACGAAAAAAAAAAAATTAATGTTTTAATAAGTTCTCATTCAGATGGTCAATTACTTTCAAAAACAGTAAAATACTTTGATATAGAAACTATTACTGGCTCATCTTCAAAAGGAGGATCAGAGGCAATTAGAAATATAATAAAATCACTTAAATCAGGAATTTCTATTGGAATGACACCAGATGGCCCAAGAGGACCTAGAATGAAAATTAATTCATCAATAGTTAAAATTGCAAGTTTAACTGGTTATAAAATAGTTCCTTTAGCTTATTCTGTAAAAAACAAAATTTTCTTAAATAGTTGGGATAAATTTTTACTTGCATTACCATTTGGTAAAGGATGTTTTATTTGGGGAAAACCTATTAAAGTACAAAAAAGAATTTCTTATAAAGAAGATTTAAAAATATCTAAAAAATTAGAAAAAAATCTTTTAAAATTAACAAAACAAGCAGATAAATACTGTAATTAAAAAAAAATAATTAAAATAAATTGTTACAAAAATTTTTAATATTATTTAAATCAGGCTATCCAAATTTTTGGAAAAAAAATAATAATTTCTTTGAACAAATTATAATTCTTATTTTATTACCATTTAGTTTTATATATTTCCTTTTTTTTAAAATAAATCAAAAAATAAAAAAAACTAACAAAGTATGCGTACCTGTAATTTGTATAGGAAATGTAAACATAGGAGGGGCTGGAAAAACACCATTTGTAATATATTTAACAAAAATTTTAAAAAAAAAAAAAATAAATGTACATATTGTATCTAGAGGTTATCTTGGAAAATTAAATGGTCCTATTAAGGTAAATATTAAAAAACATTCAGCTAAAGATGTTGGTGATGAAGCTTTACTTTTAGCAAAAGAAACTAATACTTGGATATCAAAAAATAAATTTGAAGGGGCTTTAATGGCAACACTAAATGGAGCTGATATAATTATTCTTGATGATGGATTGCAAAACCAAACTCTTTATCAAGATCTTAAAGTAATAATTATAGATGGTATATTTGGAGTTGGTAACGGCTTATTAATACCTTCGGGTCCTTTAAGAGAAACTTTAGAATCAAGAATAGACAAATCGGACTTAATGATAATATTTAATGAAGATAAATATAATATAAAAAAAAAAGTTCAAAAAAAAATTCCTATAATTCATGCAAATCCTGAAATAAAAAATTTTAATTATTTAAAAAATAAAAGAATAATTGCTTTTTCTGGAATAGGTAGACCTGAAAAATTTCATTCTTCATTAACTAAAAAAAAATTGAATGTTATAAAATTTTTCCCATTCCCTGATCATTATTTTTATAAAGAAAAAGAAATTAAAAAACTTATTAATTATGCAAAAAAAGAAAAATCTATTTTAGTTACAACCTTCAAAGATAAACAAAGAATAAATATAAAACAAAGAAATAAAATTTTTTTTGTAGACTTGAAAATAGAACTAAAAAATAAAAATAATTTAATCAAAATTTTAAAGAAAAAAAAAATTGTATAAGTTAAAAAAAAATATCATTTATTTAATTGAAGGTTTCTTTCTTTTATTAATTTTTCTTTTTTTAAAAATTTTACCTATTAGTTTTTCTTCATTTTTAATGGGTAAGATTTCATCTTTTATTGGTCCTAAACTTGGCATTTCAAAAAAAGCATATAAAAATATTAAAACTGTAATGCCTGAAAAAAGTGAAAATGAAATTTCAAAAATTATAAAAAATATGTGGGAAAATTTAGGAAGAGTATTTGGAGAATACCCTCATTTAAAAAAATTAGTACCTGAAAATGAAAATAAAATAAAAATATATGGAAAAAAAAATTTATCACTAATTAAAAAAACTAAAATACCTGCAATTTTCTTTTCTGCACATTTAGCAAATTGGGAAATTTCTCCCATAGCTGCTATAAATAATGGCGTTCCAGTTTTATCTATTTTTAGAGAACCAAACAATCCTATCGTGAATTATCTAATAAAATTTTTAAGATCTAATTTACCAATGGCTCCAAAAGGTAAAGAGGGAGCAAAAGAACTAATACGTTCACTTAGAAAAAGAATAAGTATAGGTTTAGTAATAGATCAAAAAATGAATGATGGAATTGAAGTACCTTTTTTTAATAAACCAGCCATGACCTCTGACGCATTAGCACAACTTTGTCTTAAAATTAAAACTTTAGTAATACCGGTAGAGGTAGAAAGATTAAAAAAAACAAATTTTAAAATAACTTTTCATGAACCTATGAAAATTACTAAAAATGGAATAAAAAAATCGAAATTAGAAATAATGACCGAAGTTAATTTAATAATAGAAAAATGGATTAGAAAAAACCCTGGACAATGGTTATGGCTTCATAAAAGGTGGTAAACTAAAATTGAGGTTGATTTAATAGTAATAATTCAGGGTCTACAGCAATATTATAAACATTAATTCTCCAATCTAAATGAGGGCCGGTTGACCTTCCGGTACTACCCACCTCCCCTATATAATCTCCCTTTTTAATTGTTTCTCCTTCTTTTACATAAATTTTTTTTAAATGAGAATAAATTGAATTTAAACCCAATCCATGATTTAAAATTATCATTTTTCCATTAAAAAAACTATCTTCTAAAATTAACACAACCTTAGCATCCGAAGGTGAAATAATTTTTGTTCCTAATGAAGCAGCTATATCTAATCCATAATGTGGTCTTCTTGGTTTACCATTTAAAATTCTTTGATTTCCATACTTTCCAGTTATTATTCCTTTAACAGGCCAAATAAATCCACTTTTAAAAAAAGTTTTTTTTAGAAATATACTTTTTGATTTTTTAATTTTTATAGATTCTTTTTTTATTCTCTTCATTTCTTCTTTATTAGGGGTAACTTTATTTTTTGGCAGACCATCAATTCTTTGAATTTTATATTTTCTCTTAGAAATTTTAATTTTATGAGTTTCTTTTTTATCTAAACCTTCAATAATAATTAAATTTTCTAATTTTTCGTCTCTTCCTATAGGTAAAACAAAATCCCCATTATCGGTTACAAAAATATTTTTATTTTTAAAATAAACTTTATTTTTAGATTTAGTTTTTCCGAATAAAAGCCCACCTTGTGTAAAATGACCATTTAACTCCAAATTATCTGAAAAAACTTTAGCTAATGAAGTGTTGAAAGTAAAAAAAAGAAAAAATAGAAATAAAAAAAAACTATTTTTTTTTTGTGATTGCTTGAATAATTCCATCATGAGATCTGATTTTTATATTTGTTTTATCTTTAATTTTATTAATACTTTTTATATAAGTATCATTTTTTAAATCTTTTACATATGTATAACCTCTTTTAAGAATATTTTTTGGAGAAACTACCTCAAGAAGTTTAGATAAATTTTTTAATTCCTTTTCTTTAAATGAAATAAATACTTTTGCTATACTATTAAATCTTTTCATAATTTGAATATATTCTTTTTTTTTTTGAAAATATATTTGATTTGGTGTTGGTAAATTATTAAAACTATGATCCAAATTTAAACTTTTTTCTTTAAAAAAATTAAATAATGCTTTTTGAAATCTTTCAAAATTTTTATTCAATTTATTTATTAATTCTTTACGTACTGGAACAACTTTTACAGCAGCTTCAGATGGGGTAGCTGCTCTATAATCAGCAACATAATCTACTAGAGTTGTATCAGGTTCGTGTCCAATAGCAGAAATAATAGGTATTTTTGAATTAAAAATTGACCTACATAGTTCTTCATCATTAAAACACCAAAGATCCTCTATACTACCTCCGCCTCTTGCTATAATTAAAACGTCTGCCTTTATACCTTCAATTTTTGTATTATTAAAAAACTCAATAGCTGAAGTAATTTCTTTTACTGCTGCTTTACCTTGAACCGTTACTGGATATAAACTTCTATTAACTGAAAATCTTTCATTAATAATTTTTTCCATTTCATGTAAAACTGCCCCTGATTTTGAAGTTATTACTCCTATCATTTTTGGAATAAAAGGAATTTCTTTTTTATATTTTCCCTTAAATAGTCCTTCTTTTTCTAATTTGACTCTAATTTCTTCCTTTTTTTTTAAAAGCTGTCCTTCACCTTCATAAGATATTGATTCTATATTTAATTGATATTCAGAAGTAAATCCCGTATAAGTTGTGATTCTTCCTGAACAAATAACCTCATCTCCATCTTTTGGTTGAATAAGTAAATTACTTAATATACCTGCCCAAATAACTCCTTTAATATTATTTTTTTCATCTTTTAATTTTAAATAAACATGACCACTTTTAGCTTGCGTAACTCCTGAAATTTCTCCTTTAATTTTTACATAAGGATATTTATTCTCTAATAAATCTCGTATTTCATTAGTTAATTCTGAAACATTAAATATTGGAATATTATCATTATTCAATTCATCTATTAATTTATTGTCAGTCATATTATTTATAATTATGATAAATATAATAAAAAAAAATAAAATATAAAAATAAATCAATTGAAAGTTTTAGTTTTAGGGTCAGGTGGTAGAGAACATGCATTGTGTTGGGCAATATCTAAATCTCCTTTATGTAAAAAATTATTTTGTATTCCTGGTAATGCAGGAATAAAGGAAATATCAGAATGTAAAAAATAAAAAAAAAACAATTTTAATTCAATAAAAAAATTTATAAAAAAAAAAAAAATAAATTTTGTAATTGTTGGTCCAGAAAAACCATTAGTAAATGGAATAATAAATAAATTAAATAAATTAAAAATTAAAGCGTTTGGTCCAGATAAAAGAGCATCAATACTGGAATCTTCTAAAAGTTTTACAAAAGATTTTTGTAAAAGAAATAATATACTAACTTCGAATTATAAAAAATTTAAAAATTTTAATATTGCTAATAATTATATTAAAAAAATCAAATTTCCAATTGTAATAAAAGCTAGTGGTTTAGCAGGTGGAAAAGGTGTTTTTATAGTAAAAAAAAAAAATGAAGCAACAAAGATTTTAAATGATCTTATGATAAAAAAAAAATTTGGTTCTTCTGGTAAAGAAATTATTATAGAAGATTATCTTGTTGGTGAAGAAATAAGTTTTTTAAGTTTGGTTGATGGAAAAAAATATATTCCTTTACTGCTCTCCCAAGATCATAAAAAAATTTACGAAAATGACAGAGGTCCTAATACAGGTGGAATGGGGGCATACTGTCCTCTTCCATACTTGAAAAAAAATATTATTAATAAAATTAATAAAGAAATTATAGAACCAACTATTGATGCAATGAATAGAGAAAAAAGAAATTTTAATGGTATTTTATATGCAGGTTTAATGTTAGTAAAAAAAAAAATTTATTTAATTGAGTACAATGTTCGTTTCGGAGACCCAGAATGCCAGCCTTTACTTTTTCTTTTAAAATCAGATTTACTAAAAACATTAATTAATTGTGTTAATAAAAAATTAAATAAAACAATAATTAAATGGAAAAAAGAATATGCAATAAGTATTGTTATGGTTAACAAAGGATATCCAAATAAATTTGAAAAAAATAATATAATTAAAAATCTAAATTCAATAAAAGAAAATAAAAATCTTAAAATTTTTCATTCGGGAACAAGTTTAGATAAAAAAAATAATATAATTGCGTCAGGAGGAAGAGTTTTAACCATTACTACCTCTCATAAAAATTTTAATAATGCAAAAAAAAAAGCATATGAAATAATTAAAAAAATAAAATGGAAAAATAGTTACTATAGAAAAGACATTGGTTTTAGAATAAAAAAATTAAGATAATTATCTTTTTGATGTAAAAAAATCTTTCAATAATTGAGAAAAAAAAATTTCTTCTATACCTCCTATAATTTTAGGTTTATACATAGAATTTTTTTTATTAAAAATTTTAACTCCATTAGTTATTGCTCCAAATTTTGTATCATAAGCACAAAAAAAAATTCTTTTAAATCTACAAAAAGAAATTGCACTCGCACATAAAGAGCAGGGTTCAAGAGAAGAATAAATATCAAATTCATCTAAAAATCTATTGTTATTTTTTTTTATTGTATTATTTATTACAATCATTTCTGCATGATTTAATGGATTTTTTGATTTATGACAAGTATTATATGCTTTAGAAATTATGTGATTATCTTTTGCAATAATAGCAGAAATAGGCACTTCATTGTTTTTTTTTGCTTTTAATGCTAATTTTTTTAATTCTTCGATTATTTTTTTATTTACTAACAAAATTTTATAAAATTCAATATTAAAAATTAATATTATTATAAATATTTATTATTAAAAAAAAAAAAATATATAAAAAACCTATAATAGGAATATCAATTGATACAGGATTTAAAAAAACCTATTCACAATTTCCGTGGTATGCCTTAAGAATTAATTATATAACAAGTATAATTCAATCAAATGGCATTCCTTTAATGCTTCCATCAAATCCAGAATTAGCAGATAATTATTTTAATTTAGTTGATGGAATTCTTCTAACAGGAGGAGATTTTGATATAGATCCAAAAATATATGGTTAAAAAAAAAAAAAAAATGTCAATTTTATAGATAAACCAAGAACTAATTTTGAAATGAAAATGGCTAAAATGGCGATAAAAAAAAATAAACCAATATTAGGAATCTGTGGCGGTCAACAATTACTAAATGTTGCTCTAAAAGGATCTCTAATTCAACATATTGAAAAAACTAAAATTAAACACGAACAAACACAACCAAGAAATAAACCTAGCCATAAAATTAAAATTAATATTAATAGTAAATTATTTAAAATTGTAAAAAAAAAAGAATTTAAAGTTAATAGCGCACACCATCAAGCAATAAAAAAAGTGGGAAATAATCTTGATATTAATGCTATTGCAGATGATGGAATTATAGAAGGTATAGAATTAAAAAAACATAAATTTTTTTTAGGTATACAATGGCATCCAGAATTTTTTATTAGTGAGTTTGATAAAAAAATTTTTAAAGCTTTTATTAAAGCATGTCATTAATTATTTAATTTTGAAAAAAACATTCAAAGTATCAAAACTAATAGCTGATGCAGGTATTTGTTCTAGAAGAAAAGCCGAATTATTAATTAAAGAAGGCAAAGTTAAATTAAATAATAAAATTCTTACAAATATACCTGAAAGAGCTTCTCTTAAAGATTCTATAAAAGTCAGTAATAAAAAAATAAAATTTATCAAAAAAACAAGATTATGGAAATATCATAAACCCACTGGAAAATTAACAACAAATTATGATCCTTTAGGAAGAAAAACTATTTTTGATGAATTACCAAAAACCTTACCAAGAGTAATATCAATTGGAAGACTTGATTTTAATTCTGAAGGACTTTTGTTATTAACTAATTCTGGTAATTTTGCAAGATATCTTGAGCTACCTAAAAATTCATTTTCCAGAGAATATAAAGTAAAAATAAAAGGAGAAATAAATGTAGAAAAATTAAAAAATTTAAAAAAAGGAATAAAAATAAAAAATGTTAAATATAAAAAAATTAAAACCACTATCCTAGATAAAAAAAAAAATTATTTTTGGATAAAAATGAAACTAACAGAGGGGAAAAATAGAGAAATTAGAAAAATAATTAATTTTTTTGGATGGAATGTTTTAGTTTTACAAAGAATAAGTTATGGGCCAATTTTATTAGATAAACTTAAAAAAAATGAAGTGGAAGAAATAAATTTAAATAAATATTTTAAAAAAATAAAATGAGAATAATTTCAGGAAAGTTTAGAGGAAGAAAATTAATAAAATTTAAAAAAGAAAGTATTAAGCCGACTAAAGACAAAACTCGTGAATCTATATTTAACATTATTATTAGTTATTTTAATTTTAAAAATAAAAATAATCTTCCATTACAAGGTTTAAACGTACTAGATATTTTTGCAGGAACAGGAGCGTTAGGAATAGAAGCAATATCAAGAGGTGCTAAAAATGTAACTTTTATAGAAAAATCACGAGATAATTTAAGAATATTATATAAAAATATAGATCATTTAAAAATTAATGAAAAAGTTAAAGTAATAAAAAGAAGTATCAAAAATGTAAAAAAAATTAATGAAAAATTTGATATAATATTTTTAGATCCTCCATATCAAATGGATTTAATATTTAAAAAAACTCTAAAAAAAATACTAGATTTTAAAATATTAAAAAAAAAAACTTTAATTATTTTGGAACATTCTAAAAAAAAAAAAATTATTATTCCTAAAGTTTTTGAAATTGTAAAAGAAAAAAATTATGGAAATAGTAGCCTTACTTTAATTAAACTTAAAAATAATTAGATTTTAATTTTTTTTTTTAAAAAAATAAAATAATAAAAAAATAAAATAAGAGCTATAAACATTAAAAACGAGCCTAATATATAAGGTGCATTTATTCCTAAAAAATAAAACAAATTTCCTGCAATTAATGGACTTAATATTCTCGCTAAACTACTAACAGATTGAACGGCCCCAAATGATAGACCAACAATATTTTTATTCAAATTCTTTGAAAGTAAGCTATTAATAGTTGGATTACCTAAACCTATTGAAATTCCTAGAATAGCTAAAGAAAAAATTAAATAAGATAAATTTTGTATTGATAAAGTTATAAAAAATAATCCAACGAACATTAAAAAAATACTAGAAATTAAAAGTTTAATTTCACCAAAAATTTTAGTTAACTTACCTATAAAAACTCCTTGAATAATAGCTGCTAATAATGCTGTAAAAGTAAATGCGTAACCTGTTTGTTTTGATGCCCAATTCATTGCTCTTTCTGTCCACAAAGCAAAAGTGGTTTCAAATCCAGCAAAAGAAAAGGTAACTAAAAAAGATATTATTATTAAAAATAAAATTGCTGGAATTTTAAAAAAATTAATTAAATCTTTAAATGAGTTTAAAAAATTTATTGAAATAAATTGATTATTTCTTTTAATTGGTTCTTTTAAAAGAATAAAAGTTAAAAAACAAGAAATAATCGAAATTGTAATTGCAATTAAAAAAGGTAGTTTATAATTTATATTATTAATATCTCCACCTCCAAAATAACCTCCTATGACAGGTCCAAAAACAAAACCCAAACCAAAAGCAGCGCCAATTAAACCCATACCTTTTGAACGATCTTTTAATGAAGTGGTTTCAGTGACATATGCGTTTGCAACTGCTGTAGTTGATGCAAATAATCCTGCAATTGATCTAGCAAATAAAACTAAAATAAAACTATTAGCAAAATATAAAATTAAATATGAAATTGCTGAGCCAAACAAACATAAAATTAATATTTTTTTTCTACCGAAAATGTCACTTACTTTACCAAGTATTGGACTAAATATAAGCTGCATTAATGAATAACTTGCCATTAATAAAGTTACTTCATTTGGATTTGCACCAAAATTTTCTGCATAATAGGGTAAGAGTGGTATTATTATACCAAATCCTAAAAGATTGGAAAATACAATCAAAAACAATGCATTCATATTTAATCTATTTCAAATTAATTGATTTACCTTTATCAATTGCTGGTTGATCAAAAGGATTCAAATCATTTAAATAAGCTAAAAAAACCGTTTCAAGCATAAAATTCATCATTAAATAACCTATTTCGAATTCTTCACATTTACTCAATATTAAAGTTCTATAGGGTTTTTTATATTCATCCAAAAGTTTGCAAACTTTTTTCATTTCAAAATCTAAAAGTTTATTTAAAGATTTTTTTTTTATAAAAGATAATTTTTTTATTTTTGATAACAAATTATTATTAATTTTTATTTGATCCTTTTGTTTTTTTAAAGTTATAAATGTTATTAATTTATCTTTCGGACCTTCCAAAAAAAGCTGTAAAAGTGAATGCTGATCTGTTGCTCCCATTGAATGCAGAGGGGTAAATCCAATATTTTTTTTTCCTAAACTTTCCGCTACCAATTGTTCATGCCAAAATCCAAAATTTCTTAATCTTTCTGTATAAGTTAATAATACAGATATATTTATTTTTGATTTTTGCGCTATAAAATGAATAGCTGCGCCTTCTAATGGAATTTTTTCTTTTTTTTTTAAACATTGATTAAGCATAAATAAAGCTCCTTTTAAAATTTTTTTTATATTTAGTCCTGAAATAGCAGCTGGTAATAAACCTACAGGTGAAAAAGCTGAAAATCTTCCAGATAAATTACTATCAATATCAATAGTATTTATATCAAAATCATTAGCTACTTTTCTTAAAGAACTATCACCCTTTTTTGTAATTATAGTAAAATGCTTTCTTATTTTATTTTTAGGAAATATTTTACTAAATTTTGTTAAAAAAATTAAAAATTGAACCAAAGTTTCATTTGTTTCTCCTGATTTTGAAATAACAATAACACCAGTTTTTTTTAAAACAATTTTTTTAAAAAGATCTTTAATATCTTGAAAATCTATATTTTCTAAAAAAGTAATTTTAGGAAATTTTGGATGTCTTCCAAAAGTTCTATACGCAATTTGAACAAATGTTCGTCCAGCTTTGCTTGAACCCCCTGTTCCTAAAACAATTACATCTTTAAAATTTTTTTGATGATATTTGGCTAAATCATTAAGATTTTTTTGTTTGAAATTAAAAAATTGATTTAAAAAAGCTAGAAGTTGTAAATTTTTATCTTTTTTTATTTTATCAATAATAAAATTTATTTTTTTTAAAGTTGCTTTCAATAATTCTTTTTTAATCTTAGAATCTAGAAAACAACTATTAAAATTATGTTCCATACAAAAAAAACTAAATATTATCTACATTTTTTAAATTTTTCGGATTTCCTATAATAAGAAAAAAAATTTGTTTCTCATCAAGAATTTTTTTTGATATTTTTTTTATATCTTTTAAAGAAACAGAATTTATATAATCATTTCGTTTTTCAAAAAAATCTATATCTAAACCATCTAATTGTGTATTTAAAAGAATTGAAGCAACCTTTTTATTGCTATCTAGTCTTAAAACATAAGAATTAATTAAATAATTTTTTGCATTTTTTAGTTCCTCTTTCGTCACACCATTATTTTTAATTTTCATTAATTCCTCTCTTATGATTTTAATAACTTTATTAATATTATCATTACTTGTTTGTGCCCCACCAGAAAAAAAACTATACTTATCATATCGATATAAATAAGAATATATAGAATAAACCAATCCTTTTTTTTCCCTCACTTCAGTAGTTAATCTAGAAAAAAAACCACCCCCTCCTAAAATATAATTCATTACATATGCTGAATAAAAATATGGGTCATTTTTAGAAATTCCCTCTCCTGCAAACATAATACTTGCTTGCTTTAATTCTTTATTATGAAAAAAAGTTTTCGAATCAATTTTTTTTATATATTTAGGCACACTTTTTTTTTTAAAATTTTTTTTATCAAACTTTTTAAAATATTTATTTAAATATTTTTTTAATTCATTTTCATCAATATCTCCTGATGCAGATATATATAAATTGTCTATACTTAAATTATTTTTTAAGAAATTAAATAAATCTTTTTTTGTAATATTATCAATATCTTCAATTAAGCCCAAAGTATCATATTTATAAGGATGATTTTGAAAAAGGATTTCTCTAAATAATCTAGAACTAATTGCATCTGGATCTTTATAAGATTGTTCTATTGCTAATTTAATATTACTTTTTATTCTATTGATTTCATCTAATTCAAATTTAGGTTCAGATAAAGCTAAATCTAAAAGTGTGAACGAAAGATTCAAATTTTCTTTTAAAGTATAAAGATCAATATAAAAATTATCATGACTTACACTAAAATTAAGTGTAATTGAATTATCTGCTAATATATTTTTAAATTCTTGTGATGTGAAATCTCCAGCACCTTCATCCAATAAAGATACTGCTAAATTTGCTAATCCTTTTTTTCCCTTTGGATCAAACGCAGAGCCTGTTTTAAATGCCATTTTGATTGCAACTATTGGTAAATTTTTATCA
>sequence21
ATTTAGGGTTAAAAAAAATATCCAACATTTCAAAAAAGTTTAATATTGGATGGGCTGAGTTAATCCTATTGTTAGTTATCTCCATTTTTTTTGTTAAACCTGAAGATTATTTTTTTTTTATAAAAAATATTTTTAAATTTTTTTATAAAACTAAGAATTATTTTTCTACTTTTCTCGAGGAAATTAATCAGGAAATTGAAATTGATGAATTTAAAGAAAAAAACAAAACAATATTAAAGATTGAAAAAAAATTAAAAAACAAAAAATAAATTGATTTCAAGACAAAATAAAAATAAAAAACTTATAAGCTCACATTTATTAGAACTTAGAAATAAATTAATATATTTTTTTATTTTCTTTCTTTTTTCGTTTTTATTTTCCTATTTTTTTATTGATAAAATTTTAAATTTTATAGTTGAACCTTTTATTAACAGTATTGAATTTAAAAATAACAAAAGATTAATCTATACTGGATTAACTGAAGTTTTTTTAAGTTATTTAAAAATCTCTATTATTTCAGCCTTTATTTTATCTGCACCTTTTTTAATATATCAAATATGGTCTTTTGTAGCACCTGGTTTACTCAATAAAGAAAAAAGAATAATTTATCCTTTCTTATTTTTAGTACCTGTGATGTTCTTGATAGGTTTTATTTTTGTATATTATTTTATAATTCCTTTAGCATGGGATTTTTTTGTTTCTTTTGATACATCTCAATCTAATAATAATTATACAATTGAATTAGAGCCTAAAATTAATGAATATATTTCTTTATCTTTAAAACTCGCTTTTATTTTTGGATTAGCTTTTCAATTACCTATTATCATTTTATTGTTAACAGTACTTAAATTAATATCACCTAACGATTTAAAAAAAAAAAGACGATACATAATCGTAATAATTTTTTTAGTATCAGCCATTGTAACTCCACCTGATATTTTTTCTCAAGTTGGTTTAGCATTACCTATAATTATTTTATATGAATTTTCATTATTATTATCTCAATATTTAGAAAATAAGAAAAAATAATTATTTGTTATAATAAACTATTAATTATTAAGTATTAATTATGTTAGATATTAAATGGATAATAAATAATCCAAAAAAAGCAGATGAAGAATTTGCACGAAGAGGTTTAAAGCCTTTATCTTCAAAGTTAATAAAGTTAAGTAAATCCAGATCCTCTTCATTTATTGAAGTAGAAAAATTATTACAAGAAAGAAATAAACTTTCAGATCTTGTACCCAAAGAAAATGATGTTGTTAAAAAGAATTTAATAATAAAAAAAGTAAAAAACTTAAAAAAGCAAATAAACAATCTTCAAAATGATAAGTCTTCATCTAATTCAGACCTTCATAAGATTTTATTAGAATTACCCAATTTTTTAGATGAAAAAACACCATCAGGAAAAAGTGAAGATGAAAATAAAGAAATTAAGAAAGTGGGAAATATTAAAAATTTTGATTTTAAGATTAAAGATCATGTTGAAATTGGTGAAAATCTTGACTTGTTAGATTTTAAAACTGCAGCTAAAGTTTCTGCTTCAAGATTTGTGTATTTAAAAAAAAATTTAGCGAAATTAGAAAGAATTTTGGCAAACTTTATGCTTGAGTCTAATATGAAGTTCGGCAATTTTAATGAAATTTATACACCATTATTAGTTAATGAAGATTCCTTAATTGGTACTGGTCAACTACCTAAATTTGATTCGGATATTTTTAAAACTAGAGAGAATTTTTGGTTAATACCAACAAGTGAAGTTACATTAGTTAATTTAGTTAGAGATAAAATTCTTAAACAGGAAGATTTTCCTATCCGTTTTACATGTTATTCACCCTGTTTTCGTTCTGAAGCAGGTGCAGCTGGAAAAGATACAAGAGGTTTAAAAAGACAACATCAATTTGGTAAAGTTGAAATCGTTTCCATAATTAATCAAGAAAAATCTGAAAATGAACATTTATTTTTATTAAAAACTGCGGAAAAAATCCTTACTGAACTTGATTTACCGTATAGAGTTTGCGAATTGTGTTCTAGTGAGGTTGGTTTTGCTGCCAAAAGAACTTTTGATATAGAAGTGTGGATCCCAAGTTTAAATAAATATATGGAAATTTCTAGTATTTCAAATTGCGGTGACTTTCAATCGCGCAGAATAAATACTAGATATGTAAATAATAATAAAAATAAAGAATTTCCATATACATTAAATGGTTCATCATTAGCTATAGGGCGAACCTTAATAGCAATTCTTGAAAATTATCAAAATAGCGATGGTTCAGTTACCATTCCAAAAGTTTTAAGAAAATATATGGATGATAATGAAAGGTTATAAAGTTTTTTGTTAGATAAATTAAAAAGAATTAATTTAATATTAAAATTAAGAAAATTAGGAATAATTGATACAAAAGTTTTATCGGCTATAGAGAAAACACCAAGAGAATATTTTATAGATAAAGAAATTTCTTTTAAATCATATCAAAATAGTGCTTTACCAATTGATTGTAATCAAACAATTAGTCAACCTGCTGTTGTTGCAAAAATGACTGAATTATTAGAACCCAATAATAGTTCTAGAGTACTAGAAATAGGAACTGGTTCTGGATATCAAACTGCTATTTTATCAAAATTATTTAAAAGGATATACACAATAGAAAGATTTAATCAGTTATTTAAAAAAGCAAAAAAAAATTTATCTAAACTTAATTTTAATAATATTGTTTATTATTATGGTGATGGTCTTAATGGTTGGCCGGCAAAATTAACATTTGATAAAATTATTATTACAGCTGTTTCAAGAGAAATACCAAAAAAGATTATTAAACAATTGTCTGATGATAATTGTATTTTAGTTCTACCTATTATAGATAAAAATGACCAGTATATTTTAAAAGTAATAAAAAAAAAAAATAAATATTTTTATAGGAAATCATGGAAAGTTAAATTTGTTCCATTAGTTTCTGGTATTAGTTAAAATATAATTAAGTGTTTAATTTTTTTTAAAAAAATATATATTTAAAAAAAATATATTATTTTAATGTTTCTATTATGAATGAAGCTTTTGCATCTTTTTTACCGTTAATACTGATATTCGTTGTTTTCTATTTTTTATTAATTAGACCACAACAAAAAAAAATGAAAGAACATAAACTAATGATAGATAATTTAAAAAGAGGTGATGAAGTCATAACATCTGGTGGTGTTTATTGTAAAATTTCAAAAGTAATTGATGAAAATAAAGTAGAAGTTGAATTTTCTAATAATGTCAAAGTTGTTATTTCACGACCTACAATTACCAATATCGTAAATAATCAATCTAAAACAGAAAATTAATTAATGAATATTTTAAGGTAATGGTACAATTTAAAAAATGGCAGGTATTATTAGTTACTATTTTTAGTTTTTTTGCTATTTTTTTTTCATTACCTAATTTTTTCTCAAAAAGTAATTTAGAAAATATTCCTTTTATACCTAAAGATCAAATTATTCTTGGATTAGACTTACAAGGAGGATCTTATTTACTTATTGAAGTTGATACACAATCTCTTGTTATTGAAAGATTAGACTCTTATTCGGATGATTTAAGAAAATCTTTAAAAAAGAACAAAATATTCTATTCAGATTTTAACGTAGATGAAAAAAATATTACTTTAACAATAAAGAATAAAGAAAAAAAAAATGAATTAATTAAAATCTTAAATAATAAAACTCAAGATATAACTTACGAATTAAACAAGGATAAATTTCTTAATGTTTCGTTTAGTATGCAAAAGATTAAAGAAATTGAAGATAGCGCTGTAAAGCAATCTATTGAAGTTGTAAGAAGAAGGGTTGATGAATTTGGTACAAAAGAACCAACAATACAAAGACAGGGTTTAAATAGAATATTATTAGAATTGCCGGGTGTAACTGAACCAGAAAGATTAAAAAAATTATTAGGGCAAACAGCAAAACTTAGTCTTCATATCGTTGATGATGATTTGTCATCATATGATCTAAAATCCGGTAAAAATAAACCAGGTATAATAATTTATGAATCTGATGAAACTGATTTATCAGGAGAAACAGTTTTAATTGCTGTTAAAAAAAGAAATTCAATATCTGGCGATTTATTAGTTAATGCTTTTCCAACTTTAGATAGAGGGTCTGCAGTTGTATCATTTGAATTTAATAATAAAGGTGGAAGAAAATTTGCCAGAATAACAACAAACAATATAGGAAAAAAATTAGCCATTATTTTAGATAAAAAAGTAATTAGTTCGCCAAATATCAGAGAGCCTATAACTGGTGGACAGGGTATTATTACTGGAAATTTTACTTTTCAGGATGCTACGGACTTATCAACTTTATTGCGAGCCGGTGCATTACCTGCTCCCTTAACTATTTTGGAAGAACGAACAGTTGGACCTAGTTTAGGAGCTGATTCAATTGAATCAGGAAAATTTGCTTCAATTTTGGGATTTTTATTAATAATTATTCTTATGTATTTATGCTATGGAATATTTGGTTTATTTGCAAACTTAGCTTTGATATTTAACCTACTGATTTTATTAGCTATATTAACTTCAATAGGAGCTACTTTAACATTACCTGGAATAGCAGGTATTGTTTTAACAATTGGAATGGCAGTTGATGCAAATGTGCTAATTTTCGAAAGAATTAAAGAAGAAATTAAACATGGTTTTTCTCCTATTGCAACAATTGACACAGGTTATAAAGAAGCTTTTAAAACAATTTTAGATGCAAATATCACAACATTAATAGCAGCAATAATGTTGTTTGGGTTAGGATCAGGTCCTGTTAAAGGTTTTGCAGTAACGTTGTCTATAGGTATTTTAACATCAATGTTTACAGCAATAATGTTTACAAGAATTTTAATAATTATTTGGTTAAAAAAAACAAATCCAGAAAGGATTAATTTATAAGTATGCCAATTTTAAAACTTATTAAAGAAAATTTAAATATTAATTTTATGAAAATAAAAAGAATTACTTTATTTTTTTCATTATTCTTATTTTTCTTTTCATTATTTTCAATTTTTTCTAAAGGTTTAAATTTAGGTATAGATTTTACAGGAGGTAGTTTAATTGAAGTAAGATTTCAAGAAAAAATAAATTTAAATAATTTAAGAGAGAAGTTTGATAAGTTAAATTTAGGCGAAATTCAATTACAAACGATTGGAAATGAAAATGATATTGTTATTAGAGCTCAAAATAAATCAAATACCGAGAAAGAAAAAATGGCAACTATAAATATTATAAAAAAAAGTTTAGAAAATGAATCTGTTGAATATAGAAGAACTGAATTCGTAGGTCCTAAAGTTGGTCAAGAATTAGTAAAGGCTGGAATTATTGCGGTACTTTTTTCATTAATTGGTATTTTAATTTATATTTGGTTAAGGTTTCATTGGAATTTTGCAATAGGAGCAATTCTAGCCTTGATTCATGATGTTATTTTAACATTAGGTTTTTTTTCAGTTTTAAAATTTGAATTTAATTTAGCAACTGTTGCGGCTGTTTTAACAATTGCCGGTTATTCAATTAATGATACTGTAGTGATATATGATCGAATAAGAGATACTATGAGAAAATATAAAAAAATTTCATTTGATGAAATTATAAATATTTCTCTTAATGGAACACTATCAAGAACTTTGATGACAAGTTTAACTACATTGTTAGCACTTTTTGCTCTATTTATTTTTGGTGGTTCAGTTATTTCTAGTTTTATTGTAGCATTAATTTGGGGTGTCTTTATAGGTACTTACTCCTCTTTATATGTTGCATCCCCAGTTTTAATTTATCTTAAAGCAGACCAAAGAATTATTGATAAAAATGGAAATTGATACATTAAAATTTAAAAATAAAATTTTTATTGAAGGATATGGTATTAATAAATTTAAAATATCAGGTAATGTATACAAAAGCCCTATATTAATTCTTAAAAATAAAGTTATTGAAAAAAAAAATCTTAAATTAAATTCTTTAAAAAAAGATTTTTTATTAAAAATAATATCAAACTATAAATTAGATTTTTTAATTTTAGGAATAGAAAAAGAAATAACAAAAAAAATTCAATCATATAATAGAGAAACAAAAATTGAATTAATGAAGACAAGTTCTGCATGCAGAACACTTAATATTTTATTATCTGATAATAGAAATATCGGTGGTTTACTTTTTCCAATTACTTAGAAAAAAAAAAAAATTAATAAAGATTTTGAGCAGAAACCATTGCGTAAAGCATTGGTATCGATAAAGCAGTATTAGTTCTTGAAAAAAGCATCGCTTTTCTTGCAGATAAAGGTTTTTGATCATCGGTAGCATTTATAATTCCTAATGCTATTTTTTGATTAGGCCATATTATCATCCATACATTATAGGCCATTATAATTCCTAACCACATACCGATACCTATTGCACTATGTTTTTGTGAACCATCAATTAAGCCTAATGATAATGCATTAATTAAATATCCATTCAAATATGCTGTAAATATACCAGTTATAATAGTTGCTAATGCTGCCCATCTGAACCAGAACAATGCTTTCGGAGCTATCACTTTACTAATGGCGGGTTTTTCGTTATCAGGGATATTAGGCATTGAAGGAATTTGAACAAAATTGAAATACCAAAGTAAACCTATCCACATGATTCCACTTAATACATGAAGCCATCTAGAGAAAAAAGCTAAATATGATGGTTCAAAAAATTCCATAATTTAATAAATTAAATTTAACAATATTATCATTAATATTGTAAGTATAATTCCTATTAATACAGTTTTTGATAAAGACTCTAAAGGATTGTTCATAATTATTAATAATGAATAAAAAATTTATTTTTGTAAAGACTTTCTTTTTATTTTATCTTCAAATCTTAAAACATCATATAAAAATTGACTTGTATAACTATTTTTGTATTTAACAATTAACACTTCAGGTGTACCCTCAGCAATTACTTTTCCACCTTTTTCACCACCTTCTGGACCTAAATCGATAACATAATCAGAAGTTTTAATAACTTCTAAATTATGTTCAATAACTATAATTGTGTTTCCTTTATCAACTAATGAATGTAAAACTTCTAGTAACTTCTTTACATCTTCAAAATGAAGCCCTGTTGTTGGTTCATCCAGTATATATAAAGTTTGTCCAGTTGATCTTTTTGATAGTTCTTTTGCTAATTTAATTCTTTGTGCTTCACCTCCTGATAATGTAGTAGCTGCTTGTCCAATTTTAATATAATTTAATCCTACTTGTTTTAATGTTTGTAATTTATTTTTTATGTTTGGAATTGCCTTAAAGAAATTTAATGAATCTTCAACAGTCATATCAAGAACATCAGCAATATTTCTATCTTTAAATTTTATTTCTAAGGTATCTCTATTATATCTTTTACCTTTACATAAGTCACATTTGACATATACATCTGGTAAAAAATGCATTTCAATTTTAATCATTCCATCTCCTTGACAAGTTTCACATCTTCCACCTTTGACATTAAAAGAAAAACGGCCTGGTCTATAGCCTCTTTCTCTTGATTGAGGTAAATTAGAAAACCATTCTCTTATTGGAGTAAATGCGCCGGTATATGTTGCTGGATTTGATCTTGGTGTTCTTCCAATAGGGGCTTGATTAATTTCTACTATTTTATCGAGATATTCATAGCCTTCTAATGATTGATATTTTTCAGGTTTTGGTATTTGATAATTTAATTTTCTACCAACAGCCTTTAATAAAGATTCATTTATTAAACTCGATTTTCCACTTCCTGACACTCCTGTAACCGATGTAAATGTTCCTAAAGGAATTTTTATTGAAACATTTTTTAAATTATTTGTATTAACGCCTTTCATAATTAAAAATTGATTTTTTTTACCTTTTCTTCTGTCTTTAGGAGTTGGAATATATCTATATCTATTTAAATATTGTGATGTTATAGATTCCGGTGAATCCAATATTTTTGAAAGCTCTCCTTGTGCTACAATTTTACCACCATAATTTCCAGCGCCTGGTCCAACATCAATAATATAATCTGCCGATCTAATTGCTTCTTCATCATGTTCTACTACTATTACTGTATTTCCAAGTTTTTTTAATTTATTTAAAGTTTCTAATAATCTTTTATTATCTCTTTGATGTAATCCTATAGATGGTTCATCTAGTACATATAGTACTCCTGTTAATCCAGAGCCAATTTGTGATGCTAATCGAATTCTTTGTCCTTCGCCACCTGATAATGTTCTTGAATTTCTTGATAATGTTAAATAGTTTAAACCAACATTTTTCAAAAATTGTAATCTATCATTAATTTCTTTTAAAATTCTCTTAGCTATTTCTAGATGAGTTTTATTTAATTTTTTTTCTAATTTCTCAAACCAATTAATTGCTTTTTCAATTGTAAGATTACATACTTCTCCAATTTGCTTTTTATCTATTTTAATTGATAGAGCTTCTTTTTTTAATCTGTGACCATTGCATGTTTCGCATGTATCATATTTTAAATATTTTGATACTTCGTCACGGTAATATTCATTTTGATTTTTAAACCATTTTCTTTGTAGATTTGGTATAACTCCTTCAAATTTTCTTTCAATTAGATATGTTCCTCGAAATGAACTATATTCAAATTTAATTTTTTTTTTTTTACTTCCATATAAGATAATTTTTTTTATTTCATTTTTTAAGTCTTTAAAAGGAGTTTCCATATTAAATTTAAATGCGTTACATAAAGCTTTTAGAGTTTGTTGATAAAAATCATTAGATGATTTATTCCATGGTTCAATTGCACCTTCAGCCAAACTTAAATTTGGATTTGGGATTATCATTTCTTGATCAAAATATGATTTATTTCCTAAACCATTACAGTCAGGACAAGCGCCAAAAGGATTATTAAAAGAAAATAATCTTGGTTCAATTTCTTCAATTGTAAAACCAGAAACTGGACAAGCGAATTTTGTTGAATAAATATTAATATTATTATTTTTAATATTTTCTGTGTAAACAACACCGCCTGAAAAATTTAAAGCTGATTCAACACTATCAGTTAATAAATTTTTTATATTTTTATTAATTTGTATTCTATCTATAACAATATCAATATTATGTTTAAAATTTTTATCTAAATCTGGTAAATTTTCAGATGTATAAATTTTTTCATCAATTTTAAATCTATGAAAACCTTTTTTTATCATTTCTGCTAATTCTTTTTTATATTCACCTTTTCTTCCTTTTATCAATGGAGCTAATAACAAAAATTTTTCCCCATTTTTTTCATTGAGAATATTATCAACAATTTGTGAAACACTTTGTGATTCTATAGGTTTACCTGTTTTTGGAGAATATGGTATTCCAATTCTTGCAAATAATAATCTCATATAATCATATATTTCAGTTATTGTACCAACAGTTGATCTAGGATTTTTAGATGTAGTTTTTTGTTCAATTGATATTGCAGGAGATAGACCTTCAATTGAGTCTACATCAGGTTTTTGCATTACTTCTAGGAACTGTCTTGCATACGCAGATAGACTTTCCACATATCTTCTTTGTCCTTCAGCATAAATAGTATCAAATGCTAATGATGATTTACCTGATCCTGAAACACCTGTTATAACGATAAGTTTATCTTTAGGTATTTCTAAATTTACATCTTTTAAGTTATGTTCTCTAGCACCTATTATTGTAATTTTATCCATAATTTGTATTAGACTATTTTATATTTACTAATTATTATTAAACTAGTTTTATTTTTGTTTTATTGTATTTTTTTTTTATTTAAAAATTGGCTGGATCTGTAAATAAAGTAATTTTATTAGGCAATTTAGGAATAGACCCTGATATAAGAACAATGCAAAATGGTAAAAAAGTCTGTAATTTATCAATTGCTACTTCAGAATCTTGGAAAGATAAAGAAACAGGTGAAAAAAAAGATAAAACTGAATGGCATAGGGTTGTTGTTTTTAATGAAGGACTTATAGGTATAATTGAACAATATATAAAAAAAGGAACTAAATTATATATTGAGGGTTCTTTACAAACTAGAAAATGGACAGATGATTCTGGTACAGAAAAATATACAACTGAAGTTTTAGTTCAAGGATATGGCGGTCGAATAGATATTGTTAGTGCAAAAGGAAATAATCAAGAAGTTCCGGATGATACAAGCAATAATAATGATAATAATGAAACTAAAAAAGTAGAAGCAACAGATGATGCTAGTAAAAGTGATGATTCAAAATCTGAAAATATTGATGAAGAAGATATCCCATTTTAGTTTTTTTTTTTTAAATTAGGAGTTAATTTTTGAGCGATACAACAATAGGCGATACATCGGATAGTAATGGTAAAAATAAAAAAAATTTACCTAATAATAATTCAAATAACGGAAGTATCAAAAATGAAATAAATCTTTCTTTAAAGAAAGAAATGGAAACTTCTTATTTGTCTTATGCAATGAGTGTCATTGTTAGTAGAGCATTGCCAGATGTTAGAGATGGATTAAAACCTGTACATAGAAGAATTCTTTATTCAATGCATCAATCAGGATATCATCATAATAGACCATATCATAAATCAGCTCGAATTGTAGGAGATGTTATGGGTAAATATCATCCCCATGGTGACAGTGCTATTTATGAATCAATGGTTAGAATGGCACAAATTTTTTCTTTAAGATTACCTTTAATTGATGGACAAGGAAATTTTGGCTCTATGGATGGTGATCCACCTGCAGCAATGCGTTACACTGAAGCGAGATTAAAAAAAGTTTCTGAAAAATTATTGGATGATTTAGATAAAGAAACTGTGAGTTTTAATGAAAATTATGATGGATCAACTTTAGAGCCAACAGTTTTACCATCTAAGATACCAAATTTGCTAGTTAATGGAGCAAGCGGAATAGCAGTTGGTATGGCAACAAATATTCATCCTCATAATTTAGGCGAAGTTATAGATGGCTGTATGGCATATATTGATAATAATAATATTACTATTGAAGAATTATCTAAATATGTAAAAGGGCCCGATTTTCCTACAGGTGGAATAATTAAAGGTAAGACTGGAATTTTATCTGCTTTTAAAACTGGAAGAGGTTCAATAATAGTTGAAGCTAAAATTGATATTGAAGAAAAGAAAGATAAAAAAAAATCAATTGTAATAACTGAAATACCTTTTTCCGTTAATAAATCAAAATTAGTTGCAAAAATAGCAGAGGCTTCTAAAGAAAAAATTGTAGAAGATATTACTGATATTAGAGATGAATCAAACAGAAAAGGAGTAAGAGTTGTTATAGATCTAAGAAAAAATTCAAATCCAGATATTATTTTAGCAAATTTATATAAACATACTCCATTAAGAACAAGTTTTGGCGTGAATGCTTTAGCTTTAAGAGATGGAACAAGTCCTGAGGTAATGGATTTAAAAAAGATGATAAGTTTATTTATCTCTTTTAGAGAAGAAGTAGTAAGAAAAAGAACAATATTTCAATTAGAACGAGCAAGAGGAAGAGTTCACGCATTAACTGGATTAATGATTGCAGTTAATAATTTGGATTTAGTTATTAAATTAATAAGAAATTCAAAGAGTCCAAATGAAGCAAAAATTAATTTACTTAAAAAAGAATGGCCAGCGAAAGATTTAAATAGTTTTATAAAAATAGTAGATGACCCAAAATATAAATTAAAAAAAACTGGTAAATATAATTTATCTCCGCAACAAGCAGATGCAATTTTAGAGTTAAGACTTCAAAAACTAACAGGTTTAGAAAGAGAAAAAATTTTTGATGAAGCAAAAGTTTTAGGTACAGACATTAATCGATATTTAGATTTATTAAAGAAAAAAGAATTGCTTATTAAAAAAATTAAAGAAGAACTAATAGAGATAAAAGAAAATTTTGCTGACCCAAGAAGGACTTTAATAGGTGCTGATAGCAAAGATATAGAAGAAGAAGATTTGGTGGAGGCTGAAGATATGGTAATTACTGTTACACATCGAGGATATACTAAAAGGGTTCCTCTGAAGACTTATAGAGCCCAAAAAAGGGGTGGTAAAGGAAGAAAGGCTATGTCAACAAGGGAAGAGGATTTTGTTAATCAAGTTTTTGTAGCTAACACAAAATCATCAGTTTTATTTTTTTCTACCAAAGGAAAAGTTTATCAAATGAAGGTTTTTAAACTTCCTGAGTTTGCACCAAATGCCAGAGGAAAACCAATGATTGGAATTTTCCCACTTTTAAAAAACGAAAATATTACTGCTGTATTACCTTTACCATCTGATCCAAAATCTTGGGAACAATTAAATATTATGTTTTCAACTGCCAAAGGATCTGTAAGAAGAAATGCTTTAACAGATTTTATTAAAATTCAATCAAGTGGAAAAATTGCAATGAAATTATCTGATGATGATAAATTAATTGGCGTACATACTTGTAAAGAAAAAGAAGATGATGTTTTTTTATCATCTAAAGAAGGTAAATGTTTACGTTTTTCTATAAATGATGTAAGAAAATTTACTGGTCGTAATTCTGTTGGTGTAAGAGGAATAAGATTGTCAAAAGAAGATACAGTTATATCAATGTATATATTGAAACATGCAAAATATTCAACTGATGATAGAGATGAATATTTAAAAGTTGCTAATGCAATAAGAAGAAAAGAATTAAGAAGAAGCACACCTTTTAGTAAACTTTTAAAAAATGTTAAATTAACGGAAGAAAAATTTGTTGAAATGGAAAGTTCAGAAGAATTTATTTTGTCAATAGCTGATAATGGATTTGGAAAAAGAAGCTCAGCTTATGAATATAGAATTACAAGAAGAGGTGGTAAAGGTATTGCAAATATGTCAGTAAACAAAAAAACTGGTAAAGTAGTATCATCTTTTCCTGTACACGAAAAAGACGATGTTATGTTAATAGCTGGTACTGGAAAATTAATAAGATCACCAGTTAATAAAATAAGGGTTGCTGGAAGAACAACTCAAGGAGTAAGATTATTTAAACTAGAAACTGGTGAAAAAGTTTTATCTTCAGCTTCAATTAAAGACTTGAATATTCCTACTGAAGACTAAAATAAATTAATTATGAAAATAGCAATTTATCCAGGAACTTTTGATCCAATAACTAAAGGACATTTGGATATTATAAAAAGATCAATAAAATTTGTTGATAAGTTAATTATTGCTGTTTCAGAAAGTTCAAAAAAAAAAACTTTATTTGATATAAAAAAAAGGGTTTCTCTAATTCAGCATGTTATTAAAGAAGAAAAAATTAATAATGTAAATGTTAATTCTTTTTCTGGATTATTGATGAATTTTGCAATGAAACAAAATGCAAATATAATAATTCGAGGATTAAGAGCTGTGTCTGATTTTGAATATGAATTTCAAATGACAGGAATGAATTATAAATTAAATTCTGAAATTGAGACAATATTTTTAATGTCCTCAGATAAATATCAATTAATTTCTTCGAAATTGATAAAAGAAATTTCACAATTAAATGGAGATATTTCTAAATTTGTTCCAAAAATTGTTAAAAAAGAATTAGAAAAAAAATATTCATAATTCAAATTTCATCTATTGTTTTTCATATCTATTGTAATAATATGTTTTGTGGGCGCTTAGCTCAGTTGGTAGAGCAGTGGACTTTTAATCCGCGTGTCGGGGGTTCGATCCCCCCAGCGCCTACTTTATAGTAATATATCTGAGATAATTCTATTTTTAAAAAAAATTTTATTAAATTCCTGTGTTCCTTTTTTATTTATATGTTTCCAATCATTAAAAAATTTTTTATTTGTAAAACTTAATGAAAAATCAATAATTTCAATATTATTAATATTTTTTTTAATATTACTTTTCCACAAATCAAATTCTTTTTTTTCATAATTTAATTTTTCTGAATAAAAAGGAGCAATAACTAAAATTAGTTTGATTTTTTTTTCTTCACATAATTTTATTATCCTTTTTAAAGAATTAATATTTTGTTTAGAAAATTCATTTTTTTTAAATGTTTTTTTTTCTGTGGTAAAATTTATTTTATTTATTTCTCCAGTAAGACTTTTATATTTATATTTAACAAAAATTTTTTGAATACTATTAAAAAAAGTTGAATTATTAAAAATAAAAATATTACTAACTATGCTTGAATAATATAATTTAGGATAATTTTTTTTCAAAAGTTTTGAAATTTCATTCGATTTATAACCATAAATTCTAAAGTCTTTTAAAGCACTGTTATCTGATAATAAATCTGTTATTTCAAATATAAGTACTTTTGGAGATTCCTTATATATTTTGATATAATCTTTTATAATTATTTCATTAATAATTGTGGAACTTCCGATTAAGGAATAATTTTTAGTTTTTTTTTTTGTTTTATTTTCTATTAAATTTTCATCAAATGATCTATAACCTCTAGAATTACCAAGTATCATAATTTCAGTTAATCCATTTCCAGAATATAATTCAGAGTGTGGAAGTGAACTATATTTATTTAAATAAAAAAATAAACTTGCTATTGATCTATCAGCTATAAAAAAACATAACAAAAATATTATTATTATTTTAATTTTTTTAAAATTGAAAATATATAAACGGTGCTTCATTAAATGTCCCAAAAATTGAGATTGATAATAATACAATTAAAAATAAAAAATAATTAAATAATTTATTATTTAAAAAGTTTTTATTTAATTTTTTAAAAGTTATGAAATAATCAATAATCATTGTAATAAAAATTAGGAAAAAACCTTTATAAATAAAAAATATATATGTTTGTAGTCCTTCAAAAGATATACCAGAATTAAATATTTTTTTTATGTAAAAAAATGCGCTATTTATATCTTTTGATCTAAAAAAAATCCATAAAATATTAATTATCGAAAAAATAAAAATTATTTGAAAAATTTTAAAAATTTTATTTTTAGTTTTAATATTTAAATATTTTTGAAATGTGTTTTGTATAATTATTAAAATTGCATGTAAAAACCCCCAAATTACAAAAGTTATATTTGCACCATGCCATAATCCAGCCAGAACCATTGTGAACATAACATTTCTATTTCTTGTTAATAAATTTTTTTTATTACCACCTAAATTTATATAAATATAATCTCTGAACCACGATGATAGTGAAATATGCCATCTTTTCCAAAAATCTCTAAAACTATTTGCAAAATATGGTGCATTAAAATTAATTCCGAAATTAAAACCCATTAATTTACCTAAGCCTATTGCAATTAATGAATATCCAGCAAAATCACCATAAATTTGAAATGAAAAAAAAATTGAACCTATTAATAATGACATTGAACCGAATTTATTTGGATTTTCAAAGCATGCATCAACAAAAATTGCTAATGTATCAGCTAAACATAATTTTAAGAAAAAACCCCATAAAATTAATCTTAATCCATCAATAAATAAAGGTTTAATATTACTATTAATCTGAGGAAGTAATTTTTTTGCTCTTACAATAGGGCCGGCTATTAATTGTGGAAATAAGGATACATAACATGTAAAATTTAATAAATTTTTTTCAACTTTACATTTGTTTTTATATAAATCAAAAATATAACTTAATTTTTGAAATGTATAAAAAGAAATTCCTATAGGTAAAATTATATTAAATAAATTTTCATTTATGTTTGTTATATTTAATTTTTTTAAAATTAAGTAAAAACCATCTAAAAAAAAATTTAAATATTTAAAAATTGAAAGTATTAATAAATTAAGAAAGATACTTGAAATAAAATATATTTTTTTCTTTCTTTTAATTTTTTCATCATTGATAAGTTTCCCAATATAAAAATCAAATAAAATAGAAAAAATTAATAAAAAAAGAAATCTATAATCCCACCAGCCATAAAAAAAGAAACTTGATAAAATTAAAAAAATAATTTTATTTTTTTTTCCTAAATAAAAATAAATTGAAAAGAAAAAAGTAATAAAAATTAAGAATGGGAATGATGTAAAGAGCAATTTATTTAATTTTAATGGTTATATTCAAAGTTAACAAACACTCTTAGAATATTCAATATTTTTTG
>sequence22
CGTTTTTTTTTATTAAAAGAAGTACCTTTTGGAAATGATGGAGATTTTTCAATAAAATCTTTAAAGAGAAGAATTAATAATGATTTAGCTAATGATTTAGGAAATCTTGTTCAAAGAGTTTTAACAATCATAAATAAAAATTTGGACGGTAAATTAAATAAAATTAAAAAAGTACACGAAAATGATAAAAAAATTTATGAATACCCTAAGAATCTTTTAAAGAAAATTGAATTAAATTATGAAAAACAAGAATTTCATAAAGTAATTGAAAGTATTTGGAAATTAATTTCTGAAGCAAATAAATATGTTGATGAAAATGCACCATGGCAATTAATAAAAGATGATAGGGAAAGAGCAGAAGATGTTCTAAATATTTTAGTTATTATAATTGCTAAAATTGCTATTTTTTTAGCTCCTATCATGCCTGGTATTTCTGAAAATATTTTAAATAAAATAGGTTTAACTATTACGAAATTGTCTATGGAAGATATATCCAACAATAATTTTTTAAATATGAAGTATAAGATTAAAAAACCTGAAATAATTTTTCAAAAGTTTGAATAATGAATAAAATTATTGATAGTCATTGTCATTTAGATTTTCCACAATTTAAAGGAAAACTTGATGAAATCGTGAATAGGGCACTAGATAAGGGTATATATAGAATGCTCACAATATCAACAAAGTTAAGTGAAATCAATAAATTAGAATCTATTTCTAAATCATATTCTGAAGTATATAATTCTGTTGGAATTCATCCTCATGAATGTAAAAATTATAAAGATCTTTCTTTAAATGATTTAATTAAACATACAAAAAATAAAAAATGCATTGGAATAGGCGAAACTGGACTTGATTTTTATTATGAAAATAGTCCTCAGGAACTTCAAATTAAGTTATTTAAAGTGCATATTAACGCTGCCAGAGAAACTAATTTACCATTAATTATTCATACAAGAAGCGCAGATAGTCAGACAATTCAAATACTTAAGGAAGAGATGAAAAAGGGTAAATTTCGAGGTTTAATACATTGTTTTAGTACTAGTAAGGAATTAGCCGATGAAGCAATTAATTTAGGTTTATATATTTCATTATCAGGAATAATTACATTTAATAAATCTACTGATTTACGTAATATTGTTAAAGGATTACCAATAGAAAAATTATTAGTTGAAACTGATGCTCCATATTTATCTCCAGAACCATTTAGAGGTAAATGTAACGAGCCTAGTTATATTGTTCATACTGCAAAAATTCTTGCTGATTTGATGAAAGTAGAGCTTAATACAATAGCAGATAGAACAACTATAAACTTTAATAAATTATTTAATCTATAAGTGATATATATATAGTTTCCCATAATATAGATTATGCGACATTTATATATAACTACACAGGGTATAAAAGATAATATTGTTATAAATTAGATCATTATTTCTATATATTATAGAGCAATGTATGACAAAAAAAATCTGCTAACAATTATTGTATCGATAGTTGTATCATTATTAATAATTGAGTTTTTACTGAGAATAATAGGGTTTGAAAAATATGAATTTAAAGGATACCCACCCTACTATTTAACTAATGTAGGTGATTACGATAACTTCGATATTAGAGCAAATGTAAAAGAAACTGATTTTATATTTAATGACTCAATACCACATAAAGTTTGGGGTAATGAAACTGGGTGTTTTGATGAAAGTATATCAAATATTAAAGGTAATAATTACATACTTGTAGCAGGAGATAGTAATTCATGGGGATATGTTCCATATGATAAAAATTGGTCTTATTTATTAGAAAAAAAAATTAAAACGAAAGTCTTAAACTGTGGAGTTCCGGCATATTCAACAATTCAAGAACTTTATAAAACAAAAAAAATATTAAAAGATTATAAAAATTTAAATAAACCAAGCTTAATTATTTTACAGTACACTTTTAATAATGATTTTTTGGGGGATTATTTGTTTCCACAATATAAAGTTAAAAATAATATTCTTACAACAAATAAATACTTAGATAATATTTTTAAAGGTACGATAAGATATAAAGAAGAAAATAAATTTTGGGATAATTTAAAATATAATTTAAATGAAAAATTTTATTTATTCAGATTTTTACATAGAAGTCATTCATTTTTAAAAAAAAAAATAAAACAATCAAAAAATAAAAAAGAAAGTTTATCTGAAATCTCAACACCTCCTCGTTTTGTTTTAACTTCTTTCGATTTATCATATTTAAATTTTGAAAAATTTCCTTGGGCTAAAAAAGCTTGGAAAAGTCATTTAGAAAGCATTCTAGAATTTAAGAAAATATCAGATAATGTTGGTGCTGAATTATTATTTGTATTTTGGGGAGATCTTCCGGATTACAGTCGTAATCATTTTAAACAAGCTTTAGATATGCAGAAACAATTTAAAAAAGAAGATCATCTTGTTAATTTAAATAATGATAAATTATTATTTAAATTTTTAGAAGAAAATAATATTAATTATTTAAATTTATCTAAACTTGCATGGGATCTTGTAGGATATAAATCACTTACTGATGAAGGTGAAAAATTAAGAGATGTTTTAATTTGGAGGGATGATAATCATCCTAATATAGAAGGTAATAAGTTTATGGCTGAAAAAATTTATAACAAATTAGTAAATGATAATATTATAAAGTAGGAGAGTTAATAAATGATTGTTTTAATTACAGGCGCAACATCAGGGTTTGGCATGGCTTGTGCAGAACTTTTTTCTAAAAAAGGATATAAAACCATATTAATAGGTAGTAGAAAAGATAGATTATTAAAATTATCAAAAAGATTAGGTGTAAAAAAAAACCACCCTATCCAACTCGATGTGAGAAATAAAGGCAATGTTTTTAAGGAAATTGATAATTTACCAAAAAGTTTTAAACAAATATCTATTTTAATTAATAATGCAGGACTTGCATGGGGTTTTGAAACATCTCAAGATGTTGATATAGAAAAATGGGAAACAATGATTGATACTAATTGTAAGGGGCTAGTTTATATGACAAAAGCTGTCTTGCCTGGTTTAATAAAAAGAAATAAAGGGCATATTGTAAATATAGGATCAGTTGCAGGTAATTATCCATATGGTGGCGGTAATGTTTATGGAGGTACAAAAGCATTTGTTAAACAATTTTCGTTAGGATTAAAATCAGATTTATTAGGCACTAAAGTTAAAATAACAAACATTGAGCCTGGTATGGCCGATACAGAATTTTCTTTAGTTAGATTTTCTGGCAATAAGAAAAAAGCAAAGGATGTTTATAAAAATATGACTCCTTTAACTGGAACCGATATAGCTGAAACTATATTTTGGGCTATAAATAGACCAACGCATGTAAATATTAACAGAATAGAATTAATGCCTTTACAACAAGGTTTTAATTTTTTTGCTGTGAGTAGAACTGGAAAAATTAAAAAATAAAAATTTTTTATTTTTTTTTATTTTTTTATTAATTAAATTTAACAATTCCTTTTTCCCGACTTTCAACTTTGATGAAAATAAAATAGCATTTTCTTTTCTACTTACTGCGTTTTTAAAAAATATTAAATCACTTTTATTTAATAAATCTGATTTATTCCAAATTTCTATAATTTTTTTGTCGTTATATTCATCACCTAAAATTGTTTTTAAAATTTTTTCAACAGTTGATTTTTGTTTTTCCCATTCAGAATTAGATATATCAATTACATGTAATAAATAATCTGAGAAATTTATTTCATCTAATGTTGTTTTAAATGAAACTACTAATTCAGTTGGTAAATTTGTTATAAAACCAACAGTATCAGAAAAAATAATATTTTTTTTATTATTTAATAAATTACATTTTCTCATAGTTGTATCTAAAGTTGCAAATAATTGATCTTTCGCATATATATTTTCATTTGTTAAATAATTAAACAAAGTTGATTTCCCAGCATTTGTATATCCAACTAATGAAATAAATGGGTTTAGATTTTTATTTCTATTTCTTCTTTGAATTAATTTGTTGGATTCAATTTTTTTTAATTCTATTTTTATTTTATTTATACGTTTATTTATTTGTCTTTTATCACTTTCAATTTGTCTTTCACCAGGCCCACCCATAAATCCATAACCTCCCCTTTGTCTTTCAAGATGAGTCCAAGAACGTACTAATCTTGATTTTTGATATGATAAACTTGCTAGTTCAACTTGTAATTTACCATGTTTAGTAACAGCTCTTTCTCCAAAAATCTCAAGAATAAGAGCAGTTCTATCTAGAATTTTACATTTAAGATATAATTCAATATTTCTTTGTTGAACAGGAGTTAATTGATAATTAACAATTAATAAATTTGCTAAATATTTTTTTAATAAAATTTTAATATTATTAATTTGACCTTTCCCAAATAAATATGAAGGTGTTGGTTTTCTTATTCTTATATTTTCTTTATATACAACTTTTAAATCTATATTTTCTGCTAGATTACAAATTTCTTTTTCATCATTTATAGTTATTTTTTTTTCAAAAGTTTGAAAAGGATTAATTATAAGACAATTATAATTTTTAGTTTTTGAATGATTATTTTTATTTAAATAAGGAACTCTATTCATAAATAAAATATATTATTTAATATACATTTCTAATGATTTAATTTTTTGTATTATAAGGTCAGGTTTATATTTCAAATCTTTCTTTTTAAATAATTTATTTTCTATAAAAATCGAAGAACATTTATTTTTTTTTGCAAACTCAACATCAATTTCATTATCACCAATATACCATATATTTTTATTAGCTTTTAATGAAATTTCTTTTAATGCAAGTAAAAGAGGATATTTTGATGGTTTGTCTTTTTTTGCTTCATTTGCACCAATTACAACTTTAAAATATTTATTCCATCCAAGTTTACTTATTTCTTTACGTAGCAAAACGCCATCTTTATTGCTTATTACTCCGATAGGTATATTAAATTTCTTTATTTTTTTTAAAATTTTTTCAGAACCAATCATAGGTTTAATTTTTTTTAAATGTATTTTAGTAAAAGTTAAATAAAATATTTTTTTTGCTTTTTTCCAATCTTTTTTAAATATTTTAGGGAAAGTTTCTCTTAGAGAATATTTTGCATTTTTTAAAGTCTCTTTACGAGATTGTTGTTTTAATCCAAGTTGTTTAAGAGTTTCTTTATATGCTAAAAAAATAGGATCCCAATTATTAACTAATGTATTATCCCAATCAAAAAGAATTGCTTTTGGAAGTTTGAGAGAATTATTCAAGCTATTTTTAATTCCTGAGATTTTAAGTTTTTATTTTTAGAAATATAATTATTGTATAGAAGCATAATTTTTTTAGTAATATCTCCTGGTTTTCCATTTGATATATTATAATTATCAATTTTTACAACTGGTAAAACAGATAATGTAGAACTAGTTAAAAATGCTTCTTTAGCGTTTTTTGCTTCTATTAGATTGAATGCTCTTTCTTTTATTTTAAAATTATTTTTTTTTAAAATTTTAAAGATTGTATCTCTTGTTATTCCTCTAAGGATTTTTGTATTACTAGGATGTGTAATAATAGTGTTTGAATTTTTTATAATCCAAGCATTAGAAGCAGAACCTTCTGTTATATAACCATCGTCTATTAACCATGACTCAAAAGCATTTTTTTCTACAGCCATTTGTTTTGATAAAACATTCGCTAATAATGATGTAGTTTTAATATCTCTTCTTAACCATCTAAGATCAGGAATCGTAATAATTTTAACACCTGTTTTATAAATATTTTTATTCACATTTAAATGTTTTGTAAAAATGACAATTGAAGGTTTATATTTTTTTGGAAATTCATGTTTTCTTTCAGCTACCCCTCTAGTGATTTGTATATAAATATATCCATTTATAATTTTATTATTATTTATTAATTTTTTAATAATTGTTTTAAATTTTAATTGATTAACTTTATAATTAATTTTAATTTTTTTTAATGAAGATCCTAATCTGGATAAATGAGGTTTTAAATCAATAATTTTCCCATCAAATACACTAATTAATTCATAAACGGAATCAGAAAATAAAAAACCTCTATCATCTACACTAATTTTTGCAACTTTATGTTCTACAAATTTATTATTTAAATAGGTTATATTTTTCATATTAATAAAATCTAAATCTTACAGATAAAAGATTTTCAACTTTTTTAATCATTTTTGATAATGAAAATAGAACTATTCTATCCCCTGGCTCTATTTGTAAATTTGGTGTTGGCATAAAAACTTCTTCATCATTTCTGAGAACAGCGCCAATTCTTACACCATTAGGTAATTTTAAATCTTTTAATTTTTTATTTACTATCGATGAAGCTTCAACTGCATCCGCTTCAATCACTTCTCCCTCACCTTCTCTTAGAGAATAAACTTGTCTGATACTACCTTTTCTTATATAGCTTAAAATTCTAGAAACTGTTATTGCTTGAGGACTTAAAACATCATCAATTCCTAAAGGTTCTAGAATTGATCTGTAAGTTGTATCATTAGCAAGAGATATTGCCTTTTTACAGCCTTGTTTTTTTGCTAACAATGAAGTAAGAATATTTACTTCATCTTGATTAGTAACAGAAATTATTGTTTCAGTTTCTGATATTTTAGCTTCTTGAAGTATTTCTGGATCTAAACTACTTCCATTTATAACTAATGTATCATTTAAATTTACACTTATAGATTCAGCTCTTTCTTTGTTTAATTCAATTAATTTTGTAGTAGCTCCAAATTTACTTTCTTCTAGTCTTTTTGCCAATGAAACACCAATATTACCTCCTCCAACGATGATTACACTATTAGCTTTTGTTTCTTTATGTCCAAAGAAAGTCATAACATTATGTAAATCATTTGTATCTGCTATAACATAAACTGAATCTCCTAATTTTAATTTTTCGTTATCGTTAGGCATAAGAATATTTTCTTTTCTAAATATTGATAAAAAATTCATTTTTAAATTTTTAAATTCATCTCTTATTTTTGATAACATTTTGCCTGCATGAGGACACTTAGAGTCAATTTTTATTCCTAATAAAACTATTTTTTTTTCACTAAATGGTATAATTTCAAAAGCTCCTGGTGCAATTAATCTTCTTCTTATGGCTTCCGCAACCTCTGTTTCAGGTGATATTATAAGATCAACAGAAATTTGATTTCTAGAAAATAAAGTTTCATAATTTGGATCTAAGTAGTGTTGATCTCTAATTCTTGCAACTTTCAAAGGAACATTAAACTGAGAATTTGCAACTTCACAGGCAATCATATTTACTTCATCTGATTGTGTAACAGCAATTAACATTTCAGCACTTTTTGCACCAGCTTTATCTAAAATTCCAGGTTGTGAACCAAATCCAACAAAGGTATTTACATCCAAATGTTCTTGTATTTCCTTTAATGAATCTTCAGATTGATCTATTATAGTTATATCGTTGTCTTCTTTAGATAAACGCTCTGCTAAAGTTTTACCAACTTCTCCAGCGCCACAAATTATAACTTTCATTTTTTAATACCTACTTCTTTTATTTTTCTATGTAGTGCCGATCTTTCCATTCCTATAAAATTAGCTGTTTTAGATATATTCCAACCAAATCTTTTAACTTGATTAATTAAATATTGTTTTTCAAAATTTTTTCTAGCATCTTTTATAGGTAGATTCATAATAGAATTATAATTATTGTCACTAGATTGTTTTTCTTCATTTTTACTTAAAAGTTCATTTGGTAGCATTTTTGAAGTAATTATGTCATTTTTTTGAGATAATTTTGAAAATGTTATATATAACCACTCTACAAAATTTTTTATTTGCCTTACATTGCCAGGCCATTCAACAGTTTGTAATCTAGAATAAACATCTTCGCTAAGTTTAATTTTTTTAAGATATTTTATTTCATTTTTTTTTATAAAATGATCCACAATTAAAGGTATATCTTCCCTTCTTTCTCTTATCGGAGGAATTTCTAATGAAGTTACATTTAATCTATACAGCAAGTCTTTTCTTAAAACTTTATTTTGTATTTCTTCATTTAAATTTTTATTTGTTGAAGATATAAATCGAATATTTGCATTAAAATCTACTTTACTACCATGTGTTGAAAAAGTTTCTTTTTGTAAAAAATTTGTTATCTTTCCTTGGATAGGATATTCGAGATCACATATTTCATTAAGGTAAATAGTTCCTTGATTAGCTTTTTGTATAAAACCTAAAGCACTAGTTTGTTCTTGATCTGATGATCCAAAAAAAGTTTTATCAAAATTTTTTAAGTTTAATAATGAACTATTTATTGTTATAAAAGGTTTGGGTGCTCTTTTAGATGAATTATGAATAATTTTTGCTACAAGTTTTTTTCCCGTACCAGTTTCTCCTGTTATTAAGACTCGTGTGTTCGAAAGTGCAATTTGTTTAATTTTTTTTTTTAAATTATTTACTAAATTTGTATTACCAATAAATTGATCATCTTCATTTATCTCTTCTTTATAAAGTTGGTATTTATTTTTTAAAAAAGCATCTTCTATTGCTCTTTCAATTAATAAAAAAAGCTTTTCAGATTTAAATGGTTTTTCTATAAAATAAAAAGCACCTTCTTTTACTGCTTTAACAGCCATTTCTACATTTGCGTGACCACTAATAAGAATTACAGGAGTATATGGATTGTAATTTTTAATAATTTTTAAAAGTTCTAAACCATCTTTATCACTTCCTTCTAGCCAAACATCTAATAAAATAAGATCGACTGAAACTTTTTTAATTTCATTTAGCGCTGTTTTGGAATTGTTTGCTATAAGAGTTTCATAGCCTTTATTTGATAAAATTTTTGATAGAGTAACACAAATATCATGGTCATCATCAACAATTAAAATTTTATTTTTCATACCTTTATATATAGTCATTATATTAAATATTATTTGAAAGTTCTATAATTGCTGTAGTACCGTTTTTATTATTATCTAAAAAAAAATTACCATTATGTTGTTGAATAATTTTAAGAACTATAGGTAAACCTAATCCTGAACCAGCTTTTTTTGTAGTTATATATGGTTCTAAAATCTTATTTTTAGAGAAATTATTTGGCAATCCTTTACCATTATCATTAATTTTAATCAAAGTTGTTTTTAAATTTTTTGATAAGTTTAATGAAATAGAACCCTTACTTCTTTTTTGTTTAGAAATTTCATTTATTGATTCAATAGAATTTTTTAACAAATTTGAGATTGCCATGGTTATTTGTAATTCATCTATATTTAAAAATATATCTTTTTTTGGATTTTTATAAGAAAAATTAATTTTATTATAACTCTTTTTATGAAATAAAAATAATTCATCACAAATCTTAGTTAAATTATTTCTTTTAAAATTGGGTTTTGGCAATCTTGCAAACTGTGTGAATTCATCAACCATTTTTTCAATTAACGAAACTTTTTTTAGTATAGTATTTGCATAAATCTTTGAATTTTTACTTGTTGATTTAGAAAGTAAATATTCAGCTGAAAGTTGTATTGGTGTTAATGGATTCTTTATTTCATGCGCTATTCTTCTAGCTATATCAGACCAAGCAGCATTTCTTTCTCTTTTTTGTAATTCAGTTCTTTGAAGTTTAAGTTTATTAGTCATTTCATTAAATGTTTTAATAAGAAGACTCATTTCATCTTTTGTTGAAATTTGAGGAACTTTAGCTGATAAATTTCCTTGCTTAATTTCATTTGATGTTTTTATTAAATTAGAAATTGGGCTAATTAATGCGTCTGCAAATAATAATCCAATTAAAATAGAAATTAATAAAACTAATAATGAAATAAGAATAAATACCATATAAAAATTAATTTCTATTTGCTTTCTTTTATCAAAAAGATTTTTATAAATTAATGACTCTTCTTGAACCGTTTCAATTTGACTTATTATTTGAGGGTCAATAAATTTACCAATTGAAAGATAGGTATTTTGTAAATTTTTTAATTTTATTAAAGCTCTTACCCTATCTTTTCTTTTACTTGTAAAAACAACTTCGCCTCTTTCAGCTTCTATTAATTCAAATTCTGTTATTAAATCGGGGGTTGTGCTAATTGTAAAACCACCTTTAACTAACAAAACACCACCTCTTTTAAAAACAAAGGCTTCAGTTAGTTCTCGAATTTTTATTTGATTATTTATAAAAGAATTTAATTCATTTAAATTTAAAAAAATAACATTAAATTTTTCATCAATTTCTTTTGAAATAGCTTTAACATCACTTTTTATATTTTGTTGATGTTCTTTTAAATAGGCATTTGCGATAACATTTGATTGTTCGGAAATTTTTAATACTCTATCATTAAACCATGCTTTCATTCCCACGTTAAAAAAAAGAGATGAAAATGTTGCTAATGTTATAGTCGGAATTAGCACAAGTAATGCGAAAGTTAATATAAATTTAGTCGATATTTTAGAACCAAGTTTACCTTTTTTTCTTTCAGATAAAGTTATTAAAATCTTTCTTGTAACTTTAAAACATAATAAAACTAATAAAAAAAAATCTATTGATAAAACTATCAACGCTACTGTTGGTGTTGTTTTAATATAAGGTAATGAATTTGTAAAAGTTAAAAATGTTAATATTGAAGCGAAAAAAGATAATATTATTAATAAAATTGAAATTTTTCTATTTGTAGATGGTTCTTTAAACCATTTAGTAAGACGTGATACATCTTTTTCAATTAAATTATTCATAAAAAAAAGTTATTTAGAAAATTTTTATATTTAAATCTTTTATTTTTTTTCTTAAAGTATTTCTATTTAAACCAAGTAATTTAGATGCTTTAATTTGATTACCTTTAGTTGCACTTAAACATATAGATATTAATGGTTTTTCAACTTCAGCAATAATTCTTGAATACAAACCTGCTGAAGGTAACTTGCCTTTATGTAGTTTAAAAAAATTTTTTAAATGTTCTTCAACAGACATTCCAAGACTTTCATTTTTATTATTAAAATTATTTTTTGAATTGTTTTTATTATTTAAATTTTTTTCTATATCTGTTTTAGTAATTTTATTTGATGGTATTAAAACGACCATTCTTCTAATAAAATTTTCTAATTCTCTAATATTACCTGGCCAATTATAATTTTTTAATTCTTCAATAGCATCATCTAACATTATTTTTTTATCTAAACCTTCATCATGTGACTTAGATAAAAAATGGTTAACTAACTCTTTTAAATCTGAAAGTCTAGATCTTAAAGGTGGTAAATTAATAGGAAAAACATTTAATCTATAAAATAAATCTTCTCTAAAAACACCATCTTCAACTAATTTATTTAAATTTCTATGTGTAGCAGTTATTATTCTAACATTAGTTTTAATTTTTTCATTGCCTCCAACTCTTGTAAATTCACCTTCTTGGAGTACTCTTAAAAGTCTTGTTTGTGCCTCATAAGGCATATCACCAATTTCATCTAAAAATAAAGTACCTCCTTCTGCATCCTCAAATTTTCCAGATTTTCTATTAAAGGCACCAGTGTAAGAACCTTTTTCATGTCCAAATAATTCATTTTCAATTAAATCCTTGGGTATTGCTGCCATATTAATCGCTACAAAAGGAGATGCTTTTCTTTTACTGTGATTATGTAATATTTTTGCAATTAATTCTTTTCCAGTGCCTGATTCACCAGAAATCATTATAGTTAAATCTGTATTAACTAATTTAGCAACTGATTTAAAAACTTTCTGCATTAAAGATGAGGTTCCAATAATTGGGAGTTCATTAGTATTTTTATTATCTTTAATATTTTTAGACATACTTGGTTTTGTAACATCAGAAAAAGCTGTTTTAATTATTTTATTTAGCTCTGATAATTCAAATGGCTTTGATAAATATTCATAAGCTCCCTTTTCTACTGCTTGCATCGCAGTTAAAATTGTATTTTGGGCACTTATTACAATTATTTTTAATTCAGGTCTGATTTTTTTTATTTTAGGAATTAATTCTAGACCGTTTTCATCTGGCATCATTACATCTAATATTATTAAATCACCAATGCCTTCAGAAGTCCATTTCCATAATTCTGAACAGTTACCAGTTAATTTAACATCATAATTATTTTCTAGTTCTGTAGATAATATAGTTCTTATCGATTGATCATCTTCAGCTATTAATATTTGCTTTTTTTTATCCATTTTTTTTAATTAATTACCAACTTTATTAAACATAACTGTAAATATGGTTTTATTATTAATTTTATCAAATTCAATTAAAGCATTATGTTTTTCAACTATTTTCGCACATATAGAAAGTCCTAATCCTTTTCCATTAGTTTTATTTGTTACAAAAGCATCAAATATATTATCTTTAATTTTATCAGGTATTCCGGAGCCATTATCTTCAATCGAAACCTTTATTGGGAAATTTTCATGAACATATTTAGTGATTAACTTAATTCTACCATTCTTATCTTTAATAGCTTCTGAGGAATTCGTTAGTAAATTTAAGAATAATTGTATTAAATTATCTTTATTGCCATATATTTCAGGTAATGAAGGATCATAATGTTCTACAAAATTTATTTTTTTATTTTTAAATATAGTTTCTATCGAATTTTTAGAATATCTTAAAATTTGATTTAAATTTATTTTATTTTTTTTTATTGGTCTATCATCAGTAAAGCCTTCTAATGAATTTAATAAATGATTTATTCTATCAGCCTCATCATTAATTAATTTATATAATTTCATATCTTTATTTTTAATTTCATTTTTTTTTTGTAAAATTTGTATCGCACCTTTTATACCCGATAATGGATTTTTAATTTCATGCGAAAGCATAGAAACTAAAGATGAAACAGATTGAGCTGATTTTATAAAATTTAATTTTTTTGATATTTCAAATTTTTTAGAATTATCATTTAAAAATAATGTAAATAATCCTTTTTCATTCTCTATTTTAGAAATACTTATTGATACATTGATTTTTTTAATAACTAAATCAATTTCTATATTAGGTAAATAAAAATTTGTATTATTTTTTATTGTTTTATTTATTAATAAATTAAGATCTTCATTAAATTTAAATATTTCTTCTATTTTTTTGTTTAAAATTGATATTTTACTTTTTTCTAAAAAATCTTCAGTAGCTGAATTACAATAAATAATTGTTTTTTTTGCGGCATTAATAACTATTATTGGGCTCTGTATAGAATTTAATATAAATTCTGAATTTAAATCTATGCTGTTAACTAAAGTATCCAATGTAAAATGTTTAATATATAGGCAATTTAACTAAATGATTAAAAAAAAGGCAATAAAAAAGTACAATTATAGGGCAAATATTGCAATTATATTGGCATGTGGAGAAAGTTTAAGGTTTAAATCCAGTACTCCCAAGCAATATATAGATTTACACGATGATATAATATTAAATAATACAATTAATATTTTTCTTCAAAAAGAAGAAATTGGCCGAATTTTATTAGTTTTAAATAGAAAACATAAAAAATATTTCAAAAAAATTATTAAAAATAAAAGAATTTTAAGAACATATGGTGGTGATTCTAGACAAAAATCAGTATTTTATGGATTAAAATTTATAAAAAGATTTAAGCCTGATAATGTTTTAATTCATGATGCTAATAGACCACTTACTGATCTTAGTCTAATTTCTGAAATAATTTCTAAATTAAAAAAATTTAAAGCAGTAGTTCCAAGGATCAAAATACAAGATACTGTAAAGAGAATTGGAACAAAAAAAATTAAACCAATTGATAGAAGTAAGCTTTTTTCATTACAAACACCACAGGGTTTTAAATATAAAGAATTATTTAATGAACATATTGATAAAAAACATGAAGAATTTACAGATGATTCATCATTATTTGATAATAAAATTAACTCTGTTAAATACATAAACGGAGATAATGAAAATATAAAAATAACTGATAAAAAAGATCTGAAAATAGCTAGAAAAATATATTCATCAAAAATAGAAAATAAATCTAATTTACTTGGATTAGGAATTGATTTTCATAAATTTAGTAATAAAAAAGGCAAATTAATTTTATGTGGGGTAAAAATACCTTTTAATAAAACTTTATTAGCCCATTCAGATGGAGATCTTGGATATCATGCTATTTCAGATGGAATTTTAGGAGCAATTTCTGAAGGGGATATTGGTATTCATTTTCCTGATACTAGTAAAAAAAATAAAAATTTAAATTCTGCAAAAATATTAAAATATACATACGATTTAATGAAAAAAAAGATAAAGATAAATATTAAAAATATAGACTTAACTTTTATTGGCGAAGAACCAAAATTTTCAAAATATCAAAAAAAAATGAGATTAAATATTGCGAAATTACTTAATTTAAATATTGAACAGGTAAACATAAAAGCAACTACTACTGAAAAAATGGGTCCTCTAGGAAACAAAGAAGGATTAGGAGCATTTGCTTTAGTTAATATAATATAAGAGTGAAAGAAAAATTATATAAATCAATTACCACTTTTTTTGGTTTAGGTTATATTTCTCCTTTTCCAGGAACATTAACTTCTTTTTTAACAGTTGTAATTATATGGCTTATTCAAAAATACTTTGGTTTTCAAATAACTCTCACATGTATTATTTTTGTTTCTTTAATTGCTTATATTTCAATTGAAAATGATGTAAATAAAAAATCAGATCCTAAAGAAATAGTGATTGATGAATTCATAGGACAATCTATAGTTTTAATTTTTCTACCATTAACATTACAAAATTATATCTTGGGTTTTATTTTTTTTAGAATTTTCGATATATACAAACCTATGCCAATAAATTACTTTGAAAAAAAGTACCAAAATGCATTCGGTATTATTTTTGATGATATAATTGCAGCTGGCTATGCTTTATTGGCAATTTACATAATTAATATTATTATTTAGATATGTTCCCTATCAAGATTAAGAATAAAGCAGAAAAAGTTGTTAAACTTTGCTTAAAAAAAAGAATTAAATTAGCATTTGCTGAATCTTGTACAGGAGGTTTGCTATCTTCATTAATAACATCTTTTCCTAATTCATCAAAAATCTTTATTGGTGGGTTTATTACCTATTCAAATCTATCAAAACAAAACATGATCGGTGTTAAAAGTAAAACATTAAAAAAATATGGTGCGGTAAGTCAGGAAGTAGCAAAAGAAATGGTTAAAGGAGTCTGGAAAAAAGATAAGTTAAATATTGCGTTATCAATTACTGGAATTGCTGGCCCTACAGGGCAAACAAAAAAAAAGAGAGTTGGTTTAATTTATATTGGTTTAAAAAGTAAAAAAGGAACCATTGTCAATGAATTTAATTTTAAAGGAAATCGTCAAAAAATTAGATATGCTTCAGTAGAAAAAGCTATTGATTTAATAAGTTCAATTATTTAATTTTTTTTCAAAAGCATCTACCATTTTTTCTACTGCGTCTTCTAAAAAGAAACTAGTGCACAATCTTAAAAAAATTGATTCAAACTTAAAATTGCAGAAAA
>sequence23
GTTCAGAATCACTTATTACACCATTAATTCTTTTATCATTTTTTATTACATCTAAAAAATTTTTTTTTGTTTTCCAAACGATCATAGCATTTTTTTGTACAATATCATAAGCCACTTGTCTATCTATGCCCTTTTTTTCAATAAGTTCTAGTAATAAAGCTTGTGAAAAAACAAGACCGTTTAATAAATTTAGATTTTTTTTCATATTATCTGGGTAAACTTTTAAATTTGAAATTAAATTATCAAGCCTATTAATTGCAAAATTAAGTCCAATTGTTACATCTGGCGCTAAAATTCTTTCAACAGATGAATGAGATATATCTCTTTCATGCCAAAGAGCAATATTTTCAAGCATTGGTATTACAGCAGATCTAATATATCTGGAAAGACCAGTTAAATTTTCAGATAACACAGGATTTTTTTTGTGCGGCATGGCTGATGAGCCTTTTTGTGTTTTAGAAAAAAATTCTTCAGCTTCTCTAACTTCAGTTCTTTGTAAGTGCCTTATTTCTATTGCTATTCTTTCAATTGAACTTGCTATAATTGCAAAAATTGAAAATAAATGTGCATGCCTATCTCTAGGTATTATCTGTGTTGATATTTTTTCTGTTTTTAAATTTAGTTTTTTTGCTACAAAATTTTCAATAGCTGGATCAATTGTTGCATAAGTTCCAACTGCACCTGATATTGCACAGATTGATATATCCTCTAAAGCTGTTTTTAATCTTTTAAGATTTCTATCCATTTCAGCATAAAAACTTGCTATTTTTAAACCAAATGTCGTTGGCTCTGCATGTATTCCATGAGTTCGACCAAGACAAATAGTATTTTTATATTTTTTAGCCTTTTTTTTTAAGGTTTTTAAAAAATTATTTAAATCAGATATGATTATTTCGGTAGCCTCTTTAAGTTGCACGGAGAATCCTGTATCAATAATGTCTGACGAAGTAATTCCTTGGTGTATATATCTAGAACTTTTACCAACTTTTTTTGAAACACTGTTTAAAAAAGCTATTACTTCATGCTGAGTTTTTTCATCTAATTTTTGTATATCTTTTACATCAATTTTTGATTTATTTTTAATAAGTACAAAATCTTTTCTTGGTATTTTATTGTTAATACAAAGTTTTTCACAAATAGCTATTTCTATTTTGAGCCAAATTTCATATCTGTTTTTGTCAGACCATATAGAAGACATTTTTTCATTGGAATATCTAGGTATCATAATTTTTTAATTAAATAAAATTAATATATTAATATGGTGGTTTTTCATAATTTTTTGGGGATAAAGTGAATATTTCACATCCATTTTCTGTAATACCAACTGTATGTTCAAATTGAGCAGACAATTTTCTATCTTTCGTTATAGCTGTCCATCCATCATTTAATATTTTTATTTCATTAGTTCCAGCATTAAGCATAGGTTCAATAGTAAATATCATACCTTTTTTTAATTTCACACCTTGCCCTTTCGAACCATAATGTAAAACACTAGGTGCTTCATGAAAACTTTTACCTATACCATGTCCACAAAAATCTTTTACAACTGAGAAATTATTTTTTTTAGCTTTATTTTCAATAACAAAACCTATGTCGCCAAGTGTTGATCCTGGTTTAATTTGTTTTATAGAATCTATCATACTCTCATATGTTATATTAATTAATTTCATTGCCTTTACACTAGTTTTATTTCCAACAATAAACATTCTGCTTGTATCACCATACCAACCATTTAATATTACGGTAACATCAATATTAATAATATCTCCATTATCTAAAATTTTGCTACTAGGAATCCCGTGGCAAACTACATGATTAACAGATGTGCAGATTGATTTAGGAAAACCATTATAGTTTAAGGGCGCCGGTATAGCATTATTGTTTATAATAAAATTATGGCATAATTGATCTAATTTTTCAGTTGTAACACCAGGTTTTACATATTTTGTAATAAAATCCAATGTTTGAGCAGCTAAAAGACCTGCTTTTCTCATACTTTTAAAATTAGCTGAATTATAAATATTTATTTTTTCTTTTTTTGGATTAGACTTAATTTCAAGATTTGTCATTTTTTTTTGATTATTAAAAATATATTCTAATGAAAAAAATAAAAAATCCAACAGCATGTATTATTATTATTGGAAATGAAATTTTATCAGGTAGAACTCTTGATACAAATAAAAATTATTTATGTAAAGAATTAACTGCTATTGGAATAGATGTTTTAGAAGCAAGAGTTGTTAAAGATGATGAAAAACAAATTATTTCTTCAGTAAATGAACTTAGAAAAAAATATAATTATGTATTTACAACAGGAGGTATTGGACCAACACATGATGATATTACTTCAAATTCAATTGCAAAAGCATTTAAAGTTAAATTAATTAAGAATAAAAAAGCCTTAAACATTTTAAAAAAATTTTATAATTTAAATAATTTGAATCAAGCGAGACAAAAAATGGCCTATTTGCCAAAAGGATCTGAATTATTATATAATCCAATTACGAAAGCTGCTGGTTTTAGAATTAAAAATGTTTATGTTATGGCTGGTATACCAGAAATAATGAAAGCTATGTTTTTAAATATTGTTAAGAAATTAAAACGCGGCTTACCTGAAGTTTCTAAAACTTTATTATTTAATTTACCTGAAAGTAGTATTGCTGAACATTTATCAAATATTCAAAATAATTATAAAGAGGTTGAAATTGGTAGCTATCCATTTATGAGTGGAAAAAAAAGAGGAGTGAATATAGTTTTAAGGAGTCAAAATAAAAAATTAATAAAAAAAGTAGAAAAAGAAATTCTTAAAAAAATTAAAAAAAATTAATTTTTTTATTTTTTGATAAATATGATAAAAGCCATCCTAGCAAAAACCAAATAGTAACAGCATTCCAATTTGAGAAAAAGTTTAAAGAAGGCATCATAGGTAAAAATTTAGGAATTAAAGATGTTAGTATCCCTAAAAAAATAATATTTTTTAATAAATTATCCTTATTTTGATTTATTTTTATAGCTATAATCATTAAAAAAAATATAAAAAATAAAAAGCCTGGTATGCCAGTTTCAGATAACCAAGTTAAATAAAGATTATGAGGATGGCTTGAGCATGTAGCTTGATAATATTTTTTTAATTCAATATTATAATGACCTTTCCATGGAGATACCCCATATCCAGAACCTTTATGGCCATCAGATAAGAATTCATCTTTTTCGCATGCAATTCTATAGTTTTTTAGACCAATACCAAAAATTGGATTAGATAAAGACATTTTAAATGCTGTTGATGATAAAGAACCATACGCAGATTCCGAATAATTTGAAATTTCATTTAAAGTTTTATCAATTAAAGAGTTTTTTATTTTAGTTTTTAGAAAAGGATTTGAGTTATAAAAAATACACAACGAAAAAAATAATATTATTAAAGAATAAATAAATATTTTAATTTTTTTTCTAAAAAATAAAAAAAATAATATTAATAAAGAAGTAATTATTGTTGAAAGTATTGAACCTCTATGCCCACTTATATAAATTAAAAAAAAATTTAAAATTATAAAAATAAGAAAAAAAACAAATAAATAATTTTTTTTCTTATTATAGAAATAATTGATTAATCCAAGAAAAGTTGGAAATAAAAAATATGATAAATAAAGTCCTGATTTTGGAGCATCTTTAAATGGACCTGATATACGATTTCCTCCACCACTAAAAAGATCTTTATTAAAAAAACTTTCAAGAAATCTACTGTATAATGAATAATTGGTGAAATATTCAATAAGCATTTCAATATTTACATAAATAATTGCTAAAAAAGTGCAAATAACTAATTTTTTTTCAAATTTTTTTTGACTAAAGAATAGAAATTGTAAAGAAGCTGCAAAAATAATAAATCTTATCCAGCTTATAGATCTCGACAAAGCTAATTCTTGATTGTATGCAAAAAAACTGGAAATTATTAACCAAAAATATATTAAAAAACAAATTTTTATCCATTGTTCATTTAACCATGACCAATTATTATCTTTTAATGATTTATAAATGAAGAACGTTGCAGTTATTACAACAATAATATCTGCTATTGAATTACTAAAAATAAGAATGAAAGGAATTAGGCATATGAAAAATGAAATGAATTTTAACAAAAAAAGATCAACAGTATTTTTCATATTTTATTTATTTTCTATAAAATTTTTAGTTACAAAAGGTTTAATATAGTTTAAAAATAATTTTGATCTTTTTAAATTGTCTTTTAATCTTTGTTCTATCACTGTAGCACTTCTATCAGTAAAAAAACTTTTTAGAGTTCTAAAGATTCTTTTTGGTCTTGTTAAATATGATATTAAATATGAAATAATTAGTCCAATTATTCTATAAAAATATAACTCATATCTGCCTATGTATTGATTATAGGAAACATCAGGAGGAGTTAACTTACCAGTTGATAAGGTTGCTAACGAATTAAAATAATTATCATTTAATTTAATTTCTTTTTTTTTAACTAACATATCAAATAACTCAGTACCTGGATATGCTTGAAAAGGATATGTTGGAGATTCTTCTACTCCCATAAACATAAATTTAATTTGTTGAAGAAGAGTTTTATATAATTCAATTCTTTTTTCATGAGGGAAACCTATAATTAAATTTGTTCTTACAGACACATTATTCTTAATTGCATATTTAATAGATTCTTCCATTTTATTTAGTTTAATTTTTTTTTTTATTAATTTAAGTGTTTCAGGCGATCCACTTTCAGGCGCATAAACCAAATATTTTAATTTTGCTTTTGTCATTGCTTTTACAGCTTCTAAATCTAAAGCCTCACTTCTTGTACCAGATGGGAGACTCCATTCAATATCAATTTTATTTTTTTTTAAACTTTTACAAAATTCAATTATCCAATCTTTTTTTACAATTGCTGTTAAATCATAAAATTGTAAACCTGTAATTTTATATTTTTTTATGTAATATTTGATTTCTTTAATTACATCTTCAACGGGCCTAATATAATATCTTCGGCCATACATGAGAGGGTTTGAACAAAATGTACATTCGTAAGGACAACCTCGAGAAGCTAAAAAAGGCATATTTCGTCCTGAACCAGCGCCAAAACTTATTGCATTATCTAGATATGGTTCTATAGGAAAGATTTTCCAATCTGGCCATGGAATTTTATCAACTTCTTTAATTCTTTCTCTATGTTGGTTTTTAATAAATTTATTTTTTTTAAGATAAGCTAATCCATTTATATTATTTATATTTTCTTTATTTAATAATTTTTTTGTTATTTCTTTCCAAGTTTCTTCTCCCTCTCCTAAGCATATATAATCAATTTCTTTACAATCTTTTAGACTGTACTCAGGCAATGCAGTTACATGCTCACCGCCTGCAATTATTTTTGATTTAGGAAATTTTTTTTTTAATTTTTTTAAGCAATTCTTTATATAAGTCCATTCATGAGTAAACATTGCGCTTATACCAAAAACTTGTGTTTGTGGATTTATTAGTTTTAGAATTTCATCAATTTCAATGCCTATTCCTTGTAAATTTCCATTAGGAATTTTAAATATATTATTTAAATTTTTTCCAGTAGCATCTATACCTTCAACTTTTACACCTATAGATTTACAAGAGCTTGCAATATAGGCTAAGCCAATAGGGGGTGTAGGTTCATTATTAACACTCCCATTAGGAGCAACAAGAGCAAATCTAATTAAAGTTATTATCATTATAAAATTTTATATTTATTACTTTTTTTTATACTATTACCTATGGTTAATTTAATTCAATATGACAGAAAAAGTAGAATTTTTAAATACTTAAATCTTTTATTATTATTAGTTTTTTCTTGGGTAGTATTGCAAAATACATTATATTTTTTTGAAAAAATTATTTTTGGAAATCATGAAAATTTTTATGATCTAAAATTAATTTATAATTCATTAATCGATACATTAAATAAAGAAAATACATATAAAATTTATCCACCGTATTTCGATCAACCTACTACTTCAATACCTCCATATATATTAATTTTAATAAAAAATTTAGGAAATTTTACTTATCAAAATTTTATAAAAATATTTATTTTTTTTGAGATAGTCGCAATTATTTTTTTATTTTTTTATTCTTATAAATTATTTTCTTTAGAAAAAATAAAATTTTTATATCCTTTTTTTTATTTTTTTAGTTTTAATTTCTCGTTAGGTTTAGCTGGAACTATAGTAGGTAATATAGCAGTACTTTTGTATAGTATTATAGGAATTAGTTTGATTTTTCTTTATAAAGAAAAAATATTTTTCTTTTCTTTATTAATTTTTATCGTAAGTTGTTTCAAATTTTATTTATTAATTTTTTATTTTTTACCTTTAGTACTATATGGTTTTAAAACATTAAAATATTTAATTCCATTTGTATTTTCAATTTTTATAATTAATTACCTTTTTTATATAAAAGACCCAATTTTATATTTATCTTGGGTAGAGTTGATGCAGATACAAGTATCAAGAAGTCCAGATAATCCATGGGTTGGTAGTGATATTACTCAAGCATTCGCAGCTTTAATTAGAACATTTGGAAATTATTTTAATATATATTTATATCCAAGTACTTTTTTATCAAATTTTTTTTGGATAATTATTACTTCTGCGTCATTTGTTTCTTTTTATTTTATTTATGGAAATAAAAAATTAAATAGCGAAAGTAAATTAAATTTATTAAGTTTTGCATTAATATTAATTTTTTTATTTTATCCAAGAGTGCTTATTTATGATTTGTTTTTAGTTATTCCAGCTTATTACTATTTATCTTCTAAAATAATTTTCTCAGTGAATAAAAAAATAAATTCAATTATAAAATTTATTTTATTTTTTTTCTTTTTATGTGTTCAAGATACACATGCATGGCTTTGTTCATTATCTATGATTTTTTTCCTAATTATTTATTTAGAATTTAAGAATAAAAACCCTTTATTAATTAAATAATTATTTAAAAATTTTAATTTTTTTAAAGTTTAAATAATTTATATAAAAAAATATTAAAATAGATGTAAGGAATAACATGTATTTATCATGGATTATAAAAGTAAGAAAAATTATTAAATATTTTATAAAATTATCATTTTTTGAGAATATATCTTTGAAATTTAAATTAAATAATAAATAGTAAATACAAGGAATTAGAAGCAATCCTTCATAATCTTTTAAAACAGGGTAGCAAATAGTTATTAATAAAATTCCAATTACTGATATTTGTATTTTTGAAAAATTATTTTTATTAAAAAATAAAATAAAAAAAGTAGAAATAAAAAAAATAAAGCAAATAATGAACCAAGATATTTGGGTAAAATAATAATTTTTAATATTTGGAAAAAAAATACTTGGTAATTCGTTTAGTATTGAGTACATACCAAATCCACCACCATATAGTTCAAAAAATTTTTCTGAACGTATATAAGATAATTGATTAAAAAATTCTAAAAAAAGACTTTGATCAGAATAATAAGAAAATGCGTAAGTAGTAAAAATAGTTAAAAAAGATAAAAAAGTGTATTTATAAAAATTTTTCTTTTCTAAAAAAAATAAAAGAAAATAAAAAGCTAAATAAGTGATTTTAAATATGCACATTAAAGTTAAAATAATAAAAAAATATTTTGTATTTTTTCCAAAAATAGCTAAATACAAACTTATTCCTAAAATGGAATAAAAAAGTATAGATATGTTTCCTGTTAATAATCCGGTAAAATTTAATCCTCCAAAAGAAAATAAATATATTAAAATAAAAATTAATATATTTTTTTCTTTTAAAAATAATTTGTGTGAAAAAAATATTTTTAAAAAGAAAATTGGTAAAATTATGATTCCCCAAATAATAATTGAGTTAATTTCTGTAATTTTTGAAAATAATGAAAAGAAGTTTAAAGTTATCGGAGGATAAAAAAAATCTAAAGCATGAGGATAACTATTTAAACATTTTGATAATGCATTTGGAAAATAAGGACTAATTTTTTCTGAGAAAGTAATTGCCGCACATCTATATACAGAAAAATCTGCAAAAGGAATTCTATTTCCATAAATAACTTTTTCAAAAAAATTTAAAATTACATTTGCCGCAGAAATGAACAATGAAAAATAAACTAAAAAAACATATCTCTGATTTTTAAAAAAAGATGATATGTTATGATTAGTTTTATTTTTATTTTGCATAATTTAATTTATTTTTTAAAGATTCTTTTTTATTTTAATTATAACAAATTATTACGAGGACATCATAAAACTAAATAAAAAAATATTGATTATAATTGGTACAAGACCTGAATTAATTAAACAAATACCTGTTTATAATGAGTGTATAAAAAAAATTGGTAAGCAAAATGTTTTATTAATTAATTCTGGACAACATCAAAAATTTCTAAATTTATATATAAAAGAAAATAATGTAAAATTTGATTTAACATTAAGTAATATGCAATCAACAAGTTCTTTAAAATATAATTTAAAAAAATCAATTGATATTTTTTATAATCTTATAAAAAAAATAAATCCTAATATTGTATTAATACAAGGCGATACGACGACTGCCGCTGGTTGTGCATATGCAGGTAGCCTTCATGGTTCTATTATTGCACATAATGAAGCAGGATTAAGGACTTTTGATAATAAAAACCCTTTTCCAGAAGAATTAAATAGAAAATTAATTACGTCGGTTTCAGATATTCATTTTGCCCCAACATCTTTAAATCAAAAAAATTTAACAAATGAAGGAATTGATAAAAAAAAAATTTATGTAGTAGGCAATCCAGGTATTGATAGTTTTTTAAATGCATTAAAAAAACCATCACAGACTGCAAAAAAAATAATTAATATTGCAAATAAAGAAAATAAAAAAATAGTTTTTTTAACAGCTCATAGAAGAGAGTCAATCGGAAATAATTTTAGAACTTTATTTATAAATTTAGAAAAATTTTTTAAAAAAAATAAGGAATATTTATTAGTAACTTCGAAACATCCTAATAATTTTGCATTAAAATATATTAAAAAATATATAGAAAATTTAGATAATTCATTAATCACAAAACCATATGATTATTTTACTACTTGTAATATCATTAATAATTCAGATTTTGTTATAACTGACTCAGGAGGAATTCAAGAGGAATGTGCTACAATTGGTGTGCCAACGGTAGTTTGTAGAAGAATTACAGAAAGAATAGAAGCTGAAAAAATAGGTATAGCTAAAGTTTGGAGAAATAAAAAAAATTTCTTTAGTTTGTTGAATTGGGCAAAAAACAAGAAAATTAATAAATGGTCTAAAAAACCTTATGGAAAAGGAAATTCTGCAAAAAAAATATCAGAAATATTAATTAAATATATTTAATTTTTTAAAAAAATTAATTTTAAATAGTTAATAATAGTTTTGAATATTTTCATTTTACTTTCTGTTGGTTTTTTTTCATAATTTAAATTGATTGGTATCTCATCGAACTGAATATTTTTTTTTCTTAATTGAAGTAATATTTCAAGTTGTATTTCGAAGCCATTAGGTGGATTGTAATTTTTTTTTATTTGTTCAAAAAAATTTTTAATTGATAATTTATCGTACATTCTAAATCCACAAGTAAAATCTTTAATACCTTTGGTTTTATAACAAATATTAAAAACTATAAAAGCTATATCAGATAAAATTTTTCTAAAAAAAGGAACATTTTTTACTTGGCTATTTTTTTGATATCTTGAGGCAATAATTACTATATTTTTTTTGCCATTCATTTTTTTTTTCATTTGAAATATTTGTTTCGGATTATGAGTGTTATCACAATCCATAAGAACAAGTTTATCATTTGATTTACCATTTTTATTAAAAAAATTAATTAGAGCAAATATTCCTGTTCCTAATCCTTGATTTTTTTTATTATCAATAACAAAAATTTTTAAAGATTTTTTGAATTTTTTTGCATTATGAACAGTTTTATCTTTTGAACCATCATTAAAAATTATTATTTTTATATTTATTTTTTTATTTATTTCTATGATTGATTGTAATACTTTTTTAATAGCAATTTCTTCATTAAAAGCAGGTAGACCAATCCAGATATATTCTTTTTTTTTCATTGCAAGATTTTAAAGATAATTTAATTTAAACTCCTTTTTTTATTAAATAAAGTTTATTTTAATTGAGTTTTTCATTTATAATAATTATCATTATTGCCCTCCTGGCGGAATTGGTAGACGCACAGGACTTAAAATCCTGAGGATTGCAAAATCCGTCCCGGTTCAAGTCCGGGGGAGGGCACCATCTTTTTTAATTAAAATATATAGAGATAAAATTGTTAAACTTGCTATTAAGGGATAAGTTATTCCACTATCACCATTTAATAAAAATAATGATATGAAAAATAAATTAAGCATTAGTTTATAAAAATTATTATTTTCATCAAAATTATAAAATTTTTCTAATAGAAAGATCATTGGAGTTACACAAATTATTAATTCATAAATTTCTAACCTAGGAATACAAATTGTTATTAATAATATTGCGATAGCTAATTTTATTTTTTTAATACTTAAGTTTTTATTTTTAATCTTATTCAAAAAAAAATAACTAAACGAAATTATTAATATTAAAAAAAACAATGTAAATAATATTTCATATAATTCTCTTTTATCAGATATGAAAATATTTTTATTTTCTAAATAATTAAATATAGAAATAGCATAATTTAATGATCCAATACCAAATCCGCTGTAATAATCTTTAGCAACACTTGCTTTATAAACATTTTCAATCCAATTAAAGAATAATATTGAGTCATATAAATAATTTAAAATATAAAATGTTAATATTATTATACTTACAGTTATTATTTTCTTTATATTTTCTGATTTAGAAATTAATAGTGGGCAAATCAAAAAAATTGCAAAATAAAATTTGAAAAATGAAACTAAACAAATTATTAAATAAAAAATGTTTGTTTTATTATTTAAAATAAAATAAAAACTTATGCCAACAAGTATTTGTAATATGAAGCTTACGTTTCCAGTAAAAAAGCTATAGATAATAGTTTTATCTAGAGCAAATATTAAAATTAAAAAATAGAAAAAATAATTGATTTTTGTATCAAATATTTTTTTTTGAAAATTAATAAAAATAATCAATAAAGAAAATAAACCAAGTCCCCAAAATAATTTTGACCAAAAAAAATTTATTAATGATAATGGAATAAAAAAAAATAATGTTAAAGGCGGATAGTTATAAATAAATGGTTTTTTGCTTGGGCTACATTCAGTAATAATATTGTATGGATTATTTTTATTTATAAATGATTCAACTGAGCATTTGTAAACTTCAAAATCCCAGAAAATTTGTTCTGCTAACCCATTTAACGATAATTTAAAAAGTCCATACCAATGAATCGAATATTCATAAGATCTTATAAAAAAAATCAGACAAATTAAAAAAAAAAAGTGAATTAAAAATTTTTTTTTTTATCATTTATTATTTTTTTTTAGTTAATAATCTTCTTATAAAAAGTTCTAATAATTTTAATGCTCCATAAAATGCTTGTAATCTAGGTATTTTTGAATTTCCTTTAGTCCTATCATGAAACTGTATAGGTATTTCAATACATTTTAAACCAGACATATATATAAAGAAAATAAATTCAATTTGAGAGGAATATCCATCAGACCACAAAGTAGCCTTTTTTAAAACTTTTAAGCTTTTATTGCTGTAGGCTCGAAAAGAAGTAGTGAATTCTTTGAATGGGATTCGTAGTAAAAATTTACAGCTAATATTTGCTAAACGACTTACAAAATCTCTATAACCTTTGTAGTTCGATGTACCGCCATTCATATATCTTGACCCAGCAACAAAATCAAATTTTTTTATTTTTTTTATAAATGATGGTATTTCTTTTGGTTCATGAGATAAATCTGCATCCAGGGTTATAAAAACACTATAATTTTTTTTTAGTGCATAATTCATTCCATCTCTAATAGCTGATCCTATGCCAAGTTTTTTATTTCTTTTTATAATAAACAATCTTTTATATTTTTTTTGTAATTTAAAAATAATTTCAGCAGTACCATCTGGTGAATTATCATCAATTATAATTAAATCAATATTTTTTATTTTAAGTATTTGTTCGCAAAAATTTTTAATATTTTCAGATTCATTATATGTGGGAGAACAAACTAAAATTTTACTCATAATATATAATTTTTATAAAAAACTAGATTTCTATATTAAATTAAAAATTATATGAATAAAATAGAGAAATATTATTTTATTTTTATAATGAGTTCTATAAATAAGAAAAAAAAACTTAGTAAAAATCAAGATGTACCTATTGGTTATTATGATAAAGTATATATAAAAAAAAAAGGTATTCAGTCAAAATGGCACCATCAAAAATTTAATTTTGTTCGGAACAAATTTAAAAATAAATATAAACATTTAGATTTTGCATGTGCATCTGGTACATTTATTAATACTTTAAAAAAACGCAACTTATCTATAGGTCTTGATTTATCAGAAAAACAAATTTCTTATGCAAAAAAATATGAAAATAATTATCATAAATTTAAAATTGTAACTCTTCCATTACCTTATAAAAATTCCACATTTGATATTATAACTGTTCTAGAATTGATAGAACATTGTAGTGAAAAACAAAATAACTTTATTTTTAATGAACTTTATAGAGTTTTAAAACCAGGCGGAAAAATTATAATGACAACACCAAATTATTTGAGTTTTTGGCCATTATTAGAAAAACTTGTAAATTTATTTGGATCAGTAAATTATGATCATCAACATATAAATCTTTTTAATAAAAAAAAACTTTATAATTTTTTGTCAAAAAAAAAATTTGATAAAATTTATATAGAAACTTTTATTTATTTTGCTCCATTTTTTGCTGCTTTAAGTTGGAAGTTGTCAAATTTTATAGAAAAAATTGAAAAACATATTAAGACTCCTTTTGGATTTTCATTATGTGCTACTTTTGTAAAAAAAAAATAATTAATATTTTACTGGAATAGGATCTAAGCTTCTCCATAAATACCAAACAGCAACAGTAGACCATGGTTCCCACCTTTTTTTAAATTTTTTTATTTGATTATTATTTAATGGATATTTTAAATTATAATTAACTGATATAGCCTTAAGCAATCCTATATCTGCACACGGAAATATATTTGGTCTTAGTAAATGAAAAATTAAGAACATTTCAGCAGTCCATACACCAATTCCTTTAATTTTAGTTAAATCATTAATTATTTCTTCATTTTCGGCTTTTTCCCATTTTTTTTCTATATTTCTGTTTTTTTTAAAAAAATTAGATAAATTAATTAAGTAATTTATTTTTTGTTTTGAAAAGCCACATTTTGCTATTTCTTTTTTTCTTAATTTTAAAATACCATTAGGGTTTATTTTTTTTAATTTCTTTTCAAGTTTTGCCCATATAGAATTTGCTGCCTTCACAGAAATCTGTTGTCCTGTAATTGATTTTGCTAATGTTATAAAAGCATTTTTTTTACTTATTAATTTTTCCGATTTAAATCTATTGATTATTTCTTTTAAAATTTTATCTTTTTTTTTAAGATTATTTTTAGCAGTTAACCAATTTTTATTTGTTAAAATGATCATTTAATAATTTTGAAATAATTTAGTAACTTATAAATATTATTATTTTATTAATATGAAATCATTAATCTATAAAATTTTATTTATATTTTTTTTTATTAAAGTAGGGCTAGCTATACCTCAACCAGGTGAAAAATATTTTATTGATATAAATAAACTTGCCAAACCATATTCTACAAAAAGCGTTGCTAATTCTTACAAAAAATTAGATATGGAATCTTGCAAATTAAATTCTCAAGAAGGATTTGAAATTAATATTTTTGCAAAAAATTTAAAGCACCCTAGAAATATTAAAGTTTCAAACAATGGGGATGTATTTATTGTTGAATCTAATCCTGGGAAAATAAAAGTTTTAAGGGATACTGATAATGATGGTATAGCTGATATAAATCAGGTTTTTGCAGAAGGTTTTAATTATCCATTTGGTATTGAAATAACATCTGATTCTTTATATATAGCTGATCTAGATTATCTTTGGAAAATACCATACAAAAATGGACAACTAAAAATGGAAAATAATCCAATTAAATTAACAAAAACAGATGCTCTTGGAGAACCAACGGGTCATAGAACAAGAAATATTATTTTGTTAAATGATAAAATTTATATTGCTATAGGAAGTTATGGAAATATAGGAGTTGAAGATTACCCAAGAGCAACAATTCAGGAATTTAATTTAAATACCAATGTACAAAAAATTTTTGCAACAGGTTTAAGAAATCCTGTTGGTTTAGGTATACATCCGATTACAAAAAAATTATATACTGTAGTTAATGAAAGAGATGGTATGGGAGATGACTTAGTCCCTGATTATTTTTCTAAAGTTGAAGAAGGAGATTTTTTTGGATGGCCTTTTTTTTATTTAGGACAGAACGAACAACCTAATTTAGAAAAAAATTATTTTTATTTTAAAAATATTGCACAAACAAATAATAAAGAAATTAAAAAGCCTGACGTTTTATTTGAATCGCATTCGGGTCCAATAGATCTTATTTTCTATAATAAAAGTCAATTTTCTAAAGAATTCCATGGTAATGCATTTGTTGCCCTTCATGGATCTTGGAATTCGAGTAAACCGTCAGGTTATATGGTGGTAAGAATCCCATTTAAAAATAATAAACCATTAGGATATTATGAATCTTTTGTTACCGGTTTTTGGGTTTCTGGCTCTAAAAGAGCAAATGTTTGTGGTAGACCAGCGGGATTAGGTATTACAAAGAATGGATCTCTTTTGATTTCCGATGATGTAGCTGGTATTATATATAATGTTACATATATAAAATAATTTTTTAAGGAATTTTAAAATTTTTCCAATAGGTGATGAAAATCCAACAACAAGAACTCCGTTAGTTACATATGGTATTTTAGCTTCCTGTTTTTTAATTTTTTTATGGCAAATTTCATTGCCTGAGGATTATTTCATGGGAATAAAAAGTTTTGGATTGGTTCCTTCTGAAATTTATATTCATAAAATATTTAGTTCAATGTTTTTGCATGGAAGTTGGATGCATTTAATTGGAAATATGGCATATCTTTGGATATTTGGAAATAATATTGAAGATTATTTAGGTCACACAAAGTTTTTAATATTTTATTTATTTTGTGGAATATGTGCAACTTTAATTCATGTTTTTTCAGATTATAATTCTACTATTCCAGTAGTAGGAGCAAGTGGAGCTATTTCGGGAATATTAGGCGCATATTTAATATTGTATCCGAGAGCAAAAGTAAAATTATTAATTTGGTTTGGGATTGTTACAATATTAAGA
>sequence24
AATGTTATATCGTGCCTCTTATTTATAAAATAGATACAAAAAAAAATTTAAAGAATAAAAAAGATTTTTCTCAACTTAAAAGTCTTGTAAATAAAGATCTAATTAAAGTAAATAGCTTAATAAAAAAAAAATTAATTAATAATATTCCTTTCATTCAAAAAGTATCTGAACATTTATTTGACGCAGGTGGAAAAAGAATTAGACCTATGTTGTGTTTAGCCGCTGGAAAATTATGTGATTATAACGAAAAAAATATTATTGAATTAGCTGCTTGTGTAGAATTTATACATACAGCTACACTTTTACATGATGACGTTATAGATAATAGTAAAAAAAGAAGAGGTATTTCAACAGCACATGAAATTTGGGGTAATAAAAGTAGTGTTTTAGTTGGAGATTTCTTATTAAGCAAATCATTTGAATTAATGGTCAATATTGAACAAACAAAAGTTTTAAAACTTTTATCACAAACTGCATCAATATTAATTAAAGGTGAAATTTCACAATTATTATCAAATAACGATATTTCTATAACTGAAGACGATTATTTAGAAGTTATTAAAGCGAAAACATCAAAATTATTTGCTACATCCTGTGAAATTGCAGCGTTAATTGCAGATAAGCCAAAAATTTACTCAAATGCATTAAATAGTTATGGGATGAATTTAGGAATGACATTTCAAATGATTGATGATTTATTAGATTATAAATCAATTGAAAATTATACTGGAAAAAAAATAGGTAATGATTTTACTGAAGGTAAAGTAACATTACCAATTATTCTCGCTTATCACAGAGGTAATAATACTGAAAGAAAGTTTTGGATAAAAACTATAAAAAATAGCGAACAAAAAAAAGGTGATTTTGAAAAAGCATGTGATTATCTTAATAAACGAAACATACTAAATGATATTTTTACTAGAGCAAAACATTACGGTCATGTAGCTAAAGATGCGTTAGAAATATTTCCTAATAAAAAAGAAAAAAAAATATTGCTAGAATTAATCGACTTCACACTCAATAGAAACTTTTAACTAAGAATTTTTTCTAAAAAATAACTAGGTTTTATCAAGTCCATCCCTTCTTTTTGAATAACAGTTTCTGATGTTTTTAAATTAGGATTTCTAATTTTGCCATCTGGTGGAATTATAGGATACAAATTTCTTAAAAAAACTGAAGGGTAATGTTTTTTGTATACAGTTTGATTATAAGGTGGTGAACCACCATGGATAATATAGGTTTTAAGTTTACATGCTAATGATAAATGTGCAGTTCCACTATCATTTCCAATATAAAACTTAGATAAACTCATTAATGCCATTGTTTCTTCAATTGGTTTACAAAAATTTATAATTTTTCCATTCTTTAATTTTATTAATTTTCTAATTTCGTTAGCTAATTTATTTTCTTGAGGTGCACCAATAAGAAAAAATGAATATTTTAAATGTGAATCAAGTTTATTGATTAATTCAATAAAATATTCCTTTTTCCAAGTTCTACTTAAATCGGTTGAACTAAATCCAATTAAAATCCATTTTTTTGGATATTTCTTATAATTATTCTTTATAATTTTTATTTTTTTTTTATCTATTTTTAAAAAAGGATTTAATGGTTTTAAAGATACATTATTATTTTTTAAAAAAAAATATCCCTTTTCTACAGGAATAACTTTTTTTAAATTTTTATTTAATTTTTTGCAATTTCTCAAAAAAAAATTTTGAATTCCAAAACCATAGCCATATATTTCTCTAACACCAGAAATATAGCTAATAAAAGCAAATCTAGGGCTCCTATGAAAAATCCAAATCTTTTTTACTTTATTTTTTACAATATTATGAGAAAAAGAAAATAAATTAAGAAAACTAGAAAAGATGTTATACCTATTTTTAATATAAATTATTTTAATTTTTTTTTCACATGAAAGAAGTTCCTTGGCTTTTGTTCTTTTTTTCGTAAATATTAAAAATTTATCTTTAGGAAACTTTTTCAATAAAGCATTAATAAAAGTTAAATTGCTTAAAAAGTCCCCAATACCATAATAAGGTAAAACAATTGCTTGAACATTCATAAAAATTATAAAATTTTAATTCTTACTATTTAGCTAATTTCATTGATATTATTTTATCTGGATTATCAACCATTCCATTAGAGCCTTCGCCTCTTTTTATTTTATCAACATATTCCATTCCTTCAGTTACTTGTCCCCAAACAGTATATTGATTATTCAAAAAAGACGATTCTTCAAAACAAATGAAAAATTGGCTATCTGCGCTATCAGGATCCTGAGCTCTCGCCATTGATACTGTGCCTCTTATATGAGGTAAAGAATTAAACTCTGCAGGGATATTTTGTCCTGAACCTCCTGTACCATTGCCTAAAGGATCGCCTGTTTGAGCCATAAATCCATCTATTACTCTATGAAACTTCAAACCATCATAAAATTTTTCTTTAATTAACTCTTTTATTCTTTTTACATGCTCTGGAGCTTGCTCAGGTTTCATTTCAATTACCACCCTACCATCTTTAAGTTCTAGATAAACAGTATTTGATGAATCTTGTGCCATTGTATTTTTTATAAAAAATAAAAAAAATAAAATTTTAAAAAAGGATTTCATTTTTATAATTTTGAAATATATTATAGTTAATAATATATTTATTTCTTAACTTTTTTTAAGGTTTTTTTAAAATGAATTTTTTTAAATTGTTAATGACTTCTTTATCTTTTGTAATTCTAATTAATGCTAATTCGTTTGCTGCTGATGCTGCAAAAGGAAAAAAAATATATACAAAATGTAAAGCCTGTCATAATGCAGACGCGGAAAAAAATAAAATTGGACCGCATTTAGTTAAAATTGTAGGTAGAAAAGCAGGCTCAGTTGAAAGCTATAAAAAATATTCTGATGATTTAAAAGGTGCTGGTATAGTTTGGAATGAAGCAAATCTCAATAAATGGTTAGAGAATCCAAAAGGAATGTACAAAGGTACTAAAATGTTATATCCAGGTCTAAAAAAAGAACAAGATAGGCTTGATGTCATCGAATATTTAAAAACTAAATAATTTTTTATTAGTTAAATAATATTTGATAAATCTAAAAAAGCATATAGATACACATCCTAACTTTCCTAAAAAAGGTATACTTTTTTATGATATCTCATCATTAATGGCTAATGCTAAAATATGGAAAGAAACAATTAACCAATTTTCTAACTTAGTGAAAAAATACAAACCGCAAGTTTTAGCTGGAATTGAATCAAGAGGATTTATTTTTGCATCTGCTATTGGTTATAAATTAGGATGTGATGTAATTATGATAAGAAAAAAAGGTAAATTACCAGGTGAGACTATTTCATATAATTATAAATTAGAATATGGAAAAGATTGTCTAGAAATTCAAAAAAGAAAAGAATTAAAAAATAAAAGAATTATTTTAATTGATGATTTATTAGCCACTGGTGGAACTGCAAATGCAGCTATTAAACTTTTAATAAAAACAAAAACAAACATAATAGCTTTCCTTTGTTTAATTGAACTTACAAATTTAAAGGGAAGAAATAATATTGAAATTGAAACAAATTCTTTATTATCTTTTGATGAATAAATACTTATTAATTCTTTTCTTTTTAATTTTTTTTCAATCAGAACTTAAATCAAAAGAAATTATTGGTAAACCTATAATACATGATGGTGATAGTATAAAAATAAATAACGAAAAAATAAGATTTTCAGATATAGATGCATTTGAAAAAAAACAAACATGTAAAAAAAATGAAATTAAATATAAATGTGGTGAAGAAGCTATAAAAAATTTATCAACAATTATCTCTAATCAAAAAATTCGCTGTGTAACTAAGAAAAAAGATCCTTACAAAAGATGGTTAGCAACTTGCTATATAGGAAAATTAAATATTAATGAAAATATGGTTCTTTTTGGTAATGCATTTAGTTATATGTCAAAAAAATATAAAAATACTGAGAATGATGCTAAAAAAGTTAAAGCTGGGGCTTGGTCAGGAGAATTTATCTTTCCGTGGGAATGGAGAAAATTAAAAAAAAAAAATTTTTCAAGATAGGTAATAAAAAAAAAATAAAAAAAAACTTATTTTTAATACCTATAAATCTAATAATTCTTTTTTAAAAAGATCTTCAGATAAGTCTATTGCTTCATTTAATTTTTTTATTTCTTTATAAATTTTTTTTGATTTATTCTTGTTATAAATTTTCAATTTTTTATCTCTAATATTCTTTATTTTTTTTATAATTACAGCTAAGTCGCTAGTTTTATTTAAATTTTTATAATCCTTTATAGTTGACATATTTTCATTAATTTTTTCTTTTTTAATATTAAATTTTTCTTTAATTTGAACATTTCTTTGTTTATTTTTCTTTTTTTTCTTTTTCAAAGTTTTGCCACTATCTTCAATTTTATTCGTTAACAATAATGGTTCATCATCAAGATTTTTTTTTTTAACTTTTTTTAAATTTATTTTTTTTTTAAATAAATTTGATAATGATTGATCTTTACTTATAATTTTAGTTGAAGATGATTTCGTTTTATCACTTCCTTTTTTATCTTTAAGTTTATCTTCAATCATTTTTAACGATTGTTCTATTGTTGGAGATATTTCTTTATCAATCATAATATTAATAATATCAATAATTATTAATTTTTAAAATTTTTTAATTGAAAAAATATATATTGTAGGCGATGGGGGAATCGAACCCCCGACACATGGATTAAGAATCCATTGTTCTACCCCTGAACTAATCGCCCATTAAATCAGATATTATGAAGTTTATAATCACGATAATTATATCCACTTAATATAATTCCAAAACCTATAAAATTAGAAATAATAGCAGATCCTCCATAAGAACATAAAGGTAAGGGAACGCCGACAACAGGTAATAATCCTGTTACCATACCTATATTAATAAACGTAACTAAAAAAAATGAACTTATAAAACTAATTCCAAAAATCTTAGAAAAATAATTTTTAGAATTTAAACTTATTTTTATTGTCCAAACTATTAATATAAAATATAAAAGAAACAAAATAAGAATGCCTAAAAAGCCAAATTCTTCCCCTAATACCGCAAAAATAAAATCTGTTTGCATTTCTGGAAGAAAATTTAAATTACTTTGTGTACCTTCAAGATACCCTTTTCCAAAAAAACCTCCAGAACCTAAAGCAATTTTTGATTGAGTGATATGATAATTTGCTCCTAAAGTATTACTATGTTGATCTAAAAAATTTAAAATACGTGATTTTTGATAATCTTTTAAAACTGTCCATAATAATGGTAAAGTTAATAAACCTGAAAAACCAAAAAGAATAAAAGTTCTAAAATTAACACCTGACAAAAATAAAACGATAACTCCAGAAAAAAAAATTACTAGAGCAGTACCTAAATCAGGCTGTCTAAAAATTAAAAAAACTGGTATTAATAATATAAATAATGGAAAAAAAATTTTTTGTTTTATGTCATGACTTTGTAATTTTATTGAATGAAAATATTTTGCCAACGCAAGTAAAACAAAAATTTTAGTAAATTCTGCCGGTTGAAATGTGAAAAGATAAAAATCTATCCATCTTGTTGCTCCACTTACTTTTTTACCCATAAAAAGAGTTAAAATTATAAGAAATAAACATAGTAAATACAATTGGTTAGAAAATTTATACCAATTCTTAATATGAATTAAAGATATTAGAGACAAAAAAAATAATCCTATAAATATTCTTATTATTTGATTAAACGCCCAAGGTTCCCATGAGCCTCCAGCTACAGAGTATAGCAATGCTACACCAATCAAAGTTATCATTAATATAATTAAAATAAATAACCACTTTGTTTTATTTAAAAAAATAATGAAATTCATTTTAAACAAATATTTTCTTAAAAATTTTTTTTGCTATTGGAGCTGCAATTTTAGATCCACTTCCTCCATGTTCTATAACAACAGAAAGAGCTATTTCTGGGTTCTTATATGGAGCAAAACCAACAAATAAAGCATGATCTCTTTGTTTTAATGGCAAATCTTTATTTGGAATAATTCCTTCAAATCTCTCAGCTTCTGTAATCGTTCTAACTTGAACAGTACCTGTTTTTCCAGCAAAAATTGGATTAGATAGTCTTGACTTATAAGCAGTACCAAACGATTTATTGACTGCAGAAAACATACCTTTCTTTATTAAAGAAAAAAAGTTCTCATTATTTACTTCTTGATCATTAATTTCGTCATTATCATCTCTTTTTTCAAATTCTTTAAGATTTTTAAAAATAGAAGGAAATACTTTTTTACCATTATTTGCAATGATTGCAGTCATAAGTGCTAACTGTAAAGGTGTTGTTGTTATATATCCTTGCCCAACTCCTGTTATCATAGTTTCTCCTATTTGCCATTTACTTTTATTTTCTCTCTTTTTCCAATTTTTATTTGGTATTAAACCTGTTTTTTCACTCTCCAAACCTAAATCACTTTTAATTCCTAAACCAAAAAGATTTGCTGTTTTTGCAATATTATCAATTCCAACTTTTTTTGCTAATTCATAAAAGAATGTATCGCATGATTGTGCTATAGCTAATTCTGGACTAACATTTCTTCGATGATTTTCAGCGGCCCAACATCCTATTTTCTTTTTATGGCACCAACAATAAAAATTTCTATCACCAAAATTTAATTTACTAGTACATTTTATTTTGTCATTTATTTTAAATACATTATTTTGTAAAGCAGAATATAAAACTATTAATTTAAATGTAGAACCAGGCGAATATTCACCTGCTATAGATTTATTTACTAATGGTGACATTGGATCCTTAATTAAAGCATCCCAATCTTTTTTTGATATAAATGAAGTAAATAAATTTGGATCAAAATTTGGTGAAGATTCAATTGCTAATAATTCACCATTTTTAACATTTATAACTACAATTGAACCATTCTTATTTTTTAATAAAGAATTAATGTATTTTTGCATATTAATATCGATTGTTAATCTAATATCATCACCATTTATACTTTTTTCTTTTCTTATTTCTCGTATTTCTCTTCCAAATGCATTAACTTCTAAATGTCGAGTACCAGGAAATCCTCTTAAATCTTTTTCAAAACTTTTTTCAATACCAAATTTTCCTATATCTATATCTAGCATTCCTAATAAGGGTTCTTTTTTTATATCTTTTTTATCGGGTGGTGATATATAACCAATTATATGAGCTCCTATATTATCATATGGATACTGTCTTCTGATTCCCTGATCAATAAAAATATTTGGAATTTTTAATGAATTAACACTAATAGATGATACTTCATTCCATTTTAAATTTTTTTTAATAATTATTGGTAAATCTTTCTTTTTTTGATTTAAAAAAATACTAAAAATATTTTTAATTTCCTCATTACTTATAAAAATAATTTTATTTATTTTTTCTAAAATTGTTTGGAATTCATCAATATTTTTAACACTATGAATATACAAATTATAACTATTAATATTTGAAGCTAAAATTTGATTATTTCTGTCTAAAATTTTTCCTCTAGATGGTGAAATCAATCTCAAGCTTATTCTATTTTTATCTGCTAAAACTTTAAATTCATTTGTTTTAATTAATTGTAAATAAGCTAAACGTGCAAATAATGAAGTGAATAAAACACCTTTACCTAAATTTAATAAAAAAGTTCTTCTAGATAAAAGTTTATCAATATTTGGGTACTTATACATTTTTTTTATAAATCTTATCCAAATTTAATTTTTTAAATAATAAATACAAAAAGTAATAATTTAATGGAAAAATAATTATATTAAAAATAATTTCATACAAATATTCCATTCTAAATGGTAAAATAAAGGAATTAACTATTGAATTAACAATCCAAAAACAAAAAGTTCCGATAACTAAAAAAATTGAAAAACTTATTTGTAATTCGAAAAAAGATGGTTCTAATAAAAATTTATTATATTTTTCAAATACAAGAATAAGAAATATAAATACTAAAGAGCTTGTTCCTATTGGTAAAAGAAAAATAATATCTTGAATTAATCCAATAATAAAAATTATATAAAGTGGAATAGATTTAGGAGAATAAACTAACCAAAAAAAGATTGCTTGAAAAACGAATAATTGGCCTGAATAATTAATTTTATTTGAAAGAAATAAATTAAAAAAAATAAAAAAAATTAAAGTTAAAGTTGGGAATGCAATTTTTAAATAATATTTAATATCATGTAACATTTAAAAATTTTTAAATTGGTTTATATAAATATTAACATATTGAATTTGATACAAATCATTAAGAGGCTTAACATATTCTGTTAAATTATTTTTAATCAAAACGCCTATGGGTATACCTGGATTAAAATATCCACCGTCGCCTGATGTATAAACTATATCGCCATCAAAAATATCAATATTATTTTTCATATATAATAATTTTATTTTGTTAGTATTGTTTCCAGTAATAATAGCTTTAACATTATTTTCACCTATTCTAACTGGAATTTTAGAATTAATATCGCTTATTAAAAGAATACGAGAATATTTTTCATATACTTCTATAACACTTCCGATTAAACCTTTAGATGTAAATGCGGCATCACCTAATTTAATATTCATATTTTCTCCTGCATTTACAATAATTGTTTTAGAGTATAATGATTGAATATCTTCAATCACTTTAACAAAAATATAATTATCTTCTATTGGGGGTAATAATGATAGCTCCTTCCTTAAAATATTATTTTCTATTTCTAATTTTTGAGATTTTAATTTAAACAAATTACTTTGCTCAATTTGTTCTTTTAAATAGTTATTCTGCTCAATCAAATCTGCTTTGGATTTAAAATTTTCTTTTATTTTATTTATTTTAGGTAAAGATGAAAAAAAAATATTTTTTGTAAATAAAATTGAACTCAATATTTTGGAACTAATTAATTTTGAACTAATTAAATTTTGTTTATGTAAAACAATAAATAAAATTGAAAGAAAAATAAAAAAAATAATTGAATAATTTGAAAATATTTTTTTACTTTTTTTTATCTTAGATGAAATAATACCAATTTGCATATAACAAAATGATATAAAAAAAAATTAAAAAAATAAACGTTTAATAAGCAGAAGTTAACAAACTTTTAACTTTCTCTAAATTATCTAAACATCTGCCACAACCCAAAACTACTGAATTTAAAGGATCATCAGCTATTGAAACTGGCAAACCAGTAGATTTCTTTATAGCACCATCTAAATTTTTTAACAATGCTCCACCTCCAGTAATGCATATTCCGGTATCAACAATATCAGCTGCTAATTCTGGATCAGCATTTTCAAGAGCTACTTTAATTGCCTCAATTATAGTATTTACAGGTTTTGACAATCCTTCACATAATTGAAGACTATCAATTTTAATTTGTTTAGGAATACCATCGTGCAAACTTCTACCTTTAATATGAAAACTATGTCCATTCATTCCTCTTGTAGCCATTGCAGAACCATATTCTTTTTTTATATATTCGGCTGAAGCTTCACCTAAAAGAAGATTATATTTATCTTTAATAAAATCAACAATTGCTTGGTCAATTTTATCGCCTCCAACTCTAACAGAATTAGTGTAAACAATTCCTCCTAAAGATAAAATAGCAACTTCTGTTGTTCCTCCGCCTATATCAACAATCATAGAACCTCTTGCATCTTGTATAGGAAGTCCGGCACCTATTGCTGCAGCAATTGGTTCTTCAATTAAATATGCTCTTCTTGCTCCCGCTGCTTCTGCTGATTCATGAATAGCTCTTTTTTCAACGGGAGTTGCTCCCGAAGGTACACAAATAACTATTTTTGGACTAACAAAACTTTTTCTATTATGAACTTTTCTAACAAAATATTTTATCATTTCTTCAGCTATTTCAAAATCAGCAATAACACCATCTCGTAAAGGTCTAATAGCTTTAATAGTTCCGGGAGTTTTTCCAACCATTGTTTTTGCTTCTTTTCCAACAGCAAGTACTTCTTTTTTTCCATCATTAGTATCAGTAATAGCAACTACTGATGGTTCATTTAATAATATACCTTTTCCTTTTACATATACTAATGTATTAGCAGTTCCTAAATCAATTGCCATATCTGATGACCAATTAAGATTTATTTTTGGAAATTTAATCATTTGTTAATCTATGCATTTAATACTTTAATTGAAAATTTACTATCATTTTTTATAAAAATTTTATTTAATGAATGTAGATATGCTTTAGCTGATGCGACTAAAGTATCTATATCTGCTCCCTTTCCAACAAAAGATTTATCATCTTGTTCCAATTTAACAGTAACTTCTGCTTGTGCATCTGTTCCCTTAGTTATGGCATTTACTTGATATAAACTTAATTTAGCCTTATTAGGAACTAATTTATTTATACAATTAAAAACTGCATCTACTGGGCCTTGTCCATTAGATGAAATTTTTTTAATAAAACCATCTATCTCAATTTCTAATTCAGCCTTTTGCGACCCTGTAGATCCACAATGAACATCTAAAGAAATAAATTTAATATGATTATTAACTCTAATAATCTCATCCTCAACTAAAGCAATTATATCTTCTTCGTATAAATCTTTTTTCTTATCTGCTAATTCTTTGAAACTATTAAAAATTTTATCAATATTCTTTTTGTTTATTTTATAACCTAATTCTTGAAGTTTAACATTAAAAGCATGTTTGCCAGAATGCTTACCTAAAACTAATTTAGTTTCTTTTAAACCTACTGATTCCGGAGTCATTATTTCATAAGTATTTGAATTTTTTAACATTCCATCTTGATGAATTCCTGATTCATGTGCAAATGCATTTGCACCAACTACTGCTTTATTTGGTTGTACATCAAAACCAGTAATATTAGAGACTAATCTTGATGTTCTAGTTATCATCTTAGTTTGAATTCCTGTTTTATATGGCAATAAATCATTTCTTGTTTTAATGGCCATAACAATCTCTTCCATCGAAGCATTTCCAGCTCTTTCTCCTAAACCATTTATTGTGCATTCTACTTGTCTAGCTCCTGCATCAATTGCAAATAAAGAATTAGATACTGCCAATCCTAAATCATTATGGCAATGAACCGATATTATTGCTTTATCTATATTTAAAACATTTTGTTTTATATCATTAATAAGTTGGGAAAATTCAAAAGGTATAGAGTATCCAACTGTATCCGGTATATTGATTGTTTTTGCTCCTGATTTAATAGCTAAATCAATACATTGATATAAAAATTTTCTATCTGATCTTGATGCATCTTCGCATGACCATTCAACATCATTTGTATATTTAGAAGCCAATTTAACACTAGACTTAATGTGATCGAGGACCTGCTTTTCACTCATTTTTAATTTATATTTCATATGAAGTTTGCTTGTTGCAATAAAAGTATGAATTCTAGATTTTTTTGCTTTGGCAATAGCCTCTCCAGCAACATCAATATCTTTTTTTTTAGCTCTTGCAAGAGCACAAACAACAGAATTTTTAATTTCTTTTGAAACTAATTCAATAGATTCAAAATCTCCTTTTGATGCAACTGGAAAACCAGCTTCAATTATATCAACACCCATCATATCAAGCGCTTTTGCTATTTTTATTTTATCATCAATAAACATTGATGCCCCTGGAGATTGCTCTCCATCTCTCAATGTTGTATCAAAAATTTTTATATACTTATCTTTTGTCATTATTTTTCAAACAATATTTCTACTATTATATAATATTAAAGAAAGAAATAGGAACCAAAAAAAAATTATCTTACGATTTTATTCTTCTCAATCCAAGGCATCATTTTTCTTAATTTTTTTCCCACTGCCTCAATTTTATGATTTTGACCTTCTTTTCTAAATTTATTAAATTTTTTTCTACCTGTTTTGTTTTCTTTGATCCATTCTTTTGCAAATTTACCACTTTGGATTTCTTTTAATACTTTTTTCATTTCTTTTTGAACTTTAGAATTTATTATTCTTGGTCCTCTAGAAAAATCTCCATATTCAGCAGTATTAGAAATAGAATATCTCATATTCGCTATTCCTCCTTCATAAATTAAATCAACAATTAATTTTATTTCATGCAAACATTCAAAATACGCCATTTCAGGTTTATATCCAGCTTTTACTAAAGTTTCAAAACCAGATTTAATTAAAGAAGTTAAGCCTCCACATAACACGACTTGTTCTCCAAATAAATCTGTCTCACATTCTTCTCTAAAAGTAGTTTCAATAATGCCAGTTCTTCCTCCTCCTACTGCTGAAGCGTAAGATAAACCTAAATCTTTTGTATTATTGCTTACACATTTATCAATAGCTAATAAACAAGGAACACCTCTTTTATTTTTAAATTCAGATCTTACTAAATGTCCTGGTCCTTTAGGAGCGACCATAAAAATATTTAAATCATTTCTCGGTTTTATAAATTTAAAATGAATACTAAATCCATGAGCAAAACCTAAATATGCATTTTTTTTTATTTTTTTCTTAATAATTTTTTTATATAAATCAGGTTGTAATTCATCAGGAATTAAAATCATAATAACTTCACCATATTCAATAGCTTCTTCAGGAGATAAAACTTTAAAACCTGCTTTCTTAGCCTTACTTACACTTGAAGAGTTTTTTTTTAATCCAACAACTATATTTTTTACTCCTGAATCTTTTAAATTCATTGCATGTGCATGTCCTTGACTGCCAAATCCCAATATAGATACTTTTTTGTTTTGAATTAAATTCTTATCACAATCTTTATCATAAAATACTTTCATAATCTTAATTTTTTAATATTGCAATTAAACCAGTTCTAGAAACATCAATAATACTTATTTTATTTAGTTCAATTATAAAAGAATTTATAATATCGGGAGAATTTGTTATTTCAAATATATATTTATCTGAATTTTTATATATTAATTTAGCTTTAAAACTCTTTATTATTTTTTTTAATAGATGATTTTTATTTTTCTTTATTTTAATTTTAACTAAAGCAAGTTCTCTTTCATCAGTTGAATTATTAAAAGTTAAATCAATTACTTTTTTAACCTGTATTAATCTTTCAAGTGAATGTATTATTTGTTCGATAATTAATTTTGTTCCATAAGTAACAATTATAATTCTTGAATATTTTTTTGATAAATTAACAGGAGCAACTGTTAAGCTATCAATATTATAACCCCTACCAGAAAATAATCCAATAACTCGAGCTAAGGCACCTGGTTCATCATTAACTAATACTGAAATTGTATGTTTTTCTTTTTTTTGATTTGACAATTTTTATTAAACTAAAACCATTCCTTCTTCATTAATTGTATCATCTGTTTTATCATCTGGACCTAATAAAATTTCATTATGAGCAGCACCAGAGGGTATCATAGGGAAACAATTTTCTTTTTGATCTACGACCATATCCATTAATACAGGTTTTTTTATTTTTATCATTTCTTTAATAGCTCCATCTACATCAGAAGCTTTTTCAACTTTAATACCAAGAATGCCGAAGGATTCAGCTAATTTTACAAAATTAGGTAATGATTCTGTATAACTTTCAGAATATCTACCACCATGAATTAATTCTTGCCATTGCCTTACCATCCCCATCCAACGATTATTAACAATAAAAATTTTCACTGGTAATTTGTATTGACAAATTGTTGATAATTCTTGCATTGTCATTAAAAAAGAAGCTTCACCATCTATATCTATAACTAATTTATTTGGATTAGCTATTTGGGCTCCAATTGCAGCTGGTAAACCGTAACCCATCGTTCCTAAACCACCGGAAGTCATCCATCTATTTGGTTTGTTAAATTTATAATATTGTGCTGCCCACATTTGATGCTGCCCAACTCCTGTCGTAATAAAACAATCTTTTTTTTTAGTTAATTCGTATAATCTTTCAATTGCATATTGAGGTTTTATTGGAAAATTTGTTTTTTTGTATCCTAAACAATTTTTTTTTTTCCATGAATTAATTTGTGACCACCAATCCTTAATATTATGAAAAGAAATTTTAGATTTACTTTTTATAAGCTGTTTATAAATAGATTTTATGATTGTTTTAACATCACCAATTAAAGCTACATCAACTTTTACATTTTTATTTATAGATGAAGGATCAATATCAATATGAACTTTTTTTGCAAATGGTGAAAATTTAGATAAATTACCTGTAACTCTATCATCAAATCTAGAACCAACTGCTATTATTAAATCACTATCATGCATAGCTAAATTAGCTTCATAAGTTCCATGCATACCTAACATACCTATAAATTGTTTATCTATTGCAGGAAAACATCCGAGCCCCATCAAAGTATTTGTGCATGGAAATTTTGTTTCTTTTATTAATTTAGTTAAAATTTTTGAAGCTTCATTTCCACTATTTATAACACCTCCACCACAATAAAAAATTGGTTTTTTTGCTTCTAATATCATTGATACAACTTTTTTTATTGAACTATTTTTTAATCCATTAATTTTAAAAAAATTTTTTTTTTTATTTTTTTTTCCTTTATAAACACCTTTTTCATTTAAAATATCTTTTGGTAAATCAATTAAAACAGGACCAGGTCTACCTGATTTAGCTACTATAAAAGCTTCATGCATAATTTTTTCTAAATCTTTTATATTGTTTACCAAATAATTGTGTTTTGTAACTGGACGTGTAATCCCAGTGGTATCAGCTTCTTGAAATGCATCGTTTCCTATTAAT
>sequence25
CCACACAAAAAATTTTTACATTCTTATTTAATTTTAATAAATCTTTAATTTTTTTTTTTACTAGCTTTGTAATTGATGTATTAAAACCGCCACAAAGTCCTCTATCTGAAGTCATTACTACTATTAAATGATTTTTGATGCTATCTTTTCCTTTAATAATTTCTGGTGCATTCTCTAAATTTTTTAAATTTAAAGTTACATTATTTATAATTGATTGCATTCTATCTGCATACGGTCTAGATGATTCTGCCTCTAATTGTGCTTTTTTCAATCTTGCCCCGGCAACTAACTTCATTGCTGAAGTAATTTTTTTAGTAGATTGAACACTATTAATTCTATCTCTTAAATCTTTTAATCTGTTCATTATTTAATATTATTTTTTCTCCTCATTGTTTTCTTTAACATCTTCTTCTTTTTTATCTTCTATAACTAATTCTTCTTTGTTATACAAATTTAAAAAAGACTTAATAATTTCATGGAGTTGTTTTTCAGTTGATTCTTTAACTTCTTGGTCCTTTTTAATAGTTTCTAATAATTTTTTTTGTTTATTTCTACAATGTTCAATCAAACTAATTTCAAACTTATTTATATATTCTACTTTAACTTTATCTAAATAACCATTAACTCCAGCAAAAATAGAAATAACTTGTTCTTCAACTGGGACAGGTTTATATTGTGGCTGTTTTAATACTTGTGTTAATCTAGCTCCTCTATTTAACAATTGTTGTGTTGCAACATCTAAATCTGAACCAAATTGTGCAAATGCTTCCATTTCTCTATATTGTGCCAATTCTAATTTTATGCTTCCTGCAACTTGTTTCATAGATTTTAATTGAGCAGCAGATCCAACTCTACTTACTGATAAACCAACATTAATTGCAGGCCTAATACCTTTATAAAATAAATCTGTTTCTAAAAATATTTGTCCATCTGTAATAGAAATAACATTTGTCGGTATGTAAGCAGAAACATCATTAGCTAGAGTTTCTATTATAGGTAAAGCTGTTAAAGAACCACCACCATCTTTATCACTCATCTTTGCTGCTCTTTCAAGTAATCTAGAATGTAAATAAAATACATCGCCAGGATAAGCTTCCCTTCCTGGTGGTCTTCTTAATAAAAGCGACATTTGCCTATATGCAACCGCTTGTTTTGATAAATCATCATAAATTATTAAACCATGCATCCCATTATCTCTGAAATATTCGCCCATAGTACACCCGGTATAAGGAGCTAAAAATTGAAGTGGCGCTGGATCTGAAGCAGTTGCTGAAACAACTATTGTATATTTTAATGCATCATTATCTTCTAAAACTTTAACTATTTGTGCAACACTCGATTTTTTTTGACCAACTGCAACATAAATACAATATAATTTTTTTTTTTCATCTTTTCCTTCGTTAATTTCTTTTTGATTTATTATTGCATCAATTGCAACCGCTGTTTTTCCTGTTTGTCTATCACCTATTATTAATTCTCTTTGGCCTCTTCCTACAGGAATTAAAGTATCAATTGCTTTTATTCCTGTTTGTACAGGTTCATGGACTGATTTTCTTTGAATTATTCCAGGAGCTTTTACTTCCAAACGACTTTTATCTTTAGATTTTATATCACCTTTTCCATCAATAGGATTTCCTAAACCATCGACTACTCTTCCAAGTAAAGATTTTCCGATGGGAACTTCAAGAATTTTTTTTGTTCTTTTAACAACATCGCCTTCTTTAATATTTCTATCATCACCAAATAAAACAGCTCCAACATTATCTTGTTCTAAATTTAGAGCCATACCCTTAATTCCACCAGTAAATTCTATCATTTCTCCTGCTTGTACATTTTCTAATCCATACACTCTAGCAATACCGTCTCCGACAGACAAAACTTGGCCTACTTCTGAAACATCTTGTTTTAAATTTAAACTTTTAATTTGTTTCTTTAATATATTTGATATTTCCGATGATTTTATATCCATAATTTTTAAAAAATAAATATTATCTTAATGAATTTACAATTTTTTCAAGTTTAGATTTCATAGAAAAATCTAACATTATGCTTCCAATTTTAATAATGAAACCTGATATTATATTTTTATCTTCAATAAAATTAATTTTTGTTTTTTTTCTAATTTCAACTTTTAATTGATTATTTATAGTAATTATATCTTTTTTTGAAACTTTATTTGGCAATATCACATCAATTTTAATTATATTTTTTTGATTCGAAGAACTTTCATTATATGAATGGCTTATTTTATCCAATAAATTCAACCTTTTATTATATGCCAACAAAAATAAAAAATTTTGCGTTATTTCATCTAATTTTAAAATTTTAGAAATTGACAATAATATTTCCTGATGTTTTTTTGATGCAATTAATGGAGAATTTATAATTTCTTTTAATTCTCTATTTTTATTAATTAAAAGATTTATTTTTGACAAATCATTAATTATTTTATTTTTTTTATTTTCTTCAAGACTAAGCTCGTACAAAGCTTTTGAATATCTTTTTACAACTTCATTACTTGCAATATTTTTCATAATTTAAAAAAAAAATAAAAAATTAATGAATACATTACACGGGTTTTTAGTCCTTGCAAGATGATAAAATGAAAAAAACTATGAAAAATTATAAGGATCTATATCGATAGAAATTTTTAAATCAAAAGGTTTTTGAAATTTTTTAAGCCAATTATTTACATATTCTTGAATATTTTTATTTCTTTTACACCTTATTATAAATCTTTTTCTATATTTACCACGTACAAATGAAATATAAGGAGATGCTGGTCCTAAAACTTCAAAATCTTTAGATGGCTCTAATTCAACTCTCATTTTTTTACAAAAACTATCTAATTTCTTTTGATTTTTAGATGTTAACATTAATGAACATAATTTTTTAAATGGGGGCAATCCTGACTCTTTTCTATTATTTAATTCCTCAGAAAAAAAACCATTTATATCAAATTTTTTTATATTTTCTAAAATTAAATTATTAGACATCGTAGTTTGAATTAAAACTTTACCAGATAATTTTGATCTTCCAGATCTGCCTGACACTTGTGTCAACAATTGAAAAGTTTTTTCTGCGGCTCTTAAATCTCCTCCAATAAATCCGAAATCAGCGTCTACAATTACTACTAAAGTTAATCTTGGAAAATGATGCCCTTTAGATAATATTTGCGTTCCAATCATTACATTAATTTCTTCACTTTCAAATTTTCGCAGAATATTTTCTCCCTCATTCTTTTTTTGCATTACATCACTTGTAAGAATTTCAATATTTAAATTTTTATTTATATTTTTTATTTCCTCGTAAATTCTTTCTACACCAGGACCATAAAGAAAAAAATCGTCTTTATTGCACTCATTGCAAACTTTTTTATTATTTTTAAATAAAGTTTTATAACCACAGTGATGGCAAATTAAGTTATTAATTTTTTTATGAAAAACTAATCCAACATCGCAATTTGGGCATGAAACTTTTTTATTACATGAATTACAAAAAACATATGGAGCAAATCCCTTCCTATTTAAAAAAAATAATGCCTGATTTCCTGATTTTATAGTTTTTTTTAATTCTTCATGTACATATTCTGATAACCATTTTCCTTTTTCTGTAGGATTTTCAGAAATATCAATAATTTCAACAGATGGAAGTTTTGCTCCTCCAAATCTTTCTTTAAGATTAACTACTTCATATTTTTTTTCTAGTATATTTAATTTTGTTTCTACAGATAACGTAGCAGAACATAATATAATTGGAATATTTGTAATTTTTGCACGAACTACTGCCATGTCTCTTGCATTATAAATTGTTCCTTCTTCTTGTTTAAAACTTTGATCATGTTCTTCATCTATTATTATTAAACCTAAATTATGAAATGGTAAAAAAAGAGCAGACCTTGCACCTACTATTACGCTTATATTTCCATCATTAATAAATTTCCATATCTTTATTTTATCACTAATTTTAACTTCAGAATGCCAAAGCAACGGATTTTTTTTAAACCTTTTTTTAAATCTATCAAACCATTGTGTTGTCATTGAAATTTCTGGCAAAAGTACCAGTATTTGTTTTTTTTCTGCTAGGCATTTATTAATTGCTTCAAAATAAACTTCTGTCTTTCCTGATCCTGCAATACCATCAATTACTATTGTTGAAAATTTATTTTTCTTAATTTTTTTAAAAATAAATTCTTTTGCATTTAATTGTTCTCTATTTAAATTTGGTTTATTAAAAGATAACTTTAAATATTCATTATTAATTTCATCTATTTTTTTTTTTTTAAATACTTGTTTAACACTTAAACAAAGTTTTAAAATTACTCCGATATCATTCATTGTATATTTGGAAACCCAGTCTATAAAATCTATGTTAGATTTATTTAAAGGAGTAAAATATAATTTTTTTTCTATTTTTCTTATTTTCTTTAAAGATACTTTAATTTTTGACTTATTTTTATTTTCCCAAACACAGCCAGTTATTAATTTATTTTTAAAAGGTACTGATACAAAATCGCCTATTTGAATATTTTCATTTTCACTACAAAAATACTTAAACGTTTGATTAAACGGTAATGGTAGCAAAACATTAATAATTTTTTGTTTCAATTTTTCTTATTAATTAATTTTTTAATAAATTCAATAATATAGATATATTAAATTTTATAAAAAAAAATAATTATAGCTTTTATAAAAATTCTACCCAAATCTTAATTATGAATGAAAATAACGCAAAAAAAATTTTTAACTACAAAATCATAAACCCAAAAATTAAGAATTATATTGTTAATTGGTTAAAAAATTTAAAAATCGAAAAAGGATATTCCGAAAATACAGTTTTAGCATATGAAAAAGATCTTAGAAAATTTTTTAATTTTTTTTCATGGCATAAAAAAAATCCAGATATTGATCTCAGTGATTTATCAGAAAATAATTTAAAAAAAATCAAATTAACAGATTTTAATTATAATAATTTAGATTTATCAGAAAAAGAAATAATAGAAATTAAATACAATGAAATAAGACCTTATCTTTTTTTTATTACTTTTTTAAATTATAAAAAAACTTCAAGAAAAAGAATTGTTGCCTCAATAAAAAGTTTTTATAATTTTTTGCTTAAAAATAATAAATTAATAGATTTAAATATAGTCAATCAGTTAAAAGGACCAAAATTGGATCAATCATTACCAAGGCCTTTAAATTATCAAAGTATTAAAAATATTATTAATGAAATTAATATTACAAAAAATAAAAATTGGATTAAAAAAAGAAATATTGCATTAATATATATAATTTATGGATGTGGGCTAAGAGTAAACGAAGCATTATCAATAAAATTTTCTGATATCCCAAAAAACACGGAAAGAGGCTATATGAAAATTATTGGTAAAGGTAACAAAGAAAGAATTATTCCTTTAATAAATAATGTAATGAAAAAAATTAATGAATATATAACTAGCTATCCAAACAAATGGACTGAACAAAGTTTTTTATTTTTAGGAAATAATAAAAAAAGACTTAATCCTGGAGTATTTCAAAGAGATTTTAGAAAAATAAGAAAAAAATTAAAATTAAATGATAAATTTACTCCTCATGCATTAAGACATAGTTTTGCAACACACATGCTAGAAAAGGGAGCGGATGTAAGAACTATACAAAAATTATTAGGTCACAAATCTTTAGAATCTACTCAGATTTATACTGAAGTTAGCCAATCTCAATTATCAAAATTATACGAAAAATTTAATCCAAGAAAAAAAATTAATACTTAACGCTAGAAAAGTTTTTTTGCAATTTTTAAAACATCAGAAACACTATTTACTGATTTAATAAATTCTTTTTTTTCATCTTTTTTTAAATTTACTTCAACAATTTTTTCAACACCATTTGCTCCCAAAACAACAGGGACTCCAACATAAATACTTTTTACTCCGTATTGGCCCCTTAGATAGGCAGAACAAGGAAGTATTTTTTTCTGATCTCTTAAATAACATTCAACCATTTCAATTGCTGATGCTGCAGGTGAATAATATGCAGATGTTCCCATATATGTAATTATTTCTCCTCCACACGTTCTAATCCTTTTGACAATTTCATTAACTTTTTGTCTAGAAATTTTTTTCATTTTTATCATATCTTCAAGTGGAATTCCTGAAATTGTTGTGTGTCTTAAAAGCGCTACCATATCATCGCCATGTCCGCCTAAAACTGAAGAGGAAACATCTTGTACCGAATAACCAAGTGCTTCTGCTAAATGAAATTTAAATCTAGATGTATCTAAAACTCCTGCCATCCCAACGACATGTGAATGAGGAATTCCTGTAATTTTTTGTAAAGCCCAAGTCATAACATCTAAAGGATTTGTGACAACAATTACAAAACTCTTTGGACTATATTTTTTTATAGCTTTGCCAACATCCTTCATAACTTTTAAATTTATTTCTACTAAATCATCTCTGCTCATTCCCGCTTTCCTTGGAACACCTGCAGTTACAACAATAACTTTTGAATCTTTAATTTGTTTTAATGAAGTTGTTCCAGTTATTTTTCTATTACATTGAAGTACAGGAAGTGAATGTGAAATATCTAAAGCTTTTCCTTTTGCTATACCTTTAGCAATATCAACTAAAACTACATAGCCCAAATTTTTTATTGCTGCTAATAAAGCAATAGTTCCGCCTATATTTCCTGCTCCTATTAATGATATTTTTGTAGCCATAATTATATCTTTGCTAAAAGTAAATTTATTTTTACTGCTGGAGCAGATTGTGTTATTGCGCCAACAGATATAAAATCTACACCAATACTAGATATTTTTTTCACATTTTGCAAATTAACACCACCAGAAATTTCAATTTTTGCTTTATTACCAATTAACTTACAAGCATCTTTAACTGTATTTATTTTCATATTATCTAATAAAATATGTTTAATTTTAAGTGAAACAGCTTTTTTTACTTGTGTTAAAGTATCACATTCCATAATAACTGTATTTTTTTTTGCCTCACTCATTAATCCAATTTTTCTAAAAATATCAGGATTTGCTAATATATGATTATCTTTAATCATAAATCTTTCAGATAAATCTAATCTATGATTTTTTGCTCCACCCACATAAGTTGCATATTTTTCTAATTTTCTTAATCCAGGGGTTGTTTTTCTTGTATCTAAAATAATTGCTTTTGATGTTTTAATTCTTTTACAAAATTCATTAGTCAAAGTACTAATTCCTGACAAATGCTGCAAAATATTTAATGTCGTCCGTTCTATTGATAAAATATCTTTTGCATTAGCTTCTATAACTAATATTTTTCCATTTTTATTTATTTTTTTTCCATCTTTATTTTTTTTTAAAATTTTAAAATTTTTACATTTTAATTTGAAAATTTTTAAAACTAAATCAATCCCGGATAATACTATTTTTTCTTCAGATAAAAATTCAGCTCGTGCTCTTTGTGTTTTATCAATAAAATATTTTGATGTAATATCTTTATTTGTTTTATCCTCATTTAAAAATTCTTGTGCATAATTAATTATTTCTTTATTCGTTAATTTCATTACGAAAATATTATTTTAAACTTCTGACATTTTAAGCATACGAAGAAGTGGTTTTTTTGCATTTTTTCTTAAATCTGAATTTAAATGTATTTCAGGTTTTGAATTTTTTAAAGATAAATAAATTTTTTCCATAGTATTCAAAGCCATATAAGGACATCTATTACAAGAACAATTTCCATCAGCTCCCGGAACTTCGATAAAAATTTTTTCAGGATTATTTTTTTTCATTTGATGCATTACATTAGGTTCTGTTCCAATTATAAATTCTTTTCTTTTTGATTTTGATACAAAATTAATAAGAGATGAAGTAGAGCCAATATGATCAGCATGCTTTAAAATTGTTTCTGGACATTCCGGATGAGCAATAAAAGATGCGTTTGGATTTTGAACCTTTAAATCAATAAGTTCTCTTTCAGAAAATTGTATATGTACTATACAAGTACCATCCCATAAAAGCATTTTACGATTTGTGATTTTATTTAAATATGATCCTAAATGTTTGTCTGGTGCAAATATAATTGGTTGAGACTTAGGTATTTGATCAATAATTTTTTTTGCATTAGAAGAGGTTACAACAATATCAGAAAGAGCCTTAATTTCAGCTGAACAGTTAATATAAGTTATTGCTAAATGATTTTTATGTTTATTTCTAAATTCTTCAAATTCTCTCGGTTGACAAGATTGCTCTAATGTACAACCAGCGTCCATATCAGGCAATAATACTTGTTTATTTGGACTTAAAATTTTTGCAACTTCCGCCATAAATTTTACCCCACAAAAAACAATTGTATCTGCATCTGTATTTGCTGCTTTTCTTGACAAATCTAGAGAATCTCCTACGAAATCTGCTAAATCTTGAATATCACTTGACTGGTATACGTGAGATAAAACAATAGCTTTTTTAATTTTTTTTAATCTTTGTATTTCTAAAACAAAATCTAGATTTGAAGAATTTCCTTTCAAATTTGGCTCTTTAAAATTTAAAATATTTTTGTACATAAAATTTAAACTAAAATAATTTAATAAAAATATTATAATAATAATTATTTAACATTTGAGGATATAAAAGCAATGGATGAAGAGGTTTTTAATTTACAAATAAGAAAATTTCTTAAAAATTTTGGTATTACTTCACAAGCAGAAATAGAAAAAAAAGTTCGTGAGTCTATAAGTAATAATACAATTAATAAAAATGAAGTTTTGAAAGTTGAGGCAAATTTAAGCATCAGTAAAATAAATTTAAATCATAAAATTTCAGGCATTATCAAATTAAGATAATTATAATTAAAAGCTATAATTTTTTATATTACTGCTATTGCTTTACCAGCATAAAAACCTTTAGGACAAGAATTTGTACAATTCATAATTGTATGACATCTATATAAAGACTTTGAGTCATTAAGTTCTTTTAGACGTTGATGTTGTGTATCATCCCTTGAATCTGAAATCCATCTGTAAGCAGCAAGTAATGTTGCAGGACCTAAATATTCTTTTTGATTTTTATTTCCATTCCACCAATAACTAGGGCAACTAGTTGAACAACAAAAACACATTATACATTCTATTGACCCATCTAATTTTGATCTATCTTTTTGAGATTGAAAAATTTCTTTATCATTATTTGTTTTTTTTTTATTTCGTAACCATGGTGATATAGAATTATATTGATTATAAGCATTATTTAAATCAGGAACTAAATCTTTAATAACAGGCATATGAGGCAAAGGGTAAATATTTATTTCCCCTGAAATTTCTTTCAATGATTTTGTACATGCTAAAGTATTTACTCCATTAATATTCATAGAACAACTTCCACAAATACCTTCTCTACATGATCTTCTAAATGTTAAAGTTGAATCAATATCATCTTTAATTGCTATTAAAGCATCCAATACCATTTGTATAGACTTATCATTTTTTAAATAAAAAGTATCCATCCTTGGATTTTGATTTTTATCAGGATCATATCTATAAATATTTATTTTTCTTGAATCTTTTAAATTAGAATTATTATGAGTTATTCCTTTTTTTATTTTTGAATTTTTTGGTAAATTTAATTGAACCATAAAATTAATATAACATTTGAAAAATATTAGTAAACTCTTGCCTTGGGCGGAAAAGATTTAACTTCTTTAGTTAATGGTTTTAATTTCACAGATCTATAAGAAATTTTAACTTTTCCATTATTACTACATGTTGCTAAGGTATGTTTCATCCATTTTTTATCATTTCTTTTTGGAAAATCTTCCCTTGAATGCGCCCCTCTGCTTTCTTCTCTATTTAAAGCTGAGGCCATAGCAACAATACTTTGTGATAAAAGATTATCAAATTCTAAAGTTTCAACTAAATCTGTGTTCCAAATTAAAGATTTATCTTTTATTTTAATATTTAATTTATCTTTTAAACATTTATTAAGTTTTGCATTTCCCATAGTCAAAACCTTTTTATTTCTGAAAACAGAACAATTACTTTGCATAGTTTTTTGCATTTCTTTTCTTATTTCTGCTGTCGATATATCTCCTGAAGAAGTTCTAAAAAAATTAAATCTAGACAATGCTTTATCTAAAGATTTTTTATTAAATTTTTTAATTTTATTTTTTTTTATAATATCTTTACATTTATTTGCGGCAGCTCTTCCAAAAACAATTAAATCTAAAAGAGAATTAGATCCTAATCTATTAGCACCATGTACGGATACGCATGCAGCTTCTCCAATAGCCATTAATCCAGGAACAACTTCTTCAGATCCAGAAGAATTTAATTTTATAACTTCAGCATTTATATTTGTTGGAATTCCTCCCATATTATAATGTACAGTTGGTATTACAGGTATCGGATTTTTTGAAACATCAACTCCTGAAAAAGTTTTTGCTGTTTCAGAAATCCCTGGTAATTTTTCTTCTAAAACTTTTTTACTAATATGTTCCAAATGTAATAAAACGTGATCTTTTTCTTTTCCAACCCCTCTACCTTCAACAATTTCCTGAGTGATAGATCTGCTTACTACATCTCTACTAGCTAAATCTTTTGCGTTTGGTGCATATCTTTCCATAAATTTTTCATTTTCAGAATTAGTTAAATATCCTCCTTCTCCTCTAGCTCCTTCAGTTATTAAACATCCAGCTGTATAAATACCAGTTGGATGAAATTGTATAAATTCCATATCTTGAAGAGGTATTCCTGCTCTTAACACCATTGCATTTCCATCACCAGTACAAGTATGTGCTGAAGTTGCAGATAAATATGCTCTGCCCCAGCCGCCAGTTGCTAATAAAGTAATTTGTGATTCAAAAATATGTAAAGATCCATCTTCTAAACACCAAGCAAGAACCCCGGAACACTCTCCATTCTCAGTCATTAATAAATCTAAAACTATATATTCTATGTAAAATTTTACTTTATGTTTTACAGATTGTTGATACAGGGTATGAAGTATTGCATGTCCTGTTCTATCTGCAGCAGCGCAAGTTCTTTGAGCTTGTTCTTTTCCAAAATTTTTTGACATTCCTCCAAAAGCTCTTTGATAAATTTTTCCATCTTCTGTTCTTGAAAAAGGAACTCCATAATTTTCAAGTTCAATAACTGAATTCATTGCTTCTTTGCACATATATTCTATTGCGTCTTGATCGCCTAACCAATCTGAACCTTTAACAGTGTCATACATATGCCATCTCCAATCGTCATCACCTACATTTCCTAATGCGGCTGATATGCCTCCTTGCGCAGCAACTGTGTGGCTTCTTGTAGGAAATACTTTAGAAATGCATGCAGTTTTAAGACCCTTTGCAGCTATACCCATGCAGGCTCTTAATCCTGAGCCACCAGCCCCGATTACAATTACATCATATTTATGTTTTTGAATTTTATAAGATTTTTTCATTAAATTAAAAATGAATATTTAAAATTGAAATACAAGAAACAACAATTAAAAAAAAACTTAATAATTTGATGAATTTTTTTAATAAAATTTTTTTATTTAATTCATCAATATAATCTTCAAAAATATTTAAAATTCCTAATGTTGAATGATGCATGATAATAATAAATAAAAATATAAATAAAATTGAATTAAATGGAACCTTTATCCATAAATAGAAATTTTCTTCAAAATTAATTATTAAATTTTTAAAAGAAATTATTATCCATATAAATAAAAATATCATTATGATTGCAGTTATTCTCTGCCAAAACCAATGATTTAAAGCATCTTGAGAAAAACCTAAAGACAAAAAATTTTTAAAGAAATTAAGCATTAAAAAAACCAAAAATAAAAATTAAACAATAAAGATAAAAATATAATTAGAAAACCAGTCAGATAAACATTTATAATTTTAAAACCAAAGCCCAAATCCCAAATCAAATGTCTAATTCCGTTTAAAAAGTGATAAATAAAAGATAAAGTTATTAAAAAAAGAATTAATTTTCCAAATTTTGAAATAAAAAAAATAATTATAAATTTATATATTTCTTCATTAAAAGCTAAGGTAAATAAAAAAAATGTAATTAAAAAGGTAGATAAATATAAAATTATACCTGTGAACCTATGTGATATTGATAGTATAGAAGTTATTTGTGGTTTATAAATTTGTAAGTGAGGTGAGATTGGTCTGTTTTTATTTTTCATTTATTTTTTTTTGGCATTAAAACCCAATAATCAATTTCCAATACTACATTTTTATCATATTCTTTATCATTATTTAAATATAATGGAAAATCTTTACACGAATTATCTTTTACACCAATAGATTTTATTCTTAGTGCTCCTAAATCTTTATTATTTTTTAATTCTTTTTTATCTAAAACTTCACTCCAAGCATAAATGGTATTTCCTGCAACTGAAGGAGAAACATGCTTACCATTATTAATAGCTACAATTTTAAAAGCATTGCTTAAACCATTAAAAGATAACATTCGAACTAAACTAATTATATGTCCACCATAAATAATTCTCCTTCCTAATCTACCATCTTTTTCAGTATGTTCATTAAAGTGAACCTTAGCAGTATTTTGATATAATCTAGTTGCAGTCATATGATCTGCTTCTTCTACAGTCATTCCATCAATATGATCAATCTTTTCTCCTATTTTATAATCATCCCATAAATACTTTGAACCACTTTCATCAAAATTATATTTTTTCATATTTAATTTTTTTGGAACAGTAATTTCTTCTATACCTACTTCATTTTTTAAATTTGGTATTACAATTTTAGGAGCAGGACTGGACTCATCTCTTTTATTTACCATTACCCATCTTATATAATCTAAAACAATTTTATCGTTCTGGTTCTTTCCGATTGAATTAACCCAAACTATTCCAGTTTTTTTATTTGAATTTTCTTTTACACCTAAAACTTTAGATGTTGTCTTTATTGTATCGCCTACATAAACCGGCTCTATAAATTTACATGATGCATAACCCAAATTTGCTGGGGAATTTAATGATATATCAGGAACAGTTTTACCAAACACCATATTAAATGTTAAAATATCATCTATAGGAGATTCCTTAAATCCAATTTTTTTTGCAAATTCTTTTGATGAATGTAAAACAAATCTTGATCCAAGTAAGCCTATAAATAAAGAAACATCACCAGAAGATATTGTTCTTGGAGTTGAATGTTTTAATTCTTTACCAACAAAAAAATCTTCAAAAAAATTTCCAGAATTTATTTTATTTTCCATTTTTAATAATTTTTCTTTTTATTAATTCTTCACCAATTTGTATTGCATTTAAAGCTGCACCTTTTCTTAAATTATCTGCTACTACCCATAAAGATATACCATTTTTTAATGTTTTATCTTTTCTTATTCTACTTACAAAAACTTTATCTTCTCCCGCACATTCCTCAGGAGTAACATATCCTTCATCTTGCCTATAATCAACAACAGAAACTCCAGGGCTTTTTTTTAAAATTTCTCTTAAATTATCCTCAGAAAGTTCTTTTTCGAATTCAATATTTATCGCTTCTCCATGTCCAATAAATACTGGTACTCTTACACAAGTTGCTGAAACTTCTATAGTTTTATCGATAATTTTTTTTGTCTCAACTTGCATTTTCCATTCTTCCTTTGTCTGTCCATCTTCTAAAAAACTATCTATATGCGGAATAACATTAAATGCTATTTGTTTTGTAAAAAATTTTTTTTTAATTTGAACATTTGAAAAAATATCTTTAGTTTGTTCAAATAGTTCGTCCATAGGAAGTCTTCCTGCCCCCGATGTTGATTGATATGTAGAAACTACTACTCTTTTAATTTTAACTATTTCATGTAGTGGTTTTAAAACCATTACCATTTGTATAGTTGAGCAATTTGGGTTCGCTATAATTTTTTTTTTTATTATTTTCAAATCATCTGAATTAACTTCTGGTACTATTAATGGTACATCAGGATCCATTCTAAAATAAGATGAATTATCAATAACATAACAATTTGCTTTAGTTGCTTCATTTGCAAACTCAGAAGCAACTTTTGATCCAGCAGATGAAAATACTAAATCACATTTCTTAAAATCAAATTTTTTTATATCTATTACTTTTAGTTCTTTTTTCCCAAAATTTATCTTTTTTCCATGAGATTTTGATGAAGCTAACAAAAATAACTCATCTATAGGAAACTTTCTTTCATTTAAAATCGAAATAAATTCTCTTCCAACATTACCTGTTGCCCCTACAATTGAAACTTTGATACCCATATGTTAAATTTTTTTTTCTATTTCATTAATAATTAATTGGCCCATTTCATTTGTGCCAATTTTTTTTGAATTTTCATCCATTATATCTTGCGTTCTATAACCTTTATCTAAAACTATTTTTATTGAGTTATCAATAATTTTAGACAAATCTTTATTATTAAATGAATAAA
>sequence26
GTAATTACTGTAGATGATTGTAAAGGCCTTGATACTGAATTTAACGTTGTTGAAGGTATGCTATTTGATAGGGGTTATTTATCTCCTTATTTTATTACAAATGCCGAAAAAATGACTACAGAATTAGAAGATGCATATATTCTTTTACATGAACAAAAATTAACTAATCTACAGCCGATGTTACCTTTATTAGAAAGTGTTGCGCAATCAGGAAAACCTTTATTAATAATTGCAGAAGAAGTTGAAGGCGAAGCGCTAGCAACTTTAATCGTAAATAAATTAAGAGGTGGTTTAAAAATTGCAGCAGTTAAAGCACCTGGATTTGGAGATAGAAGAAAAGCAATGTTAGAAGATTTAGCATTATTAACAAATGGCCAGGTTATAAGTGAAGAATTAGGATTAAAATTAGAAAATGTTAAATTAGAATCTTTGGGTACTGCAAAAAAAATTAATATAGATAAAGAAAATACAACGATAGTAGGTGGCTCAGGAAAGAAATCAGATATAGATGCGAGATGTAATCAAATTAGAAACGAAATTGAACAAAGCGACTCTGATTATGATAAAGAAAAACTTCAAGAAAGATTAGCTAAATTATCTGGTGGAGTTGCTGTTTTACATGTCGGTGGTGCTTCTGAAGTAGAAGTTAAAGAAAAAAAAGATAGAGTTGATGATGCTATGAATGCAACTAGAGCTGCTGTTGAAGAAGGAGTTGTTCCAGGTGGTGGCGTTGCATTATTGTATGCAACGAAAATTTTAGAAAATGTAAAGCCGAACAACCCTGACCAACAAGTTGGTGTTAGTATAGTAAAAAAAGCTATTGAGAGACCTGTAAGACAAATTGCAAAAAATGCTGGAGTTGATGGTTCAGTGATTGTAGGAAAATTACTAGAACAAGATAACCAAAATTTTGGTTATAATGCTCAAACTGGAAAATTCACTGATCTTGTAAAAGATGGAATAATTGATCCGACCAAAGTTGTGAGATCAGCAATTCAAGATTCTGCATCAGTAGCTGGATTATTAATTACTGCTGAAGCTGTGATAGCTGATTTACCTGAAGAAAAAAGTGACACCCCTGCTATGCCTGATATGGGCGGAGGCGGTATGGGTGGCATGGGCGGTATGGGCGGAATGGGCGGAATGCCAGGAATGGATATGTAAATTAATTAAAACTTTTTAATTAATATTCTTTTATACAATTCTTCTACTTTAAATAAAGACTGATTCATATTAAAATTCTTTAACGAATCTTTATATGCACAATTCTTAATTTTATTAATTTTTAATTTATTTAACTTAAAAAAATTAATTATTAATTCTGATAAATTTTTATAATTATTAGGTTTAAACAGCCAACCAGATTTATTGTGAACAATAGATTCTTTATGTCCACCAGAATTTGAAGCAATTACTGGTAATTTAGATAACATGGATTCAACAATAACACGATTATGCCCCTCATTAATAGCCGGAGATATTAATAGATTTGAATTTTTGAACCAATAATTGATATTATAACAATCTTTTAAATAAAATAATTTTTTTCTAAACTCATTATCATTTATCTTTAAAAGTATTTTTCTCAAAATATTAAATTTATCACGACCTATAATTAAAAAAATAAAATCATCATTATTTTTAGAAATGTTAATTGCAGCCTTGATAAAAATATCAACTTTTTTACTTTCAATTATATTAGAAAAAAATAAAATCTTTTTTTTTTTTATTTTAGAAAATCTTGTAATAATTTTTTTTTCACTTTTACTTATTACTCTCTTATTCAAAACAATCGGATTATATATCACAGAAGAATTATTATGAAATTTTTTAGGAAGCGTTTTTCTAACATACTTTGAAATACAAACAATTTTATCTGAATATCTAATTAAAAATTTATATAATTTCCAATTGGGAAATTTTGTTCTTAAATGCCATAAAAATTTACTATCAGAAAATTTTGTTGGGATAACCCAATTAAAATGAATACTTACATCATTCGAATGAACAATTTTAATATTATTATTTTTAATAAAACTATTTATCTTAAAAAAATTTAAAATTAAAATTTTTAAATTAAAAAATATTCCTTTTTTTTTACCTGCAAAATCTCTAATTGGAATATAAGAAAAAATTATATTATTTTGTTTTAAATAATTATATAAAATACCTTTTTTATGAAGAATAATTATTGGATTAAAAAATTTCTTATTTAAATTTTTAATAATATCTAGTGTAGAAAAATGACTCCCTCCTAAACTATCGCCAACAAAAGGAAAGCAAATGTTAAATTTTTTATTTATTTTCATAAACTAATTGTTTACAAAATATTATTTTTTAGAAAAAATCTGTAATATTTTTTTATATTAAGAGTGTGATCTTTAAGACTAGGTAAAGAAGTTTTTGTTCCTTTCAGAAACACATTGGTCATTTTATATAAACCTGGCTTAAATAAAAAATCATCTTTATCCTTAAAATTTATTTTTGTTTCTTTAAATTTTCTATTTATAAAACTAAGTTCCTCTAATGGCTTAAAAATTAAATGCTTATTAGATGTAAAAAAATCTAAACTCCATCTACCAGGCGTTTTCCAATTTGCATGATAAGAAAATAGAGCATTCTTTTTAGAAATACCAGAACCTGTAAAAATAGCGCCATTTCTATGCCATGAAACTTTATCATAACTATAGTTTATTATTTTCCTAGGTAACCCTCCCAAATAAAAAGCTAAATCTATTACATGGATAGAGTTAGCCATAAACCATTGTTGTTTAACATCTATAGATGTTTTTTCTCGTGATATAAGATGAGATCTTTCTGTAAAATCAAACTTAAATGATTTAATTCCACCATCTAATATAATTAATTTTTTAGCTTCAATCGTAGAATTATAATATCGTCTATTAAAAGCTATATGAATTCTGTTTTTATATTTTTTTTGGAGTCTAACTAGATCAACTAATTGTTTCAAATATAATGCGCCAGGCTTTTCTAATAAAATATTTTTAATTTTAAATTTGATTAGAATCTTACATACATCATATAATTCTTCGATACCTACAGCAATAATAGCATAATTATAATTATTACTTTTATTAATTAAATATTCATTTAAATTATTTTTAGGTTTTATTCCAAATTCATTGTAAAAATTTTTATTATTTTTTGCCCCTCTTCCAATTACTGTTAGATTATCTTTTTTAACTAATTTAATAATTACTTTGGCATATTCTTTTGCCATATAACCTGTTCCTATTAATAGAACTTTTTTTATGTAATTAGACATGAATTATATTTTTTTTTAGAATTTTTATTTATATGCTTTAAAAAATTAATTAATAATTTTTTGTGAATTAATGTTGATTCACTAAACCTTGGTAAACTACAATTTCCTGTTTTTAAAATTTGATTAACATATCCATGCGTAGAATTTGAAACATATGGTATTTTAAACATTTCTGTTTTTTCCTTTTTTTTTCTTTTTAAATCAATAATTCTACATTTACCTGATAGTTCATTATATATTATTTTATTATTTTTAAAAAAAATCTCTGTTGAAAAATAATTTCTTTTTTTTCCATACGGATAATCAACATACAAAATTCTTTTTTTATCTAAACTTGAAAAAATAATATTACCATTAAATTCTATATATCCTTTTCTTTTAGAATTAACAATTTTTTTATCAAGTCCTGCAATATTAACTTTAAATTCTTTATTCTGAATTATTTCTTTATATACACTTAAATAATGTATTGAATTACAACCAATATTATTTTCTGGTCCTTTTATAAAAATTTTAAATTCTTTTTCTTTCCTAAGTTTATTAATTATAAATTTAAAAAATGGAAAGTCTTGCACAGGCATATGAACCCATGATCGAATATTATTTTTTTTTAATATTTTATTAGCATCAGAATAATGAGAAACTTTTGGAAATAAAAATTTTTCAAAAAGTATAAATTTGATACTTGAATAATTTATAATTTTTTTTAAAACATTTAATCTTTCTTTAGAATTTGTTGCTATTATTAAGAAATCTATTTTTTTTGGTAAAACGCTTAGTTTATTAGAATAAATAACATTATTTTTATATTTATCTTTTAGATTTACCAAATCCTTGATTTCATCAATTCTAGTTAATGAATTCTCTATAATCCATAAATTCACAGAACTAATTATTTTCAATAATGATTGGTAATGTCTGAAACCTATATTGCCACAACCAACTACAACTATTTTTTTTTTCATAAAAATTTTATTATTTGTTAATTTGTTTCATTTAATATTTTTTGCCAACCATTAGAAAAAATATTAAGATTAGAAATTCTTTTTAATTTTTTATAAGCGCTTATTGAAAAATTATTTCTTATATTTTTATTTTTTATATAATAATTAATTGATTTAACTAAAGAATTTTCATTATCATTTTCAAATAATTTTCCTGAATTATTATTTTTTATAAAAAATTTAATACCAGGAATATTAGAACCAATAACTGGTAATCTAAAATCAATAGCCTCAATTAAAGCATTTGGCATTCCTTCAAATCTTGAAGATAAAATAAAAAAACCTGATTTTTTATACCAATAACCTGTATTTTTAACAAATCCTTTAAAAAAAACATATTTTGTTATATTTAATTTTTCACATTCTATTTTTAATTTTTTTTTATCAGGCCCTTCTCCTAAAATTACCAATTTCCAATCCTTTTTAATCGCAATACTTTTGGCAAAACTTCTTATTAATAAAATAATATTCTTTTGATAATTTAATCTTGCTACAGTCAAAATTATCTTTTCTTTTTTATTTTTTTTTTTTAACGGTTTAGATAAAATTAAAGGATTTGGTATAAAAATTATTTTTTTTTTAAAGAAAGGATATTTTTCTGCTTTATTATCAGGAATATTTTTAATAATCCTAAAAACAAAAGAATAAAGAATTATTCTCAAAACTTTCCAAATTAATGGTATTTTTTGTTTAACCATATCATTTCTCTCATTTACAATTAATTTTCTTTTTAATCCAATATTAGCTAATATCGATAATATATTTGTTGTTGTTAAAAAACTTATAACAATTGATTTTTTTTCTTTATTTATTTCTTTTCTTATTTTTCTTATTCTTTTGAAATTATAAAAAACTTTTTCAAATATATTTTTCGATTTTTTGTATAAATTTAAATTTATAATCTTAATTTTTGATGAAAGTTGGAATGTTTGCTTAAATTTATCTAATAAAATTAATTTTATATTAAATTTTTTAGTTACTAAAAAATTAATTAAATAAACTAAAACTTTTTGCGCTCCACCCACTTGTAGATCTGGAATTATAAAAATTAAATTTTTTTTTACATTCATTTTAATTTTTAGATAATAAGATTGTTCTTAAACCACCTTGAGTACAAATTAAATTGATTGCATCTTTATTTTTTATATTAAAAAATATTTTTCTTTTAACATCATCAGTTTTTATTGATGGCATGTTTGAAATGTATCCTAATTTTTCTAAAATTTTGGTACCGTGTTCTGAAGAACTTGAAGCTATTTTTACTTTATAGCCAATTTGAAACAACTTATTTAAATTCTTATTCATTTTATTATTTTTTTGATATTTAGATAAATGTGTTTCAAAACAAATCATTGGATATTTCTTCAATTTATTTTTTGTTATATTTTCAAATATTTCAACTTCATGCCCTTCAACATCCATTCTAATTAAATCTGGATAAAAATATTTATTAAATAAATCAGTTAATTTATAAGTTTTTATATTTATAGAATTATTTTCATGCTTTATTTTTAATGGATTAAATGTTCCTAAATTAGAATGTGTCGATCTGTAAAACTTCTTTTTTCCAGTTATATTTGATACACCACCATGTATAACAATCGTATTATGTTCATTATTTAATTTTAAATTTAAGTTTAATAAATCAATATTATCTTTTAATGGTTCTACAGCAATTATTTTTGATGATTTACTAATAAATTGTCTTTGTAAAAGAATATAATAACCAATATTTGCCCCTACATCAAAGATGTTCATATTCTTTTTTAATATTTTTTTAAGTATAATTAAATGATCTATTTCTCGTTCACCAAATAAAATTAATGTGCGTGAAATTCCTTTATCAAAAGGATTTAAAAACATTTTAAATTTAAATATTTTCTTTTTAATAAATTTTTTTGGATAAAAATTTTTATATATTTCTATTAAAAAAAAATAAAAGAAGGAAAATAAAAGTTTTTTTAAACCTTTTTTTTTAAGAATTAAAATAATATTTAAAAAATATTTTTGAATCATTTAAGTAAATTATTATTTTTTTTCCAAGATTGATAAACTAAAACTGTCCAAATCGAATAATGCCAATTTCTTTTACTAGAAATATGTTCATTCCATTTTTCTATTATTTTTTTTGAATTTAAATAACCATCATCTAGTTTTTTTTTTATTAATAAATCTTCTGCCCAATCTCTTAAAGGACCTCTTAACCAACTGGCTAAAGGTATAGCAAATCCCATTTTTGGTCTATTTACTAAATTTCTAGGTATATATTTTTCTAACATTTTTTTTAAAAAAAATTTAGATTCTCTATTTTTCTTTAAAAAATTATAATGCCATACATTTTTGAAAATATTTTCTTCTATAAATGGCACTCTAACTTCTAGTCCTTTGGCCATACTTGCTCTATCAACCTTTGTTAAAATATCATCTACTAAATAAGTATTTATATCTATAATTTGCATTTGATCTTTCATATCTAAATAAGAATTATTATTAAATGTATAATTTTTGTCTAAAATATTTATTTTATTTAATGGAATTTCATTATCTTTCCATTGAGATATAAAATATGAATACACTTTAAATATTGAATCCAAATTTATTGAATCTGCTAATTTATGAATTTTATCTCCAGGTAATGAATATTTATTAAAATAAGGTAAAAATTTAAAAAAATTATCCCATTGATTAGGTGATAAAACTTTCATTGTTTTACAAATTACATTTCTAAAAACTTTAGGAAAGTTGTATAGAAATCTTAATTTATTAATCCAATTATATCTATTATAGCCACCAAATAATTCATCACCTCCATCTCCAGACAAAACAACCTTAACTTGTTTACTTGTTATTTGGGATAATAAGATTGTTGGTAACTGTGATGAATCAGCAAAAGGCTCATCATAAATCTTTGCAACTTTAGGGATAAATTCTAATAAATCTTTATTTTTAAAAATTACTTGATGATGATCAGTTTTTAAATGTTTGGCAACAGAACTAGCAAATTTTGATTCATCCAATGATTTATCTTCGAAACCTATATTAAAAGTTTTCACAGTCGAAGTATTTTTTCTCATTAAAGCTGTAATAAGTGAACTATCAATACCGCCAGATAAAAAAGCCCCTATTGAAACATCTGATATCATATGTTTTTCTACTGATTTATTTATTGAGTCTTCAATTTTTTTTTCAATTTGTGTTGGACTTAGATTTATAACTTTTTTTTTATTTCTATTTTTTTCGGCTACTTTTTTAGCATCCCAATATTTCTCTTCTTTAATTGAACCATCTGATGAAAATATTATAAAATGACCAGGCAAAACCTGTCTTGTATTTTTATAAATACTTTGATTAGAAGGAATATAACCATATTTAAAATAAGATCCTAATGATTTGTAGCATATATCAGCATTCCACTTTTTATGTTTTTTAAAACTTTTAGATTGGGAGCTAAATAAAAAAAGATTATTTTTAAAGCTAAAATAAAGCGGTTTAATACCAAATCTATCTCTCACAAGATATAATTTTTTTTTATAATTATCCCATAAAGAAAATGCAAACATTCCAGAAATTTTATTAATTGTTTTTTTAATTCCCCAATACGAGAAAGCTTCTAATAGAACACGTGTATCTGATTTAGTATCAATATTTGTTCCATCTTTTTTTAAATCATTTATTAAATCAATAAAATTATAAATCTCACCATTAAAAACAATAATGTATCTCTTATTTTTACTTTCCATAGGCTGCTTACCTAAATTACTAATTTCTAATATTGATAAACGCCTGTGACCTAAAGCTAAATTTTTATCTTTATTTATCCAACAACCTTTGGAATCCGGACCTCTGTGATCCAGAGTTTTAGTCATATCATTAATAATACTTAAAATTTTCTCTGATCTATATTTCTTTTTTAGATCCCAAAATCCAACTATACCGCACATCTTATTTTAATATTTTAAGAAGATAATTTTTATAAGGACCTTCTGACATTGAGTAAGTCAATTGTTTTAATTGCGAATAATTTATCCATTTATTTAAGTAAGCTATTTCCTCTAAACAAGCAATTTTTAAACCCTGTCTTTGTTCTGTGTTTGCTATAAAGTTATTTGCAATTAATAAAGACTCAGGTGTGCCTGTATCAAGCCATGCAAAACCTCTACCAAAAGTTTCCATATGCAATTTTTGTTTATTTAAATATACCTTATTAACATCAGTTATTTCTAATTCACCACGTTTAGATGGTTTTAATTTTTTAACAATTTCAACAACCTCACTATCATAGAAATATAATCCAGTAACAGCTAAATTTGATTTAGGTTTCTTTGGCTTCTCAGTCAATCTATAAGGATTATTTTTTTTATCTAGTTCTATAACTCCATATCTTTGTGGATCATGAACTGGATATGAAAATATTGTTGCTCCTTTATCTTTAGATTTAGCAGAAAATAATTTTTCTCTAAAATTTTGACCATAAAATATATTATCACCTAAAATTAACGCGCATTTTGAATTATTAATAAATTTTTTACCAATTTTAAAAGCATCAGCAATACCTTTAGGTTTTTTTTGTATTGCGTAGGAAATATTTATACCTATTTTTTTTCCATTTCCCAATAATGCTTTAAATGCTTTTAAGTCTTCTTGCTTAGTTATAATTAAAATATCTTTAATATGTGATAGCATTAGAACTGATAATGGGTAATAAATCATTGGTTTATCATAAATAGCTAAAAGTTGTTTATTTACAGAAATTGTAATTGGAAAAAGACGTGTTGCTCTTCCAGCGGCTAAAATAATTCCTTTTGTTTTATTTTTTATTTTTTCCAAGCCTTTGCCCTTTATATTTAAATTTCCTTATTTCTTCCCACCAAACTTTATTTTTTAAATACCAATTAATTGTTTTAAATAAACCACTCTCAATATCTATAACTGGCTTCCATCCAATTTCTTTTTTTATTTTTGATGAATCTAAAGAGTATCTTTTATCATGTCCCGGTCTATCTTCAACATGAGTAATTAAACTGTTATATTTTTTATTGTTTTTTCTAGGAACAATCAAATCTAAAATTTTGCAAATTTTTAATACTAACTTATTATTAGTTAATTCATCATCTCCACCAATATTATAAGTATTTCCGACCTTACCTTTAAGGTATATTTGATGTATAGCTTTTGCATTATCATTTACATATAACCAATTTCTAATTTGTTTACCATGTCCATAAATTGGCAACTTTTTTTCTTGTAAAGCATTTAATATTATTAATGGAATTAATTTCTCAGGAAATTGATAAGGTCCATAATTATTAGATGATCTAGTTATTATTGATGGAAAGTTATAAGTTTTAAAAAAAGAAAAAATTAAATGATCAGCTGAAGTTTTTGAGGCAGCGTAAGGTGAATTCGGAGTTAAAAGGGCATTTTCTTTAGAAGAACCTTTTGATACAGAACCATAAACTTCATCTGTAGAAACCTGGATAAATTTAAATTTATTATTTTTATTTTTTATTTTTAAATAATTTAAAGTACTTTTCAAAAGATTAAATACTCCAAGTATATTAGTATTAACAAAAGCACTTGGGCTATCAATTGATCTATCAACGTGAGTTTCGGCGGCAAAATTTATTAAACAATCAGGTTTATATTTTGAAAAAATTAATTTTGTTTTTTTCAAATCAGCAATATCGCCTTTTATAAAAATATAATTTTTATTATTTTGAAATTCCTTTAATGTTTTTTTGGATGCAGCATAAGTTATAAGATCTAAATTAATAATTCGATAATTTTTATTTAATATTTCTCTTATAAAGTTAGATCCGATAAAACCGCCACCACCTGTTACAAATATATTTTTCATTAATTTAATTTTTTAGTAATTTTAAAAATCTTTTAACAAAAATTTCATCAGAACCTTTATTTGAAGTAAAAAATAAATATTTTTGTTGAGCATTTGTTGCCAATTCTTTTAACATTTTATAATTATCTAAGGCGTAAATTATTTGATCTCTTAAATTACTAAGATCCCATAAAAAAGGCAAATATGTTTTTTTATTATACCACCTTGGCCACGTTTTAATTAAACTCATTTCAGGTTTTATAAGTATAGAGCCATGTAGAAATGCTTCAAAATCTCTTGGGCATAATTCCCCCCAACCAAAAGGTGAAACAACAAATTTAGAATTTTTTAATTCCTCTATATATTTAAATCTTGATATTTTTTTAATTTTTGTAAATTCATTTAATATTTTTGATACTTTTTTTCTTTGGTATTCAACTGTTTCTCTGTCATATTTAATTCCAATTCTACAAGATATATCATTTTTTCTCTCTATAGAAGGTAAAAAAAAATTTTTAGAATTAAATAATATATAATTACTCTTAAAAATAGAAAAAAATTTTTGTTTTAAATGTGAAAATTTTCCATGATCACATAAACCCATATTCCAAGAAACTAAAATTTTTTTTAACAAATCTTTTTCTATAATAATATCTGTCTGTTGTTTATTTTTATCTATGATTTTAAATTTTTTATTATAAAAATCAGTAAATAAACGGCCACCATAATGACTATTTGCATAATATTTTTTATCATTTAAAATTTGTCCTTTCCAATAAGAATTACATATTCTTAAAAAATCTTTTTTTAATTGACCGCTATTATCCGCATTATCAGCAAAAATAAGTTTTGTATTTTTTGGTTTATTTTTATTAATAAACTCTAAAATATTTTTTTTATTTTTCTCAATTTCATTAAATCTACTATCAATAATTACCACATCACAATCAAATAATTTTTTGTTTAATAAATGAAGGAAAGAAAACCGAAAATTTATATCTTTAAACCTTTTTAAGGATTTTATTATTGGGTATATAAAACTATAAGAACAATAATCATTAAAAAAATTATTATTTATTAAAATATTAATTTTCATCTAAAATTTTTAAAAAATGATCAATACAAAGAAGATTAATAGTAAAAGTATCGTGACCTGAATTTTTTTTCATCAAAACTGTATTAAGATAACTCTTGATTTTTTTAATATCTAAAAAATCTAATTTATCTAATCTATTTGAGGAGATTGTATCTTTAAGGTAATTATGCCAATCATTTTTTAATAAATAACTATATGGAAGACCCATTCTTTGAAACTTTTCCTCTAAATCTTGTTTATCACCTTTAAATTTATTTCTAAAATAATTTATTAATTGAAAAAAAGTTTTTTGGTATTTTGAATATTTAATTGGTAAATTAGTATTGGCACTTTTTAAATTTGCTAAATTTTTATTAATTTTTTTTAATGCCAATCTTTGTATTTTTGAATCAAATCTATATTGCCATGGTAGAGATTGATATAAATCGTAAAGTTCATTATCAAATGCTGGTATTCTTGTTTCTATAATTGAATTAATTGAAATATTATCTGAAACACTATAATGTCTTCCCAAATTATTGAAGGTAAGATATTCATATAATTCAAAAACATTATTACTAAGTTTTTTTCCAATTTTTTCTATTTTTTTAAGTTCATAGAATACACTACTCATCATTTTCTTTTTTTGTCTATTTTTAATAAAATTTAAAACATTTTGGGATTTAGTTTTATAAGGAACATTTTTAATAAAAAAATTAACCAAATCCCCCTTTATTAACCTAGGTATAATAAAATTTAAATCATGATTCAGAAATTTTAATCTTTTCTTAGGCAAATACATTCCTTGGAAAAAAAAATCAAATCCATGACCGTGAATTCCAATATCAGCATATTTTTTCATTAATTTAGAAAAACCATAAAACATTGTTAAAGGAGGATACATTGAACTAGTCGAAAAAATACATTCTTCAAAATTTTTTTTATAATGATTTTCTGTATTTTTTATAAAAATATTTTTTACATTAACAATATTTGCAGCTTCTTTTGCAATTTTAACTTCTCTATTTATAAAACTATTAAAGGTAAGTGTACAAAAATTTGAATTATTTTTTTTAAGACAAGATAAAAGTAATCTTGTATCCATACCACCACTTAAAAAAAGGCCGTATTTTTTATTATCACTTGTTCTTGTTTTTAAAGAATTTAGTAGAAGATCAATTAATAAATTAGCAGACTTATCAATTGAAAGATTAATTTTATTTTTAAAATTAGGTTCCCAATAAATAATAATCTTTTTATTAAATCCATTTGTAATTAATTTTGATGCAGGGCCTAAAGATTTAGTATTTAATTCATAACTTTTGTTTCCAAATATTCTCCTGAAAAATAAATATTCAAAAAATGAATTCTTATTTAATTTAAATGCACTATTTTTTTTTAAATTTATAGATAGTTCACTGAAAGAAAGAGAGGCTAAAAATCTTTTTTTATTTAAATAGTACCATAATGCTGGTGAGGTAAATCTAGAATTAATAATTTCTAAAACTTTTTTTGATTTATTAATAAAAAATATTAAAAATTCACCGTTAATTTTTTTTAAAATATCAAAATTTTTATTTTGAAAAAAAAATTTTGCAAATTTAGCATTATTTAATTCACCATCAATAATTGGATTTCCTAAAATACAAAGTTTATTTCCATTTGAGTTAAAAAAAGAAATATTTATATTATTTTTTTTAAATTTTATAAATACTCTTTTATTTTTCTTTAATTCTCCCCATTCAATACTATCTGGAATTGAAGATTTATTTGAAATTTCTAAAAAAAAACTTGGAATAGTCATTAATGATTAACAAAATTATTTAATATATCTTTTCTTATATTAATTTTACGCCAACTATATTCATTCTTAAGATTTAAAATTTTACTATTCTTTGTTAAGTAATTGTTTTCACTATTTTTTTTTGTATTTAATGAAAAATATGACGCAGGGTAAACAAAACCTTTTTTATTCTTAGTAATTAATTTATCTGGTAAATATCGTTTAAGAACTTCTCTTAAAACATACTTTTGCCCAAATTTATTTAAATTATTTAATTTTAATGAATTATATAAAGAAAAAAGTTTATGATTTAACAGAGGAGATCTTAATTCAATACTTTTATTCATTCCTCCTAAATCAAAACACGCTAATCTGCTATCAGCCATTACACTTTCTATATCAAACTCACAAACTCTTTTATAAAAATTTTTATTATTAAATTTTTTAAAAGTTTTTGTGCACCAAACATCAAAACCCTTTAATGATAATAAATAAGTAAATATTGGTATATTTTTTAATGCTATATATAAATATTTATCATCAATACCAAATATATTTTTATATAAAAATCTTTTTTTTGAATTTAATAATGGATAAATCAAAATATAAATTAATTTTCTAATTTTTTCCGGTAATCCGTATAAAAATTTATATTTATGTATAAATAACTGTTTTAAGTATCCTTGTGATATTTCATCTCCTCCCATCCCTGTAATTCCTACTTTAAAATTTAATTTTTGTGCTAAAGAACACATTTTTATTACTGAAATAATAGTTAAATTATCATTAGGTTGCCCGTAAAGTTTATTTAATAAATTACTATTAATTTTTTTTTTACTGAAATTTGAAGTGTAATGTGGAAGGTTTAAATATTTAGCAATCGCTTTAGCTTTATTAATCTCATTATATTGTTTTTCAAAAGAAACTGATATACAGGGAATTTTTATATTTAAATCTTTAGAAATAATTGAAGCTATAAGTGATGAGTCTACTCCACTTGATAAAAACAAACATCTTTTTGCATCTGATGTTATTCTCGATTTAACACTATCAATAAGAGTTTCTTGAAAATTATCAATAAACTTTTTATTAATTTCTTTTTTATTTAAATTATTTAAATTACTTTGCTTCCAATATTTAATTTTATTAACAATCTTTCCTTTATTAATTTTAATTAATGTTGATGGTTCTAACGAATAAATATTTTTATATCCTGTACTTGGACTAGGTATGTAACCTAA
>sequence27
GTCTAAAGAATAATCAGATTAATTGTTTTGTCCTTCTTTTCAATTAAATATTCTAAATAAGTGAATATAACTCTTTTTCTATTCTTAGTCTAAATTTATGTAATTCTCATCAGACAGCCACTTCATCAAATCAATATCACTACACTTTTTTGAACAAAATGGAGTAAAAGGATCCGATGACCATTTTTTGCAAACTGGGCATTTTGTTTTAATTCTATTTAACTTTGTGATTTTACTTTTAATGGAATTTTTTATTTCCATCTAAAAGTAATTCTTCCTTTAGTTAAATCATAAGGAGTCATTTCAACATCAACTTTATCTCCAACCAAAACTCTAATTCTATTTTTTCTAAGTTTTCCAGATGTATGAGCTAATACTTCATGATCATTTTCTAATTTTACTTTAAACATAGCATTCGGTAAAAGCTCTTGTACTATACCAGTAAATTCTAGAGATTCTTCTTTAACCATTTTTATTTTTCCTTATATCAATTGATAAAGCATGCCCATGTAATCCTTCTGCTTCAGCTATTTTTATGGCTGAACTAGATAATAATTGTAAGCTTTTTTTATCACATTTAGTATAAGTTATTTTTTTTAAAAAATCTATTACGCCAAGACCTGATGAAAATCTTGCAGTTCTACCTGTTGGTAGAACATGATTTGGACCAGCAACATAGTCTCCTATAGCTTCAGGAGTAAATCTTCCTAAGAAAACAGATCCAGCATTTTGTACTTTATTAAAAAGTTTTTCTGGATTATCTATAGCAAGTTCTAAATGTTCAGGAGCTAACTGATTGATTATACTATAACAATTATTAATATTTTTTAGAATTATTATTTTACCATTCTTTTTCCAACTAACTGAAGCTATGTCAGATCTTGGTAATTTTTTCAAAATATTATTAATTGATTTAACAACTTCTTTTGCAAAATTAACATCATTAGTTAATAAAATTGATCTAGAATTTTTATCATGTTCAGCTTGTGAAAGCAAATCTGCTGCAATCCAATTAGGGTTATTTTTTTTATCTGAAACAACTAAAATTTCAGATGGCCCAGCAATCATATCGATACCAACTTCACCAAAGATTTTCTTTTTTGCAATAGTTACATATATATTTCCAGGACCAACAATTTTATCTACTGGGTCTATGCTTTTTGTTCCAAAAGCTAAAGCAGCAATAGAATGAGCCCCTCCTACTCTATAAATTTTTTTAATTCCGACAATTTGAGCTGCTTTTGCAATAATCGGATTCAAATTTAAATTTTTTTGTGGCATAACCATAACAATTTCTTTAACACCTGCTACAATTGCTGGTATTGCATTCATTAAAATTGAACTTGGATAAGTAGCTGTTCCTCCTGGAACATATATTCCAATTGAATTAATTGGTTTCCATCTTGATCCTAATTGTACACCTTTATTATCTTTATATTTATAATCTTTAGGAATTTGAAATAAATGAAACTTTTTAATTCTTAAAGCTGAAAAATTCAATGCTTTTTCAATATCTTTAGGACACTTTTTTGCATATTTATTGATTTCATTTTTATTTATTACTAAATTACTTTTATTTAAATTACATTTATCAAATTTTTTCGCATAATTAAATAAGGCTTTATCCCCCTTAGTTTTTATTTTTGAAAAAATTTTTTCTATTTCTTTTTCAACCTTAAGATTTAAATATTTATTTTGATTTATAATATGGTTTATAAATTCTTTTATTTCTTTATTATTTTTAATAATTATATTTCTCACAATATTTTTTCCTCAAAAGAACCTATTAATTTATTTATATCTTCTGATTTAGTTTTTAAAGAAATACGATTAACTAATAATTTTGAAGAAACATCACATATTTTTTCTACAATTTCTAAATTATTTTCTTTAATTGTTTTTCCAGTCGAAACTAAATCAACAATCATTTCAGAAATTCCTAATTGTGGTGCAATTTCAATAGAACCATTTAATTTTATACATTCAACTTGCTTACCTTTACTTTCAAAAAAATTTTGTGTAGCGATAGGATATTTAGTAGCAATTTTAACGGTATTATTTATATTTTTAAAATCAAATTTCTTATTCTTTTTTTTTGCTAAAAACATTGAGCATTTACCTAAATTTAAATCAACTGGAGAATAAATTTCTTCATAATCAAATTCATTTAATACATCGCTACCAACTATACCGAGATCTGCACCACCAAAAGCAACTATTGTTGGAACATCAAAATTTCTAACTTTAGTAAAATAAAAGTTTTTTAAATTTGATTTAAATAAAAGTTTTCTGCTTTCATCTTCAAAAAAATCTTTTTCAGGTACTATTTTTAATGAAGATAATAATGAAACCACTTCTTCTGTTATTCTACCTTTTGGTATAGCTAGTGTTATTTTTGAATTTATTTTCATATAACTACTCTGTTTATGTTTGCTCCACATAATTTAAGTTTTGTTACAATATCTTGATAACCTCTATCTATATGATAAACCCTGTCAATATTAGTTTTGCCATTTGCAGCTAAACCGGCCAAAACTAAAGAAACAGAGGCTCTTAAATCAGTTGCCATAACTTCCGCACCTTTTAATGATTTAACTCCTTCAATTACAGCCAAATTACCTTTTAATTTAATTTTAGCTCCCATTCTCATAAGTTCAGGAGCGTGCATAAACCTATTTTCAAATATATTTTCAGTTATAATTGAAGTTCCATTTGAAATTGTCATAACTGCCATTAATTGTGCTTGTAAATCAGTAGGAAAACCTGGATATGGCTCAGTTATCACATCAATGGGATTAATAGAATTTGATTTTTTTTTAAAAATTATACTTTTTTTTGTTTCTATATAATCTACACCTATATTCTCTAATATATTTAAAAAAAATTTTAATTCTTCTTTTTTTGCACCTAATAATTCTATTTCACCTCCTGCTATAGCTACAGCTAATGCATATGTTCCAGCTTCTATCCTATCAAACATTATTTTATGATTTGTTTCTTTTAATTTTGTAACTCCTTCTATAAGAATTTTATTTGTGCCTAAACCTTTAATTTTTGCACCCATGGAAATTAAACATTTTCCTAAATCAACAATCTCTGGTTCTTTTGCAGCATTATAAATTTCTGTTATACCTTTTGCTAAAGTAGCAGCCATCAAAACATTAACAGTAGCTCCTACAGATATTTTAGGAAAAACGATTTTATTTCCTTTTAACCCATTCAATGCTTCTGCATATATATAACCTTTTTCAATAAATATTTTTGCTCCTAATTTTTCTAGAGATTTTAAATGAATATCGACTGGTCTTGAACCAATAGAACAACCTCCAGGCATTGAAACTATTGCTTTTCCTGTTCTTGCTAACAAAGGACCTAATACAAGTATTGAAGCTCTCATTTTTTTTACAAGATTATAAGGAGCTTTATTGTTAGTAATTTTTTTTGCAATTAAAGTAAATTTTTGTGTATTTTTAAAATTTTTTAATTCTTTAATATCAACTCCAAATGAGGATAAAAGTTCTAAAAAAAAGAAAGTATCTGTTAATTTGGGAACTCCTGAAATAATAATCTTTTTATCAGTTAATAAACAAGAAGCCAAAATTGATAATGAAGAATTTTTAGATCCACTTATTTCAACTTTACCAAAAAGAGGCTTGCCCCCCTGTATAGATATTTTTTCCATTTTATTTAGATAGTGATTATTAGAGTTTTGGCAATGTTACACCTTTTTGTCTTTGATATTTACCTTTTCTATCAGCATAAGAGGTTTCACACTCTGTATCTCCTTTTAAAAAAAGAAACTGACAGGCTCCTTCATTGGCATAGATTTTTGCAGGTAAAGGAGTTGTGTTAGAAAATTCTAAAGTTACATGTCCTTCCCATTCTGGTTCTAAAGGAGTTACATTTACAATTATTCCACAACGAGCATAAGTTGATTTTCCAAGGCATATAACCATTATGTCTCTGGGAATTTTAAAATATTCAACTGTGCTTGCTAAAGCAAAACTATTTGGAGGTATAACACAAACATCAGTTTTTCTATCAACAAAACTCTGATTAGAAAAATTTTTTGGATCTACAACTGCAGAATCTACATTAGTAAATATTTTAAAATTATTAGATACTCTTGCATCATAACCATAAGATGAAACACCATAAGAAATACCTTCTTTTCTTATTTGACTATTTTCAAATGGCTTAATCATTTTTTTTTCTTTAACCATTCTTTTAATCCATTTATCGGACATTATTGCCATATTATTTTTTTACTTTTCTCCTTAATAAATTTTCTCTTAATTTTAATTCTAATTTCTTTTGTTCTTTTAAAAACTTTTCTTTTTTAGATTTATTTTTTATAATCATTCGATTCTAAAATTTAAACTTTTACAAGATTATACTTTTTCACAATATTTTTAATATCTTTTTTTTTACCATTATGATCTTTATTATAAATAAAAACATCTTCACTTCTCATTTTTTTTAAAATCGTATTTTTTATTAAATCTTTTCTAATAAAAAAAGCATTTATACCTCTACTATCCACACAAACTAAAGTGTACCCTTTTTTAACTGATATTTTTTCTAAAGCTTTAAGAGAAGCTCCATAAAAAAATCTTTTTTCATTTTTATTATTCCAAATAAATTTAGAATTATATGGTATTGTTAATGGATAATATTTTCCAAATGAAGAGTTGTATTCTAAAACAACTAATCTTGGTTTGATAATATTAATATTTTTCCAAATCCAATAATCATTTCCATCAACATCTAATGAAAAGAAATCAATTTCTCCTGTTATACCAGTTTTTTTTATTAATGAATTTACATTTTCAGCGTCTATAAATTTATTTAATAATATACATTGATTATTTTTAATCCTTTTTTCTTGTAAAAATATTTTTCCATCTTTATAAGATTCTTTACATCCTTCAAACTGAGCACCAGTCCAATTTAAATTTAATAATAAATTTGTAGTATTACATTCAATTGAGTCCTGAACACCTATTTCAATAAAATTAAATTTTTTTACTCCAATAATATCAAAAATCTTCATAATGATACCATCTTCTCCATTTTGAGAAAAAATTTTACATTCGTGGATTTTTAGATTTTTTTTTTTTGAAACTAAGTTTTGATATTTAGTTTGAGTTATATATTTTTTTAAACTTTTATTCTCTTCCTCGAGTCGTTTAATTTTTTTTACTATTTTATTACTTAAGAAAAATTTCCTAAAAAAATCTTTAATTTTATTCTTTTTTTTAAACCTAGGATCGTAGTGCAATTTCATTTTATATTATATTAACTTGATATTTTTTAATTGATATGTCAAATATTAAATATGCCGCCATAGCTCAGTGGTAGAGCACACCATTGGTAATGGTGGGGTCGGTGGTTCAACTCCACTTGGCGGCACCGCTTCAACATAAAAATAACTTTAAGAATCAATTAAACTAAAAGGACATTTCACACCACAAGGATATAAAACTCTTGCAAAAGAAATACAAAATTTTTTACAATAAGATAGAATTTTTTTAATAATAAATTAAGAATAAAAAAAATACCTGTAAGCAGCTAACCTTTAAAGCTAGCTACTTACACTTTAATTAATTTTTACTGACTATCCACCATTTGCTGCAGCAAAATCTTTTGAAACCACTCTCCAGCATTCATGAGATCCTTCTTGAGATTTAGTTACTGCAAATTTTCTGCCAGCCTTATCTTCAATTCTATAATCTGATGTATTAAACTTTTTTTTTGTTTTTACATCATAAAATGAAAGTTCTTCAGCCATTTTAAACCTCCTATTTGATTTAAGAGTTAATAATAGATATATTTTACCATAATAGGTTCAAGCCAAAAACCATCTTGACTTTATAAAAAAAACAATATAAAAAAGAACAAAACGTGAACATATAAAAATGAAAATAATATTATATTCTAACACTGTATGTGCAGGATTTCCCTCTCCAGCAACTGATTATTTAGAAGGAGAAATTGATTTAAATAACTATTTAATAAAAAATCCATTAGCTACATTTATAGTAAAATCCCAAGGAAACTGCATGTTACAGGCGGGTATACACTCTGGGGACTTGTTAATTGTAGATAGAAGTATAAAACCTAAAAATAATTCTATAATCATAGCTTCTGTTGAAGGAGACTTAACAGTAAAGCGTATTAAAATTTCAAATAAGCAATTTTTTTTATCTTCAGATAATGAAAGTTATAAAAATGTAAAAATAAATAACGAATCAGATATATTTATATGGGGCGTGGTTACTAAAGTTATTCATAATGTATATTAAAAATAAAAAAAAGACATTTGCTTTAGTAGATTGTAATTCTTTTTATGCTTCATGTGAGAAAGTTTTTAATCCAAAACTTAATAACAAACCTGTTGTAGTTTTATCAAATAATGATGGATGTATTATTGCAAGAACAAATGAAGCAAAAGCATTAGGAATTAAAATGGGAGAACCTTTATTTAAAGCAAAAAAAATTATAAAGCAAAATAATGTAAAAGTCTTTTCATCCAATTATACCTTGTATGGAAGTATGTCAAATAGAGTGATGAAAATACTAGAGCAATCATTCCCTAATATAGAAATTTATTCAATTGATGAGGCTTTTATGGAAATATCTAATCTTAAAAAAATTTATAATTATTCTAAATATGCAAAAAAAATAAGAAAAATTATATTAAAATGGACTGGTATCCCAGTAAGTATTGGAATTGGTGAAACTAAAACTCTTGCAAAAGTTGCAAATCAAATTGCTAAAAATGATCCAAAAATCAATGGTATTTTTGATATTACAAAAATAAAAAATAAAGAAAAAATTTTAAAAAAAATAAAAATAGGGAAAATATGGGGGATTGGAAATAAATTATCTAAATTTTTAATAAAAAATAATATTTACAATGCTTACGAATTTATACAACAAGATAATAGATGGATAAGAAAAAATATGAATATCTTAGGTTTAAAAACAAAAATGGAGTTAAATGGTATATCTTGTTACGAATTAGAAAATAATTTCAAACAAAGAAAAAGTTGTTGTGTTTCAAGATCTTTTGGAAAAAAAATAAGATCTCTAAAAAATATGCAAGAAGCTGTTTCTACATACATAACTAGAGCTGCGGAAAAAATAAGAAATGAAAAACTAGTATCAAATAATATAAATCTTTATATTAAAACTACTATATTTAATAAAAATCCTAAAGAATACTATTCAAATAGTATTTCAATCCCTTTAGATTATCCCACAAACAATACTATTAAATTAAATCAATTAACTTTAATTGGTTTAAATAAAATTTTTAAAAAAGGATACTTATATCAAAAAGCTGGGGTAATTTTATCTGGATTAGAAAATGAAAATTCTGATTTAAATTTATTTGATAAAGATAACAAAAAAAAAAATTTCTTAATGAATGCTTTTGATTTAATAAATAAAAAACATGGAAAAAATTCTATTCGTATTGCCTCTGAAGGAATAGAAAAAAGATGGCTAATGAAAAGAAGTAGATGTTCATCGAACTTTACAACTGATATACGAGATTTATTAAAAGTTAAATGTTAAATAATTCATTTTAAAATTAATTTTATTTTTTTTAAAACATTATTAACAGAAAGTGAATTCATTAAATTTTTTTTTGTATCCCAATTAAAATCTTTCTTTCCTGTTAATTGTTTAAAAGTTTTTTTCGTACGAATATAATATGCTTTGCTTCCTTTAGGGGCATAACGATTTTCTAAACTAGGTCCAAATAATCCTAAGGTAGGTATCCCACTAGCTGATGCTATATGCATTAAACCAGAATCGTTACCAATAAAAATTTTACAATTTTTTAAATAAGCAGTAACTTCAATTAAATCTAATTTTCCACATAAATTTCTTACTCTAGATTTTTTAATATGTTTAATAATTTTTTTAGTATGCTTTATATCATTAGAAGATCCAAAAAAAATAAAATTCTTTTTTTTCCCCAATTTTTTTTCTTTAGAAAGAAGATTAATTAATTTTATAAAATTTTTTGCTGGCCAAATTTTTGCTTTCCAATTAGCTGAAGCGGCAATAGCAATAGGATTATCTAATTTTAAAAAATCTTTAGAAACTTTTTTTATATCATTAATTGAAATTGGTATTGAAGGCAAAGGTAAAGATTTAACTTTCATTAAAATAGCAAGCTCATCTAATCTATGAATATTTTTATTAATTGATTTATAAATATACTTTTGATCATTTAATAAAATATAACTTATAACTGAACCTCTTAAATCAATAATAATATCCCATTTATAATAAAAAGTATTAAGCCAGAGTTTCAGCCAATGAGTTTTAAAAAAAAATTTTATTAAAATAAAAATTTTTTTAACATTTTTAAAATTTTTAAATAATGAAGATGCACTTTCTCCAGTTGCAATATATAAAGAAGAAAAAGGAAATTTATTCTTTATATGATTTAAAATACTAGTAGATAAAACAGCGTCGCCTATTCTAGTTGATGTGATAAAAAGTACTTTCATAAAAATTAATTAACAAGTATTTTATACTTATAATCTTATGTATTACTGTAAACTTAAAAAAAAAAAAATAATCTGTATAAAAGGTAAAGATGTAACTCAATTCTTACAAGGGATTATTACAAATAATATAAATAAATTAAAAAGTAATCATGTTATCTATTCAACATTATTATCACCCCAAGGTAAATTATTACATGATTTCTTTTTAATTAAAAATAATTTAGAAGAAATTTATTTAGATTCTCCCAAATATAATTATAAAAAATTAAAAGAAAAATTAAATTTATATAAATTAAATAGAAAAATCGAAATTAATGAAAAAAAAATTTATTCTTATTTTTTAATTTTTGGAAAATTCAATAATAAAATATTTAAACTTACAACAAAATTGGGTCAATATAAAAAAATAAATACTATGATGATTTTTAATGATCCAAGAAATGTTAATTTAGGATTAAGAATTATTTGTAATAATAAAAAAGATCATAACAACTTAATTAAAATAATTAAAAGTTTAAAATTAAAAGAAAACTTTAATGAATATGAAAAAAAAAGAATTTTAAATTGTGTGCCAGATATAAAAAAAGATAATTTATACGATAAAGCCTACTTGTTACAATATAATTTTGAAAATTTAAATTCTATTTGTTGGAAGAAAGGATGTTTTGTAGGTCAAGAAGTTACAGTCAAAATGAAAAATAAAGGATTATTAAAAAAAAAAATTTTTGTTATTAAATTTTTAAATAAAAAAAAATTTCTAAATGATGAAATAAAATATAATAAAGAAGTAATTGGAAAAATAACATCAAAATATGAAAATATAGCTCTTGGTTTATTAAAAAAAGATAAAATAAAAAATTTAAAAAAAGAAAAAAAAATTTTAATTATTTAAAAAAACTTTAAAAAATCTAAAAAAGGTGATTTTTTATTAACATTAATTTTTTTTAATTTTTTAATACCAGTTCTTCCAAATTGTTCTTTGATAGACTCTTCTAACCAAAAAATACCTCTAATTTCTTTTTTTTTATTTTTAAAATTTAATTTTTTTTTTTGTTCTTCTATTTTATCAATTAAATTATTTATATTTTTTTCTTCTTGTGAAGAAATTAAAATTATAGGAATATTTTGCTCTCTATAATTATTATTAATTTTTATTGAATTTAAAATCTCATTATGAGTATTAATTGCAATATCTCCTAAATCTGATTTAGTCACAGCTATAATATCAGGAATTTCAACAATTCCTGCTTTCATAAATTGTAATGCATCTCCTGAACCTGGTTGTACACAAAATAAAACAATATCAGAAATGTTAGCAATATCTGTTTCTGATTGTCCTACCCCGACAGTTTCAATTATTGTTAAATCAAATAATGCATTAAGTAAAAAGGCTGATGATAAAGTAATTGAAGCAAGACCTCCTAATTTATCTTTTGCAGCCATTGATCTAATAAAAATACCATTATCATTAGGATTGGTTTCTAATCGGATACGATCACCCAATAAGGCTCCTTTAGTTTTTTTTGATGATGGATCTATTGCTATTATAGCTATAGTTTTATTTTTTTTTCTATAATAATTTATTAAATTTTTAATTAAACTTGATTTACCTACGCCTGGAGGTCCTGTTATTCCAATAATATTTCCATTTTGAGATTTGTATGCTTGAGTTAATAAGGAAAGACTATTTTTATCAAAAGGATTTTTTTCAATCTCAACTAAAGCATTTGCTAATTCTGTTTTTCCACCTTTTTTAATTTTATTTAAATTCATAAAAATTATTTATGTATTTTTGAAAAATCTGCATATTTTTTTAATATTTTTAAAACATTATTTAAAATAGAAAGTCTATTATTTTTAATTTCTATATCATCAACATTAACCATCACATTATCAAAAAAATTATTTAATGGTTTATCAAAATTTGAAATATTTTTTAAAACATTTTTAAAATCATTTTCTTCATTATCAATTTTATTATTAATATTATTTAATTCTTCAACTAAAATTTTTTCATATTTATTTTCTAATAATTTTGTATTTATCATATTTGGTATATTTGTTTTTTTTTTTTCAATTGTTACTATATTTAGTGCTCTTTTATTTAATTCAATAATCCTTTTTCCTTGTCCATTAATTACAAATTCATTTAAAGCTATAAATTTCTTGTAAAGAATTAAAAAATTACTATTAAAAAATTTTTCAGAAAAAAAGGCATTTACAATGTCTTGCCTGATAGTTTTAGATTTTAAAAAAAACTTAAATCTATCAATAAAGAAAAGTATTAAATCCTTTATATTAATTTTATTATTATTTTCTAATTTATATTTATTTATTATATTTTCATCGAAAAATTTTTCTAAATTAATTATTAAATTATTTTCGATGATTATTCTTAAAATACCTAAAGCTGATCTTCTTAAAGCAAATGGATCTTTTGAAGAAGATGGCATTTCATCTATTAAAAAAAAACCAAGAAGTGTGTCAAGTTTATCAGAAAGTGAGAGTAAAATACTTAAATCATTTTTAGGGCATAAATCATTTGGCCCTTTAGGTAAATATTGCTCTTTTAAAGACAAACAAACATTTTTATTATTTCTTTCTTTTTCAGCAATATACCCCCCTATAATACCTTGTAATTCTGGGAATTCTCTTACTAAACCAGTAGTTAAATCAGACTTTGATAATTCAATTGATTGAGATAATTTTTTTTTATCAACTTTTAGATTTAATTGAGATACTAAATTTAAAGAAAAAAAATGCATTCTTTCAATTTTATCTTCTACAGTTCCTAATTTTTGATGGAATTGAATATCTGATAATAATTTCTTTCTTAAATTTAAACTAGTTTTTAAATCAGAATGCCAATAAAATGATGCGTCATCAAACCTTGCCTCTAAAACTTTTTCATTATCTGAAATAATTTTTTTTTGAAATCTTTTTTCAACAAAATCTACAATAATTACAAAATAAGAACTTAAAATATTATTTTTATTAAATAAAGGTATGAAATTTTGATCATTAATCATCACCACTTCTAGTAGTTCTTGTGGTAAAGACATATATTTTTTATTTATTTTTCCAAATAAAATATCTGGATATTCTGTTAATCCTGCATTCAAAGAAATTAAAGAGCTATGATTATTTTTTAATAAAGTTTTTTTTCTTTTACAAAAATTAATGATTTCTTTTTTTATTTTTTTTTCTCTTTTTGCTTGCTCTATAATAACTTTAAAGTCTAATAATTTTTTTTTATATTCATCATAACTTTTAAATTTTATTTCTTTTTCAATTTTTTTATGCGTCACGCTAAAAGAATTATTATTTATTGAATATTTTTCTAAAAAATCTAATGGTATAAATTTATTATCAAAAAAAAATAAAATATTTTTAATTGGTCTGCCCCATTTAAAATTTTCATGTCTCCATTTCATAGATTTTTTCCAATTTACATTTAAAATAATTTTTTCTAAATTATCCTTAAAGATTTTCTCAGTTTTTTTTCCCTGAATATTTTTTTTTACAAAAAAATAACTTTTATTGTTTATTTCTTTTTTTATTAATGTTTCTCTAGAAACTTGAAATTTTTTTACAAATCCTTCTATTGCTTCATCTGGGGCATCTATTGGAGGCCCTTTAATTTCTTGAACTGAACCTTTCTGTTCATATATCAAATTTTCACATTTTAGAATTAATCTTAAAGGGGTAAATTCAGAAGATATTTTTACTCTTTTATTTAAAGATAAATTATTTTCAACAACTAATTCAATTATTTTTTTTTTTATTTGTTCTAAAGCATTCTTTTGTAACCAATATGGTACTTCTTCAGATAATAATTCAAAAAATACTTCTGACATATTTAATTAAGATTCTTGTTTTATATATAATTCACAACAACTTTTTACCAAAGTTCTAATTTTTAAAATATATGTTTGTCTTTGAGTAACTCCTATTACACCCCTAGAGTCTAAAATATTAAAATAATGACTAGCTTTAATACAATTTTCATAAGCAGGTAAAGGTAAGTTATTTTTAATTAATTCCTTACATTCATTTTCAACAAAATCAAAACATTTAAATAAATATTTTGTGTTTGCTAATTCAAAATTATATTTGGAGAATTGTTTTTCTGAATCTAAATAAATATCTTTATATTTTATTAATTTCTTTTCCTTTTTATTAAAATTCCACACAATATCAAATACACTATCAACTTTTTGAATAAATTTTGCTAATCTTTCTAATCCATATGTGATTTCAACAGAAACAGGATTACATTCAATTCCTCCAATTTGTTGAAAATATGTATATTGACAAATCTCCATACCATTACATTTGACTTCCCAACCTAAACCTGAAGCGCCTAATGTTGGACTTTCCCAATCATCTTCTTTAAATTCAATATTATTTTTTTTTGAATCAATACCAATAGATTTTAAACTTTTTAAAAAAACATTTTGTACATTTTTGGGAGTTGGTTTCAATAATACCTGAAATTGATAATAATGTTGCAATCTATTAGGATTTTTACCATATCTTCCATCAGTTGGTCTTCTTGTAGGCTGAACATAAGCTATATTTCTATGCTTCTTCCCAAGCGCTCCTAAAACAGTCGCAGGGTGAAAAGTTCCCGCACCAACTTGCAAATCTATTGGTTGAATTATGGTACAATTATTATTACTCCAAAAATTTTGAAGATTAAATATTATATCTTGAAACGATAAATCATTTATTTTATTAGAAACCATATCTTCTCCAGATATCTCTACTTTCCATATATGTCATAATATCATTAATAATTTTTTTTGTATCTACTAAGTCTTTAGAATAATAAGATTTAGAAAAAATACTTTTTAAAAAGGATTTTTTGGGTTTTATGAATATATATTTAATATTATTTCCAAATTTTCTTTCTATAATTGTTTTTAAATCTCCTATTCCATCTACCAAACCTAATTTAACCGCCTCTTTTCCAGCCCAAAAACTCCCAGAAAATATTTCTTTATTTTCTTTATTAATTTTTTTATTTCTACTTTTTTTAACTACATCTATAAAATTTCTAAAAATTTCCATTTGTATATTTTTTAATTTTTTAATATCTGATAATTTTTTTTTTTGAAAAGAATCTAAAATCGATTTATTTTTACCAGTTGTAAAAATTCTTCTTTCAATCCCAAACCTTTTTATTAGTTTATCAAAACCAAAACTTGCATAAATAACTCCTATAGATCCAATGATAGAATTCTCATCTACATATATTTCATTTCCAGCACAAGCAATATAATATCCTCCCGATGCGGCAACATCCTCAACAAAAAAAATGACTTTAGTTTTGTTCTTTTTTGAAAGATGTTTAATTTTTTTATAAATAAGTGAAGATTGAACAGGTGAGCCTCCAGGTGAATTTATAATTATAGCTACAGCAGTAGAATTTTTAATTTTAAAAGCTTTTTCAAGAAAGTTTTCAACTGAAGATAAAGTTACTCCGCTTCTTAACCCACCTATATTTCCAATTATTCCAGAAATATAAACTACAGGTACTATTTTTTTTTTTTTTAGAAAATTCAACATTAATACATAATATAAACTTTTTTCATTGAGAAAATAAAAAAAAAAACTAATGTTATATCGTGCCTCTTATTTATAAA
>sequence28
AAAGATTTTCAACTTCTTCTGTCAATTTACAAGCAATATCTAAAGTTTTTTCACCAACAATCAATCCATGATTTGCCATTAAACAAGCATTCCTACTTTCTAATGCTTTTATAACATTTTTAGAAAGCTGTTCAGTGCCAAAAGTTGCATATTTTGCACATCTAATATTTTCTCCTCCAGTTGCAGCTACCATGTAGTGAAAGGAAGGTATATTTTTATTCATACAAGCAATAGCTGTAGAAAAAGTTGGATGTGTATGTATTATTGCAAAAATATCTTTTCTTTTTAAATATATGTCTCTATGTATTCTCCACTCGGTTGAAGGTTTAAATTTATTTTTATAAATTCCATCAAAATTCATTTGAACACAATTTTTTTCTTTTAATTTATTGTTAGGAATTGAAGAAGGGGTAATTACAAAACCATTTGTTATTCTATAACTTAAATTTCCAGATGAGCCACGATTTATATTTTTATTATTTAAATATCTTGTTATTTCTATTAATTTTTTTTTATTCATTTTTTTTAAGAAAAAATTTTTTTTATTTCATTTTTAACAGGTTTATAAATTCCTTTTTCAGTTATTAATCTAGTTACATATTTTGCTGGAGTAACATCGAATGAATAATTACTAACTTTACTTCCTTTTGGAGTAATTCTAATTTTTGCATTCTTTCCTTTTGAATCTAAACCCGTTATATGAGTTAATTCATCAGAATTTCTTTGTTCAATAGGAATATCTTTTAAATAATTTTTTGATTTTAAATCAATTGTATTAGATGGCAAAGCAACATAAAAAGGGATTTTATTATCATATGCTGAAAGAGCTTTTAAATAAGTTCCTATTTTATTGCAAACATCTCCATTAGCTGTAGTTCTATCAGATCCAGTTATACACATATCTACCATTCCATGTTGCATAATATGTCCGCCAGCATTATCAGTAATTATTGTATGAGGTACTTTCTCTTGTAAAAGTTCCCATGCTGTTAAAGAGGAACCTTGATTTCTTGGTCTAGTTTCGTCTACCCAAACATGTATCTTTATTTTTTTTCTATGTGCTAAAAAAATTGGTGACAAAGCTGTTACCCAATCAAAAGTAGCAAGCCAACCAGCATTACAATGAGTTAAAATATTAATAGTTTTATTCTTTTTTTTTCTTTCTATTCTACGAATAATTTTTAATCCATTTTCTGCAATTTTTTTACAGCATTTAATATCATTTTCACTAATCTTTTCAGCAATTTTTTTTGACACTTCAGATCTTTTTAGAAATTCCACATTTGATAATTTTTTTTTCATAAATTCTAAAGCCCATGATAAATTTACTGCGGTTGGCCTAGCATCTTTTAAAAAATTAATGGAATATTTCAAATTTTTATTACTAGGATCTTTTATCATAGATAAATATATTCCGTATGCAGCTGTAACACCAATAAGTGGGGCTCCTCTAACAACCATGTTTTTTATAGCTTTTTTTACATCTTTAATATTTTTTAGATATAGTAATTTAAATTTATGAGGTAATAATCTTTGATCAATAACAACTACTAATGATCTTTTTTTATCTAACCAGATTGATTTATAATTTTTTCCCTTAACTCTCAATTTTGCTCCAAATATCTTTTTAAAATCAAATTTAATTTTTTTTTTGTTTTTTTATTCCAGTTCTTTTTTTGTGTAATTATAGATTTATCAAGAATATTTTCTGTAGGGTCTTTTTCTTTATTTAAATATTTTGGAAGAATATTAATTACGTTTTTTACCAAAGATTTTGCATTATTTGAATTCTTATTCAATGTTTCAATAATTTGATTTATATCTACATCATCATGTTTACTATGCCAACAATCATAGTCCGTGACCATTGCAACAGTTGCATATCTTATTTCTGCTTCTCTAGCTAATTTAGCTTCAGGCATATTTGTCATACCTATTACATCAATCTTTTGTTTTCTATAAGTTTCTGATTCTGCTTTTGTCGAAAATTGTGGACCTTCCATTGCTATATAAATTCCTTTATTTTTATATTTTATTTTTAATTTTTTTAATACTTCAACGCATGCATTTCTAATAATTTTTGATGTAGGGTTTGCCATTGGAACATGAGCAACTATTCCCTCTTCAAAAAAAGTTTTTTTTCTTAAAATAGTTTTATCTATAAATTGATCTACTAACACAAAAGTACCAGGTGATAAATTCTCTTTTAAAGAACCACACGCAGAAAGTGAAATTATATCTGTAGCGCCAAGTTTTTTTAAAGCATAAATATTTGCTCTATAATTAATTTCGCTTGGATTTAATATATGAGATCTTCCATGTCTTGGTAAAAATAAAACTTTATTATTATTAATAGTTCCTATTAAAATTTTATCTGAAGGAGAGCCCCATGGAGTACTAACATTTATCCATTTTTTATTTTCTAAATTTTCAATTTGATATAAACCACTTCCACCAATGAATGCTAATAAGAAATTTTTTTTCATATTATTTATATTTAAATTTAAAGTAATAATATATGAATCTTTAATCTTTTTTTTATAATTATTTTATAAAGAAAAAAAATTTTTTGTGATGTAATTACTTCTCTAATCTAGACCATATTTCTTTCATTGTAACGTAAAGAAGTAAAGTAAGCACAATTAAAAAAAGTAAGACTTTTAATCCTAATGATTTTCTTTTTTGTAATTCTGGCTCTGCCGCCCAATTTAAAAAATTTACTGTATCATAAGCTAATTGATGCAAATTAGCATTTGTACCATCAATATATTCAATTACATCATCATATAATGGCGGCGGCATTGCTATAACTTTTCCATCGTGATAAAGATTATAATAAAGTCCATCAGGTAATTCAAAATCTTTAGGTAGATTTTCTTCATAGCCTGTTAATAAAGAATAAATATAATCTGGTCCATTTTTCATTGATTTTGTTAATAAAGATAAATCTGGAGGATACGCTCCACCAAATGCTGCTTTAGCTTCTTGTTTATTTTTATATGGAGATACAAAAGTATCGCTAGGTTCACCTGAACGCATAAACATTTCTCCTAATTCATTAGGACCATCTAAAATTTCAAAAGTTTCAGCATATTTTTCAATTTGTTCATAACTGAATCCCAAATCTTTTAATTCTCTAAATCTAAGTCTTTTCATTCCATGACAAGAAGAACAAACTTCTTGATAAATCTGTAAACCTCTTTGTAATGAAGAATTATCATATCTCCCAAAAATACCTTGAAAAGTCCAATCTTGTTTATTTAATTTAATTTTTTCCTCAGCTAAACAATTATTTATAAACAAAAAAATTGCAAAAATATAAAATATATTTTTCATATTCAAAATTTATTTCCTTTTAACCTTTGTTTTTTCAAAAATATTTAATGGTAAAGGTTTTGTTTTTTCAAAAAAACCCAACACTGGTAAAATAAATAAAAAATGTAAAAAATAATAACTAGTACAAATTCTACTCATAATTAAGTAATGACCTTCAGGAACTTTTGAGCCTAACCAGCCAAGTACAATAAAATTTAAAATAAATATCCAAAAAAATTGTTTATATATAGGTCTGAATCTACAGCTTCTTACTTTACTTGTATCTAACCAAGGCAAAATAAAAAGTATTAAAATTGAACTCAACATTGCAATAACTCCTAATAATTTGAATGGAATAGCCCTTAAAATTGCATAAAATGGCAAAAAATACCATTCTGGAACTATATGTTCAGGTGTCACTAATGGATCAGCAGGTATATAATTATCAGGATGTCCTAAAATATTTGGAAGAAAAAAAACAAAAATTGCAAAAATTGTAAAAAAAACACTAAAGCCAAACAAATCTTTGATTGTATAGTACGGATGAAATGGAATTTTTTCTTGCTTTAAAGTTAAATCTATTCCAGTTGGATTATTAGAACCAAATTTATGTAAAGCAATAATATGTAAAAATACAACTCCAACTATAATAAAAGGAATTAAAAAATGAAGTGAATAAAATCTATTTAAAGTTGGGTTATCAACCGAAAAACCTCCCCATAACCAAGTTACAATACTTTCTCCAACTAAAGGAATTGCAGAAAATAAATTAGTTATAACTGTTGCACCCCAAAAACTCATTTGCCCCCAAGGTAATGTATAACCTAAAAAAGCTGATGCGATCATTAAAAGAAAAATTATTATTCCTAACCACCATAAAACCTCTCTGGGACTCTTGTAAGAGCCATAATATAATCCTCTTGAAATATGTATATAGACTATTAAAAAGAACATAGATGCTCCAACACTATGTATATATCTTATTAACCAACCATAATTTACATCTCTCATAATATGCTCTACACTATCAAAAGCTAGATCTGTATGAGCAACATAGTGCATTGATAATAATAAACCAGAAAGAATCATTATTATTAAAGTAATTCCTGCTAAAGAACCAAAATTCCACCAATAATTTAGATTTCTTGGGGTTGGATGATCAACTAATGCTTCTCTTAAAACACTAAATATAGGCAATCTATAATCTAACCATGCAAGTGTTTTATTTTGAAATTTTTTTACCATATATAATTAACCTATTTTTATTTTATTTTTATCCACAAATTTATATTTTGGAACCTGTAAATTCTTTGGTGCAGGACCTTTTCTAACTCTTCCTGAAGAGTCATAATGTGATCCATGACAAGGGCAAAACCACCCATTAAATTCACCTTTGGTATCTGTTTTTTTTTGTCCTGATGGAACACATCCTAAATGAGTACAAACTCCTATAACAACTAGCCATTCAGGGTTTAAAACTCTATCCTCATCTTTTTGAGGATCTTTTAAATTATTTAATTGAACATTTCTTGCTTCTTCAATTTCACTTTCAGTTCTATGTTTTATAAAAACTGGTTTACCTCGCCATTTTATAGTTATTGACGAACCTTTTTCAATATTGCTTAAATCAATTTCCTTAGTCCCTAAGGCTAATACATCAGCAGAAGGATTCATCGAATCTATAAATGGCCAAATAGCTAAAGCTGATCCAATAGTAGCCATTGAAGTTGTTGTTAATTTTAAAAAACTACGTCTATCTTTTTTAATTTTTAATATTTTATTTTTATTAAACAATTATTTTTAATATAAGATGTTCATTATTAAATAATAAGTAATAATAATGTAAATATTTTTTTTTTTAATTAATCAATTTAAAGTTATATGGTTATTCACAAAGATAAACAAAAAGTTGAAGAATGGTTCAAATTTCTTAGAAATGAAATTTGTAAAACATTTGAAGATATTGAAAATAAATTTAAACATTCAAAAATAAAAAATAAACCTGGAAAATTTAAAAAAAAAAAATGGTTTAGAAAAAATGGAGGCGGTGGGGAAATGGCAATTATGAAAGGGAGAATTTTTGAAAAAGTCGGTGTAAATGTATCAACAGTTTTTGGAAATTTTTCTAAAGAATTTAGAAATAAGATTCCTGGATGTAAAAAAAGTCCAAAATTTTGGGCAAGTGGGATTTCGCTTGTAGCTCATTTACATTCTCCATATATTACTGCTGCACATTTCAATACTAGACACATTATAACTTCAAAATCTTGGTTTGGTGGTGGAACAGATATTACACCAACAATTAAAGATACAAAAAGTATTAAAATATTTCATAATTCATTAAAAAATACATGTAATAACTATCGAAAAAATTCTTATCTAAAATATAAAAAATGGTGTGATGAATATTTTTTTTTAAAACATAGAAATGAAACCAGAGGTGAAGGAGGAATTTTTTTTGATTATTTAAATTCTGAGAATTACGAAAAAGATTTTGAATTCATACAAAATATTGGAAGGTGTTTTTTAAACACTTATCCAAAAATTATTAAAAATAATATTAAAAAAGAATGGACAAAAAATGATAGAGAAAAGCTATTAATTAAAAGAGGAAGATATGCAGAATTTAATTTATTATATGATAGAGGAACACAATTCGGATTAAAGACTGGGGGGAATGTTGAGGCTATTTTAATGTCAATGCCTCCAGAAGTAAAATGGGACTAACAAAACTCTTTTAATTTTTTTAAGCAATCTTTTCTAATTGGCTTAGTTTTATTTTCTAACCACCAATTTTCCACTAATTTTAATATTTTTCCTACAGATGGTCCTGTTTTTATGCCTAATTTAATAACATCTTTTCCAGCTAATGGAAATTTTGGAATTTTACTTTTTTTTATTAAATTTAATAAATTAATATATTTTTTAATTTTATTTTTTATTGGATATTTTGCAAAATCATAAATTAACAATCCAATAAATAAATCTTTGCCGCAAATATAAATATATTTGTTAATATTATGTTCTATTTCTTTGAAATTAATTTTTTTCTGATAAAAAATAATATTTTTTACTTTCTTCTTTTCCAAATTAGATAAATTTAATTTTTTAAATATTTTAAATAAATTTTTTTCTTTGATTATAATTGATAAAATAATACTAAAATCAGCTTCTGTTTTTAATGATGGTATAAATTCTAAATTTTTTAATCTTTTTAAATCACTATTATCAAATATTATATTTTTTAAAACTTTAGTTATTTTCATTAAATTTAAAACTTCATAAGAATTATTAGCTATTAATATTTTTTTAAATTCAGAATAAATTCTCTCAGATGACAATTTTTTAATATTAGAAGAAGTTTTTTTAAAAATTTTAATATACGAATTTTTAATTTTTGCTTTTCCATAAAAACTATAAAACCGAAAAAATCTTAAGATTCTTAAAAAATCTTCCCTTATTCTTTCTTCGGCACTTCCTATAAATTTAATATTTCCATTTTTTAAATCTTTTAAACCATTATGATAATCAAATAAATCACCATCAAAATTACATGATAATGCATTTATAGTAAAATCTCTTCTATTAGAATCAGTAATCCAATCATCGGTAAATTTAACTTTAGCATGTCTGCCATCAGTTTTAATATCTTCTCTTAATGTTGTTATCTCAATTTTTTTTTATTTAAAATGGCAATTATCGTACCGTGACTTATACCGCTTTTTATAACTTTAATTTTTTTCTTTATCAACCTATTAAGAACCTCATTGGGAATTAATGTTGTAGCTAAATCAATATCATCGCTATCTTTATTTAAAATTAAATTTCTTAAACACCCTCCAACAAATCGTGTTTCCTCGTTTTTTTCTTCTAAAATATCAAAAATATATTTAATATTTTTATTTTTTTGCCATTTCTTGATATTAATTTTTTTCATAATTTATTTATTTTAGTTTAATTTCAAAATCTTTGCTTGTTATTGTTAATTCTTTTTTTTTATTTTTTTCGATAAATTTATTAATTAATTGGTAATAAACTGAGCGTGTTATTTTTGCATTAATATTTTTTCTTAAAGCTATATAAGGAATATAATTTTTTTTTTTTAATTTATAAAATAATGGATTTTTTTTACTTAGAATAACTTCTTCATCAATATTAGTTATAAAGATAATACTCTTATTATTTGAAGAGCCTTTAATTATAAAATCTTTTATTACAAAAGGAGCATCTTCTACAGTAATTTTTCCTTTTTCAGCAGGGGTTTCTAAATAAAAATTTTCTTTATTATCTGCCACTAAAACTGAAGAAAATAATTTTATTAATGTTTTTTTTTTAATTAAACTATTATTATAAAACCAATCTCCATTAGAGTTTATTTTTATTGGGAATTCTTTTATTAAATTTTTTTTTTTCAATACTTTTAAAATGAAATAATTATAATTATAAAATAGAATATATATTATGTTAAGAAATTTAGATTCAATTGGTGAATATTTATCATATCCTATTATTAGGTTTATTACTGGATTATTATTAATACCTCATGGATATGGGAAATTATATAAAGGTTTTAATGGTAATTTAGACGGTTTTATTAATTTTCTTGATAAAGAATATTCAAATCCAGTTTTTACTGGATTTTTTTTAGCTTATTTAATTGCATTGACTGAATTTATAGGCGGAATTTGCATTGCTTTGGGTTTTTTCACTAGAATTGCTGCCTTATCAGTTACCATATTTATGGCTTTTGCTGTCGAGCAACATTTAGATCAAGGTTTCTTTTGGACAAAAGAGGGTTATGAATATCCTTTAATGTGGGGAATAATAGCTTTTGCAATTTTTTTGAAAGGTTCGGGAAATTTATCATTAGATGGAAAATTCAGATAAAAAAAATATTCTATGGCTTTTCTTTTTTGTATCTTTATGTCTTATTCTTGGAAATGGATTAGGTGGTTATTTCACATTTATATCTGTTGAAGGTTGGTATCAAACATTAAATAAGCCGAATTTTAATCCCCCTGACTGGATTTTTGCTCCTGTTTGGACAACTTTATATATATTAATGGGAATTTCAATTTGGTTAATTTGGAAAAAAGAAAAAAGTAAAATTCGAACTATAGCAATTATAATTTTTTGGCTTCAACTTTTTTTTAATATTTTTTGGACATTTCTTTTTTTTGGAATTCAAAAAATAAACTATAGTTTAATAGAAATATTTTTTTTAATATTTTTAATAACAATAAATATTTTTTATTTTTTAAAACTTAATAAAATTGCAGGATATTTATTAATTCCATATCTATTATGGGTTATTTATGCATCTATATTAACTTATAATATTTGGATTTTAAATTAAACATGGCTGGGGCGGCAGGATTCGAACCTGCGAATGCGAGTACCAAAAACTCGTGCCTTACCACTTGGCGACGCCCCAATAAAAAAAAATATTAATACAGAATTATATTAAAAAGTAAATTAATTCAAAGTTTAACTTTTAAAATTATAAACTCCTGACCACCAATTAGAATAACTTTTATTTAATATATGGCTAGCATTAATAGCATCTATTTTATTTTTAAATAAACCAAAGACTGTAGGCCCACTTCCAGTCATACTAAAAAAAAAACAATTTTTTGTAATGCTAAAAAAATCTAAAATATCTTTAATTTCAGGAAGTATTTTTATAGAATATTCTTCTAAATCATTTCTTTGTTTTAAAATCCATTTAAAAAAATTTAATTTGTTTAAATTAATTTTTGTCCTTCTAAAATTATTCTTTTTATTGTAACTTTCAAAAACTTTTTTTGTGGAAAGTTCTTTCTTTGGATTTATTAATAATATATACAAAGAAGGAATTTTAGGAGCATTATCTAAAATATCACCATAGCCAGAAAGAAAAGCGTTTTTATTATTTAAACAAACTGGAACATCCGATCCAATTTGCATCGCAAGTTTTAACAAATTTTTCTTCTTAATTCTATTATTATTTAAATAATTTAATCCTTTTAAAATAGCTGCAGCATCTGCTGAACCTCCACCTAATCCAGCTGATACGGGGATATTTTTTTTTAAAAATATTTTATATTTAGTTTTTAAATTTAAAAATTTTGAGTAGATAGTAAAAGTTTTTTTTATAATATTATCACTATTTTTTAAATAATTTTTAAAAGGACCTTCAATTTTTATTGAAAATCTTTTATTTTGATCAATTTTAATCTCATCATAAAGATTAATAAAACAAATCAAACTTTCTAAATTATGCATATTATCTTTTGTTTTGTTATAAACATTAAGAGATAAATTTATCTTTGCATAAGCTTTAGATTTAAAAGTTTTTTTAATTATCATTAAATTAAATGAAATTTAACTTATTTGAATCAAAATTTTCTATCTTTTTTTTAATTTTTTTTTCTAATTCTTTTTCTGGTTTAAAATCTATAGCTTTTTTCCATTGATACAACGCCTCTAATTTTCGACCTATTTGATAATAAGCATCACCTAAATGATCATTAATAATTGGATCTGTTGGTTTTAAATCTACAGCTTTTTCTAATTCTTTAACTGCATTTTCATATTCTTCAAGTCGATAATAAGCCCACCCTAAACTATCAACTATATAAGGATCTCTTGGTCTTGAACTAACAGCTTTAATTATAAAATCTTTAGCTTTATCTAAATTAATTCCTTTTTCTATCCATGAATAACTCAAATAATTTAACACATCAGGTTGATTAGGTAAAAATTCTAAAATTGTTAAAAAATCTTTTTCTGCTAAATTCCATTTATTATTTCTTTCTAAAGCTATTCCTCGAGAATATAAAAGATCCCAATGATTAACATTTATTTTTTCAATTCTATTTACAGCCTTATTATAAAAATTAATAGCTTTTTCAAAATCATTATTATTTCTGTAAATATCTCCAAGAAGTTTTAAAGCATCATAGCGGTCCTCTTTTTCATTTATCATTTTTTTTAACATTGGAATTGATTTATCACTTTTTCCCATAATTTCTAAATTTCTTGCTGTTTTTAATTTAGAATGCCAAAAAAAATTTGATGTTGGCTTTATTTTTTTATACAAATTGTTTGCATATTCATATCTTTTATTATTTTCCATTAATTCTGCTAAATATAAATTTGATACTTCAAAATCTTTCTTTAAAAAAAGTGAAAAATGTGAGTAAATAATAGAAAAATTATTTGTAAAATCAGAATTAAAAGTGCTCGCAATACCACTAAATAATTCTGCAATAACATCGTCTAAATTATTTACTTCTTTTTTTGGTAATTCTTTTTTTTTAATTCTATTAAGATCATTTTCTATAAGTAAAGTATCTTCCGAATTATCTATAAATTTTAAATAAGTTTCTTTAGCTTTATCAAAATCACTATTTCTTTCAAAAGCATTTGCTGCTATTTTAACTGTTCTATATGATGGCTTTTCATACGAATTTAGTGCTTTATTATAATATTCTAAAGCTTTATTTTTTTTATTAAAATGCTCATGAAGCAATGCTTGATTTAAATATCTTAAACCATTAATAACAAGATCTTGCTCAAGTTCATTTAATTTATCATTCGATTTTTTTAAATTTTTTGTTTCTTCAGCAATTAACCAAGATTCAATAATAGGAACAGAAAATCTTTCATAAGAACTTTTTTTTATTTTTTTTAGTTTACTTAATGCAGATTTAAATTTTTTTTCTTTTATATCTGAAACTATTAAGGTCATTAATATATTTATAGAATCTAAATCATCAAAATTGAGCTTGTCTTCAATTTTTTTTCCTAATGAAATACAATCTTTAATATTTCCTTCTAACAAATATAATGTACAAAGTTTTTGAGCAACATCCTGATCGTGGAAAGAATTAATATTATTAACATCGAGAACTTTTTCAAAATATATTATGGCCTCTTTATTATGCTTATTATTATAAGCACTCTCTCCTGCTAAATAATTTCCGTAATCTAAAGCTATTAAAAAATTACAAGAAGTAAAAAAAATATAACTAATTAATATAAAAAAAAATTTCATAAAATAAATTACATATTTGGATAACGAGGCCCTCCTCCACCTTCCGGTGTTACCCAATTAATATTTTGATTAGGATCTTTTATATCACAAGTTTTACAATGTACACAGTTTTGTGAATTAATTTGTAATTTAGGAGAATTACTTTCTAAACCTACTATTTCATAAACTCCAGCAGGGCAATATCTTTGTTCAGGGGAATCATGTTTTTCTAAATTATATTCTATAGGAATAGAATTATTTTTTAATTTCAAATGACATGGTTGGTTCTCAGCATGATTAGTATTAGAAATAAAAACTGAAGATAATTTATCAAATGTTAAAATTCCATCAGGTTTAGGATATTCTATTTTTTTTGATTTGTTAGCTTCTTGTAAAGTTTTATGATCTTCGTGATGTTGAAAAGTCCATGGTGCTTTTCCTCTAAAAACAAAAGTATCAATGGCACTATAAATTAAACCTGCCCAAAATCCCCATTGAAAAGATGGCCTTATATTTCTTACTCTATAAAGTTCATCCCAAACCCATGATTTTTTTAATTCATCTTCATAAGAACTAATTTCAGAAACTCCATTGAAAATATTTTTAAATATTTCTTCAGCTGCAATCATTCCAGATTTCATTGCTGTATGTGTTCCTTTTATTTTTGGAACGTTCATAAAACCTGCAGTGCAACCAACAAGTAGTCCTCCGGGGACAGTTAGTTTTGGAATTGATTGAAACCCACCTTCATTTAATGCTCTAGCTCCATAAGATATTCTTTTACCACCCTCGAAAATTTTTCTAATCTTTGGGTGTGTTTTAAATCTTTGAAATTCATCAAATGGACTTAAATATGGGTTCTTATAATCTAATCCAATTACAAAACCTACAGAAACCTGATTATTTTCTAAATAATACAAAAATGATCCTCCATATGTTTGATTATTCAATGGCCATCCAATGGAATGAATTACTTCACCTAATTTATGATTCTCTGGTTTAATTTCCCACAACTCTTTTAAACCTATACCATAAGTTTGAGGGTTAGAATTTTCTCTTAAATTAAATTTTTTCATTAATGTTTTTGTTAAAGATCCGTGACAACCTTCTCCAAATATTGTTTGTTTAGCTAAAAGATCATAACCTAATTGAAAATTTTCTGATTGTGAACCATCTTTATTAATACCTTGGTCACCTGTTCTAATTCCAATAATTTTATTACCAGTCTCATTATAAAGTATTTCAGAAGCAGCAAACCCTGGAAAAATATTGACACCTAATGCCTCTGCTTCTTTTGCAAGCCATCTACAAAAATTACCTAAGCTAACGATATAATTTCCGTGATTTTTCATTTGAGGAGGTGTTGGTAATTGAAAAGATTTATTTTTTGTTAAAAGTAAAAAATTATCTTTTTTTGCTTCAGTTTTTAAAGGAGAATCTTTACTTTTCCAATCTGGTATTAATTCATCAAGAGCTTTAGTTTCTAAAACAGCCCCTGATAAAATATGTGCTCCTACTTCTGAACCTTTCTCAACAATTCCAATATTTAATTCTTTATTATTCTTTTTTGCTAATTGAGCAAGTTTTATACCTGATGATAATCCAGATGGCCCAGCGCCAACAATTAAAACATCAAAATTCATTTTTTCTCTAGTCATAATTTAAAGATATAAATAAAATTATTAACTTATCAAATTTGTTTCTTTAGTCACAAATTTTTTTGTATCATAATACTTAATATATTTTAACATTTTATTAAAAAAATTACATGTGCTGAACTTAATTAATTTATATAATTACATAAAGAAATGAAAATAAAACTTAATATTGCTATTCTTACAATATCCGATACACGAAATACTAAAACTGATAAATCTGGTAAAATATTAAAAAATTTGATTAATAATTCACACCATAATTTATTTGAAAAAAAAATTTGTAAAGATAATAAAAATGAAATAAAAAAAATTATAAAAAATTGGCTAAAAAAAAAGAAACTAAATGTAATAATAGCAACAGGCGGAACAGGTTTAACAAAAAGAGATATAACACCTGAAGTTTTTAACTCTTTTTTTGAAAAAGAAATTCCAGGATTTGGAGAAATTTTCAGGATGATAAGTTTTAAAAAAATAAAAACTTCAACTTTACAATCAAGAGCTTGTGCTGGAATTTCAAATGGAAAATATATGTTCTCATTACCTGGATCTCCCTCAGCTTGTAAAGATGCATGGGAAAAAATAATTAAATATCAATTAGATTCATCTTTTAAGCCATGTAATTTAGTTGAAATTATATCAAAAATTAAATAATGAATTTCAATTTAGAAAAGAATTATGGTGAAATTATAGTGGGTATAGATGAAGTAGGAAGAGGAACTCTCGCAGGACCTGTCCTTGCTGCAGCAATATATATTAATCGATCAAAATGGAATAACTATTTGAAAAAATACCCTGAAATAACAAAAATAAATGATTCAAAAAAAATTTCCAAAAAATTAAGAATTAAATTATATAAAATATTAACTAAAATTTCCTTATTTTCAATTGGTGCAGCAAGTGTTAAAGAAATAGAAAATAAAAATATTTTAAAAGCAAGTTTAATTGCTATGGAAAGAGCTTACAAATCTCTTAAACTAACTGCTGATTTTGTTCTAGTAGATGGGATCAATTTGCCAAAAATTAATGCAAAAACAAAAGCAATTAAAAATGGTGATAATAAATCAATTTCTATTGCATCTGCTTCAATCATAGCAAAAGTTATT
>sequence29
TCAGCTGGTTTAGATTATCCTGGTATTGGTCCAGAACATGCATGGCTTAAAGATACAAAAAGAGTTAAATATGTAAGCGTTACTGATAAAGAAGCATTAAGTGCATTTAAATTTTGTTCGAAAATTGAAGGAATTATTCCTGCTTTAGAACCTTCACATGCTCTTGCATACTTAATCAAAAATGCGTCAAAAATGCCTAAAAATAAGATTGTAATAATGAATATGTGCGGAAGAGGTGATAAAGATATATTTACTGTTGCAAAAAAATTAAAAATCAATATCTAAGTTTAATGTCACAAGTAGATTTATTAAAACAAAAATTCAAAAAACTAAAAAATAAAAAAAAATGTGGTTTTATTTCTTTTATTACTGCAGGTGATCCAGATTTTCAAACTTCTTATAAAATACTAAAAAATCTTCCAAATTGCGGAGTAGATATAATCGAATTAGGAATGCCATTTTCTGATCCAATGGCAGATGGGCCAATAATACAAAAAGCTAATGACAGAGCACTTAAAAATAAAATGAATTTAAAAAAAACTTTTAAACTTGTAGAAAAATTCAGAAAAATAAATACAAAAACTCCAATAGTTTTAATGGGGTATTACAATCCAATACATAATTTTGGTATAAAAAATTTTATAAAAGAAATTAAAAAAAATAAAATTGATGGTGTAATTATTGTAGATTTACCTCCAGAAGAAGATCGGGAATTATGTATACCAGTTATGAAAAATAAAATACATTTCATAAAATTAGCAACACCAACTACTAATAAAGAAAGATTCAAAAAAATTATAAAAAATTCATCTGGTTTTATTTATTATATTTCAATTACTGGAATTACTGGAGCTAGTCATAATTCAAATAAAAAAGTAAAATCTGAAATAAAAAATTTAAAAAAATACACTAATTTACCAATTGCAGTAGGATTTGGTATTAAAAATAAAAACGATGTAAAAAAATTATCTAAAAGTGCAGATGCTGTAGTAGTAGGATCTTCTATAATTAAAAGAGTAGAAGATGCTATAAAAAAAAAATATAATAAAGAAAGATTAATAAATTATGTTTTACAATATGTTAAAAACTTAACAACAGCATTATAAAATATGAATTGGCTAACAAATTATATAAAACCTAAATTAGAATCTTTAGTTAAAAAAAAAGATGTGCCTAAAGATTTATGGCTAAAATGTCAATGTGGCACAATGATATATTATAAAGATTACGAAAAATCTTTCGGTGTGTGTAATGAATGTGGTACACACATGAGATTGCCATCGGATGTACGAATAAAATTCCTTGTGGATGATAATAAATTCGAAAAAATAAAAATCATAAATGGAAAAAATGATCCATTAAATTTTAAAGATAAAAAAAATTATAAAAGTAGACTTAAAGATGCAAAAAAAAAAACAAAAGAAGAGGATGCGGTAGTTGTGGCTGAAGGAAAAATTGAAAATGTACCAGTTTTACTTGTCGTTTTTGATTTTAATTTTATGGGTGGTTCAATGGGTATAAACGTAGGAAACTCAATTGTAAAAGCAAGTGAAATTTCTGTAAAAAAAAATTTACCATTAATTATAATTCCATCATCTGGTGGTGCTAGAATGCAAGAAGGAATCCTTTCTTTAATGCAAATGCCACGAACAATAGCTGCAATACAAAAAGTAAAAGAAAACAAAATACCATATATTGTTGTTCTCTCTGATCCTACAACTGGAGGAGTATGTGCTTCTTTTGCAATGCTTGGTGATATATTAATTGCAGAACAAGGTGCAACAATTGGTTTTGCTGGAAGAAGAGTAATTGAACAAACTATTAAAGAATCCATACCTGATAATTTTCAAACTGCCGATTATTTGCTAGAACATGGAATGGTAGATATGGTTGTTCATAGGAAGCACTTAAAAAATAAAATATATAAAATTCTTAAATTTTTAAAAAAAAATAAATAAATATTTTTTAAATGTTTAATAAATCTAATAGTGAAATAAATCAAAAAAATTTTGATATAAATCTCGAAAAAAAATTACAAGAATTACACCCAAAAAAAATTAATTTATCTCTTGAGAGAATTAATAAACTTCTTGCTAAATTAAAAAATCCTCAAAAAGAAATTAATAATATAATTCATATTGCGGGTACAAATGGAAAAGGTTCTGTGCTTGCTTTTTTAAAATCATTTATTAAAAATTCAGGCTATTCGGTTAATACATATTCTTCCCCACATTTAATAAATTTTAATGAAAGAATAAATCTTAACGGAAAAAACATATCAAGTGAATTTTTAAAAAGATTATTAGATATTTGCGAAAAAAAAAATAATAAAAAACCTATTACATTTTTTGAAATGACAACTGCTGTTGCTTTTTTAGCTTTTAAAAAAAAACCCGCAGATTTCACAATATTAGAAACAGGGTTAGGTGGTAGATTAGATGCAACAAATGTAATAAAAAATCCATTAATAACAATTATTAATGAAATTTCAATTGACCATACAAATTATTTGGGTTCAAATATTAAAGAAATTGCAGTAGAAAAAGCTGGAATAATAAAGAAAAATATTCCTGTTATATTAGGAAATCAAATAGAAGATGCATCAAAAATTATAATTGATAAAGCAAACGCACTTAATGCAAAAACTTTTTTTTATAAAAAAGATTGGTTTATAAAACTAAATAAAAAAAAGAAATATATTATTTTTTCAAAAAATAAATTATTTAAAGAAAAATTTCCTCTACCAAACCTTGAAGGAAATCATCAAATTATTAATGCTGGAATCGCGTTAAAAACTCTAGATATAATTGATAAAAAATTTAAATTTAAAAAAAAATTTTTAAAAAAAGGGTTAAGAAATGTTGAATGGCCAGGAAGATTACAAAAAATAAATATAAATAAAAATCTTTTTAATAAAAAAATAAATTTTAAAAAATGGGACATATGGTTTGATGGTGGACATAATAAAAGTGCCAGTAAGGCTTTAGCTACAACATTAAAAAATTGGAAAAAAAAAAATTTATATATGATTTTTGGAATGTTAGACTCAAAAAATCCAATTGATTTTTTAAATTATTTTAAAAAAATAACTGACAAATTAATAACAGTTAAAGTTGGAGGAGATTCTCCATATTATTCAAATAAAAAACTTTATGAAATAGCTAAATTAAATGAGTTTCATGTAGATACAGCAAAAAATATAAAAAATGGTCTAAAAAAAATCGTTAAAAAAGAAAAACCTGGAAGAATTTTAATTTGTGGGTCTTTTTATATGTACAAAGAGCTCTCTAAGCTAATTAAAAAAAAATAAAATTTAAATAGACGAATCAATCCAAGATACCAAATCTGACTTTAATGCACTTCCTACTTTAGTGCTAATTGGCTCCCCTTTTTTAAAAATAATTAAAGTTGGTATACTTTGAACACCATATTGGTTAGGTATATTTGGATTTTCATCGATATTTATTTTAACAATCTTTAATTTTTCACCTAATTCATTTGATATTTCTTCTAACAAAGGGGAAATCTCTTTACAGGGCCCGCACCATTCAGCCCAAAAATCTATCAAAACCGGTAAGTTTGAATTAACAACTTCTTTTTCAAAAGAATCTTCATTAATTGATAAAACAGTCATATCGAGTACTATGATAACATTTTTTTATAATCTTTCAAACTTTCTAAAGTTCCAATGTGATGCCAATTACCAACATATACTAATCCAAAAATTTTTTTCTTTTTTATTAATTTTTCATACAAAAAAAATAATGGAAATTTTTTTTGCTTAATATTTAAAAAAACTTTCGATTTTAATATTTGTATACCAGTAAAAATATATTTTGATTTTTCTTTATTTACTACAATTCTATTTAAGCTATCTAAATTAAAGTCACCTTTATTTTTTCCTTTTGGATAGAGTAATAATAAAGCATCCATTTTATCTTTATTCCAAAATTTTTCTAATTGCATAAAGGGGCTTTTTTTTTTATCTAAAATAATATCAGAATTTATTACAAAAAATTCTTTTGCATTAATTAACTTTAGAGCATTTTTAACACCGCCGCCTGTATTAAGTAAAACTTTTTCATCTGAAAAAATGATTTTTGTTTTAAATTTATTATGAAGTAAATACTTTATTTTTTTTTTTAAATAAAAAATATTAATAATTATTTTTTTAAAATTATTTTTTTCTAAATTTTTAATAATTTTTTCAATCAAGGTTTCATTATTAATTTTTATTAATGGTTTAGGAGTTTTTTTAGTATAAGATTTCATTCTTTTTCCTAAACCTGCAGCTAAAATCATTATATTAAATATTTTTTTCATTATTTTGTTGGTATAGTTCTTTTTCTTTTTGGAAAATATTCATTCAGCCATTCATTAATTTGATTTAAAAAAATAAAATTGGAATTCTTTTCTATTAATTTCCAAAGTCTAGGAATATGTTTTAAATAATTTTTTTTATTATCTCTCACAAATAATCTTGTAAAAATTCCGATTACCTTTAAATGGCGATTTATTGATAAAACTTTATACTCATTTAAATAATTTTCTTTATTTTTAATTTGATTATTTTTTAAATATTTTTGAAACATTTTTTTTCTAATTCTGTCATCAACATCTCGTCTAGCATCCTCTAATAGCGAAACTAAATCATATGTTGAAGGTCCAATTACTGAATCTTGAAAATCTATTAAACCACAAGCTTTAACTTTTTTTCTATCTCTTAAAAAAAAAAGATTATCGATATGAAAATCTCTATGAACTAAAACTTTTTTAGTTTTTAAATTATTTTGTAATAAATTTTTCCAAATATTAATATATTCATTGAAAATTTTTTTTTTTGGTTTTTGCTTATAAATATTAGGCCAATACCACTCTAAAAATAACAAGGCTTCATTAATTAATTTTTTATTAGAATATAAAGGAATTTTAGAAGTTAAATTTTTTGAATATTTATTTATATGAATTAAAACTTCAGTTGCTAAATTATAAAGCTTAATTTCACTTTCCTCTTTTTTTAGTAAATATGTATATGTATTTAAACCAAAGTCCTCTATTACAAAAAAACCTTTTGAAATATCATATGCAATTATATCGGGAACAGACAAATTCATTTTCTTTAAAATATTTGATATATTCAAATAACCTAAATTATTTTCCGTTTTATTTGGGGAATCTACAAATAAAAGCTTTCTATCATCATTTTTTATATTAATACGAAAATATTTGCGAAAAGAAGCGTCAGATTTAATTTGTTTTAATTTAAAATTCTTAATACCACTTTTTTTTAAAATAGATACATTCATATCTTTTTTATTACAAAATTATTCTTTCCTAAAAATTTTATATTTATATCAATTTTATCAATTGTTTTTTTTTTTAGAAAGAAAATATCAACCCTATTGTTAAATATTTTAGAAATTTTTTCAGGCCACTCAATTAATGATATTCTATTTTCCATTTCTTCATATAATCCTATTTCAAGAATTTCATTTATATTTTTAATACGATATAGATCTGCATGACAAATTCTTAAATTTTTTCCAAAATCATAATTATTTATTAAATTATATGTAGGACTGGTAATTGGATTCTTAATTTTTTTTTTATTTTTTTTTACAATTTCTTCAATAAAAAATCTTGCAAATGTAGTTTTCCCAGAACCTAAATTACCTTTTAAAAAAAAAATATTTCCGAATTCTGCTTGATTAGCAAATTGTTTTGCAATTTTTTTTGTTTGATCTAGAGATATATTTGAAATTTTAATGATTTATTTTTTTAATACCTATAATAATAAGGTTTAAAAGGTCCGTTAGCTTTAACATCTATATATTTGGCTTGCTTTTTTGTTAATTTTGTTAATTTCGAACCTAATTTATCTAAATGTAATGCAGCAACTTTTTCATCTAATTCTTTCGGCAAAACATAAACTTTATTTTTATAAGATCTGGATTTAGTCCATAATTCCAATTGAGCTAAGACTTGATTTGTGAAAGAAGCGCTCATTACAAAACTTGGATGTCCTGTTGCATTGCCAAGATTAACTAATCTTCCTTTAGATAAAATAATTAATTTTTTTCCATTCGGAAATTGAACTTCATCAACTTGAGGTTTAATTTCGTCCCATTTAAAATTTTTTAACGCATCAATCTGTATTTCACTATCAAAATGCCCTATATTACAAACAATAGCTCTATCTTTCATTTTTCTCATATGTTCAAGTGTTATAACATCTACATTTCCAGTTGCTGTACAAAAAATATCCCCTTTTGTTAATACATCTTCGATTTTGACAACTTCATAGCCTTCCATTGAAGCTTGTAATGCACAAATCGGATCTATTTCTGTAACCATAACTCTTGCTCCTCCATTTCTTAAACTTGCTGCAGAACCTTTACCAACATCCCCATATCCACATACAATCGCAACTTTCCCAGCTAACATTACATCAGTTGCTCTTCTGATACCATCCACCAAACTTTCTCTACAACCATATAAATTATCAAATTTTGATTTTGTAACACTATCATTAACATTGATTGCGGGAACTAATAATTTTTTTTTTTTTTCCATTTCATATAATCTATGAACACCTGTTGTTGTTTCTTCAGACAAACCTTTTATAGATTTAAGAAGATGTTTGTATTTTTGATGCATTAATTTTGTTAAATCTCCGCCATCATCTAAAATTAAATTAGGTTTCCAATTTTTTTTACCAATTATAGTTTGTTCAATACACCACCAAAATTCCTTTTCATTCATTCCTTTCCATGCAAAAACAGGTATTCCTTTTTTAGCAATAGCAGCAGCTGCATGATCTTGGGTTGAAAATATATTACATGAACTCCATCTAACTTCTGCTCCTAATGAAATTAAAGTTTCAATTAATACAGCCGTTTGAATTGTCATGTGCAAGCACCCAAGTATTTTAGCGCCCTTTAATGGTTTTTTATTTTTATATTCTTTTCTCAATGCCATGAGTCCTGGCATTTCTGTTTAAGCTATATTAATTTCTTTTCTTCCATATTCTGCGAGGCTAATATTTTTTATTTTATAATCCATAATGATAAATAAAATCTACTAAAAAAAAATTTTTAATCAATCTTAAATTATACTTATAAAGTTAATTTATTTAAAATAATTGTAAATTTTGCACCAATAATTCTTTTATTTAAACCAAACCTATTTTCAACTTTAATTTCACCACTATGTGCATCTATAATTTGTTTTACTATACTTAAACCTAATCCTGAATGCTGTCCAAATTCTTCTTTTTTTAATCTTTCAGTAAAAAATCTTTCAAAAATTTTATCTAAATTATTTTTAGGAATACCAGATCCATGATCACTTATTTCTATGGAAACATTATTTTTTTTACTTTTTATATTAATTTCAACTTTTTTATAAGAATTATTAAATGATAAAGCATTATCAATAATATTACTAAATACTTGGGATAATCTTAATTCATTTCCAGTGATTAAAAATTCATGATCATTAATAAAATTTAATTTAACTTTTTTCTTATCTCGATTATAAAAATTAACCATTTCAATTAAAATCTTTTTTACATCCACTTTTTTCATTCCTTCTCTAGAAATTTCAGCATCCAATCTAGAAGCGTTGGAAATATCAGTTACTAATCGATCTAATCTATGAATATCTTGATTTATAATTTTCCATAATTTTTGTAATTGCTTTTTATCTTTGGTATTTACTGCTACCTCAACTGCACTTTTTAATGATGTTAATGGATTTTTAATTTCATGAGATACATCTGCAGCAAAATTTTCTATTGCATCCATTCTATCCCAAATTGAATTTAACATTTGTTTAATTGAAATTGCTAAATCTTTTATTTCATCTTTTCTATCTAAAAATTGCGGTATTTTTAAATTTCTTCCTTTTGATGGATTAATATTATTTGTAGCATTAGCTAATTTTCTTATAGGATTAACAATATTCGCAGAAAGATAGATTGAAACGCAAATAGTTAAAAATAATGCAATAAAAAATATTTTAAAAACTTCAAATCTAAAATCTTTTATTTTATTTTCAATATTTGAACTATCTAACGTTAACATAATTGCGCCAGAAATTTTTTTATAAGATTGAACTGGCATTGCAACACTTAATAATTTTTTTCCATCATTTAAACGTCTTAAGTATCTAGTTTCATCACCATACAAAGCTTTTAAAACTTCTTTATAATCCTCTGCCTGTTGTAAAGTATTTTCTCTATAAAGATCTAGTTTACTAGTTTTCACTAAAAATAATGAAACATAATTATATATTTTTTCAAAAAAAATTCTAAAAAAATTTTTATTTTGTAAAGAAGGTAATTCTTCAGATTTTATCAATGTTTGAAATCCTACTGATCTTTCAGAATCTGCTAAAAGATCTCCTCCATATGAAAATAGTCTTATTCTTACTCTACTTTTGTTAAGTAAAAACATTATAGTTTCCTGTGCTTCTCTATTTAAAATCACCTGTGTTTTTAAATCAGATTTAGGTAAAATAGTTCTCCCAATTGCTTGTGACAAGATTCTTCCTTCATCTTCTAATTTTTGAAATTCATTTTCTTGTAATGTATGTTGATATCTATCGATTGAGAAAAGACCTCCAAGTAAAAATAATAAGGCTAAAATGTTAAGAGTTAATAATCTTAATAATAAAGGTGAAATTTTTATTTTTTTTCTGAGCATCTTTTCAATTTTTTTTATTCAGAAAATTTATATCCACCACCATAAACAGTTTTTATGGAGTTAAAATTTTTATCAACTTTTTTAAATTTTTTTCTTATTCTCTTGAAATGATGATCAATTGATCGATCATCTATATTTTCTTTATTGTTTCCAAAAGCAGCTTCTATTAATTGATCTCTTGATTTAACTACTCCTAAATTATCAATTAATAAATTTACTAATAAAAATTCTGTAACTGTTAAATTAACTTCCTTATTTTTCCATTTGCATAAATATTTTTCTTTATCTAAAATTATTTTTCCTATTTTTAAATAATTTTGATTAACATTTTTTTTTAATGTTTTATTTTCTAAAGTAAGTGATCTTTTAATTAAAATTCTTATACGTTCAATTAAAATTTTTTGAGAAAAAGGTTTTGTAATATAATCATCTGCTCCAACTTTCAATCCTAACAATTCGTCAATTTCTGTATCCTTCGAAGTCAAAAAAATAACAGGAATGTTTGATTTTTTTCTTAATTTTTTTAATAATTCAATACCATTCAATCTAGGCATTTTTATATCTACAACTGCAATATCAGGATTTTCATTTAAAATTCCATTTAAACCAGATTCACCATCAGAAAAAGTATTAACTTTAAAACCTTCACTTTCGAGTAACATTGTTAAAGATGTTAAAATATTTTTGTCATCATCAACTAAAAAAACTCTATTTTTCATATCAATATTTAATGTGCTTCAGCCCAAGTATCTCCTTTCCCAACATCTACTATTAATGGTATGTCTAACTTTATTTCTGGTAAAGTCGAATTTTCCATTATTTTTTTTATATCCATTGAAAGATAGTTAATTTCAGATTCAAACATTTCAAACAATAATTCGTCATGAACCTGAAGTATCATTTTTGATTTTGTTCTTTTTTCTTTTAAAAATTTATCAATATTAATCATAGCTTTTTTTATTATATCTGCAGCTGTACCTTGTATAGGTGCATTTATAGCTGCTCTGATAGCAAAATTTCTAAATCTTGGATTTGTATCATTAATACCTTCAATATGGCATTTTCTTCCAAATAATGTAGTAACAAAACCATTTTTCTTACAAAATTCTGTTGTTTCATCAATATAATCTAATATACCTTTATAACTTTTAAAATATTCTTTTAAAATTAAATCTGCATCAGTTTTTTTTATATTTAACTGTTTAGCGAGTCCAAATGCACTAATTCCATAAACAATTCCATAATTTACGGTTTTTGCTTTTCTTCTCAATTCCTTTGTAACATTTTCTAATTTTACATTAAAAATTTGAGATGCTGTCTTTTTATGTATATCTATATTTTGATCAAAAGCATTTTTTAAATTTTTAACTTTTCCAATATGTGCAAGTAGTCTTAATTCAATTTGAGAATAATCTAAAGATATCAATTTAAATCCATTTTTTGAAATAAAAGTATTTCTAATTTTTTTTCCTTCTTCTGTTCTTATAGGTATATTTTGTAAATTTGGATCTGTAGAAGATAATCTACCAGTGCTAGTTGAAGACATTGAATAAGAAGTATGAACTCTTGATGTTTTTTTATTCACTTCACTAATTAATGAATCTGTATAGGTATTTATTAACTTTGATATTTGTCTCCATTCTAAAAGGCATGTTGCAATATTATGTCCTTGATAAGATAAATTTTCTAAAACATCAACGCTCGTGCTATAAGATCCACTTTTTCCTTTTTTACCACCTTCTAAACACATTTTATCAAATAATATTTCACCTAATTGCTTTGGAGAAGCAATATTAAACTCTAAACCTGATAAATTAAAAACTTCTTTTTCTATTTTTAATAATTTTTTTTTAAAAAATTTTCTCAAACCTTTTATTTCATTTATATCAATTTTAATACCTTCTTTTTCTATATTAACTAAAACGTTAATAAGAGGTTTTTCTATATGTTCATAAACACTTAATATTTTTTCTGAAATAATTCTTTTTTTTAAAATTTTATATAATTTTAAAGTTACATCTGCGTCTTCAGATGCATATATATAAGCATTTTCTATAATTACTTCATCAAAACTCTTTTCTTTTTTTCCAACTCCTACAACATCTTTGTATTTTATATTTTCATGATTCAAATAAATTTTAGATAAATCATCTAAATTATGTCTACGTTTACCTGCATCCAAAACATAAGATAAAAGCATAGTATCTTCAATTGAGTTTAAATTAATTCCAACATTGGATAAAATAATTTTATCATATTTAATATTATGCCCTACTTTCGTTACAGATTCTTCTTCAAGAAATTTTTTTAAAATCGGTAAACATTCAGATAATTGTAAGTTTTTAAATTTATCTTTATTATTTATTTTATGCTTAAATGGTAAATAATAAGCTTCATTCTCATTTAGTGATAATGAAATTCCAACAAGATTTGCAAAATTAGCATTTAATGAATTAGTTTCCGTATCTACTGAAATTAATTTTTTTTTTTGTATTTCTTTTTCTAAAATTTTTAAATCGTCTAATGACTGAATTACTGAATATTTTTTATTATTTTTTTTTTTATGTTGGTGATCAACACCATTATCTTCTTTTTTTTGAAATCTTTTAATTAAACTATTAAAGCCTTGTTTTTCAAAAAATTTTAACGCAGTTTTTTGATTTATTCCTTTAAATAAATTTGAACTGTATTTTAAATCTAAATCATCTTTTAAAGTAACTAATTTTTTACTAATTAAAGCCTTTTCTTTTTCATCAATCAATTTTTGTCTTCTTTTGTCTTCTTTTATTTTATCAGTATTAGATAGTAAATTTTCTAAATTTTTAAATTTTTTAATTAATTCAACTCCAGTTTTAGGACCAATTCCAGGCACTCCGGGAACATTATCAGTACTATCACCCATGAGCGCTTGAAGATCAATCATTTCAGAAGGATGAACGCCAAATTTTTTTTTTACTTCTTCAATTCCAATAATTTTTTTTTTAATTGGATCGTACATCTTTGTTCTTTCATTAACTAATTGCATTAAATCTTTATCTCGAGACACAATAGTTACAGTCACATCATTTTTTTCAGCCTGTTTTGCATATGTTGCAATAATATCATCTGCTTCATATCCATCTACTTCAATCCTAGGTATTCCTAACGCATCTGTTGCTTCACGAACTAATGGAAATTGTGGTATTAAAAGTGGGTCTGGTTCTTCTCTATTAGCTTTATATAATTTATATATCTCTTCTCTAAATGTTTTAGCTTTAGTATCAAAAACAGCTATTATTTGTTCAGGTTTATTCTTTTGATATAAATCTATAATAGAATTACAATAACCAAATACTGCATTTATAACAATTCCATCTCGATTTTTTAAAGTTCGGGGGAGTGCCCAAAATGCGCTATGAATATATCCTGATGCGTCAATTAATAATAAATTTTTCAATTTTAACTAATTATATACATTTTAAAAAAAGAAGTTATTTATATTAACATTAAAAAATTTTTTAATTAGAGGAAAATAAAAATTAAAAACGCAATAGCAATAAAAAAATTAAATAAAATTTTTATTAATAATAAAACAAAACAAAAAATTTCAGCTTTATCAAATGTAAATCTTGAAATTCCTAAAGGTTCTCTTTTTGGTTTATTAGGTTTAAATGGAGCAGGAAAATCTACTATTATAAATATTCTAGCAGGTTTGTGTTTAAAGAGTTCAGGAACAATAAAAATAAATAACTTTAATATTGATAAAGAAAGAAAACAAGCAAGTTGCCAAATTGGTATTGTTCCTCAAGAAATAAATTTCGATCCTTTTTTTACTCCAAGAGAAATATTAGAAGTTCAATCAGGTTTATATGGAATAATAAAAAAAAATAGAAAAACAAAAGAAATTTTAAAAGATTTAGATTTAACAGATAAAGCTGATTCATATACTAGAAGTTTATCTGGTGGAATGAAAAGAAGACTTATGATAGCAAAAGCACTTGTGCATGATCCTTCAATTTTAGTTTTAGATGAACCAACTGCAGGTGTAGATGTAAATTTAAGACGACAATTATGGAATTATATAAATAAATTAAAAAAAAAAGGAAAAACAATTTTATTAACAACTCATTACATAGAAGAAGCAGAAGTATTATGTGATAGAATATGTATTGTTGATAAAGGAAAAATTATTTTATCTGAAAAAAAAAATTTAATAATTAAAAAATTTAAAAAAAAAAAATTAGAAGATATTTTCATTAAACTTACAAGATCTTAATAGATGAAATTATTTTTTTTGCTTCCTTTTCATATTTATCAAAAAATTCAATATTGGTTGCTAAAAAATAAATAACATAGAGTTTTTTATCTTTAACTATAGAAACTGCAAAACCTTTATAATTTAAACCTAATTCATTTTGTGCTTCAATATCAAATGATATAGCGTCCTGATCATTTAATTTATAATTTTTTAAATTAGTTGTTTTAAAAGATGAAAATTCTCTTGACCAAATTATACAATTTTCAAAAAAATCTTTTATTTCAAATTTATTCATTTTGAGATTGAAGGTTGGTCTTTTTTTATTTTCTTGAGTAAAAAAACTATCGTGATCAAATAGAGATCTTCCTTCTTCTATAGGTTTAAAAAAGACTATTCTTTGTAATGTATAACCATCTATAGTCCAAAAAAGAAAATTATATTCATCTTCTTGAAATTGACTCCATTTTTTATTTGTGTTAACTGAATAAATTTTATTTAATTCAACCTGTCCAGGTTCAACCAAAATATATGTTTTATCTGTTTGGCATGATGACAAAAATAATAAAAAACTAATTAATAATATTTTTTTAAATATTTTCATTTATTTTATATAACTCTCAATTATAGATTTATCTTCTGCATTTTTAGATAATTCTAAATATTTTTTTAAATTTTTTTTTGCTTTCTCATTTTCATTTATTTTTAATTGTAATAAACCAAGCTGCTTATAACTATCTGGAAATTTATTATTTAATTTTACTGATTTCTTATAAGCAAGAATTGCTTGATCGTAATTATCATCTTCATCTCCTTTAAAACGATAAACTTCCCCTTTAAAAAAATTTAATAAATATTGATTTTCATCATTATCAAATCTATTAGATAAAATAAATTTTGTTTGTTCAATCTCATTATTAAGTCTAATTTCATTTTTTATCCAATTATTTATGTGAGGTTCAA
>sequence30
AATTTATAATTAAGGGAGATTTGAAAAAAGAAAATAAAATAAGAGAGGAAGCAAAGAAATGCTACGGAGAACTGTTAAGTTATACTAAATTTAAATTAAAAATTTGGAATCATCACGATGCAGAAGATTTAGTTTCTCAAGCATATGTAAGATTTTTTAATTCTTATGATAAAGGAAGAAGTAATTATAAAGTAGGTACTAATATTTTGGGATATTTAAAATTAATCGTTACAAATCTAAAAAGAGATAGATGGAGAAAAGAAAAAAGATCTCCAGAAATAATTTCTGAAAATAAACTTATTGATAATAAAGAAGTAATTAGTTTTGATGAATATAAATCTCAAAAGCTTAACAATACTGAAGATAATTTAACAGATCCATTTGCATCAAATATGGATGCTAAAGACATTTTAAAAATAATGGACAATATACTATCTCAAGAAGATAGAGAAATTTTTACTTTAATAATGATTGAAGATTATAAATATTCCGAAGTAGCCAAAAAACTTAAGATACCTCAAGGAACAATAGGAAGCAAATTAAATAGAAGTTTACAAAAAATAAGGGAAGAATTAGAACAAAAAAGCGTTTTAAAATTAAGAAAATAAAATAATGAAAATTAATGATAGCATACTAATAAAATTTATTAATAATGATCTTTCATTATCTGATAAAAAAGAAATTCAATTATTAATAAATAACAATAAAAATATCAAATCTAGATTAAATGGTTTAAAAAATTTTAAAACTATACTTAAAAAAGAATATGAAATAAATAAAAAAATAAAAATGCCTGAAAATTTATATAAAAAAATTTCATTAAACAAAAAAGGAAATAATAAAAATAATATAGAAAAACAATTTAATAATTTTTATAAAATTGCTGCTAGTTTCCTTGGGTTCATATCATTAAGCTGGATTTTTCTTGCCCCAAACACAACTGTCTTATCTCAAGATACATCAAATTATCTTAATTTATTAATAATTTTACTTTTAATTTTTATAATTTTTTTACTTATAAATAAAAAAAAATAATATATGCAATAAATTCTAAAGACGTTCGTTATTATTAATATGAAAAATAAATTAATATATCCTCTTTATGCAATTGTTCTTATTTTTCTTTTATGTATAGCTAAACTTGCTATTTCTAAAGAAAACAGCGAAACACCCTTTCCTGGAACAAGATGGTTAGAAACTGATAACTTTATTGGCGCAAGTAGAAATACAGGAAGTGAACCCTTAAATAATGTTGAAATAGAACAAATAAACTTTTCTGAAAATATATCATTGCCAGAATTACCTATTTTACCTGATATTCCTCTTACAGAAGAAGATAAATAAATAAAATAGTTTGATTTTTTGAATAACTAATATCAAATAAATAACATTCTTAAAATGAAGAAAGTTATTTATTTTGTTTCTGAAGATTGGGTTTTTTTAAATCATAGAATAGATTTAGTAAGAAAAATCCAAAAAAATGGTTTTAAAGTTGTACTAATAACAAAAACTAACCACCATAAAAAAGTAATAGAAAAAAAAAATATAAAAGTAATACCAATTAAGATTGAAAGAGGCAGTCTTAATATTAGAAAAACAATAAAAAATATTTTTCAACTAAATAAAATATTAAAAAACGAAAATTCTAACATTATTCATAATTTTGGATTGAAACAAATAATACTTGGTACATGTGCATCTGCATTTTCTAAAATTAAAGTAATTAATTCAGTTATAGGCTTAGGTAGTATATTCATTTCTAAAAATTTTTTTTTAAAATTCATAATAACTAATATATTAAGATTAACTTTAATACTTAAAAAATCGATAATACTAGTGCAAAATGAAGATGATTTTTCTTTTTTTAATAAAAAAATTTTTATAAATAAAAAAAATTTATTTTTAAATACAACTTCAGGAATAGATTTAAAAAAAATTACTTTAAAAAAAGAAAGTAAAGGAAAAATAATTTTTTTATTTGCATCTAGACTTATTAAAGATAAAGGTTTAATCGAATTAATTGAAGCATCAAAAAAATTATATAAATTAAATAAAAATTTTCTTTTATATATAGCTGGTCGAATAGACAGTAATAACCCAAGTTCAATAGATATTAATTACATCAAATCATTAAATGCGTTTAACTACATAAAATATCTAGGGCATATAAAAGATATGGATAAATTATATCAAAATATTCACGTTGCAATATTACCATCATATAGAGAAGGTTTGCCTAAAGGGCTTCTTGAAGCAGCTGCTTTTTCAAAGCCAATAATCACAACTAATGTAACAGGCTGTAAAGAAATTGTAAGAGATAATGTTAATGGTTATATAGTTAATCCAAAAAACATAGATGAATTAACAATTGCAATGAAAAAAATATTATTAAATAAAAAAAAAAGAATTTTAATGGGAAAAGAATCAAGAAAAATTATAAAAAAAAAATTTTTATTAGATAATACGGCTAATGATTTAATTAAAATTTATAATAATTTATTTTAATCACTCTTAATTCGCATACTTGCATTTATTGCAATACAAATTCTTGGTTTTTCACCATAATAAGTTCTTACACCATGCCTAATATAACTAGGGAAAAGATTCATTAACCCTGTTTTAGGTTTTATAAAGTGTTCTCCAGCTAATAGTCCTGGGAAAAAAGAAGTTAAATGTGATAGATTTGGATTAAATGCCTCAAATAAACCACACTCATTATCATCTAAATTATCTCCTGCATCAACATAGTAAGTGCCGGACCATGTAGACATCGGATGAATATGAGCAATATTTGAATGTCCTTTTCTATTTACATTAGCCCATCCATAAATATGAAAATCCATTGGAATAGTTTGTAAAAAATCTAATTTTTTTGTAGAAGCTTCAATCAAATTTAGAAATAAATTATATACATTTTCAATACTATTCCCACCCCAACGAAAAAAATCGCCCTCAGATTGCCAACCTCCTTGATTACTTTTATTTGTTGTTGGAATTTCTTTTTCTTTTTTTAAAATTATTTCTCTTAATTCTTTATTCATTTCATCAGTATTTTCTGATTGATATTGGATTATTGGAACTGAAAATAAATTATCGAATTTTAATTTTTTTTCATCAATTTGATTATTATCAGCCATCTAAAATAAACCCTGTATTAAACCATTTTTATCAATAAATATTGATTCAGCAGCAGGAACTTTAGGCAAACCTGGCATTAGCATAATATCACCACAAATTACAACAACAAATTCTGCTCCTGCTGATACCCTTATTTCCTTCACTGGCAAATTATGATCTTGTGGTAATCCACCATTTTCAGGATCTGCAGTAAAACTATATTGTGTTTTAGCAATGCACACAGGAAACTTCTCGTATTTTGACCCTTCTAAATCTTTTAATTGTTTTTTTGCAGTAGTACTAATTTCAATTTCTTTTGATCCATAAATTTCGGAAGATACTTTTCGAATTTTATCTTCAATAGATAAATTATCATCATATAAAGTTTTAAAATTTGATTTAGTTTTATTTAATACATCGACCACCTCATTTGCCAAATCTATAGCTCCTTCTCCTCCAAATTCCCAATGTTTACTCGTTACAGCCTTAATGCCTACTTTTTCACAAATATTTTTTACAGCCTCCATTTCTTTTTCTGTATCAGATACAAAAGCATTAATTCCCACAACAATTGGAATCCCATATTTTTTTAAATTTTCAATATGTTTTAAAAGATTACCGGAACCCTTTTTAACTGCTTCAACATTTTCTTTATTTAAATTATCTTTTTCTACCCCACCATGCATCTTTAAGGCTCTAATTGTTGCAACAAGTACAGTTGCATCTGGCTTTAAATTAGCTTTTCGACATTTTATATCAAGAAATTTTTCAGCACCTAAATCGGCACCAAATCCTGCTTCAGTAACAACATAATCAGATATTTTTAATGCGGTTTTTGTAGCAATAATTGTGTTACAACCATGTGCAATATTTCCAAAGGGACCACCATGAACAAAAACAGGATTATTCTCTAAACTTTGAATTATATTTGGTTTAATTGCATCTTTTAATAAAACGAGCATTGAGCCAATAACATTTAAATCTTTCGCTAGAACTGGTTCTTTATCACTTGTGTATCCAACAAGAATATTTCCTAATCTTCTTTCTAAATCTTTTAAATCATCAGCTAAGGTAAAAATTGCCATAATTTCAGATGCAGGCGTAATATTAAATCCATCTTCTCTTGGAAATCCATTACCCGGGCCTCCAATACTACAAATAATTTGCCTTAAAGCTCTATCATTCATATCCATTGTTCTTTTCCAGTTAACTCTTCGCGCATCAATTATCGGTTCTTTTCTCCAATTAATATGATTATCTATTGCTGCTGACAATAAATTATGGGCTGTACTAATAGCATGAAAATCTCCAGTAAAATGTAAGTTTAAATCTTCCATAGGAACAGCTTGAGCTTTACCACCTCCTGCTGCACCACCTTTCATACCAAAACAAGGTCCTAAACTTGGTTCCCTTATACAAACAGATGAATTTTTACCAATCTTACGGAGAGCATCACCTATTCCTAAAGTTGTTGTAGTTTTTCCCTCTCCTGCTGGTGTTGGTGTGATCGCAGTAACTAAAATTAATTTACCATTTTTATTTTTATTTAAAGAATTAATGTAATCAAAACTAATTTTTGCTTTATGATGTCCGTATTGTTCAAGAAATTTTTCTGATATGTTTAATTTTTTTTCAGATATATCGACTATATTTTCTAATTTAGCTTCTCTTGCAATTTCAATATCACTTTTATATTTGTTATTTTCTGCCATATTTAAATAAAAATAAAATTATTATTATAATATATGAATTTAAATTATTTTAAAAATAAAACAGCAAAAATTCTTCTTGATATTAAAGCTGTAAATATACAACCAAAAAAACCTTTTAAATTAACTTCTGGAAAATTAAGTCCGGTTTATGTTGATTGTAGAAAAATAATTAGTCATTTAAAAGAAAGAAGATTAATAATAAAAATGGGTTGTAAATTACTTAAAAAAAAAATTAATTTAAAAAAAATTGATTTTATTGCTGGTGGTGAAACTGCTGGAATACCTTATGCTTCTTGGATTTCAGAAGAATTAAATAAACCTATGATATATATTAGAAAAAAACCAAAAGGTTTTGGTAAATTATCTCAAATAGAAGGTGAAATAAAAAAAGGATCTAAAATATTATTAATTGAAGATTTATCAACAGATGGACAAAGTAAAATTAATTTTTGTAATGCAATTAAAAAAGCTGGTGGATTAATAAAAAATATTTTTGTAATTTTTAATTATGATATTTACTCAGATGATATTTTTAAAAAAAATAATCTAAAATTATATTTTCTGACAAATTGGAAATATATTATTAAAAATCTTAAAAAAAAAATATTATTACAAAAGAAGAAATATTAAAAATTGAAGAATTTTTATCAAAAAATAATTAATTTTTTTTTAAATTAATTTTTCCTTTATGTGTTGTTGAATTTTGTGCAAATGTTCTTATTGGCATTCTTCCAGCCAAAAAAGCATTTCTTCCAGCATCGATTGCTTTTGACATTGCTTCAGCCATCAATTTTGGATTTTGTGCTTCTGCTACAGCAGTATTTAATAAGACTGCATCACAACCTAATTCCATTGCAATAGCTACATCTGATGCAGTGCCGACCCCAGCATCTATTATCACAGGAATATTTGCTTTTTCTACAATTTGTTGAATATTATTTTTATTTTGAATTCCTAATCCTGAACCAATAGGAGCTGCTAAAGGCATTACTGCCGCGCATCCAATATCTTCTAATTTTTTACATATTATCGGGTCATCTGTGCAATATGGTAAGACTATAAATTTTTTTTTAACTAATTCTTTAGCAGCTGGAATAAGATTTTCAACATCAGGTAATAAATCTTCATCATTGCCTATGACTTCTAATTTGACAAAATTTGTTTTTAATGATTCTCTAGCCAATTCAGCAGTTAGAATAGCTTCTTTAATTGTATAACAGCCAGCGGTGTTTGGTAAAATAAAATATTTTTTTTTTAAAATATCTATTATATTCTCATTATAACTTTTTAAACTTATTCTTCTTATTGCAACTGTAACAACTTCTGTATTACTCACTTTCAATGCTTCAAGCATAACTTGATGATTGGGATACCTAGATGAGCCCATAAATAATCTTGAATTAAATTCTTTATTTGCGATTTTAAAAATATCTTTCATTTTTATCCACCTTTTAATGGTTGTACAATTTCAATTATATCTCCTGATTTAATTTTATAATTTGACCAATCTATTTTTTCTATTACCTTCTCATTAACTGCAATTGCAATATTGTTATTTTCGATAATATTTATTTCTTTTAAAATCATAGATAAGGTTTGAGATGTAACAAAAGTTTTTTTTCCATTAATTATTAATTCTTTTTTCATTTAATTAAATTAAAAATCTTTCTGGTTTAAATTTATTAAAATAATTATTTATTTTTCCTTCTAAATAATAATTTTTTATTGCACTAGATGTTAATGGAGCTAAGAGTACTCCATTTCTATGGTGGCCAGTAGCATAAACTAGTCCTTTTATTTTTTTTGATGGACCAATAATAGGAGCATCATCTCTAGAAGTAGGTCTTAAACCAGACCAAGATTCAACAATTGGTAAATCTTCTACAATTGGTAAAATTTCTCTTGCTATTTTTAATAAATTAAAAACACCGCCTGCTGTTAAACTTTTATCAAAACCCATTTCTTCTTCAGTTGCTCCAATAATTAAATCTAAATTATTTCTTGGTACCATATAAACATTTTCTCTCCACAAAATATGTTTTAAAAAAAAATTATTCTTTGGTATTTTTAAACATACCATTTGACCTTTGACAGGTCTTATTGGAACTTCATCTATTTCTATATTTTTAATTTGATTTGTCCATGCCCCTGAGCAAAGTATTATTTCTTTTGTTTTAATTATTTCATTCTGTGTTTTAACACCAATAACTTTATTTTTATTAGTAATTATTTTTTTTACTTTTGTATTTTCTTTAAATTTACAATTTTTTTCCTTTTTTAATATTGTAATTAAAGCATCTAAAATATAACGATTATTTACATGATGATCGCCTGGAGAGTAAAAACCAGATAAAACATTATTTGAAACATATGGTTCTTTTTTTCTAATTTGATCACCCGATAGCCAAGAAATATTAATTTTATTTTTTTTAAGAAAATTATAATTAATTTTTAATTTATTTTCTTCGTTTAAATCACAAGCTAACATTAAAGTACCCTCTTTTCTATAACCAATACTTTTTCCTGATTTAGTCTCTAGTTCTTTTGCAAATTTTGGCCAAATCATATTACTTTTTTTAAAAATTGGTAATAATTTCTTTTCACACGGCTTTAGATCTAATTTACCAGATAACATTCCAGCTGCAGCCCAACTTGCTTCTTTACCTAAACTATTTTTATCAATAACTAAAACTTTTTTTCCAATATCAGTAAGTCGCCATGCTATCGATAAACCTATAATTCCTCCTCCTATAATTAAAACCATTGTCGTATGTTAAATTTGTGTTACATTTTTAATGAAAGTAATAAATACATATTTTTTTATTATTATAATGAATTATAAGAAATTTTTTACAGATTCTATATATAATCTAAAACAATCAGGAGAGTATAGAGTATTCAGAAATATAGGAAGATTAGCTGGGTCTTTTCCTATTGCAGAACATGATAATCTTTTAAAAAAAGAAAATATAACGGTTTGGTGTAGTAATGATTATTTAGGAATGGGGCAACACCCCTTTGTATTTGAAGCTATAGAAAGAGCCATGAAAAAAACTGGGGCTGGTTCAGGCGGAACTAGAAATATATCTGGCACAAATCGTTATCATATTGCTCTGGAAAATGAAATTTCAGAAATGCATAATAAAGAGGCTTCTTTATTATTTACATCTGGTTATGTTGCAAATGATTCTGCTTTAAGTATATTAGGATCAAAATTGGAAAATTGTGCGATATTTTCAGATGAAAAAAATCATGCTTCAATAATAAACGGAATTAGAAATAGTAAAGCAGAAAAATTTATTTTTAAACATAATAATATTAATCATTTAGAAACTCTTATAAAAAACATTGATATTAATAGGCCTAAATTAATAGTTTTCGAATCTGTATATTCAATGGATGGTGATTTTACTCCAATTAAATCCTTTATAAAAATAGCAAAAAAATATAATTCGTTAACATATTTAGATGAAGTTCATGCCGTAGGACTTTATGGATCTACAGGTGGTGGTGTTGCTCAGGATCAAAATGTAATGGAAAATATTGATATTATTAATGGCACTTTAGCTAAAGCATTTGGATTAATTGGTGGTTACGTATCTTCTAGTAAAATGGTAATTGATTTTATAAGAAGTTTTTCACCTGGATTTATATTTACAACATCAATTCCTCCAGCACTTGCTGCAGGAGCAATTGCAAGTATAAGATATGTCAAAGATAACCAACAGTTAAGAGATAAATTAAAAGAAAAATGTCTATTAATTAAGGAAAAATTGTTAGCTGCCAATATCCCTTTTTTAAAAACCAAAAGTCATATTATTCCTATTATTATAGGAGACAGTAAGTTATGTAAAAAAGCAGCTGATGAGTTACTAGAAAATCATAAAGTTTATTTACAACCAATAAATTATCCAACAGTTCCAAGAGGCGAAGAGAGATTACGTATAACACCATCTCCGCTTCATACTGATCAAATGATAGAGGATCTTATAAATGCACTGGAAATTACTTGGAAAAAATTAAAACTAAAAAGAGCTGCATAAAAAAATTAAACTTAAATAAAAAAAAATCATTATTATTTAGTATATTATGAGTGATATGTCCTTAATGAAAAATAAAAAAGGTTTAGTAATGGGTGTAGCAAATGAAAGATCTATTGCTTGGTCAATTGCAAAAAAATTAAATGAGCATGGTGCAAAAATAGCATTAACTTATCAAGGCGAAGCATTGAAAAAAAGAATTGACCCTCTTGCAAAAAAAATTAATTCAAAAATTCTTTTGGAATGCAATGTTGAAAATGAAAAAGATATTTCTGAAACATTTAAAAAAATAAAAAAAGAATGGGAAAATATTGATTTTGTTGTTCATGCTATTGCTTTTTCTAATAAAGACGAATTAAAAGGCAAATATTTAAATACAACAAAAGAAAATTTTAAGAAAACAATTGATATATCATGTTATTCTTTTACATCAGTAGCTAGAGAAGCTAGTAAATTAATGAAAAACGGTGGATCTTTACTAACTTTATCGTATTTTGGTTCTGAAAAATATATGCCACATTATAATGTAATGGGTATTGCAAAAGCAGCTTTAGAATCAAGCGTAAAATATTTAGCTAATGATTTAGGAAAAAAAAAAATTAGAGTAAATGTTTTATCTCCTGGACCTATTAAAACACTTGCGGCATCTGCGATAGGAGATTTTAATTATATTTTAAAATGGAACGAAAATAATTCACCCTTAAAAAGAAATATAACTGCAGAAGAAATATCTGGTTCAGCACTTTATCTTTTAAGCGATCTATCAAATGGAGTAACAGGAGAAATGCACCATGTAGATTCTGGATATAATATTATTGGAATGAAAGATATTCATTCACCTGATATTTTTGAGAAAAATTAGAAATGCCTGGTAATAGTTTTGGAAAAATTTTTAAATTTAATACATGGGGAGAAAGCCATGGCCCTGCTATTGGTTGTACAATAGACGGCGTGCCATCAAAAATAAAAATAAATGAAAAAGAAATCCAGACCTATCTAAATCAAAGAAGACCTGGAACAAGTAAATTTGTTACGCAAAGAAAAGAAAGAGATAAAGTAAAAATTTTGTCAGGGATTTTTAAAAATTATACAACAGGTGCACCAATATCTTTCATTATTTATAATGAAGATCAGCGCTCTAAAGACTATGAAAAAATAAAAGAAAAATTTAGACCAGGACATGCTGATTTTACCTATGAAAAAAAATATGGAATTAGAGATTATAGAGGCGGTGGAAGGTCTTCTGCTAGAGAAACAGCTATGAGAGTTGTTGCTGGTGCTATAGCAAGAAAATTATTATCCTCAAAATTAGGAAAAAAATTTTTAATTCGTGGTGCTCTTATACAAATGGGATCTCTTCATATCAATAGAGAAAATTGGGATTGGAATTATGTAAAAAAAAATCCTTTTTGGTGCCCAGATTCAAAAATAACTAAAATTTGGGAAAATTATTTACAACAAATTCGAAAAAATGGATCATCTGTAGGAGCTGTAATTGAATTAGAGGCAAGTGGAATACCAGTTGGTCTTGGAGAGCCAGTTTATGACAAATTAGATGCAGATATAGCAAAAGCACTTATGAGTATTAATGCAGTTAAAGGTGTTGAAATTGGTAGCGGTTTTGCTTCTGCATTTATTCCTGGTGAAGAAAGTTCAGATGAAATAATTATGAAAAACAAAAAAATTAAATTTTTATCAAATCATGCTGGTGGGATTCTTGGAGGTATTTCATCTGGACAAAAAATAGTTGCTCGATTTGTTGTAAAACCAACAAGTTCAATTTTAAAAATAAAAAAAACAATAACTAAAAGTTTAAAAAAAACAACTGTATCAGTTGGAGGAAGACATGATCCTTGCGTTGGTATTAGAGCAGTTCCAATAGGTGAAGCGATGCTTGCTTGTGTTTTAGCAGATCATTTTTTAAGAAATAAAGTTTTTCAAAATTAAATTAAATCAATTTCTTTTTTTGAATAATTATTTCCAAGTGTTTGCAGGGCACAATGAACTATATCTTTTGATAATAAATTTGCTTCCTCATACTGATCTTCAGGTTTACCATGAGGCAAAAAAATATCAGGAAAAAATAGTGATCTAAATTTTAAACCCCTATCTAATAAAGAAGCATCTGTTAAATATTTAGTAACATGAGAAGCAAAACCACCAATTGATCCTTCCTCGATAGTTATAAGAGTTTCATGTTCCAAAGCCAATTGTTTAATTAATTTAGTATCTAAAGGTTTACAAAATCTAGCATCAACAATTGTTGTAGATAGCCCTTTTGCTTTTAATATCTCCGCGGCTTTTATCGCCTCATAAAGTCTTGCGCCATAGGACAAAATTGCTATTTTACTTCCTTCTTCAATAATTCTTCCCTTTCCAATTTCTAAAGGTATGCCTTCATTAGGTATTTGAACTCCGATACCATCTCCTCTAGGATATCTAAATGCTGAGGGGCAATCATTTATTTGAGATGCTGTAGCAACCATATGCACTAATTCTGCTTCATCAGATGGTGCCATTAAAATAAAATTAGGTAAACAGCCTAAATAAGTAATATCAAAAGATCCTGCATGAGTTGCTCCGTCGGCTCCAACCTGCCCTGCTCTATCCATTGCAAAACGAACAGGTAATTTTTGTATAGCTACATCATGAACAACTTGATCATAAGCTCTTTGCAAAAAAGTAGAATAAATTGTTGCAAACGGTTTGAAACCTTCTGTTGCAAGTCCAGCTGCAAATGTAACAGCATGTTGTTCGGCAATACCAACATCAAAAGTTCTGTTAGGAAATCTTTTCCCAAATAAATCAATTCCAGTTCCACCTGGCATTGCTGCAGTGATTGCTACAATTTTCTTATCCTTTTCTGCTTCATTAATCAAACTATTAGCATAAACTTTAGTATATGATGGGGCACTAGATTCAGATTTTTGCTGAACTCCAGTTGCCACATTAAATTTATTCACACCATGATACTTATCATCAGATTTTTCAGCAGGCTCATATCCTTTTCCTTTTTTTGTTACACAATGTATAAGGATCGGTCCTTTATTATATTTTTTTGCATTTTCTAAAACTAAAATTAAATTATTTAAATTATGTCCATCAATTGGTCCAACATAAAAAAAACCTAACTCTTCAAATAATGTTCCTCCAGTTACAATACCTCTAGCGAATTCTTCTGCTTTTTTTGCCGCTTTGCCAATTCTTTCAGGAAAAGTCTTAGAAACGATTTTTCCACTTAAATTTTTAAAAGACTGATAAGTTCCTGATGAAATAATTCTGGAAAGATAATTACTTAATGCTCCAACAGGTGGAGCAATAGACATATCATTATCATTTAAAATAACTACCAATCTAGATTTTTCAGAACCTGCATTATTCATTGCTTCATATGCCATTCCTCCGCTCATAGCACCATCACCAACGACGCAAATTATATGATTTTTTCTTTTTAGTAAATCTCTTCCTATTGCCATCCCTAAACCAGACGACATTGCAGTAGATGCATGGGCTGCTCCAAATGGATCATATTCACTTTCTGATCTTTTAGTGAATCCATAAAGTCCATTTTTTTGCCTCAATGTTCTAATCTTATTTCTTCTACCTGTTAAAATTTTATGAGGATAAGCTTGATGTCCCACATCCCATACAATTCTATCTTTAGGAGTTTTAAAAACATAATGAAGTGCAACTGTTAGCTCAATAACACCAAGGCTAGCTCCTAAATGTCCACCGGTAACAGAAACAGCATCAATTGTTTCTTTTCTTAGCTCGTCTGCTAATTCAGATAATTTGTTTTTTGGTAATTTTCTAAGATCACTTGGAAATGTAACTTTGTCTAAATTCGGAGTCTTGCTATTACTATTATTCATAAATATGTATTATATTAATTTATTTATTTCTTTCTACAATAAATCTTGCAATATCTCTTAAAGATTCAGCTTTTTTACCAAATATTTCTAAATGTTTTATCGCCTGATTTGATAAAAATTCTAATTGTTTTTCAGCTCTTTCTTTTCCTAATATTGATACAAAATTTTTTTTTCCAGCATTTTTATCCTTATTAGTTTTTTTTCCTAATTTTTTTGTTGTACTTATAACATCCAACAAGTCATCTCTAATTTGATATGCAAGACCTATATCATGTGCATAACCTTGTAGAGCAAATTTATCTTTATCACTTGCCCTTCCTAAAATAGCACCTGCATTACAAGAAAAAGCTATTAATGCTCCTGTTTTTAATCTTTGAATTCTTGTTATAATTCCAATACTTAATTTTTTTTTCTCTGCTTCTAAATCCATTACTTGCCCTCCGACCATTCCTAGAGCGCCTGCCGCTTTTGCTAATTCAAGAATTAATTCACATCTTATATTTGGGTCGCTATGAGTTAAAGGATCTGATAAAATCTGAAAAGATAATGTAAGCAAAGCATCACCTGATAAAATTGCAGTTGCTTCATTATATTTTTTATGTGTTGTAGGGGCTCCTCTTCTCAAATCATCGTTATCCATTGAAGGCAAATCGTCGTGTATAAGTGAATAAGCATGTATCATTTCTATTGAAGATGCAGTTCTTAATGCATATTTTTCATCAACATCAAATAATTTAGAGGATTGGATTAGTAAAAAAGGTCTTAATCTTTTACCATTTGATAATATTGAATAATTCATTGCCTCAAATAATTTTTTTTCTATACCTCTACCATTTGGCAATAATATTTTAATCATTTTGTCAACATCGTTCTGAATTTTCATTAAATCTTTTTGTAAATTACTCATTTTATTTTTTTTCAATTTTATTTTTTTCATCAATTAAAACTGAATCATCTAATTTTATTTCATTAATTTTTTTATTAGCTTCTTCTAATTTTTTTTCACAAT
>sequence31
GAATGTTACAAATGTTTAAAAAGAAAAAAAAATAAATGGAAAATTATTCAATACTTGCATATTTAATCTCTGGAATTTTTTTTATTTTAGCTCTTAGAGGATTGTCTTCACCTGAAACAGCAAGAAGAGGAAATATTTATGGTATTTCAGGAATGGTAATTGCAATAATTACTACATTACTTTTACCTGGAATTGAAAGTTATGGATTAATAGCTTTAGGTATTTTAATTGGTGGTATTATAGGTGCTTCTATTGCTTTAAAAATTGAAATGACAGCTTTACCTCAATTAATAGCTGCTTTTCATAGCCTAGTTGGACTTGCTGCAGTTATGGTCGCTGGTGCCGCTTTTCATAATCCAAGTGCTTATGGAATTGGAGATACGGGAAATATACCTATTGCTAGTTTAATTGAAATGAGTTTAGGATCATCAATTGGTGCAATTACTTTTTCAGGATCAATAATTGCTTTTGGAAAATTACAAGGAATTATGTCAGGTAATCCTATTACTTTTAAATTTCAACATTTTTTAAATGCTATATTAGGCATTACTTTAATTTTTGTAATTACTTTATTTTGTTTAGAACAAACACAAAATTTTTTTTGGGGTTTAACTATTCTTGCTTTTATTATTGGATTTTTAATTATTATTCCAATAGGCGCAGCAGATATGCCAGTAGTTGTATCTATGCTTAATTCTTATTCTGGATGGGCAGCATGCGGTATTGGATTCACATTATCAAATAATTTATTAATTATAACTGGCGCTTTAGTCGGATCTTCAGGAGCCATACTTAGTTATGTAATGTGCAAAGGAATGAATAGATCATTTATAAGTGTAATATTGGGTGGTTTTGGTGGAGATGACGTTAGTGCAAATGAAAAAAAAGAAGTTGAACAACGTCCAGTTAAAAGTGGTGATTCAAATGATGCAGCATTTATGATGCAAAATGCAGAATCTGTAATAATTGTACCGGGATATGGTATGGCAGTTGCTCAAGCTCAACATGCTTTAAAAGAAATGTGTGATATTTTAAAAAAAAAAGAAGTTAAAGTTAGATATGCAATTCATCCGGTAGCTGGAAGAATGCCAGGACATATGAATGTATTACTTGCTGAAGCAAATGTATCTTATGATGAAGTTTTAGAATTAGATGAAATTAATAGAGATTTTGCATCTACCGATGTAGTTTTTGTAATTGGTGCTAATGATATTACAAATCCAGCAGCTAAAACAGATCCACAGAGTCCAATATATGGTATGCCAATTTTAGAAGTTGAGAATGCAAAATCAGTTTTATTTAGTAAAAGATCACTTGGTGCTGGTTATGCAGGTGTTGAAAATGAACTTTTCTTTAGAGATAATACAATGATGTTATTTGGTGATGCTAAAGAAATGTGCGAAAGTATAATTAATGCCTTAGGTAAATAAATTTTTTTTTTCAACTAAATCCCAAAATTTTTTTTCTATTTTTATATTTTCTAAATTATTTATTTCAATGATGCCTGTTGGAGAAGTTATATTTATTTCAGTTAAGTAATTTCCAATTATATCTATTCCTGCAAAAAAAATTTTTTCTTTTTTTAACCAAGGCTTTATTTTTTTACAAATAAATTTATCTCTATCTGTTAAAGTTGTTTTTTCAGCAGTTCCCCCACGACTTAGATTAGCTCTAACTTCATTTTTTGCAGGCACTCTTTTCATTGCACCTACAGGATTTCCATTAAGAAGAATAACTCTTTTATCTCCCTTAGTAACTTCAGGCACATATTTTTGGACAACAATTGGAAGTTTTTCTTTTTTTAAAATATTTTTTATTTTTTTATTTATATTTTTATCATTTAATGAAATTTTGAATATTCCCTTACCACCTTTTTCATAAAGTGGTTTTATAATTAAATTTTTATTTTTTTTTATATATTTTTTTATTTCATTTTCATCTTGTGAAATTAATGTTGCTGGTGTTAAATTTTTAAAAAAAGTAACATATAATTTTTCAGGGGCATCTCTTATACTTTTAGGATTATTAATGATTAATGTTTTAGAATTTAAATGTTCTAATAGATATGTAGCAGTTATATAATTCATGTTAAAAGGAGGATCTTGTCTAATTAATAAAACATTAATTTTTGATAATTTAATTTTTTTTTCTTTACCCTTTTTAAATAAATATTTTTTTTTTTTAATTATTTTTAAAGATATTGCATTTGTAAATAATTGATTGTTTTCCAAATGTAGATTTTTTGGTTCATAAATGAATATTTTATGCCCTCTATCTTGAGCTTCCTTTGCCAAAATTAAAGAACTATCAGATTTATGATGAAGCTTATTTAAAGGATCCATTTGAATTGCAATTTGTAATTTATTCATCTTTTTTTTGGAATTTTCTTTGATATTTTTTTCTTCTAGGATCATTTTTTAAAATTGCGTGACTTGTAACTTTTATAACTCCTTTTATCTCATTGGCATGTTTTATAACTTTTTTTAATTCATTTTTATCTTTCGATATACCAATAATAAATAAATTTCCATTAACACATTCAAAATTATAATTAATTGATGCAATTTCTTTGTCTGAAATTACTTTATACCTCATTTGTGTTTTAATTTTAACATCAATTATATAATTTTTAATACCACCTTTATCTGTTACATCTATTTCATTTATAACTTCTCTTACGCCCAAAACTTTCCATGCCAATTTTATAGCATCAAGTCTATGTTTAGTTTTTTTGACACTTCCAGTTAATAATACTCTTCCTTCAACAACTTCTATTTCAATATTTATAAACATATTTACATCATGATTTATAAATTCTTTATTTATCCCTGCATCAATCATTCCATCACTTATTGCTTCTTTAATTCCCTTTTCTTTTACACTGGAAGTTGTAACGTTAATTGCAGTACATGAATTCATAGTAATAATTATAGAAATTATAAAAAATATGTTTTTGAATATTACTTTCATAAATTAATAAACTTATTATCTGATACTTTTAATTAATTTTGAATAAAAAAATTTTTTTGGTTTTTTATAAATTATAGATAAAAGTTCTGATAAATCCTTTGTACTGAGTTTTTCTTTTGTTAAAGATATAATTTTTTCAATTTCGTTAGTAAATAATTCTACATTTATTTTTTTTTTGGGTGCAATAAGTACTGTAATCTCTCCTTTAAGTTTTTTTTTCATATTTTTAAATTTAAGCAAATCTCCTCTATAAAATGTTTCATAATATTTTGTTATTTCTCTAGCAATAAAACATTCTCTATTCCCAAATATTGAATATATTTCTGATATTGTTTCTTTTATTCTATTTGAATTTTCATAAAAAATTAAAAGAGAATCGTTTTCTTTTAGTTTATTTAATAAATTTTTTCTTTTATTAGTTTTATTTGGTAAAAATCCTATAAAAAAAAATTTATTAGAAGCAAGCCCAGATACTGGAATGGAAGAAGTTAAAGCACTAGCTCCTGGAATCGGAGAAATAGTAATATTATTTTTTATTGCTAAATTAACAATTTCATATCCAGGATCTGATATTATCGGGGTTCCTGCATCACTTACTAAAGAAACAGAACTCCCATCTTTTATTTTTTTAATTATTGCTATTATTTTTTTTTGTGAAGTATGATCGTGCATTGATATCAAATTTTTAGATTTTATTTCATATGCTGATAATAATTTTTTTGTAATACGAGTATCTTCACAAGCAATATAATTAGAATTTTTTAATATAGTTAATGCTCTAATAGTAATATCCTTTAAATTTCCAATTGGAGTAGAAACAATATATAATCCAGGTGGTAATAAAATATTGTCAATTGTTAACATTTAAACTAGATATAGAATTATGTTTTTAATAAAAAATTTTTTTAAATTATATCTTACATTAACTAGTTTTTATTTAATATTTTTTTTCAATATTCAATTTATTGCTACAGCAGCTGTTTTAACTGAAGAAGATATTAAATATATAGAATCAATGGATGATAAAGATGATAAGGATTTATATATTAAATATGAAGATATAGAAAAGAAAAAAAAATTAAATCCGTTTAATTTTTTTAATAAATCTAATAAAAAAAAACTAAAAAAAAAGGAAATAGTTAAAAAAGAAAATAAAATTATTTCTGAGAAGCTTAAAATTGGAGTTTTATTACCATTAACAGGAGAATTTTCATATATTGGTCAATCTTTTTTAGATACATTACAAATGGTAATTTATGAAAATAAAAATATAGATAGTGAACTTATAATTAAAGATACAAAAGCAAATTCTTCTATAACTAAAAAAGTTACTAAAGAACTAGTTAATGAACAAGTTGATGTTATTTTAGGGCCTTTTTTTTCTAAATCTTTTAAAGAGGCAGCACAAATTGCTAAACATCAAAATATTCCTTTAATATCTTTTTCAAATGATTTCAAAATTAGAAAAAAAGGAACATATATAATGGGATTCGAACCTGAAAAACAGATTAAAGATGTTACAAATTATACTGTAAAAAAAAATTATAAAAGATATGCAGCTTTATTACCAAATAATAAATATGGTAAAAGAGCTTTGAGCGTTTATAGACAAGTTTTAAACAATAACAAAATATTGTTAAGTAAAGTAGAATTATATAATTCTAATAATTCAGAATTAGAAAAAAATATTCAAAATTTAGTAGGCTTAGATAAAAATCCTCAAATTGAAAAAGATGAAGAAAGTGGTGAAAATCCAATAGAAAATTTTGATCCAGGGTTTGATGTATTACTTTTAGTTGAAACTGGAAATACTTTGAGAGAGGTAGTTGCACTTTTGACTTATTATGGTGTTGATTTTTCAAAAGTAAAATTAATAGGAACAGGAGAATGGTTTGTTGAAAATATAGGGGCTGAACCTGGTTTATTAGGAGCTTGGTTTGTGGCGCCTAACCCTAAGTTATGGAATAATTTTAAAAAAAAATTTAATAAAATTTATGGTTATAACCCTATAAGATTATCTTCATTAGCACATGATTCATTAACTGCAATTATTTCTATAGTGAGAAAAAATGATAATTTTTATGAATTAAATTATGATGATTTTGATAATATAATTGGATTTACAGGAATAGATGGTGATTTCAAATTTTTATCAAATGGAACTGTTGATAGAAAACTTTCAATATTAGAAATAAAAGAAAAAAGTTTTAAAATAGAAAAAATAGCAAATAAAACAAATTTTTAATTAAAAAATTTTAACATTTTTTTAAATGCTATCGCTCTGTGACTTATTTTATTTTTAATTTTTTCGGAGAGTTCAGCAAATGTTTTATTATATCCACTAGGAATAAATATTGGGTCATATCCAAAACCAAAATTTCCTCTTGGTGGCCATGTTAAACTTCCAAATATTTTTCCTGTAAATATTTTTTCTTTATTTTTATTCCATGTAATTGCAAGAACAGAAATATAATAAGCATTTGTTTTTTTTGTTTTTGGTAATAAATTATTAATTTTTGTCATCGCCAAATTAAAATTTTTTTCCTTTCCTGCCCATCGTGCAGAATATATACCTGGTTTTCCTTTTAAAATAGGTATAACTAATCCTGAGTCATCAGCTATTGATACTTTTTTTGTTTTATTATTTACATATCGAGATTTTTTTAATGCATTTTCAATAAATGTTAAACCATCTTCTTTAGGTTCTTTTAAATTAAAATCTTTAGCTGTAAATATTTTTGTTTTTAATTTTTTAATAAATGGTTTCATTTCTTTTATTTTTCCATCATTATGACTGGCAATTATTATTGATTTTATTCTTATATTTTTTTTCATAGATATTGAACTTTTAGATAATTTTCTTACATACAATTTAAATATAATTAGAGATAAATAATGGATAAATTAAAAAAAAACAATCAACAGAGTAATGAAAACAATAAAAAAATAAACATAAAAAATAAAATAAATTTAAAAAATAATAAACAAGACTCTAAAAATGAATTAAAAAAAGTAAAAGAAGAAAATTTACGTTTATTAGCAGAGATTGATAATTTAAGAAAAAGATTTGATAAAGAAAGAGAAGATACTTTTAAATATGCTGTTACAGAATTTGCTAATGAAATAATTTTAGTAGCGGATAATTTCGGCCGTGTTATCGATAGTATAAATTTAGTTTCAAAAAATGATGATAATAACATTAAATCTTTTACCGAGGGTGTAGATTTAATTTATAAAGATTTTATTAAAACTTTAGAAAAGTTTGGTATTAAAAAAATTGATTGTTTAGGAAAAAAATTTGATCCAAATTTTCATCAAGCAGTTTCAGAAGAAGAAACAAATGCTAAAAATAATGGTGAAATCATTAAAATTATACAATCTGGATATTTAATAAACGATAGATTATTAAGACCTGCTTCAGTAATAATTGCAAAAAAAGTAGAAAATAAAAAAAAATAATTTTTTTTTACTCTTGCACTTGTACATCTAGTTTTAAGCTATTATATAGATCACCAGTTATAACAATTTATAAAGGAAAATATAAAAATGAGCAAAATAATAGGTATTGATTTAGGTACAACAAATTCATGCGTTGCAATTATGGATGGTAAAACAACTAAGGTTATTGAAAATACTGAAGGTTCAAGAACTACTCCTTCTATGGTTGCTTTTAGTAAGGATGGTAAAGAAACGTTAGTAGGACAGGCAGCTAAAAGACAGTCTGTAACAAATCCAGAAAATACTTTGTTTGCTGTAAAAAGATTAATTGGAAGAAGAATAGATGATAAAGAAGTAGAAAAAGATAAAGATTTAGTACCTTATAAAATTGTATCTGGTGATAATGGTGATGCTTGGGTAGAAGCAAATGGGAAAAAATATGCTCCTTCTCAAATTAGTGCTTTTATTTTGCAAAAAATGAAAGAAACTGCAGAAAAACATTTAGGTCAGGAAGTTAAAGAGGCTGTTATTACTGTTCCAGCATATTTTAATGACTCTCAAAGACAAGCTACGAAAAATGCTGGTAAAATAGCAGGGTTAGATGTTAAAAGAATAATTAATGAACCAACAGCCGCTGCTTTAGCTTATGGTCTTGATAAAAAAAATGCTGGAACCATTGCTGTATATGATTTAGGTGGAGGAACTTTTGATATTTCTATTCTTGAACTTAGTGACGGTGTTTTTGAAGTAAAATCAACATCTGGAGATACTTTTTTAGGTGGAGAAGATTTTGATAATAGAATTATAGATTATTTAGCAGATGAATTTAAAAAAGAAAATGGAGTTGATTTAAGAGATGATCCTTTAGCAAAACAAAGATTAAAAGAAGGAGCAGAAAAGGCAAAAATTGAGCTTTCAAATTCTTCTCAAACAGAAATTAATTTACCATTTATTACAGCAGATAAATCTGGACCAAAACATTTAAATGTTACTTTATCAAGATCAAAGCTAGAATCTCTAGTTGAAGATTTAATTGAAAAAACAGTTCAACCTTGTGAAACTGCTTTAAAAGATGCAAAAATGAGTCCTAGTGATATAAAAAGTGTAATTTTAGTCGGTGGAATGACTAGAATGCCAAAAGTAATAGAAACAGTTAAAAATATTTTTGGGAAAGAACCTAATAAAGGAGTTAATCCGGATGAAGTAGTTGCAACCGGAGCTGCAATTCAAGCAGGTGTACTTCAAGGTGATGTAAAAGATGTATTGTTACTTGATGTTACTCCGTTAACCTTAGGTATCGAAACTTTAGGTGGAGTTTTTACTAAATTAATTGATAAAAATACAACTATTCCAACAAAAAAAAGCCAGGTATTTTCAACTGCTGAAGATAATCAATCGGCAGTAACAATAAGAGTTTTTCAAGGTGAAAGAGAAATGGCCGGTGATAATAAAATTTTAGGTCAATTTAATTTAGAAAGTATCCCTCCCGCACCAAGAGGCCTGCCTCAAATCGAAGTTACTTTTGATATTGATGCAAACAGCATTTTAAATGTTTCTGCTAAGGATAAAGGAACTAACAAGGAACAAAAAATAACTATTAAAGATTCTGGAGGTCTTTCAGAAGAAGAAATAGAAAAAATGGTTAAAGATGCTGAAAAACATGCTGAGACAGATAAAAAAAAGAAAGAAGTAGTGGAGTTAAAAAATCAAGCAGATTCTTTGATTCATGCAACAGAAAAGAGTTTAAAGGAACATGGATCTAAAATTAGTTCAGAAGAAAAGAAAAAAATTGAAAATAGCTTAGAGGCTCTTAAAAAAATTAAAGATAGTGATAATAAAGAAGAATTAAAAGCTAAAATAGATGCATTAACACAAGCTTCAATGAAATTAGGTGAAATAATTTATAAAGAAGCACAACAAGAAGCACAAAAACAGCAACAGCAAAAAAGTACTAAGCCACAAAGAAATGATAAAGCTTCTAGTGGAAAAAAAGATGAAAAAGTTGTTGATGCTGAATTTGAAGAAGTAAAAAAAAAAGATAATAAAAAATCGGCTTAACTCTTATTTTTTTAGCAATAAGTTCTTATATCTTTAATCATGTCAAAAGAAGATTATTATGAAATATTAGGTGTTACTAATTCCTCAAGTGAAGATGATATTAAACAAGCTTATAGAAAAAAAGCAATGAAATATCATCCTGATAGAAATAAAGGGGATAAAACAGCAGAAAAAAAATTTAAAAAAATTAATGAAGCTTATTATGTTTTAAAAGACCAAGAAAAAAAAGCCCAATATGATCAATTTGGTCATAAAGCATTTGAAAACGGAGGGCCTGGATCTCAAGGTTTTAATTTTAGTGAAGGTGGTTTTTCAGATATTTTTGAGGAAATGTTTGGAGGATTTGATGATGATATAGGAAATATTTTTGGTGGGGGACAAAAAAGAAGTAGAAATAGAACTAATACCCAAGAATATGGTTCAGATTTAAGATATGATATGGAAGTTTCTTTAGAAGAAATTTTTTCAGGAAAAAAAATTGTGATACATGTTCCAAATAAAATCAAATGTAAAAATTGTGAGGGTAAAGGTTATGAAGCAGGTTCGAAACCAGAAACATGCCCTACTTGTGAAGGACATGGAGCCGTTAGAGCATCGCAAGGTTTTTTCACGATTCAACAAACTTGTCCAGATTGTAGAGGAGCTGGTCAGATAATTAAAAATCCTTGTAATGATTGTAGTGGTACAGGAAGAGTAGATAAAAAAAAAAGTTTGTCAGTAGAAATACCAGCGGGTATTGAAGATGGAACTAGAATCAGATTATCTGGAGAAGGTGAGGCGGGATACAGAGGTGGACCTGCAGGGGATCTTTATATTTTTATAAAAGAAAAAATTCACTCAATATTTAAAAGAGATTCTGAAAATTTGTATTGTAAAGCACCAATCCCAATGACAATTGCTACTTTAGGGGGAAATATTGAAGTACCAACTTTAGATGGATCATTAGTAAAAGTTAAAATTCCTTCAGGAACGCAGTCAGGTGATAATTTTAGATTGTCTAATAAGGGAATGCCAATAGTAAAGCAAAATAATAGTGGAGATTTATTTTTAGAAGCTTTCGTTGAAACTCCTGTGAATTTATCATTAAATCAAAAAGATTTGCTAAAAAAATTTGAAAGTGATAAAAATAAAAAAGGCGTAAGTCCACAATCTGAAAATTTTTTTACTAGATTAAAGGATCTTTGGAATAAAAAATAATATATAATTAGATTATGAAACAAATTAAACTTGCAATAGTGGGCGGTGCTGGACGTATGGGTCAACAGATTATTGAAGAAACTAAAAATTTTAAAAATATTAATTTAGTATCAATTATTGAGAATAAAAATTCTATTTTTTTAAATAAAAAAATAAATAATATTAAAATAGAACATAATAAAGAAAAATATTTAAACGTAGCAAATACAATTATAGATTTTTCTTCACCTAAAAGTACTTTGGAAACATTGAAGTATGCTGAAAAATTAAAAAAAAAATAAGTGATTGTAACAACATGATTAAATTCGAACCAACTAATCAAAATAAAAAAAGTATCAAAAAAAATTCCAATTATTTATGCTCCTAATATGAGTATCGGAGTAAATTTATTAATTGAACTTGTAAAACAAGCTTCAAATATTTTATTTAATAAAGAAACTTCTATTGAAATTTTAGATATTCATCATAAGCATAAAAAAGACGCACCATCAGGCACAGCCCTTGCTTTAGGAGATGCTGTTAGTAAAGTTAAAAATTTAAATTTGTTAAAGAAATCTAATTTAAAACCTAATAAAATTAGAAAAAAACAATCTGGAAAAATTAATTTTTATTGTGAAAGAAAAGGTAATATTGTTGGTGATCATTCTGTAATTTTTAATAACAAAAAAGAAGAAATTGAATTAAAACATAGAGGTTTAGATCGTTCCATTTATGCAATAGGAGCAATTAAAGCAGCCATATGGTTATTTAAAAAAAACAAAGGATTGTTTAAAATGTCTGATGTTTTAGGTATTAGTTGATTTTTTAACTAAATAAATACCAGTTAAAATAAGTAAAAAGCTTAAAATTTGATTTGAACTTAGAGTTTCATTTAAAAAAATATACCCCCAAATTATAGCAACAAATGGAGTAATAAAATTAACTGTTGAGGTAAAAGCAGCACCTGAAATTTTTATTAGTTTAAAAAAAATTAAACCACCAATAGCAGTATTTAAAATTCCTAAAACTATACCAAAAAATACACCCTCATGTGTTGCTGTTATATTTGAAGGGTCATCAAAAATTAAAACTAAAGGTATTAAAATAAAAAAAGCTAAATATGTTGATCCAGTTAATATAAATAAAGGATTAAATTTTGGTATTCTTCTTGTATAAATTGTTGCAATAGCAAAACTAATTGAGCCTATAATAACAGCAAATTGGGATTCTAAATTTGTATTTGTTCCTTTTGATATCCCTAATAAAAAATATAAGCCACCAAATCCAAGAAAAATTCCTAAAAAAGTATTAAGATTTATTTTTTCTTCTTTTACAAAAAAATAAGCTAAAAAGACTGTAGTAATTGGCATTAATCCCATAATTATACCTGTTACATTTGTATTAATCGAAATTTCAGCCCAACTCACTAAAAAAAAAGGAAATACATTTCCAAATATAGCAATTACAAAATAATTAAAAAAATCTTTTTTTATTGGTAAATTTAATTTTTTTATTTTAAAAAAAAGAAATAAACAAAAGGATGCAACTGACATTCTTAATAAAACTGCAGTTAAAGGTTTCATTGATAGAACAGTAAATTTAATAAATAAAAAAGAACTCCCCCAAATTAATCCTAAAAAAAAAAGTAATAAAAAACTTAATGTATTTTTATTAATTTGTGACATTTATTTTTGTGTAGTTAAAATTATTTTTTTTTAATGCTTTACTTAATGATTTAACAACATTGATTTTTTCCTGATGAATTAAAAAAGATCCAATAATTATTGATTTATTTTTAGAAGATATTTGTAGTGTGCTATTTTTATTTTTTAATTTTATTAAATTGATCTTTAACCAATTAGGATTAAATTTATATATTTTTTTTATTATTTTTGAATTATAAATTTTTATTATTAATTCATTTTTTTTTAAAATTATAATTTCTTTTTTTTTTCCACTATTAAAATTTATTTTAAAAAAAATATAAATTAATAGTACATCTAAACCAAAAAATCCGAAAACAGGCCAGGCACCAATTGATATAAACATTATTCCGGCAAAAAAACTAAAAAATGTTAGAAAAAACATTAAAATTAAAAAACCAATTTTATTTAAACTTCTATGTGGATATAAAATTATTTGGTGAAGATTATTTCTATTGAACATTTATATATAAAAAAAAATTTAGCTTAATATACTTTAAGATTAAATAAATGCTAATCATATTTATTATTTGTAAAAAAATATGAAACAAAAAAATATAAATACTTTTTTTCAGAGACTTTCAAAAAAAATTCCAGATCCAAAGTCAGATTTAAAATATACGAATAATTTTACTTTATTACTTGCAGTTGTTTTATCAGCTCAATCAACTGATAAAGGTGTAAACAAAGCAACAAAAAAACTTTTTTTATTAGTTAATAATCCTAAAGATGTTATAGATTTAGGTTTAAGTAAATTAAAATCATTAATTAAAACAATTGGTTTATACAATTCGAAAGCAAAAAATATTATTAATTTAAGTAAAATATTATTAAAAGAATATAAAGGAAAAATTCCAGCTACTAGAGAGCAATTGGTTTCTTTACCGGGAGTAGGAAGAAAAACAGCTAATGTTGTACTTAATATTGCTTTTAATAAATCTACAATTGCGGTTGATACTCATATTTTTAGAGTATCTAATAGAACAAAACTAGCTCAAGGTAAAAAACCTATAGATGTAGAATTGGGATTAGAAAAAATTGTTCCAAAAAAATATAAAAAAAATGCCCACCATTTATTAATTCTACATGGAAGATATGTTTGTAAAGCAAGGAATCCTGAATGTAATAATTGTGTCGTAAATGATTTATGTTTATTTAATAACAAACTTTTGAGAAGAAAAAATGCAACAATTTGATCTTTTAGGCATTGGCAATTCAGTTGTAGATGTTTTATATAAAGTTGATGAATCATTTATAAAAAAAAATAATCTTGAAAAGGGTGTAATGACATTGATAGATGAAAACAAAGCTCAAGAAATTTATACATCTTTAAAAAAAGGTTTAGAAATTGCAGGAGGTTCTGTTGCAAATTCAACGGTTGGATTTGCACTCCTATCTGGGAAACCTGCTTTTATTGGAAAAATAAAAAATGATAATTTAGGAAAATCATTTTCTAAAAGTTTATCTATTAATAATGTATTTTATGATACCCAACCTATTTCAGAAGGCCCCGGAACTGCAAGATGTTTTATTTTTGTGACTCCAGATGCACAAAGAACTATGAATACCTATATTGGCGCTTGTTCACTTTTAAATCCTGAAGACATTAATGAAAAGTTAGTTCAAAATTCAAAAATTATTTATCTTGAAGGTTATTGCTGGGAAGAACAATTAGCAAAAGAAAGTTTGATAAAAGCTGCTGAAATTGCACATAAATCTGGTAATAAAGTTTCTTTAACATTATCAGATCCTTTTTGTGTTGAAAGACATAGAAGTGAATTTAAAGAATTAATAAAAAAACATATAGATATTTTATTTGCTAATGAAGAGGAAATAAAAAAATTGTATGAAATAGATAATTTTGATGAAAGTGCTAAGGAAATATCAAGTATCACAGAAATTGCTGCTCTTACGAGAGGTAAAAAAGGAGCAAAAATTTATAATAATAAAGAAGTTATTGAAATAAAACCTAAAATTTTTGGTAAAGTTACAGATACAACAGGTGCAGGGGATTTATTTGCAGCTGGTTTTTTGTATGGAATTTCTAAAAAATTTTCAATATTAGAAAGCGGAAATATTGCATCAATAGTTGCAGGTGAAATAATTAGTCATTTTGGAGCTAAACCAGAAACCGATCTTAAAAATTTGATAAGTAAAGAATTAAAATGATCTTATCTAAACAATTAAAAAATTTTTCTATTTATACTAATAAAAAATTGTTGGTAATAATGCTTTTAGGATATGCTTCAGGACTTCCTCTTTTACTTACGTTATCAACACTTTCAGTTTGGTTATTTGAAGTTGGTGTAACCAAAACA
>sequence32
ATAGATAAACCCATTACTCCAGAGAATATCCAAAATACAGTTTGAGCAGTAGCAAAACTAATTTTGTGCAATCTTGCACTTAAATAAAAGACAAAACCAAGAGGTGCTAATGCAACTATCCAATATAAAGGAGTTCCATAAATAGCATTAAATAAACTTGGTGTAATAGCAACAAAGTAAGCTGTTAAACCAGTTAATCCGAGTCCTGTAGCCATATAGTTATAAACTTTAAGCATGTAGCTTCTAAGGCCTTGATCAACTTGAGCCTCCGATTTAGTTGCTGTAGAAAAGTTTCTATCAATCATAATTTTTCCTTAAAAAACATTTGAAAGTATAAAAAATATCATAATAATACTGTAACATTAATAATGTAAGATTAATTACAATTTAATCAAAATTTTATTACGATGCAATTTAAAAAATTAGGAAATACAAATATAGATGTAAGTTTGATTTGCTTAGGAACAATGACTTGGGGGGAGCAAAATACTAAAGAAGATGCATTCGAACAAATGAATTATGCTGTTGAAAATGGTATTAATTTTTTTGATACAGCCGAATTATATGCTGTTCCACCAAAAGAAGAAACATATGGAAGAACAGAATCTTATATCGGAGAATGGTTTGAGCAAAAAAAAAATAGAGATAAAATTATATTAGCTTCTAAAGTAACAGGAAGAAGTGGAATGAAATGGATGAGAGGAGAAGAAACTAGATTAGATAAAAAGAATATTACTAAAGCATTAGAAGAAAGTCTCAAAAGATTAAAAACAGATTACTTAGATCTTTATCAATTACACTGGCCAGATAGAAAAACTAATTTTTTTGGACAATTGGGCTATGAGCATGATGAAGATGATGAATCTATTCCTTTGGAAGAAACTTTAGAAATTTTAAATGAAATTGTAAAAAAAGGTATGGTTAAGTATATTGGTATTTCTAATGAAACACCTTGGGGTGCAATGCAATTAATTAAAATTGCAGAAGATAAAAAATTAGCAAAAATTGTTAGTATTCAAAATCCTTATAATTTGTTAAATAGAACTTATGAAGTAGGTCTGGCCGAAGTATCTGTTAGAGAAAAATGTGGATTATTAGCTTATTCCCCTTTGGGTTTTGGTGTTCTTAGTGGAAAATATTTAAATAATCAATGGCCGGAAAAAGCTAGATTAACTTTATTTAAAGAATTTACAAGATACCTTAATCCAATTGCGACCAAATGTACGGAAAAATATGTTAAAATTGCAAAAGAAAATAATTTAAATCCTTCACAAATGTCTTTAGCATATATTAATGCAAAACCATTTGTTACTAGTAACATTATTGGCGCTACTACTTTAGATCAATTAAAAGAAAATATTGAAAGTATAAATATTAAATTAGATAAAAAAGTTATTGAACAAATAGAAGATGTTCATAAATTAAATCCTAATCCATCTCCATAAATTATTCTTGGAATTATAAAATAAATGAAATTTATAAAAATATTATTTTTAGTTCTATTTTATTTATCTATATTTTTTCATATAAAAGCTGCAAATTTAAGTCTTCCAAAAGTAACAGCTGAATATGTTTGTAATACAAAATTTTTGATTGGTGTTTCTGTACTTGAAACTAGAACTTTTCAAGGAAAAAATAAAAAAAGAATTGATACTATAGTTGATAATATTCCTCAATCAATAATTATAAATTATGATAATCAAACAGTTACTTGGATTTGGCCCAGAACTTTCGCATATTTGATAGTTCCATTAAATAAAGAAAATCAAGAAACTTTAAAAAAATCTACAAATATCAGTAAGTTAGAAAAGAAAAAAACTGATTATACGGGAGGATTTGAAGTAAATATTTATGATGTTAAATTAAGTTTGCCAGATGGTACAATTGAAGAAAGTGAAAGATGGATTACAATAAAAAATGGTATAACACTTAAAGAAAAAGGTGTTATTATAGGGCAAGAGGGTAAAGTTTATTTTTATTCAGAATTTAGTAATGTTAAAGTATTTAAGCAGGATGAGAAATTATTCGAAGTTCCAGAGGGATATAATATTGCACCAATAGAAGATTTAGATGATGTTAATGAATTACTTAAAACAATGGTAAAGAGGGTTTAAATATAATAGTAAATGAAAAAAACTTTTTTTTTAATTTTAGTAATTTTTTCATTCTTTTTTTTTAAGAATGTTAAAAGTGCAAATACTGAATTAGTTCTAGAATGTCCAGGTTTAAAATTATTTAATAAATGGTGTGCAGGGCTTCATAATAAAAATAAAGACAAGCTATGTATAATGGTTTCAATTCCATCTAGTAAAAAAGGTGAACCTCCATATAAAAGCAGAGGAGAAGTTTATGTAACTATTTATCAACAATCATCAGAAAATAGTGATGGAACTATTTATGTTACTACAGGCTATAATTATAAAAACGATTCTATCGTAAAAATTAAAATTGATAATAATAAAGAATATGATTTCAATGTATTAGAAGCTGACACAGCTTTTAGTGATGATGAAAATACTGATAAAAGATTAATTTTAGAAATGAAAAAAGGCAATAATATGAAAGTAGTTGGCTATTCAACTAGAGGAACAAAAACAACCGATATATATTCTTTGGCTGGATTTAGTGCTGCTTATAGTCATATGACTACTTTATGTAAAGTAAAAAAATAGATATTTATATTTAATTTCAATAATCTTAAAAATATTAAATGAAAAAAAAAATTGTTTTAGCATATTCCGGAGGACTTGATACCTCAGTCATATTAAAGTGGTTACAAAATAATTATAATTGTGAAATAATTACTTATACGTCAAATCTTGGGCAAGAAATAAATACAAAAGAAATAATTAATAATGCAAAAAATTTGGGTGTAAAAAAAATAATTATCGAAGATTTGCAAGATATATTTGTTAAGGATTACGTATATCCAATGATAAGAGGTAATGCTTTATATGAAGGTTATTATTTATTAGGAACAGCTATAGCTAGACCATTAATTGCAAAAAGACAAATCGAAATAGCAAAAAAATTTAATGCTTATGCGGTAGCACACGGAGCTACTGGTAAAGGTAATGATCAAATAAGATTTGAATTAGGTTATTACTATTTTAATCCAAAAATAAAAATTATTTCACCGTGGAGGGAATGGAGTTTTAAATCGAGGAGTGATTTAATTAAATATGCAAAAAAAAATAATATTAAAGTTCCTAAAGATAAAAAAGGGGAAGCCCCTTTTTCTGTTGACGATAATTTATTTCATACTTCAACAGAAGGAAAACTATTAGAAGATTTAAAAAAACCTGCTCCTGAATATATTTTTCAAAGAACAAATTCTCCTGAAAAAGCACCTAATAAATTTGAGAAATGTCATTTAAGTTTTTTAAAAGGTAATTTGATTGCAATAAATAAAAAAAAAGATAGCCCAAAAAATTTATTAAAAAAATTAAATGATATGGGTAAGAAACATGGGATAGGAAGAGTTGATTTAGTAGAGAATAGATTTTTAGGCATTAAATCAAGGGGAGTTTACGAAACTCCTGGAGGAACAATTTTATTGTTTGCTCATAGAGCAATTGAATCTATTACACTAAATCATAATCAACAACATCTTAAAGAGGAATTAATGCCTAAATTTGCAGAGCTTATTTATAATGGTTTTTGGTTTTCTAAAGAAAGAAAAAAAATTCAAAAAATAATTGATCAAACACAAAAAAATGTAGAAGGAACAGTTAAATTAAAATTATATAAAGGAAATATTACAATCTTAGAAAGATTTTCAAAAAAAAGCATATATTCGAAAGATATTGCGTCATTTGAAAAAACAAAAGGTTTCAATTCTAAAAATGCAGAAAAATTTATAAAAAGAAAAAGATATAAATTTTAAAAGAATTTTGGAATTTCTATTCTATTTTTCCTACAAGTAGCAATTAAGGTGTTGTGAAGTAAACAAGCTATTGTCATAGGCCCAACTCCACCAGGTACCGGTGTGATTGCTCCAGCAATTTTTTCTGCTTCATTAAATTCTACATCCCCAACTAATTTTTTTTTTCCGTCTTTTTCTATTCTATTTATACCAACATCAATTACAGTAGCTCCAGGTTTAATCCAACTACCTTTTACCATTTGAGCAACTCCAACAGCCGCAACTACTATATCACTTTTTTTAACTTCTTCTTCTAGATTTTTAGTTTTAGAATGAGCAACAGTAACTGTACAACTTTCTCCTATTAGTAAAGCAGCCATGGGTTTACCAACAATGTTTGATCTGCCAACAATAATTGCTTTTTTACCTGATAAATCTTTTAATTCATTTAATAGCAACATTTTACATCCTAATGGTGTACATGGGACTAGTGAATTTATATTAGACCATAATCTACCTGTATTTATTGCATGGAAACCATCAACGTCTTTATCAGGATTTATAGCATTTATAACAGAATCTTCATTAATTTGTTGAGGTAAAGGTAATTGCACAAGGATTCCATTTATTGTTTCATCTTTATTTAATTCATCAATAATTTTAAGCAAATCTTCTTGAGATGTATTTTCATCAAGTATTTTTGTTACTGAATGCATGCCAACTTCCTCTGTTTTTTTTGCTTTCATATTTACATAAACTGTACTCGCAGGATCTTCACCAATTCGTACTACAGCTAAACCGGGAACTATTTTTTTATCTTTTAATTTAGATACTTCACTTGCTATTTTTAAACAAAGATCATCTGCAAACTTTTTTCCATCAATTAATTTACTCATATTTTTATTTCAAAATTTAGTTATAAAATCATAATAATTATTATTAATTAAATCTTTTAAAAAAATTAATAATAAAATTAAAATAATAGGAGACAAATCTATTCCACCTAAATTTGGCATTAATCTTCTTATTGGACTTAATAGAGGTTCAGTTAATCTATTAAGAAAATCTGCAATTGTATAAACTAATTTATTATTAATATTAACTATATTAAAACCAATAAGCCAACTAAGTAATGCTGCTAAAATAATAGCCCATATAAGTAAATCAACAACGGTGTTAAATAAATTTAAAGCAGCAAGCATAATATATAAATTTTAATCTTGGTAAAAAAAAAACCCCGCTTTCACGAGGTTTTAAAATGAAAAAAATAAACTTTCTAATTTCTTAACGAAAGAGAATAGTTATTACCATTTAAGACCAACAGAGTAAGTAATACCTCCGTCTTGGATACCTAAATCTTCATCAACACTGTCGAATAGAAGTTCATCTAAGCCAACTTGCCAATGATATCCTACAGAAAATTCAATAGGAAGTTTAAAGTATTCTGGAAGTGTTGATCCAGACGCTTCACTAAATTTTCTAGCTAATGTGTCTAAACCAATATTAACACCAGCACCTACGTTTACAGCTGCTGTTGCTCCACCACCGAATGCACCAACGGTTGTTGCTTCTGAACCACCAGTGTTATAAGTATCAGAGCCTACATGTGTATAGTCTAAATTTTCAACTATTCCACCCATAACTCCATAACCGTACATCGCATATGGACTAATACCATAGTGAGCCGGATTGTATCTAACCAACGGATCTACTCCACCGAATTCTCCTAATAATTCTAGAAGATCAAATGGTTCTACAACAATGTTAGCAAAAATACGTGCTTGATGTACTTTACCATTAGTTGCTGTATGTCCTCTCCAACTTTTAGCGTTGCCATCTGAATAATTCCCTTCAACTTCTAATCTGAAGAAACCATAATCAGCACCAACTACAAGTCCAGTAGAATCATCTTCTGCCCAAGTTAAAGTATTTCTACGTGCAATTACGTCAGCTGAACTAGTAGCACCCCTAATATCTTTTGTTTCGGATGCGAATCTACATTCAGTTGCACCTAATGAAGAAGATCTTCCAGACTTTTGACAACCTACTGATCTAAATCCCAGTTTGTGCCAATGACTTTCCGCCCCTTTCACTCTTACATATCCTCCAGTGTCAGCGTTTGCAACATTAGAAATCGGAGCACTAAGTATTGCTGCTACACCCAGGATTGTTGAATATTTTAGTATTTTTTTCATTTTTATCCCTTTCATTAAAAAAACATAATATAGATAGATTTTATGAAATAATTCTCAAACTACAACATAAATGTATTAAAATTATTGAATATGTTGCTAAAATACAACATCTAATATTTTGTAATTTTGATAAAAATAGTTTAATTTATTACAAATAAACATGCGTAAATTTTTATTATATATAACAATTCTCTCAATTTCATTCATTTACTCAAAATCTTTTGCTTTCGAAGATAAAACTGCAAAGAATTTTTTTAATATATATGAGATAAAACAAGGTGTTTTAGCTCATGATAGAGGTTGGTTTGGTACTAACAGAGAAGGTTTTGGACCTGATTATAATTTTGAAGTTATGTTTAATGATTCTAGATTTTTGAAGTTTTTAGGTTCACCAAAACCTATTTTGGGATTAACTCAAACTTCAACTGGAGGAAGTAGTTTATATTATGGTGGAATTACTTGGGATAAGAATATTTCTAAAAATTGGTTTGTAACAGGAACTACTGGAATCGCGTACACTAATGGTTTATCAAAACTTCCGCAAGGTCAAGAACCATCAGGAGATAAAAAAATTCAGTTTGGTTCAAAATGGCTACATAGAGGAGCAGTCGAACTTGGATGGAATTTTTATGGCAATGATACTATTTCTTTAATGTTTAGCCATGTCTCACATGGAAGTATGCTTGATAATAAAAATCAAGGAATGGATGAATTTGGTATTAGATACGGATATCGTTTTTAAATTTCATCATTGAAATACAATAATTCTCAAAATCAAAATTTAATAATAAAAAAAATTAACTTCTTTGGAGACATACTTGCTTTTCATCGTTTAAATTCGGAAAGATATCCATATTTACTTCAAAGCTCAGCGAAAGGAAATATTTTATGCAGATACGATATTTTATTTGCATTTCCACAAAAGCGAATTGATTTATTATTTAAGGATATTAAAAAAAAAAATTTTTTAAAAAAATTTGATAAAGAATGGAAAAAAGAAAAACAAAAAAAAAATGAAAACACATTTCCTTTCATTGGAGGATGGTTTGTTTATTTAGGCTATGAATTAATATCGCAAATTGAAACTAAGATAATTAGTCATGAACATCGTTATAATTTCCCAGTAGCATTTGCAACAAGGATACCTGCAGCAATTATTAAAGATAATTTTAATAATGAAACTTTTATTATTTGTGAAAAAAAATATAGTAAATTATTAAATAAAATTGAAGACGATATAAAAATTTTAGCAGAAAAAAAAAATTTTTTATTAAAAGAAATTAATTTAAAAAAAAAATTTTTAATAAATTCTTTATTAGAAGAATCCCCAAATAAACACATAAAAAATGTTACTAAAATATTAAAATATATTAAAGCTGGTGATGTTTTTCAGGTTAATTTATCGAGAGAGTGGAGTGGAAAAATAAATAAAAAATTTTCGGCCAGTGATATTTTTTCTAAATTAAAAAAAACAAATCCATCGCCATTTTCAGGCTTAGTTACTTATAAAAATAAAGCAATTATTAGTTCTTCTCCAGAACGATTGATAATGGTAAAAAATGGATATATTGAAACTAGACCTATAGCAGGGACTAGGGCGAGAGGTGGAAGTGGAATATACGATGTAGCTTTATCTCAAGATCTTCTAAACAATAAAAAAGAAAGAGCGGAACATATTATGCTTGTTGATTTAGAAAGAAATGATTTATCAAAAGTAACAGTTAAAGGATCAGTTAAAGTAAATGAATTAATGATTGTGGAATCTTATACGCATGTTCATCATATAGTTTCAAACGTTACTGGAAAAATCAAAAAGGATATAACGCCAGGAAAAATAATAGAAGCAGTTTTTCCTGGAGGTACAATAACTGGTTGTCCAAAAATTAGATGTATGGAAATTTTAAGTGAAATAGAAAAAACAGGAAGAGGGCCTTATACAGGTTCTATGGGATATATAAATAATGATGGAAGTATGGATTTAAATATCTTAATTAGAACAATAGTAAAAAATAATAATAATATATCTTTAAGAGCAGGAGGAGGAATAGTTGCTGATTCAATACCTAAAAGAGAACTAGAAGAAGCTAGAGCAAAAGCAAAAGGTATGATAAATGCCCTAATATAATTAAATGTTTCAAATAAATGGAAAATTAACAAATAAAATCAATGTTAAAAATAGAGCGGTTCAATATGGTGACGGTGTTTTTGAAACTATGGCGGTAAAAGAAAATTTGATAAAATTTTGGAAAGAACATTACAAAAGATTGAATAAAGGCTGCAAAGTTTTAAAAATTAAATGCCCTTCCGAAATATTTCTTAGAAAAGAAATTAACAAATTTTTAAAAAAAATTAAAACAAAGAAATTTATTTTAAAAATAATTATTTCTCGAGGCGAAGGCGGTAGAGGATATAATTTTCCAAAAAAAATACAACCTACAAGAATTTTAGGTATTTATGATTGGCCAGAATATCCAAAAGAAAATTTTATTTATGGAATTAATATGGGAATTTGTAATACAAAAATTTCAACACAACCTATTCTTTCAAAAATTAAACATTTAAATAGATTAGAACAAATTATTGCTAGATCTGAATGGAAAACTAAAAAAATTTCAGAATCTATAATGTTGGATATTGATGGAAATGTAATTGAGGGAACAATGAGTAATATCTTTGGAGTGAAAAATAATATTTTTTATACACCTATTTTAAAATATGGAGGTATTGAAGGTGTAATGCGAAAAGTAATTTTAGAATTATTAAAAAAAAAGGGGGAAAAACACAAAATTAAAAAAATAAAATTAAAAGAATTTTTAAATTTTGATGAAATTTTTATATGTAACTCAATTTTTGGTGTGTGGAGTGTTAAAAAAGTATTAAAAAAAAAATTTATATTTGGTAATAACACAAAAAAAATAATAGGTTTTTTAGCAAATAAATAAATTATTTTTTTTTAAAAATATTCTTAATTAAAAAAATACCAAATATAATTATAAATATCGGAGCAAACCAAAGAAAATAAGTATTAAATTTTAATTTTGGTTTTAACAAAATAAATTCGCCATATCTATCCACTAAATAATTAGTGATTTCTTTCTCACTTTTTCCTTCCTTTAATTTTTTTTTTATTAATTCTCTTAAATCTCTAGCTAAAATTGAATCAGAATCATCTATACTTTGAGTCTGACAAACAACACATCGAATTTTTTTATTAATTTCTCTAGCTTTTTTTTCTAAATTTTCATCAGCAAATATATTTTGTGTGAAGAAAATTATAATAATTAAAGTTAAAAATTTTTTCATTTTTCCAAATTTTTAATTTTTGTTAAAATAATTTCTATTTGTTTATCATCAATAACACCATTTACTTTATATTTAATAATTCCGTTTTTATCTATTAAAAAACTTTCAGGTACTCCATTTATTCCCCAATTAATTCCAGTCAATCCTGATTTATCTATACCAATTTTAGAGTAGGGATTTCCTAATTTTTCTAACCATACTTCTAGATTTTCAATATTATCTTTGTAATTAATTCCATAAATTTTTATAGATTTAAGTTTTTTTAATTTCAATAAGTAATCATGCTCCACGATGCAGGGAATACACCAGCTAGCAAAAAAATTAACTAAAATTATTTCATTTTTAAAATCATTTTTATTTAATTTTTTATTTTTTAAACTATTTAAATTAATTTCAGGAATAGGACTATTTATTAGTGGAGACAATAAAGGTTTTTTTTCTTTTTTTAATCCAAAAAAAAAACAAATAAAAATAAAAATAGTAATAATTAATAAGCTTTTATATTTCATTTTTTTCTAAACATCCTTTTTGAAAAACTTATAATTCCACCTATAAATGCCATAATTGAACCTATCCAGATCCAAGGTGTTAAAGGACTGTAATGAAATCTAAAAATCCATGAATCATCAACCGGCTCACTCATAGCTATATAAATATCTGAAAAACCTTTAGAAAAGATAGCAGCTTCTGTAGTAGGAAATTCTTGCACAGGATAAAATCTTTTTTGAGGTTTTAAAGTTTTAATAAATTTTTTTTTTTTATATAAATTAAATTCAGCTTCATGTCCAATATAATTTTTTCATTTAATTTTTTTTATTTTATCAAAATTTAGAGAATAATTTTTTAATAAAATTTTTTCTCCAATTTTTAAAGTTTCTATTTTTTCAACTTTCCATAAAGTTGAACCTGTAATACCTGCTATAAAAATTGCAAATCCAATATGTGCAAATGTCATTCCTAAATATTCTTTATTTAAATATTTTAATTTTTTTAAATAATTAGTTCTTTCGAGAAAATTAACTAATGTTCCAAAAAAAAGCCATGAAGCTAGAAAAATTCCAACTAAAGCAATAATGGGACCTTTAAAATTAATATAAAAAAATATCAAAGTTATAATTAAGCTTGAAAAAAGAATAGTTTTTAATCTTGTTAATAATCCAATAAAATCATCTTTTTTCCATTTTATCATTGGAGCAAAAGACATAATAATTATTGCTGGTCCCATAATTAAAATAGAAGTTAAATTGAAATATGGAGGACCGACAGAAATTTGTTCGCCTGTAAAGATTTCTAAAAATATTGGATAAATAGTTCCAATAAAAATTGTTAAAAGCAATGCAATCATTAATAAATTATTAAATATAATTGCCCCCTCTTTAGAAATTGGTGAAATTAATTTTTCCTCTTTAATAATTTCAGCTTTTTTAATTAATAAAATTAATGAACTAAAAATGAAAAAAGCACATATTATCAATATAAAAACCCCTCTTGTTGGGTCAGTTGCTAAAGCATGGACTGATGTGATAATTCCGGATCTAACTAAAAATGTTCCAATTAAACTAAAACTAAAGCTTAAAAAAGCTAGAAGAACTGTCCATTTTTTTAAAGTATTTCTTTTTTCTAAAACTAATGTTGAATGAAGTAAAGCAGTTGCACAGAGCCATGGCATTAAAGATGCATTTTCTACTGGATCCCAAAACCAAAATCCTCCCCATCCTAATTCATAATATGCCCACCAACTTCCTAAAGAAATACCTAGAGTTAAAAAAGACCAAGATAATAATACCCAAGGTTTAATTAATTTTGCCCATGATGAATCAAAATTTCCTTCAAAAAACCTTGCTGCAGTAAAGGAAAAAACGATTGAGAGGCCAACATAACCAATATATAAATTAGGAGGATGAAATGCTAATCCTGGATCTTGAAGTAAAGGATTTAAATCCTGACCATTTATAGGAGTTGGAGAAATTATAAGAAAAGGATTAGAAGTTAATAAAACGAATAATAAAAAAATAAAAGTAATTAAAGATTGAAAAGAAAGAGTTAAAGCTTTGTATTTTGAATTTAATCTTTTATCAAACTTAGAAATTAAAAAACCAAAAAAAACTAAAACTAATATCCATAATAACATCGAACCTTCATGATTGCCCCATACTCCGGTAATTTTATAAAGAAGTGGTTTAGCTGAATGCGAATTTTTGTAAACATTAATTATAGAAAAATCAGAAACAATATACGCAAACATTAAACTAAAGAATGCTAATAAAACAAAAAAAAATTGAAGCGTTATTGCTCTATCTGGATTAAGAAATCTTATTTTGTCTATATTTCTTACATTTAAAAACTGATAACAGCTAATTATTGCTGCAAGAATTAAGGATATATTTCCAATTAATGCTATCATTAAATTTTATTCTAATAATTTAGTTTTTTTTTTATTTCTGGCGGCATATAATTTTCATCATGTTTTGCAAGAACTTCAGTAGCTTCGAATATGTTATTTTTTAAGTATCCTTTAACTATTACTCCTTGACCTTCTCTAAATAGATCTGGGAGAATACCTATATAACTTACTTTTATTTTTTTTTTAAAATCTGTAATTATAAAATTAACTTTTGTATCATTTCTTTTAATACTATTTTCTTGAACTAAACCCCCTAGTCTTATTTTTTTAGATATATTAATATTTTTTTCTGTTAATTCAGATGGTGTATAAAAAAATAAAATATTATCTTGTAATACAATTAAAACCGTACCTATAAGGAAACTGAATACACTAAATATTAAAAAAATAATATAAAAACGTTTTCTTTTAGGTGTCATTTTATTTTTTTAAGATTTTTTTAAGAATTTTTTCTTTCTTTTTTAATGAAATAAAAGAAAAAGTTATTAATAAAAACATTATTAAAATTGTAAAAGAAGTTGCTGTAATTATATAAAATAAATTATTTATCATTTTAAAAATTAATATTATTTATTTTTTGATTTGTGATTTCTAATTTCATTCTAATTATTAAAACAATTAAAAAGTAACAAAAGAAACCTAAAGCAGTAATCAATAAAGGAATTAACATTGATGAATGTATAGTTGGCCCAGAAATTTTCATAACACTTGCTGGTTGATGTAAGGTGTTCCACCAATCAACTGAGAATTTAATAATTGGTATATTAACAAAACCTAAAATAGCCAATAAAGAAGCAGTTTGTCCTGATTTTTCTATATTTTCTGAAAAATTAAATATTGTCATGTGTCCTAAATAAAGAAAAAATAAAACTAGCATAGAAGTAATTCTTGCGTCCCAAACCCACCATGTTCCCCATGTAGGTTTACCCCAAATTGATCCTGTTACAATTGCAATTAAAGTGAAACTAGCTCCAATTAATGAGGCAGATTTACAAAAAATATTTGCAAGCAAATGTTTATTAATTAAATAAATACAGCTTGCTATTGCAATTGATGTATAAATCATTAAAGCCATCCATGCAGATGGCACATGAACATACATAATTCTTACTAAATTTCCTTGTTGATAATCTTCCGGAGAAATAAATAAGCCTTGATATAATCCATATAATAAAAGAATAACTGTTATAAAAACTAAATAATTAAATATTTTTTTACAAAAATATAAAAAATTAGCTGGGTTAGCATATTTAAAAATTTTAAAATTAAACATATTAAAAAATTAAATTTATTGAAATAAATTAGTACTTTTTTTTATACAATCAAAAGCATATTCTGCACTTATACTTCTCATACCTTTTTCTTGAGGAATTTTATCTGCTCCTACAATACTTTTAATTTCACCTGTCGGAGGAATAACAGCTTTATATGTTGTAAGGTGTTTTAATGGTGGTGATGCACCCATAATAGCATAAGATTTAATACCAATTAACGCTGATAAATTATACGCTCCAGAATCTAAACCAATAAAAAGTGAACTATTATGAATTATTGCAGCATTATTATGTAATGATTTAAAAGAAAAAATAATTCTTTTAGATTCTTGTAAATTAAAG
>sequence33
CTATATTCCATTTATCAATAACTCTTTGATCAATACCTTCATATTTACCACATAACAAAACTAAATTTTTTTTACTTGATAGTTCTTTAACTTTTTTTTGATTTAATTTTTTTCCTTGAGGAGATAAATATACTAAAGAAAAATTCTTTAAATTTTTTATCGTATTTTTAATCGCTTTATGAACTACATCGCTTTTTATTATCATTCCTGAACCACCACCGTATGGTGTATCATCTACATTTTTAGGTCCATTATTTGAAAAATCTCTAAGATTAACTAATTTTAAAGACCAAATTCTTTTTTTAAGTGCTTTGCCAGTTATAGAAAGACCTAAAGGGCCTGGAAACATTTCCGGAAATAAAGTTAAAACATGTGCTGACCAAGATTCTTTTAAAATTTTCATGAAGATACTTTCTATTAATCATTTTATAAATTTAATATAACTCTTTTTATCAAAAAATTCTTTTTATAAAAGTTTTTTTTTATACCTTTTTCTCTCCTTCGTTATTAGATGCTGTCTCTGTTTGAAGTTTTTCTTCTGGTTTAGCTTCTGTTTTTGGGGCCTCTGCTTGAGGTTTTTCTTCTGGTTTAGCTTCTGTTTTTGGGGCCTCTGCTTTTGTAGCAGACTCTTTAGAATCTCCTTCTTTCTTTTTTATCTTAGGTAAATGTTTTTTTGTTTGCTTAGGTACAAGTGGTTTATCAACTAAATTAGATTTACTAAGAAATATTGCCATTTTATATGATGGGGTTGCTCCTTTAGATAGCCAATATTTAACCCTTTCTTCATCAAAAATAATTCGATTTTCATCTTCCTTTGACAATAAAGGATTATAAGTTCCCAATTTTTCAATAAATTTACCATCTCTTGGACTTCTTTTATCAGAAACCACAATTTTAAAAAATGGTCTATTTTTTGACCCTGCTCTTGCTAAACGTATTCTAGTGCTCATATTTTTTTAATTTAAATTGACAGTAATATATAATATTTTTTTTTTATTGCAATCCCGGAGGTAACATATTACCAAAACCTTGTCGCATTAAAGTTTTTTTGTCCATATTTCCATACTTTTTCATCATTTTAAGCATTGTATGATATTGTTTAATAAGTTTATTTACTTCCTGAATAGATGTTCCTGAACCCGAAGCAATTCTTTTTTTTCTTGATGCGTGTAAAATTTTATGATTATTTCTTTCTTCTACTGTCATTGAAGAAATTATTGCCTGTTGTCTAACTATAACTTTGTCATCAATATTAGCTTTGTTCATTTGATCTTGAATTTTACTAGCGCCTGGTAATTTAGATAAAATGCCTTTTATTCCTCCAAGTTTTTTCATCTGTCCTAATTGTTTAGATAAATCATCTAAACTAAATTGACCATCTTTAATTTTTTTATCTAATTTTTCAGCATCTTCTTTTTTTATAGATTCTGAAGCTTCTTCAACTAAAGTAACAACATCTCCCATTCCAAGTATTCGATTTGCAATTCTATCTGGATGAAAAACTTCAATTGCTTCCATTTTTTCACCAACTCCAATTAATTTTATTGGGCATCCAGTAACTGAACGCATTGATAAAGCAGCTCCACCTCTTGCATCACCATCTAATCTTGTAAGAATTATTCCTGTTAATTTTAATCTACTATTAAATTCCTTAGCAACATTTACTGATTCCTGACCTATCATTGCATCTGAAACTAATAAAATTTCATTAGGTTTTACAGATTTACTTACTTTACTCACTTCATTCATAAGTACATCATCAATTTGCAATCTCCCTGCGGTATCTAAAATTAAAACATCAAATCCTTCTTTTTTTGCTTTATCTAAAGATCTTTCTGCAATTTGAACAGGGTTTTGTCCTTTAATAATTTCAACTGTATCCACATTAATTTGTTTACCTAAAGTAGCTAATTGCTCTTGGGCAGCTGGTCTTTGAACATCCAATGATGACATAATTACCTTTTTGTTATCTTTATCCTTCATTTTTTTTGCAATTTTCGCACTTGTTGTAGTTTTTCCAGAGCCTTGAAGTCCAACCATTAATATTATAACTGGTGGTGTTGCTTTTAAATTTATTGGCTCTTCTTTTGTTCCAAGAAGTTCTTTTAAAACATCATTTACTATTTTTATAACCATTTGCCCAGGAGACACACTTTTTACTATTTTCGATCCAATTGCTTTTTTTTTTGCTTTATCAAGAAATTCTTTAACAGTTTCTAAAGATACATCTGCTTCTAATAAAGCAATTCGCACCTCTCTTAAAGCTGTATCAACGTCACTTTCATTTAAAGATCCTCTGGACTTTAATTTATCGAATATTCCTGTTAATCTTTCAGATAAATTTTTAAACATATTTTTTTTCCTTAATTATAGATTATATATGTAAAATAAAAAAAATGATTCTAAATTATATAAAAATGCATGGATTAAAAAATGATTTTATTATCATTGATAATAGAATTAAAAAAATTTCTTTAAATAAAAACAAATTAAAAAAAATTGCTAATAGGAAAAAAGGGTTAGGATGTGATCAAATCGTTTTTTTAGAAAAATCTAAAAATAATAAAACATCTGCATTTATAAAATTTTTTAATTCAGATGGGAGTAAAACAAAAGCTTGTGGAAACGCTGTTAGATGTGTTGCGTATATATTAATGAAAGAAGAAAGAAAGAAAAAAATTACTATGCAAACAGATGCTTCTTTCTTATATGCGTATTTAAACAAAAATAATCATATTACTGTCGATTTAGGCAAGGCTCTTTTTAATTGGAATAAAATACCTTTAAAAAAAAAAATAAATCCTGAAAAATTACATTTTAATTTAAACATTATTTCAAAACCATTTTTAGTTAATATTGGAAATCCCCATATCGTTTTTTTTGTTAATAATTTAAAAAAAATTAATTTAAAAAAAACCGGACCTAAAATTGAAAAAAATTCTCTATTTCCTGAAAAAATTAATGTTAATTTTGCAAAAATTTTAAATAATAATCAAATTGAATTAAAAGTTTGGGAAAGAGGGGCAGGAATTACTAAAGCATGTGGAACTGGAGCATCTGCTACTACAATCGCAGCAATAAAAAATAAATTAATTAATAAAAAATTTTGTAATATTTTAATGCCAGGTGGAAAATTAAAAATCGAATATAAAAAAAATGGGCATGTATTAATGACTGGTCCTGTAAAAATGTTAAAAAAAGGAACTATAAAAAATTTAATTTAAAAACTTATGAAAAATCAAAATATAATAACCTTTGGGTGTAGATTAAATAGTTTCGAATCTCAAATAATCAAAGAAAAAATAAGTGATAATAAAATAACCAACACATATTTTATTAATACCTGTGCAGTTACAAAAGAAGCTGAAAAACAGGCAAAAAAAAAAATAAGAAAAATTAGACGTGAAAATCCAAAAGCAAATATTATCGTTACAGGATGCTCAGCGCAAATTAATCCAGAAACTTATAAAAATATGAATGAAGTAGATTTAATATTAGGAAACCAAGAAAAATTAAACTTTGAAAAATATTTAAATTCTTTAAATAAAAAGAAAAAAATTATTGTTAATGATATTATGTCTGTTAAGGAAACAGCAAATCATTTTATTAAAGGTTTTGATAAGAAAGCAAGAGCTTTTGTTCAAATACAAAATGGTTGTGATCATAGATGTACATTTTGTATTATCCCATATGGAAGAGGTAATAGCCGAAGTGTACCAATAGAAAATATTTGTAAACAAATAAAAATTCTTTTAAAAAATAATTTCAAAGAAATAGTTTTAACAGGCGTTGATTTAACTTCCTATGGAAATGATTTATATGGAAAACCAAAATTAGGTAAATTAATAAAAGATATTTTTAAAAATATAAAAAATTTAGAAAGATTAAGATTATCTTCTTTAGATGCTATAGAAATTGACAAGGATTTATTAGAAATAATTAATTATGAAGAACGATTAATGCCTCATCTTCATTTAAGTATACAATCAGGTGATAATTTAATTTTAAAAAGAATGAAAAGAAGACATTCAAGAGAAGATGTTATAGATTTATGCAATAAACTAGTAAAAAAAAGAAAAAATATGGTTTTTGGTGCGGATCTCATCGCAGGTTTCCCAACTGAAACTAACGAAATGTTTTTAAATAGTAAAAAAATAATTAATGATTGTAATTTAACTTATCTACATGTTTTTCCATATTCTAACAGACCTAATACACCTGCTTCAAAAATGCCGCAAGTAAATAGGGAAATAATTAAAGAAAGATCAAAAGTTTTAAGAATAGAAGGGAAAAAAAATTTGAATAATTTCTTAATTAATCAAATTAAATATAAACATAAAGTTTTATTTGAAAGTAAAAATAAAGGTCATTCAGAAAATTTTATTCCTATTGAAACAAAAAAAAATTATAAAATAGGTAAAATTTTTTCAATTAAATGTTCTAGTGTTAAAAATGGAAAATTAATATCTCTGGAAAAATAATGGGCTGGTTAAATAGAATAAAAGATAGTCTTCTTAATAAAATAAAAAAAAAGCTTCCTAAAAAAGATATTGAATCTGTAGAAAAAAAAAGAAAAGAAAATGCTTTAAGTGAAAAAAAAATAATTAAAAAAAAAATTCACAAAACTAAAGAATTACCAAATAACAATATAACTAAAACTGATAACTCTATTATTGAAAAAGAAAAAAAATCTTTTTTTGGTTTATTTAAAAAAAAAGATGTTTCAAAAGAAGTTAAAAAAACTGAAAAAGATCCTGAACAAAAAAAAGGATGGTTTCAAAAATTAAAATCTGGTTTATTCAAATCTTCAGAAAAAATAACTCAAGGTGTTAAAAAAATATTTATTAATAAAAAACTAGATATTGAAACTCTAAATAATTTAGAAGAATTACTAATTATGTCTGATTTAGGACCAATAACAGCTGAAAAATTAACAGCCGAGCTTGCAAACGAAAAATTTGATAAAAATGTTAAACAAGAAGAAGTAAGAAAATTTTTAGCTAAAAAAATTGAAGATTCATTAGTTGATATAGCAAAACCTATAATTTTTGATAATTTACAAAATCCATCTATTATTTTAGTTGTAGGAGTAAATGGAACTGGCAAAACTACAACAATAGGAAAACTAGCAAACCAATATTCTAAAGAAGGAAAAAAAGTTATGATAGCAGCGTGCGATACCTTTAGGGCTGCTGCTGTTGAACAACTAAATATTTGGGCTGAAAGATCTAATGCAGAATTTATAAAAGGAAATGAAGGATGTGATGCAGCAGGCCTTGCATATGAAGCAATAGAAAAAGCAAAATCTAAAAAAATTGATATTCTTTTTATAGATACGGCTGGAAGGGTTCAAAATAAAACAGAATTAATGGAAGAACTAGCAAAAATAATAAGAGTAATGAAAAAACTAGAACCTGAAGCTCCCCATCATTGCCTACTAACACTTGATGCAACAACTGGACAAAACGCAATAAATCAAGTTGAAATTTTTAAAGAAATGGCAGAAGTAACTGGTTTAATAATTACAAAACTTGATGGAAGTGCTAAAGGCGGTATTTTATTATCATTAGCTGAAAAATTTAATTTGCCAGTTCATGCAATTGGAGTTGGTGAAAAAATTGAGGATTTACAGTCTTTTGAAGCACAAGAATTTGCTAAAGGACTAATGGGATTGGAAAATTAAAAAAAATGAATGAAGAAAAAAAAACATTGATAAAAACACTTGTAGAAATTATTCCTTTAATATTATTTTTTATTTTTAATGCAAAATATGAAATAATTTTAGCTACTAAAGTATTTGTTATATCAACCATAATATCATTTATAATCAGTTATTTTTATTTAAAAAAAATTTCCTATCCATTAATCATAACTACTTTTCTAGTTTTAATTTTTGGAAGCCTAACAATTTTTTTTAATGATTCAACTTTTATTAAACTAAAACCAACAATTGTATATTTATTATTTTCATTTTTTTTAATTATAGGATTAAATTTTAACAAAAATTTTTTACAAATTTATTTATCAGAATTATTAAAATTAAATAATGTTGGATGGAATATTCTCACAAAAAGATGGATTGTTTTTTTTATAATTATGGCAATTCTAAATGAAATTATTTGGAGAAATTTCTCTACTGATTTTTGGGTTTCTTTTAAAGTATTTGGATTTTTACCTATAACAATAGTATTTACTCTTTTTCAACAAAATTTAATAAGAAAATATTCTCAGTAAAAAAATAATTAGAAACGATAACCGTAAACAATACCTAAAGTGTCTAAGCCTTCATTGGTATCTTCACCCCAAAGATTTGCATTTGAAATATGATCTAATCGAATAGATATTGAATCATTACCATAAAAATTCCAACCAATTTCAACAGCTTCTCTAAAAAGAATACTTGAGCCTAATTCTTTTTTATCTGTTACTACATTTGTTGCTGAATGAATCTTATCACCATTATGATATGATAATCCCCAACTAAAATTAAAAAACATTCTTTTTGGCAGTTTCCAATCCCATGTAACACCTGCATAAGCCTGGCTTGTATCTCCTCCCATATTAATTGTCGCTCCAATATGCGGTCTAGGTTTCCCTAACCAAAATAAATTATAATCTATTTTTCTAAAAAGAAATTCAAATGTAGAATCTATTCCTTCTTCTTTTGTTCTTCCAAAAACACCCGCATCATGTTGTACAACTCCGGTTTTAATTTCACTTATAAAAGAAGAATTGCCTTCTTTATCAAAAGCATTTGCATTACTTAAAAAAGTAAAAAAAAATAAAAATACAAAAGTTAACTTTGCTCTATTAAACATTGTTTTTATTATAAAATAATTAATATTGAGTTACAAGATAAAACTCTATAAATGATTTTTTTATAAAAAAACTAATTTTTACCCATCTTCCTTTTTCATCATACCAAATATTATAATCTATTTTTTTTCCATTTGGTTTATCTTGAGTACCTGTAACTTTATAATTTTGAGCATAAATAAATCCATTAGCAGTTGAAATTTTTTCAAAATTTTTTTTTTCTATATTTATTAATCTTTTTTTACCATGTTGACTATCGATTAGAACTTTTTTTTTAAACCAATGTTGATGCCAATATGAAGTAATTAAACTATTTTCATTAACAGAAAAAACTTTTTTATTGGATTTAATTTCTAATTTATTGTCCTTTCTATAAGCTTCCAATTCAAAATTTCTATTATTTTTTATTGTAGATGTTTTTGCTTTTATAAACTTTTCATCTTTCCAGGTTTCGTTTGCTTTATGAATATAATTAAAAACTGGAACGAATCCAATTTTAACAACCATTTTAATTTCTGTATTTACAATAATTTTATCTTCTATATTTTGAAAAGATAATTTATGAAAACCTATTTTTTTATTATTTCTATGAATTTCAAATTCATGTACAGGTTTATAATAAAAACCAAATACATTAAGAGGAAAAGATAAAAAATAAAAAAAAATTAAAAATTTAACTAAATTATTCATTACATAAAATAATATTAATACTAATTTAACTACTATGAAATATAAACAAATAAACAAACAAAATATATGGGCTGAAAAACTTACAAATAAATTTTTTAGTAATTCTCCATGTTTATTTTTAGATAGAGATGGTGTTTTAATTGACTGGAAAGATTATACTATGAAAGCAAAAGATGCAAAATTAATTCCAGGATCAGAAAAAATTATTAAACAATGTAATAAAAAAAAAATCCCTGTAATTTTAATTACAAATCAAGGTGGAATAGGTTTAGGAATACATGTATGGAAAGATTTTATAAGAATTAAAAAAAAAATTATAAATCAATTAATAAAAAAAGGAGCAAAAATTGATGGTGTTATTGCATGTCCTCATCATCCATTAGCAAAAGGTGTTTATAAACACAAAAATCACCCATGCAGAAAACCTAATGGAGGAATGTTTTTAATAGCAAAAAAATTATTTAAAGTTAATTTAAATAAATCTTGGATGGTTGGAGATAAAATAAATGATTTAATCGCAGCTAATTCAAAAAATTTAGAAAAAGGTTTTCTTGTATTAACTGGTTATGGAGAAGAAGAAAAAAAAAAATTAAAATTTTTACCTAAAAATTTTTTAATAACAAAAGTACTTTCCTCACTTAAAGATTTAAAAATTTCTTTTTAAAGAATTAAATATTCTACAGTTTTTGGGAATTTATTATTTTTCCAAATTGCTTTTAAATCGAAAACTTTTCCATTTTTATTTAATTTTTTATTAAAAAAAGAATAACTCAATTTTTTATACCCATCATGAGCTACTGCTAAAATTATTGTGTCATATTTTTCTTTTTTATTAAGTGGTGTAAGTTTTATATTTATTTTTTGTACTTCATTTTTATATGCAAACAAATCATTAACAAAAACTTTATGTCCCTTTACTTTTAATGAATTTATTAAATCAACAACTTTTGTATTTCTTAAATCACTAACATTCTCTTTAAAAGTTAATCCTAAAACTAAAATTTTATTTTTTTTACTAATACGATTATTTATATATTCTGATAAAAAATATGGAAAATTGTTATTAACTTTCCTTCCTGATAAAATTAAATTTGAACCTGTTTTTTTTCTTATTTGCTAAATAAGCTAAATAATATGGATCAACACCAATACAGTGACCTCCTACGAAACCTGGTTGAAAATTAAGAAAATTCCATTTTGTTTGTGCTGTTTTTAAAACATCATAAACATTAATATCTATTTTTTTAAAAAGTTTTGTAATTTCATTTATAAAAGCAACATTTATATCTCTTTGAGTATTTTCAATAACTTTAGCTGCCTCAGCAGTTTTAATACTTTTTGATACAAAAATTTTATTTTTATTAATTTTTCCATATACTTTTTTTAAAATATTTATGGTTTTATTTGAATCTCCTGAAATAACTTTTGTTATTTTATCAACAGAATGAATTTTATCCCCTGGATTCATTCTTTCTGGTGAATATCCTAAAAAAAAATCCACACTAGGAATTAAATTTGAACTTTTTTTAATTTTAGGGCCACATATCTCTTCTGTAACACCCGGATAGACTGTGCTTTCAAATACTACTGTTGCTCCTTTTGATATAATTTTTCCAATATCATTGCAAGCTGAAATTAATGGTTGAAGATCCGGTTTATTAGATTTATTAACTGGCGTTGGAACAGTAACAATAAAAATATTTGTATCTTTTAAATCTTTTAAATTTAAAGAATATTTTAAATTTGAATTTTTAAGTTCTTTAAATTGAACTTCATTATTTCTATCAAAATAATTTTTCAATTCTTGAATTCTTTTTTTATTTTTATCAAATCCAATAACATTGAAATATTTTGATAATTTAATTGCTAAAGGAAGTCCTACATAACCTAGGCCAAAAATAGAAATATTTAATTTGTTTATCATTATTTAATATTTAGAAATGTTAATATAGTAATTTATGTTGTAAAACATAACGATTATTTATTATGTATTTATAAAAAAATAAATGGCTAAATTAATACTTCTTATATATAAAATTTTAACAATAATTTTTCTACCAATAATATTAAGTATTGTAATTATTAGAATTTTACAAAAAAAAGAAATTAATAATAGAATTCAAGAGAGATTTGCATTTTCATCAAAAAAAAGACCCCAGGGTGAATTAATTTGGATTAACGCCTCAAGTATAGGAGAATATCTTGCTACAATTTCATTAATTAAAAATATTAAAAAATTAAGATCTAATATAAAAATACTACTCACTACCAATACAAAGACTTCTGCACAACTTGCAGAAAAAATTAAAGATAAAAATATAATTCATCAATTTACACCTCAAGATAATCCATTAATTATTAAAAAATTTCTTAATTATTGGAAACCTTCTTTAGTTTTATGGATGGAATCTGAATTTTGGCCAATCATTTTAGATGAAACAAAAAGAAAAAAAATAAAAATAATATTATTAAATGGAAGAATGTCAGATAAATCCTTTAAAAACTGGAGTTACTTTAAATTTTTTTTCAAAGAAATAATATCAAATTTTTCATTAATACTAACAATGTCAAAAATTGATAAAAATAATTTTAAAAAATTAGGTGCAAAAAAAATAGATTTTATAGGTAATTTAAAATTTTGTAATGAAAAAAATATTTATAATAAAAAAAAAGAAAAAAAAATAAAAAAATTAATAAAAAATCGATTTGTTTGGCTTGCAGCATCCACACATAAAGGGGAGGAAATATTAGTATCAAAAATTCATAGCGATTTAAAAAAAAATTTCAATTCAAATAATTTATTAACTGTTATAGTTCCAAGAAATGTTAAACGAAGCTTAAAAATAAAAAAAGAAATAAAATCCGTTATACCAAATACTAAACTATTTAAATCAAATTCTATTACAAAAAAAACAGAAATTATAATTGATGATTCAATTGGTCAATTGGAAATATGGTATAAAAATATAAATACAGTTTTCTTAGGGAAATCATTTCCTTCTAAAGGTGGTCAAAATCCAATAGAACCTGCAAAAAATGGCTGTGCTATTATTTCTGGAAAAATGTCAAATTTTAGAGAAATTGAAAAGGAAATGATTTATAAAAAATGTTTATTATCAATAAATAGTTATTCGCAATTTTATTCTAAAATTAACGACTGTTTAAAAAAAAAAAATTATATAAAAAAAATTCGATTAAATTGCAAACAATATGTTAAATCTAAATCTTACATATTAGATAAAACAACAACAAAAATTGAGAAATATTTGCCTTAATTATTTCCAATTGAATAATATTGAAAACCATTATTTATAATTTCTTTTGAATAAATATTTCTTAAATCTAAAATCACCGGTTTTTTCATTAATTTCTTAATTTTTTTAAGATCTAAATTTTTAAATTGATTCCATTCAGTTACAATAACTAAAAGACTAGAATTATTAACAACTTCATATTCATCTTTACAAAAATCTATGGATTTTGATAATTCTTTCTTTGCATTTTCCATACCTTGGGGATCAAAAATTTTTATTTTTGCCTTAGTCCTAGATAAATCTTTTGCTAATTTAATCCCAGGACTTTCTCTTACATCATCAGTATTAGGTTTAAAACTAATACCTAAAAGTCCTATTTGAATATTAGAAAAATTATTTTTAAGTATTTTTTTTATCCTTTTAAATAATGATTTAATTCTTAATTCATTTGCTTTATCAACAGCTTTAACAATTTTCAAATCTGTTAAATTTTTATTTCCTTGATAAATTAATGATTTAACATCTTTTGGGAAACAAGATCCGCCATAACCTGGACCCGGGTGTAAAAATTTAGAACCAATTCTTCCATCTAATCCTATTGCTTTTGCTACTATTTCAACTTCTGCGTCTATGTTTTCACATAAATCTGCAATTTCATTAATAAACGTAATTTTTGTAGCTAAAAAAGAATTATTTGCATATTTAATTATTTCAGCAGTTTCATTATTTGTTACTACATATGGCCTATTCAAAGGTTTATAAATTTTTTTTAATATTTTTTCAGCCTTGATAGATCTGCATCCAATTATAATTTTATCAGGTCTATTAAAATCTTCTAATGCAGATCCTTCCCTTAGAAATTCCGGATTTGAAATAACATCAAACGTTTTAATAGAATTTTTTTTTTTTAAAATATTTTCAATTCTTTTAGAAGTACCAACAGGAACAGTTGATTTAGAAACAATAACCGTATATCCCTTAATTTTATTTGATATTTCATTAGTTACTTGATCAACAAAATTTAAATTACTTTCACCATTTTTTTTTGGCGGTGTGCCAACACAAATAAAAATTACATCAGATTTTGAAATATATTGTAAATAATCGTTAGTAAAATTTAATCTTTTACTTTTTAAATTTTTTTTGAAAAGATCATCTAATCCTGGCTCATAAAAAGGAATTCGACCAAATTTTAACTGTCTTAATTTTTCTGTATCTTTTTCAATGCACGTAACTTTAAAACCAAAATCTGCTAAGCTTACGGCTTGTACAAGACCTACATATCCTGCCCCTATGATAGTTATATTCATAATTTAATTAATAGGAATTGAATAAGTAAATAAAAAAGTTTCTGTCCCAGGATTATTTTCATCTAAACTGGCATTTGATAAATGATGAACTTCCAATCCTATTCTTCCACCATTTTTCCTTCTATAAGCCAAGTCCAAACCAGACCTAAATTCAACGATATGACCTAATTCTTTTCCATCTCCTTTTTCATAAAGCCCGGGAGCAAAACTAGGGGTTAAAACTATTTTATCTGTTAAATATAAATCAATTCTTACTCCCGAATATATATGAAAACCATGATCAGTATTAACTTGTCCTCCTATCATTGGTTTAAATAATCCATATCGAGTTCCATGTCTATATTCAACATTAAATAAACCAGAAGTTTTAGTATCATTCCAATCCCATATACCCGCACCAAAAGTTAGCAAATTTTTATCATTTCTTTCAGCTCCATGGCTGGTATCAAACAATAAAAATAAAAATAAAAATAAAAATATTTTTTTTATCATAAAATTTAAGCAGCATTATTTAAAATATCTTCAAGTTCTTTTGTTGCTGCATCCTTATCTAATTTTTTCATTGCTGCTAATTCTCTTGCTAATCTATCTAAAGCAGATGCATATATTTGTTTTTCACTAAATGAAGATTCATCAAAAGAATCTTTTTTATATAATTCTTTTAAAACTTCAGCAATAGAAACTAAATTACCGGATAAAATTTTTGATTCATATTCTTGTGCTCGTCTACTCCACATTGTTTTTCTTTTTTTCTTTGCTTTAGATTTAAGTACCGCTAAAGCATCTTTTAATCTATTTGCTGTACTTAATTTTCTAAGACCAAGATCTTTAATTTTTTCTACAGGAATTCTTAATACAACTCTTTCATTAATTGAAATAATAAAAACTTCAATTCGTTTTCCATTAA
>sequence34
ATAAATTATTAATAAATTTCTTTCCTGATTTTAAACCATCTTTTAACTCAAATCCGCATAAACCTCCATACCCTCCAGATAAATACTTATCAGCTCTTTGTTTATATTTACCAGACATTAATCCAGGATAAATAACTTTTGCAACTTTTGAATGTTTTTGTAAATATTTTGCAACTATAAAAGCGTTTTCAGAATGTCTTTCCATTCTGAGAGGCAGAGTTTCAAGCCCTTGAATAAAATTATAAGCATTGAAAGGACTCATACATTGACCACAATCTCTTAATAATGTAACTCTAGCTTTTATTATATATGCTATTGGCCCTAATGGTTTTACTGCTTCTGTCCATATAGCCCCATGATAATTTGGATCTGGTTCATTTAACATTGAAAATCGATCACCCTGTTTTTCCCAATCAAAACTACCACTATCAATTATAATGCCACCTATTGAATTACCATGACCACCAATATATTTTGTACAAGAAGAAGCTTCTATAGCGGCACCATGTTCAAAAGGTCTACATAAACTATATGCAGCAGTATTATCCATAATTAGAGGGATACCTAAATCTCTTCCGATATCAGAAATTTCTTTAATTGGAAATACTTGAAGTTTTGGATTTGGTAAAGTTTCAGCGTAGAAAGCTCGTGTTTTATTATCCGCAGCATCTCGAAATTTTTCAGGGTCGTCAGGATCAACAAATCTAACTTCAATACCCATAGTTGATAATGCATTATTAAATAAATTCCAAGTACCTCCGTATAAATCTGTCGAACTAATAACATTATCACCTGCGTGCGCAATGTTTTGTAAAGACATCATTGAAGCTGCCTGACCTGATGAAACAGCCAAAGAAGCCGCTCCACCTTCTAATTTAGCTAATCTTTCTTCAAGAACAGCACAAGTAGGATTCATAATTCTTGAATAAATATTTCCAAATTCTTTTAAAGCAAATAAATTTGCTGCATGTTCTGTATCATTAAATTGATAGGAAGTAGATTGATATATTGGAACAGCTACTGCATTTGTTGTTTCATCTTTTCTGTGACCAGCATGCAGTACTATAGTTTCTTTTTTTGGACCTGTTTTTTTAAGCATAATGTTTTATTTTAATATACAAGATTGTATTATAGTTAATTAATTTAATTGTCAAACTATTTATTTACAATTTTTTGTTGTTATTAAATTAATTATACATTTTTTTGTGTAAAATGATTGATTATTTAAACATAAACAAAAATCTAAATTTTTGGTTAATAACTTGTTGTATCATGATTTTCATCATGATTATCATTGGAGGATTAACAAGATTAACTGAATCTGGTCTTTCAATTGTTGAATGGAGACTTTATGGCTACCTACCCCCAATTAATGATGATGATTGGATTGAATTATTTAATAAGTATAAAAAATTTCCAGAATTTCAATTAATAAATAAAAATTTAAATATAAATGAATTTAAATTTATTTTTTGGATGGAATATATCCATAGAATTTGGGGAAGGTTAATTTTTTTAATTTTTTTTATACCTTTAATAATTTTTTTAAAAAAAAAATATATACCAGATCATTTAAAAAAACATTTTTTTATAATATCTATACTAATTATAGTTCAGGGTATAATCGGTTGGTATATGGTTAAAAGTGGATTGGTTGATCAACCAGATGTAAGTCATTACAGATTGTCAATTCATTTAACCATGGCTTTTGTTATATATGGATATATTCTTTATCTTGCTTTAACAATTAACAGAAAAAAAATAAAAATTAATAAAAAAAATATATTATTTCAACTTAATATTTTTTTAATTTTTTTAATTCTTTTAACTGTTTTTTCAGGAGGAATGGTTGCTGGGTTAGATGCTGGATTAGTTTACAATACATTTCCATTAATGGGTGAAACTTTTATACCAAGTGACTTTTGGAATTTAGATCCAAAATTCAAAAATTTTTTTGAAAATCCAGCAGCTGTTCAATTTGATCATCGTATTTTAGGTATAACAACATTTTTTACAATTTTTCTAATGTGGATTTTTACAAAAAAAAAAAAGATAAATTCAGATATAAAAAATAAAATCAATTTACTTTTATTATTTGTAATTATTCAAGTATGCTTGGGTATTGCAACATTGTTATCTTTCGTCACTATTCCTATAGCAATTATACATCAATCTGGCGCAGTGATACTTTATAGTATATCAATCTGGACGTTTAAAAGTCTACCATTCATGACCAAGTGAAACAAAAAATCCATCTTGTCCACCATCGCCACTATAACCAGGAGCATTATGATAAGTCATAGATGCATCAAGACCTAAAACTTCACCCAAACCAAGTGTAATATAGTAATAATTCCAACTATCAACAGTATTAGCCTTCTCCGCATCACCATCTAAATCATCAACATTTATATCACCCCATGTGTATGATAAAGAAAATTGTGTTCCTCGAATTGGCGCTTCTATACCTAATTCAGTATAAAAAACATCCGGTGTATTAGCACCAAACCATTTAGGAGCATATGCAAAATACGCATATGGTGATACTGAAAAATCTTCAGCTACCATACCTAAAGGTATTTCAGTTCCAACACTAAAATAATATTCATTAAATTGAACTTCATTAGATTCACCTGGATATAAATAATAAAGATCACCAATATCAAAACTTAAAGGACCTAAATCAAATGCATAGCCTGCATACACATCAAATTCAGCTCCATGTGTACCATTAGTAATAGATCCCGTCCATGCTCCTAAATAAAGTCCACTTGAATGTCCTATGTCAACACCAATAGCAGGTGACATATCTTTAGCACTTTGACTTTCACCTCTCCAAACATAATGTGAAGACCAACTAGTATTATAACCAATACTTAAACCAGTTGCTTCTTCAACACTTTCTCTATTTATTTCCATTGCCGAAACAGAAGAAATAAAACCAAAAAAACAAGCAGTTGATAATATTTTCTTATATTTATTCATTACATTAATTCCTTTCAAATTAATATTAATATTAATACTATAAATATAGCAATAAATGTACCAACTTAATATATTTTAAATATTTAATTTATTGAGTTTGTTTCCCATGAAGAGGGTGTGAATATTATCCAACTAAATCTATCATTTGTCTTTCTTTTGTAAATTCCATTTTTTGAAGTTACTGAAATTTTATTATTACTTCTTATTTTACAATTATTTTTTTTAAAAAAAGAAAAACTTGGGTGATTTTTATGAAATTCTTTTTTTTTTTTTTTATTTAAATTTGTTTTTAAATCACAATAATTAATTTGAAAAAAAACTACATTTAATGATTTATTTTGAACAAAAAAAATTCCTTTTGTTTTATTATTTTTTTTTTTTTTTATAAATTGAAAAATTATATCTTGATTATTATTAGCTACTAAAAGACCTCTTGAAACATTTTTTGATAAAACATCGATATCATCTATACTAAAAATAAAATCCATTATTTCTTTTTCTTCATTAAAATATCTTAATTTACTAAGAGCAATTCTAATGTTTTTGGGATCTAATGAGGTTGGGTGCGTAGTAGCATTTAAATTTCTATTATTAATATTAATTTTTGAAGTAATTCCAATATTAGAACCTTTTTTATTATTCCAAAGAAAAGACTCTAAAACTGTTAAAGGATTAGCATATTCTTTATTATAAATCTTAGAAGAATTTGCCTGTACTTTAAAAGAAAATAAGATTAAAAATAAAAATAAAAATATATAAATAAAATATTTTAAATTTATTTTTTTCATCTATTTTATTGCCAAGATTTAGAAGTTAAAATTATCCAACCTTTAGATACTTTTGCTTTTCCTCCGTAAATACCTTGAGAACTATCGCCTACAATTCTACGAGGTTCATCATAGTCATAACCTTCATAATCTTCATTAATTTTTTCAAAAATAATATTAATTCGACCAGGTTCAATAAATAAGTATCCAGCTGTTGTATCAATTGTACTTGGAAGTATCCAAAACTTTTTTCTTAATTGAAAAACTTCGAAAAGAATGTCTTGATTTTTTTTAGCCAATTTAAGAGCCTCTGGAATTTTCTTACTTAAAATATCAATATTTCTATCATTAAAAACTCTTTTTGGTCTTATAATGCCACCCTTCTTCTTTTTAATTGTATATTTAATTTTTGTAAATGAATTTATAATTGTTTGCTCGGATATATCTATTGGATGTAAAGTTTTATTTATATTTCTATTATTCACAGGAATAGTCTTAACAATAGCTACGTATTGTTTTCCTTTTTTCCAAACATAAGTTGAATGTAACGTTTTAGATGTGGTGTAACCAGGTGAACTTTCGTATCTCTTACCGCTACAAGAATTTACAAACAAAAATACTAATACGAGAAATATGTGGAATAAATTTGAATTCATATAAAACTAAAAAATAAATTATAATATAATATAATTCACATAATTTAAAGAAATGAAATTTTTATATTAATGAATTTAATTGAAATTAAAAAAACAAAAAACTCTAAGGAAGAAAATTTTCCTGTTGGTTCTAGATTAATATCAAAAAAATTTAGATCCCAAATATTAATATTTTATGATTTTGCTAGAGCAGCCGATGATATTGCTGATAGTCCAAATTTAACTTCTAAAGAAAAAATTAAAAGATTAAATTTGTTCAAAAAAAATTTAGAAAAAGAAAAACCCAACTTAACAAAAATAATAAAATTAAAACAAGTTTGTCAAAAAAATAAAATTTCATTAAATCACGCTTTTAATTTATTAAAAGCTTTTAAACAAGATGCATTAAAAAATAGATACAAAAATTGGTCAGAATTAATTGGTTATTGTAAATATTCAGCAGTTCCAGTTGGAAGATTTGTTGTTGACTTACATGGTGAAAAAAAAGAGGCATATAAATTTTCTGATCCTTTATGTATAGCATTACAAATTTTAAATCATATCCAGGATATAAAAAAAGACTATAAAGAAATAAATAGAATTTATTTACCTCATACATTTATAAAAAAATATAAAATAAATTTACACCAAATTAAAAAGAATTATTTAGATAAAAATATGAGAGATGCTTTGAATGAAATATTATTTCATACGGAAAAATTAATAATTAAAGCAAACAAATATAAAAGAATTATGAAAAATAATAAATTATCAAAAGAAACTAATTTAATATTAGAAATTGCAAAAAAATTACTTATTTTATTAAAAAAAAATGATCCTTTAAAAAATAAAGTAGTTTTAAATAAATTTGATTATTTAAAATGTTTTGTTAAATCTTTTTTGTAATAATTTTCTTTAAAAAAATCCCATTGAAATATAATTTAAAAAAAATAACAATATTTCCAAAATCATCTTTTTATTGGGGGATGAGAATCCTCAAAAAAGAAAAAAGAAATGCAATGTTTACTGTTTATGCGTTTTGTAAAAAAGTAGACACAATTGCTGACAGTAAATTATCTAGCAATATAAAAGTAAAGAAAATAAATAATTTAAAATTAGAAATAAATAAAATTTTTAACAATAAGCCAAAGAATAATTTTGGAATTGCTTTAAAACAAAATATAAACAAGTACAAGCTTAAAAAAAAATATTTCTTTGACATAATTAAGGGTGTTGAAATGGATATAAAAAATATAATGGTTTGTCCTACCAATCGAATTTTCAATTTATATTGTTATAGAGTTGCAGGGGCTGTTGGTTTAATAAGTTTAAGTATTTTTGGAGAATATAATAAAAATGGAAAATCCTTTGCTCTTTATTTAGCCAAAGCATTACAGATAACAAATATTTTACGAGATATTAACGAAGATAAACAAATGGGCAGAATTTATATACCAAAAGAAATTCTCAAAAAAAATAATATAAAAAAAGAGAGAATTTCTTTAATAATAAAAAATAAAATGTTTCCTAAAGCATGTTGGGATTTATCAAAAATAGCAGATCTTAATTTTAAAATGGCTAAGAAAAAATTAAAGTATTGTTCAAAAAGTAATTTAAAATCAGCATTATTAATGATGGAAACTTATGAAATTTTATTAAAAAAGTTAAAAAAAAATAAATGGGAAAATTTAGAAAAGAAAATTCGTTTAACAAAATTTGAAAAGATCTTTCTATTTATAAAAGGGATAATTTTTTAATTGAATAAAAATGTTTACATTATAGGAGGTGGCTTATCTGGATTATCCAGTGCAATAAGTTTAATAAATAATAATAAAGTAAATATTCATGAAGCATCAGGAATTTTTGGTGGTAGATGCAGATCTTATAAAGAAAAAAAACTAAATTGTGTTCTAGATAACGGAAATCATTTAATTATAAATGCTTATAAAAATACTTTTAAATATTTAAATGATATAAATTCTTTAAATGAATTAACTTCAAATCAAACAACTTTTTACCCTTTTATTGATTTAAAAGAATTAAAAAAATGGAATGTAAAACCTTATTCCTTCATTTTACCATGGTGGATTTTTTTTAAGTCCTACAGGCCATTAAATATTTCTTGTTTTGATTTCATAAAGAGCTTAAAAATTCTTTTTGCAAAAAAAAATCAAACTGTTACTGATCTAATAAAAAAAAATGAATTAATTTACGATAGATTCTGGAAACCATTTACTATTGCTGTTTTAAACACAAGCCCAAATAAGGCCTCGGCAAAGTTATTATCAAAAATAATATTAAAAACTTTATTTTTTCAAAATAATCCCTTAAAACCTTTTATGGCAAAAAATTCTTTAGATAAAACTTTTATAGAGCCCGCAATCAAAAAAATTAAAAAAAAAGGTGGTAAACTACATATAAATTCCAGATTAAAAAAAATAGTCATTAATAAAAATAAAGCTGATAAAATAATATTTAATGACAAAATTATTGATTTAAAAAAGAATGATATTGTTGTTTTAGCGGTTACTCCAAATATAACTTCTAAATTATTGCCTTATATAAAAGCTCCTAAAAAAACTAATTCTATATTTAATATTCACTTTAAATTAAATTCAAAAACAAAATCTATAAAAATGCCAAATAATTCTTTTTTTATTGGAGTAACTGGAGGTGTTATAGATTGGGTTTTTAAAAAGGGAAATATAATTTCAATAACAATAAGCGATGCAAATAACTTAAATAATATTAATGACGAAGAAATATCTAAAATAATTTGGTGTGAAATAGAAAAAATATTTAATTTGAAAAAGACTAATACGCCTAATTATAAAATAATTAAAGAAAAAATGGCTACTTTTGTACAGAGTCCTAAAGAGATATATAAAAAACCAAAAATAATTACAAAGTATAAAAATATTTTTTTAGCAGGAGATTGGGTAGATACTGGATTACCAGCAACAATTGAAGGTGCAATTACATCAGGATATAATGTAGCGAATATAATAAATAAATAAAAATGAATATAAAAAATATAATTAATATCTGTCAAAAAAAATTACTAAAAGAACAAAAAAAAGATGGTCATTGGGCTTACGAACTTGAAGCAGATACAACAATTCCATCAGAATATATTTTGATGAACCACACTCTGGGTATTAAGGAACCAAATTTAGAAAAAAAACTATGCAAATATATTAAAAAAGAACAAAATCCAGATGGTGGTTGGCCTTTATTTTGGAAAGGAAAATCTAATATTAGTACAAGTGTTAAAGCTTATTATGCTCTTAAACTTTCTGGAGAAAAAATTTCATCACAAATAATGGTTAAAGCAAAAAAAAAAATTTTAGATTTAGGTGGAATTGACAATTGTAATGTTTTTACAAAAATTAGTTTAGCGTTATTTAATCAAATTTCATGGAAACAAATTCCATCAATGCCAATCGAGATAATGTCTTTTCCAAATTGGTTTCCTTTCCATATAAATAAAATAGCATATTGGTCAAGAACAGTTGTTGTTCCTTTATTAATAATTTTAAATAAAAAACCAAAAGCAAAAAATCCAAAAAATATAAATATTAATGAACTATTTACTGATAAAAAAAAAAAAATTAGTAATTATGGTAAAAATTCTCTTTTTTATTATTTTTTATTTAAATTTATTGATAAATCGTTAAAAAATACTGAAAATTATTTTCCCAAAAAATTAAGAAAAAAATCAATTAATAAAGCTAAAAATTTTATAATTAAGAGACTAAACGGAATTAACGGGTTGGGTGCAATTTTTCCAGCAATGACTAATTGTACAATTGCTCTTAAATTACTAAATTTAAATAAAGAATATAAAATTTCCTTAAATAGTGTAAAAAATTTAATAACGCATAAAAAAAATTATAGTTATTGTCAGCCTTGCTTTTCTCCTGTTTGGGATACTGGCTTAATGGGTTTATCTTTATTAGAAACAAATTTATCAGCAGAAAATAATTCAATAAAAAAGGCATGTAATTGGTTGGAAAAAAAACAGATATTAAATATTAAAGGTGATTGGATTCATAATAATAAAAAACTAAACCCTGGTGGTTGGGCATTTCAATATAAAAATGATTATTATCCTGATGTTGATGACACTGCAGTTGTTGCGATGTTTCTTGATAAAGCTAATTATAAAAAAAAAGAAAAAATAGAAAAAGCTTGTCAATGGATAATTAAAATGCAATCAAAAAATGGAGGATGGGGAGCTTTTGATAAAGATAATACATATCATTATTTAAATAATATACCATTTGCTGATCATGGAGCATTGTTAGATCCTCCTACAGCAGATGTATCAGCTCGCTGCGTTTCAATGTTAAGTCAAATAGATAAACAAAAATATACAGAAACAATAAAAAAAGGAATAAATTTTTTAAAACAAGAACAAGAAATAAACGGCTCATGGTATGGTAGATGGGGCACAAATTATATTTATGGTACTTGGTCGGTTTTAAATGCTTTAAAAGCCGCTGGAGAAAATATGAATTCTGAATATATTAAAAAAGCTTTATTGTGGATGAAAAAAAAACAAAATAAAGATGGTGGTTGGGGGGAAGACTGTTCTACTTACTGGGAAAAAAATAAAAATTATCAATTAAAAAAAAGTGTTCCTAGTCAAACTGCTTGGGCAATTATGAGTTTACTTATTACAGAAAAATATAATAATAATTCAGTTAAAAATGGAATAAATTTTTTAATAAATAATTTTAATAAAAATAAATTATGGGAAGATAATTATTTTAATGCTGTTGGTTTTCCAAAAGTTTTTTATATAACATATCATGGCTATGCTAAATATTTCCCTGTATGGGCAATCTCAAAATATTATAATTTAAAAAAAGGAAAAAGAAGTAACAGAATTAACGGATTATAAAATTTATGAAAAAAAAATGTATTTGCGGTGAAAAAATAATTAATTGTGATCCTCTAGGTGATTGTTGGTGTAAAGATTTACCATTTAAATTAAAAAAAGAAGAATTAAACAAAAAATTTAAAGAATGTGTATGTAAGAATTGTTTAATTAATGAATACAAGACTTATTAATCATTTATTTAAGTGATAATATTCATATAAATAATAAATTTCAATTATATATAAATTTTAACTATATCTACCTTAAATATTTTTAGAAAGGATATTTATATGAAAAAATTAACTTTTATAAGTTTAACTTTAGTTTCATTACTAATTAGTTCTCATGCTGGTGCTTTAGAAGCAAGAATTCCTACAACTTCTATGAGCAAAGCATTAGAAATTGTTCAAAGTAAAGATAATTTTTCTACTTTGAAAAATGTAAAGTTTAACGTAAAAGAAAAACTTTATAATATCACTTATATTAATAAAAGTGGTGTTGCTAATACAATTAAAATTAGTCAATTAAACGGTAAGGAAGTTAAATAATTTTTATTTATAAAGACCTTAATTTATAAGGTCTTTCTTCTTTTTTATTTACTTAACAGCAATTTCTTCTTCATTTTTTTGTTCTTTAACGGTTGGCACAGGAATATTCTGTTCTTTAATTTCTTCTTCTTCAATTTTTTTTGTTGATTTTTTTACCAATTCTTCAAACATATATTTTGCAGGTCTTTGATTATTAAGTGGTATATCAGGGACCATTTTTCCGTCAGTTTTTGGACCAAAGAGAGCAACTTTTAATGTTTTAAGTGGATTCTTAATAGAATCTTCTGCTGCTGTTGGTTCATAACCACAATGAACCATACAATCTGCACACTTCTCATAATTACCAGTTCCATACTGATCCCATTCAGTGGTTTCCATTAATTCTTTAAAAGTTTTTACATATCCTTCACCAATTAAATAACAAGGCTTTTGCCAACCAAAAATATTTCTAGTTGGATTCCCCCAAGGAGTACATTTATAATTTTGATTTCCAGCCAAAAAATCTAAAAATAATGAAGATTGACTAAATGCCCATTTTTTACCTTTACCTAATTTAAAAATATTACGAAAAAAAGTTTTTGTTTTTTTTCTTTTTAAAAAATTCTTTTGATCTGCGGCTCTTTCATATGCATAACCGGGAGATACAGTAATTCCATCTACTCCTAATTTAGTAACAAAATCAAAAAATTTTGCTGTTCTTTTCGGTGTCATTTGATGAAACAAAGTACAATTTACATTACATCTAAAACCTTTTTGTTTAGCTACTTTTATAGCGTTAATGACCTTTGTATATACTCCTTCACGACAAACAGAGTGATCATGTTCTTTTTCTAATCCATCTAAATGAATAGAAAATGTTAAATACTGCGATGGTTTAAACAAATCTAATTTTTTTTCAAGTAAAAGAGCATTAGTACAAAGGTAAACAAATTTACCTTTATTAATTATTCCTTCTACAATTTGTCCGATTTCTTTATGAACCAAAGGTTCACCACCTGGAATAGAAACTATGGGTGCTCCACATTCATCAACAGCATCTAAACAATCTTTGACTGACATTCTTTTATTAAGTATATCATCAGCATAATCAATTTTACCACAGCCTGCACAAGCTAAATTACACCTAAACAAAGGCTCTAACATCAAAACTAAAGGGTATTTTTTATTTCCTTTAATTTTTTGTTCAAAAATATATTTAGCTACTTTAATTTTTTGTATTAGTGGTATTCCCATTTTCTAAACTATTAATTCTTTTTTATCCTTCTTATATCTTATACCTGATGGCAATTTAAATTCTACTTTTTCTTTAATACCATCCATTACTTTTACTTGAGAAGATTCAATTTTCTTTAATTTATTAACAACTTCCATAACAACTGCCTCAGGGGCTGAGGCTCCTGCAGTAATGCCAATTGTTTTAACTTTTTTTAACCATTTTTTTTTTATATCTTTTGAACCATCTATAAGAAAACTAGGGATATTCATTTCTCTTCCAATTTCTTCTAATCTTTTAGAATTCGAACTATTCTGAGAACCAACTACTAATAACAAATCTACATGCTTAGCTAAATCTCTAACAGCTTCTTGTCTATTTGTAGTAGCATAACAAATATCTTCAACTCCAGGACCTACTATACTTGGAAATCTTGACTCTAATTCTTTAATTACATCTTTTGTATCATCAACACCAAGAGTTGTTTGGGTTACATAAGCTAATTTTTTTTCATTTTTAACTTTTAATCTGCGTACATCTTCTTTTGTTGAAACTAAATGTACTCCCCCAGGAATTCTTCCCTGTGTTCCTTCAACTTCAGGATGTCCTTCATGACCAATTAAAATTATTTCATATCCCTTTTTTGCATATTTTATTCCTTGGTTATGAACTTTCAAAACTAAAGGGCATGTTGCATCCAATACAGGTAATTTTCTATCCTTTGCATCATCTTCTACTTTTCTTGAAACTCCATGTGCACTAAAAACAGTAACTGCATTATCAGGTATTTCTTTTATATCTTCAACAAAGACGGCACCTTTTTCTTTTAAATCATTTACAACTCTTTTATTATGAACTATTTCATGCCTAACATAAACAGGTGGGCCATAAATTTTTAGAGCTTCTTCAACGATATCAATAGCTCGATCGACTCCTGCGCAAAATCCTCTAGGTTGTGCTAAAATTATTTTCATTTTTTTTATTCTATCAAACTAAATCAACATTTCTACAATATCCATTATTAATAAACCATTTAATAGCGTCTTTTAATGCAGATTTAGCAGATTTATATTTATAATTTAAGTCTTTTTTAGCTTTTTCACTAGAAAAAAACATTTTTTTTTCAGCCATTCTAATCATATCTACGGTTAGCATTGGATTTTTAATTTTAAATAATCTAGCAAAAATTTCAAAAATATAACCTATTGGATAAAGAGGTTTTTTAGGTAGTTGTATTTTTGGCGGATTATGCCCGCACAAATCAGAGATCATTTTTAATATTTCTTTAAAAGTAAGATTTTCTCCACCAAGTATATATCTTTCTCCAAGTTTTCCATTTTTAAAAGCTTGTAAATGGCCTTTCGCTACATCGTCAACATGGACAATATTAAGTCCTGTGTCAAGATAAGCAGGTATTTTTTTCATTGCTGCATCTAAAATCATTTTTCCAGTAGGTGTGGGTTTAATATCCCTTGGACCAACTGGGGCAGCTGGGTTTACTATAACAACTGGAAGTCTTTTTGTTTTATATAATTCTTTTACTTTTTCTTCAGCTAAAAATTTTGATCTCTTATAGTGTCCAATCATTTGATCTTTACTAACTGGTGTTTTTTCATTAGCTATATCTCCGTCTATTGGTTTTCCTAATACAGCAACACTACTTGTGTAAACAACTTTCTCAATTTCAGAATTTAGCGCCTCCTCCATTAAATTTTCTGTACCATTTACATTATTTTGATAAATCACTTCAGGTTTTGGAACCCAAAGCCTATAGTCTGCTGCGACATGGAATAAATACTTGCAATCTTTTAGACATTTTTTTAATGAATCCCTATCCTTTA
>sequence35
AATTATAACTTTCTATAGTTTTATAAATATGGTTGAAATTGCATCAAGAAATAAAAGTGGACATAATTTTTTTATTTTTGATAAAAAAAATGATGTATTAATGGGTGGAATTAGTTTAACAAATTTAAAGCTGGAAGGTTATAAAAGTATAACTTTAGGTTATTGGATGGGAAAAAAGTTTGCTGGTAAAGGATTTATGCAAGAATCTCTTAAATTAATTTGTGATTTTTGTTTTACAAAATTACAATTAAATAGAATAGAAGCAGCCTGCCTTCCAAAAAATTTAATTAGTAAAAGAGTTTTAATACGTACAGGATTTAAAGTTGAGGGTTATGCAAAAAAATATCTAACTATTAATGGAAAATTAGAAGACCATATACTTTTGGCAAAAGTAAAAAAAGGTATTTAACAGCTTCCAGATTTTGAATTTAGAAAATTAGGATTTATTCCTATAGATTTCATTGCTTCATTCCATTTATTTTTAATATCGCATTCAAATATTAAATTTGAATTTCCCGGTGCAATTAACCATCCATTATTAGATAGCTCTTTTTCTAATTGACCGGCATACCATCCTGCGTAGCCTAAGGCAAAAAGAGATTTTTTTGGCCCTTCTCCCTTAACAATTGATTTAAGTATATTAATATTTGAGGTTAGAAAAATATTTTTATCAACTTTTAGAGTGGTTTTATCTTTAAATTCGGAAGTATGTAATATAAAACCTTTTTTTGTATCAACAGGACCTCCAAAAGTTATAGGAATATTATCCATATTTACATTATTTTTTAAATCTTCATTTTCTATTATTGTATTTATTTTAGTTTCTATAATTGGCTGATTTATTATTATACCCATAGCACCCTCATTCTTATGAGAAACCATATAAATAACAGCTTTATAAAATCTAGGATCTGTCATAGCTGGCGATGCAATTATGAATTTACCTGATAAAAATTTTTTTTTTGTTTTCACAATTAAAAGTAATTACATTTTTTATTTAATTTATATTGTAATAATTAATAGATTTAAGATAAAGTAAATTTAAATAATTATAATGTTTCTAAATTTTTTAAAAAAATATTTTATTTTTATAATTCTTTTTTTTACTATTTTTATTAATAATAGTTTTGCAGAAAAAGAAGTAAAAAAAAATTATATTAAACATAAAAATCTTTCTATTGAATTGATTTCTTCAGTTAATTCAGTTTCTTATGATAAAGTTTTGTATTTAGGTTTATTTTTTAAATTAGAACCAGGTTGGAAAATATATTGGAAATACCCAGGTAAAGCAGGTTATCCACCAACTATAGATTGGTCCAAGTCTGAAACTATTAAAAATTTAGAATTAATTTGGCCAAAACCTGAAAAATTTGAAATTCTTGGTATGAAAAGTATTGGATACTCAAAAGAAGTTGTATTACCAATGAAAATAGATTTAAAAGAAAATAATGATAAAGAATTAATTTTAGATTTTAATATTGATTACTTAACTTGTAATAAAATATGCGTACCTTTTAATGATAATTTAATTTTAGCAATTCCATACGGAATAGAAGAAAAATCTAAATATAATCAGCTCATAAAGAAATATATTGAAAAGTCCAATTATAATAGTTATTCGAATTTATTAGCTCCTGATAGCTTATTTTTTTTTATATTTATTGCTTTTTTGGGAGGAATAATATTAAACTTTATGCCCTGCGTTTTCCCAGTGTTGTCATTAAAGGTTTATGATATTTTGTACCAAAGAAAAAATAAAATTAATTTAAAAGAAACAAAAAGAAATTTCTTTGCAACTATAATTGGTATTTTATTTTCTTTTTTTATTTTATCCATATTAGTAATTTTCTTAAAAAAAATAGGGCATGGTTTAGGATGGGGTTTTCAATTTCAATCACCTATTTTTTTATTTTTTATGACATTAATATTAGTTTTGTTTTCTTTAAATTTAATTGATTTTGTTAAAATTGATATTCCAAGTTTTTTAAAAAAAAATATAAATAAATTTATAAATTTAAATAAAAAAAATTCAGATTTTTATCAAAACTTTTTTTTAGGATCTTTTATAACTATTTTATCCACACCATGTTCTGCTCCTTTTATTGGAACAGCATTAGGCTTTGCATTTATTAGCTCTAATCAAATAATTTTTTTGATTTTTTTATTTATTGGATTAGGACTCTCATGTCCATATATAGTATTAGCTATACATCCTAAATTATTATTTTTCTTACCTAAGCCAGGAGTTTGGATGAATAAATTAAAATATTTTTTAAGTTTCTTGTTGATGATGACGGCTGTGTGGCTTTTTACTGTTTTTTTAATTCAAACTAATTTGGTTAATAGTAATAAATCAAAAAATAATGAATGGATTCAATTTAATAGTTCTAAACTCAGTAATTTGGTAAATCAAAATAATATTGTATTTGTAGATGTAACTGCTGATTGGTGTATTACATGTTTTTATAATAAAAAAACTGTGATAGATAGAAAAAAAGTTAGAAAAATTTTTGAAAAATATGATGTAAAAAAAATGCGTGGAGATCTTACAACTCCTAATGAAGAAATAAGTAAATATATTTCTTCTTTTAATAGATTTGGAATTCCTGTTAATATTATTTATAGCCCTTCTTCGCCACAAGGAATTTTATTATCTGAAGTCTTGACTGTTAAAGAACTTTTAAGTACCTTCGAAAGTATAAAAAAATGATTAAAGAAGGTGATATATTCCCAAATAATAAAGTGACTATTGTTGGAAATGATTCAAAAGAAGTTGAAACTGACAAATTATTTTCTGGAAAAAAAATAGTTTTATTTGCTGTTCCAGGAGCATTTACACCAACATGTAATAATTCACATTTACCTTCATTTATTGAAAAGTATGATGAAATAAGAAATAAAGGATATGATAATATTATATGTTTATCAGTAAATGATCAGTTTGTTGTTAATGAGTGGAGAAAAAGTAAATCTTTGCAAAATGAATTTTTATTTATTTCTGACGGAAATGCTGAAATTACAGAATCTTTAGGTATGGTGCTTGATTGTTCTGGTTTTGGTATGGGTAAAAGATCAAATCGATATGTAATGATAATTGAAGATAAAATAATAAAAAAAATTTTTTTAGAAGAAAATCCTGGTACTTGTGATTTGACAAATGCTAATAAAATTTTGGAATTAATTTAATTTTTTATTGCTTTTCTAGCTAAATAATCAGCTCTTTCATTTAAAATATTTTCATTATGAGCTTTAATCCAAATCCAATTTATTTTATGATTTAAAGTTTTTTTTTCTAATGTTTTCCATAAATCTGAATTTTTAACATCTTTTTTATTTGATGTTGTCCAATTATTTAATTTCCATTTTTTTATCCATAAAGTTATTCCATTTTTAAGATATTTGCTATCTGTATAAATATTTATAATTGTTTCTTTTTTGAAATATTTTATTGCATTTATAGCAGCAATTATTTCCATTCTATTATTAGTAGTATAATTTTCAAAACCACTAAATTCTTTTATTTTTTTATTTTTGTATTTAATTATAAATGACCATCCTCCTGGACCAGGATTGCCTATACAAGATCCATCTGTATATATATCTACTTTTTCCATAATTTTAGGAATAATTAATTAAATTTTTTTGAAAAAATTTTAATTTAATTAAATATTCTTTAGGATTTTTTTTGTATTTATTTGGTATTTTTTTATTTTGTGAATCCATTAATCTTGATAGATAAAATCTGAGACTACTGGCTCTTAAAAAAAAATTTAGATAGTTTTTTTCTTCGATTTTAATTTTTCTTATTAAATTATAACCCTTTATTAAATTTTGCATTTTATTGTAATTTAATTTTTTTTCATAACACCAAGCATTAATACATATTGCTATATCGTAAATAAAAAAATCATAACATGCATTAGATAAATCTATAATTCCAACAATTTTATTTTTTTTAAAAAAAACATTATCTGGGAAAAGATCACCATGAATAATTCCTTTTGGAAGATTTTTGGGCCATTCTTTTTTTAAATATTTTATTTCATTTTTTAAAAAAAAACTTTGAGATTTTGATAATTTAATTTTCTTTATTAAATTTTCCCAATCATTCAATGAAAAGTCGTTTTGCCTTTTGTTGTTGAATTTTTTAGTTTTTAAATGCAATTTTGCTAGAATTTTTCCTAATATAAAACATTCTTTTATATTATTTTTTTTAACAATTTTACCTTCAACAAAATCAATGATTGTATATTTTTTTTTTTTGTAAGAACTTAATTGTTTATTTTTTTTATTAAAAAGAATTTTTGGGCTAGGAAATTTCTTTTTTATAAGAAAATTTACTAATTCTATAAAAAATGATAAGTTTTTTTTTTAATTCTTTCTGTTATTTTATTTTCATAAATTGTTAAAACATATTTTTTTATTTTAGTTTTAAAAAAATAATTTGTATTCTCAATTCCTTCATCTATACCTTTAAAATTATATAAATTATCTAGTTTGTAATTATTTAGATATTTTTTGAATTCCTCTTTATTAATCTTTGTGTAATATGCCATTAATTATAACTGTTCTATATAATAAATTATGATGATATATTTATAACAGTTTAAAAGAAAATATAAAAATATAAAAAAATGATTATAAAAAAAGAATTACATTTAAAACCATTCTGTGTAAATATCAAAGAGGGTAAGAAATATGCTTGGTGTACTTGTAATTTAAGTTCAAAACAACCTTTTTGTGATGGTTCACATTCTAAAACTAAATTTAAACCTTTGATTTTCACGGCAGAAGTTTCAGATAATGTATATTTATGTGGGTGTAAAAATACAAAAAAAAAACCATATTGCGATGGATCTCATAATATTTCATAAATAATTTATTAAATTTTATTTTTTTTTTTAATTAATTCTTCAATTGATTTAGCAATTAAGTTATTTTCATTAATATTTTTTTGGGATTTAAGAAATTCCATTATACTTTTGACTGAAATTTTTAAAATAATTTTTTGCACTTCTTCAATTGTTTGTTTTTTAGATTGTTCAATTTTATCTTTAATTTTTTTTTTCAATCTTTCTTTATAATTAATTTCTTCTTTTAAAAGTTTTTTTTTTAAAATAATAGATTCTTCTTTAGATAAATTTATTTTTTTTTCTTTTTCTTTAATGATATTTTCTAAATTATTTTTTGATTGCAATAAATTGTTTTCAGCATCCTCTTTGATTTTTTTTATTTCTTCTATTTTTTTTTTTACATTTGCAATACGATTATCTAAAGATTTAATTAATAATTCTTTAAATTTGCTAAAAGATAAACCTATAAAAATAAAAAAAGCAACAGCAACCCAAAAAGATTCACTTTGCAAAATATTAATGAAGTTATGACTGTCAGGATTTACCATCATTAATTCCTTTTAAATTTCTTTTAATTAGATTTTTTAAAGAATTTTTATTAATTTTTTCTTTTAATGATAATTTTTGAATTATTTCTTTTGAAATATCAAAAGATATTTTATCAATTTGTTTAAAAACTTTAATTTTGTTTTTTTTAATTTCTTTGTCATTATTTTCTAGTTTTTTATCTAGATTTTTTTTTAATATTTCAGTATTTTCATTTATTTTTTTTTCTGTTATTTGTTTTACATCATTTATTATTTTTTTAGATTCTAATTCTGTTTGTTTTTTTATTTCTTCAATTTCTTGATTTATACTCTCAGTTTTTTTATAAAGTTTTTCCGATAATTCAAAATTATTTTTAATTTCATTTTCACGATCTTTCAAAACAGATGCAATTCTTGGTACTATAATTTTTGATAATATTAAATAAAGTAACAAGAAACTAACTACAAGCCAAAATATTTGACTTGGAAAAGTTGAAATTTCCAATTGTGGCATTTTTTTCTAAATTTAAATAATTATAAAAAAAGAACTAAAAATGCAATTAATAAAGCATACAAAGCAACTGCTTCTACCAGTGCAAAACCTAACATTCCCATTGGAAACACCTGTGGTCTTGCAGATGGATTTCTAGCAATAGCTGATATTAAAGATGCAAAAATATGCCCTATTCCTGCTCCAACACCGCCTAGTCCAATTACCGCTAGTCCGGCTCCGATTAATTTAGCTGCTTCTACTTCCATAATATTCCTCCTGAATCAGTGTAGATTAATTGCATCATTTAAATATAAACAAGTTAATACAGTAAACACATAAGCTTGTAAAAAAGCAACAAGAACTTCAAAGGCTGTTAATGCTACATCAACAATTAATGGTGCGATGCCAAAAACACCAAGTGAAAATATAAAACCGGCAAAAACTTTTAGCATTGTATGTCCAGCCATCATATTAGCAAATAATCTTATTGATAAGCTAATAGGTCTAGATAAATATGATATAATTTCAATTGGTACCATTAGTGGTAACATGGCCATCGGAACTCCTTTTGGAACAAATAATCCAAAAAATTTAAAACCGTGAGTAAAAATTCCTATTAATGTAACAAACAAAAATATAAACATTGCTAAAACAAAAGTTACAATTATATGGCTTGTAAATGTAAAGCTATAAGGTAACAAACCAAATAAATTACCAAATAATATAAATGTAAATAAAGTAAAAATTAATGAAAAGAATTTTTGTCCTTTATTTCCAATATTATCATTAATCATATTTGAAATAAATTCATAAAAAATTTCTGAAATACTTTGTAATCGAGTAGGCACTATACGTTTATTTTTAATTGATAAAATTAAAAGTAATGAAACAAATAAAACTGTTAGAATCATAAATAGAGAAGAATTTGTAAACGATATATCCACATTATTTAGTTGAAGTGGGTAAAGTTTCTTTATTTCAAATTGATGAATAGGATCTGCCATATTTAAATAAAAAAAATTAACTAGTGGAATTTATCATTTTTTTTTTTTAAATCCAACCTCAAATCCTAATCTTTTTACTGTTTTATAAATATTTGAAATTCCTCCTCCAAAACCTAGAATTAAAAAAACTATTAGAAATAAAGGTTTACTATTAAAATAATTGTCAAGAAATATACCAATAACAATTCCTACTATAATAGGAGAAATAACTTCAACTCCAGCTTTTAAAAATAGGCCTAAATCATTACTTTTTTTTATTTTTTCGTTTTTTTTTAGATTTTTTTTTTCGAAATTTTTAAGCCTTTTATTAAAATCTTGTAATCTTTTCTTCAATATAATTAACTAACTTCCCTAAGTTTTTGAGCTTCTTCTAATTTTACAGAAATTAATTTAGAAACACCTGTTTCAGCCATAGTAACTCCATATAATCTATCCATATATGCCATTGTAATAGGATTATGTGTAATAATTATAAATTTTGTTGAGGTTTCTGTATTTATTTTTTTTATTAATTTACAATATTTGTCAATATTTATGTCATCTAAAGGAGCATCTACTTCATCTAAAACACAAATAGGAGAGGGATTTTGAAGAAAAACAGCTAAAATTAGAGCTGTTGCTGTCATAGTTTTTTCTCCTCCTGATAATAATGATAAAGTGCTCATTTTTTTTCCAGGAGGTGAAGCAAATACTTCTAATCCTGAGAGTAAAGGATCAGAAGATCCAATCATTTTCAAAAAAGATTTTCCACCATCAAAGAATTCTTCAAATAATTTTTTGAAACTTTGATTTATACCATCAAAACAATTATTAATTTTTTCTCTTCCTTCTTTATTTATATTAGAAATAGTTTCTCTTAATTTAAAAATTGCTTTTTCAACATCAATCTTATCATTTACCATTTTTTCTATTTTTTGATTTGTTTCTTTAGCTTCTGTTTCTGCTGTAAAATTTATTGGTCCAATTTTATCAAATTTTCTTTTTTCTTGGTTTAAATTATTTTGTAAAATATTAATTGCAGGAAGATCTTTAATATCAATTTTTTCTTTTTTTATTATATTTTCATCTAATTTTAGTGAAAAATTTCTTTCACTTTCTATAAACGCGTTATTTAAATCATTTTTTAAATATTCTAAATCAGTTTCTAATCTTGTTTTCTCTTCGTGGCTTTTTATTTTTTTTTCTGAATTATATTTTATTTTTTCATCAATTTCTTTTGTTTGGCTAGGATCAATAATAATTTCTTTAGATAAAACATTTATTTTTTCATTTAAAGAATTTATTTTTTGTTCTATATCTTCGTTTTTTTTAATTATTTGATCAGGTTTTATTTTTAAATTTTCTAATTCTTTTTTTATAATCTTTTCTCTTTCTGAGAGACTATTTAAATGTTTTTTCGAATCTTCAATTCTTTTACTCCATTTTAAATGTTCTTCTTCAAAATCAAAAATTTTATCTAAATTAGTTAATTTTGAAAAATTGTTTTTTATATCAGTAAATGATGAAAATATATTTTTAATTTTATCTGAAATTATATTAAAAGTATTTTTAATTGGACTAATTAATTCATTATTTTTTCTATCTATTTCATTTATTTTGGATTGTAATTCATTAGATTTTGAAATAATAAATTCAATTTTTTTTATTTCATTTTCAATATCTTTTTTTAAATTAATAAAACTTTCTTTACTTGAATTTTTTTCATTATTAGAGATTTTTATATTGAGTTCTTTAGTTTCATTGAAAATATTTTTTTGTAATTTAGATAAAGAAAAATTTGCATCTTCTAAAAATTTATTTTCTCTATTCAAATCATCAGTTAATTGATCTAATCTATTTTTTAAATTTTCTTTTTGTATTGAAATTCTATTAATTTCATCTGAGTTTTTTTGTTTTTCAATAATATAATTTTGCTTTTCAATTTTTAAATTATTTAAATTGTTACTTTTTTCATTATTTGAATTTAAAAATTTATTCTTTTCATTTTTATAATCTTCAAGTAGAACATCTATTTTATTAATTTCGGAGTTTATTTTTGTTAAATTTTCATTTTTTGACGATATTTTTTTTAAATCATTAATACATCTTATTTTTAAGATAGTAATTTCTAATTCATTTATTTTATTCTTTATATTTTTATATTTTTCTGCTTCTGTAACTTGTTTTTCCAGTATTTTGTATTGGTCTTTATGTGTTTTGATAATATCATCTAATCTTGATAAATTAACTTCAGATGATTTTAATTTTAATTCTGCTTCGTGTCTTCTAGCATGCAAACCAGTAATACCAGCAGCTTCTTCTAATAAAATTCTTCTTTCTTCAGGTTTAGAACTAATTAATTTATGAATTTGTCCTTGAGCTACAATAGAAGTGGTATCTGGGCCAGAAGATGCATCTGCAAATAATAAATGTACATCTTTTGCTCGTGCTATTTTATTATTTATGTAATAAGTAGAACCTTTTTCTCTTTCAATTTTTCTTTTAACTTCAATTATTTCTTGATCTTTAAATATTTCAGGAGCTTTATTATCTTTATTATCAATTATTATTTCTATTTCAGCTAAATTATTTTGTGGTCTGATTGCAGTTCCATTAAATATAACATCCTCCATTCCTTTACCACGCATTTCTTTTGCTGAAGTTTCACCCATTATCCATTTTAAACCATCAACAATATTTGATTTTCCACAACCATTAGGTCCAACAATTCCTGTCAAACCTTTATCAATACTTAATTCTGTTTTATCAACAAACGATTTGAAACCTGTAATTTTTATTTTATTAAAATCCATATATTAAATTAAATCATCAATAATTTTTTTAAAACTTTCATAATTCAGAGTTGTATATTTTTTTCCATTAATTATAAATGACGGAGTAGAATCAATATTATACTCTTTTTCACCTATACTTCTAATTTTTATAATTTCATCAACTAACTTCTCATTTTTAAAACAATTTTCAATTTTTTTTTCGTTTAAACCTGCCAATTTTCCAATATTTATTAATTTTTTTATAAATTCATCATTATTAGAAATCCATTTTTTTTGATTTGTTAAAACTAATTTTACATAATCAAAATATTTTTCTTTTGGAGCGCATTTAGCAAGCAGAGATCCATATAAAGCTTGTTTATCTAGTGGAAAATCTCTGAAAATAAATTTTATTTTATTTGTGTCTATATATTCTTTTTTAATTTTAGGATAAACATTTATATGAAAATTTGCGCAATGAATACATGTCATAGACGCATATTCAATAACTGTAATTTTTGAATCTTTGTCACCTAAGAAAATTTCTTCATTTGCTTTAATATTTTTTACTTGAAATAATGAAAAGAAAACAAAAAAAACATAAAATAATAATTTCATAATGTTGTATTTCATTTATTTTTAAACACTATATATAGTATAATTATAAAATTAATCTTATTATGAGCAAGAAGTAATTTATTATTCAAATAACGTTTTATTAAGGTTTTTTAAAGCATCCTTTAAATCTTTTTTTTTAATTTTGTTAATAGTTTTAATTTGATTTTTTTTCATTTCTTTGTTTATTTTTTTTTTGATAGTTTCTGATTTTTTTATATTAAAATCTTGTATTATACTTATTTTATTAACAGCTTTGTAACCAAAATATTGATTAAGTTTTTCAATTATTTCTTCACTTTTAAATTCTATTTCTAAAGATCTACCTCTAATAGTTTTTAAGAAAATTGTTCCATTGATATTTTTTGTATGTGAAAAAATAATTTTTTCAGGTTTACAAAATTTTGAGATTTCTTCACCAATAATATTTTTCCAATTATTTAATAAAGAAAATTGTATATAATTTTTTTTTTTAATATCTTGAGTTATTATTTTTGGTAGACTTTTCCCTATTTTTTTAAAATAATTTTGTTTTATATTTTTCAATTGTTAAATATTAAAAAATGACATTTTATAATAATATCAAATTTCATGCCAAATTTAACTAATAACTTAATGTTTTGGTATAAACAAAACAAAAGAAAATTTCCTTGGAGAGAGAAAAAGAATCTCAAAAATCCTTATTTTGTAATGGTTAGTGAAATTATGTTACAACAAACAAATACAAATACTGTAATTGATTATTTTAAAAAATTTATTTTGAAATGGCCTAATATTTATAGCCTATCTAATGCTAGATTAAATGAAATACTATTTTTTTGGCAGGGACTTGGTTTTTATAAAAGAGCACATAATTTACTAGATACATCAAAAATATTAATTAAAAAATATAATGGAAAAATACCTACAAATTATAAAGATTTAATTAATTTGCCTGGTATTGGTGAATATACTGCAAATGCAATTTTAACATTAGCTTATAAAAAAAAGAGAATTGGTTTGGATGTCAATATTAATAGAGATGCTTCAAGATTATTTAATTTAAATATAAAAGATAAAAAAAAAATTTATCAAAAACTTTCTTATCATTTACCAAATAAAAAAACTGATGATTTTATGCAAGCATTAATGGATGTAGGTGCAACTTTATGTAAAAAAAAAATAACAAAATGTCATTATTGTCCAATAAACAACTTTTGTATTTTCTTTAAAGAAAATAAACAAATTGAATCAAATATAATTTACAAAAAAAAGAAAAAATTTTTATTTATATATTTAATAAAATTTAAAAATGAAATTATTTTAAGAGAAAAAAAAGAAGGTAAATTATTAAATAATTTAATGGAAATACCAAATTATTTATTTAATAAAAAAGTTTCACTAGAAGTAGCAAAAAGAAAAGCACCATTAAAACTTAATTGGAAAAAAGTTAAAGGTAAACTCAATACAAAAATTAGTAATTTTGATTTAGAAACAATTTTTTTTGAGACTGAATTAAAAAAAAAATTTTTTTTAAAAGATTCAGTTTGGGTTAATAAAAATAAATTAAAAAAAATTCCAATTTCTAGTTTAATGAGAAATTTTTTAGTTTATTTGAATTGTTTTTAATTCAGATCTAAGTTTTTCTCTTAATATATCTATGCTTATAGAATTTTTTTTTTCGTATTTGTACCAAAAGGTCCAACCATTACATGAAGGAATATTTTGAATATTTGCAGCAACACTGTGAATCGAACCTTTAAAATTATCTGTAATAATAGATCCATCAACTTTAACTTTTGCAAACCATTTTTTTTTTGGATCATGAAGAATATCACCTGGTTTTATTAAATTAAATTCTATTAAACTACCAAATGGTATTCTTTTTTCTTTCTTTTTTTCAACTATTTTCAGTAATTCTAGATTTTTTAATTTTTTTGTAAGTTTAATTCTATCTTTTGCAAATTTTATATATTTTTTTTCATTTTCTATGCCGATATAATTTCTATTATATTTTTTTGCAACCGCTCCTATTGTTCCCGTTCCAAAAAATGGATCTAATATAAGATCTCCAGGTTTAGTAGCAGATAATAATATTCTTGTAATTAAATTTTCAGGTTTTTGGGTAGGATGAACTTTTTTTCCTTTATATTTAATTCTTTCAGAACCATTACATATTGGAAATAACCAATCACTTCTCATTTGTACATCATCATTTAAAGATTTGAGAAGATTATAATTGAAAGTATATTTTGAATTTTTTTTTTTTTTACACCAAATAATTGTTTCATGTGCATTTGAGAATCTTGTTCCTTTAAAATTAGGCATTGGATTATTTTTTATCCAAATAATATCATTTAGTATCCAAAAACCTAAATCTTGTAAAATTTTTCCAATTCTAAATATATTGTGATATGTACCAATTACCCAAAATGTACCATTATCTTTTAATACTCTTTTACTTGCTTTAATCCATTTTTCAGTAAATTTATCATATTCTTCAAAATTTTTAAATT
>sequence36
CATCAAGTTTTTTTGATTAAAAAATTAATACTTTTTATTTTTTTTTGTTTATCTATAAAAATTTTTTTATCTTTACAAATTTTTTTTAATATATTTTCCATTTATTAAGAATTTGAAAATTCAATTAGTTCATCAAGTTTTTTTGAGGCTTTACCAGATAATATAATTTTATTAACTATTTCTATTCCAGATTTTATATCCTTTGTTTTTTTATTTATATATAATGCCGCTGCAGTATTTAGTAATACTATATCTTTTTTTGGACCACAAATCTCTCCATTTAAAATTCCTTTTATTATTTTTGCATTTTCTTTACTATTTCCACCAACCAAATCTTTCTTATTACTTTTTTTAATTCCAAAATTGGTAAAATTTATTTCTATTTCTTTTATTTTTTTTTCTTTAACCTCAACAATATAATTTTTTACATTTGTATTTAATTAATAATATTACTTATTTACAGAAACAACCCATTAAATTTATGTTTGTAATTTTTTTAAAACTTCTGCAACGTGCATTAATATTTTTACATTATAAACACCTATTATTTGTTTTTTACATTCAACAGGACTTAATAGGGGACCTAATATATTAAAAATTGTTCTTTTACCAATTTTTTTTCTTATTTCTGCAACATTTTTTAAAATTGGATGAAAATTTGGCGCAAATAAAAAACATAAATTAATTTTGTTTAGACAATTAATTATTTTGTTTTGATCTAAATTTATATTAATTCCTAATTCTGAAAGAACATCAGCCGAACCTGTTATAGATGAAACAGCTTTATTACCATGTTTTGCTACACAAACACCACATGCCGCTGTAATTATTGCTGTTATTGTTGAAATATTAAATGTTCCTGATTCATCTCCACCCGTACCACATGTATCAAAGGTGTTTGAAAAACCTTTTATTATATTTGCTTTTTTTTTTATACTTAATACAGCACCAAATATTTCATTTACACTCTCACCTTTTTTTGATAAGGAAGTTAAAAAATCAATAATTTCATTATCATTAACTTTTTGTAATAAAATTTGATCAAAAGCATCTTCAGATTCATTTTCAGATAAATTTGTTCCTTCATTGATAGATTTTATATAATCAGTAAAATTTTTCATTTTTTTTTTGATAATTGTAAAAAGTTTTTTATTAAATCATGACCATGTTGTGAAGCAATAGATTCAGGATGAAATTGGACACCATAAATAGGCAATTTTTTGTGTCTTATGCCCATGATTATTCCATTTTTTTTTAATTCAGCAGTAATTTTTAAACAATTAGGTAAAGTTTTTCTTTCAATACTTAATGAATGATATCTAGTTGCTTTAAAAGGATTAGAAAGGTTTTTAAAAATATCTGATTTAAAATGATGTATACTGCTAACTTTTCCATGCATTGGTTTGTTCTTGATAATTTTACCACCAAATGCTTGACCAATTACTTGATGTCCCAAACAAACACCTAATATTGGAATTTTTGTATTTGATATTTCTTTTATTAAATTTAAACAAATACCCGCTTCATTTGGAGTACAAGGCCCAGGTGATAAAATAATTCCTTCATATTTTTTTTTTAAGATATCTTTAGGTGTTATTTTATCATTTCTATAAACTTCAATTTTTGCACCTAATTCTAAAAAGTAATGATAAAGGTTATATGTAAAACTATCGTAATTATCTATTAATAAGTACATTATTTTAATTTAAAAATTTATTGCATCTTCTGATGCATTTAAAACAGCTTTAGCTTTATTTATAATTTCATCATATTCATTTCTTTGATTACTATCTGCTACAATTCCACCTCCACTTTGCACATATAATACATTATTTTTTATCAAACCTGTTCTTAAAGATATACATGTATCTAATGATCCATCATGTGCAAAATATCCAACTCCACCAGCATAAAAACTTCTAGATATATTTTCTACTTCATTGATTATTTCCATTGCCCTAATTTTAGGAGCACCTGTTACTGTTCCTGCAGGAAATCCGGCAGCTAATACATCCAAAGGATGATATTTTTTATTTAATTTTCCAGTTACATTAGAAACTATATGCATTACGTGTGAATAATTTTCTATTATCATTTTTTCTGTAACTTTTACAGAATTTTTGACTGATACTCTTCCAACATCATTTCTTCCTAAATCAAGAAGCATAAGATGTTCAGCTATTTCTTTCGGATCAGATAATAAATCGTTTGCTAATTTTTTATCTTCAATTTCATCCTTGCCTCTTTTTCTTGTTCCAGCAATTGGTCTAATCGTTATATTATCATCCTTTAATCTAACTAATATTTCCGGACTTGATCCAACAATAGAAAAATCTTTGAAATTTAATATAAATAAAAAAGGTGAGGGGTTGAGTTTTCTTAATGATCTATACAAAGAAAATGGATTATGTTTAAATTTTTTTTTAAACCTTAATGACGGCACTGTTTGAATTACATCACCATTATTTATATATTTTTTTATAGTGTTTATTACTTTGAAATATTTTTTTTTTGTCATATTACATGATATCTTTTCTTTAGTTTGTTTTCTTTGTGAAATTTTCTTTATTTTTAAAGATTTTTTAAGATTATTTACTACAGATAATATTTTTCTTTTACCATCTTTATATAATTTCGAAATAAATTTTACATCATTATTTTTTTTTGGTTTTGTAATTGTATTAACAATACTGATTGTATTTTTTAAATTATCAAAAACTGCTACTAATGAGGTTCTCATAAATAATGCATATGGAATTTTTAATGTATCCTCTTTTTTTTTTTGGTAAATTTTCGTAATATCTAATAAAATCATATCCCATGAATCCAACATAAGATGAAACCATCGAAGGTAACTTTCCAAAAGTACATGTTTTTAATGAACTTATTTCTTTTTTTAAATCAATTAGTGTTTTTTTATCAATATTAGTACATTTAATTAATTTATCAGATTCAATGCCAATAATTGAATATCTTCCTCTACTGGAACCACCTTCGACAGATTCAAGTAAAAAATTATTATTATTATTTTTTTTTATTAATTTTAAGTAAGCCGTTATTGGGGTTTCAAGATCAGCAGAAATTTCAGTCCATAGACACAATCTATTATATTTTTTAGATAAGAATGCTTTATTGAATTTTTTTATATTAGGTATAATTTCCAATTTTTTAATATTGAAATCTATCAATTAATTCATTAATTTTTTCTTTATTAATTTTTGTTGGGAACTCTTTATTAAGTTTTACCATTAACTGATTAAAATTATCAATCCCATATATTTTATTAATATTTACTTTTACATTAGAAAAGTTAGCACCGTCATATTTTATTTCACTTTCAGACAAAACTTTGACAATGTAAAATTTATTTGTTGTATCAAAATCATGTAATGAATTTTTTTCAGAATAATATAATTTTTTTACTAATTCTAGGGGAATACCTTGTTTAACCATTTCTTCTCTATTTATTTTTTTAGTTTCTCTGCTACTCATTTCATAAGAGTCGCTTACATTAAAAAAATCATTCCCTTCATTTATTTCTTTTTTAAAATTATTTACTCTTTCTTTTATTTGCTCATTTATTAATTCTTTTTTTTTGTCTTTTAATAAAAAATTAAATGCTTCTTCATAACTCATTAATTCATTATCTAATATTTCATCTATTCTAATTACAAAAAAACCATTCTCAATTTCTTCAATAAATAAATTAGATTCTTTTTCTTTTTTAAAAATTTCATTATAAAATTTTTTATTTTTAAATTCATTTAAATCAATTTTAGATAAGTTTTTTCTTTCAATTAATTTTTGTTGTTTAAGATTAATTTCCAATTTATCAGCTATATCTTCTAAGCTTGATTCATTTAAAAGCTCTTCATCTAAAGCATTAATTAAAACATCAAGTTCATCAAATGATTTTATTTCTAAAAGATTTTTTTTAATAATATCTTTTACATCTTTAAACTTTTTTACTTCTTCATCTTTAATTTCTGTTACTTTTAAAATATGAAATCCAATACTTGATTTAATTAAATTTGTGAAATTGTTTTTTTTAAGTTGAAATACATCCTCAGCAAACTCTTCAAATAATTGTGCTTTTTCAACTTTACCTAAATTTATATATGTCATATCTTGAATATCCTTCTCTTTTGAGAATTTTTCAAAGTTTTCGTCATCTTTTATTAAATTCAGTGCTTTTAATCCTTCTTGTTCATTATTAAAAAATAACTGTTCAACATTTCTTTTTTCAGGAATAATAAAATTTTCTTTTTGGTCATTATAAGATTTTCTTAATTCATTTTCATTAACTTCTATTTTTTCTTTTAAAAGATCTGTTGTTATAAAAAAATAACTAATTGATCTTCTTTCATCAAAAAAGTATTTTTCTTTATTAGTGTTGTAGTAATTCATTAATAAATCATTATTCTCTATTTTTAGTTTTTTAGCTTCGATTTCTTTATCTATGAATGCAATTTTAAAAGATTTCTTTTCTTCTAATTGATTATGAATTTGTTTTAATAAATTATTTGGATAATCTATTTTTTTTTCAAAATAATCAGCAATTAGCTCAACGATCATTTGATTCTTTAAATAAATTAAATAATTTTCTTCGGTATTAAAATTTCTTTTAACAAATGATTGATAAAGATTTACATCAAATTTTTTATCTACTTTATCTTGAAAAAGATCATTCTTATAAATTTCTTTTTTTAATTCTTTATCAGATATATCAATATTAAGTTTTTTTGAAGCATTTAGTATTAATTGTCTATTAGAGATATTTTTTACAGTTTCATATGCTATTGATTCTAAATCTGTTCTATTAAGATTTTCTTGGTTTCTATTTTGGATTTTAATATTATTAGAAAATTCATTAACAAATCTTTGAGGTAAAATTTTTGTTTTACCTATTTTCATTACATAATTTCCACCAGATCTGAAGATATCTCCAACACCCCAGAAGGTGAAACTTAAAAATATAATAAAAAGAATTATTCCTAAAAACCAACCCTTTATATATTTCTTTATATATTGAAGCATTTTATCTAATATAAGATATTAAATATTATCTAAGAAACAATGAATAATAATGACAAATTAATTATAGCTAATTGGAAAATGAACCTTTTTTACAATAATGCTTTTATTTTTTGTAAAAAAATTATTTTAAATATGAAAAATATTAAAAATAATTTTATAATCTGTCCTCCATCAATATTATTATCACAACTCAATATAACATTCAAAAATATAAATTTTGGAGCGCAAGATTGTCATTATAAAAATTCAGGTGCTTTTACTGGAGATATTAGCCCTTTAATGTTAAAAAAAATTAAGTGTAAATATGTCATTATTGGTCATTCAGAAAGAAGAGAATATCATCATGAAGATAATAAAATTATTAAAGAAAAAATATTTGCCGCTTTAAAAAACAATCTTATTCCTATTATTTGTATCGGTGAAAATTTAAACGTTAAAAAAAGAAATGCTACTAAAGGTTTTATATCTAAACAATTAAATTCTGTTTTACCTAAAAATAATAAAAAAAAAATAATTATTGCATATGAACCTATTTGGGCTATTGGTTCTGGAAAAACACCATCATTAGAAGAAATATCTGATTTACATATTTATATAAAAAAAGTTATAGTTAATTTAAATTCTTCATATAAAAATACTAAAATTTTATACGGAGGATCTGTAAATAAGAAAAATTCTATTAATTTTTTAAAAAATATAAATATAGATGGTCTATTAGTCGGGGGAGCGAGTTTAAATTTTAATAGCTTTTATTCTATTTTGAAAATCTAATAATTAATTATATTTGATTTTTTTTTAAAAATTAATATATAATATCAATACTAAATGGCATCTATATTATTAACTATTCATATTATTGTAGCAATAAGCTTAGTTATCTCTGTCTTACTTCAACGTAGTGAAGGGGGTTTAGGAGGATTAGGCGGTGGTATGTCTAATGTTATGTCTTCACAAACAGGTAATAGCTTTATTACAAAATTAACTTTATATTTAGCAACAGGTTTTATAATAACTAGTATTTCATTAGCTGTTATTTCTAAAGATAATAACAAAACTATAGTTAATGAAAATGAAATTAATAGTAAGGAAAATAATGTACCAACAGTCCCATTGGCTGATTAAAAGTTTTTTTTTTTATATTTTAATATTTTATAAAGAGGCATTTTTGCCTCTTTTTTTATTTTATGACTAAATATATTTTTATAACAGGTGGAGTTGCATCAGCATTAGGTAAGGGTCTTGCCGCAGCATCACTCGCTGCTTTGTTACAATCACGAAATATAAAAGTTCATTTGAAAAAATTGGATCCTTATTTAAATATTGATCCTGGAACTATGAGCCCGTATCAACATGGAGAAGTTTTTGTAACTGATGATGGAGCTGAAACAGATTTAGATTTAGGACATTATGAAAGGTTCACAGGAGTGCCGACAAAAAAAAATGATAATATTACATCTGGAAAAATATTCTCAAATGTTTTAATGAAAGAAAGAAGAGGGGATTATTTAGGTGCTACAGTTCAAATAATTCCACATGTAACTAATGAAATAAAAGATTTTATAGTTGATAACACAAAAAATGACGATGTTGTTTTGTGTGAAATAGGAGGAACTGTGGGAGATATTGAAGGACTTCCATTTTTAGAAGCAATAAGACAATTAAGAAATGAAATGGGTAAAGAAAATACTTTGTTTATTCATTTAACTCTTGTTCCTTATCTAGAAAGTTCAAAAGAATTCAAAACAAAACCAACACAACATTCTGTTAAGGAAGTTTTAGGATTAGGTATTCAACCTGATATTTTACTTTGTAGATGTGAAAGAGCATTGCCAGAAGATTCAATAAAAAAAATTGCTCAATTTTGTAATGTTAATAGTAAATCTGTAATTCCAGCGCAAAATGTTAGCAACATTTATGAAGTTCCAAGAAATTTACATAATTTTGGGTTAGATAATCAAGTTTGTAAATTTTTGAATTTAAAAACTAAAAAACCTGATTTAAAGAAATGGGAATTAATAGAAAAAAGAATATCATCACCAGAGGGTGAGGTTACAATTGGATTAGTCGGTAAATATAATATGTTAGAGGATTCATATAAATCCTTAGTTGAAGCACTTATTCACGGTTCAATTTCTAATAATGTAAAATTAAATATAGAGTGGTTAGATTCTGAAATTTTTTCTAAAAAAACTAAGATGGATACTTTAAATAGAATTAATGGTATTTTAATACCTGGTGGTTTTGGTATAAGAGGTACAAAAGGTAAAATTAACGCAGCTAATTATGCAAGACTTAATAATGTCCCATATTTTGGTATATGTTTAGGTATGCAAATTGCAGTTATAGAAGCTGCTAGAAATTTACTTGGTTTAAAAAAAGCTGATTCAACAGAATTTAACAAAACAAAAGATCCTGTTATTGGAATAATGACTGAATGGATAAAAAAGAATAAAAAAATTAAAAGAAGTACTAATGGTGATATGGGAGGTACTATGCGTTTGGGCGCTTATGATTGTATATTAAAAAAAAAAACAAAAATATTTGATATTTATAAAAAAAATAAAATTAGCGAAAGGCACAGGCACAGATACGAAGTTAATCTAAATTATTTAAAAAAATTAGAAAATTGTGGCATGGTTTTTTCAGGATTATCTCCAGATGGTAACCTACCAGAAATTCTTGAACTTAATAACCATCCTTGGTTTATTGGTGTTCAATTTCATCCTGAACTAAAATCAAAACCATTTGAACCACATCCGTTATTTGTATCCTTTATTAAAGCTGCTTTAAATAGATCAAGATTGGTTTAAGAAAATGAAAAATATATCAGTAAAAATTGGAAAAAATAATATCGGAAACCATTTACCATTAACTCTTATTAGTGGACCTTGTGTAGTTGAGAGCAAACAACATGCACTTGATACCGCTGGGAAAATAAATGAAATTTGTTCATTGTTAGGAATAAATTTTATTTATAAATCATCATTTGATAAAGCAAACAGATCCAGTATTAAAAGCTCTAGAGGTGTTGGATTAAATAAATCTTTAACTATATTTTCTGAAATTAAAAAAAAATATAAATGTAGCATTACAACTGATGTACATGAGCCAAATCAATGCAATAAAATATCAAAATTTGTTGATTTAATTCAGATACCAGCTTTTCTATGTAGACAAACTGATTTATTAACTGCTGCAGCTAAAACTAAAAAACCTATAAATATTAAAAAAGGGCAATTTTTATCTCCCTCTGAAATTACAAACGTAATTAATAAAATAAAAAATAATAATAAAATACTATTAACTGAAAGAGGTTATAGTTTTGGATATAATAATTTAGTTTCTGATATGAGATCTTTAGCTATCATGAAAAAAACAAATTATCCTGTTATTTTTGATGCTACACATTCTGTCCAACAACCAGGTGGATTATTAAAAAGCAGTGGTGGAGAACGAGAATTTGTTTCTGTACTTGCAAAAGCTGCTGTATCTGTAGGAATAGCAGGTATTCTTATTGAAACGCATCATAATCCAAATAAAGCTCCAAGTGATGGGCCCTGCATGGTACCTTTAAAAAATCTTCAAGTTTTACTAGAAAAATTAATTGAACTAGATTTCGTTACAAAAAATAATTAAAAAAAAATAATAATGCCAAATATAAAAAAAATCATCGGTAGAGAAATTATTGATAGCAGAGGTTTTCCTACTGTAGAAGCTACAGTTTTTCTTGAAAATGATAATTCAGCTACTGCATCAGTTCCTTCAGGTGCTTCAACTGGAAAATTTGAAGCTTATGAATTAAGAGATGATGATAATAAAAGATTTTTAGGAAAAGGTGTCTTAAAGGCCGTTGAAAATATTAATAATGTAATATCAGATAATTTAATAGGCAAAGATGCTAATAACCAAGAAGATATTGATAATTTATTAATAAAATTAGATGGGACAGTTAATAAAAAAAAATTAGGAGCAAATGCAATTTTGGCTGTTAGCATAGCTAATTTTAAAGCAGTTGGAATAAAACATAATTCGTGCATTATGCCAGTTCCGATGGTCAATATTTTAAATGGAGGTGTTCATGCTGATAATGGTTTAGATATACAGGAATTTATGATCATGCCAGTTAAAGCACATAATTTTAAACACGCTGTTCAAATATCAACAGAAATTTTTCATACATTAAAAAAAATACTTTCTGATAATTCATTATCCACAAATTTAGGCGATGAGGGAGGATATGCGCCGCAATTAAAAAATCATTCTGAAGCATTAGAGTATTTAATGAAATCTATTTCAAAAGCAGGTTATAAACCAGGTGATGATGTATATATTGCACTAGATGCTGCATCTTCAGAATTTTATAAAAATAATAAATATGAATTATCTGGTGAAAATAAAATAATTAGTTCTGATGAATTAATAAAATACTATGAAAATATTATTTCTACTTATCCTATAATTTCTATTGAAGATCCATTATCAGAAGATGATCATGAAGGTTGGAAAAATATAACAAAAAATTTAGGTCATAGAATTCAATTAGTTGGAGATGATTTATTTGTAACTAATGAAAAAAAACTTAAAGAAGGTATAAATAATAAAATTGGAAACTCAATTTTGATTAAATTAAATCAAATAGGCACAGTTTCTGAAACATTAAATACTATAACATTGGCTAAAGCTAATAAATACAGTACCATAATTTCCCATAGATCAGGTGAGACTGAGGAAAATTTTATAGCCGATTTAGCATGTATTACAAATGCTGGTCAAATAAAAACCGGTTCTATGGCTAGATCCGAAAGATTATCTAAATATAATCAACTCATAAGAATTGAAGAGATGGTTGAAAGTAAATATGCTGGAAAAAATGTTTTTAGTTTTTTAAAATGAAAAATTATTTAATTGGATTATTCGCTTTATTAATAATAATTATTATTTATTTAATAACTTTTGGCGAGGAAAAAAATTTTTTTACATTAAATAAATTAAAAAAAGAAGTTAGTGAAAATAAAGAAATTCTTAATAATTATGAAAAAGAAAAAGAAAAGTTAAAAACTTCAATTGAAAAACTTGAAGCTAGTGATTTAGAATATATTGAAGAAATAGCAAGAGATAAACTTAATATGTCTGAGCCTGATGAAATTATAATTTTTAATAAAGAATAAAATTTTGGTCTCCTTTGTAAAGAATAAGATTTTACCGTATTCGTTAACTCAAATTTACAATACAGTTTCAAATGTAAAAGAATATCCTGATTTTTTACCATGGTGCACTGATATAAAAATAAAAAAGAAAACTAAAAAATATTTAATCACAGAAGTAAAAGTTGGTTTTCAAAATATTAATGAATCATATATCTGTAAAGTTTTGCTTTACCCAAAAAAAAGAATTTTATTGGATTATATAAGTGGTCCGTTTGAATATCTTGAAATAGACTGGAAATTTAAAAAAATTTCAAAAAATAAAACTGATGTTAGTTTTTTCTGTAATTTTAAGTTTAAATCTGTTTTTTTAAGGTTATGTACCAGTTTTTTTTTAGAAGGGGCAGTAGAAAAAATGGTAGACGCATTTGAAAAAAGACTAAATACTAATTAAGAGTATTTACTTGAACATATTTCTAATAAGCAATCAAGTGCACAATCAATAGAAGCTAATCTGATACTTTCTCTTGTTCCTTTATGAGGCGATAAACCGCTATCCATAGATTGTTGAAATTTTTTATTTTTATAATGGTATAATGCTACATAAACTTCTCCTACTTTTTTGTATTTTGTTGCTCCTACAGGACCAGCTATACCTGTAATCCCAATTCCTATATTTGCATTTGCTTTTATCACTACAGAGTGCGCCATTGCACGTGCTATTTCAATACTAACTGCTCCATATTTTTTTATTTTATTTCTTGAAATACCAAGCATTTTTTCTTTAGATAAATTAGAATATGTAACATATCCACAAGAAAAAATTTTTGACGAATTAGGAAAAGATGTTATTAAAGAAGATAACATTCCTCCTGTACAAGACTCAGCAAATGCTAATTTAATTCTTTTTTTTAAGCAAAGTTTAAAAACTTTTTCTGCTTTATTCTTAATCTTGATAGGGAACATATCTAAATAATAATATTAATTATGTAAATTGCCAATAAAGCATAACCAGCTGCGATTATATCATCAAAAATAATACCGAATGCATTTGGGTACTTTTTTTCAAAGTAATTTATTGGCATAGGTTTATAAATATCAAAAATTCTAAAAAAAACAAAACCCAAGATATAATTTTGTAATGTTAATGGTAGAAAAATTAAAACTATAGATTGTCCTATAAATTCATCAATCACTATTTCTTTAGGATCTGATTTTTTATTAGCATCATTTTCAATTGAGATATAAGCAATTAAAGAAACAAAAATAATGCATAATAATGTTATTTGAAAACCAAAATATTTTTGAGTTAACCATATAATTACAACTGTAAGAAAAGATGTTAATGTTCCTGGGAAAGGGGAGATATATCCTAAGCCAAAAAAAGTGGTGACTGATTTATATAATTTTTCTTTCAATTTTATATTATATTTACTAAAGCAAAAGCTCCTAATCCTTCTTTGTTTCCTAAG
>sequence37
AACTTTGTACAATGAGTAATCAAAGACCAAGAAAAACTTATGACAAGAATAATGTTTGCAGTGCATGTAATTTTGCTAAATATAAAAGAAAAGTCAATTGGTTTAAAAGAGATGAAGAATTATTAAGATTATTAGATAAACATAGATCTAAAACAAATAAACATGATTGCGTAGTTCCATCAAGCGGCGGGAAAGACAGCGGATATGTTGCTCATATACTTAAAGCAAAGTATGGAATGAAGCCACTTACTGCTACTTGGTCACCTAATGCCTGGACAGATATTGGTTTAAAAAATTATACTGGTTTAGTTGACGCAGGACTTGATAATATTTTAGGAAAACCTGATGGAATAGTGAATAGACGTTTAGCTAAATTAGGCTTTATTGTTCTTGGCGAACCTTTTCAAGGTTTTGTATATGGTCAAGCAAATTTTCCATTACGAGTAGCTGTGCAACACGAAATACCATTGATTTTTTATGGGGAGAATGGAGAAGTTGAATATGGCGGTGATATGACTAACGCATATCAACCTATGAAAAAAGTTAATTATGCAAATAAGCATTATTTTTCCAGTTATCCTTTAAAATTTTGGAAAAAATATAAAATTAATTCAAGCGATTTAGAAATATATGATGCGCCTGATATTAAAAGTATTAAAAAAATTGGAATTGAACAACATTTTTTTGGCTATTATCATTTTTGGGATCCCCAAGAAAATTATTATTATTGTGCTAAAAATACAAATTTTAAATTAAATCCAGTCAGAAGTGAATCAACTTATTCTAGATACGCAAGTTTAGACGATAAACTTGATGGTTTTCATTATTATCTAGGGTTTATAAAATTTGGTATTGGTAGAGCTACTTCAGATAGTGCTCATGAAATAAGAGATGGAAAAATTACAAGGGATGAAGGTGTTTCATTAGTAAGGAAATATGATGATGAATTTCCCGGAAAAAATTTTAAATTTTTTTTAGAATATTTAAATATTAAAGAAGATCTGTTTTGGGATGTTATAAACAGTTGGAGATCAAATCATATTTGGAAAAAAGTTGGTACAAAATATAAATTAAAAAATTTAATTAAATAATTAAAGTTTAAAAAATCAAATTGCAATTAAGAAAATTACATTTAACTGAAAGTGGTATAAAAGATATTTATTGGCCGATAAAGTATAGTGATTATGAAAAAATCAGTAATAAAATTAAAAAAATTTTTTTAGATTCAGAAAATTTTTTTTTTAAAAATAAGATACAGGATTTTGAAATATTTAGTTGTTTACAAATTTACATAACACAAAAATTATTTATTTTATATCATGAAAAAAAAATTAAAAATTTAATAAATAAGTATGATAATAAAACTCAGAAATTATTATTTAGCTTAGAAACCAAAGGTTCATTTGAACATTTACATCTTCAAAAGGTAATAAAAAAAAAAAATAAATAAATTTTATATTTAAGATTATTAAAAAATTTTTATCCAAAAAAAGTTTTTTCATACAGAAGACTAGAAAAAATAAAAAAAAAAGAATTAAATATAGTTGTATCAAATAATCCCTTGATTAAAGAATATTTAAATAATCAAAAAAAAACTTTTTATTTAGTTCCTTTATATGAATGGTTTTATAAAAAAACTGAGAAAGAATTTAATTCTAATAAAAAAAAAAAATTGAATCTAAATTTAATAAATTTTTTTTTAAATAAAGTAGAAAAAGAATTTATTAAATTAGAATGTAGACTTACAAAAAAAGAATTAAATGATTTTAAAAAGTGGATTCTAGAATATTTTTTTTGGGTAAATTTGTATCTTACTAGATTAGATAAAGTAAAAGATAAATTACCCAAGTTATTATTAACAGGGTCATTAGGGATAATTTGGTGTAGAATTCTTGCAGCTGCAGTAAAAAAAAATGGAGGAAAGGTTTTTAACTTCGATCATTCTGTTGGTGATTTTTCTATTAATACCTCAACAAGTTTATTTGCTGAATCTAATAGTTCAGATATTTTTTTTACATTTAACAAGAAACATATTAATTACTATTTTAAATTTATGAAATATAGCAAATCTTCTCATTCAAAATTAAAATTGAAATCATTATTATTAAGTAAAAAAAAAAATACAATTAAAAAAATAGAAAAAAAAAGAGAGGGGAAAAAAATATTATTCGTTTCTCCTCCCTTTTTATTAAATCAAGGGTTATGCATTACTTTTTTTCCACCACCTATTTTAATTGATTGGCATATTAGAATATTAGGTGCTTTAAAAAAATTAGGTTATCAAGTTATTTATAAACCTCATCCTGATTGTAATAAAGAAATAGTTAAAAGAATATTATCATTAGTAAAAATTGAAATTGAAAATGAACCCTTTGAAGCTATTTGTTATAAGTATGATTATTTATTTTTTGATTACAGAAGTACAAATACTTGGAGTCATGCGATAAAAACAGATTTACCAATAATTTTAAATGATGTAGATTTTTATAAATTAACTGAAAAAGATACTTTAATTTTAAAAAAAAGAGTATCCCTCTTAAAAATAAACATTGATAAAAAAAACAAGCCAAATTTTAGTGAAAAAAATTTAAAAAATGCAATTATTAATTCTTATAAACTTAGAAAAGATAAAACTTTTCACAAATTAATTTTTTCATAAAATGATTTATAATATAAAAAAAAACCAATTAAATCCTGAAAATACAATTCAAGATGCTTTAAAAATACTAGAATTTAGTATTTATAAAATAATAATTATTAAAAATAAAAATAATAAAATACTTGGAACTGTTACCGATGGGGATATTAGAAGATCATTAATTAAAAATTTTAATACTAATTTGCAACTTTCAAAAATAATGAATAAAAATCCAATTCTTGTTAATGAAAATAGGAGTAATGCAGAAATTTCCCAAATTATGAAATCTAATATTATCAAACAAGTAATTATTATTGATAAGGATAGAAAATTAAAAGATATAAAATCAATTGATGAAGTTTGGACTACTAAAGAAAAAAAAAATACAGTTGTTATTATGGCAGGAGGTCTTGGAAAGAGATTGAGACCTATAACATATAATAAACCTAAAACAATGGTTGAAATTGGTGGTAAACCATTATTAATGAATATATTGGAAAATTGCACATCACAAGGTTTTAAAAATTTTTATATTTCTATAAATTATAAAAAAAATAAAATAAAACATTTTTTAAAATCTAATGAAAGTTCAGGAATAAAAATAAACTATTTAGAAGAAAAAAAACCATTGGGCACTATTGGTTCTCTTTCGTTAATAAAAGAGAAAGTTAATTATCCAATTTTAATAATAAATGGTGATATATTGACTACATTAGATTTTAATTCTTTTTTTGAATTTCATACAAAACATAATCCTTTTTTATCTATTGCTGTTAAATATCATGAGATGAAAAATGATTTTGGTGTTGTTTCAGTTAAAAAAACAAGAGTTACAAATATTGTTGAAAAACCAACCTATAAAAGTTTAATTAATACAGGAATATATATATTAAGTAAGGAAGCTGTAAAATTAGTAAAAGAAAAAAAAATATTAGATTTTCCTGAACTCGTTGAATTAGGTTTTGAAAAAAAAAAGAAAATTAATGCTTTTTTATTTTCAGATTATTGGATTGATATTGGTAAGATATCTGATTTAGATAAAGCTAAGATTGATAATCTTAAAATAAAAAAATAATTCAAATATTTATTCTTAATTAAATTTTTAATAAAAAATGATAAAAAAAGATTTAAAAATTCTGGCAATAATACCTGCACGAGGTAGCTCAAAAACAATTAAAGACAAAAATATTAAACTTTTAAATAAAAAGCCATTGATTTTTTATTCTATAAATGAAGCGCTAAAATTAAAAAAACTATTTTATAAAATAGTTGTAAGCACAGATAGTAAAAAAATAGCAAAATTATCAAAAAAACTAGGAGCAGAAGTTCCTTTTATAAGACCAAAAATTATATCTAAAGACACTACTCCTACATTACCTGTTATAAAACACTGTATTGATTTTATTGAAAAAAAAGACAAAGTTCATATTGATTGGATTATAATTTTACAACCAACTTCACCCCTTCGAAATGCACTTGATATAAAAAAAGTAATTAATATTATGAAAAATAATATTTGTGATTCAGTTGTATCTGTAAAAAAGGTAATTAAATCTCATCCAGTTTTTTTAAGAATATTAAAAAAAAATTATTTAAAACCTTATTTGTTAAATAATAAATTTTTTAGAAGACAAGATGTTAAATCAAATATTTATAAAACTAATGGTTCAATTTATTTAACAAAAAGAAATGTAATTTTTAAAAATAAGAATAATTTGGTATATGGTAAAAAAGTAATTCCCTATTTCATGAATGCTAAAAATTCAGTTGATATTGATAATGAAATAGATTTTAAATATTGTGAGTTTATTCTTAATGAAAAAAAATAAAATTTCAATTATTGCTGAATTTTGTCAGAATCATAACGGAAATTCAGCTATTTTATCTGAAATGATTGATAAAGCAGTTGAACATGGAGCAACACATTTAAAAATTCAAAATATTTTTGCAAATGAACTAACTTTTAGGCCAAAATTTGAATCTGGTATAAAAATAAATAAAAAAGTTCATTCTATTAAAAGACCTTATAAAGATGAATATAAAAGATTAAAAAAACTAGAATTAAATATTAAACAAATTGAAAATTTTAAAAAAAAATGTGAAAGTTATAATGTTGTTCCTTTAATTACTTGTTTTACAAGATCACAAATAAGATTATTAAAAGAATTAAATTTTAAACTTATTAAAGTTGCAAGTATAGATTGCGCATCTTTTCAATTATTAAGAGATTTAGTAAATAATTTTAACAATATTATTGTATCTACTGGTGGAACATATGATAATGAAATAAAAAAAGCAGCTTCAATATTAAAAAAAAAGAAATTCTCTTTTTTACATTGTGTTAGCATTTATCCAACTCCAATTAAGGATGTGAATTTAAATAGATTAAATTTTTTAAAAAAATTTACTAAAAGTTTTGGTTACTCAGACCATACTGCAGCTTTAGATAAAAATTTAATAGCAATTAAATATGCTATTTATTTAGGTGCTAAAATAATTGAAAAACATTTTACAATATTAGAGTCAGAAGAAACTCGTGATGGAATTGTATCTATGAATCCGCAACAATTAAATGAAATAAGCAAATTTTCAAATCTATCTAGAAGTGATCAAAAAATAATTTTGTCTAAATTATCGACAAATTTTAAAAATAAGATTCTAGGAAAAAAAAATAGAAAATTAACTAATATTGAAATTTTAAATAGAGATTATTACAGAGGTCGATTTGCCAGTGTTTTATATAAAAACAAAGTTAAAAGATATATTTACAATTGGGATGAAGTAAATAATTTTGATTAATTAAATGGAAAAAAAAATTATTATTTGTAAAAAATGTGTTATGGCAAATACTAGACCAGTTAGTACTCCTGAATTCCTTAAAAAAAAATCCTATCATGAATCTACAAGATTTGATAATGACGGAGTTTGTTTTGCTTGTAAATATGCAGAATATAAAAGAAAAATTAATTGGAAAAAAAGAGAAAAAAAATTAATAAGTATATTAAAAAAATATAAAAAAAAAGATGGAGGCTATGATGTTATAGTTCCAGGAAGTGGTGGTAAAGATAGTTTTGCTGTTGCGCATAAATTAAAATATAAATATTCAATGAATCCTTTAACTGTCACATGGGCACCAATAGTCTATACTGATATAGGTAAAATAAATCATCAAGAATGGATAAACTCAGGTTTAGACAATATAGTTGTAAATCCAAATCCAAAAGTAAAAAAAATTTTAACTCGTTTATCCTTTAAGAATTTGTGTAATCCATTTCAACCATTTGTTATTGGTCAAAAAAATATAGGACCAAAATTTGCAAAAATGTACAATGTAAAATTGGTAATGTACGGGGAATCTCCTTTAGAGGTTCATCCTTCGAATTTAGATTCATTTGATAACTTTGAAATGCCTCCAGAACATTATGCATTTAATGGAAAAAAGAAAGATATAAAGTTAGCAGGATTAACTTTAAATGAATTAAAGAAAGAAAAAATAAATATTAAAGATTTATTTTTGTATATGCCAATGAATTTAAAAGATGTAAAAAAGAATAAAATTAAAACATTTTTTTTCAGTAATTTTGAGAATTGGTCACCTCAACAAAATTATTTTTATTCTAAAAAATTTAGTAATTTTAATAGCAATCCATTAGGAAGAAGTGAAGGAACTTACACAAAGTTTTCTAGTTTAGATGATAAAATAGATGGGCAATATTACTTTACAATGTTGATAAAATTTGGACAAGGAAGAACTATGAATGATGCATGTAGAGATATAAGGGATGGATATATAACTAGAGATGAAGCTATCCAATTAATAAAAAAATATGATGAAGAGTTTCCCAAAAAAAATTTTAAATTTTTTTTAGATTATATTGGTTTAACAGAAAAAAATTATTGGAAAATTATAGACACTAATAGACCTAAAAATATTTGGTATAAAAATAATAAAAATAAATGGATTAACAAAGTTAAAGAAAATTTAAATTAATGCGAAACATAAGAATAATCCCAAAGCTAGAAGTTAAAAATGATAATTTAGTTAAAGGTATAAACCATGAAGGTTTGAGAATTTTAGGTCCTGCAAGTAAATTTATTAAAAATTATAGTGAAAAAAATTTTGATGAAATAATTGTTATTGATTGTGTATCGAGTTTATTTGGTACGCCATCAGCATTTAAATTAATAGACGATACTGCTAAAAATTTAAGAATTCCTTTAGCATACGGAGGTGGTTTAAAAGATATAAAAAGTTCTACTACTGCTCTTAACCAAGGTGCTGATAGAATTATTATAAATTCTGCAATATTTAAAAACAAAAATATCTTAAAAGATTTAATAAATAAGATTGGTTCTGCAAATATAATTATTTCTGTTTATACAAAAATTTTAGATGATGAATATAGATGTTTTACTGAATCTTCTAGAAATCTAGCTAATGAAAACTTAAAACAATGGTTAGATTATTTACAAACAATTTTTGATGGTGAAATTTTGATCAATTCAATAGAACATGATGGTAGGTGTAATGGTATTGATTTAGATTTAATTAAAATTCTATCTAAAAGAAAAAATCAAACATTTTTATATTCAGGAGGAGTTAGTTCAGAAAAAGATTTAAAAAATATTATAAATTTATCTGAAAATATTAGTGGAATTGTTATTGCTTCATCACTTCATTATCAATTTCTTAAACAAAATAAAGGAAAACAAAATTATTTAGATTTTAGAACTATAGAAAATATAGAAAATAACATGAATATATCAACAAAATTTAACCCAAAAAAAATATTAAAGAAATTTCCAAGAATATCAACAAGATGAAAATTGTAATATTAAAATCACAGGTTGGTAACTTTAAATCAATTTTTACTTTTTTTGAAGAGCAAAAATATAATGTTGAATTGACAAATGATAAAAAAAAAATAATTACTTGTGATTTACTTGTAATTCCAGGTGCTGCATCATTTAGTGGATTTATGAATTCTTTTGATAAAGACATTATAAAAACTATTAAAGAAAGAAATGATAAAAAAAAACTTATTTTTGGAATCTGTGCTGGTTTTCAAGTTTTATTTGATCAAAGTGAAGAATCTAAGAATGTTAGAGGGTTATCATTGATTAAAGGAAAAATTATAAAATTAAAAAAAGGAAAAGAAAGAAGGCCACACTTAGGTTGGTATCAAACTATATTTAATAAAAAAAAAGATTTAAATAACTCATATTATTATGTGAATAATTACGGTTTAAAAAAAAATTTAAATATTACTAATTTATCATATTATTATTTTAATAATGAAGCATATATAGGAGCATTTAGAAAAGAAAATATTATAGCGAGTCAATTTCATCCGGAAAAAAGTAGTATTGCTGGAGTAAAATTTTTAAAAAAATTTGTGTTAAGCTAATGAGTTTTAAATTTATTTATAAATTCTTACAAACAAAAAATAAATCACAATTAAAAAAAAAATTAATAAATTTTTTAAGAATATTTGTTAGGCAAAGAATATTTTTACCTTTTTTAGTTTATTGGTTTGGCAGACAATTAAAAATTATAAATAATATGAAAAAAAAAAAAAATATTAGAATTCTATTTCAACATAGTAACCGTTACAAAAATGATTTAAATGAATTATCAAAACACAAAAATATTCAACTATTAGATTTTAATCCAAATATTCAACCACTTATTAATATGTTATGGATAGCGCCAGTTACAAAAATTAATTGGGAAAATTATAATAAAGGAGTTGGATATAAAGTTTCTTTTGCTTCTAGTGAAAAAGTTCTTAAAGAAAGAAAATTAAAAGAGAATGAGATAAAATTAATTCTAAAATTAAGAAAAAAATTACAAAGTTTTTTAGAAATTTTTTTAAAAAAATTGATTAAAAATCAAAAAATTGATGCGTTAATTACTTGTGCTTTTTTTTATCCACATGATCAAGATTGGTCAATAGCATCTTCTAAAATAAAATTACCTTTTATTGCATTACATAAAGAATGTCTGCATGATCCTGATACATCAGAAGTAACAAAGAAACGTTATATAGGTTTAGATTATAAATTTAGAGGAACAAAACTAATTGTTCATGGGGGAAATGCCAAAAAACTTTTTTTAAGTTCAAACATAACTTCAAAGGAGAAAATTGTTGTATCTGGTGCATTAAGAACTGATCAATATTATAGAAATAAATACATTTCGAAAATACAAAAAAAGCAAATAACATTATTTTCATTTACTCACTGTACTGGTTTAATAGTTTCAGGAATAAATTATAATCGTTATTTTTTTTGTGATAATCCCAATGAAGGATTTTATAAATATTTTGATTTAGTTCATTATACAATGGCAAAATTTGCTTATGAAAACCCAGATATTGAAGTTTGGATTAAACCAAAATTTATGCAACATTGGAGTGAAAGAATTTATACTGCAATAAAAAGAGGAGGACTAGATGCAAAAAAAATTCCAAATTTACATATATCTATAGATAAAAGTTCAGAGGAATTGATAAAGGAATCAGCAGTTATTGTTGGTATTAATTCCACAAGTTTAATTGAATCAAAATTAATGAATAAAAATGTTATCGTACCTATTTTTGCTGAAGCAAAAAATAAGTATTTTAAAGAGCATGTTAATTTTAAAAAATATTTTAATAAAGCTTTTTATATTGCAAAATCTACCGACAAACTTATAAAAGCAATGAATGATGGTATTAAAGGAAAGTTACCAAAACAAATTTGCCCAAAAGAATTAATATACGATGTTTATGGCTTTTTTGATGGAAAAACAAAAGATCGTATATATAAAGAAATAAATAAAACAATTAAATATAATGATTAAATAGTTTATTGAGGAATTTTTATTAAAATGAAAAAAAAAACAAGACGAAAAATTTGTATAGTTATATCTGCGAGACCATCTTATGCAAGAGTAAAGAGTGTTTTAAAAGAAATTAAAAAAAATAAAAAATTAGAATTAATATTAATTTTAACCGCTTCCTCTTTATTAGATAGATATGGAAATTTAATTGATGTTATTAATAAAGATGGATTTAAAGTTAATTACAAAGTTCATATGTTGGTTGAAGGCGGTAATTTGCTAACAAGTGCCAAATCAACAGGTTTAAGTATTATCGAGCTTTCATCTTTATTTGATAGAATTAATCCTGATATTGTTTTAACTGTTGCTGATAGATATGAAACAATTGCAACGGCCATAAGTGCATCTTATACAAATATTCCCGTTGGCCACATTCAAGGAGGAGAAATAACAGGATCCATTGATGAAAAAGTAAGACATGCTGTAACAAAATTATCAGATTTACATTTTGCATCAAATAAGATTGCTGCTAAGCGTTTATTAAAATTAGGCGAAGATCCAAAAAAAGTTTTTATTTCTGGATGTCCATCTATTGATTTAGTTCAAGAAATAATAAAATCGAAGAAGGATGTTAATGAAAATTTTATTAATAAGGGTGTTGGAAAAAATATTGATATATCTAGTGATTTTTTAGTTGTTATGCAACATCCTGTAACATATGAATGGAAAAATACAGCAAAACAAATAAGAGTAACTTTAAATGCGATAAAAAAAATAAATATACCAGTTTTTTGGTTTTGGCCAAATGTTGATGCAGGCGTTGATGAAGCAAGTAAAGCAATAAGAAGTTTTAGAGAAAATAATAATAATTTAAAAATAAAATTTTTAAAAAATATGCCTCCAGAAGATTTCCTTGCATTAATAAAGAAATCATTATGTTTAATTGGTAATTCTAGTGTTGGTATCAGAGAATCTTCATATTTAGGTGTTCCAGTTGTAAATATAGGAACTAGACAAACTGGAAGAGATAGAGGTAAAAATGTTATTGATTGTGATTATAATTCAGTTGAGATAGAAAAAGCTATTGAACGCCAAATAAAACATGGTAAATATAAAAAAAATACACTTTATGGAAATGGCGATTCTGGCAAATCTATTTCAAAAATATTAACATATTGTGATCTACCAACTGCCAAGAAAAGCTTTCTTTAATAATCTTTTAATATAAAAATTATTTTATAATGTGCGGAATTTTTTCTTTTATTTCAAAAAGTAAAATATCACAAAAAGATATTTTGTTAGGTAGAAATGGAACTAAATTTTTATATCATAGAGGCCCCAATGGTTCTGGAGAATGGATTAATAAGAAAAAAGGTATTTATATAGGTCACAGAAGATTAAAAATAATTGATTTATCGAATAAAGCTTCACAACCAATGGTAAAAAAAGATACGGTTTTATCTTATAATGGAGAAATATATAATTTTAAAGAAATTAGAGAAAATCTAAAAAAAAAGGGATATAAATTTTTCTCTACTAGCGATACAGAAGTTTTATTAAATTTATGGATGGATAAAGGCCCATCATGTCTTAACGAAATCGATGGTATGTTTTCCTTTATTATTTGGGATGGTAAAAATATTTGGATTGCTAGAGACAAATTTGGTGAAAAACAATTATTTTATGCAATCGTTGATAATGGAATTTTTATTTCATCAGAAATACAACCATTAATTAAAATTACAAAACTTGAAAAAAATTTAAATGAAAAAAAAGTTTCTGCTTTTTTATCATTAGGTTACATACCTAGTCCAAGTACAGGATATAAAAATATTTATTCGTTAGAACCATCAACATTAATTAAAATTAATAAAGGAAAGATTGTTAATAAAATTAAATATTGGAAGCAAAGTAATTTAAATAATTTAAATAAA
>sequence38
GAAACTCTTTTCGAAGCTTTTTGACCTGCTTCATCACCATCCATACATAAAGTTGGTACTTTTGTTATTCTCCATGCACAAATTATTTGTTTTATTGTTAAAGCTGTTCCAAGCGGTGCAATTACATTTTTATAACCTGCGTTATGCATAGAAATAACATCTGTATAACCTTCAACAATATAAAGCTCGTCTTTATTTATAGAATTATTTTTACATTGTTGCCAACCAAATAATAAATCTCCTTTTTTAAATATTTCTGATGATGGTGAATTAATATATTTTCCTATTTGATTACTAGACATGGCTTTTCCACCGAAACCAACCACATTTGAAAAGTAATCATAAATTGGAAAAATAATTCGATTATTAAATCTATCAAATTTTTGATTATTTTTAGTTGATAAAATAACAACGCCTGAATCAATAATATCTTTAGAAGAGAAATCTTTAAATTTTAAATAATTATAAAGTGTATCATTCTTTTTAGGAGCAAATCCTAAACGAAAATCATTAATAATATTTTCATTAAAATTTCTTTTTTTAAAAATTACTAAAAGATCTTTATTCGATTTTAGCTCTCTTTTCAAATTATCATGATACCAATCACATGAAAGTTTCATAATTTTTCTTAAATTAGTAATTTTATTTTGAAGTAATTTATCTTCTTTTTTGTAAACATTTTCCTCAACTTTAATACCAGCATAATCTGCTAATTTCTTTACAGCTTCTTTAAATGATAAATTTTCAGTTTTCATCACAAAATCAAAAATACTTCCATGTTCACCACTACTAAAGCAATGATAAAATCCTTTTTCATCAGATACAGTAAAAGAAGGTGTTTTTTCATTAGAAAATGGAGACAAACCAACAAATTCGCTTCCTCTTGGTGCTAATTTTATTTTTTTTGAAACTATATCAGAAACTTTTATTCGTGTTTTAATTTCATCAAGTAATTGGCTTCCAAATTTCATAACTAATACTCTTTATTAATTATTAAGAATAACCTTAACATAAGAACTTGCTTTAGCTATGTCTATTTGTGAGGATAATTTATGATTTTTTAATGCATTCATAACCTTACCCATGTCAGACATTTCATTTGCATTTAATTCTTTAATTAAATTATTACATAATTTTTCCATATCATTATTACTTAATTGAGCGGGCAAATATTTTTGAATAACGTTTATTTCATGATTTTCTTTATCAACTAATTCAGGTCTGTTTCCTTTTTTATACATCTCAATACTTTCATTTCTTTGCTTAATCATATTTTTTAAAATATTAAATATCATTTCGTCCGTTATTTCTTTAATTTTTTCATCAGATCTAATTAAAATCTCTTTATCTTTAATTGCAGATAGAATAAGTCTAATAGCATTAATTGATTCTTTATTCTTATTTTTTACCGCTATATTTAAATCTTCTAATATTTGTTTTTTTATCATTTTAAATGAGAAATTTATTAAAAACTTTTTTTTTCATTAGATCAACCTTATTAATAAATATAATTTACTGAAATTATTGATTCTTTTTTTTTAGCAATTCTAATAAATTAAAGTAAAATTTTATTAAAAAAAGATTTGAATATTATTTTGAAATAAATAGATTGTATAGAGCTTAATAAAGGAGGTTAAAAACGCCGCCTAAAGAATATTTTTTAAATAATCGAAAACCTAATGCAGTTCTTGCTTTAGCTAATAACACTATATTTTTTGGAAATGGAATTGGATTTGAAGGAGAAATAATAGGAGAATTATGTTTCAATACTTCAATTTTAGGCTATCAAGAAATATTAACAGATCCTTCATATTCTAATCAAATAATAACTTTTACTTTTCCACATATAGGAAATGTTGGTGTAAACAATTCTGATTTAGAATCAAAAAAACCAGCTGCAAAAGGGCTGGTTATTAGAGAAAATATTTCAACTCAATCAAATTTTAGAGCAACTGATAATCTTCAAAATTGGCTAAAAAAGAATAAATTAGTTGGTATTTATGGAATTGATACTAGACAAGTAACTCAAATGCTAAGAGAGAAGGGATCTTTAAATGCAGTAATAATTTATAATAAAAATGGAAATTTTGATTTAAAAAGAATAAAAAAAAAATTAAAAGATTGGGAAGGTATAAAGGGATGTGATTTAACTAAAGATGTTTCTGTCAATAAAAATTATTCATGGAACAAAACAATTTGGTCTAAATCTACTGGTTATGGATTTAATAATAAAAAAAAATATCATATTATTGCAATTGATTATGGTGCCAAAGAAAATATATTAAGAAATTTAGCGACATTAAAATGCAAAGTCACAGTAGTTCCGCCTAATATTAAATCTGAAAAAATTTTTCAATTAAAACCAGATGGTATATTTTTAAGTAACGGTCCTGGCGATCCAAAAGCAACAGGTAAAATTACTATTCCAACAATAAAAGCAATCTTAAAAAAAAAAATACCAATGTTTGGGATTTGTTTAGGTCACCAAATTTTAGCTTTAGCTTTAGGAGGAAAAACAAAAAAAATGCATCATGGCCATAGAGGAGCAAATCATCCAGTTTTAGAAGCTGCGACTGGTAAAGTAATAATTACTGTTCAAAATCATGGTTTTGAAGTGTTAAAAAATTCATTGCCAAAAAATGTAAAAATTTCTTACACTTCACTATTTGATGGATCTATAGAAGGACTAGAATTAATTAATAAACCTGTTTTTTCTGTACAATATCATCCAGAAGCGTCCCCTGGACCACATGATCATCTTAATATATTTAAAAAATTTTATAATTTGGTAAAAAAGAATGCCTAAAAGAAAAGATTTAAAATCAATTTTTATTATTGGTGCAGGACCAATAATTATAGGGCAGGCTTGTGAATTTGACTATTCAGGCACTCAAGCATGTAAAGCTCTTAAAGAAGAAGGATATAGAGTAATTTTGCTTAATTCAAATCCAGCAACTATTAAGACAGATCCTGATATTGCAGATTCTTCTTATATAGAACCTATAAATTCAGAAATAATAGAAAAAATTTTAAAAAAAGAAAAGCCAGATGCAATTTTACCTACAATGGGTGGTCAAACAGCTTTAAATGCTGTTTTAGAAATAGAAAAAAAAGGTTTACTTAAAAAATATAATATTGAATTAATTGGAGCAAATTTAGATTCAATCAAAAAAGCCGAGGATAGAAAATTATTTAAAAAAACAATGAACAAACTAGGATTAAAAACTCCTAAAAGTTTTGTTGTAAAAAATATAAAAGAAGCAGAGAAAGTTTTAAAAAAATTATCTTTACCAATAATTATTAGACCATCATTTACTTTAGGTGGACAAGGGGGTGGTACAGCAAAAAATATCAAAGATTTCATTAAAATTTGTTCAGAAGGTCTTAATTATTCTCCAATAAATGAAGTTTTAATTGAAGAATCTGTTCTAGGCTGGAAAGAATATGAATTAGAAGTAGTTAGAGATAAGAATGATAATTGTATTGTTATATGTTCTATCGAAAACTTAGACCCAATGGGCGTTCATACAGGTGACAGCATAACTGTTGCTCCAGCATTAACTTTAACTGATAAAGAATATCAAATTATGAGAAATGCCAGTTTTTCAATATTAAGAGAAATAGGCGTTGATACAGGAGGCTCAAATGTTCAATTTGCAATTAATCCTAAAAATGGCGATATGGTTGTAATTGAAATGAATCCAAGAGTCTCAAGATCATCAGCTTTGGCATCAAAAGCTACTGGATTTCCAATAGCAAAAGTTGCAGCAAAACTTGCGATTGGTTTAACATTAGATGAAATAAAAAATGATATAACTAAAACAACCCCATGTTCGTTTGAACCAACTATAGATTATGTTGTTACAAAAATTCCAAGATTTACTTTTGAAAAATTTCCAGGTACTAAGAGTATTCTAGGTACTTCAATGAAATCTGTAGGTGAAGTTATGGCAATAGGAAGAAATTTTTGTGAATCACTTCAAAAAGCAATTAGATCTTTAGATAAAGGATATGATGGTTTGTTTTATAAAAAATTAACAAAGCAAAATATAGAACTTCCATCGCCCATGAGAATTTTCCAAATTGCCGAATTATTAAGAAGAAAAGAAAAAATAAATTTTATTTATAAAAAAACAAAAATTGACAAATGGTTCTTAAGAGAAATAAAAAAAATTATAGATTATGAAAATATAATAAAAAAAAAGGGTATTCCAAAAAATAAAGATTTATTACTTCACCTAAAAAGTCTTGGTTTTTCAGATAAAAGATTGGCATTTCTCACAAATAAAAATGAAAAGCAAATTAAAAATTTAAGAAAAAAACTTAATGTCAAACCTGTATATAAAAGAGTAGATACTTGTGCTGCAGAATTTTTATCTTTAACGCCATATATGTATTCCACTTATGAGAAAATACCTAATAAACTCAACAACTGTGAATCAAATCCAACTAACAAAAAAAAAGTAATTATTATTGGTGGTGGCCCTAATCGGATTGGACAGGGTATTGAATTTGATTATTGTTGCGTTCATGCCTCATATGCATTAAAGAAAAAAAAAATTGAAACTATTATGATTAATTGTAATCCAGAAACTGTATCAACAGATTATGATACTTCTGACAGATTATATTTTGAACCATTAACACCAGAGGATGTAATAGAAATTATAGAAATTGAAAAAAAGAGAGGAAAACTTTTAGGATTAATTTTACAATTTGGGGGGCAAACTCCTTTAAATTTAGCAAAATATTTAGTTAATGAAAAAATTAAAATCTTAGGAACATCATTAGATTCTATTGATATAGCTGAAGATAGAAAAAGATTTAAGAAAATAATCAAAGATATTAAAATAAAGCAGCCATCAAATTTAACTGCAAATAATATAAATGAAGCAAAAAAATGCCTTAATACAATTGGACTTCCCTTAATAATAAGACCTTCGTATGTTTTAGGTGGAAAAGCTATGGAAATAATAAATGAAAAAAAGGAATTTTTTAAATATATTGGACAAGCTCTCAAAATAACAAAAAAATCTCCACTGTTAATCGACTCATATTTAAAATCAGCTATTGAAATAGATGTTGATGCAATTTCAGATGGGAATGAAGTGTTTGTTGCCGGAGTAATGGAACATATAGAAGAAGCAGGTATACATTCTGGAGATTCTGCTTGTGTTATTCCTCCATATACTTTAAGTGAAGAAATAATAAAAAAAATAGAAGAACAAACAAAAAAATTAGCCCTTGCCTTAAAAGTTAAAGGATTAATAAATATACAATTTGCTGTTCAGGATAATAATATTTATATTATTGAAGCAAACCCTCGTGCAAGCAGAACAGTTCCTTTTGTTGCTAAAGCAACTGGAATTCCAATAGCAAAAATTGCTGCTCTAATAATGATTGGAAAAAAAATTAAAAATTTTAAATTAAAAAAAAATAAATTTAATCATATCGCAGTAAAAGAATCTGTTTTCCCTTTCTCTAAATTTGATGGATCAGATATTATTTTAGGCCCAGAAATGAAATCAACAGGTGAGGCAATGGGAATTGATTTTACTTTTGGAAAAGCATTTGCAAAATCCCAACTTTCTGCAAATGTTGATTTGCCATTGGAAGGTAATTTATTTGTTTCAGTTAAAAATACAGATAAAAAATTTATTATCGAACATATAAAAAACCTAAAAAAAATAGGCTTTAAAATTTTAGCTACTAAAGGAACAGCAATTTTTCTAAAAAAAAAAAATATTGATTGTGTTTCAATAAAAAAAGTAAAAGAAGGCAAGCCAAATATTGTAAATTTAATTAATGAAAAAAAAATTAATTTAATTTTTAATACAACTGAAGGGACACAGGCGATAAAAGATAGTTTTACTTTAAGAAGAGCAGCAATTAATAATAAAATTCCATACTATACAACAATGGCAGGAGCAAAAGCAGCTGTTGAAGCAATAAAGGCTCTATCAAAAAAAAATCTGGAAATTTCATCATTACAAAAATATTTTCTAAAAACAAAAATTAATAGGATTATAAAAAGTGTCTAAAAAAAATTGTTGGATAATATCAGATGGTTTATTAGGTCATGAAAAACAATCAATTTCTCTAGCAGAAAAATTAAATATAAAATATAAAATTATCAAAATTGAAAAATTAAATTTTTTTCAAAGAAATTTATCATTTGTACCTAATTTTAAGAAGAGATATTTAAAAGAATCAAGCCCTAAATTTTTAATTTCATGTGGAAAACATACTGCATATTATTCAAAATTAATAAAAAAAAAATTTGAAAAAAAAATTTTTTCAATTTTTATTCAAAAACCACCAATTAAATTTAACAATTTTGATTTAATTATTGCACCAAAACATGATAATTGTTCTGGAACAAATGTTATAAGAACAAATGGAGCATTAACAAAAATAAATTTAAAATATATAAAGCATATAAATAAAAAAAAAAAACCTAGTATTCTTAAAAAGAAATTTATAACAGTATTATTTGGTGGAAATAGTAGACATCACAAAATCACAAAAAAAATATTGGATAAAATTATTAAAAAATTAAATATCATAGAAAAAAAAACCAAGTTTAACATATTTCTAATTTTTTCAAGAAGAACCAACAAAAATGATTATTTATATTTAAAAAAAAAAATTCTAAGTACAAAATTTTTTTTTATATTGCCAAGTTCAAAAAAACTTTCTTATATAAATGCTATTTCTTTTGCTGAAGCAATTATAGTTACAAGTGATTCTGTTTCCATGGTATCTGAAGCATGTAGCACGGATAAACCAACATATATAATTGATATACCTTCAAAATCAAAAAAATTTAGTTTATTTATTAAAAATTTGATTGATTTAAAATTGGCTTGTTACTTAAAAAAATCAATATCTTTAAAAAAGAAAACAAAAACATTAAATGATATTGACGAAGTTATAAAAAAAATAAAATATGAAAAAATATAAAAGTGACGTAATTATTATTGGATCGGGTGCAGCGGGGTACACTGCTGCTATATATACAGCAAGAGCAAATATGAAACCAATTTTAGTAAATGGACAACAGCCAGGAGGACAAATGACAATTACTACTGATGTTGAAAATTATCCTGGTTTCAAAGATGTTATTCAAGGGCCATGGCTTATGGAACAAATGAAAGGACAAGCTGAAAGTGTTGGAACTAAAATTATAAACGATACAATTTTAGAGTGTAATTTTAAATCTGAGCCATTTGAATTAATTGGTGATAGCAAATCTGTTTATCATGGTAAATCAATAATAATTGCAACTGGAGCAACTGCAAGATGGCTTGGCCTTGAAAGCGAAGAAAAATTTAAAGGTTACGGAGTATCAGCTTGTGCAACCTGTGATGGTTTCTTTTTTAAAAATAAAATTGTTGCTGTAGCAGGTGGAGGAAACACTGCTGTTGAAGAAGCACTATATCTAACTTTACATGCTAAAAAAGTTTATTTAATTCATAGAAGAAATGAATTAAGGGCAGAAAAAATATTACAAGAAAGATTATTTAAAAATAAAAAAATTGAAATTATATGGGATAGTAATATTAAAAAAATTCAAGGTGATAGTAATCCAAAAAAAGTAAAAAGTATATTAATTGAAAATACAAAAACAAATAAAGAAAAAATAATTAATTTAAATGGAGTATTTATCGCAATAGGACATGATCCAGCAACTAAAATATTTAAAAATAAGATAAATCTTGATAACGATGGCTATATTGTTACAGAAAATGGAAATACCAATACAAACATACCGGGTATTTTTGCTGCAGGTGATGTAACAGATAAAATATATAGACAAGCGGTTACTGCTGCTGGTATGGGTTGTATGGCAGCTTTAGATGCAGAAAAATATTTAGCAAATTAGGATTTTAATTTTTTGCAGGCAGAAATAATTTTTTTACAACCTTCAACTATATCTTCATTAGAAGTTGCAAAAGAAATTCTAAAAAAATTTGAAAAACCAAAAGCTTCTCCAGGGACAACAGCTACTCCCTCATCTAAAAAATAATCTGAAAGATCAAGATCATTATTGATTATATCTCCATCTTCTTTTTTTTTTCCAATTATTTTATCACAACATACATAAACATAAAAAGATCCTTCTGGTCTAAAAACTTTTAATTCTGAAAATTCTTTAAAATTAGAAATAATTAAATCTCTCCTCTCTTGAAATATTTTTTTATTTCTATCAATAAATTCTTCACTATTATCAAGCGCCTCAATTGCCGCTGCTTGAGAAATAGAAGATGTATGTGTAGTGCTTTGTGACTGAATTTTTGTTATTTCTTTAATTAATTCTTTTGGCCCAGCCCCATAACCCAATCTCCAACCAGTCATAGCATATGCTTTAGATACTCCATTAACAATAAAAGTTCTCGATTTAAGTTTTTTTTCAACTTGTAATATATTTTTAAATTTCAGATTATCAAAAATAATATGTTCATATAAATCATCACATAAAATCCAGACATGTGGATGCTTTAATAAAATCTTTGCTAAATTTTGTAATTCTAATTCGCTATAAAATGCTCCTGTAGGATTTGATGGTGAATTTAAAATTAACCATTTAGTTTTATTTGTAATTTTATTTTCTAAATCTTGGGGATTTATTTTAAAATTATTTTCTAAAGAACAATCTAAAACAACAGGATTCCCATCAATTAAAAGGGCTATATCGGGATAAGATACCCAAAAAGGCGAAGGTATAATAATTTCATCATCTTTTTCAATTGTTGCTAATAAAGCATTAAAAATAACTTGTTTCCCTCCACAACCAACAGTTATTTCATCAGATTCAAAAATTAAATCATTTTCTCTTTTAAATTTTCTCAATATTGCTTCGTTTAATTCTTTTGTACCATTCACAGGTGTATATTTAGTTAAACCATTTTTAATAGCCTCTATTGCTTTATTTTTTATATTATCTGGTGTATCAAAATCAGGTTCTCCGGCAGAGAAATCTATTATTTTCTTTCCTTCTTGTTTTAATTTCTTAGCTTTTGAAGTTATAGCTATAGTAGGCGATGGTTGTATTCTCGATACTCTTTTAGAAAAGAAACTCATAACAATTAATAAGTAATCTATAATAAATTTTCAAAAAAAAAGATAGTATTAATTTTAAAAAAAATATCTTATTAATAATAAAATTTAAAATGACAAATTTAGAATATAAATCAAATAAAAAATTTTTTATAAAAAGTAAATTTAATCCATCTGGTGACCAACCTTATGCGATTAAAAAAATATACGAAAACTTAAATAAAAATATTAAGAATCAAACATTACTTGGTGTTACCGGTTCAGGAAAAACATTTACTATGGCCCATGTCATTGAAAAAACACAAAAACCCACTTTAATATTAGCTCCTAATAAAACTTTAGCTGCACAATTATATTCAGAAATGAAATCATTGTTTCCCGAGAATGCAGTTGAATATTTTGTTTCTTATTACGATTATTATCAACCTGAAGCTTATGTTCCTAGAACAGATACATACATCGAAAAAGAATCATCTATTAATGAACAAATTGATAGAATGCGTCATTCAGCAACTAGAGCACTATTTGAAAGAAAAGATGTAATTATAGTTGCTAGCGTATCATGTATATATGGTATAGGTTCCCCAGAAACTTATTCATCAATGACTTTTTCTATTAAAAAAGGTGAAATTGTTAAAAGAGATTATTTAATAACTAAACTTGTTGAGCTGCAATATATTAGAAATGATATAAATTTTATAAGGGGAACTTTTAGAGTAAGAGGAGATATTATTGATATTTTTCCTTCTCATTATGATGATTGTTGTTGGAGAATATCTTTCTTTGCTGATAAAATTGAAAATATTACATCTTTAGATCCTCTAACTGGACATAAAAATATTAATTTAGAATATATAAAAATATTTCCAAATAGTCATTATGTAACGCCTAAACCGACACTAATTAAAGCAATTAATAATATAAAAATTGAATTAGAAAAAAGATTAAATTTTTTTAAAAAAGAAAATAAATTTTTGGAAGCAGAAAGAATAGAACAAAGAACAAATTTTGATATTGAAACAATACAAGCAACAGGAACCTGTTCTGGAATAGAAAATTATTCAAGATATTTAACAGGTAGAAAAAAAGGTGAGCCACCGCCAACTTTGTTTGAATATTTTCCAAATGATTCTTTAATATTTGTAGATGAAAGCCATGTTTCAGTTCCGCAATTACATGGGATGTATAAAGGTGATTTTTCAAGAAAATCTAATTTATCAGAATATGGATTTAGATTGCCGTCTTGTTTAGATAATAGACCTTTAAAATTTGAAGAATGGGATGAAATGAGACCTAGAACAATTTTTGTATCTGCAACTCCTGGAGAATGGGAAATAAAAGAATCTAAAAATTTAATAATTGAACAAGTTGTAAGACCAACTGGGCTAACTGATCCTATATGTGAAATAAAGCCTGCTTCTTCACAAGTTGATAATTTAATGAATGAATGTAGGAAATGTATTCAAAAATCACAAAGAATCTTAGTTACAACTTTAACAAAAAAAATGGCTGAAGATTTAACTGAATATTTTGAAGAATCAAATTTAAAAGTTAGATATCTACATTCTGATATTAATACTTTAGAAAGAATTGAAATTTTAAGAGATTTAAGAATAGGAAAATTTGATATTTTAATAGGAATTAATTTATTAAGAGAAGGTTTAGATATTCCTGAATGCGGTTTAGTTGCTATTTTAGATGCAGATAAAGAAGGTTTTTTACGTTCAAAAACGTCTTTAATTCAAACTATTGGTAGAGC
>sequence39
ATATTGATATATATGAAATAAAATCTGTAGTAATTGAAAAAAGTCTCGCATGGATTTTATTTAATAAATTCATTTATTTAAAAAAAGATTTTCATATACAAAAACTAGAAAATAAAAAAGGTAAAATCACTTTAACTATAAAAGATAAAAATATTGAAAATATTAAAAGTATAAATTTAATTTTTTCGTCAAATCCTATAAAATTAAAAAAATGGATAATATCTGATGATCAAGATATAGATACAACTGTTTCATTATTAAAAATAAAAAGAAATATTAAATTTGATTCTAAGGTTTTTAAATTAATTAAATAATTATTTAACTATTTTATAAGAAATATTTTGAACAGAAATAAATTTTTTTATACAAAAATTTTTATTTATTTTTTTTCTCAATCTATAAATATGAGTTCCTAATGTTCTGGTTTTTACTTTATTATTAAATCCCCAAATGTTATGTAATAAATCTATTTTTTTTACAAATTTTTTTTCTTTTATTAAATAACCCAAAATATCAGACTCCTTTTCTGTTAAAATAATTTCCATTTTATTTTTTTTATAAAAAAGTTTCCTTTGGTATCTTTTGAAAATTAAACCATTCTTTAATTTTAGATTTTTTTTTTGATAAGTTTTTTTTTTTGGTTTTATTATAAAAGATAATAATTTGTTAAATATAATTGGTTTTTTTAAATAATAAGAAGAATATTCATGCTTATTATCATTAAACTTATCTAGAATTTGAATTATTTTTTTTTTAGGCTTATGTTCAAAAATTTCATTTATAACACTAAATGAATTTAATTTTAATCCAAGCGAAGAAATAATAATAAAATCAATTTTTTGCTTTTTTATGATATTTTTACTTTTTAATATTGAAGATGAAAATAATAGATTAAAATCTGATTTTAAATCTAATTGAGAGAAAAAATTTTCTTTTAAAAGAAAATTATTTTCAACAATTAATATTTTCATAATATTTATTATATTAATTTTTTTTATTTCACTTACCATAAATATATTTCAATATTTAAAATATGATTATTTTAGTTAATAAATTAGGAATGCTTAAATTTGGAAAACTTTTTTTCAAATGTGGTTTAGGCGAAAATGGAATTACGAATAATAAAAAAGAGGGGGATCTTAAAACTCCAAAAGGAATTTTCAAAATTAAAAATATAATGTATAGAAAAGATAGAATTAAAAATATAAAAACAAAATTAACAAAAATAGTAATTCAAAAAAACCACGTTTGTTGCGATGTTTCATCTAATACTAATTACAATAAAATTTATAGAACAAATAATATAACTTTAAGTGAAAAATTATGGAGAAAAGACTCTCTTTACGATATTTTAATTGTGCTAGATTATAATATGGACCCTGTAAAAAAAAATAAAGGAAGTGCAATTTTTTTACACTTATTTGATAAAAATAAAAAAATTGAAACTAAGGGATGTGTTTCAATAGAAAAAAAAAATATGCTAACTTTACTAAAAAATAATCCAAATAAAATAAAAATTTATTAATTTATATTATTTTCTAAAAAAAACTGCTAAATCTAAAAAAATATCATCACTTAATACTTCTATTCCTTTTTTTCTTGCTTCTTTTTCCGCGACAAGAGTTGCATAAACAGATTCTACCACATCATAACTAGATACTGATTTTTTATTTCCTTCCAAAACTATTTTTGAGTTTGTAAGATCTCTTAAAGTATATTTTACTGAAATTTGTAAATCTGTTCTTGTAGCAGACATATCCTGTCTCATACCTAATTCAGTCTTACTTTCTGATAATTCTACAATTAAATTATATTTTTTTATCACTCTTTGGCCTTCAGGATTTAATTTATTAATTAATAAATTCCTTAAAATTTGACCAGGTCTATCTTTAATATTTTTTACAGAAACAGATAATAAATTTTGAGATATTTCTGTATTTTTTTGATAAATTGGTTCGTAACCACAATTTAAATTCAAAAAAAACATACTAAAAATTAAAAATCTGATAATGTTTTTCATTTAAATAACTATATTTACTACTTTATTTTTAATTACTATTACTTTTTTTGGTTTATTTTTTTCTATTATCTTACTAACTTTTAGTAAAGAAAATGCTTTTTTCTCAACTTCTTTTGAATTCATTTCTTCAGAAATTTCAATAGTACCTTTTAACTTCCCATTTATTTGAACAGCAATTATTACAACTTCTTTTTTTTGAAACATTTTATTTACAACAGGCCAATCTGTTTGAACTATACACTTTTTATTTCCTAAAAATTGCCAAATTTCTTCAGCTATATGTGGCGTCATAGGACTAATTAATTTAATTACATTTTCGATAATGAATTTAAATAATATTTTTTCTTCTTTTAATTTTTTTTCATTATCAAAAATTAAATTAGTAAATTCTCTTATTCTTGCAATAGCTCTATTAAATCTGAAATGTTCGTAATCTTCTGTAACATTAAATATTGTTTTATTCATTTCTAAAATAATATTATTATTTTGATTAATTTCTTGATTTTTATCTTTTAAATTTAAAAAAATATTTTTATTTTCAAAAACTAAATTCCATAATTTATTTAAATATTTATATGCACCTTTAATTCCAGTTTCAGTCCATTCTAAATCTTTTTCTGGTGGACTATCTGATAACATAAATAATCTAGCTGTATCCGAACCATATTTTTCCAAAATCATATCAGGATCAACAACATTTTTTTTTGACTTACTCATTTTTTCACTTTTACCTATAAAAATTTCATTTTTACTCTTTTGCGCATCATACTCTTCAGGAAAAATCCAATTTCCTTTTTTATTTTTAAATGTTTTATGACATACCATTCCTTGTGTTAATAAATTTTTAAAAGGCTCTTTAATATTAATTATTCCACAATCTTTTAAAGCTCTTGTAAAAAATCTTGAATATAAAAGATGTAAAATAGCATGTTCAATTCCACCAATATATTGATCAACTGGAAGCCAATATCGTGCTTGTTCTTTATCAACAATATTTTTTGAATTTGGAGAACAAAATCTTGCAAAATACCAGGATGATTCAAAAAATGTATCGAAAGTTTCAGTCTCTCTAATTGCTTTTTTTCCAGTTTTACTGCACTTAGTATATTTCCATTTAGGATGATCACTTAATGGGTTTTGTGTTTTTGAAAAATCAATATCATCTGGTAAAGTTACAGGTAAATCTTTATTTGTTAATGGAACAGGTTTGCCATCTTCTAAATATATTATTGGTATTGGGCAACCCCAATATCTTTGTCTTGAAATACTCCAATCTTTTAATCTGTAAATAGTTTCTTTTTTAGCTATTTTTTTTTTTATTAAATCTTCAGAAATTTTCTTTTTTGCTTTTACTGTATCTAATCCATTTAAAAAATCTGAATTAATAAGTTTACCATCTCCTGTATATGCTTTTTTAGAATCATATTTATTATCTGATTCAATTACTTGTTTTATTTTCAAATTATATTTTTTTGCAAAATCAAAATCTCTTTGATCATGTGCTGGACATCCAAACACAGCTCCTGTTCCATAACCCATAATAATAAAATTTGCTATATAAATTGGAATTTTTTCATTAGTAATAGGATTTATTGCTTCAAACGGTAATTTAAAACCAGTTTTTTCTAATTTTTCAAATTCTTCTTCTTGAAGATTTAAATTCTTCTGACAATTATTCACAAATTGTTTTACTTCACTATTTTTTTTAGATAATTTTTTTGATAAAGGATGTTCTGAAGCTATAGCAATAAAAGAAGCTCCAAATAAAGTGTCGGGTCTTGTTGTAAATACTTCAATTTTATCTTTTGTTTTACTAATAGAAAAATTAATCTTCAAGCCAGATGATTTACCTATCCAATTTTTTTGCATTGTTTTAACTTGTTCGGGCCAATACTTCAATTCGTTTAAAGATTTTTCTAAATCTTCTGCATATTCAGTTATTTTTAAAAACCACTGAGACATCAATTTTTTTTCTATTAATGCTCCAGATCTCCATCCCTTTCCTTCAATTACTTGTTCATTCGCTAAAACAGATTTTTCTATAGGGTCCCAATTTACATAGGTTGATTTTTTATAAACTAATCCTTTTTTATAAAATTCTAAAAAAATTTTTTGTTCCTGATGAAAATAATCTTTATCAGCCGTTGAAATTTCTCTTTCCCAATCATATGAAAAACCCATTTTTTTTAATTGATTTTTCATAGTATTTATATTTTTTTTGGTCCAAGTTTTAGGATGTATATTATTTTCTTTTGCTGCATTTTCTGCCGGTAATCCAAATGAATCCCATCCCATAGGATGTAAAACATTAAAACCATTAATTTGTTTAAATCTCGATATTACATCTCCCAATGTATAATTTCTTACATGCCCCATATGTAATTTTCCAGAAGGATACGGAAACATTTCTAATACATAGTATTTTTTTTTACTGCTTGGTTCTGCCTTAAAAACTTTTTTTTTTTTCCAAATTTGCTGCCATTTTTATTCTATTTTTTTAAAATTATAATTTAACATTTATTCAGACTTTAATTTTTTTGCCTTTGAAATTATATTTTTTCTCAAACTATCTGCAAATGTTGAAGATATTTGACTTTTTTGCCATGAATCATTTATTAAAGTTTCTTTAGTAACAAAAATTTCTATATTTTCCTCAATTAAATTTGAACCTAAAATATATATTGAAATTTTAAATCTATTATTTGAATTTTTTTTTAAAATGATCCAATCTGTTGATATAAGCCCATCTTTCAAATTAGTTGTAACATTGGGATAATTAATTAATAAATTATTTGAAGCTTTCCATAAAAATTCATTTATTTTTAATTTTTCGAACTGATTTTTTTTTTTTCCAAAACCAAAGCTGCCTATTGAACTGCAACTAAAAATTAACAACGGTATAACTAAAATTATTAAAATTTTTTTTATCATATTCCTCTTTGAAAAGCATAGCCTATAATATCAGTTTCAACTAAAAATTTTACATTTTTTATATTAATTCCACCTAAAGCATAAATAGGTATATTTGTTTCATTTATTATCTTTTTAAAATTATAAATACCTAAATTTTTTTTCCCGGGATGGCTTTTAGATTTAAAAATTGGGGATAAAAGAGCAGCATCAATATCAAAAAACTCCGCCTTTTTTAATGACTCAAGATTATGTGCCGCTGTTGTAATCAATAAATTCTTTTTTAATTTAATTTTTTCTATAAGTTTCCAATCAATTTTATTATTTTTAACCATATACTCTGGAAAATGTACTCCATCTGCGTCTATATTTTTTGCTAATTTAATATCTGAACCTATTAATAGTTTTAATTTTTTCATTTTACAAAATTTTAGTAAATCTTTGGCAATTTTTTTTCGATTCTCTATTTCATAAGATCTTAATATAAAAGCAGAATTCATAGGAATTTTTAAATTAATAAATTTTTTTTCATTAAAAATTTTATCATTAAAAATTATTATAATTTTTGGCATTTTTTTATTTTTGCTTTTGATTCTTTTTGAAAATTCAAGAAGTTGATTTATTTTTGTATATGAATTTAAAGATTGCATTTATAATAATTGTAATAAAAAAGATGGAAAATCAAAAAGTTTTTAAAAATATTAATTTAATAAAAGAAAAAATAAACAACAAAACAGATGAATCTGTAAATAAAGAAAAAAAAATTAAGATCATAGCTATATCAAAAAGACAGCCTATAGAAAGAATTATAAATGCATTAGATAATGGTCATAAAATTTTTGGAGAAAATCAAGTTCAAGAAAGTATTAAAAAATGGCCTGATTTAAAAAAAAAATATAAAAATATTGAATTGCATTTAGTTGGTTCTTTACAAAGTAATAAAGCAAAAGAAGCTATTTCTTTATTTGATGTTATTCAAACCGTAGATAGAGAAAAAATAGCAAAAACTTTAAAAAAAGAAGAGGAGAATTTACAGAAAAAAATTTCTTATATGATCCAGATAAATACTGGAGAAGAATCACAAAAATCAGGAATTTTACCAAATGATGCCGATAATTTTTTTAAATATTGTAAAGAAGATCTAAAACTTAATATTATAGGGCTAATGTGTATCCCACCATTTAACGAAGATTCAACTATTCATTTTGCCTTCCTTAAAAAAAAAAATTTAGAATATAAACTTCCATATTTGAGTATGGGCATGAGTGATGATTATGAAAAAGCAGTTACATTTGGTGCAACTCATATAAGAATTGGTACTGCAATTTTTGGCAAAAGACCAGATAAAAAATTAAAATAATTCTTTAAAATCAAAGGCATATTGCCATCCAAAAATTACCATTTGGTCAGATTTCATTTGAAGACCATCATAGTATTGATAAATCGGGGTACTATATTCTAATGCCAAACGTTGTCCTTTTAAATCTCCTTTTGGAATAATAAAATTAATTCCTGCTAAAAAATTTATCTTTCTATGACCCTGATCTTTTGAAAAAACAGGACTCATTAACATATTAATATGGTTAGCATGAGCACCAGAAATTTTTCTTCTCCATTTTCCATTTAAGCGTCCAGAAAAAGACATCCAATCATTAAAAACATAGGCACCATAAAATGTTCCTTGGTATTCATCCCCCAAATGATAATTATCTTGATTTTGATAAAATCGCCAAGTACCTGAAGTTTGCTAACCTATGGAAATTTTATTCCATTTTTTCATATAACCAAGTTTTAGAATTGGATCATAAGTTCCTGAACCTAATTGCATGCCATATCCAAGTGTTGAATGCATCGGCATACCACTCATCATTACCATCACATCTTTTACATTAGTTTCTCCAGTCGGCAGACTTAATCCAAAATTTAATAACCATTTAGCATTATCATTATCTTTTAAAGAATAAAGCCCTGTTATTTTAATATCTCCTAAACCTCTTGATGCAACTGTAAATCGATTCATATCTCCTGCTCTTTGTCTAACTTTCATTTTTTTATTTAAATAAGGAACCATAATCATGCCTGTAAAACGATTACTGACACCATACATTCCTCCAAACATATGCATATTTGAATGCATTTTAACAGGTGCATTCATAAATTTATAAGAACCGGTTGACGAAACTGCATTTGTTCTTGAAATGTCATGACTTGCGTCTCGTAAATCTGACATTTCCATTCGCATATAACGATATGAAAACATTAACTCACCTTTTTTATGAACATGATCCCCCATCAATCCTATAGGTGCATGTCCATCTGGGCTTCCTCCAATTCCTTCTGATAAAACGATAAAAGGAAACAATAAAAAATATAAAAACAATAATTTGTACATTAGACCTCCTAAATCTAATTAATTAATAAATAAACAAAAAAATTAATTAAGAGATCAAAGGAGGTGAGCGGGGACTTTGAAAAATTATTTTCGAATATGAATATAAACTTTTTTTATTAGAAAAATTTATAAATGCGTAAAAATTTTTACAAAAATTACCAAATGATTGAAGAACGATTTTCTTATCATTATCTCCATTTTTTAAAATACAAGAAAAACAATTTTTACTTACTGTATTTTTTTTTGAATTAGAACTATCATCAAATTCACATAAATAAGCATAAGTAACTGATTTTTTATTTAAATTATCAATAAGCAAAGAATTAAAAGGCGTATTAATCCCAATAATAAATAACAGTAATAAAAATCTTATAAAAATAGTCTGCATCCGGGCATTTTACTGAAATATTTAAAAAAAAAAAGATTTAAACTTGACTTAATTATGAGAATGATTATCATTCTAAATATAAATGATGAGAATGGTTCTCATTTATACATTAATTTTTTTGAATTTTTAGAAATGATGAATAAAAAAAAACTTCTAGCTTCTACTTTTATTACCCTATTAGCACTTACTAATTTTACTAACGCAGCTGATGTTTATGCACCTGCTGTTACTGTTACAGGTGGTCAGGATGAATCAGATTCTTTAAGTGGATCAGGTACTTTCATTGACTCTGAAACAATAAAATCAAATAATTATGACAATATAGATCAAGTTTTAAAAACTATTCCTGGTGTATATAGTAGAGAAGAAAACGGTTATGGAATTTTTCCAAATATTAGTTTAAGAGGTGTGGATCCTGGAAGAAGTCAAAAAATAACAATTATGGAAGATGGTGTTTTATCTCAACCTGCTCCATATACAGATTTTTCAGCATACTTTAATCCTACAACAGCAAATAAAAGTGGAATTGAAGTTCTTATGGGCTCCAGTCAGGTGCTTTATGGCCCACGAACAACTGGAGGAGTTCTTAATTATTTAACAACTCCAATACCAACAAAAAGAAAGTTTCATTTAAAAACAACATATGGAAGTTATCTAGGAGTCCTTGGTTCTAGAGGATTTAGTGGTACAGATAATATGCAATATGGTGACGTAAGAACACATGCATTTTATGGAGATACGTTTGACACAAATATTGGTAATGTTGGAGTACTTTTAGAAATGTACGGAAGAGGAGATGGTGGTTTTAGAAATTGGAAAGAAGTAGAAAAAGGTCAATCAGGTTTCCATAAATATGAACCAATGATTAAATTAAGTTATAATCCAAATTTTGATCCTTTTGGTGCAGATTTAAAACATAGTTTTGAATTAAAAGCACAGCATGTAAGAATGGTCGGTGATTTAGGATATGCTGGTGTTTCAAAATATGACATTAATCACAAAGATCCTTGGAAAGCTTATGGATATACTCAAGAAGATAGAATATGGACACACAGAAGTGGAGGACATTTTAAATATAATGTAGAAATTCCAAATTTTTATGACACAACAATAACAACAACAGCATATGCCTCAAAATTTCACAGAGATTGGGCAAAAGCAGCTGAATACCACTCAGATGTTGATCAAACTGACGGTGGAACTAAATTTTATAAAGCTGATACTGTTGCCGAACTAGAACTTATTGATACTGGTGGAGGTGATGGAATTACTGTCGAAGTTAAGCATAATAATAGAGATTACCGTACAAGAGGTATCGAACAAAGATTTAATAGTGCTTTTACTACTGATGTTGGAGGAAAAAATTTAGATCACACTTTAACATATGGATGGCGTTGGCATTATGACTCATACTATGATATGTCATTTTATGATTATTATAATCTAAAAAATACCAGAATGACTTTAACATCAAGTACACTTAAAGAAGCTGCGTCCTCAAAAGAATATAAAACATGGGGAAGAGCTCTTTATATCCAGGATTCAATCGAATTTAATAATTTAACTGTTACACCTGGTTTTAGATATGAAAAAGTAGATGCTAAAAGAGTAAGAAGTGGAACAAGTGGATTACTAACTCAGGATGTTGAAGGATATTCAGGTGGGGTTGGTTTTAATTACAAACAATCTAGCAATCTTAGTTTTTTTGGTAGTGTTCATCAAGGATCTTCATTTCCTAAAGGACAAGATATATTTGCCACAGCAGATGGCGATACTGAAAACATGGATCCTGAAACAAGTTTTGCAAAAGAATTAGGATTTCGTTATAAAAATCCAGCTAAAAGTTTTAATTCAAAAGTTGCATTATTCCACACAGATTTTGAAGATTTAATTGTAAGTTCTAATACTGGAGCAGGAAGTGCTGTAACACAAAATGCAGGAGAAGTTGAACTTTATGGTGCTGAAGTATCTGCAGCTTATGATGTTGGACATGCTAGAGGATGGTCATTTAATAATCCATGGAAATTAGCATATACATATACATCGGCTGAATTTGGAAATGATTCAAAAAATAGTGGTGGAGATACTATTTATGGAGATGCAAAAAAAGGAAATGATCTTCCATTTATATCAGAGCATATGATTTCTCTAGGAACAGATGTTATAAATGGTCCAGCAAGTTTTGGTGTAATAGGTAATTGGAGAAGTTCTCAATGGTCATCTGGTGAAAATGTAAGTGCAAAAGCAGATGATACTAGAATTGGAAAAATCCCTGCTCGTTTTATATGGGATTTTAAAGGAAGTTATAAATTAAATAACAATATGAGATATGATTTTGGAGTCCATAATGTATTAAATGCTAAATATATAACTACATATTTACCATTAGGTCCAAGACCTGGTGCTCCTTTACAGGCATATTTCGGATTAACTTTAGATTATTAAAGAATTCTTAGCTTACCCCGAACAGAATCGGCGCTGGAGCATGTCGCCGAAATCCACATGCCCTACTTTAATTTTTTCACTAAATATCAATAAATTTTTACTTGCTGTATTTAAAAACTTATCTAATTTTATTATAAAATGAAAATTTTTTTTTTATTTATATCTTTATTTTTCATTATTGATCCTATTTTAGCTCACCACAAAATATATGGCGCAAGAGTTCATAAAGGAGACCGTGAAATTTCATGGAGAGGGCATTTTGATTATGATAATCGAAGTAACAAAAATAAAGGGCATATTCATGTTGCAGAAGGAGAATATGCATGGACTGATAGATGGCAATCTGAAGTAGAATTCTTTATGCGTGACAAATATGAAAATAATTTTCGTTGGTATAAAACAGAATTTCAAAATGTATACGAATTGATTGAGACTGAAAAAGGAGCTGCAGCTTTATATTTTTCATTTAATTGGTATAGAGAAAAAGGTGAGGCTAATGAAATTGAATATAAACTGCTTCTTGAGAGAAATTTTTTAGGTGCAAAAAATGTATTAAATTTTGTATTTGAAAATGAATTTGGAAGTAAAGCAGAAGGAAGTACTTCTTTTAAAATATCATATCTTTCAA
>sequence40
AAGATTAATTATTTTTTTTTTAAGAAATTTTATTTTTGTTTCAAAATCTATATAATTTTTTTTAAATAAATCTTTAATTAAAAATCTTCCTAAACCCGCCCCAATAATATTTATTTCTTTATTGAAAAATCTTTTCTTTATTTTATTTATTTTTTTTTTTAAAATAATTTTTTGTTTTTTTTCTAGTAAAGAAGAAACTTTTTTCCATTTTTTTAATTCTTTTTTTTTGTAATCTTTTCCATAAATTCTAGCAAGTCTTCTTGCACTACTATGCTTATCTTTTTTCTTATTATCTTCTGTTGGAATCTGGTCTAATTTTCTTGGAAGTTTTCCTAAAATTCTATACACATCAGCAATATTTGAAAAATTTTCATAAATTATATTTTTTCTTTTTTCAATTGCATTTATTGGAGTTCTTAAACTGCCAATATATAAAAGTTCATTATTTTTAAGTCTTTTTGAGTCATTTGTCCCTTTTGAAATTATTTTTCCATTTTTTATTGGTATAATATCTGTTGTTGTAGATCCAATATCAATTAATAAACAATTAGATACATATTTTGATATGAAATTAGCACTAGCATGCCAATTCATAGAGTTTATTAAAGGAGTTTTTTTAATTGCATCTTTTTTATTAAAAAAATTTTTTTTGTAATTATAAAAAAAAACTTTTTTTTTAATTAATAACTTAGATGTTAAATTAATAATATGTTTTGTTCCTATAGATCTATTAGAAAAAATATCTGAAAGTTCTGCGGTCATAGTTATTGCATGAAAATCACATTTGCCAAGTTTTTTTTTAATTAATTTTATAGATTTTTCTAGGTGAGAGATATTCTTCCATATTGGACAAAAAATCTGTTTTTTTTTAATATTTTTTTTTTTAAAATCTACTTTTATAGCTTTTATATGTGCTCCACCAATATCCCATCCAATTATTTTCATATAAGATTAATTATAATTTTTTAAAATTTTTTTAGCGATATTAATTTTTAAATTTTTTTCCATATTTTTATATGAAGTTGTAATTCTTGGATTAATTTCTATAAAAAAGAATTTTTTTTTTGTAATAATTAAGTCTATACCAAAGAAACTTTTTAGTCCGGGTAAATTTTTAATAATAATATCTATATTTTTTTTTATTTCTTTTTCGAATGGAATTTTTTTTATAAATTTTGTTCCAGCAAAAATTATTTTTTTATTTTTACAAAAAATTCTTTGTTTATTAAAGTTTATAATTTTCTCATTATAAGATGGTAAAATGTTTACACTATAATTTTCCGCTTTTATAAATGGTTGTACAATATATTTTTTTTTATAATTAGTAAATTTTTTAAAATTTTTATTATCAATAATTAAATTTTTCTCAGATCCAGCACCATCATCTGGTTTAATTATCCATTGATTATTTTTTTTAAAATTCAATTTTTTTAAATTATTAAAAGTTTTTATTGTTGGAATAGAGTTTTTTTTGAAAAAATTATATGTTTTAAATTTACTACTTGTTTTTTTTATTGCATCTATACTATTTGATAATGTTTTTTTCTTTTTTGTATTAAGTTTTATTAAATTTATTAATTGTGAGTTTGTTTCGGGAGCAATAGGTAAATAAAAATTTACACTATTAATTATTTTTTTCCATAAAGAAAAGGGTTTTTCTTTTATTATAATACATTCTGTATTTTTTATTTTTTTAATTTTTTTTTTAAATCTATAATCCCAAGCATAAATTATTTTAAGATTATCAATTTTATTGAAATCCATTAATAAAGATTTTACAATCATTCTTGCTTGAAGAAATAATTCTTTAGGGACTTTATTATTAATATAGCCGCCTCCAGTTACATATTCGCATATAAAAATTTTTTTCATTATGGAATTAATACCAGCAATCGATGTTTTAAATAATATTGTAGTTAAGGCTGTCGCAGGTAAAAGAAAAAAATATAAACCAATTATTTCAGAAATAACACATTCTTTTTATTTAAATGACATAATTTTATCTCTATTGAAAGAATATAATTTTAAATCAATTTATATTGCTGATTTAAATGCGATAATGGGAAATGGGGACAATTATAAAATAATAAATAAAGCTATAGAGCAATTCCCAAATATAAGTTTTTGGGTAGATTATGGTATTAAATCTTTGAATGATTATAAAAAATTTGATGATAAAAAATTTAAAATTATTATTGGTTCAGAAACTATTAATAGTGTTAATGAATTAAAATTAATTAATAAAAAAAAAAGAAATGAATTTATATTGTCTTTAGATTTTAAAGATAGTTTATTCTTAGGACCTAATAATTTACTTAAAAAAAAAGAATTATGGCCAAAAAATATTATTTATATGTTTTTAGATAAAGTAGGTAAAAAAAATATATTAAATAAATTTGATATTGGAATATTTAATTTTGATAAAAAAAATAATTTTTATTTAGCAGGAGGTATATCTAATAATAAAGATATAGATTTTTTAGAAAATTTGGGTTTTAAAGGTATCTTAATTGCAAGTGCGATTCACGAAAGATTAATAAATTATAAAAAATTGTAAAAAAAAAGCGAGTTTTTAAACTCGCTCTTTTTTTTTAGTTAATTCAAGAAAAGTATTAAACTTTTACATTTCCAAATGGATGTTCAGCAGATGACTTTTGAGAAACAACTTCTTTAGCTTTAGGTTCACCTTTGATTGCTCTTTCAAGAGATTCCTTAACAGCTTGATAATTGTAATCATATATTTTTTGATCACTTTTTGCATCCCAATGAATAAAAACACCAACTGAAACGAAAACATCATCAGCTTCTCCAGATGGAATTGTTCCATCTTCAACTGAATCAGCAACAGCTCTTGCAACAGCAGCTTGCGCTGGACCAAACATTTGAACGGCTTGTTTAGCACCTTTTATAGTTACTTTATTAAACATAACTGTATTAGGTTTACATGGAAGATTTGGAGCTACAACTGCAAGTAATGATGTAAATCCATCTTTATTATTTGTTAAAGTATTACAAAATGCAGATTCTGCTGCACTACCTCTTGGTCCGATAATAAGATCAATATGAGCTACTTCATTACCATCACCAACAAGAGATTCTCCTACTAGCACTTTATTAATTTTGGCCATTATCCCTCCTAATTTAAATAAATTTTTAAAAAACATGACACAGTGATTAAATACTACATGTTAATGATATTTTATAAATTTATCTAGAGTTTTTTTATTGTTTTTTTGTCACTAATTCCAAAAAAAGAGTTGCCACTGATAAATCAGCCATTGTACCTGGGTTGATATGTTTAGATTTTAATTTTTTGTCAAAAAATAGTAATTTTTTTTTAATTTTGGTTAATTTATTGTTACTTTTAAGTAAATTATAATAATTTTTTGCTTCATTCCTCACTTTTTTGGCAGTTTTTATACCATTTTTTCGAATTATATGTGAATCATTATATTTTTTAAGAAAATTTAAATAAACTGCAGTTAATGCCCATTCAATTTTGCCCCATTTTTTATAAAATTTTTTATAGGTAGGTATTCCAGTATTTATAATATCTTTATATCCGTTATAGTATTGTTTTGATATTAAGTCTTTATTCTTAGCAAATTTCATTGCTTTATATAACTTTATTTTTGGTAATTCATTAACATCATATTTTTTTGAATGCCCCAATCCACCTGGAGCAATTAATGAAATTGCCCTATAAATATCAATTGAATTATTTATATCTTGTTTTTTTATTAATGATTTGATTTTTGTTATTATTTTTTTTTTACTTATTAAACCTTCCTTTTCTATAACTGTAATTATCGGAGCTAACATTAATATTATTCCTAAATTTGTATTTTTCTTAATTTTATTTTTAACTTCCTTTGCAGAAAAAAAAATTTTTTTTCCAAGATTAAATTTTTTTTTTGTTAATGATCTTGATATTATTAAACTAGATTTTAAAAAATCTTTTGTATTCATGTCAAAACTTTTAGAAAATTTATGAACATTCCCAGGTTTTAAAGATTTCATTTCAATATCACATGCAAATTTTATTTGCTTTTTTAATAATTTCTTTATTTCTAAATTATTCATTTATTTATTTTTGATATAAAAGCTTTTGCTAAAATATAAGCAATATTTTTTTTAGTTACTTTTTGTAATGCTCTCCATGCTGGAATACTATTTATTTCTAACACTTTTAATTTTTTATTTTTATTTCTTATAAGATCAATACCGGCATAATTTGCACTTACAATTTTAGATGCTTTAATTGATATTTCTTTTATATCTTTGTCAATTTTCAAATTAAATGGTTTACCACCTTGTCCTATATTTGTTATGCTTTTTTTATTTTTTCTTATCATTGAGGCAATAATTTTATTATTACAAACAAGGATTCTATAATCTTGCCATTCTTTTTTTGATTTTATTTTTATATCTTCATATTTTTGTAAATAATAAACTTGTTCTTTTTTAGCACTTAAACTTTTATTTTTTATAATTTCCAAATCTTTTCCTTGTGATCCAAACAAATGTTTCCAAAAAATTTTTTTTTTTTTTTTTATCAAATTTTTTAAAATTTTTTTAGCTATTTTTAAATTTTCGGGAACCCATGTGTCAGGCGTATTAATTTTTTTATTACTTAAAAGAAATGTTGTCATAGATTTGTCAGTTGATTTTTCAATACAGTTAATATCATTAAATAAAACTACTTTTAATTTTTTTAATATGTGAAGTATTGTTAATCTTCGGGTAATTTGTTGAAATGTACCTTTTCCTATAGTTCTTATAAAACATCCATGTGGTAAATAATTTTTAAATCCGGGTATAAAAATATTATTTTTATATTTTGTATCTATAAAACAATCATTTAATGATAGACAAGAAACTTTACATTTTAATTTTTTTAATTCTTTTTTTAATTGATTACTATGCCAATCATGTGAATCTGAAAAAATAACTACATGCTTATTTTTTTTCATAACTAAAAGATTTATTTATTAGATCATTATTTAATTTACCTTCTTCAAAAATCTTACCTGTATCTATTGAAGTTATAATAATTTTTCCAGGGCTAAATAAATTTGGGTCTATTGCATAAAAATCTCCTTTATAATTTTTGAAAATTTCTGCAAAAGGTTTTCCATAATCTTTGGAAGATGTGCTAGGAAGATTTTTTGCTAAATTTTGTATTTGTTCATCTGTTCCCTTAACTTTTAGTTCAACATTACCTCCATATAAAATTGCATCATTTGTTCTACCCATAGATGTAATAAAGTCTTTAGAAATAGGAGGGATAGGAGCAGAACCACAAACTTCAATAACATTCTCAAGTGGAAATTTTAATGTATGTAGTTTGTGCAAACCTACTTCACTTACGCGAGATACAATTTGTATTATGCCAGAAATACTTGTTGTAGGAGTTAGTATTAAAATTATATTTTTAGCATTAGTTTTACAATCATTTGATATTTTTTCTATTATTTCCTTTGGTGGAATTTTATCAACTTCCATTACCAAATATATAAATTCACATTGATCTTTATAATTTAATTCTTTAAATAAATCCTCTCTTCTTGCAATTGCTCTGCCTGGTCCTGAAGCTAAAGCATAAAAATCTTTATAAGATAAATTCCAACCAGCATATTGACTAGCTAAGCATGATATAACAGGGTGTGAAGTAGAAACTTTAGTTTCTAGTGGCCATTTAGAAAAAGTTTTAGTTTTTTCTAAATTTATATTACCTAAACCACCCATGCAAATTTCTGCAATTAATTTTCCAGCTTCTTTACTTCCTTTAATTTCTATTCCTGCATCAATAATTGTGCAATTTGATGGTCCTTTTTTAATTAAAACATTAAATTCTTTAGAATTATTAATTAATTTATTTACTAATTCTTTAACAAGGTTTGAAACACTTAAATTAGAATTCATAAATTTTATTTAAAATTATTTTTTTATTTCTTGAGCAATTTTGTATGCTTCTCTAAAATCTAGAAATACAGGTTTATCAGTACTACACATTAATTTTAATAATTTGTGTTGAACCTGTGCTTTTATTTGACCAACAGCTAAAGCTCCAATGCCTAAAACATTTGTATTTTTAATTTTATCTCCATTTGAATTAACTTCTAAACCCTCAATTCCTGAAGGGGGAACTGCATTTACATCTGATACAACTTTTAAATTTTTAGCATTCTTAAAATGTTTCAGTAATAAAGCTTCTTTACCTGCAGCAGCAGCACATAAAATAATATCAGCATCTTCTGACATTTTTATTTTTTCTTCGTCTGTAATACCCATAATAGCTTCTAAATTTACATTATATTTTTTTTTATATTCATTAACTCTTTTATTTATTGGATCAACAGCTCCATCTCTATGAATAATCATTCCTACTTTAGCACCTTCTTGTGCAGCGATAACAGCACATGCACCGCCAACAATACCTTTAGCTCCAACTATTTGTATTTTTTTATTTTTTAAATCAGTTTTAAATTCATTTAATAATGCATTTTTAACGCTAGCAATCATTGCTGCAGCTGTTGTAAAAGATCCAGCGGGATCAGCAAAAACTGAAATTTCAAAAGGTGGAACCATAGCTTTTTTTGCTGTTTCAAGCATTTCAATTGCTTCTTCCGCATCTTCCCCTGCAATAAATAGTCCTGTTTTTTTACAATCGTTTGGATGTCTAGAAAAAACAATATCTTGAACTAAATCAGATATATCTTCTATTGTAATATTTGTATAAGTAGCGACATTATCGAATCCTGCATCATAAGCCATGTTAATATCAAAAGGACTAACAATTTTTGTAGGACTTAATGCATGTAAAATAAAAGTTTTTTCTTTTTTCATTATTTTAATAATGTATTAGCACCAATATTTCTACCAGAGCATATTATAAATTTTATATCATTGCAATCATCAAATTTTTTTTCAAATTTATATTTAATTTTTTTTGCATTTTCATAATTACAAAAAAAAGCAAATCCAGTAGGCCCCCAAGACGTTTGTCCATAACCTAATATTTTTTCTTTTTTTAAAGAAAAAAGTATTTTTGAAATTATTTTATTTGAATATTCCCCACCTTGCTCTGAATAAAAGAAATTACTCATATAATTTTGTACTTTTGTTATAGATTTTGAAAATATATTAAATTTTTTTTTTTCTAATGAATTATAAATATTAGAAATAATTTTATTGTTTATAGTTTTTTTTTGATTTGATTTTAATAATTTTTGAAAGGATTTTTTTTCCTTTATTCCAAACAATCCCCTACCTTTATATTGTATTAATAATATTTTCCATTCTTTTGGAAATTTAATATTTTGATATAAAAATTTTTTTTTTGTATCTTGTTTTTTATCAATTATAAAACCTCCCTTAATAAAACTTTTAATTCCTATTAATGATCTATTACCTCGTCCCATTTTTCTTGCAATTTCCAAAGTATTAATTTTTAAATTTTTTAATTTTGATATCCCAGTTCCAATAGCTAACGCTAATTGTGTTCCAGATCCTAAACCAATATGTTGAGGTGTAACTTGTTTTATATTTATATAAAAATTAGGTTTAATTTTAACTTTTTTGCAAAATTTTTTTATAAAAATACTAGCTCTTTTAGTTTCATACCCTTTAATATGCAATTTATGATAATTCTTAATATCAATAACAGTTTTAAATTTATTAATTGTAAGTCCTAAACCACCAAAAGATTCTTTATTTTTTTTATTTAAATCAAGAAATCCAAAATGCAATCTTGCAAATGAGATAATTTGTAGAGATTTTTTTTCTTTTATCATGTAAGTTTTGATTTATTTCATAATTCTTTTAATTAAGATAATATATATTTTTTTAATTCTTAATTAATTTTTTTTAACGTGAGGAGTTATTATGAGTAAAAATGATAAAGTTTATAGCCAAGTAGAAATAAAAGATAGATTAAAAAAAGAACTACCCTTATGGATACTTGAAAATAATTGGATCAAAAGAAAATATAAAACTCAAAATTGGAAATCTACTTTAATGGTTATTAATACCGTAGGCCATTTAGCTGAAGCTGCATGGCATCATCCTGATATTACAGCATCCTATGCTTGGGTAGAGGTTCGTTTAACTAACCATGCTGCAAAAGGCGTTACAGATAAAGATTTTGAACTTGCAAAAAAAATAGAAAATACCATTCAATGGGACCCATCTAAGGAAAAAGGTTCTTTAGAAGGAACTCCTAAGGAAGATCAAAGATTTTCCTATATAAAATACGATAAATAATTTTATTTTTTTTTATATGAAAAATATAAATTTTACCTGCCCGTTTTGCTCTTTACTGTGTGATGATGTTCAATTAGAAATTAAAAAAAATAACTTTAAACCAATAAATTCAGGATGTTCTCTTTTAATTAATTCATTAAAAAAAAAGATTAGCGATCAATTCTCAAGAGTTTATGGTAAAAAAACTAATATTTCTGAAGCAATTACTGAATTATCTTTATTGATAAAAAAAAGTAAATCTACACTATTTGCTGGAATGGGCACTGATATTAAAGGAACAAAAGCGGCGCTCACTATTATTGATAAATATAAATGTATTGTTGACCATTTTTCTGGTGATAGTTATTCAAAGAATTTAAAGAGCATGCAGGAAACTGGAGGTTTTTTTTTAACTTTATCAGAATTAAAAAATAGAGCAGATACTGTTATTATATTTCAATCATCAGGAGAAGAACTTCCTAGATTGTTTGAAAAATATATTTTTCCAAAAAAAACAATAAATAATTTAAAAAAAAGGAAAGTTATTTTTATTGGTACTAAAGCTCCACAATTTTTTTATAAAAATAAAAAAAGAATTAATTTTGAATTTATAAAATTAGATTCTATTAATTTATTAAATTTTATATCTACTATTAGAAAATCTATTAATTTTGAAACGAAAGATGAAAAAGATAAAAGAATTTTGTATTTATTAGATATTTTAAAAAAAACAAATTATGGATCTATCTTATGGAATGCTTCAGAACTTCAAAATGATATAAGCGATGTAATAATAAATGAAATAAATCTATTAATTCAAGATTTAAACAAATTTACAAGATTTTCTGGTTTATCATTATCAGCATCTGATCATATTTTAACAGTTAACGAAGTTTTGTTATGGCAAACAGGTTTTCCAATTAGAACCAGTTTTGCAAATGGTTTTCCTGTACATGATATTGATCAATTTTCAACAAAAAAATTAATAGATAATAAAGAGATAGATTTGGTTGTATGGATAAATTCTTTTAATGAAAAAAATATTATTATTAATAAAAAAATTAAAAATGTTTTAATTGGAATACCATCTCACCCTCAAAAAAATAATGTAGATATTTTTATACCTGTAGGTACTCCTGGATTAGATCATAATAGTCATTTGTTAAGAGTAGATAAAGTAGTTTCAATGCCATTAAAAAAAATCAGAAATATTTCACTACCAAGTGTTGATCAAATTTTGGATAAAGTAAAAGAAGGAGTTACTGATGATAACTAAATTAAAAAATGCAAGAATTTATGATCCAATTAATAAAATTAATGGAAAAGTTAAAGATTTATATATAAAAAATCAACATATTGTTGATAAGCCCAAAAGCGGTGAAAAAATATCGAGAACAATTAATCTAAAAAATAAAATTATTATGGCTGGTGGAATAGATATTCATAGCCACATTGCTGGAGGGAAAGTTAATCTTGCCAGATTATTATTACCAGAAGAACATAGAAAACATCTATATCAATCCACAGAAAATTTAAGATCTGGTTCAGGATTAGGAACTTGTAGCTCATTTCATATAGGTTATAAGTATGCCAAATTAGGTTATTGTGCGGTTTTTGAACCTGCAGTACTTCCATCTAATGCAAGATCTGCGATTATTGAAATGTCAGATATACCTTTTGTTGATAAAGGAACATACACAGTTTTAAGTAATGATGATTTTTTATTAAAGTTAATACAAAAAAGAATAAGTCAGAAAAAAATTAATGACTATGTTTCTTGGATACTTAATTCAACAAAAGGACTAGGTATTAAAATCGTAAATCCAGGAGGTATTAATGCTTTTAAATTTAATCAAAGAGAACT
>sequence41
AAAAATTTTAGCAAAGGGAAAAATAATTGGTTGGTTTCAGGGAAGATCTGAATTTGGCCCTAGAGCACTTGGAAATAGAAGTATATTGGCAGACCCACGTGATAAATCTATACAAGTCAAAGTTATTAAAATTATTAAATTTAGAGAAATTTTTCGACCTTTAGCCCCATCAGTACTAGAAGAGGATTTCAAAAAGTTTTTTTATAATTCACCAACTAATCAATTTATGACTTTTAGTGCTGATGTAAAAGAAGAAAAGAGAGATTTAATACCTTCAGTTACACATATAGATGGTACAGCAAGGCCTCAAACTGTTTATAAAAAAAAATCAAAAAAATTCTGGAAATTATTAAAAGAATTTAAAAAAATAACTGGAATTGGAGTTTTATTAAACACATCTTTTAATGTAAAGGGAGAGCCAATTGTTGATTCACCCAAAGATGCTGTTAATTGTTTTCTTTCGAGTGGTTTAGATTATTTAGTAATTGGTAATTATTTAATATCTAAAAAATGAAAAATTTTTTAAAAAATATTTTATATTCAAGATCAAATTATAAATTTTTTATTAAAAATTATACGGCTATTAGCGATTTAAAGAATATTTCATATTCATCTAAATCTATGAGGCACTTTCAATTTATTACACCAATTGAATGGAAAAAATCTATTAATGATAATGTAATAATATTTTCTCCTCATGCAGATGATGAGATTATTGGAATGGGCGGAAGTATAATTAAATTATTTAAAGATAAATCTAAAATTCATTGTATTTATTTTAGTTCAAGCGGTGTTAGATCTAGAGAATGTCAATTAATTTCAAAAAAATTAAATTTTAAAAAAACAGAACTTAAATTTAAAGAAAATAATTTTTATATTACAAAAAATAATTTAAATAAAATTGCTGAAATTATTAATAATCACAAAACAAAAAAAATATTTATACCATTTTTATTTGATGACCATGATGATCATAGAAAAGTAAATGAAATTTTGATGGAATTAATAAAAAAGAAATTGATTAAAAATAATTTAGAAATTTGGGCTTATCAAATTTATTCTTTTTTTCCTAGTAATGTTTATATTGATATAACTAATAATATTAAAGAAAAAATTTTTTACTTAAGAAAGTATAAATCTCAACTAAAAAAAAAGAATTTTGATCATCTAACTTTAGCAATGAATGCATTTAATTCTAGAATTTTGAATACTAATAAAAAAAAATATTTAGAAAATTTTTTTGTTATTCCTTCAAAAGATTATTTTGCTTTATGTAAGAAATATTTTAAGAATCCTAAGGATTGTTATTATAATAAAAATTATATTTGAGAAAAAATTGAAAAAAAAAATTTATAGTTATAAAAGTCAAAAAACGAAATGGAATATGTCTAATATTTATTTACAAAATAGGTATAACGACCCAAAGGATGTTTTTAAAATGATATATAAAATTATTAATAATTATAATAAAGATAAAAATCTTAAAATTATAGATTTTGGGGGGGCTGAAGGTGCTTTTGCTTATTTTGTTTTAAATAAGCAACCTAATTATGAAATAACAAATCTTGAATATGATAAAAAATTATTAGCACTATCTAAGAAAAATGTCCCTTTATGTAATTCAGTAATAGGTGATATAAATTCTTGTCCAAAAATTAAAAATAATTCCTTTGATATTGTTACATGTATAGGCGTTATATCAATATTTGATGACTTTCGACCATCTTTAAATGAAATGTTAAGAGTTGTGAAAAAAGGTGGTTTAATAATAATTAATAATATGTGGAATTCATATCCAATTGATCTTTTAATTAAAGTAAGACATGCCAAGAATGGCTCACAAATAAAATTCAATAATTGGGAAAGTGGATGGAACATGATATCTATTAAAACTATTAGTGAATTTTTAAAAAATAAAAAAAAAGTAAAAAATTTTACTTTTAAAAAAGTTATTATGAAAAAAAATCTATTAAAGAATAAAAATAATTTATTGCGATCATGGACAAATAAGTATAAAAATGGTGAAAGATACCATTTTAATGGTATTGGAAGACTGCTTGACAAAAGGTTATTAATAATACAAATAAATAAGTAACATTATGAAAAATAATTTAATCACAAATTATAAAAGGGATGGTTATATCGAACTTAAAAACGTTTTTACCAAAGAAGATGCCCACAACTTTGCTGTTTCAATTATACATTTAATAAATGCTCAAAAATGTAAAGGTTTTTCAATTCCAAAAAATGTTGAAAGAAAATCATTGAGCTTTTTAAAATCAAAGATTAATGAAGGTTTGGTATTATTAGAGAATAAAGATCATATTTTTATTAAAAAAGTTTACGATAGTATAAGGAATGCGCCAATAATTGATAACTTAACTTTAAAACCAAAATTAATTAAAACAATAAAAACATTAATGAATTTAAATAATACTAGTCCTTTATATGTTACACAAAAAGCATGTAGAATAGATATTCCAAATAATGAAACTTTTTCCTTAGATTGGCATCAAGAAGCTCCTTATACAATAAAAGAAACAGAATTAGTACAATTGTGGGCCCCGATTTTAGATGATGTTAAAAAAATTAATGGTGCATTAAAAGTTTTACATAAATCACATAGCGCTGGAGTTGTTGAAACAGATGATAGAATACCTAGCGTTGGCCATGCACAATATGTTCCAAAACAAAAATATATTTCAAAATTTTCAGAAATTACTGTAGAAATGGATTATGGAAACGTATTATTATTTCCAAAAACATTAATTCATAAAAGTGGAGAGAATATATCAGACAGTCCAAGATTAACTTTGATTGCTCATTATCATAACCCATTAGCTAAAAACTTTTTTAAAAATTTTTCTAATGATGTTGAACCTCAAGCAAAAAATTCTTATAAAAATGCAAGTTAAGTTATGAAATTTATAGAGGAAAATAAAGCTTTACAATGTTCATATAACTTTTGGCAAGTTCATAATACTGAAAAAGGCTATCCTGAACATTATCCTGATGAAGAGGTAGTAAGATTTTTAATGAGATTAAAAGGAAATGCAAAAAAAAATAAAAAAAAATTAAAATCTATAAAAATTTTAGACCTTGCTTCTGGCTGTGGTAAAAATTCTATACCTATAGCAGAATTAGGATTTAATTTGTTTTGTTTAGATTATTCAAAACCAGGTTTAAATTACACTAAGAAACGATTAAAAAAAATAAATTTAAATGCTAATTTTTCATGTACTGATTTTATAAAAAATAAATTACCATTTGCTGATAATTTTTTTGATGCAATAATTTCTATTCAAGTTTTTGACCATATTTTTCTAAATTCAACATCGAAATTATTAGAAGAAACTTCAAGAGTCTTAAAAAAAAAAGGTAAAATGATAACAAGTTTAATGAGTAAAAAAACTACAAAAATTTCAAGAATAGGCATACCCGTAAAAAATAATAAAGATAGCTATATTGTTTCAGCAGGAAATTCAGCAGGAGAAATTCATAGTTTTTTTAATGAAAAAAAAATGAATTTATTTTTAAAGAAAGAATATACAATTGATAATTCTTTTCTTTCTAAAAAAGTTTTTGACAAATCTAAAGAAGTTGAAGAATGTAAGTATTTTTCATTGTCAAAAAAAAGTTAAAATTTATTAAAATTTTAATATTAATTTGATATATTTATTTTATTGTATTATATTTTGCTTATTTTAAATGATTAAATTTTACATTTCTTTTTTATTTCTAATTTTTGTATTCAGTAAATCAATTGCTAGTGAATTTCTTGATTTAGAGGATAACTTTTTTCCTGAAGGAATAGCTGTGTCAAAAAATGGTGATTTATATATCGGTAGTTTAAAAGAAAATAAAATTGTTAAATTTAAAAATAAAGAGAAAACATCTGAAGTTTTTGTTTCTTCAAATTCAAACAATTTAAATTCTGTTATTGGTATTATAGTTGATGATCGTAATAAAATATTATGGGCATGTTCATCTAATCCTGGTGTTTCGAATTATCCTAGCGATAAAATTGTTTCTCTAAAGGCATTTGATTTGAATTCAGGAGATCATCTTCAAACTTATGAATTTCCTAATGGAGGGTTTTGTAATGATATTACTTTAGATTCTAATGGTAATGTTTATGCCACCGATTCATTTAATCCTAGAATACTTCGTTTGAATAAATCACAAGGTAGACTTGAGACATGGTTTGAAAATGATTTATTTAAAGGCGAAGGTTTTAATCTTAATGGTATTACTTATATCGATAATAAAATTTATACTGTTAAAATGAATTCTGGTGAGTTATTTAGTATTGAAATTGAAAAAAATGGTAAACCAACCAACTTTAAAAAAATAAATTTACCTCGATCTTTAAATGCCCCAGATGGCATTGAGGTAATTGATAAAAATAATTTATTAGTTGTAGAAAATAGAGCTGAAGGTACTTGGAATGGTAGTTTAACTAAAATAACTTTATCAACCCCTATACAAATGGAAGTTTTAAAAGATAATTTAGATACCCCAACAACAGCCGCAATAAAAGGAAAAACTGCCTGGGTTCTTGAAGCACAATTCGCTCATTTATTTGGAGATGAAAAAGATGTACAACCGGGAGAATTTAGAATAATTGGTATAGAATATAAACCGTCAATCTTGACATCGATCAAAAATCTATTAAATTTTCTAAAATAAAAGGTTTTTTATTATGAAAGTTTTAAGTTCTTTAAAATCTGCAAAAAAGAGGCTTTTGCATTGTAAAGTTGTTAGAAGAAAAGGCAGAGTCTACGTAATTAACAAAACGAATTCTCGTTTTAAAGCTCGACAAGGATAAATTTTAGATTAATTAATAACGATCCACAGAAGCAATTCTTAAAACATTTGTGGCACCACTTTGTCCAAATGGAACTCCTGCAGTTATGACAACTCTGTCACCTCTTTTTGCAAATTTTTCTTTTTTCGCTAATCTTCCAGCTTTTAAAACCATATCTTTGAAACTTCTAGCATCTTCGGTGTGTATGCAATGTACTCCCCAAACTAAAGCTAATTTTCTTGCTGTATCTAAATTAGGCGATATACCTACTATAGGTACACCTGGTCTTTCTCTTGCAGCTCTAAGTGCAGTGGATCCAGAAGTTGTATAAGATACAATTGCTTTAGCAGACATAATTCTTGCTACATATTTTGCCGATTCAGTAATAGCATCTTCAGCCGTAGATTCAGCTTTAACATGACTTACTTCATTAATATTTACATAAATCGGATCTTTTTCAACTTTATCGATTATTTTATCCATCATTTTTATTGACTCACATGGATACAAACCAATGGCAGTTTCGGCTGACAACATAACAGCATCAGTTCCATCATAAATAGCTGTTGCTACATCTGAAGCCTCTGCTCTTGTAGGAGTTGGATAATTAACCATAGAATCTAACATTTGTGTTGCAACAACTACTGGTTTACCGGCTTGCCTACATGCATTTATAATTCTTTTTTGTTCACTAGGTAAAGCTTCCAAGGGGGCTTCTATTCCGAGATCTCCTCTTGCTATCATTATAGCATCAGAAACGTTGATTATTTCATGCAAATTTTTTAAAGCTGATGGCTTTTCAAGTTTTGTAAGAACAGAAGCTTTATTTTTGATAATTTTTTTAAAATTCAAAACGTCTTTCGCAGATTCAACAAAAGATAAAGCAATCCAATCTACTCCTAATTTTAATGCTAATTTTAAATCCTCCTTATCTTTTATTGTAAGCTTACCAGTATTTGATAAAACATTAGGTATGTTAAAACCCTTATTACTAGATATAAAACCACTAAATTTTACTTTAGTTTCGATATGGTGGCTATTTTTGTAAGTCACTATTAAAGTTAATTTGCCATCATCAACTAATATTCTATTTCCTTTTTTTATCTTTTTAAAAATATCTTTATGCGGTAAATATGCTCTATACTTATTTCCAGGTTTAGGATCTAAATCGAAAACAAATTTTCTGCCTTGTTTTAAAAAAATTGGGCCATTATCAAATTTTCCAACTCTTAATTTTGGGCCTTGTAAATCCATTAAAATACCAATTGGTCTATTAATTTTTTTTTCTAAATTTCTAATTTGTTTAAATCTTTCAACATGAGTTGAGGCCACATCATGACTAAAATTTAATCTAAATACATCAGCGCCTGCATTATAAAATTTTTTAATTGTTTTAAAATCAGATGATGATGGACCTAGTGTTGCAATTATTTTTGCTTTTCTTATTCTTTTCATAAATAAAATAATGAATACTTAATTTATAAATAGTTATTTTTTTTCTTCTTTACACGTTTTTTTTGTAAGATTGTAATTTTTAATAAATTGTTTAAAGAGCTATAAATAAATAAAATTATAAATTTTATATTAAAAAAAATTACTTATATACTAACTAATTTAATAATGAATAAAAAATATATATATGAATAATAATTTTTTTTCAGTAGGCCTTGAAGAAGAATATCTTGTTGTTAATAAATACAATGGAGAACTTATTGTTGAACCTCCAAAAGGTTTACTAAGGGACTGTAAAAAGAAACTTGGTAATCAAGTAAAACCTGAATTTTTAAAATCACAAATTGAAGTTGGAACTAAAGTTTGTAAATCAATCAAAGATTTAAAAGATAATTTAATTTTTTTAAGAAAGAACGTAGCAAAAATATTAGATAAATATGATTTATCTTTTATAGCAGTATCGACACATCCTTTTTCTGGATGGGAACAACAAAAACATACAGAAAAAAGAAGATATTTTAATTTAGCTGATAAATTTCAAATAATAGGAAGAAGATTAGTTATTTCTGGAATGCATATACATGTTGGAATCCCAGATAACGAATTAAGAATAGATTTAATGAATCAAATTTCATATTTTTTACCACATCTTTTAGCATTAAGTACTTCATCACCATTTTGGAAAGGAGAATTAACTGGATTAAAATCATATAGAGTTAGTATTTTTGATGAATTACCTAGAACCGGGCTACCTGAATATTTTGATAGTTATGATGAATATAAAAGACACATAAAAATATTATTAAATTCAGGCTTACTAGATGATTCAAGTACGATATGGTGGGATTTAAGACCAAATGTAAAATTTCCAACCTTAGAAATGAGAATATGTGATACTTGCACATCTTTAAATGATGCAATTTCAATTGCAGCTTTATATTTATCAATAATTCATATGGCTTGTAGATTAAGAAGAGAAAATAAAAAATGGAGAGTTTATTCAAAAATGTTAATTAGTGAAAATCGTTGGAGAGCTCAAAGATATGGTATAGAAAAAGGTTTAGTGGATTTTGGGAAAAGTAAATTAGTTTCATATGATAAATTAATAGATGAATTAATTGAATTAGTTAAAGAAGATGCGAAGGAATTAAATTGTGAGAACGAGTTAAAAAAAATTAAAGGTATATGTAAATCAGGAACTAGTGCAGATAAACAAGTTAAAATTTTTAAAGAAGAAATGAAGAAAACAAATAATAAACGAATATCTTTAGACAAAGTTACAAAATTTCTTATGAAAGAAACGATGAATTTTTAAAAAGTTATGAATAAAAAAGAAAAAATAGAAATTGAATCGGCTGTATATAGAAAATTAATTAGACATTTGAGAAAAAAAACAAATGTTCAAAATATTGATTTAATGAATTTAGCAGATTTTTGCAGAAATTGTTTATCAAAATGGTATATGGAATCTGCAAAGAAAAAAAATATAAAAATAGATTATGAAGAAGCAAAAAAAATTATTTACGGAATGCCTTATGATGTTTGGAAAAAAAAATATCAAAAACCTTTACAAAAAAAATAAATAATAATTTATATAATGAAAATATTAATTACAGGAGCTGCAGGATTTATAGGTTTTCATTTATGTAAAAAACTTTTAAGCAGAAATTATCAAGTTTTTGGAATTGATAATTTAAATAATTATTATGATATTAAATTAAAAAAAGATAGATTAAATTTATTATTAAAAAATAAAAAATTTAAATTTAAGAAGATTGATATTTCAAATGAAAATTTTGTAAAAAAAATATATCCATTTGTAAATAAATATAAAATAATTATTCATCTAGCAGCGCAAGCAGGAGTTCGATATTCAATAACTCATCCATACAAATATATTGAAAGTAATGTCAAATCTCAAATATCAATATTAGAATTAGCTAAAAAAATAAAAAACTTTCAACATCTAGTTTACGCCAGCTCATCATCAGTTTATGGTTTTAATAAAAAGACACCATTTTCAATAGTTGATAGGGTAGATGACCCAGCATCGTTATATGGAGCAACTAAAAGATCAGGCGAGTTAATTTCTCAATCTTATTCGAAAATGTTTAAAATAAAATGTACCGGATTAAGATTTTTTTCAGTTTACGGACCTTGGGGAAGACCTGATATGGCTGCATATATTTTTACAAAAAATTTATTTGAAAAAAAAACATTAGATTTATTTAATCATGGCAGAATGGAAAGGGATTTTACATTTATTGATGATATTATTGATGGGATTATACCAGTTATTAATCTTAAAAATAATAAATTACATTCAGTTTATAATTTGGGAAATAATAAACCAGAACCATTAACTAAATTAGTTAATTTCTTAGAATTATATTCTGGAAAGAAAGCAAAAATAAAAAAAAGCAGAATGCAATTAGGAGATGTTAGACATACATATGCAAATATTAAAGAAAGTAAAAAAGATTTGAAATTTAAACCTAAAATAAATTTAAAAGACGGTTTAAAAAAGTTTGTTGATTGGTATAGAGAGTATCATAAAATTAATTAGTTATATAATTCTTCAATAATTTTTTTATATTTTTCATACACTTTGTTTCTTTTAATCTTCATTGTAGGAGTTAAAAAGGCATTTATATCATCTTGATGTAAAGTAACAAAAAGATGTTTTTTTATTTTTTCTATAGAAGATAGTTTTGTGTTTATTTTTTTTATGTGTAATTCAATTTTTTCCATTTCATCTTCAACTTTTTTTATAGGTGAATCTTTATCTGTTTTAATAATTACTAAAGCAACTAAAAATGGTTTATTATCGCCAAATATCAGTACTTGAGATGTAGTTTCAAGAGTTGAAAACAAACTTTCAATTTTTTGTGGAGCAATATTATCACCTCCAGTTGTAACAATTATATCTTTTTTTCTATCAGTTATTATCAAATGATTATCTTCATCTAATTTTCCTATATCGCCTGTATACAACCAATTATTTTTTATCTTTTCTTTAGTTTCTTTTTCTTTTCCTAAATAGCCTTTCATTAAAATATCACCTCTTACTAATATTTCACCATCACTTGCTATTTTAACATCAATTCCTTGTATAGGCGGGCCTACAGTTCCAATTTTATTGGATTCAGGCCTGTTACAACTAACTGTTGGGGATGTTTCTGTAAGACCGTATCCTTGCAGTATTTTAATTCCTATTGATTCAAAAAAAAGATTTATATCGTAACTTAGTGCACCACCACCGGATACTAAAAACTTTAATTCATTTCCAAATACTTTTTTTATTTTGTTATCAAAAATAATTTTAAAAAAAAATTTAAGAAAACGTGTCAAAAGTAAAAATTTTTTTTGATTCAGATAAATTTTTTTTCCTAAGTTTAGATTAAAATTAAATAATTTTTCTAAAACTTTATTTTTAGAAAAGTTATTTAATATTTTCTTATAAATAGCCTCATAAAATCTTGGAACAGCAGCAATATAAGTTGGATT
>sequence42
AACTTAATAAACATAAAAAAATTTTATTATTCATTTCGACATAGAAATAGAATTAAAAAAAATCTTGGGCCACCATGCTATGATAAAAAACCTAATCCATTTTTTTTAAAAAAGGCAAAAAAAGATTTTAATTTAGATTTAAAATCTTCATGGATAATAGGTGATCGACAAACAGATATAGATTGTGGAAATAGAGCTAATTTAAATACTATTGGTTTTATAAACAAACGTCATGAATTTGATAAAAATAAAAAAAAACCTGATTTTCTAATTAAAAACTTCGATCAATTATTAAAAATTATTAAATAAATTAAATTCTTCCAAGAATTTTATAATAAAATAATCCAAAATATTCATATTTTATATTATTTATTCTTGAATAGTTTTTATATGATGGGAAAAAATTTTTATGAGTAATTTTTTTTTTTTAAAAAATATTTTCTGGTATAAAAGTGTTAATATTATTTTTTTTTAATGATTTAGACATTCTTTTAAAATGATATAGATCTGTTATAAGGATAACGTTTTTATTTAAATTGTTTTGATTTAAAAATTTTTTAATATTTTTGGAAGTTTCATAAGAATTTATAGAATTTTCTTCTAAAATAATTTTTTTGTTAACTAAATATTTTAGATTTAAGTTTTCATATACAATTCTAGCTTCACTTTTATATCCCTTTATTGTTTTTCCACCTGATATCACAATTGGTAAATTTAATTTTTCAGTATATTTAATCGTTTTTTTTATTCTATTTATTGAATTTATAGTTGGTTCGATAATTTTTTTTTCTTCATTAAATAAAATGCCAGCTGTTGGTACTAATATTATTGAATATTTTTTTTCATTATTTTCATATATATTTTTTTTTGGATAAAAGACAGTTTCTAGGATAATAGATGATATTGGTAAGGAAAAAAATATTAAACCTATTGTATTTAATATTAAGATTTTATGTAATAATTTTTTTTTTTTTATTAATAAAAAAGATGTTAAATAAATTATTAAAAAAACTAACGGTAAATTAGTTATTAATAAAATAAATATTTTCATTTTATATTAATTTATTCAGCGTATGGATCTAAAGGTTCTATTATTGCTTTATTTCCGCTATTACCTTTATCACTGTTTCCAAGATTTGTTGTCGCACTAAATGTTGATTTAACAACATCAATAATAAAGGTAAATTTCTCATTTTTAGAATTTGCCCCACCCATTATAAGTAAATATCCTCCTTTATTAACATCTGGAAACACTATTACACTTAAATTCTTATTGTTTTCTTCGACCCATGAAACACTTTTTTCATTTTGATCTAATATAAAACTATAGGATTTATCCTCATCTACATAACATTTAACTGCAATTGTATCTGCATTTAAATTAAAAATAAGTATTAAATAAATATAGATTAATGTTAAAAAAAATTTCATTATTTTATAAATACAAAAAAATCAATAAAATACTAGTTAATTAATATAGTTTATAATTCTTTTTTATGGTAAAAAAAACACATATTTCTCAAATAAGATTTAAATATAAAAGTGATCCATTAGATATTAAGAATATAAATATAAACCCATTTAAACAATTCGAAATATGGTTAAATCAGGCAATAAAAAATAAAGTTTTTGAACCAACTGCAATGGCAATATCCACAATTAAAAATAATAAATTATCTAATAGAATAGTTTTATTAAAAGGTATAGAAAAAAATCATTTTGTTTTTTATACAAATTTAAATAGTCGTAAATCCAATGATTTGAAAAGAAATAATAATATAGCGGCAGTTTTTTGGTGGCCACAAATTGGTAAACAAGTAAGAATTGAAGGTAAGGTAACATTTGTAAATACAGAAGATGCTTCAAACTACTTTGCTACAAGATCAAGAAAAAGTCAGATTGGTGCATGGGCTTCTTCACAAAGTAAATTACTTAAAAACAGAAATATATTAATTAAAAGATTTAAAATTATTGAAAAACGATTCGCTAATAAAGATGTACCAAGACCGTCTTTTTGGTCTGGGTATAAAATAAAGCCTTATTTAATTGAATTTTGGCAAGGTAGAGAAAATAGACTTCATGATAGAATAGTTTATAAAAATATAAAAAAAAAGTGGAAAATTTACAGATTAAATCCTTAATAATTCTTTTAATAATTTCTTTTTTTATAAGTAATTGTTCAACTCAAATAAGAACATCTGAGTACAATAGTCCTAAAGTTGAAAATAAAGATTTTGATGAAAAATCTAATGTTATTAGTGAATTTACTGATATCCCAATTCCTAGTAATTCGATAGTTGATTTAGAAAAATCTTTTATTTTAGGTAAGGGTAATAATTGGATGGGTAGACTAGCATTAATTAATAAAAAAAATATTGATGAATTATATGATTTTTTTATTAATGAAATGAAAAAATTTTCTTATAAAGAAAAATCTTCAATAAGATCTAATGAAAATATATTAATTTTTGAAAATAAAATAAAAACTGTTTTTATAAAAATTTCTGAATTAAAATTTAAAAAATCTTATATTGAAATAACCTCAACACCTGTAAACTAATAATATGATAAAAAAATATATATTTTTATTACTTTTTTTTTTAATTTTTATTCAATTTAATGCTTTTTCTTTAGATGAAAAATTAAAAAATAAAAAAACTTTTGATAAATCTGAGATGGTAGACAAAGCAAAAATTTATTTTGCAGATTTATCTGAGGGTATTGGTATTATTATAGAAAGATCTTTTAATGATTTTGGTCAACCTACAGCCTATATTGAAGGAGAAGAATTTAGCGGAGCCTTTTTTGGCGGTTTAAGATATGGTGGTGGAAAAATTTATTTTAAAGATGGGACAAATAAAGATATTTATTGGAATGGACCCTCAATAGGTTTTGATTTGGGCGCAAATGCTTCTAAAGTATTTACACTAATTTATAATCTAGATCTTGCAAACATAAATAATATTTTTGTAAGGTTTCCTGATATAGAAGGTTCGTTTTTTTTAGCTGCTGGTTTAGCTATTAATTATCAAAAAAAAGATGATATAATTATAACACCTGTTAGATCTGGTATTGGATTAAGAGCAGGTGTTAATTTAGGATACACCAAATATAGCAAAAAAAGATCAATTATCCCATTTTAGTATGAAAATGATTTCAAATATTTTTAAGAAACTTAGTAATAATTTTTTTAAAGGTATTTTAATTAGTGCCCCAGTTATTATTACTTTATATATTGCATGGGCATTAATAAAATTTTTCGATAATAAAGCATCCCCTTTATTAGGCAAATTTCCATATGAAATCCCGGGTTTTGGTTTAATTACAGTATTCATATTTTTTGCTTTTATTGGTTTTTTGACAACAGGCTTGTTTGGTAGATTATTCTCGTCTTTTAGTGAAAAAATTCTATCTAAGATGCCTATATTAAGAAATATTTATAGTGGATTAAAGCAATTATTTGAAGCTATCCTATCAAAAAAATCTAATTCATTTCAAGAGGTCATTTTAATTGAATATCCTCGTAAAGGAATATGGGCTATGGGTTTTTTAACTGGTAATACTCGTGGAGAAGTTAATAGAAGAACAAGCAGTTCAATGGTAAATGTTTTTCTTCCTACAACTCCCAATCCAACATCTGGTTTTTTATTATTTCTTCCTAAAAAAGATATTATTAGACTTAGTATGTCAGTCGAAGATGGTATCAAAATGATTATATCTGCAGGAATGTTGACACCTAAAGAAAAACAAAAAAAAATAAAATCATTAAAAAAATTAGAAAAATAATTTTCAGGCTATAGAAATATATTTTAATGAACTACTTTGATTATAAATTCTTAAGTAGTTATTTATTTTTTCTCTTTCAAACTTATTAAATTTTTTTCTATTTAAAAAAATAGATTTAGCACTTTCTAATGCATTTTCCATAAGTTCTGTATCTGACATTGGGTCTAATATTTTAAATAATTGATTTCCAGATTGTTTTGTACCCAAAATTTCACCAAAACCTCTTAATTTTAGATCTTCTTCAGCAATCTTAAATCCATTACTATTTTTAATTAATGTTTTAATTCTTTTTTGAGATAATTCGTTTAATTTTTTTTTGTTATAAATTAAAATACAAAGTGAATCTTTATCAGATCTACCAACTCTTCCCCGTAGTTGATGTAATTGTGATAATCCAAATCTATTTGATTCTTCTATAATCATTATTGTCGCATTTGGAATATCAATACCCACTTCAACTATAGTTGTTGAAACTAATATTAATATTTCTTTTGATTTAAATTTTTTTATTATTTTTTCTTTTTCTTCTATGCTCATTTTTCCATGTATTAAACCAACTTTACCATCAAATTTTTTTTTTAATTTTTCAAATCTTTTTGTAGCCGCCATTAAATCATTTTTTTCAGATTCGTCTATTAATGGGCATATCCAAAATGCATTTAAGTTTTTTTTTATATTAACATTTAATGTTTTATAAATTTTTGATGTTTCAGACGATGATATTGCGATAGTTTCAATTTTTTTTCTATTAGATGGCATTTCATTTATTTTTGATAAATTCATGTTGCCATACATTGTTAATGCTAGTGTTCTGGGAATTGGAGTTGCTGTCATAACTAAAATATGAGGATTACAACCTTTTGCTGATAATTGAAATTTTTGATGTACACCAAATCTATGTTGTTCGTCAATTATTACATAAGTTAGATTTTTAAAATTTACATTTTTTTGAAAAATTGCGTGTGTGCCAATAATTATATTTATTTTTCCATTTTGAATCTCTCTATATATTTTTTCTTTCTCTTTTTTTTTTATTTTAGATGTTAATAGTTTAATTTTTATATCAGTATTTATTAATAATTTAGCAAAATAATTATAATGTTGAATTGCAAGAATTTCAGTTGGAACCATTAAAGCTCCCTGCATATTTTTTTTTGATAAATTTATCAAACTAATTAAAGCAACTATTGTTTTACCTGACCCCACATCTCCTTGCAATAATCTTAACATTGGATTTATATTATTAAGGTCTTTTTCTATTTCATTTATTACATTCAATTGAGAAGTTGTTAATTGAAAAGGGAGTTTTTTTATTATTTTATTTTTTATTTCATCATTTTTTTCAATTTTATTACAAATGTTTTTCTTTAATTTTTCTTTGGTTACTAATAATTTAATATAATGAGATAATGCTTCATCATAAGCCAATCTATCTCTTAGTTTTGTTATTTTTTCATTGTTAAGATTATTCGGTCTATGTATTTGTTCTACAGATTCCCTCCATGATAACCAGTTGTTTTCTTGTAATTTTTTTTTATCTATCCATTCAGGAATATCAATAATTTTTTCCAATGCTTGTTTTATTGATTTTCTATACATAGTCATAGTTAGACCTCCTGTTAAAGAATAAACAGAAAGCATGCCATGCAAATATGGAAGTTCTTCTAAATTTGAAATATTTTCAGGATGTATAATTTGAAATTTTTTTCCATTTTTATTTATTTTTCCACAAATTATTTTATTTTCTCCTACTGGTAATATTTTTTGTAAATACTTTAAATACCCTCTAAAAAATATTATTTCTATTTCATTTAATGTATTCTTACATAAGATTTTATAAGGCATTTTTGGATTAAATCTGGGTAAATGTTTAACTATATTTACTTCTATTGCTATTTCTTTATCTAAGTCTTTATTTGTTAGTTCTTTTATATGTTCTCTTTTTTTAAAACTTTTTGGCATAGTAAGTAATAAATCAATAATTTTATCTCCACAAATTTTTTGGAATAAATTTAATGTTTTAGGCCCAATTCCTTTTAAATTATCCATAGGTTCGAATAGTTGAGTTTTAGAAATTTCTGACATAATTAAATTTTTTTTTATAATATTTTAATATTAGATAGTTTATATTATTATGTTAAAAGAAAAGAAATTAGAGTTATCAATTAAAAGGAGGGAAGTTCTATTTAAATGCACACATAGAGGTACAAAAGAGTTAGATTTATTACTTGGTAACTATGTTAAAAAATATATCAATTTGATGAAATTAAAAGATTTAAATGATTTAGATACTATTTTAAATTTTCCAGATTTATATTTATTTAATGTTTTAACAGAAAAAAGTAAAGTAAATAAAAAAATGAATGTAAAATTAGTAAAAAAGATTATAAAGTTTAATAAAAACTTTAATAATTATAATTAAATAATTGATATTATTGAATATTTTTTAATATATAAAATAAAATTGAGATTTAACATTAAAATAGATTTTTAAATAACTGTATTTATTGAATTATTTTATATATGAAATTTTTAAAAAATATTTTTAACCCAGATCATATAATTAAGAAAAAGAACAATTCTTTAAAAAAAAAAGATCAATCAATAAATGAAATCACTAATACTTTAAAACCTATCCTAAAAGGAAATATTAATCTACAAAATGATTTGATCGACATAATTGATATTCCATTCGTTGTATTAAATCATAAAGATGAAGTTGTATATGTAAATTATTCAGCAAAAAAAAGGTTTAAATTGTTTTCAAGCCAAAAAATTACACATTTTTTTAGAAGACCAGAATTTTCTGAAAAGATAAGATTATTTAAAAAAAAGAATGTTAAATCTTCTGAATTTCAAATTGAATTATTTTCATTGCCATTTTCAGTTATGTATAACGTTAAATTATATAAAATATCAAATAAAAGAATTTTTTTGTCTTTTCAAGATATAACTGAACTTAATAAACTTGAAAATTTACGTTCAGATTTTATAGGAAATGTTAGTCATGAATTAAAAACACCATTGTCAGTTCTATTAAGTGTTATTGAATTATTACTTAATCAAAAAAAAATATCAGTTAATGAACGTAAACAATTTTTATCTATTCTTAATAATGAATCATTAAAAATGAAATCTATAATTGAAGATTTATTAAATTTAACAAAAATTGAATCTCAGATTAAAAAAAAGGTCAATGAAGAGGTCAATTTAAATGAAATCATTAAATCTTCTATAAAATCTTTAGGTACAAAAGCAAAAAAGAATAAAATTAGGATTAAATTTGTATCTAGGAAAATATTTATAATTAAAGGTGTTATAGATCAATTAAATCAGTTAGTTCAAAATATTTTAGATAATTCAATTAAATATGCATTTAAAAATTCCTTAATAAACATTGTTTTAAAAACTGATAAAAAATACATTTTTTTAATTTTTCAAGATCAAGGGAAGGGTATTCCTCAACATATAATACCAAGATTAACTGAAAGATTTTATAGAACAACAGAAGTTAAAAGTAAAAAAATAGAAGGATCTGGTCTTGGTCTAGCAATTGTAAAATATATTGTAATTAGACATCAAGCAAAATTAAAAATAAGCAGTGAATTAAATCTTGGTACTAAAATTGAGATAAAATTTTCAAAAAAATAATTTTTTAATCTATTTTAGGAACGGGAATTTTTTCAAGTGATTTGCCTCTTCCTGATAGACTTGGATTATTCATAAAATATTGGTGAGCTGAAAATTTTTTAATTTTATTATCAACAATTTTTTTATAATTTGATTTACTATCCATTATCCAAGATTGCTGATTATCTTTTAAATTAGCTAACATTATTTGATCTAAAATTTGTTGATGAACGGTTTTATTTGTAATTGGTAATAATAATTCTATACGACGATCTAAATTTCTTGGCATTAGATCTGCAGAAGATATAAATATTTTATTATTACGTGATGGCATTTTTTTTCCATTTCCAAAACAATAAATTCTTGAATGTTCTAAATATCGTCCAACAATAGATTTAACAGTGATATTTTCTGATATATTTTTTATTCCAGGTATTAAACAACAAATACCTCTGATAATAAGATTAATTTTTACATTATTTTTTGAAGCTTTACATAAAAGATTTATAATTTTTTGATCAACTAAACTATTAGCCTTTATCCATATTTCTGCTGGTAACTTTTTTTTAGCTAAATTTATTTCATTTTCAATTAATTCTTTAAAAGTATTTCTCATATTTATTGGTGAGTAATAAATATTTTTAATATTATTAGGCTTAATTAGGCTCGTCATGTAATTAAAAAATTTTCCTAATTCATTAGATATTTTTCTATTTGCGGTAAAGTATGATAAATCGCTATATATTTTTGATGTTATCGAATGATAATTTCCTGTTCCTACATGCGAGTATGTAATTAATTGTCCTTGCTCTTTTCTTATAACCTGAGCGAGTTTTGCATGTATTTTTGTTCTTGCATTGCTGTAAAAAACTTTAACACCAGATGATTGCATTTTATGTGCCCATTCTAAATTTTCCGCTTCATCAAATCTTGCTTTTAGTTCAATTAAAGCTATAACATTTTTTCCATTTTCCGCTGCCTCTATTAATGCATTTGCTATTTCTGATTGATTACCAATTCTATAAAAAGTTTGTTTTATAAGTAACACTTTAGGATCGTTTGCTGCTTGTTTAAGAAATCGAACAACAACTTCAAAAGTTTCATAAGGATGATGAATTACCAAACCCTTTTTTTTTATTGCAGCAAAACAGTCACCTTCAAATTCTTCAATTCTCTCTGGAAATCTAGGATGATAAGCAGTAAACAATAATTTTTCATCGTTTATTATTTCTATTAAATGACTTAAATTAGTAAAGCCAAGAAAGTTTTTTTTTATAATAAAATTTTCATTTTTTATATTCAATTGTTCAGTTATTTGATTAATACTTTGTTTATTTAAACCCATGTATGAAAAGGATACTATTTCACCTTGTTTTCTTTTTTTTAAAGATTTTTGAAGATGTTGTAACAAGTCATCTTCATCTGAATATTCAAGCTCACTATCTCTTATAATTCTGAATGCGCCAATATTAGTTATATTATTATTTGGAAATAAATTTTTGCAAAATGCTTCTATTACATTCTCTATAGCAATATATTTATTTAAATTACTAATTTTAATAAATCTTTTAATATTTGATGGAACTTGTATCAAAGACAATTTTTTTTTTTCTATATCCACAGAGATCACAAGTGCTTTATTGGCAATATATGGAAATGGATGATTTTTGAAAATACTTATAGGAGTTAATAATGGTTGGATTTCATTTAAAAAATAATCTTTTAACCAGGATCTATCTTTTTTTTTTAAATCTTTATAGGGATGCAAATAATATTTTTCTTTCTTTAATTGTTTTTTTAAAATTTCCCACGTTAACAATTGTTTTTTATGAATTTTTTTTAATCTACTTATTAGCAATTCTAAAAATTCATCATTATTAATTTTAAGAATTGTTTCAAATGGAATTTTTTCTAATAATAATCTATTTAAACCTGCGAAACGAACCATTTGAAATTCATCTAAATTATTTCCTGAAATTCCTAAAAATCTAATTCTTTCTAATAGTGGATTATTTTTATTGTTTGCTTCTTCTAATACTCTTTCATTAAATTTTAGCCATGATACATCTCTATCAACAAGATAATCATTATTACTATT
>sequence43
ATGAAGCTGGCATTTCAAAATTAGCTAATAAAAAAAAAATAATTAAATTATCATCAAACGAGGGAGCCTTTGGTATTAGTAATAAAGTAATTAAAAAATTAAAAGAATTTCAAAATCAATTTTTTAGATATCCAGATCCTCAAAGTAATAAATTAAAAAAAGCAATTTCAAAGAAATATAATTTAAATAAAAATAATATTATTTGTGGTAATGGGTCTGATGAAATTTTATCAACAATCGCCAAAATTTTTTCCGGACCTAAAGATGAAATTATTTATTCCGAACATGGTTTTTTAATGTATCCAATAATTACACAGCAGGTTGGAGCAAAAGGTATTAAAGTTAAGGATAATAATTATAAAAATTCTTTAAATAATTTTTATAAGGCGATTACAAAAAAAACTAAAATAATTTTTTTGGCTAATCCTAATAATCCAACTGGAACATATTTAAATAAAGAAGAGTTAAAAAAATTTGTTAAAATTCTACCAAAAAGAGTTTTGTTAGTTATAGATGCTGCTTATGCTGAATATGCTCTAAATAATGATTATACTGCTGGTGAAGAAATTGTTAAAAATAATAGTAATGTAATTATGACTAGAACATTTTCAAAAATATATGGGTTAGCGGGTTTAAGAATAGGTTGGGCATATTGTTCAAAAAATATAGCAGATGTATATAACAAAATAAGACTACCTTTTAATATAAATAAAGCTGCTATTGAAGCTGGGGTTGCTGCGTTAGAAGATAAACAGTTTTCTATTAAATCTATAAAACATAATAAGTATTATTTGAATTGGTTAAAAAATGAGATTAGTAAATTAGGTTTAGTTTCAATTCCTAGTATAGCCAATTTTTTATTAATTAAATTTCCAAATAAAGGAAAATTTACAGCTAAAAAAGTAAATAAATTTCTTTTATCAAAAGGAATTATTTTGAGAAGTGTTGATAATTATGGCCTTAAAGATTTTTTAAGAGTTTCTATTGGAAAAAAAAATGAATTAAGAGAATTAATAAGAATTTTAAAAATTTACTTTAAAAAAAAATAATGTTTTCTATTTAGAGTAAATGAATTTATTTAAACAAACAACTTTAATTGGAATTGGTTTAATTGGCTCTTCAATAGCTCGAGCTTTAAAAAAAAAGAAATTAAGTAAAAAAATTAATATCTTTACTAGATCAATAAAAACACTTAATCAAGCTAAAAAGTTAAAATTAGGGGATTTTTATACAAATAAAATAGAAGAAAGTGTAAAAAATAGTGATTTAATTATCATTTGCACTCCCTTATCAACATATAAAAATATTTTAAATAAAATTTTAAAATATATTGATAAAGATGCAATTCTAACAGATGTAGGTTCAGTAAAATAGAAAGTAGCAAAAATTTTTTCACAATTAAAAAAAAAAGATTTACATTTAATTCCAGCACACCCTATTGCAGGCACAGAAAATTCAGGACCAAATGCAGGATTTGCAGAATTATTTAATAAACGATGGTGTGTATTAACTCCTATTGGAAGAAATAATAAACAATCTTTAATTAAAATAAAAAAATTATGGAATAAATTTGGTTCAAAAGTTCAAATAATGAGTGTTAATGATCATGATAAAATTCTGTCATTAACTTCTCATATGCCTCATTTGATATCTTATTCAATCGTTTCATCCGTATTAAATGTTAGCACTAAAGAAAAATCGCAAATAGTAAAATTTTCAGCTGGTGGTTTTAGAGATTTTACTAGAATTGCAGCGTCTGACGCAACTATGTGGAAAGATATTTTTTTAGATAATAAAACTAATTTATTAAAAATTACAAAACAATTTGAAAAATCATTAAATTTAATAAAAAAATATATTAAAGAAAATAATTCTAAAAAATTGTATGAAATATTTTTAGAGACAAAAAAAATAAGAAAATTAATAGAAAAAGAGAAACAAGATTAAAAATTACATTAATTTTTGTATTTTCTTTCTAAAAAAACCTGGATTTAAACCTGGCTCTATAGGTTTTAAAAATTCAATTTTTATTTTTCCAGGATATTTTATAAATTTATTTTTTCCCCAAAAATAACCAGAATTTACTTTTATAGGAATTACTTTTACATCTAAATGTTTATATAAGGTAATTATTCCTGATTGTATTTTTATTTTGGATTGAGGCTTAACTCTTGTTCCATGTGGAAATATTAAAACGGATCTTTTATCTTTCATTGCAAATTTTGTTTTATTAATAATTTTTTTTAAACTATTAGCTCCTTTCTTTCTGGATATTATTACCATACCTAATTTAAATAAATGCCATCCAAATACAGGAATAAATAATAATGATCTTTTGTGTAATATAATACAATCACCGATTAAATATGGTAAAATGATCGTGTCCCATGCTGATTGATGCTGTGAAGCATATATAGCATTTTTATTAATACAAATATTTTTTTCGCCTTTTATTTCATATTCAAGTTTAATTATTTTTTTAAGTAAATATTTACTACCTTTTATCCATAAAAACCATATTTTAACATCATATTTCCTATTTATAAAAAATACTGGAAAACTAAAAAAACCAAAGAAAAAAGTCCAAATATAAAATAATATATTAAAAATTAAAGATCTAAAAAAAATTATCATTTCTATAAAAAAATATTAAATAACGTTTAATATAAGATATAAAATTTTAATTTTGAAAATATTTTAATGATTATTAATTGTCCGAAATGTAAAACAAAATATTCCATTAATCAAAATATTTTAAATAAAAAAGTAAAATGTTCTGAATGTGGATATATTTGGATTGAAAAAAAAGAAAAAAAAATACTAAAAGAAAAAAAGGTAAATTCAACAGATCGAATAATTAATGAAAACTTTGATTATAAAGAAAATATTTTTAAAAAAGAAAAGAAAAAAAAAAATCTTACTTTTTATTTTATATTATTTTTAATTTTAATTTTGTTAATTTTTTTTAATTTTAATTTTTTAAAAGAAAAATTTGATAAATATTTATCGAAATTTACAATTGGACAAATTTTTAAAGAAGATAATAATCAAATCTTACAAGATTTAATTTTTAATCAAATTGAAAAAGAAATAAGTGTTTTAAATAACAATAATAAAGTTGTAAAAATTTCAGGAAAAATTATTAATAAATCTAATACAGAAAATTATAAGCTTCCTTTGTTAAAGGCAAGTCTATTGGATAGTAAAAATAATCTTTTAAGCAGTTGGGAATTTACTACTAAATATAAAACTATAGCACCTGAAGAAACTATAAATTTTAATACTAGCTATATTGAAAATAGTGAAAATATATCTGATATAAAAATAGAATTTCTTAATTATGACAATTAACAAATTAGGTAAAACTGCAGTAATATCTATATATCCTGGAATAGGAGATATAGTTTGGCATTTACCATTTTTGAGAGCAATTGCTAATAATTCATATAAAAAAAAAATATATTTATTTACTAGAAAAACAACTTTAGCAAAAGAAATTTTAAAATATGACAAAAATATATCTAAAGTTTTTTATTTAAATGATAGCAGGCAATTTTTTAATACTGTTTATTATTTTCCTAAAATAGTTTCTTTTTTAAAAAAAATGGATTTTAAAACTATATGGATATTTCATAGAAGTCCTCGATACGCAATTGCTGCAAGATTAGCTAAAATTAAAAATATATATGGATTTGGATTAGGAGCTCAAAGAATATGGCTAACAACAAAAAAAAATATTGGAATTAATTCCAAAAAAAAAAATAATATTTTTAAAGCAAAAAAATTATTAGATATTCATAATATAAATTCTGAATCAAACTTTAAATTAAAAATTCCAGAGCCTGTTATAAAAAAAAATCTGAGTAAATTTAAAAATTTAATTAAACCTTGGATAACAATAGGATTTTCTTGTAACAAAACAGCCTTTTTAAAAAATAATTTGCCTTATTCATTTTATAGAACTTGGAGACCTGAATATTTTTCAAAATTAATTGATTTAATAATTAATAAAAATAAAAAAAAAACAATTTTTTTGATTGGTGCTAAAAATGAAAAAAATTTAGCAAAAAAAATTGTATCTAAATGTAAAATAAAAAAAAATATTATTATTTCTTGTAAACCAATAATAGTTAATTTATCAATTTTATCTAAAACAAAGTGTTTTATAGGAAATGATTCTGGTCCGTTAAATCTTGCTGGTGCAATGGGAATAAATTCTTTTGGTTTGTTTGGTGCCTCTCCACCCTTAAAAAATGTCAATAATATCAATGCTATAGTACCTCCAGGTGGACCAGTTGACCCTCATAAGTTTGGTTTTAATCCAATTTCTTTAGAAGAAGGAATGGACTTAATAAAACCAGATTATGTTTATGAAAAAATTAAAAAATTTATTTAATATTTTTTATCCAAGAAGGTATCTTTTCTTTAGATATTTGATTTTCTACAATCTCTTTTTTTCTAATTATTGAATATTTTTTTTTATTAACAATTAATTCCATAATAATAGGACGAGTATTATATGAAGAAGACATAGAAGCACCGTACGCACCTACATTATTAAAAAATAAAAAATCGTTATTATTAATTTTATTTAATAATTTTTTTTTCTGAAAAGTATCAGCTGTTTCACAAATCGGTCCAGCGATAGTATATAATTTTTTAGGTCCTTTTTTTTTAGTAGTACATTGAACATTATGATTTGCATTATATAAAGCCGGCCTCATAAAATCATTCATACCAGCATCAATAATTATAAATGTATTTTTTTTATTTTCTTTAATGTATAAAACTTTTGAAACTAATATACCAGTATCTGCAACAATTATTCTTCCTGGTTCAAGTATTAATTTACAATCTATATCTTTGATAATTTCAGTAATAATTTTTGAGTACTTATTAAAATTTATTACTTTTTCATTATTATAATTTATTCCAATTCCACCACCTAAATCTAAATATTTAATTATTTTTTTTTTTTTATTAATTTTTTTTATTAAATTTTTAATAATTAAAAAAGCTTTTTTATAAGGTGTTAGTGAGGTTATCTGAGAACCAATATGTATTGATAAACCAAAAAGTTTTATATTATTATTGTTTTGATATTTTTTAATAATTTTTTCTGTAGTTTTAATATCTATACCAAATTTATCTTCGTCTCTACCTGTTGTAATTTTTTTATGTGTTTTGGCATCAATATTAGGATTTACTCTAATTCCAATTTGTACTTTTTTTTTTAATTTTTTTGAAATTTTTTCAATTAAATTTATTTCTTCAAAAGATTCTACATTTATTTGTAAAATGTTTTTATTTATTGCAAATTCTAGTTCTTTATATGTTTTGCCAACACCAGAAAATATAATTTTTTTTGGATTTATATTTGCTTTTATAGATCTTTTAAGTTCACCTTCGGAAACTACTTCAGCTCCACAACCACATTTTGATAAAATTTTAAGTAGCGCAATATTAGGATTAGCTTTTACTGCATAACAAATAATTGGATCTAAATTTTTAAAATATTTTTCAAAATTTTTATAATTTTCTATTAATTTATTTGTTGAATAACAATAGAAGGGTGTTGAAAATTTATTTAATAATTTTTTTATTGATATATTTTCAATAAATAAATCATTTTTTTTAAATTTAAAACTATTCACTTGGATATTCCCTCGGGTAACTTTTTTCAGGTTTTTCTAAATCACCTTTTTTTCCACAACTTACAGTTGAGATTACAATTATTAAAATAAAAATTATATATGAAAAAAATTTCATTATTTAAAATAATTAATAAATTTCTTTTTTAGCTATTTTTATTGCTTTTTTAATTTCATTAGGGGAAGTGCTTCCCATACTTTTTTTATAAAAAATAGAATTTTCAATATTTAAAAATTTCTTAATTTTTTCCCCTGAATTTTTATTTATTAAATTTAATTCATTTATAGTTAAATCATTTATTTGACAATTCTTTTTATTTGCTAAACCAACAATTTTAGCAATTATTTTATATGCTTCTCTAAATGATATATTATGATTCATTACTAGCCAATCAGCCAAATCCGTTGCCATTAAATTACCCTTTTTACATGCATTTAACATAATATTTTTATTTATTTTCATATTTTTCATAATTCCCGAAGTTACTTTAATAATTAAATTTAAATTATCAAAACTATCAAATACAGGTTCCTTATCCTCCTGCAAATCCTTGCTGTAAGTTAGAGGCAATGCTTTTAATGTAGTTATAAGATTTAAAAAATTTGCAGAGAATTTTCCCATTTTTCCTCTTATTAATTCAGCAGAGTCTGGATTTTTTTTCTGTGGCATTATTGAGCTTCCAGTTGAAAAATCATCTGATAAATTAATAAAATTAAAATTATCACTAGACCAAATTACAATATCTTCAGCTAATCTTGATAAGTGAGATGCGCAGATTGTTGCATTTGATAAAAATTCTAGTGCAAAATCTCTATCAGAGACACTATCCATAGAATTCATTGTAGGTTTTTTAAAACCTAAAAGTTTAGATGTAAAATTTCTATCAATATTAAATGATGTTCCTGCTAAAGCAGCAGATCCTAAAGGGCATTCATTAATTCTATCTATACTTTTAGTAAATCTGTCCTTATCTCTTTTTAACATTTCATAATATGCCATTAAATAATGGGCAAAACTTATTATTTGTGCAGATTGTAAATGAGTAAATCCTGGCATAATAGTTTTTACATTTAAACTTGCTTTTTTTATAAGAATTTTTTGTAAATTTTTAATTTCAACATTAATTTTTTTTATAGCTTCAATAATCCATAATTTAAAATCTGTTACTACTTGATCATTTCTAGATCTTGCGGTGTGTAATTTTCCCGCGACATTACCAATTATTTTATGTAATTCCATTTCAATATTCATATGGATATCTTCGTATTTTTTTTTAAAAATAAATTTATTTTTTTCAATCATTTTTTTAATTTTTTCTAATCCTTTAATTATAGATTTATAATCACTTGTAGTAATAATCTTTTGTTTTTTTAACATTAAACAGTGCACTTTAGAGCTTTTTATGTCTTGCATAGCTAATCTTTTATCAAAATCAATAGATGAATTAATCTCTTCTAATAAAGGATCACTTTGTTTATTAAAATTTGTCCCCCAAATAGGGTTACTTTTTTTTTTATTTTTTTTCATTATATTTTTGTTCAATAGATAATATACTTTTTTAATGTTAAAAGCTTTTTCTATGAAATTTTTTTTTATAATTATATTAATTATATTAACACCAATATCTTTTATATCTTACAGCTACAGTGAAGAAGATATAAATAAATATTTAAATAATGAATTACAGGACTTAGAGCTTAATAGAGAAAAAATAAATATTTCTAATTTAGTATTTAAGAATCATGAAGGCCAAGAAATTAGGTTTTCTAATTTTAAAAATAAAATATTATTAGTTAATTTTTGGGCTACTTGGTGTGTTCCTTGTATTAAAGAAATGCCTTCTTTAGATAGATTAAAATCAAAATTTGATGAAAATTTTGATGTAATTGCAATTTCTATTGATAGAGATGGAGTGAAAAAAGTAAGTAATTTTTTTGAAGAGAATAAAATTATATATTTGAATAAATTTTTTGATATTAAGAATTCTGTTTCAAAAGAAATGAATTTGTTTGGAGTGCCAACAACTTTCTTTATTAATAAAAAGGGTGAAATTATTGGCTCATACCAAGGTGATATGGAATGGGATAATGATACAGTTGTTAAATTTATTGAATATTTAATTA
>sequence44
ATCTAGATATGGACGGCAAAAAAAAAGATAGCGATATTGTCATTCAAGAAAAAGGTGCAATGATAATTATAGATAAAAGTTCTATAAATTTGTTAGAAGGTTCTGAACTAGACTTTGTTGATGATCTAGTCGGATCTCGTTTTAAAATCAATAACCCTAAGGCATCATCATCCTGCGGTTGCGGAAGCTCATTTTCTTTATAATAATATATAAATGTCAAAAGTTCGTATCGCTTCATGGAATGTAAATTCTATAAGAGCTAGATTTGATGTATTATCTAAATGGCTGAAAAAAAAACAATACGAAATTATTTTTATTCAAGAAACTAAAGTTCAAGATCATGAATTTCCAATTGATGATATTAAAAATATTGGTTATGAAGTAATTTTTTCTGGTCAAAAATCATATAACGGAGTTGCAATTCTTTCCAAAGAAAAAATTAAGTTAATTGATAAAACTTTACCTGGTGAAAAAAGTGACGAGCAGGCTAGATTTATTACATCAAAAATTAATGGTATAGAATTAATATGTATTTATTTACCTAATGGAAATCCAATAGACACTGATAAATTTCCTTACAAATTAAAATGGATGGAAAGATTAACGAATTATATAAAAAAAAATCTTGATGAAAATAAAAAATTTATTTTAGCTGGTGATTTTAATGTTATTCCAAAAGAAATTGATGTTCATAACCCTGAATCTTGGACAAATGATGCATTATTTCATGAAGATACACTTAAAAGATTTTGGTCTATGATGAATCTTGGATTAACTGATGCTTATAGAGCTATAAATGGTGAAAAAGTAGAATATACTTTTTTTGATTATAAAAGAAAAACTAATTTTGAAAATAATAAAGGGCTTAGAATAGATCACTTTCTTCTTCCCCCTTCCATGGTGGATAAATTAGATAAATGTTATATCGATAGCAAGTTAAGAGGTTTAGAAAAACCCTCAGATCACGTACCAATAGTTTGTGAATTTAATTATAATATAAAATAATTGTTATGGAATTAAGTTTGGAAAAAATCTTATGGATTTTAGTTTTTTTAGATAGTCTCTCGACAAATATTATCGTATGGTTTTTTCCTCATTGGTATGAAAAAAAATTCAGCAAAATATCAAAATATTTCCCAGCAACTAAAGGCTGGAGTACATGGTATCTAATTTTAGTACTATGGATAGGTTATGCCTTGTTTAGAATCTAAATTTCTGAAAAAGTATGAGTTTCTGTTTTAGCGCCAGGATGTGTTACAGCGCCTTTGTAAGCATCACCAACATTTTTGGTATAACGCCACAAAGATCCTGATTGAAAATAATTTTTTCTAGCTTTCCACCTTTTTTTTCTTTTAGCTAATTCTTTTTTATTTACTAATAAATTAATTATTCCTTTTTTTGCATCTAAATGAATCTTATCTCCATTTTTTATAAGTGCGATAGTACCTCCTACTGCTGCTTCCGGTCCAACATGACCAACACAAAAACCTCTTGTTGCACCTGAAAATCTTCCATCAGTAATTAATGCAACTTTATCTCCCATACCTTGTCCATAAATTGCTGCAGTTGTAGATAACATTTCTCTCATACCAGGGCCACCTCGTGGTCCTTCGTAACGTATTACTATAACGTCTCCTGCTTTGTATTTCTTCTTTTGTACTGCCTTAAAAGCATCCTCTTCGCAATCAAAACATCTAGCATTACCAATAAATTCCAAATTATCCATTCCAGCTATTTTTACAACGGCTCCTTGTGATGCTAAAGATCCTTTTAAAACAACAACGCCACTACTTTCGCTGATTGGATTCTTTGTTTCCATAACAACATCTTGATTTTTTGGAAATTTTACTCCTTTTAAATTTTGCGCAATTGTTTTTCCTGTTACTGTTATACAATTTTTATGTAAATATCCACCATCTAACAATGCTTTCATTAATATAGGAACACCTCCTATATCATATAAATCTTTAGCAACATATTTTCCACTGGGTTTCATGCTAGCTATATAGGGAGTTGTTTTAAATACTTTCATCACATCAAATAAATCAAATTTAATTCCTGCTTCATGTGCTATTGCTGGCAAATGCAAAGCGGCATTTGTTGAGCCTCCTGATGCAGCAACAATTCGTGTAGCATTTTCTAAAGATTTTCTTGTTATTATGTCTCTTGGCTTTGGCCCATTTTTAATTAATTGCATAATTGTTTTACCAGCAAGTTTTGCTGTAATTTCTCTTTCTTTAAATGTTGCAGGTATCGCTGACGTTCCAGGTAATGCAAGTCCTATTGCTTCTGCAACACATGCCATTGTATTTGCAGTAAACTGACCACCGCATGACCCTGCAGATGGACAGGCAACTTTTTCTAATGCGTACAAATCAGATTTTTTTATTTTACCAGAAGCATATTCTCCAACTGCTTCAAATATATCCTGAACAGTTACTTGTTTTCCCCTAAATTTACCAGGAAGTATGGATCCTCCATACATAAAAATAGATGGTAAATTTAATCTAGCCATTACCATCATTAATCCTGGTAAAGATTTATCACATCCTGCTACTCCAACTATCGCATCATAACAATGTCCTCTAACTGTTAATTCTACTGAATCAGCAATTACTTCCCTACTAACTAATGAAGATTTCATTCCTGGATGGCCCATTGCTATGCCATCTGTTACTGTTATTGTAGTAAATTCTCTTGGAGTACCGCCTGCTTCTGTAACTCCTTTCTTAACAAATTTTGTTTGGCCCATTAATGATATATTACAAGGTGCTGCCTCATTCCATGTTGAAACAACTCCGACAAACGGTCTGTTTATTTCCTTTTCCTTTAGACCCATTGCATAGTAATATGATCTATGAGGAGCCCTTTCAGGTCCTTTTGAAACCAGTCTACTGACTAAATTATTTTTTTTATATTTTGTTTTCATTTAATTTGTTGAAATATTTTTTTTTGCCTCTTCAAGTTTTGTTAATGTTTTTTTATAATTTAAAAAAATATCTTTTTGTTTTTTTACCACATTTGATGGGGCATTCTTTATAAAATCATTATTTTCTAACATTTTATTTATTTTATTAATTTCCATTTTAATTTTTTCAATTTGTTCTAAGATTCTTTTTTCTTCATCCTTTAAATCAATAATATCTGAAACATCGAGAAAAAAAGTTGTTTTATCACAAATAAATTGCAAAATATTTTTACTTTTTAATTCTTTAATTTCAACTCTTGCCATTCTTAATAAAAAAGAACTATACTTATTTAATATAAGCTCTTTATCTTTTTTTAAATCTTTAAATGATAAAATTAAAATAGCTTTTGCTGGAATTCTTACACTTGTTCTAACAGTTCTGATTTGAGAAATTAACTCAACAATCCAGTCTATTTCTTTTTTTGCTTCATTTGACGAACTTATATTATTAAATTCAGGCCATTTATAATCTAATTTTTCATTATTATAAATCTGTGATCTTAACTCTCTGGATAAAAAAGGCATAAAAGGGTAGATCAAAATTAAAATATTATCTAGAGTCCAAATTATCGTGTTCTTTGTTTCATCAATTAATTTTTTATCGTCACTATTAAGAATTGGTTTTGTAAATTCTAGATACCAATCACAGAAAGTGCCCCAAATAAATTTATAAATATTATTTGATGCTTCATTGAATTTATACTGTTCAATTTCAATACTTATATTATTTTTTAACTTAATTAATGAATTAATAATCCATTTATTAACAACATTATTAACTTTTTCTGGTTTAAAAGATTTATTTATCTTACATTCATTTAACAAAATATATCTACTGGCATTCCATATTTTTGTTGCAAAATTTCTTGAAGATTGCACTTTTTGTTCACTTAACTTAATATCCCTACCAGGAGATGCTAATGATGAAAGTGTAAATCTTAATGCATCAGTTCCATACTTATTGGTTAAATCAAGAGGATCTATTACATTTCCTTTTGATTTAGACATTTTTTGTCCCTTTTCATCCCTTATAAGAGCATGGATATAAACTTCCTTAAATGGCGGTTTATTTGTAAAAAATAAACCCATCATAATCATCCTTGCAACCCAAAAGAAAATAATATCAAATCCTGTTATTAATAAGTTTGTAGGGTAAAAATTATTAAACTCTTTTGTTTCATTAGGCCATCCTAAAGTTGAAAACGGCCATAAAGAAGATGAAAACCAAGTATCCAAAACATCTTGATCTTGGATTAATTTTACTTTTTTTTTATAAAATTTTTTGGCTTTTGTTAATGCATCATTTTCATCCATTGCAGCAAATGCATGTTTATCCGGACCATACCAAACAGGTATTTTATGTCCCCACCAAATTTGTCTTGAAATACACCAAGGTTGTATATTTTCTAACCAATCAAAATAAGTTTTTTCCCACGATTTTGGTAAAAAGGAAATTTTTTTTTCCTTAACAACTTTTATAGCATCTTTAGATAATTTTTTTGCATCTACAAACCATTGATCTGTTAAAAAAGGTTCTAAAATTTCACCAGATCTGTCACCAAAAGGAATGGTGTATTTATGTTTTTCTTTTTTTTCATATAAACCAAATTTTTTAAAATCTTCAATAATCTTTTCTCTAGCTTTTAATCTATTAAGTCCCTGATAATCTTTTGGCACAGAGTCATTAAGATTTCCTTCTTTAGTAAAAATATTTATAGACTTAAGTTTATGACGTAATCCAACTTCGAAATCATTAAAATCATGTGCAGGTGTTATTTTTACAGCACCACTACCTTTTTCAGGATCAGCATGCTCATCTAAAATCAAAGGTATTTCTTTATTAAGAATAGGTAAAATAATTTTATCACCGTGAAATTTATTAAATCTTTTATCTTCAGGATGTACTGCGACTGCAGTATCGCCTAACATAGTTTCTGGTCTTGTAGTAGCGATTGTAATAAAACAATTCTTATTTTTTTTAAGTGGATATTTTAAAAAATATAAAAAACCGTCAATATCTTTATTTTCAACTTCAAGATCTGAAACTGCTGTTTGTAATTTTATATCCCAATTTATTAATCTTTTTTCTTTAAAAATCATTTTTTTTTCAAATAAATCTATAAAAACTTTTTTTACAACGTTAGAAAGTCCTTCATCCATTGTGAATCTTTCTCGAGTCCAATCTGCAGATACTCCTAATTGTCTCATTTGTGAAACTATTTGATTTCCTGATTTATTTTTCCATTCCCAGACCTTTTTGATAAAATTTTCTTTTCCAATGGAAAATCTATTCTTATTTTTTTTCTCTAATTCTTTTTCAACAACAATTTGCGTTGCAATACCAGCATGATCAGTTCCTGGTTGCCAAAGTACACTAAAATTATTTAATCTTTTATACCTAACAATAACATCTTGAAGAGTGAAATTTAACGCATGTCCCATATGTAATACACCAGTTACATTTGGTGGTGGCATCATAATACAAAAATTTTTTTTCGTAGAATTAATATCAGGAGAAAAAATTCCCATTTTTTCTTCTAAGTTATAATTTTTATTATCTATTTTTTTTGGATCAAAAGTTTTATCCAACATTTTTTTTATGAAATAAAATTTAGATAATTATAAACTAAATGTATAAATCTTTTAAAGATAATTCACCTATATCAGCTTTTAATTTTAGTGCAGAAAAAATATAATCTTTTGTAATATTAATTCTATTAAATTCAGCGTCTATTAAATTTTCTTTACTTTGTAAAACATCAATTAAAGATTTCAAACCTATTTTATATTCTTGTTGAACACCATCTAAAATTAATTTTCTTGCTTCTATATTAATATTTGCGGATTTCAACAATGTTTCATTTGTTTTAAAATCTGACCAAGATTTACTTATATTTTGAGTTACTTCATTTTTTTTACTTTCTAATTCATATCTAACCTGTTTTGCAATTATTTTGGCTTGTTTTATTTTTGATAAATTTTTTCCACCTTTAAATATAGGTATGTTAACAGTTGCTGTTATTTCAGCCTTATCTGATGAACTTCCTTTAGAAGTTTTATCATCAGACATTTGATATTCTGCATCTAATTTTACATTTGGCATTACTTCCGAAAAATTTGATTTTACATCAGCAATTGCAATTTGTTCTTTAAGATTAATTATATTTAAATCAGGATTTTTTTGTAAAGCTATGCCCATAGCATCATTAAAACTTTTGGGAAATATTAAATTATCTATATTTGGTTCTGTAAAAACAACATTTGGTAAAGGATCACCAACTATTTCTTTATAATTAATTTTCGAAACATTATATAAATTTAAAGATGCAACTTTCTGAGCTGTAGTTTCAACTAATTTAGATTGAGCAAAAACTAAGTCTGATTGTGAAGCAGAACCAACATTAACTAGTAATTCAACAGATTTAAGATCATTAGTGAGTTTATTTTCTTTTAAATTATTTAATTCAATTAATTTCTTATTTTGCAGAACTTCCAGATAAGCAAAGGCAGCTTGAAGCATTATGTCATATTTTACTAATCTAAGATTTTCTTCTTCTAAATTAAGTTTTTTTTTTGCTTTTAATAATTCTGCTGAAAGTTTACCGCCAGTATATAATTCCTGTTCTAGATTAATAGAAAAATCCTGAGGACTTCTTTCAGAATTAGAATTTGTTGTAGAACCTGATGAATCATCTTTAACATAACCCTTACTTAAACTTAAATCAATAGTAGGATAAATTGATGCATAAATTTGTTTAAGATCCTCTTTTGATGCTTCAACAGCACTTATCTGCATTTTTATTTTTGGATTATAATTTAATGCTTTTCCAATTACTTCAAAAATATTTATTTCATCATTAATTAAATCATTTTCTGGATCTGAATTTACGTTTATAAAATCATCATAATCTTTTTTGAATTCTTTTTTTTCTGATTTCAATATTAAATTTTTTTTTTGAAAATTATTGTCTTTATTAAAAGCAATTTGTTCTTTATTAGAAACTATTTGTTCTTTTTCATTAATTTTTTTTATTTTCGAATCATTAATTACAGAAATTAATACAGGTTGTTTAATTGGCCTATATCTGATATTTAATTTAGCTAAATCTATTTCTTTGATAGTAAAATTTCTCTTTGTAGGAATATTATTCAAATTTAGCCTTATATATCCATATTTAGCAACATCATTATTCTTTAAAAAGGATAAAAAATTGTCTTTTTTGAAAGGTATTAAGGAAAATAAAAAAATAAAAAAAAATAGTCTCATAAAGATATTATATCCTTATTAAAAAAATAAAAAAAAAACAAAAAAATTACAGTGTTAATGTCTTTTTTTTATTTACAAATTCATTTAAAATTGGAGTGTGAGCTGAAATAAAGGAATGATTTAAAATAATTTTTTTATTTTTTTTAAAA
>sequence45
CAAAAAAATTTTGGGTAATTGATCGTTTTATAATAAATTCCTTATAAAATATTTTAAAAAAAAAATTTTTAAATAATTAAAATAAAAAAAAAGTAAAAAAAATTTTAAAAAAAAAAATTAAAATATACCTTAATGGTTTAATTAAAAGAAAAAAAAAAAAGAAATAATATTTTATGAACAAAAACTAAAAAAATATGAATAAAAAAGAAATTAATATTGTGATTGCTATGAAGTCTGAAGCAAAACCTTTAATAAATTATTGGAAATTAAAAAAAATTAATAATACAAGTGGGATTTATACAGATAAAAAAAAAAAAATAAATTTAATTATTTCAGGAATAGGTAAAAAAAAAGTTAAAGAAGCAACAAATGTTTTGGCTAAAAAAAATTCAAATTCCTTTTTTTTAAATATAGGCATAGGAGGACATAGAGATTTGAAATTAGGTGAAATAATATTAGCTTCTAAAATAACTGATAATAAAACTAATTATAATTGGTATCCATCTCTACTTTGGAAAACAAAAATAAAAAAGAGTTCTTTAATTACTGTTAGATTTCCAAAAATAATATATAAACCAAATATTGTTTATGATATGGAGGCTTCAAGTTTTTTAAAAACGGCTAGAAGTTTTGTTGGTCCCGAAAAAGTGCAAGTTATAAAAATAATTTCTGATAATAAAGATAATTCTATTTTAACAATTTCTTCAAAAAAAATTGAATATTGGATAGAAAAGAAAATTGTTATTATTAATAAATTAGTTAATGAATTTTTAAAAATTTAAAAAATGATTGAAACTATTTATATAGAAAATCAAATAAAATCACATTTTCGAACAAAATTAATATTAGCAAAATTTAGAAAAAAGATTGATATAATTTATTGTGATCATTATGGTGAGATTTTTAATATAAAATCACAAAATTTTAGATTACAAAAAAGAAAGCCCGCTTTAATTTTAGCAAAAAAAATAGGTACAAAATTACATTCAATACCTAAAAATTTTACTATTGGGGGTAAAAAAAATTATTATTTTTCCCACATGTTAAACTGTATTTATGATTGTGAATATTGTTTTTTACAAGGAAAACATATGTCTGCCCACTATCTTTTATTTGTTAATTATGAAGATTTTGCATTAGAAATTAAAAAAGAAATAAAAAAAAATAATGAAAAAATATATTTTTTTTCTGGATATGACTGTGATTCATTGGCTCTAGATGAAATTACTGGTTTTGTAGATTTTTTTTTCCCTATTTTTAAAGAAAAAAAAAATTCATTTTTAGAATTAAGAACAAAAAGTACACAAATAAATAAAATTTTAAAACATGAACCTATTGATAATTGTATAATTGCTTTTAGTTTTACACCTGAAAATATTTCAAATTTAATTGAAAATAAGGTTCCTTCTGTTAAAAAAAGGATTAATGCTATGAAAAAATTAGCAGATAAAGGATGGAAAATTGGCTTAAGATTTGACCCAATTATCCCAGCATGTGATTTTACTATTATTTATGAGAAATTAATAAAAGAAATTTCATTAGTTATTCCTAAAGAAAATATCCATTCTATTACTTTTGGTATGATGAGATTTCCTATTAAAATGTTTAAAAAAATTAAAAAAGAATCTATTAATAATAGGATTAAGACAATACCAATGGAAAATAAAAATGGTATTTATTCATATCCACAGAATCTAGAAAAAAAGTTAAGTAAATTTCTTTTTAAAATTTTTAAAAAATATTTAGATGGAATACCGATTTATAATTGTAGTATTTAATTTTTTTTATTTTTTTCTGCTTCAACATTTTTTTGGTATAGAGCAGCAAAATCAATAGGATTCAACATTAAAGGGGGATACCCGCCATCTCTAGTAGTTTCTGCTAAAACATTCCTGGCAAATGGAAATAACATTCTAGGCGCTTCAATTAATAACAATGGTTTTTGATGTTCTTCCGGAACTTGATTTAATGTAAATATTCCTGCATAACTAACTTCTGCTATAAACGCTACTTTACCTTTTTTTTTAGCTTCTGTTTTTAAGTCTAAAGTAACTTCAAATGCATTTTCAGGCAATTTTTTTACTGCCGTATTAACATTTACAGCTATATCAGGCTTATCATTATTTTTATATGCATCAAGTGGATTTGGATTTTCAAAAGATAAATCTTTTAAATATTGAGCATTTATAAATAATCCTGGAGGAGCATTCTCAGGAACGGAGCCAGCTTTTTTTTCTATTTTTTTTGCCATTTTTATATTGTTTTAGCATATTAAACATAGGGTTAAAAAAAGCTACTTTTTTTTTTTGTCTGATTCTTTTATTTCTTCGAAATCACCCTCAACAATTTTTTCTTCTTTATTTTGATTTTTGTAAATATCAAAATTTTCTTTATACGATGTTTTTTTTTTTAAATATGTAACATAATAATTAATAATTATATTTCTTGTCTTTGGAATTAATAAAACACAACCTAAAATATCTGTTAAAAAACCTGGAGTTAGTAAAAAAGCCCCTGCAATTAAAATAGCTATGCCTTCAAATATTGAAAATATTGGTATTTTATTAGATTTAATCTCTAGTAAAGCATTGTTTAAAGTGCTGATTCCTTGTTTTTTGACTAAAAATGCTCCAATTATTCCAGTTAATATTATTATAAAGATTGTATTCCACAGGCCAATATGTTTACCTATAGTGATGAAAAGCATCACTTCTATTAAAGGTATGCCAATAAAAATTAAAAAAAACATGTTTGTTTATTAAAAAAAACAATTACATTATTTTTTCAGTGTACTTTAAAATTTAATTAAAGTATAAGGTAAATTATGAATACATTTTTCACACCTGATTTAATTTTTTTTGTAGTAATTGCTGCATTCTTAATTATTAGACTAAGAAGTGTTCTAGGGAGAAGAACAGGCAATGAAAAAAGACCTAAAGATGTTTTTATGTATCAAGATACTACTTTTGATGATGTTAAATCTAAAAATGTCGATGATAAAAAAACTTCTAATTTAAAAACATTTAAAAATGAAACTAGTAAAAAGAGTTTATCTGGTAATAAAGCTGTAGAAAAAATACGTCTTTATGATAGTACTTTTTCATTAAATAAATTTTTATCAGGTGCAAAAAAAGCTTATGAAATAATTATTAAATCTTATGCTTCCGGTGAAATTAATAAAATAAAGAAATTATTAGAGTCTCAGGTATTTTTAGCTTTTTCAAAAAAAGTTAATTTAAGAAAAAAAAATAAACAAACTTTAGACCATACATTTGTTTCAATTAAAAGTGCAGATATTAAAAAGATCGATTTAAAAGAAAATATTGTTGATATTGTTGTTAAATTTGTCTCAGAACAAGTAAATTTATTGAAGAATAATAAAGGTAAAATTATAGAGGGCAACAATGATTATATTGAAAATCACACTGACTATTGGACTTTTACAAAAGATTTGAAATCTTCAAATCCAAATTGGAAACTTGTTGTAACAAAATCTGAATAATAAAAAAAAAAATAATAAAGATTTTCGTTCTTTATCAAAAGAAGATGAAATTCTTTGGGAACTATTTACTGAAGAAATAAATACAAATTTAAAAGATAAAAAAAAAATTTCCGAGAATTTGAAAATTAATAATAAATTTAAAGAATCTAAAAAATTAAAATTAGGTGAAGGCGTTGCTTTGAGTAAAAAAAATTTACGGAATTTTAACAAAGGGAATGTTGAAATCGAAGATAAATTAGATCTTCATGGTTATACAGAAATTGAAGCAAAAAAAAAATTAAAAAAATTTATATTTAAATGTATTAATAAAAAAAAAAGATTAGTTTTAGTCATTACTGGTAAAGGATTTCGAGGAGAAGGTGTTATTAAAAATAATATTATTAATTGGTTAAATGAAAACGAATTAAGAAATATGATATTGGCAATTAATTATGCTTCAATGAAACATGGCGGCGAAGGAGCAATATATATTTTTTTAAAAAAAAATTAGATATATAATTTAATTAAAGAATAAATTTACTTAAATCAATATTTTTTGCAAGTTTTCCAACCTCTTCTTTAACTTGTTTAGCTGTAATTTTTATTTTTTTACCTTTATTTTCTGTTGCATTAAAACTTATATTTTCAACTAATTTTTCTAAAACTGTATGAAGTCGTCTAGCACCTATATTTTCAACATTGGAGTTTATTTCAGTTGATAGTTTTGCTATTTCATCAATTGAATCTTTACCAAAATCTAAATCCACTTTTTCTGTTTTTAAAAGAGCTTTATATTGTTTAATTAAGCTATTTTCAGGTTCATTTAAAATTTTTATAAAATCATCTTTTGTTAAAGGATTTAATTCTACTCTTATTGGTAATCTTCCTTGTAATTCAGGAAGTAAATCTGATGGTTTTGATAAATGAAAAGCACCAGAAGCTATAAATAAAATATGATCTGTTTTAATAGTACCATATTTTGTTGATACACTCGTACCTTCTATTATTGGAAGTAGATCTCTTTGAACACCTTCTCTACTTACATCTCCACCAACCCTTTCCGATCTAGCACAAATTTTATCCATTTCATCTAAGAAAACAATTCCATTTTCTTCCACTTCTTTTTTTGCTACAGATATTATTTTTTCTTGATCGATTAATTTATCTGATTCTTCATCCATTAATGGTTTGTAAGCTTTTTTAATTGATATTTTTTTTTTCTTTGTTTTTTGTCCCATACCTTTTCCAAGTAATTCATTTATGTTTA